ABB Relion REQ650 Product Manual

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ABB Relion REQ650 Product Manual | Manualzz

Relion ® 650 series

Breaker protection REQ650 2.1 IEC

Product guide

Breaker protection REQ650 2.1 IEC

Product version: 2.1

Contents

1. Application..................................................................... 3

2. Available functions..........................................................5

3. Current protection........................................................ 12

4. Voltage protection........................................................ 13

5. Multipurpose protection................................................13

6. Secondary system supervision..................................... 13

7. Control......................................................................... 14

8. Logic............................................................................ 15

9. Monitoring.................................................................... 16

1MRK 505 358-BEN B

10. Metering......................................................................18

11. Human machine interface............................................18

12. Basic IED functions..................................................... 19

13. Station communication ...............................................19

14. Hardware description.................................................. 19

15. Connection diagrams.................................................. 22

16. Technical data............................................................. 23

17. Ordering for pre-configured IED...................................65

18. Ordering for Accessories............................................. 68

Disclaimer

The information in this document is subject to change without notice and should not be construed as a commitment by ABB. ABB assumes no responsibility for any errors that may appear in this document. Drawings and diagrams are not binding.

© Copyright 2016 ABB.

All rights reserved.

Trademarks

ABB and Relion are registered trademarks of the ABB Group. All other brand or product names mentioned in this document may be trademarks or registered trademarks of their respective holders.

2 ABB

Breaker protection REQ650 2.1 IEC

Product version: 2.1

1MRK 505 358-BEN B

Issued: June 2017

Revision: B

1. Application

GUID-3F024D79-D031-42DC-B0BC-1F3757B8D3E0 v3

Breaker protection REQ650 provides a standalone solution for applications where synchrocheck controlled closing of the circuit breaker is required, but the integration of the automatic reclosing function into the main line protection IED is not preferred or suitable. The advanced automatic reclosing, synchronizing, synchrocheck and energizing check functions of REQ650 provides an optimized standalone product.

REQ650 provides backup to the main protection with redundant protection and control functions.

One pre-configured package has been defined for the following application:

• A breaker bay connecting a transmission line to a busbar, with back-up protection functions enabling single or three phase trip (B11)

The backup protection is based on basic overcurrent and voltage based functions. In line protection applications, autoreclosing with or without synchrocheck is available.

The package is configured and ready for direct use. Analog and control circuits have been pre-defined and other signals need to be applied as required for each application. The preconfigured IED can be changed and adapted to suit specific applications with the graphical configuration tool.

Forcing of binary inputs and outputs is a convenient way to test wiring in substations as well as testing configuration logic in the IEDs. Basically it means that all binary inputs and outputs on the IED I/O modules (BOM, BIM and IOM) can be forced to arbitrary values.

Central Account Management is an authentication infrastructure that offers a secure solution for enforcing access control to IEDs and other systems within a substation.

This incorporates management of user accounts, roles and certificates and the distribution of such, a procedure completely transparent to the user.

The Flexible Product Naming allows the customer to use an

IED-vendor independent 61850 model of the IED. This customer model will be used as the IEC 61850 data model, but all other aspects of the IED will remain unchanged (e.g., names on the local HMI and names in the tools). This offers significant flexibility to adapt the IED to the customers system and standard solution

Description of B11

GUID-D9C6EAEB-A4EA-49BF-BE90-CC3CAF1CA476 v1

A breaker bay connecting a transmission line to a busbar, with back-up protection functions enabling single or three phase trip.

ABB 3

Breaker protection REQ650 2.1 IEC

Product version: 2.1

WA1

WA2

1MRK 505 358-BEN B

REQ650 B11

– Single breaker with single phase tripping

12AI (7I+5U)

QB1

QA1

QB9

QB2

WA2_VT

MET UN

VN MMXU

WA1_VT

MET UN

VN MMXU

79 5(0 →1)

SMB RREC

25 SC/VC

SES RSYN

3 Control

Q CBAY

LINE_CT

50BF 3I>BF

CC RBRF

50STB 3I>STB

STB PTOC

50 3I>>

PH PIOC

26 q>

LC PTTR

46 lub

BRC PTOC

50N IN>>

EF PIOC

51N_67N 4(IN>)

EF4 PTOC

MET P/Q

CV MMXN

U>/I<

FUF SPVC

46I2

NS4 PTOC

51_67 4(3I>)

OC4 PTOC

QC9

MET W/Varh

ETP MMTR

MET Isqi

C MSQI

MET I

C MMXU

LINE_VT

DFR/SER DR

DRP RDRE

27 2(3U<)

UV2 PTUV

59 3U>

OV2 PTOV

63

S SIMG

71

S SIML

27

LOV PTUV

MET U

V MMXU

59N 3U0

ROV2 PTOV

MET Usqi

V MSQI

MET UN

VN MMXU

Other Functions available from the function library

2(I>/U<)

CV GAPC

87 INd/I

CCS SPVC

26 θ>

LF PTTR

IEC10000323 V5 EN-US

Figure 1.

Configuration diagram for configuration B11

IEC10000323-5-en.vsd

4 ABB

Breaker protection REQ650 2.1 IEC

Product version: 2.1

2. Available functions

Back-up protection functions

IEC 61850 ANSI Function description

Current protection

PHPIOC

OC4PTOC

50 Instantaneous phase overcurrent protection

51_67 1) Four step phase overcurrent protection

EFPIOC

EF4PTOC

50N

51N

67N 2)

Instantaneous residual overcurrent protection

Four step residual overcurrent protection

NS4PTOC

LCPTTR

LFPTTR

CCRBRF

46I2

26

26

50BF

Four step directional negative phase sequence overcurrent protection

Thermal overload protection, one time constant, Celsius

Thermal overload protection, one time constant, Fahrenheit

Breaker failure protection

Stub protection

Broken conductor check

STBPTOC

BRCPTOC

Voltage protection

50STB

46

UV2PTUV

OV2PTOV

ROV2PTOV

LOVPTUV

27

59

59N

27

Multipurpose protection

CVGAPC

Two step undervoltage protection

Two step overvoltage protection

Two step residual overvoltage protection

Loss of voltage check

General current and voltage protection

1) 67 requires voltage

2) 67N requires voltage

1MRK 505 358-BEN B

GUID-A8D0852F-807F-4442-8730-E44808E194F0 v11

Breaker

REQ650 (B11)

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

ABB 5

Breaker protection REQ650 2.1 IEC

Product version: 2.1

Control and monitoring functions

IEC 61850 ANSI Function description

Control

SESRSYN

SMBRREC

QCBAY

LOCREM

LOCREMCTRL

SLGAPC

VSGAPC

DPGAPC

SPC8GAPC

AUTOBITS

Synchrocheck, energizing check and synchronizing

Autorecloser

Apparatus control

Handling of LRswitch positions

LHMI control of PSTO

Logic Rotating Switch for function selection and LHMI presentation

Selector mini switch

Generic communication function for Double Point indication

Single Point Generic Control 8 signals

AutomationBits, command function for DNP3.0

SINGLECMD

I103CMD

I103GENCMD

I103POSCMD

CCSSPVC

FUFSPVC

Logic

SMPPTRC

Single command, 16 signals

Function commands for IEC 60870-5-103

Function commands generic for IEC 60870-5-103

IED commands with position and select for IEC 60870-5-103

I103POSCMDV

I103IEDCMD

IED direct commands with position for IEC 60870-5-503

IED commands for IEC 60870-5-103

I103USRCMD

Secondary system supervision

Function commands user defined for IEC 60870-5-103

Current circuit supervison

Fuse failure supervision

TMAGAPC

ALMCALH

WRNCALH

INDCALH

AND, GATE, INV,

LLD, OR,

PULSETIMER,

RSMEMORY,

SRMEMORY,

TIMERSET, XOR

Tripping logic

Trip matrix logic

Logic for group alarm

Logic for group warning

Logic for group indication

Basic configurable logic blocks (see Table

1

)

FXDSIGN

B16I

BTIGAPC

IB16

ITBGAPC

Fixed signal function block

Boolean 16 to Integer conversion

Boolean 16 to Integer conversion with Logic Node representation

Integer to Boolean 16 conversion

Integer to Boolean 16 conversion with Logic Node representation

6

1MRK 505 358-BEN B

GUID-E3777F16-0B76-4157-A3BF-0B6B978863DE v13

Breaker

REQ650 (B11)

6

1

1

5

5

12

5

40–420

4

50

1

4

1

50

50

1

1

15

20

1

1

1

16

5

3

1

18

16

18

16

ABB

Breaker protection REQ650 2.1 IEC

Product version: 2.1

IEC 61850

TEIGAPC

INTCOMP

REALCOMP

Monitoring

CVMMXN,

VMMXU, CMSQI,

VMSQI, VNMMXU

CMMXU

AISVBAS

SSIMG

SSIML

EVENT

DRPRDRE,

A1RADR-

A4RADR,

B1RBDR-B8RBDR

SPGAPC

SP16GAPC

MVGAPC

BINSTATREP

RANGE_XP

I103MEAS

I103MEASUSR

I103AR

I103EF

I103FLTPROT

I103IED

I103SUPERV

I103USRDEF

L4UFCNT

TEILGAPC

Metering

PCFCNT

ETPMMTR

ANSI Function description

Elapsed time integrator with limit transgression and overflow supervision

Comparator for integer inputs

Comparator for real inputs

Measurements

Measurements

Function block for service value presentation of secondary analog inputs

Gas medium supervision

Liquid medium supervision

Event function

Disturbance report

Generic communication function for Single Point indication

Generic communication function for Single Point indication 16 inputs

Generic communication function for Measured Value

Logical signal status report

Measured value expander block

Measurands for IEC 60870-5-103

Measurands user defined signals for IEC 60870-5-103

Function status auto-recloser for IEC 60870-5-103

Function status earth-fault for IEC 60870-5-103

Function status fault protection for IEC 60870-5-103

IED status for IEC 60870-5-103

Supervison status for IEC 60870-5-103

Status for user defined signals for IEC 60870-5-103

Event counter with limit supervision

Running hour-meter

Pulse-counter logic

Function for energy calculation and demand handling

1MRK 505 358-BEN B

12

12

12

6

Breaker

REQ650 (B11)

10

1

21

3

20

1

6

20

30

1

1

1

1

3

1

66

1

64

16

24

3

16

6

ABB 7

Breaker protection REQ650 2.1 IEC

Product version: 2.1

Table 1. Total number of instances for basic configurable logic blocks

Basic configurable logic block

AND

GATE

INV

LLD

OR

PULSETIMER

RSMEMORY

SRMEMORY

TIMERSET

XOR

Total number of instances

280

40

40

40

60

280

40

420

40

40

1MRK 505 358-BEN B

8 ABB

Breaker protection REQ650 2.1 IEC

Product version: 2.1

1MRK 505 358-BEN B

Communication

IEC 61850

DNPFREC

IEC 61850-8-1

GOOSEINTLKRCV

GOOSEBINRCV

GOOSEDPRCV

GOOSEINTRCV

GOOSEMVRCV

GOOSESPRCV

MULTICMDRCV/

MULTICMDSND

FRONT, LANABI,

LANAB, LANCDI,

LANCD, GATEWAY

OPTICAL103

RS485103

AGSAL

LD0LLN0

SYSLLN0

LPHD

PCMACCS

SECALARM

Station communication

LONSPA, SPA

ADE

HORZCOMM

PROTOCOL

RS485PROT

RS485GEN

DNPGEN

DNPGENTCP

CHSERRS485

CH1TCP, CH2TCP,

CH3TCP, CH4TCP

CHSEROPT

MSTSER

MST1TCP,

MST2TCP,

MST3TCP,

MST4TCP

ANSI

ABB

Function description

SPA communication protocol

LON communciation protocol

Network variables via LON

Operation selection between SPA and IEC 60870-5-103 for SLM

Operation selection for RS485

RS485

DNP3.0 communication general protocol

DNP3.0 communication general TCP protocol

DNP3.0 for EIA-485 communication protocol

DNP3.0 for TCP/IP communication protocol

DNP3.0 for TCP/IP and EIA-485 communication protocol

DNP3.0 for serial communication protocol

DNP3.0 for TCP/IP communication protocol

DNP3.0 fault records for TCP/IP and EIA-485 communication protocol

Parameter setting function for IEC 61850

Horizontal communication via GOOSE for interlocking

GOOSE binary receive

GOOSE function block to receive a double point value

GOOSE function block to receive an integer value

GOOSE function block to receive a measurand value

GOOSE function block to receive a single point value

Multiple command and transmit

Ethernet configuration

IEC 60870-5-103 Optical serial communication

IEC 60870-5-103 serial communication for RS485

Generic security application component

IEC 61850 LD0 LLN0

IEC 61850 SYS LLN0

Physical device information

IED configuration protocol

Component for mapping security events on protocols such as DNP3 and IEC103

GUID-5F144B53-B9A7-4173-80CF-CD4C84579CB5 v13

Breaker

REQ650 (B11)

1

1

1

1

1

1

1

1

1

1

1

1

1

1

1

59

16

64

32

60

64

60/10

1

1

1

1

1

1

1

1

1

9

Breaker protection REQ650 2.1 IEC

Product version: 2.1

IEC 61850

FSTACCS,

FSTACCSNA

ACTIVLOG

ALTRK

SINGLELCCH

PRPSTATUS

PRP

ANSI Function description

Field service tool access via SPA protocol over ethernet communication

Activity logging parameters

Service Tracking

Single ethernet port link status

Dual ethernet port link status

IEC 62439-3 parallel redundancy protocol

1MRK 505 358-BEN B

1

Breaker

REQ650 (B11)

1

1

1

1

1-P03

10 ABB

Breaker protection REQ650 2.1 IEC

Product version: 2.1

Basic IED functions

Table 2. Basic IED functions

IEC 61850 or function name

INTERRSIG

SELFSUPEVLST

TIMESYNCHGEN

BININPUT, SYNCHCAN,

SYNCHGPS,

SYNCHCMPPS,

SYNCHLON,

SYNCHPPH,

SYNCHPPS, SNTP,

SYNCHSPA,

SYNCHCMPPS

TIMEZONE

DSTBEGIN,

DSTENABLE, DSTEND

IRIG-B

SETGRPS

ACTVGRP

TESTMODE

CHNGLCK

SMBI

SMBO

SMAI1 - SMAI12

3PHSUM

ATHSTAT

ATHCHCK

AUTHMAN

FTPACCS

SPACOMMMAP

SPATD

DOSFRNT

DOSLANAB

DOSLANCD

DOSSCKT

GBASVAL

PRIMVAL

ALTMS

ALTIM

MSTSER

Description

Self supervision with internal event list

Self supervision with internal event list

Time synchronization module

Time synchronization

Time synchronization

GPS time synchronization module

Time synchronization

Number of setting groups

Parameter setting groups

Test mode functionality

Change lock function

Signal matrix for binary inputs

Signal matrix for binary outputs

Signal matrix for analog inputs

Summation block 3 phase

Authority status

Authority check

Authority management

FTP access with password

SPA communication mapping

Date and time via SPA protocol

Denial of service, frame rate control for front port

Denial of service, frame rate control for OEM port AB

Denial of service, frame rate control for OEM port CD

Denial of service, socket flow control

Global base values for settings

Primary system values

Time master supervision

Time management

DNP3.0 for serial communication protocol

ABB

1MRK 505 358-BEN B

GUID-C8F0E5D2-E305-4184-9627-F6B5864216CA v10

11

1MRK 505 358-BEN B

Breaker protection REQ650 2.1 IEC

Product version: 2.1

Table 3. Local HMI functions

IEC 61850 or function name

LHMICTRL

LANGUAGE

SCREEN

FNKEYTY1–FNKEYTY5

FNKEYMD1–

FNKEYMD5

LEDGEN

OPENCLOSE_LED

GRP1_LED1–

GRP1_LED15

GRP2_LED1–

GRP2_LED15

GRP3_LED1–

GRP3_LED15

ANSI Description

Local HMI signals

Local human machine language

Local HMI Local human machine screen behavior

Parameter setting function for HMI in PCM600

General LED indication part for LHMI

LHMI LEDs for open and close keys

Basic part for CP HW LED indication module

3. Current protection

M12910-3 v12

The instantaneous two-phase overcurrent function PHPIOC has low transient overreach and short tripping times to allow use as a high set short-circuit protection function.

M13667-3 v18

EF4PTOC can be set directional or non-directional independently for each of the steps.

IDir, UPol and IPol can be independently selected to be either zero sequence or negative sequence.

Four-step phase overcurrent protection OC4PTOC

M12846-3 v16

The four step three-phase overcurrent protection function

OC4PTOC has an inverse or definite time delay independent for step 1 to 4 separately.

All IEC and ANSI inverse time characteristics are available together with an optional user defined time characteristic.

Four step negative sequence overcurrent protection

NS4PTOC

GUID-485E9D36-0032-4559-9204-101539A32F47 v5

Four step negative sequence overcurrent protection

(NS4PTOC) has an inverse or definite time delay independent for each step separately.

The directional function needs voltage as it is voltage polarized with memory. The function can be set to be directional or non-directional independently for each of the steps.

A second harmonic blocking level can be set for the function and can be used to block each step individually.

Instantaneous residual overcurrent protection EFPIOC

M12701-3 v15

The Instantaneous residual overcurrent protection EFPIOC has a low transient overreach and short tripping times to allow the use for instantaneous earth-fault protection, with the reach limited to less than the typical eighty percent of the line at minimum source impedance. EFPIOC is configured to measure the residual current from the three-phase current inputs and can be configured to measure the current from a separate current input.

Four step residual overcurrent protection, zero sequence and negative sequence direction EF4PTOC

The directional function is voltage polarized.

NS4PTOC can be set directional or non-directional independently for each of the steps.

Thermal overload protection, one time constant

M12020-4 v13

The increasing utilization of the power system closer to the thermal limits has generated a need of a thermal overload protection for power lines.

A thermal overload will often not be detected by other protection functions and the introduction of the thermal overload protection can allow the protected circuit to operate closer to the thermal limits.

The three-phase current measuring protection has an I 2 t characteristic with settable time constant and a thermal memory. The temperature is displayed in either Celsius or

Fahrenheit, depending on whether the function used is

LCPTTR (Celsius) or LFPTTR (Fahrenheit).

12 ABB

Breaker protection REQ650 2.1 IEC

Product version: 2.1

1MRK 505 358-BEN B

An alarm level gives early warning to allow operators to take action well before the line is tripped.

Estimated time to trip before operation, and estimated time to reclose after operation are presented.

Breaker failure protection CCRBRF

M11550-6 v16

Breaker failure protection (CCRBRF) ensures a fast backup tripping of the surrounding breakers in case the own breaker fails to open. CCRBRF can be current-based, contact-based or an adaptive combination of these two conditions.

A current check with extremely short reset time is used as check criterion to achieve high security against inadvertent operation.

Contact check criteria can be used where the fault current through the breaker is small.

CCRBRF can be single- or three-phase initiated to allow use with single phase tripping applications. For the three-phase version of CCRBRF the current criteria can be set to operate only if two out of four for example, two phases or one phase plus the residual current start. This gives a higher security to the back-up trip command.

CCRBRF function can be programmed to give a single- or three-phase re-trip of its own breaker to avoid unnecessary tripping of surrounding breakers at an incorrect initiation due to mistakes during testing.

Stub protection STBPTOC

M12902-3 v9

The primary line distance protection will thus not be able to operate and must be blocked.

The stub protection STBPTOC covers the zone between the current transformers and the open disconnector. The threephase instantaneous overcurrent function is released from a normally open, NO (b) auxiliary contact on the line disconnector.

Two step overvoltage protection OV2PTOV

M13798-3 v14

Overvoltages may occur in the power system during abnormal conditions such as sudden power loss, tap changer regulating failures, and open line ends on long lines.

OV2PTOV has a high reset ratio to allow settings close to system service voltage.

Two step residual overvoltage protection ROV2PTOV

M13808-3 v10

Residual voltages may occur in the power system during earth faults.

Two step residual overvoltage protection ROV2PTOV function calculates the residual voltage from the three-phase voltage input transformers or measures it from a single voltage input transformer fed from an open delta or neutral point voltage transformer.

Two step residual overvoltage protection ROV2PTOV function calculates the residual voltage from the two-phase voltage input transformers or measures it from a single voltage input transformer fed from a neutral point voltage transformer.

ROV2PTOV has two voltage steps, each with inverse or definite time delay.

ROV2PTOV has two voltage steps, each with definite time delay.

Loss of voltage check LOVPTUV

Loss of voltage check LOVPTUV is suitable for use in

SEMOD171457-5 v7 networks with an automatic system restoration function.

LOVPTUV issues a three-pole trip command to the circuit breaker, if all three phase voltages fall below the set value for a time longer than the set time and the circuit breaker remains closed.

The operation of LOVPTUV is supervised by the fuse failure supervision FUFSPVC.

Broken conductor check BRCPTOC

SEMOD171446-5 v2

The main purpose of the function Broken conductor check

(BRCPTOC) is the detection of broken conductors on protected power lines and cables (series faults). Detection can be used to give alarm only or trip the line breaker.

5. Multipurpose protection

General current and voltage protection CVGAPC

M13083-11 v9

The General current and voltage protection (CVGAPC) can be utilized as a negative sequence current protection detecting unsymmetrical conditions such as open phase or unsymmetrical faults.

4. Voltage protection

Two step undervoltage protection UV2PTUV

M13789-3 v11

Undervoltages can occur in the power system during faults or abnormal conditions. Two step undervoltage protection

(UV2PTUV) function can be used to open circuit breakers to prepare for system restoration at power outages or as longtime delayed back-up to primary protection.

UV2PTUV has a high reset ratio to allow settings close to system service voltage.

ABB

6. Secondary system supervision

Current circuit supervision CCSSPVC

M12444-3 v10

Open or short circuited current transformer cores can cause unwanted operation of many protection functions such as differential, earth-fault current and negative-sequence current functions.

Current circuit supervision (CCSSPVC) compares the residual current from a three phase set of current transformer cores

13

Breaker protection REQ650 2.1 IEC

Product version: 2.1

1MRK 505 358-BEN B with the neutral point current on a separate input taken from another set of cores on the current transformer.

Current circuit supervision (CCSSPVC) compares the residual current from a two phase set of current transformer cores with the neutral point current on a separate input taken from another set of cores on the current transformer.

A detection of a difference indicates a fault in the circuit and is used as alarm or to block protection functions expected to give inadvertent tripping.

Fuse failure supervision FUFSPVC

SEMOD113820-4 v11

The aim of the fuse failure supervision function FUFSPVC is to block voltage measuring functions at failures in the secondary circuits between the voltage transformer and the IED in order to avoid inadvertent operations that otherwise might occur.

The fuse failure supervision function basically has three different detection methods, negative sequence and zero sequence based detection and an additional delta voltage and delta current detection.

A criterion based on delta current and delta voltage measurements can be added to the fuse failure supervision function in order to detect a three phase fuse failure, which in practice is more associated with voltage transformer switching during station operations.

difference, phase angle difference, slip frequency and frequency rate of change before issuing a controlled closing of the circuit breaker. Breaker closing time is a parameter setting.

M12390-3 v14

The autorecloser SMBRREC function provides high-speed and/or delayed auto-reclosing for single breaker applications.

Up to five three-phase reclosing attempts can be included by parameter setting.

autoreclosing function is configured to co-operate with the synchrocheck function.

The autorecloser SMBRREC function provides high-speed and/or delayed auto-reclosing for single or multi-breaker applications. The autoreclosing can be used for delayed busbar restoration. Two autoreclosers, one for each busbar, can be provided.

Up to five reclosing attempts can be included by parameter setting.

Each autoreclosing function is configured to co-operate with the synchrocheck function.

The autoreclosing function provides high-speed and/or delayed three pole autoreclosing.

Bay control QCBAY

M13447-3 v7

The Bay control QCBAY function is used together with Local remote and local remote control functions to handle the selection of the operator place per bay. QCBAY also provides blocking functions that can be distributed to different apparatuses within the bay.

7. Control

Synchrocheck, energizing check, and synchronizing

SESRSYN

M12480-3 v15

The Synchronizing function allows closing of asynchronous networks at the correct moment including the breaker closing time, which improves the network stability.

Synchrocheck, energizing check, and synchronizing

SESRSYN function checks that the voltages on both sides of the circuit breaker are in synchronism, or with at least one side dead to ensure that closing can be done safely.

The synchrocheck and energizing check function checks that the voltages on both sides of the circuit breaker are in synchronism, or with at least one side dead to ensure that closing can be done safely.

SESRSYN function includes a built-in voltage selection scheme for double bus and 1½ breaker or ring busbar arrangements.

Manual closing as well as automatic reclosing can be checked by the function and can have different settings.

For systems, which are running asynchronous, a synchronizing function is provided. The main purpose of the synchronizing function is to provide controlled closing of circuit breakers when two asynchronous systems are going to be connected. The synchronizing function evaluates voltage

14

Local remote LOCREM/Local remote control LOCREMCTRL

M17086-3 v8

The signals from the local HMI or from an external local/ remote switch are connected via the function blocks

LOCREM and LOCREMCTRL to the Bay control QCBAY function block. The parameter

ControlMode

in function block

LOCREM is set to choose if the switch signals are coming from the local HMI or from an external hardware switch connected via binary inputs.

Logic rotating switch for function selection and LHMI presentation SLGAPC

SEMOD114908-4 v9

The logic rotating switch for function selection and LHMI presentation SLGAPC (or the selector switch function block) is used to get an enhanced selector switch functionality compared to the one provided by a hardware selector switch.

Hardware selector switches are used extensively by utilities, in order to have different functions operating on pre-set values. Hardware switches are however sources for maintenance issues, lower system reliability and an extended purchase portfolio. The selector switch function eliminates all these problems.

ABB

Breaker protection REQ650 2.1 IEC

Product version: 2.1

1MRK 505 358-BEN B

Selector mini switch VSGAPC

The Selector mini switch VSGAPC function block is a

SEMOD158756-5 v8 multipurpose function used for a variety of applications, as a general purpose switch.

VSGAPC can be controlled from the menu, from a symbol on the single line diagram (SLD) on the local HMI or from Binary inputs

Generic communication function for Double Point indication

DPGAPC

SEMOD55850-5 v6

Generic communication function for Double Point indication

DPGAPC function block is used to send double indications to other systems, equipment or functions in the substation through IEC 61850-8-1 or other communication protocols. It is especially used in the interlocking station-wide logics.

Single point generic control 8 signals SPC8GAPC

SEMOD176462-4 v9

In this way, simple commands can be sent directly to the IED outputs, without confirmation. The commands can be pulsed or steady with a settable pulse time.

ABB

SEMOD158591-5 v7

Single command, 16 signals

M12446-6 v5

The IEDs can receive commands either from a substation automation system or from the local HMI. The command function block has outputs that can be used, for example, to control high voltage apparatuses or for other user defined functionality.

8. Logic

M12275-3 v10

A function block for protection tripping is always provided as basic for each circuit breaker involved in the tripping of the fault. It provides a settable pulse prolongation to ensure a trip pulse of sufficient length, as well as all functionality necessary for correct co-operation with autoreclosing functions.

The trip function block also includes a settable latch functionality for breaker lock-out.

Trip matrix logic TMAGAPC

M15321-3 v11

The trip matrix logic function has 3 output signals and these outputs can be connected to physical tripping outputs according to the specific application needs for settable pulse or steady output.

Group alarm logic function ALMCALH

GUID-16E60E27-F7A8-416D-8648-8174AAC49BB5 v3

The group alarm logic function ALMCALH is used to route several alarm signals to a common indication, LED and/or contact, in the IED.

Group warning logic function WRNCALH

GUID-F7D9A012-3AD4-4D86-BE97-DF2A99BE5383 v3

The group warning logic function WRNCALH is used to route several warning signals to a common indication, LED and/or contact, in the IED.

Group indication logic function INDCALH

Basic configurable logic blocks

M11396-4 v15

The basic configurable logic blocks do not propagate the time stamp and quality of signals (have no suffix QT at the end of their function name). A number of logic blocks and timers are always available as basic for the user to adapt the configuration to the specific application needs. The list below shows a summary of the function blocks and their features.

These logic blocks are also available as part of an extension logic package with the same number of instances.

• AND function block. Each block has four inputs and two outputs where one is inverted.

GUID-D8D1A4EE-A87F-46C6-8529-277FC1ADA9B0 v3

The group indication logic function INDCALH is used to route several indication signals to a common indication, LED and/or contact, in the IED.

• GATE function block is used for whether or not a signal should be able to pass from the input to the output.

• INVERTER function block that inverts one input signal to the output.

• LLD function block. Loop delay used to delay the output signal one execution cycle.

• OR function block. Each block has up to six inputs and two outputs where one is inverted.

• PULSETIMER function block can be used, for example, for pulse extensions or limiting of operation of outputs, settable pulse time.

• RSMEMORY function block is a flip-flop that can reset or set an output from two inputs respectively. Each block has two outputs where one is inverted. The memory setting controls if, after a power interruption, the flip-flop resets or returns to the state it had before the power interruption.

RESET input has priority.

• SRMEMORY function block is a flip-flop that can set or reset an output from two inputs respectively. Each block has two outputs where one is inverted. The memory setting controls if, after a power interruption, the flip-flop resets or returns to the state it had before the power interruption.

The SET input has priority.

• TIMERSET function has pick-up and drop-out delayed outputs related to the input signal. The timer has a settable time delay.

• XOR function block. Each block has two outputs where one is inverted.

Fixed signal function block

M15322-3 v11

The Fixed signals function FXDSIGN generates nine pre-set

(fixed) signals that can be used in the configuration of an IED, either for forcing the unused inputs in other function blocks to

15

Breaker protection REQ650 2.1 IEC

Product version: 2.1

1MRK 505 358-BEN B a certain level/value, or for creating certain logic. Boolean, integer, floating point, string types of signals are available.

One FXDSIGN function block is included in all IEDs.

Elapsed time integrator with limit transgression and overflow supervision (TEIGAPC)

GUID-2D64874A-F266-4251-8EED-E813F40513D7 v2

The Elapsed time integrator function TEIGAPC is a function that accumulates the elapsed time when a given binary signal has been high.

The main features of TEIGAPC

GUID-A93564FA-0017-4939-A9C1-095DA0FD9832 v1

The function gives the possibility to monitor the level of integer values in the system relative to each other or to a fixed value. It is a basic arithmetic function that can be used for monitoring, supervision, interlocking and other logics.

Comparator for real inputs REALCOMP

GUID-E17A88D7-D095-4F36-9CD5-64EBFD2A1DEA v1

The function gives the possibility to monitor the level of real value signals in the system relative to each other or to a fixed value. It is a basic arithmetic function that can be used for monitoring, supervision, interlocking and other logics.

• Applicable to long time integration (≤999 999.9

seconds).

• Supervision of limit transgression conditions and overflow.

• Possibility to define a warning or alarm with the resolution of 10 milliseconds.

• Retaining of the integration value.

• Possibilities for blocking and reset.

• Reporting of the integrated time.

Boolean 16 to Integer conversion B16I

SEMOD175725-4 v4

Boolean 16 to integer conversion function B16I is used to transform a set of 16 binary (logical) signals into an integer.

Boolean 16 to Integer conversion with logic node representation BTIGAPC

Boolean 16 to integer conversion with logic node

SEMOD175781-4 v7 representation function BTIGAPC is used to transform a set of

16 binary (logical) signals into an integer. The block input will freeze the output at the last value.

• measured voltages, currents, frequency, active, reactive and apparent power and power factor

• primary phasors

Disturbance report DRPRDRE

M12153-3 v11.1.1

Complete and reliable information about disturbances in the primary and/or in the secondary system together with continuous event-logging is accomplished by the disturbance report functionality.

Disturbance report DRPRDRE, always included in the IED, acquires sampled data of all selected analog input and binary signals connected to the function block with a, maximum of

40 analog and 128 binary signals.

BTIGAPC can receive remote values via IEC 61850 depending on the operator position input (PSTO).

Integer to Boolean 16 conversion

SEMOD158373-5 v5

Integer to boolean 16 conversion function is used to transform an integer into a set of 16 binary (logical) signals.

Integer to Boolean 16 conversion with logic node representation ITBGAPC

SEMOD158421-5 v8

Integer to boolean conversion with logic node representation function ITBGAPC is used to transform an integer which is transmitted over IEC 61850 and received by the function to

16 binary coded (logic) output signals.

9. Monitoring

Measurements CVMMXN, CMMXU, VNMMXU, VMMXU,

CMSQI, VMSQI

The measurement functions are used to get on-line information from the IED. These service values make it

M12024-3 v8 possible to display on-line information on the local HMI and on the Substation automation system about:

The Disturbance report functionality is a common name for several functions:

• Event list

• Indications

• Event recorder

• Trip value recorder

• Disturbance recorder

The Disturbance report function is characterized by great flexibility regarding configuration, starting conditions, recording times, and large storage capacity.

ITBGAPC function can only receive remote values over IEC

61850 when the R/L (Remote/Local) push button on the front

HMI, indicates that the control mode for the operator is in position R (Remote i.e. the LED adjacent to R is lit ), and the corresponding signal is connected to the input PSTO

ITBGAPC function block. The input BLOCK will freeze the output at the last received value and blocks new integer values to be received and converted to binary coded outputs.

Comparator for integer inputs INTCOMP

A disturbance is defined as an activation of an input to the

AnRADR or BnRBDR function blocks, which are set to trigger the disturbance recorder. All connected signals from start of pre-fault time to the end of post-fault time will be included in the recording.

Every disturbance report recording is saved in the IED in the standard Comtrade format as a reader file HDR, a configuration file CFG, and a data file DAT. The same applies

16 ABB

Breaker protection REQ650 2.1 IEC

Product version: 2.1

1MRK 505 358-BEN B to all events, which are continuously saved in a -buffer. The local HMI is used to get information about the recordings. The disturbance report files may be uploaded to PCM600 for further analysis using the disturbance handling tool.

Event list DRPRDRE

M12412-6 v8

Continuous event-logging is useful for monitoring the system from an overview perspective and is a complement to specific disturbance recorder functions.

The event list logs all binary input signals connected to the

Disturbance recorder function. The list may contain up to

1000 time-tagged events stored in a -buffer.

Indications DRPRDRE

To get fast, condensed and reliable information about a straightforward way.

the Disturbance recorder function (triggered).

M12030-3 v6 disturbances in the primary and/or in the secondary system it is important to know, for example binary signals that have changed status during a disturbance. This information is used in the short perspective to get information via the local HMI in

There are three LEDs on the local HMI (green, yellow and red), which will display status information about the IED and

The Indication list function shows all selected binary input signals connected to the Disturbance recorder function that have changed status during a disturbance.

Event recorder DRPRDRE

M12033-3 v8

Quick, complete and reliable information about disturbances in the primary and/or in the secondary system is vital, for example, time-tagged events logged during disturbances.

This information is used for different purposes in the short term (for example corrective actions) and in the long term (for example functional analysis).

The event recorder logs all selected binary input signals connected to the Disturbance recorder function. Each recording can contain up to 150 time-tagged events.

The event recorder information is available for the disturbances locally in the IED.

The event recording information is an integrated part of the disturbance record (Comtrade file).

Trip value recorder DRPRDRE

M12128-3 v7

Information about the pre-fault and fault values for currents and voltages are vital for the disturbance evaluation.

The Trip value recorder calculates the values of all selected analog input signals connected to the Disturbance recorder function. The result is magnitude and phase angle before and during the fault for each analog input signal.

The trip value recorder information is available for the disturbances locally in the IED.

The trip value recorder information is an integrated part of the disturbance record (Comtrade file).

Disturbance recorder DRPRDRE

M12156-3 v10

The Disturbance recorder function supplies fast, complete and reliable information about disturbances in the power system. It facilitates understanding system behavior and related primary and secondary equipment during and after a disturbance. Recorded information is used for different purposes in the short perspective (for example corrective actions) and long perspective (for example functional analysis).

The Disturbance recorder acquires sampled data from selected analog- and binary signals connected to the

Disturbance recorder function (maximum 40 analog and 128 binary signals). The binary signals available are the same as for the event recorder function.

The function is characterized by great flexibility and is not dependent on the operation of protection functions. It can record disturbances not detected by protection functions. Up to ten seconds of data before the trigger instant can be saved in the disturbance file.

The disturbance recorder information for up to 100 disturbances are saved in the IED and the local HMI is used to view the list of recordings.

Event function

M12805-6 v10

When using a Substation Automation system with LON or

SPA communication, time-tagged events can be sent at change or cyclically from the IED to the station level. These events are created from any available signal in the IED that is connected to the Event function (EVENT). The EVENT function block is used for LON and SPA communication.

Analog and double indication values are also transferred through the EVENT function.

Generic communication function for Single Point indication

SPGAPC

SEMOD55713-5 v7

Generic communication function for Single Point indication

SPGAPC is used to send one single logical signal to other systems or equipment in the substation.

Measured value expander block translating the integer output signal from the measuring functions to 5 binary signals: below low-low limit, below low limit, normal, above high limit or above high-high limit. The output signals can be used as conditions in the configurable logic or for alarming purpose.

SEMOD52450-4 v7 are provided with measurement supervision functionality. All measured values can be supervised with four settable limits: low-low limit, low limit, high limit and high-high limit. The measure value expander block has been introduced to enable

ABB 17

Breaker protection REQ650 2.1 IEC

Product version: 2.1

1MRK 505 358-BEN B

Event counter with limit supervison L4UFCNT

GUID-13157EAB-1686-4D2E-85DF-EC89768F3572 v5

The 30 limit counter L4UFCNT provides a settable counter with four independent limits where the number of positive and/or negative flanks on the input signal are counted against the setting values for limits. The output for each limit is activated when the counted value reaches that limit.

Overflow indication is included for each up-counter.

Running hour-meter (TEILGAPC)

GUID-464FB24F-B367-446C-963A-A14841943B87 v1

The Running hour-meter (TEILGAPC) function is a function that accumulates the elapsed time when a given binary signal has been high.

The main features of TEILGAPC are: time

tEnergy

. The integration of active and reactive energy values will happen in both forward and reverse directions.

These energy values are available as output signals and also as pulse outputs. Integration of energy values can be controlled by inputs (STARTACC and STOPACC) and

EnaAcc

setting and it can be reset to initial values with RSTACC input.

The maximum demand for active and reactive powers are calculated for the set time interval

tEnergy

and these values are updated every minute through output channels. The active and reactive maximum power demand values are calculated for both forward and reverse direction and these values can be reset with RSTDMD input.

• Applicable to very long time accumulation (≤ 99999.9

hours)

• Supervision of limit transgression conditions and rollover/ overflow

• Possibility to define a warning and alarm with the resolution of 0.1 hours

• Retain any saved accumulation value at a restart

• Possibilities for blocking and reset

• Possibility for manual addition of accumulated time

• Reporting of the accumulated time

11. Human machine interface

Local HMI

AMU0600442 v14

10. Metering

Pulse-counter logic PCFCNT

Pulse-counter logic (PCFCNT) function counts externally

M13394-3 v7 generated binary pulses, for instance pulses coming from an external energy meter, for calculation of energy consumption values. The pulses are captured by the binary input module and then read by the PCFCNT function. A scaled service value is available over the station bus. The special Binary input module with enhanced pulse counting capabilities must be ordered to achieve this functionality.

Function for energy calculation and demand handling

(ETPMMTR)

GUID-6898E29B-DA70-421C-837C-1BBED8C63A7A v2

Measurements function block (CVMMXN) can be used to measure active as well as reactive power values. Function for energy calculation and demand handling (ETPMMTR) uses measured active and reactive power as input and calculates the accumulated active and reactive energy pulses, in forward and reverse direction. Energy values can be read or generated as pulses. Maximum demand power values are also calculated by the function. This function includes zero point clamping to remove noise from the input signal. As output of this function: periodic energy calculations, integration of energy values, calculation of energy pulses, alarm signals for limit violation of energy values and maximum power demand, can be found.

The values of active and reactive energies are calculated from the input power values by integrating them over a selected

18

IEC13000239 V2 EN-US

Figure 2.

Local human-machine interface

IEC13000239-2-en.vsd

The LHMI of the IED contains the following elements:

• Graphical display capable of showing a user defined single line diagram and provide an interface for controlling switchgear.

• Navigation buttons and five user defined command buttons to shortcuts in the HMI tree or simple commands.

• 15 user defined three-color LEDs.

• Communication port for PCM600.

ABB

Breaker protection REQ650 2.1 IEC

Product version: 2.1

1MRK 505 358-BEN B

The LHMI is used for setting, monitoring and controlling.

12. Basic IED functions

Time synchronization

M11344-3 v9

The time synchronization function is used to select a common source of absolute time for the synchronization of the IED when it is a part of a protection system. This makes it possible to compare events and disturbance data between all

IEDs within a station automation system and in between substations.

13. Station communication

Communication protocols

Each IED is provided with a communication interface,

• IEC 61850-8-1 communication protocol

• LON communication protocol

• SPA or IEC 60870-5-103 communication protocol

• DNP3.0 communication protocol

M14815-3 v12 enabling it to connect to one or many substation level systems or equipment, either on the Substation Automation

(SA) bus or Substation Monitoring (SM) bus.

Available communication protocols are:

SEMOD120137-5 v3

DNP3.0 communication protocol

SEMOD153688-5 v1

An electrical RS485 and an optical Ethernet port is available for the DNP3.0 communication. DNP3.0 Level 2 communication with unsolicited events, time synchronizing and disturbance reporting is provided for communication to

RTUs, Gateways or HMI systems.

Multiple command and transmit

M14791-3 v3

When IEDs are used in Substation Automation systems with

LON, SPA or IEC 60870-5-103 communication protocols, the

Event and Multiple Command function blocks are used as the communication interface for vertical communication to station

HMI and gateway, and as interface for horizontal peer-to-peer communication (over LON only).

IEC 62439-3 Parallel Redundancy Protocol

GUID-A90FDBA7-D4D7-4CBD-9F05-13DCC9971779 v5

Redundant station bus communication according to IEC

62439-3 Edition 1 and IEC 62439-3 Edition 2 parallel redundancy protocol (PRP) are available as options when ordering IEDs. Redundant station bus communication according to IEC 62439-3 uses both port AB and port CD on the OEM module.

Several protocols can be combined in the same IED.

IEC 61850-8-1 communication protocol

M14787-3 v13

The IEC 61850-8-1 communication is also possible from the electrical Ethernet front port. IEC 61850-8-1 protocol allows intelligent electrical devices (IEDs) from different vendors to exchange information and simplifies system engineering. IEDto-IED communication using GOOSE and client-server communication over MMS are supported. Disturbance recording file (COMTRADE) uploading can be done over MMS or FTP.

The front port shall not be used due to interference.

14. Hardware description

Hardware modules

IP14529-1 v1

Power supply module PSM

The power supply module is used to provide the correct

M11595-3 v5 internal voltages and full isolation between the IED and the battery system. An internal fail alarm output is available.

Binary input module BIM

M1769-3 v4

The binary input module has 16 optically isolated inputs and is available in two versions, one standard and one with enhanced pulse counting capabilities on the inputs to be used with the pulse counter function. The binary inputs are freely programmable and can be used for the input of logical signals to any of the functions. They can also be included in the disturbance recording and event-recording functions. This enables extensive monitoring and evaluation of operation of the IED and for all associated electrical circuits.

LON communication protocol

SEMOD120140-5 v2

Existing stations with ABB station bus LON can be extended with use of the optical LON interface. This allows full SA functionality including peer-to-peer messaging and cooperation between the IEDs.

SPA communication protocol

SEMOD120134-5 v1

A single glass or plastic port is provided for the ABB SPA protocol. This allows extensions of simple substation automation systems but the main use is for Substation

Monitoring Systems SMS.

IEC 60870-5-103 communication protocol

Binary output module BOM

M6938-3 v4

The binary output module has 24 independent output relays and is used for trip output or any signaling purpose.

Binary input/output module IOM

M6939-3 v6

The binary input/output module is used when only a few input and output channels are needed. The ten standard output channels are used for trip output or any signaling purpose.

The two high speed signal output channels are used for applications where short operating time is essential. Eight optically isolated binary inputs cater for required binary input information.

ABB 19

Breaker protection REQ650 2.1 IEC

Product version: 2.1

1MRK 505 358-BEN B

M2152-3 v5

Optical ethernet module OEM

M16073-3 v6

The optical fast-ethernet module is used for fast and interference-free communication of synchrophasor data over

IEEE C37.118 and/or IEEE 1344 protocols. It is also used to connect an IED to the communication buses (like the station bus) that use the IEC 61850-8-1 protocol (port A, B). The module has one or two optical ports with ST connectors.

Galvanic RS485 serial communication module

SEMOD158664-5 v3

The Galvanic RS485 communication module (RS485) is used for DNP3.0 and IEC 60870-5-103 communication. The module has one RS485 communication port. The RS485 is a balanced serial communication that can be used either in 2wire or 4-wire connections. A 2-wire connection uses the same signal for RX and TX and is a multidrop communication with no dedicated Master or slave. This variant requires however a control of the output. The 4-wire connection has separated signals for RX and TX multidrop communication with a dedicated Master and the rest are slaves. No special control signal is needed in this case.

IEC04000448 V2 EN-US

Figure 3.

Case without rear cover

IRIG-B Time synchronizing module

SEMOD141113-4 v7

The IRIG-B time synchronizing module is used for accurate time synchronizing of the IED from a station clock.

Transformer input module TRM

M14875-3 v9

The transformer input module is used to galvanically separate and adapt the secondary currents and voltages generated by the measuring transformers. The module has twelve inputs in different combinations of currents and voltage inputs.

Alternative connectors of Ring lug or Compression type can be ordered.

High impedance resistor unit

M16727-3 v2

The high impedance resistor unit, with resistors for pick-up value setting and a voltage dependent resistor, is available in a single phase unit and a three phase unit. Both are mounted on a 1/1 19 inch apparatus plate with compression type terminals.

Layout and dimensions

Dimensions

IP14539-1 v1

IP14826-1 v1

IEC04000464 V2 EN-US

Figure 4.

Case without rear cover with 19” rack mounting kit

M15243-12 v8

Case size

(mm)/(inches)

A B C D E F

6U, 1/2 x 19” 265.9/

10.47

223.7/

8.81

242.1/

9.53

255.8/

10.07

205.7/

8.10

The H and K dimensions are defined by the 19” rack mounting kit.

190.5/

7.50

G

203.7/

8.02

-

H J

228.6/

9.00

-

K

Mounting alternatives

• 19” rack mounting kit

• Flush mounting kit with cut-out dimensions:

20

M16079-3 v13

– 1/2 case size (h) 254.3 mm/10.01” (w) 210.1 mm/

8.27”

• Wall mounting kit

ABB

Breaker protection REQ650 2.1 IEC

Product version: 2.1

See ordering for details about available mounting alternatives.

1MRK 505 358-BEN B

ABB 21

Breaker protection REQ650 2.1 IEC

Product version: 2.1

1MRK 505 358-BEN B

15. Connection diagrams

Connection diagrams

GUID-CF4EFFA5-3081-4FC7-9A14-ED127C3C0FDE v4

The connection diagrams are delivered on the IED

Connectivity package DVD as part of the product delivery.

The latest versions of the connection diagrams can be downloaded from http://www.abb.com/substationautomation .

650 series ver. 2.1, IEC symbols 1MRK006501-AF

650 series ver. 2.1, ANSI symbols 1MRK006502-AF

Connection diagram, REQ650 2.1, B11 1MRK006505-QA

22 ABB

Breaker protection REQ650 2.1 IEC

Product version: 2.1

1MRK 505 358-BEN B

16. Technical data

General

M10993-1 v3 IP11376-1 v2

Definitions

Reference value The specified value of an influencing factor to which are referred the characteristics of the equipment

Nominal range The range of values of an influencing quantity (factor) within which, under specified conditions, the equipment meets the specified requirements

Operative range The range of values of a given energizing quantity for which the equipment, under specified conditions, is able to perform its intended functions according to the specified requirements

IP15765-1 v2

Energizing quantities, rated values and limits

ABB 23

Breaker protection REQ650 2.1 IEC

Product version: 2.1

Analog inputs

M16988-1 v10

Table 4. TRM - Energizing quantities, rated values and limits for protection transformer modules

Quantity

Current

Operative range

Permissive overload

Burden

AC voltage

Operative range

Permissive overload

Burden

Frequency

*) max. 350 A for 1 s when COMBITEST test switch is included.

SEMOD55310-2 v9

Table 5. OEM - Optical ethernet module

Rated value

I r

= 1 or 5 A

(0-100) x I r

4 × I r

cont.

100 × I r

for 1 s *)

< 150 mVA at I r

= 5 A

< 20 mVA at I r

= 1 A

U r

= 110 V

(0–340) V

420 V cont.

450 V 10 s

< 20 mVA at 110 V f r

= 50/60 Hz

Quantity

Number of channels

Standard

Type of fiber

Wave length

Optical connector

Communication speed

Rated value

1 or 2 (port A, B for IEC 61850-8-1 / IEEE C37.118)

IEEE 802.3u 100BASE-FX

62.5/125 m m multimode fibre

1300 nm

Type ST

Fast Ethernet 100 Mbit/s

Table 6. PSM - Power supply module

Quantity

Auxiliary DC voltage, EL (input)

Power consumption

Auxiliary DC power in-rush

Binary inputs and outputs

M50609-2 v6

Rated value

EL = (24-60) V

EL = (90-250) V

32 W typically

< 10 A during 0.1 s

Nominal range

-

-

EL ± 20%

EL ± 20%

1MRK 505 358-BEN B

IP15842-1 v1

Nominal range

(0.2-40) × I r

0.5–288 V

±5%

IP15844-1 v1

24 ABB

Breaker protection REQ650 2.1 IEC

Product version: 2.1

1MRK 505 358-BEN B

Table 7. BIM - Binary input module with enhanced pulse counting capabilities

Quantity

Binary inputs

DC voltage, RL

Power consumption

24/30 V

48/60 V

110/125 V

220/250 V

Counter input frequency

Balanced counter input frequency

Oscillating signal discriminator

Debounce filter

Rated value

16

24/30 V

48/60 V

110/125 V

220/250 V max. 0.05 W/input max. 0.1 W/input max. 0.2 W/input max. 0.4 W/input

10 pulses/s max

40 pulses/s max

Blocking settable 1–40 Hz

Release settable 1–30 Hz

Settable 1-20 ms

Maximum 176 binary input channels may be activated simultaneously with influencing factors within nominal range.

-

-

Nominal range

-

-

RL ± 20%

RL ± 20%

RL ± 20%

RL ± 20%

M12441-1 v8

Table 8. BOM - Binary output module contact data (reference standard: IEC 61810-2)

Function or quantity

Binary outputs

Max system voltage

Test voltage across open contact, 1 min

Current carrying capacity

Per relay, continuous

Per relay, 1 s

Per process connector pin, continuous

Making capacity at inductive load with L/R > 10 ms

0.2 s

1.0 s

Breaking capacity for AC, cos j > 0.4

Breaking capacity for DC with L/R < 40 ms

Trip and Signal relays

24

250 V AC, DC

1000 V rms

8 A

10 A

12 A

30 A

10 A

250 V/8.0 A

48 V/1 A

110 V/0.4 A

125 V/0.35 A

220 V/0.2 A

250 V/0.15 A

ABB 25

Breaker protection REQ650 2.1 IEC

Product version: 2.1

1MRK 505 358-BEN B

Influencing factors

Table 9. Temperature and humidity influence

Parameter

Ambient temperature, operate value

Relative humidity

Operative range

Storage temperature -

Reference value

+20°C

10-90%

0-95%

M16705-1 v10

Nominal range

-20°C to +55°C

10-90% -

Influence

0.02%/°C

-40°C to +70°C -

Table 10. Auxiliary DC supply voltage influence on functionality during operation

Dependence on Reference value Within nominal range

15% of EL Ripple, in DC auxiliary voltage

Operative range

Auxiliary voltage dependence, operate value

Interrupted auxiliary DC voltage

Interruption interval

0–50 ms

0–∞ s

Restart time max. 2%

Full wave rectified

±20% of EL

24-60 V DC ± 20%

90-250 V DC ± 20%

Influence

0.01%/%

0.01%/%

No restart

Correct behaviour at power down

< 300 s

Table 11. Frequency influence (reference standard: IEC 60255–1)

Dependence on

Frequency dependence, operate value

Frequency dependence for broken conductor

Within nominal range f f r r

±2.5 Hz for 50 Hz

±3.0 Hz for 60 Hz f f r r

±2.5 Hz for 50 Hz

±3.0 Hz for 60 Hz

Harmonic frequency dependence (20% content) 2 nd , 3 rd and 5 th harmonic of f r

Harmonic frequency dependence for broken conductor (20% content) 2nd, 3rd and 5 th harmonic of f r

Influence

±1.0%/Hz

±2.0%/Hz

±1.0%

±2.0%

IP15846-1 v1

Type tests according to standards

M16706-1 v9 IP15778-1 v1

26 ABB

Breaker protection REQ650 2.1 IEC

Product version: 2.1

Table 12. Electromagnetic compatibility

Test

1 MHz burst disturbance

100 kHz slow damped oscillatory wave immunity test

Ring wave immunity test, 100 kHz

Surge withstand capability test

Electrostatic discharge

Direct application

Indirect application

Electrostatic discharge

Direct application

Indirect application

Fast transient disturbance

Surge immunity test

Power frequency immunity test

Conducted common mode immunity test

Power frequency magnetic field test

Pulse magnetic field immunity test

Damped oscillatory magnetic field test

Radiated electromagnetic field disturbance

Radiated electromagnetic field disturbance

Conducted electromagnetic field disturbance

Radiated emission

Radiated emission

Conducted emission

Table 13. Insulation

Test

Dielectric test

Impulse voltage test

Insulation resistance

1MRK 505 358-BEN B

Type test values

2.5 kV

2.5 kV

2-4 kV

2.5 kV, oscillatory

4.0 kV, fast transient

15 kV air discharge

8 kV contact discharge

8 kV contact discharge

15 kV air discharge

8 kV contact discharge

8 kV contact discharge

4 kV

2-4 kV, 1.2/50 m s high energy

150-300 V, 50 Hz

15 Hz-150 kHz

1000 A/m, 3 s

100 A/m, cont.

1000 A/m

100 A/m

20 V/m, 80-1000 MHz

1.4-2.7 GHz

20 V/m

80-1000 MHz

10 V, 0.15-80 MHz

30-5000 MHz

30-5000 MHz

0.15-30 MHz

Reference standards

IEC 60255-26

IEC 61000-4-18, Class III

IEC 61000-4-12, Class IV

IEEE/ANSI C37.90.1

IEC 60255-26

IEC 61000-4-2, Class IV

IEEE/ANSI C37.90.1

IEC 60255-26, Zone A

IEC 60255-26, Zone A

IEC 60255-26, Zone A

IEC 61000-4-16, Class IV

IEC 61000-4-8, Class V

IEC 61000–4–9, Class V

IEC 61000-4-10, Class V

IEC 60255-26

IEEE/ANSI C37.90.2

IEC 60255-26

IEC 60255-26

IEEE/ANSI C63.4, FCC

IEC 60255-26

Type test values

2.0 kV AC, 1 min.

5 kV, 1.2/50 m s, 0.5 J

> 100 M W at 500 VDC

Reference standard

IEC 60255-27

ANSI C37.90

ABB 27

Breaker protection REQ650 2.1 IEC

Product version: 2.1

1MRK 505 358-BEN B

Table 14. Environmental tests

Test

Cold operation test

Cold storage test

Dry heat operation test

Dry heat storage test

Change of temperature test

Damp heat test, steady state

Damp heat test, cyclic

Table 15. CE compliance

Test

Immunity

Emissivity

Low voltage directive

Table 16. Mechanical tests

Test

Vibration response test

Vibration endurance test

Shock response test

Shock withstand test

Bump test

Seismic test

Type test value

Test Ad for 16 h at -25°C

Test Ab for 16 h at -40°C

Test Bd for 16 h at +70°C

Test Bb for 16 h at +85°C

Test Nb for 5 cycles at -25°C to +70°C

Test Ca for 10 days at +40°C and humidity 93%

Test Db for 6 cycles at +25 to +55°C and humidity 93 to 95% (1 cycle =

24 hours)

Reference standard

IEC 60068-2-1

IEC 60068-2-1

IEC 60068-2-2

IEC 60068-2-2

IEC 60068-2-14

IEC 60068-2-78

IEC 60068-2-30

Type test values

Class II

Class I

Class I

Class I

Class I

Class II

According to

EN 60255–26

EN 60255–26

EN 60255–27

Reference standards

IEC 60255-21-1

IEC 60255-21-1

IEC 60255-21-2

IEC 60255-21-2

IEC 60255-21-2

IEC 60255-21-3

28 ABB

Breaker protection REQ650 2.1 IEC

Product version: 2.1

Current protection

Table 17. PHPIOC

Function

Operate current

Reset ratio

Operate time at 0 to 2 x I set

Reset time at 2 to 0 x I set

Critical impulse time

Operate time at 0 to 10 x I set

Reset time at 10 to 0 x I set

Critical impulse time

Dynamic overreach

M12336-1 v12

Range or value

(5-2500)(5–1200)% of lBase

> 95% at (50–2500)% of IBase

> 95% at (5–1200)% of IBase

Min. = 15 ms40 ms

Max. = 25 ms50 ms

Min. = 15 ms45 ms

Max. = 25 ms65 ms

10 ms35 ms typically at 0 to 2 x I set

Min. = 5 ms10 ms

Max. = 15 ms20 ms

Min. = 25 ms80 ms

Max. = 40 ms100 ms

2 ms typically at 0 to 10 x I set

7 ms typically at 0 to 10 x I set

< 5% at t = 100 ms

1MRK 505 358-BEN B

-

-

-

-

-

-

-

Accuracy

-

± 1.0% of I r

at I ≤ I r

± 1.0% of I at I > I r

ABB 29

Breaker protection REQ650 2.1 IEC

Product version: 2.1

Table 18. Four-step phase overcurrent protection OC4PTOC

Function

Operate current, step 1-4

Setting range

(5-2500)% of lBase

M12342-1 v18

Reset ratio > 95% at (50–2500)% of lBase

Minimum operate current, step 1-4 (1-10000)% of lBase

Relay characteristic angle (RCA)

Relay operating angle (ROA)

Second harmonic blocking

Independent time delay at 0 to 2 x

I set

, step 1-4

Minimum operate time for inverse curves , step 1-4

Inverse time characteristics, see table

103 , table

104 and table 105

Operate time, start non-directional at 0 to 2 x I set

(40.0–65.0) degrees

(40.0–89.0) degrees

(5–100)% of fundamental

(0.000-60.000) s

(0.000-60.000) s

16 curve types

Reset time, start non-directional at

2 to 0 x I set

Operate time, start non-directional at 0 to 10 x I set

Reset time, start non-directional at

10 to 0 x I set

Critical impulse time

Impulse margin time

Min. = 15 ms

Max. = 30 ms

Min. = 15 ms

Max. = 30 ms

Min. = 5 ms

Max. = 20 ms

Min. = 20 ms

Max. = 35 ms

10 ms typically at 0 to 2 x I set

15 ms typically

M12340-2 v8

Table 19. Instantaneous residual overcurrent protection EFPIOC

Function

Operate current

Range or value

(5-2500)% of lBase

Reset ratio

Operate time at 0 to 2 x I

Reset time at 2 to 0 x I

Critical impulse time set set

Operate time at 0 to 10 x I

Reset time at 10 to 0 x I

Critical impulse time

Dynamic overreach

30 set set

> 95% at (50–2500)% of lBase

Min. = 15 ms

Max. = 25 ms

Min. = 15 ms

Max. = 25 ms

10 ms typically at 0 to 2 x I set

Min. = 5 ms

Max. = 15 ms

Min. = 25 ms

Max. = 35 ms

2 ms typically at 0 to 10 x I set

< 5% at t = 100 ms

1MRK 505 358-BEN B

-

-

-

-

-

-

Accuracy

-

-

±1.0% of I r

at I ≤ I r

±1.0% of I at I > I r

-

-

-

-

Accuracy

-

± 1.0% of I r

at I ≤ I r

± 1.0% of I at I > I r

± 1.0% of I r

at I ≤ I r

± 1.0% of I at I > I r

-

± 2.0 degrees

± 2.0% of I r

± 0.2% or ± 35 ms whichever is greater

±0.2% or ±35 ms whichever is greater

-

See table

103 , table

104 and table

105

ABB

Breaker protection REQ650 2.1 IEC

Product version: 2.1

M15223-1 v16

Table 20. Four step residual overcurrent protection EF4PTOC technical data

Function

Operate current, step 1-4

Range or value

(1-2500)% of IBase

Reset ratio

Relay characteristic angle

(RCA)

Operate current for directional release

> 95% at (10-2500)% of IBase

(-180 to 180) degrees

(1–100)% of IBase

Independent time delay at 0 to 2 x I set

, step 1-4

Minimum operate time for inverse curves, step 1-4

Inverse time characteristics, see

Table 103

, Table 104

and Table

105

Second harmonic blocking

Minimum polarizing voltage

Minimum polarizing current

Real part of source Z used for current polarization

Imaginary part of source Z used for current polarization

Operate time, start nondirectional at 0 to 2 x I set

Reset time, start non-directional at 2 to 0 x I set

Operate time, start nondirectional at 0 to 10 x I set

Reset time, start non-directional at 10 to 0 x I set

Critical impulse time

Impulse margin time

(0.000-60.000) s

(0.000 - 60.000) s

16 curve types

(5–100)% of fundamental

(1–100)% of UBase

(2-100)% of IBase

(0.50-1000.00) W /phase

(0.50–3000.00) W /phase

Min. = 15 ms

Max. = 30 ms

Min. = 15 ms

Max. = 30 ms

Min. = 5 ms

Max. = 20 ms

Min. = 20 ms

Max. = 35 ms

10 ms typically at 0 to 2 x I set

15 ms typically

1MRK 505 358-BEN B

-

-

-

-

-

-

-

Accuracy

±1.0% of I r

at I ≤ I r

±1.0% of I at I > I r

-

±2.0 degrees

For RCA ±60 degrees:

±2.5% of I r

at I ≤ I

±2.5% of I at I > I r r

±0.2% or ±35 ms whichever is greater

±0.2% or ±35 ms whichever is greater

See Table 103

, Table 104

and

Table 105

±2.0% of I r

-

±0.5% of U r

±1.0% of I r

ABB 31

Breaker protection REQ650 2.1 IEC

Product version: 2.1

GUID-E83AD807-8FE0-4244-A50E-86B9AF92469E v5

Table 21. Four step negative sequence overcurrent protection NS4PTOC

Function

Operate current, step 1 - 4

Range or value

(1-2500)% of lBase

Reset ratio

Independent time delay at 0 to

2 x I set

, step 1 - 4

Minimum operate time for inverse curves, step 1 - 4

Inverse time characteristics, see table

103 , table

104 and

table

105

Minimum operate current, step

1 - 4

Relay characteristic angle

(RCA)

Operate current for directional release

> 95% at (10-2500)% of IBase

(0.000-60.000) s

(0.000 - 60.000) s

16 curve types

(1.00 - 10000.00)% of IBase

(-180 to 180) degrees

(1–100)% of IBase

Minimum polarizing voltage

Minimum polarizing current

Real part of negative sequence source impedance used for current polarization

Imaginary part of negative sequence source impedance used for current polarization

Operate time, start nondirectional at 0 to 2 x I set

Reset time, start nondirectional at 2 to 0 x I set

Operate time, start nondirectional at 0 to 10 x I set

Reset time, start nondirectional at 10 to 0 x I set

Critical impulse time

Impulse margin time

Transient overreach

(1–100)% of UBase

(2-100)% of IBase

(0.50-1000.00) W /phase

(0.50–3000.00) W /phase

Min. = 15 ms

Max. = 30 ms

Min. = 15 ms

Max. = 30 ms

Min. = 5 ms

Max. = 20 ms

Min. = 20 ms

Max. = 35 ms

10 ms typically at 0 to 2 x I

15 ms typically

<10% at τ = 100 ms set

1MRK 505 358-BEN B

-

-

-

-

-

-

-

-

Accuracy

-

±1.0% of I r

at I £ I

±1.0% of I at I > I r r

±0.2% or ±35 ms whichever is greater

±0.2% or ±35 ms whichever is greater

See table 103

, table 104

and table

105

±1.0% of I r at I ≤ I

±1.0% of I at I > I r r

± 2.0 degrees

For RCA ±60 degrees:

±2.5% of I r

at I ≤ I

±2.5% of I at I > I r r

±0.5% of U r

-

±1.0% of I r

32 ABB

Breaker protection REQ650 2.1 IEC

Product version: 2.1

1MRK 505 358-BEN B

M12352-1 v13

Table 22. Thermal overload protection, one time constant LCPTTR/LFPTTR

Function

Reference current

Reference temperature

Operate time:

Range or value

(2-400)% of IBase

(0-300)°C, (0 - 600)°F

Time constant t = (1–1000) minutes t = t ln

ê

ê

é

ê

ê

I 2 I 2 p

-

I 2 I 2 p

T

Trip

T

Amb

T ref

× I 2 ref

ú

ú

ù

ú

EQUATION13000039 V2 EN-US

(Equation 1)

T

Trip

T

Amb

= set operate temperature

= ambient temperature

T ref

= temperature rise above ambient at I ref

I ref

= reference load current

I

I = actual measured current p

= load current before overload occurs

Alarm temperature

Operate temperature

Reset level temperature

(0-200)°C, (0-400)°F

(0-300)°C, (0-600)°F

(0-300)°C, (0-600)°F

M12353-1 v12

Table 23. Breaker failure protection CCRBRF

Function

Operate phase current

Range or value

(5-200)% of lBase

Accuracy

±1.0% of I r

± 1.0°C, ±2.0°F

IEC 60255-149, ±5.0% or ±200 ms whichever is greater

±2.0°C, ±4.0°F

±2.0°C, ±4.0°F

±2.0°C, ±4.0°F

Reset ratio, phase current

Operate residual current

Reset ratio, residual current

Phase current level for blocking of contact function

Reset ratio

Operate time for current detection

Reset time for current detection

Time delay for re-trip at 0 to 2 x I set

Time delay for back-up trip at 0 to 2 x I set

Time delay for back-up trip at multi-phase start at 0 to 2 x I set

Additional time delay for a second back-up trip at 0 to 2 x I set

Time delay for alarm for faulty circuit breaker

> 95%

(2-200)% of lBase

> 95%

(5-200)% of lBase

> 95%

10 ms typically

15 ms maximum

(0.000-60.000) s

(0.000-60.000) s

(0.000-60.000) s

(0.000-60.000) s

(0.000-60.000) s

Accuracy

±1.0% of I r

at I £ I r

±1.0% of I at I > I r

-

±1.0% of I r

at I £ I r

±1.0% of I at I > I r

-

-

-

±1.0% of I r

at I £ I

±1.0% of I at I > I r r

-

±0.2% or ±15 ms whichever is greater

±0.2% or ±15 ms whichever is greater

±0.2% or ±20 ms whichever is greater

±0.2% or ±20 ms whichever is greater

±0.2% or ±15 ms whichever is greater

ABB 33

Breaker protection REQ650 2.1 IEC

Product version: 2.1

1MRK 505 358-BEN B

M12350-1 v11

Table 24. Stub protection STBPTOC

Function

Operating current

Reset ratio

Independent time delay at 0 to 2 x I

Operate time, start at 0 to 2 x I

Reset time, start at 2 to 0 x I

Critical impulse time

Impulse margin time set set set

Range or value

(5-2500)% of

Table 25. Broken conductor check BRCPTOC

Function

Minimum phase current for operation

Unbalance current operation

Independent operate time delay

Independent reset time delay

Start time at current change from I r

to 0

Reset time at current change from 0 to I r

Range or value

(5–100)% of IBase

(50–90)% of maximum current

(0.000-60.000) s

(0.010-60.000) s

Min. = 25 ms

Max. = 35 ms

Min. = 5 ms

Max. = 20 ms

-

-

IBase

> 95% at (50-2500)% of

(0.000-60.000) s

Accuracy

±1.0% of I

±1.0% of I r r

IBase

Min. = 10 ms

Max. = 20 ms

Min. = 10 ms

Max. = 20 ms

10 ms typically at 0 to 2 x I set

15 ms typically

SEMOD175200-2 v7

-

-

-

Accuracy

-

± 1.0% of I r

at I ≤ I r

± 1.0% of I at I > I r

-

± 0.2% or ± 30 ms whichever is greater

±0.2% or ±45 ms whichever is greater

±0.2% or ±30 ms whichever is greater

34 ABB

1MRK 505 358-BEN B

Breaker protection REQ650 2.1 IEC

Product version: 2.1

Voltage protection

Table 26. Two step undervoltage protection UV2PTUV

Function

Operate voltage, low and high step

Absolute hysteresis

Internal blocking level, step 1 and step 2

Inverse time characteristics for step 1 and step 2, see table

106

Definite time delay, step 1 at 1.2 to 0 x U set

M13290-1 v14

Range or value

(1.0–100.0)% of UBase

(0.0–50.0)% of UBase

(1–50)% of UBase

-

(0.00-6000.00) s

(0.000-60.000) s Definite time delay, step 2 at 1.2 to 0 x U set

Minimum operate time, inverse characteristics (0.000–60.000) s

Operate time, start at 2 to 0 x U set

Reset time, start at 0 to 2 x U set

Operate time, start at 1.2 to 0 x U set

Reset time, start at 0 to 1.2 x U set

Critical impulse time

Impulse margin time

Min. = 15 ms

Max. = 30 ms

Min. = 15 ms

Max. = 30 ms

Min. = 5 ms

Max. = 25 ms

Min. = 15 ms

Max. = 35 ms

5 ms typically at 1.2 to 0 x U set

15 ms typically -

-

-

-

-

Accuracy

±0.5% of U r

±0.5% of U r

±0.5% of U r

See table 106

±0.2% or ±40ms whichever is greater

±0.2% or ±40ms whichever is greater

-

±0.5% or ±40ms whichever is greater

ABB 35

1MRK 505 358-BEN B

Breaker protection REQ650 2.1 IEC

Product version: 2.1

M13304-1 v13

Table 27. Two step overvoltage protection OV2PTOV

Function

Operate voltage, step 1 and 2

Absolute hysteresis

Range or value

(1.0-200.0)% of UBase

(0.0–50.0)% of UBase

Inverse time characteristics for steps 1 and 2, see table

Definite time delay, low step (step 1) at 0 to 1.2 x U

Minimum operate time, Inverse characteristics

Operate time, start at 0 to 2 x U

Reset time, start at 2 to 0 x U

Operate time, start at 0 to 1.2 x U

Reset time, start at 1.2 to 0 x U

Critical impulse time

Impulse margin time set set set set set

Definite time delay, high step (step 2) at 0 to 1.2 x U set

"" -

(0.00 - 6000.00) s

(0.000-60.000) s

(0.000-60.000) s

Min. = 15 ms

Max. = 30 ms

Min. = 15 ms

Max. = 30 ms

Min. = 20 ms

Max. = 35 ms

Min. = 5 ms

Max. = 25 ms

10 ms typically at 0 to 2 x U set

15 ms typically

M13317-2 v13

Table 28. Two step residual overvoltage protection ROV2PTOV

Function

Operate voltage, step 1 - step 2

Range or value

(1.0-200.0)% of UBase

Absolute hysteresis (0.0–50.0)% of UBase

Inverse time characteristics for low and high step, see table "" -

Definite time delay low step (step 1) at 0 to 1.2 x U set

(0.00–6000.00) s

(0.000–60.000) s Definite time delay high step (step 2) at 0 to 1.2 x U set

Minimum operate time (0.000-60.000) s

Operate time, start at 0 to 2 x U

Reset time, start at 2 to 0 x U

Critical impulse time

Impulse margin time set set

Operate time, start at 0 to 1.2 x U

Reset time, start at 1.2 to 0 x U set set

Min. = 15 ms

Max. = 30 ms

Min. = 15 ms

Max. = 30 ms

Min. = 20 ms

Max. = 35 ms

Min. = 5 ms

Max. = 25 ms

10 ms typically at 0 to 2 x U set

15 ms typically

36

-

-

-

-

-

Accuracy

±0.5% of U r

at U ≤ U r

±0.5% of U at U > U r

±0.5% of U r

at U ≤ U r

±0.5% of U at U > U r

See table ""

±0.2% or ±45 ms whichever is greater

±0.2% or ±45 ms whichever is greater

-

±0.2% or ±45 ms whichever is greater

-

-

-

-

-

Accuracy

± 0.5% of U r

at U ≤ U r

± 0.5% of U at U > U r

± 0.5% of U r

at U ≤ U r

± 0.5% of U at U > U r

See table ""

± 0.2% or ± 45 ms whichever is greater

± 0.2% or ± 45 ms whichever is greater

-

± 0.2% or ± 45 ms whichever is greater

ABB

Breaker protection REQ650 2.1 IEC

Product version: 2.1

1MRK 505 358-BEN B

Table 29. Two step residual overvoltage protection ROV2PTOV

Function

Operate voltage, step 1 - step 2

Range or value

(1.0-200.0)% of UBase

Definite time delay low step (step 1) at 0 to 1.2 x U set

Definite time delay high step (step 2) at 0 to 1.2 x U set

Operate time, start at 0 to 1.2 x U set

Reset time, start at 1.2 to 0 x U set

Critical impulse time

Impulse margin time

Table 30. Loss of voltage check LOVPTUV

Function

Operate voltage

Pulse timer when disconnecting all three phases

Time delay for enabling the functions after restoration

Operate time delay when disconnecting all three phases

Time delay to block when all three phase voltages are not low

Range or value

(1–100)% of UBase

(0.050–60.000) s

(0.000–60.000) s

(0.000–60.000) s

(0.000–60.000) s

(0.000–60.000) s

(0.000–60.000) s

Min. = 50 ms

Max. = 60 ms

Min. = 10 ms

Max. = 30 ms

45 ms typically at 0 to 1.2 x U set

10 ms typically

SEMOD175210-2 v6

Accuracy

±0.5% of U r

±0.2% or ±15 ms whichever is greater

±0.2% or ±35 ms whichever is greater

±0.2% or ±35 ms whichever is greater

±0.2% or ±35 ms whichever is greater

-

-

-

Accuracy

± 0.5% of U r

at U ≤ U r

± 0.5% of U at U > U r

Maximum up to 130v secondary at

16.7Hz

± 0.2% or ± 65 ms whichever is greater

-

± 0.2% or ± 65 ms whichever is greater

ABB 37

Breaker protection REQ650 2.1 IEC

Product version: 2.1

Multipurpose protection

M13095-2 v7

1MRK 505 358-BEN B

38 ABB

Breaker protection REQ650 2.1 IEC

Product version: 2.1

1MRK 505 358-BEN B

Table 31. General current and voltage protection CVGAPC

Function

Measuring current input

Measuring voltage input

Start overcurrent, step 1 - 2

Start undercurrent, step 1 - 2

Independent time delay, overcurrent at 0 to 2 x I

Overcurrent (non-directional):

Start time at 0 to 2 x I

Reset time at 2 to 0 x I

Start time at 0 to 10 x I

Reset time at 10 to 0 x I

Undercurrent:

Start time at 2 to 0 x I

Overcurrent: set set

Reset time at 0 to 2 x I

Overcurrent: set set set set

Inverse time characteristics, see table

103 ,

104

Voltage level where voltage memory takes over

Start overvoltage, step 1 - 2

Start undervoltage, step 1 - 2 set

Independent time delay, undercurrent at 2 to 0 x I

, step 1 - 2 set

Minimum operate time for inverse curves, step 1 - 2

, step 1 - 2

and table 105

Independent time delay, overvoltage at 0.8 to 1.2 x U set

, step 1 -

2

Min. = 15 ms

Max. = 30 ms

Min. = 15 ms

Max. = 30 ms

Min. = 5 ms

Max. = 20 ms

Min. = 20 ms

Max. = 35 ms

Min. = 15 ms

Max. = 30 ms

Min. = 15 ms

Max. = 30 ms

16 curve types

Range or value phase1, phase2, phase3, PosSeq, -

NegSeq, -3*ZeroSeq, MaxPh, MinPh,

UnbalancePh, phase1-phase2, phase2phase3, phase3-phase1, MaxPh-Ph,

MinPh-Ph, UnbalancePh-Ph phase1, phase2, phase3, PosSeq, -

NegSeq, -3*ZeroSeq, MaxPh, MinPh,

UnbalancePh, phase1-phase2, phase2phase3, phase3-phase1, MaxPh-Ph,

MinPh-Ph, UnbalancePh-Ph

(2 - 5000)% of IBase

-

-

Accuracy

(2 - 150)% of IBase

(0.00 - 6000.00) s

(0.00 - 6000.00) s

±1.0% of I r

at I ≤ I

±1.0% of I at I > I r r

±1.0% of I r

at I ≤ I

±1.0% of I at I > I r r

±0.2% or ±35 ms whichever is greater

-

±0.2% or ±35 ms whichever is greater

(0.00 - 6000.00) s

(0.0 - 5.0)% of UBase

(2.0 - 200.0)% of UBase

(2.0 - 150.0)% of UBase

(0.00 - 6000.00) s

-

-

-

-

-

See table

103 ,

104

and table

105

±0.2% or ±35 ms whichever is greater

±0.5% of U r

±0.5% of U r

at U ≤ U

±0.5% of U at U > U r r

±0.5% of U r

at U ≤ U

±0.5% of U at U > U r r

±0.2% or ±35 ms whichever is greater

ABB 39

Breaker protection REQ650 2.1 IEC

Product version: 2.1

1MRK 505 358-BEN B

Directional function

Relay characteristic angle

Relay operate angle

Reset ratio, overcurrent

Reset ratio, undercurrent

Reset ratio, overvoltage

Reset ratio, undervoltage

Overcurrent:

Critical impulse time

Impulse margin time

Undercurrent:

Critical impulse time

Impulse margin time

Overvoltage:

Critical impulse time

Impulse margin time

Undervoltage:

Critical impulse time

Impulse margin time

Table 31. General current and voltage protection CVGAPC , continued

Function Range or value

(0.00 - 6000.00) s Independent time delay, undervoltage at 1.2 to 0.8 x U set

, step 1

- 2

Overvoltage:

Start time at 0.8 to 1.2 x U set

Reset time at 1.2 to 0.8 x U

Undervoltage:

Start time at 1.2 to 0.8 x U

Reset time at 1.2 to 0.8 x U

Overvoltage: set set set

Inverse time characteristics, see table

Undervoltage:

Inverse time characteristics, see table

2

""

106

High and low voltage limit, voltage dependent operation, step 1 -

Min. = 15 ms

Max. = 30 ms

Min. = 15 ms

Max. = 30 ms

Min. = 15 ms

Max. = 30 ms

Min. = 15 ms

Max. = 30 ms

4 curve types

3 curve types

(1.0 - 200.0)% of UBase

Settable: NonDir, forward and reverse

(-180 to +180) degrees

(1 to 90) degrees

> 95%

< 105%

> 95%

< 105%

10 ms typically at 0 to 2 x I set

15 ms typically

10 ms typically at 2 to 0 x I set

15 ms typically

10 ms typically at 0.8 to 1.2 x U set

15 ms typically

10 ms typically at 1.2 to 0.8 x U set

15 ms typically

-

-

Accuracy

±0.2% or ±35 ms whichever is greater

-

-

-

-

-

-

-

-

-

-

-

-

-

See table ""

See table 106

±1.0% of U r

at U ≤ U

±1.0% of U at U > U r r

-

±2.0 degrees

-

±2.0 degrees

40 ABB

Breaker protection REQ650 2.1 IEC

Product version: 2.1

SEMOD175176-2 v5

Table 32. Rotor earth fault protection

Function

For machines with:

• rated field voltage up to

• static exciter with rated supply voltage up to

Supply voltage 120 or 230 V

Operate earth fault resistance value

Influence of harmonics in the DC field voltage

Permitted leakage capacitance

Permitted shaft earthing resistance

Protective resistor

Range or value

350 V DC

700 V 50/60 Hz

50/60 Hz

Approx. 1–20 kΩ

Negligible influence of 50 V, 150

Hz or 50 V, 300 Hz

(1–5) μF

Maximum 200 Ω

220 Ω, 100 W, plate

(the height is 160 mm (6,2 inches) and width 135 mm (5,31 inches))

1MRK 505 358-BEN B

ABB 41

Breaker protection REQ650 2.1 IEC

Product version: 2.1

Secondary system supervision

Table 33. Current circuit supervision CCSSPVC

Function

Operate current

Range or value

(10-200)% of IBase

Reset ratio, Operate current

Block current

Reset ratio, Block current

>90%

(20-500)% of IBase

>90% at (50-500)% of IBase

M12358-1 v8

Accuracy

±10.0% of I r

at I ≤ I r

±10.0% of I at I > I r

±5.0% of I r

at I ≤ I r

±5.0% of I at I > I r

Table 34. Current circuit supervision CCSSPVC

Function

Operate current

Block current

Range or value

(10-200.00)% of lBase

(20-500.00)% of lBase

M16069-1 v11

Table 35. Fuse failure supervision FUFSPVC

Function

Operate voltage, zero sequence

Operate current, zero sequence

Operate voltage, negative sequence

Operate current, negative sequence

Operate voltage change level

Operate current change level

Operate phase voltage

Operate phase current

Operate phase dead line voltage

Operate phase dead line current

Operate time, start, 1 ph, at 1 to 0 x U r

Reset time, start, 1 ph, at 0 to 1 x U r

Range or value

(1-100)% of UBase

(1–100)% of IBase

(1-100)% of UBase

(1–100)% of IBase

(1-100)% of UBase

(1–100)% of IBase

(1-100)% of UBase

(1–100)% of IBase

(1-100)% of UBase

(1–100)% of IBase

Min. = 10 ms

Max. = 25 ms

Min. = 15 ms

Max. = 30 ms

Accuracy

±10.0% of I r

at I ≤ I r

±10.0% of I at I > I r

±5.0% of I r

at I ≤ I r

±5.0% of I at I > I r

-

Accuracy

±0.5% of U r

±0.5% of I r

±0.5% of U r

±0.5% of I r

±10.0% of U r

-

±10.0% of I r

±0.5% of U r

±0.5% of I r

±0.5% of U r

1MRK 505 358-BEN B

42 ABB

1MRK 505 358-BEN B

Breaker protection REQ650 2.1 IEC

Product version: 2.1

Control

M12359-1 v13

Table 36. Synchronizing, synchrocheck and energizing check SESRSYN

Function

Phase shift, j line

j bus

Voltage high limit for synchronizing and synchrocheck

Range or value

(-180 to 180) degrees

(50.0-120.0)% of UBase

Reset ratio, synchrocheck

Frequency difference limit between bus and line for synchrocheck

Phase angle difference limit between bus and line for synchrocheck

Voltage difference limit between bus and line for synchronizing and synchrocheck

Time delay output for synchrocheck when angle difference between bus and line jumps from “PhaseDiff” + 2 degrees to “PhaseDiff” - 2 degrees

Frequency difference minimum limit for synchronizing

Frequency difference maximum limit for synchronizing

Breaker closing pulse duration

> 95%

(0.003-1.000) Hz

(5.0-90.0) degrees

(0.02-0.5) p.u

(0.000-60.000) s

(0.003-0.250) Hz

(0.050-0.500) Hz

(0.050-60.000) s

(0.000-6000.00) s tMaxSynch, which resets synchronizing function if no close has been made before set time

Minimum time to accept synchronizing conditions

Voltage high limit for energizing check

(0.000-60.000) s

(50.0-120.0)% of UBase

Reset ratio, voltage high limit

Voltage low limit for energizing check

Reset ratio, voltage low limit

Maximum voltage for energizing

> 95%

(10.0-80.0)% of UBase

< 105%

(50.0-180.0)% of UBase

Time delay for energizing check when voltage jumps from 0 to 90% of

Urated

Operate time for synchrocheck function when angle difference between bus and line jumps from “PhaseDiff” + 2 degrees to “PhaseDiff” - 2 degrees

Operate time for energizing function when voltage jumps from 0 to 90% of Urated

(0.000-60.000) s

Min. = 15 ms

Max. = 30 ms

Min. = 70 ms

Max. = 90 ms

-

Accuracy

±0.5% of U r

at U ≤ U r

±0.5% of U at U > U r

-

±2.5 mHz

±2.0 degrees

±0.5% of U r

±0.2% or ±35 ms whichever is greater

±2.5 mHz

±2.5 mHz

±0.2% or ±15 ms whichever is greater

±0.2% or ±35 ms whichever is greater

±0.2% or ±35 ms whichever is greater

±0.5% of U r

at U ≤ U r

±0.5% of U at U > U r

-

-

±0.5% of U r

±0.5% of U r

at U ≤ U

±0.5% of U at U > U r r

±0.2% or ±100 ms whichever is greater

ABB 43

1MRK 505 358-BEN B

Breaker protection REQ650 2.1 IEC

Product version: 2.1

Table 37. Synchronizing, synchrocheck and energizing check SESRSYN

Function

Phase shift, j line

j bus

Voltage high limit for synchronizing and synchrocheck

Range or value

(-180 to 180) degrees

(10.0-120.0)% of Ubase

Frequency difference limit between bus and line for synchrocheck

Phase angle difference limit between bus and line for synchrocheck

Voltage difference limit between bus and line for synchronizing and synchrocheck

Time delay output for synchrocheck when angle difference between bus and line jumps from “PhaseDiff” + 2 degrees to “PhaseDiff” - 2 degrees

Frequency difference minimum limit for synchronizing

Frequency difference maximum limit for synchronizing

Maximum allowed frequency rate of change

(0.003-1.000) Hz

(5.0-90.0) degrees

(0.02-0.50) p.u

(0.000-60.000) s

(0.003-1.000) Hz

(0.050-1.000) Hz

(0.000-0.500) Hz/s

Breaker closing pulse duration tMaxSynch, which resets synchronizing function if no close has been made before set time

Minimum time to accept synchronizing conditions

Voltage high limit for energizing check

(0.050-2.000) s

(0.000-6000.000) s

(0.000-60.000) s

(10.0-120.0)% of Ubase

Voltage low limit for energizing check

Maximum voltage for energizing

(10.0-80.0)% of Ubase

(50.0-180.0)% of Ubase

Time delay for energizing check when voltage jumps from 0 to 90% of

Urated

Operate time for synchrocheck function when angle difference between bus and line jumps from “PhaseDiff” + 2 degrees to “PhaseDiff” - 2 degrees

Operate time for energizing function when voltage jumps from 0 to 90% of Urated

(0.000-60.000) s

Min. = 35 ms

Max. = 65 ms

Min. = 100 ms

Max. = 125 ms

-

Accuracy

±0.5% of U r

at U ≤ U

±0.5% of U at U > U r r

±5 mHz

±2.0 degrees

±0.5% of U r

±0.2% or ±70 ms whichever is greater

±5 mHz

±5 mHz

±5% or ±10.0 mHz/s whichever is greater

±0.2% or ±10 ms whichever is greater

±0.2% or ±35 ms whichever is greater

±0.2% or ±60 ms whichever is greater

±0.5% of U r

at U ≤ U r

±0.5% of U at U > U r

±0.5% of U r

±0.5% of U r

at U ≤ U

±0.5% of U at U > U r r

±0.2% or ±125 ms whichever is greater

44 ABB

Breaker protection REQ650 2.1 IEC

Product version: 2.1

M12379-1 v12

Table 38. Autorecloser SMBRREC

Function

Number of autoreclosing shots

Autoreclosing open time: shot 1 - t1 1Ph shot 1 - t1 2Ph shot 1 - t1 3PhHS shot 1 - t1 3Ph shot 2 - t2 3Ph shot 3 - t3 3Ph shot 4 - t4 3Ph shot 5 - t5 3Ph

Extended autorecloser open time

Minimum time CB must be closed before AR becomes ready for autoreclosing cycle

Maximum operate pulse duration

Reclaim time

Circuit breaker closing pulse length

Wait for master release

Inhibit reset time

Autorecloser maximum wait time for sync

CB check time before unsuccessful

Wait time after close command before proceeding to next shot

Range or value

1-5

(0.000-120.000) s

(0.00-6000.00) s

(0.000-60.000) s

(0.00-6000.00) s

(0.000-60.000) s

(0.00-6000.00) s

(0.000-60.000) s

(0.00-6000.00) s

(0.000-60.000) s

(0.00-6000.00) s

(0.00-6000.00) s

(0.000-60.000) s

1MRK 505 358-BEN B

Accuracy

-

±0.2% or ±35 ms whichever is greater

±0.2% or ±35 ms whichever is greater

±0.2% or ±35 ms whichever is greater

±0.2% or ±35 ms whichever is greater

±0.2% or ±15 ms whichever is greater

±0.2% or ±15 ms whichever is greater

±0.2% or ±15 ms whichever is greater

±0.2% or ±15 ms whichever is greater

±0.2% or ±45 ms whichever is greater

±0.2% or ±45 ms whichever is greater

±0.2% or ±45 ms whichever is greater

±0.2% or ±45 ms whichever is greater

ABB 45

Breaker protection REQ650 2.1 IEC

Product version: 2.1

Table 39. Autorecloser SMBRREC

Function

Number of autoreclosing shots

Autoreclosing open time: shot1 - t1_HS, high speed reclosing without synchrocheck shot1 - t1, delayed reclosing shot 2 - t2 shot 3 - t3 shot 4 - t4 shot 5 - t5

Minimum time CB must be closed before AR becomes ready for autoreclosing cycle

Maximum operate pulse duration

Reclaim time

Circuit breaker closing pulse length

Inhibit reset time

Autorecloser maximum wait time for sync

CB check time before unsuccessful

Range or value

1-5

(0.000-20.000) s

(0.000-200.000) s

(0.00-6000.00) s

(0.00-6000.00) s

(0.000-60.000) s

(0.00-6000.00) s

(0.000-60.000) s

(0.000-60.000) s

(0.00-600.00) s

(0.00-6000.00) s

1MRK 505 358-BEN B

Accuracy

-

±0.2% or ±20 ms whichever is greater

±0.2% or ±20 ms whichever is greater

±0.2% or ±20 ms whichever is greater

±0.2% or ±20 ms whichever is greater

±0.2% or ±10 ms whichever is greater

±0.2% or ±10 ms whichever is greater

±0.2% or ±10 ms whichever is greater

±0.2% or ±20 ms whichever is greater

±0.2% or ±25 ms whichever is greater

±0.2% or ±25 ms whichever is greater

46 ABB

Breaker protection REQ650 2.1 IEC

Product version: 2.1

Logic

Table 40. Tripping logic common 3-phase output SMPPTRC

Function

Trip action

Minimum trip pulse length

3-pole trip delay

Evolving fault delay

Range or value

3-ph, 1/3-ph, 1/2/3-ph

(0.000-60.000) s

(0.020-0.500) s

(0.000-60.000) s

M12380-1 v10

-

Accuracy

±0.2% or ±15 ms whichever is greater

±0.2% or ±15 ms whichever is greater

±0.2% or ±15 ms whichever is greater

Table 41. Number of SMPPTRC instances

Function

SMPPTRC

Quantity with cycle time

3 ms

6

Table 42. Tripping logic SMPPTRC

Function

Trip action

Minimum trip pulse length

Range or value

2 phase

(0.000-60.000) s

Accuracy

±0.2% or ±30 ms whichever is greater

Table 43. Number of SMPPTRC instances

Function

SMPPTRC

3 ms

6

GUID-3AB1EE95-51BF-4CC4-99BD-F4ECDAACB75A v1

Table 44. Number of TMAGAPC instances

Function

TMAGAPC

3 ms

6

GUID-A05AF26F-DC98-4E62-B96B-E75D19F20767 v1

Table 45. Number of ALMCALH instances

Function

ALMCALH -

3 ms

Quantity with cycle time

-

8 ms

Quantity with cycle time

Quantity with cycle time

8 ms

6

-

100 ms

-

100 ms

100 ms

5

GUID-70B7357D-F467-4CF5-9F73-641A82D334F5 v1

Table 46. Number of WRNCALH instances

Function

WRNCALH -

3 ms

Quantity with cycle time

-

8 ms 100 ms

5

1MRK 505 358-BEN B

ABB 47

Breaker protection REQ650 2.1 IEC

Product version: 2.1

GUID-EAA43288-01A5-49CF-BF5B-9ABF6DC27D85 v1

Table 47. Number of INDCALH instances

Function

INDCALH -

3 ms

Quantity with cycle time

8 ms

5

Table 51. Number of LLD instances

Logic block

LLD

3 ms

10

GUID-D1179280-1D99-4A66-91AC-B7343DBA9F23 v1

Table 48. Number of AND instances

Logic block

AND

3 ms

60

Table 50. Number of INV instances

Logic block

INV

3 ms

90

GUID-45DF373F-DC39-4E1B-B45B-6B454E8E0E50 v1

Table 49. Number of GATE instances

Logic block

GATE

3 ms

10

GUID-0EC4192A-EF03-47C0-AEC1-09B68B411A98 v1

Quantity with cycle time

8 ms

10

Quantity with cycle time

8 ms

90

GUID-B2E6F510-8766-4381-9618-CE02ED71FFB6 v1

Quantity with cycle time

8 ms

60

Quantity with cycle time

8 ms

10

Table 52. Number of PULSETIMER instances

Logic block

PULSETIMER

3 ms

10

Quantity with cycle time

8 ms

10

100 ms

20

GUID-BE6FD540-E96E-4F15-B2A2-12FFAE6C51DB v1

Table 53. Number of RSMEMORY instances

Range or Value

(0.000–90000.000) s

Logic block

RSMEMORY

3 ms

10

Table 54. Number of SRMEMORY instances

GUID-7A0F4327-CA83-4FB0-AB28-7C5F17AE6354 v1

Quantity with cycle time

8 ms

10

Logic block

SRMEMORY

3 ms

10

Quantity with cycle time

8 ms

10

48

100 ms

20

100 ms

20

-

100 ms

100 ms

160

100 ms

20

100 ms

240

100 ms

20

1MRK 505 358-BEN B

Accuracy

±0.5% ±10 ms

ABB

Breaker protection REQ650 2.1 IEC

Product version: 2.1

GUID-C6C98FE0-F559-45EE-B853-464516775417 v1

Table 55. Number of TIMERSET instances

Logic block

TIMERSET

3 ms

15

Quantity with cycle time

8 ms

15

100 ms

30

GUID-0B07F78C-10BD-4070-AFF0-6EE36454AA03 v1

Table 56. Number of XOR instances

Range or Value

(0.000–90000.000) s

Logic block

XOR

3 ms

10

Quantity with cycle time

8 ms

10

GUID-65A2876A-F779-41C4-ACD7-7662D1E7F1F2 v1

Table 57. Number of B16I instances

Function

B16I

3 ms

6

Quantity with cycle time

8 ms

4

GUID-3820F464-D296-4CAD-8491-F3F997359D79 v1

Table 58. Number of BTIGAPC instances

Function

BTIGAPC

3 ms

4

Quantity with cycle time

8 ms

4

GUID-B45901F4-B163-4696-8220-7F8CAC84D793 v1

Table 59. Number of IB16 instances

Function

IB16

3 ms

6

Quantity with cycle time

8 ms

4

GUID-A339BBA3-8FD0-429D-BB49-809EAC4D53B0 v1

Table 60. Number of ITBGAPC instances

Function

ITBGAPC

3 ms

4

Quantity with cycle time

8 ms

4

GUID-B258726E-1129-47C9-94F9-BE634A2085FA v3

Table 61. Elapsed time integrator with limit transgression and overflow supervision TEIGAPC

Function

Elapsed time integration 3

Cycle time (ms) Range or value

0 ~ 999999.9 s

8

100

0 ~ 999999.9 s

0 ~ 999999.9 s

100 ms

20

100 ms

8

100 ms

8

100 ms

8

100 ms

8

1MRK 505 358-BEN B

Accuracy

±0.5% ±10 ms

Accuracy

±0.2% or ±20 ms whichever is greater

±0.2% or ±100 ms whichever is greater

±0.2% or ±250 ms whichever is greater

ABB 49

Breaker protection REQ650 2.1 IEC

Product version: 2.1

1MRK 505 358-BEN B

Table 62. Number of TEIGAPC instances

Function

TEIGAPC

3 ms

4

Quantity with cycle time

8 ms

4

Table 63. Running hour-meter TEILGAPC

Function

Time limit for alarm supervision, tAlarm

Time limit for warning supervision, tWarning

Time limit for overflow supervision

GUID-F5E124E3-0B85-41AC-9830-A2362FD289F2 v1

Range or value

(0 - 99999.9) hours

(0 - 99999.9) hours

Fixed to 99999.9 hours

±0.1% of set value

±0.1% of set value

±0.1%

100 ms

4

Accuracy

50 ABB

Breaker protection REQ650 2.1 IEC

Product version: 2.1

Monitoring

Table 64. Measurements CVMMXN

Function

Frequency

Current

Range or value

(0.95-1.05) x f r

(0.1-4.0) x I r

Active power, P (10 to 300) V

(0.1-4.0) x I r

(100 to 220) V

(0.5-2.0) x I r cos φ < 0.7

M12386-1 v14

Accuracy

± 2.0 mHz

± 0.8% of I at 0.1 x I r

< I < 0.2 x I r

± 0.5% of I at 0.2 x I r

< I < 0.5 x I r

± 0.2% of I at 0.5 x I r

< I < 4.0 x I r

± 0.5% of S r

at S ≤ 0.5 x S r

± 0.5% of S at S > 0.5 x S r

± 0.2% of P

Table 65. Measurements CVMMXN

Function

Frequency

Active power, P

Reactive power, Q

Apparent power, S

Power factor, cos ( φ )

Range or value

(0.90-1.10) x f r

Accuracy

± 3.0 mHz

0.1 x U r

≤ U ≤ 1.2 x U r

0.2 x I r

≤ I ≤ 1.2 x I r

Where U r

= 100 V

± 2.5% of S

GUID-5E04B3F9-E1B7-4974-9C0B-DE9CD4A2408F v5

± 0.04

r

where S r

= VT prim

x CT prim

Table 66. Phase current measurement CMMXU

Function

Current at symmetrical load

Phase angle at symmetrical load

Range or value

(0.1-4.0) × I r

(0.1-4.0) × I r

Accuracy

±0.3% of I r

at I ≤ 0.5 × I r

±0.3% of I at I > 0.5 × I r

±1.0 degrees at 0.1 × I r

< I ≤ 0.5 × I r

±0.5 degrees at 0.5 × I r

< I ≤ 4.0 × I r

Table 67. Phase current measurement CMMXU

Function

Current magnitude

Phase angle

Range or value

(0.2 - 2.0) × I

(0.2 - 2.0) × I r r

GUID-374C2AF0-D647-4159-8D3A-71190FE3CFE0 v4

Accuracy

±1.0% of I r

at I ≤ I r

±1.0% of I at I > I r

±2.0 degrees at 0.2 × I r

≤ I < 1.0 × I r

±1.5 degrees at 1.0 × I r

≤ I ≤ 2.0 × I r

Table 68. Phase-phase voltage measurement VMMXU

Function

Voltage

Phase angle

Range or value

(10 to 300) V

(10 to 300) V

Accuracy

±0.5% of U at U ≤ 50 V

±0.2% of U at U > 50 V

±0.5 degrees at U ≤ 50 V

±0.2 degrees at U > 50 V

1MRK 505 358-BEN B

ABB 51

Breaker protection REQ650 2.1 IEC

Product version: 2.1

Table 69. Phase-phase voltage measurement VMMXU

Function

Voltage magnitude

Phase angle

Range or value

(10 to 130) V

(10 to 130) V

GUID-ED634B6D-9918-464F-B6A4-51B78129B819 v5

Table 70. Phase-neutral voltage measurement VNMMXU

Accuracy

±0.5% of U

±1.0 degrees at 10 V ≤ U ≤ 110 V

±2.0 degrees at 110 V < U ≤ 130 V

Function

Voltage

Phase angle

Range or value

(5 to 175) V

(5 to 175) V

Accuracy

±0.5% of U at U ≤ 50 V

±0.2% of U at U > 50 V

±0.5 degrees at U ≤ 50 V

±0.2 degrees at U > 50 V

Table 71. Phase-neutral voltage measurement VNMMXU

Function

Voltage magnitude

Phase angle

Range or value

(10 to 130) V

(10 to 130) V

GUID-9B8A7FA5-9C98-4CBD-A162-7112869CF030 v4

Table 72. Current sequence component measurement CMSQI

Accuracy

±0.5% of U

±1.0 degrees at 10 V ≤ U ≤ 110 V

±2.0 degrees at 110 V < U ≤ 130 V

Function

Current positive sequence, I1

Three phase settings

Current zero sequence, 3I0

Three phase settings

Current negative sequence, I2

Three phase settings

Phase angle

Range or value

(0.1–4.0) × I r

(0.1–1.0) × I

(0.1–1.0) × I

(0.1–4.0) × I r r r

Accuracy

± 0.3% of I r

at I ≤ 0.5 × I r

± 0.3% of I at I > 0.5 × I r

± 0.3% of I r

at I ≤ 0.5 × I r

± 0.3% of I at I > 0.5 × I r

± 0.3% of I r

at I ≤ 0.5 × I r

± 0.3% of I at I > 0.5 × I r

± 1.0 degrees at 0.1 × I r

< I ≤ 0.5 × I r

± 0.5 degrees at 0.5 × I r

< I ≤ 4.0 × I r

Table 73. Positive and zero sequence current measurement CMSQI

Function

Current magnitude

Range or value

(0.2 - 2.0) × I r

Phase angle (0.2 - 2.0) × I r

Accuracy

±1.0% of I r

at I ≤ I r

±1.0% of I at I > I r

±2.0 degrees at 0.2 × I r

≤ I < 1.0 × I r

±1.5 degrees at 1.0 × I r

≤ I ≤ 2.0 × I r

1MRK 505 358-BEN B

52 ABB

Breaker protection REQ650 2.1 IEC

Product version: 2.1

1MRK 505 358-BEN B

GUID-47094054-A828-459B-BE6A-D7FA1B317DA7 v5

Table 74. Voltage sequence measurement VMSQI

Function

Voltage positive sequence, U1

Range or value

(10 to 300) V

Voltage zero sequence, 3U0

Voltage negative sequence, U2

Phase angle

(10 to 300) V

(10 to 300) V

(10 to 300) V

Accuracy

± 0.5% of U at U ≤ 50 V

± 0.2% of U at U > 50 V

± 0.5% of U at U ≤ 50 V

± 0.2% of U at U > 50 V

± 0.5% of U at U ≤ 50 V

± 0.2% of U at U > 50 V

± 0.5 degrees at U ≤ 50 V

± 0.2 degrees at U > 50 V

Table 75. Positive and zero sequence voltage measurement VMSQI

Function

Voltage magnitude

Phase angle

Range or value

(10 to 130) V

(10 to 130) V

GUID-C43B8654-60FE-4E20-8328-754C238F4AD0 v2

Accuracy

±0.5% of U

±1.0 degrees at 10 V ≤ U ≤ 110 V

±2.0 degrees at 110 V < U ≤ 130 V

Table 76. Limit counter L4UFCNT

-

-

Accuracy Function

Counter value

Max. count up speed

Table 77. Disturbance report DRPRDRE

Range or value

0-65535

30 pulses/s (50% duty cycle)

M12760-1 v9.1.1

Function

Pre-fault time

Post-fault time

Limit time

Maximum number of recordings

Time tagging resolution

Maximum number of analog inputs

Maximum number of binary inputs

Maximum number of phasors in the Trip Value recorder per recording

Maximum number of indications in a disturbance report

Maximum number of events in the Event recording per recording

Maximum number of events in the Event list

Maximum total recording time (3.4 s recording time and maximum number of channels, typical value)

Sampling rate

Recording bandwidth

Range or value

(0.05–9.90) s

(0.1–10.0) s

(0.5–10.0) s

100, first in - first out

1 ms

30 + 10 (external + internally derived)

128

30

96

150

1000, first in - first out

340 seconds (100 recordings) at

50 Hz, 280 seconds (80 recordings) at 60 Hz

1 kHz at 50 Hz

1.2 kHz at 60 Hz

(5-300) Hz

-

-

-

-

-

-

-

-

-

-

-

-

-

Accuracy

ABB 53

Breaker protection REQ650 2.1 IEC

Product version: 2.1

GUID-F034B396-6600-49EF-B0A5-8ED96766A6A0 v6

Table 78. Insulation gas monitoring function SSIMG

Function

Pressure alarm level

Pressure lockout level

Temperature alarm level

Temperature lockout level

Time delay for pressure alarm

Reset time delay for pressure alarm

Time delay for pressure lockout

Time delay for temperature alarm

Reset time delay for temperature alarm

Time delay for temperature lockout

Range or value

1.00-100.00

1.00-100.00

-40.00-200.00

-40.00-200.00

(0.000-60.000) s

(0.000-60.000) s

(0.000-60.000) s

(0.000-60.000) s

(0.000-60.000) s

(0.000-60.000) s

GUID-83B0F607-D898-403A-94FD-7FE8D45C73FF v6

Table 79. Insulation liquid monitoring function SSIML

Function

Oil alarm level

Oil lockout level

Temperature alarm level

Temperature lockout level

Time delay for oil alarm

Reset time delay for oil alarm

Time delay for oil lockout

Time delay for temperature alarm

Reset time delay for temperature alarm

Time delay for temperature lockout

Range or value

1.00-100.00

1.00-100.00

-40.00-200.00

-40.00-200.00

(0.000-60.000) s

(0.000-60.000) s

(0.000-60.000) s

(0.000-60.000) s

(0.000-60.000) s

(0.000-60.000) s

GUID-B6799420-D726-460E-B02F-C7D4F1937432 v7

Table 80. Breaker monitoring SSCBR

Function

Alarm level for open and close travel time

Alarm level for number of operations

Independent time delay for spring charging time alarm

Range or value

(0 – 200) ms

(0 – 9999)

(0.00 – 60.00) s

Independent time delay for gas pressure alarm (0.00 – 60.00) s

Independent time delay for gas pressure lockout

(0.00 – 60.00) s

CB Contact Travel Time, opening and closing

Remaining Life of CB

Accumulated Energy

54

1MRK 505 358-BEN B

Accuracy

±10.0% of set value

±10.0% of set value

±2.5% of set value

±2.5% of set value

±0.2% or ±250ms whichever is greater

±0.2% or ±250ms whichever is greater

±0.2% or ±250ms whichever is greater

±0.2% or ±250ms whichever is greater

±0.2% or ±250ms whichever is greater

±0.2% or ±250ms whichever is greater

Accuracy

±10.0% of set value

±10.0% of set value

±2.5% of set value

±2.5% of set value

±0.2% or ±250ms whichever is greater

±0.2% or ±250ms whichever is greater

±0.2% or ±250ms whichever is greater

±0.2% or ±250ms whichever is greater

±0.2% or ±250ms whichever is greater

±0.2% or ±250ms whichever is greater

Accuracy

±3 ms

-

±0.2% or ±30 ms whichever is greater

±0.2% or ±30 ms whichever is greater

±0.2% or ±30 ms whichever is greater

±3 ms

±2 operations

±1.0% or ±0.5 whichever is greater

ABB

Breaker protection REQ650 2.1 IEC

Product version: 2.1

1MRK 505 358-BEN B

Table 81. Breaker monitoring SSCBR

Function

Alarm level for open and close travel time

Alarm level for number of operations

Independent time delay for spring charging time alarm

Independent time delay for gas pressure alarm

Independent time delay for gas pressure lockout

CB Contact Travel Time opening and closing

Remaining Life of CB

Accumulated energy

Range or value

(0 – 200) ms

(0 – 9999)

(0.00 – 60.00) s

(0.00 – 60.00) s

(0.00 – 60.00) s

M12700-1 v4

Accuracy

-

±3 ms

±0.2% or ±30 ms whichever is greater

±0.2% or ±30 ms whichever is greater

±0.2% or ±30 ms whichever is greater

±3 ms

±2 operations

±1.0% or ±0.5 whichever is greater

Table 82. Event list

Function

Buffer capacity

Resolution

Accuracy

Maximum number of events in the list

Value

1000

1 ms

Depending on time synchronizing

M13765-1 v4

Table 83. Indications

Function

Buffer capacity Maximum number of indications presented for single disturbance

Maximum number of recorded disturbances

M12702-1 v4

Table 84. Event recorder

Function

Buffer capacity Maximum number of events in disturbance report

Maximum number of disturbance reports

Resolution

Accuracy

M13747-1 v5

Table 85. Trip value recorder

Function

Buffer capacity Maximum number of analog inputs

Maximum number of disturbance reports

Value

100

Value

150

100

1 ms

Depending on time synchronizing

Value

100

ABB 55

Breaker protection REQ650 2.1 IEC

Product version: 2.1

M12384-1 v6.1.1

Table 86. Disturbance recorder

Function

Buffer capacity Maximum number of analog inputs

Maximum number of binary inputs

Maximum number of disturbance reports

Maximum total recording time (3.4 s recording time and maximum number of channels, typical value)

GUID-C43B8654-60FE-4E20-8328-754C238F4AD0 v2

Table 87. Limit counter L4UFCNT

Function

Counter value

Max. count up speed

Range or value

0-65535

30 pulses/s (50% duty cycle) -

-

Accuracy

Value

40

128

100

340 seconds (100 recordings) at 50 Hz

280 seconds (80 recordings) at 60 Hz

1MRK 505 358-BEN B

56 ABB

Breaker protection REQ650 2.1 IEC

Product version: 2.1

Metering

Table 88. Pulse-counter logic PCFCNT

Function

Cycle time for report of counter value

Setting range

(1–3600) s

Table 89. ETPMMTR

Function

Energy metering

M13404-2 v5

SEMOD153707-2 v4

-

Accuracy

Range or value kWh Export/Import, kvarh Export/

Import

Accuracy

Input from MMXU. No extra error at steady load

1MRK 505 358-BEN B

ABB 57

Breaker protection REQ650 2.1 IEC

Product version: 2.1

Station communication

Table 90. LON communication protocol

Function

Protocol

Communication speed

Value

LON

1.25 Mbit/s

M11901-1 v2

Table 91. SPA communication protocol

Function

Protocol

Communication speed

Slave number

Table 92. IEC 60870-5-103 communication protocol

Function

Protocol

Communication speed

Value

IEC 60870-5-103

9600, 19200 Bd

M12589-1 v4

Table 93. SLM – LON port

Value

SPA

300, 1200, 2400, 4800, 9600, 19200 or 38400 Bd

1 to 899

M11921-1 v4

Quantity Range or value

Optical connector

Fiber, optical budget

Glass fiber: type ST

Plastic fiber: type HFBR snap-in

Glass fiber: 11 dB (1000m/3000 ft typically *)

Plastic fiber: 7 dB (10m/35ft typically *)

Fiber diameter Glass fiber: 62.5/125 m m

Plastic fiber: 1 mm

*) depending on optical budget calculation

SEMOD117441-2 v5

Table 94. SLM – SPA/IEC 60870-5-103/DNP3 port

Quantity

Optical connector

Fiber, optical budget

Range or value

Glass fiber: type ST

Plastic fiber: type HFBR snap-in

Glass fiber: 11 dB (1000m/3000ft m typically *)

Plastic fiber: 7 dB (25m/80ft m typically *)

Fiber diameter Glass fiber: 62.5/125 m m

Plastic fiber: 1 mm

*) depending on optical budget calculation

SEMOD158710-2 v2

Table 95. Galvanic RS485 communication module

Quantity

Communication speed

External connectors

Range or value

2400–19200 bauds

RS-485 6-pole connector

Soft ground 2-pole connector

58

1MRK 505 358-BEN B

ABB

Breaker protection REQ650 2.1 IEC

Product version: 2.1

GUID-8651FF22-C007-4D53-B7E3-686A30F37CB6 v4

Table 96. IEC 62439-3 Edition 1 and Edition 2 parallel redundancy protocol

Function

Communication speed

Value

100 Base-FX

1MRK 505 358-BEN B

ABB 59

Breaker protection REQ650 2.1 IEC

Product version: 2.1

1MRK 505 358-BEN B

Hardware

IED

M12327-1 v3

Table 97. Water and dust protection level according to IEC 60529

Front

Sides, top and bottom

Rear side

IP40 (IP54 with sealing strip)

IP20

IP20 with screw compression type

IP10 with ring lug terminals

SEMOD53385-1 v1

Electrical safety

GUID-1CF5B10A-CF8B-407D-8D87-F4B48B43C2B2 v1

Table 98. Electrical safety according to IEC 60255-27

Equipment class

Overvoltage category

Pollution degree

GUID-2825B541-DD31-4DAF-B5B3-97555F81A1C2 v1

I (protective earthed)

III

2 (normally only non-conductive pollution occurs except that occasionally a temporary conductivity caused by condensation is to be expected)

Connection system

M12583-1 v5 SEMOD53371-1 v1

Table 99. Auxiliary power supply connectors

Connector type

Screw compression type

Terminal blocks suitable for ring lug terminals

Rated voltage

250 V AC

300 V AC

Maximum conductor area

2.5 mm 2 (AWG14)

2 × 1 mm 2 (2 x AWG18)

3 mm 2 (AWG14)

Table 100. Binary I/O connectors

Connector type

Screw compression type

Rated voltage

250 V AC

Maximum conductor area

2.5 mm 2 (AWG14)

2 × 1 mm 2 (2 x AWG18)

60 ABB

Breaker protection REQ650 2.1 IEC

Product version: 2.1

Basic IED functions

M11963-1 v5

Table 101. Self supervision with internal event list

Data

Recording manner

List size

Value

Continuous, event controlled

40 events, first in-first out

SEMOD141136-2 v8

Table 102. IRIG-B

Quantity

Number of channels IRIG-B

Number of optical channels

Electrical connector:

Electrical connector IRIG-B

Optical connector IRIG-B

Type of fibre

Supported formats

Accuracy

Rated value

1

1

BNC

Type ST

62.5/125 μm multimode fibre

IRIG-B 00x

+/- 1μs

1MRK 505 358-BEN B

ABB 61

Breaker protection REQ650 2.1 IEC

Product version: 2.1

Inverse characteristic

M12388-1 v19

Table 103. ANSI Inverse time characteristics

Function

Operating characteristic:

Range or value

0.10 ≤ k ≤ 3.00

1.5 x I set

≤ I ≤ 20 x I set t =

ç

è

(

I

P

A

1

)

ö

+ B k tDef

ø

EQUATION1249-SMALL V2 EN-US

Reset characteristic: t =

I tr

( ) × k

EQUATION1250-SMALL V1 EN-US

I = I measured

/I set

ANSI Extremely Inverse

ANSI Very inverse

ANSI Normal Inverse

ANSI Moderately Inverse

ANSI Long Time Extremely Inverse

ANSI Long Time Very Inverse

ANSI Long Time Inverse

A=28.2, B=0.1217, P=2.0 , tr=29.1

A=19.61, B=0.491, P=2.0 , tr=21.6

A=0.0086, B=0.0185, P=0.02, tr=0.46

A=0.0515, B=0.1140, P=0.02, tr=4.85

A=64.07, B=0.250, P=2.0, tr=30

A=28.55, B=0.712, P=2.0, tr=13.46

A=0.086, B=0.185, P=0.02, tr=4.6

1MRK 505 358-BEN B

Accuracy

ANSI/IEEE C37.112 ,

±2.0% or ±40 ms whichever is greater

62 ABB

Breaker protection REQ650 2.1 IEC

Product version: 2.1

Table 104. IEC Inverse time characteristics

Function

Operating characteristic:

Range or value

0.10 ≤ k ≤ 3.00

1.5 x I set

≤ I ≤ 20 x I set t t =

æ

ç

I

A

(

P

1

)

ö

÷

× k

EQUATION1251-SMALL V1 EN-US

I = I measured

/I set

IEC Normal Inverse

IEC Very inverse

IEC Inverse

IEC Extremely inverse

IEC Short time inverse

IEC Long time inverse

Programmable characteristic

Operate characteristic:

=

æ

ç

I

(

P

A

C

) + B

ö

÷ × k

EQUATION1370-SMALL V1 EN-US

Reset characteristic:

A=0.14, P=0.02

A=13.5, P=1.0

A=0.14, P=0.02

A=80.0, P=2.0

A=0.05, P=0.04

A=120, P=1.0

k = (0.05-999) in steps of 0.01

A=(0.005-200.000) in steps of 0.001

B=(0.00-20.00) in steps of 0.01

C=(0.1-10.0) in steps of 0.1

P=(0.005-3.000) in steps of 0.001

TR=(0.005-100.000) in steps of 0.001

CR=(0.1-10.0) in steps of 0.1

PR=(0.005-3.000) in steps of 0.001

t = (

I

PR

TR

CR

) × k

EQUATION1253-SMALL V1 EN-US

I = I measured

/I set

Table 105. RI and RD type inverse time characteristics

Function

RI type inverse characteristic

1 t =

0.339

-

0.236

I

EQUATION1137-SMALL V1 EN-US

I = I measured

/I set

× k

RD type logarithmic inverse characteristic

Range or value

0.10 ≤ k ≤ 3.00

1.5 x I set

≤ I ≤ 20 x I set t = 5.8

-

æ

1.35

× In

I k

EQUATION1138-SMALL V1 EN-US

I = I measured

/I set

ABB

1MRK 505 358-BEN B

Accuracy

IEC 60255-151, ±2.0% or ±40 ms whichever is greater

Accuracy

IEC 60255-151, ±2.0% or ±40 ms whichever is greater

63

Breaker protection REQ650 2.1 IEC

Product version: 2.1

SEMOD116978-2 v9

Table 106. Inverse time characteristics for undervoltage protection

Function

Type A curve:

Range or value k = (0.05-1.10) in steps of 0.01

t =

U k

< U

U <

EQUATION1431-SMALL V1 EN-US

U< = U set

U = U measured

Type B curve: k × 480 t =

32 ×

U < -

U <

U

EQUATION1432-SMALL V1 EN-US

U< = U set

U = U measured

0.5

ö 2.0

+ 0.055

Programmable curve:

ê

ê

é

ê t =

B ×

U

U

< U

<

EQUATION1433-SMALL V1 EN-US

C

P

÷ ú

ú

ú

ù

ú

+ D

U< = U set

U = U measured k = (0.05-1.10) in steps of 0.01

k = (0.05-1.10) in steps of 0.01

A = (0.005-200.000) in steps of 0.001

B = (0.50-100.00) in steps of 0.01

C = (0.0-1.0) in steps of 0.1

D = (0.000-60.000) in steps of 0.001

P = (0.000-3.000) in steps of 0.001

1MRK 505 358-BEN B

Accuracy

±5.0% or ±45 ms whichever is greater

64 ABB

Breaker protection REQ650 2.1 IEC

Product version: 2.1

1MRK 505 358-BEN B

17. Ordering for pre-configured IED

GUID-A24820AA-D198-4429-8F9F-DEF7609B9B85 v2.1.1

Guidelines

Carefully read and follow the set of rules to ensure problem-free order management.

Please refer to the available functions table for included application functions.

PCM600 can be used to make changes and/or additions to the delivered factory configuration of the pre-configured.

To obtain the complete ordering code, please combine code from the tables, as given in the example below.

Example code: REQ650*2.1-B11X00- P03-B1A12-AC-MP-B-A3X0-D1AB1N1-GXFX-AX. Using the code of each position #1-13 specified as REQ650*1-2 2-3-4

4-5-6-7 8-9-10 10 10 10-11 11 11-12 12 12 12-13 13

REQ650*

# 1 - 2

-

- 3

-

- 4

-

- 5

-

6 - 7

-

8 - 9

-

10 - 11

-

- 12

.

- 13

-

-

-

SOFTWARE

Version number

Version no

Configuration alternatives

Single breaker, double busbar, 1/3 phase tripping

ACT configuration

ABB Standard configuration

Software options

No option

IEC 62439-3 parallel redundancy protocol

First local HMI user dialogue language

HMI language, English IEC

Additional local HMI user dialogue language

No additional HMI language

HMI language, English US

Casing

1/2 x 19" case

Mounting details with IP40 of protection from the front

No mounting kit included

19" rack mounting kit for 1/2 x 19" case of 2xRHGS6 or RHGS12

19" rack mounting kit for 3/4 x 19" case or 3xRGHS6

19" rack mounting kit for 1/1 x 19" case

Wall mounting kit

Flush mounting kit

Flush mounting kit + IP54 mounting seal

Selection for position #1.

#1

2.1

Selection for position #2.

B11

#2

X00

Selection for position #3

X00

#3

P03

B1

#4

X0

A12

Selection for position #4.

A

Selection for position #5. A

#5

#6

B

C

X

A

D

Selection for position #6.

E

F

Notes and Rules

Notes and Rules

Notes and Rules

All fields in the ordering form do not need to be filled in

Note: Requires 2-channel OEM

Notes and Rules

Notes and Rules

Notes and Rules

Note: Wall mounting not recommended with communication modules with fibre connection (SLM, OEM,

LDCM)

ABB 65

Breaker protection REQ650 2.1 IEC

Product version: 2.1

1MRK 505 358-BEN B

Connection type

Connection type for Power supply module

Compression terminals

Ringlug terminals

Connection type for input/output modules

Compression terminals

Auxiliary power supply

24-60 VDC

90-250 VDC

Human machine hardware interface

Medium size - graphic display, IEC keypad symbols

Medium size - graphic display, ANSI keypad symbols

Connection type for Analog modules

Compression terminals

Ringlug terminals

Analog system

TRM, 7I+5U 1A

TRM, 7I+5U 5A

TRM, 6I, 5A + 1I, 1A + 5U

TRM, 3I, 5A + 4I, 1A + 5U

Selection for position #7.

Selection for position #10.

A

B

M

N

#7

Selection for position #8.

Selection for position #9.

#9

B

C

#10

12

13

14

15

P

P

#8

A

B

Binary input/output module, mA and time synchronization boards.

For pulse counting, for example kWh metering, the BIM with enhanced pulse counting capabilities must be used.

Note: 1 BIM and 1 BOM always included.

Slot position (rear view)

#11

1/2 Case with 1 TRM

No board in slot

Binary output module 24 output relays (BOM)

BIM 16 inputs, 24-30 VDC, 50mA

BIM 16 inputs, 48-60 VDC, 50mA

BIM 16 inputs, 110-125 VDC, 50mA

BIM 16 inputs, 220-250 VDC, 50mA

BIM 16 inputs, 220-250 VDC, 120mA

BIMp 16 inputs, 24-30 VDC, 30mA, for pulse counting

BIMp 16 inputs, 48-60 VDC, 30mA, for pulse counting

BIMp 16 inputs, 110-125 VDC, 30mA, for pulse counting

BIMp 16 inputs, 220-250 VDC, 30mA, for pulse counting

IOM 8 inputs 10+2 output relays, 24-30 VDC, 50mA

IOM 8 inputs 10+2 output relays, 48-60 VDC, 50mA

IOM 8 inputs 10+2 output relays, 110-125 VDC, 50mA

IOM 8 inputs 10+2 output relays, 220-250 VDC, 50mA

IOM 8 inputs 10+2 output relays, 220-250 VDC, 110mA

IOM with MOV 8 inputs ,10 out, 2 high-speed, 24-30 VDC, 30mA

IOM with MOV 8 inputs 10 out, 2 high-speed, 48-60 VDC, 30mA

IOM with MOV 8 inputs 10 out, 2 high-speed, 110-125 VDC, 30mA

IOM with MOV 8 inputs 10 out, 2 high-speed, 220-250 VDC, 30mA

Selection for position #11.

C1

D1

E1

E2

B1

A

P2

U

V

L1

M1

N1

P1

H

K

F

G

W

Y

C1

D1

E1

E2

X

A

B1

Notes and Rules

Notes and Rules

Notes and Rules

Notes and Rules

Notes and Rules

Note: Max 3 positions in

1/2 rack.

66 ABB

Breaker protection REQ650 2.1 IEC

Product version: 2.1

1MRK 505 358-BEN B

Remote end communication, DNP serial comm. and time synchronization modules

Slot position (rear view)

Available slots

No remote communication board included

IRIG-B Time synchronization module

Galvanic RS485 communication module

Selection for position #12.

F

G

X

Serial communication unit for station communication

Slot position (rear view)

No communication board included

Serial SPA/LON/DNP/IEC 60870-5-103 plastic interface

Serial SPA/LON/DNP/IEC 60870-5-103 plastic/glass interface

Serial SPA/LON/DNP/IEC 60870-5-103 glass interface

Optical ethernet module, 1 channel glass

Optical ethernet module, 2 channel glass

X

F

G

#12

Selection for position #13.

B

C

X

A

F

G

X

#13

D

E

X

F

G

X

Notes and Rules

Notes and Rules

ABB 67

Breaker protection REQ650 2.1 IEC

Product version: 2.1

1MRK 505 358-BEN B

18. Ordering for Accessories

Accessories

IP15151-1 v1

Test switch

SEMOD111888-5 v11

The test system COMBITEST intended for use with the IEDs is described in 1MRK 512 001-BEN and 1MRK 001024-CA.

Please refer to the website: www.abb.com/substationautomation for detailed information.

Due to the high flexibility of our product and the wide variety of applications possible the test switches needs to be selected for each specific application.

Select your suitable test switch based on the available contacts arrangements shown in the reference documentation.

However our proposals for suitable variants are:

Protection cover

RK926 315-AV is provided with one three-phase CT input with current shorting and with sixteen trip output blocking contacts. It is suitable when external CT grounding is required both for the three-phase version and single-phase versions.

One such switch is then used per bay. With such arrangement the best possible test facilities for BBP & integrated BFP are available

Test switches type RTXP 24 is ordered separately. Please refer to Section

Related documents

for references to corresponding documents.

RHGS 6 Case or RHGS 12 Case with mounted RTXP 24 and the on/off switch for dc-supply are ordered separately. Please refer to Section

Related documents

for references to corresponding documents.

Protective cover for rear side of RHGS6, 6U, 1/4 x 19” Quantity:

M15040-3 v5

1MRK 002 420-AE

Protective cover for rear side of terminal, 6U, 1/2 x 19” Quantity: 1MRK 002 420-AC

Combiflex

Key switch for settings

Key switch for lock-out of settings via LCD-HMI

Note: To connect the key switch, leads with 10 A Combiflex socket on one end must be used.

SEMOD130267-5 v6

Mounting kit

Side-by-side mounting kit

Configuration and monitoring tools

Front connection cable between LCD-HMI and PC

M15042-3 v3

SEMOD131414-4 v3

LED Label special paper A4, 1 pc

LED Label special paper Letter, 1 pc

Quantity:

Quantity:

Quantity:

Quantity:

Quantity:

IP15161-1 v1

SEMOD130356-4 v5

1MRK 000 611-A

Ordering number

1MRK 002 420-Z

IP15162-1 v2

1MRK 001 665-CA

1MRK 002 038-CA

1MRK 002 038-DA

Manuals

Note: One (1) IED Connect CD containing user documentation (Operation manual, Technical manual,

Installation manual, Commissioning manual, Application manual and Getting started guide), Connectivity packages and LED label template is always included for each IED.

M15161-3 v12

68 ABB

Breaker protection REQ650 2.1 IEC

Product version: 2.1

Rule: Specify additional quantity of IED Connect CD requested.

User documentation

Rule: Specify the number of printed manuals requested

Application manual

Technical manual

Commissioning manual

Communication protocol manual, IEC 61850 Edition 1

Communication protocol manual, IEC 61850 Edition 2

Communication protocol manual, IEC 60870-5-103

Communication protocol manual, LON

Communication protocol manual, SPA

Communication protocol manual, DNP

Point list manual, DNP

Operation manual

Installation manual

Engineering manual

Cyber security guideline

IEC Quantity:

IEC Quantity:

IEC Quantity:

IEC Quantity:

IEC Quantity:

IEC Quantity:

IEC Quantity:

IEC Quantity:

ANSI Quantity:

ANSI Quantity

IEC Quantity:

IEC Quantity:

IEC Quantity:

IEC Quantity:

Quantity:

1MRK 505 358-BEN B

1MRK 002 290-AD

1MRK 505 355-UEN

1MRK 505 356-UEN

1MRK 505 357-UEN

1MRK 511 375-UEN

1MRK 511 376-UEN

1MRK 511 377-UEN

1MRK 511 378-UEN

1MRK 511 379-UEN

1MRK 511 374-UUS

1MRK 511 380-UUS

1MRK 500 125-UEN

1MRK 514 025-UEN

1MRK 511 381-UEN

1MRK 511 382-UEN

ABB 69

Breaker protection REQ650 2.1 IEC

Product version: 2.1

Reference information

For our reference and statistics we would be pleased to be provided with the following application data:

Country:

Station name:

End user:

Voltage level:

Related documents

GUID-94E8A5CA-BE1B-45AF-81E7-5A41D34EE112 v3

Documents related to REQ650

Application manual

Commissioning manual

Product guide

Technical manual

Type test certificate

Document numbers

1MRK 505 355-UEN

1MRK 505 357-UEN

1MRK 505 358-BEN

1MRK 505 356-UEN

1MRK 505 358-TEN

650 series manuals

Operation manual

Engineering manual

Installation manual

Communication protocol manual,

DNP3

Communication protocol manual,

IEC 60870-5-103

Communication protocol manual,

IEC 61850 Edition 1

Communication protocol manual,

IEC 61850 Edition 2

Communication protocol manual,

LON

Communication protocol manual,

SPA

Point list manual, DNP3

Accessories guide

Document numbers

1MRK 500 125-UEN

1MRK 511 381-UEN

1MRK 514 025-UEN

1MRK 511 374-UUS

1MRK 511 377-UEN

1MRK 511 375-UEN

1MRK 511 376-UEN

1MRK 511 378-UEN

1MRK 511 379-UEN

1MRK 511 380-UUS

IEC: 1MRK 514 012-UEN

ANSI: 1MRK 514 012-UUS

1MRK 511 382-UEN Cyber security deployment guideline

Connection and Installation components

Test system, COMBITEST

1MRK 513 003-BEN

1MRK 512 001-BEN

1MRK 505 358-BEN B

M2175-3 v4 kV

70 ABB

71

Contact us

For more information please contact:

ABB AB

Substation Automation Products

SE-721 59 Västerås, Sweden

Phone +46 (0) 21 32 50 00 www.abb.com/protection-control

Note:

We reserve the right to make technical changes or modify the contents of this document without prior notice. ABB AB does not accept any responsibility whatsoever for potential errors or possible lack of information in this document.

We reserve all rights in this document and in the subject matter and illustrations contained herein. Any reproduction, disclosure to third parties or utilization of its contents – in whole or in part – is forbidden without prior written consent of ABB AB.

© Copyright 2016 ABB.

All rights reserved.

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