MiCOM P132 - Schneider Electricms.schneider-electric.be/OP_MAIN/Micom/P132_EN_M_Ad7_Vol...MiCOM P132 Feeder Management and Bay Control Version -306 -415/416/417/418/419 -612 -308 -420/421/425/426/427

MiCOM P132 Feeder Management and Bay

Control Version -306 -415/416/417/418/419 -612 -308 -420/421/425/426/427 -613

Technical Manual Volume 2 of 2

P132/EN M/Ad7

Content :

P132/EN M/Cc5 (V.612)P132/EN AD/Ad7 (V.613)

MiCOM P132 Feeder Management and Bay

Control

Version -306 –415/416/417/418/419 –612

Technical Manual Volume 2 of 2 P132/EN M/Cc5

(AFSV.12.10091 D)

Appendix

P132/EN M/Bc5 // AFSV.12.10090 D /// P132-306-415/416/417/418/419-612 AN-1

A Glossary

B Signal List

C List of Bay Types

D Overview of Changes

Terminal Connection Diagrams: See Volume 1, Chapter 5 “Installation and Connection”.

Appendix (continued)

AN-2 P132/EN M/Bc5 // AFSV.12.10090 D /// P132-306-415/416/417/418/419-612

A Glossary A-1A1 Function Groups A-1A2 Modules A-2A3 Symbols A-3A4 Examples of Signal Names A-10A5 Symbols used A-11

B List of Signals B-1B 1 Internal Signal Names B-1B 2 Telecontrol Interface per EN 60870-5-101 or

IEC 870-5-101 (Companion Standard) B-6

B 2.1 Interoperability B-6B 2.1.1 Network Configuration (Network-Specific Parameters) B-6B 2.1.2 Physical Layer (Network-Specific Parameters) B-7B 2.1.3 Link Layer (Network-Specific Parameters) B-8B 2.1.4 Application Layer B-19B 2.1.5 Basic Application Functions B-15

B 3 Communication Interface per IEC 60870-5-103 B-18B 3.1 Interoperability B-18B 3.1.1 Physical Layer B-18B 3.1.1.1 Electrical Interface B-18B 3.1.1.2 Optical Interface B-18B 3.1.1.3 Transmission Rate B-18B 3.1.2 Link Layer B-19B 3.1.3 Application Layer B-19B 3.1.3.1 Transmission Mode for Application Data B-19B 3.1.3.2 Common Address of ASDU B-19B 3.1.3.3 Selection of Standard Information Numbers in Monitor

Direction B-19

B 3.1.3.3.1 System Functions in Monitor Direction B-19B 3.1.3.3.2 Status Indications in Monitor Direction B-20B 3.1.3.3.3 Monitoring Signals (Supervision Indications) in Monitor

Direction B-21

B 3.1.3.3.4 Earth Fault Indications in Monitor Direction B-22B 3.1.3.3.5 Fault Indications in Monitor Direction B-23B 3.1.3.3.6 Auto-Reclosure Indications in Monitor Direction B-25B 3.1.3.3.7 Measurands in Monitor Direction B-25B 3.1.3.3.8 Generic Functions in Monitor Direction B-26B 3.1.3.4 Selection of Standard Information Numbers in Control

Direction B-27

B 3.1.3.4.1 System Functions in Control Direction B-27B 3.1.3.4.2 General Commands in Control Direction B-27B 3.1.3.4.3 Generic Functions in Control Direction B-28B 3.1.3.5 Basic Application Functions B-29B 3.1.3.6 Miscellaneous B-29

C List of Bay Types C-1

D P132 Upgrade overview D-1

Appendix A - Glossary

P132/EN M/Bc5 // AFSV.12.10090 D /// P132-306-415/416/417/418/419-612 A-1

A 1 Function Groups

Fitting: (*: Frequency protection variant) (O: Order option) 1) not available for P132 in 24TE case

VTs & CTs

with CTs only

with VTs only (*)

ARC: Auto-reclosing control - ASC Automatic synchronism check O - - CBF: Circuit breaker failure protection - CBM: Circuit Breaker Monitoring - CMD_1: Single-pole commands O 1) O 1) O 1) COMM1: Communication interface 1 O O O COMM2: Communication interface 2 O O O COMM3: Communication interface 3 (InterMiCOM) O 1) O 1) O 1) DEV01 External device 01 O 1) O 1) O 1) DEV02 External device 02 O 1) O 1) O 1) DEV03 External device 03 O 1) O 1) O 1) DTOC: Definite-time overcurrent protection - DVICE: Device F_KEY: Configurable function keys 61) 61) 61) f<>: Over-/underfrequency protection - FT_DA: Fault data acquisition FT_RC: Fault recording GF_DA: Ground fault data acquisition - - GF_RC: Ground fault recording - - GFDSS: Ground fault direction determination using

steady-state values - -

I2> Unbalance protection - IDMT1: Inverse-time overcurrent protection 1 - IDMT2: Inverse-time overcurrent protection 2 - ILOCK: Interlocking logic O 1) O 1) O 1) INP: Binary input IRIGB IRIG-B interface O O O LED: LED indicators LIMIT: Limit value monitoring - LOC: Local control panel LOGIC: Logic MAIN: Main function MCMON: Measuring-circuit monitoring MEASI: Measured data input O 1) O 1) O 1) MEASO: Measured data output O 1) O 1) O 1) MP: Motor protection - MT_RC: Monitoring signal recording OL_DA: Overload data acquisition - OL_RC: Overload recording - OP_RC: Operating data recording OUTP: Binary outputs P<>: Power directional protection - - PC: PC link PSIG: Protective signaling - PSS: Parameter subset selection SCDD: Short-circuit direction determination - - SFMON: Self-monitoring SIG_1 Single-pole signals O 1) O 1) O 1) SOTF: Switch on to fault protection - TGFD: Transient ground fault direction determination O 1) - - THERM: Thermal overload protection - V<>: Time-voltage protection -

Appendix A - Glossary (continued)

A-2 P132/EN M/Bc5 // AFSV.12.10090 D /// P132-306-415/416/417/418/419-612

A 2 Modules A: Communication module B: Bus module L: Local control module N: Transient ground fault evaluation module P: Processor module T: Transformer module V: Power supply module X: Binary I/O module Y: Analog I/O module


P132/EN M/Bc5 // AFSV.12.10090 D /// P132-306-415/416/417/418/419-612 A-3

A 3 Symbols Graphic symbols for block diagrams Binary elements according to DIN 40900 Part 12, September 1992, IEC 617-12: amended 1991 Analog information processing according to DIN 40900 Part 13, January 1981 To document the linking of analog and binary signals, additional symbols have been used, taken from several DIN documents. As a rule, direction of the signal flow is from left to right and from top to bottom. Other flow directions are marked by an arrow. Input signals are listed on the left side of the signal flow, output signals on the right side.

Symbol Description

=

To obtain more space for representing a group of related elements, contours of the elements may be joined or cascaded if the following rules are met: There is no functional linkage between elements whose common contour line is oriented in the signal flow direction. Note: This rule does not necessarily apply to configurations with two or more signal flow directions, such as for symbols with a control block and an output block. There exists at least one logical link between elements whose common contour line runs perpendicularly to the signal flow direction.

Components of a symbol A symbol consists of a contour or contour combination and one or more qualifiers.


A-4 P132/EN M/Bc5 // AFSV.12.10090 D /// P132-306-415/416/417/418/419-612

Symbol Description

Control block A control block contains an input function common to several symbols. It is used for the collective setting of several trigger elements, for example.

Output block An output block contains an output function common to several symbols.

MAIN: Inom Device

[ 010 003 ]

D5Z08X5B

Settable control block The 6 digits in square brackets represent the address under which the function shown in the text is implemented.

MAIN: Inom Device

[ 010 003 ]

1.0

1.0: 1.0 A 5.0: 5.0 A

5.0

D5Z08X6B

Settable control block with function blocks The digits in the function block show the settings that are possible for this function. The text below the symbol assigns the corresponding unit or meaning to each setting.


P132/EN M/Bc5 // AFSV.12.10090 D /// P132-306-415/416/417/418/419-612 A-5

Symbol Description

Static input Only the state of the binary input variable is effective.

Dynamic input Only the transition from value 0 to value 1 is effective.

Negation of an output The value up to the border line is negated at the output.

Negation of an input The input value is negated before the border line.

Dynamic input with negation Only the transition from value 1 to value 0 is effective.

AND element The output variable will be 1 only if all input variables are 1.

OR element The output variable will be 1 only if at least one input variable is 1.

Threshold element The output variable will be 1 only if at least two input variables are 1. The number in the symbol may be replaced by any other number.

(m out of n) element The output variable will be 1 only if just one input variable is 1. The number in the symbol may be replaced by any other number if the number of inputs is increased or decreased accordingly.


A-6 P132/EN M/Bc5 // AFSV.12.10090 D /// P132-306-415/416/417/418/419-612

Symbol Description

Delay element The transition from value 0 to 1 at the output occurs after a time delay of t1 relative to the corresponding transition at the input. The transition from value 1 to 0 at the output occurs after a time delay of t2 relative to the corresponding transition at the input. t1 and t2 may be replaced by the actual delay values (in seconds or strobe ticks).

Monostable flip-flop The output variable will be 1 only if the input variable changes to 1. The output variable will remain 1 for 100 ms, independent of the duration of the input value 1 (non-retriggerable). Without a 1 in the function block the monostable flip-flop is retriggerable. The time is 100 ms in this example, but it may be changed to any other duration.

Analog-digital converter An analog input signal is converted to a binary signal.

Subtractor The output variable is the difference between the two input variables. A summing element is obtained by changing the minus sign to a plus sign at the symbol input.

Schmitt Trigger with binary output signal The binary output variable will be 1 if the input signal exceeds a specific threshold. The output variable remains 1 until the input signal drops below the threshold again.

Memory, general Storage of a binary or analog signal.


P132/EN M/Bc5 // AFSV.12.10090 D /// P132-306-415/416/417/418/419-612 A-7

Symbol Description

Non-stable flip-flop When the input variable changes to 1, a pulse sequence is generated at the output. The ! to the left of the G indicates that the pulse sequence starts with the input variable transition (synchronized start). If there is a ! to the right of the G, the pulse sequence ends with the ending of the 1 signal at the input (synchronized stop).

Amplifier The output variable is 1 only if the input variable is also 1.

Band pass filter The output only transmits the 50 Hz component of the input signals. All other frequencies (above and below 50 Hz) are attenuated.

Counter At the + input the input variable transitions from 0 to 1 are counted and stored in the function block. At the R(eset) input a transition of the input variable from 0 to 1 resets the counter to 0.

Electromechanical drive in general, here a relay, for example.

Signal level converter with electrical isolation between input and output. L+ = pos. voltage input L- = neg. voltage input U1 = device identifier


A-8 P132/EN M/Bc5 // AFSV.12.10090 D /// P132-306-415/416/417/418/419-612

Symbol Description

Input transformer with phase and item identifiers (according to DIN EN 60445) Phase identifiers for current inputs: for A: A1 and A2 for B: B1 and B2 for C: C1 and C2 for N: N1 and N2 Phase identifiers for voltage inputs via transformer 1: for A: 1U for B: 1V for C: 1W for N: 1N via transformer 2: for A: 2U for B: 2V Item identifiers for current transformers: for A: T1 for B: T2 for C: T3 for N: T4 for voltage transformer 1: for A: T5 for B: T6 for C: T7 for N: T8 for VG-N transformer: T90 for voltage transformer 2: for A: T15

Change-over contact with item identifier

Special symbol Output relay in normally-energized arrangement (‘closed-circuit operation’).


P132/EN M/Bc5 // AFSV.12.10090 D /// P132-306-415/416/417/418/419-612 A-9

Symbol Description

PC interface with pin connections

Multiplier The output variable is the result of the multiplication of the two input variables.

Divider The output variable is the result of the division of the two input variables.

Comparator The output variable becomes 1 only if the input variable(s) are equal to the function in the function block.

Formula block The output variable becomes 1 only if the input variable(s) satisfy the equation in the function block


A-10 P132/EN M/Bc5 // AFSV.12.10090 D /// P132-306-415/416/417/418/419-612

A 4 Examples of Signal Names

All settings and signals relevant for protection are shown in the block diagrams of Chapter 3 as follows:

Signal Name Description

FT_RC: Fault recording n 305 100

Internal signal names are not coded by a data model address. In the block diagrams they are marked with a diamond. The small figure underneath the signal name represents a code that is irrelevant to the user. The internal signal names used and their origins are listed in Appendix B.

DIST: VNG>> triggered [ 036 015 ]

Signal names coded by a data model address are represented by their address (shown in square brackets). Their origin is given in Chapters 7 and 8.

MAIN: General reset [ 003 002 ]

1: Execute

A specific setting to be used later on is shown with its signal name, address, and the setting preceded by the setting arrow.


P132/EN M/Bc5 // AFSV.12.10090 D /// P132-306-415/416/417/418/419-612 A-11

A 5 Symbols Used

Symbol Meaning

t Time duration

V Voltage, potential difference

V Complex voltage

I Electrical current

I Complex current

Z Complex impedance

Z Modulus of complex impedance

f Frequency

δ Temperature in °C

Σ Sum, result

Ω Unit of electrical resistance

α Angle

ϕ Phase angle. With subscripts: specific angle between a defined current and a defined voltage.

τ Time constant

∆T Temperature difference in K

A-12 P132/EN M/Bc5 // AFSV.12.10090 D /// P132-306-415/416/417/418/419-612

Appendix B - List of Signals

P132/EN M/Bc5 // AFSV.12.10090 D /// P132-306-415/416/417/418/419-612 B-1

B 1 Internal Signal Names

Internal signal names are not coded by an external address. In the block diagrams they are marked with a diamond.

Internal Signal Names Figure

ARC: Block/reset HSR 3-163

ARC: Block/reset TDR 3-163

ARC: Close request 3-165

ARC: HSR not permitted 3-165

ARC: HSR trip t. elapsed 3-157, 3-159, 3-160, 3-161, 3-162

ARC: Starting GFDSS 3-160

ARC: TDR not permitted 3-165

ARC: TDR trip t. elapsed 3-158, 3-159, 3-160, 3-161, 3-162

ASC: AC active for DEV01 3-180

ASC: Active 3-173

ASC: Clos.rej. w. block 3-173

ASC: Close enable DEV01 AC 3-180

ASC: Close enable w. block 3-173

ASC: Gen. close request 3-174

ASC: Manual close request 3-174

ASC: Sel. meas. loop PG 3-171

ASC: Test 3-174

ASC: VMeas 3-171

CBM: Internal trip cmd. 3-262, 3-265

COMM1: Communication error 3-9, 3-10, 3-11, 3-12, 3-13, 3-14

COMM1: Debounced signal 3-42

COMM1: Selected protocol 3-8

DEV01: Close cmd. rejection 3-293

DEV01: Close request 3-292

DEV01: Enable BI Close 3-294

DEV01: Enable BI Open 3-294

DEV01: Enable SI Close 3-293

DEV01: Enable SI Open 3-293

DEV01: End close command 3-297

DEV01: End open command 3-297

DEV01: Latching time elaps. 3-292

DEV01: Latching time runn. 3-292

Appendix B - List of Signals (continued)

B-2 P132/EN M/Bc5 // AFSV.12.10090 D /// P132-306-415/416/417/418/419-612


DEV01: Open cmd. rejection 3-293

DEV01: Open request 3-292

DEV01: Protect. close cmd. 3-295

DEV01: Protection trip cmd. 3-295

DEV01: Switch. device runn. 3-297

DTOC: IN 3-119

DTOC: Pulse prolong. runn. 3-122

DTOC: Starting A 3-115

DTOC: Starting B 3-115

DTOC: Starting C 3-115

DTOC: Starting N 3-120

DTOC: t2 N 3-122

f<>: fMeas 3-233

f<>: No. periods reached 3-233

f<>: VMeas 3-232

FT_DA: IA-kG 3-106

FT_DA: IB-kG 3-106

FT_DA: IC-kG 3-106

FT_DA: IkG 3-106

FT_DA: Output fault locat. 3-105

FT_DA: Output meas. values 3-105

GFDSS: Direction BS 3-185, 3-191

GFDSS: Direction LS 3-185, 3-191

GFDSS: IN filtered 3-189

GFDSS: IN> triggered 3-189

GFDSS: Op. delay IN elapsed 3-189

GFDSS: Oper.delay Y(N)> elaps 3-195

GFDSS: P 3-185, 3-191

GFDSS: Q 3-185, 3-191

GFDSS: VNG 3-184

GFDSS: VNG filtered 3-185, 3-191

GFDSS: VNG> triggered 3-185


P132/EN M/Bc5 // AFSV.12.10090 D /// P132-306-415/416/417/418/419-612 B-3


IDMT1: ARC Starting Iref,N> 3-135

IDMT1: ARC Starting Iref,P> 3-131

IDMT1: IN 3-133

IDMT1: Starting A 3-130

IDMT1: Starting B 3-130

IDMT1: Starting C 3-130

LOC: Remote & Local 3-6

MAIN: Imeas 3-107

MAIN: Block start. signal 3-71

MAIN: Block tim.st. IN,neg 3-71

MAIN: Block. 1 sel.functions 3-64

MAIN: Block. 2 sel.functions 3-64

MAIN: Customized bay type 3-45

MAIN: General starting int. 3-72

MAIN: Inrush stabil. trigg 3-62

MAIN: Internal CB open 3-263, 3-265

MAIN: Protection active 3-59

MAIN: Reset LED 3-82

MAIN: Sel. meas. loop A-B 3-107

MAIN: Sel. meas. loop A-G 3-107

MAIN: Sel. meas. loop B-C 3-107

MAIN: Sel. meas. loop B-G 3-107

MAIN: Sel. meas. loop C-A 3-107

MAIN: Sel. meas. loop C-G 3-107

MAIN: Sel. meas. loop PG 3-107

MAIN: Sel. meas. loop PP 3-107

MAIN: Start. I>,kIref,P> 3-72

MAIN: Starting A int. 3-71

MAIN: Starting B int. 3-71

MAIN: Starting C int. 3-71

MAIN: Starting Ineg 3-71

MAIN: Starting N int. 3-71

MAIN: Time tag 3-81

MAIN: Vmeas 3-107

MEASO: Enable 3-35


B-4 P132/EN M/Bc5 // AFSV.12.10090 D /// P132-306-415/416/417/418/419-612


MEASO: Reset meas.val.outp. 3-36

MP: Block. replica THERM 3-210

MP: IP,max r.m.s./Iref 3-205

MP: IStUp> 3-210

MP: Machine stopped 3-210

MP: St. kP*Iref>/Istup> 3-205

P<>: P 3-237

P<>: P- 3-237

P<>: P+ 3-237

P<>: Q 3-237

P<>: Q- 3-237

P<>: Q+ 3-237

SCDD: Block. direct. tI> 3-141

SCDD: Block. direct. tI>> 3-141

SCDD: Block. direct. tIN> 3-145

SCDD: Block. direct. tIN>> 3-145

SCDD: Block. direct. tIref,N> 3-145

SCDD: Block. direct. tIref,P> 3-141

SCDD: Determin. N enabled 3-143

SCDD: Determin. P enabled 3-139

SCDD: Phase curr.stage bl. 3-139

SCDD: Resid. curr.stage bl. 3-143

SCDD: VNG 3-143b

SOTF: ARC block. by close cm 3-147


P132/EN M/Bc5 // AFSV.12.10090 D /// P132-306-415/416/417/418/419-612 B-5


TGFD: Direction BS 3-199

TGFD: Direction LS 3-199

TGFD: Hardware fault 3-197

TGFD: IN,p> triggered 3-199

TGFD: Reset signal 3-201

TGFD: VNG 3-198

TGFD: VNG> (f0) triggered 3-199

TGFD: VNG> triggered 3-199

THERM: Block. by CTA error 3-216, 3-217

THERM: I 3-218

THERM: With CTA 3-216, 3-217

V<>: Vneg 3-226

V<>: VNG 3-228

V<>: Vpos 3-226


B-6 P132/EN M/Bc5 // AFSV.12.10090 D /// P132-306-415/416/417/418/419-612

B 2 Telecontrol Interface per EN 60870-5-101 or IEC 870-5-101 (Companion Standard)

This section incorporates Section 8 of EN 60870-5-101 (1996), which includes a general definition of the telecontrol interface for substation control systems.

B 2.1 Interoperability

This application-based standard (companion standard) specifies parameter sets and other options from which subsets are to be selected in order to implement specific telecontrol systems. Certain parameters such as the number of bytes (octets) in the COMMON ADDRESS of the ASDU are mutually exclusive. This means that only one value of the defined parameter is allowed per system. Other parameters, such as the listed set of different process information in the command and monitor direction, permit definition of the total number or of subsets that are suitable for the given application. This section combines the parameters given in the previous sections in order to facilitate an appropriate selection for a specific application. If a system is made up of several system components supplied by different manufacturers, then it is necessary for all partners to agree on the selected parameters.

The boxes for the selected parameters should be checked. 1

Note: The overall definition of a system may also require individual selection of certain parameters for specific parts of a system such as individual selection of scaling factors for individually addressable measured values.

B 2.1.1 Network Configuration (Network-Specific Parameters)

x Point-to-point configuration x Multipoint-party line configuration

x Multiple point-to-point configuration Multipoint-star configuration

1 See National Preface of EN 60870-5-101.


P132/EN M/Bc5 // AFSV.12.10090 D /// P132-306-415/416/417/418/419-612 B-7

B 2.1.2 Physical Layer 2 (Network-Specific Parameters)

Transmission Rate (Control Direction) 3

Unbalanced interface V.24/V.28

Standardized


Recommended with > 1 200 bit/s

Balanced interface X.24/X.27

100 bit/s x 2,400 bit/s 2,400 bit/s 56,000 bit/s

200 bit/s x 4,800 bit/s 4,800 bit/s 64,000 bit/s

300 bit/s x 9,600 bit/s 9,600 bit/s

x 600 bit/s 19,200 bit/s

x 1,200 bit/s 38,400 bit/s

Transmission Rate (Monitor Direction) 2


Standardized


Recommended with > 1 200 bit/s

Balanced interface X.24/X.27

100 bit/s x 2,400 bit/s 2,400 bit/s 56,000 bit/s 200 bit/s x 4,800 bit/s 4,800 bit/s 64,000 bit/s 300 bit/s x 9,600 bit/s 9,600 bit/s x 600 bit/s 19,200 bit/s x 1,200 bit/s 38 400 bit/s

2 See National Preface of EN 60870-5-101. 3 The transmission rates for control direction and monitor direction must be identical.


B-8 P132/EN M/Bc5 // AFSV.12.10090 D /// P132-306-415/416/417/418/419-612

B 2.1.3 Link Layer 4(Network-Specific Parameters)

Frame format FT 1.2, single character 1, and the fixed time-out interval are used exclusively in this companion standard.

Link Transmission Procedure Address Field of the Link x Balanced transmission x Not present

(balanced transmission only) x Unbalanced transmission x One octet x Two octets 5 Frame Length x Structured 240 Maximum length L (number of octets) x Unstructured

4 See National Preface of EN 60870-5-101. 5 Balanced only.


P132/EN M/Bc5 // AFSV.12.10090 D /// P132-306-415/416/417/418/419-612 B-9

B 2.1.4 Application Layer6

Transmission mode for application data

Mode 1 (least significant octet first), as defined in clause 4.10 of IEC 870-5-4, is used exclusively in this companion standard.

Common Address of ASDU (System-Specific Parameter)

x One octet x Two octets 1

Information Object Address (System-Specific Parameter)

x One octet x Structured x Two octets x Unstructured x Three octets

Cause of Transmission (System-Specific Parameter)

x One octet x Two octets (with originator address)



B-10 P132/EN M/Bc5 // AFSV.12.10090 D /// P132-306-415/416/417/418/419-612

Selection of Standard ASDUs

Process Information in Monitor Direction (Station-Specific Parameter)

x <1> = Single-point information M_SP_NA_1

x <2> = Single-point information with time tag M_SP_TA_1

x <3> = Double-point information M_DP_NA_1

x <4> = Double-point information with time tag M_DP_TA_1

x <5> = Step position information M_ST_NA_1

x <6> = Step position information with time tag M_ST_TA_1

x <7> = Bit string of 32 bit M_BO_NA_1

x <8> = Bit string of 32 bit with time tag M_BO_TA_1

x <9> = Measured value, normalized value M_ME_NA_1

x <10> = Measured value, normalized value with time tag M_ME_TA_1

x <11> = Measured value, scaled value M_ME_NB_1

x <12> = Measured value, scaled value with time tag M_ME_TB_1

<13> = Measured value, short floating point value M_ME_NC_1

<14> = Measured value, short floating point value with time tag M_ME_TC_1

x <15> = Integrated totals M_IT_NA_1

x <16> = Integrated totals with time tag M_IT_TA_1


P132/EN M/Bc5 // AFSV.12.10090 D /// P132-306-415/416/417/418/419-612 B-11

x <17> = Event of protection equipment with time tag M_EP_TA_1

x <18> = Packed start events of protection equipment with time tag ME_EP_TB_1

x <19> = Packed output circuit information of protection equipment with time tag M_EP_TC_1

<20> = Packed single-point information with status change detection M_PS_NA_1

<21> = Measured value, normalized value without quality descriptor M_ME_ND_1


B-12 P132/EN M/Bc5 // AFSV.12.10090 D /// P132-306-415/416/417/418/419-612

Process Information in Monitor Direction 7 (Station-Specific Parameter)

x <45> = Single command C_SC_NA_1 x <46> = Double command C_DC_NA_1 x <47> = Regulating step command C_IT_NA_1 <48> = Set point command, normalized value C_RC_NA_1 <49> = Set point command, scaled value C_SE_NB_1 <50> = Set point command, short floating point value C_SE_NC_1 <51> = Bit string of 32 bit C_BO_NA_1

System Information in Monitor Direction (Station-Specific Parameter)

x <70> = End of initialization ME_EI_NA_1

7 Incorrectly identified with control direction in IEC 870-5-101.


P132/EN M/Bc5 // AFSV.12.10090 D /// P132-306-415/416/417/418/419-612 B-13

System Information in Control Direction (Station-Specific Parameter)

x <100> = Interrogation command C_IC_NA_1 x <101> = Counter interrogation command C_CI_NA_1 x <102> = Read command C_RD_NA_1 x <103> = Clock synchronization command 8 C_CS_NA_1 x <104> = Test command C_TS_NB_1 <105> = Reset process command C_RP_NC_1 <106> = Delay acquisition command 9 C_CD_NA_1

8 The command procedure is formally processed, but there is no change in the local time in the station. 9 See National Preface of EN 60870-5-101.


B-14 P132/EN M/Bc5 // AFSV.12.10090 D /// P132-306-415/416/417/418/419-612

Parameter in Control Direction (Station-Specific Parameter)

x <110> = Parameter of measured value, normalized value P_ME_NA_1

x <111> = Parameter of measured value, scaled value P_ME_NB_1 <112> = Parameter of measured value, short floating point value P_ME_NC_1 <113> = Parameter activation P_AC_NA_1

File Transfer (Station-Specific Parameter)

<120> = File ready F_FR_NA_1 <121> = Section ready F_SR_NA_1 <122> = Call directory, select file, call file, call section F_SC_NA_1 <123> = Last section, last segment F_LS_NA_1 <124> = Ack file, ack section F_AF_NA_1 <125> = Segment F_SG_NA_1 <126> = Directory F_DR_TA_1


P132/EN M/Bc5 // AFSV.12.10090 D /// P132-306-415/416/417/418/419-612 B-15

B 2.1.5 Basic Application Functions10

Station Initialization (Station-Specific Parameter)

x Remote initialization

General Interrogation (System- or Station-Specific Parameter)

x Global

x Group 1 x Group 7 x Group 13 x Group 2 x Group 8 x Group 14 x Group 3 x Group 9 x Group 15 x Group 4 x Group 10 x Group 16 x Group 5 x Group 11 x Group 6 x Group 12 Addresses per group have to be defined.

Clock Synchronization (Station-Specific Parameter)

x Clock synchronization



B-16 P132/EN M/Bc5 // AFSV.12.10090 D /// P132-306-415/416/417/418/419-612

Command Transmission (Object-Specific Parameter)

x Direct command transmission Select and execute command Direct set point command transmission Select and execute set point command C_SE ACTTERM used x No additional definition

Short pulse duration

(Execution duration determined by a system parameter in the outstation) Long pulse duration

(Execution duration determined by a system parameter in the outstation) Persistent output

Transmission of Integrated Totals (Station- or Object-Specific Parameter)

Counter request x General request counter

x Counter freeze without reset x Request counter group 1 Counter freeze with reset x Request counter group 2 Counter reset x Request counter group 3 Addresses per group have to be specified x Request counter group 4


P132/EN M/Bc5 // AFSV.12.10090 D /// P132-306-415/416/417/418/419-612 B-17

Parameter Loading (Object-Specific Parameter)

x Threshold value

Smoothing value Low limit for transmission of measured value High limit for transmission of measured value

Parameter Activation (Object-Specific Parameter)

Act/deact of persistent cyclic or periodic transmission of the addressed object

File Transfer (Station-Specific Parameter)

File transfer in monitor direction F_FR_NA_1 File transfer in control direction F_FR_NA_1


B-18 P132/EN M/Bc5 // AFSV.12.10090 D /// P132-306-415/416/417/418/419-612

B 3 Communication Interface per IEC 60870-5-103

This section incorporates Section 8 of IEC 60870-5-103, including definitions applicable to the P132.

B 3.1 Interoperability

B 3.1.1 Physical Layer

B 3.1.1.1 Electrical Interface

x EIA RS 485

x No. of loads 32 for one device

Note: EIA RS 485 defines the loads in such a way that 32 of such loads can be operated on one line. For detailed information see EIA RS 485, Section 3.

B 3.1.1.2 Optical Interface

x Glass fiber

x Plastic fiber

x F-SMA connector

BFOC/2.5 connector

B 3.1.1.3 Transmission Rate

x 9,600 bit/s

x 19,200 bit/s


P132/EN M/Bc5 // AFSV.12.10090 D /// P132-306-415/416/417/418/419-612 B-19

B 3.1.2 Link Layer

There are no selection options for the link layer.

B 3.1.3 Application Layer

B 3.1.3.1 Transmission Mode for Application Data

Mode 1 (least significant octet first) as defined in clause 4.10 of IEC 60870-5-4 is used exclusively in this companion standard.

B 3.1.3.2 Common Address of ASDU

x One COMMON ADDRESS of ASDU (identical to the station address)

More than one COMMON ADDRESS of ASDU

B 3.1.3.3 Selection of Standard Information Numbers in Monitor Direction

B 3.1.3.3.1 System Functions in Monitor Direction

INF Description

x <0> End of general interrogation

x <0> Time synchronization

x <2> Reset FCB

x <3> Reset CU

x <4> Start / restart

<5> Power on


B-20 P132/EN M/Bc5 // AFSV.12.10090 D /// P132-306-415/416/417/418/419-612

B 3.1.3.3.2 Status Indications in Monitor Direction AREVA Designations INF Description Address Description

x <16> Auto-recloser active 015 064 ARC: Enabled

x <17> Teleprotection active 015 008 PSIG: Enabled

x <18> Protection active 003 030 MAIN: Device on-line

x <19> LED reset 021 010 MAIN: Reset indicat. USER

x <20> Blocking of monitor direction 037 075 COMM1: Sig./meas.val.block.

x <21> Test mode 037 071 MAIN: Test mode

<22> Local parameter setting

x <23> Characteristic 1 036 090 PSS: PS 1 active




x <27> Auxiliary input 1 034 000 LOGIC: Input 1 EXT





P132/EN M/Bc5 // AFSV.12.10090 D /// P132-306-415/416/417/418/419-612 B-21

B 3.1.3.3.3 Monitoring Signals (Supervision Indications) in Monitor Direction AREVA Designations INF Description Address Description

x <32> Measurand supervision I 040 087 MCMON: Meas. circ. I faulty

x <33> Measurand supervision V 038 023 MCMON: Meas. circ. V faulty

x <35> Phase sequence supervision 038 049 MCMON: Phase sequ. V faulty

x <36>11 Trip circuit supervision 041 200 SFMON: Relay Kxx faulty

<37> I>> back-up operation

x <38> VT fuse failure 004 061 MAIN: M.c.b. trip V EXT

x <39> Teleprotection disturbed 036 060 PSIG: Telecom. faulty

x <46> Group warning 036 100 SFMON: Warning (relay)

x <47> Group alarm 004 065 MAIN: Blocked/Faulty

11 The message content is formed from the OR operation of the individual signals.


B-22 P132/EN M/Bc5 // AFSV.12.10090 D /// P132-306-415/416/417/418/419-612

B 3.1.3.3.4 Earth Fault Indications in Monitor Direction AREVA Designations INF Description Address Description

x <48> Earth fault L1 041 054 MAIN: Ground fault A

x <49> Earth fault L2 041 055 MAIN: Ground fault B

x <50> Earth fault L3 041 056 MAIN: Ground fault C

x <51> Earth fault forward, i.e. line 041 088 MAIN: Gnd. fault forw./LS

x <52> Earth fault reverse, i.e. busbar 041 089 MAIN: Gnd. fault backw./BS


P132/EN M/Bc5 // AFSV.12.10090 D /// P132-306-415/416/417/418/419-612 B-23

B 3.1.3.3.5 Fault Indications in Monitor Direction AREVA Designations INF Description Address Description

x <64> Start /pick-up L1 040 005 MAIN: Starting A

x <65> Start /pick-up L3 040 006 MAIN: Starting B

x <66> Start /pick-up L3 040 007 MAIN: Starting C

x <67> Start /pick-up N 040 008 MAIN: Starting GF

x <68> General trip 036 071 MAIN: Gen. trip command 1

<69> Trip L1

<70> Trip L2

<71> Trip L3

<72> Trip I>> (back-up operation)

x <73> Fault location X in ohms 004 029 FT_DA: Fault react., prim.

x <74> Fault forward/line 036 018 SCDD: Fault P forward

x <75> Fault reverse/busbar 036 019 SCDD: Fault P backward

x <76> Teleprotection signal transmitted 036 035 PSIG: Send (signal)

x <77> Teleprotection signal received 037 029 PSIG: Receive (signal)

<78> Zone 1

<79> Zone 2

<80> Zone 3

<81> Zone 4

<82> Zone 5

<83> Zone 6


B-24 P132/EN M/Bc5 // AFSV.12.10090 D /// P132-306-415/416/417/418/419-612

AREVA Designations INF Description Address Description

x <84> General starting 040 000 MAIN: General starting

x <85> Breaker failure 036 017 CBF: CB failure

<86> Trip measuring system L1



<89> Trip measuring system E

x <90> Trip I> 040 042 MAIN: TripSig. tI>/tIrefP>

x <91> Trip I>> 040 011 DTOC: Trip Signal tI>>

x <92> Trip IN> 040 043 MAIN: TripSig. tIN>/tIrefN>

x <93> Trip IN>> 040 028 DTOC: Trip Signal tIN>>


P132/EN M/Bc5 // AFSV.12.10090 D /// P132-306-415/416/417/418/419-612 B-25

B 3.1.3.3.6 Auto-Reclosure Indications in Monitor Direction AREVA Designations INF Description Address Description

x <128> CB ‘on’ by AR 037 007 ARC: (Re)close signal HSR

x <129> CB ‘on’ by long-time AR 037 006 ARC: (Re)close signal TDR

x <130> AR blocked 037 008 ARC: Not ready

B 3.1.3.3.7 Measurands in Monitor Direction AREVA Designations INF Description Address Description

x <144>12 Measurand I 006 041 MAIN: Current B p.u.

x <145>13 Measurands I, V 006 041 005 045

MAIN: Current B p.u. MAIN: Voltage A-B p.u.

x <146>14 Measurands I, V, P, Q 006 041 005 045 004 051 004 053

MAIN: Current B p.u. MAIN: Voltage A-B p.u. MAIN: Active power P p.u. MAIN: Reac. power Q p.u.

x <147>15 Measurands IN, VEN 005 011 005 013

MAIN: Current Σ(IP) p.u. MAIN: Volt. Σ(VPG)/√3 p.u.

x <148>16 Measurands IA,B,C, VA,B,C, P, Q, f 005 041 006 041 007 041 005 043 006 043 007 043 004 051 004 053 004 040

MAIN: Current A p.u. MAIN: Current B p.u. MAIN: Current C p.u. MAIN: Voltage A-G p.u. MAIN: Voltage B-G p.u. MAIN: Voltage C-G p.u. MAIN: Active power P p.u. MAIN: Reac. power Q p.u. MAIN: Frequency f

12 only with setting C O M M 1 : T r a n s m . e n a b . c y c l . d a t to "ASDU 3.1 p. IEC" 13 only with setting C O M M 1 : T r a n s m . e n a b . c y c l . d a t to "ASDU 3.2 p. IEC" 14 only with setting C O M M 1 : T r a n s m . e n a b . c y c l . d a t to "ASDU 3.3 p. IEC" 15 only with setting C O M M 1 : T r a n s m . e n a b . c y c l . d a t to "ASDU 3.4 p. IEC" 16 only with setting C O M M 1 : T r a n s m . e n a b . c y c l . d a t to "ASDU 9 p. IEC"


B-26 P132/EN M/Bc5 // AFSV.12.10090 D /// P132-306-415/416/417/418/419-612

B 3.1.3.3.8 Generic Functions in Monitor Direction

INF Description

<240> Read headings of all defined groups

<241> Read values or attributes of all entries of one group

<243> Read directory of a single entry

<244> Read value or attribute of a single entry

<245> General interrogation of generic data

<249> Write entry with confirmation

<250> Write entry with execution

<251> Write entry abort


P132/EN M/Bc5 // AFSV.12.10090 D /// P132-306-415/416/417/418/419-612 B-27

B 3.1.3.4 Selection of Standard Information Numbers in Control Direction

B 3.1.3.4.1 System Functions in Control Direction

INF Description

x <0> Initiation of general interrogation

x <0> Time synchronization

B 3.1.3.4.2 General Commands in Control Direction AREVA Designations INF Description Address Description

x <16> Auto-recloser on/off 015 060 ARC: General enable USER

x <17> Teleprotection on/off 015 004 PSIG: General enable USER

x <18> Protection on/off 003 030 MAIN: Device on-line

x <19> LED reset 021 010 MAIN: Reset indicat. USER

x <23>17 Activate characteristic 1 003 060 PSS: Param.subs.sel. USER




17 Switches P S S : P a r a m . s u b s . s e l . U S E R to "Parameter set 1" 18 Switches P S S : P a r a m . s u b s . s e l . U S E R to "Parameter set 2" 19 Switches P S S : P a r a m . s u b s . s e l . U S E R to "Parameter set 3" 20 Switches P S S : P a r a m . s u b s . s e l . U S E R to "Parameter set 4"


B-28 P132/EN M/Bc5 // AFSV.12.10090 D /// P132-306-415/416/417/418/419-612

B 3.1.3.4.3 Generic Functions in Control Direction

INF Description

<240> Read headings of all defined groups

<241> Read values or attributes of all entries of one group

<243> Read directory of a single entry

<244> Read value or attribute of a single entry

<245> General interrogation of generic data

<248> Write entry

<249> Write entry with confirmation

<250> Write entry with execution

<251> Write entry abort


P132/EN M/Bc5 // AFSV.12.10090 D /// P132-306-415/416/417/418/419-612 B-29

B 3.1.3.5 Basic Application Functions

x Test mode

x Blocking of monitor direction

x Disturbance data

Generic services

x Private data

B 3.1.3.6 Miscellaneous

Measured values are transmitted both with ASDU 3 and ASDU 9. As defined in Sec. 7.2.6.8, the maximum MVAL can be either 1.2 or 2.4 times the rated value. In ASDU 3 and ASDU 9, different ratings may not be used; in other words, there is only one choice for each measurand.

Measured value Max. MVAL = nom. value multiplied by

1,2 or 2,4

Current A x

Current B x

Current C x

Voltage A-G x

Voltage B-G x

Voltage C-G x

Enabled power P x

Reactive power Q x

Frequency f x

Voltage A-B x

B-30 P132/EN M/Bc5 // AFSV.12.10090 D /// P132-306-415/416/417/418/419-612

Appendix C - List of Bay Types

P132/EN M/Bc5 // AFSV.12.10090 D /// P132-306-415/416/417/418/419-612 C-1

Key

Sorting the Bay Types The bay types are sorted by the criteria listed below. These criteria are encoded in the first three characters of the bay type code (example: A11.100.R01) given in brackets after the Bay Type No. (example: 2). Sorting is first by "Type of bay" in the order given below, then within each group by the second and third character in ascending order.

Type of bay A - Feeder bays L - Bus sectionalizer bay Q - Bus coupler bay K - Bus coupler and sectionalizer bay M - Busbar measurement bay E - Busbar grounding bay X - Other bay type

Number of busbars 1 - Single busbar 2 - Double busbar 9 - Without busbar / other configurations

Equipment 1 - Bays with switch truck or withdrawable switchgear assembly 2 - Bays with two circuit breakers or switch disconnectors on switch trucks or withdrawable switchgear assembly 3 - Bays with stationary switchgear units 5 - Bays with stationary switchgear units and three-position disconnector 9 - Other bay types

Bay Type No.: This number indicates the value to be set at MAIN: Type of bay (folder "Para/Conf") in order to configure the unit for the selected bay type.

Special Designations for External Devices: Mot.relay: Motor relay Shunt wd. Shunt winding

Appendix C - List of Bay Types (Continued)

C-2 P132/EN M/Bc5 // AFSV.12.10090 D /// P132-306-415/416/417/418/419-612

Table "Assignment of Binary Inputs and Output Relays"

Column "Switchgear unit" This column begins with the designation for the external device (switchgear unit). The function group follows in brackets. The function group encompasses all setting options for monitoring the switchgear unit and its signals. "Open" and "Close(d)" indicate the signal message or control direction of the switchgear unit.

Column "Binary Input": The "Open" or "Closed" signal should be connected to the binary input U xxxx. The connection points of the binary input U xxxx are shown in the terminal connection diagrams.

Column "Output relay" The "Open" or "Close" control of the switchgear unit is effected via output relay K xxxx. The connection points of the output relay K xxxx are shown in the terminal connection diagrams.

Table "Bay Interlock Equations for Operation without Station Interlocking"

Note! The interlock equations are stored at substation control level, not at unit level.

Symbols used in the Boolean interlock equations: /: Negation 0: Switchgear unit "Open" I: Switchgear unit "Closed" X: Switchgear unit in intermediate position

FctBl1: Function block 1, configuration at MAIN: Fct .asg. fc t .b lock.1 (Folder "Para/Func/Ctrl")

FctBl2: Function block 2, configuration at MAIN: Fct .asg. fc t .b lock.2 (Folder "Para/Func/Ctrl")

Appendix C - List of Bay Types (Continued)

P132/EN M/Bc5 // AFSV.12.10090 D /// P132-306-415/416/417/418/419-612 C-3

List of P132 Bay Panel types

Bay Panel type (Identification):

A – Feeder Bay 2 (A11.100.R01) 3 (A11.100.R02) 4 (A11.101.R01) 5 (A11.101.R02) 6 (A11.101.R03) 523 (A11.108.R01) 7 (A11.200.R01) 8 (A11.200.R02) 9 (A11.201.R01) 10 (A11.201.R02) 11 (A11.201.R03) 12 (A11.400.R01) 13 (A11.400.R02) 14 (A11.401.R01) 15 (A11.401.R02) 16 (A11.401.R03) 17 (A11.900.R01) 504 (A11.901.R00) 541 (A13.104.R01) 19 (A13.105.R01) 20 (A13.105.R02) 21 (A13.105.R03) 557 (A13.106.R03) 26 (A13.200.R01) 28 (A13.201.R01) 29 (A13.201.R02) 31 (A13.205.R01) 32 (A13.205.R02) 33 (A13.205.R03) 34 (A13.400.R01) 36 (A13.401.R01) 37 (A13.401.R02) 39 (A13.405.R01) 40 (A13.405.R02) 41 (A13.405.R03) 503 (A13.432.R02) 507 (A13.433.R02) 43 (A15.105.R01) 221 (A15.105.R02) 44 (A15.105.R03) 87 (A23.104.R01) 88 (A23.104.R03) 101 (A23.204.R01) 102 (A23.204.R03) 115 (A23.404.R01) 116 (A23.404.R03)

L – Bus Sectionalizer Bay 133 (L11.100.R01) 553 (L11.100.R01.2) 134 (L11.100.R02) 528 (L11.102.R01) 542 (L11.102.R01.2) 135 (L11.104.R01) 136 (L11.104.R02) 137 (L11.104.R03) 138 (L11.116.R01) 545 (L11.116.R01.2) 139 (L11.116.R03) 148 (L11.200.R01) 149 (L11.202.R01) 150 (L11.202.R03) 164 (L23.901.R02)

T – Bus Coupler Bay 505 (Q21.100.R01) 563 (Q21.133.R01) 205 (Q23.101.R01) 206 (Q23.101.R03)

M – Busbar Measurement Bay 171 (M11.300.R00) 172 (M11.300.R01) 540 (M11.304.R02) 173 (M11.900.R00) 174 (M11.900.R01) 176 (M13.312.R01) 177 (M13.312.R02) 506 (M13.902.R00) 233 (M15.903.R01) 179 (M15.903.R02) 188 (M23.302.R02) 189 (M23.312.R02) 193 (M23.902.R02) 559 (M23.904.R00) 560 (M23.908.R00) 194 (M23.912.R02)

E – Busbar Grounding Bay 130 (E13.901.R01) 132 (E23.903.R02)

X – Other Bay Type 1 (X99.901.R00)

Customized Bay 999 (User)

Appendix C - List of Bay Types

C-4 P132/EN M/Bc5 // AFSV.12.10090 D /// P132-306-415/416/417/418/419-612

Bay Type No. 2 (A11.100.R01) Feeder bay with circuit breaker, single busbar

Assignment of Binary Inputs and Output Relays

Switchgear unit Binary input Output relay

Q0 (DEV01) X0 (DEV02)

Open Close(d) Open Close(d)

U A01 U A02 U A03 U A04

K A01 K A02/ /

Bay Interlock Equations for Operation without Station Interlocking

Switchgear unit Control O/C Interlock equation

Q0 Close(d) /(X0=X) & /(FctBl1=I) & /(FctBl2=I)

Bay Interlock Equations for Operation with Station Interlocking



Appendix C - List of Bay Types (continued)

P132/EN M/Bc5 // AFSV.12.10090 D /// P132-306-415/416/417/418/419-612 C-5




Q0 (DEV01) X0 (DEV02)


U A01 U A02 U A03 U A04

K A01 K A02K A03 K A04




X0 Open (Q0=0)

Close(d) (Q0=0)




X0 Open (Q0=0)

Close(d) (Q0=0)


C-6 P132/EN M/Bc5 // AFSV.12.10090 D /// P132-306-415/416/417/418/419-612




Q0 (DEV01) X0 (DEV02) Q8 (DEV03)

Open Close(d) Open Close(d) Open Close(d)

U A01 U A02 U A03 U A04 U A05 U A06

K A01 K A02/ // /








P132/EN M/Bc5 // AFSV.12.10090 D /// P132-306-415/416/417/418/419-612 C-7




Q0 (DEV01) X0 (DEV02) Q8 (DEV03)


U A01 U A02 U A03 U A04 U A05 U A06

K A01 K A02K A03 K A04/ /




X0 Open (Q0=0)

Close(d) (Q0=0) & (Q8=0)




X0 Open (Q0=0)

Close(d) (Q0=0) & (Q8=0)


C-8 P132/EN M/Bc5 // AFSV.12.10090 D /// P132-306-415/416/417/418/419-612




Q0 (DEV01) X0 (DEV02) Q8 (DEV03)


U A01 U A02 U A03 U A04 U A05 U A06

K A01 K A02K A03 K A04K A05 K A06




Q8 Close(d) (X0=0)

X0 Open (Q0=0)

Close(d) (Q0=0) & (Q8=0)




Q8 Close(d) (X0=0)

X0 Open (Q0=0)

Close(d) (Q0=0) & (Q8=0)


P132/EN M/Bc5 // AFSV.12.10090 D /// P132-306-415/416/417/418/419-612 C-9




Q0 (DEV01) X0 (DEV02) Q15 (DEV03)


U A01 U A02 U A03 U A04 U A05 U A06

K A01 K A02/ // /



Q0 Close(d) /(X0=X) & (Q15=0) & /(FctBl1=I) & /(FctBl2=I)





C-10 P132/EN M/Bc5 // AFSV.12.10090 D /// P132-306-415/416/417/418/419-612

Bay Type No. 7 (A11.200.R01) Feeder bay with switch disconnector, single busbar



Q0 (DEV01) X0 (DEV02)


U A01 U A02 U A03 U A04

K A01 K A02/ /








P132/EN M/Bc5 // AFSV.12.10090 D /// P132-306-415/416/417/418/419-612 C-11




Q0 (DEV01) X0 (DEV02)


U A01 U A02 U A03 U A04

K A01 K A02K A03 K A04




X0 Open (Q0=0)

Close(d) (Q0=0)




X0 Open (Q0=0)

Close(d) (Q0=0)


C-12 P132/EN M/Bc5 // AFSV.12.10090 D /// P132-306-415/416/417/418/419-612




Q0 (DEV01) X0 (DEV02) Q8 (DEV03)


U A01 U A02 U A03 U A04 U A05 U A06

K A01 K A02/ // /








P132/EN M/Bc5 // AFSV.12.10090 D /// P132-306-415/416/417/418/419-612 C-13




Q0 (DEV01) X0 (DEV02) Q8 (DEV03)


U A01 U A02 U A03 U A04 U A05 U A06

K A01 K A02K A03 K A04/ /




X0 Open (Q0=0)

Close(d) (Q0=0) & (Q8=0)




X0 Open (Q0=0)

Close(d) (Q0=0) & (Q8=0)


C-14 P132/EN M/Bc5 // AFSV.12.10090 D /// P132-306-415/416/417/418/419-612




Q0 (DEV01) X0 (DEV02) Q8 (DEV03)


U A01 U A02 U A03 U A04 U A05 U A06

K A01 K A02K A03 K A04K A05 K A06




Q8 Close(d) (X0=0)

X0 Open (Q0=0)

Close(d) (Q0=0) & (Q8=0)




Q8 Close(d) (X0=0)

X0 Open (Q0=0)

Close(d) (Q0=0) & (Q8=0)


P132/EN M/Bc5 // AFSV.12.10090 D /// P132-306-415/416/417/418/419-612 C-15

Bay Type No. 12 (A11.400.R01) Feeder bay with switch disconnector / fuse unit, single busbar



Q0 (DEV01) X0 (DEV02) F (SIG_1: Signal S011)


U A01 U A02 U A03 U A04 U B05

K A01 K A02/ //








C-16 P132/EN M/Bc5 // AFSV.12.10090 D /// P132-306-415/416/417/418/419-612






U A01 U A02 U A03 U A04 U B05

K A01 K A02K A03 K A04/




X0 Open (Q0=0)

Close(d) (Q0=0)




X0 Open (Q0=0)

Close(d) (Q0=0)


P132/EN M/Bc5 // AFSV.12.10090 D /// P132-306-415/416/417/418/419-612 C-17




Q0 (DEV01) X0 (DEV02) Q8 (DEV03) F (SIG_1: Signal S011)


U A01 U A02 U A03 U A04 U A05 U A06 U B05

K A01 K A02/ // //








C-18 P132/EN M/Bc5 // AFSV.12.10090 D /// P132-306-415/416/417/418/419-612






U A01 U A02 U A03 U A04 U A05 U A06 U B05

K A01 K A02K A03 K A04/ //




X0 Open (Q0=0)

Close(d) (Q0=0) & (Q8=0)




X0 Open (Q0=0)

Close(d) (Q0=0) & (Q8=0)


P132/EN M/Bc5 // AFSV.12.10090 D /// P132-306-415/416/417/418/419-612 C-19






U A01 U A02 U A03 U A04 U A05 U A06 U B05

K A01 K A02K A03 K A04K A05 K A06/




Q8 Close(d) (X0=0)

X0 Open (Q0=0)

Close(d) (Q0=0) & (Q8=0)




Q8 Close(d) (X0=0)

X0 Open (Q0=0)

Close(d) (Q0=0) & (Q8=0)


C-20 P132/EN M/Bc5 // AFSV.12.10090 D /// P132-306-415/416/417/418/419-612

Bay Type No. 17 (A11.900.R01) Feeder bay with other switchgear unit, single busbar



X0 (DEV01)

Open Close(d)

U A01 U A02

K A01 K A02



Interlock equations not defined





P132/EN M/Bc5 // AFSV.12.10090 D /// P132-306-415/416/417/418/419-612 C-21

Bay Type No. 504 (A11.901.R00) Feeder bay with other switchgear unit, single busbar



X0 (DEV02) Q8 (DEV03)


U A03 U A04 U A05 U A06

/ // /








C-22 P132/EN M/Bc5 // AFSV.12.10090 D /// P132-306-415/416/417/418/419-612




Q0 (DEV01) Q1 (DEV02)


U A01 U A02 U A03 U A04

K A01 K A02/ /



Q0 Close(d) /(FctBl1=I) & /(FctBl2=I)



Q0 Close(d) /(FctBl1=I) & /(FctBl2=I)


P132/EN M/Bc5 // AFSV.12.10090 D /// P132-306-415/416/417/418/419-612 C-23




Q0 (DEV01) Q1 (DEV02) Q8 (DEV03)


U A01 U A02 U A03 U A04 U A05 U A06

K A01 K A02/ // /



Q0 Close(d) /(Q1=X) & (Q8=0) & /(FctBl1=I) & /(FctBl2=I)





C-24 P132/EN M/Bc5 // AFSV.12.10090 D /// P132-306-415/416/417/418/419-612




Q0 (DEV01) Q1 (DEV02) Q8 (DEV03)


U A01 U A02 U A03 U A04 U A05 U A06

K A01 K A02K A03 K A04/ /




Q1 Open (Q0=0)

Close(d) (Q0=0) & (Q8=0)




Q1 Open (Q0=0)

Close(d) (Q0=0) & (Q8=0)


P132/EN M/Bc5 // AFSV.12.10090 D /// P132-306-415/416/417/418/419-612 C-25




Q0 (DEV01) Q1 (DEV02) Q8 (DEV03)


U A01 U A02 U A03 U A04 U A05 U A06

K A01 K A02K A03 K A04K A05 K A06




Q1 Open (Q0=0)

Close(d) (Q0=0) & (Q8=0)

Q8 Close(d) (Q0=0) & (Q1=0)




Q1 Open (Q0=0)

Close(d) (Q0=0) & (Q8=0)

Q8 Close(d) (Q0=0) & (Q1=0)


C-26 P132/EN M/Bc5 // AFSV.12.10090 D /// P132-306-415/416/417/418/419-612




Q0 (DEV01) Q1 (DEV02) Q9 (DEV03)


U A01 U A02 U A03 U A04 U A05 U A06

K A01 K A02K A03 K A04K A05 K A06



Q0 Close(d) /(Q1=X) & /(Q9=X) & /(FctBl1=I) & /(FctBl2=I)

Q1 Open (Q0=0)

Close(d) (Q0=0)

Q9 Open (Q0=0)

Close(d) (Q0=0)




Q1 Open (Q0=0)

Close(d) (Q0=0)

Q9 Open (Q0=0)

Close(d) (Q0=0)


P132/EN M/Bc5 // AFSV.12.10090 D /// P132-306-415/416/417/418/419-612 C-27




Q0 (DEV01)

Open Close(d)

U A01 U A02

K A01 K A02








C-28 P132/EN M/Bc5 // AFSV.12.10090 D /// P132-306-415/416/417/418/419-612




Q0 (DEV01) Q8 (DEV02)


U A01 U A02 U A03 U A04

K A01 K A02/ /



Q0 Close(d) (Q8=0) & /(FctBl1=I) & /(FctBl2=I)





P132/EN M/Bc5 // AFSV.12.10090 D /// P132-306-415/416/417/418/419-612 C-29




Q0 (DEV01) Q8 (DEV02)


U A01 U A02 U A03 U A04

K A01 K A02K A03 K A04




Q8 Close(d) (Q0=0)




Q8 Close(d) (Q0=0)


C-30 P132/EN M/Bc5 // AFSV.12.10090 D /// P132-306-415/416/417/418/419-612




Q0 (DEV01) Q1 (DEV02) Q8 (DEV03)


U A01 U A02 U A03 U A04 U A05 U A06

K A01 K A02/ // /








P132/EN M/Bc5 // AFSV.12.10090 D /// P132-306-415/416/417/418/419-612 C-31




Q0 (DEV01) Q1 (DEV02) Q8 (DEV03)


U A01 U A02 U A03 U A04 U A05 U A06

K A01 K A02K A03 K A04/ /




Q1 Open (Q0=0)

Close(d) (Q0=0) & (Q8=0)




Q1 Open (Q0=0)

Close(d) (Q0=0) & (Q8=0)


C-32 P132/EN M/Bc5 // AFSV.12.10090 D /// P132-306-415/416/417/418/419-612




Q0 (DEV01) Q1 (DEV02) Q8 (DEV03)


U A01 U A02 U A03 U A04 U A05 U A06

K A01 K A02K A03 K A04K A05 K A06




Q1 Open (Q0=0)

Close(d) (Q0=0) & (Q8=0)

Q8 Close(d) (Q0=0) & (Q1=0)




Q1 Open (Q0=0)

Close(d) (Q0=0) & (Q8=0)

Q8 Close(d) (Q0=0) & (Q1=0)


P132/EN M/Bc5 // AFSV.12.10090 D /// P132-306-415/416/417/418/419-612 C-33




Q0 (DEV01) F (SIG_1: Signal S011)

Open Close(d)

U A01 U A02 U B05

K A01 K A02/








C-34 P132/EN M/Bc5 // AFSV.12.10090 D /// P132-306-415/416/417/418/419-612




Q0 (DEV01) Q8 (DEV02) F (SIG_1: Signal S011)


U A01 U A02 U A03 U A04 U B05

K A01 K A02/ //








P132/EN M/Bc5 // AFSV.12.10090 D /// P132-306-415/416/417/418/419-612 C-35






U A01 U A02 U A03 U A04 U B05

K A01 K A02K A03 K A04/




Q8 Close(d) (Q0=0)




Q8 Close(d) (Q0=0)


C-36 P132/EN M/Bc5 // AFSV.12.10090 D /// P132-306-415/416/417/418/419-612




Q0 (DEV01) Q1 (DEV02) Q8 (DEV03) F (SIG_1: Signal S011)


U A01 U A02 U A03 U A04 U A05 U A06 U B05

K A01 K A02/ // //








P132/EN M/Bc5 // AFSV.12.10090 D /// P132-306-415/416/417/418/419-612 C-37






U A01 U A02 U A03 U A04 U A05 U A06 U B05

K A01 K A02K A03 K A04/ //




Q1 Open (Q0=0)

Close(d) (Q0=0) & (Q8=0)




Q1 Open (Q0=0)

Close(d) (Q0=0) & (Q8=0)


C-38 P132/EN M/Bc5 // AFSV.12.10090 D /// P132-306-415/416/417/418/419-612






U A01 U A02 U A03 U A04 U A05 U A06 U B05

K A01 K A02K A03 K A04K A05 K A06/




Q1 Open (Q0=0)

Close(d) (Q0=0) & (Q8=0)

Q8 Close(d) (Q0=0) & (Q1=0)




Q1 Open (Q0=0)

Close(d) (Q0=0) & (Q8=0)

Q8 Close(d) (Q0=0) & (Q1=0)


P132/EN M/Bc5 // AFSV.12.10090 D /// P132-306-415/416/417/418/419-612 C-39






U A01 U A02 U A03 U A04 U B05

K A01 K A02K A03 K A04/




Q8 Close(d) (Q0=0)




Q8 Close(d) (Q0=0)


C-40 P132/EN M/Bc5 // AFSV.12.10090 D /// P132-306-415/416/417/418/419-612






U A01 U A02 U A03 U A04 U A05 U A06 U B05

K A01 K A02K A03 K A04/ //



Q0 Close(d) (Q8=0) & (Q15=0) & /(FctBl1=I) & /(FctBl2=I)

Q8 Close(d) (Q0=0)




Q8 Close(d) (Q0=0)


P132/EN M/Bc5 // AFSV.12.10090 D /// P132-306-415/416/417/418/419-612 C-41




Q0 (DEV01) Q1 (DEV02) Q8 (DEV03)


U A01 U A02 U A03 U A04 U A05 U A06

K A01 K A02/ // /



Q0 Open (Q8=0)

Close(d) /(Q1=X) & (Q8=0) & /(FctBl1=I) & /(FctBl2=I)



Q0 Open (Q8=0)



C-42 P132/EN M/Bc5 // AFSV.12.10090 D /// P132-306-415/416/417/418/419-612




Q0 (DEV01) Q1 (DEV02) Q8 (DEV03)


U A01 U A02 U A03 U A04 U A05 U A06

K A01 K A02K A03 K A04/ /



Q0 Open (Q8=0)


Q1 Open (Q0=0)

Close(d) (Q0=0) & (Q8=0)



Q0 Open (Q8=0)


Q1 Open (Q0=0)

Close(d) (Q0=0)


P132/EN M/Bc5 // AFSV.12.10090 D /// P132-306-415/416/417/418/419-612 C-43




Q0 (DEV01) Q1 (DEV02) Q8 (DEV03)


U A01 U A02 U A03 U A04 U A05 U A06

K A01 K A02K A03 K A04K A05 K A06



Q0 Open (Q8=0)


Q1 Open (Q0=0)

Close(d) (Q0=0) & (Q8=0)

Q8 Open (Q0=I)

Close(d) (Q0=0) & (Q1=0) & /(FctBl1=I) & /(FctBl2=I)



Q0 Open (Q8=0)


Q1 Open (Q0=0)

Close(d) (Q0=0)

Q8 Open (Q0=I)

Close(d) (Q0=0) & (Q1=0) & /(FctBl1=I) & /(FctBl2=I)


C-44 P132/EN M/Bc5 // AFSV.12.10090 D /// P132-306-415/416/417/418/419-612

Bay Type No. 87 (A23.104.R01) Feeder bay with circuit breaker, double busbar



Q0 (DEV01) Q1 (DEV02) Q2 (DEV03)


U A01 U A02 U A03 U A04 U A05 U A06

K A01 K A02/ // /








P132/EN M/Bc5 // AFSV.12.10090 D /// P132-306-415/416/417/418/419-612 C-45

Bay Type No. 88 (A23.104.R03) Feeder bay with circuit breaker, double busbar



Q0 (DEV01) Q1 (DEV02) Q2 (DEV03)


U A01 U A02 U A03 U A04 U A05 U A06

K A01 K A02K A03 K A04K A05 K A06




Q1 Open (Q0=0) & (Q2=0)

Close(d) (Q0=0) & (Q2=0)

Q2 Open (Q0=0) & (Q1=0)

Close(d) (Q0=0) & (Q1=0)





C-46 P132/EN M/Bc5 // AFSV.12.10090 D /// P132-306-415/416/417/418/419-612

Bay Type No. 101 (A23.204.R01) Feeder bay with switch disconnector, double busbar



Q0 (DEV01) Q1 (DEV02) Q2 (DEV03)


U A01 U A02 U A03 U A04 U A05 U A06

K A01 K A02/ // /








P132/EN M/Bc5 // AFSV.12.10090 D /// P132-306-415/416/417/418/419-612 C-47

Bay Type No. 102 (A23.204.R03) Feeder bay with switch disconnector, double busbar



Q0 (DEV01) Q1 (DEV02) Q2 (DEV03)


U A01 U A02 U A03 U A04 U A05 U A06

K A01 K A02K A03 K A04K A05 K A06




Q1 Open (Q0=0) & (Q2=0)

Close(d) (Q0=0) & (Q2=0)

Q2 Open (Q0=0) & (Q1=0)

Close(d) (Q0=0) & (Q1=0)





C-48 P132/EN M/Bc5 // AFSV.12.10090 D /// P132-306-415/416/417/418/419-612

Bay Type No. 115 (A23.404.R01) Feeder bay with switch disconnector / fuse unit, double busbar





U A01 U A02 U A03 U A04 U A05 U A06 U B05

K A01 K A02/ // //








P132/EN M/Bc5 // AFSV.12.10090 D /// P132-306-415/416/417/418/419-612 C-49

Bay Type No. 116 (A23.404.R03) Feeder bay with switch disconnector / fuse unit, double busbar





U A01 U A02 U A03 U A04 U A05 U A06 U B05

K A01 K A02K A03 K A04K A05 K A06/




Q1 Open (Q0=0) & (Q2=0)

Close(d) (Q0=0) & (Q2=0)

Q2 Open (Q0=0) & (Q1=0)

Close(d) (Q0=0) & (Q1=0)





C-50 P132/EN M/Bc5 // AFSV.12.10090 D /// P132-306-415/416/417/418/419-612

Bay Type No. 133 (L11.100.R01) Bus sectionalizer bay with circuit breaker, single busbar



Q0 (DEV01) X01 (DEV02)


U A01 U A02 U A03 U A04

K A01 K A02/ /








P132/EN M/Bc5 // AFSV.12.10090 D /// P132-306-415/416/417/418/419-612 C-51

Bay Type No. 553 (L11.100.R01.2) Bus sectionalizer bay with circuit breaker, single busbar



Q0 (DEV01) X01 (DEV02)


U A01 U A02 U A03 U A04

K A01 K A02/ /








C-52 P132/EN M/Bc5 // AFSV.12.10090 D /// P132-306-415/416/417/418/419-612




Q0 (DEV01) X01 (DEV02)


U A01 U A02 U A03 U A04

K A01 K A02K A03 K A04




X01 Open (Q0=0)

Close(d) (Q0=0)




X01 Open (Q0=0)

Close(d) (Q0=0)


P132/EN M/Bc5 // AFSV.12.10090 D /// P132-306-415/416/417/418/419-612 C-53




Q0 (DEV01) X0 (DEV02) Q15 (DEV03)


U A01 U A02 U A03 U A04 U A05 U A06

K A01 K A02/ // /








C-54 P132/EN M/Bc5 // AFSV.12.10090 D /// P132-306-415/416/417/418/419-612




Q0 (DEV01) X0 (DEV02) Q15 (DEV03)


U A01 U A02 U A03 U A04 U A05 U A06

K A01 K A02/ // /








P132/EN M/Bc5 // AFSV.12.10090 D /// P132-306-415/416/417/418/419-612 C-55




Q0 (DEV01) X01 (DEV02) Q8 (DEV03)


U A01 U A02 U A03 U A04 U A05 U A06

K A01 K A02/ // /








C-56 P132/EN M/Bc5 // AFSV.12.10090 D /// P132-306-415/416/417/418/419-612




Q0 (DEV01) X01 (DEV02) Q8 (DEV03)


U A01 U A02 U A03 U A04 U A05 U A06

K A01 K A02K A03 K A04/ /




X01 Open (Q0=0)

Close(d) (Q0=0) & (Q8=0)




X01 Open (Q0=0)

Close(d) (Q0=0) & (Q8=0)


P132/EN M/Bc5 // AFSV.12.10090 D /// P132-306-415/416/417/418/419-612 C-57




Q0 (DEV01) X01 (DEV02) Q8 (DEV03)


U A01 U A02 U A03 U A04 U A05 U A06

K A01 K A02K A03 K A04K A05 K A06




Q8 Close(d) (X01=0) & (Q8=I)

X01 Open (Q0=0)

Close(d) (Q0=0) & (Q8=0)




Q8 Close(d) (X01=0)

X01 Open (Q0=0)

Close(d) (Q0=0) & (Q8=0)


C-58 P132/EN M/Bc5 // AFSV.12.10090 D /// P132-306-415/416/417/418/419-612




Q0 (DEV01) X01 (DEV02) X02 (DEV03)


U A01 U A02 U A03 U A04 U A05 U A06

K A01 K A02/ // /



Q0 Close(d) /(X01=X) & /(X02=X) & /(FctBl1=I) & /(FctBl2=I)





P132/EN M/Bc5 // AFSV.12.10090 D /// P132-306-415/416/417/418/419-612 C-59




Q0 (DEV01) X01 (DEV02) X02 (DEV03)


U A01 U A02 U A03 U A04 U A05 U A06

K A01 K A02/ // /








C-60 P132/EN M/Bc5 // AFSV.12.10090 D /// P132-306-415/416/417/418/419-612




Q0 (DEV01) X01 (DEV02) X02 (DEV03)


U A01 U A02 U A03 U A04 U A05 U A06

K A01 K A02K A03 K A04K A05 K A06




X01 Open (Q0=0)

Close(d) (Q0=0)

X02 Open (Q0=0)

Close(d) (Q0=0)




X01 Open (Q0=0)

Close(d) (Q0=0)

X02 Open (Q0=0)

Close(d) (Q0=0)


P132/EN M/Bc5 // AFSV.12.10090 D /// P132-306-415/416/417/418/419-612 C-61

Bay Type No. 148 (L13.200.R01) Bus sectionalizer bay with switch disconnector, single busbar



Q0 (DEV01)

Open Close(d)

U A01 U A02

K A01 K A02








C-62 P132/EN M/Bc5 // AFSV.12.10090 D /// P132-306-415/416/417/418/419-612




Q0 (DEV01) Q15 (DEV02) Q16 (DEV03)


U A01 U A02 U A03 U A04 U A05 U A06

K A01 K A02/ // /








P132/EN M/Bc5 // AFSV.12.10090 D /// P132-306-415/416/417/418/419-612 C-63




Q0 (DEV01) Q15 (DEV02) Q16 (DEV03)


U A01 U A02 U A03 U A04 U A05 U A06

K A01 K A02K A03 K A04K A05 K A06




Q15 Close(d) (Q0=0) & (Q15=I)

Q16 Close(d) (Q0=0) & (Q16=I)




Q15 Close(d) (Q0=0)

Q16 Close(d) (Q0=0)


C-64 P132/EN M/Bc5 // AFSV.12.10090 D /// P132-306-415/416/417/418/419-612

Bay Type No. 164 (L23.901.R02) Bus sectionalizer bay with other switchgear unit, double busbar



Q11 (DEV01) Q21 (DEV02)


U A01 U A02 U A03 U A04

K A01 K A02K A03 K A04



Q11 Open (Q11=0)

Close(d) (Q11=I)

Q21 Open (Q21=0)

Close(d) (Q21=I)





P132/EN M/Bc5 // AFSV.12.10090 D /// P132-306-415/416/417/418/419-612 C-65

Bay Type No. 505 (Q21.100.R01) Bus coupler bay with circuit breaker, double busbar



Q0 (DEV01) X0 (DEV02)


U A01 U A02 U A03 U A04

K A01 K A02/ /








C-66 P132/EN M/Bc5 // AFSV.12.10090 D /// P132-306-415/416/417/418/419-612




Q0 (DEV01) X01 (DEV02) X02 (DEV03)


U A01 U A02 U A03 U A04 U A05 U A06

K A01 K A02/ // /








P132/EN M/Bc5 // AFSV.12.10090 D /// P132-306-415/416/417/418/419-612 C-67




Q0 (DEV01) Q10 (DEV02) Q20 (DEV03)


U A01 U A02 U A03 U A04 U A05 U A06

K A01 K A02/ // /








C-68 P132/EN M/Bc5 // AFSV.12.10090 D /// P132-306-415/416/417/418/419-612




Q0 (DEV01) Q10 (DEV02) Q20 (DEV03)


U A01 U A02 U A03 U A04 U A05 U A06

K A01 K A02K A03 K A04K A05 K A06




Q10 Open (Q0=0)

Close(d) (Q0=0)

Q20 Open (Q0=0)

Close(d) (Q0=0)




Q10 Open (Q0=0)

Close(d) (Q0=0)

Q20 Open (Q0=0)

Close(d) (Q0=0)


P132/EN M/Bc5 // AFSV.12.10090 D /// P132-306-415/416/417/418/419-612 C-69

Bay Type No. 171 (M11.300.R00) Busbar measurement bay with fuse unit, single busbar



X0 (DEV01) F (SIG_1: Signal S011)

Open Close(d)

U A01 U A02 U B05

/ //








C-70 P132/EN M/Bc5 // AFSV.12.10090 D /// P132-306-415/416/417/418/419-612




X0 (DEV01) F (SIG_1: Signal S011)

Open Close(d)

U A01 U A02 U B05

K A01 K A02/








P132/EN M/Bc5 // AFSV.12.10090 D /// P132-306-415/416/417/418/419-612 C-71






U A01 U A02 U A03 U A04 U B05

K A01 K A02K A03 K A04/



Q15 Close(d) (Q15=I)





C-72 P132/EN M/Bc5 // AFSV.12.10090 D /// P132-306-415/416/417/418/419-612

Bay Type No. 173 (M11.900.R00) Busbar measurement bay with other switchgear unit, single busbar



X0 (DEV01)

Open Close(d)

U A01 U A02

/ /








P132/EN M/Bc5 // AFSV.12.10090 D /// P132-306-415/416/417/418/419-612 C-73




X0 (DEV01)

Open Close(d)

U A01 U A02

K A01 K A02








C-74 P132/EN M/Bc5 // AFSV.12.10090 D /// P132-306-415/416/417/418/419-612






U A01 U A02 U A03 U A04 U B05

K A01 K A02/ //








P132/EN M/Bc5 // AFSV.12.10090 D /// P132-306-415/416/417/418/419-612 C-75






U A01 U A02 U A03 U A04 U B05

K A01 K A02K A03 K A04/








C-76 P132/EN M/Bc5 // AFSV.12.10090 D /// P132-306-415/416/417/418/419-612




Q1 (DEV01)

Open Close(d)

U A01 U A02

/ /








P132/EN M/Bc5 // AFSV.12.10090 D /// P132-306-415/416/417/418/419-612 C-77




Q1 (DEV01) Q8 (DEV02)


U A01 U A02 U A03 U A04

K A01 K A02/ /



Q1 Close(d) (Q8=0)



Q1 Close(d) (Q8=0)


C-78 P132/EN M/Bc5 // AFSV.12.10090 D /// P132-306-415/416/417/418/419-612




Q1 (DEV01) Q8 (DEV02)


U A01 U A02 U A03 U A04

K A01 K A02K A03 K A04



Q1 Close(d) (Q8=0)

Q8 Close(d) (Q1=0)



Q1 Close(d) (Q8=0)

Q8 Close(d) (Q1=0)


P132/EN M/Bc5 // AFSV.12.10090 D /// P132-306-415/416/417/418/419-612 C-79

Bay Type No. 188 (M23.302.R02) Busbar measurement bay with fuse unit, double busbar



Q1 (DEV01) Q2 (DEV02) F1 (SIG_1: Signal S011) F2 (SIG_1: Signal S012)


U A01 U A02 U A03 U A04 U B05 U B06

K A01 K A02K A03 K A04/

/








C-80 P132/EN M/Bc5 // AFSV.12.10090 D /// P132-306-415/416/417/418/419-612

Bay Type No. 189 (M23.312.R02) Busbar measurement bay with fuse unit, double busbar



Q15 (DEV01) Q25 (DEV02) F1 (SIG_1: Signal S011) F2 (SIG_1: Signal S012)


U A01 U A02 U A03 U A04 U B05 U B06

K A01 K A02K A03 K A04/

/









P132/EN M/Bc5 // AFSV.12.10090 D /// P132-306-415/416/417/418/419-612 C-81

Bay Type No. 193 (M23.902.R02) Busbar measurement bay with other switchgear unit, double busbar



Q1 (DEV01) Q2 (DEV02)


U A01 U A02 U A03 U A04

K A01 K A02K A03 K A04








C-82 P132/EN M/Bc5 // AFSV.12.10090 D /// P132-306-415/416/417/418/419-612




Q15 (DEV01)

Open Close(d)

U A01 U A02

/ /








P132/EN M/Bc5 // AFSV.12.10090 D /// P132-306-415/416/417/418/419-612 C-83




Q25 (DEV01)

Open Close(d)

U A01 U A02

/ /








C-84 P132/EN M/Bc5 // AFSV.12.10090 D /// P132-306-415/416/417/418/419-612




Q15 (DEV01) Q25 (DEV02)


U A01 U A02 U A03 U A04

K A01 K A02K A03 K A04









P132/EN M/Bc5 // AFSV.12.10090 D /// P132-306-415/416/417/418/419-612 C-85

Bay Type No. 130 (E13.901.R01) Busbar grounding bay with other switchgear unit, single busbar



Q15 (DEV01)

Open Close(d)

U A01 U A02

K A01 K A02








C-86 P132/EN M/Bc5 // AFSV.12.10090 D /// P132-306-415/416/417/418/419-612

Bay Type No. 132 (E23.903.R02) Busbar grounding bay with other switchgear unit, double busbar



Q15 (DEV01) Q25 (DEV02)


U A01 U A02 U A03 U A04

K A01 K A02K A03 K A04









P132/EN M/Bc5 // AFSV.12.10090 D /// P132-306-415/416/417/418/419-612 C-87

Bay Type No. 1 (X99.901.R00) Other bay type with other switchgear unit, without busbar










C-88 P132/EN M/Bc5 // AFSV.12.10090 D /// P132-306-415/416/417/418/419-612

Appendix D - Version History P132

P132/EN M/Aa5 // AFSV.12.10090 D /// P132-306-415/416/417/418/419-612 D-1

D 1 Version History P132

Version Changes

P132-301-401/402/403-601 Initial product release

Release: 20.04.2004

P132-302-404/405/406-602 Release: 16.03.2005

Hardware The 4-pole voltage transformer module (without current inputs for the over-/underfrequency protection variant) can now be fitted in slot 4 as an alternative. For the binary signal inputs, variants with a higher operate threshold are now available. Installation is only recommended if the application specifically requires the higher operate threshold.

Diagram The new terminal connection diagrams include the new 4-pole voltage transformer module (without current inputs for the over-/underfrequency protection variant):

P132.404 (for 40 TE case, pin-terminal connection)

P132.405 (for 40 TE case, transformer module: ring-terminal connection; other modules: pin-terminal connection)

P132.406 (for 84 TE case, ring-terminal connection)

Software

COMM1 With the IEC 60870-5-101 protocol, time stamping of signals with 7 bytes is now possible.

With the IEC 60870-5-103 protocol, function types of external devices (DEVxx) are now supported as of 240 instead of 242.

Time stamping of status signals from external devices has been adapted to the DNP3 protocol.

Bug fixing: With the Courier protocol, a change of a communication parameter will no longer lead to a sporadic warm restart of the device.

COMM1/ COMM2

With the IEC 60870-5-103 protocol, the selection of measured operating values has been extended for the cyclic ILS telegram.

COMM3 Bug fixing: After a warm restart with COMM3 activated, the entry at S F M O N : H a r d w a r e e r r o r C O M M 3 (093 143) will now only occur if appropriate.

SFMON The "memory function" of the monitoring signal memory can now be set. After the associated timer stage has elapsed, a renewed occurrence of a warning is processed as if it were a first occurrence.

FT_RC The recording duration for binary channels is now limited to 1 minute in order to prevent recording of endless events.

MEASI Open-circuit monitoring of the 20 mA input and the “PT 100” input has been improved.

Appendix D - Version History P132 (continued)

D-2 P132/EN M/Aa5 // AFSV.12.10090 D /// P132-306-415/416/417/418/419-612

Version Changes

MAIN Parameters, which could previously only be set in the branch "General Functions" of the menu tree, have been transferred to the parameter subsets.

M A I N : N e u t r . p t . t r e a t P S x (010 048) M A I N : H l d . t i m e d y n . p a r a m . P S x (018 009) M A I N : B l . t i m . s t . I N , n e g P S x (017 015) M A I N : G e n . S t a r t . M o d e P S x (017 027) M A I N : O p - r u s h r e s t r . P S x (017 097) M A I N : R u s h I ( 2 * f n ) / I ( f n ) P S x (017 098) M A I N : I > l i f t r u s h r e s t r P S x (017 095) M A I N : S u p p r e s s s t a r t . s i g . P S x (017 054) M A I N : t G S P S x (017 005)

With this enhancement it is now possible to take into account operational changes by selecting the appropriate parameter subset.

The following per unit measured operating values have been added:

M A I N : C u r r . I p o s p . u . (009 016) M A I N : C u r r . I n e g p . u . (009 015) M A I N : V o l t a g e V p o s p . u . (009 018) M A I N : V o l t a g e V n e g p . u . (009 017) M A I N : F r e q u e n c y f p . u . (004 070) M A I N : A n g l e V P G / I N p . u . (005 072) M A I N : L o a d a n g l e p h i A p . u . (005 073) M A I N : L o a d a n g l e p h i B p . u . (005 074) M A I N : L o a d a n g l e p h i C p . u . (005 075) M A I N : L o a d a n g l e p h i N p . u . (005 076)

The primary source for synchronizing the date and time can now be selected from COMM1, COMM3/PC, IRIG-B or a binary input for minute signal pulses. A backup source may additionally be selected.

M A I N : P r i m . S o u r c e T i m e S y n c (103 210) M A I N : B a c k u p S o u r c e T i m e S y n c (103 211)

For the control functions, the user may select if a time tag is set only after debouncing (or when the first edge is detected).

M A I N : T i m e T a g A f t e r D e b o u n c e (221 083) Bug fixing: The enabling or disabling of the ground protection via a binary signal input was incorrectly inverted.

DTOC A fourth overcurrent stage (residual current stage) IN>>>> with an extended setting range has been integrated. Because of its extended setting range this stage always uses the residual current calculated from the three phase currents.

SCDD A voltage memory has been added to the Short-Circuit Direction Determination function. In general SCDD will operate as previously with the non-faulted voltages. Now the device offers a voltage memory from which the SCDD function can obtain necessary voltage information for direction determination when 3-pole faults with a large 3-phase voltage drop have occurred.

PSIG Bug fixing: The enabling or disabling of the protective signaling via a binary signal input was incorrectly inverted.


P132/EN M/Aa5 // AFSV.12.10090 D /// P132-306-415/416/417/418/419-612 D-3

Version Changes

ARC Bug fixing: The enabling or disabling of the ARC via a binary signal input was incorrectly inverted. The DTOC negative-sequence current stage started the ARC by triggering the ARC trip time of the IDMT negative-sequence current stage.

ASC Selecting the CB assignment to an external device has been adapted to the maximum possible number of external devices.

Bug fixing: The enabling or disabling of the ASC via a binary signal input was incorrectly inverted.

GFDSS The setting parameters for function group GFDSS are now included in the parameter subsets and can be changed, according to operating conditions, by selecting the appropriate parameter subset. It is also possible to individually enable this function in each parameter subset.

Processing of function group GFDSS now occurs with a higher priority in order to obtain reduced reaction times with less fluctuation. This is a response to the increased application of ground fault direction signaling as a tripping condition.

Bug fixing: The cause for faulty or unstable directional decisions with the operate delay tVNG> set below 60 ms has been removed.

Bug fixing: The operate delays LS and BS are now accurate, even with set values > 65 ms.

TGFD The setting parameters for function group TGFD are now included in the parameter subsets and can be changed, according to operating conditions, by selecting the appropriate parameter subset. It is also possible to individually enable this function in each parameter subset.

Bug fixing: With a sensitive setting of the current stage T G F D : I N , p > P S x it could previously occur that the self-monitoring function was triggered and would then issue the warning signal S F M O N : M o d u l e N D A C f a u l t y .

Bug fixing: When function group TGFD was enabled, TGFD decisions were issued that had previously been stored.

MP The motor protection function has been extended by these per unit measured operating values:

M P : T h e r m . R e p l . M P p . u . (005 071) M P : S t - u p s s t . p e r m . p . u . (005 086)

V<> The over-/undervoltage function may now be optionally operated with an enable threshold based on the minimum current monitor for the undervoltage stage V<. There are two new setting parameters to activate the operating mode for minimum current monitoring and to set the enable threshold:

V < > : I e n a b l e V : O p . M o d e V < m o n . P S x (001 162)


D-4 P132/EN M/Aa5 // AFSV.12.10090 D /// P132-306-415/416/417/418/419-612

Version Changes

P<> Bug fixing: When setting a high operate value as well as a high disengaging ratio for the P< or Q< stages, an internal overflow was possible that led to a lower disengaging ratio than that which had been set.

P132-302-404/405/406-603 Release: 26.10.2005

Hardware No modifications

Diagram No modifications

Software

OUTP Bug fixing: When a binary I/O module (6 binary inputs & 8 output relays) was fitted in slot 12 of an 84TE case the configuration parameters for the last two output relays were hidden.

MAIN Bug fixing: With the parameter L O C : L a n g u a g e set to Reference language (Am. English), the selection texts for parameter M A I N : N e u t r . p t . t r e a t . P S x (010 048) were nevertheless displayed in the Regional Language (German, French or Spanish depending on the order option).

P132-302-404/405/406-603 -701

Release: 01.03.2006

Hardware No modifications

Diagram No modifications

Software

DEVx (x=1 to 10)

The electric control of external devices has now received a higher priority. This results in greatly decreased triggering times with default switch control commands via the electric control.

P132-303-407/408/409-610 Release: 17.07.2006

Hardware The new Ethernet communications module for communication per IEC 61850 is now available and may be fitted in slot 2 as an alternative to communication module A. For the optical interface (100 Mbit/s) on the Ethernet communications module the user may either select the ordering option ST connector or SC connector.

Diagram The updated connection diagrams now include the interfaces on the Ethernet communication module.

P132.407 (for 40 TE case, pin-terminal connection)

P132.408 (for 40 TE case, transformer module: ring-terminal connection; other modules: pin-terminal connection)

P132.409 (for 84 TE case, ring-terminal connection)

Software

DVICE Implementation of editable device identification data:

D V I C E : PCS Order No. (001 200) D V I C E : L o c a t i o n (001 201)

LOC The selection for the Operation Panel was extended by the addition of the the measured operating value M E A S I : S c a l e d v a l u e I D C , l i n (004 180).


P132/EN M/Aa5 // AFSV.12.10090 D /// P132-306-415/416/417/418/419-612 D-5

Version Changes

COMM3 Bug fixing: The input signal MAIN : M a n . T r i p c m d . E X T (037 018) did not operate when it was set as a receive signal for COMM3 and triggered via this communication link.

IEC Implementation of the IEC 61850 communication protocol.

GOOSE In conjunction with the IEC 61850 communication protocol the IEC-GOOSE communication procedure for the exchange of binary information within an Ethernet network section has been implemented.

GSSE In conjunction with the IEC 61850 communication protocol a communication procedure has been implemented that is compatible with previous UCA2 GOOSE for the exchange of binary information within an Ethernet network section.

MAIN When transmitting determined energy output values via address readout, the values "Overflow" and "Not measured" are now hidden.

ARC Designations of HSR and TDR trip times for IDMT phase, ground and negative sequence current stages have been changed to read:

A R C : H S R t r i p . t . I r e f , P P S x A R C : H S R t r i p . t . I r e f , N P S x A R C : H S R t r . t . I r e f , n e g P S x A R C : T D R t r i p . t . I r e f , P P S x A R C : T D R t r i p . t . I r e f , N P S x A R C : T D R t r . t . I r e f , n e g P S x

FT_RC The new signal F T _ R C : R e c o r d . t r i g a c t i v e (002 002) to display a present trigger criterion has been added to the disturbance recording.

CBM Function group Circuit Breaker Monitoring (CBM) has been added.

P132-304/305-412/413/414-611Release: 16.05.2007

Hardware As an ordering option for the 40TE and 84TE model versions there is now a variant available with a detachable HMI. The detachable HMI is always supplied with a case width of 40TE. The detachable HMI provides 6 additional keys and LED indicators. The freely configurable LED indicators (H 4 – H 16, H 18 – H 23) are provided as multi-color LEDs and, depending on the trigger signal, will show red, green or amber (superpositon of red and green) light.

Diagram The updated connection diagrams now include the interfaces to connect the detachable HMI and the additional LED indicators.

Software The reset functions have been expanded: • Now there are two group reset parameters available, each of

which will "simultaneously" reset several memories. The assignment of eligible memories to the two group reset parameters is configurable. The group reset is now issued by a manual reset from the local control panel, and may also be created by linking it to a binary signal input or a function key.

• In similar fashion a selection of memories to be reset may be assigned to the CLEAR key situated on the local control panel. Now each time the CLEAR key is pressed not only the LED indicators and the display are reset but the selected memory is also reset immediately.


D-6 P132/EN M/Aa5 // AFSV.12.10090 D /// P132-306-415/416/417/418/419-612

Version Changes

DVICE These parameters are available in conjunction with the option "detachable HMI":

D V I C E : S W v e r s i o n D H M I (002 131) D V I C E : S W v e r s i o n D H M I D M (002 132)

LOC This parameter is available in conjunction with the option "detachable HMI":

L O C : L o c a l H M I e x i s t s (221 099)

Six additional function keys are freely configurable. These function keys may be used to control switchgear units. Various functions may be assigned to the two colors, red and green, available with the multi-color LEDs. (Should both assigned functions be simultaneously present then the third color amber is generated.)

IEC Implementation of active monitoring of the communications data links to logged-on clients with the parameter I E C : T C P k e e p - a l i v e t i m e r (104 062). This active monitoring now replaces previous passive monitoring by parameter I E C : I n a c t i v i t y t i m e r (104 050).

Implementation of an automatic switchover to daylight saving time, activated by parameter I E C : S w i t c h . d a y l . s a v . t i m e (104 219). Switchover times for the automatic switch to daylight saving time are governed by the following settings:

I E C : D a y l . s a v . t i m e s t a r t (104 220) I E C : D a y l . s a v . t i m e s t . d (104 221) I E C : D a y l . s a v . t i m e s t . m (104 222) I E C : D a y l . s a v . t . s t . 0 : 0 0 + (104 223) I E C : D a y l . s a v . t i m e e n d (104 225) I E C : D a y l . s a v . t i m e e n d d (104 226) I E C : D a y l . s a v . t i m e e n d m (104 227) I E C : D a y l . s a v . t . e n d 0 : 0 0 + (104 228)

Instead of setting a router address and target network so as to establish a communication link to a client situated exterior to the local network, only the setting of the gateway address is now required via

I E C : G a t e w a y a d d r e s s (104 011).

Now 'unbuffered reports' are available for all logical nodes.

CBF The complete revision of the circuit breaker failure protection function now includes a current reset criterion.

F_KEY The feature "Configurable Function Keys (Function Group F_KEY)" has been added.


P132/EN M/Aa5 // AFSV.12.10090 D /// P132-306-415/416/417/418/419-612 D-7

Version Changes

P132-306 -415/416/417/418/419 -612

Release: 26.11.2007

Hardware The P132 is now available as a 24T case variant. This variant does not offer a detachable HMI, includes no function keys and is fitted with only 10 single color LED indicators (five of which are permanently assigned). In addition there is only a reduced selection of hardware modules and function groups available as compared to the larger case variants. For all three cases there is now the option of a binary output module with 4 high-break contacts.

Diagram The updated terminal connection diagrams now include the connections of the new binary output module fitted with 4 high-break contacts. Also added are the terminal connection diagrams for the new 24T case variant.

Software L O C : F c t . a s s i g n . r e s e t (005 251) was renamed to L O C : F c t . r e s e t k e y and L O C : A s s i g n m e n t r e a d k e y (080 110) was renamed to L O C : F c t . r e a d k e y .

IEC I E C : D e a d b a n d v a l u e (104 051) was divided into several individual settings: I E C : U p d a t e M e a s u r e m e n t s (104 229) I E C : D e a d b a n d I P (104 230) I E C : D e a d b a n d I N (104 231) I E C : D e a d b a n d V P P (104 232) I E C : D e a d b a n d V P G (104 233) I E C : D e a d b a n d f (104 234) I E C : D e a d b a n d P (104 235) I E C : D e a d b a n d p h i (104 236) I E C : D e a d b a n d Z (104 237) I E C : D e a d b a n d m i n / m a x (104 238) I E C : D e a d b a n d A S C (104 239) I E C : D e a d b a n d t e m p . (104 240) I E C : D e a d b a n d 2 0 m A (104 241)

INP The setting I N P : F i l t e r (010 220) is now available for conformity with standard IEC 60255-22-7, class A.

MAIN The setting M A I N : M e a s . d i r e c t i o n P , Q (006 096) now permits sign inversion for the display of the following measured operating values:

M A I N : A c t i v e p o w e r P p r i m . (004 050) M A I N : R e a c . p o w e r Q p r i m . (004 052) M A I N : A c t i v e p o w e r P p . u . (004 051) M A I N : R e a c . p o w e r Q p . u . (004 053)

MP Now the device features an “hours run” counter and this includes a comparison to the corresponding set upper limit.

CMD_1 The function group Single-Pole Commands has been added.

D-8 P132/EN M/Aa5 // AFSV.12.10090 D /// P132-306-415/416/417/418/419-612

AREVA T&D's Automation & Information Systems Business www.areva-td.com T&D Worldwide Contact Centre online 24 hours a day: +44 (0) 1785 25 00 70 http://www.areva-td.com/contactcentre/

Pub

licat

ion:

P13

2/E

N M

/Cc5

- V

olum

e 2/

2

MiCOM P132 Time-Overcurrent

Protection Unit P132 –306 -415/416/417/418/419 -612

⇒ P132 -308 -420/421/425/426/427- 613

Upgrade Documentation

P132/EN AD/Ad7 (AFSV.12.10290 D)

P132, Changes in software version -612 to -613

P132/DE AD/d7 // AFSV.12.10290 DE /// P132-308-420/421/425/426/427-613 U-3

Contents

1 Overview U-5

2 Functional Details U-13

2.1 Thermal Overload Protection (Function Group THERM) U-13

P132, Changes in software version -612 to -613 (continued)

U-4 P132/DE AD/d7 // AFSV.12.10290 DE /// P132-308-420/421/425/426/427-613

In the new version of the P132 several enhanced features and changes on existing features have been included. These are described with reference to the Technical Manuals listed below.

References Released Version Documentation

04.12.2007 306 -415/416/417/418/419 -612 Technical Manual P132/EN M/Cc5 (AFSV. 12.10090 D)


P132/DE AD/d7 // AFSV.12.10290 DE /// P132-308-420/421/425/426/427-613 U-5

1 Overview

Version Changes

P132-306-415/416/417/418/ 419-612-705

Release: 13.02.2008

Hardware No changes

Diagram No changes

Software

COMM1 Bug fixing:

Communications protocol DNP3: Switching commands are now carried out.

LOC The display lights up when the CLEAR key (C) on the local control panel is pressed.

MP At every change the 'Hours_Run' counter value is now transmitted in IEC 61850.

CBF The startup criterion has been modified. After a CBF startup, the state of the general trip signal or the external trigger signal are now no longer taken into account.

The CBF will thus only reset if the current criterion is met (current values to fall below I< with all three phases) or the CB state is open.

P132-307-420/421/422/423/ 424-612

Release: 07.05.2008

Hardware As a variant, the new binary I/O module Bi6Bo3 is now available to provide the power supply module with an additional 6 binary signal inputs and 3 output relays.

Diagram The updated connection diagrams include the wiring configuration for the new binary I/O module.

Software No change

P132-308-420/421/425/426/ 427-613

Release: 28.02.2009

Hardware As a further variant the new binary I/O module Bi6Bo6H, fitted with high-power contacts, is now available for control functions.

Diagram The updated connection diagrams include the wiring configuration for the new high-power binary I/O module.


U-6 P132/DE AD/d7 // AFSV.12.10290 DE /// P132-308-420/421/425/426/427-613

Version Changes

Software

DVICE During a device startup a password prompt caused by the simultaneous pressing of all four arrow keys is now also supported by the serial (detachable) HMI.

LOC Recording of motor start-ups:

If required, the following measured event data may be displayed in the Operation Panel: Time taken for start-up, start-up current and heat during start-up

Parameters: O L _ D A : T . t a k e n f . s t a r t u p , M P (005 096) O L _ D A : S t a r t - u p c u r r e n t , M P (005 098) O L _ D A : H e a t . d u r . s t a r t - u p , M P (005 097)

Bug fixing: The display view for the control level and the interlocking level can now be enabled or disabled.

Parameters: L O C : D i s p l a y L / R (221 070) L O C : D i s p l . i n t e r l . s t a t . (221 071)

COMM 1 Communications protocol IEC 60870-5-103: When checking during test operations it is now possible to trigger signals (SIG) and contact positions (DEV) from the control part (previously only possible from the protection part).

These new addresses were added:

Oper/CtrlTest/COMM1

C O M M 1 : S e l . p o s . d e v . t e s t (221 105) – Not assigned – DEV01 to DEV03

C O M M 1 : T e s t p o s i t i o n d e v . (221 106) – don't execute – execute open – execute close – execute intermed.

Bug fixing:

Communications protocol DNP3: Contact positions were transmitted twice.


P132/DE AD/d7 // AFSV.12.10290 DE /// P132-308-420/421/425/426/427-613 U-7

Version Changes

MAIN Measured operating values are now also calculated during a general starting condition and no longer set to "Not measured".

New addresses with a 32 bit measured value display have been added for the 4 energy measured values: M A I N : A c t . e n e r g y o u t p . p r i m (008 065) 0 ... 6,553,500.00 MWh M A I N : A c t . e n e r g y i n p . p r i m (008 066) 0 ... 6,553,500.00 MWh M A I N : R e a c t . e n . o u t p . p r i m (008 067) 0 ... 6,553,500.00 Mvar h M A I N : R e a c t . e n . i n p . p r i m (008 068) 0 ... 6,553,500.00 Mvar h

The 4 addresses with the 16 bit display and overrun counter have been removed.

The values range for the 3 power measured values has been expanded: M A I N : A p p a r . p o w e r S p r i m . (005 025) -3,199.9 – 3,200 MVA M A I N : A c t i v e p o w e r P p r i m . (004 050) -3,199.9 – 3,200 MW M A I N : R e a c . p o w e r Q p r i m (004 052) -3,199.9 – 3,200 Mvar

The following measured operating data for delayed/stored phase current values have been added: M A I N : I A p r i m , d e m a n d (006 226) M A I N : I B p r i m , d e m a n d (006 227) M A I N : I C p r i m , d e m a n d (006 228) M A I N : I A p r i m , d e m a n d s t o r . (006 223) M A I N : I B p r i m , d e m a n d s t o r . (006 224) M A I N : I C p r i m , d e m a n d s t o r . (006 225) M A I N : I A p . u . , d e m a n d (006 235) M A I N : I B p . u . , d e m a n d (006 236) M A I N : I C p . u . , d e m a n d (006 237) M A I N : I A p . u . , d e m a n d s t o r . (006 232) M A I N : I B p . u . , d e m a n d s t o r . (006 223) M A I N : I C p . u . , d e m a n d s t o r . (006 234)

Similar to IP max,del the delay time for the new measured values is set at parameter M A I N : S e t t l . t . I P , m a x , d e l (010 113).


U-8 P132/DE AD/d7 // AFSV.12.10290 DE /// P132-308-420/421/425/426/427-613

Version Changes

MAIN Logic state signals:

Time synchronization: The parameter at M A I N : T i m e s y n c h r o n i z e d (009 109) shows whether an external clock synchronization was carried out. This signal drops out after 10 minutes.

M.C.B trip VNG / measuring-circuit monitoring The parameter at M A I N : M . c . b . t r i p V N G E X T (002 183) shows if a M.C.B. trip is present for the external VNG measuring circuit. This parameter is active only when the setting 'Measured' was selected for VNG determination. An M.C.B. trip VNG leads to this signal: M C M O N : M . c i r c . V N G f a u l t y (007 214)

The phase sequence for the current, given by the active parameter subset with the setting at M A I N : P h a s e r e v e r s a l I P S x , may be reversed by triggering a binary signal input configured at M A I N : P h a s e r e v e r s a l I E X T (007 248). To enable the function a phase sequence for normal operation must be set in the parameter. (Setting selection: A-B swapped, B-C swapped, C-A swapped). The default setting is 'No swap', which disables the function.

Parameters: M A I N : P h a s e r e v e r s a l I P S x (010 200, 010 201, 010 202, 010 203)

Note: For motor protection applications with 'left/right' motor rotation control by phase reversal with paralleled circuit breakers (one CB with phase reversal). Here the voltage is measured on the busbar side and the current down-stream between CB and motor. Dependent on the operating mode the current can therefore be measured in reverse to the voltage.

LOGIC The number of binary signal inputs was extended from 16 to 40.

DTOC The 'IN Measured' or 'IN Calculated' setting which was previously available only globally for all three residual current stages IN>, IN>> and IN>>> together can now be set individually for each residual current stage.

Parameters: D T O C : E v a l . I N > > P S x (007 239, 007 240, 007 241, 007 242) D T O C : E v a l . I N > > > P S x (007 243, 007 244, 007 245, 007 246)

The setting parameter previously valid for all three residual current stages D T O C : E v a l . I N > , > > , > > > P S x (072 128, 073 128, 074 128, 075 128) has been renamed to D T O C : E v a l . I N > P S x and will now only operate with the first residual current stage.


P132/DE AD/d7 // AFSV.12.10290 DE /// P132-308-420/421/425/426/427-613 U-9

Version Changes

DTOC, IDMT1

Applies to direction-dependent starting / tripping:

The new parameters permit the selection whether the timer stages for phase or residual current stages are triggered with a starting or direction-dependent ('With direction'). The default for the parameter is the previous 'With direction' standard setting.

Parameters: D T O C : M o d e T i m e r s t a r t P S x (002 138, 002 139, 002 142, 002 143) I D M T 1 : M o d e T i m e r s t a r t P S x (007 226, 007 227, 007 228, 007 229)

DTOC,

IDMT1, IDMT2

The inrush stabilization has been extended by D T O C : I N > and I D M T : I r e f , N .

DTOC, IDMT

When a phase starting is present then a subsequent triggering of the inrush stabilization is not taken into account anymore.

Note: When a change from a single-pole fault to a two-phase fault or from a two-phase fault to a three-phase fault occurred it was possible that, because of transients during the change, the inrush stabilization was momentarily triggered which would reset the starting and the timer.

IDMT1 For all IP, Ineg and IN types of characteristics the enable threshold for the IDMT1 protection starting can now be set with the factor KI (values range: 1 to 10) dependent on Iref. This factor KI will result in a linear shifting of the enable threshold along the X-axis of the respective characteristic. The factor will not result in a shifting of the characteristic itself.

Parameters: I D M T 1 : F a c t o r K I , P P S x (007 250, 007 251, 007 252, 007 253) I D M T 1 : F a c t o r K I , n e g P S x (007 254, 007 255, 008 002, 008 005) I D M T 1 : F a c t o r K I , N P S x (001 173, 001 174, 001 175, 001 176)

SCDD Enhanced tripping times with short-circuit direction determination.

SCDD Short-circuit direction determination has been extended for the DTOC stages I>>> and IN>>>.

Parameters: S C D D : D i r e c t i o n t I > > > P S x (007 230, 007 231, 007 232, 007 233) S C D D : D i r e c t i o n t I N > > > P S x (007 235, 007 236, 007 237, 007 238)


U-10 P132/DE AD/d7 // AFSV.12.10290 DE /// P132-308-420/421/425/426/427-613

Version Changes

ASC Function ASC now provides a choice as to whether the CB operating time (tCB), as configured at Function Parameters/Global/MAIN, is to be taken into account for the precisely synchronized reclosure (AR) or not.

Parameters:

M A I N : t C B , c l o s e (000 032); values range: 0.06s to 1s

A S C : A R w i t h t C B P S x (000 038, 000 039, 000 050, 000 051)

CBF The text for parameter at 022 160 was modified: The label for the threshold value was changed from I> to I< to be consistent with the characteristic.

Bug fixing: A bug occurring upon initialization of a 3-phase startup has been fixed.

FT_RC An additional analog recording channel for the frequency has been implemented.

Parameter: F T _ R C : R e c . a n a l o g c h a n n . 1 0 (035 169)

Default is 'Without' – optional setting is 'fnom'

THERM The parameters T H E R M : Bl . f . CTA faul t PSx have been replaced by the parameters with an extended setting range: T H E R M : F u n c t . f . C T A f a i l . P S x (076 177, 077 177, 078 177, 079 177)

In order to obtain improved visibility control of the parameters for the relative and absolute replica the previous parameter THERM: Operat ing mode (022 063) has been replaced by these parameters:

T H E R M : R e l a t i v e r e p l i c a (022 064) T H E R M : A b s o l u t e r e p l i c a (022 065)

It should be remembered that an explicit selection – relative or absolute replica – for the thermal overload protection must be carried out. If no such explicit selection – relative or absolute replica – is carried out the thermal overload protection will be blocked and the warning signal THERM: Sett ing error ,b lock. (039 110) will be issued.

These parameters are now available to set the overtemperature and the warning temperature in the absolute replica:

T H E R M : O / T f . I r e f p e r s i s t P S x (072 167, 073 167, 074 167, 075 167) T H E R M : W a r n i n g t e m p . P S x (072 153, 073 153, 074 153, 075 153)

The following signals have been added to the thermal overload protection:

T H E R M : R e c l o s u r e b l o c k e d (039 024) T H E R M : N o t r e a d y (040 035)


P132/DE AD/d7 // AFSV.12.10290 DE /// P132-308-420/421/425/426/427-613 U-11

Version Changes THERM The new measured operating value "Thermal current" has been

implemented as part of function group THERM.

I,therm,prim: T H E R M : C u r r e n t I , t h e r m p r i m (007 220)Status therm repl: T H E R M : S t a t u s T H E R M r e p l i c a (004 016) Iref: T H E R M : I r e f P S x (072 179, 073 179, 074 179, 075 179)Inom CT prim: M A I N : I n o m C . T . p r i m . (010 001)

The per-unit thermal current is displayed below as a variable referred to Iref:

I,therm,p.u.: T H E R M : C u r r e n t I , t h e r m p . u . (007 221)

In a measured values message the thermal current is processed as a per-unit variable referred to Iref.

CBM The correction acquisition time can now be set separately to be triggered by the open command and by the position signal issued by the CB auxiliary contacts.

Differing inherent delay times from the two command chains can now be configured independently of each other so as to achieve optimum time adjustment.

Parameter: C B M : C o r r . a c q u i . t i m e t r i p (007 249) values range: 0 to 0.2s

The previous common selection parameter C B M : C o r r . a c q u i s . t i m e (022 018) values range: -0.2s to 0.2s has been renamed to C B M : C o r r . a c q u . t . C B s i g . and is now only a correction acquisition time value affecting the position signal issued by the CB auxiliary contacts.


U-12 P132/DE AD/d7 // AFSV.12.10290 DE /// P132-308-420/421/425/426/427-613

Version Changes V<> The Vref>, Vref>>, Vef< and Vref<< stages have been added to the time-

voltage protection function:

Parameters: V < > : V r e f > P S x (007 064, 007 071, 007 075, 007 079) V < > : V r e f > > P S x (007 065, 007 068, 007 072, 007 076) V < > : t V r e f > P S x (007 066, 007 069, 007 073, 007 077) V < > : t V r e f > > P S x (007 067, 007 070, 007 074, 007 078) V < > : V r e f : V r e f < : t V r e f : t V r e f < and Vneg>> has been extended: New setting range: 0.02 to 1.5 Unom/v3

SFMON The S F M O N : T G F D m o n . t r i g g e r e d signal is now no longer permanently listed in the alarm signal list.

Depending on the application this signal can now be configured using parameter S F M O N : F c t . a s s i g n . w a r n i n g (021 030).

MCMON With the device variant fitted "Without CTs" the M C M O N : O p e r a t e d e l a y (017 023) parameter is now available to provide an operate delay setting.

An additional parameter has been implemented to monitor the measuring loop Vref.

M C M O N : M . c i r c . V r e f f a u l t y (007 213)

DEVxx Device identifiers can now be edited.

In the "Designat. ext. dev." parameters the 'Device Name User' setting should be selected. Then the text for the device's name, entered by the user at each of the "DEV-Name User" parameters, will be used as the device’s designation. The maximum number of 4 characters was not changed from the previous permanent default setting.

Parameters (DEV01/DEV02/DEV03):

D E V x x : D E V - N a m e U s e r (218 101, 218 102, 218 103)


P132/DE AD/d7 // AFSV.12.10290 DE /// P132-308-420/421/425/426/427-613 U-13

Version Changes

LIMIT The minimum value for the parameters below was changed from 0.2 to 0.02: V < > : V n e g > P S x (076 023, 077 023, 078 023, 079 023) V < > : V n e g > > P S x (076 024, 077 024, 078 024, 079 024)

Bug fixing:

An incorrect operation of Vref>,>>,<,<< has been corrected. This error occurred when Loop A-G, B-G or C-G was selected as the measuring loop in ASC Vref.

IEC Added to the communication protocol IEC 61850 are: MmuPriMMXU1/PhV.neut Voltage VNG prim. MmuPriMMXU1/PhV.res Volt. Σ (VPG)/3 prim. MmuPriMMXU1/A.res Current ΣIP prim.

MmuSecMMXU1./PhV.neut Voltage VNG p.u. MmuSecMMXU1/PhV.res Volt. Σ(VPG)/3 p.u. MmuSecMMXU1/A.neut Current IN p.u. MmuSecMXU1/A.res Current ΣIP p.u.

Transmission of fault file

Bug fixing:

Reports from SIG1 to SIG40 were lost when events changed in just a few milli-seconds.

A communications fault occurred when fast successive command signals were received (SPC’s system / SPCOx)


U-14 P132/DE AD/d7 // AFSV.12.10290 DE /// P132-308-420/421/425/426/427-613

2 Functional Details

2.1 Thermal Overload Protection (Function Group THERM)

Using this function, thermal overload protection can be implemented. The Thermal Overload Protection function can be operated together with the Motor Protection function.

Disabling or enabling thermal overload protection

Thermal overload protection may be disabled or enabled by setting parameters. Moreover, enabling can be carried out separately for each parameter set.

19Z6112 B_EN

0

THERM: Enabled USER

[ 022 050 ]

1

0: No1: Yes

0

1

0: No1: Yes

&THERM: Enabled[ 040 068 ]

PSS: PS x Enabled036 090036 091036 092036 093

THERM: Enable PSx072 175073 175074 175075 175

Parameter

Set 1Set 2Set 3Set 4

THERM: Enable PSx

[ * ]

x

1234

PSS: PS x Enabled[ * ]

3-219 Disabling or enabling thermal overload protection


P132/DE AD/d7 // AFSV.12.10290 DE /// P132-308-420/421/425/426/427-613 U-15

Readiness of thermal overload protection

Thermal overload protection will issue T H E R M : N o t r e a d y if one of the following conditions applies:

Thermal overload protection is disabled.

Thermal overload protection is blocked because of a fault in the coolant temperature (ambient) acquisition.

Thermal overload protection is blocked because of an incorrect setting.

The thermal replica is blocked via an appropriately configured binary signal input.

19Z6113 B_EN

THERM: Enabled[ 040 068 ]

&

THERM: Not ready[ 040 035 ]

THERM: Block. by CTA error

305 200

THERM: Therm. repl.block EXT[ 041 074 ]

THERM: Setting error,block.[ 039 110 ]

3-220 Signal T H E R M : n o t r e a d y

Operating modes Two operating modes can be selected for thermal overload protection.

Relative replica

Absolute replica

Either operating mode can be enabled or disabled individually. Only one of the operating modes may be enabled for thermal overload protection. However, if both operating modes are enabled at the same time, the thermal overload protection is blocked and an error message is generated by the P132: T H E R M : S e t t i n g e r r o r , b l o c k .


U-16 P132/DE AD/d7 // AFSV.12.10290 DE /// P132-308-420/421/425/426/427-613

Coolant temperature effect To permit coolant temperature (ambient) acquisition, one of the analog modules Y must be fitted, either the analog (I/O) module Y with a 20 mA current input and the "PT100" input or the temperature p/c board (the RTD module) with the temperature sensor inputs T1 to T9.

One of the 11 measuring inputs listed above is selected for the primary measurement of coolant temperature by setting the parameter T H E R M : S e l e c t m e a s . i n p u t P S x .

In addition the parameter T H E R M : S e l . b a c k u p t h . P S x is set to select which of these 11 measuring inputs is to be used as a backup to measure the coolant temperature when the primary measuring input has failed.

If the parameters T H E R M : S e l e c t m e a s . i n p u t P S x o r T H E R M : S e l . B a c k u p t h . P S x have been set incorrectly the thermal overload protection is blocked and the error message T H E R M : S e t t i n g e r r o r , b l o c k is generated.

An open measuring circuit, due to a broken wire, is determined by the measured value inputs (function group MEASI). This will result in the issuance of these signals:

M E A S I : O p e n c i r c . 2 0 m A i n p .

M E A S I : P T 1 0 0 o p e n c i r c u i t

M E A S I : T 1 o p e n c i r c . to M E A S I : T 9 o p e n c i r c .

The thermal model uses these signals as a criterion to determine a fault in the coolant temperature measurement. A fault at both measured value inputs selected will lead to the issuance of the signal T H E R M : C T A e r r o r .


P132/DE AD/d7 // AFSV.12.10290 DE /// P132-308-420/421/425/426/427-613 U-17

The setting of T H E R M : F u n c t . f . C T A f a i l . P S x determines how the thermal overload protection is to continue functioning when the coolant temperature measurement has failed. The following functions can be selected to guarantee continued and stable performance of the thermal overload protection when the coolant temperature measurement has failed.

Default temperature value: The coolant temperature set at T H E R M : D e f a u l t C T A P S x is applied. The thermal overload protection is not blocked.

Last measured temperature: As a rule there is an erratic change of the measured value when a fault has occurred in the coolant temperature measurement. The temperature measured before such an erratic change is stored and applied. The thermal overload protection is not blocked.

The coolant temperature set at T H E R M : D e f a u l t C T A P S x is applied if no last measured values are available because a device warm restart or a parameter subset selection was carried out.

Blocking: The T H E R M : W a r n i n g and T H E R M : T r i p s i g n a l signals are reset and blocked. The thermal model will then be continued and displayed on the basis of the measured current alone. All further measured values are issued as 'not measured'.

All parameters relevant to coolant temperature (ambient) acquisition are hidden if neither of the two available analog modules Y have been fitted in the P132. The tripping time is calculated by including the setting for T H E R M : D e f a u l t C T A P S x .

Thermal overload protection operation without coolant temperature (ambient) acquisition

In order to ensure thermal overload protection, without taking into account an offset due to a variable coolant temperature, it is recommended to set the T H E R M : D e f a u l t C T A P S x parameter to the maximum permitted coolant temperature.


U-18 P132/DE AD/d7 // AFSV.12.10290 DE /// P132-308-420/421/425/426/427-613

19Z6110 B_EN

THERM: With CTA 305 201

MEASI: Open circ. PT 100[ 040 190 ]MEASI: Overload20mA input[ 040 191 ]

&

0

0: None

1: PT100

2: 20mA input

THERM: Select meas.inputPSx

[ * ]

&>1

MEASI: Open circ.20mA input[ 040 192 ]

THERM: CTA error EXT[ 038 062 ]

THERM: CTA error[ 039 111 ]

SFMON: CTA error[ 098 034 ]

THERM: Block. by CTA error

305 200

1

2

n

n = 3 ... 11: Tx

MEASI: Open circ.Tx[ * ]

&

0

THERM: Sel. backup th. PSx

[ * ]

1

2

n

n = 3 ... 11: Ty

MEASI: Open circ.Ty[ * ]

&

&

1

1: Default temp. value

2: Last meas.temperat.

3: Blocking

THERM: Funct.f.CTA fail.PSx

[ * ]

2

3&

&

040 218

040 219

040 252

040 253

T6

T7

T8

T9

040 194

040 195

040 208

040 209

T2

T3

T4

T5

TyTx

040 193

MEASI: Open circ.

T1

040 218

040 219

040 252

040 253

040 194

040 195

040 208

040 209

040 193

THERM: Funct.f.CTA fail.PSx076 177077 177078 177079 177

THERM: Sel. backup th. PSx072 080073 080074 200075 200

THERM: Select meas.inputPSx072 177073 177074 177075 177

Parameter


&

&

&

0: None

1: PT100

2: 20mA input

3-221 Coolant temperature monitoring


P132/DE AD/d7 // AFSV.12.10290 DE /// P132-308-420/421/425/426/427-613 U-19

Relative replica The rated operating current of the protected object and its overload tolerance for maximum coolant (ambient) temperature are the basis of the relative thermal replica.

In the 'Relative replica' operating mode, the following settings have to be made for thermal overload protection:

The rated operating current of the protected object: T H E R M : I r e f P S x

The tripping threshold ∆ϑtrip is set at T H E R M : R e l . O / T t r i p P S x

If coolant temperature (ambient) acquisition is used, the following parameters must be set:

The maximum permissible temperature of the protected object Θmax T H E R M : M a x . p e r m . o b j . t m p . P S x

The maximum coolant temperature (maximum ambient) Θa,max T H E R M : M a x . p e r m . c o o l . t m p P S x

Absolute replica The thermal limit current of the protected object is the reference current of the absolute thermal replica. For this limit current, an overtemperature results at the maximum coolant temperature.

In the 'Absolute replica' operating mode, the following parameters have to be set for thermal overload protection:

The thermal limit current of the protected object: T H E R M : I r e f P S x

The limit temperature for tripping Θmax: T H E R M : M a x . p e r m . o b j . t m p . P S x

The overtemperature as a result of a persistent limit current (Θmax - Θa,max ): T H E R M : O / T f . I r e f p e r s . P S x

Note: The maximum permitted coolant temperature Θa,max is derived from the difference between the T H E R M : M a x . p e r m . o b j . t m p . P S x and T H E R M : O / T f . I r e f p e r s . P S x settings.

Tripping characteristics The maximum RMS phase current I is used to track a first-order thermal replica as specified in IEC 255-8. Other than the operating mode dependent settings the following parameters will govern the tripping time:

The set thermal time constant τ of the protected object: T H E R M : T i m . c o n s t . 1 , > I b l P S x

The accumulated thermal load ∆ϑ0.

The current measured coolant temperature Θa.


U-20 P132/DE AD/d7 // AFSV.12.10290 DE /// P132-308-420/421/425/426/427-613

The tripping threshold in the two operating modes is calculated as follows:

⎟⎟⎠

⎞⎜⎜⎝

⎛

Θ−ΘΘ−Θ

−⋅ϑ∆−⎟⎟⎠

⎞⎜⎜⎝

⎛

ϑ∆−⎟⎟⎠

⎞⎜⎜⎝

⎛

⋅τ=

max,amax

max,aatrip

2

ref

0

2

ref

1II

II

lnt

The ∆ϑtrip tripping threshold is set to a fixed value of 100 % ( = 1 ) if the operating mode is 'Absolute replica'.

0 1 2 3 4 5 6 7 8 9 10 11

I/Iref

t/min

D5Z50BE

30

1000

1

τ/min

θtrip / %

1000

10000

100

10

1

0.1

0.01

0.00

200

110

50

200

200

110

110

50

50

3-222 Tripping characteristics of thermal overload protection (tripping characteristics apply to ∆ϑ0 = 0 % and identical settings for the maximum

permissible coolant temperature and coolant temperature)


P132/DE AD/d7 // AFSV.12.10290 DE /// P132-308-420/421/425/426/427-613 U-21

Warning signal Depending on the selected operating mode, a warning signal can be set at one of the following parameters:

Relative replica: T H E R M : R e l . O / T w a r n i n g P S x

Absolute replica: T H E R M : W a r n i n g t e m p . P S x

Additionally, a time-to-tripping threshold (pre-trip time) can be set. When the time left until tripping falls below this setting, a warning signal will be issued.

Trip The trip threshold is set according to the selected operating mode with the following parameters:

Relative replica: T H E R M : R e l . O / T t r i p P S x

Absolute replica: THERM: Max.perm.obj . tmp.PSx

If a trip command is issued, the trip signal is maintained until the status of the thermal replica has decreased by the value set at T H E R M : T r i p H y s t e r e s i s P S x , at least for a fixed time of 5 s.

Cooling If the current falls below the default threshold of 0.1 Iref, the thermal replica is applied with the time constant set at T H E R M : T i m . c o n s t . 2 , < I b l P S x . This element in the thermal model takes account of the cooling characteristics of stopped motors.

Note: These two time constants should be set to the same value for transformers and power lines.

Operation together with the motor protection function

If the thermal overload protection function is operated together with the motor protection function (function group MP) and if another startup of an asynchronous motor occurs (other than the first startup), then the thermal overload protection function will be temporarily blocked during the startup time.

The motor protection will effect the thermal overload protection and not vice versa if both protection functions are applied simultaneously.


U-22 P132/DE AD/d7 // AFSV.12.10290 DE /// P132-308-420/421/425/426/427-613

19Z6111 B_EN

MAIN: Protection active

306 001

IP,max

THERM: Starting k*Iref>[ 041 108 ]

&

IAIBIC

COMP

AR_MV

THERM: I 305 202

C


MP: Block. replica THERM

304 700

&THERM: Block. by CTA error

305 200

THERM: Therm.repl.block EXT[ 041 074 ]

THERM: IrefPSx

[ * ]

k*Iref

THERM: Start.fact.OL_RC PSx

[ * ]

<0.1 Iref

THERM: Absolute replica

[ 022 065 ]

0

1

0: No1: Yes

THERM: Relative replica

[ 022 064 ]

0

1

0: No1: Yes

C

C

I/Iref

THERM: With CTA

305 201

Coolant temperature

R

THERM: Reset replica[ 039 061 ]

C

C

C

C

C

C

C

C

C

C

THERM: Tim.const.1,>Ibl PSx

[ * ]THERM: Tim.const.2,<Ibl PSx

[ * ]

THERM: Default CTA PSx [ * ]

THERM: O/T f.Iref pers. PSx

[ * ]THERM: Warning temp. PSx[ * ]THERM: Max.perm.obj.tmp.PSx[ * ]THERM: Max.perm.cool.tmpPSx[ * ]THERM: Rel. O/T warning PSx[ * ]THERM: Rel. O/T trip PSx [ * ]

THERM: Hysteresis trip PSx[ * ]THERM: Warning pre-trip PSx

[ * ]

THERM: Therm. replica p.u.[ 004 017 ]

THERM: Object temp. p.u.[ 004 179 ]

THERM: Coolant temp. p.u.[ 004 178 ]

THERM: Temp. offset replica[ 004 109 ]

THERM: Pre-trip time left[ 004 139 ]

THERM: Coolant temperature[ 004 149 ]

THERM: Object temperature[ 004 137 ]

THERM: Status THERM replica[ 004 016 ]

THERM:Buffer empty[ 039 112 ]

THERM: Reclosure blocked[ 039 024 ]

THERM: Trip signal[ 039 020 ]

THERM: Warning[ 039 025 ]

THERM:Setting error,block.[ 039 110 ]

SFMON: Setting error THERM [ 098 035 ]

THERM: Within pre-trip time[ 041 109 ]

THERM: IrefPSx072 179073 179074 179075 179

Parameter


THERM: Tim.const.1,>Ibl PSx

072 187073 187074 187075 187

THERM: Start.fact.OL_RC PSx072 180073 180074 180075 180

THERM: Tim.const.2,<Ibl PSx

072 188073 188074 188075 188

THERM: O/T f.Iref pers. PSx072 167073 167074 167075 167

THERM: Warning temp. PSx 072 153073 153074 153075 153

THERM: Max.perm.obj.tmp.PSx 072 182073 182074 182075 182

THERM: Max.perm.cool.tmpPSx

072 185073 185074 185075 185

Parameter


THERM: Rel. O/T trip PSx

072 181073 181074 181075 181

THERM: Rel. O/T warning PSx

072 184073 184074 184075 184

THERM: Default CTA PSx

072 186073 186074 186075 186

THERM: Hyst-eresis trip PSx

072 183073 183074 183075 183

THERM: Warning pre-trip PSx

072 191073 191074 191075 191

3-223 Thermal Overload Protection


P132/DE AD/d7 // AFSV.12.10290 DE /// P132-308-420/421/425/426/427-613 U-23

Resetting The thermal replica may be reset either via a setting parameter or via an appropriately configured binary signal input. Resetting is possible even when thermal overload protection is disabled. Thermal overload protection can be blocked via an appropriately configured binary signal input.

THERM: Reset replica [ 039 061 ]

Q9Z5020 B_EN

THERM: Reset replica USER

[ 022 061 ]

0: don't execute1: execute

1

0


THERM: Reset replica EXT[ 038 061 ]

3-224 Resetting the thermal replica

P132/DE AD/d7 // AFSV.12.10290 DE /// P132-308-420/421/425/426/427-613 U-24

AREVA T&D's Substation Automation Solutions Business www.areva-td.com T&D Worldwide Contact Centre online 24 hours a day: +44 (0) 1785 25 00 70 http://www.areva-td.com/contactcentre/

Pub

licat

ion:

P13

2/E

N A

D/A

d7

AREVA T&D's Substation Automation Solutions Business www.areva-td.com T&D Worldwide Contact Centre online 24 hours a day: +44 (0) 1785 25 00 70 http://www.areva-td.com/contactcentre/

Pub

licat

ion:

P13

2/E

N M

/AD

7 –

Vol

ume

2 of

2

Documents

MiCOM P132 - Schneider Electricms.schneider-electric.be/OP_MAIN/Micom/P132_EN_M_Ad7_Vol...MiCOM P132 Feeder Management and Bay Control Version -306 -415/416/417/418/419 -612 -308 -420/421/425/426/427