Ats22 руководство по программированию

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User manual for the Altistart 22 soft starter soft stop unit. This document includes the following topics: mounting, wiring diagrams, dimensions and weights, programming, configuration, maintenance information, diagnostics and troubleshooting, and Modbus information.

Date : 09/13/2015
Type : User guide
Languages : English
Version : 04
Document Number : BBV51330

Command channel

Command channel: local or remote command

A command channel gives the possibility to command the motor by the soft starter (start, stop…).

it can also read or write parameters.

In local command mode, the Altistart 22 can be set from the display terminal:

• Use the 4 keys to enter into the menu.

In remote command, the Altistart 22 soft starter can be set from the remote keypad:

• The remote keypad can be used in a similar way than the embedded keypad, it means that the HMI on the remote keypad has the same behavior as the HMI on the product.

Note: Some command channels can also read or write parameters.

Priority stop

Soft starter command

Keypad or

PLC

Modbus

Active channel

CtrL configuration parameter

(CtrL = Modbus)

Forced local:

LI3= LIL or

Command word, bit 15 = 1

In this example, LI3 is configured to forced local command (LIL).

If CtrL = Modbus + forced local: it’s forced local in first.

LOCAL mode: The soft starter is entirely controlled via the terminals. The parameters can be read and written via Modbus. The soft starter remains in LOCAL mode as long as the

CtrL

=

0

.

FORCED LOCAL mode: The soft starter is entirely controlled via the terminals. Write access to the parameters from the Modbus link is prohibited. Reading is possible.

Note: LI1 must be activated (LI1 = 1) to allow the remote command.

A switch can be used on LI1 if a local stop by the terminal is needed. In this case, the stop will be in freewheel.

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Command channel

Behavior on channel change

In the COP menu (Advanced communication), the active channel can be changed via CtrL parameter:

Code

CtrL

Name Range

command channel 0: local command

1: Remote command: Modbus

Default value

0

CtrL

parameter is a configuration parameter that can be modified when the motor is stopped.

In the IO menu (Advanced IO), a Logic input can be assigned to local command: :

Code

LI2 or

LI3

Name

Logic input 2 or logic input 3

Value

LIL : Forced Local command

The local remote input is active at level 1.

When the input local remote is active, the active command channel is the local channel.

When the local force function is active from a Logic input, the parameters can only be written by the local HMI or the external keypad. If written by Modbus function 6 or 16, the exception 1 bad function is sent back.

When the local force function is active, Modbus command word and parameters can be written also by Modbus.

The Logic input assign to «Forced local command» has the priority on bit 15 from Modbus command word. If LI3 is assigned to LIL and

LI3=1, even if bit 15=1 the «Forced local command» is active.

When CTRL = Modbus and LI force local command activated, then a Modbus request 6 or 16 sends back an exception code 1 illegal function.

When on Modbus, only LI1 stop is taken into account.

Command word

The control register write definition is changed as follows: bit 9 bit 10 bit 11 bit 12 bit 13 bit 14 bit 15 bit 1 bit 2 bit 3 bit 4 bit 5 bit 6 bit 7 bit 8

The Altistart 22 incorporates one control register intended for controlling the Altistart 22.

Address: The control register address is: 752.

In order to control the Altistart 22 using the control register:

• Use Function 16 or function 6

• Use Address_High (page) = 2

• Use Address_Low = 240 (0F0H)

• Write to one register only

• Set comm_control (CtrL) to 1 for Modbus

Bit

bit 0

Function

RUN/STOP

Comment

Write «1» (On) to RUN

Write «0» (oFF) to STOP, in configured stop (DEC parameter) reserved reserved trip reset reserved reserved reserved reserved reserved

Write «1» to reset reserved

Freewheel stop

2nd set of parameters reserved

Write «1» to set freewheel deceleration, linked with bit 0

Write «1» to enable second set of parameters reserved reserved

Forced local command Write «1» (On) forces local command

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Command channel

bit 1 bit 2 bit 3 bit 4 bit 5 bit 6 bit 7 bit 8 bit 9 bit 10 bit 11 bit 12 bit 13

Status word

The Status register address is: 256

• Use Function 3 only

• Use Address_High (page) = 1

• Use Address_Low = 0 (00H)

• Read one register only

Bit Function

bit 0 Ready

On

Trip

Warning

Reserved

LI3

LI2

LI1

Comment

All the conditions that will permit the operation of a switching device by the remote host controller have been fulfilled.

The main circuit contacts are closed or the semiconductor switches of semiconductor switching device are in the conducting state (ACC, DEC and BYPASS).

A trip condition exists.

A warning condition exists.

(Motor current in %)

The motor current is expressed as a percentage of the motor rated current.

Range is 0-200%.

6 bits code

200% = 63 (decimal) = 111111 (binary) bit 14 Local control bit 15 Ramping

The indication to a remote host controller that as a result of operator intervention, commands received will not be accepted or acted upon (forced local command).

Accelerating or decelerating the motor.

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Modbus Function

This section describes the connection to the bus or network, signaling, diagnostics, and configuration of the communication-specific parameters via the 7-segment LED display.

It also describes the communication services of the Modbus protocol.

Modbus Protocol

The transmission mode used is RTU mode. The frame contains no message header byte, nor end of message bytes.

It is defined as follows:

Slave address

Request code Data CRC16

The data is transmitted in binary code.

CRC16: cyclical redundancy check.

The end of the frame is detected on a silence greater than or equal to 3 characters.

Principle

The Modbus protocol is a master-slave protocol.

Master Only one device can transmit on the line at any time.

The master manages the exchanges and only it can take the initiative.

It interrogates each of the slaves in succession.

No slave can send a message unless it is invited to do so.

The master repeats the question when there is an incorrect exchange, and declares the interrogated slave absent if no response is received within a given time period.

If a slave does not understand a message, it sends an exception response to the master. The master may or may not repeat the request.

Slave i Slave j

Direct slave-to-slave communications are not possible.

Slave k

For slave-to-slave communication, the application software must therefore be designed to interrogate a slave and send back data received to the other slave.

Two types of dialogue are possible between master and slaves:

• the master sends a request to a slave and waits for its response

• the master sends a request to all slaves without waiting for a response (broadcasting principle)

Addresses

• The soft starter Modbus address can be configured from 1 to 247.

• Address 0 coded in a request sent by the master is reserved for broadcasting. ATS22 take account of the request, but do not respond to it.

Supported Modbus functions

The Altistart 22 supports the following Modbus functions.

Function name

Read holding registers

Write one output word

Write multiple registers

(Sub-function)

Read device Identification

Code

03

16#03

06

16#06

16

16#10

43

16#2B

Description

Read N output words

Write one output word

Write N output word

Read device identification

Remarks

Max PDU length : 63 words

Max PDU length : 61 words

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Modbus Function

The following paragraphs describes each supported function.

Read Holding registers

Request

Function code

Starting Address

Quantity of Registers

1 Byte

2 Bytes

2 Bytes

0x03

0x0000 to 0xFFFF

1 to 63 (0x 3F)

Response

Function code

Byte count

Register value

*N: Quantity of Registers

Error

Error code

Exception code

1 Byte

1 Byte

N* x 2 Bytes

0x03

2 x N*

1 Byte

1 Byte

0x83

01 or 02 or 03 or 04 (see details on page 72 )

Example

Note: Hi = high order byte, Lo = low order byte.

This function can be used to read all ATS22 words, both input words and output words.

Request

Slave no.

1 byte

03

1 byte

No. of first word

Hi Lo

2 bytes

Number of words

Hi Lo

2 bytes

Lo

CRC16

2 bytes

Hi

Response

Slave no.

1 byte

03

1 byte

Number of bytes read

1 byte

First word value

Hi Lo

2 bytes

——Last word value

Hi Lo

2 bytes

Lo

CRC16

2 bytes

Hi

Example: read 2 words ‘ACC and DEC at Modbus address 19 and 20 to W3105 (16#0013 to 16#0014) in slave 2, using function 3, where:

• ACC — Acceleration = 10

• DEC — Deceleration = 0

Request 02 03 0019 0002 CRC16

Response 02 03

Value of:

Parameters:

04 000A

W0019

ACC

0000

W020

DEC

CRC16

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Modbus Function

Write one output word

Request

Function code

Register Address

Register value

1 Byte

2 Bytes

2 Bytes

Response

Function code

Register Address

Register value

Error

Error code

Exception code

1 Byte

2 Bytes

2 Bytes

1 Byte

1 Byte

0x06

0x0000 to 0xFFFF

0x0000 to 0xFFFF

0x06

0x0000 to 0xFFFF

0x0000 to 0xFFFF

0x86

01 or 02 or 03 or 04 (see details on page 72 )

Example

Request and response (the frame format is identical)

06 Slave no.

1 byte 1 byte

Hi

Word number

Lo

2 bytes

Hi

Value of word

Lo

2 bytes

Example: write value 16#0008 in word W0022 (16#2329) in slave 2 Snb Number of starts 8.

Request and response 02 06 0016 0008 CRC16

Lo

CRC16

2 bytes

Hi

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Modbus Function

Read Device Identification

ID

0x00

0x01

0x02

Name / Description

VendorName

ProductCode

MajorMinorRevision

Type

ASCII String

ASCII String

ASCII String

Example

Default values to be detailed

Request

Slave no.

1 byte

2B

1 byte

Type of MEI

0E

1 byte

Response

Slave no.

1 byte

——-

2B

1 byte

Type of MEI

0E

1 byte

Number of additional frames

00

1 byte

ReadDeviceId

01

1 byte

Object Id

00

1 byte

Lo

CRC16

2 bytes

Hi

ReadDeviceId

01

1 byte

Degree of conformity

02

1 byte

Next object Id

00

1 byte

——-

Number of objects

03

1 byte

——-

————Id of object no. 1

00

1 byte

Length of object no. 1

12

1 byte

——Id of object no. 2

01

1 byte

——Id of object no. 3

02

1 byte

——-

Lo

1 byte

CRC16

Hi

1 byte

Length of object no. 2

0B

1 byte

Length of object no. 3

04

1 byte

Value of object no. 1

“Schneider Electric”

18 bytes

Value of object no. 2

“ATS22XXXXXX”

11 bytes

Value of object no. 3

“0201”

0 4 bytes

——-

——-

The total response size equals 49 bytes

The three objects contained in the response correspond to the following objects:

• Object no. 1:

• Object no. 2:

• Object no. 3:

Manufacturer name (always “Schneider Electric”, ie. 18 bytes).

Device reference (ASCII string; for example: “ATS22XXXXXX”, ie. 11 bytes).

Device version, in “MMmm” format where “MM” represents the determinant and “mm” the subdeterminant (4-bytes

ASCII string; for example: “0201” for version 2.1).

Note: The response to function 43 may be negative; in this case, the response located at the top of the next page is sent by the Altistart 22 rather than the response described above.

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Modbus Function

Error management

Exception responses

An exception response is returned by a slave when it is unable to perform the request which is addressed to it.

Format of an exception response:

Slave no.

1 byte

Response

code

1 byte

Error code

1 byte

Lo

CRC16

2 bytes

Hi

Response code: request function code + 16#80.

Error code:

1 = The function requested is not recognized by the slave

2 = The bit or word addresses indicated in the request do not exist in the slave

3 = The bit or word values indicated in the request are not permissible in the slave

4 = The slave has started to execute the request but cannot continue to process it completely

CRC16 calculation

The CRC16 is calculated on all the message bytes by applying the following method:

Initialize the CRC (16-bit register) to 16#FFFF.

Enter the first to the last byte of the message:

CRC

Enter

XOR

8 times

<byte> —> CRC

Move the CRC one bit to the right

If the output bit = 1, enter CRC XOR 16#A001—> CRC

End enter

End enter

The CRC obtained will be transmitted with the low order bytes sent first, followed by the high order ones (unlike the other data contained in

Modbus frames).

XOR = exclusive OR.

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Connection to RS485 bus

Standard schematic

The standard schematic corresponds to the Modbus specification published on the Modbus.org

site in 2002

(Modbus_over_serial_line_V1.pdf, Nov 2002) and in particular to the schematic of the 2-wire multidrop serial bus.

The ATS22 follows this specification.

Schematic diagram:

Master

Type of trunk cable

Maximum length of bus

Maximum number of stations (without repeater)

Maximum length of tap links

Bus polarisation

Line terminator

Common polarity

Slave 1 Slave n

Shielded cable with 1 twisted pair and at least a 3 rd

conductor

1000 m at 19200 bps with the Schneider Electric TSX CSA ppp

cable

32 stations, ie. 31 slaves

• 20 m for one tap link

• 40 m divided by the number of tap links on a multiple junction box

• One 450 to 650

:

pulldown resistor at 5 V (650

:

recommended)

• One 450 to 650

:

pulldown resistor at the Common (650

:

recommended)

This polarization is recommended for the master.

One 120

:

0.25 W resistor in series with a 1 nF 10 V capacitor

Yes (Common), connected to the protective ground at one or more points on the bus

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Maintenance

Servicing

It is advisable to perform the following actions regularly:

• Check the condition and tightness of connections.

• Ensure that the temperature around the unit remains at an acceptable level and that ventilation is effective (average service life of fans: 3 to 5 years depending on the operating conditions).

• Ensure proper fan operation.

• Remove any dust from the soft starter.

• Check physical damages to the soft starter.

Spare parts and repairs

Consult Schneider Electric products support.

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Diagnostics / Troubleshooting

Soft starter does not start, no trip code displayed

• No display:

— check that the line supply is present on the control supply CL1/CL2,

— check if a short circuit is not existing on the Modbus network cable (especially between RJ45 pin 7 and RJ45 pin3 or pin8. See pages 35 and 36 ).

• Check that the code displayed does not correspond to the normal state of the soft starter (see page 46 ).

• Check for the presence of the RUN/STOP commands (see page 37 ).

Soft starter does not start, trip code displayed

• Trip code flashes on the display.

• Storing of the last 7 trips, visible with SoMove software workshop.

• The soft starter locks and the motor stops with to freewheel mode.

DANGER

HAZARD OF ELECTRIC SHOCK, EXPLOSION, OR ARC FLASH

• Read and understand this manual before installing or operating the Altistart 22. Installation, adjustment, repair, and maintenance must be performed by qualified personnel.

• The user is responsible for compliance with all international and national electrical code requirements with respect to grounding of all equipment.

• Many parts of this soft starter, including the printed circuit boards, operate at the line voltage. DO NOT TOUCH. Use only electrically insulated tools.

• DO NOT touch unshielded components or terminal strip screw connections with voltage present.

• Before servicing the soft starter:

— Disconnect all power, including external control power that may be present.

— Place a “DO NOT TURN ON” label on all power disconnects.

— Lock all power disconnects in the open position.

• Install and close all covers before applying power or starting and stopping the soft starter.

Failure to follow these instructions will result in death or serious injury.

Trip code displayed

bPF

CFF

EtF

GrdF

InF

OCF

OHF

OLF

OSF

DtF

Name Remedy

Bypass contactor detected fault • Check for a welded bypass contactor or shorted SCR

• Replace it if necessary

Invalid configuration on power-up • Revert to the factory setting in the soft starter UtIL menu

• Reconfigure the soft starter

External detected fault • Clear the cause of the detected fault

Ground leakage current detected fault

Internal detected fault

• Check the electrical insulation of the motor

• Check the installation

• Check the values of Grdd , Grdt parameters in PrO menu page 57

• Disconnect and reconnect the control supply. If the detected fault persists, contact

Schneider Electric product support

Motor overcurrent

Over heat detected fault

Overload motor

• Check the values of OId and OIt parameters in PrO menu page 56

• Check the sizing of the soft starter in relation to the motor and the mechanical requirement

• Check the operation of the fan (if the Altistart 22 used has one), ensuring that the air passage is not obstructed in any way and the heatsink is clean. Ensure that the mounting recommendations are observed

• Wait for the Altistart 22 cooling before restarting

• Check the mechanism (wear, mechanical play, lubrication, blockages, etc.)

• Check the sizing of the soft starter motor in relation to the mechanical requirement

• Check the value of tHP parameter in SEt menu page 52 and In parameter in conF

menu page 50

• Wait for the motor to cool before restarting

Overvoltage

Motor Over Temperature

• Motor thermal trip detected by the PTC probes

• Check ULn parameter in conF menu

• Check the power supply circuit and voltage

• Check

OSd

and

OSt

parameters in

PrO

menu

• Check the mechanism (wear, mechanical play, lubrication, blockages, etc.)

• Check the sizing of the soft starter motor in relation to the mechanical requirement

• Check the value of PtC setting in PrO menu page 59

• Wait for the motor to cool before restarting

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Diagnostics / Troubleshooting

Trip code displayed

PHbd

PHF

PIF trAP

SCF

SLF

SnbF

SSCr

StF tbS

UCF

USF

Name Remedy

Phase unbalance

Loss of a line phase

Short circuit:

• short-circuit on soft starter output

Modbus Time Out

Too many starts

Shorted thyristor or wrong connection

Starting time detected fault

• Too long start time

Too many starts

Motor underload (undercurrent)

Under voltage or no voltage

• Check the line voltage.

• Check the values of

Ubd

,

Ubt

parameters in

PrO

menu page 57 .

• Check the line voltage, the connection to the soft starter and any isolating devices located between the line and the soft starter (contactors, fuses, circuit breakers, etc.).

• Check the motor connection and any isolating devices located between the soft starter and the motor (contactors, circuit breakers, etc.).

• Check the motor state.

• Check the line frequency.

• Check the configuration of PHL .

Line frequency, out of tolerance

This detected fault can be configured in

PrO

menu

Phase inversion

Line phase inversion does not conform to the selection made by

PHr

in

PrO

menu

Trap code

• Invert two lines phases or set

PHr

= oFF.

• Disconnect and reconnect the control supply. If the detected fault persists, contact

Schneider Electric support.

• Switch the soft starter off.

• Check the connecting cables and the motor insulation.

• Check the thyristors.

• Check the bypass contactor (contact stuck).

• Serial link detected fault. Check the RS485 connection.

• The number of soft starts has exceeded the maximum allowed by

Snb

in

SLG period. See Snb page 53 .

• Check the thyristors.

• Check the bypass contactor (contact stuck).

• Check the motor connections.

• Check the mechanism (wear, mechanical play, lubrication, blockages, etc.)

• Check that tLS (Max start time) is bigger than ACC (Acceleration time). See

SEt

menu page 51.

• Check the sizing of the soft starter motor in relation to the mechanical requirement

• Check ILt value : if the value is too low, the motor may not reach acceleration and full speed.

• Wait 5 minutes for frame size A.

• Wait 15 minutes for frame sizes B, C, D and E.

tbS

appears after

SnbF

trip message, when trying to reset the soft starter before end of the timer.

• Check the values of UId and UIt parameters in PrO menu page 57.

• Check

UIn

,

USd

and

USt

parameters in

PrO

menu

• Check line voltage.

Remote keypad messages

InIt

Display

COME

A-17

CLr dEUE rOME rAME

CPUE flashing flashing flashing flashing flashing flashing flashing

Message

On initializing itself

Communication interruption

Key alarm

Confirm trip reset

Description

Microcontroller initializing.

Communication configuration searching.

It has 50 ms time out.

This message is shown after 20 times retrying.

• Key has been held consecutively more than 10 seconds.

• Membrane switch disconnected.

• Keypad waked up while a key is holding.

This is shown when :

First time STOP key has been pressed while the soft starter has tripped in detected fault.

Soft starter mismatch Soft starter type (brand) did not match with keypad type (brand).

ROM trip Keypad ROM detected fault.

RAM trip

CPU trip

Keypad RAM detected fault.

Keypad CPU detected fault.

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Parameter Index and Modbus addresses

Code

ACC

52

ACC2

55

Add bSt

Page

62

53

Name

Acceleration time

2nd acceleration time

Modbus address

Boost time

Unit

Modbus code and

Adjustment

Range (1)

s

1

to

60 s

1

to

60

s

0 = oFF

1 to 247

0.0

to

1.0

Cod

CtrL dEC dEC2 dEF1 dEF2

50

62

52

55

63

63

Setting lock

Command channel

Deceleration time

2nd deceleration time

Trip history 1

Trip history 2

—

s s

—

—

0 = nLOC

1 =

LOC

0 = LCL

1 = dbS

0 = FrEE

1

to

60

0 =

FrEE

1

to

60

01 = UCF

02 = OCF

03 =

PHbd

04 =

GrdF dEF3 dEF4 dEF5 dEF6 dEF7 dEF8 dEF9 dEFt dICL dLtA

EdC

FAn

63

63

63

63

63

63

63

63

63

50

52

61

Trip history 3

Trip history 4

Trip history 5

Trip history 6

Trip history 7

Trip history 8

Trip history 9

Total number of trips

Trip current

Connection type

End of deceleration

Fan management

—

—

—

—

—

—

—

—

—

—

05 = OLF

06 = OtF

07 =

OHF

08 =

PIF

09 =

PHF

10 = USF

11 = OSF

12 =

StF

13 =

SnbF

14 =

SSCr

15 = EtF

16 = InF

17 =

SLF

18 = trAp

19 =

SCF

20 = bPF

21 = CFF

—

A

0 to 999

—

0 =

LInE

1 = dLt

0

to

10

0 =

AUto

1 = On

2 = oFF

3 =

HAnd

Description

—

off

Modbus address

1 with Modbus = 0.1s

not locked locked

0 – Local (LCL)

1 – Modbus (dbS) freewheel deceleration

freewheel deceleration

—

01 = Motor underload (undercurrent)

02 = Motor overcurrent

03 = Phase unbalance

04 = Ground leakage current detected fault

05 = Overload motor

06 = Motor Over Temperature

07 = Over heat detected fault

08 = Phase inversion

09 = Loss of a line phase

10 = Under voltage or no voltage

11 = Over Voltage

12 = Starting time detected fault

13 = Too Many Starts

14 = Shorted thyristor or wrong connection

15 = External detected fault

16 = Internal detected fault

17 = Modbus Time Out

18 = Trap code

19 = Short-circuit

20 = Bypass contactor detected fault

21 = Invalid configuration on power-up

—

in line connection inside delta connection

auto on off manual

FCS 64

Back to factory settings

—

1 = 1 to perform FCS

Modbus address

Factory setting

User setting

19

42

80

34

4

84

20

43

282

283

284

285

286

287

288

289

290

278

280

1

21

76

130

10

10 oFF

0 nLoc

LCL

FrEE

FrEE

—

—

—

—

—

—

—

—

—

—

—

LInE

0

AUto

—

(1) Modbus code = Soft starter message example : oFF on the soft starter will be equivalent to «0» with Modbus protocol (remote command)

* : parameter visible only with Modbus

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77

Parameter Index and Modbus addresses

Code

For

Freq*

Grdd

Grdt

Page

62

57

57

Name

Modbus format

Unit

—

Frequency

Ground leakage current threshold

Ground leakage current time delay

Hz

% of

In s

Modbus code and

Adjustment

Range (1)

0 =

8o1

1 =

8E1

2 = 8n1

3 = 8n2

—

10 to 100

101

= oFF

1 to 60

—

—

Off

—

Description

8 bit, odd parity, 1 stop bit

8 bit, even parity, 1 stop bit

8 bit, no parity, 1 stop bit

8 bit, no parity, 2 stop bit

Modbus address

82

265

54

55

Factory setting

8E1

—

25 for S6 and S6U

OFF for Q

5

IcL

IG*

ILt

ILt2

50

51

55

Soft starter rated current

A

—

Integral gain

%

0 to 100%

Current limit

2nd current limit

% of

In

% of

In

200 to 700% max. value:

350% of

IcL

200 to 700% max. value:

350% of IcL

Motor rated current

A

0.4 IcL to IcL

—

—

—

This parameter is reserved for expert mode.

Active when

SSC

=

On

0

38

17

41

Read from the power card’s serial

EEPROM

20

350

350

In 50

3

In2

55

2nd motor rated

Current

A

0.4

IcL

to

IcL

—

44

ItH

LAC

LED*

59

50

LCr1 47

LCr2 47

LCr3

47

Overload protection

Advanced mode

LCr1

LCr2

LCr3

LEDS Status

—

—

0 = oFF

1 = rUn

2 =

On off run on

0 = oFF

1 = On

Phase 1 Current, Amp off on

Phase 2 Current, Amp

Phase 3 Current, Amp d4: COMM LED (0=OFF,1=ON) d6: Ready LED (0=OFF,1=ON) d7: Run LED (0=OFF,1=ON). Flashing during soft start

/ soft stop.

d8: Trip LED (0=OFF,1=ON)

Note: other bits are reserved.

same as dEF1 to dEF9

63

269

279

5

257

258

259

LFt 63 Last trip

—

(1) Modbus code = Soft starter message example : oFF

on the soft starter will be equivalent to «0» with Modbus protocol (remote command)

* : parameter visible only with Modbus

According to the soft starter rating

According to the soft starter rating

On oFF

—

User setting

78

BBV51330 08/2012

Parameter Index and Modbus addresses

Code

LI*

LI2

LI3

Lo

OIt

OId

OSd

Page

60

60

47

57

56

59

Name

Logical inputs

Logic input 2

Logic input 3

Logic Output relays status

Overcurrent time delay

Overcurrent threshold

Over voltage threshold

Unit

—

s

% of In

% of

Uln

Modbus code and

Adjustment

Range (1)

Description

d0: Input 1. 0 – open, 1 – closed.

d1: Input 2.

d2: Input 3.

d3…d15: Reserved

0 =

Strt

1 = rUn

2 =

2nd

3 = EtF

4 = rSt

5 =

FAn

6 =

FI

7 =

LIL start:for a 3-wire control run:for a 2-wire control

2nd set of parameters external detected fault remote reset fan control trip inhibition forced local command

2 = 2nd

3 = EtF

4 = rSt

5 =

FAn

6 =

FI

7 = LIL

2nd set of parameters external detected fault remote reset fan control trip inhibition forced local command d0: Relay 1. 0 – not energized, 1 — energized d1: Relay 2 d2…d15: reserved

0 to 50 s

5 with Modbus = 0.5s

50 with Modbus = 5.0s

100 to 300, by increment of 5

110 to 125

—

—

OSt

58

Under voltage time delay s

1

to

10

—

PG*

PHL

PHr

PtC

58

57

59

Proportional gain

Phase loss detection

Phase sequence

PTC probes motor monitoring

%

—

—

—

0 to 100%

0 =

1 =

0 =

1 = oFF

On

123

1 = 321

2 = oFF

0 = oFF

On

123

321 off off on

This parameter is reserved for expert mode.

Active when

SSC

=

On off on

Modbus address

261

72

73

262

51

50

60

61

37

57

56

62

Factory setting

rUn rSt

0.5

200

120

2

60

On oFF oFF

(1) Modbus code = Soft starter message example : oFF on the soft starter will be equivalent to «0» with Modbus protocol (remote command)

* : parameter visible only with Modbus

User setting

BBV51330 08/2012

79

Parameter Index and Modbus addresses

Code

r1 r2 rnt rPr

SICL 63

SLG

Snb

SPCU

SSC

53

53

54

Stnb

63

StPr

63 t90 t92

Page

61

61

63

64

54

51

55

Name

Relay 1

Unit

Modbus code and

Adjustment

Range (1)

—

0 =

StPd

1 = nStP

2 = Strt

3 = rUn

4 = rdY

5 = trIp

6 =

ALr

as r1 hours

—

—

—

Relay 2

Total run time

Reset of trip history and counters

Last start maximum current

Starts period

Number of starts

Start-stop profile control voltage

Start-stop control

Total number of starts

Last starting time

Initial voltage

2nd initial voltage

A

0 to 999 min

1 to 60

—

1 to 10

11 = oFF

—

0

1

2

3

—

s

%

%

0 = oFF

1 =

On

—

0

to

999

10 to 50% of full voltage, by increment of 5

10 to 50% of full voltage

Uln

, by increment of 5

Description

stopped not stopped starting running ready trip alarm as r1

—

—

—

—

—

—

2

3

0

1

Number of starts off off on

—

—

(1) Modbus code = Soft starter message example : oFF on the soft starter will be equivalent to «0» with Modbus protocol (remote command)

* : parameter visible only with Modbus

Modbus address

74

75

273

NA

276

33

32

36

35

274

275

16

40

Factory setting

User setting

nStP trIP

—

—

—

30 oFF

0

On

—

—

30%

30%

80

BBV51330 08/2012

Parameter Index and Modbus addresses

Code

tbr tESt tHP tLS ttO

Ubd

Ubt

UdP

UId

Uln

UIt

USd

USt

Voltage*

Page

62

64

52

51

62

57

57

64

56

50

56

58

58

Name

Modbus baudrate

Soft starter self test

Motor thermal protection

Max start time

Modbus time out

Unbalance threshold

Unbalance time delay

Soft starter software version

Under current threshold

Line voltage

Under current time delay

Under voltage threshold

Under voltage time delay

Voltage

Unit

Kbps

—

s s

0 =

4

.8

1 =

9

.6

2 = 19 .2 on off

Modbus code and

Adjustment

Range (1)

1 =

10

2 =

20

3 = 30

1 to 250

1 = 0 .1 to

600 =

60

.0

—

% of

In s

101 = oFF

10 to 100%

1 to 60

—

0000

to

9999

—

—

—

% of

In

V

0 = oFF

20 to 90% of

In

Q range: 200 to 440

S6-S6U ranges: 200 to

600

—

—

Description

on off class 10 class 20 class 30 (heavy duty)

—

1 with Modbus = 0.1s

600 with

Modbus = 60.0s

Modbus address

81

NA

22

18

83

52

53

317

48

2

Factory setting

19.2

—

10

15

5.0

25

10 oFF

Q range: 400

S6-S6U ranges: 480

User setting

s

1 to 40

% of

In

50 to 90% of

Uln s

V

1

to

10

Line voltage, volts

—

—

—

49

58

59

260

10

70

5

(1) Modbus code = Soft starter message example : oFF

on the soft starter will be equivalent to «0» with Modbus protocol (remote command)

* : parameter visible only with Modbus

BBV51330 08/2012

81

Annex 1: UL508 schematics

ATS22

•••

Q or ATS22

•••

S6: 230 V, 2-wire control, freewheel stop

Z1

(1) Check the operating limits of the contact, for example when connecting to high rating contactors. See “Electrical characteristics” page 35 .

(2) Insert a voltage transformer if the power voltage is higher than the Altistart 22 acceptable value. Characteristics: min 100 VA page 13 .

2-wire control setting

In the menu Advanced I/O IO , set the following parameters:

Parameter Value

LI2 rUn r2 trlP

Description

Logic Input 2 is set to Run

Trip relay is de-energized upon trip

82

BBV51330 08/2012

Annex 1: UL508 schematics

ATS22

•••

S6U: 110V, 2-wire control, freewheel stop

Z1

(1) Check the operating limits of the contact, for example when connecting to high rating contactors. See “Electrical characteristics” page 36 .

(2) Insert a voltage transformer if the power voltage is higher than the Altistart 22 acceptable value. Characteristics: min 100 VA page 13 .

2-wire control setting

In the menu Advanced I/O IO , set the following parameters:

Parameter Value

LI2 rUn r2 trlP

Description

Logic Input 2 is set to Run

Trip relay is denergized upon trip

BBV51330 08/2012

83

84

BBV51330 08/2012

ATS22_User Manual_EN_BBV51330_02

BBV51330 08/2012

Altistart_22_ATS22D62Q.pdf

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