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Easergy P5

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User Manual. Communication. 02/2021. Version: P5/EN M/33B www.se.com … following special messages may appear throughout this manual or on the.

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User Manual Easergy P5 Communication P5 EN M 33B

Easergy P5
User Manual
Communication 02/2021 Version: P5/EN M/33B
www.se.com

Legal Information
The Schneider Electric brand and any trademarks of Schneider Electric SE and its subsidiaries referred to in this guide are the property of Schneider Electric SE or its subsidiaries. All other brands may be trademarks of their respective owners.
This guide and its content are protected under applicable copyright laws and furnished for informational use only. No part of this guide may be reproduced or transmitted in any form or by any means (electronic, mechanical, photocopying, recording, or otherwise), for any purpose, without the prior written permission of Schneider Electric.
Schneider Electric does not grant any right or license for commercial use of the guide or its content, except for a non-exclusive and personal license to consult it on an "as is" basis. Schneider Electric products and equipment should be installed, operated, serviced, and maintained only by qualified personnel.
As standards, specifications, and designs change from time to time, information contained in this guide may be subject to change without notice.
To the extent permitted by applicable law, no responsibility or liability is assumed by Schneider Electric and its subsidiaries for any errors or omissions in the informational content of this material or consequences arising out of or resulting from the use of the information contained herein.

Table of Contents

P5/EN M/33B

Safety information and password protection ..........................................5 Introduction ..................................................................................................6
Protocols used and data exchanged ............................................................6 Architecture ...............................................................................................7
Serial network architecture ....................................................................7 Ethernet network architectures...............................................................7 Communication ports ................................................................................10 Ethernet communication slot................................................................10 Serial communication slot....................................................................13 Port hardening configuration ................................................................13
Communication protocols ........................................................................15
IEC 61850 communication ........................................................................15 Presentation .......................................................................................15 Capability ...........................................................................................15 Configuration of IEC 61850 communication ..........................................16 Configuration of GOOSE communication ..............................................29 GOOSE performance ..........................................................................32 Conformance statements ....................................................................32
DNP3 ......................................................................................................33 Presentation .......................................................................................33 Function description ............................................................................33 Device profile document ......................................................................36 Implementation table...........................................................................38 Supported function codes ....................................................................40 Configuration parameters ....................................................................42 Data configuration...............................................................................44 Data model of DNP3 ...........................................................................47
IEC 60870-5-101 ......................................................................................49 Presentation .......................................................................................49 IEC 60870-5-101 configuration ............................................................49 Data model of IEC 60870-5-101 ...........................................................56
IEC 60870-5-103 ......................................................................................58 Presentation .......................................................................................58 IEC 60870-5-103 configuration ............................................................59 Data model of IEC 60870-5-103 ...........................................................68
Modbus slave...........................................................................................92 Presentation .......................................................................................92 Function description ............................................................................92 Modbus serial RTU mode configuration ................................................94 Modbus TCP mode configuration .........................................................95 Events ...............................................................................................97 Clock synchronisation ....................................................................... 139 Scaling............................................................................................. 139 Read exception status....................................................................... 141 Read device identification.................................................................. 142 Data model of Modbus ...................................................................... 142 PDM point list of Modbus ................................................................... 187
Modbus master ...................................................................................... 235
3

Function description .......................................................................... 235 Main configuration parameters........................................................... 235 Modbus master analog inputs ............................................................ 236 Modbus master digital inputs ............................................................. 237 Modbus master digital outputs ........................................................... 237 Measurements.................................................................................. 238 Modbus master names configuration .................................................. 239 EtherNet/IP ............................................................................................ 241 Presentation ..................................................................................... 241 Function description .......................................................................... 243 EtherNet/IP main configuration .......................................................... 247 Data point configuration..................................................................... 249 Generating an EDS File with eSetup Easergy Pro ............................... 250 Data model of EtherNet/IP ................................................................. 250 Redundancy protocols ............................................................................ 279 Parallel Redundancy Protocol (PRP) .................................................. 279 High-availability Seamless Redundancy (HSR) ................................... 282 Rapid Spanning Tree Protocol (RSTP) ............................................... 285 Generic functions for all redundant Ethernet modules .......................... 286 Precision Time Protocol (PTP) ................................................................. 287 Introduction to the PTP standards ...................................................... 287 PTP implementation.......................................................................... 287 Simple Network Time Protocol (SNTP) ..................................................... 288 Communication SCADA.......................................................................... 289 Presentation ..................................................................................... 289 Communication SCADA configuration ................................................ 289
Client IP address filter ............................................................................ 290
Scope .................................................................................................... 290 Rules..................................................................................................... 290 Configuration parameters........................................................................ 291 Process ................................................................................................. 292
Secure communication with the eSetup Easergy Pro via the Ethernet interface.................................................................................... 293 Revision history ....................................................................................... 294 Appendix 1: Abbreviation....................................................................... 295 Appendix 2: IEC 61850 Edition 1 conformance statement ............... 297 Appendix 3: IEC 61850 Edition 2 conformance statement ............... 354

4

P5/EN M/33B

Safety information and password protection
Safety information and password protection
Important information
Read these instructions carefully and look at the equipment to become familiar with the device before trying to install, operate, service or maintain it. The following special messages may appear throughout this manual or on the equipment to warn of potential hazards or to call attention to information that clarifies or simplifies a procedure.
The addition of this symbol to a "Danger" or "Warning" safety label indicates that an electrical hazard exists which will result in death or serious injury if the instructions are not followed.
This is the safety alert symbol. It is used to alert you to potential personal injury hazards. Obey all safety messages that follow this symbol to avoid possible injury or death.
DANGER
DANGER indicates an imminently hazardous situation which, if not avoided, will result in death or serious injury. Failure to follow these instructions will result in death or serious injury.
WARNING
WARNING indicates a potentially hazardous situation which, if not avoided, can result in death or serious injury. Failure to follow these instructions can result in death, serious injury, or equipment damage.
CAUTION
CAUTION indicates a potentially hazardous situation which, if not avoided, can result in minor or moderate injury, or equipment damage. Failure to follow these instructions can result in injury or equipment damage.
NOTICE
NOTICE is used to address practices not related to physical injury. Failure to follow these instructions can result in equipment damage.

P5/EN M/33B

5

Introduction

Introduction

Protocols used and data exchanged

The Easergy P5 protection relays have been designed for easy data exchange and integration in any system architecture with serial links (daisy chain) or Ethernet.
The protocols used for exchange of data on the Easergy P5 protection relay are as follows:
· IEC 61850 · DNP3 · IEC 60870-5-101 · IEC 60870-5-103 · EtherNet/IP · Modbus slave · Modbus master The data types that can be exchanged through these protocols are listed:

Port Protocol
Real time data Measurement Alarms and status Controls Time-stamped events Logged data Disturbance records Sequence of event record files Device management Setting group change Settings

Ethernet IEC 61850 EtherNet/IP sFTP

DNP3 Modbus slave

GetSet

































































Port Protocol
Real time data Measurement Alarms and status Controls Time-stamped events Logged data Disturbance records Sequence of event record files Device management Setting group change Settings

Serial DNP3

Modbus slave

Modbus master

IEC

IEC

60870­5­103 60870­5­101

























































6

P5/EN M/33B

Introduction
Architecture
Serial network architecture
This architecture allows the connection of HMI/SCADA to a set of Easergy P5 protection relays using a multi-drop serial communication link with master-slave communication.
SCADA

Serial link

Termination module

F0198

Ethernet network architectures
This architecture allows the connection of a set of Easergy P5 protection relays directly on an Ethernet network.
NOTE: It is possible to mix any three of four Ethernet protocols, including the IEC 61850 protocol, on the same Ethernet network. This allows to use the Generic Object Oriented Substation Event (GOOSE) messages between relays together with another protocol for communication to Supervisory Control and Data Acquisition (SCADA).
It is also possible to connect Easergy P5 protection relays to more than one control system, using the same Ethernet communication port with one of the chosen protocols.
Easergy P5 protection relays handle the IEC 61850 station bus, in compliance with standards IEC 61850-6, 7-1, 7-2, 7-3, 7-4 and 8-1 Edition 1 or Edition 2, according to configuration.
Other supported protocols: · Secured File Transfer Protocol (sFTP) for file transfer · Simple Network Management Protocol (SNMP) for network management · Simple Network Time Protocol (SNTP) for time synchronisation · Secured Hypertext Transfer Protocol (HTTPS) for Web HMI · GetSet, which is an ASCII protocol used by eSetup Easergy Pro, which is secured by TLS
SCADA

Ethernet switch

Ethernet switch

Ethernet switch

P5/EN M/33B

F0199
7

Introduction
Connections
The Easergy P5 protection relays can be connected to an Ethernet switch using: · 10/100BASE-T copper wire (radial connection). · 100BASE-FX multi-mode fibre optic (radial or ring connection).
To optimise system performance, Schneider Electric recommends: · to build a fault-tolerant communications backbone by implementing a fibre optic ring · to use IEC 61850 compatible managed switches · to use VLANs for prioritised messages · to configure meaningful destination MAC address and APPID to enable network filtering · to minimise the content of GOOSE datasets
Parallel Redundancy Protocol (PRP)
The principle of Parallel Redundancy Protocol (PRP) is to transmit frames in parallel on two independent network infrastructures: A and B. The receiving device is in charge of discarding the second (redundant) frame once it is received. PRP provides a 0 ms recovery time in case of a communication failure, but this quality is achieved at the cost of a double communication network.
SCADA

Network A

Network B

F0200
High-availability Seamless Redundancy (HSR)
High-availability Seamless Redundancy (HSR) is typically used in ring architectures. Frames are transmitted on the ring on both directions and the receiving device discards the redundant frames. HSR provides a 0 ms recovery time and is a cheaper alternative compared to PRP.

8

P5/EN M/33B

Introduction

SCCAADDAA

F0201
Rapid Spanning Tree Protocol (RSTP)
The principle of Rapid Spanning Tree Protocol (RSTP) is to virtually switch off all links that are not necessary at a given time, changing the meshed topology into a tree topology. The main advantage of RSTP is that it is widespread, and works on any network topology. On the other hand, RSTP may take a considerable time to reconfigure the network in case of a network failure, which may exceed the requirements of automations.
SCADA

Ethernet switch

Ethernet switch

Ethernet switch

Ethernet switch

F0415

P5/EN M/33B

9

Communication ports

Introduction

Ethernet communication slot

The Ethernet communication slot can accommodate one of the following options:
· Dual port copper (RJ45) Ethernet module with RSTP redundancy management.
· Dual port fibre optic (multimode glass fibre) Ethernet module with RSTP redundancy management.
· Dual port fibre optic (multimode glass fibre) Ethernet module with PRP/HSR advanced redundancy management (this option is a double width module which spans over the serial slot space and is therefore not compatible with the use of a serial communication module).

Communication module
1 Ethernet module (Slot M)
1 Ethernet module (Slot L)
2 Ethernet modules (Slot M, Slot L)
1 PRP/HSR module (Slot M and N)
1 PRP/HSR module, 1 Ethernet module (Slot M and N, Slot L)

IP selection RSTP = 1 IP1 IP3 IP1, IP3 IP1 IP1, IP3

RSTP = 0 IP1, IP2
IP1, IP2, IP3

Each IP address includes network number and host number. For example, when IP = 192.168.1.21, the network number is 192.168.1 and the host number is 21. The network number of IP1, IP2 and IP3 shall not be the same for Easergy P5 communication configuration. For example, IP1 = 192.168.1.21, IP2 = 192.168.2.31 and IP3 = 192.168.10.31 are workable, while IP1 = 192.168.1.21 and IP2 = 192.168.1.31 are incorrect.

Ethernet port configuration
The parameters for the port can be set from the front panel, from the COMMUNICATION menu of eSetup Easergy Pro, or from the Web HMI. Up to 3 different protocols can be used simultaneously, using the same IP address and MAC address but different IP port numbers.

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P5/EN M/33B

Introduction

Table 1 - Ethernet protocol 1 configuration parameters

Parameter

Value

Ethernet port protocol None

ModBusTcps

DNP3

IEC-61850

EtherNet/IP

IP port for protocol 1

Set protocol default IP port

­ Default

IP address selection IP1 IP2 IP3

Description Select the protocol of the Ethernet port
Set the IP port number of the protocol 1 Select the default IP port number: 502 for ModBus Tcps 20000 for DNP3 102 for IEC 61850 44818 for EtherNet/IP Choose the Ethernet module to be used 1

Note Set
Set Set
Set

Set = an editable parameter (password needed)

1. IP1/IP2 means to select the Ethernet module to be used on Slot M; IP3 means to select the Ethernet module to be used on Slot L. If Slot M is used as RSTP mode or PRP/HSR module is selected, then IP2 is invisible.

P5/EN M/33B

11

Introduction

Table 2 - Ethernet port configuration parameters

Parameter MAC address Enable DHCP service

Value Yes / No

IP Address Network mask Gateway Ethernet port 1 status
Ethernet port 2 status
Enable HTTPS server

n.n.n.n n.n.n.n n.n.n.n Link on / Link off Link on / Link off Yes / No

IP address selection
NTP server NTP server (Backup)

IP1 IP2 IP3 n.n.n.n n.n.n.n

IP address selection
TCP keep alive interval

IP1 IP2 IP3 0 - 20 s

Description
Display the MAC address
If enabled, the IP address of the device is defined by the DHCP server of the network.
NOTE: DHCP service can only support IP3 configured with ModBusTCPs.
IP address Network mask Gateway IP address
Display the link status of Ethernet Port 1

Note
Set
Set2 Set2 Set2

Display the link status of Ethernet Port 2

If this option is enabled, HTTP server can be Set used

Choose the Ethernet module to be used 3

Set

Network time protocol server

Set

Network time protocol server to be used if

Set

NTP server does not respond

Choose the Ethernet module to be used 3

Set

TCP keepalive interval in seconds

Set4

If Ethernet module with PRP/HSR is selected, then additional parameters are shown.

2. Cannot be set when DHCP service is enabled. 3. IP1/IP2 means to select the Ethernet module to be used on Slot M; IP3 means to select the Ethernet module to be used on Slot L. If Slot
M is used as RSTP mode or PRP/HSR module is selected, then IP2 is invisible. 4. Keepalive: The Keepalive parameter sets the time in seconds between two keepalive packets which are sent from the IED. The setting
range for this parameter is between zero (0) and 20 seconds; with the exception that zero (0) means actually 120 seconds (2 minutes). The purpose of a keep alive's packet is to send a probe packet to a connected client for checking the status of the TCP-connection when no other packet is being sent, e.g. the client does not poll data from the IED. If the keepalive packet is not acknowledged, then the IED will close the TCP connection. The Connection must be restarted from the client side.

12

P5/EN M/33B

Introduction

Table 3 - Additional Ethernet port configuration parameters for channel redundancy

Parameter FPGA version

Value

Get mode Mode Switch

PRP / HSR

Description
Display the Field Programmable Gate Array (FPGA) version of the Ethernet module
Display the used protocol
Switch the protocol to be used

Note Set

Serial communication slot
The Serial communication slot can accommodate one of the following options: · RS-485 (two and four wires) serial communication module, with RJ45 connection · Fibre optic serial communication module
Serial port configuration
The parameters for the remote port can be set from the front panel or via protocol, using COMMUNICATION menu of eSetup Easergy Pro or Web HMI. Only one serial port can be used and one serial communication protocol can be selected.

Table 4 - Serial port configuration parameters

Parameter Remote port protocol

Value
None ModBusSlv IEC-103 MdbsMstr DNP3 IEC-101

Description Select the protocol of the serial port

Note Set

Port hardening configuration
It is possible to disable a communication port ­ either via the front panel or via protocol, using COMMUNICATION menu of eSetup Easergy Pro or Web HMI with the correct access rights. This allows the user to take control of the physical ports limiting the exposure of ports to only those that are needed.

P5/EN M/33B

13

Introduction Figure 1 - Port hardening configuration parameters (depending on the communication modules used)
If the ports or the protocols on Ethernet module are disabled or enabled, then a reboot is needed.

14

P5/EN M/33B

Communication protocols
Communication protocols
NOTICE
CYBER SECURITY HAZARD
· Except for the private GetSet protocol via secured communication (SSH), the device does not have the capability to transmit data encrypted using the following protocols: IEC 61850, DNP3 over Ethernet, Modbus slave over Ethernet, EtherNet/IP, Modbus slave serial, Modbus master serial, DNP3 serial, IEC 60870-5-103 serial, IEC 60870-5-101 serial, IEEE 1588 and SNTP.
· If other users gained access to your network, transmitted information can be disclosed or be subject to tampering.
· For transmitting data over an internal network, physically or logically segment the network. The access to the internal network needs to be restricted by using standard controls, such as firewalls, and other relevant features supported by your device, such as IPTable whitelisting.
· For transmitting data over an external network, encrypt protocol transmissions over all external connections using an encrypted tunnel, TLS wrapper or a similar solution.
Failure to follow these instructions can increase the risk of unauthorised access.

IEC 61850 communication

Presentation

IEC 61850 is a series of standards for communication networks and systems of power utility automation. Easergy P5 protection relays, used as a server, can be connected to an IEC 61850 station bus according to Edition 1 and Edition 2 of:
· IEC 61850-6
· IEC 61850-7-1 to 7-4
· IEC 61850-8-1
Based on the Ethernet protocol, the IEC 61850 communication standard helps to ensure:
· High communication speeds and versatile communication architectures
· Interoperability between manufacturers

Capability

Easergy P5 protection relays provide a built-in solution for demanding IEC 61850 applications:
· IEC 61850 logical nodes and configurable data sets to fit the needs of the Edge control system/SCADA system
· Peer-to-peer communication capabilities on Easergy P5 protection relays using GOOSE messages to enhance the protection and control system without the need of additional wiring
· Up to 8 simultaneous IEC 61850 client-server associations
The IEC 61850 protocol can be used to read/write static data from/to the Easergy P5 protection relays, to receive events, to send controls, and to receive/send GOOSE messages to other relays.
The IEC 61850 server interface is capable of:
· Configurable pre-defined data sets

P5/EN M/33B

15

Communication protocols
· Dynamic data sets created by clients, which can be assigned to Buffered and Unbuffered Report Control Blocks
· Reporting function with Buffered and Unbuffered Report Control Blocks · Supported control models:
 Status-only  Direct control with normal security  Direct control with enhanced security  Select before operate with normal security  Select before operate with enhanced security · Supported horizontal communication with GOOSE  Configurable GOOSE publisher data sets  Configurable filters for GOOSE subscriber inputs (i.e. MAC Address,
APPID....) · Sending and receiving analogue or binary values over GOOSE · Setting modification
 Editing a setting value in the setting group  Changing the active setting group
Setting groups are selectable using the Setting Group Control Block class, (SGCB). The Active Setting Group can be selected using the Relay/LLN0. SP.SGCB.ActSG data attribute in Logical Device `Relay'. · File transfer  Extracting disturbance records from Easergy P5 relays by file transfer, as ASCII format COMTRADE files  All disturbance record files are accessible from the folder /COMTRADE/ DR.  Deleting files in the /COMTRADE/DR folder is not supported.
Configuration of IEC 61850 communication
Configuration tools
The Easergy P5 protection relays IEC 61850 solution can be configured with: · eSetup Easergy Pro used as a setting and operating software to help ensure straightforward configuration and to send IEC 61850 configuration to Easergy P5 protection relays · CET850 software used as a configuration tool to adapt the communication profile of Easergy P5 protection relays to the precise needs of the system
Configuration files
The IEC 61850 configuration process uses and generates several types of System Configuration description Language (SCL) files; a selection is introduced here:
· ICD - IED (Intelligent Electronic Device) Capability Description An ICD file exists for each type of Easergy P5 protection relay. It describes the data model and communication services available in the referred-to Easergy P5 device model. ICD files are provided in a library together with the CET850 configuration tool, and are used as template models in the configuration process. The ICD files can be obtained from the ICD folder under eSetup EasergyPro or generated by the "Export ICD/SCL file" command by eSetup EasergyPro.
· IID - Instantiated IED Description The IID file describes the project-specific configuration of a single IED in a system.

16

P5/EN M/33B

Communication protocols

It is used as an exchange file between the CET850 configuration tool and other IEC 61850 system configuration tools to exchange the configuration data of a single IED instantiated specifically for a project.
· CID - Configured IED Description
For every configured Easergy P5 protection relays there is a CID file which describes the IEC 61850 configuration of the device.
A CID file is created by the IED configuration tools. The CID file is then loaded into the device to configure it.
· SCD - System Configuration Description
An SCD file contains the configuration data for the IEC 61850 system including the communication configuration settings for all related IEC 61850 devices.
eSetup Easergy Pro for IEC 61850 configuration
The Easergy P5 protection relays setting and operating software, eSetup Easergy Pro, is used to create and to send IEC 61850 configuration to the Easergy P5 protection relay.
eSetup Easergy Pro is used to:
1. Get the information from Easergy P5 protection relays connected to the IEC 61850 network. This can be done automatically by the eSetup Easergy Pro polling the network to find connected devices (with IP address and port number).
2. Import a CID file to the Easergy P5 relay through eSetup Easergy Pro (see eSetup Easergy Pro user manual).
NOTE: The CID file name shall not include any whitespace or non-latin characters.

21 2

IEC 61850 main configuration
The IEC 61850 protocol is activated by setting it as the port protocol for an Ethernet port on the device. This setting can be found by navigating to the COMMUNICATION menu.

P5/EN M/33B

17

Communication protocols

Table 5 - IEC 61850 main configuration parameters

Parameter Edition Control model
Size of array Active connections Client x

Description
IEC 61850 standard edition to be used (1 or 2), Edition 2 is the default.
Selects the control model to be used with the controllable Objects.
· Status-only (StatusOnly) · Direct control with normal security (DirNorSec) · Select before operate with normal security (SBONorSec) · Direct control with enhanced security (DirEnhSec) · Select before operate with enhanced security
(SBOEnhSec)
Number of elements in the arrays used to transfer the harmonics.
The number of active connections.
The IP addresses of the clients.

Note Set Set
Set

IEC 61850 measurement configuration
The IEC 61850 measurement configuration of deadband values (primary values) and unit multiplier settings can be found by navigating to the COMMUNICATION menu and IEC 61850 measurement configuration view in the eSetup Easergy Pro or Web HMI.

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Communication protocols

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Communication protocols

The table below shows the configuration parameters which can be defined for each individual measurement:
Table 6 - IEC 61850 measurement configuration parameters

Parameter 5
Energy ... Virtual A18
Integration time
Unit multiplier

Description Deadband of the measurements
Deadband integration time Set the unit multiplier of deadband values

Note Set
Set Set

There are two variants of the deadband calculation: absolute deadband and integrated deadband. When absolute deadband is selected, set the integration time to zero.
NOTE: Setting the values too low may result in unnecessary traffic or nuisance.
When integrated deadband is selected, the formula to check whether the value is changed is decided by the calculation method as follows:
abs (value2 ­ value1) × (t2 ­ t1) > Dead band value × Integration time
Here value2 means the current value, value1 means the last report value; t2 means the current time, t1 means the time of the last report value changed. The unit for t2, t1 and Integration time are all milliseconds.
A short example: If the Current I deadband value is set to 5 A, and the Integration time set to 0 (absolute deadband), the change condition will be satisfied when the value changes by more than 5 A from the previously reported value. If, on the other hand, the Integration time is set to 1, the change condition will be satisfied for instance, if the signal value changes by more than 5 A from the previously reported value and remains as such for one second.
In case there are several changes during the time period set (report buffer time > 0), the integration time is not considered and the analogue value of the pending previous event is overwritten. The behavior can be found in the "PIXIT Details" section in the Conformance Statement documents appended to the end of this manual. Mechanism on second internal data change notification of the same analogue data value within buffer period (see IEC 61850-7-2 Ed.1 §14.2.2.9 and IEC 61850-7-2 Ed.2 §17.2.2.9 respectively): Replace analogue value in pending report.

IEC 61850 generic events
Regardless from the modelling of information in IEC 61850-7-4, generic events can be configured via navigating to the COMMUNICATION menu and IEC 61850 generic events view in the eSetup Easergy Pro or Web HMI. This provides means to map any events (i.e. protection trip, digital input change, port hardening change, ...) of the relay to maximum 8 indication data objects of the P5EVTGGIO1 logical node of the IEC 61850 interface. The status of the indication data object is determined by ON and OFF events set for the corresponding index.

5. These parameters can be set for each type of measurement. 20

P5/EN M/33B

Communication protocols

Table 7 - IEC 61850 generic events

Parameter Ind idx ON event channel ON event code OFF event channel OFF event code

Description Index of the LN P5EVTGGIO1 indication Channel number of the ON event Event code of state ON Channel number of the OFF event Event code of state OFF

Note
Set Set Set Set

The above screenshot features an example, where the status of Virtual Input 1 (event channel 69) is mapped to the generic events table. If the value of Virtual Input 1 is changed, then the value stored in the IEC 61850 address P5EVTGGIO1.Ind1.stVal indicates the current value of the Virtual Input 1. If only an "ON event" is defined for an indication then the transition to OFF state is generated automatically after reporting the ON state (momentary ON state). And the same applies if only an "OFF event" is defined for an indication (momentary OFF state).

GOOSE configuration
The publisher configuration GoCB 1-4 and subscriber configuration can be found by navigating to the COMMUNICATION menu and GOOSE configuration view in eSetup Easergy Pro or Web HMI.

P5/EN M/33B

Table 8 - GOOSE configuration parameters

Parameter

Description

Publisher configuration GCB x

Enable

Enable/disable the publishing of data defined by GCB x.

Name of selected dataset
Needs commissioning

Display the name of the dataset associated to the GCB x.
A flag which can be used to indicate that some change has been done in the configuration and a new commissioning is needed.

Note
Set Set Set

21

Communication protocols

Table 8 - GOOSE configuration parameters (Continued)

Parameter

Description

Fixed length GOOSE

Disable/enable sending the GOOSE messages in flexible or fixed format (fixed length is a feature defined by Edition 2).

Subscriber configuration

Min supervision time

Minimum timeout for indicating invalid status of GOOSE network inputs due to no incoming GOOSE messages (exceeded supervision time or time allowed to live from the last GOOSE message, whichever is greater).

Note Set
Set

GOOSE subscriber: data points
The GOOSE subscriber 128 binary data and 8 analog data can be monitored by navigating to the COMMUNICATION menu and GOOSE Subscriber: data points view in eSetup Easergy Pro or Web HMI.

Table 9 - GOOSE subscriber: data points

Parameter GOOSE NI Global Error Network input
Value Status VAI Unit

Description
Global error status of the GOOSE subscription
Index of the GOOSE data points. Input data can be binary or analogue. Binary NIs can be used as inputs for the user-defined logic blocks or as control inputs in the other functions of the relay (e.g. the output matrix).
Data value received in the GOOSE data packet
Status of the GOOSE data (NO DATA / OLD / OK)
Unit of the incoming analogue data

NI = Network Input

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Communication protocols

CET850 for IEC 61850 configuration
IEC 61850 configuration software CET850 is used to create, display, modify or optimise an IEC 61850 configuration.

.cid .iid .icd

1 11

template library
.icd

1
3 2

CET850

5 2 .scd

62

2 4

.icd

.iid

user customised ICD

.cid

eSetup Easergy Pro

P533NXA

CET850 can be used to:
· Create an IEC 61850 configuration using an ICD, SCD, IID or CID file as an input.
· Edit an existing CID, SCD, IID or user-customised ICD file to modify its contents by :
 Adding or removing Easergy P5 protection relays, in case of SCD
 Displaying the configuration
 Modifying communication parameter values
 Optimising configuration by creating or modifying datasets and Report Control Blocks
 Configuring or optimising the GOOSE communication by creating or modifying the GOOSE messages publication and subscription
· Generate a user-customised ICD file using an Easergy P5 protection relays IED template from the factory ICD library.
· Generate a CID file for storing the configuration of one device which can then be uploaded to the Easergy P5 protection relays using eSetup Easergy Pro.
· Generate SCD file for storing the configuration of an IEC 61850 system which can then be used by other IEC 61850 configuration tools.
· Generate an IID file for storing the specific configuration of an instantiated IED which can then be used by other IEC 61850 system configuration tools.

Graphical SCL editor
CET850 is a graphical tool that enables to browse an SCL file using a tree view that displays the content of the file in a hierarchical format.

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Communication protocols

Tree view
The following main sections are displayed in the tree view: · Header and history The Header section identifies the SCL configuration file and its version. · Communication This section contains the definition of all sub-networks defined in the IEC 61850 system, with the list of the connected IEDs. Both Client/Server and peer-to-peer communication access points are displayed. · List of IEDs This section contains the definition of all IEDs defined in the IEC 61850 system. Each IED is displayed with all its contents:  Logical Devices (LD)  Logical Nodes (LN)  Datasets (DS)  Report Control Blocks (RCB)  GOOSE Control Blocks (GoCB)  GOOSE subscription
Property view
When an item is selected in the tree view, the property view displays details of the selected item. The user can activate editing operations from the tool bar and contextual menu. There are also specific dialogue interfaces to guide you.
Device configuration
Adding and removing a device in an IEC 61850 system consists of making the change in the associated SCD file.
Adding an IED
CET850 enables the addition of an IED to an IEC 61850 system using its ICD description file, or the addition of a device already defined by a CID file. A specific dialog interface requests a name for the IED and then its description. The description is provided from an ICD file, a CID file or from an IID file.
Procedure: · Create a new SCL file for a substation system (e.g. My Substation.scd). · From the tree view, select the SCL root element · In the menu bar or in the contextual menu, click Add > IED · Set the IED Identification and optionally the address parameters according to the following descriptions

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· Click OK to validate the operation
IED identification:
· ICD/CID file
Select the IEC 61850 description of the IED to add to an ICD or a CID. The user can select a device from a library or an other device with an external ICD file.
· IED name
Assign a name to the IED. The name of the IED must be unique in the IEC 61850 system. Its length is restricted to a maximum of 64 characters, and consists of alphanumeric and underscore (_) characters, beginning with a letter. It must not inclued a space character.
· IED description
This is a free ASCII string where the user can write comments about the device.
Address:
Address parameters are set to connect to the IED in the communication network. Connecting the IED can be done at this stage or later using the Add > Connected Access Point menu.

Removing an IED
An IED can be removed from an SCD file. This function is available when an IED is selected in the tree view. After confirming that the IED is to be deleted, the tree view and the content of the SCD file are updated.
Connecting a device in IEC 61850
An IEC 61850 IED uses an Access Point (AP) to communicate. This AP is connected to a subnetwork. CET850 provides the following set of functions to manage the communication architecture of an IEC 61850 System:
· Adding or removing a Subnet to the system · Adding or removing an Access Point on a Subnet

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IED configuration
The configuration of an IED described in an ICD, CID or SCD file can be modified so that its communication profile and behaviour are adjusted to the needs of the system. Refer to the CET850 user manual for more information.
Create, modify or delete a dataset
With Easergy P5 protection relays, a dataset is a collection of references to Data Attributes (DA) grouped together to increase communication efficiency for reports and GOOSE messages.
Datasets can be modified by the user and new dataset can be added, depending on the capabilities of the IED.
Any data produced by Easergy P5 protection relays may be referred-to in a dataset to be sent via a GOOSE message. Nevertheless, only data from the following types are applicable for GOOSE communication between Easergy P5 protection relays: Single Point Status (SPS), Double Point Status (DPS), Double Point Control (DPC), Complex Measured Value (CMV), and Measured Value (MV).
CET850 provides an easy way to create or edit a dataset inside LLN0. When creating a dataset, CET850 prompts the user for its name and description. A specific dialog interface allows the user to select which data is to be added to, or removed from the dataset.
The available data that can be selected is displayed in a hierarchical tree with collapse and expand facilities, from their host Logical Node down to the data attributes. Individual and multiple selections are possible.
After completing the definition of the dataset in the dialog interface, the changes to the dataset are reflected in the current SCL file and the CET850 display is updated: A newly created dataset is displayed in the tree view; a deleted dataset is removed from the tree view. The content of the dataset is updated in the property view.

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Modify Report Control Block (RCB)
Easergy P5 protection relays provide up to 16 buffered and 8 unbuffered RCBs inside LLN0.
CET850 provides a specific dialog interface for creating or modifying a Report Control Block. When creating an RCB, CET850 prompts the user for the name and description of the RCB. A specific dialog interface allows the user to select the dataset to be associated with the RCB and to define all settings concerning the report generation.
The most common trigger options for an RCB instance are:
· Data Change : the Report is triggered by changes to the value of the data which are referenced in the dataset
· Quality Change: the Report is triggered by changes to the quality of the data which are referenced in the dataset
· Integrity: the Report is triggered periodically, according to an Integrity period specified

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Modify GOOSE Control Block (GoCB) The GOOSE message service is an efficient real-time communication service for peer-to-peer exchanges between IEDs.
27

Communication protocols
A GOOSE Control Block (GoCB) manages how information referenced in a dataset is transmitted in a GOOSE message. A GoCB can only be created inside the Logical Node 0 (LLN0). The Easergy P5 protection relay provides up to 4 GoCBs.
CET850 provides a specific dialog interface for modifying a GOOSE Control Block. A specific dialog interface allows the user to select the dataset whose referenced information shall be transmitted as a GOOSE message. Then, the user needs to enter the settings for publishing the GOOSE message.
This includes:
· Multicast MAC address to which the GOOSE message is transmitted to
· Time for the first retransmission of the GOOSE message (the fastest retransmission is after 4 ms)
· Maximum retransmission interval (heartbeat cycle time)
After completing the definition of the GoCB in the dialog interface, the changes to the GoCB are reflected in the current SCL file and the CET850 display is updated: A newly created GoCB is displayed in the tree view; a deleted GoCB is removed from the tree view. The GoCB settings are displayed in the property view.

Subscribe to GOOSE messages and assign GOOSE inputs
The capability of the Easergy P5 protection relay to receive GOOSE messages is defined in the ICD file. If GOOSE messages are to be subscribed to, a GOOSE Receive element is defined at the beginning of the IED section, in the tree view displayed by CET850.
Editing the GOOSE Receive element allows the user to: · Select the GOOSE messages and the data to which the IED subscribes · Assign the subscribed data to Easergy P5 protection relays GOOSE inputs
CET850 provides a specific dialog interface to edit the GOOSE Receive. The dialog is organised in two parts:
· GOOSE message and data subscription · GOOSE Inputs assignment Refer to Configuring the subscriber side, page 30 for a detailed description.

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Generating, editing, validating of an SCL file
Generating CID files
When an SCD file is opened in the tool, CET850 can generate the CID file of a specific IED or all the CID files for all IEDs defined in the SCD file.
Generating a CID file is available when an IED is selected from the tree view and if this IED is connected to a subnet. A specific dialog interface box asks the user to enter the location and the name of the output CID file. By default, the name of the CID file is based on the name of the IED.
Generating all CID files is available if the SCD file includes at least one IED that is connected to a subnet. A specific dialog interface box asks the user to enter the location of the output CID files. The name of each CID file is based on the name of the IED.

Editing CID files
CET850 allows the editing of an existing CID file. This CID file is an advanced configuration file generated during a previous use of CET850, or a standard configuration file generated by eSetup Easergy Pro.

Validating SCL files
The validate function includes two kinds of verification:
· Verification of the structure and content of the SCL file
The System Configuration description Language is based on Extensible Markup Language (XML). The structure and the content of an SCL file is fully specified by the IEC 61850 standard using an XML Schema (XSD files). CET850 is delivered with the set of XSD files defined by the IEC 61850 standard. Using the XercesTM parser, CET850 checks the validity of SCL files against the IEC 61850 XML Schema.
· Verification of the consistency of the GOOSE communication.
The following checks are made:
 The dataset defined for a GOOSE messages meets a specific size constraint.
 The data sent by a publishing IED is consistent with the data expected and subscribed by the subscribing IED.
CET850 provides two ways to validate an SCL file:
· Schema validation
· Check XML syntax at file saving
Automatic validation is enabled or disabled using a specific option in the CET850 User Preferences.

Configuration of GOOSE communication
To configure the GOOSE communication, the following software are used:
· CET850 software to configure GOOSE communication in the IEC 61850 system
· eSetup Easergy Pro software to assign GOOSE Inputs to Easergy P5 protection relays control and monitoring functions for the precise needs of the system
Configuring GOOSE communication involves first configuring the publisher that sends the messages and then configuring the subscriber that receives the message. The GOOSE communication configuration is saved in an SCD file.

Configuring the GOOSE publisher side
To configure the GOOSE publisher side, the user needs to:

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Communication protocols
· Create a dataset (refer to IED configuration, page 26. ) · Configure a GOOSE Control Block to define the publishing of the data
referenced in the dataset as a GOOSE message on the communication network Any dataset may be attached to a GOOSE Control Block, provided its size is compatible with the size of one Ethernet frame. When creating a dataset, CET850 calculates the size of the dataset and informs the user if it is GOOSE compatible or not. When creating a GOOSE Control Block, CET850 allows the selection of GOOSE compatible datasets only.
Configuring the subscriber side
Procedure
1. Select from the published GOOSE messages which Data Attributes (DAs)/ Data Objects (DOs) the device shall subscribe to.
2. Assign subscribed DAs/DOs to GOOSE network inputs. The Easergy P5 protection relay provides 128 digital GOOSE inputs and 8 analogue GOOSE inputs that can be used by control logic functions.

Assignment table
The subscribed DAs are assigned to Easergy P5 protection relays GOOSE network inputs in an assignment table. The assignment table gives in rows the list of all the subscribed DAs and in columns the list of the Easergy P5 protection relays GOOSE network inputs to which the DAs can be assigned/de-assigned. Assignment/de-assignment is done by selecting the appropriate cells in the table. Several DAs can be assigned to the same GOOSE network input. In this case, Easergy P5 protection relays apply a wired-OR logic operation to these DAs.
The below figure shows the assignment of subscribed DAs to Easergy P5 protection relays GOOSE digital network inputs.

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The below figure shows the assignment of subscribed DAs to Easergy P5 protection relays GOOSE analog inputs.

GOOSE matrix
All Easergy P5 protection relays GOOSE network inputs NI 1-128 can be mapped to NI or Vitual inputs VI 1-20 in COMMUNICATION menu and GOOSE matrix view in eSetup Easergy Pro or Web HMI.
Using the GOOSE matrix the user is able to map the GOOSE network inputs to Virtual inputs which can be processed by the relay applications. The same network input can be mapped to more than one Virtual input and it is also possible to map more than one GOOSE network input to the same Virtual input. Easergy Pro P5 protection relays apply a wired-OR logic operation on these mappings.

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Communication protocols

GOOSE performance
According to IEC 61850-5 and IEC 61850-10 Edition 2, the GOOSE performance of Easergy P5 protection relays is compliant with Class P2 (< 10 ms). For more information, visit www.se.com.
Conformance statements
This manual includes, in its appendix, two conformance statement documents that describe the conformity to IEC 61850 edition 1 and IEC 61850 edition 2. They do not describe the standard itself, but indicate the choices that have been made when implementing the standard in the Easergy P5 protection relay, in terms of services, modeling, exceptions, extensions and adaptations.
The conformance statement documents are: · Conformance Statement with IEC 61850 Edition 1 (Appendix 2) · Conformance Statement with IEC 61850 Edition 2 (Appendix 3)
Each conformance statement document is made up of the following chapters: · Protocol Implementation Conformance Statement (PICS): Describes choices made in protocol implementation. · Model Implementation Conformance Statement (MICS): Describes how the information model is implemented. · Protocol Implementation Extra Information for Testing (PIXIT): Gives any additional implementation specific information not found in the previous standardised documents. Despite the name, this information is useful for operation of the devices. · Tissues Conformance Statement (TICS): Describes which Technical Issues (TISSUES) are considered in the device implementation.

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DNP3

Presentation

DNP3 communication enables Easergy P5 protection relay units to be connected to a supervisor or other device featuring a DNP3 communication channel.
Communication is based on the master/slave principle: · Easergy P5 protection relay is always a slave device. · The master is the supervisor, which is another device.
The DNP3 protocol specifies the coding of data and the rules for exchanging this data between a slave device and a master device (supervision and control device or RTU). DNP3 is an open (non-proprietary) protocol, which can be implemented by any communicating device without any restrictions.
The DNP3 protocol was developed from the basic standards prepared by IEC Technical Committee 57 (Power systems management and associated communications).
DNP3 was chosen by IEEE Task Force C.2 as the IEEE Recommendation for communication between RTUs and IEDs.
For more information on the Intelligent Electronic Device protocol can be obtained from the DNP3 User Group (www.dnp.org).
The following data types from the DNP3 protocol are supported: · Binary input · Binary input change · Double-bit input · Binary output · Analog input · Counter
Easergy P5 protection relays also support the division of data into classes.

Function description

Transmission mode
Easergy P5 protection relays can communicate using DNP, in two transmission modes:
· Serial port mode · TCP/IP mode The maximum number of clients for DNP3 is 8. The client and master can be connected by either: · a serial port connection · a TCP connection via an Ethernet port The Easergy P5 protection relays can be configured to support the serial port mode and TCP/IP mode together at the same time and work at maximum 3 IP addresses.

Status polling
Easergy P5 protection relays allow the polling of current status values on master request with class 0.
The contents of binary input for polling, group number and variation number are configurable.
The function code for polling is 1 [READ].

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Status reporting
Easergy P5 protection relays allow the reporting of data change events which are derived from:
· Polled value status change · Control command status change The status to be reported is configurable. The event class can be configured as class 1, class 2 or class 3. Status report entries are stored in a circular buffer with access provided to the most recent ones. It is possible for a master to query the availability of status reports, in order that the master can determine whether it is necessary to read the available status reports from the slave. Easergy P5 protection relays may be configured to support unsolicited responses.
Measurement polling
Easergy P5 protection relays support the polling of static measurement values on master request with class 0. The list of measurement values for polling, group number and variation number are configurable. The function code for polling is 1[READ]. The data type of each measurement value is configurable.
Measurement event polling (Reporting)
Easergy P5 protection relays support the polling of measurements event values on master request. The list of measurement event values for polling is configurable. The function code for polling is 1[READ]. The data type of each measurement event value is configurable. The deadband values for managing measurement events reported by Easergy P5 protection relays are configurable.
Remote control
Easergy P5 protection relays support both remote control command requests and polling command status requests from a master. Remote control command requests can be used with data types: binary output. The remote control commands supported are listed below:
· Select · Operate · Direct operate · Direct operate with no ACK Both DC (Direct Control) and SBO (Select Before Operate) control models are supported. The DNP3 checks whether the point to be controlled has been configured only. DNP3 doesn't check whether the value is correct or not. Easergy P5 protections relays implement an SBO timeout of 60s. Easergy P5 protection relays send response frame to client according to the real control command response.

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Counter management
Easergy P5 protection relays support the polling of counter values on master request.
The list of the counter values for polling is configurable.
The function code for polling is 1[READ].
General interrogation
The general interrogation functions for Easergy P5 protection relays mean to poll class 0 data for DNP3 master. When Easergy P5 protection relays receive the general interrogation command from DNP3 master, the Easergy P5 protection relays report all the point's static data values (except for the point's class is not assigned to one of the four classes) in one frame or multi-frame. Generally, the group number 60 and variation number 1 is used for general interrogation for all profiles.
Time synchronisation
The time of Easergy P5 protection relays corresponds to Universal Coordinated Time (UTC).
Easergy P5 protection relays support time synchronisation command requests and the polling of current date and time information from a DNP3 master.
It's possible for master to verify the correctness of system time.
The function code for actioning the time synchronisation command is 2 [WRITE].
The function code for polling the current date and time information is 1 [READ].
The time synchronisation procedure for TCP and serial is different.
Easergy P5 protection relays do not retry time synchronisation messages at either the Application or Data Link layers for these application layer function codes.
· DELAY_MEASURE request from master and corresponding response (RESPONSE function code) from outstation
· WRITE requests from master with an Absolute Time object, group 50, variation 1
· WRITE requests from master with a Last Recorded Time object, group 50, variation 3
When Easergy P5 protection relays detect that the time synchronisation request has not been received within the configured timeout, the IIN1.4 [NEED_TIME] bit is set in the response message. The master must send the time synchronisation request after receiving a response with this bit set.
Application identifier
The application identifier uses the function code 16[INITIALIZE_APPL], 17 [START_APPL], 18[STOP_APPL]. When Easergy P5 protection relays receive a request related with application identifier, nothing internally is performed.
Cold restart and warm restart
When an Easergy P5 relay receives a cold or warm restart request, it immediately triggers the cold/warm restart sequence. A response frame containing the Delay Time DNP3 object, with a value of 10 seconds is generated. The response indicates the time when the relay will be available again. Hence during this period the Easergy P5 relay does not respond to requests from the DNP3 client.

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Communication protocols
IED file extraction
The Easergy P5 protection relay supports IED file extraction, which can be used to transfer the disturbance record file to clients. The file operations of the Easergy P5 protection relay include:
· Open file · Close file · Get file/folder information · Read file · Abort file File authentication is not supported. The Easergy P5 can only have one file open at a time. The file operations above can act on the folder '/COMTRADE' and all its subfolders.
Device profile document

DNP 3.0
Device Profile Document

Vendor Name: Schneider Electric Device Name: Easergy P5 Protection Relay
Highest DNP Level Supported: For Requests: Level 2 For Responses: Level 2

Device Function: Master
 Slave

Notable objects, functions, and/or qualifiers supported in addition to the Highest DNP Levels Supported (the complete list is described in the DNP Implementation table):

Maximum Data Link Frame Size (octets): Transmitted: 292 Received: 292

Maximum Application Fragment Size (octets): Transmitted: 2048 Received: 2048

Maximum Data Link Re-tries:
None Fixed  Configurable from 0 to 255

Maximum Application Layer Re-tries:
None  Configurable

Requires Data Link Layer Confirmation:
Never Always Sometimes  Configurable with confirmation type selector, default NO ACK

Requires Application Layer Confirmation:
Never Always Sometimes  When reporting Event Data (Slave devices only)  When sending multi-fragment responses (Slave devices only) Sometimes  Configurable as: "Only when reporting event data", or "When reporting event data or multi-fragment messages."

Timeouts while waiting for:
Data Link Confirm: Complete Appl. Fragment: Application Confirm: Complete Appl. Response:

None  None
None  None

Fixed at Fixed at Fixed at Fixed at

Variable Variable Variable Variable

 Configurable Configurable
 Configurable Configurable

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DNP 3.0

Device Profile Document Vendor Name: Schneider Electric Device Name: Easergy P5 Protection Relay

Sends/Executes Control Operations:
WRITE Binary Outputs SELECT/OPERATE DIRECT OPERATE DIRECT OPERATE ­ NO ACK

 Never Never Never Never

Count > 1 Pulse On Pulse Off Latch On Latch Off

 Never Never Never Never Never

Queue Clear Queue

 Never  Never

Reports Binary Input Change Events when no specific variation requested:
Never Only time-tagged Only non-time-tagged  Configurable to send one or the other

Sends Unsolicited Responses:
Never  Configuration
Only certain Objects Sometimes  ENABLE/DISABLE UNSOLICITED Function codes supported

Default Counter Object/Variation:
No Counters Reported Configurable  Default Object: 20  Default Variation : 1 Point-by-point list attached

Sends Multi-Fragment Responses:  Yes
No Configuration
Sequential File Transfer Support:
Append File Mode Custom Status Code Strings Permissions Field File Events Assigned to Class File Events Send Immediately Multiple Blocks in a Fragment Max Number of Files Open

Yes Yes  Yes Yes  Yes Yes 1

Always  Always  Always  Always

Sometimes Sometimes Sometimes Sometimes

Configurable Configurable Configurable Configurable

Always  Always  Always  Always  Always

Sometimes Sometimes Sometimes Sometimes Sometimes

Configurable Configurable Configurable Configurable Configurable

Never Never

Sometimes Sometimes

Configurable Configurable

Reports time-tagged Binary Input Change Events when no specific variation requested:
Never  Binary Input Change With Time
Binary Input Change With Relative Time Configurable

Sends Static Data in Unsolicited Responses:  Never
When Device Restarts When Status Flags Change

No other options are permitted.
Counters Roll Over at: No Counters Reported Configurable
 16 Bits, but roll-over bits not used 32 Bits Other Value:____ Point-by-point list attached

 No  No
No  No
No  No

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Implementation table

Communication protocols

DNP Object Group and Variation

Group Var Num Num

Description

1

0 Binary Input ­ Any Variation

1

1 Binary Input ­ Packed format

1

2 Binary Input ­ With flags

2

0 Binary Input Event ­ Any Variation

2

1 Binary Input Event ­ Without time

2

2 Binary Input Event ­ With absolute time

3

0 Double-bit Binary Input ­ Any Variation

3

1 Double-bit Binary Input ­ Packed format

3

2 Double-bit Binary Input ­ With flags

4

0 Double-bit Binary Input ­ Any Variation

4

1

Double-bit Binary Input Event ­ Without time

4

2

Double-bit Binary Input Event ­ With absolute time

10

0 Binary Output ­ Any Variation

10

2 Binary Output ­ Output status with flags

12

1

Binary Command ­ Control relay output block (CROB)

20

0 Counter ­ Any Variation

20

1 Counter ­ 32-bit with flag

20

2 Counter ­ 16-bit with flag

20

5 Counter ­ 32-bit without flag

20

6 Counter ­ 16-bit without flag

Request

(Master may issue

Outstation parses)

Function Codes (dec)

Qualifier Codes (hex)

1 (read)

00, 01 (start-stop) 06 (no range, or all)

1 (read)

00, 01 (start-stop) 06 (no range, or all)

1 (read)

00, 01 (start-stop) 06 (no range, or all)

1 (read)

06 (no range, or all) 07, 08 (limited qty)

1 (read)

06 (no range, or all) 07, 08 (limited qty)

1 (read)

06 (no range, or all) 07, 08 (limited qty)

1 (read)

00, 01, 06

Response

(Master parses

Outstation may issue)

Function Codes (dec)

Qualifier Codes (dec)

129 (response) 00, 01, 17,28 129 (response) 00, 01, 17,28

129 (response) 17, 28 (index)
130 (unsol. resp)
129 (response) 17, 28 (index)
130 (unsol. resp)

1 (read)

00, 01, 06

129 (response) 00, 01, 17, 28

1 (read)

00, 01, 06

129 (response) 00, 01, 17, 28

1 (read)
1 (read)
1 (read)
1 (read)
3 (select) 4 (operate) 5 (direct op) 6 (dir. op, no ack) 1 (read) 1 (read) 1 (read) 1 (read) 1 (read)

00, 01, 06 06 (no range, or all) 07, 08 (limited qty) 06 (no range, or all) 07, 08 (limited qty) 00, 01, 06 00, 01, 06
00, 01, 17, 28
00, 01, 06 00, 01, 06 00, 01, 06 00, 01, 06 00, 01, 06

129 (response) 17, 28 (index)
130 (unsol. resp) 129 (response)
17, 28 (index) 130 (unsol. resp)
129 (response) 00, 01, 17, 28
129 (response) 00, 01, 17, 28

129 (response) 129 (response) 129 (response) 129 (response)

00, 01, 17, 28 00, 01, 17, 28 00, 01, 17, 28 00, 01, 17, 28

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DNP Object Group and Variation

Group Var Num Num

Description

30

0 Analog Input ­ Any Variation

30

1 Analog Input ­ 32-bit with flag

30

2 Analog Input ­ 16-bit with flag

30

3 Analog Input ­ 32-bit without flag

30

4 Analog Input ­ 16-bit without flag

30

5 Analog Input ­ Short float

32

0 Analog Input Event ­ Any Variation

32

1 Analog Input Event ­ 32-bit without time

32

2 Analog Input Event ­ 16-bit without time

32

3 Analog Input Event ­ 32-bit with time

32

4 Analog Input Event ­ 16-bit with time

32

5 Short Float Ana. Change Ev. without Time

50

0 Time and Date

50

1 Time and Date ­ Absolute time

52

2 Time Delay ­ Fine

60

0 Class Objects ­ Class 0, 1, 2, 3

60

1 Class Objects ­ Class 0 data

60

2 Class Objects ­ Class 1 data

60

3 Class Objects ­ Class 2 data

60

4 Class Objects ­ Class 3 data

70

3 File Command Object -initiate Open

or Delete operations

70

4 File Command Status Objectt

70

5 File Transport Object

70

6 File Transport Status Object

70

7 File Description Object

80

1 Internal Indications ­ Packed format

90

1 Application Identifier

No Object (function code only)

No Object (function code only)

Request

(Master may issue

Outstation parses)

Function Codes (dec)

Qualifier Codes (hex)

1 (read)

06 (no range,or all)

1 (read)

00, 01, 06

1 (read)

00, 01, 06

1 (read)

00, 01, 06

1 (read)

00, 01, 06

1 (read)

00, 01, 06

1 (read)

06 (no range, or all) 07, 08 (limited qty)

1 (read)

06 (no range, or all) 07, 08 (limited qty)

1 (read)

06 (no range, or all) 07, 08 (limited qty)

1 (read)

06 (no range, or all) 07, 08 (limited qty)

1 (read)

06 (no range, or all) 07, 08 (limited qty)

6, 7, 8 1

1 (read) 1 (read) 2 (write) 23 1 (read) 1 (read) 1 (read)
1 (read)
1 (read)
25, 27

06, 07, 08 06, 07, 08 07, 08 07 06 06 (no range,or all) 06 (no range, or all) 07, 08 (limited qty) 06 (no range, or all) 07, 08 (limited qty) 06 (no range, or all) 07, 08 (limited qty) 5b

26, 30

5b

1

5b

28 2 (write)
16, 17, 18 13 (cold restart) 14 (warm restart)

5b 00 (start-stop) index=7 0

Response

(Master parses

Outstation may issue)

Function Codes (dec)

Qualifier Codes (dec)

129 (response) 129 (response) 129 (response) 129 (response) 129 (response)

00, 01, 17, 28 00, 01, 17, 28 00, 01, 17, 28 00, 01, 17, 28 00, 01, 17, 28

129 (response) 17, 28 (index)
130 (unsol. resp)

129 (response) 17, 28 (index)
130 (unsol. resp)

129 (response) 17, 28 (index)
130 (unsol. resp)
129 (response) 17, 28 (index)
130 (unsol. resp)

129 (response) 17, 28 (index)
130 (unsol. resp)

129 (response) 17, 28

129 (response) 17, 28

129 (response) 129 (response)

07 (limited qty) (qty = 1)

129, 130

5b

129, 130

5b

129, 130

5b

129, 130

5b

129

129

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Supported function codes
The table below is the application layer function codes that DNP3 slave supported.

Code

Function

Transfer function codes

0 Confirm

1 Read

2 Write Control function codes
3 Select

4 Operate

5 Direct operate

6 Direct operate Freeze function codes
7 Immediate freeze

8 Immediate freeze

9 Freeze and clear
Freeze and clear
10
-NO ACK
11 Freeze with time
Freeze with time
12
-NO ACK

Description

Supported

Message fragment confirmation
Yes
No response
Request objects from outstation
Yes
Response with requested objects
Store specified objects to outstation
Yes
Respond with status of operation

Select output point of outstation
Yes
Respond with status of control point
Set output that has previously selected
Yes
Respond with status of control point
Set output directly
Yes
Respond with status of control point
Set output directly
Yes
No response

Copy specified objects to freeze buffer
No
Respond with status of operation
Copy specified objects to freeze buffer
No
No respond
Copy specified objects to freeze buffer and clear objects
No
Respond with status of operation
Copy specified objects to freeze buffer and clear objects
No
No respond
Copy specified objects to freeze buffer at specified time
No
Respond with status of operation
Copy specified objects to freeze buffer at specified time
No
No respond

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Code

Function

Description

Application control function codes

13 Cold restart 14 Warm restart

Perform desired reset sequence Respond with a time object Perform desired partial reset operation Respond with a time object

16 Initialize application

Ready the specified application to run Respond with status of operation

17 Start application 18 Stop application

Start the specified application to run Respond with status of operation Stop the specified application to run Respond with status of operation

Configuration function codes

19 Save configuration

Save configuration Respond with status of operation

Enable unsolicited messages 20 Enable unsolicited messages
Respond with status of operation

Disable unsolicited messages 21 Disable unsolicited messages
Respond with status of operation

22 Assign class

Assign specified objects to a class Respond with status of operation

Time synchronization function codes

23 Delay measurement

Perform propagation delay measurement

24 Record current time

For LAN networks only

File transfer

25 Open file

26 Close file

27 Delete file

28 get file information

29 Authenticate file

30 Abort file

31 Activate configuration

Response function codes

0 Confirm

Message fragment confirmation

129 Response

Response to request message

130 Unsolicited message

Spontaneous message without request

Supported
Yes Yes No Yes Yes
No Yes Yes No
Yes No
Yes Yes No Yes No Yes No
Yes Yes Yes

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Configuration parameters

Communication protocols

Parameter
Bit rate
Parity Wire number Poll line Frame Gap

Value

Description

1200, 4800, 9600,

19200, 38400,

The communication speed, bits per second.

57600, 115200 bps

None, Even, Odd The type of parity bit used.

2, 4

The wires number for serial port.

False, True

Polarized line.

10...500

Specifies the amount of time (calculated by bits) to determine that a frame has been completed.

Slave unit

1...65519

Master unit

1...65534

Linklayer Confirmation Timeout

0 ms 1...65535 ms

Linklayer Retry Count Appl.layer Confirmation Timeout

1...255 0...65535 ms

Appl.layer

EvOnly

Confirmation Mode Double-Bit Input Support
ClockSync Mode

All
No Yes
0 1...64000 s

Float precision

No

enable flag Deadband calculation method
Deadband integrating time Unsolicited resp. mode

Yes Disabled Fixed Integrated 1...200 s
Disabled +Empty&Ena +Empty Enabled

The address of the device (slave address).
The address of the master.
Link layer confirmation disabled. Timeout for link layer confirmation.
Link layer retries if Link layer confirmation is enabled.
Timeout for application layer confirmation.
Confirmation requested for application layer messages containing event information only. Confirmation requested for all application layer messages. Double-Bit input is not supported. Double-Bit input is supported.
Clock synchronisation is requested only at startup. Interval for clock synchronisation request. Integer variation carries values with same precision as float variation. (i.e. voltage 230.4 V as integer: 2304, as float: 2304.0) Float variation has bigger precision than integer variation. (i.e. voltage 230.4V as integer: 230, as float: 230.4) No deadband, no AI events generated. An Event is generated when the AI value change exceeds given deadband. Integrating deadband used.
Integrating time setting used when the Deadband calculation method is Integrated.
Unsolicited responses not in use. Unsolicited response enabled, empty UR sent first, waiting for Enable UR from master. Unsolicited response enabled, empty UR sent first, not waiting for master Enable UR before proceeding. Unsolicited response enabled, starts sending UR's directly.

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Parameter Unsolicited resp. event delay Unsolocited resp. event count

Value 0...200 s
1...10

Description Unsolicited responses are delayed by this amount of seconds from first event.
Unsolicited responses are delayed until this many events are available. Used together with previous parameter.

Unsolicited resp. max event cnt Collision avoidance enable flag Collision avoidance fixed delay Collision avoidance
slots number

1...100 No, Yes 1...200 s 1...255

Maximum number of events in one unsolicited response.
Collision avoidance off/on.
Delay setting used in next parameter. Number of bus access slots available for random bus access. If the line is busy, the slave waits for: fixed delay + random (slots), after the bus becomes idle before accessing the bus.

File Handle timeout

Range: 1 to 3600 second

Timeout for no activity references a file handle to close the file and send a File Transport Status Object (group 70 var 6) using a status code value of file handle expired (0x02).
Range: 1 to 3600 second. Default 60 s.

Default Variation BI

1, 2

Default Variation BI 1, 2
event
Default Variation BO 2

Default Variation DBI 1, 2
Default Variation DBI 1, 2
event

Default Variation Counter

1...6

Default Variation AI

1...5

Default Variation AI event

1...5

1: Single-bit packed. 2: Single-bit with flag. 1: Without time. 2: With absolute time.
2: Binary output status.
1: Without flag. 2: With flag. 1: Without time. 2: With absolute time. 1: 32-bit with flag. 2: 16-bit with flag. 3: Not supported. 4: Not supported. 5. 32-bit without flag. 6: 16-bit without flag. 1: 32-bit with flag. 2: 16-bit with flag. 3. 32-bit without flag. 4: 16-bit without flag. 5: Single precision, floating point without time. 1: 32-bit without time. 2: 16-bit without time. 3: 32-bit with time. 4: 16-bit with time. 5: Single precision, floating point without time.

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Data configuration

Communication protocols
In Easergy P5 protection relays, data is mapped to five different categories: · Binary inputs (BI) · Double-bit inputs (DBI) · Analog inputs (AI) · Counters (CNTRS) · Binary outputs (BO)
The configuration of these is described in the following subsections.
Binary inputs
Binary inputs are found in the DNP3: data points ­ BI view of COMMUNICATION menu in eSetup Easergy Pro or Web HMI.

Table 10 - DNP3 data points ­ BI

Parameter Index Class UR
Item

Description The index of the data item in the list. Which class the data point belongs to. (Class 1, 2 or 3).
Controls whether changes in the value of the data point generates unsolicited responses or not. The data point.

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Double-bit inputs
DNP3: data points ­ DBI view of COMMUNICATION menu contains the configuration of Double-bit Inputs.

The configuration of these points is analogous to that of Binary Inputs, see DNP3 data points ­ BI, page 44.
Analog inputs
Analog inputs are configured in the DNP3: data points ­ AI view of COMMUNICATION menu.

Table 11 - DNP3 data points ­ AI

Parameter Index Class UR
Deadband
Item

Description
The index of the data item in the list. Which class the data point belongs to. (Class 1, 2 or 3).
Controls whether changes in the value of the data point generates unsolicited responses or not.
The amount of change in value needed before a change is registered. The range of this setting is 1...4200000000.
The data point.

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Counters
The configuration of counters is found in the DNP3: data points ­ CNTRS view of COMMUNICATION menu.
Binary outputs
Binary outputs are found in the DNP3: data points ­ BO view of COMMUNICATION menu.
The structure of this configuration table is simple: only an index for the data items (data points) and an Item field, which determines which data point if found at the corresponding index. The data points are edited by clicking on an element in the Item column and selecting the desired output.

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Data model of DNP3

The default Binary Inputs, Double-bit Inputs, Analog Inputs, Counts and Binary Outputs of Easergy P5 protection relays pre-configured in DNP3 can be found in following tables.

Binary inputs

Default Index Default Class

0

1

1

1

2

1

3

1

4

1

5

1

6

1

7

1

8

1

9

1

10

1

11

1

12

1

13

1

14

1

15

1

16

1

17

1

18

1

19

1

Item
DI1 DI2 DI3 DI4 Setting group 1 Setting group 2 Setting group 3 Setting group 4 TCS alarm Logic2 Logic3 Logic4 Logic5 Logic6 VI1 VI2 VI3 VI4 VI5 VI6

Double-bit inputs

Default Index Default Class

0

1

1

1

2

1

3

1

4

1

5

1

6

1

7

1

Item
Object1 Object2 Object3 Object4 Object5 Object6 Object7 Object8

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Analog inputs

Default Index 0 1 2 3 4 5 6 7

Default Class 2 2 2 2 2 2 2 2

Item
PS1 value PS2 value PS3 value PS4 value PS5 value PS6 value PS7 value PS8 value

Counters

Default Index Item

0

DI1

1

DI2

2

DI3

3

DI4

Binary outputs

Default Index Item

0

Object1

1

Object2

2

Object3

3

Object4

4

Object5

5

Object6

Communication protocols

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IEC 60870-5-101

Presentation

IEC 60870-5-101 is an accompanying standard for the standards in the IEC 60870-5 series. It defines communication between protection devices and the various devices in a control system (supervisor or RTU) in a substation.
Easergy P5 protection relays using IEC 60870-5-101 work as controlled outstation (slave) units in unbalanced mode. Supported application functions include:
· Process data transmission · Event transmission · Command transmission · General interrogation
· Clock synchronisation · Transmission of integrated totals · Acquisition of transmission delay The IEC 60870-5-101 communication in Easergy P5 protection relays is only command and event driven. Therefore only Class 1 data is reported. Class 2 is not be used.
Class 1 data is handled in the following priority order: · Command responses · Events (binary events, analog events, counter value change events) The event buffer size of IEC 60870-5-101 is 250. · General Interrogation data
Chronology between events and requested data are always maintained. For lists of default data mappings in Easergy P5 protection relays, refer to Data model of IEC 60870-5-101, page 56.

IEC 60870-5-101 configuration
This section explains how to configure Easergy P5 protection relays to use the IEC 60870-5-101 protocol.

General configuration
The IEC 60870-5-101 protocol is activated by setting it as the port protocol for a serial port on the device. This setting can be found by navigating to the COMMUNICATION menu and Protocol configuration view in the eSetup Easergy Pro or Web HMI.
The IEC 60870-5-101 protocol is activated on the Remote port as follows:

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NOTE: Setting a protocol to any port requires a reboot of the device for the changes to take effect. eSetup Easergy Pro will prompt for a reboot.
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Communication protocols
Once the protocol has been activated, it can be configured. This is done with eSetup Easergy Pro in the IEC 60870-5-101 main config view. All values shown are defaults.

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Table 12 - IEC 60870-5-101 main configuration parameters

Parameter Bit rate Parity WireNum PolLine FrameGap
Link layer address Link layer address size ASDU address ASDU address size IO address size Cause of transmission size Time tag format
Measurements format
Deadband enable flag
Deadband cycle

Value 1200, 2400, 4800, 9600, 19200, 38400, 57600, 115200 bps None, Even, Odd 2, 4 False, True 10...500
1 byte: 1...254 2 bytes: 1...65534 1 or 2 bytes 1 byte: 1...254 2 bytes: 1...65534 1 or 2 bytes 2 or 3 bytes 1 byte
Short, Full
Scaled, Normalised, Float
On, Off
100...10000 ms

Description
Communication speed
Parity used for serial communication
Number of wire connection
Polarity of the wire connection
Specifies the amount of time (calculated by bits) to use to determine that a frame has been completed
Device address
Size of the device address
Address of data segment on the same device address
Size of the ASDU
Size of Information Object address
Size of the code for the reason why a message is sent
Determines the time tag format: 3-octet time tag of 7- octet time tag
Determines the data format for measurements, float, normalised or scaled values
Enabling of deadband measurements and event generation
The interval of deadband calculations

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Data configuration
Data and commands are mapped to six different tables: Single point information (SPI), Double point information (DPI), Analog inputs (AI), Analog events (AE), Integrated totals (IT) and Commands (CMD). The settings for these categories are described in the following subsections.
Single and double point information
Single point information (SPI) objects are one-bit data items (range 0...1). Double point information objects are two-bit data items (range 0...3). Default SPI and DPI mapping are shown in figures below. A description of the column elements for SPI and DPI objects is given in the table.

NOTE: Information object address (Index) 1 is reserved for an SPI object: Class 1 buffer overflow indication (BOV1).
Table 13 - SPI and DPI mapping table

Parameter Index GI
Event
Item

Description
Information object address
Determines whether the object is included in response to General Interrogation request message (Enabled/Disabled)
Determines whether change events for the object are put into Class 1 buffer (Enabled/Disabled)
The data item which is configured on the row (for instance, DI1)

Analog inputs
Analog inputs are measurement values that are float, scaled or normalised. Scaling is done according to the scaling settings found under the list item Modbus and IEC 60870-5-101 specific scalings in eSetup Easergy Pro or Web HMI (it applies to IEC 60870-5-101 if the protocol is configured to use scaled values). When using float for measurement values, no scalling is needed.

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NOTE: Measurement values have no time tags when read upon request. Change events (based on deadband supervision) are sent with time tags with cause of transmission spontaneous in Class 1. The time tag format is determined by the interface configuration (general time tag format selection parameter).
Table 14 - AI mapping table

Parameter Index GI Event Deadband Max
Item

Description
Information object address
Determines whether the object is included in response to General Interrogation request message (Enabled/Disabled)
Determines whether change events for the object are put into Class 1 buffer (Enabled/Disabled)
Deadband value for change supervision and change event generation (valid only if Event is Enabled).
Maximum value for defining the value range as ­Max...+Max. This range is transformed to the range -1...+1 if the protocol measurement format is set to "Normalised"
The data item which is configured on the row

Analog events
These analog values are fault event and are sent with time tags. The values are float, normalised or scaled measured values. A part of the default data mapping is shown in following figure.

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Table 15 - AE mapping table

Parameter Index Event
Item

Description
Information object address
Determines whether change events for the object are put into Class 1 buffer (Enabled/Disabled)
The data item which is configured on the row

Integrated totals
Integrated totals are energy and pulse counter values. the following figure is a part of the mapping table in eSetup Easergy Pro.

Table 16 - Integrated totals mapping table

Parameter
Index
CI Counter Interrogation
Item

Description Information object address Determines whether the object is included in responses to Counter Interrogation messages (Enabled/Disabled)
The data item which is configured on the row

Command items
The commands are divided into two categories: Select Before Operate and Direct Operate.

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Table 17 - Description of command items

Parameter Index Item

Description Information object address The data item which is configured on the row

Scaling
Measured values that transferred as signed integers of 16 bits are in the range: ­ 215 ··· 215 ­ 1 = ­ 32768 ··· 32767. Thus values that exceed this range are scaled in order to be successfully sent over an IEC 101 data link.
The scaling is determined by the float value of corresponding specific scalings. It is common to use scaling factors with base ten (0.100,1.000,10.000, 100.000...). In such cases, only the decimals are removed from the original measurements and such values are easy to read and rescale to actual values on the client side after transmission. Different settings for scaling can be used for the power-, power factor-, tan phi-, voltage- and frequency scaling. These settings for scaling can be set by navigating to the Modbus and IEC 60870-5-101 specific scalings view in the COMMUNICATION menu in eSetup Easergy Pro or Web HMI.
A short example: The frequency is internally (in the Easergy P5 protection relays) stored as an integer value which also holds three decimal places, that is, 50.000 Hz is represented as 50000. This is a value too large to be represented with 16 bits (signed integer). However, frequency is multipled by default scaled value 0.1, enabling it to be sent over the data line.
Thus, the value on the receiving side (the scaled value) is:
valueScaled = k  valueInternal = 0.1  50000 = 5000 NOTE: It is highly recommended to scale values so that they are kept in the interval 0 ­32768 to avoid overflow.
Normalisation
When using normalisation for measured values, the normalised value is calculated using the Max parameter, which determines the range for the data (- Max ... + Max).
An example:
The frequency is internally (in the Easergy P5 protection relays) stored as an integer value which also holds three decimal places, that is, 50.000 Hz is represented as 50000. If normalisation is activated and the Max value set to 100000, the value sent over the data link is (in the ideal case):
value Normalised = valueInternal/Max = 50000/100000 = 0.5
Currently, however, the scaling is also performed before normalisation. This means that the scaling is always active.
The equation is therefore:
value Normalised = valueScaled/Max = 0.1 x 50000/100000 = 0.05
Float
When using Float for measured values, no scaling will be used. An example: 50.000 Hz is represented as 50, just use the raw value to transfer.
Event buffer size
The event buffer size is defined as 250. That means IEC 60870-5-101 can store maximum 250 events internally.

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Data model of IEC 60870-5-101
The default Single Point Information, Double Point Information, Analog Inputs, Analog Events, Intergrated Totals and Command of Easergy P5 protection relays pre-configured in IEC 60870-5-101 can be found in following tables.

Default single and double point information

Table 18 - Single point information

Default Index 2 3 4 5 6 7 8 9 10 11 12 13 14 15

Item DI1 DI2 DI3 DI4 Setting group 1 Setting group 2 Setting group 3 Setting group 4 TCS alarm Logic2 Logic3 Logic4 Logic5 Logic6

Table 19 - Double point information

Default Index 4097 4098 4099 4100 4101 4102 4103 4104

Item Object1 Object2 Object3 Object4 Object5 Object6 Object7 Object8

Analog inputs

Default Index 16385 16386 16387 16388 16389 16390 16391 16392

Deadband 1.000 1.000 1.000 1.000 1.000 1.000 1.000 1.000

Max 1000 1000 1000 1000 1000 1000 1000 1000

Item PS1 value PS2 value PS3 value PS4 value PS5 value PS6 value PS7 value PS8 value

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Analog events

Default Index 18433 18434 18435 18436 18437 18438 18439 18440

Item PS1 value PS2 value PS3 value PS4 value PS5 value PS6 value PS7 value PS8 value

Integrated totals

Default Index 20481 20482 20483 20484

Item DI1 DI2 DI3 DI4

Default command
Table 20 - Select Before Operate table

Default 34817 34818 34819 34820 34821 34822

Item Object1 Object2 Object3 Object4 Object5 Object6

Table 21 - Digital Output table

Default Index 32769 32770 32771 32772 32773 32774 32775 32776 32777 32778

Item Setting group 1 Setting group 2 Setting group 3 Setting group 4 Object1 Object2 Object3 Object4 Object5 Object6

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IEC 60870-5-103

Presentation

IEC 60870-5-103 is an accompanying standard for the standards in the IEC 60870-5 series. It defines communication between protection devices and the various devices in a control system (supervisor or RTU) in a substation.
The unbalanced transmission mode of the protocol is used, and the device functions as a secondary station (slave) in the communication. Data is transferred to the primary system using the "data acquisition by polling" principle.
The Easergy P5 protection relay supports the following IEC 61870-5-103 application functions:
· Data acquisition by polling · General initialisation · Station initialisation · General interrogation · Clock synchronisation · Command transmission · Transmission of disturbance data · Read and write setting data The following functions are not supported: · Generic services · Test mode · Blocking in monitoring direction The following ASDU (Application Service Data Unit) types are used in communication from the Easergy P5 protection relays: · ASDU 1: Time tagged message · ASDU 3: Measurands I · ASDU 4: Time-tagged measurands with relative time · ASDU 5: Identification message · ASDU 6: Time synchronisation · ASDU 8: Termination of general interrogation · ASDU 9: Measurands II Easergy P5 protection relays accept: · ASDU 6: Time synchronisation · ASDU 7: Initiation of general interrogation · ASDU 20: General command The ASDUs from 23 to 31 are used for disturbance data transmission.
The ASDU 140, ASDU 144, ASDU 17, ASDU 201, ASDU 169, ASDU 49 are used to write and read setting data.
The ASDU 135, which is related with SPA-bus, is not supported.
The data in a message frame is identified by: · Type identification · Function type (TYP) · Information number (INF)
For more information on the IEC 60870-5-103 protocol, visit www.iec.ch.

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IEC 60870-5-103 configuration
This section explains how to configure Easergy P5 protection relays to use the IEC 60870-5-103 protocol.
General configuration
The IEC 60870-5-103 protocol is activated by setting it as the port protocol for a serial port on the device. This setting can be found by navigating to the COMMUNICATION menu and Protocol configuration view in the eSetup Easergy Pro or Web HMI. IEC 60870-5-103 protocol is activated on the Remote port.
NOTE: Setting a protocol to any port will require a reboot of the device for the changes to take effect. eSetup Easergy Pro will prompt for a reboot. Once the protocol has been activated, it can be configured. This is done with eSetup Easergy Pro in the IEC 60870-5-103 main config view. All values shown are defaults.

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Table 22 - IEC 60870-5-103 main configuration parameters

Parameter IEC-103 slave number Speed of transmission
Wire number Poll line Frame Gap (bits)

Value
1 ... 254
1200, 2400, 4800, 9600, 19200, 38400, 57600, 115200 bps
2, 4
False, True
10 ... 500

Measure sending interval
ASDU6 response time mode

200 ... 10000 ms Sync;
Sync + Proc;

Msg;

Msg + Proc

Include start and restart

On, Off

Description
A unique address within the system setup
Communication speed
Number of wire connection
Polarity of the wire connection
Specifies the amount of time (calculated by bits) to use to determine that a frame has been completed
Minimum measurement response interval
The time in the slave's response = the master's time.
The time in the slave's response = the master's time + internal processing time (standard).
The time in the slave's response = the slave's time at the moment when the clock sync message arrived.
The time in the slave's response = the slave's time at the moment when the clock sync message arrived + internal processing time.

Table 23 - IEC 60870-5-103 disturbance recorder parameter

Parameter
Enable record info message
Record samples in message
Record reading timeout
Fault number of active record

Value On, Off
1 ... 25
10 ... 10000 s (not editable)

Tags read position

(not editable)

Active channel

(not editable)

Channel read position

(not editable)

Description
Enable record information messages
Record samples in one message
Record reading timeout
The fault number of the current record. This is a number which is given by Easergy P5 protection relays, incrementally and is what identifies faults.
Tags are indications of change in the value of digital data. The current tag read position shows which such item is being read.
"Channel" refers to the channels in Easergy P5 protection relays Disturbance recorder, which can be found in the DISTURBANCE RECORDER view in eSetup Easergy Pro. The active channel indicates which channel is being read.
A channel contains sampled analog values. The current read position indicates which of these entries in the active channel is being read.

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Data configuration
The data points available through the IEC 60870-5-103 protocol interface in Easergy P5 protection relays can be configured in the IEC 60870-5-103: Data config view. It is divided into two categories, Digital data points (1-bit values) and Analog data points.
Digital data
The parameters, by which digital data points are defined, are explained below. In order to change the value of an existing data item, click on the row. This brings up an item configuration window, in which the parameters can be set. Pressing Save in the window will save the item set, pressing Remove will remove the item from the list and pressing Cancel will close the popup window without making any changes to the digital item configuration.
In order to add new items to the list, press the ADD Item row furthest down in the list. Doing so will add a new item at the end of the list. New items will be set to Digital Input 1 by default. The new item is configured as explained in the previous paragraph.

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Table 24 - Description of digital data configuration parameters

Parameter Index FUN INF GI
EVENT CONTROL Item

Description
Index of the data item in the list Function type
Information number Item included in General Interrogation (Enabled/Disabled) and data acquisition by polling
Events enabled for change of item value (Enabled/Disabled)
Item value can be set by command (Enabled/Disabled)
The data item which is configured on the row (for instance, Digital Input 1)

NOTE: Changes will not take effect if they are not explicitly written to the device using the Write changes to device button in eSetup Easergy Pro. This will require a reboot.
NOTE: The read command for digital data according to FUN and INF is not supported. If the GI parameter is disabled, the item value will not be included in response message by GI command. The value changing event is reported only by polling command.

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Analog data
The parameters, by which analog data points are defined, are explained below. In order to change the value of an existing data item, click on the row. This brings up an item configuration window, in which the parameters can be set. Pressing Save in the window will save the item set, pressing Remove will remove the item from the list and pressing Cancel will close the popup window without making any changes to the analog item configuration.
In order to add new items to the list, press the ADD Item row furthest down in the list. Doing so will add a new item at the end of the list. The new item is configured as explained in the previous paragraph.

Table 25 - Description of analog data configuration parameters

Parameter Index FUN INF ASDU
Items

Description
Index of the data item in the list
Function type
Information number
Application service data unit to be used to send the data item: ASDU 3.1: analog data 1 value ASDU 3.2: analog data 2 values ASDU 3.3: analog data 4 values ASDU 3.4: analog data 2 values ASDU 4: analog data floating point value ASDU 9: analog data 9 values
The data item which is configured on the row

NOTE: Changes will not take effect if they are not explicitly written to the device using the Write changes to device button in eSetup Easergy Pro. This will require a reboot.

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Measurement data

Analog measurements are transferred in two different formats, as integers and as floating point values. The value format depends on the application message type, ASDU. The following ASDU types are available for measurement values:
Table 26 - ASDU types for measurement values

ASDU 3.1 3.2 3.3 3.4 9 4

Number of measurements in one message 1 2 4 2 9 1

Format Integer
Float

Integer value scaling

Integer scaled values in ASDU 3.x and 9 are transferred in 12 bit + sign integer format. The raw 12 bit values (-4096 ... +4095) are relative to 2.4 x nominal values. The following table shows the scaling for different measurements. The values of scaling settings can be found in the SCALING view in eSetup Easergy Pro.
NOTE: Integer RTD value is specially relative to 0.24 x nominal values (32768).
Table 27 - Integer scaled values

Type Current Residual current
Voltage Residual voltage Power Other

Measurement
IL1 ... IL3 loCalc Ir Irvs VL1...VL3 U12...U13 Ur
P, Q, S
DI counters PF, Cos Phi

Scaling 2.4 × IN
2.4 × IrN 2.4 × IrvsN 2.4 × UN
2.4 × UrN 2.4 × IN × UN × 3 1:1 2.4:1

An example: The device transfers phase 1 current, IL1, with ASDU 3.1. The scaling setting is as follows: CT primary = 500 A. The measured value M = 321 A. Thus, the value sent, B = M ×(4096/(2.4×500))= 321 ×(4096/(2.4×500))= 1095 The protocol master receives the value: B = 1095 OVF (Overflow bit in frame): No Valid: Yes This value is converted back to the measured value: M = B ×((2.4 × 500)/4096) = 1095 × ((2.4 × 500)/4096) = 320.8  321 A

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An example:
The device transfers phase 1 current, IL1, with ASDU 3.1.
The scaling setting is as follows: CT primary = 500 A.
The measured value M = 1321 A.
Thus, the value sent, B = M × (4096/(2.4 × 500))= 1321 × (4096/(2.4 × 500)) = 4509, is too large a value to fit into twelve bits. Thus, the value is sent as B = 4095 (the largest value that can be sent with twelve bits) and the OVF (Overflow flag) set.
The protocol master receives the value: B = 4095
OVF (Overflow bit in frame): Yes
Valid: Yes
This value is converted back to the measured value: M  2.4 × 500 A, so M 1200 A

Floating point values

Values transferred in ASDU 4 need not be scaled. Most of the measurements are sent as primary scaled values, but some values can be sent as per unit (PU) values. This setting can be changed via the local panel on the Easergy P5 protection relays.

Measurement Fault current I> Fault current I>> Fault current I>>> Fault reactance Exported energy Exported reactive energy

Format PU or A PU or A PU or A  MWh Mvarh

Write and read setting data
ASDU types description
These are the ASDU types available: · ASDU 140 in the control direction ­ setting read request · ASDU 143 in the control direction ­ setting write request (8 bits) · ASDU 144 in the control direction ­ setting write request (16 bits) · ASDU 201 in the control direction ­ setting write request (32 bits) · ASDU 49 in the monitor direction ­ reject setting read/write request (8 bits) · ASDU 168 in the monitor direction ­ answer to setting read/write request (8 bits) · ASDU 17 in the monitor direction ­ answer to setting read/write request (16 bits) · ASDU 169 in the monitor direction ­ answer to setting read/write request (32 bits)

64

P5/EN M/33B

Communication protocols

ASDU 140 (8CH): Control Direction Table 28 - ASDU 140 for IEC 60870-5-103 setting

Type identification Variable Struct. Qualifier Cause of Transmission Device address Function byte (FUN) Information number (INF)

8CH (Read protection parameter) 81H 14H Common address of ASDU Parameter y-Value Parameter x-Value

ASDU 143 (8FH): Control Direction Table 29 - ASDU 143 for IEC 60870-5-103 setting

Type identification Variable Struct. Qualifier Cause of transmission Device address Function byte (FUN) Information number (INF) Value byte

8FH (Write analog protection parameter) 81H 14H Common address of ASDU Parameter y-Value Parameter x-Value byte

ASDU 144 (90H): Control Direction Table 30 - ASDU 144 for IEC 60870-5-103 setting

Type identification Variable Struct. Qualifier Cause of transmission Device address Function byte (FUN) Information number (INF) Value low-byte Value high-byte

90H (Write analog protection parameter) 81H 14H Common address of ASDU Parameter y-Value Parameter x-Value word (low) word (high)

ASDU 201 (C9H): Control Direction Table 31 - ASDU 201 for IEC 60870-5-103 setting

Type identification Variable Struct. Qualifier Cause of transmission Device address Function byte (FUN) Information number (INF) Byte 1 Byte 2 Byte 3 Byte 4

C9H (Write analog protection parameter) 81H 14H Common address of ASDU Parameter y-Value Parameter x-Value Low word (low) Low word (high) High word (low) High word (high)

P5/EN M/33B

65

Communication protocols

Type identification 49 (31H): Monitor direction Table 32 - ASDU 49 for IEC 60870-5-103 setting

Type identification Variable Struct. Qualifier Cause of transmission Device address Function byte (FUN) Information number (INF) Value low-byte Value high-byte TT (Time tag)

31H (Analog protection signal) 81H 15H Common address of ASDU Parameter y-Value Parameter x-Value MW (low) MW (high) ms low ms high IV 0 m m m m m m SU 0 h h h h h

Reject the read request or write request with special Fun and INF values as below.
Special values Function byte (FUN) = 7FH and Information number (INF) = FFH shall be used as a negative response on a command message ("Rejection telegram"): in this case MW contains the error code, so the cause of rejection.
The list of causes of rejection possibly used is as follows:

Cause of rejection 80H 00H 80H 07H 80H 08H 80H 09H 80H 30H

Meaning OK Unknown parameter address Wrong data Wrong frame data length Wrong data in message

ASDU 168 (A8H): Monitor direction Table 33 - ASDU 168 for IEC 60870-5-103 setting

Type identification Variable Struct. Qualifier Cause of transmission (COT) Device address Function byte (FUN) Information number (INF) Byte 1 TT (Time tag)

A8H (Analog protection parameter) 81H 14H Common address of ASDU Parameter y-Value Parameter x-Value byte ms low ms high IV 0 m m m m m m SU 0 h h h h h

66

P5/EN M/33B

Communication protocols P5/EN M/33B

ASDU 17 (11H): Monitor direction Table 34 - ASDU 17 for IEC 60870-5-103 setting

Type identification Variable Struct. Qualifier Cause of Transmission Device address Function byte (FUN) Information number (INF) Value low-byte Value high-byte TT (Time tag)

11H (Analog protection parameter) 81H 14H Common address of ASDU Parameter y-Value Parameter x-Value word (low) word (high) ms low ms high IV 0 m m m m m m SU 0 h h h h h

ASDU 169 (A9H): Monitor direction Table 35 - ASDU 169 for IEC 60870-5-103 setting

Type identification Variable Struct. Qualifier Cause of transmission (COT) Device address Function byte (FUN) Information number (INF) Byte 1 Byte 2 Byte 3 Byte 4 TT (Time tag)

A9H (Analog protection parameter) 81H 14H Common address of ASDU Parameter y-Value Parameter x-Value Low word (low) Low word (high) High word (low) High word (high) ms low ms high IV 0 m m m m m m SU 0 h h h h h

COT Meaning (Cause of Transmission): In a response to a write command only: = 14H - Positive acknowledge to a read/write command. = 15H - Negative acknowledge to a write command. (All the frame structure may be changed according to last design.)

Setting data addressing
All setting data are addressed by y-Value (FUN) / x-Value (INF) corresponding to each protection and item.
The list of setting parameters displayed on eSetup Easergy Pro for each function are not editable. The user can select setting items by using the parameters FUN, INF and ASDU (for writing different types). Each item's FUN and INF can't been changed. The Master uses ASDU140 for all value types' reading requests.

67

Figure 2 - IEC 60870-5-103 setting data points

Communication protocols

Table 36 - IEC 60870-5-103 setting parameters

Parameter Item FUN INF ASDU

Description
Db item
Function type(y-Value)
Information number(x-Value)
Application service data unit to be used to send the data item:
ASDU 140: read request for master ASDU 143: write 8 bits type request for master ASDU 144: write 16 bits type request for master ASDU 201: write 32 bits type request for master

Data model of IEC 60870-5-103
The default digital and analog data of Easergy P5 protection relays preconfigured in IEC 60870-5-103 can be found in following tables.

Default digital configuration

Defaut Index

FUN

INF

000

55

161

001

55

162

002

55

163

003

55

164

004

55

181

005

55

182

006

55

183

007

55

184

008

55

185

Item CB Open_DI1 CB Close_DI2 Digital input 3 Digital input 4 Object1 state Object2 state Object3 state Object4 state Object5 state

68

P5/EN M/33B

Communication protocols

Defaut Index

FUN

INF

009

55

186

010

55

187

011

55

188

012

160

20

013

160

21

014

160

22

015

160

23

016

160

24

017

160

25

018

160

26

019

160

27

020

160

28

021

160

29

022

160

130

023

160

131

024

160

132

025

160

133

026

160

134

027

160

135

028

160

136

029

160

137

030

160

138

031

160

139

032

160

140

033

160

141

034

55

23

035

55

24

036

55

25

037

55

26

038

160

103

039

160

105

040

160

98

041

160

100

042

160

99

043

160

101

044

160

180

045

160

181

046

160

69

047

160

70

048

160

71

049

160

19

P5/EN M/33B

Item Object6 state Object7 state Object8 state TCS alarm on Logic output 2 on Logic output 3 on Logic output 4 on Logic output 5 on Logic output 6 on Logic output 7 on Logic output 8 on Logic output 9 on Logic output 10 on Virtual input 1 Virtual input 2 Virtual input 3 Virtual input 4 Virtual input 5 Virtual input 6 Virtual input 7 Virtual input 8 Virtual input 9 Virtual input 10 CB Fail 1 Trip On CB Fail 2 Trip On Setting group 1 Setting group 2 Setting group 3 Setting group 4 Prg1 start Prg1 trip Prg2 start Prg2 trip Prg3 start Prg3 trip Prg4 start Prg4 trip Prg5 start Prg5 trip Prg6 start Prg6 trip
69

Communication protocols

Default analog configuration parameters

Default Index

FUN

INF

050

160

65

ASDU 4

Item Frequency

Name ARC setting items I>int. pick-up value Io>int. pick-up value Arc stage 1 enabled Arc stage 2 enabled Arc stage 3 enabled Arc stage 4 enabled Arc stage 5 enabled Arc stage 6 enabled Arc stage 7 enabled Arc stage 8 enabled
Stage 1 Mode

FUN
1 1 1 1 1 1 1 1 1 1 1

Stage 2 Mode

1

Stage 3 Mode

1

Stage 4 Mode

1

Stage 5 Mode

1

Stage 6 Mode

1

Stage 7 Mode

1

Stage 8 Mode

1

Trip 1 delay [x1ms]

1

Trip 2 delay [x1ms]

1

Trip 3 delay [x1ms]

1

Trip 4 delay [x1ms]

1

Trip 5 delay [x1ms]

1

Trip 6 delay [x1ms]

1

Trip 7 delay [x1ms]

1

Trip 8 delay [x1ms]

1

Min. hold time [x1ms]

1

Min. hold time2 [x1ms]

1

Min. hold time3 [x1ms]

1

Setting data

The setting values that can be configured in IEC 60870-5-103 on the Easergy P5 protection relay is listed in the table below:

INF ASDU

Scaling

P5U20 LPCT/LPVT

P5U20

P5V20

P5F30

P5M30

0

201 1.00 xIn = 100

1

201 1.00 xIn = 100

2

143 Off=0;On=1

3

143 Off=0;On=1

4

143 Off=0;On=1

5

143 Off=0;On=1

6

143 Off=0;On=1

7

143 Off=0;On=1

8

143 Off=0;On=1

9

143 Off=0;On=1

10

143

Light=0;Light&Current= 1

11

143

Light=0;Light&Current= 1

12

143

Light=0;Light&Current= 1

13

143

Light=0;Light&Current= 1

14

143

Light=0;Light&Current= 1

15

143

Light=0;Light&Current= 1

16

143

Light=0;Light&Current= 1

17

143

Light=0;Light&Current= 1

18

143 1 = 1

19

143 1 = 1

20

143 1 = 1

21

143 1 = 1

22

143 1 = 1

23

143 1 = 1

24

143 1 = 1

25

143 1 = 1

26

201 1 = 1

27

201 1 = 1

28

201 1 = 1





















































































































70

P5/EN M/33B

Communication protocols

Name

FUN

Min. hold time4 [x1ms]

1

Min. hold time5 [x1ms]

1

Min. hold time6 [x1ms]

1

Min. hold time7 [x1ms]

1

Min. hold time8 [x1ms]

1

Inrush setting

Enable for Inrush

2

Max inrush current

2

Pickup for 2nd harmonic

2

OverCurrent I> setting

Enable for I>

3

Pick-up value

3

Delay curve family

3

Delay type

3

Operation delay

3

Inv. time coefficient

3

Reset time

3

Inrush status for I>

3

SOL use by I>

3

SOL Operation delay

3

SOL Inv. time coefficient

3

CLPU status for I>

3

CLPU Pick-up value

3

CLPU Operation delay

3

CLPU Inv. time coefficient

3

Include harmonics

3

Reset type

3

OverCurrent I>> setting

Enable for I>>

4

Pick-up value

4

Delay curve family

4

Delay type

4

INF ASDU

Scaling

29

201 1 = 1

30

201 1 = 1

31

201 1 = 1

32

201 1 = 1

33

201 1 = 1

P5U20 LPCT/LPVT

P5U20

P5V20

0

143 Off=0;On=1

1

201 1.00 xIn = 100

2

201 1 % = 1













0

143 Off=0;On=1





1...4 201 1.00 xIn = 100





DT=0;IEC=1;IEEE=2;

5...8

143 IEEE2=3;Others=4;





Prg1=5;Prg2=6;Prg3=7

DT=0;NI=1;VI=2;EI=3;

LTI=4;LTEI=5;LTVI=6;

9...12 143 MI=7;STI=8;STEI=9;





CO8=10;RI=11;RXIDG=

12

13...16 201 1.00 s = 100





17...20 201 1.000 = 1000 21...24 201 1.00 s = 100 25...28 143 Off=0;On=1













29...32 143 Off=0;On=1





33...36 201 1.00 s = 100





37...40 201 1.000 = 1000





41...44 143 Off=0;On=1 45...48 201 1.00 xIn = 100









49...52 201 1.00 s = 100





53...56 201 1.000 = 1000

57

143 Off=0;On=1

58...61 143 DT=0;IDMT=1













0

143 Off=0;On=1





1...4 201 1.00 xIn = 100





DT=0;IEC=1;IEEE=2;

5...8

143 IEEE2=3;Others=4;





Prg1=5;Prg2=6;Prg3=7

DT=0;NI=1;VI=2;EI=3;

LTI=4;LTEI=5;LTVI=6;

9...12 143 MI=7;STI=8;STEI=9;





CO8=10;RI=11;RXIDG=

12

P5F30     
  
  

            
  


P5M30     
  
  

            
  


P5/EN M/33B

71

Name

FUN INF ASDU

Scaling

Operation delay

4

Inv. time coefficient

4

Inrush status for I>>

4

SOL use by I>>

4

SOL Operation delay

4

SOL Inv. time coefficient

4

CLPU status for I>>

4

CLPU Pick-up value

4

CLPU Operation delay

4

CLPU Inv. time coefficient

4

Include harmonics

4

Reset type

4

Reset time

4

OverCurrent I>>> setting

Enable for I>>>

5

Pick-up value

5

Operation delay

5

Inrush status for I>>>

5

SOL use by I>>>

5

SOL Operation delay

5

CLPU status for I>>>

5

CLPU Pick-up value

5

CLPU Operation delay

5

SOTF setting

Enable for SOTF

6

Pick-up value

6

Dead line detection delay

6

SOTF active Timer

6

13...16 201 1.00 s = 100 17...20 201 1.000 = 1000 21...24 143 Off=0;On=1 25...28 143 Off=0;On=1 29...32 201 1.00 s = 100 33...36 201 1.000 = 1000 37...40 143 Off=0;On=1 41...44 201 1.00 xIn = 100
45...48 201 1.00 s = 100

49...52 201 1.000 = 1000

53

143 Off=0;On=1

54...57 143 DT=0;IDMT=1

58...61 201 1.00 s = 100

0

143 Off=0;On=1

1...4 201 1.00 xIn = 100

5...8 201 1.00 s = 100

9...12 143 Off=0;On=1

13...16 143 Off=0;On=1

17...20 201 1.00 s = 100

21...24 143 Off=0;On=1

25...28 201 1.00 xIn = 100

29...32 201 1.00 s = 100

0

143 Off=0;On=1

1

201 1.00 xIn = 100

2

201 1.00 s = 100

3

201 1.00 s = 100

Communication protocols

P5U20 LPCT/LPVT

P5U20





















P5V20

P5F30
    

P5M30
    









































































































































































72

P5/EN M/33B

Communication protocols

Name Dead line detection input I> setting Enable for I> Pick-up value
Direction mode Angle offset
Delay curve family
Delay type
Operation delay Inv. time coefficient Reset time Inrush status for I> SOL status for I> SOL Operation delay SOL Inv. time coefficient CLPU status for I> CLPU Pick-up value CLPU Operation delay CLPU Inv. time coefficient Reset type I>> setting Enable for I>> Pick-up value
Direction mode

FUN INF ASDU

Scaling

6

4

144 Value 6

P5U20 LPCT/LPVT

P5U20

P5V20





7

0

143 Off=0;On=1



7

1...4 201 1.00 xIn = 100



7

5...8

143

Dir+Backup=0;Undir=1; Dir=2



7

9...12 144 1 ° = 1



DT=0;IEC=1;IEEE=2;

7

13...16 143 IEEE2=3;Others=4;



Prg1=5;Prg2=6;Prg3=7

DT=0;NI=1;VI=2;EI=3;

LTI=4;LTEI=5;LTVI=6;

7 17...20 143 MI=7;STI=8;STEI=9;



CO8=10;RI=11;RXIDG=

12

7 21...24 201 1.00 s = 100



7 25...28 201 1.000 = 1000



7 29...32 201 1.00 s = 100



7 33...36 143 Off=0;On=1



7 37...40 143 Off=0;On=1



7 41...44 201 1.00 s = 100



7 45...48 201 1.000 = 1000



7 49...52 143 Off=0;On=1



7 53...56 201 1.00 xIn = 100



7 57...60 201 1.00 s = 100



7 61...64 201 1.000 = 1000



7 65...68 143 DT=0;IDMT=1



8

0

143 Off=0;On=1



8

1...4 201 1.00 xIn = 100



8

5...8

143

Dir+Backup=0;Undir=1; Dir=2



P5F30 
    

           
  

P5M30 
    

           
  

6. DI1(B)=1;DI2(B)=2;DI3(B)=3;DI4(B)=4;DI1(C)=5;DI2(C)=6;DI3(C)=7;DI4(C)=8;DI5(C)=9;DI6(C)=10;DI1(D)=11;DI2(D)=12;DI3(D)=13; DI1(E)=14;DI2(E)=15;DI3(E)=16;DI4(E)=17;DI5(E)=18;DI6(E)=19;DI20=20;Arc1=25;Arc2=26;BI=27;VI1=29;VI2=30;VI3=31;VI4=32; DO1(B)=33;DO2(B)=34;DO3(B)=35;Watchdog=36;Watchdog=37;Watchdog=38;Watchdog=39;Watchdog=40;Watchdog=41;BO=42; DO1(C)=43;DO2(C)=44;DO3(C)=45;DO4(C)=46;LedAl=49;LedTr=50;LedA=51;LedB=52;LedC=53;LedDR=54;VO1=55;VO2=56;VO3= 57;VO4=58;VO5=59;VO6=60;DI21=65;DI22=66;DI23=67;DI24=68;DI25=69;DI26=70;DI27=71;DI28=72;DI29=73;DI30=74;DI31=75; DI32=76;DI33=77;DI34=78;DI35=79;DI36=80;DI37=81;DI38=82;DI39=83;DI40=84;F1=85;F2=86;F3=87;F4=88;F5=89;F6=90;F7=91; DO1(D)=97;DO2(D)=98;DO3(D)=99;Watchdog=100;DO1(E)=101;DO2(E)=102;NI1=129;NI2=130;NI3=131;NI4=132;NI5=133;NI6=134; NI7=135;NI8=136;NI9=137;NI10=138;NI11=139;NI12=140;NI13=141;NI14=142;NI15=143;NI16=144;NI17=145;NI18=146;NI19=147; NI20=148;NI21=149;NI22=150;NI23=151;NI24=152;NI25=153;NI26=154;NI27=155;NI28=156;NI29=157;NI30=158;NI31=159;NI32= 160;NI33=161;NI34=162;NI35=163;NI36=164;NI37=165;NI38=166;NI39=167;NI40=168;NI41=169;NI42=170;NI43=171;NI44=172; NI45=173;NI46=174;NI47=175;NI48=176;NI49=177;NI50=178;NI51=179;NI52=180;NI53=181;NI54=182;NI55=183;NI56=184;NI57= 185;NI58=186;NI59=187;NI60=188;NI61=189;NI62=190;NI63=191;NI64=192;POC1=193;POC2=194;POC3=195;POC4=196;POC5= 197;POC6=198;POC7=199;POC8=200;POC9=201;POC10=202;POC11=203;POC12=204;POC13=205;POC14=206;POC15=207; POC16=208;VI5=225;VI6=226;VI7=227;VI8=228;VI9=229;VI10=230;VI11=231;VI12=232;VI13=233;VI14=234;VI15=235;VI16=236; VI17=237;VI18=238;VI19=239;VI20=240;VO7=257;VO8=258;VO9=259;VO10=260;VO11=261;VO12=262;VO13=263;VO14=264; VO15=265;VO16=266;VO17=267;VO18=268;VO19=269;VO20=270;NI65=289;NI66=290;NI67=291;NI68=292;NI69=293;NI70=294; NI71=295;NI72=296;NI73=297;NI74=298;NI75=299;NI76=300;NI77=301;NI78=302;NI79=303;NI80=304;NI81=305;NI82=306;NI83= 307;NI84=308;NI85=309;NI86=310;NI87=311;NI88=312;NI89=313;NI90=314;NI91=315;NI92=316;NI93=317;NI94=318;NI95=319; NI96=320;NI97=321;NI98=322;NI99=323;NI100=324;NI101=325;NI102=326;NI103=327;NI104=328;NI105=329;NI106=330;NI107= 331;NI108=332;NI109=333;NI110=334;NI111=335;NI112=336;NI113=337;NI114=338;NI115=339;NI116=340;NI117=341;NI118=342; NI119=343;NI120=344;NI121=345;NI122=346;NI123=347;NI124=348;NI125=349;NI126=350;NI127=351;NI128=352

P5/EN M/33B

73

Communication protocols

Name
Angle offset
Delay curve family
Delay type
Operation delay Inv. time coefficient Reset time Inrush status for I>> SOL status for I>> SOL Operation delay SOL Inv. time coefficient CLPU status for I>> CLPU Pick-up value CLPU Operation delay CLPU Inv. time coefficient Reset type I>>> setting Enable for I>>> Pick-up value
Direction mode
Angle offset Operation delay Inrush status for I>>> SOL status for I>>> SOL Operation delay CLPU status for I>>> CLPU Pick-up value CLPU Operation delay I>>>> setting Enable for I>>>> Pick-up value
Direction mode
Angle offset Operation delay Inrush status for I>>>>

FUN 8
8
8
8 8 8 8 8 8 8 8 8 8 8 8
9 9 9 9 9 9 9 9 9 9 9
10 10 10 10 10 10

INF ASDU

Scaling

P5U20 LPCT/LPVT

P5U20

9...12 144 1 ° = 1



DT=0;IEC=1;IEEE=2;

13...16 143 IEEE2=3;Others=4;



Prg1=5;Prg2=6;Prg3=7

DT=0;NI=1;VI=2;EI=3;

LTI=4;LTEI=5;LTVI=6;

17...20 143 MI=7;STI=8;STEI=9;



CO8=10;RI=11;RXIDG=

12

21...24 201 1.00 s = 100



25...28 201 1.000 = 1000



29...32 201 1.00 s = 100



33...36 143 Off=0;On=1



37...40 143 Off=0;On=1



41...44 201 1.00 s = 100



P5V20

45...48 201 1.000 = 1000



49...52 143 Off=0;On=1



53...56 201 1.00 xIn = 100



57...60 201 1.00 s = 100



61...64 201 1.000 = 1000



65...68 143 DT=0;IDMT=1



0

143 Off=0;On=1



1...4 201 1.00 xIn = 100



5...8

143

Dir+Backup=0;Undir=1; Dir=2



9...12 144 1 ° = 1



13...16 201 1.00 s = 100



17...20 143 Off=0;On=1



21...24 143 Off=0;On=1



25...28 201 1.00 s = 100



29...32 143 Off=0;On=1



33...36 201 1.00 xIn = 100



37...40 201 1.00 s = 100



0

143 Off=0;On=1



1...4 201 1.00 xIn = 100



5...8

143

Dir+Backup=0;Undir=1; Dir=2



9...12 144 1 ° = 1



13...16 201 1.00 s = 100



17...20 143 Off=0;On=1



P5F30 


           
          
     

P5M30 


           
          
     

74

P5/EN M/33B

Communication protocols

Name SOL status for I>>>> SOL Operation delay CLPU status for I>>>> CLPU Pick-up value CLPU Operation delay P< setting Enable for P< Pick-up value Operation delay P<< setting Enable for P<< Pick-up value Operation delay I< setting Enable for I< Pick-up value Operation delay I2>I1 setting Enable for I2/I1> Pick-up value Operation delay I2> setting Enable for I2> Pick-up value
Delay curve family
Delay type
Operation delay Inv. time coefficient Reset type Reset time Ist> setting Enable for Ist> Delay type Motor start time Ilr> setting Enable for Ilr> Pick-up value

FUN INF ASDU

Scaling

10 21...24 143 Off=0;On=1 10 25...28 201 1.00 s = 100 10 29...32 143 Off=0;On=1 10 33...36 201 1.00 xIn = 100 10 37...40 201 1.00 s = 100

P5U20 LPCT/LPVT

P5U20

P5V20











11

0

143 Off=0;On=1



11

1...4 201 1 %Sn = 1



11

5...8 201 1.0 s = 10



12

0

143 Off=0;On=1



12

1...4 201 1 %Sn = 1



12

5...8 201 1.0 s = 10



13

0

143 Off=0;On=1

13

1...4 201 1.00 %In = 100

13

5...8 201 1.0 s = 10













14

0

143 Off=0;On=1

14

1...4 201 1 % = 1

14

5...8 201 1.00 s = 100













16

0

143 Off=0;On=1





16

1...4 201 1.00 xIn = 100





DT=0;IEC=1;IEEE=2;

16

5...8

143 IEEE2=3;Others=4;





Prg1=5;Prg2=6;Prg3=7

DT=0;NI=1;VI=2;EI=3;

LTI=4;LTEI=5;LTVI=6;

16 9...12 143 MI=7;STI=8;STEI=9;





CO8=10;RI=11;RXIDG=

12

16 13...16 201 1.00 s = 100





16 17...20 201 1.000 = 1000 16 21...24 143 DT=0;IDMT=1









16 25...28 201 1.00 s = 100





17

0

143 Off=0;On=1

17

1

143 DT=0;INV=1

17

2

201 1.0 s = 10













18

0

143 Off=0;On=1

18

1

201 1.0 % = 10









P5F30     
  
  
  
  

   

P5M30     
  
  
  
  
  

   
  
 

P5/EN M/33B

75

Communication protocols

Name

FUN INF ASDU

Scaling

Delay type

18

2

143 DT=0;INV=1

Operation delay

18

3

201 1.0 s = 10

N> setting

Enable for N>

19

0

143 Off=0;On=1

Max motor Hot starts 19

Max motor cold starts 19

Min time between motor starts

19

Reference period

19

1

201 1 = 1

2

201 1 = 1

3

201 1.0 min = 10

4

201 1.0 min = 10

Hot Status Limit Motor T> setting

19

5

201 1.0 % = 10

Enable for Motor T>

20

0

143 Off=0;On=1

Basic current setting

20

1...4 201 1.00 xIn = 100

Max permissive I factor
Heating time constant
Time constant for motor starting

20

5...8 201 1.00 = 100

20 9...12 201 1.0 min = 10

20 13...16 201 1.0 min = 10

Cooling time constant

20 17...20 201 1.0 min = 10

Unbalance factor

20 21...24 201 1.0 = 10

Thermal alarm value

20 25...28 201 1 % = 1

Reserve time thermal alarm

20

29...32 201 1.0 min = 10

Temperature based mode

20 33...36 143 Current=0;Ambient=1

Nominal ambient temp

20 37...40 144 1 °C = 1 / 1 °F = 1

Max object temperature

20 41...44 144 1 °C = 1 / 1 °F = 1

Alarm temperature

20 45...48 144 1 °C = 1 / 1 °F = 1

Min ambient temperature

20 49...52 144 1 °C = 1 / 1 °F = 1

Default ambient temperature

20 53...56 144 1 °C = 1 / 1 °F = 1

Feeder T> setting

Enable for feeder T>

21

0

143 Off=0;On=1

Basic current setting

21

1...4 201 1.00 xIn = 100

Max permissive I factor

21

5...8 201 1.00 = 100

Heating time constant

21 9...12 201 1.0 min = 10

Thermal alarm value

21 13...16 201 1 % = 1

Reserve time thermal alarm

21

17...20 201 1.0 min = 10

Temperature based mode

21 21...24 143 Current=0;Ambient=1

Nominal ambient temp

21 25...28 144 1 °C = 1 / 1 °F = 1

Max object temperature

21 29...32 144 1 °C = 1 / 1 °F = 1

P5U20 LPCT/LPVT

P5U20









P5V20

P5F30

P5M30  





















































































































































































76

P5/EN M/33B

Communication protocols

Name Alarm temperature Min ambient temperature Default ambient temperature Io> setting Enable for Io> Pick-up value
Delay curve family
Delay type
Operation delay Inv. time coefficient Network earthing Reset time Inrush status for Io> SOL use for Io> SOL Operation delay SOL Inv. time coefficient CLPU status for Io> CLPU Pick-up value CLPU Operation delay CLPU Inv. time coefficient Reset type Enable faulty phase detection Phase currents change limit Io>> setting Enable for Io>> Pick-up value
Delay curve family
Delay type
Operation delay Inv. time coefficient Network earthing Inrush status for Io>>

FUN 21 21 21
22 22 22
22
22 22 22 22 22 22 22 22 22 22 22 22 22 22 22
23 23 23
23
23 23 23 23

INF ASDU

Scaling

33...36 144 1 °C = 1 / 1 °F = 1

37...40 144 1 °C = 1 / 1 °F = 1

41...44 144 1 °C = 1 / 1 °F = 1

P5U20 LPCT/LPVT


P5U20 

P5V20









0

143 Off=0;On=1





1...4

201 1.000 pu = 1000





DT=0;IEC=1;IEEE=2;

5...8

143 IEEE2=3;Others=4;





Prg1=5;Prg2=6;Prg3=7

DT=0;NI=1;VI=2;EI=3;

LTI=4;LTEI=5;LTVI=6;

9...12 143 MI=7;STI=8;STEI=9;





CO8=10;RI=11;RXIDG=

12

13...16 201 1.00 s = 100





17...20 201 1.000 = 1000 21...24 143 Res=0;Cap=1 25...28 201 1.00 s = 100 29...32 143 Off=0;On=1

















33...36 143 Off=0;On=1





37...40 201 1.00 s = 100





41...44 201 1.000 = 1000





45...48 143 Off=0;On=1 49...52 201 1.00 xIn = 100









53...56 201 1.00 s = 100





57...60 201 1.000 = 1000

61...64 143 DT=0;IDMT=1

65

143 Off=0;On=1













66

143 1 % = 1





0

143 Off=0;On=1





1...4

201 1.00 pu = 100





DT=0;IEC=1;IEEE=2;

5...8

143 IEEE2=3;Others=4;





Prg1=5;Prg2=6;Prg3=7

DT=0;NI=1;VI=2;EI=3;

LTI=4;LTEI=5;LTVI=6;

9...12 143 MI=7;STI=8;STEI=9;





CO8=10;RI=11;RXIDG=

12

13...16 201 1.00 s = 100





17...20 201 1.000 = 1000





21...24 143 Res=0;Cap=1





25...28 143 Off=0;On=1





P5F30   
  

              
  

   

P5M30
  

              
  

   

P5/EN M/33B

77

Name
SOL use for Io>> SOL Operation delay
SOL Inv. time coefficient CLPU status for Io>> CLPU Pick-up value
CLPU Operation delay
CLPU Inv. time coefficient Reset type
Reset time Enable faulty phase detection Phase currents change limit
Io>>> setting
Enable for Io>>> Pick-up value
Operation delay
Network earthing
Inrush status for Io>>> SOL use for Io>>> SOL Operation delay
CLPU status for Io>>> CLPU Pick-up value
CLPU Operation delay
Enable faulty phase detection Phase currents change limit
Io>>>> setting
Enable for Io>>>> Pick-up value
Operation delay
Network earthing
Inrush status for Io>>>> SOL use for Io>>>> SOL Operation delay
CLPU status for Io>>>> CLPU Pick-up value
CLPU Operation delay
Enable faulty phase detection

FUN INF ASDU

Scaling

23 29...32 143 Off=0;On=1 23 33...36 201 1.00 s = 100

23 37...40 201 1.000 = 1000

23 41...44 143 Off=0;On=1 23 45...48 201 1.00 xIn = 100

23 49...52 201 1.00 s = 100

23 53...56 201 1.000 = 1000

23 57...60 143 DT=0;IDMT=1 23 61...64 201 1.00 s = 100

23

65

143 Off=0;On=1

23

66

143 1 % = 1

24

0

143 Off=0;On=1

24

1...4

201 1.00 pu = 100

24

5...8 201 1.00 s = 100

24 9...12 143 Res=0;Cap=1

24 13...16 143 Off=0;On=1

24 17...20 143 Off=0;On=1 24 21...24 201 1.00 s = 100

24 25...28 143 Off=0;On=1

24 29...32 201 1.00 xIn = 100

24 33...36 201 1.00 s = 100

24

37

143 Off=0;On=1

24

38

143 1 % = 1

25

0

143 Off=0;On=1

25

1...4

201 1.00 pu = 100

25

5...8 201 1.00 s = 100

25 9...12 143 Res=0;Cap=1

25 13...16 143 Off=0;On=1

25 17...20 143 Off=0;On=1 25 21...24 201 1.00 s = 100

25 25...28 143 Off=0;On=1

25 29...32 201 1.00 xIn = 100

25 33...36 201 1.00 s = 100

25

37

143 Off=0;On=1

78

Communication protocols

P5U20 LPCT/LPVT

P5U20









P5V20

P5F30  

P5M30  

























































































 





























































































































P5/EN M/33B

Communication protocols

Name Phase currents change limit Io>>>>> setting Enable for Io>>>>> Pick-up value Operation delay Io> setting Enable for Io> Direction mode Char ctrl. in ResCap mode Pick-up value Uo setting for Io> stage Angle offset Pick up sector size
Delay curve family
Delay type
Operation delay Inv. time coefficient Reset type Reset time Io>> setting Enable for Io>> Direction mode Char ctrl. in ResCap mode Pick-up value Uo setting for Io>> stage Angle offset Pick up sector size
Delay curve family
Delay type

FUN INF ASDU

Scaling

25

38

143 1 % = 1

P5U20 LPCT/LPVT

P5U20

P5V20

P5F30

P5M30







26

0

143 Off=0;On=1



26

1...4

201 1.00 pu = 100



26

5...8 201 1.00 s = 100



27

0

143 Off=0;On=1



27

1...4

143

ResCap=0;Sector=1; Undir=2



27

5...8

143 Value7



27 9...12 201 1.000 pu = 1000



27 13...16 201 1.0 % = 10



27 17...20 144 1 ° = 1



27 21...24 144 1 ±° = 1



DT=0;IEC=1;IEEE=2;

27 25...28 143 IEEE2=3;Others=4;



Prg1=5;Prg2=6;Prg3=7

DT=0;NI=1;VI=2;EI=3;

LTI=4;LTEI=5;LTVI=6;

27 29...32 143 MI=7;STI=8;STEI=9;



CO8=10;RI=11;RXIDG=

12

27 33...36 201 1.00 s = 100



27 37...40 201 1.000 = 1000



27 41...44 143 DT=0;IDMT=1



27 45...48 201 1.00 s = 100



28

0

143 Off=0;On=1



28

1...4

143

ResCap=0;Sector=1; Undir=2



28

5...8

143 Value7



28 9...12 201 1.000 pu = 1000



28 13...16 201 1.0 % = 10



28 17...20 144 1 ° = 1



28 21...24 144 1 ±° = 1



DT=0;IEC=1;IEEE=2;

28 25...28 143 IEEE2=3;Others=4;



Prg1=5;Prg2=6;Prg3=7

DT=0;NI=1;VI=2;EI=3;

LTI=4;LTEI=5;LTVI=6;

28 29...32 143 MI=7;STI=8;STEI=9;



CO8=10;RI=11;RXIDG=

12





































































































7. Res=0;Cap=1;DI1(B)=2;DI2(B)=3;DI3(B)=4;DI4(B)=5;DI1(C)=6;DI2(C)=7;DI3(C)=8;DI4(C)=9;DI5(C)=10;DI6(C)=11;DI1(D)=12;DI2(D) =13;DI3(D)=14;DI1(E)=15;DI2(E)=16;DI3(E)=17;DI4(E)=18;DI5(E)=19;DI6(E)=20;DI20=21;Arc1=26;Arc2=27;BI=28;VI1=30;VI2=31; VI3=32;VI4=33;DI21=66;DI22=67;DI23=68;DI24=69;DI25=70;DI26=71;DI27=72;DI28=73;DI29=74;DI30=75;DI31=76;DI32=77;DI33= 78;DI34=79;DI35=80;DI36=81;DI37=82;DI38=83;DI39=84;DI40=85;VI5=226;VI6=227;VI7=228;VI8=229;VI9=230;VI10=231;VI11=232; VI12=233;VI13=234;VI14=235;VI15=236;VI16=237;VI17=238;VI18=239;VI19=240;VI20=241

P5/EN M/33B

79

Communication protocols

Name Operation delay Inv. time coefficient Reset type Reset time Io>>>setting Enable for Io>>>
Direction mode Char ctrl. in ResCap mode Pick-up value Uo setting for Io>>> stage Angle offset Pick up sector size
Delay curve family
Delay type
Operation delay Inv. time coefficient Reset type Reset time IoUo> setting Enable for IoUo> Direction mode Inhibit ctrl. Timer instant delay ctrl. Pick-up value Uo pick-up value Pick-up sector size Operation delay SOL Mode SOL Operation delay
Memory Mode
Uo pick-up value

FUN INF ASDU

Scaling

28 33...36 201 1.00 s = 100 28 37...40 201 1.000 = 1000 28 41...44 143 DT=0;IDMT=1 28 45...48 201 1.00 s = 100

P5U20 LPCT/LPVT
   

P5U20

P5V20

29

0

143 Off=0;On=1



29

1...4

143

ResCap=0;Sector=1; Undir=2



29

5...8

143 Value8



29 9...12 201 1.000 pu = 1000



29 13...16 201 1.0 % = 10



29 17...20 144 1 ° = 1



29 21...24 144 1 ±° = 1



DT=0;IEC=1;IEEE=2;

29 25...28 143 IEEE2=3;Others=4;



Prg1=5;Prg2=6;Prg3=7

DT=0;NI=1;VI=2;EI=3;

LTI=4;LTEI=5;LTVI=6;

29 29...32 143 MI=7;STI=8;STEI=9;



CO8=10;RI=11;RXIDG=

12

29 33...36 201 1.00 s = 100



29 37...40 201 1.000 = 1000



29 41...44 143 DT=0;IDMT=1



29 45...48 201 1.00 s = 100



30

0

143 Off=0;On=1

30

1...4 143 Forward=0;Reverse=1

30

5...8

143 Value9

30

9...12 143 Value9

30 13...16 201 1.00 %Pno = 100

30 17...20 201 1.0 % = 10

30 21...24 144 1 ±° = 1

30 25...28 201 1.00 s = 100

30 29...32 143 Off=0;On=1

30 33...36 201 1.00 s = 100

30

37...40

143

None=0;Voltage=1; Time=2;Both=3

30 41...44 201 1.0 % = 10

P5F30    
       

   
  
   
 

P5M30    
      


   
           

8. Res=0;Cap=1;DI1(B)=2;DI2(B)=3;DI3(B)=4;DI4(B)=5;DI1(C)=6;DI2(C)=7;DI3(C)=8;DI4(C)=9;DI5(C)=10;DI6(C)=11;DI1(D)=12;DI2(D) =13;DI3(D)=14;DI1(E)=15;DI2(E)=16;DI3(E)=17;DI4(E)=18;DI5(E)=19;DI6(E)=20;DI20=21;Arc1=26;Arc2=27;BI=28;VI1=30;VI2=31; VI3=32;VI4=33;DI21=66;DI22=67;DI23=68;DI24=69;DI25=70;DI26=71;DI27=72;DI28=73;DI29=74;DI30=75;DI31=76;DI32=77;DI33= 78;DI34=79;DI35=80;DI36=81;DI37=82;DI38=83;DI39=84;DI40=85;VI5=226;VI6=227;VI7=228;VI8=229;VI9=230;VI10=231;VI11=232; VI12=233;VI13=234;VI14=235;VI15=236;VI16=237;VI17=238;VI18=239;VI19=240;VI20=241
9. DI1(B)=1;DI2(B)=2;DI3(B)=3;DI4(B)=4;DI1(C)=5;DI2(C)=6;DI3(C)=7;DI4(C)=8;DI5(C)=9;DI6(C)=10;DI1(D)=11;DI2(D)=12;DI3(D)=13; DI1(E)=14;DI2(E)=15;DI3(E)=16;DI4(E)=17;DI5(E)=18;DI6(E)=19;DI20=20;Arc1=25;Arc2=26;BI=27;VI1=29;VI2=30;VI3=31;VI4=32; DI21=65;DI22=66;DI23=67;DI24=68;DI25=69;DI26=70;DI27=71;DI28=72;DI29=73;DI30=74;DI31=75;DI32=76;DI33=77;DI34=78;DI35= 79;DI36=80;DI37=81;DI38=82;DI39=83;DI40=84;VI5=225;VI6=226;VI7=227;VI8=228;VI9=229;VI10=230;VI11=231;VI12=232;VI13= 233;VI14=234;VI15=235;VI16=236;VI17=237;VI18=238;VI19=239;VI20=240

80

P5/EN M/33B

Communication protocols

Name
Memory time Reset time IoUo>> setting Enable for IoUo>> Direction mode Input for inhibit control Timer instant delay ctrl. Pick-up value Uo pick-up value Pick up sector size Operation delay SOL Mode SOL Operation delay
Memory Mode
Uo memory value Memory time Reset time U> setting Enable for U> Pick-up value Operation delay Reset time Hysteresis U>> setting Enable for U>> Pick-up value Operation delay Hysteresis U>>> setting Enable for U>>> Pick-up value Operation delay Hysteresis U< setting Enable for U< Pick-up value Operation delay

FUN INF ASDU

Scaling

30 45...48 201 1.00 s = 100

30

49

201 1.00 s = 100

31

0

143 Off=0;On=1

31

1...4 143 Forward=0;Reverse=1

31

5...8

143 Value10

31

9...12 143 Value10

31 13...16 201 1.00 %Pno = 100

31 17...20 201 1.0 % = 10

31 21...24 144 1 ±° = 1

31 25...28 201 1.00 s = 100

31 29...32 143 Off=0;On=1

31 33...36 201 1.00 s = 100

31

37...40

143

None=0;Voltage=1; Time=2;Both=3

31 41...44 201 1.0 % = 10

31 45...48 201 1.00 s = 100

31

49

201 1.00 s = 100

32

0

143 Off=0;On=1

32

1...4 201 1.0 %Un = 10

32

5...8 201 1.00 s = 100

32

9

201 1.00 s = 100

32

10

201 1.0 % = 10

33

0

143 Off=0;On=1

33

1...4 201 1.0 %Un = 10

33

5...8 201 1.00 s = 100

33

9

201 1.0 % = 10

34

0

143 Off=0;On=1

34

1...4 201 1.0 %Un = 10

34

5...8 201 1.00 s = 100

34

9

201 1.0 % = 10

35

0

143 Off=0;On=1

35

1...4 201 1.0 %Un = 10

35

5...8 201 1.00 s = 100

P5U20 LPCT/LPVT

P5U20

P5V20

P5F30  

P5M30  

























































































































































































10. DI1(B)=1;DI2(B)=2;DI3(B)=3;DI4(B)=4;DI1(C)=5;DI2(C)=6;DI3(C)=7;DI4(C)=8;DI5(C)=9;DI6(C)=10;DI1(D)=11;DI2(D)=12;DI3(D)=13; DI1(E)=14;DI2(E)=15;DI3(E)=16;DI4(E)=17;DI5(E)=18;DI6(E)=19;DI20=20;Arc1=25;Arc2=26;BI=27;VI1=29;VI2=30;VI3=31;VI4=32; DI21=65;DI22=66;DI23=67;DI24=68;DI25=69;DI26=70;DI27=71;DI28=72;DI29=73;DI30=74;DI31=75;DI32=76;DI33=77;DI34=78;DI35= 79;DI36=80;DI37=81;DI38=82;DI39=83;DI40=84;VI5=225;VI6=226;VI7=227;VI8=228;VI9=229;VI10=230;VI11=231;VI12=232;VI13= 233;VI14=234;VI15=235;VI16=236;VI17=237;VI18=238;VI19=239;VI20=240

P5/EN M/33B

81

Name
Reset time Hysteresis U<< setting Enable for U<< Pick-up value Operation delay Hysteresis U<<< setting Enable for U<<< Pick-up value Operation delay Hysteresis U1< setting Enable for U1< Pick-up value Operation delay Low voltage blocking U1<< setting Enable for U1<< Pick-up value Operation delay Low voltage blocking Uo> setting Enable for Uo> Pick-up value Operation delay Reset time Uo>> setting Enable for Uo>> Pick-up value Operation delay Reset time Uo>>> setting Enable for Uo>>> Pick-up value Operation delay Reset time fX setting Enable for fX Pick-up value Operation delay Low voltage blocking

FUN 35 35
36 36 36 36
37 37 37 37
38 38 38 38
39 39 39 39
40 40 40 40
41 41 41 41
42 42 42 42
43 43 43 43

INF ASDU

Scaling

9

201 1.00 s = 100

10

201 1.0 % = 10

0

143 Off=0;On=1

1...4 201 1.0 %Un = 10

5...8 201 1.00 s = 100

9

201 1.0 % = 10

0

143 Off=0;On=1

1...4 201 1.0 %Un = 10

5...8 201 1.00 s = 100

9

201 1.0 % = 10

0

143 Off=0;On=1

1...4 201 1 %Vn = 1

5...8 201 1.00 s = 100

9

201 1.0 %Un = 10

0

143 Off=0;On=1

1...4 201 1 %Vn = 1

5...8 201 1.00 s = 100

9

201 1.0 %Un = 10

0 1...4 5...8 9...12

143 Off=0;On=1 201 1 % = 1 201 1.00 s = 100 201 1.00 s = 100

0 1...4 5...8 9...12

143 Off=0;On=1 201 1 % = 1 201 1.00 s = 100 201 1.00 s = 100

0 1...4 5...8 9...12

143 Off=0;On=1 201 1 % = 1 201 1.00 s = 100 201 1.00 s = 100

0

143 Off=0;On=1

1...4 201 50.00 Hz = 5000

5...8 201 1.00 s = 100

9

201 1.0 %Un = 10

82

Communication protocols

P5U20 LPCT/LPVT



P5U20

P5V20  

P5F30  

P5M30  

































































































































































































































P5/EN M/33B

Communication protocols

Name
fXX setting Enable for fXX Pick-up value Operation delay Low voltage blocking f< setting Enable for f< Pick-up value Operation delay Low voltage blocking f<< setting Enable for f<< Pick-up value Operation delay Low voltage blocking CBFail setting Enable for CB fail Enable CBF timer1 Timer1 Operation Delay Enable CBF timer2 Timer2 Operation Delay Noncurrent CBF reset mode
Ext. CBF reset mode
I< current set Io< current set Io'< current set Ih5> setting Enable for Ih5>

FUN
44 44 44 44
45 45 45 45
46 46 46 46
47 47 47 47 47 47 47 47 47 47
49

INF ASDU

Scaling

P5U20 LPCT/LPVT

P5U20

P5V20

P5F30

P5M30

0

143 Off=0;On=1



1...4 201 50.00 Hz = 5000



5...8 201 1.00 s = 100



9

201 1.0 %Un = 10



























0

143 Off=0;On=1



1...4 201 50.00 Hz = 5000



5...8 201 1.00 s = 100



9

201 1.0 %Un = 10



























0

143 Off=0;On=1



1...4 201 50.00 Hz = 5000



5...8 201 1.00 s = 100



9

201 1.0 %Un = 10



























0

143 Off=0;On=1



1

143 Off=0;On=1



2

201 1.00 s = 100



3

143 Off=0;On=1



4

201 1.00 s = 100



5

143

I<Only=0;PoleDead=1; ProtRst=2



6

143

I<Only=0;PoleDead=1; ProtRst=2



7

201 1.00 xIn = 100



8

201 1.000 pu = 1000



9

201 1.000 pu = 1000











































































0

143 Off=0;On=1









P5/EN M/33B

83

Communication protocols

Name Pick-up value Operation delay CT setting Enable for CT supervision CTS Operate mode CTS reset input Operation delay Residual current > Residual voltage < VT setting Enable for VTS U2> setting I2< setting Operation delay Inhibit ctrl. DI for MCB position I>(min) setting I<(max) setting Io'> setting Enable for Io'> Pick-up value
Delay curve family
Delay type

FUN 49 49

INF ASDU

Scaling

1

201 1 % = 1

2

201 1.00 s = 100

P5U20 LPCT/LPVT

P5U20









P5V20

P5F30  

P5M30  

50

0

143 Off=0;On=1



50

1

143

3I only=0;I0&U0=1; Both=2



50

2

144 Value 11



50

3

201 1.00 s = 100



50

4

201 1.00 xIn = 100



50

5

201 1.0 %Un = 10



51

0

143 Off=0;On=1



51

1

201 1.0 %Vn = 10



51

2

201 1.00 xIn = 100



51

3

201 1.00 s = 100



51

4

144 Value 12



51

5

144 Value13



51

6

201 1.00 xIn = 100



51

7

201 1.00 xIn = 100



52

0

143 Off=0;On=1

52

1...4

201 1.000 pu = 1000

DT=0;IEC=1;IEEE=2;

52

5...8

143 IEEE2=3;Others=4;

Prg1=5;Prg2=6;Prg3=7

DT=0;NI=1;VI=2;EI=3; 52 9...12 143 LTI=4;LTEI=5;LTVI=6;
MI=7;STI=8;STEI=9;





























































































11. DI1(B)=1;DI2(B)=2;DI3(B)=3;DI4(B)=4;DI1(C)=5;DI2(C)=6;DI3(C)=7;DI4(C)=8;DI5(C)=9;DI6(C)=10;DI1(D)=11;DI2(D)=12;DI3(D)=13; DI1(E)=14;DI2(E)=15;DI3(E)=16;DI4(E)=17;DI5(E)=18;DI6(E)=19;DI20=20;Arc1=25;Arc2=26;BI=27;VI1=29;VI2=30;VI3=31;VI4=32; DO1(B)=33;DO2(B)=34;DO3(B)=35;Watchdog=36;Watchdog=37;Watchdog=38;Watchdog=39;Watchdog=40;Watchdog=41;BO=42; DO1(C)=43;DO2(C)=44;DO3(C)=45;DO4(C)=46;LedAl=49;LedTr=50;LedA=51;LedB=52;LedC=53;LedDR=54;VO1=55;VO2=56;VO3= 57;VO4=58;VO5=59;VO6=60;DI21=65;DI22=66;DI23=67;DI24=68;DI25=69;DI26=70;DI27=71;DI28=72;DI29=73;DI30=74;DI31=75; DI32=76;DI33=77;DI34=78;DI35=79;DI36=80;DI37=81;DI38=82;DI39=83;DI40=84;F1=85;F2=86;F3=87;F4=88;F5=89;F6=90;F7=91; DO1(D)=97;DO2(D)=98;DO3(D)=99;Watchdog=100;DO1(E)=101;DO2(E)=102;NI1=129;NI2=130;NI3=131;NI4=132;NI5=133;NI6=134; NI7=135;NI8=136;NI9=137;NI10=138;NI11=139;NI12=140;NI13=141;NI14=142;NI15=143;NI16=144;NI17=145;NI18=146;NI19=147; NI20=148;NI21=149;NI22=150;NI23=151;NI24=152;NI25=153;NI26=154;NI27=155;NI28=156;NI29=157;NI30=158;NI31=159;NI32= 160;NI33=161;NI34=162;NI35=163;NI36=164;NI37=165;NI38=166;NI39=167;NI40=168;NI41=169;NI42=170;NI43=171;NI44=172; NI45=173;NI46=174;NI47=175;NI48=176;NI49=177;NI50=178;NI51=179;NI52=180;NI53=181;NI54=182;NI55=183;NI56=184;NI57= 185;NI58=186;NI59=187;NI60=188;NI61=189;NI62=190;NI63=191;NI64=192;POC1=193;POC2=194;POC3=195;POC4=196;POC5= 197;POC6=198;POC7=199;POC8=200;POC9=201;POC10=202;POC11=203;POC12=204;POC13=205;POC14=206;POC15=207; POC16=208;VI5=225;VI6=226;VI7=227;VI8=228;VI9=229;VI10=230;VI11=231;VI12=232;VI13=233;VI14=234;VI15=235;VI16=236; VI17=237;VI18=238;VI19=239;VI20=240;VO7=257;VO8=258;VO9=259;VO10=260;VO11=261;VO12=262;VO13=263;VO14=264; VO15=265;VO16=266;VO17=267;VO18=268;VO19=269;VO20=270;NI65=289;NI66=290;NI67=291;NI68=292;NI69=293;NI70=294; NI71=295;NI72=296;NI73=297;NI74=298;NI75=299;NI76=300;NI77=301;NI78=302;NI79=303;NI80=304;NI81=305;NI82=306;NI83= 307;NI84=308;NI85=309;NI86=310;NI87=311;NI88=312;NI89=313;NI90=314;NI91=315;NI92=316;NI93=317;NI94=318;NI95=319; NI96=320;NI97=321;NI98=322;NI99=323;NI100=324;NI101=325;NI102=326;NI103=327;NI104=328;NI105=329;NI106=330;NI107= 331;NI108=332;NI109=333;NI110=334;NI111=335;NI112=336;NI113=337;NI114=338;NI115=339;NI116=340;NI117=341;NI118=342; NI119=343;NI120=344;NI121=345;NI122=346;NI123=347;NI124=348;NI125=349;NI126=350;NI127=351;NI128=352
12. DI1(B)=1;DI2(B)=2;DI3(B)=3;DI4(B)=4;DI1(C)=5;DI2(C)=6;DI3(C)=7;DI4(C)=8;DI5(C)=9;DI6(C)=10;DI1(D)=11;DI2(D)=12;DI3(D)=13; DI1(E)=14;DI2(E)=15;DI3(E)=16;DI4(E)=17;DI5(E)=18;DI6(E)=19;DI20=20;Arc1=25;Arc2=26;BI=27;VI1=29;VI2=30;VI3=31;VI4=32; DI21=65;DI22=66;DI23=67;DI24=68;DI25=69;DI26=70;DI27=71;DI28=72;DI29=73;DI30=74;DI31=75;DI32=76;DI33=77;DI34=78;DI35= 79;DI36=80;DI37=81;DI38=82;DI39=83;DI40=84;VI5=225;VI6=226;VI7=227;VI8=228;VI9=229;VI10=230;VI11=231;VI12=232;VI13= 233;VI14=234;VI15=235;VI16=236;VI17=237;VI18=238;VI19=239;VI20=240
13. DI1(B)=1;DI2(B)=2;DI3(B)=3;DI4(B)=4;DI1(C)=5;DI2(C)=6;DI3(C)=7;DI4(C)=8;DI5(C)=9;DI6(C)=10;DI1(D)=11;DI2(D)=12;DI3(D)=13; DI1(E)=14;DI2(E)=15;DI3(E)=16;DI4(E)=17;DI5(E)=18;DI6(E)=19;DI20=20;DI21=21;DI22=22;DI23=23;DI24=24;DI25=25;DI26=26; DI27=27;DI28=28;DI29=29;DI30=30;DI31=31;DI32=32;DI33=33;DI34=34;DI35=35;DI36=36;DI37=37;DI38=38;DI39=39;DI40=40

Communication protocols

Name
Operation delay Inv. time coefficient Network grounding Reset time Inrush status for Io'> SOL status for Io'> SOL Operation delay SOL Inv. time coefficient CLPU status for Io'> CLPU Pick-up value CLPU Operation delay CLPU Inv. time coefficient Reset type Enable faulty phase detection Phase currents change limit Io'>> setting Enable for Io'>> Pick-up value
Delay curve family
Delay type
Operation delay Inv. time coefficient Network earthing Inrush status for Io'>> SOL status for Io'>> SOL Operation delay SOL Inv. time coefficient CLPU status for Io'>> CLPU Pick-up value CLPU Operation delay CLPU Inv. time coefficient Reset type Reset time

FUN
52 52 52 52 52 52 52 52 52 52 52 52 52 52 52
53 53
53
53
53 53 53 53 53 53 53 53 53 53 53 53 53

INF ASDU

Scaling

CO8=10;RI=11;RXIDG= 12 13...16 201 1.00 s = 100 17...20 201 1.000 = 1000 21...24 143 Res=0;Cap=1 25...28 201 1.00 s = 100 29...32 143 Off=0;On=1 33...36 143 Off=0;On=1 37...40 201 1.00 s = 100

P5U20 LPCT/LPVT

P5U20
      

P5V20

41...44 201 1.000 = 1000



45...48 143 Off=0;On=1



49...52 201 1.00 xIn = 100



53...56 201 1.00 s = 100



57...60 201 1.000 = 1000



61...64 143 DT=0;IDMT=1



65

143 Off=0;On=1



66

143 1 % = 1



0

143 Off=0;On=1



1...4

201 1.000 pu = 1000



DT=0;IEC=1;IEEE=2;

5...8

143 IEEE2=3;Others=4;



Prg1=5;Prg2=6;Prg3=7

DT=0;NI=1;VI=2;EI=3;

LTI=4;LTEI=5;LTVI=6;

9...12 143 MI=7;STI=8;STEI=9;



CO8=10;RI=11;RXIDG=

12

13...16 201 1.00 s = 100



17...20 201 1.000 = 1000



21...24 143 Res=0;Cap=1



25...28 143 Off=0;On=1



29...32 143 Off=0;On=1



33...36 201 1.00 s = 100



37...40 201 1.000 = 1000



41...44 143 Off=0;On=1



45...48 201 1.00 xIn = 100



49...52 201 1.00 s = 100



53...56 201 1.000 = 1000



57...60 143 DT=0;IDMT=1



61...64 201 1.00 s = 100



P5F30
              
 


            

P5M30
              
 


            

P5/EN M/33B

85

Communication protocols

Name
Enable faulty phase detection Phase currents change limit Io'>>> setting Enable for Io'>>> Pick-up value Operation delay Network grounding Inrush status for Io'>>> SOL status for Io'>>> SOL Operation delay CLPU status for Io'>>> CLPU Pick-up value CLPU Operation delay Enable faulty phase detection Phase currents change limit Uc> setting Enable for Uc> Pick-up value Operation delay df/dt> setting Enable for df/dt>
Direction of change
Pick-up value Operation delay Low voltage blocking df/dt>> setting Enable for df/dt>>
Direction of change
Pick-up value Operation delay Low voltage blocking IoInt> setting Enable for IoInt> Direction mode Uo pick-up value Operation delay Min number of peaks

FUN 53 53
54 54 54 54 54 54 54 54 54 54 54 54
55 55 55
56 56 56 56 56
57 57 57 57 57
58 58 58 58 58

INF ASDU

Scaling

65

143 Off=0;On=1

66

143 1 % = 1

0 1...4 5...8 9...12

143 Off=0;On=1 201 1.000 pu = 1000 201 1.00 s = 100 143 Res=0;Cap=1

13...16 143 Off=0;On=1

17...20 143 Off=0;On=1 21...24 201 1.00 s = 100

25...28 143 Off=0;On=1

29...32 201 1.00 xIn = 100

33...36 201 1.00 s = 100

37

143 Off=0;On=1

38

143 1 % = 1

0

143 Off=0;On=1

1...4 201 1.00 xUcLN = 100

5...8 201 1.0 s = 10

0 1...4 5...8 9...12 13

143 Off=0;On=1

143

Negative=0;Positive=1; Either=2

201 1.0 Hz/s = 10

201 1.00 s = 100

201 1.0 %Un = 10

0 1...4 5...8 9...12 13

143 Off=0;On=1

143

Negative=0;Positive=1; Either=2

201 1.0 Hz/s = 10

201 1.00 s = 100

201 1.0 %Un = 10

0

143 Off=0;On=1

1...4 143 Forward=0;Reverse=1

5...8 201 1 % = 1

9...12 201 1.00 s = 100

13...16 143 1 = 1

P5U20 LPCT/LPVT

P5U20

P5V20





         



  









































P5F30  
           
  
    
    
    

P5M30  
           

86

P5/EN M/33B

Communication protocols

Name

FUN

Reset delay

58

Intermittent time

58

Feeder Fault Locator setting

Pick-up value

59

Triggering digital input

59

Line reactance/unit

59

Earth factor

59

Earth factor angle

59

Event enabling

59

Average voltage limit

59

Io limit

59

DI timeout

59

Release timeout

59

Synchro-check 1 setting

Enable for Synchro check 1

60

CB object 1

60

CB object 2

60

Input for selecting Object2

60

Inhibit closing unselected CB

60

Synchronization mode

60

Voltage check mode

60

CB closing time

60

Bypass DI

60

Bypass

60

Ok pulse length

60

INF ASDU

Scaling

17...20 201 1.00 s = 100

21

201 1.00 s = 100

0

201 1.00 xIn = 100

1

144 Value 14

2

201 1.000 ohm = 1000

3

201 1.000 = 1000

4

144 1 ° = 1

5

143 Off=0;On=1

6

201 1.0 %Un = 10

7

201 1.00 xIn = 100

8

201 1.00 s = 100

9

201 1.00 s = 100

0

143 Off=0;On=1

Object 1=1;Object 2=2;

1

143 Object 3=3;Object 4=4;

Object 5=5;Object 6=6

Object 1=1;Object 2=2;

2

143 Object 3=3;Object 4=4;

Object 5=5;Object 6=6

3

144 Value 14

4

143 Off=0;On=1

5

143 Off=0;Async=1;Sync=2

DD=1;DL=2;LD=3;DD/

6

143 DL=4;DD/LD=5;DL/LD=

6;DD/DL/LD=7

7

201 1.00 s = 100

8

144 Value 14

9

143 1 = 1

10

144 1 ms = 1

P5U20 LPCT/LPVT

P5U20

 

       

P5V20
          

P5F30  
         



  
    

P5M30
          

14. DI1(B)=1;DI2(B)=2;DI3(B)=3;DI4(B)=4;DI1(C)=5;DI2(C)=6;DI3(C)=7;DI4(C)=8;DI5(C)=9;DI6(C)=10;DI1(D)=11;DI2(D)=12;DI3(D)=13; DI1(E)=14;DI2(E)=15;DI3(E)=16;DI4(E)=17;DI5(E)=18;DI6(E)=19;DI20=20;Arc1=25;Arc2=26;BI=27;VI1=29;VI2=30;VI3=31;VI4=32; DO1(B)=33;DO2(B)=34;DO3(B)=35;Watchdog=36;Watchdog=37;Watchdog=38;Watchdog=39;Watchdog=40;Watchdog=41;BO=42; DO1(C)=43;DO2(C)=44;DO3(C)=45;DO4(C)=46;LedAl=49;LedTr=50;LedA=51;LedB=52;LedC=53;LedDR=54;VO1=55;VO2=56;VO3= 57;VO4=58;VO5=59;VO6=60;DI21=65;DI22=66;DI23=67;DI24=68;DI25=69;DI26=70;DI27=71;DI28=72;DI29=73;DI30=74;DI31=75; DI32=76;DI33=77;DI34=78;DI35=79;DI36=80;DI37=81;DI38=82;DI39=83;DI40=84;F1=85;F2=86;F3=87;F4=88;F5=89;F6=90;F7=91; DO1(D)=97;DO2(D)=98;DO3(D)=99;Watchdog=100;DO1(E)=101;DO2(E)=102;NI1=129;NI2=130;NI3=131;NI4=132;NI5=133;NI6=134; NI7=135;NI8=136;NI9=137;NI10=138;NI11=139;NI12=140;NI13=141;NI14=142;NI15=143;NI16=144;NI17=145;NI18=146;NI19=147; NI20=148;NI21=149;NI22=150;NI23=151;NI24=152;NI25=153;NI26=154;NI27=155;NI28=156;NI29=157;NI30=158;NI31=159;NI32= 160;NI33=161;NI34=162;NI35=163;NI36=164;NI37=165;NI38=166;NI39=167;NI40=168;NI41=169;NI42=170;NI43=171;NI44=172; NI45=173;NI46=174;NI47=175;NI48=176;NI49=177;NI50=178;NI51=179;NI52=180;NI53=181;NI54=182;NI55=183;NI56=184;NI57= 185;NI58=186;NI59=187;NI60=188;NI61=189;NI62=190;NI63=191;NI64=192;POC1=193;POC2=194;POC3=195;POC4=196;POC5= 197;POC6=198;POC7=199;POC8=200;POC9=201;POC10=202;POC11=203;POC12=204;POC13=205;POC14=206;POC15=207; POC16=208;VI5=225;VI6=226;VI7=227;VI8=228;VI9=229;VI10=230;VI11=231;VI12=232;VI13=233;VI14=234;VI15=235;VI16=236; VI17=237;VI18=238;VI19=239;VI20=240;VO7=257;VO8=258;VO9=259;VO10=260;VO11=261;VO12=262;VO13=263;VO14=264; VO15=265;VO16=266;VO17=267;VO18=268;VO19=269;VO20=270;NI65=289;NI66=290;NI67=291;NI68=292;NI69=293;NI70=294; NI71=295;NI72=296;NI73=297;NI74=298;NI75=299;NI76=300;NI77=301;NI78=302;NI79=303;NI80=304;NI81=305;NI82=306;NI83= 307;NI84=308;NI85=309;NI86=310;NI87=311;NI88=312;NI89=313;NI90=314;NI91=315;NI92=316;NI93=317;NI94=318;NI95=319; NI96=320;NI97=321;NI98=322;NI99=323;NI100=324;NI101=325;NI102=326;NI103=327;NI104=328;NI105=329;NI106=330;NI107= 331;NI108=332;NI109=333;NI110=334;NI111=335;NI112=336;NI113=337;NI114=338;NI115=339;NI116=340;NI117=341;NI118=342; NI119=343;NI120=344;NI121=345;NI122=346;NI123=347;NI124=348;NI125=349;NI126=350;NI127=351;NI128=352

P5/EN M/33B

87

Communication protocols

Name

FUN

Udead limit setting

60

Ulive limit setting

60

Frequency difference 60

Voltage difference

60

Phase angle difference

60

Request timeout

60

CB Monitoring setting

Enable for CB monitoring

61

Alarm level

61

Limit for operation left 61

High limit (primary value)

61

Motor status

Motor status

62

Nom motor start current

62

Motor start detection current

62

Motor start detection mode

62

Enable motor speed detection

62

Motor speed input DI

62

Rated motor speed n

62

Pulse per rotation

62

Zero speed confirm time

62

SOL setting

Enable for SOL

63

SOL signal number

63

CB Trip Clearing time 63

Admittance E/F Io/Uo> setting

Enable for Io/Uo>

64

Io input

64

Uo pick-up value

64

Correction angle

64

Admittance E/F Io/Uo> YN>

Enable for YN>

65

Pick-up value

65

INF ASDU

Scaling

11...14 201 1.0 %Un = 10 15...18 201 1.0 %Un = 10 19...22 201 50.00 Hz = 5000 23...26 201 1.0 %Un = 10

27...30 144 1 ° = 1

31...34 201 1.0 s = 10

P5U20 LPCT/LPVT

P5U20









P5V20    









0

143 Off=0;On=1

1...2 201 1.00 kA = 100 3...4 201 1000 = 1000

5...8 201 1.0 kA = 10

















0

143 Off=0;On=1

1

201 1.00 xIn = 100









2

201 1.00 xIn = 100





3

143

CB Position=0;Current= 1;CB & Current=2





4

143 Off=0;On=1





5

144

Slot C DI1=0;Slot D DI1=1;Slot E DI1=2





6

201 1 rpm = 1





7

201 1 = 1





8

201 1 s = 1





0

143 Off=0;On=1

1

143 1=0;2=1

2

201 1.00 s = 100













0

143 Off=0;On=1

1

143

Io=0;Io CSH=1;Iocalc= 2;Io'=3

2...5 201 1.0 % = 10

6...9 144 1 ° = 1

0

143 Off=0;On=1

1...4 201 1.0 Yn% = 10

P5F30          
       

P5M30      
   
        
  
   
 

88

P5/EN M/33B

Communication protocols

Name

FUN INF ASDU

Scaling

Input for inhibit control
Operation delay

65

5...8

143 Value15

65 9...12 201 1.00 s = 100

Reset time

65 13...16 201 1.00 s = 100

SOL Mode

65 17...20 143 Off=0;On=1

SOL Operation delay 65 21...24 201 1.00 s = 100

Admittance E/F Io/Uo> GN>

Enable for GN>

66

0

143 Off=0;On=1

Pick-up value

66

1...4 201 1.0 Gn% = 10

Input for inhibit control
Direction mode
Operation delay

66

5...8

143 Value15

66

9...12

143

Undir=0;Forward=1; Reverse=2

66 13...16 201 1.00 s = 100

Reset time SOL Mode

66 17...20 201 1.00 s = 100 66 21...24 143 Off=0;On=1

SOL Operation delay 66 25...28 201 1.00 s = 100

Admittance E/F Io/Uo> BN>

Enable for BN>

67

0

143 Off=0;On=1

Pick-up value

67

1...4 201 1.0 Bn% = 10

Input for inhibit control
Direction mode
Operation delay

67

5...8

143 Value15

67

9...12

143

Undir=0;Forward=1; Reverse=2

67 13...16 201 1.00 s = 100

Reset time

67 17...20 201 1.00 s = 100

SOL Mode

67 21...24 143 Off=0;On=1

SOL Operation delay 67 25...28 201 1.00 s = 100

Admittance E/F Io/Uo>> setting

Enable for Io/Uo>>

68

0

143 Off=0;On=1

Io input

68

1

143

Io=0;Io CSH=1;Iocalc= 2;Io'=3

Uo pick-up value

68

2...5 201 1.0 % = 10

Angle correction

68

6...9 144 1 ° = 1

Admittance E/F Io/Uo> YN>>

Enable for YN>>

69

0

143 Off=0;On=1

Pick-up value

69

1...4 201 1.0 Yn% = 10

Input for inhibit control
Operation delay

69

5...8

143 Value15

69 9...12 201 1.00 s = 100

Reset time SOL Mode

69 13...16 201 1.00 s = 100 69 17...20 143 Off=0;On=1

SOL Operation delay 69 21...24 201 1.00 s = 100

P5U20 LPCT/LPVT

P5U20

P5V20

P5F30

P5M30































































































































15. DI1(B)=1;DI2(B)=2;DI3(B)=3;DI4(B)=4;DI1(C)=5;DI2(C)=6;DI3(C)=7;DI4(C)=8;DI5(C)=9;DI6(C)=10;DI1(D)=11;DI2(D)=12;DI3(D)=13; DI1(E)=14;DI2(E)=15;DI3(E)=16;DI4(E)=17;DI5(E)=18;DI6(E)=19;DI20=20;Arc1=25;Arc2=26;BI=27;VI1=29;VI2=30;VI3=31;VI4=32; DI21=65;DI22=66;DI23=67;DI24=68;DI25=69;DI26=70;DI27=71;DI28=72;DI29=73;DI30=74;DI31=75;DI32=76;DI33=77;DI34=78;DI35= 79;DI36=80;DI37=81;DI38=82;DI39=83;DI40=84;VI5=225;VI6=226;VI7=227;VI8=228;VI9=229;VI10=230;VI11=231;VI12=232;VI13= 233;VI14=234;VI15=235;VI16=236;VI17=237;VI18=238;VI19=239;VI20=240

P5/EN M/33B

89

Name

FUN INF ASDU

Scaling

Admittance E/F Io/Uo>> GN>

Enable for GN>>

70

Pick-up value

70

Input for inhibit control

70

Direction mode

70

Operation delay

70

Reset time

70

SOL Mode

70

SOL Operation delay 70

Admittance E/F Io/Uo>> BN>

Enable for BN>>

71

Pick-up value

71

Input for inhibit control

71

Direction mode

71

Operation delay

71

Reset time

71

SOL Mode

71

SOL Operation delay 71

U2> setting

Enable for U2>

72

VTS Operating Mode 72

Pick-up value

72

Delay type

72

Operation delay

72

Reset time

72

U2>> setting

Enable for U2>>

73

VTS Operating Mode 73

Pick-up value

73

Delay type

73

Operation delay

73

Reset time

73

Motor overspeed >

Enable for >

74

Pick-up value

74

Operation delay

74

0 1...4 5...8
9...12 13...16 17...20 21...24 25...28
0 1...4 5...8
9...12 13...16 17...20 21...24 25...28
0 1...4 5...8 9...12 13...16 17...20
0 1...4 5...8 9...12 13...16 17...20
0 1 2

143 Off=0;On=1 201 1.0 Gn% = 10

143 Value16

143

Undir=0;Forward=1; Reverse=2

201 1.00 s = 100

201 1.00 s = 100

143 Off=0;On=1

201 1.00 s = 100

143 Off=0;On=1 201 1.0 Bn% = 10

143 Value16

143

Undir=0;Forward=1; Reverse=2

201 1.00 s = 100

201 1.00 s = 100 143 Off=0;On=1

201 1.00 s = 100

143 Off=0;On=1

143

NO ACTION=0; BLOCKING=1

201 1.0 %Un = 10

143 DT=0;INV=1

201 1.00 s = 100

201 1.00 s = 100

143 Off=0;On=1

143

NO ACTION=0; BLOCKING=1

201 1.0 %Un = 10

143 DT=0;INV=1

201 1.00 s = 100

201 1.00 s = 100

143 Off=0;On=1 201 1 %n = 1 201 1 s = 1

Communication protocols

P5U20 LPCT/LPVT

P5U20

P5V20

P5F30

P5M30



















































































































































































16. DI1(B)=1;DI2(B)=2;DI3(B)=3;DI4(B)=4;DI1(C)=5;DI2(C)=6;DI3(C)=7;DI4(C)=8;DI5(C)=9;DI6(C)=10;DI1(D)=11;DI2(D)=12;DI3(D)=13; DI1(E)=14;DI2(E)=15;DI3(E)=16;DI4(E)=17;DI5(E)=18;DI6(E)=19;DI20=20;Arc1=25;Arc2=26;BI=27;VI1=29;VI2=30;VI3=31;VI4=32; DI21=65;DI22=66;DI23=67;DI24=68;DI25=69;DI26=70;DI27=71;DI28=72;DI29=73;DI30=74;DI31=75;DI32=76;DI33=77;DI34=78;DI35= 79;DI36=80;DI37=81;DI38=82;DI39=83;DI40=84;VI5=225;VI6=226;VI7=227;VI8=228;VI9=229;VI10=230;VI11=231;VI12=232;VI13= 233;VI14=234;VI15=235;VI16=236;VI17=237;VI18=238;VI19=239;VI20=240

90

P5/EN M/33B

Communication protocols

Name

FUN

Motor overspeed >>

Enable for >

75

Pick-up value

75

Operation delay

75

Motor underspeed 

Enable for <<

76

Pick-up value

76

Operation delay

76

Motor underspeed <

Enable for <<

77

Pick-up value

77

Operation delay

77

Motor Anti-backspin ABS

Enable motor antibackspin

78

Measured Zero Speed Mode

78

Zero speed external mode

78

Zero speed input DI

78

Anti-backspin Time

78

Cold load pick-up CLPU

Enable for CLPU

79

Idle current

79

Pickup current

79

CLPU dead time

79

CLPU time delay

79

INF ASDU

Scaling

0

143 Off=0;On=1

1

201 1 %n = 1

2

201 1 s = 1

0

143 Off=0;On=1

1

201 1 %n = 1

2

201 1 s = 1

0

143 Off=0;On=1

1

201 1 %n = 1

2

201 1 s = 1

0

143 Off=0;On=1

1

143 Off=0;On=1

2

143 Off=0;On=1

3

144 Value 17

4

201 1 s = 1

0

143 Off=0;On=1

1

201 1.00 xIn = 100

2

201 1.00 xIn = 100

3

201 1.00 s = 100

4

201 1.00 s = 100

P5U20 LPCT/LPVT

P5U20

P5V20

P5F30

P5M30



















































































































17. DI1(B)=1;DI2(B)=2;DI3(B)=3;DI4(B)=4;DI1(C)=5;DI2(C)=6;DI3(C)=7;DI4(C)=8;DI5(C)=9;DI6(C)=10;DI1(D)=11;DI2(D)=12;DI3(D)=13; DI1(E)=14;DI2(E)=15;DI3(E)=16;DI4(E)=17;DI5(E)=18;DI6(E)=19;DI20=20;Arc1=25;Arc2=26;BI=27;VI1=29;VI2=30;VI3=31;VI4=32; DO1(B)=33;DO2(B)=34;DO3(B)=35;Watchdog=36;Watchdog=37;Watchdog=38;Watchdog=39;Watchdog=40;Watchdog=41;BO=42; DO1(C)=43;DO2(C)=44;DO3(C)=45;DO4(C)=46;LedAl=49;LedTr=50;LedA=51;LedB=52;LedC=53;LedDR=54;VO1=55;VO2=56;VO3= 57;VO4=58;VO5=59;VO6=60;DI21=65;DI22=66;DI23=67;DI24=68;DI25=69;DI26=70;DI27=71;DI28=72;DI29=73;DI30=74;DI31=75; DI32=76;DI33=77;DI34=78;DI35=79;DI36=80;DI37=81;DI38=82;DI39=83;DI40=84;F1=85;F2=86;F3=87;F4=88;F5=89;F6=90;F7=91; DO1(D)=97;DO2(D)=98;DO3(D)=99;Watchdog=100;DO1(E)=101;DO2(E)=102;NI1=129;NI2=130;NI3=131;NI4=132;NI5=133;NI6=134; NI7=135;NI8=136;NI9=137;NI10=138;NI11=139;NI12=140;NI13=141;NI14=142;NI15=143;NI16=144;NI17=145;NI18=146;NI19=147; NI20=148;NI21=149;NI22=150;NI23=151;NI24=152;NI25=153;NI26=154;NI27=155;NI28=156;NI29=157;NI30=158;NI31=159;NI32= 160;NI33=161;NI34=162;NI35=163;NI36=164;NI37=165;NI38=166;NI39=167;NI40=168;NI41=169;NI42=170;NI43=171;NI44=172; NI45=173;NI46=174;NI47=175;NI48=176;NI49=177;NI50=178;NI51=179;NI52=180;NI53=181;NI54=182;NI55=183;NI56=184;NI57= 185;NI58=186;NI59=187;NI60=188;NI61=189;NI62=190;NI63=191;NI64=192;POC1=193;POC2=194;POC3=195;POC4=196;POC5= 197;POC6=198;POC7=199;POC8=200;POC9=201;POC10=202;POC11=203;POC12=204;POC13=205;POC14=206;POC15=207; POC16=208;VI5=225;VI6=226;VI7=227;VI8=228;VI9=229;VI10=230;VI11=231;VI12=232;VI13=233;VI14=234;VI15=235;VI16=236; VI17=237;VI18=238;VI19=239;VI20=240;VO7=257;VO8=258;VO9=259;VO10=260;VO11=261;VO12=262;VO13=263;VO14=264; VO15=265;VO16=266;VO17=267;VO18=268;VO19=269;VO20=270;NI65=289;NI66=290;NI67=291;NI68=292;NI69=293;NI70=294; NI71=295;NI72=296;NI73=297;NI74=298;NI75=299;NI76=300;NI77=301;NI78=302;NI79=303;NI80=304;NI81=305;NI82=306;NI83= 307;NI84=308;NI85=309;NI86=310;NI87=311;NI88=312;NI89=313;NI90=314;NI91=315;NI92=316;NI93=317;NI94=318;NI95=319; NI96=320;NI97=321;NI98=322;NI99=323;NI100=324;NI101=325;NI102=326;NI103=327;NI104=328;NI105=329;NI106=330;NI107= 331;NI108=332;NI109=333;NI110=334;NI111=335;NI112=336;NI113=337;NI114=338;NI115=339;NI116=340;NI117=341;NI118=342; NI119=343;NI120=344;NI121=345;NI122=346;NI123=347;NI124=348;NI125=349;NI126=350;NI127=351;NI128=352

P5/EN M/33B

91

Modbus slave

Communication protocols

Presentation

The Modbus interface is a master/slave protocol defined by the Modbus organisation.
For more information on the Modbus protocol, visit www.modbus.org.
It is used to exchange information between a master and one or more slave units, identified by a number. It implements request-reply dialog, where requests are always initiated by the master. Modbus exists in ASCII and binary (RTU mode) formats. Data is exchanged in the form of 16-bit words (also called registers18) or simply bits. Each piece of information (bit or register) has a 16-bit address. Modbus is a data-transmission protocol in charge of communication using serial link or Ethernet links.
Modbus TCP/IP offers the same functionality as Modbus over a serial link, as well as compatibility with multi-master architectures.
The Easergy P5 protection relay is considered in Modbus communication as a slave only. The maximum number of Modbus slaves in the device is 2.

Function description

The Modbus slave can communicate with masters using either of two transmission modes:
· Serial RTU mode · TCP/IP mode The Modbus slave can communicate with the master through the serial port and Ethernet port at the same time.
The Modbus slave can be configured to work at max. 3 IP addresses.
The maximal number of clients for Modbus slave is 8. The client and master can be connected by either:
· a serial port connection · a TCP connection via an Ethernet port The Modbus slave supports the following functions and services: · Binary status · Measurement values · Remote control · Time synchronisation · Event record · Diagnostics · Setting · File transfer

Modbus protocol data unit
Every Modbus request or response frame includes a Modbus PDU (protocol data unit) made up of 2 fields.
· Function code (1 byte): indicates the type of request (1 to 127) · Data (0 to n bytes): depends on the function code The function codes in the reply and in the request are identical.

18. The register address sent via Modbus is one less than that indicated by a Easergy P5 protection relay. 92

P5/EN M/33B

Communication protocols

Function codes

The function codes listed in the table below are supported. Table 37 - Modbus function codes

Function Codes 03 04 06 07 19 08 19 11 16 23 43/14

Address Space Read Holding Registers Read Input Registers Write single register Read Exception Status Diagnostic Get Comm Event Counter Write multiple registers Read/Write multiple registers Read Device Identification

The following function codes are not supported, as the binary status value are treated as register and there is no area for them.
· 1 - Read coils · 2 - Read discrete inputs · 5 - Write single coil · 15 - Write multiple coils The sub-function of diagnostic supported are listing below: · 0 - Return Query Data (Only the first two bytes' data are returned) · 1 - Restart Communications Option · 2 - Return Diagnostic Register (always zero) · 4 - Force Listen Only Mode

Modbus serial link frames
All the frames exchanged have the same structure, made up of 3 parts: · Slave address (1 byte): from 1 to 247 (0 for broadcasting) · Modbus PDU: as previously described · Check (2 bytes): CRC16 used to check frame integrity
The slave addresses in the reply and in the request are identical. The maximum size of a frame is 256 bytes.

Synchronisation of exchanges
Any character that is received after a silence of more than 3.5 characters is considered as the beginning of a new frame. A minimum silence of 3.5 characters is always observed between two frames.
A slave disregards all frames: · Received with a physical error for 1 or more characters (format error, parity error, etc.) · With an incorrect CRC16 result · For which it is not the recipient.
The slave addresses in the reply and in the request are identical.

19. This function code is only available for serial communication.

P5/EN M/33B

93

Communication protocols
The maximum size of a frame is 256 bytes.
Broadcasting
The master can also address all slaves using the conventional address 0. This type of exchange is called broadcasting. Slaves do not respond to broadcast messages. As a result, only messages that do not require the transmission of data by the slaves can be broadcast.
Response time
The communication coupler response time (Tr) is less than 15 ms, including a 3character silence (approximately 3 ms at 9600 bauds). This time is given with the following parameters:
· 9600 bauds · Format: 8 bits, odd parity, 1 stop bit
Modbus serial RTU mode configuration
The Modbus RTU protocol is activated by selecting the 'ModBusSlv' option for the 'Remote port protocol' of the Easergy P5 protection relay serial port. This setting can be found by navigating to the Protocol configuration view in the COMMUNICATION menu in eSetup Easergy Pro. The following figures show how to enable the Modbus protocol on the Remote port of an Easergy P5 protection relay.
The protocol can also be enabled via the front panel or Web HMI. Once the protocol has been activated, it can be configured. This is done in the Modbus main configuration view of the COMMUNICATION menu. In the Modbus main configuration view, the Modbus Slave Address (or number), the bit rate, the parity of the connection, the wire number and polling line can be set. The frame gap is fixed.
Figure 3 - Modbus slave main configuration

94

P5/EN M/33B

Communication protocols

Table 38 - Modbus slave main configuration parameters

Parameter Slave number Speed of transmission
Parity Number of wires Poll line activation Frame Gap

Value
1...247 1200, 2400, 4800, 9600, 19200, 38400, 57600, 115200 bps
None, Even, Odd
2, 4
False, True

Description
The Modbus slave address.
The communication speed, bits per second.
The type of parity bit used.
The number of wire connection.
The polarity of the wire connection.
Specifies the amount of time (calculated by bits) to use to determine that a frame has been completed. For Modbus RTU this value is fixed at 38 bits.

NOTE: The parity and bit rate are set to the same value on all devices connected to the same data link.

Modbus TCP mode configuration
Modbus TCP (or Modbus TCP/IP) is simply the Modbus RTU protocol with a TCP interface that runs on Ethernet. TCP/IP refers to the Transmission Control Protocol and Internet Protocol which provide the transmission medium for Modbus TCP/IP messaging. In practice, Modbus TCP embeds a standard Modbus data frame into a TCP frame.
One advantage over serial Modbus (RTU or ASCII) is that the number of nodes is not limited to 247 on one data link, since the addressing of nodes is done with the Internet Protocol. Furthermore, several devices can be connected to one IP address, provided the appropriate equipment is used (some Modbus TCP-toModbus RTU bridge). These devices are differentiated from each other with a Unit Identifier, in the TCP frame, which corresponds to the Slave ID. The range of the Unit Identifier is also 1-247. In Easergy P5 protection relays the Modbus Slave ID corresponds to the Unit Identifier when Modbus TCP is used, see Modbus slave main configuration, page 94.
The Modbus TCP protocol is activated by first configuring the Ethernet port settings. First, the IP address, Subnet mask and Gateway are set, and require a static IP address to be configured. This is considered before connecting a relay to an existing network, so that no conflicts emerge.

P5/EN M/33B

95

Communication protocols

Once these settings have been configured, one of the Ethernet port protocol selections can be set to "ModBusTCPs" (Modbus TCP, slave). Before the protocol is activated, a device reboot is required.
NOTE: There are two TCP port instances "Ethernet Protocol 1" and "Ethernet Protocol 2", that is, two independent sockets for two different protocols. The default TCP IP port for Modbus TCP is 502.

96

P5/EN M/33B

Communication protocols

Events

Data access, such as reading and writing to holding registers, event reading, clock synchronisation and scaling work, with the addition that clock synchronisation also can be done by using Simple Network Time Protocol (SNTP). This requires a NTP server, the address of which is set in the Protocol configuration view in eSetup Easergy Pro or Web HMI.

The event buffer of Easergy P5 protection relays can be read via the Modbus Protocol. This is done by reading one event at a time, from holding registers 2101...2105. The event registers contain the latest event, and are cleared when they are read. Only 49 latest events can be extracted via the Modbus Protocol. The registers are then updated to contain the following event from the event buffer. A description of the registers is shown in the table. The Event buffer view can be found by navigating to LOGS menu in eSetup Easergy Pro.
Table 39 - Description of events in holding registers

Holding Register20 2101 2102 2103
2104
2105

Content
Event code Refer to event code list table for details.
Event timestamp Bits 15-6 = milliseconds Bits 5-0 = seconds
Event timestamp Upper byte = minute Lower byte = hour
Event timestamp Upper byte = day Lower byte = month
Event timestamp, year

20. The register address sent via Modbus is one less than that indicated by a Easergy P5 protection relay. To clarify: if the holding register address 2101 is sent over a Modbus data link, the frame will indicate that the address of the holding register is 2100.

P5/EN M/33B

97

Communication protocols

The event code list indicates the events of Easergy P5 protection relays sent via Modbus. The event code is shown in Event buffer view of eSetup Easergy Pro with the format of xEy. The decimal value of event code sent via Modbus is: x * 64 + y.
For example, the event "DI1(C) on" is generated in Easergy P5 protection relay. The event code is 00E9, so the code value 9 (00 * 64 + 9 = 9) is sent via Modbus.
Table 40 - Event code list

Event code
00E1 00E2 00E3 00E4 00E5 00E6 00E7 00E8 00E9 00E10 00E11 00E12 00E13 00E14 00E15 00E16 00E17 00E18 00E19 00E20 00E21 00E22 00E23 00E24 00E25 00E26 00E27 00E28 00E29 00E30 00E31 00E32 00E33 00E34 00E35 00E36 00E37 00E38 00E39

DI1 on DI1 off DI2 on DI2 off DI3 on DI3 off DI4 on DI4 off DI5 on DI5 off DI6 on DI6 off DI7 on DI7 off DI8 on DI8 off DI9 on DI9 off DI10 on DI10 off DI11 on DI11 off DI12 on DI12 off DI13 on DI13 off DI14 on DI14 off DI15 on DI15 off DI16 on DI16 off DI17 on DI17 off DI18 on DI18 off DI19 on DI19 off DI20 on

Description

Alarm

Code value (decimal)
1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39

98

P5/EN M/33B

Communication protocols

Table 40 - Event code list (Continued)

Event code
00E40 00E42 00E43 00E44 00E45 00E46 00E47 00E48 00E49 00E50 00E56 00E57 00E58 00E59 00E60 00E61 00E62 00E63 01E01 01E02 01E03 01E04 02E01 02E02 02E03 02E04 03E01 03E02 03E03 03E04 05E01 05E02 05E03 05E04 08E01 08E02 08E03 08E04 09E01 09E02 09E03

Description
DI20 off Comtrade file ready Disturbance rec. deleted Disturbance rec. overwriten LED state changed Disturbance rec. memory freed Disturbance rec. memory full Disturbance recording Xfault1 distance Device restart SelfDiag alarm SelfDiag alarm off L1 Trip L1 Trip off L2 Trip L2 Trip off L3 Trip L3 Trip off I> Start On I> Trip On I> Start Off I> Trip off I>> Start On I>> Trip On I>> Start Off I>> Trip off I>>> Start On I>>> Trip On I>>> Start Off I>>> Trip off I2/I1 Start On I2/I1 Trip On I2/I1 Start Off I2/I1 Trip off I> Start On I> Trip On I> Start Off I> Trip off I>> Start On I>> Trip On I>> Start Off

P5/EN M/33B

Alarm
Yes
Yes Yes Yes Yes Yes Yes

Code value (decimal)
40 42 43 44 45 46 47 48 49 50 56 57 58 59 60 61 62 63 65 66 67 68 129 130 131 132 193 194 195 196 321 322 323 324 513 514 515 516 577 578 579

99

Table 40 - Event code list (Continued)

Event code
09E04 10E01 10E02 10E03 10E04 11E01 11E02 11E03 11E04 13E01 13E02 13E03 13E04 14E01 14E02 14E03 14E04 14E11 14E12 14E13 14E14 14E15 14E16 16E01 16E02 16E03 16E04 19E1 19E2 19E3 19E4 19E5 19E6 19E7 19E8 19E10 19E11 19E12 19E13 19E14 19E15 20E01

Description
I>> Trip off I>>> Start On I>>> Trip On I>>> Start Off I>>> Trip off I>>>> Start On I>>>> Trip On I>>>> Start Off I>>>> Trip off I< Start On I< Trip On I< Start Off I< Trip off T> Start On T>Trip On T> Start Off T> Trip off Thm.level feeder alarm Thm.level feeder alarm off Thm.rsv feeder alarm Thm.rsv feeder alarm off Feeder heating alarm Feeder heating alarm off Ist> Start On Ist>Trip On Ist> Start Off Ist> Trip off Overcurrent alarm Overcurrent Trip Overcurrent alarm off O/C Trip off E/F alarm E/F Trip E/F alarm off E/F Trip off L1 alarm L1 alarm off L2 alarm L2 alarm off L3 alarm L3 alarm off Io> Start On

Communication protocols

Alarm Yes
Yes
Yes
Yes Yes Yes Yes Yes

Code value (decimal)
580 641 642 643 644 705 706 707 708 833 834 835 836 897 898 899 900 907 908 909 910 911 912 1025 1026 1027 1028 1217 1218 1219 1220 1221 1222 1223 1224 1226 1227 1228 1229 1230 1231 1281

100

P5/EN M/33B

Communication protocols

Table 40 - Event code list (Continued)

Event code
20E02 20E03 20E04 21E01 21E02 21E03 21E04 22E01 22E02 22E03 22E04 23E01 23E02 23E03 23E04 24E01 24E02 24E03 24E04 25E01 25E02 25E03 25E04 25E11 25E12 26E01 26E02 26E03 26E04 26E11 26E12 30E01 30E02 30E03 30E04 31E01 31E02 31E03 31E04 32E01 32E02

Description
Io> Trip On Io> Start Off Io> Trip off Io>> Start On Io>> Trip On Io>> Start Off Io>> Trip off Io>>>>> Start On Io>>>>> Trip On Io>>>>> Start Off Io>>>>> Trip off Io> Start On Io> Trip On Io> Start Off Io> Trip off Io>> Start On Io>> Trip On Io>> Start Off Io>> Trip off Io>>> Start On Io>>> Trip On Io>>> Start Off Io>>> Trip off Io>>> Trig unbalance Io>>> Trig off unbalance Io>>>> Start On Io>>>> Trip On Io>>>> Start Off Io>>>> Trip off Io>>>> Trig unbalance Io>>>> Trig off unbalance U> Start On U> Trip On U> Start Off U> Trip off U>> Start On U>> Trip On U>> Start Off U>> Trip off U< Start On U< Trip On

P5/EN M/33B

Alarm Yes
Yes
Yes
Yes
Yes
Yes Yes Yes Yes Yes Yes Yes
Yes
Yes

Code value (decimal)
1282 1283 1284 1345 1346 1347 1348 1409 1410 1411 1412 1473 1474 1475 1476 1537 1538 1539 1540 1601 1602 1603 1604 1611 1612 1665 1666 1667 1668 1675 1676 1921 1922 1923 1924 1985 1986 1987 1988 2049 2050

101

Table 40 - Event code list (Continued)

Event code
32E03 32E04 33E01 33E02 33E03 33E04 34E01 34E02 34E03 34E04 35E01 35E02 35E03 35E04 36E01 36E02 36E03 36E04 37E01 37E02 37E03 37E04 38E01 38E02 38E03 38E04 39E01 39E02 39E03 39E04 40E01 40E02 40E03 40E04 41E01 41E02 41E03 41E04 46E01 46E02 46E03

Description
U< Start Off U< Trip off U<< Start On U<< Trip On U<< Start Off U<< Trip off U1< Start On U1< Trip On U1< Start Off U1< Trip off U1<< Start On U1<< Trip On U1<< Start Off U1<< Trip off Uo> Start On Uo> Trip On Uo> Start Off Uo> Trip off Uo>> Start On Uo>> Trip On Uo>> Start Off Uo>> Trip off U>>> Start On U>>> Trip On U>>> Start Off U>>> Trip off U<<< Start On U<<< Trip On U<<< Start Off U<<< Trip off P< Start On P< Trip On P< Start Off P< Trip off P<< Start On P<< Trip On P<< Start Off P<< Trip off Prg1 Start On Prg1 Trip On Prg1 Start Off

Communication protocols

Alarm Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes

Code value (decimal)
2051 2052 2113 2114 2115 2116 2177 2178 2179 2180 2241 2242 2243 2244 2305 2306 2307 2308 2369 2370 2371 2372 2433 2434 2435 2436 2497 2498 2499 2500 2561 2562 2563 2564 2625 2626 2627 2628 2945 2946 2947

102

P5/EN M/33B

Communication protocols P5/EN M/33B

Table 40 - Event code list (Continued)

Event code
46E04 47E01 47E02 47E03 47E04 48E01 48E02 48E03 48E04 49E01 49E02 49E03 49E04 50E01 50E02 50E03 50E04 51E01 51E02 51E03 51E04 52E01 52E02 52E03 52E04 53E01 53E02 53E03 53E04 54E01 54E02 54E03 54E04 56E01 56E02 56E03 56E04 57E01 57E02 57E03 57E04

Description
Prg1 Trip off Prg2 Start On Prg2 Trip On Prg2 Start Off Prg2 Trip off Prg3 Start On Prg3 Trip On Prg3 Start Off Prg3 Trip off Prg4 Start On Prg4 Trip On Prg4 Start Off Prg4 Trip off fX Start On fX Trip On fX Start Off fX Trip off fXX Start On fXX Trip On fXX Start Off fXX Trip off f< Start On f< Trip On f< Start Off f< Trip off f<< Start On f<< Trip On f<< Start Off f<< Trip off df/dt Start On df/dt Trip On df/dt Start Off df/dt Trip off Prg5 Start On Prg5 Trip On Prg5 Start Off Prg5 Trip off Prg6 Start On Prg6 Trip On Prg6 Start Off Prg6 Trip off

Alarm Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes

Code value (decimal)
2948 3009 3010 3011 3012 3073 3074 3075 3076 3137 3138 3139 3140 3201 3202 3203 3204 3265 3266 3267 3268 3329 3330 3331 3332 3393 3394 3395 3396 3457 3458 3459 3460 3585 3586 3587 3588 3649 3650 3651 3652

103

Table 40 - Event code list (Continued)

Event code
58E01 58E02 58E03 58E04 59E01 59E02 59E03 59E04 60E1 60E2 60E3 60E4 61E1 61E2 61E3 61E4 61E5 61E6 61E7 61E8 61E9 61E10 61E11 61E12 61E13 61E14 61E15 61E16 61E17 61E18 61E19 61E20 61E21 61E22 61E23 61E24 61E25 61E26 61E27 61E28 61E29

Description
Prg7 Start On Prg7 Trip On Prg7 Start Off Prg7 Trip off Prg8 Start On Prg8 Trip On Prg8 Start Off Prg8 Trip off CB Fail 1 Trip On CB Fail 2 Trip On CB Fail 1 Trip Off CB Fail 2 Trip Off AR request 1 AR request 2 AR request 3 AR request 4 AR request 5 AR shot 1 start AR shot 2 start AR shot 3 start AR shot 4 start AR shot 5 start Direct trip AR request Recloser locked Recloser running Final trip AR1 req end AR2 req end AR3 req end AR4 req end AR5 req end AR shot 1 end AR shot 2 end AR shot 3 end AR shot 4 end AR shot 5 end Direct final AR end Auto-Recloser unlocked Auto-Recloser stopped Final trip end AR enabled

Communication protocols

Alarm
Yes
Yes
Yes Yes
Yes Yes Yes Yes
Yes Yes Yes Yes
Yes Yes Yes Yes Yes Yes Yes Yes
Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes

Code value (decimal)
3713 3714 3715 3716 3777 3778 3779 3780 3841 3842 3843 3844 3905 3906 3907 3908 3909 3910 3911 3912 3913 3914 3915 3916 3917 3918 3919 3920 3921 3922 3923 3924 3925 3926 3927 3928 3929 3930 3931 3932 3933

104

P5/EN M/33B

Communication protocols

Table 40 - Event code list (Continued)

Event code
61E30 61E31 61E32 61E33 61E34 61E35 61E36 61E37 61E38 61E39 61E40 62E1 62E2 62E3 62E4 63E1 63E2 63E3 63E4 63E5 64E1 64E2 64E10 64E11 64E12 64E13 64E14 64E15 64E28 64E29 64E30 64E31 64E32 64E40 64E41 64E42 64E43 64E44 64E45 64E46 64E47

Description
AR disabled AR direct trip AR1 final trip AR2 final trip AR3 final trip AR4 final trip Crit. final trip off AR1 final trip off AR2 final trip off AR3 final trip off AR4 final trip off N> alarm on Motor start disable N> alarm off Motor start enable Motor starting Motor running Motor zero speed Motor stopped Motor zero speed Off Voltage int. on Voltage int. off Voltage sag on Voltage sag off Voltage swell on Voltage swell off Voltage sag timeout Voltage swell timeout Start of DST End of DST EF Distance on EFD calc. ready Xfault2 distance Manual timer control Manual timer ctrl off Timer 1 on Timer 1 off Timer 2 on Timer 2 off Timer 3 on Timer 3 off

P5/EN M/33B

Alarm Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes
Yes Yes

Code value (decimal)
3934 3935 3936 3937 3938 3939 3940 3941 3942 3943 3944 3969 3970 3971 3972 4033 4034 4035 4036 4037 4097 4098 4106 4107 4108 4109 4110 4111 4124 4125 4126 4127 4128 4136 4137 4138 4139 4140 4141 4142 4143

105

Table 40 - Event code list (Continued)

Event code
64E48 64E49 65E1 65E2 65E3 65E4 65E5 65E6 65E7 65E8 65E9 65E10 65E11 65E12 65E13 65E14 65E15 65E16 65E17 65E18 65E19 65E20 65E21 65E22 65E23 65E24 65E25 65E26 65E27 65E28 65E29 65E30 65E31 65E32 65E33 65E34 65E35 65E36 65E37 65E38

Description
Timer 4 on Timer 4 off TCS alarm on TCS alarm off Logic output 2 on Logic output 2 off Logic output 3 on Logic output 3 off Logic output 4 on Logic output 4 off Logic output 5 on Logic output 5 off Logic output 6 on Logic output 6 off Logic output 7 on Logic output 7 off Logic output 8 on Logic output 8 off Logic output 9 on Logic output 9 off Logic output 10 on Logic output 10 off Logic output 11 on Logic output 11 off Logic output 12 on Logic output 12 off Logic output 13 on Logic output 13 off Logic output 14 on Logic output 14 off Logic output 15 on Logic output 15 off Logic output 16 on Logic output 16 off Logic output 17 on Logic output 17 off Logic output 18 on Logic output 18 off Logic output 19 on Logic output 19 off

Communication protocols

Alarm

Code value (decimal)
4144 4145 4161 4162 4163 4164 4165 4166 4167 4168 4169 4170 4171 4172 4173 4174 4175 4176 4177 4178 4179 4180 4181 4182 4183 4184 4185 4186 4187 4188 4189 4190 4191 4192 4193 4194 4195 4196 4197 4198

106

P5/EN M/33B

Communication protocols P5/EN M/33B

Table 40 - Event code list (Continued)

Event code
65E39 65E40 163E01 163E02 163E03 163E04 163E11 163E12 163E13 163E14 163E15 163E16 164E01 164E02 164E03 164E04 164E11 164E12 164E13 164E14 164E15 164E16 189E01 189E02 189E03 189E04 189E11 189E12 190E01 190E02 190E03 190E04 190E11 190E12 191E01 191E02 191E03 191E04 191E11 191E12 193E01 193E02

Description
Logic output 20 on Logic output 20 off IoUo> Start On IoUo> Trip On IoUo> Start Off IoUo> Trip off IoUo> Alarm operation On IoUo> Alarm operation off IoUo> Alarm non operation On IoUo> Alarm non operation off IoUo> Inhibit On IoUo> Inhibit off IoUo>> Start On IoUo>> Trip On IoUo>> Start Off IoUo>> Trip off IoUo>> Alarm operation On IoUo>> Alarm operation off IoUo>> Alarm non operation On IoUo>> Alarm non operation off IoUo>> Inhibit On IoUo>> Inhibit off Io/UoYN> Start On Io/UoYN> Trip On Io/UoYN> Start Off Io/UoYN> Trip off Io/UoYN> Inhibit On Io/UoYN> Inhibit off Io/UoGN> Start On Io/UoGN> Trip On Io/UoGN> Start Off Io/UoGN> Trip off Io/UoGN> Inhibit On Io/UoGN> Inhibit off Io/UoBN> Start On Io/UoBN> Trip On Io/UoBN> Start Off Io/UoBN> Trip off Io/UoBN> Inhibit On Io/UoBN> Inhibit off Io/UoYN>> Start On Io/UoYN>> Trip On

Alarm Yes
Yes
Yes Yes Yes Yes

Code value (decimal)
4199 4200 10433 10434 10435 10436 10443 10444 10445 10446 10447 10448 10497 10498 10499 10500 10507 10508 10509 10510 10511 10512 12097 12098 12099 12100 12107 12108 12161 12162 12163 12164 12171 12172 12225 12226 12227 12228 12235 12236 12353 12354

107

Table 40 - Event code list (Continued)

Event code
193E03 193E04 193E11 193E12 194E01 194E02 194E03 194E04 194E11 194E12 195E01 195E02 195E03 195E04 195E11 195E12 187E1 187E2 187E3 187E4
79E1 79E2 79E3 79E4 198E1 198E2 198E3 198E4 198E5 198E6 198E7 198E8 198E9 198E10 196E1 196E2 196E3 196E4 196E5 196E6 196E7 196E8

Description
Io/UoYN>> Start Off Io/UoYN>> Trip off Io/UoYN>> Inhibit on Io/UoYN>> Inhibit off Io/UoGN>> Start On Io/UoGN>> Trip On Io/UoGN>> Start Off Io/UoGN>> Trip off Io/UoGN>> Inhibit on Io/UoGN>> Inhibit off Io/UoBN>> Start On Io/UoBN>> Trip On Io/UoBN>> Start Off Io/UoBN>> Trip off Io/UoBN>> Inhibit on Io/UoBN>> Inhibit off SOL1 Trip on SOL2 Trip on SOL1 Trip off SOL2 Trip off Cold load pickup on Cold load pickup off CLPU enabled CLPU disabled Inrush on Inrush off Inrush enabled Inrush disabled Phase L1 Inrush on Phase L1 Inrush off phase L2 Inrush on phase L2 Inrush off phase L3 Inrush on phase L3 Inrush off CB op. number alarm 1 on CB op. number alarm 1 off CB op. number alarm 2 on CB op. number alarm 2 off CB broken curr. alarm on CB broken curr. alarm off CB mon. open log updated CB mon. close log updated

Communication protocols

Alarm Yes Yes Yes Yes
Yes Yes Yes

Code value (decimal)
12355 12356 12363 12364 12417 12418 12419 12420 12427 12428 12481 12482 12483 12484 12491 12492 11969 11970 11971 11972 5057 5058 5059 5060 12673 12674 12675 12676 12677 12678 12679 12680 12681 12682 12545 12546 12547 12548 12549 12550 12551 12552

108

P5/EN M/33B

Communication protocols

Table 40 - Event code list (Continued)

Event code
196E9 201E1 201E2 201E3 201E4 201E5 201E6 201E7 201E10 201E11 201E12 210E01 210E02 210E03 210E04 211E01 211E02 211E03 211E04 212E01 212E02 212E03 212E04 213E01 213E02 213E03 213E04 225E1 225E2 225E3 225E4 225E5 225E6 225E7 225E8 225E9 225E10 225E11 225E12 225E13 225E14 225E15

Description
CB mon. charge log updated Maint. event triggered Port 1 Link up on COM Port 1 Link down on COM Port 2 Link up on COM Port 2 Link down on COM IP conflict on COM IP conflict on COM1 IP File system error in CAN board Internal Temperature on Internal Temperature off > Start On > Trip On > Start Off > Trip off >> Start On >> Trip On >> Start Off >> Trip off < Start On < Trip On < Start Off < Trip off << Start On << Trip On << Start Off << Trip off Alarm 1 AI17 on Alarm 1 AI17 off Alarm 1 AI18 on Alarm 1 AI18 off Alarm 1 AI19 on Alarm 1 AI19 off Alarm 1 AI20 on Alarm 1 AI20 off Alarm 1 AI21 on Alarm 1 AI21 off Alarm 1 AI22 on Alarm 1 AI22 off Alarm 1 AI23 on Alarm 1 AI23 off Alarm 1 AI24 on

P5/EN M/33B

Alarm
Yes Yes Yes Yes Yes Yes Yes
Yes
Yes
Yes
Yes
Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes

Code value (decimal)
12553 12865 12866 12867 12868 12869 12870 12871 12874 12875 12876 13441 13442 13443 13444 13505 13506 13507 13508 13569 13570 13571 13572 13633 13634 13635 13636 14401 14402 14403 14404 14405 14406 14407 14408 14409 14410 14411 14412 14413 14414 14415

109

Table 40 - Event code list (Continued)

Event code
225E16 225E17 225E18 225E19 225E20 225E21 225E22 225E23 225E24 225E25 225E26 225E27 225E28 225E29 225E30 225E31 225E32 227E1 227E2 227E3 227E4 227E5 227E6 227E7 227E8 227E9 227E10 227E11 227E12 227E13 227E14 227E15 227E16 227E17 227E18 227E19 227E20 227E21 227E22 227E23 227E24 227E25 227E26 227E27

Description
Alarm 1 AI24 off Alarm 1 AI25 on Alarm 1 AI25 off Alarm 1 AI26 on Alarm 1 AI26 off Alarm 1 AI27 on Alarm 1 AI27 off Alarm 1 AI28 on Alarm 1 AI28 off Alarm 1 AI29 on Alarm 1 AI29 off Alarm 1 AI30 on Alarm 1 AI30 off Alarm 1 AI31 on Alarm 1 AI31 off Alarm 1 AI32 on Alarm 1 AI32 off Alarm 1 AI33 on Alarm 1 AI33 off Alarm 1 AI34 on Alarm 1 AI34 off Alarm 1 AI35 on Alarm 1 AI35 off Alarm 1 AI36 on Alarm 1 AI36 off Alarm 1 AI37 on Alarm 1 AI37 off Alarm 1 AI38 on Alarm 1 AI38 off Alarm 1 AI39 on Alarm 1 AI39 off Alarm 1 AI40 on Alarm 1 AI40 off Alarm 1 AI41 on Alarm 1 AI41 off Alarm 1 AI42 on Alarm 1 AI42 off Alarm 1 AI43 on Alarm 1 AI43 off Alarm 1 AI44 on Alarm 1 AI44 off Alarm 1 AI45 on Alarm 1 AI45 off Alarm 1 AI46 on

Communication protocols

Alarm
Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes

Code value (decimal)
14416 14417 14418 14419 14420 14421 14422 14423 14424 14425 14426 14427 14428 14429 14430 14431 14432 14529 14530 14531 14532 14533 14534 14535 14536 14537 14538 14539 14540 14541 14542 14543 14544 14545 14546 14547 14548 14549 14550 14551 14552 14553 14554 14555

110

P5/EN M/33B

Communication protocols P5/EN M/33B

Table 40 - Event code list (Continued)

Event code
227E28 227E29 227E30 227E31 227E32 226E1 226E2 226E3 226E4 226E5 226E6 226E7 226E8 226E9 226E10 226E11 226E12 226E13 226E14 226E15 226E16 226E17 226E18 226E19 226E20 226E21 226E22 226E23 226E24 226E25 226E26 226E27 226E28 226E29 226E30 226E31 226E32 228E1 228E2 228E3 228E4 228E5 228E6 228E7

Description
Alarm 1 AI46 off Alarm 1 AI47 on Alarm 1 AI47 off Alarm 1 AI48 on Alarm 1 AI48 off Alarm 2 AI17 on Alarm 2 AI17 off Alarm 2 AI18 on Alarm 2 AI18 off Alarm 2 AI19 on Alarm 2 AI19 off Alarm 2 AI20 on Alarm 2 AI20 off Alarm 2 AI21 on Alarm 2 AI21 off Alarm 2 AI22 on Alarm 2 AI22 off Alarm 2 AI23 on Alarm 2 AI23 off Alarm 2 AI24 on Alarm 2 AI24 off Alarm 2 AI25 on Alarm 2 AI25 off Alarm 2 AI26 on Alarm 2 AI26 off Alarm 2 AI27 on Alarm 2 AI27 off Alarm 2 AI28 on Alarm 2 AI28 off Alarm 2 AI29 on Alarm 2 AI29 off Alarm 2 AI30 on Alarm 2 AI30 off Alarm 2 AI31 on Alarm 2 AI31 off Alarm 2 AI32 on Alarm 2 AI32 off Alarm 2 AI33 on Alarm 2 AI33 off Alarm 2 AI34 on Alarm 2 AI34 off Alarm 2 AI35 on Alarm 2 AI35 off Alarm 2 AI36 on

Alarm
Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes

Code value (decimal)
14556 14557 14558 14559 14560 14465 14466 14467 14468 14469 14470 14471 14472 14473 14474 14475 14476 14477 14478 14479 14480 14481 14482 14483 14484 14485 14486 14487 14488 14489 14490 14491 14492 14493 14494 14495 14496 14593 14594 14595 14596 14597 14598 14599

111

Table 40 - Event code list (Continued)

Event code
228E8 228E9 228E10 228E11 228E12 228E13 228E14 228E15 228E16 228E17 228E18 228E19 228E20 228E21 228E22 228E23 228E24 228E25 228E26 228E27 228E28 228E29 228E30 228E31 228E32 229E1 229E2 229E3 229E4 229E5 229E6 229E7 229E8 229E9 229E10 229E11 229E12 229E13 229E14 229E15 229E16 229E17 229E18 229E19

Description
Alarm 2 AI36 off Alarm 2 AI37 on Alarm 2 AI37 off Alarm 2 AI38 on Alarm 2 AI38 off Alarm 2 AI39 on Alarm 2 AI39 off Alarm 2 AI40 on Alarm 2 AI40 off Alarm 2 AI41 on Alarm 2 AI41 off Alarm 2 AI42 on Alarm 2 AI42 off Alarm 2 AI43 on Alarm 2 AI43 off Alarm 2 AI44 on Alarm 2 AI44 off Alarm 2 AI45 on Alarm 2 AI45 off Alarm 2 AI46 on Alarm 2 AI46 off Alarm 2 AI47 on Alarm 2 AI47 off Alarm 2 AI48 on Alarm 2 AI48 off Alarm 1 AI49 on Alarm 1 AI49 off Alarm 1 AI50 on Alarm 1 AI50 off Alarm 1 AI51 on Alarm 1 AI51 off Alarm 1 AI52 on Alarm 1 AI52 off Alarm 1 AI53 on Alarm 1 AI53 off Alarm 1 AI54 on Alarm 1 AI54 off Alarm 1 AI55 on Alarm 1 AI55 off Alarm 1 AI56 on Alarm 1 AI56 off Alarm 1 AI57 on Alarm 1 AI57 off Alarm 1 AI58 on

Communication protocols

Alarm
Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes

Code value (decimal)
14600 14601 14602 14603 14604 14605 14606 14607 14608 14609 14610 14611 14612 14613 14614 14615 14616 14617 14618 14619 14620 14621 14622 14623 14624 14657 14658 14659 14660 14661 14662 14663 14664 14665 14666 14667 14668 14669 14670 14671 14672 14673 14674 14675

112

P5/EN M/33B

Communication protocols P5/EN M/33B

Table 40 - Event code list (Continued)

Event code
229E20 229E21 229E22 229E23 229E24 229E25 229E26 229E27 229E28 229E29 229E30 229E31 229E32 230E1 230E2 230E3 230E4 230E5 230E6 230E7 230E8 230E9 230E10 230E11 230E12 230E13 230E14 230E15 230E16 230E17 230E18 230E19 230E20 230E21 230E22 230E23 230E24 230E25 230E26 230E27 230E28 230E29 230E30 230E31

Description
Alarm 1 AI58 off Alarm 1 AI59 on Alarm 1 AI59 off Alarm 1 AI60 on Alarm 1 AI60 off Alarm 1 AI61 on Alarm 1 AI61 off Alarm 1 AI62 on Alarm 1 AI62 off Alarm 1 AI63 on Alarm 1 AI63 off Alarm 1 AI64 on Alarm 1 AI64 off Alarm 2 AI49 on Alarm 2 AI49 off Alarm 2 AI50 on Alarm 2 AI50 off Alarm 2 AI51 on Alarm 2 AI51 off Alarm 2 AI52 on Alarm 2 AI52 off Alarm 2 AI53 on Alarm 2 AI53 off Alarm 2 AI54 on Alarm 2 AI54 off Alarm 2 AI55 on Alarm 2 AI55 off Alarm 2 AI56 on Alarm 2 AI56 off Alarm 2 AI57 on Alarm 2 AI57 off Alarm 2 AI58 on Alarm 2 AI58 off Alarm 2 AI59 on Alarm 2 AI59 off Alarm 2 AI60 on Alarm 2 AI60 off Alarm 2 AI61 on Alarm 2 AI61 off Alarm 2 AI62 on Alarm 2 AI62 off Alarm 2 AI63 on Alarm 2 AI63 off Alarm 2 AI64 on

Alarm
Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes

Code value (decimal)
14676 14677 14678 14679 14680 14681 14682 14683 14684 14685 14686 14687 14688 14721 14722 14723 14724 14725 14726 14727 14728 14729 14730 14731 14732 14733 14734 14735 14736 14737 14738 14739 14740 14741 14742 14743 14744 14745 14746 14747 14748 14749 14750 14751

113

Table 40 - Event code list (Continued)

Event code
230E32 231E1 231E2 231E3 231E4 231E5 231E6 231E7 231E8 231E9 231E10 231E11 231E12 231E13 231E14 231E15 231E16 231E17 231E18 231E19 231E20 231E21 231E22 231E23 231E24 231E25 231E26 231E27 231E28 231E29 231E30 231E31 231E32 231E33 231E34 231E35 231E36 231E37 231E38 231E39

Description
Alarm 2 AI64 off DO1(B) on DO1(B) off DO2(B) on DO2(B) off DO3(B) on DO3(B) off DO4(B) on DO4(B) off DO1(C) on DO1(C) off DO2(C) on DO2(C) off DO3(C) on DO3(C) off DO4(C) on DO4(C) off DO5(C) on DO5(C) off DO1(D) on DO1(D) off DO2(D) on DO2(D) off DO3(D) on DO3(D) off DO4(D) on DO4(D) off DO5(D) on DO5(D) off DO1(E) on DO1(E) off DO2(E) on DO2(E) off DO3(E) on DO3(E) off DO4(E) on DO4(E) off DO5(E) on DO5(E) off CB trip on

Communication protocols

Alarm Yes

Code value (decimal)
14752 14785 14786 14787 14788 14789 14790 14791 14792 14793 14794 14795 14796 14797 14798 14799 14800 14801 14802 14803 14804 14805 14806 14807 14808 14809 14810 14811 14812 14813 14814 14815 14816 14817 14818 14819 14820 14821 14822 14823

114

P5/EN M/33B

Communication protocols P5/EN M/33B

Table 40 - Event code list (Continued)

Event code
231E40 232E1 232E2 232E3 232E4 232E5 232E6 232E7 232E8 232E9 232E10 232E11 232E12 232E13 232E14 232E15 232E16 232E17 232E18 232E19 232E20 232E21 232E22 232E23 232E24 232E25 232E26 232E27 232E28 232E29 232E30 232E31 232E32 232E33 232E34 232E35 232E36 232E37 232E38 232E39

Description
CB trip off Logic output 1(t) on Logic output 1(t) off Logic output 2(t) on Logic output 2(t) off Logic output 3(t) on Logic output 3(t) off Logic output 4(t) on Logic output 4(t) off Logic output 5(t) on Logic output 5(t) off Logic output 6(t) on Logic output 6(t) off Logic output 7(t) on Logic output 7(t) off Logic output 8(t) on Logic output 8(t) off Logic output 9(t) on Logic output 9(t) off Logic output 10(t) on Logic output 10(t) off Logic output 11(t) on Logic output 11(t) off Logic output 12(t) on Logic output 12(t) off Logic output 13(t) on Logic output 13(t) off Logic output 14(t) on Logic output 14(t) off Logic output 15(t) on Logic output 15(t) off Logic output 16(t) on Logic output 16(t) off Logic output 17(t) on Logic output 17(t) off Logic output 18(t) on Logic output 18(t) off Logic output 19(t) on Logic output 19(t) off Logic output 20(t) on

Alarm

Code value (decimal)
14824 14849 14850 14851 14852 14853 14854 14855 14856 14857 14858 14859 14860 14861 14862 14863 14864 14865 14866 14867 14868 14869 14870 14871 14872 14873 14874 14875 14876 14877 14878 14879 14880 14881 14882 14883 14884 14885 14886 14887

115

Table 40 - Event code list (Continued)

Event code
232E40 66E1 66E2 66E3 66E4 67E2 67E4 67E3 67E5 68E2 68E4 68E3 68E5 68E15 68E16 69E1 69E2 69E3 69E4 69E5 69E6 69E7 69E8 69E9 69E10 69E11 69E12 69E13 69E14 69E15 69E16 69E17 69E18 69E19 69E20 69E21 69E22 69E23 69E24 69E25 69E26 69E27 69E28

Description
Logic output 20(t) off CB wear alarm 1 on CB wear alarm 1 off CB wear alarm 2 on CB wear alarm 2 off Delay CT supervision on Delay CT supervision off Instantaneous CT supervision on Instantaneous CT supervision off VT supervisor on VT supervisor off Instantaneous VT supervision on Instantaneous VT supervision off VTS Inhibit On VTS Inhibit Off VI1 on VI1 off VI2 on VI2 off VI3 on VI3 off VI4 on VI4 off VI5 on VI5 off VI6 on VI6 off VI7 on VI7 off VI8 on VI8 off VO1 on VO1 off VO2 on VO2 off VO3 on VO3 off VO4 on VO4 off VO5 on VO5 off VO6 on VO6 off

Communication protocols

Alarm
Yes Yes Yes

Code value (decimal)
14888 4225 4226 4227 4228 4290 4292 4291 4293 4354 4356 4355 4357 4367 4368 4417 4418 4419 4420 4421 4422 4423 4424 4425 4426 4427 4428 4429 4430 4431 4432 4433 4434 4435 4436 4437 4438 4439 4440 4441 4442 4443 4444

116

P5/EN M/33B

Communication protocols

Table 40 - Event code list (Continued)

Event code
69E29 69E30 69E31 69E32 69E33 69E34 69E35 69E36 69E37 69E38 69E39 69E40 69E41 69E42 69E43 69E44 69E45 69E46 69E47 69E48 69E49 69E50 69E51 69E52 69E53 69E54 69E55 69E56 70E1 70E2 70E3 70E4 70E5 70E6 70E7 70E8 70E9 70E10 70E11 70E12 70E13 70E14 70E15

Description
VO7 on VO7 off VO8 on VO8 off VO9 on VO9 off VO10 on VO10 off VO11 on VO11 off VO12 on VO12 off VO13 on VO13 off VO14 on VO14 off VO15 on VO15 off VO16 on VO16 off VO17 on VO17 off VO18 on VO18 off VO19 on VO19 off VO20 on VO20 off Remote Local Password open Panel Password close Panel Password open PC serial port Password close PC serial port Setting change Panel Setting change PC serial port Firmware Update Comm. active REMOTE Comm. inactive REMOTE Comm. active EXTENSION Comm. inactive EXTENSION Comm. active slot M Comm. inactive slot M

P5/EN M/33B

Alarm
Yes Yes Yes Yes

Code value (decimal)
4445 4446 4447 4448 4449 4450 4451 4452 4453 4454 4455 4456 4457 4458 4459 4460 4461 4462 4463 4464 4465 4466 4467 4468 4469 4470 4471 4472 4481 4482 4483 4484 4485 4486 4487 4488 4489 4490 4491 4492 4493 4494 4495

117

Table 40 - Event code list (Continued)

Event code
70E16 70E17 70E18 70E19 70E20 70E21 70E22 70E23 70E24 70E25 70E26 71E1 71E2 71E3 71E4 71E5 71E6 71E7 71E8 71E9 71E10 71E11 71E12 71E13 71E14 71E15 71E16 71E17 71E18 71E19 71E20 71E21 72E1 72E2 72E3 72E4 72E5 72E6 72E7 72E8 72E9

Description
Comm. active slot N Comm. inactive slot N Comm. active slot L Comm. inactive slot L Comm. active COM4 Comm. inactive COM4 Comm. active COM5 Comm. inactive COM5 Comm. active COM6 Comm. inactive COM6 Firmware update failure Object1 open Object1 closed Object1 undefined (11) Object1 undefined (00) Object1 open output on Object1 open output off Object1 close output on Object1 close output off Object1 interlocked Object1 open timeout Object1 close timeout Object1 ready timeout Object1 final trip Object1 final trip off Object1 open blocking on Object1 open blocking off Object1 close blocking on Object1 close blocking off Object1 inactivity alarm on Object1 inactivity alarm off Object1 control fail Object2 open Object2 closed Object2 undefined (11) Object2 undefined (00) Object2 open output on Object2 open output off Object2 close output on Object2 close output off Object2 interlocked

Communication protocols

Alarm

Code value (decimal)
4496 4497 4498 4499 4500 4501 4502 4503 4504 4505 4506 4545 4546 4547 4548 4549 4550 4551 4552 4553 4554 4555 4556 4557 4558 4559 4560 4561 4562 4563 4564 4565 4609 4610 4611 4612 4613 4614 4615 4616 4617

118

P5/EN M/33B

Communication protocols P5/EN M/33B

Table 40 - Event code list (Continued)

Event code
72E10 72E11 72E12 72E13 72E14 72E15 72E16 72E17 72E18 72E19 72E20 72E21 73E1 73E2 73E3 73E4 73E5 73E6 73E7 73E8 73E9 73E10 73E11 73E12 73E13 73E14 73E15 73E16 73E17 73E18 73E19 73E20 73E21 74E1 74E2 74E3 74E4 74E5 74E6 74E7

Description
Object2 open timeout Object2 close timeout Object2 ready timeout Object2 final trip Object2 final trip off Object2 open blocking on Object2 open blocking off Object2 close blocking on Object2 close blocking off Object2 inactivity alarm on Object2 inactivity alarm off Object2 control fail Object3 open Object3 closed Object3 undefined (11) Object3 undefined (00) Object3 open output on Object3 open output off Object3 close output on Object3 close output off Object3 interlocked Object3 open timeout Object3 close timeout Object3 ready timeout Object3 final trip Object3 final trip off Object3 open blocking on Object3 open blocking off Object3 close blocking on Object3 close blocking off Object3 inactivity alarm on Object3 inactivity alarm off Object3 control fail Object4 open Object4 closed Object4 undefined (11) Object4 undefined (00) Object4 open output on Object4 open output off Object4 close output on

Alarm

Code value (decimal)
4618 4619 4620 4621 4622 4623 4624 4625 4626 4627 4628 4629 4673 4674 4675 4676 4677 4678 4679 4680 4681 4682 4683 4684 4685 4686 4687 4688 4689 4690 4691 4692 4693 4737 4738 4739 4740 4741 4742 4743

119

Table 40 - Event code list (Continued)

Event code
74E8 74E9 74E10 74E11 74E12 74E13 74E14 74E15 74E16 74E17 74E18 74E19 74E20 74E21 75E1 75E2 75E3 75E4 75E5 75E6 75E7 75E8 75E9 75E10 75E11 75E12 75E13 75E14 75E15 75E16 75E17 75E18 75E19 75E20 75E21 76E1 76E2 76E3 76E4 76E5

Description
Object4 close output off Object4 interlocked Object4 open timeout Object4 close timeout Object4 ready timeout Object4 final trip Object4 final trip off Object4 open blocking on Object4 open blocking off Object4 close blocking on Object4 close blocking off Object4 inactivity alarm on Object4 inactivity alarm off Object4 control fail Object5 open Object5 closed Object5 undefined (11) Object5 undefined (00) Object5 open output on Object5 open output off Object5 close output on Object5 close output off Object5 interlocked Object5 open timeout Object5 close timeout Object5 ready timeout Object5 final trip Object5 final trip off Object5 open blocking on Object5 open blocking off Object5 close blocking on Object5 close blocking off Object5 inactivity alarm on Object5 inactivity alarm off Object5 control fail Object6 open Object6 closed Object6 undefined (11) Object6 undefined (00) Object6 open output on

Communication protocols

Alarm

Code value (decimal)
4744 4745 4746 4747 4748 4749 4750 4751 4752 4753 4754 4755 4756 4757 4801 4802 4803 4804 4805 4806 4807 4808 4809 4810 4811 4812 4813 4814 4815 4816 4817 4818 4819 4820 4821 4865 4866 4867 4868 4869

120

P5/EN M/33B

Communication protocols

Table 40 - Event code list (Continued)

Event code
76E6 76E7 76E8 76E9 76E10 76E11 76E12 76E13 76E14 76E15 76E16 76E17 76E18 76E19 76E20 76E21 77E1 77E2 77E3 77E4 78E1 78E2 78E3 78E4 81E1 81E2 81E3 81E4 81E5 81E6 81E7 81E8 81E9 81E10 81E11 81E12 81E13 81E14 81E15 81E16 81E17

Description
Object6 open output off Object6 close output on Object6 close output off Object6 interlocked Object6 open timeout Object6 close timeout Object6 ready timeout Object6 final trip Object6 final trip off Object6 open blocking on Object6 open blocking off Object6 close blocking on Object6 close blocking off Object6 inactivity alarm on Object6 inactivity alarm off Object6 control fail Object7 open Object7 closed Object7 undefined (11) Object7 undefined (00) Object8 open Object8 closed Object8 undefined (11) Object8 undefined (00) External DI1 on External DI1 off External DI2 on External DI2 off External DI3 on External DI3 off External DI4 on External DI4 off External DI5 on External DI5 off External DI6 on External DI6 off External DI7 on External DI7 off External DI8 on External DI8 off External DI9 on

P5/EN M/33B

Alarm
Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes

Code value (decimal)
4870 4871 4872 4873 4874 4875 4876 4877 4878 4879 4880 4881 4882 4883 4884 4885 4929 4930 4931 4932 4993 4994 4995 4996 5185 5186 5187 5188 5189 5190 5191 5192 5193 5194 5195 5196 5197 5198 5199 5200 5201

121

Table 40 - Event code list (Continued)

Event code
81E18 81E19 81E20 81E21 81E22 81E23 81E24 81E25 81E26 81E27 81E28 81E29 81E30 81E31 81E32 81E33 81E34 81E35 81E36 82E1 82E2 82E3 82E4 82E5 82E6 82E7 82E8 82E9 82E10 82E11 82E12 82E13 82E14 82E15 82E16 82E17 82E18 82E19 82E20 82E21 82E22 82E23 82E24 82E25

Description
External DI9 off External DI10 on External DI10 off External DI11 on External DI11 off External DI12 on External DI12 off External DI13 on External DI13 off External DI14 on External DI14 off External DI15 on External DI15 off External DI16 on External DI16 off External DI17 on External DI17 off External DI18 on External DI18 off Alarm 1 AI1 on Alarm 1 AI1 off Alarm 1 AI2 on Alarm 1 AI2 off Alarm 1 AI3 on Alarm 1 AI3 off Alarm 1 AI4 on Alarm 1 AI4 off Alarm 1 AI5 on Alarm 1 AI5 off Alarm 1 AI6 on Alarm 1 AI6 off Alarm 1 AI7 on Alarm 1 AI7 off Alarm 1 AI8 on Alarm 1 AI8 off Alarm 1 AI9 on Alarm 1 AI9 off Alarm 1 AI10 on Alarm 1 AI10 off Alarm 1 AI11 on Alarm 1 AI11 off Alarm 1 AI12 on Alarm 1 AI12 off Alarm 1 AI13 on

Communication protocols

Alarm
Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes

Code value (decimal)
5202 5203 5204 5205 5206 5207 5208 5209 5210 5211 5212 5213 5214 5215 5216 5217 5218 5219 5220 5249 5250 5251 5252 5253 5254 5255 5256 5257 5258 5259 5260 5261 5262 5263 5264 5265 5266 5267 5268 5269 5270 5271 5272 5273

122

P5/EN M/33B

Communication protocols P5/EN M/33B

Table 40 - Event code list (Continued)

Event code
82E26 82E27 82E28 82E29 82E30 82E31 82E32 83E1 83E2 83E3 83E4 83E5 83E6 83E7 83E8 83E9 83E10 83E11 83E12 83E13 83E14 83E15 83E16 83E17 83E18 83E19 83E20 83E21 83E22 83E23 83E24 83E25 83E26 83E27 83E28 83E29 83E30 83E31 83E32 83E33 83E34 83E35 83E36 87E1

Description
Alarm 1 AI13 off Alarm 1 AI14 on Alarm 1 AI14 off Alarm 1 AI15 on Alarm 1 AI15 off Alarm 1 AI16 on Alarm 1 AI16 off Alarm 2 AI1 on Alarm 2 AI1 off Alarm 2 AI2 on Alarm 2 AI2 off Alarm 2 AI3 on Alarm 2 AI3 off Alarm 2 AI4 on Alarm 2 AI4 off Alarm 2 AI5 on Alarm 2 AI5 off Alarm 2 AI6 on Alarm 2 AI6 off Alarm 2 AI7 on Alarm 2 AI7 off Alarm 2 AI8 on Alarm 2 AI8 off Alarm 2 AI9 on Alarm 2 AI9 off Alarm 2 AI10 on Alarm 2 AI10 off Alarm 2 AI11 on Alarm 2 AI11 off Alarm 2 AI12 on Alarm 2 AI12 off Alarm 2 AI13 on Alarm 2 AI13 off Alarm 2 AI14 on Alarm 2 AI14 off Alarm 2 AI15 on Alarm 2 AI15 off Alarm 2 AI16 on Alarm 2 AI16 off Ext. AI short circuit on Ext. AI short circuit off Ext. AI disconn. error on Ext. AI disconn. error off Synchro-check 1 request

Alarm
Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes

Code value (decimal)
5274 5275 5276 5277 5278 5279 5280 5313 5314 5315 5316 5317 5318 5319 5320 5321 5322 5323 5324 5325 5326 5327 5328 5329 5330 5331 5332 5333 5334 5335 5336 5337 5338 5339 5340 5341 5342 5343 5344 5345 5346 5347 5348 5569

123

Table 40 - Event code list (Continued)

Event code
87E2 87E3 87E4 87E5 87E6 87E7 87E8 89E1 89E2 89E3 89E4 89E5 89E6 89E7 89E8 90E1 90E2 90E3 90E4 90E5 90E6 90E7 90E8 90E9 90E10 90E11 90E12 90E13 90E14 90E15 90E16 90E17 90E18 90E19 90E20 90E21 90E22 90E23 90E24 90E25 90E26 90E27

Description
Synchro-check 1 request off Synchro-check 1 OK on Synchro-check 1 OK off Synchro-check 1 bypass Synchro-check 1 bypass off Synchro-check 1 Failed Synchro-check 1 Fail off Set group 1 on Set group 1 off Set group 2 on Set group 2 off Set group 3 on Set group 3 off Set group 4 on Set group 4 off DI21 on DI21 off DI22 on DI22 off DI23 on DI23 off DI24 on DI24 off DI25 on DI25 off DI26 on DI26 off DI27 on DI27 off DI28 on DI28 off DI29 on DI29 off DI30 on DI30 off DI31 on DI31 off DI32 on DI32 off DI33 on DI33 off DI34 on

Communication protocols

Alarm

Code value (decimal)
5570 5571 5572 5573 5574 5575 5576 5697 5698 5699 5700 5701 5702 5703 5704 5761 5762 5763 5764 5765 5766 5767 5768 5769 5770 5771 5772 5773 5774 5775 5776 5777 5778 5779 5780 5781 5782 5783 5784 5785 5786 5787

124

P5/EN M/33B

Communication protocols

Table 40 - Event code list (Continued)

Event code
90E28 90E29 90E30 90E31 90E32 90E33 90E34 90E35 90E36 90E37 90E38 90E39 90E40 96E01 96E02 96E03 96E04 107E01 107E02 107E03 107E04 116E01 116E02 116E03 116E04 121E01 121E02 121E03 121E04 122E01 122E02 122E03 122E04 125E1 125E2 126E1 126E2 127E1 127E2 128E1 128E2 129E1

Description
DI34 off DI35 on DI35 off DI36 on DI36 off DI37 on DI37 off DI38 on DI38 off DI39 on DI39 off DI40 on DI40 off Uc> Start On Uc> Trip On Uc> Start Off Uc> Trip off IoInt> Start On IoInt> Trip On IoInt> Start Off IoInt> Trip off Uo>>> Start On Uo>>> Trip On Uo>>> Start Off Uo>>> Trip off U2> Start On U2> Trip On U2> Start Off U2> Trip off U2>> Start On U2>> Trip On U2>> Start Off U2>> Trip off Arc stage 1 act on Arc stage 1 act off Arc stage 2 act on Arc stage 2 act off Arc stage 3 act on Arc stage 3 act off Arc stage 4 act on Arc stage 4 act off Arc stage 5 act on

P5/EN M/33B

Alarm
Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes

Code value (decimal)
5788 5789 5790 5791 5792 5793 5794 5795 5796 5797 5798 5799 5800 6145 6146 6147 6148 6849 6850 6851 6852 7425 7426 7427 7428 7745 7746 7747 7748 7809 7810 7811 7812 8001 8002 8065 8066 8129 8130 8193 8194 8257

125

Table 40 - Event code list (Continued)

Event code
129E2 130E1 130E2 131E1 131E2 132E1 132E2 133E1 133E11 133E2 133E12 133E3 133E13 133E4 133E14 133E5 133E15 133E6 133E16 133E31 133E33 133E32 133E34 134E1 134E11 134E2 134E12 134E3 134E13 134E4 134E14 134E5 134E15 134E6 134E16 134E21 134E31 134E22 134E32 134E23 134E33 134E24 134E34

Description
Arc stage 5 act off Arc stage 6 act on Arc stage 6 act off Arc stage 7 act on Arc stage 7 act off Arc stage 8 act on Arc stage 8 act off Local Arc sensor 1 on Local Arc sensor 1 off Local Arc sensor 2 on Local Arc sensor 2 off Local Arc sensor 3 on Local Arc sensor 3 off Local Arc sensor 4 on Local Arc sensor 4 off Local Arc sensor 5 on Local Arc sensor 5 off Local Arc sensor 6 on Local Arc sensor 6 off Arc I>int. on Arc I>int. off Arc Io1>int. on Arc Io1>int. off Arc sensor 1 not conn. error Arc sensor 1 not conn. err off Arc sensor 2 not conn. error Arc sensor 2 not conn. err off Arc sensor 3 not conn. error Arc sensor 3 not conn. err off Arc sensor 4 not conn. error Arc sensor 4 not conn. err off Arc sensor 5 not conn. error Arc sensor 5 not conn. err off Arc sensor 6 not conn. error Arc sensor 6 not conn. err off Arc sensor 1 short circuit error Arc sensor 1 short circ. err off Arc sensor 2 short circuit error Arc sensor 2 short circ. err off Arc sensor 3 short circuit error Arc sensor 3 short circ. err off Arc sensor 4 short circuit error Arc sensor 4 short circ. err off

Communication protocols

Alarm
Yes
Yes
Yes
Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes

Code value (decimal)
8258 8321 8322 8385 8386 8449 8450 8513 8523 8514 8524 8515 8525 8516 8526 8517 8527 8518 8528 8543 8545 8544 8546 8577 8587 8578 8588 8579 8589 8580 8590 8581 8591 8582 8592 8597 8607 8598 8608 8599 8609 8600 8610

126

P5/EN M/33B

Communication protocols P5/EN M/33B

Table 40 - Event code list (Continued)

Event code
134E25 134E35 134E26 134E36 134E41 134E51 134E42 134E52 134E43 134E53 134E44 134E54 134E45 134E55 134E46 134E56 135E41 135E51 135E42 135E52 135E43 135E53 135E44 135E54 135E45 135E55 135E46 135E56 138E1 138E2 138E3 138E4 139E1 139E2 139E3 139E4 139E5 139E10 139E11 139E20 139E21 139E22

Description
Arc sensor 5 short circuit error Arc sensor 5 short circ. err off Arc sensor 6 short circuit error Arc sensor 6 short circ. err off Arc sensor 1 daylight error Arc sensor 1 daylight error off Arc sensor 2 daylight error Arc sensor 2 daylight error off Arc sensor 3 daylight error Arc sensor 3 daylight error off Arc sensor 4 daylight error Arc sensor 4 daylight error off Arc sensor 5 daylight error Arc sensor 5 daylight error off Arc sensor 6 daylight error Arc sensor 6 daylight error off Arc sensor 1 not inst. error Arc sensor 1 not inst. error off Arc sensor 2 not inst. error Arc sensor 2 not inst. error off Arc sensor 3 not inst. error Arc sensor 3 not inst. error off Arc sensor 4 not inst. error Arc sensor 4 not inst. error off Arc sensor 5 not inst. error Arc sensor 5 not inst. error off Arc sensor 6 not inst. error Arc sensor 6 not inst. error off 5. Harm Start On 5. Harm Trip On 5. Harm Start Off 5. Harm Trip Off Ethernet port1 link up Ethernet port1 link down Ethernet port2 link up Ethernet port2 link down Ethernet re-init RSTP Bridge not root RSTP bridge root RSTP Port1 role disabled RSTP Port1 role designated RSTP Port1 role root

Alarm Yes

Code value (decimal)
8601 8611 8602 8612 8617 8627 8618 8628 8619 8629 8620 8630 8621 8631 8622 8632 8681 8691 8682 8692 8683 8693 8684 8694 8685 8695 8686 8696 8833 8834 8835 8836 8897 8898 8899 8900 8901 8906 8907 8916 8917 8918

127

Table 40 - Event code list (Continued)

Event code
139E23 139E24 139E30 139E31 139E32 139E33 139E34 139E35 139E40 139E41 139E42 139E43 139E44 139E50 139E51 139E52 139E53 139E54 139E55 139E58 139E59 139E60 139E61 139E62 139E63 144E1 144E2 144E3 144E4 144E5 144E6 144E7 144E8 144E9 144E10 144E11 144E12 144E13 144E14 144E15 144E16

Description
RSTP Port1 role alternate RSTP Port1 role backup RSTP Port1 state link down RSTP Port1 state blocked RSTP Port1 state forwarding RSTP Port1 state learning RSTP Port1 State ForLearn RSTP Port1 state Unknown RSTP Port2 role disabled RSTP Port2 role designated RSTP Port2 role root RSTP Port2 role alternate RSTP Port2 role backup RSTP Port2 state link down RSTP Port2 state blocked RSTP Port2 state forwarding RSTP Port2 state learning RSTP Port2 State ForLearn RSTP Port2 state unknown PRP Port1 state link down PRP Port1 state conn. OK PRP Port1 state wrong LAN PRP Port2 state link down PRP Port2 state conn. OK PRP Port2 state wrong LAN NI1 Change NI2 Change NI3 Change NI4 Change NI5 Change NI6 Change NI7 Change NI8 Change NI9 Change NI10 Change NI11 Change NI12 Change NI13 Change NI14 Change NI15 Change NI16 Change

Communication protocols

Alarm

Code value (decimal)
8919 8920 8926 8927 8928 8929 8930 8931 8936 8937 8938 8939 8940 8946 8947 8948 8949 8950 8951 8954 8955 8956 8957 8958 8959 9217 9218 9219 9220 9221 9222 9223 9224 9225 9226 9227 9228 9229 9230 9231 9232

128

P5/EN M/33B

Communication protocols P5/EN M/33B

Table 40 - Event code list (Continued)

Event code
144E17 144E18 144E19 144E20 144E21 144E22 144E23 144E24 144E25 144E26 144E27 144E28 144E29 144E30 144E31 144E32 145E1 145E2 145E3 145E4 145E5 145E6 145E7 145E8 145E9 145E10 145E11 145E12 145E13 145E14 145E15 145E16 145E17 145E18 145E19 145E20 145E21 145E22 145E23 145E24

Description
NI17 Change NI18 Change NI19 Change NI20 Change NI21 Change NI22 Change NI23 Change NI24 Change NI25 Change NI26 Change NI27 Change NI28 Change NI29 Change NI30 Change NI31 Change NI32 Change NI33 Change NI34 Change NI35 Change NI36 Change NI37 Change NI38 Change NI39 Change NI40 Change NI41 Change NI42 Change NI43 Change NI44 Change NI45 Change NI46 Change NI47 Change NI48 Change NI49 Change NI50 Change NI51 Change NI52 Change NI53 Change NI54 Change NI55 Change NI56 Change

Alarm

Code value (decimal)
9233 9234 9235 9236 9237 9238 9239 9240 9241 9242 9243 9244 9245 9246 9247 9248 9281 9282 9283 9284 9285 9286 9287 9288 9289 9290 9291 9292 9293 9294 9295 9296 9297 9298 9299 9300 9301 9302 9303 9304

129

Table 40 - Event code list (Continued)

Event code
145E25 145E26 145E27 145E28 145E29 145E30 145E31 145E32 160E1 160E2 160E3 160E4 160E5 160E6 160E7 160E8 160E9 160E10 160E11 160E12 160E13 160E14 160E15 160E16 160E17 160E18 160E19 160E20 160E21 160E22 160E23 160E24 160E25 160E26 160E27 160E28 160E29 160E30 160E31 160E32

Description
NI57 Change NI58 Change NI59 Change NI60 Change NI61 Change NI62 Change NI63 Change NI64 Change NI65 Change NI66 Change NI67 Change NI68 Change NI69 Change NI70 Change NI71 Change NI72 Change NI73 Change NI74 Change NI75 Change NI76 Change NI77 Change NI78 Change NI79 Change NI80 Change NI81 Change NI82 Change NI83 Change NI84 Change NI85 Change NI86 Change NI87 Change NI88 Change NI89 Change NI90 Change NI91 Change NI92 Change NI93 Change NI94 Change NI95 Change NI96 Change

Communication protocols

Alarm

Code value (decimal)
9305 9306 9307 9308 9309 9310 9311 9312 10241 10242 10243 10244 10245 10246 10247 10248 10249 10250 10251 10252 10253 10254 10255 10256 10257 10258 10259 10260 10261 10262 10263 10264 10265 10266 10267 10268 10269 10270 10271 10272

130

P5/EN M/33B

Communication protocols P5/EN M/33B

Table 40 - Event code list (Continued)

Event code
161E1 161E2 161E3 161E4 161E5 161E6 161E7 161E8 161E9 161E10 161E11 161E12 161E13 161E14 161E15 161E16 161E17 161E18 161E19 161E20 161E21 161E22 161E23 161E24 161E25 161E26 161E27 161E28 161E29 161E30 146E1 146E2 146E3 146E4 146E37 146E38 146E39 146E40 146E41 146E42

Description
NI97 Change NI98 Change NI99 Change NI100 Change NI101 Change NI102 Change NI103 Change NI104 Change NI105 Change NI106 Change NI107 Change NI108 Change NI109 Change NI110 Change NI111 Change NI112 Change NI113 Change NI114 Change NI115 Change NI116 Change NI117 Change NI118 Change NI119 Change NI120 Change NI121 Change NI122 Change NI123 Change NI124 Change NI125 Change NI126 Change GOOSE NI Group 1 OK GOOSE NI Group 1 Error GOOSE NI Group 2 OK GOOSE NI Group 2 Error GCB1 Needs commissioning On GCB1 Needs commissioning Off GCB2 Needs commissioning On GCB2 Needs commissioning Off VAI1 Quality VAI2 Quality

Alarm

Code value (decimal)
10305 10306 10307 10308 10309 10310 10311 10312 10313 10314 10315 10316 10317 10318 10319 10320 10321 10322 10323 10324 10325 10326 10327 10328 10329 10330 10331 10332 10333 10334 9345 9346 9347 9348 9381 9382 9383 9384 9385 9386

131

Table 40 - Event code list (Continued)

Event code
146E43 146E44 146E45 146E46 146E47 146E48 146E50 146E51 146E56 146E57 146E58 146E59 148E1 150E01 150E02 150E03 150E04 151E01 151E02 151E03 151E04 154E1 154E2 154E3 154E4 154E5 154E6 154E7 154E8 154E9 154E10 154E11 154E12 154E13 154E14 154E15 154E16 154E17 154E18 154E19 154E20 154E21

Description
VAI3 Quality VAI4 Quality VAI5 Quality VAI6 Quality VAI7 Quality VAI8 Quality Global trip On Global trip Off GCB3 Needs commissioning On GCB3 Needs commissioning Off GCB4 Needs commissioning On GCB4 Needs commissioning Off Software diagnostic Io>>> Start On Io>>> Trip On Io>>> Start Off Io>>> Trip off Ilr Start On Ilr Trip On Ilr Start Off Ilr Trip off VI9 on VI9 off VI10 on VI10 off VI11 on VI11 off VI12 on VI12 off VI13 on VI13 off VI14 on VI14 off VI15 on VI15 off VI16 on VI16 off VI17 on VI17 off VI18 on VI18 off VI19 on

Communication protocols

Alarm
Yes Yes

Code value (decimal)
9387 9388 9389 9390 9391 9392 9394 9395 9400 9401 9402 9403 9473 9601 9602 9603 9604 9665 9666 9667 9668 9857 9858 9859 9860 9861 9862 9863 9864 9865 9866 9867 9868 9869 9870 9871 9872 9873 9874 9875 9876 9877

132

P5/EN M/33B

Communication protocols

Table 40 - Event code list (Continued)

Event code
154E22 154E23 154E24 154E25 154E26 156E02 156E04 161E31 161E32 162E01 162E02 162E03 162E04 165E01 165E02 165E03 165E04 166E01 166E02 166E03 166E04 167E01 167E02 167E03 167E04 168E01 168E02 168E03 168E04 168E11 168E12 168E13 168E14 168E15 168E16 168E17 168E18 168E19 168E20 168E21 168E22 168E23

Description
VI19 off VI20 on VI20 off Frequency out of range Frequency OK SOTF Trip On SOTF Trip off NI127 Change NI128 Change Io'> Start On Io'> Trip On Io'> Start Off Io'> Trip off Io'>> Start On Io'>> Trip On Io'>> Start Off Io'>> Trip off Io'>>> Start On Io'>>> Trip On Io'>>> Start Off Io'>>> Trip off I2> Start On I2> Trip On I2> Start Off I2> Trip off Motor T> Start On Motor T> Trip On Motor T> Start Off Motor T> Trip off Thm. level Motor Alarm Thm. level Motor Alarm Off Thm. Rsv Motor Alarm Thm. Rsv Motor Alarm Off Thm. Temp Motor Alarm Thm. T° Motor Alarm Off Block CB close on Block CB close off 1 active 1 inactive 2 active 2 inactive Hot status

P5/EN M/33B

Alarm
Yes Yes Yes
Yes
Yes
Yes
Yes
Yes Yes Yes Yes Yes
Yes

Code value (decimal)
9878 9879 9880 9881 9882 9986 9988 10335 10336 10369 10370 10371 10372 10561 10562 10563 10564 10625 10626 10627 10628 10689 10690 10691 10692 10753 10754 10755 10756 10763 10764 10765 10766 10767 10768 10769 10770 10771 10772 10773 10774 10775

133

Table 40 - Event code list (Continued)

Event code
168E24 200E1 200E2 200E3 200E52 200E53 200E54 200E55 170E1 170E2 170E3 170E4 170E5 170E6 170E7 171E1 171E2 171E3 171E4 171E5 171E6 171E7 172E1 172E2 172E3 172E4 172E5 172E6 172E7 173E1 173E2 173E3 173E4 173E5 173E6 173E7 174E1 174E2 174E3 174E4 174E5 174E6

Description
Cold status Easergy P5 mode in Normal Easergy P5 mode in Test Easergy P5 mode in Test Block VM Status is Idle VM Status is Data Off VM Status is Data On VM Status is Data Error T°1 alarm on T°1 alarm off T°1 operate on T°1 operate off RTD1 open-circuit fault on RTD1 short-circuit fault on RTD1 fault off T°2 alarm on T°2 alarm off T°2 operate on T°2 operate off RTD2 open-circuit fault on RTD2 short-circuit fault on RTD2 fault off T°3 alarm on T°3 alarm off T°3 operate on T°3 operate off RTD3 open-circuit fault on RTD3 short-circuit fault on RTD3 fault off T°4 alarm on T°4 alarm off T°4 operate on T°4 operate off RTD4 open-circuit fault on RTD4 short-circuit fault on RTD4 fault off T°5 alarm on T°5 alarm off T°5 operate on T°5 operate off RTD5 open-circuit fault on RTD5 short-circuit fault on

Communication protocols

Alarm
Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes

Code value (decimal)
10776 12801 12802 12803 12852 12853 12854 12855 10881 10882 10883 10884 10885 10886 10887 10945 10946 10947 10948 10949 10950 10951 11009 11010 11011 11012 11013 11014 11015 11073 11074 11075 11076 11077 11078 11079 11137 11138 11139 11140 11141 11142

134

P5/EN M/33B

Communication protocols

Table 40 - Event code list (Continued)

Event code
174E7 175E1 175E2 175E3 175E4 175E5 175E6 175E7 176E1 176E2 176E3 176E4 176E5 176E6 176E7 177E1 177E2 177E3 177E4 177E5 177E6 177E7 178E1 178E2 178E3 178E4 178E5 178E6 178E7 179E1 179E2 179E3 179E4 179E5 179E6 179E7 180E1 180E2 180E3 180E4 180E5 180E6

Description
RTD5 fault off T°6 alarm on T°6 alarm off T°6 operate on T°6 operate off RTD6 open-circuit fault on RTD6 short-circuit fault on RTD6 fault off T°7 alarm on T°7 alarm off T°7 operate on T°7 operate off RTD7 open-circuit fault on RTD7 short-circuit fault on RTD7 fault off T°8 alarm on T°8 alarm off T°8 operate on T°8 operate off RTD8 open-circuit fault on RTD8 short-circuit fault on RTD8 fault off T°9 alarm on T°9 alarm off T°9 operate on T°9 operate off RTD9 open-circuit fault on RTD9 short-circuit fault on RTD9 fault off T°10 alarm on T°10 alarm off T°10 operate on T°10 operate off RTD10 open-circuit fault on RTD10 short-circuit fault on RTD10 fault off T°11 alarm on T°11 alarm off T°11 operate on T°11 operate off RTD11 open-circuit fault on RTD11 short-circuit fault on

P5/EN M/33B

Alarm
Yes Yes
Yes Yes Yes Yes
Yes Yes Yes Yes
Yes Yes Yes Yes
Yes Yes Yes Yes
Yes Yes Yes Yes
Yes Yes

Code value (decimal)
11143 11201 11202 11203 11204 11205 11206 11207 11265 11266 11267 11268 11269 11270 11271 11329 11330 11331 11332 11333 11334 11335 11393 11394 11395 11396 11397 11398 11399 11457 11458 11459 11460 11461 11462 11463 11521 11522 11523 11524 11525 11526

135

Table 40 - Event code list (Continued)

Event code
180E7 181E1 181E2 181E3 181E4 181E5 181E6 181E7 182E1 182E2 182E3 182E4 182E5 182E6 182E7 183E1 183E2 183E3 183E4 183E5 183E6 183E7 184E1 184E2 184E3 184E4 184E5 184E6 184E7 185E1 185E2 185E3 185E4 185E5 185E6 185E7 186E01 186E02 186E03 186E04 215E2 215E4

Description
RTD11 fault off T°12 alarm on T°12 alarm off T°12 operate on T°12 operate off RTD12 open-circuit fault on RTD12 short-circuit fault on RTD12 fault off T°13 alarm on T°13 alarm off T°13 operate on T°13 operate off RTD13 open-circuit fault on RTD13 short-circuit fault on RTD13 fault off T°14 alarm on T°14 alarm off T°14 operate on T°14 operate off RTD14 open-circuit fault on RTD14 short-circuit fault on RTD14 fault off T°15 alarm on T°15 alarm off T°15 operate on T°15 operate off RTD15 open-circuit fault on RTD15 short-circuit fault on RTD15 fault off T°16 alarm on T°16 alarm off T°16 operate on T°16 operate off RTD16 open-circuit fault on RTD16 short-circuit fault on RTD16 fault off df/dt>> Start On df/dt>> Trip On df/dt>> Start Off df/dt>> Trip Off Anti back spin alarm on Anti back spin alarm off

Communication protocols

Alarm
Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes
Yes
Yes

Code value (decimal)
11527 11585 11586 11587 11588 11589 11590 11591 11649 11650 11651 11652 11653 11654 11655 11713 11714 11715 11716 11717 11718 11719 11777 11778 11779 11780 11781 11782 11783 11841 11842 11843 11844 11845 11846 11847 11905 11906 11907 11908 13762 13764

136

P5/EN M/33B

Communication protocols

Table 40 - Event code list (Continued)

Event code
200E6 200E7 200E8 200E9 200E10 200E11 200E12 200E13 200E14 200E15 200E16 200E17 200E18 200E19 200E20 200E21 200E22 200E23 200E24 200E25 200E26 200E27 200E28 200E29 200E30 200E31 200E32 200E33 200E34 200E35 200E36 200E37 200E38 200E39 200E40 200E41 200E42 200E43 200E44 200E45 200E46 200E47

Description
Port USB Disabled Port USB Enabled Port mini USB Disabled Port mini USB Enabled Serial Port Disabled Serial Port Enabled Ethernet Port slot M Disabled Ethernet Port slot M Enabled Ethernet Port slot L Disabled Ethernet Port slot L Enabled Ethernet Protocol 1 Disabled Ethernet Protocol 1 Enabled Ethernet Protocol 2 Disabled Ethernet Protocol 2 Enabled Extersion Port Disabled Extersion Port Enabled Time Sync Source is IEEE1588 Time Sync Source is IRIG-B Time Sync Source is SNTP Time Sync Source is SNTP Backup Time Sync Source is Pulse Signal Time Sync Source is 1 PPS Time Sync Source is Modbus Time Sync Source is IEC101 Time Sync Source is IEC103 Time Sync Source is DNP3 Time Sync Source is Internal LPCT cable is connected LPCT cable is disconnected LPVT1 cable is connected LPVT1 cable is disconnected LPVT2 cable is connected LPVT2 cable is disconnected Software error Slot L mismatch Slot L board is missing Slot L is not configured Slot M mismatch Slot M board is missing Slot M is not configured Slot N mismatch Slot N board is missing

P5/EN M/33B

Alarm
Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes

Code value (decimal)
12806 12807 12808 12809 12810 12811 12812 12813 12814 12815 12816 12817 12818 12819 12820 12821 12822 12823 12824 12825 12826 12827 12828 12829 12830 12831 12832 12833 12834 12835 12836 12837 12838 12839 12840 12841 12842 12843 12844 12845 12846 12847

137

Table 40 - Event code list (Continued)

Event code
200E48 200E49 200E50 200E51 200E56 200E57 200E58 200E59 200E60 200E61

Description
Slot N is not configured Slot P mismatch Slot P board is missing Slot P is not configured Reset CS to factory OK Reset CS to factory fail Eth. protocol 3 disabled Eth. protocol 3 enabled Eth. port slot N enabled Eth. port slot N disabled

Communication protocols

Alarm
Yes Yes Yes Yes

Code value (decimal)
12848 12849 12850 12851 12856 12857 12858 12859 12860 12861

138

P5/EN M/33B

Communication protocols

Clock synchronisation

The internal clock of Easergy P5 protection relays can be synchronised via the Modbus protocol. Note this is not a native feature of the Modbus protocol. Therefore, this is an Easergy P5 protection relay specific feature. The accuracy of the clock synchronisation is in the scale of a few hundred milliseconds.
The clock can be synchronised either completely (all fields: seconds, minutes, hours, days, month and year) or by synchronising only the minutes, which in turn will set the seconds and milliseconds to zero.
An example of how minute synchronisation can be done: when the reference clock (the clock which is assumed to be correct) is exactly seven minutes past (any hour), a minute synchronisation is performed. The result will be that the internal clock of the Easergy P5 protection relays will be set to HH:07:00.000 ("Hours: Minutes:Seconds.Milliseconds") "HH" will not be changed.
These two ways of synchronising the clock are denoted "Set RTC", where "RTC" stands for "Real-Time Clock" and "Synchronise Minutes" in the data map. The holding register address of the minute synchronisation is 2502.
The holding registers allocated to the Set RTC synchronisation are:
Table 41 - Description of holding registers allocated to Set RTC synchronisation

Holding Register 2504 2505
2506
2507

Content
Lower byte: seconds, milliseconds will be zero
Upper byte: minutes Lower byte: hours
Upper byte: day Lower byte: month
Year

Scaling

Since the Modbus registers are 16 bits in size, they can directly represent 2^16 = 65535 different values, which might not be enough to describe the values of some physical quantity such as voltage or power. Thus, values transmitted over a Modbus data link are scaled to account for this.
The scaling is determined by the float value of the corresponding specific scalings. After multiplication by a scaling value, only the decimals are removed from the original measurements, and such values are easy to read and rescale to actual values on the client side after transmission.
These settings for scaling can be set by navigating to the Modbus and IEC 608705-101 specific scalings view in the COMMUNICATION menu in eSetup Easergy Pro or Web HMI.
A short example: The frequency is internally (in the Easergy P5 protection relays) stored as an integer value which also holds three decimal places, that is, 50.000 Hz is represented as 50000. This is a value too large to be represented with 16 bits (signed integer). However, frequency is multipled by default scaled value 0.1, enabling it to be sent over Modbus.
Thus, the value on the receiving side (the Modbus value) will be:
valueModbus = k  valueInternal = 0.1  50000 = 5000

P5/EN M/33B

139

Communication protocols

Scaling can be checked in eSetup Easergy Pro by viewing the Scaling column for each register in the Modbus slave COMMUNICATION menu.
NOTE: It is highly recommended to scale values so that they are kept in the interval 0 ­32000 to avoid overflow. The Modbus scaling address can be found in the Modbus specific scalings view in the COMMUNICATION menu in eSetup Easergy Pro or Web HMI.

140

P5/EN M/33B

Communication protocols

The following table shows the different values of Voltage scaling, and the values to be filled in the frame. When the client reads a 2 register value for voltage scaling, it needs to combine these 2 values together and convert them to a float 32 value.
For example, when voltage scaling value is 0.001, the values 0x126f and 0x3A83 will be merged to 4 bytes value 0x3A83126F.
Table 42 - Voltage scaling values

Voltage scaling
1.0000 0.0010 1000.0000 500.0000

IEEE 754 / Float32
0x3F800000 0x3A83126F 0x447A0000 0x43FA0000

Value in address 10007 0x0000 0x126F 0x0000 0x0000

Value in address 10008 0x3F80 0x3A83 0x447A 0x43FA

Read exception status

This function code 7 is used to read the contents of eight exception status. Eight bits make up one byte.
The following table shows the status supported:
Table 43 - Read exception status

Bit

Status

Description

0

Test Mode

If test mode is not in normal, set bit 0.

1

Time Synchronisation If the synchronising source is internal, set bit 1.

2

New Event

If a new event is generated, set bit 2.

3

Hardware Status

If the hardware has problem, set bit 3.

4...7

Reserved

P5/EN M/33B

141

Communication protocols

Read device identification

Both basic and regular device identification are supported though function code 43 and 14. The Modbus slave will respond with the exception code 3 if receive the unsupported category.
Table 44 - Read device identification

Object ID 0x00 0x01

Object Name VendorName ProductCode

0x02 0x03 0x04
0x05 0x06

MajorMinorRevision VendorUrl ProductName (product range) ModelName
UserApplicationName

Value Schneider Electric If P5U20: 16700 If P5V20: 16701 If P5M30: 16702 If P5F30: 16703 If P5U20 LPCT/LPVT: 16707 11 chars, e.g. 001.300.003 http://www.se.com Easergy P5
P5U20 / P5V20 / P5F30 / P5M30 / P5U20 LPCT/LPVT depending on type If P5U20: Universal current protection If P5V20: Voltage and Frequency protection If P5F30: Directional Feeder and Transformer protection If P5M30: Motor protection If P5U20 LPCT/LPVT: Universal current protection with LPCT/LPVT

Data model of Modbus Scalings

Add. 1001 1002 1003 1004
1005
1006 1007 1008 1009

Name

Read Write

CT primary (ln) CT secondary

1

0

1

0

Nominal current (In) 1

0

LPCT rated primary current (Ipr)

1

0

Current factor

1

0

Earth CT primary

1

0

Earth CT secondary 1

0

Io primary CSH rate 1

0

Io secondary

1

0

FC

Scalling

Setting for Scalling

3 1A=1 3 1A=1 3 1.00 A = 100

LPCT/VT scaling

3 1A=1

0.25=0;0.5=1;1=

2;1.25=3;1.33=

4;2=5;2.5=6;3.2=

3

7;4=8;5=9;6.3= 10;6.66=11;10=

12;16=13;20=

14;25=15;31.5=

16

3 1A=1

3 1.0 A = 10

3 1A=1

3 1.0 A = 10

P5 U20 P5 P5 P5 P5 LPCT U20 V20 F30 M30 LPVT



























































142

P5/EN M/33B

Communication protocols

Add.
1010 1011 1012 1013 1014 1015 1016 1017 1018
1019 1020 1021 1022 1023 1024
1025 1026 1027 1028 1029 1030 1031 1032 1033 1034 1035 1036

Name

Read Write

Earth fault input (CSH)

1

0

Earth CT' primary

1

0

Earth CT' secondary

1

0

VT primary (Un)

1

0

Nominal voltage (Un)

1

0

LPVT or VT rated primary voltage

1

0

VT secondary

1

0

VTy secondary

1

0

VTo primary

1

0

VTo secondary

1

0

Voltage factor

1

0

Phase Rotation

1

0

Voltage measurement mode

1

0

Nominal frequency

1

0

Power direction

1

0

Number of

connected phase

1

0

CT

VL1 magnitude correction

1

0

VL2 magnitude correction

1

0

VL3 magnitude correction

1

0

VL1 Angle correction

1

0

VL2 Angle correction

1

0

VL3 Angle correction

1

0

VL1y magnitude correction

1

0

VL1y Angle correction

1

0

VL2y magnitude correction

1

0

VL2y Angle correction

1

0

VT type

1

0

FC

Scalling

Setting for Scalling

3 1.0 A = 10

3 1A=1

3 1.0 A = 10

VT primary 3 1.000 kV = 1000 scaling

3 1.00 V = 100

LPVT/VT scaling

3

1.000 kV = 1000

LPVT/VT scaling

3 1V=1

3 1V=1

3

1.000 kV = 1000

VTo primary scaling

3 1.000 V = 100

VTo secondary scaling

3 1.000 = 1000 3 1-2-3=0;1-3-2=1

3 Value 21

3 50 Hz = 50

3

Outgoing=0; Incoming=1

3 I1/I2/I3=0;I1/I3=1

3 1.000 = 10000

3 1.000 = 10000

3 1.000 = 10000

3 1.000 ° = 10000

3 1.000 ° = 10000

3 1.000 ° = 10000

3 1.000 = 10000

3 1.000 ° = 10000

3 1.000 = 10000

3 1.000 ° = 10000

3

VT+Adapter=0; LPVT=1

LPCT/VT scaling LPCT/VT scaling LPCT/VT scaling
LPCT/VT scaling
LPCT/VT scaling

P5 U20 P5 P5 P5 P5 LPCT U20 V20 F30 M30 LPVT





































































































           

















































21. 2LL+Uo=0;3LN=1;1LL+Uo/LLy=2;2LL/LLy=3;LL/LLy/LLz=4;1LL=5;1LN=6;3LL=8;3LN/LNy=9;3LN/LLy=10;2LL+Uo/LNy=11;2LL+Uo +LLy=12;3LN+Uo=13;LL+Uo/y/z=14;LN+Uo/y/z=15;LL/LLy=16;3LN/2LNy=17

P5/EN M/33B

143

Add.

Name

Read Write FC

Scalling

1037 VT secondary

1

0

3 1V=1

1038

VL1 adapter mag correction

1

0

3 1.000 = 1000

1039

VL2 adapter mag correction

1

0

3 1.000 = 1000

1040

VL3 adapter mag correction

1

0

3 1.000 = 1000

1041 VTy secondary

1

0

3 1V=1

1042

VL1y adapter mag correction

1

0

3 1.000 = 1000

1044 VTo secondary

1

0

3 1V=1

1045

Uo adapter mag correction

1

0

3 1.000 = 1000

Communication protocols

Setting for Scalling
LPCT/VT scaling LPCT/VT scaling LPCT/VT scaling
LPCT/VT scaling
LPCT/VT scaling

P5 U20 P5 P5 P5 P5 LPCT U20 V20 F30 M30 LPVT

















































Read and command

Add.

Name

Read Write FC

Scalling

2001 Alive indicator

1

2006

Digital Inputs 01...16

1

2007

Digital Inputs 17...32

1

2008

Digital Inputs 33...40

1

2042 Object1 state

1

2043 Object2 state

1

2044 Object3 state

1

2045 Object4 state

1

2046 Object5 state

1

2047 Object6 state

1

2048 Object7 state

1

2049 Object8 state

1

2057 Run hours/10^0

1

2058 Run hours/10^4

1

2059

Engine running (in seconds)

1

2060 Start counter

1

2101... 2105

Events

1

2301 Mode of use

1

2302 Remote/Local State 1

0

3 1=1

0

3 1=1

0

3 1=1

0

3 1=1

0

3

Open=0;Close=1; Undef=2

0

3

Open=0;Close=1; Undef=2

0

3

Open=0;Close=1; Undef=2

0

3

Open=0;Close=1; Undef=2

0

3

Open=0;Close=1; Undef=2

0

3

Open=0;Close=1; Undef=2

0

3

Open=0;Close=1; Undef=2

0

3

Open=0;Close=1; Undef=2

0

3 1=1

0

3 1=1

1

3, 6 1 s = 1

1

3, 6 1 = 1

0

3 1=1

0

3

Normal=0;Test=1; Test Block=2

0

3

REMOTE=0; LOCAL=1

Setting for Scalling

P5 U20 P5 P5 P5 P5 LPCT U20 V20 F30 M30 LPVT



















































































































































































144

P5/EN M/33B

Communication protocols

Add.

Name

Read Write FC

Scalling

2303

Port 1 status (Slot M)

1

0

3

Link off=0; Link on=1

2304

Port 2 status (Slot M)

1

0

3

Link off=0; Link on=1

2305

Port 1 status (Slot L)

1

0

3

Link off=0; Link on=1

2306

Port 2 status (Slot L)

1

0

3

Link off=0; Link on=1

2307

Port 1 status (Slot M&N)

1

0

3

Link off=0; Link on=1

2308

Port 2 status (Slot M&N)

1

0

3

Link off=0; Link on=1

2351 External AI1

1

0

3 Value 22

2352 External AI2

1

0

3 Value 22

2353 External AI3

1

0

3 Value 22

2354 External AI4

1

0

3 Value 22

2355 External AI5

1

0

3 Value 22

2356 External AI6

1

0

3 Value 22

2357 External AI7

1

0

3 Value 22

2358 External AI8

1

0

3 Value 22

2359 External AI9

1

0

3 Value 22

2360 External AI10

1

0

3 Value 22

2361 External AI11

1

0

3 Value 22

2362 External AI12

1

0

3 Value 22

2363 External AI13

1

0

3 Value 22

2364 External AI14

1

0

3 Value 22

2365 External AI15

1

0

3 Value 22

2366 External AI16

1

0

3 Value 22

2367 External AI17

1

0

3 Value 22

2368 External AI18

1

0

3 Value 22

2369 External AI19

1

0

3 Value 22

2370 External AI20

1

0

3 Value 22

Setting for Scalling

P5 U20 P5 P5 P5 P5 LPCT U20 V20 F30 M30 LPVT



















































External AI scaling
External AI scaling
External AI scaling
External AI scaling
External AI scaling
External AI scaling
External AI scaling
External AI scaling
External AI scaling
External AI scaling
External AI scaling
External AI scaling
External AI scaling
External AI scaling
External AI scaling
External AI scaling
External AI scaling
External AI scaling
External AI scaling
External AI scaling



















































































































































































































22. 1 °C = 1 / 1 F = 1 / 1 K = 1 / 1 V/A = 1 / 1 mA = 1 / 1 Ohm = 1 / 1 A = 1 / 1 V = 1 / 1 kW = 1 / 1 kVA = 1 / 1 kvar = 1 / 1 - = 1

P5/EN M/33B

145

Add.

Name

2371 External AI21 2372 External AI22 2373 External AI23 2374 External AI24 2375 External AI25 2376 External AI26 2377 External AI27 2378 External AI28 2379 External AI29 2380 External AI30 2381 External AI31 2382 External AI32 2383 External AI33 2384 External AI34 2385 External AI35 2386 External AI36 2387 External AI37 2388 External AI38 2389 External AI39 2390 External AI40 2391 External AI41 2392 External AI42 2393 External AI43 2394 External AI44 2395 External AI45 2396 External AI46

Read Write FC

Scalling

1

0

3 Value 23

1

0

3 Value 23

1

0

3 Value 23

1

0

3 Value 23

1

0

3 Value 23

1

0

3 Value 23

1

0

3 Value 23

1

0

3 Value 23

1

0

3 Value 23

1

0

3 Value 23

1

0

3 Value 23

1

0

3 Value 23

1

0

3 Value 23

1

0

3 Value 23

1

0

3 Value 23

1

0

3 Value 23

1

0

3 Value 23

1

0

3 Value 23

1

0

3 Value 23

1

0

3 Value 23

1

0

3 Value 23

1

0

3 Value 23

1

0

3 Value 23

1

0

3 Value 23

1

0

3 Value 23

1

0

3 Value 23

Communication protocols

Setting for Scalling
External AI scaling
External AI scaling
External AI scaling
External AI scaling
External AI scaling
External AI scaling
External AI scaling
External AI scaling
External AI scaling
External AI scaling
External AI scaling
External AI scaling
External AI scaling
External AI scaling
External AI scaling
External AI scaling
External AI scaling
External AI scaling
External AI scaling
External AI scaling
External AI scaling
External AI scaling
External AI scaling
External AI scaling
External AI scaling
External AI scaling

P5 U20 P5 P5 P5 P5 LPCT U20 V20 F30 M30 LPVT





































































































































































































































































23. 1 °C = 1 / 1 F = 1 / 1 K = 1 / 1 V/A = 1 / 1 mA = 1 / 1 Ohm = 1 / 1 A = 1 / 1 V = 1 / 1 kW = 1 / 1 kVA = 1 / 1 kvar = 1 / 1 - = 1

146

P5/EN M/33B

Communication protocols

Add.

Name

2397 External AI47

2398 External AI48

2399 External AI49

2400 External AI50

2401 External AI51

2402 External AI52

2403 External AI53

2404 External AI54

2405 External AI55

2406 External AI56

2407 External AI57

2408 External AI58

2409 External AI59

2410 External AI60

2411 External AI61

2412 External AI62

2413 External AI63

2414 External AI64

2415 2416 2417 2418 2419 2420 2421 2422 2423 2424 2425 2426 2427

External DI1 External DI2 External DI3 External DI4 External DI5 External DI6 External DI7 External DI8 External DI9 External DI10 External DI11 External DI12 External DI13

Read Write FC

Scalling

1

0

3 Value 24

1

0

3 Value 24

1

0

3 Value 24

1

0

3 Value 24

1

0

3 Value 24

1

0

3 Value 24

1

0

3 Value 24

1

0

3 Value 24

1

0

3 Value 24

1

0

3 Value 24

1

0

3 Value 24

1

0

3 Value 24

1

0

3 Value 24

1

0

3 Value 24

1

0

3 Value 24

1

0

3 Value 24

1

0

3 Value 24

1

0

3 Value 24

1

0

3 1=1

1

0

3 1=1

1

0

3 1=1

1

0

3 1=1

1

0

3 1=1

1

0

3 1=1

1

0

3 1=1

1

0

3 1=1

1

0

3 1=1

1

0

3 1=1

1

0

3 1=1

1

0

3 1=1

1

0

3 1=1

Setting for Scalling
External AI scaling
External AI scaling
External AI scaling
External AI scaling
External AI scaling
External AI scaling
External AI scaling
External AI scaling
External AI scaling
External AI scaling
External AI scaling
External AI scaling
External AI scaling
External AI scaling
External AI scaling
External AI scaling
External AI scaling
External AI scaling

P5 U20 P5 P5 P5 P5 LPCT U20 V20 F30 M30 LPVT























































































































































































































































































































24. 1 °C = 1 / 1 F = 1 / 1 K = 1 / 1 V/A = 1 / 1 mA = 1 / 1 Ohm = 1 / 1 A = 1 / 1 V = 1 / 1 kW = 1 / 1 kVA = 1 / 1 kvar = 1 / 1 - = 1

P5/EN M/33B

147

Add.

Name

Read Write FC

Scalling

2428 External DI14

1

2429 External DI15

1

2430 External DI16

1

2431 External DI17

1

2432 External DI18

1

2501 Release latches

1

2502

Synchronize minutes

1

2504...- Set Real Time 2507 Clock (RTC)

0

2508

Open select object 1

1

2509

Close select object 1

1

2510

Execute operation Object1

0

2511

Max ctrl pulse length of Object1

1

2512

Open select object 2

1

2513

Close select object 2

1

2514

Execute operation Object2

0

2515

Max ctrl pulse length of Object2

1

2516

Cancel selected operation

0

2517

Open select object 3

1

2518

Close select object 3

1

2519

Execute operation Object3

0

2520

Max ctrl pulse length of Object3

1

2521

Open select object 4

1

2522

Close select object 4

1

2523

Execute operation Object4

0

2524

Max ctrl pulse length of Object4

1

2525

Open select object 5

1

2526

Close select object 5

1

2527

Execute operation Object5

0

0

3 1=1

0

3 1=1

0

3 1=1

0

3 1=1

0

3 1=1

1

3, 6 Release=1

1

3, 6 1 = 1

1

6 1=1

1

3, 6 1 = 1

1

3, 6 1 = 1

1

6 1=1

1

3, 6 1.00 s = 100

1

3, 6 1 = 1

1

3, 6 1 = 1

1

6 1=1

1

3, 6 1.00 s = 100

1

6 1=1

1

3, 6 1 = 1

1

3, 6 1 = 1

1

6 1=1

1

3, 6 1.00 s = 100

1

3, 6 1 = 1

1

3, 6 1 = 1

1

6 1=1

1

3, 6 1.00 s = 100

1

3, 6 1 = 1

1

3, 6 1 = 1

1

6 1=1

Communication protocols

Setting for Scalling

P5 U20 P5 P5 P5 P5 LPCT U20 V20 F30 M30 LPVT















































































































Max control

pulse length











scaling































Max control

pulse length











scaling









































Max control

pulse length











scaling































Max control

pulse length











scaling































148

P5/EN M/33B

Communication protocols

Add.
2528 2529 2530 2531 2532 2534 2536

Name

Read Write FC

Scalling

Setting for Scalling

Max ctrl pulse length of Object5

1

Open select object 6

1

Close select object 6

1

Execute operation Object6

0

Max ctrl pulse length of Object6

1

Set. group common change

1

Clear min/max/ demand

1

1

3, 6 1.00 s = 100

1

3, 6 1 = 1

Max control pulse length scaling

1

3, 6 1 = 1

1

6 1=1

1

3, 6 1.00 s = 100

Max control pulse length scaling

1

3, 6 1=0;2=1;3=2;4=3

1

3, 6 Clear=1

P5 U20 P5 P5 P5 P5 LPCT U20 V20 F30 M30 LPVT







































































Measurement

Add.

Name

Read Write FC

Scalling

3001

Positive sequence I1

1

3002

Negative sequence I2

1

3003 Current ratio I2/I1

1

3004

Current phase sequence

1

3005 Phase current THD

1

3006

Phase current IL1 THD

1

3007

Phase current IL2 THD

1

3008

Phase current IL3 THD

1

3009 Phase current IL

1

3010 Min. of IL1 IL2 IL3

1

3011 Max. of IL1 IL2 IL3

1

3012

Phase current ILRMS

1

3015

Phase current IL1RMS

1

3016

Phase current IL2RMS

1

3017

Phase current IL3RMS

1

3019

Ambient temperature

1

3020

Phase current IL1da demand

1

3021

Phase current IL2da demand

1

3022

Phase current IL3da demand

1

0

3 1A=1

0

3 1A=1

0

3 1.0 % = 10

0

3

??=0;OK=1; Reverse=2

0

3 1.0 % = 10

0

3 1.0 % = 10

0

3 1.0 % = 10

0

3 1.0 % = 10

0

3 1A=1

0

3 1A=1

0

3 1A=1

0

3 1A=1

0

3 1A=1

0

3 1A=1

0

3 1A=1

0

3, 6 1 °C = 1 / 1 °F = 1

0

3 1A=1

0

3 1A=1

0

3 1A=1

Setting for Scalling

P5 U20 P5 P5 P5 P5 LPCT U20 V20 F30 M30 LPVT























































































































































P5/EN M/33B

149

Communication protocols

Add.
3031 3032 3033 3034 3035 3036 3037 3038 3039 3040 3041 3042 3043 3044 3045
3048
3049
3050
3058 3059 3060 3061 3062 3063 3066 3067 3068

Name

Read Write

Positive sequence U1

1

0

Negative sequence U2

1

0

Voltage U2/U1

1

0

Voltage phase sequence

1

0

Voltage THD

1

0

Phase-Earth VL1 THD

1

0

Phase-Earth VL2 THD

1

0

Phase-Earth VL3 THD

1

0

Average PhasePhase voltage

1

0

Min of Phase-Phase voltages

1

0

Max of PhasePhase voltages

1

0

Average PhaseEarth voltage

1

0

Min. of Phase-Earth voltages

1

0

Max. of PhaseEarth voltages

1

0

RMS average voltage

1

0

Phase-Phase

voltage U12RMS / Phase-Earth

1

0

voltage VL1RMS

Phase-Phase

voltage U23RMS / Phase-Earth

1

0

voltage VL2RMS

Phase-Earth

voltage VL3RMS / Phase-Phase

1

0

voltage U12yRMS

Cos

1

0

Tangent 

1

0

Power angle

1

0

RMS active power

1

0

RMS reactive power 1

0

RMS apparent power

1

0

Active power demand
Reactive power demand

1

0

1

0

Apparent power demand

1

0

FC

Scalling

3 1000 V = 1000

3 1000 V = 1000

3 1.0 % = 10

3

??=0;OK=1; Reverse=2

3 1.0 % = 10

3 1.0 % = 10

3 1.0 % = 10

3 1.0 % = 10

3 1000 V = 1000

3 1000 V = 1000

3 1000 V = 1000

3 1000 V = 1000

3 1000 V = 1000

3 1000 V = 1000

3 1000 V = 1000

3 1000 V = 1000

Setting for Scalling
Voltage scaling
Voltage scaling

P5 U20 P5 P5 P5 P5 LPCT U20 V20 F30 M30 LPVT



























































Voltage scaling



Voltage scaling



Voltage scaling



Voltage scaling



Voltage scaling



Voltage scaling



Voltage scaling



















































Voltage scaling









3 1000 V = 1000

Voltage scaling









3 1000 V = 1000

Voltage scaling



3 1.00 = 100

PF and cos scaling



3 1.000 = 1000

Tan scaling



3 1°=1



3 1000 kW = 1000 Power scaling



3 1000 kVAr = 1000 Power scaling



3 1000 kVA = 1000 Power scaling



3 1000 kW = 1000 Power scaling



3 1000 kVAr = 1000 Power scaling



3 1000 kVA = 1000 Power scaling













































150

P5/EN M/33B

Communication protocols

Add.
3069 3071 3072 3073 3081 3082 3083 3084 3085 3086 3087 3088 3089 3090 3091 3092 3101 3102 3103 3111 3112 3113 3207 3208 3209 3210 3211 3212 3213

Name

Read Write

Power factor demand

1

0

RMS active power demand

1

0

RMS reactive power demand

1

0

RMS apparent power demand

1

0

Phase L1 active power

1

0

Phase L2 active power

1

0

Phase L3 active power

1

0

Phase L1 reactive power

1

0

Phase L2 reactive power

1

0

Phase L3 reactive power

1

0

Phase L1 apparent power

1

0

Phase L2 apparent power

1

0

Phase L3 apparent power

1

0

Cos of phase L1

1

0

Cos of phase L2

1

0

Cos of phase L3

1

0

Frequency fy

1

0

Phase-to-Phase voltage U12y
Phase angle difference

1

0

1

0

Frequency fz

1

0

Phase-to-Phase voltage U12z

1

0

Phase angle difference

1

0

Earth fault calculated

1

0

Io CSH residual current

1

0

Phase current IL1

1

0

Phase current IL2

1

0

Phase current IL3

1

0

Io residual current

1

0

Io' residual current

1

0

FC

Scalling

3 1.00 = 100 3 1000 kW = 1000

Setting for Scalling
PF and cos scaling

P5 U20 P5 P5 P5 P5 LPCT U20 V20 F30 M30 LPVT







Power scaling







3 1000 kVAr = 1000 Power scaling







3 1000 kVA = 1000 Power scaling







3 1000 kW = 1000 Power scaling







3 1000 kW = 1000 Power scaling







3 1000 kW = 1000 Power scaling







3 1000 kVAr = 1000 Power scaling







3 1000 kVAr = 1000 Power scaling







3 1000 kVAr = 1000 Power scaling







3 1000 kVA = 1000 Power scaling







3 1000 kVA = 1000 Power scaling







3 1000 kVA = 1000 Power scaling



3 1.00 = 100

PF and cos scaling



3 1.00 = 100

PF and cos scaling



3 1.00 = 100

PF and cos scaling



3

50.000 Hz = 5000

Frequency scaling



3 1000 V = 1000

Voltage scaling



3 1 ° = 10

-



3

50.000 Hz = 5000

Frequency scaling



3 1000 V = 1000

Voltage scaling



3 1°=1

-

3 1.00 A = 100

Io scaling



3 1.00 A = 100

Io scaling (CSH)



3 1A=1



3 1A=1



3 1A=1



3 1.00 A = 100

Io scaling

3 1.000 A = 1000

Io' scaling















































































P5/EN M/33B

151

Communication protocols

Add.

Name

Read Write

3214 3215 3216 3217 3218 3219 3220

Phase-to-Phase voltage U12
Phase-to-Phase voltage U23
Phase-to-Phase voltage U31
Phase-to-earth voltage VL1
Phase-to-earth voltage VL2
Phase-to-earth voltage VL3
Residual voltage

1

0

1

0

1

0

1

0

1

0

1

0

1

0

3221 Frequency

1

0

3222 3223 3224

Active power Reactive power Apparent power

1

0

1

0

1

0

3225 Power factor

1

0

3226 Energy Eexp

1

0

3227 Eexp/10^4

1

0

3228 Eexp/10^8

1

0

3229 Energy EqExp

1

0

3230 EqExp/10^4

1

0

3231 EqExp/10^8

1

0

3232 Energy Eimp

1

0

3233 Eimp/10^4

1

0

3234 Eimp/10^8

1

0

3235 Energy EqImp

1

0

3236 EqImp/10^4

1

0

3237 EqImp/10^8

1

0

3238 Tangent 

1

0

3239 Phase current IL

1

0

3240

Average PhasePhase voltage

1

0

Average Phase3241 Earth voltage

1

0

3256... 3271

Harmonics of IL1

1

0

3276... 3291
3296... 3311

Harmonics of IL2 Harmonics of IL3

1

0

1

0

3316... Harmonics of U12 / 3331 Harmonics of VL1

1

0

3336... Harmonics of U23 / 3351 Harmonics of VL2

1

0

FC

Scalling

3 1000 V = 1000

Setting for Scalling
Voltage scaling

P5 U20 P5 P5 P5 P5 LPCT U20 V20 F30 M30 LPVT









3 1000 V = 1000

Voltage scaling









3 1000 V = 1000

Voltage scaling









3 1000 V = 1000

Voltage scaling









3 1000 V = 1000

Voltage scaling









3 1000 V = 1000

Voltage scaling









3 1.0 % = 10









3

50.000 Hz = 5000

Frequency scaling











3 1000 kW = 1000 Power scaling



3 1000 kVAr = 1000 Power scaling



3 1000 kVA = 1000 Power scaling



3 1.00 = 100

PF and cos scaling



















3 1=1







3 10^4 = 1







3 10^8 = 1







3 1=1







3 10^4 = 1







3 10^8 = 1







3 1=1







3 10^4 = 1







3 10^8 = 1







3 1=1







3 10^4 = 1







3 10^8 = 1







3 1.000 = 1000

Tan scaling







3 1A=1









3 1000 V = 1000

Voltage scaling









3 1000 V = 1000

Voltage scaling









3 1%=1









3 1%=1









3 1%=1









3 1%=1









3 1%=1









152

P5/EN M/33B

Communication protocols

Add.

Name

Read Write FC

Scalling

Setting for Scalling

3356... Harmonics of VL3 / 3371 Harmonics of U12y

1

3381 Temperature 1

1

3382 Temperature 2

1

3383 Temperature 3

1

3384 Temperature 4

1

3385 Temperature 5

1

3386 Temperature 6

1

3387 Temperature 7

1

3388 Temperature 8

1

3389 Temperature 9

1

3390 Temperature 10

1

3391 Temperature 11

1

3392 Temperature 12

1

3393 Temperature 13

1

3394 Temperature 14

1

3395 Temperature 15

1

3396 Temperature 16

1

3410 Last fault current

1

3411 I> fault value

1

3412 I>> fault value

1

3413 I>>> fault value

1

3415 Fault reactance

1

3416 Algorithm condition

1

3417 Fault value >

1

3418 Fault value >>

1

3419 Fault value <

1

3420 Fault value <<

1

3430 Last fault Io current

1

3431 Io> fault value

1

3432 Io>> fault value

1

0

3 1%=1

0

3 1 °C = 1 / 1 °F = 1

0

3 1 °C = 1 / 1 °F = 1

0

3 1 °C = 1 / 1 °F = 1

0

3 1 °C = 1 / 1 °F = 1

0

3 1 °C = 1 / 1 °F = 1

0

3 1 °C = 1 / 1 °F = 1

0

3 1 °C = 1 / 1 °F = 1

0

3 1 °C = 1 / 1 °F = 1

0

3 1 °C = 1 / 1 °F = 1

0

3 1 °C = 1 / 1 °F = 1

0

3 1 °C = 1 / 1 °F = 1

0

3 1 °C = 1 / 1 °F = 1

0

3 1 °C = 1 / 1 °F = 1

0

3 1 °C = 1 / 1 °F = 1

0

3 1 °C = 1 / 1 °F = 1

0

3 1 °C = 1 / 1 °F = 1

1

3, 6

1.00 xIn = 100 / 1.00 A = 100

Fault value scaling

0

3

1.00 xIn = 100 / 1.00 A = 100

Fault value scaling

0

3

1.00 xIn = 100 / 1.00 A = 100

Fault value scaling

0

3

1.00 xIn = 100 / 1.00 A = 100

Fault value scaling

0

3 1.00 ohm = 100

OK=0;NegX=1;

BigX=2;Long

fault=3;No DI=4;

No pre-fault=5;No

post-fault=6;

0

3 ShrtFlt=7;

PreUns=8;

FltUns=9;

PostUns=10;

Blocked=11;Off=

12

0

3

1.0 %n = 10 / 1 rpm = 1

0

3

1.0 %n = 10 / 1 rpm = 1

0

3

1.0 %n = 10 / 1 rpm = 1

0

3

1.0 %n = 10 / 1 rpm = 1

0

3

1.00 pu = 100 / 1.00 A = 100

Fault value scaling

0

3

1.00 pu = 100 / 1.00 A = 100

Fault value scaling

0

3

1.00 pu = 100 / 1.00 A = 100

Fault value scaling

P5 U20 P5 P5 P5 P5 LPCT U20 V20 F30 M30 LPVT



























































































































































































































P5/EN M/33B

153

Communication protocols

Add.

Name

Read Write

3433 Io>>> fault value

1

0

3434 Io>>>> fault value

1

0

3435 Io>>>>> fault value

1

0

3436

Last fault Io> current

1

0

3437 Io> fault value

1

0

3438 Io>> fault value

1

0

3439 Io>>> fault value

1

0

3440 SOTF fault value

1

0

3441 Uo> fault value

1

0

3442 Uo>> fault value

1

0

3443 Uo>>> fault value

1

0

3444 Io'> fault value

1

0

3445 Io'>> fault value

1

0

3446 Io'>>> fault value

1

0

3447 IoUo> fault value

1

0

3448 IoUo>> fault value

1

0

3449 I2> fault value 3452 Cold load pickup 3453 Inrush detection

1

0

1

0

1

0

3454 df/dt> fault value

1

0

3455 df/dt>> fault value

1

0

3456 Motor speed

1

0

FC

Scalling

Setting for Scalling

3

1.00 pu = 100 / 1.00 A = 100

Fault value scaling

3

1.00 pu = 100 / 1.00 A = 100

Fault value scaling

3

1.00 pu = 100 / 1.00 A = 100

Fault value scaling

3

1.00 pu = 100 / 1.00 A = 100

Fault value scaling

3

1.00 pu = 100 / 1.00 A = 100

Fault value scaling

3

1.00 pu = 100 / 1.00 A = 100

Fault value scaling

3

1.00 pu = 100 / 1.00 A = 100

Fault value scaling

3

1.00 xIn = 100 / 1.00 A = 100

Fault value scaling

3 1.0 % = 10

Fault value scaling

3 1.0 % = 10

Fault value scaling

3 1.0 % = 10

Fault value scaling

3

1.000 pu = 1000 / Fault value

1.000 A = 1000

scaling

3

1.000 pu = 1000 / Fault value

1.000 A = 1000

scaling

3

1.000 pu = 1000 / Fault value

1.000 A = 1000

scaling

3

1.00 %Pno = 100 Fault value

/ 1 kW = 1

scaling

3

1.00 %Pno = 100 Fault value

/ 1 kW = 1

scaling

3

1.00 xIn = 100 / 1.00 A = 100

Fault value scaling

3

Start=1;Timeout= 2

3

Start=1;Timeout= 2

3 1.00 Hz/s = 100

Fault value scaling

3 1.00 Hz/s = 100

Fault value scaling

3 1 rpm = 1

P5 U20 P5 P5 P5 P5 LPCT U20 V20 F30 M30 LPVT

















































































































































Add.

Name

3501 3502 3503

DI1 counter DI2 counter DI3 counter

Statistics and virtual Input/Output

Read Write FC

Scalling

1

1

3, 6 1 = 1

1

1

3, 6 1 = 1

1

1

3, 6 1 = 1

Setting for Scalling

P5 U20 P5 P5 P5 P5 LPCT U20 V20 F30 M30 LPVT































154

P5/EN M/33B

Communication protocols

Add.

Name

Read Write FC

Scalling

3504 DI4 counter

1

3505 DI5 counter

1

3506 DI6 counter

1

3507 DI7 counter

1

3508 DI8 counter

1

3509 DI9 counter

1

3510 DI10 counter

1

3511 DI11 counter

1

3512 DI12 counter

1

3513 DI13 counter

1

3514 DI14 counter

1

3515 DI15 counter

1

3516 DI16 counter

1

3517 DI17 counter

1

3518 DI18 counter

1

3519 DI19 counter

1

3520 DI20 counter

1

3521 DI21 counter

1

3522 DI22 counter

1

3523 DI23 counter

1

3524 DI24 counter

1

3525 DI25 counter

1

3526 DI26 counter

1

3527 DI27 counter

1

3528 DI28 counter

1

3529 DI29 counter

1

3530 DI30 counter

1

3531 DI31 counter

1

3532 DI32 counter

1

3533 DI33 counter

1

3534 DI34 counter

1

3535 DI35 counter

1

3536 DI36 counter

1

3537 DI37 counter

1

3538 DI38 counter

1

3539 DI39 counter

1

3540 DI40 counter

1

3571 Shot1 start counter

1

3572 Shot2 start counter

1

3573 Shot3 start counter

1

3574 Shot4 start counter

1

1

3, 6 1 = 1

1

3, 6 1 = 1

1

3, 6 1 = 1

1

3, 6 1 = 1

1

3, 6 1 = 1

1

3, 6 1 = 1

1

3, 6 1 = 1

1

3, 6 1 = 1

1

3, 6 1 = 1

1

3, 6 1 = 1

1

3, 6 1 = 1

1

3, 6 1 = 1

1

3, 6 1 = 1

1

3, 6 1 = 1

1

3, 6 1 = 1

1

3, 6 1 = 1

1

3, 6 1 = 1

1

3, 6 1 = 1

1

3, 6 1 = 1

1

3, 6 1 = 1

1

3, 6 1 = 1

1

3, 6 1 = 1

1

3, 6 1 = 1

1

3, 6 1 = 1

1

3, 6 1 = 1

1

3, 6 1 = 1

1

3, 6 1 = 1

1

3, 6 1 = 1

1

3, 6 1 = 1

1

3, 6 1 = 1

1

3, 6 1 = 1

1

3, 6 1 = 1

1

3, 6 1 = 1

1

3, 6 1 = 1

1

3, 6 1 = 1

1

3, 6 1 = 1

1

3, 6 1 = 1

1

3, 6 1 = 1

1

3, 6 1 = 1

1

3, 6 1 = 1

1

3, 6 1 = 1

Setting for Scalling

P5 U20 P5 P5 P5 P5 LPCT U20 V20 F30 M30 LPVT



























































































































































































































































P5/EN M/33B

155

Communication protocols

Add.

Name

Read Write FC

Scalling

3575 Shot5 start counter

1

3576 AR start counter

1

3577 AR fail counter

1

3578 AR shot number

1

3579

Direct trip AR request

1

3580 Recloser locked

1

3581 Recloser running

1

3582 Final trip

1

3583 Auto-Recloser on

1

3611 Motor starting

1

3612 Motor running

1

3613 Voltage interrupt

1

3614 Voltage status

1

3615 Timer 1 status

1

3616 Timer 2 status

1

3617 Timer 3 status

1

3618 Timer 4 status

1

3619

CB monitoring alarm 1

1

3620

CB monitoring alarm 2

1

3621

Logic output status 1...8

1

3622

Logic output status 9...16

1

3623

Logic output status 17...20

1

3626

Virtual outputs 1...10

1

3627

Virtual outputs 11...20

1

3631 Sync1 request

1

3632 Sync1 OK

1

3633 Bypass

1

3634 Sync1 fail

1

3657 Virtual input 1

1

3658 Virtual input 2

1

3659 Virtual input 3

1

3660 Virtual input 4

1

3661 Virtual input 5

1

3662 Virtual input 6

1

3663 Virtual input 7

1

1

3, 6 1 = 1

1

3, 6 1 = 1

1

3, 6 1 = 1

0

3 1;2;3;4;5;END=6

0

3 1=1

0

3 1=1

0

3 1=1

0

3 1=1

0

3 1=1

0

3 1=1

0

3 1=1

0

3 Low=0;ok=1

OK=0;Low=1;

High=2;Low/

0

3 High=3;(OK)=4;

(Low)=5;(High)

=6;(Low)/High=7

1

3, 6 0=1;1=2

1

3, 6 0=1;1=2

1

3, 6 0=1;1=2

1

3, 6 0=1;1=2

0

3 1=1

0

3 1=1

0

3 1=1

0

3 1=1

0

3 1=1

0

3 1=1

0

3 1=1

0

3 1=1

0

3 1=1

1

3, 6 1 = 1

0

3 1=1

1

3, 6 0;1

1

3, 6 0;1

1

3, 6 0;1

1

3, 6 0;1

1

3, 6 0;1

1

3, 6 0;1

1

3, 6 0;1

Setting for Scalling

P5 U20 P5 P5 P5 P5 LPCT U20 V20 F30 M30 LPVT



























































































































































































































































































156

P5/EN M/33B

Communication protocols

Add.

Name

3664 3665 3666 3667 3668 3669 3670 3671 3672 3673 3674 3675 3676

Virtual input 8 Virtual input 9 Virtual input 10 Virtual input 11 Virtual input 12 Virtual input 13 Virtual input 14 Virtual input 15 Virtual input 16 Virtual input 17 Virtual input 18 Virtual input 19 Virtual input 20

Read Write FC

Scalling

1

1

3, 6 0;1

1

1

3, 6 0;1

1

1

3, 6 0;1

1

1

3, 6 0;1

1

1

3, 6 0;1

1

1

3, 6 0;1

1

1

3, 6 0;1

1

1

3, 6 0;1

1

1

3, 6 0;1

1

1

3, 6 0;1

1

1

3, 6 0;1

1

1

3, 6 0;1

1

1

3, 6 0;1

Setting for Scalling

P5 U20 P5 P5 P5 P5 LPCT U20 V20 F30 M30 LPVT



































































































































Minimum value, maximum value, ARC and circuit breaker

Add.
4001 4002 4003 4004 4005 4006 4007 4008 4009 4010 4011 4012 4013 4014 4015 4016

Name

Read Write

Minimum frequency 1

1

Minimum active power

1

1

Minimum react. power

1

1

Minimum apparent power

1

1

Min power factor

1

1

Minimum of Io

1

1

Minimum of Io'

1

1

Demand Minimum active power

1

1

Demand minimum reactive power

1

1

Demand Minimum apparent power

1

1

Demand minimum power factor

1

1

RMS Demand mini active power

1

1

RMS Demand min reactive power

1

1

RMS Demand mini apparent power

1

1

Minimum of IL1

1

1

Minimum of IL2

1

1

FC

Scalling

Setting for Scalling

3, 6

50.000 Hz = 5000

Frequency scaling

P5 U20 P5 P5 P5 P5 LPCT U20 V20 F30 M30 LPVT











3, 6 1000 kW = 1000 Power scaling







3, 6 1000 kVAr = 1000 Power scaling







3, 6 1000 kVA = 1000 Power scaling



3, 6 1.000 = 1000 3, 6 1.0 % = 10 3, 6 1.0 % = 10

PF and cos scaling
Io scaling
Io' scaling









3, 6 1000 kW = 1000 Power scaling























3, 6 1000 kVAr = 1000 Power scaling







3, 6 1000 kVA = 1000 Power scaling



3, 6 1.000 = 1000

PF and cos scaling



3, 6 1000 kW = 1000 Power scaling















3, 6 1000 kVAr = 1000 Power scaling







3, 6 1000 kVA = 1000 Power scaling



3, 6 1 A = 1 3, 6 1 A = 1





















P5/EN M/33B

157

Communication protocols

Add. 4017 4018 4019 4020 4021 4022 4023 4024 4025 4026 4027 4028 4030 4031 4032
4033
4034
4035
4101 4102 4103 4104 4105 4106 4107 4108 4109

Name

Read Write

Minimum of IL3

1

1

RMS minimum of IL1

1

1

RMS minimum of IL2

1

1

RMS minimum of IL3

1

1

Demand Minimum of IL1

1

1

Demand Minimum of IL2

1

1

Demand Minimum of IL3

1

1

RMS Demand minimum of IL1

1

1

RMS Demand minimum of IL2

1

1

RMS Demand minimum of IL3

1

1

Minimum of EF current

1

1

Minimum of Uo

1

1

Minimum of U12

1

1

Minimum of U23

1

1

Minimum of U31

1

1

Minimum U12 RMS

voltage / Minimum

1

1

VL1 RMS voltage

Minimum U23 RMS

voltage / Minimum

1

1

VL2 RMS voltage

Minimum VL3 RMS

voltage / Minimum

1

1

U12y RMS voltage

Maximum frequency

1

1

Maximum active power

1

1

Maximum react. power

1

1

Maximum apparent power

1

1

Max power factor

1

1

Maximum of Io

1

1

Maximum of Io'

1

1

Demand Maximum active power

1

1

Demand maximum reactive power

1

1

FC

Scalling

3, 6 1 A = 1 3, 6 1 A = 1 3, 6 1 A = 1 3, 6 1 A = 1 3, 6 1 A = 1 3, 6 1 A = 1 3, 6 1 A = 1 3, 6 1 A = 1 3, 6 1 A = 1 3, 6 1 A = 1 3, 6 1.0 pu = 10 3, 6 1.0 % = 10 3, 6 1000 V = 1000 3, 6 1000 V = 1000 3, 6 1000 V = 1000

3, 6 1000 V = 1000

Setting for Scalling

P5 U20 P5 P5 P5 P5 LPCT U20 V20 F30 M30 LPVT









































































Io scaling (CSH)
Voltage scaling
Voltage scaling
Voltage scaling
Voltage scaling
Voltage scaling

























































3, 6 1000 V = 1000

Voltage scaling









3, 6 1000 V = 1000

Voltage scaling



3, 6

50.000 Hz = 5000

Frequency scaling



3, 6 1000 kW = 1000 Power scaling





















3, 6 1000 kVAr = 1000 Power scaling







3, 6 1000 kVA = 1000 Power scaling



3, 6 1.000 = 1000 3, 6 1.0 % = 10 3, 6 1.0 % = 10

PF and cos scaling
Io scaling
Io' scaling









3, 6 1000 kW = 1000 Power scaling























3, 6 1000 kVAr = 1000 Power scaling







158

P5/EN M/33B

Communication protocols

Add.
4110 4111 4112 4113 4114 4115 4116 4117 4118 4119 4120 4121 4122 4123 4124 4125 4126 4127 4128 4130 4131 4132
4133
4134
4135 4299 4300 4301

Name

Read Write

Demand Maximum apparent power

1

1

Demand maximum power factor

1

1

RMS Demand Max active power

1

1

RMS Demand max reactive power

1

1

RMS Demand Max apparent power

1

1

Maximum of IL1

1

1

Maximum of IL2

1

1

Maximum of IL3

1

1

RMS maximum of IL1

1

1

RMS maximum of IL2

1

1

RMS maximum of IL3

1

1

Demand Maximum of IL1

1

1

Demand Maximum of IL2

1

1

Demand Maximum of IL3

1

1

RMS Demand maximum of IL1

1

1

RMS Demand maximum of IL2

1

1

RMS Demand maximum of IL3

1

1

Maximum of EF current

1

1

Maximum of Uo

1

1

Maximum of U12

1

1

Maximum of U23

1

1

Maximum of U31

1

1

Maximum U12 RMS

voltage / Maximum

1

1

VL1 RMS voltage

Maximum U23 RMS

voltage / Maximum

1

1

VL2 RMS voltage /

Maximum VL3 RMS

voltage / Maximum

1

1

U12y RMS voltage

Arc Io state
Arc I state
Clear I/O units' registers

1

0

1

0

1

1

P5

FC

Scalling

Setting for Scalling

U20 P5 P5 P5 P5 LPCT U20 V20 F30 M30

LPVT

3, 6 1000 kVA = 1000 Power scaling







3, 6 1.000 = 1000

PF and cos scaling







3, 6 1000 kW = 1000 Power scaling







3, 6 1000 kVAr = 1000 Power scaling







3, 6 1000 kVA = 1000 Power scaling



3, 6 1 A = 1



3, 6 1 A = 1



3, 6 1 A = 1



3, 6 1 A = 1



3, 6 1 A = 1



3, 6 1 A = 1



3, 6 1 A = 1



3, 6 1 A = 1



3, 6 1 A = 1



3, 6 1 A = 1



3, 6 1 A = 1



3, 6 1 A = 1



3, 6 1.0 pu = 10

Io scaling (CSH)



3, 6 1.0 % = 10

Voltage scaling



3, 6 1000 V = 1000

Voltage scaling



3, 6 1000 V = 1000

Voltage scaling



3, 6 1000 V = 1000

Voltage scaling



3, 6 1000 V = 1000

Voltage scaling



















































































































3, 6 1000 V = 1000

Voltage scaling









3, 6 1000 V = 1000

Voltage scaling



3 1=1 3 1=1

3, 6 Clear=1















P5/EN M/33B

159

Communication protocols

Add.

Name

4302 4303

Release all latches Arc Stages

4304... 4309

Arc sensor status

4351... 4355
4349
4356... 4359

Low limit (primary value)
Minimum CB trip cmd. Time
High limit (xIn)

4360... Sum of broken 4361 current IL11

4362... Sum of broken 4363 current IL12

4364... Sum of broken 4365 current IL13

4366... Sum of broken 4367 current IL14

4368... Sum of broken 4369 current IL15
4370... IL1 broken current 4374 counter
4375... Sum of broken 4376 current IL21

4377... Sum of broken 4378 current IL22

4379... Sum of broken 4380 current IL23

4381... Sum of broken 4382 current IL24

4383... Sum of broken 4384 current IL25
4385... IL2 broken current 4389 counter
4390... Sum of broken 4391 current IL31

4392... Sum of broken 4393 current IL32

4394... Sum of broken 4395 current IL33

4396... Sum of broken 4397 current IL34

4398... Sum of broken 4399 current IL35

Read Write

1

1

1

0

1

0

1

0

1

1

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

FC

Scalling

Setting for Scalling

3, 6 Release=1

3 1=1

OK=1;Active=2;

3

Not conn=3;Shrt circ=4;Daylight=5;

Not Inst.=6;Null=0

3 1.0 kA = 10

3.6 1.0s = 1

3 1.00 xIn = 100

neighbouring two 3 register combine
to a float32 value

neighbouring two 3 register combine
to a float32 value

neighbouring two 3 register combine
to a float32 value

neighbouring two 3 register combine
to a float32 value

neighbouring two 3 register combine
to a float32 value

3 1000 = 1000

CB open count scaling

neighbouring two 3 register combine
to a float32 value

neighbouring two 3 register combine
to a float32 value

neighbouring two 3 register combine
to a float32 value

neighbouring two 3 register combine
to a float32 value

neighbouring two 3 register combine
to a float32 value

3 1000 = 1000

CB open count scaling

neighbouring two 3 register combine
to a float32 value
neighbouring two 3 register combine
to a float32 value
neighbouring two 3 register combine
to a float32 value
neighbouring two 3 register combine
to a float32 value
neighbouring two 3 register combine
to a float32 value

P5 U20 P5 P5 LPCT U20 V20 LPVT

















































































P5 P5 F30 M30





























































































160

P5/EN M/33B

Communication protocols

Add.

Name

4400... IL3 broken current 4404 counter
4405... Cumul. broken 4406 current IL1

4407... Cumul. broken 4408 current IL2

4409... Cumul. broken 4410 current IL3

4411 CB Open Counter

4412

Protection Trip counter

4413 Rack out counter

4414... 4453
4455... 4494
4496... 4535

CB opening time
CB Closing time
Spring Charging times

4536... 4538

Alarm1

4539... 4541

Alarm2

Read Write

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

FC

Scalling

3 1000 = 1000

Setting for Scalling
CB open count scaling

P5 U20 P5 P5 LPCT U20 V20 LPVT





P5 P5 F30 M30





neighbouring two 3 register combine
to a float32 value





neighbouring two 3 register combine
to a float32 value





neighbouring two 3 register combine
to a float32 value





3 1=1

CB open count scaling





















3 1000 = 1000

CB open count scaling









3 1000 = 1000

CB open count scaling









3 1=1









3 1=1









3 1=1 3 1000 = 1000 3 1000 = 1000





Limit for oper. left scaling





Limit for oper. left scaling

















Settings

Add.

Name

Read Write FC

Scalling

ARC setting items:

5001 I>int. pick-up value

1

5002 Io>int. pick-up value 1

5003 Arc stage 1 enabled 1

5004 Arc stage 2 enabled 1

5005 Arc stage 3 enabled 1

5006 Arc stage 4 enabled 1

5007 Arc stage 5 enabled 1

5008 Arc stage 6 enabled 1

5009 Arc stage 7 enabled 1

5010 Arc stage 8 enabled 1

5011 Stage 1 Mode

1

5012 Stage 2 Mode

1

5013 Stage 3 Mode

1

5014 Stage 4 Mode

1

1

3, 6 1.00 xIn = 100

1

3, 6 1.00 xIn = 100

1

3, 6 Off=0;On=1

1

3, 6 Off=0;On=1

1

3, 6 Off=0;On=1

1

3, 6 Off=0;On=1

1

3, 6 Off=0;On=1

1

3, 6 Off=0;On=1

1

3, 6 Off=0;On=1

1

3, 6 Off=0;On=1

1

3, 6

Light=0; Light&Current=1

1

3, 6

Light=0; Light&Current=1

1

3, 6

Light=0; Light&Current=1

1

3, 6

Light=0; Light&Current=1

Setting for Scalling

P5 U20 P5 P5 P5 P5 LPCT U20 V20 F30 M30 LPVT

























































P5/EN M/33B

161

Communication protocols

Add.

Name

Read Write

5015 Stage 5 Mode

1

1

5016 Stage 6 Mode

1

1

5017 Stage 7 Mode

1

1

5018 Stage 8 Mode

1

1

5019 Trip 1 delay [x1ms]

1

1

5020 Trip 2 delay [x1ms]

1

1

5021 Trip 3 delay [x1ms]

1

1

5022 Trip 4 delay [x1ms]

1

1

5023 Trip 5 delay [x1ms]

1

1

5024 Trip 6 delay [x1ms]

1

1

5025 Trip 7 delay [x1ms]

1

1

5026 Trip 8 delay [x1ms]

1

1

5027

Min. hold time [x1ms]

1

1

5028

Min. hold time2 [x1ms]

1

1

5029

Min. hold time3 [x1ms]

1

1

5030

Min. hold time4 [x1ms]

1

1

5031

Min. hold time5 [x1ms]

1

1

5032

Min. hold time6 [x1ms]

1

1

5033

Min. hold time7 [x1ms]

1

1

5034

Min. hold time8 [x1ms]

1

1

Inrush setting

5101 Enable for Inrush

1

1

5102 Max inrush current

1

1

5103

Pickup for 2nd harmonic

1

1

OverCurrent I> setting

5151
5152... 5155

Enable for I> Pick-up value

1

1

1

1

5156... 5159

Delay curve family

1

1

5160... 5163

Delay type

1

1

FC

Scalling

3, 6

Light=0; Light&Current=1

3, 6

Light=0; Light&Current=1

3, 6

Light=0; Light&Current=1

3, 6

Light=0; Light&Current=1

3, 6 1 = 1

3, 6 1 = 1

3, 6 1 = 1

3, 6 1 = 1

3, 6 1 = 1

3, 6 1 = 1

3, 6 1 = 1

3, 6 1 = 1

3, 6 1 = 1

3, 6 1 = 1

3, 6 1 = 1

3, 6 1 = 1

3, 6 1 = 1

3, 6 1 = 1

3, 6 1 = 1

3, 6 1 = 1

3, 6 Off=0;On=1 3, 6 1.00 xIn = 100 3, 6 1 % = 1

3, 6 Off=0;On=1

3, 6 1.00 xIn = 100

DT=0;IEC=1;

3, 6

IEEE=2;IEEE2=3; Others=4;Prg1=5;

Prg2=6;Prg3=7

DT=0;NI=1;VI=2;

EI=3;LTI=4;LTEI=

3, 6

5;LTVI=6;MI=7; STI=8;STEI=9;

CO8=10;RI=11;

RXIDG=12

Setting for Scalling

P5 U20 P5 P5 P5 P5 LPCT U20 V20 F30 M30 LPVT









































































































































162

P5/EN M/33B

Communication protocols

Add.

Name

Read Write

5164... 5167

Operation delay

1

1

5168... 5171

Inv. time coefficient

1

1

5172... 5175

Reset time

1

1

5176... 5179

Inrush status for I>

1

1

5180... 5183

SOL use by I>

1

1

5184... SOL Operation 5187 delay

1

1

5188... SOL Inv. time 5191 coefficient

1

1

5192... 5195

CLPU status for I>

1

1

5196... 5199

CLPU pick-up value

1

1

5200... CLPU operation 5203 delay

1

1

5204... CLPU Inv. time 5207 coefficient

1

1

5208 Include harmonics

1

1

5209... 5212

Reset type

1

1

OverCurrent I>> setting

5251
5252... 5255

Enable for I>> Pick-up value

1

1

1

1

5256... 5259

Delay curve family

1

1

5260... 5263

Delay type

1

1

5264... 5267

Operation delay

1

1

5268... 5271

Inv. time coefficient

1

1

5272... 5275

Inrush status for I>>

1

1

5276... 5279

SOL use by I>>

1

1

5280... SOL Operation 5283 delay

1

1

5284... SOL Inv. time 5287 coefficient

1

1

5288... 5291

CLPU status for I>>

1

1

5292... 5295

CLPU pick-up value

1

1

5296... CLPU Operation 5299 delay

1

1

FC

Scalling

3, 6 1.00 s = 100 3, 6 1.000 = 1000 3, 6 1.00 s = 100 3, 6 Off=0;On=1 3, 6 Off=0;On=1 3, 6 1.00 s = 100 3, 6 1.000 = 1000 3, 6 Off=0;On=1 3, 6 1.00 xIn = 100 3, 6 1.00 s = 100 3, 6 1.000 = 1000 3, 6 Off=0;On=1 3, 6 DT=0;IDMT=1

Setting for Scalling

3, 6 Off=0;On=1

3, 6 1.00 xIn = 100

DT=0;IEC=1;

3, 6

IEEE=2;IEEE2=3; Others=4;Prg1=5;

Prg2=6;Prg3=7

DT=0;NI=1;VI=2;

EI=3;LTI=4;LTEI=

3, 6

5;LTVI=6;MI=7; STI=8;STEI=9;

CO8=10;RI=11;

RXIDG=12

3, 6 1.00 s = 100

3, 6 1.000 = 1000

3, 6 Off=0;On=1

3, 6 Off=0;On=1

3, 6 1.00 s = 100

3, 6 1.000 = 1000

3, 6 Off=0;On=1

3, 6 1.00 xIn = 100

3, 6 1.00 s = 100

P5 U20 P5 P5 P5 P5 LPCT U20 V20 F30 M30 LPVT

















































































































































































































P5/EN M/33B

163

Communication protocols

Add.

Name

Read Write

5300... CLPU Inv. time 5303 coefficient

1

1

5304 Include harmonics

1

1

5305... 5308

Reset type

1

1

5309... 5312

Reset time

1

1

OverCurrent I>>> setting

5351 Enable for I>>>

1

1

5352... 5355

Pick-up value

1

1

5356... 5359

Operation delay

1

1

5360... Inrush status for 5363 I>>>

1

1

5364... 5367

SOL use by I>>>

1

1

5368... SOL Operation 5371 delay

1

1

5372... CLPU status for 5375 I>>>

1

1

5376... 5379

CLPU pick-up value

1

1

5380... CLPU Operation 5383 delay

1

1

SOTF setting

5401 Enable for SOTF

1

1

5402 Pick-up value

1

1

5403

Dead line detection delay

1

1

5404 SOTF active Timer

1

1

5405

Dead line detection input

1

1

I> setting

5411 Enable for I>

1

1

5412... 5415
5416... 5419
5420... 5423

Pick-up value Direction mode Angle offset

1

1

1

1

1

1

5424... 5427

Delay curve family

1

1

5428... 5431

Delay type

1

1

FC

Scalling

3, 6 1.000 = 1000 3, 6 Off=0;On=1 3, 6 DT=0;IDMT=1 3, 6 1.00 s = 100

3, 6 Off=0;On=1 3, 6 1.00 xIn = 100 3, 6 1.00 s = 100 3, 6 Off=0;On=1 3, 6 Off=0;On=1 3, 6 1.00 s = 100 3, 6 Off=0;On=1 3, 6 1.00 xIn = 100 3, 6 1.00 s = 100

3, 6 Off=0;On=1 3, 6 1.00 xIn = 100 3, 6 1.00 s = 100 3, 6 1.00 s = 100 3, 6 Value 25

3, 6 Off=0;On=1

3, 6 1.00 xIn = 100

3, 6

Dir+Backup=0; Undir=1;Dir=2

3, 6 1 ° = 1

DT=0;IEC=1;

3, 6

IEEE=2;IEEE2=3; Others=4;Prg1=5;

Prg2=6;Prg3=7

DT=0;NI=1;VI=2;

3, 6

EI=3;LTI=4;LTEI= 5;LTVI=6;MI=7;

STI=8;STEI=9;

Setting for Scalling

P5 U20 P5 P5 P5 P5 LPCT U20 V20 F30 M30 LPVT





















































































































































































25. DI1=1;DI2=2;...;DI19=19;DI20=20;Arc1=25;Arc2=26;BI=27;VI1=29;VI2=30;VI3=31;VI4=32;DO1(B)=33;DO2(B)=34;DO3(B)=35; Watchdog=36;SF=37;SF=38;SF=39;SF=40;SF=41;BO=42;DO1(C)=43;DO2(C)=44;DO3(C)=45;DO4(C)=46;LedAl=49;LedTr=50;LedA= 51;LedB=52;LedC=53;LedDR=54;VO1=55;VO2=56;...;VO5=59;VO6=60;DI21=65;DI22=66;...;DI39=83;DI40=84;F1=85;F2=86;...;F6= 90;F7=91;DO1(D)=97;DO2(D)=98;DO3(D)=99;SF=100;DO1(E)=101;DO2(E)=102;NI1=129;NI2=130;...;NI63=191;NI64=192;POC1= 193;POC2=194;...;POC15=207;POC16=208;VI5=225;VI6=226;...;VI19=239;VI20=240;VO7=257;VO8=258;...;VO19=269;VO20=270; NI65=289;NI66=290;...;NI127=351;NI128=352

164

P5/EN M/33B

Communication protocols

Add.

Name

Read Write

5432... 5435

Operation delay

1

1

5436... 5439

Inv. time coefficient

1

1

5440... 5443

Reset time

1

1

5444... 5447

Inrush status for I>

1

1

5448... 5451

SOL status for I>

1

1

5452... SOL Operation 5455 delay

1

1

5456... SOL Inv. time 5459 coefficient

1

1

5460... 5463

CLPU status for I>

1

1

5464... 5467

CLPU pick-up value

1

1

5468... CLPU Operation 5471 delay

1

1

5472... CLPU Inv. time 5475 coefficient
5476... Reset type 5479
I>> setting

1

1

1

1

5481 Enable for I>>

1

1

5482... 5485

Pick-up value

1

1

5486... 5489

Direction mode

1

1

5490... 5493

Angle offset

1

1

5494... 5497

Delay curve family

1

1

5498... 5501

Delay type

1

1

5502... 5505

Operation delay

1

1

5506... 5509

Inv. time coefficient

1

1

5510... 5513

Reset time

1

1

5514... Inrush status for 5517 I>>

1

1

5518... 5521

SOL status for I>>

1

1

5522... SOL Operation 5525 delay

1

1

5526... SOL Inv. time 5529 coefficient

1

1

FC

Scalling

CO8=10;RI=11; RXIDG=12 3, 6 1.00 s = 100 3, 6 1.000 = 1000 3, 6 1.00 s = 100 3, 6 Off=0;On=1 3, 6 Off=0;On=1 3, 6 1.00 s = 100 3, 6 1.000 = 1000 3, 6 Off=0;On=1 3, 6 1.00 xIn = 100 3, 6 1.00 s = 100 3, 6 1.000 = 1000 3, 6 DT=0;IDMT=1

Setting for Scalling

3, 6 Off=0;On=1

3, 6 1.00 xIn = 100

3, 6

Dir+Backup=0; Undir=1;Dir=2

3, 6 1 ° = 1

DT=0;IEC=1;

3, 6

IEEE=2;IEEE2=3; Others=4;Prg1=5;

Prg2=6;Prg3=7

DT=0;NI=1;VI=2;

EI=3;LTI=4;LTEI=

3, 6

5;LTVI=6;MI=7; STI=8;STEI=9;

CO8=10;RI=11;

RXIDG=12

3, 6 1.00 s = 100

3, 6 1.000 = 1000

3, 6 1.00 s = 100

3, 6 Off=0;On=1

3, 6 Off=0;On=1

3, 6 1.00 s = 100

3, 6 1.000 = 1000

P5 U20 P5 P5 P5 P5 LPCT U20 V20 F30 M30 LPVT























































































































































P5/EN M/33B

165

Add.

Name

Read Write FC

Scalling

5530... CLPU status for 5533 I>>

1

5534... 5537

CLPU Pick-up value

1

5538... CLPU Operation 5541 delay

1

5542... CLPU Inv. time 5545 coefficient

1

5546... 5549

Reset type

1

I>>> setting

5551 Enable for I>>>

1

5552... 5555

Pick-up value

1

5556... 5559

Direction mode

1

5560... 5563

Angle offset

1

5564... 5567

Operation delay

1

5568... Inrush status for 5571 I>>>

1

5572... SOL status for 5575 I>>>

1

5576... SOL Operation 5579 delay

1

5580... CLPU status for 5583 I>>>

1

5584... 5587

CLPU Pick-up value

1

5588... CLPU Operation 5591 delay

1

I>>>> setting

5601 Enable for I>>>>

1

5602... 5605

Pick-up value

1

5606... 5609

Direction mode

1

5610... 5613

Angle offset

1

5614... 5617

Operation delay

1

5618... Inrush status for 5621 I>>>>

1

5622... SOL status for 5625 I>>>>

1

5626... SOL Operation 5629 delay

1

5630... CLPU status for 5633 I>>>>

1

5634... 5637

CLPU Pick-up value

1

5638... CLPU Operation 5641 delay

1

1

3, 6 Off=0;On=1

1

3, 6 1.00 xIn = 100

1

3, 6 1.00 s = 100

1

3, 6 1.000 = 1000

1

3, 6 DT=0;IDMT=1

1

3, 6 Off=0;On=1

1

3, 6 1.00 xIn = 100

1

3, 6

Dir+Backup=0; Undir=1;Dir=2

1

3, 6 1 ° = 1

1

3, 6 1.00 s = 100

1

3, 6 Off=0;On=1

1

3, 6 Off=0;On=1

1

3, 6 1.00 s = 100

1

3, 6 Off=0;On=1

1

3, 6 1.00 xIn = 100

1

3, 6 1.00 s = 100

1

3, 6 Off=0;On=1

1

3, 6 1.00 xIn = 100

1

3, 6

Dir+Backup=0; Undir=1;Dir=2

1

3, 6 1 ° = 1

1

3, 6 1.00 s = 100

1

3, 6 Off=0;On=1

1

3, 6 Off=0;On=1

1

3, 6 1.00 s = 100

1

3, 6 Off=0;On=1

1

3, 6 1.00 xIn = 100

1

3, 6 1.00 s = 100

Communication protocols

Setting for Scalling

P5 U20 P5 P5 P5 P5 LPCT U20 V20 F30 M30 LPVT



































































































































































166

P5/EN M/33B

Communication protocols

Add.

Name

Read Write

P< setting

5651 Enable for P<

5652... 5655

Pick-up value

5656... 5659

Operation delay

P<< setting

5701 Enable for P<<

5702... 5705

Pick-up value

5706... 5709

Operation delay

I< setting

5751 Enable for I<

5752... 5755

Pick-up value

5756... 5759

Operation delay

I2>I1 setting

5801 Enable for I2/I1>

5802... 5805

Pick-up value

5806... 5809

Operation delay

I2> setting

5901
5902... 5905

Enable for I2> Pick-up value

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

5906... 5909

Delay curve family

1

1

5910... 5913

Delay type

1

1

5914... 5917

Operation delay

1

1

5918... 5921

Inv. time coefficient

1

1

5922... 5925

Reset type

1

1

5926... 5929

Reset time

1

1

Ist> setting

5951 5952

Enable for Ist> Delay type

1

1

1

1

5953 Motor start time Ilr> setting

1

1

6001 Enable for Ilr>

1

1

FC

Scalling

Setting for Scalling

3, 6 Off=0;On=1 3, 6 1 %Sn = 1 3, 6 1.0 s = 10

3, 6 Off=0;On=1 3, 6 1 %Sn = 1 3, 6 1.0 s = 10

3, 6 Off=0;On=1 3, 6 1.00 %In = 100 3, 6 1.0 s = 10

3, 6 Off=0;On=1 3, 6 1 % = 1 3, 6 1.00 s = 100

3, 6 Off=0;On=1

3, 6 1.00 xIn = 100

DT=0;IEC=1;

3, 6

IEEE=2;IEEE2=3; Others=4;Prg1=5;

Prg2=6;Prg3=7

DT=0;NI=1;VI=2;

EI=3;LTI=4;LTEI=

3, 6

5;LTVI=6;MI=7; STI=8;STEI=9;

CO8=10;RI=11;

RXIDG=12

3, 6 1.00 s = 100

3, 6 1.000 = 1000

3, 6 DT=0;IDMT=1

3, 6 1.00 s = 100

3, 6 Off=0;On=1 3, 6 DT=0;INV=1 3, 6 1.0 s = 10
3, 6 Off=0;On=1

P5 U20 P5 P5 P5 P5 LPCT U20 V20 F30 M30 LPVT































































































































































  


P5/EN M/33B

167

Communication protocols

Add.

Name

Read Write

6002 6003 6004

Pick-up value Delay type Operation delay

1

1

1

1

1

1

N> setting

6051 Enable for N>

1

1

6052

Max motor Hot starts

1

1

6053

Max motor cold starts

1

1

6054

Min time between motor starts

1

1

6055 Reference period

1

1

6056 Hot Status Limit Motor T°> setting

1

1

6101 Enable for Motor T> 1

1

6102... Basic current 6105 setting

1

1

6106... Max permissive I 6109 factor

1

1

6110... Heating time 6113 constant

1

1

6114... Time constant for 6117 motor starting

1

1

6118... Cooling time 6121 constant

1

1

6130... 6133

Unbalance factor

1

1

6134... Thermal alarm 6137 value

1

1

6138... Reserve time 6141 thermal alarm

1

1

6142... Temperature based 6145 mode

1

1

6146... Nominal ambient 6149 temp

1

1

6150... Max object 6153 temperature

1

1

6154... 6157

Alarm temperature

1

1

6158... Min ambient 6161 temperature

1

1

6162... Default ambient 6165 temperature
Feeder T°> setting

1

1

6201

Enable for feeder T>

1

1

6202... Basic current 6205 setting

1

1

6206... Max permissive I 6209 factor

1

1

6210... Heating time 6213 constant

1

1

FC

Scalling

3, 6 1.0 % = 10 3, 6 DT=0;INV=1 3, 6 1.0 s = 10

3, 6 Off=0;On=1 3, 6 1 = 1 3, 6 1 = 1 3, 6 1.0 min = 10 3, 6 1.0 min = 10 3, 6 1.0 % = 10

3, 6 Off=0;On=1 3, 6 1.00 xIn = 100

3, 6 1.00 = 100 3, 6 1.0 min = 10

3, 6 1.0 min = 10

3, 6 1.0 min = 10 3, 6 1.0 = 10 3, 6 1 % = 1

3, 6 1.0 min = 10

3, 6

Current=0; Ambient=1

3, 6 1 °C = 1 / 1 °F = 1

3, 6 1 °C = 1 / 1 °F = 1

3, 6 1 °C = 1 / 1 °F = 1

3, 6 1 °C = 1 / 1 °F = 1

3, 6 1 °C = 1 / 1 °F = 1

3, 6 Off=0;On=1 3, 6 1.00 xIn = 100 3, 6 1.00 = 100 3, 6 1.0 min = 10

Setting for Scalling

P5 U20 P5 P5 P5 P5 LPCT U20 V20 F30 M30 LPVT









































































































































































168

P5/EN M/33B

Communication protocols

Add.

Name

Read Write

6214... Thermal alarm 6217 value

1

1

6218... Reserve time 6221 thermal alarm

1

1

6222... Temperature based 6225 mode

1

1

6226... Nominal ambient 6229 temp

1

1

6230... Max object 6233 temperature

1

1

6234... 6237

Alarm temperature

1

1

6238... Min ambient 6241 temperature

1

1

6242... Default ambient 6245 temperature
Io> setting

1

1

6261
6262... 6265

Enable for Io> Pick-up value

1

1

1

1

6266... 6269

Delay curve family

1

1

6270... 6273

Delay type

1

1

6274... 6277

Operation delay

1

1

6278... 6281

Inv. time coefficient

1

1

6282... 6285

Network earthing

1

1

6286... 6289

Reset time

1

1

6291... 6294

Inrush status for Io>

1

1

6295... 6298

SOL use for Io>

1

1

6299... SOL Operation 6302 delay

1

1

6303... SOL Inv. time 6306 coefficient

1

1

6307... 6310

CLPU status for Io>

1

1

6311... 6314

CLPU Pick-up value

1

1

6315... CLPU Operation 6318 delay

1

1

6319... CLPU Inv. time 6322 coefficient

1

1

6323... 6326

Reset type

1

1

6327

Enable faulty phase detection

1

1

FC

Scalling

Setting for Scalling

3, 6 1 % = 1

3, 6 1.0 min = 10

3, 6

Current=0; Ambient=1

3, 6 1 °C = 1 / 1 °F = 1

3, 6 1 °C = 1 / 1 °F = 1

3, 6 1 °C = 1 / 1 °F = 1

3, 6 1 °C = 1 / 1 °F = 1

3, 6 1 °C = 1 / 1 °F = 1

3, 6 Off=0;On=1

3, 6 1.000 pu = 1000

DT=0;IEC=1;

3, 6

IEEE=2;IEEE2=3; Others=4;Prg1=5;

Prg2=6;Prg3=7

DT=0;NI=1;VI=2;

EI=3;LTI=4;LTEI=

3, 6

5;LTVI=6;MI=7; STI=8;STEI=9;

CO8=10;RI=11;

RXIDG=12

3, 6 1.00 s = 100

3, 6 1.000 = 1000

3, 6 Res=0;Cap=1

3, 6 1.00 s = 100 3, 6 Off=0;On=1

3, 6 Off=0;On=1

3, 6 1.00 s = 100

3, 6 1.000 = 1000 3, 6 Off=0;On=1

3, 6 1.00 xIn = 100

3, 6 1.00 s = 100

3, 6 1.000 = 1000 3, 6 DT=0;IDMT=1

3, 6 Off=0;On=1

P5 U20 P5 P5 P5 P5 LPCT U20 V20 F30 M30 LPVT

































































































































































































P5/EN M/33B

169

Communication protocols

Add.

Name

Read Write

6328

Phase currents change limit

Io>> setting

6331
6332... 6335

Enable for Io>> Pick-up value

1

1

1

1

1

1

6336... 6339

Delay curve family

1

1

6340... 6343

Delay type

1

1

6344... 6347

Operation delay

1

1

6348... 6351

Inv. time coefficient

1

1

6352... 6355

Network earthing

1

1

6356... Inrush status for 6359 Io>>

1

1

6360... 6363

SOL use for Io>>

1

1

6364... SOL Operation 6367 delay

1

1

6368... SOL Inv. time 6371 coefficient

1

1

6372... CLPU status for 6375 Io>>

1

1

6376... 6379

CLPU Pick-up value

1

1

6380... CLPU Operation 6383 delay

1

1

6384... CLPU Inv. time 6387 coefficient

1

1

6388... 6391

Reset type

1

1

6392... 6395

Reset time

1

1

6396

Enable faulty phase detection

1

1

6397

Phase currents change limit

1

1

Io>>> setting

6401 Enable for Io>>>

1

1

6402... 6405

Pick-up value

1

1

6406... 6409

Operation delay

1

1

6410... 6413

Network earthing

1

1

6414... Inrush status for 6417 Io>>>

1

1

FC

Scalling

3, 6 1 % = 1

3, 6 Off=0;On=1

3, 6 1.00 pu = 100

DT=0;IEC=1;

3, 6

IEEE=2;IEEE2=3; Others=4;Prg1=5;

Prg2=6;Prg3=7

DT=0;NI=1;VI=2;

EI=3;LTI=4;LTEI=

3, 6

5;LTVI=6;MI=7; STI=8;STEI=9;

CO8=10;RI=11;

RXIDG=12

3, 6 1.00 s = 100

3, 6 1.000 = 1000

3, 6 Res=0;Cap=1

3, 6 Off=0;On=1

3, 6 Off=0;On=1

3, 6 1.00 s = 100

3, 6 1.000 = 1000 3, 6 Off=0;On=1

3, 6 1.00 xIn = 100

3, 6 1.00 s = 100

3, 6 1.000 = 1000 3, 6 DT=0;IDMT=1

3, 6 1.00 s = 100

3, 6 Off=0;On=1

3, 6 1 % = 1

3, 6 Off=0;On=1 3, 6 1.00 pu = 100 3, 6 1.00 s = 100 3, 6 Res=0;Cap=1 3, 6 Off=0;On=1

Setting for Scalling

P5 U20 P5 P5 P5 P5 LPCT U20 V20 F30 M30 LPVT





































































































































































































170

P5/EN M/33B

Communication protocols

Add.

Name

Read Write

6418... 6421

SOL use for Io>>>

1

1

6422... SOL Operation 6425 delay

1

1

6426... CLPU status for 6429 Io>>>

1

1

6430... 6433

CLPU Pick-up value

1

1

6434... CLPU Operation 6437 delay

1

1

6438

Enable faulty phase detection

1

1

6439

Phase currents change limit

1

1

Io>>>> setting

6451 Enable for Io>>>>

1

1

6452... 6455

Pick-up value

1

1

6456... 6459

Operation delay

1

1

6460... 6463

Network earthing

1

1

6464... Inrush status for 6467 Io>>>>

1

1

6468... 6471

SOL use for Io>>>>

1

1

6472... SOL Operation 6475 delay

1

1

6476... CLPU status for 6479 Io>>>>

1

1

6480... 6483

CLPU Pick-up value

1

1

6484... CLPU Operation 6487 delay

1

1

6488

Enable faulty phase detection

1

1

6489

Phase currents change limit

1

1

Io>>>>> setting

6501 Enable for Io>>>>>

1

1

6502... 6505

Pick-up value

6506... 6509

Operation delay

Io> setting

1

1

1

1

6551 Enable for Io>

1

1

6552... 6555

Direction mode

1

1

6556... Char ctrl. in ResCap 6559 mode

1

1

FC

Scalling

3, 6 Off=0;On=1 3, 6 1.00 s = 100 3, 6 Off=0;On=1 3, 6 1.00 xIn = 100 3, 6 1.00 s = 100 3, 6 Off=0;On=1 3, 6 1 % = 1

3, 6 Off=0;On=1 3, 6 1.00 pu = 100 3, 6 1.00 s = 100 3, 6 Res=0;Cap=1 3, 6 Off=0;On=1 3, 6 Off=0;On=1 3, 6 1.00 s = 100 3, 6 Off=0;On=1 3, 6 1.00 xIn = 100 3, 6 1.00 s = 100 3, 6 Off=0;On=1 3, 6 1 % = 1

3, 6 Off=0;On=1 3, 6 1.00 pu = 100 3, 6 1.00 s = 100

3, 6 Off=0;On=1

3, 6

ResCap=0; Sector=1;Undir=2

Res=0;Cap=1;

DI1=2;DI2=3;...;

DI19=20;DI20=

3, 6

21;Arc1=26; Arc2=27;BI=28;

VI1=30;VI2=31;

VI3=32;VI4=33;

DI21=66;DI22=

Setting for Scalling

P5 U20 P5 P5 P5 P5 LPCT U20 V20 F30 M30 LPVT























































































































































P5/EN M/33B

171

Communication protocols

Add.

Name

Read Write

6560... 6563

Pick-up value

1

1

6564... Uo setting for Io> 6567 stage

1

1

6568... 6571

Angle offset

1

1

6572... 6575

Pick up sector size

1

1

6576... 6579

Delay curve family

1

1

6580... 6583

Delay type

1

1

6584... 6587

Operation delay

1

1

6588... 6591

Inv. time coefficient

1

1

6592... 6595

Reset type

1

1

6596... 6599

Reset time

1

1

Io>> setting

6601 Enable for Io>>

1

1

6602... 6605

Direction mode

1

1

6606... Char ctrl. in ResCap 6609 mode

1

1

6610... 6613

Pick-up value

1

1

6614... Uo setting for Io>> 6617 stage

1

1

6618... 6621

Angle offset

1

1

6622... 6625

Pick up sector size

1

1

6626... 6629

Delay curve family

1

1

6630... 6633

Delay type

6634... 6637

Operation delay

1

1

1

1

FC

Scalling

67;...;DI31=76; DI32=77
3, 6 1.000 pu = 1000

3, 6 1.0 % = 10

3, 6 1 ° = 1

3, 6 1 ±° = 1

DT=0;IEC=1;

3, 6

IEEE=2;IEEE2=3; Others=4;Prg1=5;

Prg2=6;Prg3=7

DT=0;NI=1;VI=2;

EI=3;LTI=4;LTEI=

3, 6

5;LTVI=6;MI=7; STI=8;STEI=9;

CO8=10;RI=11;

RXIDG=12

3, 6 1.00 s = 100

3, 6 1.000 = 1000

3, 6 DT=0;IDMT=1

3, 6 1.00 s = 100

3, 6 Off=0;On=1

3, 6

ResCap=0; Sector=1;Undir=2

Res=0;Cap=1;

DI1=2;DI2=3;...;

DI19=20;DI20=

21;Arc1=26;

3, 6

Arc2=27;BI=28; VI1=30;VI2=31;

VI3=32;VI4=33;

DI21=66;DI22=

67;...;DI31=76;

DI32=77

3, 6 1.000 pu = 1000

3, 6 1.0 % = 10

3, 6 1 ° = 1

3, 6 1 ±° = 1

DT=0;IEC=1;

3, 6

IEEE=2;IEEE2=3; Others=4;Prg1=5;

Prg2=6;Prg3=7

DT=0;NI=1;VI=2;

EI=3;LTI=4;LTEI=

3, 6

5;LTVI=6;MI=7; STI=8;STEI=9;

CO8=10;RI=11;

RXIDG=12

3, 6 1.00 s = 100

Setting for Scalling

P5 U20 P5 P5 P5 P5 LPCT U20 V20 F30 M30 LPVT

























































































































172

P5/EN M/33B

Communication protocols

Add.

Name

Read Write

6638... 6641

Inv. time coefficient

1

1

6642... 6645

Reset type

1

1

6646... 6649

Reset time

1

1

Io>>> setting

6651 Enable for Io>>>

1

1

6652... 6655

Direction mode

1

1

6656... Char ctrl. in ResCap 6659 mode

1

1

6660... 6663

Pick-up value

1

1

6664... Uo setting for 6667 Io>>> stage

1

1

6668... 6671

Angle offset

1

1

6672... 6675

Pick up sector size

1

1

6676... 6679

Delay curve family

1

1

6680... 6683

Delay type

1

1

6684... 6687

Operation delay

1

1

6688... 6691

Inv. time coefficient

1

1

6692... 6695

Reset type

1

1

6696... 6699

Reset time

1

1

IoUo> setting

6701 Enable for IoUo>

1

1

6702... 6705

Direction mode

1

1

6706... 6709

Inhibit ctrl.

1

1

FC

Scalling

3, 6 1.000 = 1000 3, 6 DT=0;IDMT=1 3, 6 1.00 s = 100

Setting for Scalling

3, 6 Off=0;On=1

3, 6

ResCap=0; Sector=1;Undir=2

Res=0;Cap=1;

DI1=2;DI2=3;...;

DI19=20;DI20=

21;Arc1=26;

3, 6

Arc2=27;BI=28; VI1=30;VI2=31;

VI3=32;VI4=33;

DI21=66;DI22=

67;...;DI31=76;

DI32=77

3, 6 1.000 pu = 1000

3, 6 1.0 % = 10

3, 6 1 ° = 1

3, 6 1 ±° = 1

DT=0;IEC=1;

3, 6

IEEE=2;IEEE2=3; Others=4;Prg1=5;

Prg2=6;Prg3=7

DT=0;NI=1;VI=2;

EI=3;LTI=4;LTEI=

3, 6

5;LTVI=6;MI=7; STI=8;STEI=9;

CO8=10;RI=11;

RXIDG=12

3, 6 1.00 s = 100

3, 6 1.000 = 1000 3, 6 DT=0;IDMT=1

3, 6 1.00 s = 100

3, 6 Off=0;On=1

3, 6

Forward=0; Reverse=1

DI1=1;DI2=2;...;

DI19=19;DI20=

20;Arc1=25;

Arc2=26;BI=27;

VI1=29;VI2=30;

3, 6

VI3=31;VI4=32; DI21=65;DI22=

66;...;DI39=83;

DI40=84;VI5=

225;VI6=226;...;

VI19=239;VI20=

240

P5 U20 P5 P5 P5 P5 LPCT U20 V20 F30 M30 LPVT













































































































P5/EN M/33B

173

Communication protocols

Add.

Name

Read Write

6710... Timer instant delay 6713 ctrl.

1

1

6714... 6717

Pick-up value

1

1

6718... 6721

Uo pick-up value

1

1

6722... 6725

Pick-up sector size

1

1

6726... 6729

Operation delay

1

1

6730... 6733

SOL Mode

1

1

6734... SOL Operation 6737 delay

1

1

6738... 6741

Memory Mode

1

1

6742... 6745

Uo pick-up value

1

1

6746... 6749

Memory time

1

1

6750 Reset time

1

1

IoUo>> setting

6751 Enable for IoUo>>

1

1

6752... 6755

Direction mode

1

1

6756... Input for inhibit 6759 control

1

1

6760... Timer instant delay 6763 ctrl.

1

1

6764... 6767

Pick-up value

1

1

6768... 6771

Uo pick-up value

1

1

6772... 6775

Pick up sector size

1

1

6776... 6779

Operation delay

1

1

P5

FC

Scalling

Setting for Scalling

U20 P5 P5 P5 P5 LPCT U20 V20 F30 M30

LPVT

DI1=1;DI2=2;...; DI19=19;DI20= 20;Arc1=25; Arc2=26;BI=27; 3, 6 VI1=29;VI2=30; VI3=31;VI4=32; DI21=65;DI22= 66;...;DI31=75; DI32=76





3, 6

1.00 %Pno = 100

Pick-up value scaling





3, 6 1.0 % = 10





3, 6 1 ±° = 1





3, 6 1.00 s = 100





3, 6 Off=0;On=1





3, 6 1.00 s = 100

3, 6

None=0;Voltage= 1;Time=2;Both=3

3, 6 1.0 % = 10













3, 6 1.00 s = 100 3, 6 1.00 s = 100









3, 6 Off=0;On=1

3, 6

Forward=0; Reverse=1

DI1=1;DI2=2;...;

DI19=19;DI20=

20;Arc1=25;

Arc2=26;BI=27;

VI1=29;VI2=30;

3, 6

VI3=31;VI4=32; DI21=65;DI22=

66;...;DI39=83;

DI40=84;VI5=

225;VI6=226;...;

VI19=239;VI20=

240

DI1=1;DI2=2;...;

DI19=19;DI20=

20;Arc1=25;

Arc2=26;BI=27;

VI1=29;VI2=30;

3, 6

VI3=31;VI4=32; DI21=65;DI22=

66;...;DI39=83;

DI40=84;VI5=

225;VI6=226;...;

VI19=239;VI20=

240

3, 6

1.00 %Pno = 100

Pick-up value scaling

3, 6 1.0 % = 10

3, 6 1 ±° = 1

3, 6 1.00 s = 100

































174

P5/EN M/33B

Communication protocols

Add.

Name

6780... 6783
6784... 6787

SOL Mode
SOL Operation delay

6788... 6791

Memory Mode

6792... 6795

Uo memory value

6796... 6799

Memory time

6800 Reset time

U> setting

6801 Enable for U>

6802... 6805

Pick-up value

6806... 6809

Operation delay

6810 Reset time

6811 Hysteresis

U>> setting

6851
6852... 6855
6856... 6859
6860

Enable for U>> Pick-up value Operation delay Hysteresis

U>>> setting

6901 Enable for U>>>

6902... 6905

Pick-up value

6906... 6909

Operation delay

6910 Hysteresis

U< setting

6951 Enable for U<

6952... 6955

Pick-up value

6956... 6959

Operation delay

6960 Reset time

6961 Hysteresis

U<< setting

7001 Enable for U<<

7002... 7005

Pick-up value

7006... 7009

Operation delay

7010 Hysteresis

U<<< setting

Read Write FC

Scalling

1

1

3, 6 Off=0;On=1

Setting for Scalling

P5 U20 P5 P5 P5 P5 LPCT U20 V20 F30 M30 LPVT





1

1

3, 6 1.00 s = 100

1

1

3, 6

None=0;Voltage= 1;Time=2;Both=3

1

1

3, 6 1.0 % = 10













1

1

3, 6 1.00 s = 100

1

1

3, 6 1.00 s = 100









1

1

3, 6 Off=0;On=1

1

1

3, 6 1.0 %Un = 10

1

1

3, 6 1.00 s = 100

1

1

3, 6 1.00 s = 100

1

1

3, 6 1.0 % = 10









































1

1

3, 6 Off=0;On=1

1

1

3, 6 1.0 %Un = 10

1

1

3, 6 1.00 s = 100

1

1

3, 6 1.0 % = 10

































1

1

3, 6 Off=0;On=1

1

1

3, 6 1.0 %Un = 10

1

1

3, 6 1.00 s = 100

1

1

3, 6 1.0 % = 10

































1

1

3, 6 Off=0;On=1

1

1

3, 6 1.0 %Un = 10

1

1

3, 6 1.00 s = 100

1

1

3, 6 1.00 s = 100

1

1

3, 6 1.0 % = 10









































1

1

3, 6 Off=0;On=1

1

1

3, 6 1.0 %Un = 10

1

1

3, 6 1.00 s = 100

1

1

3, 6 1.0 % = 10

































P5/EN M/33B

175

Communication protocols

Add.

Name

Read Write FC

Scalling

7051 Enable for U<<<

1

7052... 7055

Pick-up value

1

7056... 7059

Operation delay

1

7060 Hysteresis

1

U1< setting

7101 Enable for U1<

1

7102... 7105

Pick-up value

1

7106... 7109

Operation delay

1

7110

Low voltage blocking

1

U1<< setting

7151 Enable for U1<<

1

7152... 7155

Pick-up value

1

7156... 7159

Operation delay

1

7160

Low voltage blocking

1

Uo> setting

7201 Enable for Uo>

1

7202... 7205

Pick-up value

1

7206... 7209

Operation delay

1

7210... 7213

Reset time

1

Uo>> setting

7251 Enable for Uo>>

1

7252... 7255

Pick-up value

1

7256... 7259

Operation delay

1

7260... 7263

Reset time

1

Uo>>> setting

7301 Enable for Uo>>>

1

7302... 7305

Pick-up value

1

7306... 7309

Operation delay

1

7310... 7313

Reset time

1

fX setting

7351 Enable for fX

1

7352... 7355

Pick-up value

1

7356... 7359

Operation delay

1

1

3, 6 Off=0;On=1

1

3, 6 1.0 %Un = 10

1

3, 6 1.00 s = 100

1

3, 6 1.0 % = 10

1

3, 6 Off=0;On=1

1

3, 6 1 %Vn = 1

1

3, 6 1.00 s = 100

1

3, 6 1.0 %Un = 10

1

3, 6 Off=0;On=1

1

3, 6 1 %Vn = 1

1

3, 6 1.00 s = 100

1

3, 6 1.0 %Un = 10

1

3, 6 Off=0;On=1

1

3, 6 1 % = 1

1

3, 6 1.00 s = 100

1

3, 6 1.00 s = 100

1

3, 6 Off=0;On=1

1

3, 6 1 % = 1

1

3, 6 1.00 s = 100

1

3, 6 1.00 s = 100

1

3, 6 Off=0;On=1

1

3, 6 1 % = 1

1

3, 6 1.00 s = 100

1

3, 6 1.00 s = 100

1

3, 6 Off=0;On=1

1

3, 6 50.00 Hz = 5000

1

3, 6 1.00 s = 100

Setting for Scalling

P5 U20 P5 P5 P5 P5 LPCT U20 V20 F30 M30 LPVT

























































































































































































176

P5/EN M/33B

Communication protocols

Add.

Name

Read Write FC

Scalling

7360

Low voltage blocking

1

fXX setting

7401 Enable for fXX

1

7402... 7405

Pick-up value

1

7406... 7409

Operation delay

1

7410

Low voltage blocking

1

f< setting

7451 Enable for f<

1

7452... 7455

Pick-up value

1

7456... 7459

Operation delay

1

7460

Low voltage blocking

1

f<< setting

7501 Enable for f<<

1

7502... 7505

Pick-up value

1

7506... 7509

Operation delay

1

7510

Low voltage blocking

1

CBFail setting

7551 Enable for CB fail

1

7552 Enable CBF timer1

1

7553

Timer1 Operation Delay

1

7554 Enable CBF timer2

1

7555

Timer2 Operation Delay

1

7556

Noncurrent CBF reset mode

1

7557

Ext. CBF reset mode

1

7558 I< current set

1

7559 Io< current set

1

7560 Io'< current set

1

Ih5> setting

7651 Enable for Ih5>

1

7652 Pick-up value

1

7653 Operation delay

1

CT setting

7701

Enable for CT supervision

1

1

3, 6 1.0 %Un = 10

1

3, 6 Off=0;On=1

1

3, 6 50.00 Hz = 5000

1

3, 6 1.00 s = 100

1

3, 6 1.0 %Un = 10

1

3, 6 Off=0;On=1

1

3, 6 50.00 Hz = 5000

1

3, 6 1.00 s = 100

1

3, 6 1.0 %Un = 10

1

3, 6 Off=0;On=1

1

3, 6 50.00 Hz = 5000

1

3, 6 1.00 s = 100

1

3, 6 1.0 %Un = 10

1

3, 6 Off=0;On=1

1

3, 6 Off=0;On=1

1

3, 6 1.00 s = 100

1

3, 6 Off=0;On=1

1

3, 6 1.00 s = 100

I<Only=0;

1

3, 6 PoleDead=1;

ProtRst=2

I<Only=0;

1

3, 6 PoleDead=1;

ProtRst=2

1

3, 6 1.00 xIn = 100

1

3, 6 1.000 pu = 1000

1

3, 6 1.000 pu = 1000

1

3, 6 Off=0;On=1

1

3, 6 1 % = 1

1

3, 6 1.00 s = 100

1

3, 6 Off=0;On=1

Setting for Scalling

P5 U20 P5 P5 P5 P5 LPCT U20 V20 F30 M30 LPVT





































































































































































































































P5/EN M/33B

177

Communication protocols

Add.

Name

Read Write

7702 CTS Operate mode

1

1

7703 7704

CTS reset input Operation delay

1

1

1

1

7721 Residual current >

1

1

7722 Residual voltage <

1

1

VT setting

7751 7752 7753

Enable for VTS U2> setting I2< setting

1

1

1

1

1

1

7754 Operation delay

1

1

7755 Inhibit ctrl.

1

1

DI for MCB position 7756

1

1

7757 I>(min) setting

1

1

7758 I<(max) setting

1

1

Io'> setting

7761
7762... 7765

Enable for Io'> Pick-up value

1

1

1

1

7766... 7769

Delay curve family

1

1

7770... 7773

Delay type

1

1

7774... 7777

Operation delay

1

1

7778... 7781

Inv. time coefficient

1

1

7782... 7785

Network grounding

1

1

7786... 7789

Reset time

1

1

7791... Inrush status for 7794 Io'>

1

1

7795... 7798

SOL status for Io'>

1

1

7799... SOL Operation 7802 delay

1

1

FC

Scalling

3, 6

3I only=0;I0&U0= 1;Both=2

3, 6 Value 26

3, 6 1.00 s = 100

3, 6 1.00 xIn = 100

3, 6 1.0 %Un = 10

Setting for Scalling

P5 U20 P5 P5 P5 P5 LPCT U20 V20 F30 M30 LPVT





































3, 6 Off=0;On=1



3, 6 1.0 %Vn = 10



3, 6 1.00 xIn = 100



3, 6 1.00 s = 100

Operate delay scaling



3, 6 Value 27



3, 6

DI1=1;DI2=2;...; DI39=39;DI40=40



3, 6 1.00 xln = 100



3, 6 1.00 xln = 100









































3, 6 Off=0;On=1

3, 6 1.000 pu = 1000

DT=0;IEC=1;

3, 6

IEEE=2;IEEE2=3; Others=4;Prg1=5;

Prg2=6;Prg3=7

DT=0;NI=1;VI=2;

EI=3;LTI=4;LTEI=

3, 6

5;LTVI=6;MI=7; STI=8;STEI=9;

CO8=10;RI=11;

RXIDG=12

3, 6 1.00 s = 100

3, 6 1.000 = 1000

3, 6 Res=0;Cap=1

3, 6 1.00 s = 100 3, 6 Off=0;On=1

3, 6 Off=0;On=1

3, 6 1.00 s = 100



































































26. DI1=1;DI2=2;...;DI19=19;DI20=20;Arc1=25;Arc2=26;BI=27;VI1=29;VI2=30;VI3=31;VI4=32;DO1(B)=33;DO2(B)=34;DO3(B)=35; Watchdog=36;SF=37;SF=38;SF=39;SF=40;SF=41;BO=42;DO1(C)=43;DO2(C)=44;DO3(C)=45;DO4(C)=46;LedAl=49;LedTr=50;LedA= 51;LedB=52;LedC=53;LedDR=54;VO1=55;VO2=56;...;VO5=59;VO6=60;DI21=65;DI22=66;...;DI39=83;DI40=84;F1=85;F2=86;...;F6= 90;F7=91;DO1(D)=97;DO2(D)=98;DO3(D)=99;SF=100;DO1(E)=101;DO2(E)=102;NI1=129;NI2=130;...;NI63=191;NI64=192;POC1= 193;POC2=194;...;POC15=207;POC16=208;VI5=225;VI6=226;...;VI19=239;VI20=240;VO7=257;VO8=258;...;VO19=269;VO20=270; NI65=289;NI66=290;...;NI127=351;NI128=352
27. DI1=1;DI2=2;DI3=3;DI4=4;DI5=5;DI6=6;DI7=7;DI8=8;DI9=9;DI10=10;DI11=11;DI12=12;DI13=13;DI14=14;DI15=15;DI16=16;DI17=17; DI18=18;DI19=19;DI20=20;Arc1=25;Arc2=26;BI=27;VI1=29;VI2=30;VI3=31;VI4=32;DI21=65;DI22=66;DI23=67;DI24=68;DI25=69; DI26=70;DI27=71;DI28=72;DI29=73;DI30=74;DI31=75;DI32=76;DI33=77;DI34=78;DI35=79;DI36=80;DI37=81;DI38=82;DI39=83;DI40= 84;VI5=225;VI6=226;VI7=227;VI8=228;VI9=229;VI10=230;VI11=231;VI12=232;VI13=233;VI14=234;VI15=235;VI16=236;VI17=237; VI18=238;VI19=239;VI20=240

178

P5/EN M/33B

Communication protocols

Add.

Name

Read Write

7803... SOL Inv. time 7806 coefficient

1

1

7807... 7810

CLPU status for Io'>

1

1

7811... 7814

CLPU Pick-up value

1

1

7815... CLPU Operation 7818 delay

1

1

7819... CLPU Inv. time 7822 coefficient

1

1

7823... 7826

Reset type

1

1

7827

Enable faulty phase detection

1

1

7828

Phase currents change limit

1

1

Io'>> setting

7831
7832... 7835

Enable for Io'>> Pick-up value

1

1

1

1

7836... 7839

Delay curve family

1

1

7840... 7843

Delay type

1

1

7844... 7847

Operation delay

1

1

7848... 7851

Inv. time coefficient

1

1

7852... 7855

Network earthing

1

1

7856... Inrush status for 7859 Io'>>

1

1

7860... 7863

SOL status for Io'>>

1

1

7864... SOL Operation 7867 delay

1

1

7868... SOL Inv. time 7871 coefficient

1

1

7872... CLPU status for 7875 Io'>>

1

1

7876... 7879

CLPU Pick-up value

1

1

7880... CLPU Operation 7883 delay

1

1

7884... CLPU Inv. time 7887 coefficient

1

1

7888... Reset type 7891

1

1

7892... 7895

Reset time

1

1

7896

Enable faulty phase detection

1

1

FC

Scalling

3, 6 1.000 = 1000 3, 6 Off=0;On=1 3, 6 1.00 xIn = 100 3, 6 1.00 s = 100 3, 6 1.000 = 1000 3, 6 DT=0;IDMT=1 3, 6 Off=0;On=1 3, 6 1 % = 1

Setting for Scalling

3, 6 Off=0;On=1

3, 6 1.000 pu = 1000

DT=0;IEC=1;

3, 6

IEEE=2;IEEE2=3; Others=4;Prg1=5;

Prg2=6;Prg3=7

DT=0;NI=1;VI=2;

EI=3;LTI=4;LTEI=

3, 6

5;LTVI=6;MI=7; STI=8;STEI=9;

CO8=10;RI=11;

RXIDG=12

3, 6 1.00 s = 100

3, 6 1.000 = 1000

3, 6 Res=0;Cap=1

3, 6 Off=0;On=1

3, 6 Off=0;On=1

3, 6 1.00 s = 100

3, 6 1.000 = 1000 3, 6 Off=0;On=1

3, 6 1.00 xIn = 100

3, 6 1.00 s = 100

3, 6 1.000 = 1000 3, 6 DT=0;IDMT=1

3, 6 1.00 s = 100

3, 6 Off=0;On=1

P5 U20 P5 P5 P5 P5 LPCT U20 V20 F30 M30 LPVT





























































































































































P5/EN M/33B

179

Communication protocols

Add.

Name

Read Write

7897

Phase currents change limit

1

1

Io'>>> setting

7901 Enable for Io'>>>

1

1

7902... 7905

Pick-up value

1

1

7906... 7909

Operation delay

1

1

7910... 7913

Network grounding

1

1

7914... Inrush status for 7917 Io'>>>

1

1

7918... SOL status for 7921 Io'>>>

1

1

7922... SOL Operation 7925 delay

1

1

7926... CLPU status for 7929 Io'>>>

1

1

7930... 7933

CLPU Pick-up value

1

1

7934... CLPU Operation 7937 delay

1

1

7938

Enable faulty phase detection

1

1

7939

Phase currents change limit

1

1

Uc> setting

7951 Enable for Uc>

7952... 7955

Pick-up value

7956... 7959

Operation delay

df/dt> setting

1

1

1

1

1

1

8001 Enable for df/dt>

1

1

8002... 8005

Direction of change

1

1

8006... 8009
8010... 8013
8014

Pick-up value
Operation delay
Low voltage blocking

1

1

1

1

1

1

df/dt>> setting

8051 Enable for df/dt>>

1

1

8052... 8055

Direction of change

1

1

8056... 8059
8060... 8063
8064

Pick-up value
Operation delay
Low voltage blocking

1

1

1

1

1

1

FC

Scalling

3, 6 1 % = 1

3, 6 Off=0;On=1 3, 6 1.000 pu = 1000 3, 6 1.00 s = 100 3, 6 Res=0;Cap=1 3, 6 Off=0;On=1 3, 6 Off=0;On=1 3, 6 1.00 s = 100 3, 6 Off=0;On=1 3, 6 1.00 xIn = 100 3, 6 1.00 s = 100 3, 6 Off=0;On=1 3, 6 1 % = 1

3, 6 Off=0;On=1 3, 6 1.00 xUcLN = 100 3, 6 1.0 s = 10

3, 6 Off=0;On=1 Negative=0;
3, 6 Positive=1; Either=2
3, 6 1.0 Hz/s = 10
3, 6 1.00 s = 100
3, 6 1.0 %Un = 10

3, 6 Off=0;On=1 Negative=0;
3, 6 Positive=1; Either=2
3, 6 1.0 Hz/s = 10
3, 6 1.00 s = 100
3, 6 1.0 %Un = 10

Setting for Scalling

P5 U20 P5 P5 P5 P5 LPCT U20 V20 F30 M30 LPVT























































































































































180

P5/EN M/33B

Communication protocols

Add.

Name

Read Write FC

Scalling

IoInt> setting

8101 Enable for IoInt>

1

8102... 8105

Direction mode

1

8106... 8109

Uo pick-up value

1

8110... 8113

Operation delay

1

8114... Min number of 8117 peaks

1

8118... Reset delay 8121

1

8122 Intermittent time

1

Feeder Fault Locator setting

8152 Pick-up value

1

8153

Triggering digital input

1

8154 Line reactance/unit

1

8155 Earth factor

1

8156 Earth factor angle

1

8157 Event enabling

1

8158

Average voltage limit

1

8159 Io limit

1

8160 DI timeout

1

8161 Release timeout

1

Synchro-check 1 setting

8201

Enable for Synchro check 1

1

8202 CB object 1

1

8203 CB object 2

1

8204

Input for selecting Object2

1

8205

Inhibit closing unselected CB

1

8206

Synchronization mode

1

8207

Voltage check mode

1

1

3, 6 Off=0;On=1

1

3, 6

Forward=0; Reverse=1

1

3, 6 1 % = 1

1

3, 6 1.00 s = 100

1

3, 6 1 = 1

1

3, 6 1.00 s = 100

1

3, 6 1.00 s = 100

1

3, 6 1.00 xIn = 100

1

3, 6 Value 28

1

3, 6

1.000 ohm = 1000

1

3, 6 1.000 = 1000

1

3, 6 1 ° = 1

1

3, 6 Off=0;On=1

1

3, 6 1.0 %Un = 10

1

3, 6 1.00 xIn = 100

1

3, 6 1.00 s = 100

1

3, 6 1.00 s = 100

1

3, 6 Off=0;On=1

Object 1=1;

Object 2=2;

1

3, 6

Object 3=3; Object 4=4;

Object 5=5;

Object 6=6

Object 1=1;

Object 2=2;

1

3, 6

Object 3=3; Object 4=4;

Object 5=5;

Object 6=6

1

3, 6 Value 28

1

3, 6 Off=0;On=1

1

3, 6

Off=0;Async=1; Sync=2

1

3, 6

DD=1;DL=2;LD= 3;DD/DL=4;DD/

Setting for Scalling

P5 U20 P5 P5 P5 P5 LPCT U20 V20 F30 M30 LPVT

      

 
       











































28. DI1=1;DI2=2;...;DI19=19;DI20=20;Arc1=25;Arc2=26;BI=27;VI1=29;VI2=30;VI3=31;VI4=32;DO1(B)=33;DO2(B)=34;DO3(B)=35; Watchdog=36;SF=37;SF=38;SF=39;SF=40;SF=41;BO=42;DO1(C)=43;DO2(C)=44;DO3(C)=45;DO4(C)=46;LedAl=49;LedTr=50;LedA= 51;LedB=52;LedC=53;LedDR=54;VO1=55;VO2=56;...;VO5=59;VO6=60;DI21=65;DI22=66;...;DI39=83;DI40=84;F1=85;F2=86;...;F6= 90;F7=91;DO1(D)=97;DO2(D)=98;DO3(D)=99;SF=100;DO1(E)=101;DO2(E)=102;NI1=129;NI2=130;...;NI127=351;NI128=352

P5/EN M/33B

181

Communication protocols

Add.

Name

Read Write

8208 CB closing time

1

1

8209 8210

Bypass DI Bypass

1

1

1

1

8211 Ok pulse length

1

1

8212... 8215

Udead limit setting

1

1

8216... 8219

Ulive limit setting

1

1

8220... Frequency 8223 difference

1

1

8224... 8227

Voltage difference

1

1

8228... Phase angle 8231 difference

1

1

8232... 8235

Request timeout

1

1

CB Monitoring setting

8251

Enable for CB monitoring

1

1

8252... 8253

Alarm level

1

1

8254... Limit for operation 8255 left

1

1

8261... High limit (primary 8264 value)

1

1

Motor status setting

8301 Motor status

1

1

8302

Nom motor start current

1

1

8303

Motor start detection current

1

1

8304

Motor start detection mode

1

1

8305

Enable motor speed detection

1

1

8306

Motor speed input DI

1

1

8307

Rated motor speed n

1

1

8308 Pulse per rotation

1

1

8309

Zero speed confirm time

1

1

SOL setting

8351 Enable for SOL

1

1

FC

Scalling

LD=5;DL/LD=6; DD/DL/LD=7 3, 6 1.00 s = 100 3, 6 Value 29 3, 6 1 = 1 3, 6 1 ms = 1 3, 6 1.0 %Un = 10
3, 6 1.0 %Un = 10
3, 6 50.00 Hz = 5000
3, 6 1.0 %Un = 10
3, 6 1 ° = 1
3, 6 1.0 s = 10

Setting for Scalling

P5 U20 P5 P5 P5 P5 LPCT U20 V20 F30 M30 LPVT





























































3, 6 Off=0;On=1





3, 6 1.00 kA = 100





3, 6 1000 = 1000

Limit for oper. left scaling





3, 6 1.0 kA = 10





3, 6 Off=0;On=1
3, 6 1.00 xIn = 100
3, 6 1.00 xIn = 100
CB Position=0; 3, 6 Current=1;
CB&Current=2
3, 6 Off=0;On=1
Slot C DI1=0;Slot 3, 6 D DI1=1;Slot E
DI1=2
3, 6 1 rpm = 1
3, 6 1 = 1
3, 6 1 s = 1





































3, 6 off=0;On=1





















        





29. DI1=1;DI2=2;...;DI19=19;DI20=20;Arc1=25;Arc2=26;BI=27;VI1=29;VI2=30;VI3=31;VI4=32;DO1(B)=33;DO2(B)=34;DO3(B)=35; Watchdog=36;SF=37;SF=38;SF=39;SF=40;SF=41;BO=42;DO1(C)=43;DO2(C)=44;DO3(C)=45;DO4(C)=46;LedAl=49;LedTr=50;LedA= 51;LedB=52;LedC=53;LedDR=54;VO1=55;VO2=56;...;VO5=59;VO6=60;DI21=65;DI22=66;...;DI39=83;DI40=84;F1=85;F2=86;...;F6= 90;F7=91;DO1(D)=97;DO2(D)=98;DO3(D)=99;SF=100;DO1(E)=101;DO2(E)=102;NI1=129;NI2=130;...;NI63=191;NI64=192;POC1= 193;POC2=194;...;POC15=207;POC16=208;VI5=225;VI6=226;...;VI19=239;VI20=240;VO7=257;VO8=258;...;VO19=269;VO20=270; NI65=289;NI66=290;...;NI127=351;NI128=352

182

P5/EN M/33B

Communication protocols

Add.

Name

Read Write FC

Scalling

8352 SOL signal number

1

8353

CB Trip Clearing time

1

Admittance E/F Io/Uo> setting

8361 Enable for Io/Uo>

1

8362 Io input

1

8363... 8366

Uo pick-up value

1

8367... 8370

Correction angle

1

Admittance E/F Io/Uo> YN>

8371 Enable for YN>

1

8373... 8376

Pick-up value

1

8377... Input for inhibit 8380 control

1

8381... 8384

Operation delay

1

8385... 8388

Reset time

1

8389... 8392

SOL Mode

1

8393... SOL Operation 8396 delay

1

Admittance E/F Io/Uo> GN>

8411 Enable for GN>

1

8413... 8416

Pick-up value

1

8417... Input for inhibit 8420 control

1

8421... 8424

Direction mode

1

8425... 8428

Operation delay

1

8429... 8432

Reset time

1

8433... 8436

SOL Mode

1

8437... SOL Operation 8440 delay

1

Admittance E/F Io/Uo> BN>

8461 Enable for BN>

1

8463... 8466

Pick-up value

1

8467... Input for inhibit 8470 control

1

1

3, 6 1=0;2=1

1

3, 6 1.00 s = 100

1

3, 6 Off=0;On=1

1

3, 6

Io=0;Io CSH=1; Iocalc=2;Io'=3

1

3, 6 1.0 % = 10

1

3, 6 1 ° = 1

1

3, 6 Off=0;On=1

1

3, 6 1.0 Yn% = 10

1

3, 6 Value 30

1

3, 6 1.00 s = 100

1

3, 6 1.00 s = 100

1

3, 6 Off=0;On=1

1

3, 6 1.00 s = 100

1

3, 6 Off=0;On=1

1

3, 6 1.0 Gn% = 10

1

3, 6 Value 30

Undir=0;

1

3, 6 Forward=1;

Reverse=2

1

3, 6 1.00 s = 100

1

3, 6 1.00 s = 100

1

3, 6 Off=0;On=1

1

3, 6 1.00 s = 100

1

3, 6 Off=0;On=1

1

3, 6 1.0 Bn% = 10

1

3, 6 Value 30

Setting for Scalling

P5 U20 P5 P5 P5 P5 LPCT U20 V20 F30 M30 LPVT

































Pick-up value scaling





























Pick-up value scaling

































Pick-up value scaling













30. DI1=1;DI2=2;DI3=3;DI4=4;DI5=5;DI6=6;DI7=7;DI8=8;DI9=9;DI10=10;DI11=11;DI12=12;DI13=13;DI14=14;DI15=15;DI16=16;DI17=17; DI18=18;DI19=19;DI20=20;Arc1=25;Arc2=26;BI=27;VI1=29;VI2=30;VI3=31;VI4=32;DI21=65;DI22=66;DI23=67;DI24=68;DI25=69; DI26=70;DI27=71;DI28=72;DI29=73;DI30=74;DI31=75;DI32=76;DI33=77;DI34=78;DI35=79;DI36=80;DI37=81;DI38=82;DI39=83;DI40= 84;VI5=225;VI6=226;VI7=227;VI8=228;VI9=229;VI10=230;VI11=231;VI12=232;VI13=233;VI14=234;VI15=235;VI16=236;VI17=237; VI18=238;VI19=239;VI20=240

P5/EN M/33B

183

Communication protocols

Add.

Name

Read Write FC

Scalling

8471... 8474

Direction mode

1

8475... 8478

Operation delay

1

8479... 8482

Reset time

1

8483... 8486

SOL Mode

1

8487... SOL Operation 8490 delay

1

Admittance E/F Io/Uo>> setting

8511 Enable for Io/Uo>>

1

8512 Io input

1

8513... 8516

Uo pick-up value

1

8517... 8520

Angle correction

1

Admittance E/F Io/Uo>> YN>

8521 Enable for YN>>

1

8523... 8526

Pick-up value

1

8527... Input for inhibit 8530 control

1

8531... 8534

Operation delay

1

8535... 8538

Reset time

1

8539... 8542

SOL Mode

1

8543... SOL Operation 8546 delay

1

Admittance E/F Io/Uo>> GN>

8561 Enable for GN>>

1

8563... 8566

Pick-up value

1

8567... Input for inhibit 8570 control

1

8571... 8574

Direction mode

1

8575... 8578

Operation delay

1

8579... 8582

Reset time

1

8583... 8586

SOL Mode

1

8587... SOL Operation 8590 delay

1

Undir=0;

1

3, 6 Forward=1;

Reverse=2

1

3, 6 1.00 s = 100

1

3, 6 1.00 s = 100

1

3, 6 Off=0;On=1

1

3, 6 1.00 s = 100

1

3, 6 Off=0;On=1

1

3, 6

Io=0;Io CSH=1; Iocalc=2;Io'=3

1

3, 6 1.0 % = 10

1

3, 6 1 ° = 1

1

3, 6 Off=0;On=1

1

3, 6 1.0 Yn% = 10

1

3, 6 Value 31

1

3, 6 1.00 s = 100

1

3, 6 1.00 s = 100

1

3, 6 Off=0;On=1

1

3, 6 1.00 s = 100

1

3, 6 Off=0;On=1

1

3, 6 1.0 Gn% = 10

1

3, 6 Value 31

Undir=0;

1

3, 6 Forward=1;

Reverse=2

1

3, 6 1.00 s = 100

1

3, 6 1.00 s = 100

1

3, 6 Off=0;On=1

1

3, 6 1.00 s = 100

Setting for Scalling

P5 U20 P5 P5 P5 P5 LPCT U20 V20 F30 M30 LPVT





















Pick-up value scaling
Pick-up value scaling













































































31. DI1=1;DI2=2;DI3=3;DI4=4;DI5=5;DI6=6;DI7=7;DI8=8;DI9=9;DI10=10;DI11=11;DI12=12;DI13=13;DI14=14;DI15=15;DI16=16;DI17=17; DI18=18;DI19=19;DI20=20;Arc1=25;Arc2=26;BI=27;VI1=29;VI2=30;VI3=31;VI4=32;DI21=65;DI22=66;DI23=67;DI24=68;DI25=69; DI26=70;DI27=71;DI28=72;DI29=73;DI30=74;DI31=75;DI32=76;DI33=77;DI34=78;DI35=79;DI36=80;DI37=81;DI38=82;DI39=83;DI40= 84;VI5=225;VI6=226;VI7=227;VI8=228;VI9=229;VI10=230;VI11=231;VI12=232;VI13=233;VI14=234;VI15=235;VI16=236;VI17=237; VI18=238;VI19=239;VI20=240

184

P5/EN M/33B

Communication protocols

Add.

Name

Admittance E/F Io/Uo>> BN>

8611 Enable for BN>>

8613... 8616

Pick-up value

8617... Input for inhibit 8620 control

8621... 8624

Direction mode

8625... 8628
8629... 8632
8633... 8636
8637... 8640

Operation delay
Reset time
SOL Mode SOL Operation delay

U2> setting

8661 Enable for U2>

8662... VTS Operating 8665 Mode

8666... 8669

Pick-up value

8670... 8673

Delay type

8674... 8677

Operation delay

8678... 8681

Reset time

U2>> setting

8701 Enable for U2>>

8702... VTS Operating 8705 Mode

8706... 8709

Pick-up value

8710... 8713

Delay type

8714... 8717

Operation delay

8718... 8721

Reset time

Motor overspeed >

8751 8752

Enable for > Pick-up value

8753 Operation delay

Motor overspeed >>

8801 Enable for >>

Read Write FC

Scalling

1

1

3, 6 Off=0;On=1

1

1

3, 6 1.0 Bn% = 10

1

1

3, 6 Value 32

Undir=0;

1

1

3, 6 Forward=1;

Reverse=2

1

1

3, 6 1.00 s = 100

1

1

3, 6 1.00 s = 100

1

1

3, 6 Off=0;On=1

1

1

3, 6 1.00 s = 100

1

1

3, 6 Off=0;On=1

1

1

3, 6

NO ACTION=0; BLOCKING=1

1

1

3, 6 1.0 %Un = 10

1

1

3, 6 DT=0;INV=1

1

1

3, 6 1.00 s = 100

1

1

3, 6 1.00 s = 100

1

1

3, 6 Off=0;On=1

1

1

3, 6

NO ACTION=0; BLOCKING=1

1

1

3, 6 1.0 %Un = 10

1

1

3, 6 DT=0;INV=1

1

1

3, 6 1.00 s = 100

1

1

3, 6 1.00 s = 100

1

1

3, 6 Off=0;On=1

1

1

3, 6 1 %n = 1

1

1

3, 6 1 s = 1

1

1

3, 6 Off=0;On=1

Setting for Scalling

P5 U20 P5 P5 P5 P5 LPCT U20 V20 F30 M30 LPVT

Pick-up value scaling

























































































































































32. DI1=1;DI2=2;DI3=3;DI4=4;DI5=5;DI6=6;DI7=7;DI8=8;DI9=9;DI10=10;DI11=11;DI12=12;DI13=13;DI14=14;DI15=15;DI16=16;DI17=17; DI18=18;DI19=19;DI20=20;Arc1=25;Arc2=26;BI=27;VI1=29;VI2=30;VI3=31;VI4=32;DI21=65;DI22=66;DI23=67;DI24=68;DI25=69; DI26=70;DI27=71;DI28=72;DI29=73;DI30=74;DI31=75;DI32=76;DI33=77;DI34=78;DI35=79;DI36=80;DI37=81;DI38=82;DI39=83;DI40= 84;VI5=225;VI6=226;VI7=227;VI8=228;VI9=229;VI10=230;VI11=231;VI12=232;VI13=233;VI14=234;VI15=235;VI16=236;VI17=237; VI18=238;VI19=239;VI20=240

P5/EN M/33B

185

Communication protocols

Add.

Name

Read Write FC

Scalling

8802 Pick-up value

1

8803 Operation delay

1

Motor underspeed <

8851 Enable for <

1

8852 Pick-up value

1

8853 Operation delay

1

Motor underspeed <<

8901 Enable for <<

1

8902 Pick-up value

1

8903 Operation delay

1

Motor Anti-backspin (ABS)

8951

Enable motor antibackspin

1

8952

Measured Zero Speed Mode

1

8953

Zero speed external mode

1

8954 Zero speed input DI 1

8955 Anti-backspin Time

1

Cold load pick-up CLPU

9001 Enable for CLPU

1

9002 Idle current

1

9003 Pickup current

1

9004 CLPU dead time

1

9005 CLPU time delay

1

1

3, 6 1 %n = 1

1

3, 6 1 s = 1

1

3, 6 Off=0;On=1

1

3, 6 1 %n = 1

1

3, 6 1 s = 1

1

3, 6 Off=0;On=1

1

3, 6 1 %n = 1

1

3, 6 1 s = 1

1

3, 6 Off=0;On=1

1

3, 6 Off=0;On=1

1

3, 6 Off=0;On=1

1

3, 6 Value 33

1

3, 6 1 s = 1

1

3, 6 Off=0;On=1

1

3, 6 1.00 xIn = 100

1

3, 6 1.00 xIn = 100

1

3, 6 1.00 s = 100

1

3, 6 1.00 s = 100

Setting for Scalling

P5 U20 P5 P5 P5 P5 LPCT U20 V20 F30 M30 LPVT





































































CLPU dead time scaling





















    





















Specific scalings

Add.

Name

10001...10002 Power scaling 10003...10004 PF and cos scaling 10005...10006 Tan scaling 10007...10008 Voltage scaling 10009...10010 VT primary scaling 10011...10012 Frequency scaling 10013...10014 VTo secondary scaling 10015...10016 Io scaling 10017...10018 Io' scaling

Read Write

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

P5U20 LPCT LPVT
       

P5U20
  

P5V20
   

P5F30
        

P5M30
        

33. DI1=1;DI2=2;...;DI19=19;DI20=20;Arc1=25;Arc2=26;BI=27;VI1=29;VI2=30;VI3=31;VI4=32;DO1(B)=33;DO2(B)=34;DO3(B)=35; Watchdog=36;SF=37;SF=38;SF=39;SF=40;SF=41;BO=42;DO1(C)=43;DO2(C)=44;DO3(C)=45;DO4(C)=46;LedAl=49;LedTr=50;LedA= 51;LedB=52;LedC=53;LedDR=54;VO1=55;VO2=56;...;VO5=59;VO6=60;DI21=65;DI22=66;...;DI39=83;DI40=84;F1=85;F2=86;...;F6= 90;F7=91;DO1(D)=97;DO2(D)=98;DO3(D)=99;SF=100;DO1(E)=101;DO2(E)=102;NI1=129;NI2=130;...;NI127=351;NI128=352

186

P5/EN M/33B

Communication protocols

Add.

Name

Read Write

10019...10020 CLPU dead time scaling

1

0

10021...10022 Limit for oper.left scaling

1

0

10025...10026 CB open count scaling

1

0

10027...10028 Operate delay scaling

1

0

10029...10030 Pick-up value scaling

1

0

10031...10032 Fault value scaling

1

0

10033...10034 Max control pulse length scaling

1

0

10035...10036 LPCT/VT scaling

1

0

10037...10038 External AI scaling

1

0

10039...10040 Io scaling (CSH)

1

0

P5U20 LPCT LPVT
         

P5U20
      
 

P5V20
    

P5F30
         

P5M30
         

PDM point list of Modbus

First Register Address

Register Number

Description

Re- Wr- Data ad ite type

Value

0x4- 20001...-

E20

20006

Firmware version 1

0 string V01.301.102

unused

20007...20010

unused

If P5U20:Universal

current protection If

P5V20:Voltage and

Frequency protection If

P5F30:Directional

0x4- 20011...-

Feeder and

E2A 20040

Transformer protection

If P5M30:Motor

protection If P5U20

LPCT/LPVT:Universal

User application

current protection with

name

1

1 string LPCT/LPVT

0x4E48

20041

Product identifier 1

If P5U20: 16700 If P5V20: 16701 If P5M30: 16702 If P5F30: 16703 If P5L30: 16704 If P5T30: 16705 If P5G30: 16706 If P5U20 LPVT/ 0 UInt16 LPCT:16707

unused

20042...20044

unused

0x4- 20045...- Hardware

E4C 20060

version

15 digital number of

1

0 string module number

0x4- 20061...-

E5C 20090

Serial number

1

0 string Serial Number

0x4- 20091...-

E7A 20120

Product family

1

0 string Easergy P5

0x4- 20121...- Product

E98

20150

capability

1

1 string module number

unused

20151...

20250

unused

0x4F1A

20251

Object1 state

Open=0;Close=1; 1 0 Enum Undef=2

0x4F1B

20252

Object2 state

Open=0;Close=1; 1 0 Enum Undef=2

P5-

Unit

U20 LPC-
T

P5 U20

P5 V20

P5 F30

P5 M30

LPVT



























































































P5/EN M/33B

187

Communication protocols

First Register Address
0x4F1C
0x4F1D
0x4F1E
0x4F1F
0x4F20
0x4F21
0x4F22
0x4F23
0x4F24
0x4F25
0x4F26
0x4F27

Register Number

Description

20253 20254 20255 20256 20257 20258 20259 20260 20261 20262 20263 20264

Object3 state Object4 state Object5 state Object6 state Object7 state Object8 state Remote/Local State Global trip Mode of use Motor starting Motor running Voltage interrupt

0x4F28
0x4F29
0x4F2A
unused
0x4F2E
0x4F2F
0x4F30
0x4F31
0x4F32
0x4F33
0x4F34
0x4F35
0x4F36
0x4F37
0x4F38

20265

Voltage status

20266
20267 20268... 20270

CB monitoring alarm 1 CB monitoring alarm 2
unused

20271

Digital input 1

20272

Digital input 2

20273

Digital input 3

20274

Digital input 4

20275

Digital input 5

20276

Digital input 6

20277

Digital input 7

20278

Digital input 8

20279

Digital input 9

20280

Digital input 10

20281

Digital input 11

Re- Wr- Data ad ite type

Value

Open=0;Close=1; 1 0 Enum Undef=2
Open=0;Close=1; 1 0 Enum Undef=2
Open=0;Close=1; 1 0 Enum Undef=2
Open=0;Close=1; 1 0 Enum Undef=2
Open=0;Close=1; 1 0 Enum Undef=2
Open=0;Close=1; 1 0 Enum Undef=2

1

0 Bool Remote=0;LOCAL=1

1

0 Bool Off=0;On=1

Normal=0;Test=1;Test 1 0 Enum Block=2

1

0 UInt16 0;1

1

0 UInt16 0;1

1

0 Bool Low=0;ok=1

OK=0;Low=1;High=2;

Low/High=3;(OK)=4;

(Low)=5;(High)=6;

1

0 Enum (Low)/High=7

1

0 Bool 0;1

1

0 Bool 0;1

1

0 Bool 0;1

1

0 Bool 0;1

1

0 Bool 0;1

1

0 Bool 0;1

1

0 Bool 0;1

1

0 Bool 0;1

1

0 Bool 0;1

1

0 Bool 0;1

1

0 Bool 0;1

1

0 Bool 0;1

1

0 Bool 0;1

P5-

Unit

U20 LPC-
T

P5 U20

P5 V20

P5 F30

P5 M30

LPVT































































































































































































































188

P5/EN M/33B

Communication protocols

First Register Address
0x4F39
0x4F3A
0x4F3B
0x4F3C
0x4F3D
0x4F3E
0x4F3F
0x4F40
0x4F41
0x4F42
0x4F43
0x4F44
0x4F45
0x4F46
0x4F47
0x4F48
0x4F49
0x4F4A
0x4F4B
0x4F4C
0x4F4D
0x4F4E
0x4F4F
0x4F50
0x4F51
0x4F52
0x4F53
0x4F54

Register Number

Description

20282 20283 20284 20285 20286 20287 20288 20289 20290 20291 20292 20293 20294 20295 20296 20297 20298 20299 20300 20301 20302 20303 20304 20305 20306 20307 20308 20309

Digital input 12 Digital input 13 Digital input 14 Digital input 15 Digital input 16 Digital input 17 Digital input 18 Digital input 19 Digital input 20 Digital input 21 Digital input 22 Digital input 23 Digital input 24 Digital input 25 Digital input 26 Digital input 27 Digital input 28 Digital input 29 Digital input 30 Digital input 31 Digital input 32 Digital input 33 Digital input 34 Digital input 35 Digital input 36 Digital input 37 Digital input 38 Digital input 39

Re- Wr- Data ad ite type

1

0 Bool 0;1

1

0 Bool 0;1

1

0 Bool 0;1

1

0 Bool 0;1

1

0 Bool 0;1

1

0 Bool 0;1

1

0 Bool 0;1

1

0 Bool 0;1

1

0 Bool 0;1

1

0 Bool 0;1

1

0 Bool 0;1

1

0 Bool 0;1

1

0 Bool 0;1

1

0 Bool 0;1

1

0 Bool 0;1

1

0 Bool 0;1

1

0 Bool 0;1

1

0 Bool 0;1

1

0 Bool 0;1

1

0 Bool 0;1

1

0 Bool 0;1

1

0 Bool 0;1

1

0 Bool 0;1

1

0 Bool 0;1

1

0 Bool 0;1

1

0 Bool 0;1

1

0 Bool 0;1

1

0 Bool 0;1

Value

P5/EN M/33B

P5-

Unit

U20 LPC-
T

P5 U20

P5 V20

P5 F30

P5 M30

LPVT













































































189

Communication protocols

First Register Address

Register Number

Description

Re- Wr- Data ad ite type

Value

0x4F55

20310

Digital input 40

1

0 Bool 0;1

0x4F56

20311

Arc Io state

1

0 Bool 0;1

0x4F57

20312

Arc I state

1

0 Bool 0;1

0x4F58

20313

Arc stage 1

1

0 Bool 0;1

0x4F59

20314

Arc stage 2

1

0 Bool 0;1

0x4F5A

20315

Arc stage 3

1

0 Bool 0;1

0x4F5B

20316

Arc stage 4

1

0 Bool 0;1

0x4F5C

20317

Arc stage 5

1

0 Bool 0;1

0x4F5D

20318

Arc stage 6

1

0 Bool 0;1

0x4F5E

20319

Arc stage 7

1

0 Bool 0;1

0x4F5F

20320

Arc stage 8

1

0 Bool 0;1

0x4- 20321...F60 20326
Arc sensor status 1

OK=1;Active=2;Not conn=3;Shrt circ=4; Daylight=5;Not Inst.=6; 0 Enum Null=0

unused

20327...

20330

unused

0x4F6A

20331

Logic output status 1

1

0 Bool 0;1

0x4F6B

20332

Logic output status 2

1

0 Bool 0;1

0x4F6C

20333

Logic output status 3

1

0 Bool 0;1

0x4F6D

20334

Logic output status 4

1

0 Bool 0;1

0x4F6E

20335

Logic output status 5

1

0 Bool 0;1

0x4F6F

20336

Logic output status 6

1

0 Bool 0;1

0x4F70

20337

Logic output status 7

1

0 Bool 0;1

0x4F71

20338

Logic output status 8

1

0 Bool 0;1

0x4F72

20339

Logic output status 9

1

0 Bool 0;1

0x4F73

20340

Logic output status 10

1

0 Bool 0;1

0x4F74

20341

Logic output status 11

1

0 Bool 0;1

0x4F75

20342

Logic output status 12

1

0 Bool 0;1

0x4F76

20343

Logic output status 13

1

0 Bool 0;1

0x4F77

20344

Logic output status 14

1

0 Bool 0;1

P5-

Unit

U20 LPC-
T

P5 U20

P5 V20

P5 F30

P5 M30

LPVT





























































































































































































190

P5/EN M/33B

Communication protocols

First Register Address

Register Number

Description

Re- Wr- Data ad ite type

0x4F78

20345

Logic output status 15

1

0 Bool 0;1

0x4F79

20346

Logic output status 16

1

0 Bool 0;1

0x4F7A

20347

Logic output status 17

1

0 Bool 0;1

0x4F7B

20348

Logic output status 18

1

0 Bool 0;1

0x4F7C

20349

Logic output status 19

1

0 Bool 0;1

0x4F7D

20350

Logic output status 20

1

0 Bool 0;1

0x4F7E

20351

Virtual output 1

1

0 Bool 0;1

0x4F7F

20352

Virtual output 2

1

0 Bool 0;1

0x4F80

20353

Virtual output 3

1

0 Bool 0;1

0x4F81

20354

Virtual output 4

1

0 Bool 0;1

0x4F82

20355

Virtual output 5

1

0 Bool 0;1

0x4F83

20356

Virtual output 6

1

0 Bool 0;1

0x4F84

20357

Virtual output 7

1

0 Bool 0;1

0x4F85

20358

Virtual output 8

1

0 Bool 0;1

0x4F86

20359

Virtual output 9

1

0 Bool 0;1

0x4F87

20360

Virtual output 10 1

0 Bool 0;1

0x4F88

20361

Virtual output 11

1

0 Bool 0;1

0x4F89

20362

Virtual output 12 1

0 Bool 0;1

0x4F8A

20363

Virtual output 13 1

0 Bool 0;1

0x4F8B

20364

Virtual output 14 1

0 Bool 0;1

0x4F8C

20365

Virtual output 15 1

0 Bool 0;1

0x4F8D

20366

Virtual output 16 1

0 Bool 0;1

0x4F8E

20367

Virtual output 17 1

0 Bool 0;1

0x4F8F

20368

Virtual output 18 1

0 Bool 0;1

0x4F90

20369

Virtual output 19 1

0 Bool 0;1

0x4F91

20370

Virtual output 20 1

0 Bool 0;1

0x4F92

20371

Virtual input 1

1

0 Bool 0;1

0x4F93

20372

Virtual input 2

1

0 Bool 0;1

Value

P5/EN M/33B

P5-

Unit

U20 LPC-
T

P5 U20

P5 V20

P5 F30

P5 M30

LPVT

























































































































































































































































































191

First Register Address
0x4F94
0x4F95
0x4F96
0x4F97
0x4F98
0x4F99
0x4F9A
0x4F9B
0x4F9C
0x4F9D
0x4F9E
0x4F9F
0x4FA0
0x4FA1
0x4FA2
0x4FA3
0x4FA4
0x4FA5
unused
0x4FB0
0x4FB1
0x4FB2
0x4FB3
0x4FB4
0x4FB5
0x4FB6
0x4FB7
0x4FB8

Register Number

Description

20373

Virtual input 3

20374

Virtual input 4

20375

Virtual input 5

20376

Virtual input 6

20377

Virtual input 7

20378

Virtual input 8

20379

Virtual input 9

20380

Virtual input 10

20381

Virtual input 11

20382

Virtual input 12

20383

Virtual input 13

20384

Virtual input 14

20385

Virtual input 15

20386

Virtual input 16

20387

Virtual input 17

20388

Virtual input 18

20389

Virtual input 19

20390
20391... 20400

Virtual input 20 unused

20401

External DI1

20402 20403

External DI2 External DI3

20404 20405

External DI4 External DI5

20406 20407

External DI6 External DI7

20408 20409

External DI8 External DI9

Re- Wr- Data ad ite type

1

0 Bool 0;1

1

0 Bool 0;1

1

0 Bool 0;1

1

0 Bool 0;1

1

0 Bool 0;1

1

0 Bool 0;1

1

0 Bool 0;1

1

0 Bool 0;1

1

0 Bool 0;1

1

0 Bool 0;1

1

0 Bool 0;1

1

0 Bool 0;1

1

0 Bool 0;1

1

0 Bool 0;1

1

0 Bool 0;1

1

0 Bool 0;1

1

0 Bool 0;1

1

0 Bool 0;1

1

0 Bool 0;1

1

0 Bool 0;1

1

0 Bool 0;1

1

0 Bool 0;1

1

0 Bool 0;1

1

0 Bool 0;1

1

0 Bool 0;1

1

0 Bool 0;1

1

0 Bool 0;1

Value

192

Communication protocols

P5-

Unit

U20 LPC-
T

P5 U20

P5 V20

P5 F30

P5 M30

LPVT















































































































































































































































































P5/EN M/33B

Communication protocols

First Register Address
0x4FB9
0x4FBA
0x4FBB
0x4FBC
0x4FBD
0x4FBE
0x4FBF
0x4FC0
0x4FC1
0x4FC2
0x4FC3
0x4FC4
0x4FC5
0x4FC6
0x4FC7
unused
0x5014
0x5015
0x5016
0x5017
0x5018
0x5019
0x501A
0x501B
0x501C
0x501D
0x501E
0x501F

Register Number

Description

20410

External DI10

20411 20412

External DI11 External DI12

20413 20414

External DI13 External DI14

20415 20416

External DI15 External DI16

20417

External DI17

20418 20419

External DI18
Port 1 status (Slot M)

20420

Port 2 status (Slot M)

20421

Port 1 status (Slot L)

20422

Port 2 status (Slot L)

20423

Port 1 status (Slot M&N )

20424

Port 2 status (Slot M&N)

20425...

20500

unused

20501 20502 20503

Inrush detection I> status I>> status

20504

I>>> status

20505 20506

SOTF status I> status

20507

I>> status

20508

I>>> status

20509

I>>>> status

20510

P< status

20511 20512

P<< status I< status

Re- Wr- Data ad ite type

Value

1

0 Bool 0;1

1

0 Bool 0;1

1

0 Bool 0;1

1

0 Bool 0;1

1

0 Bool 0;1

1

0 Bool 0;1

1

0 Bool 0;1

1

0 Bool 0;1

1

0 Bool 0;1

1

0 Bool Link off=0;Link on=1

1

0 Bool Link off=0;Link on=1

1

0 Bool Link off=0;Link on=1

1

0 Bool Link off=0;Link on=1

1

0 Bool Link off=0;Link on=1

1

0 Bool Link off=0;Link on=1

1

0 Enum Start=1;Timeout=2

Start=1;Trip=2; 1 0 Enum Blocked=3

Start=1;Trip=2; 1 0 Enum Blocked=3

Start=1;Trip=2; 1 0 Enum Blocked=3

1

0 Enum Trip=2;Blocked=3

Start=1;Trip=2; 1 0 Enum Blocked=3

Start=1;Trip=2; 1 0 Enum Blocked=3

Start=1;Trip=2; 1 0 Enum Blocked=3

Start=1;Trip=2; 1 0 Enum Blocked=3

Start=1;Trip=2; 1 0 Enum Blocked=3

Start=1;Trip=2; 1 0 Enum Blocked=3

Start=1;Trip=2; 1 0 Enum Blocked=3

P5-

Unit

U20 LPC-
T

P5 U20

P5 V20

P5 F30

P5 M30

LPVT











































































































































































          


P5/EN M/33B

193

Communication protocols

First Register Address
0x5020
0x5021
0x5022
0x5023
0x5024
0x5025
0x5026
0x5027
0x5028
0x5029
0x502A
0x502B
0x502C
0x502D
0x502E
0x502F
0x5030
0x5031
0x5032
0x5033
0x5034
0x5035
0x5036
0x5037
0x5038
0x5039
0x503A
0x503B

Register Number

Description

20513 20514 20515 20516 20517 20518 20519 20520 20521 20522 20523 20524 20525 20526 20527 20528 20529 20530 20531 20532 20533 20534 20535 20536 20537 20538 20539 20540

I2/I1> status I2> status Ist> status Ilr> status N> status Overload status (Motor Overload status (Feeder) Io> status Io>> status Io>>> status Io>>>> status Io>>>>> status Io> status Io>> status Io>>> status IoUo> status IoUo>> status U> status U>> status U>>> status U< status U<< status U<<< status U1< status U1<< status Uo> status Uo>> status Uo>>> status

Re- Wr- Data ad ite type

Value

Start=1;Trip=2; 1 0 Enum Blocked=3
Start=1;Trip=2; 1 0 Enum Blocked=3

Start=1;Trip=2; 1 0 Enum Blocked=3

Start=1;Trip=2; 1 0 Enum Blocked=3

Enabled=0;OneLeft=1;

1

0 Enum Disabled=2;Blocked=3

Alarm=1;Trip=2; 1 0 Enum Blocked=3

Alarm=1;Trip=2; 1 0 Enum Blocked=3

Start=1;Trip=2; 1 0 Enum Blocked=3

Start=1;Trip=2; 1 0 Enum Blocked=3
Start=1;Trip=2; 1 0 Enum Blocked=3

Start=1;Trip=2; 1 0 Enum Blocked=3

Start=1;Trip=2; 1 0 Enum Blocked=3

Start=1;Trip=2; 1 0 Enum Blocked=3

Start=1;Trip=2; 1 0 Enum Blocked=3

Start=1;Trip=2; 1 0 Enum Blocked=3
Start=1;Trip=2; 1 0 Enum Blocked=3

Start=1;Trip=2; 1 0 Enum Blocked=3

Start=1;Trip=2; 1 0 Enum Blocked=3

Start=1;Trip=2; 1 0 Enum Blocked=3

Start=1;Trip=2; 1 0 Enum Blocked=3
Start=1;Trip=2; 1 0 Enum Blocked=3

Start=1;Trip=2; 1 0 Enum Blocked=3

Start=1;Trip=2; 1 0 Enum Blocked=3

Start=1;Trip=2; 1 0 Enum Blocked=3

Start=1;Trip=2; 1 0 Enum Blocked=3
Start=1;Trip=2; 1 0 Enum Blocked=3
Start=1;Trip=2; 1 0 Enum Blocked=3

Start=1;Trip=2; 1 0 Enum Blocked=3

P5-

Unit

U20 LPC-
T

P5 U20

P5 V20

P5 F30

P5 M30

LPVT





























































































































































































194

P5/EN M/33B

Communication protocols

First Register Address
0x503C
0x503D
0x503E
0x503F
0x5040
0x5041
unused
0x5043
0x5044
0x5045
0x5046
0x5047
0x5048
0x5049
0x504A
0x504B
0x504C
unused
0x504F
0x5050
0x5051
unused
0x5053
0x5054
0x5055
unused
0x5057
0x5058

Register Number

Description

20541

fX status

20542

fXX status

20543

f< status

20544

f<< status

20545

CBF fail 1 status

20546

CBF fail 2 status

20547

unused

20548 20549 20550

Ih5> status
CT supervisor status
VT supervisor status

20551

Io'> status

20552

Io'>> status

20553

Io'>>> status

20554

Uc> status

20555

df/dt> status

20556

df/dt>> status

20557
20558... 20559

IoInt> status unused

20560

Motor status

20561

SOL1 Status

20562

SOL2 Status

20563

unused

20564

YN> status

20565

GN> status

20566 20567

BN> status unused

20568

YN>> status

20569

GN>> status

Re- Wr- Data ad ite type

Value

Start=1;Trip=2; 1 0 Enum Blocked=3
Start=1;Trip=2; 1 0 Enum Blocked=3
Start=1;Trip=2; 1 0 Enum Blocked=3
Start=1;Trip=2; 1 0 Enum Blocked=3

1

0 Enum Trip=1

1

0 Enum Trip=1

Start=1;Trip=2; 1 0 Enum Blocked=3
Fast Alarm=1;Alarm=2; 1 0 Enum Blocked=3
Fast Alarm=1;Alarm=2; 1 0 Enum Blocked=3
Start=1;Trip=2; 1 0 Enum Blocked=3
Start=1;Trip=2; 1 0 Enum Blocked=3
Start=1;Trip=2; 1 0 Enum Blocked=3
Start=1;Trip=2; 1 0 Enum Blocked=3
Start=1;Trip=2; 1 0 Enum Blocked=3
Start=1;Trip=2; 1 0 Enum Blocked=3
Start=1;Trip=2; 1 0 Enum Blocked=3

Stopped=0;Starting=1;

1

0 Enum Running=2

1

0 Enum Trip=1

1

0 Enum Trip=1

Start=1;Trip=2; 1 0 Enum Blocked=3
Start=1;Trip=2; 1 0 Enum Blocked=3
Start=1;Trip=2; 1 0 Enum Blocked=3

Start=1;Trip=2; 1 0 Enum Blocked=3
Start=1;Trip=2; 1 0 Enum Blocked=3

P5-

Unit

U20 LPC-
T

P5 U20

P5 V20

P5 F30

P5 M30

LPVT



















































































































  
  
 

P5/EN M/33B

195

First Register Address

Register Number

Description

Re- Wr- Data ad ite type

Value

0x5059

20570

BN>> status

Start=1;Trip=2; 1 0 Enum Blocked=3

0x505A

20571

U2> status

Start=1;Trip=2; 1 0 Enum Blocked=3

0x505B

20572

U2>> status

Start=1;Trip=2; 1 0 Enum Blocked=3

0x505C

20573

> status

Start=1;Trip=2; 1 0 Enum Blocked=3

0x505D

20574

>> status

Start=1;Trip=2; 1 0 Enum Blocked=3

0x505E

20575

< status

Start=1;Trip=2; 1 0 Enum Blocked=3

0x505F

20576

<< status

Start=1;Trip=2; 1 0 Enum Blocked=3

0x5060

20577

Anti-backspin status

1

0 Enum Alarm=2;Blocked=3

0x5061

20578

Cold load pickup 1

0 Enum Start=1;Timeout=2

unused

20579...

20584

unused

0x5068

20585

Programmable stage 1 status

Start=1;Trip=2; 1 0 Enum Blocked=3

0x5069

20586

Programmable stage 2 status

Start=1;Trip=2; 1 0 Enum Blocked=3

0x506A

20587

Programmable stage 3 status

Start=1;Trip=2; 1 0 Enum Blocked=3

0x506B

20588

Programmable stage 4 status

Start=1;Trip=2; 1 0 Enum Blocked=3

0x506C

20589

Programmable stage 5 status

Start=1;Trip=2; 1 0 Enum Blocked=3

0x506D

20590

Programmable stage 6 status

Start=1;Trip=2; 1 0 Enum Blocked=3

0x506E

20591

Programmable stage 7 status

Start=1;Trip=2; 1 0 Enum Blocked=3

0x506F

20592

Programmable stage 8 status

Start=1;Trip=2; 1 0 Enum Blocked=3

0x5070

20593

GOOSE NI Global Error

1 0 Enum Error=1

0x5071

20594

Line 1 fault

1

0 Enum 0;1

0x5072

20595

Line 2 fault

1

0 Enum 0;1

0x5073

20596

Line 3 fault

1

0 Enum 0;1

0x5074

20597

Sync1 request

1

0 Enum 0;1

0x5075

20598

Sync1 OK

1

0 Enum 0;1

0x5076

20599

Bypass

1

0 Enum 0;1

0x5077

20600

Sync1 fail

1

0 Enum 0;1

unused

20601...

20700

unused

0x50DC

20701

Enable for Inrush 1

0 Bool Off=0;On=1

196

Communication protocols

P5-

Unit

U20 LPC-
T

P5 U20

P5 V20

P5 F30

P5 M30

LPVT





































































































































































































P5/EN M/33B

Communication protocols

First Register Address
0x50DD
0x50DE
0x50DF
0x50E0
0x50E1
0x50E2
0x50E3
0x50E4
0x50E5
0x50E6
0x50E7
0x50E8
0x50E9
0x50EA
0x50EB
0x50EC
0x50ED
0x50EE
0x50EF
0x50F0
0x50F1
0x50F2
0x50F3
0x50F4
0x50F5
0x50F6
0x50F7
0x50F8

Register Number

Description

Re- Wr- Data ad ite type

20702 20703 20704 20705 20706 20707 20708 20709 20710 20711 20712 20713 20714 20715 20716 20717 20718 20719 20720 20721 20722 20723 20724 20725 20726 20727 20728 20729

Enable for I>

1

Enable for I>>

1

Enable for I>>>

1

Enable for SOTF 1

Enable for I>

1

Enable for I>>

1

Enable for I>>> 1

Enable for

I>>>>

1

Enable for P<

1

Enable for P<<

1

Enable for I<

1

Enable for I2/I1> 1

Enable for I2>

1

Enable for Ist>

1

Enable for Ilr>

1

Enable for N>

1

Enable for Motor

T>

1

Enable for feeder

T>

1

Enable for Io>

1

Enable for Io>>

1

Enable for Io>>> 1

Enable for

Io>>>>

1

Enable for

Io>>>>>

1

Enable for Io>

1

Enable for Io>> 1

Enable for

Io>>>

1

Enable for IoUo> 1

Enable for

IoUo>>

1

0 Bool 0 Bool 0 Bool 0 Bool 0 Bool 0 Bool 0 Bool 0 Bool 0 Bool 0 Bool 0 Bool 0 Bool 0 Bool 0 Bool 0 Bool 0 Bool 0 Bool 0 Bool 0 Bool 0 Bool 0 Bool 0 Bool 0 Bool 0 Bool 0 Bool 0 Bool 0 Bool 0 Bool

Value
Off=0;On=1 Off=0;On=1 Off=0;On=1 Off=0;On=1 Off=0;On=1 Off=0;On=1 Off=0;On=1 Off=0;On=1 Off=0;On=1 Off=0;On=1 Off=0;On=1 Off=0;On=1 Off=0;On=1 Off=0;On=1 Off=0;On=1 Off=0;On=1 Off=0;On=1 Off=0;On=1 Off=0;On=1 Off=0;On=1 Off=0;On=1 Off=0;On=1 Off=0;On=1 Off=0;On=1 Off=0;On=1 Off=0;On=1 Off=0;On=1 Off=0;On=1

P5/EN M/33B

P5-

Unit

U20 LPC-
T

P5 U20

P5 V20

P5 F30

P5 M30

LPVT































































































  
  
           









197

First

Register Ad-

Register Number

Description

Read

dress

0x50F9

20730

Enable for U>

1

0x50FA

20731

Enable for U>>

1

0x50FB

20732

Enable for U>>> 1

0x50FC

20733

Enable for U<

1

0x50FD

20734

Enable for U<<

1

0x50FE

20735

Enable for U<<< 1

0x50FF

20736

Enable for U1<

1

0x5100

20737

Enable for U1<<

1

0x5101

20738

Enable for Uo>

1

0x5102

20739

Enable for Uo>>

1

0x5103

20740

Enable for Uo>>>

1

0x5104

20741

Enable for fX

1

0x5105

20742

Enable for fXX

1

0x5106

20743

Enable for f<

1

0x5107

20744

Enable for f<<

1

0x5108

20745

Enable for CB fail 1

0x5109

20746

Enable CBF timer1

1

0x510A

20747

Enable CBF timer2

1

0x510B

20748

Enable for Ih5>

1

0x510C

20749

Enable for CT supervision

1

0x510D

20750

Enable for VTS

1

0x510E

20751

Enable for Io'>

1

0x510F

20752

Enable for Io'>>

1

0x5110

20753

Enable for Io'>>> 1

0x5111

20754

Enable for Uc>

1

0x5112

20755

Enable for df/dt> 1

0x5113

20756

Enable for df/ dt>>

1

0x5114

20757

Enable for IoInt> 1

Wr- Data ite type
0 Bool 0 Bool 0 Bool 0 Bool 0 Bool 0 Bool 0 Bool 0 Bool 0 Bool 0 Bool 0 Bool 0 Bool 0 Bool 0 Bool 0 Bool 0 Bool 0 Bool 0 Bool 0 Bool 0 Bool 0 Bool 0 Bool 0 Bool 0 Bool 0 Bool 0 Bool 0 Bool 0 Bool

Value
Off=0;On=1 Off=0;On=1 Off=0;On=1 Off=0;On=1 Off=0;On=1 Off=0;On=1 Off=0;On=1 Off=0;On=1 Off=0;On=1 Off=0;On=1 Off=0;On=1 Off=0;On=1 Off=0;On=1 Off=0;On=1 Off=0;On=1 Off=0;On=1 Off=0;On=1 Off=0;On=1 Off=0;On=1 Off=0;On=1 Off=0;On=1 Off=0;On=1 Off=0;On=1 Off=0;On=1 Off=0;On=1 Off=0;On=1 Off=0;On=1 Off=0;On=1

198

Communication protocols

P5-

Unit

U20 LPC-
T

P5 U20

P5 V20

P5 F30

P5 M30

LPVT







































































































































































































P5/EN M/33B

Communication protocols

First Register Address

Register Number

Description

0x5115

20758

Enable for Synchro check 1

0x5116

20759

Enable for CB monitoring

0x5117

20760

Motor status

0x5118

20761

Enable for SOL

unused

20762

unused

0x511A

20763

Enable for Io/ Uo>

0x511B

20764

Enable for YN>

0x511C

20765

Enable for GN>

0x511D

20766

Enable for BN>

0x511E

20767

Enable for Io/ Uo>>

0x511F

20768

Enable for YN>>

0x5120

20769

Enable for GN>>

0x5121

20770

Enable for BN>>

0x5122

20771

Enable for U2>

0x5123

20772

Enable for U2>>

0x5124

20773

Enable for >

0x5125

20774

Enable for >>

0x5126

20775

Enable for <

0x5127

20776

Enable for <<

0x5128

20777

Enable motor anti-backspin

0x5129

20778

Enable for CLPU

unused

20779...

20784

unused

0x5130

20785

Enable AutoRecloser

unused

20786...

20900

unused

0x51A4

20901

release all latch status

0x51A5

20902

I> trip

0x51A6

20903

I>> trip

0x51A7

20904

I>>> trip

Re- Wr- Data ad ite type
1 0 Bool 1 0 Bool 1 0 Bool 1 0 Bool
1 0 Bool 1 0 Bool 1 0 Bool 1 0 Bool 1 0 Bool 1 0 Bool 1 0 Bool 1 0 Bool 1 0 Bool 1 0 Bool 1 0 Bool 1 0 Bool 1 0 Bool 1 0 Bool 1 0 Bool 1 0 Bool
1 0 Bool
1 1 Bool 1 1 Bool 1 1 Bool 1 1 Bool

Value
Off=0;On=1 Off=0;On=1 Off=0;On=1 Off=0;On=1
Off=0;On=1 Off=0;On=1 Off=0;On=1 Off=0;On=1 Off=0;On=1 Off=0;On=1 Off=0;On=1 Off=0;On=1 Off=0;On=1 Off=0;On=1 Off=0;On=1 Off=0;On=1 Off=0;On=1 Off=0;On=1 Off=0;On=1 Off=0;On=1
Off=0;On=1
Latch status: Off=0;On= 1 Latch status: Off=0;On= 1 Latch status: Off=0;On= 1 Latch status: Off=0;On= 1

P5-

Unit

U20 LPC-
T

P5 U20

P5 V20

P5 F30

P5 M30

LPVT



















 


 

 

 





















































 

































P5/EN M/33B

199

Communication protocols

First Register Address

Register Number

Description

Re- Wr- Data ad ite type

Value

P5-

Unit

U20 LPC-
T

P5 U20

P5 V20

P5 F30

P5 M30

LPVT

0x51A8

20905

SOTF trip

Latch status: Off=0;On= 1 1 Bool 1









0x51A9

20906

I> trip

Latch status: Off=0;On= 1 1 Bool 1







0x51AA

20907

I>> trip

Latch status: Off=0;On= 1 1 Bool 1







0x51AB

20908

I>>> trip

Latch status: Off=0;On= 1 1 Bool 1







0x51AC

20909

I>>>> trip

Latch status: Off=0;On= 1 1 Bool 1







0x51AD

20910

P< trip

Latch status: Off=0;On= 1 1 Bool 1







0x51AE

20911

P<< trip

Latch status: Off=0;On= 1 1 Bool 1







0x51AF

20912

I< trip

Latch status: Off=0;On= 1 1 Bool 1







0x51B0

20913

I2/I1 trip

Latch status: Off=0;On= 1 1 Bool 1









0x51B1

20914

I2> trip

Latch status: Off=0;On= 1 1 Bool 1









0x51B2

20915

Ist> trip

Latch status: Off=0;On= 1 1 Bool 1







0x51B3

20916

Locked rotor trip

1

1 Bool

Latch status: Off=0;On= 1







0x51B4

20917

N> motor start inhibition

Latch status: Off=0;On= 1 1 Bool 1







0x51B5

20918

Motor thermal trip

Latch status: Off=0;On= 1 1 Bool 1







0x51B6

20919

Motor thermal almVal

Latch status: Off=0;On= 1 1 Bool 1







0x51B7

20920

Motor thermal rsvAlm

Latch status: Off=0;On= 1 1 Bool 1







0x51B8

20921

Motor thermal tmpAlm

Latch status: Off=0;On= 1 1 Bool 1







0x51B9

20922

Block motor start 1

1 Bool

Latch status: Off=0;On= 1







0x51BA

20923

Motor TC1 activate

Latch status: Off=0;On= 1 1 Bool 1







0x51BB

20924

Motor TC2 activate

Latch status: Off=0;On= 1 1 Bool 1







0x51BC

20925

Feeder T> trip

Latch status: Off=0;On= 1 1 Bool 1







0x51BD

20926

Feeder thermal almVal

Latch status: Off=0;On= 1 1 Bool 1







0x51BE

20927

Feeder thermal rsvAlm

Latch status: Off=0;On= 1 1 Bool 1







0x51BF

20928

Feeder thermal tmpAlm

Latch status: Off=0;On= 1 1 Bool 1







0x51C0

20929

Io> trip

Latch status: Off=0;On= 1 1 Bool 1









0x51C1

20930

Io>> trip

Latch status: Off=0;On= 1 1 Bool 1









0x51C2

20931

Io>>> trip

Latch status: Off=0;On= 1 1 Bool 1









0x51C3

20932

Io>>>> trip

Latch status: Off=0;On= 1 1 Bool 1







200

P5/EN M/33B

Communication protocols

First Register Address
0x51C4
0x51C5
0x51C6
0x51C7
0x51C8
0x51C9
0x51CA
0x51CB
0x51CC
0x51CD
0x51CE
0x51CF
0x51D0
0x51D1
0x51D2
0x51D3
0x51D4
0x51D5
0x51D6
0x51D7
0x51D8
0x51D9
0x51DA
0x51DB
0x51DC
0x51DD
0x51DE
0x51DF

Register Number

Description

20933 20934 20935 20936 20937 20938 20939 20940 20941 20942 20943 20944 20945 20946 20947 20948 20949 20950 20951 20952 20953 20954 20955 20956 20957 20958 20959 20960

Io>>>>> trip Io> trip Io>> trip Io>>> trip IoUo> trip IoUo>> trip U> trip U>> trip U>>> trip U< trip U<< trip U<<< trip U1< trip U1<< trip Uo> trip Uo>> trip Uo>>> trip fX trip fXX trip f< trip f<< trip CBF1 trip CBF2 trip Ih5> trip Io'> trip Io'>> trip Io'>>> trip Uc> trip

Re- Wr- Data ad ite type

Value

Latch status: Off=0;On= 1 1 Bool 1
Latch status: Off=0;On= 1 1 Bool 1
Latch status: Off=0;On= 1 1 Bool 1
Latch status: Off=0;On= 1 1 Bool 1
Latch status: Off=0;On= 1 1 Bool 1
Latch status: Off=0;On= 1 1 Bool 1
Latch status: Off=0;On= 1 1 Bool 1
Latch status: Off=0;On= 1 1 Bool 1
Latch status: Off=0;On= 1 1 Bool 1
Latch status: Off=0;On= 1 1 Bool 1
Latch status: Off=0;On= 1 1 Bool 1
Latch status: Off=0;On= 1 1 Bool 1
Latch status: Off=0;On= 1 1 Bool 1
Latch status: Off=0;On= 1 1 Bool 1
Latch status: Off=0;On= 1 1 Bool 1
Latch status: Off=0;On= 1 1 Bool 1
Latch status: Off=0;On= 1 1 Bool 1
Latch status: Off=0;On= 1 1 Bool 1
Latch status: Off=0;On= 1 1 Bool 1
Latch status: Off=0;On= 1 1 Bool 1
Latch status: Off=0;On= 1 1 Bool 1
Latch status: Off=0;On= 1 1 Bool 1
Latch status: Off=0;On= 1 1 Bool 1
Latch status: Off=0;On= 1 1 Bool 1
Latch status: Off=0;On= 1 1 Bool 1
Latch status: Off=0;On= 1 1 Bool 1
Latch status: Off=0;On= 1 1 Bool 1
Latch status: Off=0;On= 1 1 Bool 1

P5-

Unit

U20 LPC-
T

P5 U20

P5 V20

P5 F30

P5 M30

LPVT















































































































































































P5/EN M/33B

201

Communication protocols

First Register Address

Register Number

Description

Re- Wr- Data ad ite type

Value

P5-

Unit

U20 LPC-
T

P5 U20

P5 V20

P5 F30

P5 M30

LPVT

0x51E0

20961

df/dt> trip

Latch status: Off=0;On= 1 1 Bool 1





0x51E1

20962

df/dt>> trip

Latch status: Off=0;On= 1 1 Bool 1





0x51E2

20963

Intermittent E/F trip

Latch status: Off=0;On= 1 1 Bool 1



0x51E3

20964

Synchro-check 1

request

1

1 Bool

Latch status: Off=0;On= 1





0x51E4

20965

Synchro-check 1

ok

1

1 Bool

Latch status: Off=0;On= 1





0x51E5

20966

Synchro-check 1

ok pulse

1

1 Bool

Latch status: Off=0;On= 1





0x51E6

20967

Synchro-check 1

fail

1

1 Bool

Latch status: Off=0;On= 1





0x51E7

20968

SOL1 trip

Latch status: Off=0;On= 1 1 Bool 1









0x51E8

20969

SOL2 trip

Latch status: Off=0;On= 1 1 Bool 1









0x51E9

20970

Io/UoYN> trip

Latch status: Off=0;On= 1 1 Bool 1





0x51EA

20971

Io/UoGN> trip

Latch status: Off=0;On= 1 1 Bool 1





0x51EB

20972

Io/UoBN> trip

Latch status: Off=0;On= 1 1 Bool 1





0x51EC

20973

Io/UoYN>> trip

Latch status: Off=0;On= 1 1 Bool 1





0x51ED

20974

Io/UoGN>> trip

Latch status: Off=0;On= 1 1 Bool 1





0x51EE

20975

Io/UoBN>> trip

Latch status: Off=0;On= 1 1 Bool 1





0x51EF

20976

U2> trip

Latch status: Off=0;On= 1 1 Bool 1









0x51F0

20977

U2>> trip

Latch status: Off=0;On= 1 1 Bool 1









0x51F1

20978

> trip

Latch status: Off=0;On= 1 1 Bool 1







0x51F2

20979

>> trip

Latch status: Off=0;On= 1 1 Bool 1







0x51F3

20980

< trip

Latch status: Off=0;On= 1 1 Bool 1







0x51F4

20981

<< trip

Latch status: Off=0;On= 1 1 Bool 1







unused

20982...

20987

unused

0x51FB

20988

Arc I

Latch status: Off=0;On= 1 1 Bool 1





0x51FC

20989

Arc Io

Latch status: Off=0;On= 1 1 Bool 1





0x51FD

20990

ARC stage 1

Latch status: Off=0;On= 1 1 Bool 1





0x51FE

20991

ARC stage 2

Latch status: Off=0;On= 1 1 Bool 1





0x51FF

20992

ARC stage 3

Latch status: Off=0;On= 1 1 Bool 1





0x5200

20993

ARC stage 4

Latch status: Off=0;On= 1 1 Bool 1





202

P5/EN M/33B

Communication protocols

First Register Address

Register Number

Description

Re- Wr- Data ad ite type

Value

P5-

Unit

U20 LPC-
T

P5 U20

P5 V20

P5 F30

P5 M30

LPVT

0x5201

20994

ARC stage 5

Latch status: Off=0;On= 1 1 Bool 1



0x5202

20995

ARC stage 6

Latch status: Off=0;On= 1 1 Bool 1



0x5203

20996

ARC stage 7

Latch status: Off=0;On= 1 1 Bool 1



0x5204

20997

ARC stage 8

Latch status: Off=0;On= 1 1 Bool 1



0x5205

20998

Prog. stage 1 trip 1

1 Bool

Latch status: Off=0;On= 1











0x5206

20999

Prog. stage 2 trip 1

1 Bool

Latch status: Off=0;On= 1











0x5207

21000

Prog. stage 3 trip 1

1 Bool

Latch status: Off=0;On= 1











0x5208

21001

Prog. stage 4 trip 1

1 Bool

Latch status: Off=0;On= 1











0x5209

21002

Prog. stage 5 trip 1

1 Bool

Latch status: Off=0;On= 1











0x520A

21003

Prog. stage 6 trip 1

1 Bool

Latch status: Off=0;On= 1











0x520B

21004

Prog. stage 7 trip 1

1 Bool

Latch status: Off=0;On= 1











0x520C

21005

Prog. stage 8 trip 1

1 Bool

Latch status: Off=0;On= 1











0x520D

21006

CB Open_DI1

Latch status: Off=0;On= 1 1 Bool 1











0x520E

21007

CB Close_DI2

Latch status: Off=0;On= 1 1 Bool 1











0x520F

21008

AR1 final trip

Latch status: Off=0;On= 1 1 Bool 1







0x5210

21009

AR2 final trip

Latch status: Off=0;On= 1 1 Bool 1







0x5211

21010

AR3 final trip

Latch status: Off=0;On= 1 1 Bool 1







0x5212

21011

AR4 final trip

Latch status: Off=0;On= 1 1 Bool 1







0x5213

21012

Direct final trip

Latch status: Off=0;On= 1 1 Bool 1







0x5214

21013

Shot 1 active

Latch status: Off=0;On= 1 1 Bool 1







0x5215

21014

Shot 2 active

Latch status: Off=0;On= 1 1 Bool 1







0x5216

21015

Shot 3 active

Latch status: Off=0;On= 1 1 Bool 1







0x5217

21016

Shot 4 active

Latch status: Off=0;On= 1 1 Bool 1







0x5218

21017

Shot 5 active

Latch status: Off=0;On= 1 1 Bool 1







0x5219

21018

Object 1 final trip 1

1 Bool

Latch status: Off=0;On= 1











0x521A

21019

Object 2 final trip 1

1 Bool

Latch status: Off=0;On= 1











0x521B

21020

Object 3 final trip 1

1 Bool

Latch status: Off=0;On= 1











0x521C

21021

Object 4 final trip 1

1 Bool

Latch status: Off=0;On= 1











P5/EN M/33B

203

Communication protocols

First Register Address

Register Number

Description

Re- Wr- Data ad ite type

Value

P5-

Unit

U20 LPC-
T

P5 U20

P5 V20

P5 F30

P5 M30

LPVT

0x521D

21022

Object 5 final trip 1

1 Bool

Latch status: Off=0;On= 1











0x521E

21023

Object 6 final trip 1

1 Bool

Latch status: Off=0;On= 1











0x521F

21024

Object failure

Latch status: Off=0;On= 1 1 Bool 1











0x5220

21025

Incomer fault locator

Latch status: Off=0;On= 1 1 Bool 1



0x5221

21026

Overcurrent alarm

Latch status: Off=0;On= 1 1 Bool 1









0x5222

21027

Overcurrent trip

Latch status: Off=0;On= 1 1 Bool 1









0x5223

21028

Earth Fault alarm 1

1 Bool

Latch status: Off=0;On= 1









0x5224

21029

Earth Fault trip

Latch status: Off=0;On= 1 1 Bool 1









0x5225

21030

Line 1 fault

Latch status: Off=0;On= 1 1 Bool 1









0x5226

21031

Line 2 fault

Latch status: Off=0;On= 1 1 Bool 1









0x5227

21032

Line 3 fault

Latch status: Off=0;On= 1 1 Bool 1









0x5228

21033

GOOSE NI Global Error

Latch status: Off=0;On= 1 1 Bool 1











0x5229

21034

Global trip

Latch status: Off=0;On= 1 1 Bool 1











unused

21035...

21100

unused

0x526C

21101

CT primary (In)

1 0 UInt16

A







0x526D

21102

CT secondary

1 0 UInt16

A







0x52- 21103...- Nominal current

floa-

6E

21104

(In)

1 0 t32

A







0x5270

21105

LPCT rated primary current (Ipr)

1 0 UInt16

A 





0.25=0;0.5=1;1=2;1.25=

3;1.33=4;2=5;2.5=

0x5271

21106

Current factor

6;3.2=7;4=8;5=9;6.3= 10;6.66=11;10=12;16=

13;20=14;25=15;31.5=

1 0 Enum 16







0x5272

21107

Earth fault CT primary

1 0 UInt16

A







0x52- 21108...- Earth fault CT

73

21109

secondary

floa1 0 t32

A







0x52- 21110...- Io primary CSH

75

21111

rate

1 0 UInt32

A









0x52- 21112...-

77

21113

Io secondary

floa1 0 t32

A









0x52- 21114...- Earth fault input

floa-

79

21115

(CSH)

1 0 t32

A









0x527B

21116

Earth fault CT' primary

1 0 UInt16

A







0x52- 21117...- Earth fault CT'

7C

21118

secondary

floa1 0 t32

A







204

P5/EN M/33B

Communication protocols

First Register Address

Register Number

Description

Re- Wr- Data ad ite type

Value

P5-

Unit

U20 LPC-
T

P5 U20

P5 V20

P5 F30

P5 M30

LPVT

0x52- 21119...-

floa-

7E

21120

VT primary (Un)

1

0 t32

V







0x52- 21121...- Nominal voltage

floa-

80

21122

(Un)

1 0 t32

V





0x52- 21123...- LPVT or VT rated

82

21124

primary voltage

1

floa0 t32

V





0x5284

21125

VT secondary

1 0 UInt16

V







0x5285

21126

VTy secondary

1 0 UInt16

V





0x52- 21127...-

86

21128

VTo primary

floa1 0 t32

V







0x52- 21129...-

88

21130

VTo secondary

1 0 UInt32

V







0x52- 21131...-

8A

21132

Voltage factor

floa1 0 t32





0x528C

21133

Phase rotation

1

0 Enum 1-2-3=0;1-3-2=1











0x528D

21134

Voltage measurement mode

2LL+Uo=0;3LN=1;1LL

+Uo/LLy=2;2LL/LLy=3;

LL/LLy/LLz=4;1LL=

5;1LN=6;3LL=8;3LN/

LNy=9;3LN/LLy=10;2LL

+Uo/LNy=11;2LL+Uo

+LLy=12;3LN+Uo=13;

LL+Uo/y/z=14;LN+Uo/y/

z=15;LL/LLy=16;3LN/

1

0 Enum 2LNy=17









0x528E

21135

Nominal frequency

1 0 UInt16

Hz











0x528F

21136

Power direction

1

0 Enum Outgoing=0;Incoming=1





0x5290

21137

Number of

connected phase

CT

1

0 Enum I1/I2/I3=0;I1/I3=1





0x52- 21138...- VL1 magnitude

91

21139

correction

floa1 0 t32





0x52- 21140...- VL2 magnitude

93

21141

correction

floa1 0 t32





0x52- 21142...- VL3 magnitude

95

21143

correction

floa1 0 t32





0x52- 21144...- VL1 angle

97

21145

correction

floa1 0 t32

°





0x52- 21146...- VL2 angle

99

21147

correction

floa1 0 t32

°





0x52- 21148...- VL3 angle

9B

21149

correction

floa1 0 t32

°





0x52- 21150...- VL1y magnitude

floa-

9D

21151

correction

1 0 t32





0x52- 21152...- VL1y angle

9F

21153

correction

floa1 0 t32

°





0x52- 21154...- VL2y magnitude

floa-

A1

21155

correction

1 0 t32





0x52- 21156...- VL2y angle

A3

21157

correction

floa1 0 t32

°





0x52A5

21158

VT type

1

0 Enum VT+Adapter=0;LPVT=1





0x52A6

21159

VT secondary

1 0 UInt16 valid in LPCT/LPVT

V







P5/EN M/33B

205

First Register Address

Register Number

Description

Re- Wr- Data ad ite type

Value

0x52- 21160...- VL1 adapter mag

A7

21161

correction

1

floa0 t32

0x52- 21162...- VL2 adapter mag

A9

21163

correction

1

floa0 t32

0x52- 21164...- VL3 adapter mag

AB

21165

correction

1

floa0 t32

0x52AD

21166

VTy secondary

1 0 UInt16 valid in LPCT/LPVT

0x52- 21167...- VL1y adapter

AE

21168

mag correction

floa1 0 t32

0x52B0

21169

VTo secondary

1 0 UInt16 valid in LPCT/LPVT

0x52- 21170...- Uo adapter mag

floa-

B1

21171

correction

1 0 t32

unused

21172...-

21350

unused

0x53- 21351...- Phase-to-earth

66

21352

voltage VL1

floa1 0 t32

0x53- 21353...- Phase-to-earth

68

21354

voltage VL2

floa1 0 t32

0x53- 21355...- Phase-to-earth

6A

21356

voltage VL3

floa1 0 t32

0x53- 21357...- Phase-to-Phase

floa-

6C

21358

voltage U12

1 0 t32

0x53- 21359...- Phase-to-Phase

floa-

6E

21360

voltage U23

1 0 t32

0x53- 21361...- Phase-to-Phase

floa-

70

21362

voltage U31

1 0 t32

0x53- 21363...- Phase current

72

21364

IL1

floa1 0 t32

0x53- 21365...- Phase current

74

21366

IL2

floa1 0 t32

0x53- 21367...- Phase current

76

21368

IL3

floa1 0 t32

0x53- 21369...- Io residual

78

21370

current

floa1 0 t32

0x53- 21371...- Io' residual

7A

21372

current

floa1 0 t32

0x53- 21373...- Io CSH residual

floa-

7C

21374

current

1 0 t32

0x53- 21375...-

7E

21376

Power factor

floa1 0 t32

0x53- 21377...-

80

21378

Frequency

floa1 0 t32

0x53- 21379...-

82

21380

Active power

floa1 0 t32

0x53- 21381...-

84

21382

Reactive power

floa1 0 t32

0x53- 21383...-

floa-

86

21384

Apparent power

1

0 t32

0x53- 21385...- Phase L1 active

floa-

88

21386

power

1 0 t32

0x53- 21387...- Phase L2 active

floa-

8A

21388

power

1 0 t32

0x53- 21389...- Phase L3 active

floa-

8C

21390

power

1 0 t32

206

Communication protocols

P5-

Unit

U20 LPC-
T

P5 U20

P5 V20

P5 F30

P5 M30

LPVT













 V











 V

















V









V 







V









V









V









V









A









A









A









A







A







A















Hz











kW







kvar







kVA







kW







kW







kW







P5/EN M/33B

Communication protocols

First Register Address
0x538E
0x5390
0x5392
0x5394
0x5396
0x5398
unused
0x539E
0x53A0
0x53A2
0x53A4
0x53A5
0x53A7
0x53A9
0x53AB
0x53AD
0x53AF
0x53B1
0x53B3
0x53B5
0x53B7
0x53B9
0x53BB
0x53BD
0x53BF
0x53C1
0x53C3

Register Number

Description

Read

21391...- Phase L1

21392

reactive power

1

21393...- Phase L2

21394

reactive power

1

21395...- Phase L3

21396

reactive power

1

21397...- Phase L1

21398

apparent power

1

21399...- Phase L2

21400

apparent power

1

21401...- Phase L3

21402

apparent power

1

21403...-

21406

unused

21407...- Positive

21408

sequence I1

1

21409...- Negative

21410

sequence I2

1

21411...-

21412

Current ratio I2/I1 1

21413

Current phase sequence

1

21414...- Phase current

21415

THD

1

21416...- Phase current

21417

IL1 THD

1

21418...- Phase current

21419

IL2 THD

1

21420...- Phase current

21421

IL3 THD

1

21422...-

21423

Phase current IL 1

21424...-

21425

Residual voltage 1

21426...-

21427

Tangent 

1

21428...- Phase current

21429

ILrms

1

21430...- Phase current

21431

IL1rms

1

21432...- Phase current

21433

IL2rms

1

21434...- Phase current

21435

IL3rms

1

21436...21437

Ambient temperature

1

21438...- Positive

21439

sequence U1

1

21440...- Negative

21441

sequence U2

1

21442...-

21443

Voltage U2/U1

1

21444

Voltage phase sequence

1

Wr- Data ite type
floa0 t32
floa0 t32
floa0 t32
floa0 t32
floa0 t32
floa0 t32
floa0 t32
floa0 t32
floa0 t32
0 Enum floa-
0 t32 floa-
0 t32 floa-
0 t32 floa-
0 t32 floa-
0 t32 floa-
0 t32 floa-
0 t32 floa-
0 t32 floa-
0 t32 floa-
0 t32 floa-
0 t32
0 Int32
floa0 t32
floa0 t32
floa0 t32
0 Enum

Value
??=0;OK=1;Reverse=2
Unit of this value is match with RTD unit configured value. ??=0;OK=1;Reverse=2

P5-

Unit

U20 LPC-
T

P5 U20

P5 V20

P5 F30

P5 M30

LPVT

kvar





kvar





kvar





kVA





kVA





kVA





A



A



%





%



%



%



%



A



%





A



A



A



A



°C / °F 

V



V



%





























































































P5/EN M/33B

207

Communication protocols

First Register Address

Register Number

Description

Re- Wr- Data ad ite type

Value

0x53- 21445...-

C4

21446

Voltage THD

floa1 0 t32

0x53- 21447...- Phase-Earth VL1

C6

21448

THD

1

floa0 t32

0x53- 21449...- Phase-Earth VL2

C8

21450

THD

1

floa0 t32

0x53- 21451...- Phase-Earth VL3

CA

21452

THD

1

floa0 t32

0x53- 21453...- Phase-Earth

CC

21454

voltage VL1RMS 1

floa0 t32

0x53- 21455...- Phase-Earth

CE

21456

voltage VL2RMS 1

floa0 t32

0x53- 21457...- Phase-Earth

D0

21458

voltage VL3RMS 1

floa0 t32

0x53- 21459...-

D2

21460

Cos

floa1 0 t32

unused

21461...

21462

unused

0x53D6

21463

Power angle

1 0 Int16

unused

21464

unused

0x53- 21465...- RMS active

D8

21466

power

floa1 0 t32

0x53- 21467...- RMS reactive

DA

21468

power

floa1 0 t32

0x53- 21469...- RMS apparent

DC

21470

power

floa1 0 t32

0x53- 21471...- Cos of phase

DE

21472

L1

floa1 0 t32

0x53- 21473...- Cos of phase

E0

21474

L2

floa1 0 t32

0x53- 21475...- Cos of phase

E2

21476

L3

floa1 0 t32

0x53- 21477...-

E4

21478

Frequency fy

floa1 0 t32

0x53- 21479...- Phase-to-Phase

floa-

E6

21480

voltage U12y

1 0 t32

0x53- 21481...- Phase angle

E8

21482

difference

floa1 0 t32

0x53- 21483...- Earth fault

EA

21484

calculated

floa1 0 t32

0x53EC

21485

Algorithm condition

OK=0;NegX=1;BigX=2;

Long fault=3;No DI=4;

No pre-fault=5;No post-

fault=6;ShrtFlt=7;

PreUns=8;FltUns=9;

PostUns=10;Blocked=

1

0 Enum 11;Off=12

0x53- 21486...-

ED

21487

Motor speed

1 0 UInt32

0x53- 21488...-

EF

21489

Last fault current 1

floa0 t32

when "Fault value scaling" configured with Primary, then uint is A. when "Fault value scaling" configured with PU, then uint is xIn.

P5-

Unit

U20 LPC-
T

P5 U20

P5 V20

P5 F30

P5 M30

LPVT

%









%









%









%









V









V









V















°







kW



kvar



kVA

































Hz





V 



°





A









rpm





xIn / A





 





208

P5/EN M/33B

Communication protocols

First Register Address

Register Number

Description

0x53F1

21490...21491
I> fault value

0x53F3

21492...21493
I>> fault value

0x53F5
0x53F7

21494...21495

21496...21497

I>>> fault value Fault reactance

0x53- 21498...-

F9

21499

Fault value >

0x53- 21500...-

FB

21501

Fault value >>

0x53- 21502...-

FD

21503

Fault value <

0x53- 21504...-

FF

21505

0x5401

21506...21507

Fault value <<
Last earth fault current

0x5403
0x5405

21508...21509

Io> fault value

21510...-

21511

Io>> fault value

Re- Wr- Data ad ite type
floa1 0 t32
floa1 0 t32
floa1 0 t32
floa1 0 t32
UInt32/ floa1 0 t32
UInt32/ floa1 0 t33
UInt32/ floa1 0 t34
UInt32/ floa1 0 t35 floa1 0 t32
floa1 0 t32
floa1 0 t32

Value
when "Fault value scaling" configured with Primary, then uint is A. when "Fault value scaling" configured with PU, then uint is xIn.
when "Fault value scaling" configured with Primary, then uint is A. when "Fault value scaling" configured with PU, then uint is xIn.
when "Fault value scaling" configured with Primary, then uint is A. when "Fault value scaling" configured with PU, then uint is xIn.
when "Fault value scaling" configured with Primary, then uint is rpm. when "Fault value scaling" configured with PU, then uint is %n. When unit is rpm, value type is UInt32. When unit is %n, value type is float32.
when "Fault value scaling" configured with Primary, then uint is rpm. when "Fault value scaling" configured with PU, then uint is %n. When unit is rpm, value type is UInt32. When unit is %n, value type is float32.
when "Fault value scaling" configured with Primary, then uint is rpm. when "Fault value scaling" configured with PU, then uint is %n. When unit is rpm, value type is UInt32. When unit is %n, value type is float32.
when "Fault value scaling" configured with Primary, then uint is rpm. when "Fault value scaling" configured with PU, then uint is %n. When unit is rpm, value type is UInt32. When unit is %n, value type is float32.
when "Fault value scaling" configured with Primary, then uint is A. when "Fault value scaling" configured with PU, then uint is pu.
when "Fault value scaling" configured with

P5-

Unit

U20 LPC-
T

P5 U20

P5 V20

P5 F30

P5 M30

LPVT

xIn / A







xIn / A







xIn / A





ohm

 

%n / rpm







%n / rpm







%n / rpm







%n / rpm





xIn





pu / A





pu / A





 
 

P5/EN M/33B

209

Communication protocols

First Register Address
0x5407
0x5409
0x540B
unused
0x540F
0x5411
0x5413
0x5415
0x5417 0x5419 0x541B
0x541D
0x541F

Register Number

Description

21512...21513
Io>>> fault value

21514...21515

Io>>>> fault value

21516...21517
21518... 21519

Io>>>>> fault value
unused

21520...21521
Io> fault value

21522...21523
Io>> fault value

21524...21525

Io>>> fault value

21526...21527

21528...21529
21530...21531
21532...21533

SOTF fault value Uo>1 fault value Uo>2 fault value Uo>3 fault value

21534...21535
Io'> fault value

21536...21537
Io'>> fault value

Re- Wr- Data ad ite type
floa1 0 t32
floa1 0 t32
floa1 0 t32
floa1 0 t32
floa1 0 t32
floa1 0 t32
floa1 0 t32
floa1 0 t32
floa1 0 t32
floa1 0 t32
floa1 0 t32
floa1 0 t32

Value
Primary, then uint is A. when "Fault value scaling" configured with PU, then uint is pu.
when "Fault value scaling" configured with Primary, then uint is A. when "Fault value scaling" configured with PU, then uint is pu.
when "Fault value scaling" configured with Primary, then uint is A. when "Fault value scaling" configured with PU, then uint is pu.
when "Fault value scaling" configured with Primary, then uint is A. when "Fault value scaling" configured with PU, then uint is pu.
when "Fault value scaling" configured with Primary, then uint is A. when "Fault value scaling" configured with PU, then uint is pu.
when "Fault value scaling" configured with Primary, then uint is A. when "Fault value scaling" configured with PU, then uint is pu.
when "Fault value scaling" configured with Primary, then uint is A. when "Fault value scaling" configured with PU, then uint is pu.
when "Fault value scaling" configured with Primary, then uint is A. when "Fault value scaling" configured with PU, then uint is xIn.
when "Fault value scaling" configured with Primary, then uint is A. when "Fault value scaling" configured with PU, then uint is pu.
when "Fault value scaling" configured with Primary, then uint is A. when "Fault value scaling" configured with PU, then uint is pu.

P5-

Unit

U20 LPC-
T

P5 U20

P5 V20

P5 F30

P5 M30

LPVT

pu / A





pu / A 

pu / A 













pu / A 





pu / A 





pu / A 





xIn / A



%



%



%



























pu / A







pu / A







210

P5/EN M/33B

Communication protocols

First Register Address

Register Number

Description

Re- Wr- Data ad ite type

Value

P5-

Unit

U20 LPC-
T

P5 U20

P5 V20

P5 F30

P5 M30

LPVT

0x54- 21538...-

21

21539

Io'>>> fault value 1

floa0 t32

when "Fault value scaling" configured with Primary, then uint is A. when "Fault value scaling" configured with PU, then uint is pu.

pu / A





0x54- 21540...-

23

21541

IoUo> fault value 1

when "Fault value

scaling" configured with

Primary, then uint is kW.

when "Fault value

scaling" configured with %Pno /

PU, then uint is %Pno.

kW

When unit is kW, value

Int32/ type is Int32. When unit

floa- is %Pno, value type is

0 t32

float32



0x54- 21542...-

25

21543

IoUo>> fault value

when "Fault value

scaling" configured with

Primary, then uint is kW.

when "Fault value

scaling" configured with %Pno /

PU, then uint is %Pno.

kW

When unit is kW, value

Int32/ type is Int32. When unit

floa- is %Pno, value type is

1 0 t32

float32



0x5427

21544...21545
I2> fault value

when "Fault value

scaling" configured with

Primary, then uint is A. when "Fault value

xIn / A

floa- scaling" configured with

1 0 t32

PU, then uint is xIn.







0x54- 21546...-

29

21547

df/dt> fault value 1

floa0 t32

Hz/s







0x54- 21548...- df/dt>> fault

2B

21549

value

floa1 0 t32

Hz/s







0x54- 21550... Phase-Phase

2D

21551

voltage U12RMS 1

floa0 t32

V









0x54- 21552... Phase-Phase

2F

21553

voltage U23RMS 1

floa0 t32

V









0x5431

21554... 21555

Phase-Phase voltage U12yRMS

floa1 0 t32

V 







0x54- 21556... Phase-Earth

floa-

33

21557

voltage UoRMS

1

0 t32

V









0x5435

21558... 21559

Phase-Earth voltage VL1yRMS

floa1 0 t32

V 







unused

21560...

21636

unused

0x54- 21637...- Harmonics of

84

21668

U12

floa1 0 t32

%







0x54- 21669... Harmonics of

A4

21700

U23

floa1 0 t32

%







0x54- 21701...-

C4

21732

Harmonics of IL1 1

floa0 t32

%







0x54- 21733...-

E4

21764

Harmonics of IL2 1

floa0 t32

%







0x55- 21765...-

04

21796

Harmonics of IL3 1

floa0 t32

%







0x55- 21797...- Harmonics of

24

21828

VL1

floa1 0 t32

%









P5/EN M/33B

211

First Register Address 0x5544 0x5564 0x5584
0x55A4
0x55C4
unused 0x55F0
0x55F4
0x55F8
0x55FC unused
0x5622
0x5623
0x5624
0x5625
0x5626
0x5627
0x5628
0x5629
0x562A
0x562B
0x562C
0x562D

Register Number

Description

21829...- Harmonics of

21860

VL2

21861...- Harmonics of

21892

VL3

21893...-

21924

Harmonics of Uo

21925... Harmonics of

21956

U12y

21957... Harmonics of

21988

VL1y

21989...

22000

unused

22001...-

22004

Exported energy

22005...- Exp. reactive

22008

energy

22009...-

22012

Imported energy

22013...- Imp. reactive

22016

energy

22017...

22050

unused

22051

Temperature 1

22052

Temperature 2

22053

Temperature 3

22054

Temperature 4

22055

Temperature 5

22056

Temperature 6

22057

Temperature 7

22058

Temperature 8

22059

Temperature 9

22060

Temperature 10

22061

Temperature 11

22062

Temperature 12

Re- Wr- Data ad ite type
floa1 0 t32
floa1 0 t32
floa1 0 t32
floa1 0 t32
floa1 0 t32
1 0 Int64 1 0 Int64 1 0 Int64 1 0 Int64
1 0 Int16
1 0 Int16
1 0 Int16
1 0 Int16
1 0 Int16
1 0 Int16
1 0 Int16
1 0 Int16
1 0 Int16
1 0 Int16
1 0 Int16
1 0 Int16

Value
Unit of this value is match with RTD unit configured value. Unit of this value is match with RTD unit configured value. Unit of this value is match with RTD unit configured value. Unit of this value is match with RTD unit configured value. Unit of this value is match with RTD unit configured value. Unit of this value is match with RTD unit configured value. Unit of this value is match with RTD unit configured value. Unit of this value is match with RTD unit configured value. Unit of this value is match with RTD unit configured value. Unit of this value is match with RTD unit configured value. Unit of this value is match with RTD unit configured value. Unit of this value is match with RTD unit configured value.

Communication protocols

P5-

Unit

U20 LPC-
T

P5 U20

P5 V20

P5 F30

P5 M30

LPVT

%









%









%









%









%









%









KWh







KVArh







KWh







KVArh







°C / °F





°C / °F





°C / °F





°C / °F





°C / °F





°C / °F





°C / °F





°C / °F





°C / °F





°C / °F





°C / °F





°C / °F





















































212

P5/EN M/33B

Communication protocols

First Register Address
0x562E
0x562F
0x5630
0x5631
unused
0x5648
0x564A
0x564C
0x564E
0x5650
0x5652
0x5654
0x5656
0x5658
0x565A
0x565C
0x565E
0x5660
0x5662
0x5664
0x5666
0x5668
0x566A
0x566C
0x566E
0x5670

Register Number

Description

22063

Temperature 13

22064

Temperature 14

22065

Temperature 15

22066

Temperature 16

22067... 22088
22089... 22090

unused
Minimum U12 RMS voltage

22091... Minimum U23

22092

RMS voltage

22093... Minimum U12y

22094

RMS voltage

22095... 22096
22097... 22098

Maximum U12 RMS voltage
Maximum U23 RMS voltage

22099... Maximum U12y

22100

RMS voltage

22101...- Minimum VL1

22102

RMS voltage

22103...- Minimum VL2

22104

RMS voltage

22105...- Minimum VL3

22106

RMS voltage

22107...- Maximum VL1

22108

RMS voltage

22109...- Maximum VL2

22110

RMS voltage

22111...- Maximum VL3

22112

RMS voltage

22113...-

22114

Minimum of U12

22115...-

22116

Minimum of U23

22117...-

22118

Minimum of U31

22119...-

22120

Maximum of U12

22121...22122
22123...22124

Maximum of U23 Maximum of U31

22125...-

22126

Minimum of IL1

22127...-

22128

Minimum of IL2

22129...-

22130

Minimum of IL3

Re- Wr- Data ad ite type
1 0 Int16
1 0 Int16
1 0 Int16
1 0 Int16
floa1 0 t32
floa1 0 t32
floa1 0 t32
floa1 0 t32
floa1 0 t32
floa1 0 t32
floa1 0 t32
floa1 0 t32
floa1 0 t32
floa1 0 t32
floa1 0 t32
floa1 0 t32
floa1 0 t32
floa1 0 t32
floa1 0 t32
floa1 0 t32
floa1 0 t32
floa1 0 t32
floa1 0 t32
floa1 0 t32
floa1 0 t32

Value
Unit of this value is match with RTD unit configured value.
Unit of this value is match with RTD unit configured value.
Unit of this value is match with RTD unit configured value.
Unit of this value is match with RTD unit configured value.

P5-

Unit

U20 LPC-
T

P5 U20

P5 V20

P5 F30

P5 M30

LPVT

°C / °F







°C / °F







°C / °F







°C / °F







V









V









V 







V









V









V









V









V









V









V 







V









V









V









V









V









V









V









V









A







A







A







P5/EN M/33B

213

First Register Address

Register Number

Description

Re- Wr- Data ad ite type

0x56- 22131...-

floa-

72

22132

Maximum of IL1

1

0 t32

0x56- 22133...-

floa-

74

22134

Maximum of IL2

1

0 t32

0x56- 22135...-

floa-

76

22136

Maximum of IL3

1

0 t32

0x56- 22137...-

78

22138

Minimum of Io

floa1 0 t32

0x56- 22139...-

7A

22140

Minimum of Io'

floa1 0 t32

0x56- 22141...- Minimum of EF

7C

22142

current

floa1 0 t32

0x56- 22143...-

7E

22144

Maximum of Io

floa1 0 t32

0x56- 22145...-

80

22146

Maximum of Io'

floa1 0 t32

0x56- 22147...- Maximum of EF

floa-

82

22148

current

1 0 t32

0x56- 22149...-

84

22150

Min power factor 1

floa0 t32

0x56- 22151...-

86

22152

Max power factor 1

floa0 t32

0x56- 22153...- Minimum

88

22154

frequency

floa1 0 t32

0x56- 22155...- Maximum

8A

22156

frequency

floa1 0 t32

0x56- 22157...- Minimum active

8C

22158

power

floa1 0 t32

0x56- 22159...- Minimum react.

8E

22160

power

floa1 0 t32

0x56- 22161...- Minimum

90

22162

apparent power

floa1 0 t32

0x56- 22163...- Maximum active

floa-

92

22164

power

1 0 t32

0x56- 22165...- Maximum react.

floa-

94

22166

power

1 0 t32

0x56- 22167...- Maximum

96

22168

apparent power

floa1 0 t32

0x56- 22169...- Min. of IL1 IL2

98

22170

IL3

floa1 0 t32

0x56- 22171...- Max. of IL1 IL2

9A

22172

IL3

floa1 0 t32

0x56- 22173...- Min of Phase-

9C

22174

Phase voltages

floa1 0 t32

0x56- 22175...- Max of Phase-

9E

22176

Phase voltages

floa1 0 t32

0x56- 22177...- Min. of Phase-

A0

22178

Earth voltages

floa1 0 t32

0x56- 22179...- Max. of Phase-

A2

22180

Earth voltages

floa1 0 t32

0x56- 22181...- RMS minimum of

A4

22182

IL1

1

floa0 t32

0x56- 22183...- RMS minimum of

A6

22184

IL2

1

floa0 t32

Value

214

Communication protocols

P5-

Unit

U20 LPC-
T

P5 U20

P5 V20

P5 F30

P5 M30

LPVT

A









A









A









%









%









pu









%









%









pu





















Hz











Hz











kW







kvar







kVA







kW







kvar







kVA







A









A









V









V









V









V









A









A









P5/EN M/33B

Communication protocols

First Register Address

Register Number

Description

Re- Wr- Data ad ite type

0x56- 22185...- RMS minimum of

A8

22186

IL3

1

floa0 t32

0x56- 22187...-

AA

22188

Minimum of Uo

floa1 0 t32

0x56- 22189...-

floa-

AC

22190

Maximum of Uo

1 0 t32

0x56- 22191...- RMS maximum

AE

22192

of IL1

floa1 0 t32

0x56- 22193...- RMS maximum

B0

22194

of IL2

floa1 0 t32

0x56- 22195...- RMS maximum

B2

22196

of IL3

floa1 0 t32

unused

22197...

22200

unused

0x56B8

22201...22202

Demand minimum active power

1

floa0 t32

0x56BA

22203...22204

Demand minimum reactive power

floa1 0 t32

0x56BC

22205...22206

Demand minimum apparent power

1

floa0 t32

0x56BE

22207...22208

Demand maximum active power

1

floa0 t32

0x56C0

22209...22210

Demand maximum reactive power

floa1 0 t32

0x56C2

22211...22212

Demand maximum apparent power

1

floa0 t32

0x56- 22213...- Average Phase-

floa-

C4

22214

Earth voltage

1 0 t32

0x56- 22215...- Average Phase-

floa-

C6

22216

Phase voltage

1 0 t32

0x56- 22217...- Phase current

C8

22218

IL1da demand

floa1 0 t32

0x56- 22219...- Phase current

CA

22220

IL2da demand

floa1 0 t32

0x56- 22221...- Phase current

CC

22222

IL3da demand

floa1 0 t32

0x56- 22223...- Power factor

CE

22224

demand

floa1 0 t32

0x56- 22225...- Active power

D0

22226

demand

floa1 0 t32

0x56- 22227...- Reactive power

D2

22228

demand

floa1 0 t32

0x56- 22229...- Apparent power

floa-

D4

22230

demand

1 0 t32

0x56- 22231...- RMS average

D6

22232

voltage

floa1 0 t32

0x56- 22233...- RMS active

D8

22234

power demand

floa1 0 t32

0x56- 22235...- RMS reactive

DA

22236

power demand

floa1 0 t32

P5/EN M/33B

Value

P5-

Unit

U20 LPC-
T

P5 U20

P5 V20

P5 F30

P5 M30

LPVT

A







%









%









A







A







A







kW 



kvar 



kVA 



kW 



kvar 



kVA 



V









V









A







A







A









kW



kvar



kVA



V



kW



kvar



   











215

First Register Address
0x56DC
0x56DE
0x56E0
0x56E2
0x56E4
0x56E6
0x56E8
0x56EA
0x56EC
0x56EE
0x56F0
0x56F2
0x56F4
0x56F6
0x56F8
0x56FA
0x56FC
0x56FE
0x5700
0x5702
0x5704
unused

Register Number

Description

Read

22237...- RMS apparent

22238

power demand

1

22239...22240

Demand minimum power factor

1

22241...- RMS Demand

22242

mini active power 1

22243...22244

RMS Demand min reactive power

1

22245...22246

RMS Demand mini apparent power

1

22247...- Demand

22248

Minimum of IL1

1

22249...- Demand

22250

Minimum of IL2

1

22251...- Demand

22252

Minimum of IL3

1

22253...- RMS Demand

22254

minimum of IL1

1

22255...- RMS Demand

22256

minimum of IL2

1

22257...- RMS Demand

22258

minimum of IL3

1

22259...22260

Demand maximum power factor

1

22261...- RMS Demand

22262

max active power 1

22263...22264

RMS Demand max reactive power

1

22265...22266

RMS Demand max apparent power

1

22267...- Demand

22268

Maximum of IL1

1

22269...- Demand

22270

Maximum of IL2

1

22271...- Demand

22272

Maximum of IL3

1

22273...- RMS Demand

22274

maximum of IL1

1

22275...- RMS Demand

22276

maximum of IL2

1

22277...- RMS Demand

22278

maximum of IL3

1

22279...

22301

unused

Wr- Data ite type
floa0 t32
floa0 t32
floa0 t32
floa0 t32
floa0 t32
floa0 t32
floa0 t32
floa0 t32
floa0 t32
floa0 t32
floa0 t32
floa0 t32
floa0 t32
floa0 t32
floa0 t32
floa0 t32
floa0 t32
floa0 t32
floa0 t32
floa0 t32
floa0 t32

Value

0x57- 22301...-

1C

22302

External AI1

floa- set by user itself in

1 0 t32

modbus master.

Communication protocols

P5-

Unit

U20 LPC-
T

P5 U20

P5 V20

P5 F30

P5 M30

LPVT

kVA 







kW



kvar 

kVA 

A





A





A





A





A





A















































kW



kvar 

kVA 

A





A





A





A





A





A













































°C / F /

K / V/A

/ mA /

Ohm /

A/V/

kW /

kVA /

kvar











216

P5/EN M/33B

Communication protocols

First Register Address

Register Number

Description

Re- Wr- Data ad ite type

Value

0x57- 22303...-

1E

22304

External AI2

floa- set by user itself in

1 0 t32

modbus master.

0x57- 22305...-

20

22306

External AI3

floa- set by user itself in

1 0 t32

modbus master.

0x57- 22307...-

22

22308

External AI4

floa- set by user itself in

1 0 t32

modbus master.

0x57- 22309...-

24

22310

External AI5

floa- set by user itself in

1 0 t32

modbus master.

0x57- 22311...-

26

22312

External AI6

floa- set by user itself in

1 0 t32

modbus master.

0x57- 22313...-

28

22314

External AI7

floa- set by user itself in

1 0 t32

modbus master.

0x57- 22315...-

2A

22316

External AI8

floa- set by user itself in

1 0 t32

modbus master.

0x57- 22317...-

2C

22318

External AI9

floa- set by user itself in

1 0 t32

modbus master.

0x57- 22319...-

2E

22320

External AI10

floa- set by user itself in

1 0 t32

modbus master.

P5-

Unit

U20 LPC-
T

P5 U20

P5 V20

P5 F30

P5 M30

LPVT

°C / F /

K / V/A

/ mA /

Ohm /

A/V/

kW /

kVA /

kvar











°C / F /

K / V/A

/ mA /

Ohm /

A/V/

kW /

kVA /

kvar











°C / F /

K / V/A

/ mA /

Ohm /

A/V/

kW /

kVA /

kvar











°C / F /

K / V/A

/ mA /

Ohm /

A/V/

kW /

kVA /

kvar











°C / F /

K / V/A

/ mA /

Ohm /

A/V/

kW /

kVA /

kvar











°C / F /

K / V/A

/ mA /

Ohm /

A/V/

kW /

kVA /

kvar











°C / F /

K / V/A

/ mA /

Ohm /

A/V/

kW /

kVA /

kvar











°C / F /

K / V/A

/ mA /

Ohm /

A/V/

kW /

kVA /

kvar











°C / F /

K / V/A

/ mA /

Ohm /

A/V/

kW /

kVA /

kvar











P5/EN M/33B

217

First Register Address

Register Number

Description

Re- Wr- Data ad ite type

Value

0x57- 22321...-

30

22322

External AI11

floa- set by user itself in

1 0 t32

modbus master.

0x57- 22323...-

32

22324

External AI12

floa- set by user itself in

1 0 t32

modbus master.

0x57- 22325...-

34

22326

External AI13

floa- set by user itself in

1 0 t32

modbus master.

0x57- 22327...-

36

22328

External AI14

floa- set by user itself in

1 0 t32

modbus master.

0x57- 22329...-

38

22330

External AI15

floa- set by user itself in

1 0 t32

modbus master.

0x57- 22331...-

3A

22332

External AI16

floa- set by user itself in

1 0 t32

modbus master.

0x57- 22333...-

3C

22334

External AI17

floa- set by user itself in

1 0 t32

modbus master.

0x57- 22335...-

3E

22336

External AI18

floa- set by user itself in

1 0 t32

modbus master.

0x57- 22337...-

40

22338

External AI19

floa- set by user itself in

1 0 t32

modbus master.

Communication protocols

P5-

Unit

U20 LPC-
T

P5 U20

P5 V20

P5 F30

P5 M30

LPVT

°C / F /

K / V/A

/ mA /

Ohm /

A/V/

kW /

kVA /

kvar











°C / F /

K / V/A

/ mA /

Ohm /

A/V/

kW /

kVA /

kvar











°C / F /

K / V/A

/ mA /

Ohm /

A/V/

kW /

kVA /

kvar











°C / F /

K / V/A

/ mA /

Ohm /

A/V/

kW /

kVA /

kvar











°C / F /

K / V/A

/ mA /

Ohm /

A/V/

kW /

kVA /

kvar











°C / F /

K / V/A

/ mA /

Ohm /

A/V/

kW /

kVA /

kvar











°C / F /

K / V/A

/ mA /

Ohm /

A/V/

kW /

kVA /

kvar











°C / F /

K / V/A

/ mA /

Ohm /

A/V/

kW /

kVA /

kvar











°C / F /

K / V/A

/ mA /

Ohm /

A/V/

kW /

kVA /

kvar











218

P5/EN M/33B

Communication protocols

First Register Address

Register Number

Description

Re- Wr- Data ad ite type

Value

0x57- 22339...-

42

22340

External AI20

floa- set by user itself in

1 0 t32

modbus master.

0x57- 22341...-

44

22342

External AI21

floa- set by user itself in

1 0 t32

modbus master.

0x57- 22343...-

46

22344

External AI22

floa- set by user itself in

1 0 t32

modbus master.

0x57- 22345...-

48

22346

External AI23

floa- set by user itself in

1 0 t32

modbus master.

0x57- 22347...-

4A

22348

External AI24

floa- set by user itself in

1 0 t32

modbus master.

0x57- 22349...-

4C

22350

External AI25

floa- set by user itself in

1 0 t32

modbus master.

0x57- 22351...-

4E

22352

External AI26

floa- set by user itself in

1 0 t32

modbus master.

0x57- 22353...-

50

22354

External AI27

floa- set by user itself in

1 0 t32

modbus master.

0x57- 22355...-

52

22356

External AI28

floa- set by user itself in

1 0 t32

modbus master.

P5-

Unit

U20 LPC-
T

P5 U20

P5 V20

P5 F30

P5 M30

LPVT

°C / F /

K / V/A

/ mA /

Ohm /

A/V/

kW /

kVA /

kvar











°C / F /

K / V/A

/ mA /

Ohm /

A/V/

kW /

kVA /

kvar











°C / F /

K / V/A

/ mA /

Ohm /

A/V/

kW /

kVA /

kvar











°C / F /

K / V/A

/ mA /

Ohm /

A/V/

kW /

kVA /

kvar











°C / F /

K / V/A

/ mA /

Ohm /

A/V/

kW /

kVA /

kvar











°C / F /

K / V/A

/ mA /

Ohm /

A/V/

kW /

kVA /

kvar











°C / F /

K / V/A

/ mA /

Ohm /

A/V/

kW /

kVA /

kvar











°C / F /

K / V/A

/ mA /

Ohm /

A/V/

kW /

kVA /

kvar











°C / F /

K / V/A

/ mA /

Ohm /

A/V/

kW /

kVA /

kvar











P5/EN M/33B

219

First Register Address

Register Number

Description

Re- Wr- Data ad ite type

Value

0x57- 22357...-

54

22358

External AI29

floa- set by user itself in

1 0 t32

modbus master.

0x57- 22359...-

56

22360

External AI30

floa- set by user itself in

1 0 t32

modbus master.

0x57- 22361...-

58

22362

External AI31

floa- set by user itself in

1 0 t32

modbus master.

0x57- 22363...-

5A

22364

External AI32

floa- set by user itself in

1 0 t32

modbus master.

0x57- 22365...-

5C

22366

External AI33

floa- set by user itself in

1 0 t32

modbus master.

0x57- 22367...-

5E

22368

External AI34

floa- set by user itself in

1 0 t32

modbus master.

0x57- 22369...-

60

22370

External AI35

floa- set by user itself in

1 0 t32

modbus master.

0x57- 22371...-

62

22372

External AI36

floa- set by user itself in

1 0 t32

modbus master.

0x57- 22373...-

64

22374

External AI37

floa- set by user itself in

1 0 t32

modbus master.

Communication protocols

P5-

Unit

U20 LPC-
T

P5 U20

P5 V20

P5 F30

P5 M30

LPVT

°C / F /

K / V/A

/ mA /

Ohm /

A/V/

kW /

kVA /

kvar











°C / F /

K / V/A

/ mA /

Ohm /

A/V/

kW /

kVA /

kvar











°C / F /

K / V/A

/ mA /

Ohm /

A/V/

kW /

kVA /

kvar











°C / F /

K / V/A

/ mA /

Ohm /

A/V/

kW /

kVA /

kvar











°C / F /

K / V/A

/ mA /

Ohm /

A/V/

kW /

kVA /

kvar











°C / F /

K / V/A

/ mA /

Ohm /

A/V/

kW /

kVA /

kvar











°C / F /

K / V/A

/ mA /

Ohm /

A/V/

kW /

kVA /

kvar











°C / F /

K / V/A

/ mA /

Ohm /

A/V/

kW /

kVA /

kvar











°C / F /

K / V/A

/ mA /

Ohm /

A/V/

kW /

kVA /

kvar











220

P5/EN M/33B

Communication protocols

First Register Address

Register Number

Description

Re- Wr- Data ad ite type

Value

0x57- 22375...-

66

22376

External AI38

floa- set by user itself in

1 0 t32

modbus master.

0x57- 22377...-

68

22378

External AI39

floa- set by user itself in

1 0 t32

modbus master.

0x57- 22379...-

6A

22380

External AI40

floa- set by user itself in

1 0 t32

modbus master.

0x57- 22381...-

6C

22382

External AI41

floa- set by user itself in

1 0 t32

modbus master.

0x57- 22383...-

6E

22384

External AI42

floa- set by user itself in

1 0 t32

modbus master.

0x57- 22385...-

70

22386

External AI43

floa- set by user itself in

1 0 t32

modbus master.

0x57- 22387...-

72

22388

External AI44

floa- set by user itself in

1 0 t32

modbus master.

0x57- 22389...-

74

22390

External AI45

floa- set by user itself in

1 0 t32

modbus master.

0x57- 22391...-

76

22392

External AI46

floa- set by user itself in

1 0 t32

modbus master.

P5-

Unit

U20 LPC-
T

P5 U20

P5 V20

P5 F30

P5 M30

LPVT

°C / F /

K / V/A

/ mA /

Ohm /

A/V/

kW /

kVA /

kvar











°C / F /

K / V/A

/ mA /

Ohm /

A/V/

kW /

kVA /

kvar











°C / F /

K / V/A

/ mA /

Ohm /

A/V/

kW /

kVA /

kvar











°C / F /

K / V/A

/ mA /

Ohm /

A/V/

kW /

kVA /

kvar











°C / F /

K / V/A

/ mA /

Ohm /

A/V/

kW /

kVA /

kvar











°C / F /

K / V/A

/ mA /

Ohm /

A/V/

kW /

kVA /

kvar











°C / F /

K / V/A

/ mA /

Ohm /

A/V/

kW /

kVA /

kvar











°C / F /

K / V/A

/ mA /

Ohm /

A/V/

kW /

kVA /

kvar











°C / F /

K / V/A

/ mA /

Ohm /

A/V/

kW /

kVA /

kvar











P5/EN M/33B

221

First Register Address

Register Number

Description

Re- Wr- Data ad ite type

Value

0x57- 22393...-

78

22394

External AI47

floa- set by user itself in

1 0 t32

modbus master.

0x57- 22395...-

7A

22396

External AI48

floa- set by user itself in

1 0 t32

modbus master.

0x57- 22397...-

7C

22398

External AI49

floa- set by user itself in

1 0 t32

modbus master.

0x57- 22399...-

7E

22400

External AI50

floa- set by user itself in

1 0 t32

modbus master.

0x57- 22401...-

80

22402

External AI51

floa- set by user itself in

1 0 t32

modbus master.

0x57- 22403...-

82

22404

External AI52

floa- set by user itself in

1 0 t32

modbus master.

0x57- 22405...-

84

22406

External AI53

floa- set by user itself in

1 0 t32

modbus master.

0x57- 22407...-

86

22408

External AI54

floa- set by user itself in

1 0 t32

modbus master.

0x57- 22409...-

88

22410

External AI55

floa- set by user itself in

1 0 t32

modbus master.

Communication protocols

P5-

Unit

U20 LPC-
T

P5 U20

P5 V20

P5 F30

P5 M30

LPVT

°C / F /

K / V/A

/ mA /

Ohm /

A/V/

kW /

kVA /

kvar











°C / F /

K / V/A

/ mA /

Ohm /

A/V/

kW /

kVA /

kvar











°C / F /

K / V/A

/ mA /

Ohm /

A/V/

kW /

kVA /

kvar











°C / F /

K / V/A

/ mA /

Ohm /

A/V/

kW /

kVA /

kvar











°C / F /

K / V/A

/ mA /

Ohm /

A/V/

kW /

kVA /

kvar











°C / F /

K / V/A

/ mA /

Ohm /

A/V/

kW /

kVA /

kvar











°C / F /

K / V/A

/ mA /

Ohm /

A/V/

kW /

kVA /

kvar











°C / F /

K / V/A

/ mA /

Ohm /

A/V/

kW /

kVA /

kvar











°C / F /

K / V/A

/ mA /

Ohm /

A/V/

kW /

kVA /

kvar











222

P5/EN M/33B

Communication protocols

First Register Address

Register Number

Description

Re- Wr- Data ad ite type

Value

0x57- 22411...-

8A

22412

External AI56

floa- set by user itself in

1 0 t32

modbus master.

0x57- 22413...-

8C

22414

External AI57

floa- set by user itself in

1 0 t32

modbus master.

0x57- 22415...-

8E

22416

External AI58

floa- set by user itself in

1 0 t32

modbus master.

0x57- 22417...-

90

22418

External AI59

floa- set by user itself in

1 0 t32

modbus master.

0x57- 22419...-

92

22420

External AI60

floa- set by user itself in

1 0 t32

modbus master.

0x57- 22421...-

94

22422

External AI61

floa- set by user itself in

1 0 t32

modbus master.

0x57- 22423...-

96

22424

External AI62

floa- set by user itself in

1 0 t32

modbus master.

0x57- 22425...-

98

22426

External AI63

floa- set by user itself in

1 0 t32

modbus master.

0x57- 22427...-

9A

22428

External AI64

floa- set by user itself in

1 0 t32

modbus master.

P5-

Unit

U20 LPC-
T

P5 U20

P5 V20

P5 F30

P5 M30

LPVT

°C / F /

K / V/A

/ mA /

Ohm /

A/V/

kW /

kVA /

kvar











°C / F /

K / V/A

/ mA /

Ohm /

A/V/

kW /

kVA /

kvar











°C / F /

K / V/A

/ mA /

Ohm /

A/V/

kW /

kVA /

kvar











°C / F /

K / V/A

/ mA /

Ohm /

A/V/

kW /

kVA /

kvar











°C / F /

K / V/A

/ mA /

Ohm /

A/V/

kW /

kVA /

kvar











°C / F /

K / V/A

/ mA /

Ohm /

A/V/

kW /

kVA /

kvar











°C / F /

K / V/A

/ mA /

Ohm /

A/V/

kW /

kVA /

kvar











°C / F /

K / V/A

/ mA /

Ohm /

A/V/

kW /

kVA /

kvar











°C / F /

K / V/A

/ mA /

Ohm /

A/V/

kW /

kVA /

kvar











P5/EN M/33B

223

First Register Address

Register Number

Description

Re- Wr- Data ad ite type

unused

22429...

22500

unused

0x57E4

22501

Open select object 1

1

1 UInt16 0;1

0x57E5

22502

Close select object 1

1

1 UInt16 0;1

0x57E6

22503

Execute operation Object1

0

1 UInt16 0;1

0x57E7

22504

Open select object 2

1

1 UInt16 0;1

0x57E8

22505

Close select object 2

1

1 UInt16 0;1

0x57E9

22506

Execute operation Object2

0

1 UInt16 0;1

0x57EA

22507

Cancel selected operation

0

1 UInt16 0;1

0x57EB

22508

Open select object 3

1

1 UInt16 0;1

0x57EC

22509

Close select object 3

1

1 UInt16 0;1

0x57ED

22510

Execute operation Object3

0

1 UInt16 0;1

0x57EE

22511

Open select object 4

1

1 UInt16 0;1

0x57EF

22512

Close select object 4

1

1 UInt16 0;1

0x57F0

22513

Execute operation Object4

0

1 UInt16 0;1

0x57F1

22514

Open select object 5

1

1 UInt16 0;1

0x57F2

22515

Close select object 5

1

1 UInt16 0;1

0x57F3

22516

Execute operation Object5

0

1 UInt16 0;1

0x57F4

22517

Open select object 6

1

1 UInt16 0;1

0x57F5

22518

Close select object 6

1

1 UInt16 0;1

0x57F6

22519

Execute operation Object6

0

1 UInt16 0;1

0x57- 22520...- Max ctrl pulse

F7

22521

length of Object1 1

floa1 t32

0x57- 22522...- Max ctrl pulse

F9

22523

length of Object2 1

floa1 t32

0x57- 22524...- Max ctrl pulse

FB

22525

length of Object3 1

floa1 t32

0x57- 22526...- Max ctrl pulse

FD

22527

length of Object4 1

floa1 t32

0x57- 22528...- Max ctrl pulse

FF

22529

length of Object5 1

floa1 t32

Value

224

Communication protocols

P5-

Unit

U20 LPC-
T

P5 U20

P5 V20

P5 F30

P5 M30

LPVT































































































































































































s











s











s











s











s











P5/EN M/33B

Communication protocols

First Register Address

Register Number

Description

Re- Wr- Data ad ite type

Value

0x58- 22530...- Max ctrl pulse

01

22531

length of Object6 1

floa1 t32

0x5803

22532

Timer 1 status

1

1 Enum 0=1;1=2

0x5804

22533

Timer 2 status

1

1 Enum 0=1;1=2

0x5805

22534

Timer 3 status

1

1 Enum 0=1;1=2

0x5806

22535

Timer 4 status

1

1 Enum 0=1;1=2

0x5807

22536

Sync1 request

1 0 UInt16

0x5808

22537

Sync1 OK

1 0 UInt16

0x5809

22538

Bypass

1

1 UInt16 0;1

0x580A

22539

Sync1 fail

1 0 UInt16

unused

22540...

22550

unused

0x5816

22551

Release latches

1

1 Bool Release=1

0x5817

22552

Set. group common change 1

1 Enum 1=0;2=1;3=2;4=3

0x5818

22553

Clear min/max/ demand

1 1 Bool Clear=1

0x5819

22554

Release all latches

1 1 Bool Release=1

0x58- 22555...- Minimum Global

floa-

1A

22556

trip cmd. time

1 1 t32

unused

22557...

22590

unused

0x58- 22591...- RTC of Partner

3E

22594

Data Model

Date1 1 Time

unused

22595...

22600

unused

0x58- 22601...- Engine running

48

22602

hours

1 0 Int32

0x58- 22603...- Engine running

4A

22604

(in seconds)

1 0 Int32

0x584C

22605

Start counter

1 0 UInt16

unused

22606...

22700

unused

0x58AC

22701

DI1 counter

1 0 UInt16

0x58AD

22702

DI2 counter

1 0 UInt16

0x58AE

22703

DI3 counter

1 0 UInt16

0x58AF

22704

DI4 counter

1 0 UInt16

0x58B0

22705

DI5 counter

1 0 UInt16

0x58B1

22706

DI6 counter

1 0 UInt16

P5/EN M/33B

P5-

Unit

U20 LPC-
T

P5 U20

P5 V20

P5 F30

P5 M30

LPVT

s









































































































s





 











h











s

















































































225

First Register Address
0x58B2
0x58B3
0x58B4
0x58B5
0x58B6
0x58B7
0x58B8
0x58B9
0x58BA
0x58BB
0x58BC
0x58BD
0x58BE
0x58BF
0x58C0
0x58C1
0x58C2
0x58C3
0x58C4
0x58C5
0x58C6
0x58C7
0x58C8
0x58C9
0x58CA
0x58CB
0x58CC
0x58CD

Register Number

Description

22707 22708 22709 22710 22711 22712 22713 22714 22715 22716 22717 22718 22719 22720 22721 22722 22723 22724 22725 22726 22727 22728 22729 22730 22731 22732 22733 22734

DI7 counter DI8 counter DI9 counter DI10 counter DI11 counter DI12 counter DI13 counter DI14 counter DI15 counter DI16 counter DI17 counter DI18 counter DI19 counter DI20 counter DI21 counter DI22 counter DI23 counter DI24 counter DI25 counter DI26 counter DI27 counter DI28 counter DI29 counter DI30 counter DI31 counter DI32 counter DI33 counter DI34 counter

Re- Wr- Data ad ite type
1 0 UInt16 1 0 UInt16 1 0 UInt16 1 0 UInt16 1 0 UInt16 1 0 UInt16 1 0 UInt16 1 0 UInt16 1 0 UInt16 1 0 UInt16 1 0 UInt16 1 0 UInt16 1 0 UInt16 1 0 UInt16 1 0 UInt16 1 0 UInt16 1 0 UInt16 1 0 UInt16 1 0 UInt16 1 0 UInt16 1 0 UInt16 1 0 UInt16 1 0 UInt16 1 0 UInt16 1 0 UInt16 1 0 UInt16 1 0 UInt16 1 0 UInt16

226

Value

Communication protocols

P5-

Unit

U20 LPC-
T

P5 U20

P5 V20

P5 F30

P5 M30

LPVT













































































































































































P5/EN M/33B

Communication protocols

First Register Address

Register Number

Description

Re- Wr- Data ad ite type

Value

0x58CE

22735

DI35 counter

1 0 UInt16

0x58CF

22736

DI36 counter

1 0 UInt16

0x58D0

22737

DI37 counter

1 0 UInt16

0x58D1

22738

DI38 counter

1 0 UInt16

0x58D2

22739

DI39 counter

1 0 UInt16

0x58D3

22740

DI40 counter

1 0 UInt16

0x58D4

22741

Shot1 start counter

1 0 UInt16

0x58D5

22742

Shot2 start counter

1 0 UInt16

0x58D6

22743

Shot3 start counter

1 0 UInt16

0x58D7

22744

Shot4 start counter

1 0 UInt16

0x58D8

22745

Shot5 start counter

1 0 UInt16

0x58D9

22746

AR start counter

1

0 UInt16

0x58DA

22747

AR fail counter

1 0 UInt16

0x58DB

22748

AR shot number

1

0 Enum 1;2;3;4;5;END=6

0x58DC

22749

Direct trip AR request

1 0 UInt16 1 = 1

0x58DD

22750

Recloser locked

1

0 UInt16 1 = 1

0x58DE

22751

Recloser running 1

0 UInt16 1 = 1

0x58DF

22752

Final trip

1 0 UInt16 1 = 1

0x58E0

22753

Auto-Recloser on 1

0 UInt16 1 = 1

unused

22754...

22900

unused

0x59- 22901...- Low limit

74

22910

(primary value)

floa1 0 t32

0x59- 22911...-

7E

22918

High limit (xIn)

floa1 0 t32

0x59- 22919...- Sum of broken

86

22920

current IL11

floa1 0 t32

0x59- 22921...- Sum of broken

88

22922

current IL12

floa1 0 t32

0x59- 22923...- Sum of broken

8A

22924

current IL13

floa1 0 t32

0x59- 22925...- Sum of broken

8C

22926

current IL14

floa1 0 t32

0x59- 22927...- Sum of broken

8E

22928

current IL15

floa1 0 t32

0x59- 22929...- IL1 broken

90

22933

current counter

1 0 UInt16

P5/EN M/33B

P5-

Unit

U20 LPC-
T

P5 U20

P5 V20

P5 F30

P5 M30

LPVT





  

















































































kA





xIn





kA2





kA2





kA2





kA2





kA2









       
227

Communication protocols

First Register Address

Register Number

Description

Re- Wr- Data ad ite type

Value

0x59- 22934...- Sum of broken

95

22935

current IL21

floa1 0 t32

0x59- 22936...- Sum of broken

97

22937

current IL22

floa1 0 t32

0x59- 22938...- Sum of broken

99

22939

current IL23

floa1 0 t32

0x59- 22940...- Sum of broken

9B

22941

current IL24

floa1 0 t32

0x59- 22942...- Sum of broken

9D

22943

current IL25

floa1 0 t32

0x59- 22944...- IL2 broken

9F

22948

current counter

1 0 UInt16

0x59- 22949...- Sum of broken

A4

22950

current IL31

floa1 0 t32

0x59- 22951...- Sum of broken

A6

22952

current IL32

floa1 0 t32

0x59- 22953...- Sum of broken

A8

22954

current IL33

floa1 0 t32

0x59- 22955...- Sum of broken

AA

22956

current IL34

floa1 0 t32

0x59- 22957...- Sum of broken

AC

22958

current IL35

floa1 0 t32

0x59- 22959...- IL3 broken

AE

22963

current counter

1 0 UInt16

0x59- 22964...- Cumul. broken

B3

22965

current IL1

floa1 0 t32

0x59- 22966...- Cumul. broken

B5

22967

current IL2

floa1 0 t32

0x59- 22968...- Cumul. broken

B7

22969

current IL3

floa1 0 t32

0x59B9

22970

CB open counter 1

0 UInt16

0x59BA

22971

Protection trip counter

1 0 UInt16

0x59BB

22972

Rack out counter 1

0 UInt16

0x59- 22973...-

BC

23012

CB opening time 1

0x59- 23013...-

E4

23052

CB Closing time

1

0x5- 23053...A0C 23092

Spring charging

times

1

Modbus can remember 0 UInt16 8 logs. Every log use 5
registers. Register structure is as below: 0 UInt16 register1: Op tjme register2&0xFF: year register3 & 0xFF: day register3 >> 8: month register4 & 0xFF: minutes register4 >> 8: hours register5: 0 UInt16 milliseconds

0x5- 23093...-

A34

23095

Alarm 1

1 0 UInt16

0x5- 23096...-

A37

23098

Alarm 2

1 0 UInt16

unused

23099...

23200

unused

0x5AA0

23201

Logging status

1

0 Bool Off=0;On=1

0x5AA1

23202

Waveform counter

1 0 UInt16

unused

23203

unused

P5-

Unit

U20 LPC-
T

P5 U20

P5 V20

P5 F30

P5 M30

LPVT

kA2









kA2









kA2









kA2









kA2













kA2





kA2





kA2





kA2





kA2













































































































































228

P5/EN M/33B

Communication protocols

First Register Address

Register Number

Description

Re- Wr- Data ad ite type

Value

0x5AA3

23204

Record size

1

0 UInt16 120

0x5AA4

23205

Record management method

1 0 Bool FIFO=0

0x5AA5

23206

File status

1

0 Bool failed=0;ok=1

0x5AA6

23207

Nb of disturb record files

1 0 UInt16

0x5AA7

23208

First file number

1

0 UInt16

0x5AA8

23209

Oldest file number

1 0 UInt16

0x5AA9

23210

Latest file number

1 0 UInt16

unused

23211...

23400

unused

0x5B68

23401

Event Log Version

1

0 UInt16 1

0x5B69

23402

Event Buffer Size 1

0 UInt16 100

0x5B6A

23403

Actual number of

event

1

0 UInt16

0x5B6B

23404

Most Recent Event Entry Number

1 0 UInt16

0x5B6C

23405

Most Recent Event Postion

1 0 UInt16

0x5B6D

23406

Oldest Event Postion

1 0 UInt16

0x5- 23407...-

B6E 24606

Events

1 0 UInt16

unused

24607...

25000

unused

0x61- 25001...-

A8

25016

Label(DI1)

1

0 string

0x61- 25017...-

B8

25032

Label(DI2)

1

0 string

0x61- 25033...-

C8

25048

Label(DI3)

1

0 string

0x61- 25049...-

D8

25064

Label(DI4)

1

0 string

0x61- 25065...-

E8

25080

Label(DI5)

1

0 string

0x61- 25081...-

F8

25096

Label(DI6)

1

0 string

0x62- 25097...-

08

25112

Label(DI7)

1

0 string

0x62- 25113...-

18

25128

Label(DI8)

1

0 string

0x62- 25129...-

28

25144

Label(DI9)

1

0 string

0x62- 25145...-

38

25160

Label(DI10)

1

0 string

0x62- 25161...-

48

25176

Label(DI11)

1

0 string

P5/EN M/33B

P5-

Unit

U20 LPC-
T

P5 U20

P5 V20

P5 F30

P5 M30

LPVT































     













  











































































































































229

First Register Address
0x6258
0x6268
0x6278
0x6288
0x6298
0x62A8
0x62B8
0x62C8
0x62D8
0x62E8
0x62F8
0x6308
0x6318
0x6328
0x6338
0x6348
0x6358
0x6368
0x6378
0x6388
0x6398
0x63A8
0x63B8
0x63C8
0x63D8
0x63E8
0x63F8
0x6408

Register Number

Description

25177...25192
25193...25208
25209...25224
25225...25240
25241...25256
25257...25272
25273...25288
25289...25304
25305...25320
25321...25336
25337...25352
25353...25368
25369...25384
25385...25400
25401...25416
25417...25432
25433...25448
25449...25464
25465...25480
25481...25496
25497...25512
25513...25528
25529...25544
25545...25560
25561...25576
25577...25592
25593...25608
25609...25624

Label(DI12) Label(DI13) Label(DI14) Label(DI15) Label(DI16) Label(DI17) Label(DI18) Label(DI19) Label(DI20) Label(DI21) Label(DI22) Label(DI23) Label(DI24) Label(DI25) Label(DI26) Label(DI27) Label(DI28) Label(DI29) Label(DI30) Label(DI31) Label(DI32) Label(DI33) Label(DI34) Label(DI35) Label(DI36) Label(DI37) Label(DI38) Label(DI39)

Re- Wr- Data ad ite type

1

0 string

1

0 string

1

0 string

1

0 string

1

0 string

1

0 string

1

0 string

1

0 string

1

0 string

1

0 string

1

0 string

1

0 string

1

0 string

1

0 string

1

0 string

1

0 string

1

0 string

1

0 string

1

0 string

1

0 string

1

0 string

1

0 string

1

0 string

1

0 string

1

0 string

1

0 string

1

0 string

1

0 string

230

Value

Communication protocols

P5-

Unit

U20 LPC-
T

P5 U20

P5 V20

P5 F30

P5 M30

LPVT















































































































































P5/EN M/33B

Communication protocols

First Register Address

Register Number

Description

0x64- 25625...-

18

25640

Label(DI40)

0x64- 25641...-

28

25656

Label(DO1(B))

0x64- 25657...-

38

25672

Label(DO2(B))

0x64- 25673...-

48

25688

Label(DO3(B))

0x64- 25689...-

58

25704

Label(DO4(B))

0x64- 25705...-

68

25720

Label(DO1(C))

0x64- 25721...-

78

25736

Label(DO2(C))

0x64- 25737...-

88

25752

Label(DO3(C))

0x64- 25753...-

98

25768

Label(DO4(C))

0x64- 25769...-

A8

25784

Label(DO1(D))

0x64- 25785...-

B8

25800

Label(DO2(D))

0x64- 25801...-

C8

25816

Label(DO3(D))

0x64- 25817...-

D8

25832

Label(DO4(D))

0x64- 25833...-

E8

25848

Label(DO1(E))

0x64- 25849...-

F8

25864

Label(DO2(E))

0x65- 25865...-

08

25880

Label(DO3(E))

0x65- 25881...-

18

25896

Label(DO4(E))

0x65- 25897...-

28

25912

Label(DO5(C))

0x65- 25913...-

38

25928

Label(DO5(D))

0x65- 25929...-

48

25944

Label(DO5(E))

re-

25945...

served 26232

reserved

0x66- 26233...-

78

26248

Label(VI1)

0x66- 26249...-

88

26264

Label(VI2)

0x66- 26265...-

98

26280

Label(VI3)

0x66- 26281...-

A8

26296

Label(VI4)

0x66- 26297...-

B8

26312

Label(VI5)

0x66- 26313...-

C8

26328

Label(VI6)

0x66- 26329...-

D8

26344

Label(VI7)

Re- Wr- Data ad ite type

1

0 string

1

0 string

1

0 string

1

0 string

1

0 string

1

0 string

1

0 string

1

0 string

1

0 string

1

0 string

1

0 string

1

0 string

1

0 string

1

0 string

1

0 string

1

0 string

1

0 string

1

0 string

1

0 string

1

0 string

1

0 string

1

0 string

1

0 string

1

0 string

1

0 string

1

0 string

1

0 string

P5/EN M/33B

Value

P5-

Unit

U20 LPC-
T

P5 U20

P5 V20

P5 F30

P5 M30

LPVT























































































































































































231

First Register Address
0x66E8
0x66F8
0x6708
0x6718
0x6728
0x6738
0x6748
0x6758
0x6768
0x6778
0x6788
0x6798
0x67A8
0x67B8
0x67C8
0x67D8
0x67E8
0x67F8
0x6808
0x6818
0x6828
0x6838
0x6848
0x6858
0x6868
0x6878
0x6888
0x6898

Register Number

Description

26345...26360
26361...26376
26377...26392
26393...26408
26409...26424
26425...26440
26441...26456
26457...26472
26473...26488
26489...26504
26505...26520
26521...26536
26537...26552
26553...26568
26569...26584
26585...26600
26601...26616
26617...26632
26633...26648
26649...26664
26665...26680
26681...26696
26697...26712
26713...26728
26729...26744
26745...26760
26761...26776
26777...26792

Label(VI8) Label(VI9) Label(VI10) Label(VI11) Label(VI12) Label(VI13) Label(VI14) Label(VI15) Label(VI16) Label(VI17) Label(VI18) Label(VI19) Label(VI20) Label(VO1) Label(VO2) Label(VO3) Label(VO4) Label(VO5) Label(VO6) Label(VO7) Label(VO8) Label(VO9) Label(VO10) Label(VO11) Label(VO12) Label(VO13) Label(VO14) Label(VO15)

Re- Wr- Data ad ite type

1

0 string

1

0 string

1

0 string

1

0 string

1

0 string

1

0 string

1

0 string

1

0 string

1

0 string

1

0 string

1

0 string

1

0 string

1

0 string

1

0 string

1

0 string

1

0 string

1

0 string

1

0 string

1

0 string

1

0 string

1

0 string

1

0 string

1

0 string

1

0 string

1

0 string

1

0 string

1

0 string

1

0 string

232

Value

Communication protocols

P5-

Unit

U20 LPC-
T

P5 U20

P5 V20

P5 F30

P5 M30

LPVT

























































































































































































































































































P5/EN M/33B

Communication protocols

First Register Address
0x68A8
0x68B8
0x68C8
0x68D8
0x68E8
0x68F8
0x6908
0x6918
0x6928
0x6938
0x6948
0x6958
0x6968
0x6978
0x6988
0x6998
0x69A8
0x69B8
0x69C8
0x69D8
0x69E8
0x69F8
0x6A08
0x6A18
0x6A28
0x6A38
0x6A48
0x6A58

Register Number

Description

26793...26808
26809...26824
26825...26840
26841...26856
26857...26872
26873...26888
26889...26904
26905...26920
26921...26936
26937...26952
26953...26968
26969...26984
26985...27000
27001...27016
27017...27032
27033...27048
27049...27064
27065...27080
27081...27096
27097...27112
27113...27128
27129...27144
27145...27160
27161...27176
27177...27192
27193...27208
27209...27224
27225...27240

Label(VO16) Label(VO17) Label(VO18) Label(VO19) Label(VO20) Label(Logic1) Label(Logic2) Label(Logic3) Label(Logic4) Label(Logic5) Label(Logic6) Label(Logic7) Label(Logic8) Label(Logic9) Label(Logic10) Label(Logic11) Label(Logic12) Label(Logic13) Label(Logic14) Label(Logic15) Label(Logic16) Label(Logic17) Label(Logic18) Label(Logic19) Label(Logic20) Label(logic1(t)) Label(logic2(t)) Label(logic3(t))

Re- Wr- Data ad ite type

1

0 string

1

0 string

1

0 string

1

0 string

1

0 string

1

0 string

1

0 string

1

0 string

1

0 string

1

0 string

1

0 string

1

0 string

1

0 string

1

0 string

1

0 string

1

0 string

1

0 string

1

0 string

1

0 string

1

0 string

1

0 string

1

0 string

1

0 string

1

0 string

1

0 string

1

0 string

1

0 string

1

0 string

P5/EN M/33B

Value

P5-

Unit

U20 LPC-
T

P5 U20

P5 V20

P5 F30

P5 M30

LPVT

























































































































































































































































































233

First Register Address
0x6A68
0x6A78
0x6A88
0x6A98
0x6AA8
0x6AB8
0x6AC8
0x6AD8
0x6AE8
0x6AF8
0x6B08
0x6B18
0x6B28
0x6B38
0x6B48
0x6B58
0x6B68
0x6B78
0x6B88
0x6B98
0x6BA8
0x6BB8
0x6BC8
0x6BD8
0x6BE8

Register Number

Description

27241...27256
27257...27272
27273...27288
27289...27304
27305...27320
27321...27336
27337...27352
27353...27368
27369...27384
27385...27400
27401...27416
27417...27432
27433...27448
27449...27464
27465...27480
27481...27496
27497...27512
27513...27528
27529...27544
27545...27560
27561...27576
27577...27592
27593...27608
27609...27624
27625...27640

Label(logic4(t)) Label(logic5(t)) Label(logic6(t)) Label(logic7(t)) Label(logic8(t)) Label(logic9(t)) Label(logic10(t)) Label(logic11(t)) Label(logic12(t)) Label(logic13(t)) Label(logic14(t)) Label(logic15(t)) Label(logic16(t)) Label(logic17(t)) Label(logic18(t)) Label(logic19(t)) Label(logic20(t)) Label(Object1) Label(Object2) Label(Object3) Label(Object4) Label(Object5) Label(Object6) Label(Object7) Label(Object8)

Re- Wr- Data ad ite type

1

0 string

1

0 string

1

0 string

1

0 string

1

0 string

1

0 string

1

0 string

1

0 string

1

0 string

1

0 string

1

0 string

1

0 string

1

0 string

1

0 string

1

0 string

1

0 string

1

0 string

1

0 string

1

0 string

1

0 string

1

0 string

1

0 string

1

0 string

1

0 string

1

0 string

Value

Communication protocols

P5-

Unit

U20 LPC-
T

P5 U20

P5 V20

P5 F30

P5 M30

LPVT



























































































































































































































































234

P5/EN M/33B

Communication protocols
Modbus master
External analog inputs and digital inputs or outputs can be added to the Easergy P5 protection relay via external Modbus I/O. This protocol is based on Modbus RTU master and RS-485 bus structure. User can configure and read external AI/ DI/DO through eSetup Easergy Pro. User can also read these external AI/DI/DO through the HMI.

Function description

The Easergy P5 protection relay supports application functions include: · Modbus master: analog inputs and alarms · Modbus master: digital inputs · Modbus master: digital outputs · Modbus master: DO matrix · Modbus master: names config

Main configuration parameters
The picture and table below explain how to configure an Easergy P5 protection relay to use the Modbus master protocol.
Figure 4 - Modbus master main configuration view

Table 45 - Modbus master main configuration parameters

Parameter External I/O speed transm
Parity

Value
1200, 2400, 4800, 9600, 19200, 38400, 57600, 115200
None, Even, Odd

Description The communication speed, bits per second
The type of parity bit used

P5/EN M/33B

235

Communication protocols
Modbus master analog inputs
Find the "Modbus master: analog inputs" and "Modbus master: analog input alarm" menus in eSetup Easergy Pro. Up to 64 points of External AI can be configured. All External AI can be read through HMI control / ExtAI.
Figure 5 - Modbus master: analog inputs menu

Figure 6 - Modbus master: analog inputs alarm menu

Refer to the table below for the proper values to the parameters "AI Enabled", "AI Unit", "AI slave address", "AI Modbus address", "AI register type" and "AI signed".
Table 46 - Modbus master: analog inputs configuration parameters

Parameter AI Enabled AI Unit
AI slave address AI Modbus address AI register type AI signed AI offset AI scale Alarm 1 pick-up value Alarm 2 pick-up value Alarm hysteresis

Value
On, Off
°C, F, K, V/A, mA, A, V, kW, kVA, kvar
1-247
1-9999
InputR, HoldingR
On, Off
-32768 - 32767
0.001-1000.000
float
float
0.0-10000.0

Description Enable or disable this AI. Unit of this AI
Modbus slave address Modbus register address AI Modbus register type Signed interger or Unsigned integer Offset of AI Meas Scale of AI Meas Threshold for this AI alarm1 Threshold for this AI alarm2 Hysteresis for alarms

Since holding registers are 16 bits in size, the external analog inputs menu give proper values to AI specific scaling. AI Meas is the product of the received value multiplied by the AI scale. The scaling is determined by the float value of AI scale. It is common to use scaling factors with base ten (0.100,1.000,10.000, 100.000...). In such cases, the original measurements only lose decimals and such values are easy to read and rescale to actual values on the client side after transmission.

236

P5/EN M/33B

Communication protocols
Modbus master digital inputs
Find the "Modbus master: digital inputs" menu on eSetup Easergy Pro. Up to 18 points of External DI can be configured. All External DI can be read through HMI control / ExtDI.
Figure 7 - Modbus master: digital inputs menu

Refer to the table below for a more detailed explanation on the values that can be assigned to the parameters of this menu.
Table 47 - Modbus master: digital inputs configuration parameters

Parameter DI Enabled DI slave address DI Modbus address DI register type
DI selected bit

Value
On, Off
1-247
1-9999
InputR, HoldingR, CoilS, InputS
1-16

Description Enable or disable this DI.60870-5-101 Modbus slave address Modbus register/coil address AI Modbus register type
Select DI bit for DI state

Modbus master digital outputs
Find the "Modbus master: digital outputs" menu on the eSetup Easergy Pro. Up to 16 points of External DO can be configured. All External DO can be read through HMI control / ExtDO.
Figure 8 - Modbus master: digital outputs menu

Refer to the table below for a more detailed explanation on the values that can be assigned to the parameters of this menu.
Table 48 - Modbus master: digital outputs configuration parameters

Parameter DO Enabled
DO slave address DO Modbus address

Value
On, Off 1-247 1-9999

Description Enable or disable this DO
Modbus slave address Modbus coil address

"Modbus master DO matrix is used to link protection Events (e.g. I> start, External AI alarm/trip, .....) or External DI states to DO.

P5/EN M/33B

237

Figure 9 - Modbus master DO matrix

Communication protocols

Measurements

The external AI can be obtained by mimic through eSetup Easergy Pro or the HMI. Six or eight measurements can be shown in the main display of the Easergy P5 protection relay with small LCD screen or large one, respectively.
Figure 10 - External AI shown on the mimic screen in eSetup Easergy Pro

238

P5/EN M/33B

Communication protocols
Modbus master names configuration
The user can configure the labels and descriptions of Modbus master AI, DI and DO through eSetup Easergy Pro. Corresponding description in Mimic, Matrix and events log will be updated too. Figure 11 - The External AI names configuration view
Figure 12 - The External DI names configuration view

P5/EN M/33B

239

Communication protocols Figure 13 - The External DO names configuration view

240

P5/EN M/33B

Communication protocols
EtherNet/IP
Presentation
P5/EN M/33B

The Easergy P5 protection relays support communication using EtherNet/IP protocol which is a part of Common Industrial Protocol (CIP) family. EtherNet/IP protocol is available with the optional inbuilt Ethernet port. The protocol can be used to read/write data from/to the Easergy P5 protection relays using request/ response communication or via cyclic messages transporting data assigned to assemblies (data sets).
Messaging
EtherNet/IP supports two modes of messaging, unconnected and connected messaging.
· Unconnected messaging refers to peer-to-peer communication, where opening and closing of connections is allowed via unconnected messaging. This is handled by the UnConnected Message Manager (UCMM). Messages are sent over TCP/IP.
· Connected messaging, on the other hand, is dedicated to a particular purpose, such as frequent explicit message transactions or real-time I/O data transfers. Connection resources are reserved and configured using communication services available via the UCMM. Messages are sent over TCIP/IP and User Datagram Protocol (UDP).
EtherNet/IP specifies a special encapsulation protocol to carry CIP messages over TCP/IP and UDP.
There are two types of connections, explicit and implicit. · Explicit connections refer to request-response connections which are general purpose connections. Explicit connections use TCP/IP and use either unconnected messaging via UCMM (one-time request/response) or Class 3 connections (cyclic request /response). · In implicit connections, only application data is contained within the messages. Implicit data may be polled, cyclic or Change of State (COS) messages. Implicit connections are either point-to-point (unicast) or one-tomany (multicast) connections. Implicit connections use UDP/IP.
Devices
There are two classes of devices in a CIP network, adapters and scanners. · Adapters are targets of real-time I/O data connection. Adapters cannot send or receive real-time data unless requested to do so by a scanner device. Adapters can exchange data using explicit messages with any class of devices but cannot originate a connection. · Scanners are originators of I/O data connection requests and originators or targets of explicit connection requests.
Objects
Objects in CIP (and thereby EtherNet/IP) are defined by: · A description ­ a description of an object being specified. · A class code (Class ID) ­ hexadecimal identifier assigned to each CIP object · Attributes ­ data elements associated with the object. · Common services ­ list of the common services defined for the object. · Object-specific Services ­ the full specifications of any services unique to the object · Connections ­ connections supported by the object. · Behaviour ­ the relationship between attribute values and services.
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The CIP also includes an Object Library, which is a set of standardised objects that covers protocol objects such as the Identity Object, Assembly Object, etc. as well as Application Objects. The Object Library covers basic automation blocks and some more complex devices, including Digital Input, Digital Output, etc.
Figure 14 - CIP object model

Application Object(s) Assembly Object

Parameter Object

Identity Object

Message Router

Optional

I/O

Explicit Msg

Connection Manager or Connection Object

CIP Network

Required

Network Specific Link Object(s)

Table 49 - CIP object description

Object Connection object Message router
Assembly object
Identity object

Description
The CIP Communication Object manages and provides the runtime exchange of messages.
The Message Router Object provides a messaging connection point through which a Client may address a service to any object class or instance residing in the physical device. It routes explicit messages over requested paths.
The Assembly Object binds attributes of multiple objects, which in allows data to or from each of these objects to be sent or received over a single connection (like a data set). Assembly objects can be used to group input data (producing instance of an Assembly Object ­ information transmitted to the network) or output data (consuming instance of an Assembly Object ­ information received from the network). I/O connections are established between Assembly Object instances of the devices ­ between inputs and outputs. Assembly object instances are accessible via explicit messaging.
Provides device identification and general information about the device, such as vendor identifier, product code, name, status, etc. The Identity Object shall be present in all CIP products.

Application Objects are based on the standard objects from the Object Library if possible, if not, vendors can define their own, private (vendor specific) Application Objects. CIP specifies the Class ID ranges for that purpose.
Table 50 - CIP Class ID ranges

Range (hexadecimal)
0x00...0x63
0x64...0xC7

Meaning
Open Vendor specific

Quantity
100 100

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Table 50 - CIP Class ID ranges (Continued)

Range (hexadecimal) 0xC8...0xEF 0xF0...0x2FF 0x300...0x4FF 0x500...0xFFFF

Meaning

Quantity

Reserved by CIP for future use 40

Open

528

Vendor specific

512

Reserved by CIP for future use 64256

Device profile
The series of application objects for Easergy P5 is known as the device profile. A large number of profiles for many device types have been defined. An example of a device profile is shown in Device profile, page 243.

EtherNet/IP main features
EtherNet/IP main features:
· Static data model:
 2 standard objects (Overload and Control Supervisor)
 2 private objects (one for digital data and one for analog data)
 4 configuration objects for configuration of protection functions
· Two configurable assemblies (one producing and one consuming) with the maximum capacity of 128 bytes. Each configuration is described in an Electronic Data Sheet (EDS) file. Each EDS file that can be fed to any client supporting EDS files and can be generated at any time, all changes to EtherNet/IP configuration or to assemblies' content require generating of the new EDS file, see Generating an EDS File with eSetup Easergy Pro, page 250.
· Three types of communications are supported:
 UCMM (one time request / response)
 Class 3 connection (cyclic request / response)
 Class 1 connection (cyclic IO messages containing assemblies' data)

Function description

EtherNet/IP protocol is available on Easergy P5 protection relays with an optional embedded Ethernet card. Easergy P5 protection relays with the EtherNet/IP protocol selected on the Ethernet port serves as an adapter which means that it is not able to initiate communication with other devices on the network.

Objects and messaging

The EtherNet/IP implementation on Easergy P5 protection relays supports all required standard objects with their required attributes. There is also a total of 10 application objects from which 8 are private. A list of Easergy P5 device objects and their classes is shown in the table below.
Table 51 - Device profile

Class 0x01 0x02 0x04 0x06

Object Identity Message Router Assembly Connection Manager

Object Category Protocol

Standard

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Table 51 - Device profile (Continued)

Class 0xF5 0xF6 0x29 0x2C 0x64 0x65 0x66 0x67 0x68 0x69 0x70 0x71

Object TCP/IP Interface Ethernet Link Control Supervisor Overload Digital Analog StgProtCurrent StgProtEF StgProtOther StgGeneral Analog2 Special

Object Category Application

Private (vendor specific)

The EtherNet/IP implementation in Easergy P5 protection relays supports three types of communication:
· Unconnected Explicit Requests and Responses ­ used mainly for establishing explicit and I/O connections, but can also be used for one time requests to attributes of data model objects.
· Explicit Messaging (Class 3) connections ­ these are strictly point-to-point connections used to cyclically query the adapter for some data or to cyclically write data to the adapter. Transmitted using TCP.
· I/O Messaging (Class 1) connections ­ can be point-to-point or multicast. Used for very frequent exchange of process data. Easergy P5 protection relays support only cyclic I/O connections. Transmitted using UDP.
Connection limits:
· For Class 3 connections ­ a maximum of six connections at the same time.
· For Class 1 connections ­ only one connection at the same time.

Supported services

Easergy P5 protection relays support following services for objects: · GAA = Get Attribute All · GAS = Get Attribute Single · SAS = Set Attribute Single
GAS service is available for all attributes with the GET or GET (to access) | SET (to modify) access type and the SAS service is available for all attributes with the GET | SET or SET access type.
A list of Easergy P5 device services for objects is shown in the table below.
Table 52 - Supported services for objects

Class
0x01 0x02 0x04 0x06 0xF5

Object
Identity Message router Assembly Connection manager TCP/IP interface

Object Category Get GAA, GAS ­ GAS ­ GAA, GAS

Set ­ ­ SAS ­ ­

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Table 52 - Supported services for objects (Continued)

Class
0xF6 0x29 0x2C 0x64 0x65 0x66 0x67 0x68 0x69 0x70 0x71

Object
Ethernet link Control supervisor Overload Digital Analog StgProtCurrent StgProtEF StgProtOther StgGeneral Analog2 Special

Object Category Get GAA, GAS GAS GAS GAS GAS GAS GAS GAS GAS GAS GAS

Set ­ SAS SAS SAS SAS SAS SAS SAS SAS SAS SAS

I/O messaging assemblies

EtherNet/IP implementation on Easergy P5 protection relays includes a total of two producing assemblies (Tx, Target  Originator) and two consuming assemblies (Rx, Target  Originator); see table below.
Table 53 - Available assemblies

Instance no. 2 50 100 150

Type Producing Consuming Producing Consuming

Description Static Basic Output Image Static Basic Image Configurable Output Image (dynamic) Configurable Input Image (dynamic)

Additionally, a zero-length configuration assembly with instance number "199" is available.
Assemblies have to be configured during the device setup. Configuring assemblies involve selecting the producing and consuming instances to be used.
If dynamic assemblies (instance numbers 100 and 150) are used it is also needed to configure the contents of both assemblies. By default both assemblies are configured with one byte of data each. By default producing assembly is configured with "Control Supervisor Object" / "Faulted attribute" and consuming assembly with "Control Supervisor Object" / "FaultRst".
I/O connections with Easergy P5 protection relays are opened with the Requested Packet Interval (RPI) no less than 50 ms and not greater than 5 s. The default Value is 100 ms.

Electronic data sheet (EDS)
Every change to main configuration parameters or assemblies configuration requires a new EDS file to be generated (once all changes are made and the device is about to be used in the network).
Some of the configuration tools are capable of simplifying device configuration based on the EDS file. In the current implementation the EDS file can only be generated from eSetup Easergy Pro ­ EDS file extraction over the EtherNet/IP network is not supported in the Easergy P5 protection relay.

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EDS file cannot be extracted from the Easergy P5 protection relay over the EtherNet/IP network, rather, it must be generated with eSetup Easergy Pro. This operation is explained in Generating an EDS File with eSetup Easergy Pro, page 250.

Events
Easergy P5 protection relay events are available under the following attributes of Digital Object (0x64)
· Attribute 118 ­ Event code (bits 0-5: code, bits 6-15: channel)
· Attribute 119 ­ Event milliseconds and seconds (bits 0-5: seconds, bits 6-15: milliseconds)
· Attribute 120 ­ Event min and hour (bits 0-7: hour, bits 8-15: minutes)
· Attribute 121 ­ Event day and month (bits 0-7: month, bits 8-15: day)
· Attribute 122 ­ Event year
Events are read starting from the oldest one in the Event Buffer of the Easergy P5 protection relay. Events are read sequentially, the next event is read when the previous one is acknowledged. Acknowledgement is done by setting attribute 123 of the Digital Object (0x64) ­ Event Ack. When all events have been read and the event buffer is thus empty, the attributes will contain zero-data (zeroes). This zerodata will automatically be replaced with the data of a new event when one is registered.
Reading of events is the same for all communication types. The Easergy P5 protection relay sends the oldest available event. The next oldest event will be read only after setting the Event Ack parameter (the one previously read is not available any more) or after the event buffer has been cleared and a new event is generated later on.

Fault codes

The table below contains a translation of Easergy P5 protection relay stages to EtherNet/IP Fault Codes.
Table 54 - EtherNet/IP fault code

EtherNet/IP fault code
20

Description Current trip

21

Thermal overload

26

Phase unbalance

27

Earth/ground fault

29

Underload

31

Stall

51

Undervoltage

52

Overvoltage

54

Phase reversal

55

Frequency

73

START/HOURS

Exceed

Protection stage
Overcurrent I> Overcurrent I>> Overcurrent I>>>
Thermal Overload T>
Unbalance I2>
Earth Fault Io> Earth Fault Io>> Earth Fault Io>>> Earth Fault Io>>>>
Under Current Stage I<
Motor Startup Supervision Ist>
U< U<< U<<<
U> U>> U>>>
Unbalance I2>>
f< f<< f>< f>><<
Motor Restart Inhibition N>

ANSI 50/51
49 46 50N/51N
37 48 27
59
47 81U 81
66

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EtherNet/IP main configuration

The configuration of the EtherNet/IP settings is done in the EtherNet/IP main configuration view of the COMMUNICATION menu in eSetup Easergy Pro or Web HMI.
EtherNet/IP main configuration parameters are listed in the table below:
Table 55 - Description of the EtherNet/IP main configuration parameters

Parameter General Multicast IP Address Multicast TTL
Vendor ID Device Type Product Code
Major Revision
Minor Revision
Serial Number Product Name Auto/Manual Header Detection
I/O assembly instances in use
Producing Producing instance number Include Run/Idle Header (Producing) Producing Instance Size Consuming Consuming Instance Include Run/Idle Header (Consuming) Consuming Instance Size Configuration Configuration Instance Configuration Instance Size

Value
1­100 1­65535 0­65535 1-65535 1­127 1­255 0-4294967295 32 chars Manual Auto (default) 2+50, (default) 100+150
1­1278 On/Off
[bytes]
1­1278 On/Off
[bytes]
1­1279 [bytes]

Description
Multicast IP address used for sending IO messages Time to live of the IO messages sent to multicast address Identification of Schneider Electric Indication of general type of product Identification of a particular product of an individual vendor Major revision of the item the Identity Object represents Minor revision of the item the Identity Object represents Serial number of device Human readable identification Include Run/Idle Header parameters are used to define whether Run/Idle Header is used. Run/Idle Headers are detected automatically Instance numbers of producing and consuming assemblies being used
Instance number of producing assembly (not directly editable) 34 Include or exclude Run/Idle Header in an outgoing IO messages
The size of the producing assembly (not directly editable) 35
Instance number of consuming assembly
Expect presence or absence of Run/Idle Header in an incoming IO messages
The size of the consuming assembly (not directly editable) 35
Instance number of configuration instance
The size of the consuming assembly (not directly editable) 35

34. Automatically updated according to the value of "I/O assembly instances in use" parameter. 35. Automatically updated as the assemblies are configured.

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Multicast IP
Multicast IP address is a parameter used by the device to send EtherNet/IP multicast packets, if requested to do so by the scanner. Multicast IP is a valid Class D IP address. In device there is only one possible I/O connection at a time and therefore only single Multicast IP is used.
Multicast IP parameter is ignored when scanner requested T  O (target-tooriginator, i.e. adapter to scanner) communication to be point-to-point. The default value of this parameter is 239.0.0.1.
Multicast TTL
Multicast TTL value is used for the IP header Time-to-live field when sending EtherNet/IP multicast packets. This value is ignored for the unicast packets and TTL as configured for the TCP/IP stack is used instead. The default value of this parameter is 1 (the number of network hops over which the multicast packet is propagated ­ datagrams limited to the local subnet).
Auto/Manual header detection
When this parameter is set to "Manual", user needs to define manually the presence of Run/Idle header in the I/O messaging. This is done by configuring parameters "Include Run/Idle Header" for more information, see Include Run/Idle header (producing), page 248 and Include Run/Idle header (consuming), page 248. When "Auto" is selected, Easergy P5 protection relays automatically detect whether Run/Idle header is used in the I/O messaging. The default value of this parameter is "Auto".
I/O assembly instances in use
Selection of producing and consuming instances to be used. The values of producing and consuming assemblies are available in the EDS file (see Generating an EDS File with eSetup Easergy Pro, page 250) and are used by the configuration tool as a reference path during I/O connection opening.
Every change to this parameter requires restarting the device and generation of a new EDS file.
Include Run/Idle header (producing)
An I/O connection can be established with or without the Run/Idle Header in the Target  Originator direction (adapter to scanner). Including Run/Idle Header in the producing assembly adds additional 4 bytes to the beginning of the data part of an I/O message. Run bit is always set in the outgoing messages if Easergy P5 protection relays are configured to send I/O messages with the Run/Idle Header. Information about whether the Run/Idle Header is included in the outgoing messages is available in the EDS file and can be used by the eSetup Easergy Pro to properly establish communication.
Every change to this parameter requires generation of a new EDS file.
The default value of this parameter is "Off".
Include Run/Idle header (consuming)
An I/O connection can be established with or without the Run/Idle Header in the Target  Originator direction (scanner to adapter). Setting this value to "On" inform the eSetup Easergy Pro that Easergy P5 protection relays expect the consuming assembly to contain additional 4 bytes of data. If the Run/Idle Header is included and the Run bit is set in the incoming I/O messages then Easergy P5 protection relays process received data, and if the Run bit is cleared then P5 device ignores received data. If the Run/Idle Header is not included in the

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incoming I/O messages then the received data is always processed. Information about whether the Run/Idle Header is expected in the incoming I/O messages is available in the EDS file and can be used by the eSetup Easergy Pro to properly establish communication.
Every change to this parameter requires generation of a new EDS file. The default value of this parameter is "On".
NOTE:
Changing of both "Include Run/Idle Header" parameters while the I/O connection is running is not allowed by Easergy P5 protection relays.
Data point configuration
Available data items, that is, the contents of the Producing Assembly and the Consuming Assembly can be viewed / configured in the following eSetup Easergy Pro menus:
· EtherNet/IP I/O 2+50 (static) · EtherNet/IP I/O 100+150 (dynamic) Assembly 2+50 is static, meaning user cannot make changes to the contents of assembly. Assembly 100+150 is dynamic, meaning user can select data items to the assembly by clicking on a row and selecting a desired data point. An example of this is shown in figure below.
Figure 15 - Configuration of the EtherNet/IP producing assembly

P5/EN M/33B

Table 56 - Description of assembly configuration parameters table contents

Attribute Name Length Scaling Offset

Description Type and name of the data item Length of the data item in bytes The scaling used for the data item The offset of the data item in the assembly

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Communication protocols
NOTE: Making changes to the assemblies will require a device reboot for the changes to take effect. A list of the set of available data items in EtherNet/IP, see Data model of EtherNet/IP, page 250.
Generating an EDS File with eSetup Easergy Pro
Changes to main configuration parameters or the configuration of assemblies requires a new EDS file to be generated (once all changes are made and the device is about to be used in the network).
An EDS file can be generated with eSetup Easergy Pro or Web HMI in the COMMUNICATION menu. Selecting the option "Export Ethernet IP EDS file..." will generate the EDS file and bring up a file browser window asking where to save the generated file. After clicking Save the generated EDS file will be stored at the selected location.
Figure 16 - Exporting an EDS file

Data model of EtherNet/IP

Class

Name

0x71 0x71 0x71 0x71 0x71 0x71 0x71

Special#001/1 byte padding
Special#002/2 bytes padding
Special#003/Requested packet interval time
Special#004/Controller Output Image 100 Size
Special#005/Controller Input Image 150 Size
Special#006/Controller Input Image 100 Size
Special#007/Controller Output Image 150 Size

Length Read

1

1

2

1

Write

Cont. mode

1

1

1

1

P5U20 LPCT LPVT



P5U20 P5V20 P5F30 P5M30

















4

1

1

0

2

1

0

0

2

1

0

0

2

1

0

0

2

1

0

0

250

P5/EN M/33B

Communication protocols

Class

Name

Length

0x29 Control Supervisor#003/Run1

1

0x29 Control Supervisor#010/Faulted

1

0x29 Control Supervisor#011/Warning

1

0x29 Control Supervisor#012/FaultRst

1

0x29 Control Supervisor#013/Fault code

1

0x29

Control Supervisor#014/Warning code

1

0x29

Control Supervisor#022/ CycleCount

4

0x2C Overload#005/AvgCurrent

4

0x2C Overload#006/%PhImbal

1

0x2C Overload#007/%Thermal

1

0x2C Overload#008/CurrentL1

4

0x2C Overload#009/CurrentL2

4

0x2C Overload#010/CurrentL3

4

0x2C Overload#011/Earth-fault current

4

0x64 Digital#001/Digital inputs

4

0x64 Digital#002/Output relays

4

0x64 Digital#003/Alive indicator

2

0x64 Digital#004/Events

4

0x64 Digital#005/Remote/Local State

1

0x64

Digital#006/Cancel selected operation

1

0x64

Digital#007/OM_MB_ ResetLatches

1

0x64 Digital#008/Synchronize minutes

1

0x64 Digital#009/Object1 state

1

0x64 Digital#010/Object2 state

1

0x64 Digital#011/Object3 state

1

0x64 Digital#012/Object4 state

1

0x64 Digital#013/Object5 state

1

0x64 Digital#014/Object6 state

1

0x64 Digital#015/Object7 state

1

0x64 Digital#016/Object8 state

1

0x64 Digital#017/Open select Object1

1

0x64 Digital#018/Close select Object1

1

0x64

Digital#019/Execute operation Object1

1

0x64

Digital#020/Max ctrl pulse length of Object1

4

0x64 Digital#021/Open select Object2

1

0x64 Digital#022/Close select Object2

1

0x64

Digital#023/Execute operation Object2

1

0x64

Digital#024/Max ctrl pulse length of Object2

4

Read
1 1 1 0 1 1
1 1 1 1 1 1 1 1 1 1 1 1 1 0
1 1 1 1 1 1 1 1 1 1 1 1 0
1 1 1 0
1

Write
1 0 0 1 0 0
1 0 0 0 0 0 0 0 0 0 0 0 0 1
1 1 0 0 0 0 0 0 0 0 1 1 1
1 1 1 1
1

Cont. mode
1 1 1 1 1 1
1
1 1 1 1 1 1 1 1 1 1 1 1
1
1 1 1 1 1 1 1 1 1 1 1 1
1
1
1 1
1
1

P5U20 LPCT LPVT
     

           

           


 



P5U20
     
             
            
   


P5V20
     
             
            
   


P5F30
     
             
            
   


P5M30
     
             
            
   


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Communication protocols

Class

Name

Length Read

0x64 Digital#025/Open select Object3

1

1

0x64 Digital#026/Close select Object3

1

1

0x64

Digital#027/Execute operation Object3

1

0

0x64

Digital#028/Max ctrl pulse length of Object3

4

1

0x64 Digital#029/Open select Object4

1

1

0x64 Digital#030/Close select Object4

1

1

0x64

Digital#031/Execute operation Object4

1

0

0x64

Digital#032/Max ctrl pulse length of Object4

4

1

0x64 Digital#033/Open select Object5

1

1

0x64 Digital#034/Close select Object5

1

1

0x64

Digital#035/Execute operation Object5

1

0

0x64

Digital#036/Max ctrl pulse length of Object5

4

1

0x64 Digital#037/Open select Object6

1

1

0x64 Digital#038/Close select Object6

1

1

0x64

Digital#039/Execute operation Object6

1

0

0x64

Digital#040/Max ctrl pulse length of Object6

4

1

0x64 Digital#041/DirectO1O

1

0

0x64 Digital#042/DirectO1C

1

0

0x64 Digital#043/DirectO2O

1

0

0x64 Digital#044/DirectO2C

1

0

0x64 Digital#045/DirectO3O

1

0

0x64 Digital#046/DirectO3C

1

0

0x64 Digital#047/DirectO4O

1

0

0x64 Digital#048/DirectO4C

1

0

0x64 Digital#049/DirectO5O

1

0

0x64 Digital#050/DirectO5C

1

0

0x64 Digital#051/DirectO6O

1

0

0x64 Digital#052/DirectO6C

1

0

0x64 Digital#053/Pos. sequence I1

4

1

0x64 Digital#054/Negative sequence I2

4

1

0x64 Digital#055/Current ratio I2/I1

4

1

0x64

Digital#056/Current phase sequence

1

1

0x64 Digital#057/Pos. sequence U1

4

1

0x64 Digital#058/Negative sequence U2

4

1

0x64 Digital#059/Voltage U2/U1

4

1

0x64

Digital#060/Voltage phase sequence

1

1

Write

Cont. mode

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

P5U20 LPCT LPVT
  
   
   
   
                    

P5U20 P5V20 P5F30 P5M30

















































































































































































































































































252

P5/EN M/33B

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Class

Name

0x64 0x64 0x64 0x64 0x64 0x64 0x64 0x64 0x64 0x64 0x64 0x64 0x64 0x64 0x64 0x64 0x64 0x64 0x64 0x64 0x64 0x64 0x64 0x64 0x64
0x64
0x64 0x64 0x64 0x64 0x64 0x64 0x64 0x64 0x64 0x64 0x64
0x64

Digital#061/Voltage interrupt Digital#062/Voltage status Digital#063/Clear min/max/ demand Digital#064/Pos. sequence I1' Digital#065/Negative sequence I2' Digital#066/Current I' -seq./+seq. Digital#067/Current I' phase seq. Digital#068/Shot1 start counter Digital#069/Shot2 start counter Digital#070/Shot3 start counter Digital#071/Shot4 start counter Digital#072/Shot5 start counter Digital#073/AR start counter Digital#074/AR fail counter Digital#075/AR shot number Digital#076/Direct trip AR request Digital#077/Recloser locked Digital#078/Recloser running Digital#079/Final trip Digital#080/Auto-Recloser on Digital#081/Timer 1 status Digital#082/Timer 2 status Digital#083/Timer 3 status Digital#084/Timer 4 status Digital#085/Logic output states 1...8 Digital#086/Logic output states 9...16 Digital#087/Logic output states 17...20 Digital#088/Stage start state Digital#089/Stage trip state Digital#090/N> alarm Digital#091/Motor start disabled Digital#092/Motor starting Digital#093/Motor running Digital#094/CB operation alarm 1 Digital#095/CB operation alarm 2 Digital#096/Alarm L1..L3 Digital#097/Fault L1..L3 Digital#098/SetGrp common change

Length Read

1

1

1

1

1

1

4

1

4

1

4

1

1

1

2

1

2

1

2

1

2

1

2

1

2

1

2

1

1

1

2

1

2

1

2

1

2

1

2

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

Write
0 0 1 1 1 0 0 1 1 1 1 1 1 1 0 0 0 0 0 0 1 1 1 1 0
0
0 0 0 0 0 0 0 0 0 0 0
1

Cont. mode
1 1
1
1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1
1
1
1
1 1 1 1 1 1 1 1 1 1
1

P5U20 LPCT LPVT
  
                 

           

P5U20 P5V20

 



























































































P5F30 P5M30







































































































P5/EN M/33B

253

Communication protocols

Class

Name

Length Read

0x64 Digital#099/Sync1 request

1

1

0x64 Digital#100/Sync1 OK

1

1

0x64 Digital#101/Bypass

1

1

0x64 Digital#102/Sync1 fail

1

1

0x64 Digital#103/Phase angle difference

2

1

0x64 Digital#109/Virtual outputs

2

1

0x64 Digital#114/Engine running hours

4

1

0x64

Digital#115/Engine running (in seconds)

2

1

0x64 Digital#116/Start counter

2

1

0x64 Digital#117/Reset diagnostics

1

1

0x64 Digital#118/Event Code

2

1

0x64 Digital#119/Event Millisec And Sec

2

1

0x64 Digital#120/Event Min And Hour

2

1

0x64 Digital#121/Event Day And Month

2

1

0x64 Digital#122/Event Year

2

1

0x64 Digital#123/Event Ack

1

1

0x64 Digital#124/Device status

1

1

0x64 Digital#125/DI1 counter

2

1

0x64 Digital#126/DI2 counter

2

1

0x64 Digital#127/DI3 counter

2

1

0x64 Digital#128/DI4 counter

2

1

0x64 Digital#129/DI5 counter

2

1

0x64 Digital#130/DI6 counter

2

1

0x64 Digital#131/DI7 counter

2

1

0x64 Digital#132/DI8 counter

2

1

0x64 Digital#133/DI9 counter

2

1

0x64 Digital#134/DI10 counter

2

1

0x64 Digital#135/DI11 counter

2

1

0x64 Digital#136/DI12 counter

2

1

0x64 Digital#137/DI13 counter

2

1

0x64 Digital#138/DI14 counter

2

1

0x64 Digital#139/DI15 counter

2

1

0x64 Digital#140/DI16 counter

2

1

0x64 Digital#141/DI17 counter

2

1

0x64 Digital#142/DI18 counter

2

1

0x64 Digital#143/DI19 counter

2

1

0x64 Digital#144/DI20 counter

2

1

0x64 Digital#145/DI21 counter

2

1

0x64 Digital#146/DI22 counter

2

1

0x64 Digital#147/DI23 counter

2

1

Write

Cont. mode

0

1

0

1

1

1

0

1

0

1

0

1

1

1

1

1

1

1

1

1

0

1

0

1

0

1

0

1

0

1

1

1

0

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

P5U20 LPCT LPVT
   
 

                        

P5U20 P5V20 P5F30 P5M30













































































































































































































































































254

P5/EN M/33B

Communication protocols

Class

Name

0x64 0x64 0x64 0x64 0x64 0x64 0x64 0x64 0x64 0x64 0x64 0x64 0x64 0x64 0x64 0x64 0x64 0x64 0x64 0x64 0x64 0x64 0x64 0x64 0x64 0x64 0x64 0x64 0x64 0x64 0x64 0x64 0x64 0x64 0x64 0x64 0x64 0x64 0x64 0x64 0x64

Digital#148/DI24 counter Digital#149/DI25 counter Digital#150/DI26 counter Digital#151/DI27 counter Digital#152/DI28 counter Digital#153/DI29 counter Digital#154/DI30 counter Digital#155/DI31 counter Digital#156/DI32 counter Digital#157/DI33 counter Digital#158/DI34 counter Digital#159/DI35 counter Digital#160/DI36 counter Digital#161/DI37 counter Digital#162/DI38 counter Digital#163/DI39 counter Digital#164/DI40 counter Digital#199/Virtual input 1 Digital#200/Virtual input 2 Digital#201/Virtual input 3 Digital#202/Virtual input 4 Digital#203/Virtual input 5 Digital#204/Virtual input 6 Digital#205/Virtual input 7 Digital#206/Virtual input 8 Digital#207/Virtual input 9 Digital#208/Virtual input 10 Digital#209/Virtual input 11 Digital#210/Virtual input 12 Digital#211/Virtual input 13 Digital#212/Virtual input 14 Digital#213/Virtual input 15 Digital#214/Virtual input 16 Digital#215/Virtual input 17 Digital#216/Virtual input 18 Digital#217/Virtual input 19 Digital#218/Virtual input 20 Digital#219/Virtual output 1 Digital#220/Virtual output 2 Digital#221/Virtual output 3 Digital#222/Virtual output 4

P5/EN M/33B

Length Read

2

1

2

1

2

1

2

1

2

1

2

1

2

1

2

1

2

1

2

1

2

1

2

1

2

1

2

1

2

1

2

1

2

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

Write
1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1

Cont. mode
1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1

P5U20 LPCT LPVT
                       

P5U20 P5V20

































































































P5F30 P5M30





































































































































































255

Communication protocols

Class

Name

0x64 0x64 0x64 0x64 0x64 0x64 0x64 0x64 0x64 0x64 0x64 0x64 0x64 0x64 0x64 0x64 0x65 0x65 0x65 0x65 0x65 0x65 0x65 0x65 0x65 0x65
0x65
0x65
0x65
0x65 0x65 0x65 0x65 0x65
0x65
0x65
0x65
0x65

Digital#223/Virtual output 5 Digital#224/Virtual output 6 Digital#225/Virtual output 7 Digital#226/Virtual output 8 Digital#227/Virtual output 9 Digital#228/Virtual output 10 Digital#229/Virtual output 11 Digital#230/Virtual output 12 Digital#231/Virtual output 13 Digital#232/Virtual output 14 Digital#233/Virtual output 15 Digital#234/Virtual output 16 Digital#235/Virtual output 17 Digital#236/Virtual output 18 Digital#237/Virtual output 19 Digital#238/Virtual output 20 Analog#001/Phase current IL1 Analog#002/Phase current IL2 Analog#003/Phase current IL3 Analog#004/Frequency Analog#005/Io residual current Analog#006/Io' residual current Analog#007/Residual voltage Analog#008/Active power Analog#009/Reactive power Analog#010/Apparent power Analog#011/Phase-to-Phase voltage U12 Analog#012/Phase-to-Phase voltage U23 Analog#013/Phase-to-Phase voltage U31 Analog#014/Exported energy Analog#015/Imported energy Analog#016/Exp. reactive energy Analog#017/Imp. reactive energy Analog#018/Power factor Analog#019/Phase-to-earth voltage VL1 Analog#020/Phase-to-earth voltage VL2 Analog#021/Phase-to-earth voltage VL3 Analog#022/Tangent 

Length Read

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

4

1

4

1

4

1

4

1

4

1

4

1

4

1

4

1

4

1

4

1

Write

Cont. mode

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

P5U20 LPCT LPVT
                   
   

P5U20 P5V20 P5F30 P5M30

























































































































































































4

1

0

1









4

1

0

1









4

1

0

1



4

1

1

1



4

1

1

1



4

1

1

1



4

1

1

1



4

1

0

1



4

1

0

1



































4

1

0

1









4

1

0

1



4

1

0

1













256

P5/EN M/33B

Communication protocols

Class

Name

0x65 0x65
0x65 0x65 0x65 0x65 0x65 0x65 0x65 0x65 0x65 0x65 0x65 0x65 0x65 0x65 0x65 0x65 0x65 0x65 0x65 0x65 0x65 0x65 0x65 0x65 0x65 0x65 0x65 0x65 0x65 0x65
0x65
0x65

Analog#023/Phase current IL
Analog#024/Average PhasePhase voltage
Analog#025/Average Phase-Earth voltage
Analog#026/Phase current THD
Analog#027/Phase current IL1 THD Analog#028/Phase current IL2 THD Analog#029/Phase current IL3 THD Analog#030/HARMONICS of IL1
Analog#031/HARMONICS of IL2
Analog#032/HARMONICS of IL3
Analog#033/Min. of IL1 IL2 IL3
Analog#034/Max. of IL1 IL2 IL3
Analog#035/Phase current ILRMS
Analog#036/Phase current IL1RMS
Analog#037/Phase current IL2RMS
Analog#038/Phase current IL3RMS
Analog#039/Temperature rise
Analog#040/Ambient temperature
Analog#041/Phase current IL1da demand
Analog#042/Phase current IL2da demand
Analog#043/Phase current IL3da demand
Analog#044/IoCalc demand
Analog#045/Io demand
Analog#046/Io' demand
Analog#047/Voltage THD
Analog#048/Phase-Earth VL1 THD Analog#049/Phase-Earth VL2 THD Analog#050/Phase-Earth VL3 THD Analog#051/Harmonics of VL1
Analog#052/Harmonics of VL2
Analog#053/Harmonics of VL3
Analog#054/Min of Phase-Phase voltages
Analog#055/Max of Phase-Phase voltages
Analog#056/Min. of Phase-Earth voltages

Length Read

4

1

4

1

4

1

4

1

4

1

4

1

4

1

4

1

4

1

4

1

4

1

4

1

4

1

4

1

4

1

4

1

4

1

2

1

4

1

4

1

4

1

4

1

4

1

4

1

4

1

4

1

4

1

4

1

4

1

4

1

4

1

4

1

4

1

4

1

Write
0 0
0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 1 0 0 0 0 0 0 0 0 0 0 0 0 0 0
0
0

Cont. mode
1 1
1 1 1
1
1 1 1 1 1 1 1 1
1
1 1 1 1
1
1 1 1 1 1 1
1
1 1 1 1 1
1
1

P5U20 LPCT LPVT
 
  

       

   

     

    



P5U20 P5V20                      
         

P5F30 P5M30

































































 

































































P5/EN M/33B

257

Communication protocols

Class

Name

0x65 0x65 0x65 0x65 0x65 0x65 0x65 0x65 0x65 0x65 0x65 0x65 0x65 0x65 0x65 0x65 0x65 0x65 0x65 0x65 0x65 0x65 0x65 0x65 0x65 0x65 0x65 0x65 0x65 0x65 0x65

Analog#057/Max. of Phase-Earth voltages
Analog#058/RMS voltage mean
Analog#059/Phase-Earth voltage VL1RMS
Analog#060/Phase-Earth voltage VL2RMS
Analog#061/Phase-Earth voltage VL3RMS
Analog#062/Phase-Phase U12demand
Analog#063/Phase-Phase U23demand
Analog#064/Phase-Phase U31demand
Analog#065/Phase-Earth VL1demand
Analog#066/Phase-Earth VL2demand
Analog#067/Phase-Earth VL3demand
Analog#068/Cos
Analog#069/Cos of phase L1
Analog#070/Cos of phase L2
Analog#071/Cos of phase L3
Analog#072/Power angle
Analog#073/Phase L1 active power
Analog#074/Phase L2 active power
Analog#075/Phase L3 active power
Analog#076/Phase L1 reactive power
Analog#077/Phase L2 reactive power
Analog#078/Phase L3 reactive power
Analog#079/Phase L1 apparent power
Analog#080/Phase L2 apparent power
Analog#081/Phase L3 apparent power
Analog#082/RMS active power
Analog#083/RMS reactive power
Analog#084/RMS apparent power
Analog#085/Active power demand
Analog#086/Reactive power demand
Analog#087/Apparent power demand

Length Read

4

1

4

1

4

1

4

1

4

1

4

1

4

1

4

1

4

1

4

1

4

1

4

1

4

1

4

1

4

1

2

1

4

1

4

1

4

1

4

1

4

1

4

1

4

1

4

1

4

1

4

1

4

1

4

1

4

1

4

1

4

1

Write

Cont. mode

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

P5U20 LPCT LPVT
                







      

P5U20 P5V20 P5F30 P5M30



















































































































































258

P5/EN M/33B

Communication protocols

Class

Name

Length Read

0x65 Analog#088/Power factor demand

4

1

0x65

Analog#089/RMS active power demand

4

1

0x65

Analog#090/RMS reactive power demand

4

1

0x65

Analog#091/RMS apparent power demand

4

1

0x65 Analog#092/Calculated Io

4

1

0x65 Analog#093/Fault current of I>

4

1

0x65 Analog#094/Fault current of I>>

4

1

0x65 Analog#095/Fault current of I>>>

4

1

0x65 Analog#096/Fault reactance

4

1

0x65 Analog#097/Frequency fy

4

1

0x65

Analog#098/Phase-to-Phase voltage U12y

4

1

0x65 Analog#099/Frequency fz

4

1

0x65

Analog#100/Phase-to-Phase voltage U12z

4

1

0x65

Analog#101/Phase angle difference

2

1

0x65 Analog#102/Minimum frequency

4

1

0x65

Analog#103/Minimum active power

4

1

0x65 Analog#104/Minimum react. power

4

1

0x65

Analog#105/Minimum apparent power

4

1

0x65 Analog#106/Min power factor

4

1

0x65 Analog#107/Minimum of Io

4

1

0x65 Analog#108/Minimum of Io'

4

1

0x65

Analog#109/Demand minimum active power

4

1

0x65

Analog#110/Demand minimum reactive power

4

1

0x65

Analog#111/Demand minimum apparent power

4

1

0x65

Analog#112/Demand minimum power factor

4

1

0x65

Analog#113/RMS Demand mini active power

4

1

0x65

Analog#114/RMS Demand min reactive power

4

1

0x65

Analog#115/RMS Demand mini apparent power

4

1

0x65 Analog#116/Minimum of IL1

4

1

0x65 Analog#117/Minimum of IL2

4

1

0x65 Analog#118/Minimum of IL3

4

1

0x65 Analog#119/RMS minimum of IL1

4

1

0x65 Analog#120/RMS minimum of IL2

4

1

Write
0 0 0 0 0 0 0 0 0 0 0 1 0
0 1 1 1 1 1 1 1 1
1
1
1
1
1
1 1 1 1 1 1

Cont. mode
1 1
1
1 1 1 1 1 1 1 1 1 1
1 1 1 1 1 1 1 1 1
1
1
1
1
1
1 1 1 1 1 1

P5U20 LPCT LPVT
       
                  

P5U20 P5V20
   





 

    

P5F30 P5M30















































































































P5/EN M/33B

259

Communication protocols

Class

Name

0x65 0x65 0x65 0x65 0x65 0x65 0x65 0x65 0x65 0x65 0x65 0x65
0x65
0x65 0x65 0x65 0x65 0x65
0x65
0x65
0x65
0x65
0x65
0x65 0x65 0x65 0x65 0x65 0x65 0x65 0x65 0x65

Analog#121/RMS minimum of IL3
Analog#122/Demand Minimum of IL1
Analog#123/Demand Minimum of IL2
Analog#124/Demand Minimum of IL3
Analog#125/RMS Demand minimum of IL1
Analog#126/RMS Demand minimum of IL2
Analog#127/RMS Demand minimum of IL3
Analog#128/Minimum of U12
Analog#129/Minimum of U23
Analog#130/Minimum of U31
Analog#131/Maximum frequency
Analog#132/Maximum active power
Analog#133/Maximum react. power
Analog#134/Maximum apparent power
Analog#135/Max power factor
Analog#136/Maximum of Io
Analog#137/Maximum of Io'
Analog#138/Demand Maximum active power
Analog#139/Demand maximum reactive power
Analog#140/Demand Maximum apparent power
Analog#141/Demand maximum power factor
Analog#142/RMS Demand max active power
Analog#143/RMS Demand max reactive power
Analog#144/RMS Demand max apparent power
Analog#145/Maximum of IL1
Analog#146/Maximum of IL2
Analog#147/Maximum of IL3
Analog#148/RMS maximum of IL1
Analog#149/RMS maximum of IL2
Analog#150/RMS maximum of IL3
Analog#151/Demand Maximum of IL1
Analog#152/Demand Maximum of IL2

Length Read

4

1

4

1

4

1

4

1

4

1

4

1

4

1

4

1

4

1

4

1

4

1

4

1

4

1

4

1

4

1

4

1

4

1

4

1

4

1

4

1

4

1

4

1

4

1

4

1

4

1

4

1

4

1

4

1

4

1

4

1

4

1

4

1

Write

Cont. mode

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

P5U20 LPCT LPVT
 




     

    





       


P5U20 P5V20 P5F30 P5M30













































































































































































260

P5/EN M/33B

Communication protocols

Class

Name

Length Read

0x65

Analog#153/Demand Maximum of IL3

4

1

0x65

Analog#154/RMS Demand maximum of IL1

4

1

0x65

Analog#155/RMS Demand maximum of IL2

4

1

0x65

Analog#156/RMS Demand maximum of IL3

4

1

0x65 Analog#157/Maximum of U12

4

1

0x65 Analog#158/Maximum of U23

4

1

0x65 Analog#159/Maximum of U31

4

1

0x65

Analog#160/Z12 primary impedance

4

1

0x65

Analog#161/Z23 primary impedance

4

1

0x65

Analog#162/Z31 primary impedance

4

1

0x65

Analog#163/Z12 secondary impedance

4

1

0x65

Analog#164/Z23 secondary impedance

4

1

0x65

Analog#165/Z31 secondary impedance

4

1

0x65 Analog#166/Z12 angle

2

1

0x65 Analog#167/Z23 angle

2

1

0x65 Analog#168/Z31 angle

2

1

0x65 Analog#169/Phase current IL1'

4

1

0x65 Analog#170/Phase current IL2'

4

1

0x65 Analog#171/Phase current IL3'

4

1

0x65 Analog#172/IL1 difference

4

1

0x65 Analog#173/IL2 difference

4

1

0x65 Analog#174/IL3 difference

4

1

0x65 Analog#175/Phase current I' THD

4

1

0x65 Analog#176/I'L1 THD

4

1

0x65 Analog#177/I'L2 THD

4

1

0x65 Analog#178/I'L3 THD

4

1

0x65 Analog#179/HARMONICS of I'L1

4

1

0x65 Analog#180/HARMONICS of I'L2

4

1

0x65 Analog#181/HARMONICS of I'L3

4

1

0x65 Analog#182/Min. of I'L1 I'L2 I'L3

4

1

0x65 Analog#183/Max. of I'L1 I'L2 I'L3

4

1

0x65 Analog#184/Phase current I'LRMS

4

1

0x65 0x65 0x65

Analog#185/Phase current IL1'RMS
Analog#186/Phase current IL2'RMS
Analog#187/Phase current IL3'RMS

4

1

4

1

4

1

Write
1
1
1
1 1 1 1 0
0
0
0
0
0 0 0 0 1 1 1 1 1 1 0 0 0 0 0 0 0 0 0 0 1
1
1

Cont. mode
1
1
1
1 1 1 1 1
1
1
1
1
1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1
1
1

P5U20 LPCT LPVT



   

P5U20 P5V20
   
  

P5F30 P5M30





























P5/EN M/33B

261

Communication protocols

Class

Name

Length Read

0x65 0x65

Analog#251/Io CSH residual current
Analog#252/Mode of use

4

1

2

1

0x66 StgProtCurrent#001/Enable for I>

1

1

0x66 StgProtCurrent#002/Group

1

1

0x66 StgProtCurrent#003/Pick-up value

4

1

0x66 StgProtCurrent#004/Pick-up value

4

1

0x66

StgProtCurrent#005/Delay curve family

1

1

0x66

StgProtCurrent#006/Delay curve family

1

1

0x66 StgProtCurrent#007/Delay type

1

1

0x66 StgProtCurrent#008/Delay type

1

1

0x66 0x66 0x66 0x66

StgProtCurrent#009/Inv. time coefficient
StgProtCurrent#010/Inv. time coefficient
StgProtCurrent#011/Include harmonics
StgProtCurrent#012/Constant A

4

1

4

1

1

1

4

1

0x66 StgProtCurrent#013/Constant B

4

1

0x66 StgProtCurrent#014/Constant C

4

1

0x66 StgProtCurrent#015/Constant D

4

1

0x66 StgProtCurrent#016/Constant E

4

1

0x66 StgProtCurrent#017/Enable for I>>

1

1

0x66 StgProtCurrent#018/Group

1

1

0x66 StgProtCurrent#019/Pick-up value

4

1

0x66 StgProtCurrent#020/Pick-up value

4

1

0x66

StgProtCurrent#021/Operation delay

4

1

0x66

StgProtCurrent#022/Operation delay

4

1

0x66 0x66

StgProtCurrent#023/Enable for I>>>
StgProtCurrent#024/Group

1

1

1

1

0x66 StgProtCurrent#025/Pick-up value

4

1

0x66 StgProtCurrent#026/Pick-up value

4

1

0x66

StgProtCurrent#027/Operation delay

4

1

0x66

StgProtCurrent#028/Operation delay

4

1

0x66 StgProtCurrent#029/Enable for I>

1

1

0x66 StgProtCurrent#030/Group

1

1

0x66 StgProtCurrent#031/Pick-up value

4

1

0x66 StgProtCurrent#032/Pick-up value

4

1

0x66

StgProtCurrent#033/Direction mode

1

1

Write

Cont. mode

0

1

0

1

1

0

0

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

0

0

1

0

1

0

1

0

1

0

1

0

0

0

1

0

1

0

1

0

1

0

1

0

0

0

1

0

1

0

1

0

P5U20 LPCT LPVT
      
   

          

    
     

P5U20 P5V20 P5F30 P5M30











































































































































































































262

P5/EN M/33B

Communication protocols

Class

Name

0x66 0x66 0x66 0x66
0x66 0x66 0x66 0x66
0x66 0x66 0x66 0x66 0x66 0x66 0x66 0x66 0x66 0x66 0x66
0x66 0x66 0x66 0x66
0x66 0x66 0x66 0x66
0x66 0x66 0x66 0x66 0x66 0x66 0x66 0x66

StgProtCurrent#034/Direction mode StgProtCurrent#035/Angle offset
StgProtCurrent#036/Angle offset
StgProtCurrent#037/Delay curve family
StgProtCurrent#038/Delay curve family
StgProtCurrent#039/Delay type
StgProtCurrent#040/Delay type
StgProtCurrent#041/Inv. time coefficient StgProtCurrent#042/Inv. time coefficient StgProtCurrent#043/Constant A
StgProtCurrent#044/Constant B
StgProtCurrent#045/Constant C
StgProtCurrent#046/Constant D
StgProtCurrent#047/Constant E
StgProtCurrent#048/Enable for I>>
StgProtCurrent#049/Group
StgProtCurrent#050/Pick-up value
StgProtCurrent#051/Pick-up value
StgProtCurrent#052/Direction mode StgProtCurrent#053/Direction mode StgProtCurrent#054/Angle offset
StgProtCurrent#055/Angle offset
StgProtCurrent#056/Delay curve family
StgProtCurrent#057/Delay curve family
StgProtCurrent#058/Delay type
StgProtCurrent#059/Delay type
StgProtCurrent#060/Inv. time coefficient StgProtCurrent#061/Inv. time coefficient StgProtCurrent#062/Constant A
StgProtCurrent#063/Constant B
StgProtCurrent#064/Constant C
StgProtCurrent#065/Constant D
StgProtCurrent#066/Constant E
StgProtCurrent#067/Enable for I>>>
StgProtCurrent#068/Group

Length Read

1

1

2

1

2

1

1

1

1

1

1

1

1

1

4

1

4

1

4

1

4

1

4

1

4

1

4

1

1

1

1

1

4

1

4

1

1

1

1

1

2

1

2

1

1

1

1

1

1

1

1

1

4

1

4

1

4

1

4

1

4

1

4

1

4

1

1

1

1

1

Write
1 1 1 1
1 1 1 1
1 1 1 1 1 1 1 0 1 1 1
1 1 1 1
1 1 1 1
1 1 1 1 1 1 1 0

Cont. mode
0 0 0 0
0 0 0 0
0 0 0 0 0 0 0 0 0 0 0
0 0 0 0
0 0 0 0
0 0 0 0 0 0 0 0

P5U20 LPCT LPVT
   
   
          
   
   
       

P5U20 P5V20

P5F30 P5M30













































































































































P5/EN M/33B

263

Communication protocols

Class

Name

Length Read

0x66 StgProtCurrent#069/Pick-up value

4

1

0x66 StgProtCurrent#070/Pick-up value

4

1

0x66

StgProtCurrent#071/Direction mode

1

1

0x66

StgProtCurrent#072/Direction mode

1

1

0x66 StgProtCurrent#073/Angle offset

2

1

0x66 StgProtCurrent#074/Angle offset

2

1

0x66

StgProtCurrent#075/Operation delay

4

1

0x66

StgProtCurrent#076/Operation delay

4

1

0x66

StgProtCurrent#077/Enable for I>>>>

1

1

0x66 StgProtCurrent#078/Group

1

1

0x66 StgProtCurrent#079/Pick-up value

4

1

0x66 StgProtCurrent#080/Pick-up value

4

1

0x66

StgProtCurrent#081/Direction mode

1

1

0x66

StgProtCurrent#082/Direction mode

1

1

0x66 StgProtCurrent#083/Angle offset

2

1

0x66 StgProtCurrent#084/Angle offset

2

1

0x66

StgProtCurrent#085/Operation delay

4

1

0x66

StgProtCurrent#086/Operation delay

4

1

0x66

StgProtCurrent#087/Enable for I2/ I1>

1

1

0x66 StgProtCurrent#088/Group

1

1

0x66

StgProtCurrent#089/Pick-up value K2

4

1

0x66

StgProtCurrent#090/Pick-up value K2

4

1

0x66

StgProtCurrent#093/Operation delay

4

1

0x66

StgProtCurrent#094/Operation delay

4

1

0x66 0x66 0x66 0x66 0x66

StgProtCurrent#095/Enable for I2>>
StgProtCurrent#096/Enable for Ist>
StgProtCurrent#097/Motor start detection current
StgProtCurrent#098/Nominal motor start current
StgProtCurrent#099/Delay type

1

1

1

1

4

1

4

1

1

1

0x66

StgProtCurrent#100/Motor start time

4

1

0x66 StgProtCurrent#101/Enable for N>

1

1

0x66

StgProtCurrent#102/Max motor starts/hour

4

1

Write

Cont. mode

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

0

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

0

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

P5U20 LPCT LPVT
      

        
     

      

P5U20 P5V20 P5F30 P5M30







































































































































264

P5/EN M/33B

Communication protocols

Class

Name

Length Read

0x66

StgProtCurrent#103/Min time between motor starts

4

1

0x66

StgProtCurrent#104/Alarm on event

1

1

0x66

StgProtCurrent#105/Alarm off event

1

1

0x66

StgProtCurrent#106/Motor start disabled

1

1

0x66

StgProtCurrent#107/Motor start enabled

1

1

0x66 StgProtCurrent#108/Enable for I<

1

1

0x66 StgProtCurrent#109/Group

1

1

0x66 StgProtCurrent#110/Pick-up value

4

1

0x66 StgProtCurrent#111/Pick-up value

4

1

0x66

StgProtCurrent#112/Operation delay

4

1

0x66

StgProtCurrent#113/Operation delay

4

1

0x66 StgProtCurrent#117/Enable for dI>

1

1

0x66

StgProtCurrent#118/dI> pick-up (Ibias < 0.5Ign)

4

1

0x66 StgProtCurrent#119/Slope1

4

1

0x66

StgProtCurrent#120/Ibias for start of slope 2

4

1

0x66 StgProtCurrent#121/Slope2

4

1

0x66

StgProtCurrent#122/dI> 2.harm. block enable

1

1

0x66

StgProtCurrent#123/dI> 2.harm. block limit

4

1

0x66

StgProtCurrent#124/Enable for dI>>

1

1

0x66 StgProtCurrent#125/Pick-up value

4

1

0x66 0x66

StgProtCurrent#126/Enable for I'2>
StgProtCurrent#127/Group

1

1

1

1

0x66 StgProtCurrent#128/Pick-up value

4

1

0x66 StgProtCurrent#129/Pick-up value

4

1

0x66 StgProtCurrent#130/Delay type

1

1

0x66 StgProtCurrent#131/Delay type

1

1

0x66

StgProtCurrent#132/Operation delay

4

1

0x66

StgProtCurrent#133/Operation delay

4

1

0x66 StgProtCurrent#134/Enable for I'>

1

1

0x66 StgProtCurrent#135/Group

1

1

0x66 StgProtCurrent#136/Pick-up value

4

1

0x66 StgProtCurrent#137/Pick-up value

4

1

0x66

StgProtCurrent#138/Delay curve family

1

1

Write
1 1 1 1 1 1 0 1 1 1
1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1
1 1 1 1 1 1

Cont. mode
0
0
0
0
0 0 0 0 0 0
0 0 0 0 0 0 0
0
0 0 0 0 0 0 0 0 0
0 0 0 0 0 0

P5U20 LPCT LPVT




     


P5U20 P5V20
          

P5F30 P5M30
          

P5/EN M/33B

265

Communication protocols

Class

Name

Length Read

0x66

StgProtCurrent#139/Delay curve family

1

1

0x66 StgProtCurrent#140/Delay type

1

1

0x66 StgProtCurrent#141/Delay type

1

1

0x66 0x66 0x66

StgProtCurrent#142/Inv. time coefficient
StgProtCurrent#143/Inv. time coefficient
StgProtCurrent#144/Constant A

4

1

4

1

4

1

0x66 StgProtCurrent#145/Constant B

4

1

0x66 StgProtCurrent#146/Constant C

4

1

0x66 StgProtCurrent#147/Constant D

4

1

0x66 StgProtCurrent#148/Constant E

4

1

0x66 0x66

StgProtCurrent#149/Enable for I'>>
StgProtCurrent#150/Group

1

1

1

1

0x66 StgProtCurrent#151/Pick-up value

4

1

0x66 StgProtCurrent#152/Pick-up value

4

1

0x66

StgProtCurrent#153/Operation delay

4

1

0x66

StgProtCurrent#154/Operation delay

4

1

0x67 StgProtEF#001/Enable for Io>

1

1

0x67 StgProtEF#002/Group

1

1

0x67 StgProtEF#003/Pick-up value

4

1

0x67 StgProtEF#004/Pick-up value

4

1

0x67 StgProtEF#005/Delay curve family

1

1

0x67 StgProtEF#006/Delay curve family

1

1

0x67 StgProtEF#007/Delay type

1

1

0x67 StgProtEF#008/Delay type

1

1

0x67 StgProtEF#009/Operation delay

4

1

0x67 StgProtEF#010/Operation delay

4

1

0x67 StgProtEF#012/Constant A

4

1

0x67 StgProtEF#013/Constant B

4

1

0x67 StgProtEF#014/Constant C

4

1

0x67 StgProtEF#015/Constant D

4

1

0x67 StgProtEF#016/Constant E

4

1

0x67 StgProtEF#017/Enable for Io>>

1

1

0x67 StgProtEF#018/Group

1

1

0x67 StgProtEF#019/Pick-up value

4

1

0x67 StgProtEF#020/Pick-up value

4

1

0x67 StgProtEF#021/Operation delay

4

1

0x67 StgProtEF#022/Operation delay

4

1

0x67 StgProtEF#023/Enable for Io>

1

1

Write

Cont. mode

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

0

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

0

0

1

0

1

0

1

0

1

0

1

0

P5U20 LPCT LPVT
                     

P5U20 P5V20 P5F30 P5M30



































































































































266

P5/EN M/33B

Communication protocols

Class

Name

Length Read

0x67 StgProtEF#024/Group

1

1

0x67 StgProtEF#025/Direction mode

1

1

0x67 StgProtEF#026/Direction mode

1

1

0x67

StgProtEF#027/Char ctrl. in ResCap mode

1

1

0x67

StgProtEF#028/Char ctrl. in ResCap mode

1

1

0x67 StgProtEF#029/Pick-up value

4

1

0x67 StgProtEF#030/Pick-up value

4

1

0x67

StgProtEF#031/Uo setting for Io> stage

4

1

0x67

StgProtEF#032/Uo setting for Io> stage

4

1

0x67 StgProtEF#033/Angle offset

2

1

0x67 StgProtEF#034/Angle offset

2

1

0x67 StgProtEF#035/Pick up sector size

2

1

0x67 StgProtEF#036/Pick up sector size

2

1

0x67 StgProtEF#037/Delay curve family

1

1

0x67 StgProtEF#038/Delay curve family

1

1

0x67 StgProtEF#039/Delay type

1

1

0x67 StgProtEF#040/Delay type

1

1

0x67 StgProtEF#041/Operation delay

4

1

0x67 StgProtEF#042/Operation delay

4

1

0x67 StgProtEF#043/Constant A

4

1

0x67 StgProtEF#044/Constant B

4

1

0x67 StgProtEF#045/Constant C

4

1

0x67 StgProtEF#046/Constant D

4

1

0x67 StgProtEF#047/Constant E

4

1

0x67 StgProtEF#048/Enable for Io>>

1

1

0x67 StgProtEF#049/Group

1

1

0x67 StgProtEF#050/Direction mode

1

1

0x67 StgProtEF#051/Direction mode

1

1

0x67

StgProtEF#052/Char ctrl. in ResCap mode

1

1

0x67

StgProtEF#053/Char ctrl. in ResCap mode

1

1

0x67 StgProtEF#054/Pick-up value

4

1

0x67 StgProtEF#055/Pick-up value

4

1

0x67

StgProtEF#056/Uo setting for Io>> stage

4

1

0x67

StgProtEF#057/Uo setting for Io>> stage

4

1

0x67 StgProtEF#058/Angle offset

2

1

0x67 StgProtEF#059/Angle offset

2

1

0x67 StgProtEF#060/Pick up sector size

2

1

Write
0 1 1 1
1 1 1 1
1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 0 1 1 1
1 1 1 1
1 1 1 1

Cont. mode
0 0 0 0
0 0 0 0
0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0
0 0 0 0
0 0 0 0

P5U20 LPCT LPVT
  


 


                  


 


  

P5U20 P5V20

P5F30 P5M30





















































































































































P5/EN M/33B

267

Communication protocols

Class

Name

Length Read

0x67 StgProtEF#061/Pick up sector size

2

1

0x67 StgProtEF#062/Delay curve family

1

1

0x67 StgProtEF#063/Delay curve family

1

1

0x67 StgProtEF#064/Delay type

1

1

0x67 StgProtEF#065/Delay type

1

1

0x67 StgProtEF#066/Operation delay

4

1

0x67 StgProtEF#067/Operation delay

4

1

0x67 StgProtEF#068/Constant A

4

1

0x67 StgProtEF#069/Constant B

4

1

0x67 StgProtEF#070/Constant C

4

1

0x67 StgProtEF#071/Constant D

4

1

0x67 StgProtEF#072/Constant E

4

1

0x67 StgProtEF#073/Enable for Io>>>

1

1

0x67 StgProtEF#074/Group

1

1

0x67 StgProtEF#075/Pick-up value

4

1

0x67 StgProtEF#076/Pick-up value

4

1

0x67 StgProtEF#077/Operation delay

4

1

0x67 StgProtEF#078/Operation delay

4

1

0x67

StgProtEF#079/Compensation mode

1

1

0x67

StgProtEF#080/Compensation current

4

1

0x67

StgProtEF#081/Save unbalance current

1

1

0x67

StgProtEF#082/Saving unbal' event

1

1

0x67

StgProtEF#083/Unbal saved' event

1

1

0x67 StgProtEF#084/Enable for Io>>>>

1

1

0x67 StgProtEF#085/Group

1

1

0x67 StgProtEF#086/Pick-up value

4

1

0x67 StgProtEF#087/Pick-up value

4

1

0x67 StgProtEF#088/Operation delay

4

1

0x67 StgProtEF#089/Operation delay

4

1

0x67

StgProtEF#090/Compensation mode

1

1

0x67

StgProtEF#091/Compensation current

4

1

0x67

StgProtEF#092/Save unbalance current

1

1

0x67 StgProtEF#093/Max allowed faults

2

1

0x67

StgProtEF#094/Clear location counters

1

1

0x67

StgProtEF#095/Saving unbal' event

1

1

0x67

StgProtEF#096/Unbal saved' event

1

1

Write

Cont. mode

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

0

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

0

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

P5U20 LPCT LPVT
                 

P5U20 P5V20 P5F30 P5M30









































































































































































268

P5/EN M/33B

Communication protocols

Class

Name

Length Read

0x67 StgProtEF#097/Enable for IoInt>

1

1

0x67 StgProtEF#098/Group

1

1

0x67 StgProtEF#099/Uo pick-up

4

1

0x67 StgProtEF#100/Uo pick-up

4

1

0x67 StgProtEF#101/Operation delay

4

1

0x67 StgProtEF#102/Operation delay

4

1

0x67 StgProtEF#103/Intermittent time

4

1

0x67 StgProtEF#104/Enable for Uo>

1

1

0x67 StgProtEF#105/Group

1

1

0x67 StgProtEF#106/Pick-up value

4

1

0x67 StgProtEF#107/Pick-up value

4

1

0x67 StgProtEF#108/Operation delay

4

1

0x67 StgProtEF#109/Operation delay

4

1

0x67 StgProtEF#110/Enable for Uo>>

1

1

0x67 StgProtEF#111/Group

1

1

0x67 StgProtEF#112/Pick-up value

4

1

0x67 StgProtEF#113/Pick-up value

4

1

0x67 StgProtEF#114/Operation delay

4

1

0x67 StgProtEF#115/Operation delay

4

1

0x67 StgProtEF#116/Enable for ArcIo1>

1

1

0x67 StgProtEF#117/Pick-up value

4

1

0x67 StgProtEF#118/Arc inputs in use

1

1

0x67 StgProtEF#119/Enable for ArcIo2>

1

1

0x67 StgProtEF#120/Pick-up value

4

1

0x67 StgProtEF#121/Arc inputs in use

1

1

0x67 0x67

StgProtEF#122/Enable for Io>>>>>
StgProtEF#123/Group

1

1

1

1

0x67 StgProtEF#124/Pick-up value

4

1

0x67 StgProtEF#125/Pick-up value

4

1

0x67 StgProtEF#126/Operation delay

4

1

0x67 StgProtEF#127/Operation delay

4

1

0x67 StgProtEF#128/Enable for Io>>>

1

1

0x67 StgProtEF#129/Group

1

1

0x67 StgProtEF#130/Direction mode

1

1

0x67 StgProtEF#131/Direction mode

1

1

0x67

StgProtEF#132/Char ctrl. in ResCap mode

1

1

0x67

StgProtEF#133/Char ctrl. in ResCap mode

1

1

0x67 StgProtEF#134/Pick-up value

4

1

0x67 StgProtEF#135/Pick-up value

4

1

Write
1 0 1 1 1 1 1 1 0 1 1 1 1 1 0 1 1 1 1 1 1 1 1 1 1
1
0 1 1 1 1 1 0 1 1
1
1
1 1

Cont. mode
0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0
0
0 0 0 0 0 0 0 0 0
0
0
0 0

P5U20 LPCT LPVT
           
       

P5U20 P5V20
           
     

P5F30 P5M30























































































































P5/EN M/33B

269

Communication protocols

Class

Name

Length Read

0x67

StgProtEF#136/Uo setting for Io>>> stage

4

1

0x67

StgProtEF#137/Uo setting for Io>>> stage

4

1

0x67 StgProtEF#138/Angle offset

2

1

0x67 StgProtEF#139/Angle offset

2

1

0x67 StgProtEF#140/Pick up sector size

2

1

0x67 StgProtEF#141/Pick up sector size

2

1

0x67 StgProtEF#142/Delay curve family

1

1

0x67 StgProtEF#143/Delay curve family

1

1

0x67 StgProtEF#144/Delay type

1

1

0x67 StgProtEF#145/Delay type

1

1

0x67 StgProtEF#146/Operation delay

4

1

0x67 StgProtEF#147/Operation delay

4

1

0x67 StgProtEF#148/Constant A

4

1

0x67 StgProtEF#149/Constant B

4

1

0x67 StgProtEF#150/Constant C

4

1

0x67 StgProtEF#151/Constant D

4

1

0x67 StgProtEF#152/Constant E

4

1

0x67 StgProtEF#153/Enable for Uo>>>

1

1

0x67 StgProtEF#154/Group

1

1

0x67 StgProtEF#155/Pick-up value

4

1

0x67 StgProtEF#156/Pick-up value

4

1

0x67 StgProtEF#157/Operation delay

4

1

0x67 StgProtEF#158/Operation delay

4

1

0x67 StgProtEF#159/Enable for Io'>

1

1

0x67 StgProtEF#160/Group

1

1

0x67 StgProtEF#161/Pick-up value

4

1

0x67 StgProtEF#162/Pick-up value

4

1

0x67 StgProtEF#163/Delay curve family

1

1

0x67 StgProtEF#164/Delay curve family

1

1

0x67 StgProtEF#165/Delay type

1

1

0x67 StgProtEF#166/Delay type

1

1

0x67 StgProtEF#167/Operation delay

4

1

0x67 StgProtEF#168/Operation delay

4

1

0x67 StgProtEF#169/Io' input

1

1

0x67 StgProtEF#171/Constant A

4

1

0x67 StgProtEF#172/Constant B

4

1

0x67 StgProtEF#173/Constant C

4

1

0x67 StgProtEF#174/Constant D

4

1

0x67 StgProtEF#175/Constant E

4

1

0x67 StgProtEF#176/Enable for Io'>>

1

1

Write

Cont. mode

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

0

0

1

0

1

0

1

0

1

0

1

0

0

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

P5U20 LPCT LPVT


                    

P5U20 P5V20 P5F30 P5M30















































































































































































































270

P5/EN M/33B

Communication protocols

Class

Name

Length Read

0x67 StgProtEF#177/Group

1

1

0x67 StgProtEF#178/Pick-up value

4

1

0x67 StgProtEF#179/Pick-up value

4

1

0x67 StgProtEF#180/Operation delay

4

1

0x67 StgProtEF#181/Operation delay

4

1

0x67 StgProtEF#182/Io input

1

1

0x67 StgProtEF#183/Enable for Io'>>>

1

1

0x67 StgProtEF#184/Group

1

1

0x67 StgProtEF#185/Pick-up value

4

1

0x67 StgProtEF#186/Pick-up value

4

1

0x67 StgProtEF#187/Operation delay

4

1

0x67 StgProtEF#188/Operation delay

4

1

0x67 StgProtEF#189/Io input

1

1

0x67 StgProtEF#190/Enable for IoUo>

1

1

0x67 StgProtEF#191/Group

1

1

0x67 StgProtEF#192/Pick-up value

4

1

0x67 StgProtEF#193/Pick-up value

4

1

0x67 StgProtEF#194/Io input

1

1

0x67 StgProtEF#195/Reset time

4

1

0x67 StgProtEF#196/Operation delay

4

1

0x67 StgProtEF#197/Operation delay

4

1

0x67 StgProtEF#198/Direction mode

1

1

0x67 StgProtEF#199/Direction mode

1

1

0x67 StgProtEF#200/Pick up sector size

2

1

0x67 StgProtEF#201/Pick up sector size

2

1

0x67

StgProtEF#202/Timer instant delay ctrl.

1

1

0x67 StgProtEF#203/Enable for IoUo>>

1

1

0x67 StgProtEF#204/Group

1

1

0x67 StgProtEF#205/Pick-up value

4

1

0x67 StgProtEF#206/Pick-up value

4

1

0x67 StgProtEF#207/Io input

1

1

0x67 StgProtEF#208/Reset time

4

1

0x67 StgProtEF#209/Operation delay

4

1

0x67 StgProtEF#210/Operation delay

4

1

0x67 StgProtEF#211/Direction mode

1

1

0x67 StgProtEF#212/Direction mode

1

1

0x67 StgProtEF#213/Pick up sector size

2

1

0x67 StgProtEF#214/Pick up sector size

2

1

0x67

StgProtEF#215/Timer instant delay ctrl.

1

1

0x67 StgProtEF#216/Enable for I2>

1

1

Write
0 1 1 1 1 1 1 0 1 1 1 1 1 1 0 1 1 1 1 1 1 1 1 1 1
1
1 0 1 1 1 1 1 1 1 1 1 1
1
1

Cont. mode
0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0
0
0 0 0 0 0 0 0 0 0 0 0 0
0
0

P5U20 LPCT LPVT


P5U20 P5V20             


P5F30 P5M30

































































































































































P5/EN M/33B

271

Communication protocols

Class

Name

0x67 0x67 0x67 0x67 0x67 0x67 0x67 0x67 0x67 0x67 0x67 0x67 0x67 0x67 0x67 0x67 0x67 0x67 0x67 0x67 0x67 0x67 0x67 0x67 0x67 0x67 0x67 0x67 0x67 0x67 0x67 0x67 0x67 0x67 0x67 0x67 0x67 0x67 0x68 0x68 0x68

StgProtEF#217/Group StgProtEF#218/Pick-up value StgProtEF#219/Pick-up value StgProtEF#220/Delay curve family StgProtEF#221/Delay curve family StgProtEF#222/Delay type StgProtEF#223/Delay type StgProtEF#224/Operation delay StgProtEF#225/Operation delay StgProtEF#226/Enable for Arc I'> StgProtEF#227/Pick-up value StgProtEF#228/Arc inputs in use StgProtEF#229/Arc I state StgProtEF#230/Arc Io state StgProtEF#231/Arc stage 1 StgProtEF#232/Arc stage 2 StgProtEF#233/Arc stage 3 StgProtEF#234/Arc stage 4 StgProtEF#235/Arc stage 5 StgProtEF#236/Arc stage 6 StgProtEF#237/Arc stage 7 StgProtEF#238/Arc stage 8 StgProtEF#239/Temperature 1 StgProtEF#240/Temperature 2 StgProtEF#241/Temperature 3 StgProtEF#242/Temperature 4 StgProtEF#243/Temperature 5 StgProtEF#244/Temperature 6 StgProtEF#245/Temperature 7 StgProtEF#246/Temperature 8 StgProtEF#247/Temperature 9 StgProtEF#248/Temperature 10 StgProtEF#249/Temperature 11 StgProtEF#250/Temperature 12 StgProtEF#251/Temperature 13 StgProtEF#252/Temperature 14 StgProtEF#253/Temperature 15 StgProtEF#254/Temperature 16 StgProtOther#001/Enable for U> StgProtOther#002/Group StgProtOther#003/Pick-up value

Length
1 4 4 1 1 1 1 4 4 1 4 1 1 1 1 1 1 1 1 1 1 1 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 1 1 4

Read
1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1

Write
0 1 1 1 1 1 1 1 1 1 1 1 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 1 0 1

Cont. mode
0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0

P5U20 LPCT LPVT
        
                  

P5U20 P5V20
        







































































P5F30 P5M30

























































































































































272

P5/EN M/33B

Communication protocols

Class

Name

Length

0x68 StgProtOther#004/Pick-up value

4

0x68 StgProtOther#005/Operation delay

4

0x68 StgProtOther#006/Operation delay

4

0x68 StgProtOther#007/Reset time

4

0x68 StgProtOther#008/Hysteresis

4

0x68 StgProtOther#009/Enable for U>>

1

0x68 StgProtOther#010/Group

1

0x68 StgProtOther#011/Pick-up value

4

0x68 StgProtOther#012/Pick-up value

4

0x68 StgProtOther#013/Operation delay

4

0x68 StgProtOther#014/Operation delay

4

0x68 StgProtOther#015/Hysteresis

4

0x68

StgProtOther#016/Enable for U>>>

1

0x68 StgProtOther#017/Group

1

0x68 StgProtOther#018/Pick-up value

4

0x68 StgProtOther#019/Pick-up value

4

0x68 StgProtOther#020/Operation delay

4

0x68 StgProtOther#021/Operation delay

4

0x68 StgProtOther#022/Hysteresis

4

0x68 StgProtOther#023/Enable for U<

1

0x68 StgProtOther#024/Group

1

0x68 StgProtOther#025/Pick-up value

4

0x68 StgProtOther#026/Pick-up value

4

0x68 StgProtOther#027/Operation delay

4

0x68 StgProtOther#028/Operation delay

4

0x68

StgProtOther#029/Low voltage blocking

4

0x68

StgProtOther#030/Low voltage blocking

4

0x68 StgProtOther#031/Reset time

4

0x68 StgProtOther#032/Hysteresis

4

0x68 StgProtOther#033/Enable for U<<

1

0x68 StgProtOther#034/Group

1

0x68 StgProtOther#035/Pick-up value

4

0x68 StgProtOther#036/Pick-up value

4

0x68 StgProtOther#037/Operation delay

4

0x68 StgProtOther#038/Operation delay

4

0x68

StgProtOther#039/Low voltage blocking

4

0x68

StgProtOther#040/Low voltage blocking

4

0x68 StgProtOther#041/Hysteresis

4

Read
1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1
1
1
1 1 1 1 1 1 1 1
1
1
1

Write
1 1 1 1 1 1 0 1 1 1 1 1 1 0 1 1 1 1 1 1 0 1 1 1 1
0
0
1 1 1 0 1 1 1 1
0
0
1

Cont. mode
0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0
0
0
0 0 0 0 0 0 0 0
0
0
0

P5U20 LPCT LPVT
           

           


       




P5U20

P5V20
                        


       




P5F30
                        


       




P5M30
                        


       




P5/EN M/33B

273

Communication protocols

Class

Name

Length

0x68

StgProtOther#042/Enable for U<<<

1

0x68 StgProtOther#043/Group

1

0x68 StgProtOther#044/Pick-up value

4

0x68 StgProtOther#045/Pick-up value

4

0x68 StgProtOther#046/Operation delay

4

0x68 StgProtOther#047/Operation delay

4

0x68

StgProtOther#048/Low voltage blocking

4

0x68

StgProtOther#049/Low voltage blocking

4

0x68 StgProtOther#050/Hysteresis

4

0x68 StgProtOther#051/Enable for fX

1

0x68 StgProtOther#052/Group

1

0x68 StgProtOther#053/Pick-up value

4

0x68 StgProtOther#054/Pick-up value

4

0x68 StgProtOther#055/Operation delay

4

0x68 StgProtOther#056/Operation delay

4

0x68

StgProtOther#057/Low voltage blocking

4

0x68 StgProtOther#058/Enable for fXX

1

0x68 StgProtOther#059/Group

1

0x68 StgProtOther#060/Pick-up value

4

0x68 StgProtOther#061/Pick-up value

4

0x68 StgProtOther#062/Operation delay

4

0x68 StgProtOther#063/Operation delay

4

0x68

StgProtOther#064/Low voltage blocking

4

0x68 StgProtOther#065/Enable for f<

1

0x68 StgProtOther#066/Group

1

0x68 StgProtOther#067/Pick-up value

4

0x68 StgProtOther#068/Pick-up value

4

0x68 StgProtOther#069/Operation delay

4

0x68 StgProtOther#070/Operation delay

4

0x68

StgProtOther#071/Low voltage blocking

4

0x68 StgProtOther#072/Enable for f<<

1

0x68 StgProtOther#073/Group

1

0x68 StgProtOther#074/Pick-up value

4

0x68 StgProtOther#075/Pick-up value

4

0x68 StgProtOther#076/Operation delay

4

0x68 StgProtOther#077/Operation delay

4

0x68

StgProtOther#078/Low voltage blocking

4

Read
1 1 1 1 1 1 1
1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1

Write
1 0 1 1 1 1 0
0 1 1 0 1 1 1 1 1 1 0 1 1 1 1 1 1 0 1 1 1 1 1 1 0 1 1 1 1 1

Cont. mode
0 0 0 0 0 0
0
0
0 0 0 0 0 0 0
0
0 0 0 0 0 0
0
0 0 0 0 0 0
0
0 0 0 0 0 0
0

P5U20 LPCT LPVT
     


      

     

     

     


P5U20 P5V20
      
                             

P5F30 P5M30





















































































































































274

P5/EN M/33B

Communication protocols

Class

Name

Length Read

0x68

StgProtOther#079/Enable for df/ dt>

1

1

0x68 StgProtOther#080/Group

1

1

0x68 StgProtOther#081/Pick-up value

4

1

0x68 StgProtOther#082/Pick-up value

4

1

0x68 StgProtOther#083/Operation delay

4

1

0x68 StgProtOther#084/Operation delay

4

1

0x68 StgProtOther#085/Minimum delay

4

1

0x68 StgProtOther#086/Minimum delay

4

1

0x68 StgProtOther#087/Enable for P<

1

1

0x68 StgProtOther#088/Group

1

1

0x68 StgProtOther#089/Pick-up value

4

1

0x68 StgProtOther#090/Pick-up value

4

1

0x68 StgProtOther#091/Operation delay

4

1

0x68 StgProtOther#092/Operation delay

4

1

0x68 StgProtOther#093/Enable for P<<

1

1

0x68 StgProtOther#094/Group

1

1

0x68 StgProtOther#095/Pick-up value

4

1

0x68 StgProtOther#096/Pick-up value

4

1

0x68 StgProtOther#097/Operation delay

4

1

0x68 StgProtOther#098/Operation delay

4

1

0x68 0x68

StgProtOther#099/Enable for feeder T>
StgProtOther#100/Group

1

1

1

1

0x68

StgProtOther#101/Maximum continuous current

4

1

0x68 StgProtOther#102/Alarm setting

4

1

0x68

StgProtOther#103/Time constant tau

2

1

0x68

StgProtOther#104/Rel. cooling time constant

4

1

0x68

StgProtOther#105/Max overload at +40°C

4

1

0x68

StgProtOther#106/Max overload at +70°C

4

1

0x68

StgProtOther#107/Ambient temperature

2

1

0x68

StgProtOther#108/Ambient temp. sensor

1

1

0x68

StgProtOther#109/Enable for CB fail

1

1

0x68

StgProtOther#110/Monitored Trip relay

1

1

0x68

StgProtOther#111/Timer1 Operation Delay

4

1

0x68

StgProtOther#112/Enable for SOTF

1

1

0x68 StgProtOther#113/Pick-up value

4

1

Write
1 0 1 1 1 1 1 1 1 0 1 1 1 1 1 0 1 1 1 1 1 0 1 1 1
0
0
0
0
0
1
1
1
1 1

Cont. mode
0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0
0
0
0
0
0
0
0
0
0 0

P5U20 LPCT LPVT
                        








 

P5U20 P5V20
       

       

















 

P5F30 P5M30









































































































P5/EN M/33B

275

Communication protocols

Class

Name

Length Read

0x68 StgProtOther#114/Pick-up value

4

1

0x68

StgProtOther#115/Cold load pickup

1

1

0x68 StgProtOther#116/Inrush detection

1

1

0x68

StgProtOther#117/Enable for df/ dt>>

1

1

0x68 StgProtOther#118/Group

1

1

0x68 StgProtOther#119/Pick-up value

4

1

0x68 StgProtOther#120/Pick-up value

4

1

0x68 StgProtOther#121/Operation delay

4

1

0x68 StgProtOther#122/Operation delay

4

1

0x68 StgProtOther#123/Minimum delay

4

1

0x68 StgProtOther#124/Minimum delay

4

1

0x68 0x69

StgProtOther#125/Enable for Motor T>
StgGeneral#001/CT primary

1

1

4

1

0x69 StgGeneral#002/CT secondary

2

1

0x69 StgGeneral#003/Nominal input

2

1

0x69 StgGeneral#004/Earth CT primary

4

1

0x69

StgGeneral#005/Earth CT secondary

4

1

0x69 StgGeneral#006/Nominal Io1 input

4

1

0x69 StgGeneral#007/Earth CT' primary

4

1

0x69

StgGeneral#008/Earth CT' secondary

4

1

0x69 StgGeneral#009/Nominal Io' input

4

1

0x69 StgGeneral#010/VT primary

4

1

0x69 StgGeneral#011/VT secondary

2

1

0x69 StgGeneral#012/VTo secondary

4

1

0x69 0x69

StgGeneral#013/Motor nominal current
StgGeneral#021/Delay CT supervision

4

1

2

1

0x69 StgGeneral#022/VT supervisor

2

1

0x70 Analog2#001/Frequency

4

1

0x70 Analog2#002/Active power

4

1

0x70 Analog2#003/Reactive power

4

1

0x70 Analog2#004/Apparent power

4

1

0x70

Analog2#005/Phase-to-Phase voltage U12

4

1

0x70

Analog2#006/Phase-to-Phase voltage U23

4

1

0x70

Analog2#007/Phase-to-Phase voltage U31

4

1

0x70 Analog2#008/Power factor

4

1

0x70

Analog2#009/Phase-to-earth voltage VL1

4

1

Write

Cont. mode

1

0

0

0

0

0

1

0

0

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

0

0

0

0

1

0

0

0

0

0

1

0

0

0

0

0

1

0

1

0

1

0

1

0

1

0

1

0

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

P5U20 LPCT LPVT
           
          

P5U20 P5V20 P5F30 P5M30









































































































































































































276

P5/EN M/33B

Communication protocols

Class

Name

Length Read

0x70

Analog2#010/Phase-to-earth voltage VL2

4

1

0x70

Analog2#011/Phase-to-earth voltage VL3

4

1

0x70 Analog2#012/Tangent 

4

1

0x70

Analog2#013/Average PhasePhase voltage

4

1

0x70

Analog2#014/Average PhaseEarth voltage

4

1

0x70 Analog2#015/Pos. sequence U1

4

1

0x70

Analog2#016/Negative sequence U2

4

1

0x70

Analog2#017/Min of Phase-Phase voltages

4

1

0x70

Analog2#018/Max of Phase-Phase voltages

4

1

0x70

Analog2#019/Min. of Phase-Earth voltages

4

1

0x70

Analog2#020/Max. of Phase-Earth voltages

4

1

0x70 Analog2#021/RMS voltage mean

4

1

0x70

Analog2#022/Phase-Earth voltage VL1RMS

4

1

0x70

Analog2#023/Phase-Earth voltage VL2RMS

4

1

0x70

Analog2#024/Phase-Earth voltage VL3RMS

4

1

0x70

Analog2#025/Phase-Phase U12demand

4

1

0x70

Analog2#026/Phase-Phase U23demand

4

1

0x70

Analog2#027/Phase-Phase U31demand

4

1

0x70

Analog2#028/Phase-Earth VL1demand

4

1

0x70

Analog2#029/Phase-Earth VL2demand

4

1

0x70

Analog2#030/Phase-Earth VL3demand

4

1

0x70 Analog2#031/Cos

4

1

0x70 Analog2#032/Cos of phase L1

4

1

0x70 Analog2#033/Cos of phase L2

4

1

0x70 Analog2#034/Cos of phase L3

4

1

0x70

Analog2#035/Phase L1 active power

4

1

0x70

Analog2#036/Phase L2 active power

4

1

0x70

Analog2#037/Phase L3 active power

4

1

0x70

Analog2#038/Phase L1 reactive power

4

1

0x70

Analog2#039/Phase L2 reactive power

4

1

Write
0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0

Cont. mode
1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1 1

P5U20 LPCT LPVT
                             

P5U20 P5V20  
                 

P5F30 P5M30

























































































































P5/EN M/33B

277

Communication protocols

Class

Name

Length Read

0x70

Analog2#040/Phase L3 reactive power

4

1

0x70

Analog2#041/Phase L1 apparent power

4

1

0x70

Analog2#042/Phase L2 apparent power

4

1

0x70

Analog2#043/Phase L3 apparent power

4

1

0x70 Analog2#044/RMS active power

4

1

0x70 Analog2#045/RMS reactive power

4

1

0x70

Analog2#046/RMS apparent power

4

1

0x70

Analog2#047/Active power demand

4

1

0x70

Analog2#048/Reactive power demand

4

1

0x70

Analog2#049/Apparent power demand

4

1

0x70

Analog2#050/Power factor demand

4

1

0x70

Analog2#051/RMS active power demand

4

1

0x70

Analog2#052/RMS reactive power demand

4

1

0x70

Analog2#053/RMS apparent power demand

4

1

0x70 Analog2#054/Estimated time to trip

4

1

0x70 Analog2#055/Phase current IL1

4

1

0x70 Analog2#056/Phase current IL2

4

1

0x70 Analog2#057/Phase current IL3

4

1

0x70 Analog2#058/Pos. sequence I1

4

1

0x70

Analog2#059/Negative sequence I2

4

1

0x70 Analog2#060/Current ratio I2/I1

4

1

0x70 Analog2#061/Voltage U2/U1

4

1

0x70 Analog2#063/Estimated time to trip

4

1

Write

Cont. mode

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

0

1

P5U20 LPCT LPVT



   






         

P5U20 P5V20 P5F30 P5M30











































































































278

P5/EN M/33B

Communication protocols
Redundancy protocols
There are three redundancy protocols available as options of Ethernet communication in Easergy P5 protection relays:
· PRP (Parallel Redundancy Protocol)
· HSR (High-availability Seamless Redundancy)
· RSTP (Rapid Spanning Tree Protocol)
Parallel Redundancy Protocol (PRP)
Introduction
The Parallel Redundancy Protocol used in the Easergy P5 protection relays is defined in Clause 4 of the IEC 62439-3 standard. The PRP is a "redundancy in the devices" method that provides bumpless switchover in case of network failure or reintegration. Furthermore, it provides the shortest Ethernet network reconfiguration time as network reconfiguration is seamless.
The Easergy P5 protection relay uses two independent Ethernet ports that operate in parallel on two independent networks. Each message is replicated and sent over both networks. The first network node that receives a message will process it, all later instances of the received message will be discarded. These details of replicating and discarding messages are controlled by the low-level PRP layer of the network architecture, so that the two networks are hidden from the higher level layers. Thus, PRP-based networks provide a high degree of robustness and resilience.
Easergy P5 protection relays support SNMP.
Essentially, a PRP network consists of a pair of similar Local Area Networks (LANs) which can be any topology (tree, ring or mesh). An example of a PRP network is shown in PRP redundancy network, page 280.
The key features of a PRP redundancy network include:
· Each of the two LANs can have one or more "Single Attached Nodes" (SANs). These are normally non-significant devices that are attached only to a single network. SANs can communicate with each other, but only if they are attached to the same LAN.
· Matched pairs of devices have an interface to each LAN, hence they are called "Dual Attached Nodes" (DANs). DANs having the PRP implemented are called "DANs with PRP implemented" (DANP).
· To make the network messages (also known as "frames") be transferred correctly to each device in both LANs, each DANP has to be configured with the same Media Access Control (MAC) code and Internet Protocol (IP) address for both of its ports. As a result, TCP/IP traffic will automatically communicate with both of the paired devices, so it will be unaware of any layer 2 redundancy or frame duplication issues.
· A Redundancy Box is used when a single interface node has to be connected to both LANs. The RedBox can communicate with all other nodes. So far as other nodes are concerned, the RedBox behaves like a DAN, so an IED connected via a RedBox is also called a "Virtual DAN" (VDAN). The RedBox has its own unique IP address.
· The Easergy P5 protection relays have to be connected to the redundant Ethernet network as a Double Attached Node (DAN) using PRP (DAN using PRP is known as DANP).
· The redundant Ethernet interface can be made using an optical fibre connection with an LC connector type (Ethernet card dependent).
· The management of the PRP redundancy is transparent to the application data provided via the Ethernet interface.
· Disconnection of one of the LANs to the device does not cause any degradation to the application data over the Ethernet interface.
· Each supervision frame includes a sequence number as defined in the

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IEC 62439-3 specification. This is incremented for each supervision message and the value starts from zero following a system restart. · Received frames to provide supervision of the redundant network are not processed by Easergy P5 protection relays.

Figure 17 - PRP redundancy network

SAN (A1)

SAN (A2)

DANP (D2)

LAN A LAN B

Redundancy Box (RedBox)

VDAN

VDAN VDAN

DANP (D1)

SAN (B1)

SAN (B2)

Structure of a DANP
Easergy P5 protection relays working in PRP mode work as a DANP each within the overall network topology. Each DANP has two ports that operate in parallel. They are attached to the upper layers of the communications stack through the Link Redundancy Entity (LRE).

Figure 18 - Communication between two DANPs

Double Attached Node (DAN1)

Double Attached Node (DAN2)

Upper Layers Link Redundancy Entity (LRE)

Upper Layers Link Redundancy Entity (LRE)

Tx

Rx

Port A

Tx

Rx

Port B

Tx

Rx

Port A

Tx

Rx

Port B

LAN_A
LAN_B
The LRE has two main tasks: · Handling message frames · Management of redundancy
When an upper layer sends a frame to the LRE, the LRE replicates the frame and sends it through both its ports at nearly the same time. The two frames move through the two LANs with slightly different delays, ideally arriving at the destination node within a small time window.
When receiving frames, the LRE forwards the first frame it received to its upper layers and then discards the duplicate.
As both DANP nodes have the same MAC and IP addresses, this makes redundancy transparent to the upper layers. This allows the Address Resolution Protocol (ARP) to work in the same way as with a SAN. Accordingly, to the upper

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layers of a DANP, the LRE layer shows the same interface as the network adapter of a non-redundant adapter.
To manage redundancy, the LRE: · Adds a 32-bit Redundancy Check Tag (RCT) to each frame it sends · Removes the RCT from each frame it receives
Communication between SANs and DANs
A SAN can be connected to any LAN and can communicate with any other SAN on the same LAN or any DAN. However, a SAN which connected to one LAN can not communicate directly to a SAN which is connected to the other LAN.
A DAN is connected to both LANs and can communicate with any Redundancy Box (RedBox) or any other DANs or any SANs on either network. For communication purposes, a DAN "views" a SAN connected through a RedBox as a VDAN.
When a SAN generates a basic frame, it sends the frame only onto the LAN to which it is connected.
Main characteristics
· One VLAN tag supported · 128 publishers supported per receiver · Up to 100Mbit/s full duplex Ethernet · Dynamic frame memory allocation (page manager) · Configurable duplicate detection · Wishborne interface for configuration and status registers · CPU port interface -- Ethernet or Wishbone · Support for link-local protocols - CPU may send to specific ports only - CPU
knows receive port · Configurable frame memory and queue length · Duplicate detection with configurable size and aging time · MAC address filtering (8 filter masks for interlink, 6 for CPU) · Support for interfaces with or without Ethernet preamble According to the IEC/IEEE 8802-3, the Maximum Transmission Unit (MTU) (Ethernet maximum packet size) is: · 1518 bytes without VLAN and without PRP · 1522 bytes with VLAN and without PRP · 1524 bytes without VLAN and with PRP · 1528 bytes with VLAN and with PRP
NOTE: Check that the LAN switches setting for the MTU is at least 1528 bytes.

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PRP parameters

The redundant Ethernet standard (IEC 62439-3) defines several parameters for the PRP protocol; these being fixed according to the table below:
Table 57 - PRP parameter values

Parameter Supervision Frame Multicast Address Life Check Interval PRP Mode
Entry Forget Time
Node Reboot Interval

Value 01-15-4E-00-01-00
2 s +/- 100 ms Duplicate Discard 400 ms
500 ms

Description
Target MAC Address for multicast supervision frame.
Period between transmission of supervision frames.
This is normal PRP mode, Duplicate address will not be supported.
Duration that the received message Sequence number will be held to discard a duplicate message.
Duration following reboot for which no PRP frames will be transmitted.

High-availability Seamless Redundancy (HSR)
Introduction
The High-availability Seamless Redundancy Protocol used in the Easergy P5 protection relays is defined in Clause 5 of the IEC 62439-3 standard.
The HSR is a "redundancy in the devices" method that provides seamless switchover and recovery in case of a single communication failure or reintegration. HSR Ethernet redundancy method is independent of any industrial Ethernet protocol and typically used in a ring topology.
Easergy P5 protection relays provide two redundant Ethernet ports using HSR. The redundant Ethernet interface can be made using an optical fibre connection with an LC connector type. The management of the HSR redundancy is transparent to the application data provided via the Ethernet interface.
Disconnection of one of the Nodes to the device does not cause any degradation to the application data over the Ethernet interface.
Easergy P5 protection relays support SNMP.
An example of a HSR network is shown in HSR redundancy network, page 283.
The key features of a HSR redundancy network include:
· Nodes within the ring are restricted to be HSR-capable bridging nodes, thus avoiding the use of dedicated bridges.
· Singly Attached Nodes (SANs) such as laptops or printers cannot be attached directly to the ring, but need attachment through a RedBox.
· A simple HSR network consists of doubly attached bridging nodes, each having two ports, interconnected by full-duplex links.
· A source DANH (Double Attached Node with HSR implemented) sends a frame passed from its upper layers, prefixes it by an HSR tag to identify frame duplicates and sends the frame over each port.
· A destination DANH receives, in the fault-free state, two identical frames from each port within a certain interval, if it is a multicast frame, it instantaneously forwards it on the ring, removes the HSR tag of the first frame before passing it to its upper layers and discards any duplicate.
In particular, the node will not forward a frame that it injected into the ring. A destination node of a unicast frame does not forward a frame for which it is the only destination, except for testing.
· Easergy P5 protection relays have to be connected to the redundant Ethernet network as a Double Attached Node (DAN) using HSR (DANH).

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Figure 19 - HSR redundancy network

DANH (D1)

DANH (D2)

DANH (D3)

Redundancy Box (RedBox)

SAN (A1)

SAN (A2)
SAN (A3)

Redundancy Box (RedBox)

VDAN

VDAN VDAN

Structure of a DAN
Easergy P5 protection relays working in HSR Mode work as a DAN within the overall network topology. Each DAN has two ports that operate in parallel. The two HSR ports A and B are connected by the Link Redundancy Entity (LRE), which includes a switching matrix allowing to forward frames from one port to the other. The switching matrix allows cut-through bridging. The LRE presents to the higher layers the same interface as a standard Ethernet transceiver would do.

Figure 20 - Communication between two DANs (in HSR) Double Attached Node (DAN)

Upper Layers

LRE

Tx_B Rx_B

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Tx_A Rx_A

Tx_B Rx_B

LAN_A

LAN_B

DAN node is operable in HSR-tagged forwarding mode, the DAN inserts the HSR tag on behalf of its host and forwards the ring traffic, except for frames sent by the node itself. Duplicate frames and frames where the node is the unicast destination are not forwarded.

Structure of a RedBox
The RedBox has a LRE that performs the duties of the HSR protocol, in particular:
· forwards the frames received from one HSR port to the other HSR port, unless the frame receives frames addressed to its own upper protocols
· prefixes the frames sent by its own upper layers with the corresponding HSR tag before sending two copies over its HSR ports
The switching logic is incorporated into the RedBox, so interlink becomes an internal connection. A simple RedBox is present in every node, since the LRE makes a transition to a single non-HSR host. In addition, it is usual to have more than one host in a node, since a port for maintenance often exists.

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A node does not send over a port a frame that is a duplicate of a frame previously sent over that port in that same direction. For the purpose of Duplicate Discard, a frame is identified by:
· source MAC address · sequence number The Duplicate Discard method forgets an entry identified by <Source MAC Address><Sequence number> after a time EntryForgetTime.
Communication between SANs, DANs and RedBoxs
Singly Attached Nodes, for instance maintenance laptops or printers cannot be inserted directly into the ring since they have only one port and cannot interpret the HSR tag in the frames. SANs communicate with ring devices through a RedBox that acts as a proxy for the SANs attached to it.
A source DANH sends a frame passed from its upper layers, and prefixes it by an HSR tag to identify frame duplicates and sends the frame over both ports. Each supervision frame includes a sequence number as defined in the IEC 62439- 3 specification. This is incremented for each supervision message and the value starts from zero following a system restart.
A destination DANH receives, in the fault-free state, two identical frames from each port within a certain interval, if it is a multicast frame, it instantaneously forwards it on the ring, removes the HSR tag of the first frame before passing it to its upper layers ("D"- frame) and discards any duplicate.
Main characteristics
· One VLAN tag supported · Up to 128 devices supported · Up to 100Mbit/s full duplex Ethernet · Dynamic frame memory allocation (page manager) · Configurable duplicate detection · Wishbone interface for configuration and status registers · CPU port interface - Wishbone · Support for link-local protocols - CPU may send to specific ports only - CPU
knows receive port · Support for interfaces with or without Ethernet preamble · Configurable frame memory and queue length · Duplicate detection with configurable size and aging time · MAC address filtering (8 filter masks for interlink port, 6 for CPU port) · Support for interfaces with or without Ethernet preamble Limitations: · Number of devices on a same ring at 100 Mbit/s:
Each hop (devices or RedBox) not only carries its own messages but also all the other devices messages thus the bandwidth used is proportional to the number of device. The maximum number of hops is around 20 when the GOOSE messages are highly used or 40 if the number and importance of GOOSE messages is not high. · When Precision Time Protocol, according IEEE1588/IEC 61588 standard, is used: As the GPS receiver inaccuracy is 200 ns and as each hop (devices or RedBox) can add a 50 ns inaccuracy, the maximum number of hops is 16 if 1 s accuracy is required (PMU application or Process Bus).

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HSR parameters

The redundant Ethernet standard (IEC 62439-3) defines several parameters for the HSR protocol; these being fixed according to the table below:
Table 58 - HSR parameter values

Parameter Supervision Frame Multicast Address Life Check Interval HSR Mode
Entry Forget Time
Node Reboot Interval MulticastFilterSize

Value

Description

01-15-4E-00-01-00 2 s +/- 100 ms

Target MAC Address for multicast supervision frame
Period between transmission of supervision frames

Duplicate Discard

This is normal HSR mode, Duplicate address will not be supported.

400 ms

Duration that the received message Sequence number will be held to discard a duplicate message.

500 ms

Duration following reboot for which no PRP frames will be transmitted.

8 Interlink and 6 Nios Number of multicast addresses to be filtered CPU

Rapid Spanning Tree Protocol (RSTP) Introduction
RSTP is a standard used to quickly reconnect a network failure by finding an alternative path, allowing loop-free network topology.
Figure 21 - A redundant Ethernet star or ring circuit

Switch 1

Switch 2

Switch 1

Switch 2

Easergy P5 1

Easergy P5 2

Easergy P5 1

Easergy P5 2

Star connection with redundant ports managed by RSTP blocking function.

Ring connection managed by RSTP blocking function on upper switches and
IEDs interconnected directly.

Although RSTP can recover network failures quickly, the recovery time depends on the number of devices and the topology. The recovery time also depends on the time taken by the devices to determine the root bridge and compute the port roles (discarding, learning, forwarding). The devices do this by exchanging Bridge Protocol Data Units (BPDUs) containing information about bridge devices and root path costs. See the IEEE 802.1w standard for further information.
The RSTP solution is based on open standards. It is therefore compatible with other manufacturers' IEDs that use the RSTP protocol. The typical RSTP recovery time is less than 50 ms for 10 IEDs in a network but it increases with the network size. Due to this recovery time it is not recommended to use RSTP in automation systems where a high availability of GOOSE is essential.
Easergy P5 protection relays provide two redundant Ethernet ports using RSTP. The redundant Ethernet interface can be made using RJ45 or optical fibre connections of LC connector type. The management of the RSTP is transparent to the application data provided via the Ethernet interface. One of the missed node connections to the device does not cause any degradation to the application data over the Ethernet interface.
Easergy P5 protection relays support SNMP.

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RSTP parameters

Table 59 - RSTP parameter values

Parameter Enable for RSTP

Default Value
Yes

Bridge priority

32768

Hello Time

2s

Forward Delay 15 s

Max Age

20 s

Port1 Path Cost 200000

Port1 Priority

128

Port2 Path Cost 200000

Port2 Priority

128

Range

Description

Yes, No
0...65535 (step is 4096) 1...10 s 4...30 s 6...40 s
1...200000 0...255
1...200000 0...255

Enable/disable the use of RSTP protocol on the Ethernet port. (RSTP on Slot L can be enabled or disabled, while RSTP on Slot M is always enabled.)
Parameter used to define the RSTP root device for the network. If priorities of two or more devices are equal then the device with lowest MAC address is chosen as a root.
Setting defines how often RSTP frames (Hello BPDU) are sent.
Time needed for the port to change its state from blocking to forwarding.
The maximum age of the information transmitted by the Bridge when it is the Root Bridge.
Port Cost is related to transfer speed. This is determined according to RSTP specification.
When both Ethernet ports are set connected to the same network segment ­ in such a case the port with worse priority (higher value) is disabled as a backup path for that segment.
Port Cost is related to transfer speed. This is determined according to RSTP specification.
When both Ethernet ports are set connected to the same network segment ­ in such a case the port with worse priority (higher value) is disabled as a backup path for that segment.

The parameters for the RSTP protocol can be configured via:
· front panel
· Protocol configuration view of COMMUNICATION menu of eSetup Easergy Pro or Web HMI

Generic functions for all redundant Ethernet modules
· Ethernet 100Base Fx/Tx
The fibre optic ports are full duplex 100 Mbps LC connectors.
· Forwarding
The devices from the families Easergy P5 protection relays support store and forward mode. The switch forwards messages with known addresses to the appropriate port. The messages with unknown addresses, the broadcast messages and the multicast messages are forwarded out to all ports except the source port. Switches will not forward error packets, 802.3x pause frames or local packets.
NOTE: Forwarding is active when HSR or RSTP protocol is selected.
· Priority Tagging
802.1p priority tagging is enabled on all ports.

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Precision Time Protocol (PTP)
Precision Time Protocol (PTP) communication uses the IEEE 802.3 protocol. PTP communication is only available with PRP/HSR module. A Transparent Clock (TC) is supported on the HSR ring. PTP provides higher time accuracy (500 us).

Introduction to the PTP standards
A protocol is provided in this standard that enables precise Synchronisation of clocks in measurement and control systems implemented with technologies such as network communication, local computing, and distributed objects. The protocol is applicable to systems communicating via packet networks. Heterogeneous systems are enabled that include clocks of various inherent precision, resolution, and stability to synchronise. System wide synchronisation accuracy and precision in the sub-microsecond range are supported with minimal network and local clock computing resources. Simple systems are installed and operated without requiring the management attention of users because the default behaviour of the protocol allows for it.
NOTE: Specific PTP compatible external equipment (switch, time synchronisation source, etc.) are needed for Easergy P5 PTP protocols.

PTP implementation

PTP implementation is compliant with IEC 61850-9-3 and IEEE 1588v2/ IEC 61588. Peer-to-peer mode and Best Master Clock algorithm (BMCA) are supported.
Figure 22 - PTP configuration

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Table 60 - PTP parameter values

Parameter

Value

Enable time protocol Yes, No

Domain number

0...255

Precision time state

Initial Faulty

Description

Note

Enable/disable PTP protocol.

Set

Define the permitted domain number of master

Set

clock. If the domainNumber in received PTP

message header is different from the configuration

parameter, the message will be rejected.

The state of PTP.

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Table 60 - PTP parameter values (Continued)

Parameter

Value

Description

Note

Precision time deviation Offset from master
Peer propagation delay Steps removed
Parent clock Id
Parent port number Parent clock class
Parent clock accuracy Parent clock variance Parent priority 1
Parent priority 2

Disabled Listening Pre_master Master Passive Uncalibrated Slave Unit: s

The last time deviation for PTP in s.

Unit: ns, s, ms or s Unit: ns, s, ms or s 0...255
xx-xx-xx-FFFE-xx-xx-xx 0...255 0...255
0...255
0...65535
0...255
0...255

The time difference between a master and a slave computed by the slave.
An estimate of the current one-way propagation delay on the link.
The number of communication paths traversed between the local clock and the grandmaster clock.
The parent clock id.
The number of parent port.
Parent clock attribute defining a clock's TAI traceability.
Parent clock attribute defining the accuracy of a clock.
Parent clock attribute defining the stability of a clock.
The parent priority 1 used in the execution of the best master clock algorithm.
The parent priority 2 used in the execution of the best master clock algorithm.

Simple Network Time Protocol (SNTP)
Simple Network Time Protocol is supported by the Easergy P5 protection relay and the Redundant Ethernet switch. SNTP is used to synchronise the clocks of computer systems over packet-switched, variable-latency data networks. A jitter buffer is used to reduce the effects of variable latency introduced by queuing in packet switched networks, helping to ensure a continuous data stream over the network.
The Easergy P5 protection relays receive the synchronisation from the NTP server. This is done using the IP address of the NTP server entered into the Easergy P5 protection relays from the eSetup Easergy Pro or Web HMI.
Figure 23 - Configuring the NTP server

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Communication SCADA

Presentation

For communication SCADA (Modbus, IEC 61850, IEC 103), Easergy P5 device can be configured to read only, which means users cannot change settings and send control command, no matter Easergy P5 in locked or unlocked state and with communication board or not. This function only works in basic cybersecurity level.

Communication SCADA configuration
The setting "Via SCADA" provides the option to forbid any setting changes and control commands from SCADA communication protocols (Modbus, IEC61850, IEC103). If the setting is disabled, Easergy P5 rejects all SCADA protocol setting changes and control commands. However, this setting has no effect on the local panel HMI, front USB communication port, eSetup Easergy Pro and Web HMI.
Parameters "Via SCADA" can be configured from the local panel HMI.

Figure 24 - Via SCADA shown on HMI

GENERAL SETTINGS

Cybersecurity reset

-

RBAC Reset to factory
Firmware upgrade

Config Access

Via F1 Key Via SCADA

Enabled Enabled

Table 61 - Via SCADA configuration parameters

Access via rear comms SCADA (IEC 61850)
Access via rear comms SCADA (Modbus)
Access via rear comms SCADA (IEC 103)

Via SCADA Disabled Read
Read
Read

Enabled Read/Write Read/Write Read/Write

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Client IP address filter

Client IP address filter

The "Client IP Address List" is presented in the "Protocol configuration" section of the "COMMUNICATION" menu in eSetup Easergy Pro. When there is no Ethernet Card in slot L and slot M, this list is hidden. The Client IP address filter, when enabled, defines the exclusive list of IP addresses that are accepted by the Easergy P5 relay. Connections from IP addresses, not part of this list, are rejected.
Figure 25 - The Client IP address list view in the COMMUNICATION menu

Scope Rules
290

The "Client IP Address List" is also listed in the general menu of the HMI.
The client IP address filter feature is only implemented for legacy protocols through TCP/IP.
· Modbus TCP/IP · DNP3 TCP · EtherNet/IP
· The feature can be enabled or disabled by clicking "Enable for IP filter".  Enabled: The Easergy P5 protection relay filters the client IP address as configured in the table.  Disabled: Any client can connect to the Easergy P5 protection relay.
· This feature is common for the legacy protocols supported. · CIDR (Classless Inter-Domain Routing) notation is used to define IP
addresses range, e.g. 192.168.1.191/24, which means IP address 192.168.1.0 ~ 192.168.1.255 are all available. · More than 8 IP addresses ranges are allowed/configured. But dynamically no more than 8 connections are active.
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Client IP address filter

· Only the connection from these IP addresses which are configured in the "Client IP Address List" view can be accepted by the Easergy P5 protection relay.
· Any duplicated IP address is cleared and the "In use" flag is de-selected after clicking the "Implement New IP List" button. For example, if the 2nd and 5th IP address are both "192.168.1.191", then, when clicking the "Implement" button the 5th IP address will be changed to empty, and "in use" is not selected.
· The CIDR IP address range is only active if the 'in use flag' is selected.
· When the number of connections is less than the max. allowed number, the connection from any permitted IP address is accepted.
· When there are already max. clients connected, the first connection is closed if there is new client coming from the same available IP address, otherwise the oldest connection is closed if there is new connection from available client IP.
· The parameter modified takes effect immediately after clicking the "Implement New IP List" button, the Easergy P5 protection relay is not required to reboot. The consequence of applying the IP Filer list (clicking the "Implement New IP List" button) is defined as:
 Firmware reads all configuration parameters
 Check for duplicated IP addresses
 If "Enable for IP Filter" is not selected, all existing connections will be kept, and the communication will be running as usual.
 If "Enable for IP Filter" is selected, the connection, whose IP address is allowed (defined in the IP address list), will be kept, and the communication will be running as usual. And all other connections, whose IP addresses are forbidden (not defined in the IP address list), will be closed.

Configuration parameters

Table 62 - Client IP filter configuration parameters

Parameter Enable for IP filter

Value No/Yes

IP address
CIDR prefix In use

Null or available IP address
/1 .... /32
False/True

Implement New IP List

Description This flag indicates whether the client IP filter feature is supported or not. Available IP address to be filtered.
n-bits of CIDR prefix This flag indicates whether this CIDR notation IP address is filtered. Command to Implement New IP List

NOTE: There are 8 instances of "IP address", "CIDR prefix" and "In use" parameters.

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Process

Client IP address filter

The main sequence diagram is described as below for the condition that:
· The "Enable for IP filter" is Disable
· The "Enable for IP filter" is Enable and the client IP is configured in the filter list.

Figure 26 - Client IP filter
sd IP filter3

Client

1: socket connection() 1.2: ACK()

P5 1.1: accept()

2: get client's IP()

alt: max. 8 clients connected? (Yes)

3: check local connection list()

alt: This IP connected already?

(Yes)

4: Close previous connection() 4.1: ACK()

5: close the oldest connection()

(no)

5.1: ACK()

(no) ref

6: accept this new connection() 7: update local connection list() normal communication

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Secure communication with the eSetup Easergy Pro via the Ethernet interface
Secure communication with the eSetup Easergy Pro via the Ethernet interface
NOTE: The communication is done using port 22. Ensure this port is left unblocked on the network. When Easergy P5 protection relays and eSetup Easergy Pro are connected via the Ethernet interface, they will communicate securely using SSH (Secure Shell).
The benefits of secure communication are: · Help in the prevention of unwanted eavesdropping between eSetup Easergy Pro and the Easergy P5 protection relays. · Help in the prevention of modification of data between eSetup Easergy Pro and the Easergy P5 protection relays. · Ensure integrity of data. · Help to prevent replay of data at a later date.

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Revision history

Revision history

Version number P5/EN M/11A P5/EN M/22A
P5/EN M/33A
P5/EN M/33B

Description

Release date

Original edition

2019-5

Firmware version V01 Release / Build 001.029 Configuration tool eSetup Easergy Pro V2.0.0 or later

CET850 V3.1.2 or later Firmware version V01 Release / Build 200.008 Configuration tool eSetup Easergy Pro V2.2.0 or later

2019-11

All protocols

CET850 V3.2.0 or later Data point list updated

DNP3 Modbus master

File transfer function available Modbus master chapter available

IEC 60870-5-103 New feature

Setting data configurable in IEC 60870-5-103 available
Client IP Address Filter chapter available

Conformance statement

Conformance statement for IEC 61850 Edition 1 and 2 updated

Firmware version V01 Release / Build 300.103 Configuration tool eSetup Easergy Pro V3.0.0 or later

2020-07

PTP Modbus
IEC 61850

CET850 V3.3.0 or later
Precision Time Protocol available
Modbus read exception status (FC=7) and read device identification (FC=43/14) available
File transfer and setting group available

All protocols

Data point list updated

Conformance statement

Conformance statement for IEC 61850 Edition 1 and 2 updated

Firmware version V01 Release / Build 301.103 Configuration tool eSetup Easergy Pro V3.1.0 or later

2021-02

Data model of Modbus
Access control though communication SCADA
DHCP

CET850 V3.4.0 or later PDM Point List updated
Access control through communication SCADA (Modbus, IEC 61850, IEC 103) available
Dynamic Host Configuration Protocol available

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Appendix 1: Abbreviation
Appendix 1: Abbreviation

AP ARP ASDU CDC CID
CIP COS DA DAN DANP DHCP DO DS FPGA FPN GoCB GOOSE HTTPS
ICD
IED
IID
LAN LD LN LRE MAC MICS
MMS MTU NI PDM PICS

Access Point
Address Resolution Protocol
Application Service Data Unit
Common Data Class
The Configured IED Description (file) is a file used to have communication between an IED configuration tool to an IED. It can be considered as an SCD file stripped down to what the concerned IED need to know and contains a mandatory communication section of the addressed IED.
Common Industrial Protocol
Change of State
Data Attribute
Double Attached Nodes
Double Attached Nodes implementing PRP
Dynamic Host Configuration Protocol
Data Object
Dateset
Field Programmable Gate Array
Flexible Product Naming
GOOSE Control Block
Generic Object Oriented Substation Event
Secured Hypertext Transfer Protocol (HTTPS) is an extension of the Hypertext Transfer Protocol (HTTP) to help to secure communication over a computer network.
The IED Capability Description (file) completely defines the capabilities of an IED. This file needs to be supplied by each manufacturer to make the complete system configuration. The file contains a single IED section, an optional communication section and an optional substation part which denotes the physical entities corresponding to the IED.
Intelligent Electronic Device ­ This is a term used to describe microprocessor-based controllers of power system equipment. Common types of IEDs include protective relaying devices, load tap changer controllers, circuit breaker controllers, capacitor bank switches, recloser controllers, voltage regulators, etc.
The Instantiated IED Description (file) defines the configuration of one IED for a project and is used as data exchange format from the IED configurator to the system configurator. This file contains only the data for the IED being configured: one IED section, the communication section with the IED's communication parameters, the IED's data type templates, and, optionally, a substation section with the binding of functions (LNodes) to the single line diagram.
Local Area Network
Logical Device
Logical Node
Link Redundancy Entity
Media Access Control
Model Implementation Conformance Statement describes how the information model is implemented.
Manufacturing Message Specification
Maximum Transmission Unit
Network Input
Power Data Model
Protocol Implementation Conformance Statement describes choices made in protocol implementation.

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295

Appendix 1: Abbreviation

PIXIT
RCB RCT RedBox SAN SCADA SCD
SCL
sFTP SNMP SNTP
SSD SSH TICS UCMM UDP VDAN XML

Protocol Implementation Extra Information for Testing gives any additional implementation specific information not found in the previous standardised documents.
Report Control Block
Redundancy Check Tag
Redundancy Box
Singly Attached Node
Supervisory Control and Data Acquisition
The System (or Substation) Configuration Description is the file describing the complete power utility automation system details. It contains substation, communication, IED and Data type template sections. An SSD file and different ICD files contribute in making an SCD file.
The System Configuration description Language is the language and representation format specified by IEC 61850 for the configuration of electrical substation devices. This includes representation of modeled data and communication services specified by IEC 61850-7-X standard documents. The complete SCL representation and its details are specified in IEC 61850-6 standard document. It includes data representation for substation device entities; its associated functions represented as logical nodes, communication systems and capabilities. The complete representation of data as SCL enhances the different devices of a substation to exchange the SCL files and to have a complete interoperability.
Secured File Transfer Protocol (sFTP) is a network protocol that provides file access, file transfer, and file management over any reliable data stream.
Simple Network Management Protocol (SNMP) is an "Internetstandard protocol for managing devices on IP networks.
Simple Network Time Protocol (SNTP) is a less complex implementation of NTP, using the same protocol but without requiring the storage of state over extended periods of time.
System Specification Description
Secure Shell (SSH) is a cryptographic network protocol for operating network services securely over network communication.
Tissues Conformance Statement describes how the device behaves regarding identified technica lissues.
UnConnected Message Manager
User Datagram Protocol
Virtual Double Attached Nodes
Extensible Markup Language

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Appendix 2: IEC 61850 Edition 1 conformance statement
Appendix 2: IEC 61850 Edition 1 conformance statement

Introduction

Document purpose

The purpose of this document is to specify the communication features of the Easergy P5 protection relays embedded IEC 61850 server implementation mapped to IEC 61850 Edition 1 standards.
The model implementation in Easergy P5 protection relays varies with the functional scope provided by the different device models.
The information provided here may be still the subject of changes due to planned further extensions in the supported IEC 61850 functionality.

Terms and abbreviations
Terms / abbreviations ACSI BDA DA DO FCD FCDA ID IED LD LN MSV RCB GoCB SCL SCSM XML GSSE GOOSE SCD ICD CID PICS MICS PIXIT TICS

Definitions
Abstract Communication Service Interfaces Basic Data Attribute (not structured) Data Attributes DATA in IEC 61850-7-2, data object type or instance Functionally Constrained Data Functionally Constrained Data Attribute Identifier Intelligent Electronic Device Logical Device Logical Node Multicast Sampled Value Report Control Block GOOSE Control Block or GSSE Control Block Substation Configuration description Language Specific Communication Service Mapping Extensible Markup Language Generic Substation State Event Generic Object Oriented Substation Event Substation Configuration Description IED Configuration Description Configured IED Description Protocol Implementation Conformance Statement Model Implementation Conformance Statement Protocol Implementation eXtra Information for Testing Tissue Implementation Conformance Statement

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PICS details

Appendix 2: IEC 61850 Edition 1 conformance statement
The PICS is based upon UCAIug PICS Template version 2.3, UCA International Users Group Testing Sub Committee, October 08, 2019. The following ACSI conformance statements are used to provide an overview and details about following devices: P5U20, P5V20, P5F30, P5M30, with firmware version V01.
· ACSI basic conformance statement · ACSI models conformance statement · ACSI service conformance statement The statements specify the communication features mapped to IEC 61850-8-1 and IEC 61850-9-2, Edition 1.

ACSI basic conformance statement

The basic conformance statement is defined in the table below. Table 63 - Basic conformance statement

Client­Server roles

B11

Server side (of TWO-PARTY-

APPLICATION-ASSOCIATION)

Client /

Server /

Subscriber Publisher

Y

B12

Client side (of TWO-PARTY-

­

APPLICATION-ASSOCIATION)

SCSMs supported

B21

SCSM: IEC 61850-8-1 used

Y

B22

SCSM: IEC 61850-9-1 used

N

B23

SCSM: IEC 61850-9-2 used

N

B24

SCSM: other

N

Generic substation event model (GSE)

B31

Publisher side

Y

B32

Subscriber side

Y

Transmission of sampled value model (SVC)

B41

Publisher side

B42

Subscriber side

­ = not applicable

N N

Y = supported

N or empty = not supported

Value / Comments

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Appendix 2: IEC 61850 Edition 1 conformance statement

ACSI models conformance statement

The ACSI models conformance statement is defined in the table below. Table 64 - ACSI models conformance statement

Client /

Server /

Subscriber Publisher

If Server side (B11) and/or Client side (B12) is supported

M1

Logical device

Y

M2

Logical node

Y

M3

Data

Y

M4

Data set

Y

M5

Substitution

N

M6

Setting group control

Y

Reporting

M7

Buffered report control

Y

M7-1 sequence-number

Y

M7-2 report-time-stamp

Y

M7-3 reason-for-inclusion

Y

M7-4 data-set-name

Y

M7-5 data-reference

Y

M7-6 buffer-overflow

Y

M7-7 entryID

Y

M7-8 BufTm

Y

M7-9 IntgPd

Y

M7-10 GI

Y

M7-11 conf-revision

Y

M8

Unbuffered report

Y

control

M8-1 sequence-number

Y

M8-2 report-time-stamp

Y

M8-3 reason-for-inclusion

Y

M8-4 data-set-name

Y

M8-5 data-reference

Y

M8-6 BufTm

Y

M8-7 IntgPd

Y

M8-8 GI

Y

M8-9 conf-revision

Y

Logging

M9

Log control

N

Value / Comments
Only standard LN types defined in Part 7-4. Only standard object types defined in Part 7-3, 7-4.
Mandatory objects and attributes, selected optional objects and attributes.
Supported pre-defined persistent data sets, configurable via SCL. Supported dynamically created data sets (persistent and nonpersistent).
Data set members selection restricted to FC such as ST and MX.

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Appendix 2: IEC 61850 Edition 1 conformance statement

Table 64 - ACSI models conformance statement (Continued)

M9-1 IntgPd M10 Log Other M11 Control M17 File transfer M18 Application
association M19 GOOSE Control Block M20 Sampled Values
Control Block If GSE (B31/32) is supported
M12 GOOSE M13 GSSE If SVC (B41/B42) is supported M14 Multicast SVC M15 Unicast SVC For all IEDs M16 Time

Client /

Server /

Subscriber Publisher

N

N

Y Y Y
Y N

Y N
N N
Y

Y = service is supported N or empty = service is not supported

Value / Comments
Performance class T2 (100s accuracy)

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Appendix 2: IEC 61850 Edition 1 conformance statement

ACSI service conformance statement

The ACSI service conformance statement is defined in the table below (depending on the statements in ACSI basic conformance statement, page 298).
Table 65 - ACSI service conformance statement

Ed ACSI Service Conformance

AA: TP/MC

Server

S1

1,2 GetServerDirectory

TP

(LOGICAL-DEVICE)

Application association

S2

1,2 Associate

S3

1,2 Abort

S4

1,2 Release

Logical device

S5

1,2 LogicalDeviceDirectory TP

Logical node

S6

1,2 LogicalNodeDirectory TP

S7

1,2 GetAllDataValues

TP

Data

S8

1,2 GetDataValues

TP

S9

1,2 SetDataValues

TP

S10

1,2 GetDataDirectory

TP

S11

1,2 GetDataDefinition

TP

Data set

S12

1,2 GetDataSetValues

TP

S13

1,2 SetDataSetValues

TP

S14

1,2 CreateDataSet

TP

S15

1,2 DeleteDataSet

TP

S16

1,2 GetDataSetDirectory TP

Substitution

S17

1

SetDataValues

TP

Setting group control

S18

1,2 SelectActiveSG

TP

S19

1,2 SelectEditSG

TP

S20

1,2 SetSGValues

TP

S21

1,2 ConfirmEditSGValues TP

S22

1,2 GetSGValues

TP

S23

1,2 GetSGCBValues

TP

Reporting

Buffered report control block (BRCB)

S24

1,2 Report

TP

S24-1 1,2 data-change (dchg)

S24-2 1,2 qchg-change (qchg)

S24-3 1,2 data-update (dupd)

Client / Server / Comments Sub (C) Pub (S)
Y
Y Y Y
Y
Y Y
Y Y Y Y
Y N Y Y Y
N
Y Y Y Y Y Y

Y

Y

Y

Y

Accepted as TrgOpt,

but not functionally

supported by the IED

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Appendix 2: IEC 61850 Edition 1 conformance statement

Table 65 - ACSI service conformance statement (Continued)

Ed ACSI Service Conformance

AA: TP/MC

S25

1,2 GetBRCBValues

TP

S26

1,2 SetBRCBValues

TP

Unbuffered report control block (URCB)

S27

1,2 Report

TP

S27-1 1,2 data-change (dchg)

S27-2 1,2 qchg-change (qchg)

S27-3 1,2 data-update (dupd)

S28

1,2 GetURCBValues

TP

S29

1,2 SetURCBValues

TP

Logging

Log control block

S30

1,2 GetLCBValues

TP

S31

1,2 SetLCBValues

TP

Log

S32

1,2 QueryLogByTime

TP

S33

1,2 QueryLogAfter

TP

S34

1,2 GetLogStatusValues

TP

Generic substation event model (GSE)

S35

1,2 SendGOOSEMessage MC

GOOSE Control Block

S36

1,2 GetGoReference

TP

S37

1,2 GetGOOSEElement- TP

Number

S38

1,2 GetGoCBValues

TP

S39

1,2 SetGoCBValues

TP

GSSE (Ed2:61850-7-2 Annex C)

S40

1

SendGSSEMessage MC

GSSE Control Block

S41

1

GetGsReference

TP

S42

1

GetGSSEElement-

TP

Number

S43

1

GetGsCBValues

TP

S44

1

SetGsCBValues

TP

Transmission of sampled value model (SVC)

Multicast SV

S45

1,2 SendMSVMessage

MC

Multicast Sampled Values Control Block

S46

1,2 GetMSVCBValues

TP

S47

1,2 SetMSVCBValues

TP

Unicast SV

Client / Server / Comments Sub (C) Pub (S)
Y
Y

Y

Y

Y

Y

Accepted as TrgOpt,

but not functionally

supported by the IED

Y

Y

N N
N N N
Y
N N Y Y
N
N N N N

N

Use for 9-2LE or IEC

61869-9

N N

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Appendix 2: IEC 61850 Edition 1 conformance statement

Table 65 - ACSI service conformance statement (Continued)

Ed ACSI Service Conformance

AA: TP/MC

S48

1,2 SendUSVMessage

TP

Unicast Sampled Values Control Block

S49

1,2 GetUSVCBValues

TP

S50

1,2 SetUSVCBValues

TP

Control

S51

1,2

Select

S52

1,2 SelectWithValue

TP

S53

1,2 Cancel

TP

S54

1,2 Operate

TP

S55

1,2 CommandTermination TP

S56

1,2 TimeActivatedOperate TP

File Transfer

S57

1,2 GetFile

TP

S58

1,2 SetFile

TP

S59

1,2 DeleteFile

TP

S60

1,2 GetFileAttributeValues TP

S61

1,2 GetServerDirectory

TP

(FILE-SYSTEM)

Time

T1

1,2

Time resolution of internal clock

T2

1,2 Time accuracy of

internal clock

T3

1,2 Supported TimeStamp -

resolution

Client / Server / Comments Sub (C) Pub (S)
N
N N
Y Y Y Y Y N
Y N N Y Y

14

14 for IEEE1588,

10 for IRIG-B,

7 for SNTP and

protocols

T2

Performance class

T2 for IEEE1588,

T1 for IRIG-B,

T0 for SNTP and

protocols

20

Nearest value of 2-n

in seconds

(number 0 ... 24)

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MICS details
Logical nodes list

Appendix 2: IEC 61850 Edition 1 conformance statement

The MICS is based upon UCAIug MICS Template version 1.2, UCA International Users Group Testing Sub Committee, August 13, 2019.
This model implementation conformance statement is applicable for P5U20, P5V20, P5F30 and P5M30, with firmware version V01.
This MICS document specifies the modeling extensions compared to IEC 61850 Edition 1.
Clause Logical nodes list contains the list of implemented logical nodes.
Clause Logical node extensions describes the new and extended logical nodes (if any).
Clause Enum types extensions describes the new and extended enum types (if any).

The following table contains the list of logical nodes implemented in the device: Table 66 - Logical nodes implemented in the device

L: System Logical Nodes

P5U20

LPHD (Physical device information)

x

LLN0 (Logical node zero)

x

P: Logical Nodes for protection functions

PTRC (Protection trip conditioning)

x

PTOC (Time overcurrent)

x

PFRC (Rate of change frequency)

x

PIOC (Instantaneous overcurrent)

x

PTOF (Over frequency)

x

PTOV (Overvoltage)

x

PDOP (Directional overpower)

x

PTUC (Undercurrent)

x

PTTR (Thermal overload)

x

PTUF (Under frequency)

x

PTUV (Under voltage)

x

PMRI (Motor restart inhibition)

x

PMSS (Motor starting time supervision)

x

PTEF (Transient earth fault)

PADM (Admittance)

POVS (Motor overspeed)

x

PZSU (Motor underspeed)

x

PHAR (Harmonic restraint)

x

R: Logical nodes for protection related functions

RREC (Auto reclosing)

x

RDRE (Disturbance recorder)

x

RFLO (Fault locator)

P5V20

P5F30

P5M30

x

x

x

x

x

x

x

x

x

x

x

x

x

x

x

x

x

x

x

x

x

x

x

x

x

x

x

x

x

x

x

x

x

x

x

x

x

x

x

x

x

x

x

x

x

x

x

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Appendix 2: IEC 61850 Edition 1 conformance statement

Table 66 - Logical nodes implemented in the device (Continued)

RSYN (Synchronism-check)

P5U20

P5V20 x

G: Logical Nodes for generic references

GGIO (Generic process I/O)

x

x

GAPC (Generic automatic process control) x

x

M: Logical Nodes for metering and measurement

MMTR (Metering)

x

MMXU (Measurement)

x

x

MHAI (Harmonics)

x

x

C: Logical Nodes for control

CSWI (Switch controller)

x

x

T: Logical nodes for instrument transformers and sensors

TCTX (Current transformer)

x

TVTX (Voltage transformer)

x

x

P5F30 x
x x
x x x
x
x x

P5M30
x x
x x x
x
x x

Logical node extensions
The following table uses: · M: Data is mandatory in the IEC 61850-7-4. · O: Data is optional in the IEC 61850-7-4 and is used in the device. · C: Data is conditional in the IEC 61850-7-4 and is used in the device. · E: Data is an extension to the IEC 61850-7-4.

New logical nodes

Newly created logical nodes are listed in this clause, with lnNs attribute in the Name plate.
PADM Admittance This LN shall be used for protection admittance E/F Io/Uo.

Data object name
P5EFPADM1 P5EFPADM2

Common data class

Data Objects

Common Logical Node Information

Mod

INC

Beh

INS

Health

INS

NamPlt

LPL

Status Information YStr YOp

ACD ACT

GStr

ACD

PADM class Explanation
The name shall be composed of the class name, the LN-Prefix and LN-Instance-ID according to IEC 61850-7-2, Clause 22.
Mode Behaviour Health Name plate
YN start YN operate GN start

M/O/ Remarks C/E
E

M

Status-only

M M M

E E E

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Appendix 2: IEC 61850 Edition 1 conformance statement

Data object name
GOp BStr BOp Settings FunEna YFunEna GFunEna BFunEna UoStrVal CorAng YStrVal YOpDlTms YRsDlTms YSolMod YSlOpDlTms GStrVal GDirMod GOpDlTms GRsDlTms GSolMod GSlOpDlTms BStrVal BDirMod BOpDlTms BRsDlTms BSolMod BSlOpDlTms

Common data class ACT
ACD ACT

PADM class Explanation
GN operate BN start BN operate

SPG SPG SPG SPG ASG ASG ASG ASG ASG SPG ASG ASG ING ASG ASG SPG ASG ASG ING ASG ASG SPG ASG

Whole function enable YN function enable GN function enable BN function enable Uo pick-up value Correction angle YN pick-up value YN operate delay time YN reset time YN SOL mode YN SOL operate delay time GN pick-up value GN direction mode GN operate delay time GN reset time GN SOL mode GN SOL operate delay time BN pick-up value BN direction mode BN operate delay time BN reset time BN SOL mode BN SOL operate delay time

M/O/ Remarks C/E E E E
E E E E E E E E E E E E E E E E E E E E E E E

POVS Motor overspeed This LN shall be used for protection motor overspeed.

Data object name
P5MOTPOVS1 P5MOTPOVS2

Common data class

Data Objects

Common Logical Node Information

Mod

INC

Beh

INS

Health

INS

NamPlt

LPL

Status Information

POVS class Explanation
The name shall be composed of the class name, the LN-Prefix and LN-Instance-ID according to IEC 61850-7-2, Clause 22.
Mode Behaviour Health Name plate

M/O/ Remarks C/E
E

M

Status-only

M M M

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Appendix 2: IEC 61850 Edition 1 conformance statement

Data object name
Str Op Settings FunEna StrVal OpDlTms

Common data class
ACD
ACT

POVS class Explanation
Start Operate

SPG ASG ASG

Function enable Pick-up value Operate delay time

M/O/ Remarks C/E E E
E E E

TCTX Current transformer This LN shall be used for protection current transformer parameters.

Data object name P5ITCTX1

Common data class

Data Objects

Common Logical Node Information

Mod

INC

Beh

INS

Health

INS

NamPlt

LPL

Status Information

TCTX class Explanation
The name shall be composed of the class name, the LN-Prefix and LN-Instance-ID according to IEC 61850-7-2, Clause 22.
Mode Behaviour Health Name plate

M/O/ C/E
E

Remarks

M

Status-only

M M M

Measured and metered values

Settings FunEna CTNum OpDlTmms PriPhs SecPhs

SPG ING ING ASG ASG

Function enable

E

Number of connected phase CT E

Operate delay time

E

CT primary

E

CT secondary

E

Data object name P5IOTCTX1

Common data class

TCTX class
Explanation
The name shall be composed of the class name, the LN-Prefix and LN-Instance-ID according to IEC 61850-7-2, Clause 22.

Data Objects

Common Logical Node Information

Mod

INC

Mode

Beh Health NamPlt

INS

Behaviour

INS

Health

LPL

Name plate

Status Information

M/O/ C/E E
M M M M

Remarks Status-only

P5/EN M/33B

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Appendix 2: IEC 61850 Edition 1 conformance statement

Data object name

Common data class

TCTX class Explanation

M/O/ Remarks C/E

Measured and metered values

Settings

PriNeut1

ASG

Io CT primary

E

PriNeut2

ASG

Io' CT primary

E

Data object name P5LPITCTX1

Common data class

TCTX class
Explanation
The name shall be composed of the class name, the LN-Prefix and LN-Instance-ID according to IEC 61850-7-2, Clause 22.

Data Objects

Common Logical Node Information

Mod

INC

Mode

Beh Health NamPlt

INS

Behaviour

INS

Health

LPL

Name plate

Status Information

M/O/ C/E E
M M M M

Remarks Status-only

Measured and metered values

ExtPri

MV

Rated ext. primary current In

E

Settings

FunEna

SPG

Function enable

E

OpDlTmms

ING

Operate delay time

E

NomPri

ASG

LPCT rated primary current

E

TVTX Voltage transformer This LN shall be used for protection voltage transformer parameters.

Data object name P5UTVTX1

Common data class

TVTX class
Explanation
The name shall be composed of the class name, the LN-Prefix and LN-Instance-ID according to IEC 61850-7-2, Clause 22.

Data Objects

Common Logical Node Information

Mod

INC

Mode

Beh Health NamPlt

INS

Behaviour

INS

Health

LPL

Name plate

Status Information

M/O/ C/E E
M M M M

Remarks Status-only

Measured and Metered Values

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Appendix 2: IEC 61850 Edition 1 conformance statement

Data object name

Common data class

TVTX class Explanation

M/O/ Remarks C/E

Settings

FunEna

SPG

Function enable

E

ImbAMinLev

ASG

I2 min. setting

E

ImbVMaxLev

ASG

U2 max. setting

E

OpDlTmms

ING

Operate delay time

E

PriPhs

ASG

VT primary

E

SecNeut

ASG

VTo secondary

E

SecPhs

ASG

VT secondary

E

Data object name P5LPUTVTX1

Common data class

TVTX class
Explanation
The name shall be composed of the class name, the LN-Prefix and LN-Instance-ID according to IEC 61850-7-2, Clause 22.

Data Objects

Common Logical Node Information

Mod

INC

Mode

Beh Health NamPlt

INS

Behaviour

INS

Health

LPL

Name plate

Status Information

M/O/ C/E E
M M M M

Remarks Status-only

Measured and Metered Values

ExtPri

MV

Settings

FunEna PhAMagCor

SPG ASG

PhBMagCor

ASG

PhCMagCor

ASG

PhAAngCor

ASG

PhBAngCor

ASG

PhCAngCor

ASG

VL1yMagCor

ASG

VL1yAngCor

ASG

VL2yMagCor

ASG

VL2yAngCor

ASG

VtTyp

ING

VtSecAdpt

ASG

PhAMagAdpt

ASG

PhBMagAdpt

ASG

PhCMagAdpt

ASG

Rated ext. primary current In

E

Function enable

E

VL1 magnitude correction

E

VL2 magnitude correction

E

VL3 magnitude correction

E

VL1 Angle correction

E

VL2 Angle correction

E

VL3 Angle correction

E

VL1y magnitude correction

E

VL1y Angle correction

E

VL2y magnitude correction

E

VL2y Angle correction

E

Primary VT type

E

VT secondary rated voltage

E

VL1 Adapt magnitude correction E

VL2 Adapt magnitude correction E

VL3 Adapt magnitude correction E

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Appendix 2: IEC 61850 Edition 1 conformance statement

Data object name
VlSecAdpt VL1yMagAdt

Common data class
ASG
ASG

TVTX class Explanation
VTy secondary rated voltage VL1y Adapt magnitude correction

M/O/ C/E
E

Remarks

E

Data object name P5LPUTVTX2

Common data class

TVTX class
Explanation
The name shall be composed of the class name, the LN-Prefix and LN-Instance-ID according to IEC 61850-7-2, Clause 22.

Data Objects

Common Logical Node Information

Mod

INC

Mode

Beh Health NamPlt

INS

Behaviour

INS

Health

LPL

Name plate

Status Information

M/O/ C/E E
M M M M

Remarks Status-only

Measured and Metered Values

ExtPri

MV

Settings

FunEna NomPri

SPG ASG

PhAMagCor

ASG

PhBMagCor

ASG

PhCMagCor

ASG

PhAAngCor

ASG

PhBAngCor

ASG

PhCAngCor

ASG

VL1yMagCor

ASG

VL1yAngCor

ASG

VtTyp

ING

VtSecAdpt

ASG

PhAMagAdpt

ASG

PhBMagAdpt

ASG

PhCMagAdpt

ASG

VlSecAdpt

ASG

VL1yMagAdt

ASG

Rated ext. primary current In

E

Function enable

E

LPVT rated primary voltage

E

VL1 magnitude correction

E

VL2 magnitude correction

E

VL3 magnitude correction

E

VL1 Angle correction

E

VL2 Angle correction

E

VL3 Angle correction

E

VL1y magnitude correction

E

VL1y Angle correction

E

Primary VT type

E

VT secondary rated voltage

E

VL1 Adapt magnitude correction E

VL2 Adapt magnitude correction E

VL3 Adapt magnitude correction E

VTy secondary rated voltage

E

VL1y Adapt magnitude correction E

Data object name P5LPUTVTX3
Data Objects

Common data class

TVTX class
Explanation
The name shall be composed of the class name, the LN-Prefix and LN-Instance-ID according to IEC 61850-7-2, Clause 22.

M/O/ C/E
E

Remarks

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Appendix 2: IEC 61850 Edition 1 conformance statement

TVTX class

Data object name

Common data class

Explanation

Common Logical Node Information

Mod

INC

Mode

Beh Health NamPlt

INS

Behaviour

INS

Health

LPL

Name plate

Status Information

M/O/ Remarks C/E

M

Status-only

M M M

Measured and Metered Values

ExtPri

MV

Settings

FunEna NomPri

SPG ASG

PhAMagCor

ASG

PhBMagCor

ASG

PhCMagCor

ASG

PhAAngCor

ASG

PhBAngCor

ASG

PhCAngCor

ASG

VtTyp

ING

VtSecAdpt

ASG

PhAMagAdpt

ASG

PhBMagAdpt

ASG

PhCMagAdpt

ASG

UoSecAdpt

ASG

UoMagAdt

ASG

Rated ext. primary current In

E

Function enable

E

LPVT rated primary voltage

E

VL1 magnitude correction

E

VL2 magnitude correction

E

VL3 magnitude correction

E

VL1 Angle correction

E

VL2 Angle correction

E

VL3 Angle correction

E

Primary VT type

E

VT secondary rated voltage

E

VL1 Adapt magnitude correction E

VL2 Adapt magnitude correction E

VL3 Adapt magnitude correction E

Uo secondary rated voltage

E

Uo Adapt magnitude correction

E

Data object name P5LPUTVTX4

Common data class

TVTX class
Explanation
The name shall be composed of the class name, the LN-Prefix and LN-Instance-ID according to IEC 61850-7-2, Clause 22.

Data Objects

Common Logical Node Information

Mod

INC

Mode

Beh Health NamPlt

INS

Behaviour

INS

Health

LPL

Name plate

Status Information

M/O/ C/E E
M M M M

Remarks Status-only

Measured and Metered Values

ExtPri

MV

Rated ext. primary current In

E

Settings

P5/EN M/33B

311

Appendix 2: IEC 61850 Edition 1 conformance statement

Data object name
FunEna NomPri PhAMagCor PhBMagCor PhCMagCor PhAAngCor PhBAngCor PhCAngCor VtTyp VtSecAdpt PhAMagAdpt PhBMagAdpt PhCMagAdpt

Common data class SPG ASG ASG ASG ASG ASG ASG ASG ING ASG ASG ASG ASG

TVTX class Explanation
Function enable LPVT rated primary voltage VL1 magnitude correction VL2 magnitude correction VL3 magnitude correction VL1 Angle correction VL2 Angle correction VL3 Angle correction Primary VT type VT secondary rated voltage VL1 Adapt magnitude correction VL2 Adapt magnitude correction VL3 Adapt magnitude correction

M/O/ C/E E E E E E E E E E E E E E

Remarks

Standardised and extended DO of logical node type

The following table presents a summary of the standardised and extended DO of each Logical Node Type.
LN Type: SE_GAPC_PS_EasergyP5_V001 Description: Generic automatic process control LN Class: GAPC

Data object name P5PSGAPC1...8

Common data class

GAPC class
Explanation
The name shall be composed of the class name, the LN-Prefix and LN-Instance-ID according to IEC 61850-7-2, Clause 22.

Data Objects

Common Logical Node Information

Mod

INC

Mode

Beh Health NamPlt

INS

Behaviour

INS

Health

LPL

Name plate

Status Information Str Op

ACD ACT

Start Operate

Settings

FunEna

SPG

Function enable

M/O/ C/E M
M M M M
M M
E

Remarks Status-only

LN Type: SE_GGIO_AR_EasergyP5FU_V001 Description: Generic process I/O LN Class: GGIO

312

P5/EN M/33B

Appendix 2: IEC 61850 Edition 1 conformance statement

Data object name P5ARGGIO1

Common data class

GGIO class
Explanation
The name shall be composed of the class name, the LN-Prefix and LN-Instance-ID according to IEC 61850-7-2, Clause 22.

Data Objects

Common Logical Node Information

Mod

INC

Mode

Beh Health NamPlt

INS

Behaviour

INS

Health

LPL

Name plate

Status Information Ind1

SPS

AR1 final trip

Ind2

SPS

AR2 final trip

Ind3

SPS

AR3 final trip

Ind4

SPS

AR4 final trip

Ind5

SPS

AR5 final trip

Ind6

SPS

AR6 final trip

Ind7

SPS

AR7 final trip

Ind8

SPS

AR8 final trip

Ind9

SPS

AR9 final trip

Ind10

SPS

AR10 final trip

Ind11

SPS

AR11 final trip

Ind12

SPS

AR12 final trip

Ind13

SPS

AR13 final trip

Ind14

SPS

AR14 final trip

Ind15

SPS

AR15 final trip

Ind16

SPS

AR16 final trip

Ind17

SPS

AR17 final trip

Ind18

SPS

AR18 final trip

Ind19

SPS

AR19 final trip

Settings

FunEna

SPG

Function enable

M/O/ C/E M
M M M M
O O O O O O O O O O O O O O O O O O O
E

Remarks Status-only

LN Type: SE_GGIO_CBWA_EasergyP5FMU_V002 Description: Generic process I/O LN Class: GGIO

Data object name P5CBWAGGIO1

Common data class

GGIO class
Explanation
The name shall be composed of the class name, the LN-Prefix and LN-Instance-ID according to IEC 61850-7-2, Clause 22.

Data Objects

Common Logical Node Information

Mod

INC

Mode

M/O/ C/E M
M

Remarks Status-only

P5/EN M/33B

313

Appendix 2: IEC 61850 Edition 1 conformance statement

Data object name
Beh Health NamPlt Status Information Ind1 Ind2 Alm1Phs1 Alm1Phs2 Alm1Phs3 Alm2Phs1 Alm2Phs2 Alm2Phs3 Settings FunEna CBOpenCnt RackOutCnt TripCnt AlmLev1 AlmLev2 LimOpNum1 LimOpNum2

Common data class INS INS LPL
SPS SPS INS INS INS INS INS INS
SPG ING ING ING ASG ASG ASG ASG

GGIO class Explanation
Behaviour Health Name plate
General indication (binary input) General indication (binary input) Alarm 1 of Phase 1 Alarm 1 of Phase 2 Alarm 1 of Phase 3 Alarm 2 of Phase 1 Alarm 2 of Phase 2 Alarm 2 of Phase 3
Function enable CB open counter Rack out counter Protection trip counter Alarm level 1 Alarm level 2 Limit for operate left 1 Limit for operate left 2

M/O/ C/E M
M
M

Remarks

O O E E E E E E

E E E E E E E E

LN Type: SE_MMXU_VECA_EasergyP5FMU_VSI_V001 Description: Measurement LN Class: MMXU

Data object name P5VECAMMXU1

Common data class

MMXU class
Explanation
The name shall be composed of the class name, the LN-Prefix and LN-Instance-ID according to IEC 61850-7-2, Clause 22.

Data Objects

Common Logical Node Information

Mod

INC

Mode

Beh Health NamPlt

INS

Behaviour

INS

Health

LPL

Name plate

Measured values

Hz

MV

Frequency

A

WYE

Phase currents (IL1, IL2, IL3)

Iovs

WYE

Residual current Io'

M/O/ C/E M
M M M M
O O E

Remarks Status-only

LN Type: SE_PDOP_REVP_EasergyP5FM_V002 Description: Directional overpower LN Class: PDOP

314

P5/EN M/33B

Appendix 2: IEC 61850 Edition 1 conformance statement

Data object name
P5REVPPDOP1 P5REVPPDOP2

Common data class

PDOP class
Explanation
The name shall be composed of the class name, the LN-Prefix and LN-Instance-ID according to IEC 61850-7-2, Clause 22.

Data Objects

Common Logical Node Information

Mod

INC

Mode

Beh Health NamPlt

INS

Behaviour

INS

Health

LPL

Name plate

Status Information Str Op

ACD ACT

Start Operate

Settings

FunEna StrVal

SPG ASG

Function enable Pick-up value

OpDlTms

ASG

Operate delay time

M/O/ C/E M
M M M M
M M
E O E

Remarks Status-only

LN Type: SE_PDOP_EF_EasergyP5FM_V002 Description: Directional overpower LN Class: PDOP

Data object name
P5EFPDOP1 P5EFPDOP2

Common data class

PDOP class
Explanation
The name shall be composed of the class name, the LN-Prefix and LN-Instance-ID according to IEC 61850-7-2, Clause 22.

Data Objects

Common Logical Node Information

Mod

INC

Mode

Beh Health NamPlt

INS

Behaviour

INS

Health

LPL

Name plate

Status Information Str Op

ACD ACT

Start Operate

Settings

FunEna DirMode StrVal

SPG ING ASG

Function enable Direction mode Pick-up value

UoStrVal

ASG

Uo setting

SctrStrVal

ASG

Pick up sector size

OpDlTms

ASG

Operate delay time

SolMod SolOpDlTms

SPG ASG

SOL Mode SOL operate delay time

M/O/ C/E M
M M M M
M M
E E M E E E E E

Remarks Status-only

P5/EN M/33B

315

Appendix 2: IEC 61850 Edition 1 conformance statement

Data object name
MemMod MmUoStrVal MemTms

Common data class ING
ASG
ASG

PDOP class Explanation
Memory Mode Uo setting Memory time

M/O/ C/E E
E
E

Remarks

LN Type: SE_PFRC_DFDT_EasergyP5FV_V002 SE_PFRC_DFDT_EasergyP5U_LPT_V002 Description: Rate of change of frequency LN Class: PFRC

Data object name
P5DFDTPFRC1 P5DFDTPFRC2 P5DFTLPFRC1 P5DFTLPFRC2 Data Objects

Common data class

PFRC class
Explanation
The name shall be composed of the class name, the LN-Prefix and LN-Instance-ID according to IEC 61850-7-2, Clause 22.

Common Logical Node Information

Mod

INC

Mode

Beh Health NamPlt

INS

Behaviour

INS

Health

LPL

Name plate

Status Information Str Op

ACD ACT

Start Operate

Settings

FunEna DirChg

SPG ING

Function enable Direction of change

StrVal

ASG

Pick-up value

OpDlTms

ASG

Operate delay time

M/O/ C/E M
M M M M
M M
E E O E

Remarks Status-only

LN Type: SE_PIOC_CBFP_EasergyP5FMU_V002 Description: Instantaneous overcurrent LN Class: PIOC

Data object name P5CBFPPIOC1

Common data class

PIOC class
Explanation
The name shall be composed of the class name, the LN-Prefix and LN-Instance-ID according to IEC 61850-7-2, Clause 22.

Data Objects

Common Logical Node Information

Mod

INC

Mode

Beh Health NamPlt

INS

Behaviour

INS

Health

LPL

Name plate

Status Information

M/O/ C/E M
M M M M

Remarks Status-only

316

P5/EN M/33B

Appendix 2: IEC 61850 Edition 1 conformance statement

Data object name
Str Op Settings FunEna NeutStrVal
PhsStrVal
Tm1DlTms Tm1Ena Tm2DlTms Tm2Ena

Common data class ACD ACT
SPG ASG
ASG
ASG SPG ASG SPG

PIOC class Explanation
Start Operate

M/O/ C/E
O
M

Remarks

Function enable

E

Undercurrent threshold for earth

E

fault current

Undercurrent threshold for phase E current

Timer1 operate delay time

E

Enable CBF timer1

E

Timer2 operate delay time

E

Enable CBF timer2

E

LN Type: SE_PIOC_CBFP_EasergyP5V_V002 Description: Instantaneous overcurrent LN Class: PIOC

Data object name P5CBFPPIOC2

Common data class

PIOC class
Explanation
The name shall be composed of the class name, the LN-Prefix and LN-Instance-ID according to IEC 61850-7-2, Clause 22.

Data Objects

Common Logical Node Information

Mod

INC

Mode

Beh Health NamPlt

INS

Behaviour

INS

Health

LPL

Name plate

Status Information Str Op

ACD ACT

Start Operate

Settings

FunEna Tm1DlTms

SPG ASG

Function enable Timer1 operate delay time

Tm1Ena Tm2DlTms

SPG ASG

Enable CBF timer1 Timer2 operate delay time

Tm2Ena

SPG

Enable CBF timer2

M/O/ C/E M
M M M M
O M
E E E E E

Remarks Status-only

LN Type: SE_PIOC_CBFP_EasergyP5FMU_VSI_V001 Description: Instantaneous overcurrent LN Class: PIOC

P5/EN M/33B

317

Appendix 2: IEC 61850 Edition 1 conformance statement

Data object name P5CBFPPIOC3

Common data class

PIOC class
Explanation
The name shall be composed of the class name, the LN-Prefix and LN-Instance-ID according to IEC 61850-7-2, Clause 22.

Data Objects

Common Logical Node Information

Mod

INC

Mode

Beh Health NamPlt

INS

Behaviour

INS

Health

LPL

Name plate

Status Information Str Op

ACD ACT

Start Operate

Settings

FunEna NeutStrVal
PhsStrVal
IovsStrVal Tm1DlTms

SPG ASG
ASG
ASG ASG

Function enable
Undercurrent threshold for earth fault current
Undercurrent threshold for phase current
Io'< current set
Timer1 operate delay time

Tm1Ena Tm2DlTms

SPG ASG

Enable CBF timer1 Timer2 operate delay time

Tm2Ena

SPG

Enable CBF timer2

M/O/ C/E M
M M M M
O M
E E E E E E E E

Remarks Status-only

LN Type: SE_PIOC_ARCM_EasergyP5FM_ARC_V001 Description: Instantaneous overcurrent LN Class: PIOC

Data object name P5ARCMPIOC1...8

Common data class

PIOC class
Explanation
The name shall be composed of the class name, the LN-Prefix and LN-Instance-ID according to IEC 61850-7-2, Clause 22.

Data Objects

Common Logical Node Information

Mod

INC

Mode

Beh Health NamPlt

INS

Behaviour

INS

Health

LPL

Name plate

Status Information Op

ACT

Operate

Settings

FunEna MinOpTmms

SPG ING

Function enable Min. hold time [x1ms]

M/O/ C/E M
M M M M
M
E E

Remarks Status-only

318

P5/EN M/33B

Appendix 2: IEC 61850 Edition 1 conformance statement

Data object name
OpDlTmms OpMode

Common data class
ING
ING

PIOC class Explanation
Trip X delay [x1ms] Arc stage X Mode

M/O/ C/E
E
E

Remarks

LN Type: SE_PIOC_CLP_EasergyP5FMU_V001 Description: Instantaneous overcurrent LN Class: PIOC

Data object name P5CLPPIOC1

Common data class

PIOC class
Explanation
The name shall be composed of the class name, the LN-Prefix and LN-Instance-ID according to IEC 61850-7-2, Clause 22.

Data Objects

Common Logical Node Information

Mod

INC

Mode

Beh Health NamPlt

INS

Behaviour

INS

Health

LPL

Name plate

Status Information Op

ACT

Operate

Settings

FunEna Idl StrVal

SPG ASG ASG

Function enable Idle current Pickup current

DeadTms MaxTms

ASG ASG

CLPU dead time Maximum time

M/O/ C/E M
M M M M
M
E E O E E

Remarks Status-only

LN Type: SE_PIOC_SOL_EasergyP5FMU_V001 Description: Instantaneous overcurrent LN Class: PIOC

Data object name P5SOLPIOC1

Common data class

PIOC class
Explanation
The name shall be composed of the class name, the LN-Prefix and LN-Instance-ID according to IEC 61850-7-2, Clause 22.

Data Objects

Common Logical Node Information

Mod

INC

Mode

Beh Health NamPlt

INS

Behaviour

INS

Health

LPL

Name plate

Status Information

Op

ACT

Operate

Oprt2

ACT

2nd Operate

Settings

M/O/ C/E M
M M M M
M E

Remarks Status-only

P5/EN M/33B

319

Appendix 2: IEC 61850 Edition 1 conformance statement

Data object name
FunEna SigNum CbClrTms

Common data class SPG ING
ASG

PIOC class Explanation
Function enable SOL signal number CB trip clearing time

M/O/ C/E E E
E

Remarks

LN Type: SE_PIOC_SOTF_EasergyP5FMU_V001 Description: Instantaneous overcurrent LN Class: PIOC

Data object name P5SOTFPIOC1

Common data class

PIOC class
Explanation
The name shall be composed of the class name, the LN-Prefix and LN-Instance-ID according to IEC 61850-7-2, Clause 22.

Data Objects

Common Logical Node Information

Mod

INC

Mode

Beh Health NamPlt

INS

Behaviour

INS

Health

LPL

Name plate

Status Information Op

ACT

Operate

Settings

FunEna StrVal

SPG ASG

Enable for SOTF Pick-up value

DetDlTms

ASG

Dead line detection delay

ActTmrTms

ASG

SOTF active Timer

M/O/ C/E M
M M M M
M
E O E E

Remarks Status-only

LN Type: SE_PMRI_MOTFST_EasergyP5MU_V003 Description: Motor restart inhibition LN Class: PMRI

Data object name P5FSTPMRI1

Common data class

PMRI class
Explanation
The name shall be composed of the class name, the LN-Prefix and LN-Instance-ID according to IEC 61850-7-2, Clause 22.

Data Objects

Common Logical Node Information

Mod

INC

Mode

Beh Health NamPlt

INS

Behaviour

INS

Health

LPL

Name plate

Status Information Op

ACT

Operate

StrInh Settings

SPS

Restart inhibited

M/O/ C/E M
M M M M
O O

Remarks Status-only

320

P5/EN M/33B

Appendix 2: IEC 61850 Edition 1 conformance statement

Data object name
MaxWrmStr
MinStrTmm HotSttsLmt FunEna MaxCldStr RefPrdTmm

Common data class ING
ASG ASG SPG ING ASG

PMRI class

Explanation

M/O/ C/E

Maximum warm starts, permissible O number of warm starts

Min time between motor starts

E

Hot Status Limit

E

Function enable

E

Max motor cold starts/hour

E

Reference period

E

Remarks

LN Type: SE_PMSS_STAL_EasergyP5MU_V001 Description: Motor starting time supervision LN Class: PMSS

Data object name P5STALPMSS1

Common data class

PMSS class
Explanation
The name shall be composed of the class name, the LN-Prefix and LN-Instance-ID according to IEC 61850-7-2, Clause 22.

M/O/ C/E
M

Data Objects

Common Logical Node Information

Mod

INC

Mode

M

Beh

INS

Behaviour

M

Health

INS

Health

M

NamPlt

LPL

Name plate

M

Status Information

Str

ACD

Start

O

Op

ACT

Operate

O

Settings

SetA

ASG

Current setting for motor start-up O

SetTms

ING

Time setting for motor start-up

O

MotStr

ASG

Motor startup (current pickup value O of motor starting)

FunEna

SPG

Function enable

E

TmACrv

CURVE

Characteristics for Ist>

E

Remarks Status-only

LN Type: SE_PMSS_MSPD_EasergyP5MU_V001 Description: Motor starting time supervision LN Class: PMSS

Data object name P5MSPDPMSS1

Common data class

PMSS class
Explanation
The name shall be composed of the class name, the LN-Prefix and LN-Instance-ID according to IEC 61850-7-2, Clause 22.

Data Objects

Common Logical Node Information

Mod

INC

Mode

Beh

INS

Behaviour

M/O/ C/E M
M M

Remarks Status-only

P5/EN M/33B

321

Appendix 2: IEC 61850 Edition 1 conformance statement

Data object name
Health NamPlt Status Information ZerSpdSt MotSpd Settings FunEna SpdIn RtdMotSpd PlsRot ZerSpdTms

Common data class INS LPL
SPS INS
SPG ING ASG ASG ASG

PMSS class Explanation
Health Name plate
Zero speed Motor speed
Function enable Motor speed input DI Rated motor speed Pulse per rotation Zero speed delay

M/O/ C/E
M
M

Remarks

E E

E E E E E

LN Type: SE_PMSS_MABS_EasergyP5MU_V001 Description: Motor starting time supervision LN Class: PMSS

Data object name P5MABSPMSS1

Common data class

PMSS class
Explanation
The name shall be composed of the class name, the LN-Prefix and LN-Instance-ID according to IEC 61850-7-2, Clause 22.

Data Objects

Common Logical Node Information

Mod

INC

Mode

Beh Health NamPlt

INS

Behaviour

INS

Health

LPL

Name plate

Status Information AbsAlm

SPS

Anti-backspin Alarm

Settings

FunEna MvMod

SPG SPG

Function enable Measured Zero Speed Mode

SwMod

SPG

Zero Speed Switch Mode

AbsTms

ASG

Anti-backspin Delay

M/O/ C/E M
M M M M
E
E E E E

Remarks Status-only

LN Type: SE_PMSS_51LR_EasergyP5MU_V001 Description: Motor starting time supervision LN Class: PMSS

Data object name P5LRPMSS1

Common data class

PMSS class
Explanation
The name shall be composed of the class name, the LN-Prefix and LN-Instance-ID according to IEC 61850-7-2, Clause 22.

Data Objects

Common Logical Node Information

M/O/ C/E
M

Remarks

322

P5/EN M/33B

Appendix 2: IEC 61850 Edition 1 conformance statement

Data object name
Mod Beh Health NamPlt Status Information Str Op Settings SetA FunEna DlTyp OpDlTms

Common data class INC INS INS LPL
ACD ACT
ASG SPG ING ASG

PMSS class Explanation
Mode Behaviour Health Name plate
Start Operate
Pick-up value Function enable Delay type Operate delay time

M/O/ C/E M
M M M

Remarks Status-only

O O

O E E E

LN Type: SE_PTEF_IO_EasergyP5F_V002 Description: Transient earth fault LN Class: PTEF

Data object name P5IOIOPTEF1

Common data class

PTEF class
Explanation
The name shall be composed of the class name, the LN-Prefix and LN-Instance-ID according to IEC 61850-7-2, Clause 22.

M/O/ C/E
M

Data Objects

Common Logical Node Information

Mod

INC

Mode

M

Beh

INS

Behaviour

M

Health

INS

Health

M

NamPlt

LPL

Name plate

M

Status Information

Str

ACD

Start

C

Op

ACT

Operate

C

Settings

FunEna

SPG

Function enable

E

DirMode

ING

Direction mode

E

GndStr

ASG

Uo pick-up

O

OpDlTms

ASG

Operate delay time

E

MinPeak

ING

Min number of peaks

E

RsDlTms

ASG

Reset delay

E

Condition C: at least one of the two status information (Str, Op) shall be used.

Remarks Status-only

LN Type: SE_PTOC_STRVAL_EasergyP5FMU_V002 Description: Time overcurrent LN Class: PTOC

P5/EN M/33B

323

Appendix 2: IEC 61850 Edition 1 conformance statement

Data object name P5HAR5PTOC1

Common data class

PTOC class
Explanation
The name shall be composed of the class name, the LN-Prefix and LN-Instance-ID according to IEC 61850-7-2, Clause 22.

Data Objects

Common Logical Node Information

Mod

INC

Mode

Beh Health NamPlt

INS

Behaviour

INS

Health

LPL

Name plate

Status Information Str Op

ACD ACT

Start Operate

Settings

StrVal OpDlTmms

ASG ING

Start value Operate delay time

FunEna

SPG

Function enable

M/O/ C/E M
M M M M
M M
O O E

Remarks Status-only

LN Type: SE_PTOC_UIBC_EasergyP5FMU_V002 Description: Time overcurrent LN Class: PTOC

Data object name P5UIBCPTOC1

Common data class

PTOC class
Explanation
The name shall be composed of the class name, the LN-Prefix and LN-Instance-ID according to IEC 61850-7-2, Clause 22.

Data Objects

Common Logical Node Information

Mod

INC

Mode

Beh Health NamPlt

INS

Behaviour

INS

Health

LPL

Name plate

Status Information Str Op

ACD ACT

Start Operate

Settings

FunEna StrVal OpDlTms

SPG ASG ASG

Function enable Start value Operate delay time

M/O/ C/E M
M M M M
M M
E O E

Remarks Status-only

LN Type: SE_PTOC_EasergyP5FMU_VSI_V002 Description: Time overcurrent LN Class: PTOC

324

P5/EN M/33B

Appendix 2: IEC 61850 Edition 1 conformance statement

Data object name
P5EFVSPTOC1 P5EFVSPTOC2

Common data class

PTOC class
Explanation
The name shall be composed of the class name, the LN-Prefix and LN-Instance-ID according to IEC 61850-7-2, Clause 22.

Data Objects

Common Logical Node Information

Mod

INC

Mode

Beh Health NamPlt

INS

Behaviour

INS

Health

LPL

Name plate

Status Information Str Op

ACD ACT

Start Operate

Settings

FunEna StrVal

SPG ASG

Function enable Pick-up value

DlCrvFmly

ING

Delay curve family

DlTyp

ING

Delay type

OpDlTms

ASG

Operate delay time

TmMult RsTyp

ASG ING

Inv. time coefficient Reset type

RsDlTms

ASG

Reset time

InrushStat SolStat SolOpDTms

SPG SPG ASG

Inrush status SOL status SOL operate delay time

SolTmMult ClpStat

ASG SPG

SOL Inv. time coefficient CLP status

ClpStrVal

ASG

CLP pick-up value

ClpOpDTms

ASG

CLP operate delay time

ClpTmMult

ASG

CLP Inv. time coefficient

NetGrd

ING

Network grounding

M/O/ C/E M
M M M M
M M
E O E E E O E E E E E E E E E E E

Remarks Status-only

LN Type: SE_PTOC_NORMAL_EasergyP5FMU_V002 Description: Time overcurrent LN Class: PTOC

Data object name
P5OCPTOC1 P5OCPTOC2

Common data class

PTOC class
Explanation
The name shall be composed of the class name, the LN-Prefix and LN-Instance-ID according to IEC 61850-7-2, Clause 22.

Data Objects

Common Logical Node Information

Mod

INC

Mode

Beh

INS

Behaviour

M/O/ C/E M
M M

Remarks Status-only

P5/EN M/33B

325

Appendix 2: IEC 61850 Edition 1 conformance statement

Data object name
Health NamPlt Status Information Str Op Settings FunEna StrVal DlCrvFmly DlTyp OpDlTms TmMult RsTyp RsDlTms InrushStat SolStat SolOpDTms SolTmMult ClpStat ClpStrVal ClpOpDTms ClpTmMult

Common data class INS LPL
ACD ACT
SPG ASG ING ING ASG ASG ING ASG SPG SPG ASG ASG SPG ASG ASG ASG

PTOC class Explanation
Health Name plate
Start Operate
Function enable Pick-up value Delay curve family Delay type Operate delay time Inv. time coefficient Reset type Reset time Inrush status SOL status SOL operate delay time SOL Inv. time coefficient CLP status CLP pick-up value CLP operate delay time CLP Inv. time coefficient

M/O/ C/E
M
M

Remarks

M M

E O E E E O E E E E E E E E E E

LN Type: SE_PTOC_EasergyP5FM_V002 Description: Time overcurrent LN Class: PTOC

Data object name
P5DEFPTOC1 P5DEFPTOC2 P5DEFPTOC3

Common data class

PTOC class
Explanation
The name shall be composed of the class name, the LN-Prefix and LN-Instance-ID according to IEC 61850-7-2, Clause 22.

Data Objects

Common Logical Node Information

Mod

INC

Mode

Beh Health NamPlt

INS

Behaviour

INS

Health

LPL

Name plate

Status Information Str Op

ACD ACT

Start Operate

Settings

FunEna DirMode

SPG ING

Function enable Direction mode

M/O/ C/E M
M M M M
M M
E E

Remarks Status-only

326

P5/EN M/33B

Appendix 2: IEC 61850 Edition 1 conformance statement

Data object name
StrVal UoStrVal AngOffset SctrStrVal DlCrvFmly DlTyp OpDlTms TmMult RsTyp RsDlTms

Common data class ASG ASG ASG ASG ING ING ASG ASG ING ASG

PTOC class Explanation
Pick-up value Uo setting Angle offset Pick up sector size Delay curve family Delay type Operate delay time Inv. time coefficient Reset type Reset time

M/O/ C/E O E E E E E E O E E

Remarks

LN Type: SE_PTOC_EasergyP5U_LPT_V002 Description: Time overcurrent LN Class: PTOC

Data object name
P5DOCLPTOC1 P5DOCLPTOC2

Common data class

PTOC class
Explanation
The name shall be composed of the class name, the LN-Prefix and LN-Instance-ID according to IEC 61850-7-2, Clause 22.

Data Objects

Common Logical Node Information

Mod

INC

Mode

Beh Health NamPlt

INS

Behaviour

INS

Health

LPL

Name plate

Status Information Str Op

ACD ACT

Start Operate

Settings

FunEna StrVal

SPG ASG

Function enable Pick-up value

DirMode AngOffset

ING ASG

Direction mode Angle offset

DlCrvFmly

ING

Delay curve family

DlTyp

ING

Delay type

OpDlTms

ASG

Operate delay time

TmMult RsTyp

ASG ING

Inv. time coefficient Reset type

RsDlTms InrushStat SolStat SolOpDTms

ASG SPG SPG ASG

Reset time Inrush status SOL status SOL operate delay time

M/O/ C/E M
M M M M
M M
E O E E E E E O E E E E E

Remarks Status-only

P5/EN M/33B

327

Appendix 2: IEC 61850 Edition 1 conformance statement

Data object name
SolTmMult ClpStat ClpStrVal ClpOpDTms ClpTmMult

Common data class ASG SPG ASG ASG ASG

PTOC class Explanation
SOL Inv. time coefficient CLP status CLP pick-up value CLP operate delay time CLP Inv. time coefficient

M/O/ C/E E E E E E

Remarks

LN Type: SE_PTOC_DOC2_EasergyP5U_LPT_V001 Description: Time overcurrent LN Class: PTOC

Data object name
P5DOCLPTOC3 P5DOCLPTOC4

Common data class

PTOC class
Explanation
The name shall be composed of the class name, the LN-Prefix and LN-Instance-ID according to IEC 61850-7-2, Clause 22.

Data Objects

Common Logical Node Information

Mod

INC

Mode

Beh Health NamPlt

INS

Behaviour

INS

Health

LPL

Name plate

Status Information Str Op

ACD ACT

Start Operate

Settings

FunEna StrVal

SPG ASG

Function enable Pick-up value

DirMode AngOffset

ING ASG

Direction mode Angle offset

OpDlTms

ASG

Operate delay time

InrushStat SolStat SolOpDTms

SPG SPG ASG

Inrush status SOL status SOL operate delay time

ClpStat

SPG

CLP status

ClpStrVal

ASG

CLP pick-up value

ClpOpDTms

ASG

CLP operate delay time

M/O/ C/E M
M M M M
M M
E O E E E E E E E E E

Remarks Status-only

LN Type: SE_PTOF_OFUF_EasergyP5FMV_V00V002/ SE_PTOF_OFUF_EasergyP5U_LPT_V002 Description: Overfrequency LN Class: PTOF

328

P5/EN M/33B

Appendix 2: IEC 61850 Edition 1 conformance statement

Data object name
P5OFUFPTOF1 P5OFUFPTOF2 P5LPTPTOF1 P5LPTPTOF2 Data Objects

Common data class

PTOF class
Explanation
The name shall be composed of the class name, the LN-Prefix and LN-Instance-ID according to IEC 61850-7-2, Clause 22.

Common Logical Node Information

Mod

INC

Mode

Beh Health NamPlt

INS

Behaviour

INS

Health

LPL

Name plate

Status Information Str Op

ACD ACT

Start Operate

Settings

FunEna StrVal

SPG ASG

Function enable Pick-up value

OpDlTms

ASG

Operate delay time

M/O/ C/E M
M M M M
M M
E O E

Remarks Status-only

LN Type: SE_PTOV_EasergyP5FMV_V002/ SE_PTOV_EasergyP5U_LPT_V001 Description: Overvoltage LN Class: PTOV

Data object name
P5OVPTOV1 P5OVPTOV2 P5OVPTOV3
P5OVLPTOV1 P5OVLPTOV2 P5OVLPTOV3
Data Objects

Common data class

PTOV class
Explanation
The name shall be composed of the class name, the LN-Prefix and LN-Instance-ID according to IEC 61850-7-2, Clause 22.

Common Logical Node Information

Mod

INC

Mode

Beh Health NamPlt

INS

Behaviour

INS

Health

LPL

Name plate

Status Information Str Op

ACD ACT

Start Operate

Settings

FunEna StrVal

SPG ASG

Function enable Pick-up value

OpDlTms

ASG

Operate delay time

M/O/ C/E M
M M M M
M O
E O E

Remarks Status-only

LN Type: SE_PTOV_UO_EasergyP5FMV_V001/ SE_PTOV_UO_EasergyP5U_LPT_V001 Description: Overvoltage

P5/EN M/33B

329

Appendix 2: IEC 61850 Edition 1 conformance statement

LN Class: PTOV

Data object name
P5UOPTOV1 P5UOPTOV2 P5UOPTOV3
P5UOLPTOV1 P5UOLPTOV2 P5UOLPTOV3
Data Objects

Common data class

PTOV class
Explanation
The name shall be composed of the class name, the LN-Prefix and LN-Instance-ID according to IEC 61850-7-2, Clause 22.

Common Logical Node Information

Mod

INC

Mode

Beh Health NamPlt

INS

Behaviour

INS

Health

LPL

Name plate

Status Information Str Op

ACD ACT

Start Operate

Settings

FunEna StrVal

SPG ASG

Function enable Pick-up value

OpDlTms

ASG

Operate delay time

RsDlTms

ASG

Reset time

M/O/ C/E M
M M M M
M O
E O E E

Remarks Status-only

LN Type: SE_PTOV_NEG_EasergyP5FMV_V001/ SE_PTOV_NEG_EasergyP5U_LPT_V001 Description: Overvoltage LN Class: PTOV

Data object name
P5NEGPTOV1 P5NEGPTOV2 P5NEGLPTOV1 P5NEGLPTOV2 Data Objects

Common data class

PTOV class
Explanation
The name shall be composed of the class name, the LN-Prefix and LN-Instance-ID according to IEC 61850-7-2, Clause 22.

Common Logical Node Information

Mod

INC

Mode

Beh Health NamPlt

INS

Behaviour

INS

Health

LPL

Name plate

Status Information Str Op

ACD ACT

Start Operate

Settings

FunEna OpMod

SPG ING

Function enable Operate mode

StrVal

ASG

Pick-up value

M/O/ C/E M
M M M M
M O
E E O

Remarks Status-only

330

P5/EN M/33B

Appendix 2: IEC 61850 Edition 1 conformance statement

Data object name
DlTyp OpDlTms RsDlTms

Common data class ING
ASG
ASG

PTOV class Explanation
Delay type Operate delay time Reset time

M/O/ C/E E
E
E

Remarks

LN Type: SE_PTOV_CAP_EasergyP5F_V001 Description: Overvoltage LN Class: PTOV

Data object name P5CAPPTOV1

Common data class

PTOV class
Explanation
The name shall be composed of the class name, the LN-Prefix and LN-Instance-ID according to IEC 61850-7-2, Clause 22.

Data Objects

Common Logical Node Information

Mod

INC

Mode

Beh Health NamPlt

INS

Behaviour

INS

Health

LPL

Name plate

Status Information Str Op

ACD ACT

Start Operate

Settings

FunEna

SPG

Function enable

StrVal

ASG

Pick-up value

CapOfPhs

ASG

L-N capacitance of one phase

RatUcLn

ASG

Rated L-N voltage UcLN

OpDlTms

ASG

Operate delay time

M/O/ C/E M
M M M M
M O
E O E E E

Remarks Status-only

LN Type: SE_PTTR_THF_EasergyP5FU_V002 Description: Thermal overload LN Class: PTTR

Data object name P5THFPTTR1

Common data class

PTTR class
Explanation
The name shall be composed of the class name, the LN-Prefix and LN-Instance-ID according to IEC 61850-7-2, Clause 22.

Data Objects

Common Logical Node Information

Mod

INC

Mode

Beh Health NamPlt

INS

Behaviour

INS

Health

LPL

Name plate

Status Information

M/O/ C/E M
M M M M

Remarks Status-only

P5/EN M/33B

331

Appendix 2: IEC 61850 Edition 1 conformance statement

Data object name
Op AlmThm Settings TmpMax AlmVal FunEna BasicCur FactorK HeaConsTmm RsvVal TmpMod TmpNom TmpAlrm TmpAmbMin TmpAmbDft

Common data class ACT SPS
ASG ASG SPS ASG ASG ASG ASG ING ASG ASG ASG ASG

PTTR class Explanation
Operate Thermal alarm
Max object temperature Thermal alarm value Function enable Basic current setting Factor k Heating time constant Reserve time thermal alarm Temperature based mode Nominal ambient temp Alarm temperature Min ambient temperature Default ambient temperature

M/O/ C/E
M
O

Remarks

O O E E E O E E E E E E

LN Type: SE_PTTR_THM_EasergyP5MU_V002 Description: Thermal overload LN Class: PTTR

Data object name P5THMPTTR1

Common data class

PTTR class
Explanation
The name shall be composed of the class name, the LN-Prefix and LN-Instance-ID according to IEC 61850-7-2, Clause 22.

Data Objects

Common Logical Node Information

Mod

INC

Mode

Beh Health NamPlt

INS

Behaviour

INS

Health

LPL

Name plate

Status Information Op

ACT

Operate

AlmThm Settings

SPS

Thermal alarm

TmpMax

ASG

Max object temperature

AlmVal FunEna BasicCur

ASG SPS ASG

Thermal alarm value Function enable Basic current setting

FactorK HeaConsTmm

ASG ASG

Factor k Heating time constant

ConsTmm

ASG

Time constant for motor starting

CooConsTmm

ASG

Cooling time constant

UnblFctr

ASG

Unbalance factor

M/O/ C/E M
M M M M
M O
O O E E E E E E E

Remarks Status-only

332

P5/EN M/33B

Appendix 2: IEC 61850 Edition 1 conformance statement

Data object name
RsvVal TmpMod TmpNom TmpAlrm TmpAmbMin TmpAmbDft

Common data class ASG ING ASG ASG ASG ASG

PTTR class Explanation
Reserve time thermal alarm Temperature based mode Nominal ambient temp Alarm temperature Min ambient temperature Default ambient temperature

M/O/ C/E E E E E E E

Remarks

LN Type: SE_PTUC_UC_EasergyP5MU_V002 Description: Undercurrent LN Class: PTUC

Data object name P5UCPTUC1

Common data class

PTUC class
Explanation
The name shall be composed of the class name, the LN-Prefix and LN-Instance-ID according to IEC 61850-7-2, Clause 22.

Data Objects

Common Logical Node Information

Mod

INC

Mode

Beh Health NamPlt

INS

Behaviour

INS

Health

LPL

Name plate

Status Information Str Op

ACD ACT

Start Operate

Settings

FunEna StrVal

SPG ASG

Function enable Pick-up value

OpDlTms

ASG

Operate delay time

M/O/ C/E M
M M M M
M M
E O E

Remarks Status-only

LN Type: SE_PTUF_UF_EasergyP5FMV_V002/SE_PTUF_UF_EasergyP5U_ LPT_V002 Description: Underfrequency LN Class: PTUF

Data object name
P5UFPTUF1 P5UFPTUF2 P5UFLPTUF1 P5UFLPTUF2 Data Objects

Common data class

PTUF class
Explanation
The name shall be composed of the class name, the LN-Prefix and LN-Instance-ID according to IEC 61850-7-2, Clause 22.

Common Logical Node Information

Mod

INC

Mode

Beh Health

INS

Behaviour

INS

Health

M/O/ C/E M
M M M

Remarks Status-only

P5/EN M/33B

333

Appendix 2: IEC 61850 Edition 1 conformance statement

Data object name
NamPlt Status Information Str Op Settings FunEna StrVal OpDlTms

Common data class LPL
ACD ACT
SPG ASG ASG

PTUF class Explanation Name plate
Start Operate
Function enable Pick-up value Operate delay time

M/O/ C/E
M

Remarks

M M

E O E

LN Type: SE_PTUV_UV_EasergyP5FMV_V002/ SE_PTUV_UV_EasergyP5U_LPT_V002 Description: Undervoltage LN Class: PTUV

Data object name
P5UVPTUV1 P5UVPTUV2 P5UVPTUV3
P5UVLPTUV1 P5UVLPTUV2 P5UVLPTUV3
Data Objects

Common data class

PTUV class
Explanation
The name shall be composed of the class name, the LN-Prefix and LN-Instance-ID according to IEC 61850-7-2, Clause 22.

Common Logical Node Information

Mod

INC

Mode

Beh Health NamPlt

INS

Behaviour

INS

Health

LPL

Name plate

Status Information Str Op

ACD ACT

Start Operate

Settings

FunEna StrVal

SPG ASG

Function enable Pick-up value

OpDlTms

ASG

Operate delay time

M/O/ C/E M
M M M M
M M
E O E

Remarks Status-only

LN Type: SE_PTUV_UVPS_EasergyP5MV_V002 Description: Undervoltage LN Class: PTUV

Data object name
P5UVPSPTUV1 P5UVPSPTUV2

Common data class

PTUV class
Explanation
The name shall be composed of the class name, the LN-Prefix and LN-Instance-ID according to IEC 61850-7-2, Clause 22.

Data Objects

Common Logical Node Information

Mod

INC

Mode

M/O/ C/E M
M

Remarks Status-only

334

P5/EN M/33B

Appendix 2: IEC 61850 Edition 1 conformance statement

Data object name
Beh Health NamPlt Status Information Str Op Settings FunEna StrVal OpDlTms

Common data class INS INS LPL
ACD ACT
SPG ASG ASG

PTUV class Explanation
Behaviour Health Name plate
Start Operate
Function enable Pick-up value Operate delay time

M/O/ C/E M
M
M

Remarks

M M

E O E

LN Type: SE_PZSU_EasergyP5MU_V001 Description: Motor underspeed LN Class: PZSU

Data object name P5MOTPZSU1

Common data class

PZSU class
Explanation
The name shall be composed of the class name, the LN-Prefix and LN-Instance-ID according to IEC 61850-7-2, Clause 22.

Data Objects

Common Logical Node Information

Mod

INC

Mode

Beh Health NamPlt

INS

Behaviour

INS

Health

LPL

Name plate

Status Information Str Op

ACD ACT

Start Operate

Settings

FunEna StrVal

SPG ASG

Function enable Pick-up value

OpDlTms

ASG

Operate delay time

M/O/ C/E M
M M M M
M M
E O E

Remarks Status-only

LN Type: SE_PHAR_ID_EasergyP5FMU_V001 Description: Harmonic restraint LN Class: PHAR

Data object name P5IDPHAR1

Common data class

PHAR class
Explanation
The name shall be composed of the class name, the LN-Prefix and LN-Instance-ID according to IEC 61850-7-2, Clause 22.

Data Objects

Common Logical Node Information

Mod

INC

Mode

M/O/ C/E M
M

Remarks Status-only

P5/EN M/33B

335

Appendix 2: IEC 61850 Edition 1 conformance statement

Data object name
Beh Health NamPlt Status Information Str

Common data class INS INS LPL
ACD

Settings FunEna StrVal CurBlkVal

SPG ASG ASG

PHAR class Explanation
Behaviour Health Name plate
Start (active when restraint is needed)
Function enable Pickup for 2nd harmonic Max inrush current

M/O/ C/E M
M
M

Remarks

M

E E E

Enum types extensions

New Enum types

Enum type ARCOpMode is one of new added types defined as below.

Value 0 1

Description Light Light and current

Remarks

Enum type DefDirMode is one of new added types defined as below.

Value 0 1 2

Description ResCap Sector Undir

Remarks

Enum type DocDirMode is one of new added types defined as below.

Value 0 1 2

Description Dir_Backup Undir Dir

Remarks

Enum type DlCrvFamily is one of new added types defined as below.

Value 0 1 2 3 4 5 6 7

Description DT IEC IEEE IEEE2 Others Prg1 Prg2 Prg3

Remarks

Enum type RsTyp is one of new added types defined as below.

336

P5/EN M/33B

Appendix 2: IEC 61850 Edition 1 conformance statement

Value 0 1

Description DT IDMT

Remarks

Enum type DlType is one of new added types defined as below.

Value 0 1 2 3 4 5 6 7 8 9 10 11 12 13

Description DT NI VI EI LTI LTEI LTVI MI STI STEI CO8 RI RXIDG --

Remarks

Enum type NetGrd is one of new added types defined as below.

Value 0 1

Description Res Cap

Remarks

Enum type NegOPMod is one of new added type defined as below.

Value 0 1

Description No_Action Blocking

Remarks

Enum type NegDITyp is one of new added type defined as below.

Value 0 1

Description DT INV

Remarks

Enum type StrMod is one of new added type defined as below.

Value 0 1 2

Description Negative Positive Either

Remarks

Enum type MemoryMode is one of new added types defined as below.

Value 0 1

Description None Voltage

Remarks

P5/EN M/33B

337

Appendix 2: IEC 61850 Edition 1 conformance statement

2

Time

3

Both

Enum type EfDirModeKind is one of new added type defined as below.

Value 0 1

Description Forward Reverse

Remarks

Enum type SlotDISelect is one of new added type defined as below.

Value 0 1 2

Description Slot_C_DI1 Slot_D_DI1 Slot_E_DI1

Remarks

Enum type VTTypeKind is one of new added type defined as below.

Value 0 1

Description VT LPVT

Remarks

Enum type TempModKind is one of new added type defined as below.

Value 0 1

Description Current Ambient

Remarks

Enum type PadmDirMod is one of new added type defined as below.

Value 0 1 2

Description Undir Forward Reverse

Remarks

Enum type SignalNum is one of new added type defined as below.

Value 0 1

Description 1 2

Remarks

Extended Enum types

Enum type SIUnitKind is extended by the following enumerations.

Value -1 -2 -3 -4 -5 -6

Quantity Rate of change of frequency Number of characters Baud Turbine inertia Sound pressure level Numerical tagging method

Unit name hertz per second characters characters per second kg square meter decibel per unit

Symbol Hz/s char Char/s kgm² dB pu

338

P5/EN M/33B

Appendix 2: IEC 61850 Edition 1 conformance statement

Value -7 -8 -9 -10 -11 -12

Quantity Percent Relative temperature Electric resistance Rotational speed Pulse per rotation time

Unit name percent degree Fahrenheit ohm (V/A) Revolutions per minute Pulse per rotation minute

Enum type AutoRecST is extended by the following enumerations.

Value -1 -2 -3 -4 -5 -6 -7 -8 -9 -10 -11 -12 -13

Symbol Reclaim Ready_Ext WaitOpen WaitClose Discrim Locked FinalTr CBFail Inhibit Blocked ExtOpen ExClose WaitSync

Symbol % °F V/A rmp /R min

P5/EN M/33B

339

PIXIT details

Appendix 2: IEC 61850 Edition 1 conformance statement

Introduction

This PIXIT is based upon UCAIug PIXIT Template version 15, UCA International Users Group Testing Sub Committee, October 22, 2019.
This document specifies the protocol implementation extra information for testing (PIXIT) of the IEC 61850 interface in P5U20, P5V20, P5F30 and P5M30, with firmware version V01.
Together with the PICS and MICS documents, the PIXIT document forms the basis for a conformance test according to IEC 61850-10. The PIXIT entries contain information which is not available in the PICS, MICS, TICS documents or SCL file.
Each chapter specifies the PIXIT for applicable ACSI service model as structured in IEC 61850-10. The "Ed" column indicates if the entry is applicable for IEC 61850 Edition 1 and/or Edition 2.

PIXIT for association model

The extra information for testing is given in the table below. Table 67 - Protocol implementation extra information for testing

ID

Ed

As1 1

As2 1,2 As3 1,2

As4 As5 1,2

As6 1,2 As7 1,2

Description

Value / Clarification

Maximum number of clients that

8

can set-up an association

simultaneously

TCP_KEEPALIVE value. The recommended range is 0...20s

Configurable: from 0 to 20s

Lost connection detection time

TCP_KEEPALIVE + 2s *10

Maximum 140s

(2s is retransmission interval of TCP Keep-alive message, 10 retransmissions) (0 means 120s)

Authentication is not supported yet

What association parameters are necessary for successful association

Transport selector Calling: N Called: Y
Session selector Calling: N Called: Y

Presentation selector Calling: N Called: Y

AP title Calling: N Called: N

AE qualifier Calling: N Called: N

If association parameters are necessary for association, describe the correct values.
Association parameters are configurable, default values are

Transport selector 1 Session selector 1 Presentation selector 1 AP title 1,1,1,999,1

AE qualifier 12

What is the maximum and minimum Max: 65535 bytes
MMS PDU size Min: In initiate request 1024 bytes

340

P5/EN M/33B

Appendix 2: IEC 61850 Edition 1 conformance statement

Table 67 - Protocol implementation extra information for testing (Continued)

ID

Ed

As8 1,2

As9 1,2

Description
What is the maximum start up time after a power supply interrupt
Does this device function only as test equipment?
(test equipment need not have a non-volatile configuration; but it cannot be part of the substation automation system)

Value / Clarification
P5 relay start-up time including the server function is at average 180s; it depends on the configuration size (number and types of logical nodes)
N

PIXIT for server model

ID

Ed Description

Value / Clarification

Sr1 1,2 Which analogue value (MX) quality bits are supported (can be set by server)

Validity: Y Good, N Invalid, N Reserved, N Questionable N Overflow N OutofRange N BadReference N Oscillatory N Failure N OldData N Inconsistent N Inaccurate

Source: Y Process N Substituted Y Test N OperatorBlocked

Sr2 1,2 Which status value (ST) quality bits Validity: are supported (can be set by server) Y Good, Y Invalid, N Reserved, Y Questionable N BadReference N Oscillatory N Failure N OldData N Inconsistent N Inaccurate

Source: Y Process N Substituted Y Test N OperatorBlocked

Sr3 -

What is the maximum number of data Deprecated object references in one GetDataValues request

Sr4 -

What is the maximum number of data Deprecated object references in one SetDataValues request

Sr5 1

Which Mode values are supported

On Y [On-]Blocked N Test Y Test/Blocked Y Off N

P5/EN M/33B

341

Appendix 2: IEC 61850 Edition 1 conformance statement

PIXIT for data set model

ID

Ed

Ds1

1

Ds2

1

Ds3

1

Description
What is the maximum number of data elements in one data set (compare ICD setting)
How many persistent data sets can be created by one or more clients
(this number includes predefined datasets)
How many non-persistent data sets can be created by one or more clients

Details 500 50
50

NOTE: Arrays are not supported in dataset.

PIXIT for setting group control model

ID

Ed

Sg1

1

Sg2

1,2

Sg3

1

Sg4

1

Sg5

1

Sg6

2

Description What is the number of supported setting groups for each logical device What is the effect of when and how the non-volatile storage is updated (compare IEC 61850-8-1 $16.2.4)
Can multiple clients edit the same setting group What happens if the association is lost while editing a setting group
Is EditSG value 0 allowed?
When ResvTms is not present how long is an edit setting group locked

Value / Clarification
4
When: CnfEdit set to TRUE successfully.
How: the setting value in edit buffer will be copied to the selected setting group, and then the new value will be updated to nonvolatile storage by setting engine.
N
The SE values changes are lost, the EditSG value will not change.
Y
Write a value of 0 to EditSG will cancel all the setting values in the Edit buffer.
Reserved forever except Cancel, Confirm or Disconnection.

PIXIT for reporting model

ID

Ed

Description

Details

Rp1

1

The supported trigger conditions

integrity

Y

(compare PICS)

data change

Y

quality change

Y

data update

Y

general interrogation

Y

Rp2

1

The supported optional fields are

sequence-number

Y

report-time-stamp

Y

reason-for-inclusion

Y

data-set-name

Y

342

P5/EN M/33B

Appendix 2: IEC 61850 Edition 1 conformance statement

ID
Rp3
Rp4 Rp5 Rp6 Rp7 Rp8 Rp9 Rp10 Rp11 Rp12 Rp13 Rp14

Ed

Description

Details

data-reference

Y

buffer-overflow (not

Y

applicable to URCB)

entryID (not applicable to Y URCB)

conf-rev

Y

segmentation

Y

1,2

Can the server send segmented

Y

reports?

(when not supported the device

shall refuse an association request

with a smaller than minimum PDU

size)

1,2

Mechanism on second internal data Send report immediately

change notification of the same

analogue data value within buffer

period (compare IEC 61850-7-2

$14.2.2.9)

1

Multi client URCB approach

Each URCB is visible to all clients

(compare IEC 61850-7-2 $14.2.1)

-

What is the format of EntryID

Deprecated

1,2

What is the buffer size for each

100k bytes per report control block

BRCB or how many reports can be

buffered

-

Pre-configured RCB attributes that Deprecated

are dynamic, compare SCL report

settings

1

May the reported data set contain:

- structured data objects?

Y

- data attributes? Y

1,2

What is the scan cycle for binary

5 milliseconds

events? Is this fixed, configurable or event-

Fixed

driven

1

Does the device support to pre-

N

assign a RCB to a specific client in

the SCL

2

After restart of the server is the

Fom the original configuration

value of ConfRev restored from the

original configuration or retained

prior to restart

1,2

Does the server accept any client to N

configure / enable a BRCB with

ResvTms=-1? What fields are used

to do the identification?

1,2

What is default value for BRCB.

Not support ResvTms.

ResvTms if client does not write or

ResvTms not exposed in the control

block (must be >= 0)

P5/EN M/33B

343

PIXIT for GOOSE publish model

ID

Ed

Gp1

1,2

Gp2

1

Gp3

1,2

Gp4

1,2

Gp5

1,2

Gp6

-

Gp7

1,2

Gp8

1

Gp9

1,2

Appendix 2: IEC 61850 Edition 1 conformance statement

Description

Value / Clarification

Can the test (Ed1) / simulation (Ed2) N flag in the published GOOSE be set

What is the behaviour when the GOOSE publish configuration is incorrect
Published FCD supported common data classes / data types are

NdsCom=T DUT keeps GoEna=F
Common data classes: SPS, DPC, CMV, MV

Data types as single attributes: BOOLEAN, CODED ENUM, FLOAT32, QUALITY

Arrays are not supported.

What is the maximum value of TAL (maxTime)?
Is it fixed or configurable?

Maximum TAL = 120000 ms (double of maximum configurable slowest retransmission cycle 60000 ms)

Configurable by configuration tool

What is the fastest retransmission time?
Is it fixed or configurable?

4 ms
Retransmission scheme: First message upon data change, followed by 4, 10, 20, 40, 80, 160, 320, 640, 1280, 2500, 5000, 10000, 20000, 40000, 60000 and finally reaching the configured slow retransmission time).

TAL is set to value 2 times bigger than interval.

Can the GOOSE publish be turned on / off by using SetGoCBValues(GoEna)

Fixed Deprecated

What is initial GOOSE sqNum after

1

restart of the device

May the GOOSE data set contain: Y
- structured data objects (FCD) Y
- timestamp data attributes

Does Server or ICT refuse GOOSE

Y

payload dataset length greater than

SCSM supports?

344

P5/EN M/33B

Appendix 2: IEC 61850 Edition 1 conformance statement

PIXIT for GOOSE subscribe model

ID

Ed

Gs1

1,2

Gs2

1,2

Gs3

1,2

Gs4

1,2

Gs5

1,2

Gs6

1

Gs7

1

Gs8

1,2

Description

Value / Clarification

What elements of a subscribed GOOSE message are checked to decide the message is valid and the allData values are accepted? If yes, describe the conditions.
Notes:
· the VLAN tag may be removed by a ethernet switch and shall not be checked
· the simulation flag shall always be checked (Ed2)
· the ndsCom shall always be checked (Ed2)

Y destination MAC address (equal to configured)
Y APPID (equal to configured)
N gocbRef
N timeAllowedtoLive (see Remarks)
N datSet
Y goID (equal to configured, checking can be set off)
Nt
Y stNum (see Remarks)
N sqNum (see Remarks)
Y simulation/test (if true, values not passed to application, the application data will keep last received value when simulation/test was false, but status of the network input stays valid)

Y confRev (equal to configured)

Y ndsCom (if true, values not passed to application, the application data will keep last received value , and network inputs status is set to invalid as if message was never received)

Y numDatSetEntries (see Remarks)

When is a subscribed GOOSE marked as lost?
(TAL = time allowed to live value from the last received GOOSE message)

N out-of-order dataset members
Message does not arrive by TAL+1s
Internally in the relay there is a status indication to the application about GOOSE problem (data is marked as OLD if the message does not arrive prior to TAL+1s if TAL>1s or prior to 1s if TAL<1s).

What is the behaviour when one or more subscribed GOOSE messages isn't received or syntactically incorrect (missing GOOSE)

The subsequently received GOOSE message is accepted even if the new state number is not equal to the incremented value of the previously received state number (it is enough that it is not equal to the last received state number).

What is the behaviour when a subscribed GOOSE message is out-of-order

Message is treated as normal (it is assumed that previous messages have been lost).

What is the behaviour when a subscribed GOOSE message is duplicated

Duplicated message is ignored

Does the device subscribe to GOOSE messages with/without the VLAN tag?

Y with the VLAN tag Y without the VLAN tag

May the GOOSE data Y set contain:
Y
- structured data objects?

- data attributes?

Subscribed FCD supported common data classes / data types are

Data classes: SPS, SPC, DPS, DPC, INS, INC, ENS, ENC, CMV, MV
Data types as single attributes: BOOLEAN, INT8, INT16, INT32, INT8U, INT16U, INT32U, ENUM, CODED ENUM, BITSTRING, FLOAT32

Arrays are not supported

P5/EN M/33B

345

Appendix 2: IEC 61850 Edition 1 conformance statement

ID

Ed

Gs9

1,2

Gs10

1,2

Gs11

1

Description

Value / Clarification

Are subscribed GOOSE with test=T (Ed1) / simulation=T (Ed2) accepted in test/ simulation mode

N - Test mode is not supported by the device

Max number of dataset Unlimited members

Is Fixed-length encoded Yes GOOSE supported

TAL = Time Allowed to Live
Remarks:
A GOOSE message will be accepted and processed by the subscriber in DUT:
· Even if it is received after expiration of the time allowed to live sent in the previous message,
· Even if the new state number is not equal to the incremented value of the previously received state number - it is enough that it is not equal to the last received state number,
· If the state number differs from the previously received state number, the sequence number is accepted with any value (if the state number is equal to the previously received state number, the message is treated as retransmission),
· Even if the received message contains a dataset of the size different than the size of the previously received dataset.
A GOOSE message will NOT be accepted by the subscriber in DUT if:
· Destination MAC address is not equal to configured one
· Protocol ID is not equal to 0x88B8
· APPID is not equal to configured one for any of the network inputs
· ConfRev is not equal to configured one for any of the network inputs
· goID is not equal to configured one for any of the network inputs
· state number is the same as in the previous message (is treated as retransmission)
· ndsCom bit is set to true in received message
Note for sGosN6h (out of order dataset)
Value from GOOSE message will be accepted even if the type is different than in previous message given that:
· Type is compatible with network input type i.e. for binary network inputs accepted types are: BOOLEAN, INTEGER and BITSTRIG, ENUM, CODED ENUM for analog network inputs accepted types are FLOAT32 and INTEGER
· In case of binary network input and types other than BOOLEAN as a value for processing bit selected in configuration will be taken from the received data in the message (by default it is bit 0)
· Value will not be accepted if data from the message is not containing configured bit (for example if bit 5 is configured and received data contains only 2 bits like stVal from DPC type)
Every network input can be associated via internal logic with one of 16 validity indications. If given network input is not received due to one of the reasons mentioned above this indication is activated. Validity flag for the network input will be activated also if next message with the value will not be received within the time indicated in time to live field contained in the previous message.
The value of numDatSetEntries from the header determines how many data entries from the message are processed. With numDatSetEntries = 0 no data entries are processed from the received message. If numDatSetEntries is lower than expected (source information for some network inputs is not processed or missing) those missing network inputs will be marked as invalid.

346

P5/EN M/33B

Appendix 2: IEC 61850 Edition 1 conformance statement

During device startup there can be more than one state transition of the GOOSE publisher dataset, since different parts of the relay application will start after GOOSE publisher.
When checking GoID, the APPID must not be the same as the APPID of other GOOSE.

PIXIT for GOOSE performance

ID

Ed

Gf1

1,2

Gf2

1,2

Gf3

1,2

Gf4

1

Description

Value / Clarification

Performance class

N/A

GOOSE ping-pong processing method

Scan cycle based

Application logic scan cycle (ms) Max. 3 ms for SPS, 10 ms for DPS

Min. 0 ms for SPS, 0 ms for DPS

Maximum number of data

500

attributes in GOOSE dataset

(value and quality has to be

counted as separate attributes)

PIXIT for control model

ID

Ed

Ct1

-

Ct2

1,2

P5/EN M/33B

Ct3

-

Ct4

-

Ct5

1

Ct6

-

Ct7

-

Ct8

1

Description

Value / Clarification

What control models are supported
(compare PICS)

DOns: Y SBOns: Y DOes: Y

Is the control model fixed, configurable and/or dynamic?

SBOes: Y
Configurable for CSWI class: All controllable objects Obj1 ... Obj6 under CSWI class are configured to use one and the same chosen control model. Objects Obj7 ... Obj8 under CSWI class have fixed control model status-only.

Fixed for GGIO: All controllable objects under GGIO class the control model is fixed: direct-with-normalsecurity.

Is TimeActivatedOperate

Deprecated

supported (compare PICS or

SCL)

Is "operate-many" supported N (compare sboClass)

Will the DUT activate the

N

control output when the test

attribute is set in the

SelectWithValue and/or

Operate request (when N

test procedure Ctl2 is

applicable)

What are the conditions for the time (T) attribute in the SelectWithValue and/or Operate request

Deprecated

Is pulse configuration supported (compare pulseConfig)

Deprecated

What is the behaviour of the DUT when the check conditions are set
Is this behaviour fixed, configurable, online changeable?

N synchrocheck
N interlock-check
DUT ignores the check value and the command is executed as usual

347

ID

Ed

Ct9

1,2

Ct10

1,2

Ct11

1,2

Ct12

1,2

Ct13

1,2

Ct14

1,2

Ct15

1,2

Appendix 2: IEC 61850 Edition 1 conformance statement

Description

Value / Clarification

Which additional cause diagnosis are supported

Fixed N Unknown Y Not-supported

Y Blocked-by-switching-hierarchy

N Select-failed

Y Invalid-position

Y Position-reached

N Step-limit

Y Blocked-by-Mode

N Blocked-by-process

N Blocked-by-interlocking

N Blocked-by-synchrocheck

Y Command-already-in-execution

N Blocked-by-health

N 1-of-n-control

N Abortion-by-cancel

Y Time-limit-over

N Abortion-by-trip

Y Object-not-selected

Y Parameter-change-in-execution

How to force a "test-not-ok" respond with SelectWithValue request?

Put device into local mode

How to force a "test-not-ok" Put device into local mode respond with Select request?

How to force a "test-not-ok" respond with Operate request?

DOns: Operate with orCat out of range SBOns: Operate without Select DOes: Operate with orCat out of range

SBOes: Operate without Select

Which origin categories are supported/accepted?

Y bay-control Y station-control

Y remote-control

Y automatic-bay

Y automatic-station

Y automatic-remote

Y maintenance

Y process

What happens if the orCat is not supported or invalid

DOns: Negative response SBOns: Negative response

DOes: Negative response (with additional cause diagnosis code value Not-supported)

SBOes: Negative response (with additional cause diagnosis code value Not-supported)

Does the IED accept a SelectWithValue/Operate with the same control value as the current status value?

DOns: N SBOns: N

348

P5/EN M/33B

Appendix 2: IEC 61850 Edition 1 conformance statement

ID

Ed

Description

Value / Clarification

Ct16

1

Ct17

1

Ct18

1

Ct19

-

Ct20

1,2

Ct21

1,2

Ct22

2

Ct23

1,2

Ct24

1,2

Ct25

1,2

Ct26

1,2

Ct27

2

Ct_ex1

Is this behaviour configurable?

DOes: N Addcause: Position-reached SBOes: N Addcause: Position-reached

Configurable: N

Does the IED accept a select/operate on the same control object from 2 different clients at the same time?
Does the IED accept a Select/SelectWithValue from the same client when the control object is already selected (tissue 334)

DOns: Y (see Remarks) SBOns: N DOes: N SBOes: N SBOns: N SBOes: N

Is for SBOes the internal validation performed during the SelectWithValue and/or Operate step?

Y During SelectWithValue and during Operate

Can a control operation be blocked by Mod=Off or [On-] Blocked (compare PIXIT Sr5)

Deprecated

Does the IED support local / Y remote operation?

Does the IED send an InformationReport with LastApplError as part of the Operate response- for control with normal security?

SBOns: N DOns: N

How to force a "parameterchange-in-execution"
How many SBOns/SBOes control objects can be selected at the same time?
Does the DUT support any operate timeout > 0

SBOns: N/A SBOes: N/A SBOns: 1 SBOes: 1 N

When CDC=DPC is

Y

supported, is it possible to

have DPC (Controllable

Double Point) go to the

intermediate state? (00)

Name an enhanced security point (if any) with a finite operate timeout specify the timeout (in milliseconds)

Relay/Obj1CSWI1.Pos
Operate timeout can be configured by setting Configuration Tool, the range is 0.02 ... 600 s. For example: DOes: 10000 ms SBOes: 10000 ms

Does the IED support control DOns: Y

objects with external

signals?

SBOns: Y

DOes: Y

SBO Timeout

SBOes: Y 60 seconds

Remarks:
In DOns model: When two clients send Operate request within a very short interval (under 100 ms) then for processing the second command the object position is still unchanged due to the first command, thus both clients receive positive Operate response.

P5/EN M/33B

349

PIXIT for time synchronisation

ID

Ed

Tm1

1

Tm2

1,2

Tm3

1,2

Tm4

1,2

Tm5

1

Tm6

-

Tm7

1

Tm8

1,2

Tm9

1,2

Appendix 2: IEC 61850 Edition 1 conformance statement

Description

Value / Clarification

What time quality bits are supported (may be set by the IED)

Y LeapSecondsKnown Y ClockFailure

Ed.2 requires all 3 bits

Y ClockNotSynchronized

Describe the behaviour when the time server(s) ceases to respond
What is the time server lost detection time
How long does it take to take over the new time from time server

Time is taken from internal RTC
The latency depends on measured drift of the internal clock. Usually it can take 400 seconds
Depends on time difference between internal and time server.
Max. 400 s is the waiting time to see Timestamp Quality transition to ClockNotSynchronised.

When is the time quality bit "Clock failure" set?

The time quality bit "Clock failure" is set to "one" when the P5 IED restarts from power up, or when the connection to time server is lost; the bit is reset to "zero" when the clock becomes synchronised.

All available time synchronisation sources will affect the "Clock failure" bit. These time sources include SNTP and where applicable, IRIG-B.

When is the time quality bit "Clock not synchronised" set?
Note: For Ed2 and up, CNS is set according to PIXIT Tm2

The time quality bit "Clock not synchronised" is set to "one" when the P5 IED starts from power up, or when the connection to time server is lost; the bit is reset to "zero" when the clock becomes synchronised.

Is the timestamp of a binary event adjusted to the configured scan cycle?

All available time synchronisation sources will affect the "Clock not synchronised" bit. These time sources include SNTP and where applicable, IRIG-B.
Deprecated

Does the device support time

Y

zone and daylight saving?

Which attributes of the SNTP response packet are validated?

N Leap indicator not equal to 3 N Mode is equal to SERVER

Y OriginateTimestamp is equal to value sent by the SNTP client as Transmit Timestamp

Y RX/TX timestamp fields are checked for reasonableness

Y SNTP version 3 or 4

Do the COMTRADE files have local time or UTC time
Is this configurable

N other Local N

350

P5/EN M/33B

Appendix 2: IEC 61850 Edition 1 conformance statement

PIXIT for file transfer model

ID

Ed

Ft1

1

Ft2

1,2

Ft3

1

Ft4

1,2

Ft5

1,2

Ft6

1

Ft7

1

Ft8

1,2

Ft9

1,2

Description

Value / Clarification

What is structure of files and directories
Where are the COMTRADE files stored
Are comtrade files zipped and what files are included in each zip file

Directory structure - COMTRADE - DR - TREND
COMTRADE files stored in folder / COMTRADE /DR Zipped; Each COMTRADE record includes 2 files: .cfg and .dat

Directory names are separated Separated by `/' from the file name by

The maximum file name size including path (recommended 64 chars)
Are directory/file name case sensitive Maximum file size for SetFile

255
Below are all the maximum sizes: - Full file name (including the directory path, suffix and separation characters): 255 - File name: 64 - File directory name: 32 - File name suffix: 3
Case sensitive
SetFile is not supported.

Is the requested file path

Y

included in the MMS

fileDirectory respond file name

Is the wild char supported MMS Y fileDirectory request

Is it allowed that 2 clients get a file at the same time
Which files can be deleted

N None

P5/EN M/33B

351

TICS details

Appendix 2: IEC 61850 Edition 1 conformance statement

Introduction

The TICS is based upon UCAIug TICS Template version 2.1, UCA International Users Group Testing Sub Committee, April 23, 2019.
This Tissues implementation conformance statement is applicable for Easergy P5U20, P5V20, P5F30, P5M30, with firmware version V01.

Implemented Tissues

During the October 2006 meeting IEC TC57 working group 10 decided that: · green Tissues with the category "IntOp" are mandatory for IEC 61850 Edition 1 · Tissues with the category "Ed.2" Tissues should not be implemented
The below tables give an overview of the applicable mandatory Tissues.
Table 68 - Tissues implementation conformance statement

Part

Tissue Description

Implemented by server

Supported by client

8-1

116

GetNameList with empty response?

Y

na

165

Improper Error Response for

Y

na

GetDataSetValues

183

GetNameList error handling

Y

na

246

Control negative response (SBOns) with na

na *

LastApplError

545

Skip file directories with no files

na

ni

7-4

252

AlmThm should have CDC SPS

Y

na

7-3

28

Definition of APC

na

na

54

Point def xVal, not cVal

na

na

55

Ineut = Ires ?

63

mag in CDC CMV

Y

ni

Y

na

65

Deadband calculation of a Vector and

na

na

trigger option

219

operTm in ACT

na

na

270 1199

WYE and DEL rms values BCR

Y

ni

Y

na

7-2

30

control parameter T

Y

na *

31

Typo

na

na *

32

Typo in syntax

na

na*

35

Typo Syntax Control time

na

na *

36

Syntax parameter DSet-Ref missing

na

na

37

Syntax GOOSE "T" type

Y

na

39

Add DstAddr to GoCB

Y

na

40

GOOSE Message "AppID" to "GoID"

Y

na

41

GsCB "AppID" to "GsID"

na

na

42

SV timestamp: "EntryTime" to

na

na

"TimeStamp"

43

Control "T" semantic

44

AddCause - Object not sel

na

na

Y

na

352

P5/EN M/33B

Appendix 2: IEC 61850 Edition 1 conformance statement

Table 68 - Tissues implementation conformance statement (Continued)

Part

Tissue Description

Implemented by server

Supported by client

45

Missing AddCauses

na

na

46

Synchro check cancel

na

na

47

"." in LD Name?

Y

na

49

BRCB TimeOfEntry (part of #453)

-

na *

50

LNName start with number?

Y

na

51

ARRAY [0..num] missing

Y

na *

52

Ambiguity GOOSE SqNum

Y

na

53

Add DstAddr to GsCB, SV

na

na

151

Name constraint for control blocks etc.

Y

na

166

DataRef attribute in Log

na

na *

185

Logging - Integrity period

na

na *

189

SV Format

na

na

190

BRCB: EntryId and TimeOfEntry (part of -

na *

#453)

191

BRCB: Integrity and buffering reports

-

na *

(part of #453)

278

EntryId not valid for a server (part of

-

na *

#453)

297

Sequence number

Y

na *

298

Type of SqNum

na

na *

305

Reporting with BufTm=0

na

na *

322

Write Configuration attribute of BRCBs na

na *

329

Reporting and BufOvl

na

na *

333

Enabling of an incomplete GoCB

na

na

335

Clearing of Bufovfl

na

na *

348

URCB class and report

na

na *

349

BRCB TimeOfEntry has two definitions na

na *

453

Reporting & Logging model revision

Y

na *

1281 Default for TrgPos.GI is TRUE

na

na *

6

1

Syntax

na

na

5

tExtensionAttributeNameEnum is

Y

ni

restricted

8

SIUnit enumeration for W

Y

na

10

Base type for bitstring usage

Y

na

17

DAI/SDI elements syntax

Y

na

169

Ordering of enum differs from 7-3

na

na

245

Attribute RptId in SCL

Y

na *

529

Replace sev - Unknown by unknown

na

na

NOTE: Tissue 49, 190, 191, 275 and 278 are part of tissue #453, all other technical tissues in the table are mandatory if applicable.
NOTE: Editorial tissues are marked as "na".
For detailed information on the individual Tissues, connect to the TISSUE database: www.tissues.iec61850.com

P5/EN M/33B

353

Appendix 3: IEC 61850 Edition 2 conformance statement
Appendix 3: IEC 61850 Edition 2 conformance statement

Introduction

Document purpose

The purpose of this document is to specify the communication features of the Easergy P5 protection relays embedded IEC 61850 server implementation mapped to IEC 61850 Edition 2 standards.
The model implementation in Easergy P5 protection relays varies with the functional scope provided by the different device models.
The information provided here may be still the subject of changes due to planned further extensions in the supported IEC 61850 functionality.

Terms and abbreviations
Terms / abbreviations ACSI BDA DA DO FCD FCDA ID IED LD LN MSV RCB GoCB SCL SCSM XML GSSE GOOSE SCD ICD CID PICS MICS PIXIT TICS

Definitions
Abstract Communication Service Interfaces Basic Data Attribute (not structured) Data Attributes DATA in IEC 61850-7-2, data object type or instance Functionally Constrained Data Functionally Constrained Data Attribute Identifier Intelligent Electronic Device Logical Device Logical Node Multicast Sampled Value Report Control Block GOOSE Control Block or GSSE Control Block System Configuration description Language Specific Communication Service Mapping Extensible Markup Language Generic Substation State Event Generic Object Oriented Substation Event Substation Configuration Description IED Configuration Description Configured IED Description Protocol Implementation Conformance Statement Model Implementation Conformance Statement Protocol Implementation eXtra Information for Testing Tissue Implementation Conformance Statement

354

P5/EN M/33B

Appendix 3: IEC 61850 Edition 2 conformance statement
PICS details
The PICS is based upon UCAIug PICS Template version 2.3, UCA International Users Group Testing Sub Committee, October 08, 2019.
The following ACSI conformance statements are used to provide an overview and details about following devices: P5U20, P5V20, P5F30, P5M30, with firmware version V01.
· ACSI basic conformance statement, · ACSI models conformance statement, · ACSI service conformance statement The statements specify the communication features mapped to IEC 61850-8-1 and IEC 61850-9-2, Edition 2.

ACSI basic conformance statement

The basic conformance statement is defined in the table below. Table 69 - Basic conformance statement

Client /

Server /

Subscriber Publisher

Client­Server roles

B11

Server side (of TWO-PARTY-

Y

APPLICATION-ASSOCIATION)

B12

Client side (of TWO-PARTY-

­

APPLICATION-ASSOCIATION)

SCSMs supported

B21

SCSM: IEC 61850-8-1 used

Y

B22

SCSM: IEC 61850-9-1 used

B23

SCSM: IEC 61850-9-2 used

N

B24

SCSM: other

N

Generic substation event model (GSE)

B31

Publisher side

Y

B32

Subscriber side

Y

Transmission of sampled value model (SVC)

B41

Publisher side

B42

Subscriber side

­ = not applicable

N N

Y = supported

N or empty = not supported

Value / Comments Deprecated in Ed.2

P5/EN M/33B

355

Appendix 3: IEC 61850 Edition 2 conformance statement

ACSI models conformance statement

The ACSI models conformance statement is defined in the table below. Table 70 - ACSI models conformance statement

Client / Subscriber
If Server side (B11) and/or Client side (B12) supported

M1

Logical device

M2

Logical node

M3

Data

M4

Data set

M5

Substitution

M6

Setting group control

Reporting

M7

Buffered report control

M7-1 sequence-number

M7-2 report-time-stamp

M7-3 M7-4 M7-5 M7-6 M7-7

reason-for-inclusion data-set-name data-reference buffer-overflow entryID

M7-8 M7-9

BufTm IntgPd

M7-10 M7-11 M8

GI conf-revision Unbuffered report control

M8-1 sequence-number

M8-2 report-time-stamp

M8-3 M8-4 M8-5 M8-6 M8-7

reason-for-inclusion data-set-name data-reference BufTm IntgPd

M8-8 M8-9

GI conf-revision

Server / Value / Comments Publisher

Y

Y

Only standard LN types

defined in Part 7-4.

Y

Only standard object

types defined in Part 7-

3, 7-4.

Mandatory objects and attributes, selected optional objects and attributes.

Y

Supported pre-defined

persistent data sets,

configurable via SCL.

Supported dynamically

created data sets

(persistent and non-

persistent).

Data set members selection restricted to FC such as ST and MX.

N

Y

Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y

356

P5/EN M/33B

Appendix 3: IEC 61850 Edition 2 conformance statement

Table 70 - ACSI models conformance statement (Continued)

Logging

Client / Subscriber

M9

Log control

M9-1 IntgPd

M10

Log

Other M11 M17 M18

Control File transfer Application association

M19

GOOSE Control Block

M20

Sampled Values Control Block

If GSE (B31/32) is supported

M12

GOOSE

M13

GSSE

If SVC (B41/B42) is supported

M14

Multicast SVC

M15

Unicast SVC

For all IEDs

M16

Time

Y = service is supported N or empty = service is not supported

Server / Value / Comments Publisher

N N N
Y Y Y Y N

Y

N

Deprecated in Ed.2

N N

Y

Performance class T2

(100s accuracy)

P5/EN M/33B

357

Appendix 3: IEC 61850 Edition 2 conformance statement

ACSI service conformance statement

The ACSI service conformance statement is defined in the table below (depending on the statements in ACSI basic conformance statement, page 355).
Table 71 - ACSI service conformance statement

Ed ACSI Service Conformance

AA: TP/MC

Server

S1

1,2 GetServerDirectory

TP

(LOGICAL-DEVICE)

Application association

S2

1,2 Associate

S3

1,2 Abort

S4

1,2 Release

Logical device

S5

1,2 LogicalDeviceDirectory TP

Logical node

S6

1,2 LogicalNodeDirectory TP

S7

1,2 GetAllDataValues

TP

Data

S8

1,2 GetDataValues

TP

S9

1,2 SetDataValues

TP

S10 1,2 GetDataDirectory

TP

S11

1,2 GetDataDefinition

TP

Data set

S12 1,2 GetDataSetValues

TP

S13 1,2 SetDataSetValues

TP

S14 1,2 CreateDataSet

TP

S15 1,2 DeleteDataSet

TP

S16

1,2 GetDataSetDirectory

TP

Substitution

S17 1 SetDataValues

TP

Setting group control

S18 1,2 SelectActiveSG

TP

S19 1,2 SelectEditSG

TP

S20 1,2 SetEditSGValue

TP

S21 1,2 ConfirmEditSGValues TP

S22 1,2 GetEditSGValue

TP

S23 1,2 GetSGCBValues

TP

Reporting

Buffered report control block (BRCB)

S24 1,2 Report

TP

S24-1 1,2 data-change (dchg)

S24-2 1,2 qchg-change (qchg)

S24-3 1,2 data-update (dupd)

Client / Server / Comments Sub (C) Pub (S)
Y

Y Y Y

Y

Y Y

Y Y Y Y

Y

N

Deprecated in Ed.2

Y

Y

Y

N

Y Y Y Y Y Y

Y

Y

Y

Y

Accepted as

TrgOpt, but not

functionally

358

P5/EN M/33B

Appendix 3: IEC 61850 Edition 2 conformance statement

Table 71 - ACSI service conformance statement (Continued)

Ed ACSI Service Conformance

AA: TP/MC

S25 1,2 GetBRCBValues

TP

S26 1,2 SetBRCBValues

TP

Unbuffered report control block (URCB)

S27 1,2 Report

TP

S27-1 1,2 data-change (dchg)

S27-2 1,2 qchg-change (qchg)

S27-3 1,2 data-update (dupd)

S28 1,2 GetURCBValues

TP

S29 1,2 SetURCBValues

TP

Logging

Log control block

S30 1,2 GetLCBValues

TP

S31 1,2 SetLCBValues

TP

Log

S32 1,2 QueryLogByTime

TP

S33 1,2 QueryLogAfter

TP

S34

1,2 GetLogStatusValues

TP

Generic substation event model (GSE)

S35 1,2 SendGOOSEMessage MC

GOOSE Control Block

S36 1,2 GetGoReference

TP

S37 1,2 GetGOOSEElement- TP Number

S38 1,2 GetGoCBValues

TP

S39 1,2 SetGoCBValues

TP

GSSE (Ed2:61850-7-2 Annex C)

S40

1

SendGSSEMessage

MC

GSSE Control Block

S41 1 GetGsReference

TP

S42 1 GetGSSEElementNum- TP ber

S43 1 GetGsCBValues

TP

S44 1 SetGsCBValues

TP

Transmission of sampled value model (SVC)

Multicast SV

S45 1,2 SendMSVMessage

MC

Multicast Sampled Values Control Block

S46 1,2 GetMSVCBValues

TP

Client / Sub (C)

Server / Pub (S)
Y Y

Comments
supported by the IED

Y

Y

Y

Y

Accepted as

TrgOpt, but not

functionally

supported by the

IED

Y

Y

N N

N N N

Y

N N
Y Y

N

Deprecated in Ed.2

N

Deprecated in Ed.2

N

Deprecated in Ed.2

N

Deprecated in Ed.2

N

Deprecated in Ed.2

N

Use for 9-2LE or

IEC 61869-9

N

P5/EN M/33B

359

Appendix 3: IEC 61850 Edition 2 conformance statement

Table 71 - ACSI service conformance statement (Continued)

Ed ACSI Service Conformance

AA: TP/MC

S47 1,2 SetMSVCBValues

TP

Unicast SV

S48 1,2 SendUSVMessage

TP

Unicast Sampled Values Control Block

S49 1,2 GetUSVCBValues

TP

S50 1,2 SetUSVCBValues

TP

Control S51 1,2

Select

S52 1,2 SelectWithValue

TP

S53 1,2 Cancel

TP

S54 1,2 Operate

TP

S55 1,2 CommandTermination TP

S56 1,2 TimeActivatedOperate TP

File Transfer

S57 1,2 GetFile

TP

S58 1,2 SetFile

TP

S59 1,2 DeleteFile

TP

S60 1,2 GetFileAttributeValues TP

S61 1,2 GetServerDirectory

TP

(FILE-SYSTEM)

Time T1

1,2 Time resolution of internal clock

T2

1,2 Time accuracy of

internal clock

T3

1,2 Supported TimeStamp -

resolution

Client / Sub (C)

Server / Comments Pub (S)
N

N

N N
Y Y Y Y Y N
Y N N Y Y

14

14 for IEEE1588,

10 for IRIG-B,

7 for SNTP and

protocols

T2

Performance class

T2 for IEEE1588,

T1 for IRIG-B,

T0 for SNTP and

protocols

20

Nearest value of 2-n

in seconds

(number 0 ... 24)

360

P5/EN M/33B

Appendix 3: IEC 61850 Edition 2 conformance statement
MICS details
The MICS is based upon UCAIug MICS Template version 1.2, UCA International Users Group Testing Sub Committee, August 13, 2019.
This model implementation conformance statement is applicable for P5U20, P5V20, P5F30, P5M30, with firmware version V01.
This MICS document specifies the modeling extensions compared to IEC 61850 Edition 2.
Clause Logical nodes list contains the list of implemented logical nodes.
Clause Logical node extensions describes the new and extended logical nodes (if any).
Clause Enum types extensions describes the new and extended enum types (if any).

Logical nodes list

The following table contains the list of logical nodes implemented in the device: Table 72 - Logical nodes implemented in the device

L: System Logical Nodes LPHD (Physical device information) LLN0 (Logical node zero) P: Logical Nodes for protection functions PTRC (Protection trip conditioning) PTOC (Time overcurrent) PFRC (Rate of change frequency) PIOC (Instantaneous overcurrent) PTOF (Over frequency) PTOV (Overvoltage) PDOP (Directional overpower) PTUC (Undercurrent) PTTR (Thermal overload) PTUF (Under frequency) PTUV (Under voltage) PMRI (Motor restart inhibition) PMSS (Motor starting time supervision) PTEF (Transient earth fault) PADM (Admittance) POVS (Motor overspeed) PZSU (Motor underspeed) PHAR (Harmonic restraint) R: Logical nodes for protection related functions RREC (Auto reclosing) RDRE (Disturbance recorder) RFLO (Fault locator)

P5U20
x x
x x x x x x x x x x x x x
x x x
x x

P5V20 x x x x x x x
x x
x

P5F30 P5M30

x

x

x

x

x

x

x

x

x

x

x

x

x

x

x

x

x

x

x

x

x

x

x

x

x

x

x

x

x

x

x

x

x

x

x

x

x

P5/EN M/33B

361

Appendix 3: IEC 61850 Edition 2 conformance statement

Table 72 - Logical nodes implemented in the device (Continued)

RSYN (Synchronism-check)

P5U20

G: Logical Nodes for generic references

GGIO (Generic process I/O)

x

GAPC (Generic automatic process control)

x

M: Logical Nodes for metering and measurement

MMTR (Metering)

x

MMXU (Measurement)

x

MHAI (Harmonics)

x

C: Logical Nodes for control

CSWI (Switch controller)

x

T: Logical nodes for instrument transformers and sensors

TCTX (Current transformer)

x

TVTX (Voltage transformer)

x

P5V20 x x x
x x x
x

P5F30 x

P5M30

x

x

x

x

x

x

x

x

x

x

x

x

x

x

x

x

Logical node extensions
The following table uses: · M: Data is mandatory in the IEC 61850-7-4. · O: Data is optional in the IEC 61850-7-4 and is used in the device. · C: Data is conditional in the IEC 61850-7-4 and is used in the device. · E: Data is an extension to the IEC 61850-7-4.
The condition below is available for all logical nodes in this chapter. Condition C1: Mod, Health and NamPlt shall be inherited by LLN0 of the root LD of a hierarchy as mandatory and by all other LN as optional.

New logical nodes

Newly created logical nodes are listed in this clause, with lnNs attribute in the Name plate.
PADM Admittance This LN shall be used for protection admittance E/F Io/Uo.

Data object name
P5EFPADM1 P5EFPADM2

Common data class

PADM class
Explanation
The name shall be composed of the class name, the LN-Prefix and LN-Instance-ID according to IEC 61850-7-2, Clause 22.

Data Objects

Common Logical Node Information

Mod

ENC

Mode

Beh Health NamPlt

ENS ENS LPL

Behaviour Health Name plate

Status Information YStr

ACD

YN start

M/O/ C/E E
C1 M C1 C1
E

Remarks Status-only

362

P5/EN M/33B

Appendix 3: IEC 61850 Edition 2 conformance statement

Data object name
YOp GStr GOp BStr BOp Settings FunEna YFunEna GFunEna BFunEna UoStrVal CorAng YStrVal YOpDlTms YRsDlTms YSolMod YSlOpDlTms GStrVal GDirMod GOpDlTms GRsDlTms GSolMod GSlOpDlTms BStrVal BDirMod BOpDlTms BRsDlTms BSolMod BSlOpDlTms

Common data class ACT ACD ACT ACD ACT
SPG SPG SPG SPG ASG ASG ASG ASG ASG SPG ASG ASG ENG ASG ASG SPG ASG ASG ENG ASG ASG SPG ASG

PADM class Explanation
YN operate GN start GN operate BN start BN operate
Whole function enable YN function enable GN function enable BN function enable Uo pick-up value Correction angle YN pick-up value YN operate delay time YN reset time YN SOL mode YN SOL operate delay time GN pick-up value GN direction mode GN operate delay time GN reset time GN SOL mode GN SOL operate delay time BN pick-up value BN direction mode BN operate delay time BN reset time BN SOL mode BN SOL operate delay time

M/O/ C/E E
E E
E E

Remarks

E E E E E E E E E E E E E E E E E E E E E E E

POVS Motor overspeed This LN shall be used for protection motor overspeed.

Data object name
P5MOTPOVS1 P5MOTPOVS2

Common data class

POVS class

Explanation

M/O/ C/E

The name shall be composed of E the class name, the LN-Prefix and LN-Instance-ID according to IEC 61850-7-2, Clause 22.

Data Objects

Common Logical Node Information

Mod

ENC

Mode

C1

Beh

ENS

Behaviour

M

Health

ENS

Health

C1

Remarks Status-only

P5/EN M/33B

363

Appendix 3: IEC 61850 Edition 2 conformance statement

Data object name
NamPlt Status Information Str Op Settings FunEna StrVal OpDlTms

Common data class LPL
ACD ACT
SPG ASG ASG

POVS class Explanation Name plate
Start Operate
Function enable Pick-up value Operate delay time

M/O/ C/E
C1

Remarks

E E

E E E

TCTX Current transformer This LN shall be used for protection current transformer parameters.

Data object name P5ITCTX1

Common data class

TCTX class
Explanation
The name shall be composed of the class name, the LN-Prefix and LN-Instance-ID according to IEC 61850-7-2, Clause 22.

M/O/ C/E
E

Data Objects

Common Logical Node Information

Mod

ENC

Mode

C1

Beh

ENS

Behaviour

M

Health

ENS

Health

C1

NamPlt

LPL

Name plate

C1

Status Information

Remarks Status-only

Measured and metered values

Settings FunEna CTNum OpDlTmms PriPhs SecPhs

SPG ING ING ASG ASG

Function enable

E

Number of connected phase CT E

Operate delay time

O

CT primary

E

CT secondary

E

Data object name P5IOTCTX1

Common data class

TCTX class
Explanation
The name shall be composed of the class name, the LN-Prefix and LN-Instance-ID according to IEC 61850-7-2, Clause 22.

M/O/ C/E
E

Data Objects

Common Logical Node Information

Mod

ENC

Mode

C1

Beh

ENS

Behaviour

M

Health

ENS

Health

C1

Remarks Status-only

364

P5/EN M/33B

Appendix 3: IEC 61850 Edition 2 conformance statement

Data object name
NamPlt Status Information

Common data class
LPL

TCTX class Explanation
Name plate

M/O/ C/E
C1

Remarks

Measured and metered values

Settings

PriNeut1

ASG

Io CT primary

E

PriNeut2

ASG

Io' CT primary

E

Data object name P5LPITCTX1

Common data class

TCTX class

Explanation

M/O/ C/E

The name shall be composed of E the class name, the LN-Prefix and LN-Instance-ID according to IEC 61850-7-2, Clause 22.

Data Objects

Common Logical Node Information

Mod

ENC

Mode

C1

Beh

ENS

Behaviour

M

Health

ENS

Health

C1

NamPlt

LPL

Name plate

C1

Status Information

Remarks Status-only

Measured and metered values

ExtPri

MV

Rated ext. primary current In

E

Settings

FunEna

SPG

Function enable

E

OpDlTmms

ING

Operate delay time

E

NomPri

ASG

LPCT rated primary current

E

TVTX Voltage transformer This LN shall be used for protection voltage transformer parameters.

Data object name P5UTVTX1

Common data class

TVTX class

Explanation

M/O/ C/E

The name shall be composed of E the class name, the LN-Prefix and LN-Instance-ID according to IEC 61850-7-2, Clause 22.

Data Objects

Common Logical Node Information

Mod

ENC

Mode

C1

Beh

ENS

Behaviour

M

Health

ENS

Health

C1

NamPlt

LPL

Name plate

C1

Status Information

Remarks Status-only

P5/EN M/33B

365

Appendix 3: IEC 61850 Edition 2 conformance statement

Data object name

Common data class

TVTX class Explanation

M/O/ Remarks C/E

Measured and Metered Values

Settings

FunEna

SPG

Function enable

E

ImbAMinLev

ASG

I2 min. setting

E

ImbVMaxLev

ASG

U2 max. setting

E

OpDlTmms

ING

Operate delay time

E

PriPhs

ASG

VT primary

E

SecNeut

ASG

VTo secondary

E

SecPhs

ASG

VT secondary

E

Data object name P5LPUTVTX1

Common data class

TVTX class
Explanation
The name shall be composed of the class name, the LN-Prefix and LN-Instance-ID according to IEC 61850-7-2, Clause 22.

M/O/ C/E
E

Data Objects

Common Logical Node Information

Mod

ENC

Mode

C1

Beh

ENS

Behaviour

M

Health

ENS

Health

C1

NamPlt

LPL

Name plate

C1

Status Information

Remarks Status-only

Measured and Metered Values

ExtPri

MV

Settings

FunEna PhAMagCor

SPG ASG

PhBMagCor

ASG

PhCMagCor

ASG

PhAAngCor

ASG

PhBAngCor

ASG

PhCAngCor

ASG

VL1yMagCor

ASG

VL1yAngCor

ASG

VL2yMagCor

ASG

VL2yAngCor

ASG

VtTyp

ING

VtSecAdpt

ASG

PhAMagAdpt

ASG

Rated ext. primary current In

E

Function enable

E

VL1 magnitude correction

E

VL2 magnitude correction

E

VL3 magnitude correction

E

VL1 Angle correction

E

VL2 Angle correction

E

VL3 Angle correction

E

VL1y magnitude correction

E

VL1y Angle correction

E

VL2y magnitude correction

E

VL2y Angle correction

E

Primary VT type

E

VT secondary rated voltage

E

VL1 Adapt magnitude correction E

366

P5/EN M/33B

Appendix 3: IEC 61850 Edition 2 conformance statement

Data object name
PhBMagAdpt PhCMagAdpt VlSecAdpt VL1yMagAdt

Common data class ASG
ASG
ASG ASG

TVTX class Explanation
VL2 Adapt magnitude correction VL3 Adapt magnitude correction VTy secondary rated voltage VL1y Adapt magnitude correction

M/O/ C/E E
E
E E

Remarks

Data object name P5LPUTVTX2

Common data class

TVTX class

Explanation

M/O/ C/E

The name shall be composed of E the class name, the LN-Prefix and LN-Instance-ID according to IEC 61850-7-2, Clause 22.

Remarks

Data Objects

Common Logical Node Information

Mod

ENC

Mode

C1 Status-only

Beh

EINS

Behaviour

M

Health

ENS

Health

C1

NamPlt

LPL

Name plate

C1

Status Information

Measured and Metered Values

ExtPri

MV

Settings

FunEna NomPri

SPG ASG

PhAMagCor

ASG

PhBMagCor

ASG

PhCMagCor

ASG

PhAAngCor

ASG

PhBAngCor

ASG

PhCAngCor

ASG

VL1yMagCor

ASG

VL1yAngCor

ASG

VtTyp

ING

VtSecAdpt

ASG

PhAMagAdpt

ASG

PhBMagAdpt

ASG

PhCMagAdpt

ASG

VlSecAdpt

ASG

VL1yMagAdt

ASG

Rated ext. primary current In

E

Function enable

E

LPVT rated primary voltage

E

VL1 magnitude correction

E

VL2 magnitude correction

E

VL3 magnitude correction

E

VL1 Angle correction

E

VL2 Angle correction

E

VL3 Angle correction

E

VL1y magnitude correction

E

VL1y Angle correction

E

Primary VT type

E

VT secondary rated voltage

E

VL1 Adapt magnitude correction E

VL2 Adapt magnitude correction E

VL3 Adapt magnitude correction E

VTy secondary rated voltage

E

VL1y Adapt magnitude correction E

P5/EN M/33B

367

Appendix 3: IEC 61850 Edition 2 conformance statement

Data object name P5LPUTVTX3

Common data class

TVTX class
Explanation
The name shall be composed of the class name, the LN-Prefix and LN-Instance-ID according to IEC 61850-7-2, Clause 22.

M/O/ C/E
E

Remarks

Data Objects

Common Logical Node Information

Mod

ENC

Mode

C1 Status-only

Beh

ENS

Behaviour

M

Health

ENS

Health

C1

NamPlt

LPL

Name plate

C1

Status Information

Measured and Metered Values

ExtPri

MV

Settings

FunEna NomPri

SPG ASG

PhAMagCor

ASG

PhBMagCor

ASG

PhCMagCor

ASG

PhAAngCor

ASG

PhBAngCor

ASG

PhCAngCor

ASG

VtTyp

ING

VtSecAdpt

ASG

PhAMagAdpt

ASG

PhBMagAdpt

ASG

PhCMagAdpt

ASG

UoSecAdpt

ASG

UoMagAdt

ASG

Rated ext. primary current In

E

Function enable

E

LPVT rated primary voltage

E

VL1 magnitude correction

E

VL2 magnitude correction

E

VL3 magnitude correction

E

VL1 Angle correction

E

VL2 Angle correction

E

VL3 Angle correction

E

Primary VT type

E

VT secondary rated voltage

E

VL1 Adapt magnitude correction E

VL2 Adapt magnitude correction E

VL3 Adapt magnitude correction E

Uo secondary rated voltage

E

Uo Adapt magnitude correction

E

Data object name P5LPUTVTX4

Common data class

TVTX class
Explanation
The name shall be composed of the class name, the LN-Prefix and LN-Instance-ID according to IEC 61850-7-2, Clause 22.

M/O/ C/E
E

Remarks

Data Objects

Common Logical Node Information

Mod

ENC

Mode

C1 Status-only

Beh

ENS

Behaviour

M

Health

ENS

Health

C1

NamPlt

LPL

Name plate

C1

Status Information

368

P5/EN M/33B

Appendix 3: IEC 61850 Edition 2 conformance statement

Data object name

Common data class

TVTX class Explanation

M/O/ Remarks C/E

Measured and Metered Values

ExtPri

MV

Settings

FunEna NomPri

SPG ASG

PhAMagCor

ASG

PhBMagCor

ASG

PhCMagCor

ASG

PhAAngCor

ASG

PhBAngCor

ASG

PhCAngCor

ASG

VtTyp

ING

VtSecAdpt

ASG

PhAMagAdpt

ASG

PhBMagAdpt

ASG

PhCMagAdpt

ASG

Rated ext. primary current In

E

Function enable

E

LPVT rated primary voltage

E

VL1 magnitude correction

E

VL2 magnitude correction

E

VL3 magnitude correction

E

VL1 Angle correction

E

VL2 Angle correction

E

VL3 Angle correction

E

Primary VT type

E

VT secondary rated voltage

E

VL1 Adapt magnitude correction E

VL2 Adapt magnitude correction E

VL3 Adapt magnitude correction E

Standardised and extended DO of logical node type

The following table presents a summary of the standardised and extended DO of each Logical Node Type.
LN Type: SE_GAPC_PS_EasergyP5_V001 Description: Generic automatic process control LN Class: GAPC

Data object name P5PSGAPC1...8

Common data class

GAPC class
Explanation
The name shall be composed of the class name, the LN-Prefix and LN-Instance-ID according to IEC 61850-7-2, Clause 22.

Data Objects

Common Logical Node Information

Mod

ENC

Mode

Beh Health NamPlt

ENS ENS LPL

Behaviour Health Name plate

Status Information Str Op

ACD ACT

Start Operate

Settings

FunEna

SPG

Function enable

M/O/ C/E M
C1 M C1 C1
O O
E

Remarks Status-only

LN Type: SE_GGIO_AR_EasergyP5FU_V001 Description: Generic process I/O

P5/EN M/33B

369

Appendix 3: IEC 61850 Edition 2 conformance statement

LN Class: GGIO

Data object name P5ARGGIO1

Common data class

GGIO class
Explanation
The name shall be composed of the class name, the LN-Prefix and LN-Instance-ID according to IEC 61850-7-2, Clause 22.

Data Objects

Common Logical Node Information

Mod

ENC

Mode

Beh Health NamPlt

ENS ENS LPL

Behaviour Health Name plate

Status Information Ind1

SPS

AR1 final trip

Ind2

SPS

AR2 final trip

Ind3

SPS

AR3 final trip

Ind4

SPS

AR4 final trip

Ind5

SPS

AR5 final trip

Ind6

SPS

AR6 final trip

Ind7

SPS

AR7 final trip

Ind8

SPS

AR8 final trip

Ind9

SPS

AR9 final trip

Ind10

SPS

AR10 final trip

Ind11

SPS

AR11 final trip

Ind12

SPS

AR12 final trip

Ind13

SPS

AR13 final trip

Ind14

SPS

AR14 final trip

Ind15

SPS

AR15 final trip

Ind16

SPS

AR16 final trip

Ind17

SPS

AR17 final trip

Ind18

SPS

AR18 final trip

Ind19

SPS

AR19 final trip

Settings

FunEna

SPG

Function enable

M/O/ C/E M
C1 M C1 C1
O O O O O O O O O O O O O O O O O O O
E

Remarks Status-only

LN Type: SE_GGIO_CBWA_EasergyP5FMU_V002 Description: Generic process I/O LN Class: GGIO

Data object name P5CBWAGGIO1

Common data class

GGIO class
Explanation
The name shall be composed of the class name, the LN-Prefix and LN-Instance-ID according to IEC 61850-7-2, Clause 22.

Data Objects

Common Logical Node Information

M/O/ C/E
M

Remarks

370

P5/EN M/33B

Appendix 3: IEC 61850 Edition 2 conformance statement

Data object name
Mod Beh Health NamPlt Status Information Ind1 Ind2 Alm1Phs1 Alm1Phs2 Alm1Phs3 Alm2Phs1 Alm2Phs2 Alm2Phs3 Settings FunEna CBOpenCnt RackOutCnt TripCnt AlmLev1 AlmLev2 LimOpNum1 LimOpNum2

Common data class ENC ENS ENS LPL
SPS SPS INS INS INS INS INS INS
SPG ING ING ING ASG ASG ASG ASG

GGIO class Explanation
Mode Behaviour Health Name plate
General indication (binary input) General indication (binary input) Alarm 1 of Phase 1 Alarm 1 of Phase 2 Alarm 1 of Phase 3 Alarm 2 of Phase 1 Alarm 2 of Phase 2 Alarm 2 of Phase 3
Function enable CB open counter Rack out counter Protection trip counter Alarm level 1 Alarm level 2 Limit for operate left 1 Limit for operate left 2

M/O/ C/E C1
M C1 C1

Remarks Status-only

O O E E E E E E

E E E E E E E E

LN Type: SE_MMXU_VECA_EasergyP5FMU_VSI_V001 Description: Measurement LN Class: MMXU

Data object name P5VECAMMXU1

Common data class

MMXU class
Explanation
The name shall be composed of the class name, the LN-Prefix and LN-Instance-ID according to IEC 61850-7-2, Clause 22.

Data Objects

Common Logical Node Information

Mod

ENC

Mode

Beh Health NamPlt

ENS ENS LPL

Behaviour Health Name plate

Measured values

Hz

MV

Frequency

A

WYE

Phase currents (IL1, IL2, IL3)

Iovs

WYE

Residual current Io'

M/O/ C/E M
C1 M C1 C1
O O E

Remarks Status-only

LN Type: SE_PDOP_REVP_EasergyP5FM_V002 Description: Directional overpower LN Class: PDOP

P5/EN M/33B

371

Appendix 3: IEC 61850 Edition 2 conformance statement

Data object name
P5REVPPDOP1 P5REVPPDOP2

Common data class

PDOP class
Explanation
The name shall be composed of the class name, the LN-Prefix and LN-Instance-ID according to IEC 61850-7-2, Clause 22.

Data Objects

Common Logical Node Information

Mod

ENC

Mode

Beh Health NamPlt

ENS ENS LPL

Behaviour Health Name plate

Status Information Str Op

ACD ACT

Start Operate

Settings

FunEna StrVal

SPG ASG

Function enable Pick-up value

OpDlTms

ASG

Operate delay time

M/O/ C/E M
C1 M C1 C1
M M
E O E

Remarks Status-only

LN Type: SE_PDOP_EF_EasergyP5FM_V002 Description: Directional overpower LN Class: PDOP

Data object name
P5EFPDOP1 P5EFPDOP2

Common data class

PDOP class
Explanation
The name shall be composed of the class name, the LN-Prefix and LN-Instance-ID according to IEC 61850-7-2, Clause 22.

Data Objects

Common Logical Node Information

Mod

ENC

Mode

Beh Health NamPlt

ENS ENS LPL

Behaviour Health Name plate

Status Information Str Op

ACD ACT

Start Operate

Settings

FunEna DirMode StrVal

SPG ENG ASG

Function enable Direction mode Pick-up value

UoStrVal

ASG

Uo setting

SctrStrVal

ASG

Pick up sector size

OpDlTms

ASG

Operate delay time

SolMod SolOpDlTms

SPG ASG

SOL Mode SOL operate delay time

M/O/ C/E M
C1 M C1 C1
M M
E E M E E E E E

Remarks Status-only

372

P5/EN M/33B

Appendix 3: IEC 61850 Edition 2 conformance statement

Data object name
MemMod MmUoStrVal MemTms

Common data class ENG
ASG
ASG

PDOP class Explanation
Memory Mode Uo setting Memory time

M/O/ C/E E
E
E

Remarks

LN Type: SE_PFRC_DFDT_EasergyP5FV_V002 SE_PFRC_DFDT_EasergyP5U_LPT_V002 Description: Rate of change of frequency LN Class: PFRC

Data object name
P5DFDTPFRC1 P5DFDTPFRC2 P5DFTLPFRC1 P5DFTLPFRC2 Data Objects

Common data class

PFRC class
Explanation
The name shall be composed of the class name, the LN-Prefix and LN-Instance-ID according to IEC 61850-7-2, Clause 22.

Common Logical Node Information

Mod

ENC

Mode

Beh Health NamPlt

ENS ENS LPL

Behaviour Health Name plate

Status Information Str Op

ACD ACT

Start Operate

Settings

FunEna DirChg

SPG ENG

Function enable Direction of change

StrVal

ASG

Pick-up value

OpDlTms

ASG

Operate delay time

M/O/ C/E M
C1 M C1 C1
M M
E E O E

Remarks Status-only

LN Type: SE_PIOC_CBFP_EasergyP5FMU_V002 Description: Instantaneous overcurrent LN Class: PIOC

Data object name P5CBFPPIOC1

Common data class

PIOC class
Explanation
The name shall be composed of the class name, the LN-Prefix and LN-Instance-ID according to IEC 61850-7-2, Clause 22.

Data Objects

Common Logical Node Information

Mod

ENC

Mode

Beh Health NamPlt

ENS ENS LPL

Behaviour Health Name plate

Status Information

M/O/ C/E M
C1 M C1 C1

Remarks Status-only

P5/EN M/33B

373

Appendix 3: IEC 61850 Edition 2 conformance statement

Data object name
Str Op Settings FunEna NeutStrVal
PhsStrVal
Tm1DlTms Tm1Ena Tm2DlTms Tm2Ena

Common data class ACD ACT
SPG ASG
ASG
ASG SPG ASG SPG

PIOC class Explanation
Start Operate

M/O/ C/E
O
M

Remarks

Function enable

E

Undercurrent threshold for earth E fault current

Undercurrent threshold for phase E current

Timer1 operate delay time

E

Enable CBF timer1

E

Timer2 operate delay time

E

Enable CBF timer2

E

LN Type: SE_PIOC_CBFP_EasergyP5V_V002 Description: Instantaneous overcurrent LN Class: PIOC

Data object name P5CBFPPIOC2

Common data class

PIOC class
Explanation
The name shall be composed of the class name, the LN-Prefix and LN-Instance-ID according to IEC 61850-7-2, Clause 22.

Data Objects

Common Logical Node Information

Mod

ENC

Mode

Beh Health NamPlt

ENS ENS LPL

Behaviour Health Name plate

Status Information Str Op

ACD ACT

Start Operate

Settings

FunEna Tm1DlTms

SPG ASG

Function enable Timer1 operate delay time

Tm1Ena Tm2DlTms

SPG ASG

Enable CBF timer1 Timer2 operate delay time

Tm2Ena

SPG

Enable CBF timer2

M/O/ C/E M
C1 M C1 C1
O M
E E E E E

Remarks Status-only

LN Type: SE_PIOC_CBFP_EasergyP5FMU_VSI_V001 Description: Instantaneous overcurrent LN Class: PIOC

374

P5/EN M/33B

Appendix 3: IEC 61850 Edition 2 conformance statement

Data object name P5CBFPPIOC3

Common data class

PIOC class
Explanation
The name shall be composed of the class name, the LN-Prefix and LN-Instance-ID according to IEC 61850-7-2, Clause 22.

Data Objects

Common Logical Node Information

Mod

ENC

Mode

Beh Health NamPlt

ENS ENS LPL

Behaviour Health Name plate

Status Information Str Op

ACD ACT

Start Operate

Settings

FunEna NeutStrVal
PhsStrVal
IovsStrVal Tm1DlTms

SPG ASG
ASG
ASG ASG

Function enable
Undercurrent threshold for earth fault current
Undercurrent threshold for phase current
Io'< current set
Timer1 operate delay time

Tm1Ena Tm2DlTms

SPG ASG

Enable CBF timer1 Timer2 operate delay time

Tm2Ena

SPG

Enable CBF timer2

M/O/ C/E M
C1 M C1 C1
O M
E E E E E E E E

Remarks Status-only

LN Type: SE_PIOC_ARCM_EasergyP5FM_ARC_V001 Description: Instantaneous overcurrent LN Class: PIOC

Data object name P5ARCMPIOC1...8

Common data class

PIOC class
Explanation
The name shall be composed of the class name, the LN-Prefix and LN-Instance-ID according to IEC 61850-7-2, Clause 22.

Data Objects

Common Logical Node Information

Mod

ENC

Mode

Beh Health NamPlt

ENS ENS LPL

Behaviour Health Name plate

Status Information Op

ACT

Operate

Settings

FunEna MinOpTmms

SPG ING

Function enable Min. hold time [x1ms]

M/O/ C/E M
C1 M C1 C1
M
E E

Remarks Status-only

P5/EN M/33B

375

Appendix 3: IEC 61850 Edition 2 conformance statement

Data object name
OpDlTmms OpMode

Common data class
ING
ENG

PIOC class Explanation
Trip X delay [x1ms] Arc stage X Mode

M/O/ C/E
E
E

Remarks

LN Type: SE_PIOC_CLP_EasergyP5FMU_V001 Description: Instantaneous overcurrent LN Class: PIOC

Data object name P5CLPPIOC1

Common data class

PIOC class
Explanation
The name shall be composed of the class name, the LN-Prefix and LN-Instance-ID according to IEC 61850-7-2, Clause 22.

Data Objects

Common Logical Node Information

Mod

ENC

Mode

Beh Health NamPlt

ENS ENS LPL

Behaviour Health Name plate

Status Information Op

ACT

Operate

Settings

FunEna Idl StrVal

SPG ASG ASG

Function enable Idle current Pickup current

DeadTms MaxTms

ASG ASG

CLPU dead time Maximum time

M/O/ C/E M
C1 M C1 C1
M
E E O E E

Remarks Status-only

LN Type: SE_PIOC_SOL_EasergyP5FMU_V001 Description: Instantaneous overcurrent LN Class: PIOC

Data object name P5SOLPIOC1

Common data class

PIOC class
Explanation
The name shall be composed of the class name, the LN-Prefix and LN-Instance-ID according to IEC 61850-7-2, Clause 22.

Data Objects

Common Logical Node Information

Mod

ENC

Mode

Beh Health NamPlt

ENS ENS LPL

Behaviour Health Name plate

Status Information

Op

ACT

Operate

Oprt2

ACT

2nd Operate

Settings

M/O/ C/E M
C1 M C1 C1
M E

Remarks Status-only

376

P5/EN M/33B

Appendix 3: IEC 61850 Edition 2 conformance statement

Data object name
FunEna SigNum CbClrTms

Common data class SPG ENG
ASG

PIOC class Explanation
Function enable SOL signal number CB trip clearing time

M/O/ C/E E E
E

Remarks

LN Type: SE_PIOC_SOTF_EasergyP5FMU_V001 Description: Instantaneous overcurrent LN Class: PIOC

Data object name P5SOTFPIOC1

Common data class

PIOC class
Explanation
The name shall be composed of the class name, the LN-Prefix and LN-Instance-ID according to IEC 61850-7-2, Clause 22.

Data Objects

Common Logical Node Information

Mod

ENC

Mode

Beh Health NamPlt

ENS ENS LPL

Behaviour Health Name plate

Status Information Op

ACT

Operate

Settings

FunEna StrVal

SPG ASG

Enable for SOTF Pick-up value

DetDlTms

ASG

Dead line detection delay

ActTmrTms

ASG

SOTF active Timer

M/O/ C/E M
C1 M C1 C1
M
E O E E

Remarks Status-only

LN Type: SE_PMRI_MOTFST_EasergyP5MU_V003 Description: Motor restart inhibition LN Class: PMRI

Data object name P5FSTPMRI1

Common data class

PMRI class
Explanation
The name shall be composed of the class name, the LN-Prefix and LN-Instance-ID according to IEC 61850-7-2, Clause 22.

Data Objects

Common Logical Node Information

Mod

ENC

Mode

Beh Health NamPlt

ENS ENS LPL

Behaviour Health Name plate

Status Information Op

ACT

Operate

StrInh Settings

SPS

Restart inhibited

M/O/ C/E M
C1 M C1 C1
O O

Remarks Status-only

P5/EN M/33B

377

Appendix 3: IEC 61850 Edition 2 conformance statement

Data object name
MaxWrmStr
MinStrTmm HotSttsLmt FunEna MaxCldStr RefPrdTmm

Common data class ING
ASG ASG SPG ING ASG

PMRI class

Explanation

M/O/ C/E

Maximum warm starts, permissible O number of warm starts

Min time between motor starts

E

Hot Status Limit

E

Function enable

E

Max motor cold starts/hour

E

Reference period

E

Remarks

LN Type: SE_PMSS_STAL_EasergyP5MU_V001 Description: Motor starting time supervision LN Class: PMSS

Data object name P5STALPMSS1

Common data class

PMSS class
Explanation
The name shall be composed of the class name, the LN-Prefix and LN-Instance-ID according to IEC 61850-7-2, Clause 22.

M/O/ C/E
M

Data Objects

Common Logical Node Information

Mod

ENC

Mode

C1

Beh

ENS

Behaviour

M

Health

ENS

Health

C1

NamPlt

LPL

Name plate

C1

Status Information

Str

ACD

Start

O

Op

ACT

Operate

O

Settings

SetA

ASG

Current setting for motor start-up O

SetTms

ING

Time setting for motor start-up

O

MotStr

ASG

Motor startup (current pickup value O of motor starting)

FunEna

SPG

Function enable

E

TmACrv

CURVE

Characteristics for Ist>

E

Remarks Status-only

LN Type: SE_PMSS_MSPD_EasergyP5MU_V001 Description: Motor starting time supervision LN Class: PMSS

Data object name P5MSPDPMSS1

Common data class

PMSS class
Explanation
The name shall be composed of the class name, the LN-Prefix and LN-Instance-ID according to IEC 61850-7-2, Clause 22.

Data Objects

Common Logical Node Information

Mod

ENC

Mode

Beh

ENS

Behaviour

M/O/ C/E M
C1 M

Remarks Status-only

378

P5/EN M/33B

Appendix 3: IEC 61850 Edition 2 conformance statement

Data object name
Health NamPlt Status Information ZerSpdSt MotSpd Settings FunEna SpdIn RtdMotSpd PlsRot ZerSpdTms

Common data class ENS LPL
SPS INS
SPG ENG ASG ASG ASG

PMSS class Explanation
Health Name plate
Zero speed Motor speed
Function enable Motor speed input DI Rated motor speed Pulse per rotation Zero speed delay

M/O/ C/E
C1
C1

Remarks

E E

E E E E E

LN Type: SE_PMSS_MABS_EasergyP5MU_V001 Description: Motor starting time supervision LN Class: PMSS

Data object name P5MABSPMSS1

Common data class

PMSS class
Explanation
The name shall be composed of the class name, the LN-Prefix and LN-Instance-ID according to IEC 61850-7-2, Clause 22.

Data Objects

Common Logical Node Information

Mod

ENC

Mode

Beh Health NamPlt

ENS ENS LPL

Behaviour Health Name plate

Status Information AbsAlm

SPS

Anti-backspin Alarm

Settings

FunEna MvMod

SPG SPG

Function enable Measured Zero Speed Mode

SwMod

SPG

Zero Speed Switch Mode

AbsTms

ASG

Anti-backspin Delay

M/O/ C/E M
C1 M C1 C1
E
E E E E

Remarks Status-only

LN Type: SE_PMSS_51LR_EasergyP5MU_V001 Description: Motor starting time supervision LN Class: PMSS

Data object name P5LRPMSS1

Common data class

PMSS class
Explanation
The name shall be composed of the class name, the LN-Prefix and LN-Instance-ID according to IEC 61850-7-2, Clause 22.

Data Objects

Common Logical Node Information

M/O/ C/E
M

Remarks

P5/EN M/33B

379

Appendix 3: IEC 61850 Edition 2 conformance statement

Data object name
Mod Beh Health NamPlt Status Information Str Op Settings SetA FunEna DlTyp OpDlTms

Common data class ENC ENS ENS LPL
ACD ACT
ASG SPG ENG ASG

PMSS class Explanation
Mode Behaviour Health Name plate
Start Operate
Pick-up value Function enable Delay type Operate delay time

M/O/ C/E C1
M C1 C1

Remarks Status-only

O O

O E E E

LN Type: SE_PTEF_IO_EasergyP5F_V002 Description: Transient earth fault LN Class: PTEF

Data object name P5IOIOPTEF1

Common data class

PTEF class
Explanation
The name shall be composed of the class name, the LN-Prefix and LN-Instance-ID according to IEC 61850-7-2, Clause 22.

M/O/ C/E
M

Data Objects

Common Logical Node Information

Mod

ENC

Mode

C1

Beh

ENS

Behaviour

M

Health

ENS

Health

C1

NamPlt

LPL

Name plate

C1

Status Information

Str

ACD

Start

C

Op

ACT

Operate

C

Settings

FunEna

SPG

Function enable

E

DirMode

ENG

Direction mode

E

GndStr

ASG

Uo pick-up

O

OpDlTms

ASG

Operate delay time

E

MinPeak

ING

Min number of peaks

E

RsDlTms

ASG

Reset delay

E

Condition C: at least one of the two status information (Str, Op) shall be used.

Remarks Status-only

LN Type: SE_PTOC_STRVAL_EasergyP5FMU_V002 Description: Time overcurrent LN Class: PTOC

380

P5/EN M/33B

Appendix 3: IEC 61850 Edition 2 conformance statement

Data object name P5HAR5PTOC1

Common data class

PTOC class
Explanation
The name shall be composed of the class name, the LN-Prefix and LN-Instance-ID according to IEC 61850-7-2, Clause 22.

Data Objects

Common Logical Node Information

Mod

ENC

Mode

Beh Health NamPlt

ENS ENS LPL

Behaviour Health Name plate

Status Information Str Op

ACD ACT

Start Operate

Settings

StrVal OpDlTmms

ASG ING

Start value Operate delay time

FunEna

SPG

Function enable

M/O/ C/E M
C1 M C1 C1
M M
O O E

Remarks Status-only

LN Type: SE_PTOC_UIBC_EasergyP5FMU_V002 Description: Time overcurrent LN Class: PTOC

Data object name P5UIBCPTOC1

Common data class

PTOC class
Explanation
The name shall be composed of the class name, the LN-Prefix and LN-Instance-ID according to IEC 61850-7-2, Clause 22.

Data Objects

Common Logical Node Information

Mod

ENC

Mode

Beh Health NamPlt

ENS ENS LPL

Behaviour Health Name plate

Status Information Str Op

ACD ACT

Start Operate

Settings

FunEna StrVal OpDlTms

SPG ASG ASG

Function enable Start value Operate delay time

M/O/ C/E M
C1 M C1 C1
M M
E O E

Remarks Status-only

LN Type: SE_PTOC_EasergyP5FMU_VSI_V002 Description: Time overcurrent LN Class: PTOC

P5/EN M/33B

381

Appendix 3: IEC 61850 Edition 2 conformance statement

Data object name
P5EFVSPTOC1 P5EFVSPTOC2

Common data class

PTOC class
Explanation
The name shall be composed of the class name, the LN-Prefix and LN-Instance-ID according to IEC 61850-7-2, Clause 22.

Data Objects

Common Logical Node Information

Mod

ENC

Mode

Beh Health NamPlt

ENS ENS LPL

Behaviour Health Name plate

Status Information Str Op

ACD ACT

Start Operate

Settings

FunEna StrVal

SPG ASG

Function enable Pick-up value

DlCrvFmly

ENG

Delay curve family

DlTyp

ENG

Delay type

OpDlTms

ASG

Operate delay time

TmMult RsTyp

ASG ENG

Inv. time coefficient Reset type

RsDlTms

ASG

Reset time

InrushStat SolStat SolOpDTms

SPG SPG ASG

Inrush status SOL status SOL operate delay time

SolTmMult ClpStat

ASG SPG

SOL Inv. time coefficient CLP status

ClpStrVal

ASG

CLP pick-up value

ClpOpDTms

ASG

CLP operate delay time

ClpTmMult

ASG

CLP Inv. time coefficient

NetGrd

ENG

Network grounding

M/O/ C/E M
C1 M C1 C1
M M
E O E E E O E E E E E E E E E E E

Remarks Status-only

LN Type: SE_PTOC_NORMAL_EasergyP5FMU_V002 Description: Time overcurrent LN Class: PTOC

Data object name
P5OCPTOC1 P5OCPTOC2

Common data class

PTOC class
Explanation
The name shall be composed of the class name, the LN-Prefix and LN-Instance-ID according to IEC 61850-7-2, Clause 22.

Data Objects

Common Logical Node Information

Mod

ENC

Mode

Beh

ENS

Behaviour

M/O/ C/E M
C1 M

Remarks Status-only

382

P5/EN M/33B

Appendix 3: IEC 61850 Edition 2 conformance statement

Data object name
Health NamPlt Status Information Str Op Settings FunEna StrVal DlCrvFmly DlTyp OpDlTms TmMult RsTyp RsDlTms InrushStat SolStat SolOpDTms SolTmMult ClpStat ClpStrVal ClpOpDTms ClpTmMult

Common data class ENS LPL
ACD ACT
SPG ASG ENG ENG ASG ASG ENG ASG SPG SPG ASG ASG SPG ASG ASG ASG

PTOC class Explanation
Health Name plate
Start Operate
Function enable Pick-up value Delay curve family Delay type Operate delay time Inv. time coefficient Reset type Reset time Inrush status SOL status SOL operate delay time SOL Inv. time coefficient CLP status CLP pick-up value CLP operate delay time CLP Inv. time coefficient

M/O/ C/E
C1
C1

Remarks

M M

E O E E E O E E E E E E E E E E

LN Type: SE_PTOC_EasergyP5FM_V002 Description: Time overcurrent LN Class: PTOC

Data object name
P5DEFPTOC1 P5DEFPTOC2 P5DEFPTOC3

Common data class

PTOC class
Explanation
The name shall be composed of the class name, the LN-Prefix and LN-Instance-ID according to IEC 61850-7-2, Clause 22.

Data Objects

Common Logical Node Information

Mod

ENC

Mode

Beh Health NamPlt

ENS ENS LPL

Behaviour Health Name plate

Status Information Str Op

ACD ACT

Start Operate

Settings

FunEna DirMode

SPG ENG

Function enable Direction mode

M/O/ C/E M
C1 M C1 C1
M M
E E

Remarks Status-only

P5/EN M/33B

383

Appendix 3: IEC 61850 Edition 2 conformance statement

Data object name
StrVal UoStrVal AngOffset SctrStrVal DlCrvFmly DlTyp OpDlTms TmMult RsTyp RsDlTms

Common data class ASG ASG ASG ASG ENG ENG ASG ASG ENG ASG

PTOC class Explanation
Pick-up value Uo setting Angle offset Pick up sector size Delay curve family Delay type Operate delay time Inv. time coefficient Reset type Reset time

M/O/ C/E O E E E E E E O E E

Remarks

LN Type: SE_PTOC_EasergyP5U_LPT_V002 Description: Time overcurrent LN Class: PTOC

Data object name
P5DOCLPTOC1 P5DOCLPTOC2

Common data class

PTOC class
Explanation
The name shall be composed of the class name, the LN-Prefix and LN-Instance-ID according to IEC 61850-7-2, Clause 22.

Data Objects

Common Logical Node Information

Mod

ENC

Mode

Beh Health NamPlt

ENS ENS LPL

Behaviour Health Name plate

Status Information Str Op

ACD ACT

Start Operate

Settings

FunEna StrVal

SPG ASG

Function enable Pick-up value

DirMode AngOffset

ENG ASG

Direction mode Angle offset

DlCrvFmly

ENG

Delay curve family

DlTyp

ENG

Delay type

OpDlTms

ASG

Operate delay time

TmMult RsTyp

ASG ENG

Inv. time coefficient Reset type

RsDlTms InrushStat SolStat SolOpDTms

ASG SPG SPG ASG

Reset time Inrush status SOL status SOL operate delay time

M/O/ C/E M
C1 M C1 C1
M M
E O E E E E E O E E E E E

Remarks Status-only

384

P5/EN M/33B

Appendix 3: IEC 61850 Edition 2 conformance statement

Data object name
SolTmMult ClpStat ClpStrVal ClpOpDTms ClpTmMult

Common data class ASG SPG ASG ASG ASG

PTOC class Explanation
SOL Inv. time coefficient CLP status CLP pick-up value CLP operate delay time CLP Inv. time coefficient

M/O/ C/E E E E E E

Remarks

LN Type: SE_PTOC_DOC2_EasergyP5U_LPT_V001 Description: Time overcurrent LN Class: PTOC

Data object name
P5DOCLPTOC3 P5DOCLPTOC4

Common data class

PTOC class
Explanation
The name shall be composed of the class name, the LN-Prefix and LN-Instance-ID according to IEC 61850-7-2, Clause 22.

Data Objects

Common Logical Node Information

Mod

ENC

Mode

Beh Health NamPlt

ENS ENS LPL

Behaviour Health Name plate

Status Information Str Op

ACD ACT

Start Operate

Settings

FunEna StrVal

SPG ASG

Function enable Pick-up value

DirMode AngOffset

ENG ASG

Direction mode Angle offset

OpDlTms

ASG

Operate delay time

InrushStat SolStat SolOpDTms

SPG SPG ASG

Inrush status SOL status SOL operate delay time

ClpStat

SPG

CLP status

ClpStrVal

ASG

CLP pick-up value

ClpOpDTms

ASG

CLP operate delay time

M/O/ C/E M
C1 M C1 C1
M M
E O E E E E E E E E E

Remarks Status-only

LN Type: SE_PTOF_OFUF_EasergyP5FMV_V00V002/ SE_PTOF_OFUF_EasergyP5U_LPT_V002 Description: Overfrequency LN Class: PTOF

P5/EN M/33B

385

Appendix 3: IEC 61850 Edition 2 conformance statement

Data object name
P5OFUFPTOF1 P5OFUFPTOF2 P5LPTPTOF1 P5LPTPTOF2 Data Objects

Common data class

PTOF class
Explanation
The name shall be composed of the class name, the LN-Prefix and LN-Instance-ID according to IEC 61850-7-2, Clause 22.

Common Logical Node Information

Mod

ENC

Mode

Beh Health NamPlt

ENS ENS LPL

Behaviour Health Name plate

Status Information Str Op

ACD ACT

Start Operate

Settings

FunEna StrVal

SPG ASG

Function enable Pick-up value

OpDlTms

ASG

Operate delay time

M/O/ C/E M
C1 M C1 C1
M M
E O E

Remarks Status-only

LN Type: SE_PTOV_EasergyP5FMV_V002/ SE_PTOV_EasergyP5U_LPT_V001 Description: Overvoltage LN Class: PTOV

Data object name
P5OVPTOV1 P5OVPTOV2 P5OVPTOV3
P5OVLPTOV1 P5OVLPTOV2 P5OVLPTOV3
Data Objects

Common data class

PTOV class
Explanation
The name shall be composed of the class name, the LN-Prefix and LN-Instance-ID according to IEC 61850-7-2, Clause 22.

Common Logical Node Information

Mod

ENC

Mode

Beh Health NamPlt

ENS ENS LPL

Behaviour Health Name plate

Status Information Str Op

ACD ACT

Start Operate

Settings

FunEna StrVal

SPG ASG

Function enable Pick-up value

OpDlTms

ASG

Operate delay time

M/O/ C/E M
C1 M C1 C1
M O
E O E

Remarks Status-only

LN Type: SE_PTOV_UO_EasergyP5FMV_V001/ SE_PTOV_UO_EasergyP5U_LPT_V001 Description: Overvoltage

386

P5/EN M/33B

Appendix 3: IEC 61850 Edition 2 conformance statement

LN Class: PTOV

Data object name
P5UOPTOV1 P5UOPTOV2 P5UOPTOV3
P5UOLPTOV1 P5UOLPTOV2 P5UOLPTOV3
Data Objects

Common data class

PTOV class
Explanation
The name shall be composed of the class name, the LN-Prefix and LN-Instance-ID according to IEC 61850-7-2, Clause 22.

Common Logical Node Information

Mod

ENC

Mode

Beh Health NamPlt

ENS ENS LPL

Behaviour Health Name plate

Status Information Str Op

ACD ACT

Start Operate

Settings

FunEna StrVal

SPG ASG

Function enable Pick-up value

OpDlTms

ASG

Operate delay time

RsDlTms

ASG

Reset time

M/O/ C/E M
C1 M C1 C1
M O
E O E E

Remarks Status-only

LN Type: SE_PTOV_NEG_EasergyP5FMV_V001/ SE_PTOV_NEG_EasergyP5U_LPT_V001 Description: Overvoltage LN Class: PTOV

Data object name
P5NEGPTOV1 P5NEGPTOV2 P5NEGLPTOV1 P5NEGLPTOV2 Data Objects

Common data class

PTOV class
Explanation
The name shall be composed of the class name, the LN-Prefix and LN-Instance-ID according to IEC 61850-7-2, Clause 22.

Common Logical Node Information

Mod

ENC

Mode

Beh Health NamPlt

ENS ENS LPL

Behaviour Health Name plate

Status Information Str Op

ACD ACT

Start Operate

Settings

FunEna OpMod

SPG ENG

Function enable Operate mode

StrVal

ASG

Pick-up value

M/O/ C/E M
C1 M C1 C1
M O
E E O

Remarks Status-only

P5/EN M/33B

387

Appendix 3: IEC 61850 Edition 2 conformance statement

Data object name
DlTyp OpDlTms RsDlTms

Common data class ENG
ASG
ASG

PTOV class Explanation
Delay type Operate delay time Reset time

M/O/ C/E E
E
E

Remarks

LN Type: SE_PTOV_CAP_EasergyP5F_V001 Description: Overvoltage LN Class: PTOV

Data object name P5CAPPTOV1

Common data class

PTOV class
Explanation
The name shall be composed of the class name, the LN-Prefix and LN-Instance-ID according to IEC 61850-7-2, Clause 22.

Data Objects

Common Logical Node Information

Mod

ENC

Mode

Beh Health NamPlt

ENS ENS LPL

Behaviour Health Name plate

Status Information Str Op

ACD ACT

Start Operate

Settings

FunEna

SPG

Function enable

StrVal

ASG

Pick-up value

CapOfPhs

ASG

L-N capacitance of one phase

RatUcLn

ASG

Rated L-N voltage UcLN

OpDlTms

ASG

Operate delay time

M/O/ C/E M
C1 M C1 C1
M O
E O E E E

Remarks Status-only

LN Type: SE_PTTR_THF_EasergyP5FU_V002 Description: Thermal overload LN Class: PTTR

Data object name P5THFPTTR1

Common data class

PTTR class
Explanation
The name shall be composed of the class name, the LN-Prefix and LN-Instance-ID according to IEC 61850-7-2, Clause 22.

Data Objects

Common Logical Node Information

Mod

ENC

Mode

Beh Health NamPlt

ENS ENS LPL

Behaviour Health Name plate

Status Information

M/O/ C/E M
C1 M C1 C1

Remarks Status-only

388

P5/EN M/33B

Appendix 3: IEC 61850 Edition 2 conformance statement

Data object name
Op AlmThm Settings TmpMax AlmVal FunEna BasicCur FactorK HeaConsTmm RsvVal TmpMod TmpNom TmpAlrm TmpAmbMin TmpAmbDft

Common data class ACT SPS
ASG ASG SPS ASG ASG ASG ASG ENG ASG ASG ASG ASG

PTTR class Explanation
Operate Thermal alarm
Max object temperature Thermal alarm value Function enable Basic current setting Factor k Heating time constant Reserve time thermal alarm Temperature based mode Nominal ambient temp Alarm temperature Min ambient temperature Default ambient temperature

M/O/ C/E
M
O

Remarks

O O E E E O E E E E E E

LN Type: SE_PTTR_THM_EasergyP5MU_V002 Description: Thermal overload LN Class: PTTR

Data object name P5THMPTTR1

Common data class

PTTR class
Explanation
The name shall be composed of the class name, the LN-Prefix and LN-Instance-ID according to IEC 61850-7-2, Clause 22.

Data Objects

Common Logical Node Information

Mod

ENC

Mode

Beh Health NamPlt

ENS ENS LPL

Behaviour Health Name plate

Status Information Op

ACT

Operate

AlmThm Settings

SPS

Thermal alarm

TmpMax

ASG

Max object temperature

AlmVal FunEna BasicCur

ASG SPS ASG

Thermal alarm value Function enable Basic current setting

FactorK HeaConsTmm

ASG ASG

Factor k Heating time constant

ConsTmm

ASG

Time constant for motor starting

CooConsTmm

ASG

Cooling time constant

UnblFctr

ASG

Unbalance factor

M/O/ C/E M
C1 M C1 C1
M O
O O E E E E E E E

Remarks Status-only

P5/EN M/33B

389

Appendix 3: IEC 61850 Edition 2 conformance statement

Data object name
RsvVal TmpMod TmpNom TmpAlrm TmpAmbMin TmpAmbDft

Common data class ASG ENG ASG ASG ASG ASG

PTTR class Explanation
Reserve time thermal alarm Temperature based mode Nominal ambient temp Alarm temperature Min ambient temperature Default ambient temperature

M/O/ C/E E E E E E E

Remarks

LN Type: SE_PTUC_UC_EasergyP5MU_V002 Description: Undercurrent LN Class: PTUC

Data object name P5UCPTUC1

Common data class

PTUC class
Explanation
The name shall be composed of the class name, the LN-Prefix and LN-Instance-ID according to IEC 61850-7-2, Clause 22.

Data Objects

Common Logical Node Information

Mod

ENC

Mode

Beh Health NamPlt

ENS ENS LPL

Behaviour Health Name plate

Status Information Str Op

ACD ACT

Start Operate

Settings

FunEna StrVal

SPG ASG

Function enable Pick-up value

OpDlTms

ASG

Operate delay time

M/O/ C/E M
C1 M C1 C1
M M
E O E

Remarks Status-only

LN Type: SE_PTUF_UF_EasergyP5FMV_V002/SE_PTUF_UF_EasergyP5U_ LPT_V002 Description: Underfrequency LN Class: PTUF

Data object name
P5UFPTUF1 P5UFPTUF2 P5UFLPTUF1 P5UFLPTUF2 Data Objects

Common data class

PTUF class
Explanation
The name shall be composed of the class name, the LN-Prefix and LN-Instance-ID according to IEC 61850-7-2, Clause 22.

Common Logical Node Information

Mod

ENC

Mode

Beh Health

ENS ENS

Behaviour Health

M/O/ C/E M
C1 M C1

Remarks Status-only

390

P5/EN M/33B

Appendix 3: IEC 61850 Edition 2 conformance statement

Data object name
NamPlt Status Information Str Op Settings FunEna StrVal OpDlTms

Common data class LPL
ACD ACT
SPG ASG ASG

PTUF class Explanation Name plate
Start Operate
Function enable Pick-up value Operate delay time

M/O/ C/E
C1

Remarks

M M

E O E

LN Type: SE_PTUV_UV_EasergyP5FMV_V002/ SE_PTUV_UV_EasergyP5U_LPT_V002 Description: Undervoltage LN Class: PTUV

Data object name
P5UVPTUV1 P5UVPTUV2 P5UVPTUV3
P5UVLPTUV1 P5UVLPTUV2 P5UVLPTUV3
Data Objects

Common data class

PTUV class
Explanation
The name shall be composed of the class name, the LN-Prefix and LN-Instance-ID according to IEC 61850-7-2, Clause 22.

Common Logical Node Information

Mod

ENC

Mode

Beh Health NamPlt

ENS ENS LPL

Behaviour Health Name plate

Status Information Str Op

ACD ACT

Start Operate

Settings

FunEna StrVal

SPG ASG

Function enable Pick-up value

OpDlTms

ASG

Operate delay time

M/O/ C/E M
C1 M C1 C1
M M
E O E

Remarks Status-only

LN Type: SE_PTUV_UVPS_EasergyP5MV_V002 Description: Undervoltage LN Class: PTUV

Data object name
P5UVPSPTUV1 P5UVPSPTUV2

Common data class

PTUV class
Explanation
The name shall be composed of the class name, the LN-Prefix and LN-Instance-ID according to IEC 61850-7-2, Clause 22.

Data Objects

Common Logical Node Information

Mod

ENC

Mode

M/O/ C/E M
C1

Remarks Status-only

P5/EN M/33B

391

Appendix 3: IEC 61850 Edition 2 conformance statement

Data object name
Beh Health NamPlt Status Information Str Op Settings FunEna StrVal OpDlTms

Common data class ENS ENS LPL
ACD ACT
SPG ASG ASG

PTUV class Explanation
Behaviour Health Name plate
Start Operate
Function enable Pick-up value Operate delay time

M/O/ C/E M
C1
C1

Remarks

M M

E O E

LN Type: SE_PZSU_EasergyP5MU_V001 Description: Motor underspeed LN Class: PZSU

Data object name P5MOTPZSU1

Common data class

PZSU class
Explanation
The name shall be composed of the class name, the LN-Prefix and LN-Instance-ID according to IEC 61850-7-2, Clause 22.

Data Objects

Common Logical Node Information

Mod

ENC

Mode

Beh Health NamPlt

ENS ENS LPL

Behaviour Health Name plate

Status Information Str Op

ACD ACT

Start Operate

Settings

FunEna StrVal

SPG ASG

Function enable Pick-up value

OpDlTms

ASG

Operate delay time

M/O/ C/E M
C1 M C1 C1
M M
E O E

Remarks Status-only

LN Type: SE_PHAR_ID_EasergyP5FMU_V001 Description: Harmonic restraint LN Class: PHAR

Data object name P5IDPHAR1

Common data class

PHAR class
Explanation
The name shall be composed of the class name, the LN-Prefix and LN-Instance-ID according to IEC 61850-7-2, Clause 22.

Data Objects

Common Logical Node Information

Mod

ENC

Mode

M/O/ C/E M
C1

Remarks Status-only

392

P5/EN M/33B

Appendix 3: IEC 61850 Edition 2 conformance statement

Data object name
Beh Health NamPlt Status Information Str

Common data class ENS ENS LPL
ACD

Settings FunEna StrVal CurBlkVal

SPG ASG ASG

PHAR class Explanation
Behaviour Health Name plate
Start (active when restraint is needed)
Function enable Pickup for 2nd harmonic Max inrush current

M/O/ C/E M
C1
C1

Remarks

M

E E E

Enum types extensions

New Enum types

Enum type ARCOpMode is one of new added types defined as below.

Value 0 1

Description Light Light and current

Remarks

Enum type DefDirMode is one of new added types defined as below.

Value 0 1 2

Description ResCap Sector Undir

Remarks

Enum type DocDirMode is one of new added types defined as below.

Value 0 1 2

Description Dir_Backup Undir Dir

Remarks

Enum type DlCrvFamily is one of new added types defined as below.

Value 0 1 2 3 4 5 6 7

Description DT IEC IEEE IEEE2 Others Prg1 Prg2 Prg3

Remarks

Enum type RsTyp is one of new added types defined as below.

P5/EN M/33B

393

Appendix 3: IEC 61850 Edition 2 conformance statement

Value 0 1

Description DT IDMT

Remarks

Enum type DlType is one of new added types defined as below.

Value 0 1 2 3 4 5 6 7 8 9 10 11 12 13

Description DT NI VI EI LTI LTEI LTVI MI STI STEI CO8 RI RXIDG --

Remarks

Enum type NetGrd is one of new added types defined as below.

Value 0 1

Description Res Cap

Remarks

Enum type NegOPMod is one of new added type defined as below.

Value 0 1

Description No_Action Blocking

Remarks

Enum type NegDITyp is one of new added type defined as below.

Value 0 1

Description DT INV

Remarks

Enum type StrMod is one of new added type defined as below.

Value 0 1 2

Description Negative Positive Either

Remarks

Enum type MemoryMode is one of new added types defined as below.

Value 0 1

Description None Voltage

Remarks

394

P5/EN M/33B

Appendix 3: IEC 61850 Edition 2 conformance statement

2

Time

3

Both

Enum type EfDirModeKind is one of new added type defined as below.

Value 0 1

Description Forward Reverse

Remarks

Enum type SlotDISelect is one of new added type defined as below.

Value 0 1 2

Description Slot_C_DI1 Slot_D_DI1 Slot_E_DI1

Remarks

Enum type VTTypeKind is one of new added type defined as below.

Value 0 1

Description VT LPVT

Remarks

Enum type TempModKind is one of new added type defined as below.

Value 0 1

Description Current Ambient

Remarks

Enum type PadmDirMod is one of new added type defined as below.

Value 0 1 2

Description Undir Forward Reverse

Remarks

Enum type SignalNum is one of new added type defined as below.

Value 0 1

Description 1 2

Remarks

Extended Enum types

Enum type SIUnitKind is extended by the following enumerations.

Value -6 -7 -8 -9 -10 -11

Quantity Numerical tagging method Percent Relative temperature Electric resistance Rotational speed Pulse per rotation

Unit name per unit percent degree Fahrenheit ohm (V/A) Revolutions per minute Pulse per rotation

Symbol pu % °F V/A rmp /R

P5/EN M/33B

395

Appendix 3: IEC 61850 Edition 2 conformance statement

Enum type AutoReclosingKind is extended by the following enumerations.

Value -1 -2 -3 -4 -5 -6 -7 -8 -9 -10 -11 -12 -13

Symbol Reclaim Ready_Ext WaitOpen WaitClose Discrim Locked FinalTr CBFail Inhibit Blocked ExtOpen ExClose WaitSync

396

P5/EN M/33B

Appendix 3: IEC 61850 Edition 2 conformance statement
PIXIT details

Introduction

This PIXIT is based upon UCAIug PIXIT Template version 15, UCA International Users Group Testing Sub Committee, October 22, 2019.
This document specifies the protocol implementation extra information for testing (PIXIT) of the IEC 61850 interface in P5U20, P5V20, P5F30, P5M30, with firmware version V01.
Together with the PICS and the MICS the PIXIT document forms the basis for a conformance test according to IEC 61850-10. The PIXIT entries contain information which is not available in the PICS, MICS, TICS documents or SCL file.
Each chapter specifies the PIXIT for applicable ACSI service model as structured in IEC 61850-10. The "Ed" column indicates if the entry is applicable for IEC 61850 Edition 1 and/or Edition 2.

PIXIT for documentation

ID

Ed

Do1

2

Description
How to expose required firmware versions not present in the data model

Value / Clarification
Information included in the ICD file and in the data model (LLN0.NamePlt. swRev)

PIXIT for association model

The extra information for testing is given in the table below. Table 73 - Protocol implementation extra information for testing

ID

Ed

As1

1

As2

1,2

As3

1,2

As4

-

As5

1,2

As6

1,2

Description Maximum number of clients that can set-up an association simultaneously TCP_KEEPALIVE value. The recommended range is 0...20s Lost connection detection time
Authentication is not supported yet What association parameters are necessary for successful association
If association parameters are necessary for association, describe the correct values. Association parameters are configurable, default values are

Value / Clarification 8
Configurable: from 0 to 20s
TCP_KEEPALIVE + 2s *10 Maximum 140s (2s is retransmission interval of TCP Keep-alive message, 10 retransmissions) (0 means 120s)
Transport selector Calling: N Called: Y Session selector Calling: N Called: Y Presentation selector Calling: N Called: Y AP title Calling: N Called: N AE qualifier Calling: N Called: N Transport selector 1 Session selector 1 Presentation selector 1 AP title 1,1,1,999,1

P5/EN M/33B

397

Appendix 3: IEC 61850 Edition 2 conformance statement

Table 73 - Protocol implementation extra information for testing (Continued)

ID

Ed

Description

Value / Clarification

As7

1,2

As8

1,2

As9

1,2

AE qualifier 12

What is the maximum and minimum MMS PDU size

Max: 65535 bytes Min: In initiate request 1024 bytes

What is the maximum start up time after a power supply interrupt

P5 relay start-up time including the server function is at average 180s; it depends on the configuration size (number and types of logical nodes)

Does this device function only as N test equipment?

(test equipment need not have a non-volatile configuration; but it cannot be part of the substation automation system)

PIXIT for server model

ID

Ed

Sr1

1,2

Sr2

1,2

Sr3

-

Sr4

-

Sr5

1

Description

Value / Clarification

Which analogue value (MX) quality bits are supported (can be set by server)

Validity: Y Good, N Invalid, N Reserved, N Questionable N Overflow N OutofRange N BadReference N Oscillatory N Failure N OldData N Inconsistent N Inaccurate

Source: Y Process N Substituted Y Test N OperatorBlocked

Which status value (ST) quality bits are supported (can be set by server)

Validity: Y Good, Y Invalid, N Reserved, Y Questionable N BadReference N Oscillatory N Failure Y OldData N Inconsistent N Inaccurate

Source: Y Process N Substituted Y Test N OperatorBlocked

What is the maximum number of data object references in one GetDataValues request

Deprecated

What is the maximum number of data object references in one SetDataValues request

Deprecated

Which Mode values are supported

On Y [On-]Blocked N Test Y Test/Blocked Y Off N

398

P5/EN M/33B

Appendix 3: IEC 61850 Edition 2 conformance statement

PIXIT for data set model

ID

Ed

Ds1

1

Ds2

1

Ds3

1

Description

Details

What is the maximum number of data

500

elements in one data set (compare ICD

setting)

How many persistent data sets can be created 50 by one or more clients (this number includes predefined data sets)

How many non-persistent data sets can be

50

created by one or more clients

NOTE: Arrays are not supported in dataset.

PIXIT for setting group control model

ID

Ed

Sg1

1

Sg2

1,2

Sg3

1

Sg4

1

Sg5

1

Sg6

2

Description What is the number of supported setting groups for each logical device What is the effect of when and how the non-volatile storage is updated (compare IEC 61850-8-1 $16.2.4)
Can multiple clients edit the same setting group What happens if the association is lost while editing a setting group
Is EditSG value 0 allowed
When ResvTms is not present how long is an edit setting group locked

Value / Clarification
4
When: CnfEdit set to TRUE successfully.
How: the setting value in edit buffer will be copied to the selected setting group, and then the new value will be updated to non-volatile storage by setting engine.
N
The SE values changes are lost, the EditSG value will not change.
Y
Write a value of 0 to EditSG will cancel all the setting values in the Edit buffer.
Reserved forever except Cancel, Confirm or Disconnection.

PIXIT for reporting model

ID

Ed

Rp1

1

Description
The supported trigger conditions (compare PICS)

Rp2

1

The supported optional fields are

Details

integrity

Y

data change

Y

quality change

Y

data update

Y

general interrogation

Y

sequence-number

Y

report-time-stamp

Y

reason-for-inclusion

Y

data-set-name

Y

data-reference

Y

buffer-overflow (not

Y

applicable to URCB)

P5/EN M/33B

399

ID

Ed

Rp3

1,2

Rp4

1,2

Rp5

1

Rp6

-

Rp7

1,2

Rp8

-

Rp9

1

Rp10 1,2 Rp11 1 Rp12 2 Rp13 1,2

Rp14 2

Appendix 3: IEC 61850 Edition 2 conformance statement

Description

Details

entryID (not applicable to Y URCB)

conf-rev

Y

segmentation

Y

Can the server send segmented

Y

reports?

(when not supported the device shall

refuse an association request with a

smaller than minimum PDU size)

Mechanism on second internal data change notification of the same analogue data value within buffer period (compare IEC 61850-7-2 $14.2.2.9)

Send report immediately

Multi client URCB approach (compare IEC 61850-7-2 $14.2.1)

Each URCB is visible to all clients

What is the format of EntryID

Deprecated

What is the buffer size for each BRCB or 100k bytes per report control

how many reports can be buffered

block

Pre-configured RCB attributes that are dynamic, compare SCL report settings

Deprecated

May the reported data set contain:

- structured data objects?

Y

- data attributes?

Y

What is the scan cycle for binary

5 milliseconds

events?

Is this fixed, configurable or event-driven Fixed

Does the device support to pre-assign a N RCB to a specific client in the SCL

After restart of the server is the value of ConfRev restored from the original configuration or retained prior to restart

from the original configuration

Does the server accept any client to

N

configure / enable a BRCB with

ResvTms=-1? What fields are used to

do the identification?

When BRCB.ResvTms is exposed, what 1s

is default value for BRCB.ResvTms if

client does not write (must be > 0) or

1s

When BRCB.ResvTms is not exposed,

what is the internal reservation time

(must be >= 0)

400

P5/EN M/33B

Appendix 3: IEC 61850 Edition 2 conformance statement

PIXIT for GOOSE publish model

ID

Ed

Gp1

1,2

Gp2

1

Gp3

1,2

Gp4

1,2

Gp5

1,2

Gp6

-

Gp7

1,2

Gp8

1

Gp9

1,2

Description

Value / Clarification

Can the test (Ed1) / simulation (Ed2) flag in the published GOOSE be set
What is the behaviour when the GOOSE publish configuration is incorrect

N
NdsCom=T DUT keeps GoEna=F

Published FCD supported common data classes / data types are

Common data classes: SPS, DPC, CMV, MV
Data types as single attributes: BOOLEAN, CODED ENUM, FLOAT32, QUALITY

Arrays are not supported.

What is the maximum value of TAL (maxTime)
Is it fixed or configurable

Maximum TAL = 120000 ms (double of maximum configurable slowest retransmission cycle 60000 ms)
Configurable by configuration tool

What is the fastest retransmission time
Is it fixed or configurable

4 ms
Retransmission scheme: First message upon data change, followed by 4, 10, 20, 40, 80, 160, 320, 640, 1280, 2500, 5000, 10000, 20000, 40000, 60000 and finally reaching the configured slow retransmission time).

TAL is set to value 2 times bigger than interval.

Can the GOOSE publish be turned on / off by using SetGoCBValues(GoEna)

Fixed Deprecated

What is initial GOOSE sqNum 1 after restart of the device

May the GOOSE data set

contain:

Y

- structured data objects

(FCD)

Y

- timestamp data attributes

Does Server or ICT check

Y

GOOSE payload data set

length

P5/EN M/33B

401

PIXIT for GOOSE subscribe model

ID

Ed

Gs1

1,2

Gs2

1,2

Gs3

1,2

Gs4

1,2

Gs5

1,2

Gs6

1

Gs7

1

Gs8

1,2

Gs9

1,2

402

Appendix 3: IEC 61850 Edition 2 conformance statement

Description

Value / Clarification

What elements of a subscribed GOOSE message are checked to decide the message is valid and the allData values are accepted? If yes, describe the conditions.
Notes:
· the VLAN tag may be removed by a ethernet switch and shall not be checked
· the simulation flag shall always be checked (Ed2)

Y destination MAC address (equal to configured)
Y APPID (equal to configured)
N gocbRef
N timeAllowedtoLive (see Remarks)
N datSet
Y goID (equal to configured, checking can be set off)
Nt
Y stNum (see Remarks)
N sqNum (see Remarks)
Y simulation/test (if true, values not passed to application, the application data will keep last received value when simulation/test was false, but status of the network input stays valid)

Y confRev (equal to configured)

Y ndsCom (if true, values not passed to application, the application data will keep last received value , and network inputs status is set to invalid as if message was never received)

Y numDatSetEntries (see Remarks)

When is a subscribed GOOSE marked as lost
(TAL = time allowed to live value from the last received GOOSE message)

N out-of-order dataset members
Message does not arrive by TAL+1s
Internally in the relay there is a status indication to the application about GOOSE problem (data is marked as OLD if the message does not arrive prior to TAL+1s if TAL>1s or prior to 1s if TAL<1s).

What is the behaviour when one or more subscribed GOOSE messages isn't received or syntactically incorrect (missing GOOSE)

The subsequently received GOOSE message is accepted even if the new state number is not equal to the incremented value of the previously received state number (it is enough that it is not equal to the last received state number).

What is the behaviour when a subscribed GOOSE message is outof-order

Message is treated as normal (it is assumed that previous messages have been lost).

What is the behaviour when a subscribed GOOSE message is duplicated

Duplicated message is ignored

Does the device subscribe to GOOSE messages with/without the VLAN tag

Y with the VLAN tag Y without the VLAN tag

May the GOOSE data

Y

set contain:

Y

- structured data objects

- data attributes

Subscribed FCD supported common data classes / data types are

Data classes: SPS, SPC, DPS, DPC, INS, INC, ENS, ENC, CMV, MV
Data types as single attributes: BOOLEAN, INT8, INT16, INT32, INT8U, INT16U, INT32U, ENUM, CODED ENUM, BITSTRING, FLOAT32

Arrays are not supported

Are subscribed GOOSE N - Simulation mode is not supported by the

with test=T (Ed1) /

device

P5/EN M/33B

Appendix 3: IEC 61850 Edition 2 conformance statement

ID

Ed

Gs10 1,2 Gs11 1

Description
simulation=T (Ed2) accepted in test/ simulation mode
Max number of dataset members
Is Fixed-length encoded GOOSE supported

Value / Clarification
Unlimited Y

TAL = Time Allowed to Live
Remarks:
A GOOSE message will be accepted and processed by the subscriber in DUT:
· Even if it is received after expiration of the time allowed to live sent in the previous message,
· Even if the new state number is not equal to the incremented value of the previously received state number - it is enough that it is not equal to the last received state number,
· If the state number differs from the previously received state number, the sequence number is accepted with any value (if the state number is equal to the previously received state number, the message is treated as retransmission),
· Even if the received message contains a dataset of the size different than the size of the previously received dataset.
A GOOSE message will NOT be accepted by the subscriber in DUT if:
· Destination MAC address is not equal to configured one
· Protocol ID is not equal to 0x88B8
· APPID is not equal to configured one for any of the network inputs
· ConfRev is not equal to configured one for any of the network inputs
· goID is not equal to configured one for any of the network inputs
· state number is the same as in the previous message (is treated as retransmission)
· ndsCom bit is set to true in received message
Note for sGosN6h (out of order dataset):
Value from GOOSE message will be accepted even if the type is different than in previous message given that:
· Type is compatible with network input type i.e. for binary network inputs accepted types are: BOOLEAN, INTEGER and BITSTRIG, ENUM, CODED ENUM for analog network inputs accepted types are FLOAT32 and INTEGER
· In case of binary network input and types other than BOOLEAN as a value for processing bit selected in configuration will be taken from the received data in the message (by default it is bit 0)
· Value will not be accepted if data from the message is not containing configured bit (for example if bit 5 is configured and received data contains only 2 bits like stVal from DPC type)
Every network input can be associated via internal logic with one of 16 validity indications. If given network input is not received due to one of the reasons mentioned above this indication is activated. Validity flag for the network input will be activated also if next message with the value will not be received within the time indicated in time to live field contained in the previous message.
The value of numDatSetEntries from the header determines how many data entries from the message are processed. With numDatSetEntries = 0 no data entries are processed from the received message. If numDatSetEntries is lower than expected (source information for some network inputs is not processed or missing) those missing network inputs will be marked as invalid.

P5/EN M/33B

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Appendix 3: IEC 61850 Edition 2 conformance statement

During device startup there can be more than one state transition of the GOOSE publisher dataset, since different parts of the relay application will start after GOOSE publisher.
When checking GoID, the APPID must not be the same as the APPID of other GOOSE.

PIXIT for GOOSE performance

ID

Ed

Gf1

1,2

Gf2

1,2

Gf3

1,2

Gf4

1

Description
Performance class
GOOSE ping-pong processing method Application logic scan cycle (ms)
Maximum number of data attributes in GOOSE dataset (value and quality has to be counted as separate attributes)

Value / Clarification P2 Scan cycle based

Max. Min. 500

3 ms for SPS, 10 ms for DPS 0 ms for SPS, 0 ms for DPS

PIXIT for control model

ID

Ed

Ct1

1

Ct2

1,2

Ct3

-

Ct4

-

Ct5

1

Ct6

-

Ct7

-

Ct8

1

404

Description

Value / Clarification

What control models are supported
(compare PICS)

DOns: Y SBOns: Y DOes: Y

Is the control model fixed, configurable and/ or dynamic?

SBOes: Y
Configurable for CSWI class: All controllable objects Obj1 ... Obj6 under CSWI class are configured to use one and the same chosen control model. Objects Obj7 ... Obj8 under CSWI class have fixed control model status-only.

Fixed for GGIO: All controllable objects under GGIO class the control model is fixed: direct-with-normalsecurity.

Is TimeActivatedOperate Deprecated supported (compare PICS or SCL)

Is "operate-many" supported (compare sboClass)

Deprecated

Will the DUT activate the N control output when the test attribute is set in the SelectWithValue and/or Operate request (when N test procedure Ctl2 is applicable)

What are the conditions for the time (T) attribute in the SelectWithValue and/or Operate request

Deprecated

Is pulse configuration supported (compare pulseConfig)

Deprecated

What is the behaviour of the DUT when the check conditions are set

N synchrocheck
N interlock-check
DUT ignores the check value and the command is executed as usual

P5/EN M/33B

Appendix 3: IEC 61850 Edition 2 conformance statement

ID

Ed

Ct9

1,2

Ct10

1,2

Ct11

1,2

Ct12

1,2

Ct13

1,2

Description

Value / Clarification

Is this behaviour fixed, configurable, online changeable?

Fixed

Which additional cause diagnosis are supported

N Unknown Y Not-supported

Y Blocked-by-switching-hierarchy

N Select-failed

Y Invalid-position

Y Position-reached

N Step-limit

Y Blocked-by-Mode

N Blocked-by-process

N Blocked-by-interlocking

N Blocked-by-synchrocheck

Y Command-already-in-execution

N Blocked-by-health

N 1-of-n-control

N Abortion-by-cancel

Y Time-limit-over

N Abortion-by-trip

Y Object-not-selected

Y Object-already-selected

N No-access-authority

N Ended-with-overshoot

N Abortion-due-to-deviation

N Abortion-by-communication-loss

N Blocked-by-command

N None

Y Inconsistent-parameters

Y Locked-by-other-client

N Parameter-change-in-execution

How to force a "test-notok" respond with SelectWithValue request?

Put device into local mode

How to force a "test-notok" respond with Select request?

Put device into local mode

How to force a "test-notok" respond with Operate request?

DOns: Operate with orCat out of range SBOns: Operate without Select DOes: Operate with orCat out of range

SBOes: Operate without Select

Which origin categories Y bay-control
are supported/accepted? Y station-control

Y remote-control

Y automatic-bay

P5/EN M/33B

405

ID

Ed

Ct14

1,2

Ct15

1,2

Ct16

1

Ct17

1

Ct18

1

Ct19

-

Ct20

1,2

Ct21

1,2

Ct22

2

Ct23

1,2

Ct24

1,2

Appendix 3: IEC 61850 Edition 2 conformance statement

Description

Value / Clarification

Y automatic-station

Y automatic-remote

Y maintenance

Y process

What happens if the orCat is not supported or invalid

DOns: Negative response
SBOns: Negative response
DOes: Negative response (with additional cause diagnosis code value Not-supported)

SBOes: Negative response (with additional cause diagnosis code value Not-supported)

Does the IED accept a SelectWithValue/ Operate with the same control value as the current status value?
Is this behaviour configurable?

DOns: N SBOns: N DOes: N Addcause: Position-reached SBOes: N Addcause: Position-reached Configurable: N

Does the IED accept a select/operate on the same control object from 2 different clients at the same time?
Does the IED accept a Select/SelectWithValue from the same client when the control object is already selected (tissue 334)

DOns: Y (see Remarks) SBOns: N DOes: N SBOes: N SBOns: N SBOes: N

Is for SBOes the internal validation performed during the SelectWithValue and/or Operate step?

Y During SelectWithValue and during Operate

Can a control operation be blocked by Mod=Off or [On-]Blocked (compare PIXIT Sr5)

Deprecated

Does the IED support

Y

local / remote operation?

Does the IED send an InformationReport with LastApplError as part of the Operate responsefor control with normal security?

SBOns: N DOns: N

How to force a "parameter-change-inexecution"

SBOns: N/A SBOes: N/A

How many SBOns/ SBOes control objects can be selected at the same time?

SBOns: 1 SBOes: 1

Can a controllable object Y be forced to keep its old state e.g. Internal Controllable Objects may not be accessible to force this, whereas a switch like Circuit Breaker outside the DUT can?

406

P5/EN M/33B

Appendix 3: IEC 61850 Edition 2 conformance statement

ID

Ed

Ct25

1,2

Ct26

1,2

Ct27

2

Ct_ex1

Description

Value / Clarification

When CDC=DPC is

Y

supported, is it possible

to have DPC

(Controllable Double

Point) go to the

intermediate state? (00)

Name a DOes point (if any) with a finite operate timeout and specify the timeout (in milliseconds)
Does the IED support control objects with external signals?

Relay/Obj1CSWI1.Pos
Operate timeout can be configured by setting Configuration Tool, the range is 0.02 ... 600 s. For example: DOes: 10000 ms SBOes: 10000 ms
DOns: Y
SBOns: Y
DOes: Y

SBO Timeout

SBOes: Y 60 seconds

NOTE: In DOns model: When two clients send Operate request within a very short interval (under 100 ms) then for processing the second command the object position is still unchanged due to the first command, thus both clients receive positive Operate response.

PIXIT for time synchronisation

ID

Ed

Tm1

1

Tm2

1,2

Tm3

1,2

Tm4

1,2

Tm5

1

Tm6

-

Description

Value / Clarification

What time quality bits are Y LeapSecondsKnown

supported (may be set

by the IED)

Y ClockFailure

Ed.2 requires all 3 bits

Y ClockNotSynchronized

Describe the behaviour when the time server(s) ceases to respond
What is the time server lost detection time
How long does it take to take over the new time from time server

Time is taken from internal RTC The latency depends on measured drift of the internal clock. Usually it can take 400 seconds
Depends on time difference between internal and time server. Max. 400 s is the waiting time to see Timestamp Quality transition to ClockNotSynchronised.

When is the time quality bit "Clock failure" set?

The time quality bit "Clock failure" is set to "one" when the P5 IED restarts from power up, or when the connection to time server is lost; the bit is reset to "zero" when the clock becomes synchronised.

All available time synchronisation sources will affect the "Clock failure" bit. These time sources include SNTP and where applicable, IRIG-B.

When is the time quality bit "Clock not synchronised" set?
Note: For Ed2 and up, CNS is set according to PIXIT Tm2

The time quality bit "Clock not synchronised" is set to "one" when the P5 IED starts from power up, or when the connection to time server is lost; the bit is reset to "zero" when the clock becomes synchronised.
All available time synchronisation sources will affect the "Clock not synchronised" bit. These time sources include SNTP and where applicable, IRIG-B.

Is the timestamp of a binary event adjusted to the configured scan cycle?

Deprecated

P5/EN M/33B

407

ID

Ed

Tm7

1

Tm8

1,2

Tm9

1,2

Appendix 3: IEC 61850 Edition 2 conformance statement

Description

Value / Clarification

Does the device support Y time zone and daylight saving?

Which attributes of the SNTP response packet are validated?

N Leap indicator not equal to 3
N Mode is equal to SERVER
Y OriginateTimestamp is equal to value sent by the SNTP client as Transmit Timestamp

Y RX/TX timestamp fields are checked for reasonableness

Y SNTP version 3 or 4

Do the COMTRADE files have local time or UTC time

N other Local N

Is this configurable

PIXIT for file transfer model

ID

Ed

Ft1

1

Ft2

1,2

Ft3

1

Ft4

1,2

Ft5

1,2

Ft6

1

Ft7

1

Ft8

1,2

Ft9

1,2

Description

Value / Clarification

What is structure of files and directories
Where are the COMTRADE files stored
Are comtrade files zipped and what files are included in each zip file

Directory structure - COMTRADE - DR - TREND
COMTRADE files stored in folder / COMTRADE /DR Zipped; Each COMTRADE record includes 2 files: .cfg and .dat

Directory names are separated Separated by `/' from the file name by

The maximum file name size including path (recommended 64 chars)
Are directory/file name case sensitive Maximum file size for SetFile

255
Below are all the maximum sizes: - Full file name (including the directory path, suffix and separation characters): 255 - File name: 64 - File directory name: 32 - File name suffix: 3
Case sensitive
SetFile is not supported.

Is the requested file path

Y

included in the MMS

fileDirectory respond file name

Is the wild char supported MMS Y fileDirectory request

Is it allowed that 2 clients get a file at the same time
Which files can be deleted

N None

408

P5/EN M/33B

Appendix 3: IEC 61850 Edition 2 conformance statement
TICS details

Introduction

The TICS is based upon UCAIug TICS Template version 2.1, UCA International Users Group Testing Sub Committee, April 23, 2019.
This document is applicable for P5U20, P5V20, P5F30 and P5M30, with firmware version V01.

Mandatory Edition 2 Tissues

The below tables give an overview of the applicable mandatory Tissues. The original TISSUE should be consulted for details of changes. Implemented by server: Y: means that the server has implemented the respective tissue ni: no impact on testing na: not applicable if the server does not support the corresponding ACSI service(s) Supported by client: Y: means that the client supports servers that have implemented the respective tissue ni: no impact on testing na: not applicable if the client does not support the corresponding ACSI service(s)
Table 74 - Tissues implementation conformance statement

Part 6 Tissue 658 663
668 687 719 721 768 779 788 789 804 806
807 823 824 825 845 853 855

Description Tracking related features

Implemented Y/na
na

FCDA element cannot be a "functionally constrained logical

Y

node"

Autotransformer modeling

na

SGCB ResvTms

na

ConfDataSet - maxAttributes definition is confusing

Y

Log element name

na

bType VisString65 is missing

na

Object references

na

SICS S56 from optional to mandatory

na

ConfLdName as services applies to both server and client

na

valKind and IED versus System configuration

na

Max length of log name inconsistent between IEC 61850-6 and na IEC 61850-7-2

Need a way to indicate if "Owner" present in RCB

Y

ValKind for structured data attributes

na

Short addresses on structured data attributes

na

Floating point value

na

SGCB ResvTms

na

SBO and ProtNs

Y

Recursive SubFunction

na

P5/EN M/33B

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Appendix 3: IEC 61850 Edition 2 conformance statement

Table 74 - Tissues implementation conformance statement (Continued)

Part 6 Tissue 856 857 886 901 936 1147 1185
1284
1328 1395 1402 1415 1419 1444 1445 1450 1485

Description
VoltageLevel frequency and phases Function/SubFunction for ConductingEquipment Missing IEC 61850-8-1 P-types tServices as AP or as IED element SupSubscription parameter usage is difficult tServices - FileHandling not consistent with IEC 61850-7-2 Valkind value Conf for EX FC data valKind=Conf is allowed for dataNs SCSM mapping may require a communication section in an ICD file Limitation on the size of data type templates identifiers Client LN attributes ExtRef during engineering SICS-S110 IID import mandatory for Edition2 Support of ldName on other IEDs SICS I212 is now mandatory Need to support fixed and SCT controlled datasets ConfReportControl and a fixed ReportSettings OriginalSclXxx computation rules Need to supercede Tissue 1398 to clarify SCT behaviour

Implemented Y/na na na na Y na Y na
Y
Y na na na Y na na Y na

Part 7-1 Tissue 828 948 1151
1396 1447 1457 1468 1491 1495
Part 7-2 Tissue 728 778 780 783 786 820 858 861 1050 1071

Description
Data model namespace revision IEC 61850-7-4:2007[A] Enumeration (string) values format Simulated GOOSE disappears after 1st appearance when LPHD.Sim = TRUE The use and configuration flow of LGOS and LSVS is unclear Restriction on ENUMtypes in SCL Multiple DOI nodes with the same name Re-use DO from other LN CmdBlk blocks itself GetVariableAccessAttributes error code

Implemented Y/na Y na na
na na na Y na Y

Description
BRCB: could PurgeBuf be set when RptEna = TRUE AddCause values ­ add value not-supported What are unsupported trigger options at a control block TimOper Resp- ; add authorisation check AddCause values 26 and 27 are switched Mandatory ACSI services (use for PICS template) Typo in enumeration ServiceType Dchg of ConfRev attribute GTS Phycomaddr definition in SCL Length of DO name

Implemented Y/na Y na Y na Y Y na na Y Y

410

P5/EN M/33B

Appendix 3: IEC 61850 Edition 2 conformance statement

Part 7-2 Tissue 1127 1202 1232 1242 1307 1428 1630
Part 7-3 Tissue 697 698 711
722 919 925 926 954 1078 1565 1578
Part 7-4 Tissue 671 674 676 677
679 680 681 682 683 685 686 694 696 712 713 714 715 716 724 725

Description
Missing owner attribute in BTS and UTS GI not optional EntryID needs clarification NTS definition Segmented report with Buffer overflow MTS and NTS should use svOptFlds Attributes in CDC=LTS do not match 8-1 definition
Description
Persistent command / PulseConfig Wrong case is BAC.dB attribute blkEna freeze data update while setting its quality to operaterBlocked Units for 'h' and 'min' not in UnitKind enumeration. Presence Condition for sVC Presence of i or f attribute - Problem with writing Presence Conditions within RangeConfig Data attributes with FC=CF should have trgOp=dchg CMV.t update if rangeAng changed db = 0 behaviour DataAttribute NameSpace content
Description
Mistake in definition of Mod & Beh CDC of ZRRC.LocSta is wrong Same data object name used with different CDC MotStr is used with different CDC in PMMS and SOPM LN classes Remove CycTrMod Enum SI unit for MHYD.Cndct Enum PIDAlg ANCR.ParColMod Enum QVVR.IntrDetMth Enum ParTraMod New annex H - enums types in XML Data object CmdBlk LSVS.St (Status of subscription) Interpretation of quality operatorBlocked DO Naming of time constants in FFIL Enums for ShOpCap and SwOpCap RBDR.ChNum1 TAXD text for condition ANCR.Auto Loc in LN A-group

Implemented Y/na Y Y Y N Y N Y
Implemented Y/na na na na
Y na na na na na Y N
Implemented Y/na na na na na
na na na na na na na na na na na na na na na na

P5/EN M/33B

411

Appendix 3: IEC 61850 Edition 2 conformance statement

Part 7-4 Tissue 734 736 742 743 744 772 773 774 776 800 802 808 831 838 844 877 908 909 912 920 932 933 939 991
1007 1044 1077 1256 1331
1426 1456 1568

Description LLN0.OpTmh vs. LPHD.OpTmh

Implemented Y/na
na

PFSign

na

GAPC.Str, GAPC.Op and GAPC.StrVal

Y

CCGR.PmpCtl and CCGR.FanCtl

na

LN STMP, EEHealth and EEName

na

LPHD.PwrUp/PwrDn should be transient

na

Loc, LocKey and LocSta YPSH and YLTC

na

ITCI.LocKey

na

LPHD.OutOv/InOv and LCCH.OutOv/InOv

na

Misspelling in CSYN

na

CCGR and Harmonized control authority

na

Presence condition of ZMOT.DExt and new Dos

na

Setting of ConfRevNum in LGOS

na

Presence condition of ZMOT.DExt and new Dos

na

MFLK.PhPiMax, MFLK.PhPiLoFil, MFLK.PhPiRoot DEL->WYE na

QVUB -settings should be optional

na

ARIS.StrSeq ­ transient

na

Remove ANCR.ColOpR and ColOpL

na

Clarification of PwrRtg/VARtg

na

Resetable Counter is NOT resetable

na

Rename AVCO.SptVol to AVCO.VolSpt

na

Presence of LCCH.RedFerCh and RedRxCnt

na

Change CDC for ANCR.FixCol

na

LGOS: GoCBRef (as well as LSVS.SvCBRef) should be

na

mandatory

PTRC as fault indicator - Update of description required

Y

TapChg in AVCO

na

Rename DOnames within LTIM

na

New DO for LTIM to set time "manually"

na

Mod, Beh and Health with q=TEST, client can't receive their

na

states

Add two DO for leap seconds in LTIM

na

Annex A and Mod/Beh/Health

na

ISAF.AlmReset ->transient

na

NOTE: Tissues 675, 735, 772, 775, 776, 878 are not relevant for conformance testing.

Part 8-1 Tissue 770 784 817 827
834

Description
GoID type mitmatch 18.1.1 and 18.1.2.5.2 Tracking of control (CTS) Fixed-length GOOSE float encoding Mandatory ACSI services (Part of IEC 61850-7-2 TISSUE resolution) File dir name length 64

Implemented Y/na Y na Y Y
na

412

P5/EN M/33B

Appendix 3: IEC 61850 Edition 2 conformance statement

Part 8-1 Tissue 951 1040 1178 1324 1345 1441 1442 1453 1454
1500
1626

Description
Encoding of Owner attribute More associate error codes Select Response+ is non-null value The response- for DeleteNamedVariableList is not defined Fixed-length GOOSE ASN.1 length encoding Optonal fields in buffered reports Journal variableTag for ReasonCode Purge buffer on write to BRCB Reports can be transmitted before write (RptEna=true) is confirmed The response for DeleteNamedVariableList with a non-existent LN is not specified PICs For Information Report is incorrect

Implemented Y/na Y Y Y Y na Y na Y na
Y
na

For detailed information on the individual Tissues, connect to the TISSUE database: www.tissues.iec61850.com

P5/EN M/33B

413

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As standards, specifications, and design change from time to time, please ask for confirmation of the information given in this publication.
© 2021 ­ Schneider Electric. All rights reserved. P5/EN M/33B

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