P63x_UK_M_A543

MiCOM P631, P632, P633,

P634 Transformer Differential

Protection Software Version -610 Hardware Suffix -305

Technical Manual Regional English

Language Version -800

P63x/UK M/A54

Terminology Note

The P63x menu texts (data model) referred to throughout this manual are regional texts which have been customized for the UK/US and similar markets. Diagrams contained in this manual use this terminology. It is commonly referred to as the English (English) data model and is denoted by -800 in the model number and product documentation.

Refer to the Getting Started (GS) section for information on device and software setup to allow viewing of either the Reference (English) or Regional (English) menu texts.

The original documentation for this product is still applicable and may be consulted for further reference; however this manual is intended to provide the required information for setting, commissioning and maintaining the product using this customized data model.

Note: The technical manual for this device gives instructions for its installation, commissioning, and operation. However, the manual cannot cover all conceivable circumstances or include detailed information on all topics. In the event of questions or specific problems, do not take any action without proper authorization. Contact the appropriate AREVA technical sales office and request the necessary information.

Any agreements, commitments, and legal relationships and any obligations on the part of AREVA including settlements of warranties, result solely from the applicable purchase contract, which is not affected by the contents of the technical manual.

This device MUST NOT be modified. If any modification is made without the express permission of AREVA, it will invalidate the warranty, and may render the product unsafe.

The AREVA logo and any alternative version thereof are trademarks and service marks of AREVA.

MiCOM is a registered trademark of AREVA. All trade names or trademarks mentioned herein whether registered or not, are the property of their owners.

This manual is provided for informational use only and is subject to change without notice.

2006, AREVA. All rights reserved.

CONTENTS

Safety Section P63x/EN SS/D11

Update Documentation P63x/UK AD/xxx

Section 1 Introduction P63x/UK IT/A54

Section 2 Technical Data P63x/UK TD/A54

Section 3 Getting Started P63x/UK GS/A54

Section 4 Settings P63x/UK ST/A54

Section 5 Operation P63x/UK OP/A54

Section 6 Application Notes P63x/UK AP/A54

Section 7 Measurements and Recording P63x/UK MR/A54

Section 8 Firmware Design P63x/UK FD/A54

Section 9 Commissioning P63x/UK CM/A54

Section 10 Maintenance P63x/UK MT/A54

Section 11 Troubleshooting P63x/UK TS/A54

Section 12 SCADA Communications P63x/UK SC/A54

Section 13 Symbols and Glossary P63x/UK SG/A54

Section 14 Installation P63x/UK IN/A54

Section 15 Firmware and Service Manual Version History P63x/UK VH/A54

Index

IT

SS

N/A

GS

TD

ST

OP

AP

MR

FD

CM

VH

TS

SC

SG

IN

MT

Index


SS

SAFETY SECTION

P63x/EN SS/D11 Safety Section

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CONTENTS

1. INTRODUCTION 3

2. HEALTH AND SAFETY 3

3. SYMBOLS AND EXTERNAL LABELS ON THE EQUIPMENT 4

3.1 Symbols 4

3.2 Labels 4

4. INSTALLING, COMMISSIONING AND SERVICING 4

5. DE-COMMISSIONING AND DISPOSAL 7

6. TECHNICAL SPECIFICATIONS FOR SAFETY 7

6.1 Protective fuse rating 7

6.2 Protective class 7

6.3 Installation category 7

6.4 Environment 7

P63x/EN SS/D11 Safety Section (SS) - 2

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STANDARD SAFETY STATEMENTS AND EXTERNAL LABEL INFORMATION FOR AREVA T&D EQUIPMENT

1. INTRODUCTION This Safety Section and the relevant equipment documentation provide full information on safe handling, commissioning and testing of this equipment also includes reference to typical equipment label markings.

The technical data in this Safety Section is typical only, see the technical data section of the relevant equipment documentation for data specific to a particular equipment.

Before carrying out any work on the equipment the user should be familiar with the contents of this Safety Section and the ratings on the equipments rating label.

Reference should be made to the external connection diagram before the equipment is installed, commissioned or serviced.

Language specific, self-adhesive User Interface labels are provided in a bag for some equipment.

2. HEALTH AND SAFETY The information in the Safety Section of the equipment documentation is intended to ensure that equipment is properly installed and handled in order to maintain it in a safe condition.

It is assumed that everyone who will be associated with the equipment will be familiar with the contents of this Safety Section, or the Safety Guide (SFTY/4L M).

When electrical equipment is in operation, dangerous voltages will be present in certain parts of the equipment. Failure to observe warning notices, incorrect use, or improper use may endanger personnel and equipment and also cause personal injury or physical damage.

Before working in the terminal strip area, the equipment must be isolated.

Proper and safe operation of the equipment depends on appropriate shipping and handling, proper storage, installation and commissioning, and on careful operation, maintenance and servicing. For this reason only qualified personnel may work on or operate the equipment.

Qualified personnel are individuals who:

Are familiar with the installation, commissioning, and operation of the equipment and of the system to which it is being connected;

Are able to safely perform switching operations in accordance with accepted safety engineering practices and are authorized to energize and de-energize equipment and to isolate, ground, and label it;

Are trained in the care and use of safety apparatus in accordance with safety engineering practices;

Are trained in emergency procedures (first aid).

The equipment documentation gives instructions for its installation, commissioning, and operation. However, the manuals cannot cover all conceivable circumstances or include detailed information on all topics. In the event of questions or specific problems, do not take any action without proper authorization. Contact the appropriate AREVA technical sales office and request the necessary information.


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3. SYMBOLS AND LABELS ON THE EQUIPMENT For safety reasons the following symbols which may be used on the equipment or referred to in the equipment documentation, should be understood before the equipment is installed or commissioned.

3.1 Symbols

Caution: refer to equipment documentation

Caution: risk of electric shock

Protective Conductor (*Earth) terminal

Functional/Protective Conductor (*Earth) terminal

Note: This symbol may also be used for a Protective Conductor (Earth) terminal if that terminal is part of a terminal block or sub-assembly e.g. power supply.

*NOTE: THE TERM EARTH USED THROUGHOUT THIS TECHNICAL MANUAL IS THE DIRECT EQUIVALENT OF THE NORTH AMERICAN TERM GROUND.

3.2 Labels

See Safety Guide (SFTY/4L M) for typical equipment labeling information.

4. INSTALLING, COMMISSIONING AND SERVICING

Equipment connections

Personnel undertaking installation, commissioning or servicing work for this equipment should be aware of the correct working procedures to ensure safety.

The equipment documentation should be consulted before installing, commissioning, or servicing the equipment.

Terminals exposed during installation, commissioning and maintenance may present a hazardous voltage unless the equipment is electrically isolated.

Any disassembly of the equipment may expose parts at hazardous voltage, also electronic parts may be damaged if suitable electrostatic voltage discharge (ESD) precautions are not taken.

If there is unlocked access to the rear of the equipment, care should be taken by all personnel to avoid electric shock or energy hazards.

Voltage and current connections should be made using insulated crimp terminations to ensure that terminal block insulation requirements are maintained for safety.

Watchdog (self-monitoring) contacts are provided in numerical relays to indicate the health of the device. AREVA T&D strongly recommends that these contacts are hardwired into the substation's automation system, for alarm purposes.


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To ensure that wires are correctly terminated the correct crimp terminal and tool for the wire size should be used.

The equipment must be connected in accordance with the appropriate connection diagram.

Protection Class I Equipment

- Before energizing the equipment it must be earthed using the protective conductor terminal, if provided, or the appropriate termination of the supply plug in the case of plug connected equipment.

- The protective conductor (earth) connection must not be removed since the protection against electric shock provided by the equipment would be lost.

- When the protective (earth) conductor terminal (PCT) is also used to terminate cable screens, etc., it is essential that the integrity of the protective (earth) conductor is checked after the addition or removal of such functional earth connections. For M4 stud PCTs the integrity of the protective (earth) connections should be ensured by use of a locknut or similar.

The recommended minimum protective conductor (earth) wire size is 2.5 mm (3.3 mm for North America) unless otherwise stated in the technical data section of the equipment documentation, or otherwise required by local or country wiring regulations.

The protective conductor (earth) connection must be low-inductance and as short as possible.

All connections to the equipment must have a defined potential. Connections that are pre-wired, but not used, should preferably be grounded when binary inputs and output relays are isolated. When binary inputs and output relays are connected to common potential, the pre-wired but unused connections should be connected to the common potential of the grouped connections.

Before energizing the equipment, the following should be checked:

- Voltage rating/polarity (rating label/equipment documentation);

- CT circuit rating (rating label) and integrity of connections;

- Protective fuse rating;

- Integrity of the protective conductor (earth) connection (where applicable);

- Voltage and current rating of external wiring, applicable to the application.

Accidental touching of exposed terminals

If working in an area of restricted space, such as a cubicle, where there is a risk of electric shock due to accidental touching of terminals which do not comply with IP20 rating, then a suitable protective barrier should be provided.

Equipment use

If the equipment is used in a manner not specified by the manufacturer, the protection provided by the equipment may be impaired.

Removal of the equipment front panel/cover

Removal of the equipment front panel/cover may expose hazardous live parts, which must not be touched until the electrical power is removed.

UL and CSA listed or recognized equipment

To maintain UL and CSA approvals the equipment should be installed using UL and/or CSA listed or recognized parts of the following type: connection cables, protective fuses/fuseholders or circuit breakers, insulation crimp terminals, and replacement internal battery, as specified in the equipment documentation.


SS

Equipment operating conditions

The equipment should be operated within the specified electrical and environmental limits.

Current transformer circuits

Do not open the secondary circuit of a live CT since the high voltage produced may be lethal to personnel and could damage insulation. Generally, for safety, the secondary of the line CT must be shorted before opening any connections to it.

For most equipment with ring-terminal connections, the threaded terminal block for current transformer termination has automatic CT shorting on removal of the module. Therefore external shorting of the CTs may not be required, the equipment documentation should be checked to see if this applies.

For equipment with pin-terminal connections, the threaded terminal block for current transformer termination does NOT have automatic CT shorting on removal of the module.

External resistors, including voltage dependent resistors (VDRs)

Where external resistors, including voltage dependent resistors (VDRs), are fitted to the equipment, these may present a risk of electric shock or burns, if touched.

Battery replacement

Where internal batteries are fitted they should be replaced with the recommended type and be installed with the correct polarity to avoid possible damage to the equipment, buildings and persons.

Insulation and dielectric strength testing

Insulation testing may leave capacitors charged up to a hazardous voltage. At the end of each part of the test, the voltage should be gradually reduced to zero, to discharge capacitors, before the test leads are disconnected.

Insertion of modules and pcb cards

Modules and PCB cards must not be inserted into or withdrawn from the equipment whilst it is energized, since this may result in damage.

Insertion and withdrawal of extender cards

Extender cards are available for some equipment. If an extender card is used, this should not be inserted or withdrawn from the equipment whilst it is energized. This is to avoid possible shock or damage hazards. Hazardous live voltages may be accessible on the extender card.

External test blocks and test plugs

Great care should be taken when using external test blocks and test plugs such as the MMLG, MMLB and MiCOM P990 types, hazardous voltages may be accessible when using these. *CT shorting links must be in place before the insertion or removal of MMLB test plugs, to avoid potentially lethal voltages.

*Note: When a MiCOM P992 Test Plug is inserted into the MiCOM P991 Test Block, the secondaries of the line CTs are automatically shorted, making them safe.

Fiber optic communication

Where fiber optic communication devices are fitted, these should not be viewed directly. Optical power meters should be used to determine the operation or signal level of the device.

Cleaning

The equipment may be cleaned using a lint free cloth dampened with clean water, when no connections are energized. Contact fingers of test plugs are normally protected by petroleum jelly, which should not be removed.


(SS) - 7

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5. DE-COMMISSIONING AND DISPOSAL

De-commissioning The supply input (auxiliary) for the equipment may include capacitors across the supply or to earth. To avoid electric shock or energy hazards, after completely isolating the supplies to the equipment (both poles of any dc supply), the capacitors should be safely discharged via the external terminals prior to de-commissioning.

Disposal It is recommended that incineration and disposal to water courses is avoided. The equipment should be disposed of in a safe manner. Any equipment containing batteries should have them removed before disposal, taking precautions to avoid short circuits. Particular regulations within the country of operation, may apply to the disposal of the equipment.

6. TECHNICAL SPECIFICATIONS FOR SAFETY

6.1 Protective fuse rating

The recommended maximum rating of the external protective fuse for equipments is 16A, high rupture capacity (HRC) Red Spot type NIT, or TIA, or equivalent, unless otherwise stated in the Technical Data section of the equipment documentation. The protective fuse should be located as close to the unit as possible.

DANGER - CTs must NOT be fused since open circuiting them may produce lethal hazardous voltages.

6.2 Protective class

IEC 60255-27: 2005 Class I (unless otherwise specified in the equipment documentation). This equipment requires a protective conductor (earth) connection to ensure user safety.

6.3 Installation category

IEC 60255-27: 2005 Installation category III (Overvoltage Category III):

EN 60255-27: 2006 Distribution level, fixed installation.

Equipment in this category is qualification tested at 5 kV peak, 1.2/50 s, 500 , 0.5 J, between all supply circuits and earth and also between independent circuits.

6.4 Environment

The equipment is intended for indoor installation and use only. If it is required for use in an outdoor environment then it must be mounted in a specific cabinet of housing which will enable it to meet the requirements of IEC 60529 with the classification of degree of protection IP54 (dust and splashing water protected).

Pollution Degree - Pollution Degree 2 Compliance is demonstrated by reference to safety Altitude - Operation up to 2000m standards.

IEC 60255-27:2005

EN 60255-27: 2006


SS

Introduction P63x/UK IT/A54 MiCOM P631, P632, P633, P634

IT

INTRODUCTION

Date: 16th June 2006 Hardware Suffix: -305 Software Version: -610 Connection Diagrams: -404 (P631, P632, P634)

-406 (P633)

P63x/UK IT/A54 Introduction

MiCOM P631, P632, P633, P634

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(IT) 1-1

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CONTENTS

(IT) 1-

1. MiCOM DOCUMENTATION STRUCTURE 3

2. INTRODUCTION TO MiCOM 5

3. PRODUCT SCOPE 6

3.1 Functional overview 6

3.2 Ordering options 9

FIGURES

Figure 1: Functional diagram 8

P63x/UK IT/A54 Introduction (IT) 1-2

MiCOM P631, P632, P633, P634

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(IT) 1-3

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1. MiCOM DOCUMENTATION STRUCTURE The manual provides a functional and technical description of the MiCOM protection relay and a comprehensive set of instructions for the relays use and application.

The section contents are summarized below:

P63x/UK IT Introduction

A guide to the MiCOM range of relays and the documentation structure. General safety aspects of handling Electronic Equipment is discussed with particular reference to relay safety symbols. Also a general functional overview of the relay and brief application summary is given.

P63x/UK TD Technical Data

Technical data including setting ranges, accuracy limits, recommended operating conditions, ratings and performance data. Compliance with norms and international standards is quoted where appropriate.

P63x/UK GS Getting Started

A guide to the different user interfaces of the protection relay describing how to start using it. This section provides detailed information regarding the communication interfaces of the relay, including a detailed description of how to access the settings database stored within the relay.

P63x/UK ST Settings

List of all relay settings, including ranges, step sizes and defaults, together with a brief explanation of each setting.

P63x/UK OP Operation

A comprehensive and detailed functional description of all protection and non-protection functions.

P63x/UK AP Application Notes

This section includes a description of common power system applications of the relay, calculation of suitable settings, some typical worked examples, and how to apply the settings to the relay.

P63x/UK MR Measurements and Recording

Detailed description of the relays recording and measurements functions including the configuration of the event and disturbance recorder and measurement functions.

P63x/UK FD Firmware Design

Overview of the operation of the relays hardware and software. This section includes information on the self-checking features and diagnostics of the relay.

P63x/UK CM Commissioning

Instructions on how to commission the relay, comprising checks on the calibration and functionality of the relay.

P63x/UK MT Maintenance

A general maintenance policy for the relay is outlined.

P63x/UK TS Troubleshooting

Advice on how to recognize failure modes and the recommended course of action. Includes guidance on whom within AREVA T&D to contact for advice.


MiCOM P631, P632, P633, P634

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P63x/UK SC SCADA Communications

This section provides an overview regarding the SCADA communication interfaces of the relay. Detailed protocol mappings, semantics, profiles and interoperability tables are not provided within this manual. Separate documents are available per protocol, available for download from our website.

P63x/UK SG Symbols and Glossary

List of common technical abbreviations found within the product documentation.

P63x/UK IN Installation

Recommendations on unpacking, handling, inspection and storage of the relay. A guide to the mechanical and electrical installation of the relay is provided, incorporating earthing recommendations. All external wiring connections to the relay are indicated.

P63x/UK VH Firmware and Service Manual Version History

History of all hardware and software releases for the product.


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2. INTRODUCTION TO MiCOM MiCOM is a comprehensive solution capable of meeting all electricity supply requirements. It comprises a range of components, systems and services from AREVA T&D.

Central to the MiCOM concept is flexibility.

MiCOM provides the ability to define an application solution and, through extensive communication capabilities, integrate it with your power supply control system.

The components within MiCOM are:

P range protection relays;

C range control products;

M range measurement products for accurate metering and monitoring;

S range versatile PC support and substation control packages.

MiCOM products include extensive facilities for recording information on the state and behavior of the power system using disturbance and fault records. They can also provide measurements of the system at regular intervals to a control center enabling remote monitoring and control to take place.

For up-to-date information on any MiCOM product, visit our website:

www.areva-td.com

www.areva-td.com/protectionrelays


MiCOM P631, P632, P633, P634

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3. PRODUCT SCOPE The P63x differential protection devices are designed for the fast and selective short-circuit protection of transformers, motors and generators and of other two-, three- or four-winding arrangements from distribution to transmission voltage levels. Four models are available. The P631 and P632 are designed for the protection of two-winding arrangements, the P633 and P634 for the protection of three- or four-winding arrangements, respectively. The relay also includes a comprehensive range of non-protection features to aid with power system diagnosis and fault analysis.

3.1 Functional overview

The P63x differential protection devices contain a wide variety of protection functions. The protection features are summarized below:

PROTECTION FUNCTIONS OVERVIEW P631 P632 P633 P634

BC_1 Broken conductor detection 1 9 9 9 9 BC_2 Broken conductor detection 2 9 9 9 9 BC_3 Broken conductor detection 3 - - 9 9 BC_4 Broken conductor detection 4 - - - 9 CHECK Self testing and diagnostics 9 9 9 9 COMM1 Rear port communication * * * *

COMM2 Second rear port communication * * * *

CTS Current transformer supervision 9 9 9 9 DIFF Differential protection 9 9 9 9 DTOC1 Definite-time overcurrent protection 1 9 9 9 9 DTOC2 Definite-time overcurrent protection 2 9 9 9 9 DTOC3 Definite-time overcurrent protection 3 - - 9 9 DVICE Device identification 9 9 9 9 f Frequency protection - 9 9 9 FT_DA Fault data acquisition 9 9 9 9 GROUP Setting group selection 9 9 9 9 HMI Local control panel 9 9 9 9 IDMT1 Inverse-time overcurrent protection 1 9 9 9 9 IDMT2 Inverse-time overcurrent protection 2 9 9 9 9 IDMT3 Inverse-time overcurrent protection 3 - - 9 9 INP Opto inputs 4 4 to 34 4 to 40 4 to 34

IRIGB IRIG-B time synchronization 9 9 9 9 LED LEDs 9 9 9 9 LIM_1 Phase current monitoring 1 9 9 9 9 LIM_2 Phase current monitoring 2 9 9 9 9 LIM_3 Phase current monitoring 3 - - 9 9 LIMIT Temperature and DC monitoring limits 9 9 9 9 LOGIC Programmable logic 9 9 9 9 mA_OP Analog output channel 9 9 9 9 MAIN Main functions 9 9 9 9


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PROTECTION FUNCTIONS OVERVIEW P631 P632 P633 P634

MT_RC Monitoring signal recording 9 9 9 9 OL_DA Overload data acquisition 9 9 9 9 OL_RC Overload recording 9 9 9 9 OP_RC Operating data recording 9 9 9 9 OSCIL Fault recording 9 9 9 9 OUTP Output relays 8 to 14 8 to 22 8 to 30 8 to 22

PC Local front port communication 9 9 9 9 REF_1 Restricted earth fault protection 1 - 9 9 9 REF_2 Restricted earth fault protection 2 - 9 9 9 REF_3 Restricted earth fault protection 3 - - 9 9 RTDmA Temperature and DC monitoring inputs 9 9 9 9 THRM1 Thermal overload protection 1 9 9 9 9 THRM2 Thermal overload protection 2 - - 9 9 IEC Ethernet communication * * * *

V/f Overfluxing protection - 9 9 9 V Under/overvoltage protection - 9 9 9 * - Optional communications items specified at time of order.

In addition to the features listed above, the P63x models provide comprehensive self-monitoring as well as the following global functions:

Setting group selection

Operating data recording (time-tagged signal logging)

Overload data acquisition

Overload recording (time-tagged signal logging)

Fault data acquisition

Fault signal recording (time-tagged signal logging with fault value recording of the phase currents for each winding)

Extended fault recording (fault recording of the neutral-point current for each winding as well as the voltage)


MiCOM P631, P632, P633, P634

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Application overview

P631 P632 P633 P63487 DIFF Differential protection 2 wind. 2 wind. 3 wind. 4 wind.

87G REF_x Restricted earth fault protection - 2 3 3

50 DTOC_x Definite-time O/C protection 2 2 3 3

51 IDMT_x Inverse-time O/C protection 2 2 3 3

49 THRMx Thermal overload protection 1 1 2 2

27/ 59 V Over/undervoltage protection - 1 1 1

81 O/U f Over/underfrequency protection - 1 1 1

24 V/f Overexcitation protection - 1 1 1

CTS Current transformer supervision Option Option Option Option

MCM_x Measuring circuit monitoring 2 2 3 4

LIMIT / LIM_x Limit value monitoring 2 2 3 3

LOGIC Programmable logic 1 1 1 1

COMMx 2 Communication interfaces, IRIG-B Option Option Option OptionINP/OUTP Binary inputs and outputs

(max. number)4 / 14 34 / 22 40 / 30 34 / 22

MEASI/MEASO

Analogue inputs and outputs(2 x 20 mA outputs, 20 mA input and RDT input)

- Option Option Option

Measuring inputs

Phase currents 2 x 3 2 x 3 4 x 3 4 x 3

Residual current or star-point current - 2 3 3

Functions overview

Iph

V

IY,a

IY,b

Iph

IY,c

Iph

IphIvirtual

Communication

to SCADA / Substation control / RTU / Modem ...via RS485 or Optical Fibreusing IEC 60870-5-101, -103, Modbus, DNP3, Courierresp.via RJ45 or Fibre Optics using IEC 61850

RecordingandData

Acquisition

Transformer Differential Protection P63x

always availableoptional or specific

COMM1 COMM2 IEC InterMiCOM IRIG-B SelfMonitoring

LIM-3 LIM-2 LIM-1 Metering

Overload rec.

Fault rec.LOGIC

27, 59V

81f

24V/f

87GREF_3

87GREF_2

87GREF_1

50DTOC-3

50DTOC-2

50DTOC-1

51IDMT-3

51IDMT--2

51IDMT--1

49THRM2

49THRM187

DIFF

RTD,mA mA_OP

BC_4

BC _3

BC_2

BC_1

Figure 1: Functional diagram


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3.2 Ordering options

Information Required with Order - P631

MiCOM P631Name Order number Two Winding Transformer Diff. Prot. P 6 3 1 - 9 0 0 0 0 -305 -4xx -610 -46x -9x x -95 x -8xxBasic device:Basic device 40TE, pin-terminal connection, 3 -403Basic device 40TE, ring-terminal connection, 4 -404 basic complement with 4 binary inputs and 8 output relaysMounting option and display:Surface-mounted, local control panel with text display 3Flush-mounted, local control panel with text display 4Processor extension and Current transformer:

With DSP-Coprocessor, Inom = 1 A / 5 A (T11...T13 / T21...23) 2) 8

Inom = 1 A / 5 A (T11...T13 / T21...23) 2) 9Power supply and additional outputs:VA,nom = 24 VDC 3VA,nom = 48 ... 250 VDC / 100 ... 230 VAC 4VA,nom = 24 VDC and 6 output relays, 4 with thyristor 6VA,nom = 48 ... 250 VDC / 100 ... 230 VAC 7 and 6 output relays, 4 with thyristorVA,nom = 24 VDC and 6 output relays 8VA,nom = 48 ... 250 VDC / 100 ... 230 VAC and 6 output relays 9Switching threshold on binary inputs:>18 V (standard variant) (without order extension no.)

>90 V (60...70% of VA,nom = 125...150 V) 8) -461

>155 V (60...70% of VA,nom = 220...250 V) 8) -462

>73 V (67% of VA,nom = 110 V) 8) -463

>146 V (67% of VA,nom = 220 V) 8) -464With communication / information interface:Only IRIG-B input for clock synchronization -90 0Protocol IEC 60870-5-103 -91Protocol can be switched between: -92 IEC 60870-5-101/-103, Modbus, DNP3, Courier and IRIG-B input for clock synchronization and 2nd interface (RS485, IEC 60870-5-103)For connection to wire, RS485, isolated 1For connection to plastic fibre, FSMA connector 2For connection to glass fibre, ST connector 4Protocol IEC 61850: -94For connection to 100 MHz Ethernet, glass fibre SC and wire RJ45 6 and 2nd interface (RS485, IEC 60870-5-103)Language:

English (German) 4) (without order extension no.)

Px40 English (English) 4) -800

German (English) 4) -801

French (English) 4) (on request) -802

Spanish (English) 4) (on request) -803

Polish (English) 4) (on request) -804

Russian (English) 4) 7) (on request) -8052) Switching via parameter, default setting is underlined!4) Second included language in brackets7) Hardware option, supports cyrillic letters instead of special West. Europe characters8) Standard variant recommended, if higher pickup threshold not explicitly required by the application


MiCOM P631, P632, P633, P634

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MiCOM P632Name Order number Two Winding Transformer Diff. Prot. P 6 3 2 - 9 0 1 -305 -4xx -610 -46x -9x x -95 x -8xxBasic device:Basic device 40TE, pin-terminal connection, 3 -403Basic device 84TE, ring-terminal connection, 8 -404 basic complement with 4 binary inputs and 8 output relaysMounting option and display:Surface-mounted, local control panel with text display 3Flush-mounted, local control panel with text display 4Processor extension and Current transformer:With DSP-Coprocessor, Inom = 1 A / 5 A (T11...T13 / T21...23) 2) 8

Inom = 1 A / 5 A (T11...T14 / T21...24) 2) 9Voltage transformer:Vnom = 50 ... 130 V (1-pole) 1Additional binary I/O options:Without 0With 1 binary module (add. 6 binary inputs and 8 output relays) 1Power supply and additional outputs:VA,nom = 24 VDC 3VA,nom = 48 ... 250 VDC / 100 ... 230 VAC 4VA,nom = 24 VDC and 6 output relays, 4 with thyristor 6VA,nom = 48 ... 250 VDC / 100 ... 230 VAC 7 and 6 output relays, 4 with thyristorVA,nom = 24 VDC and 6 output relays 8VA,nom = 48 ... 250 VDC / 100 ... 230 VAC and 6 output relays 9Further add. options:Without 0With analogue module 2With binary module (add. 24 binary inputs) 4Switching threshold on binary inputs:>18 V (standard variant) (without order extension no.)

>90 V (60...70% of VA,nom = 125...150 V) 8) -461

>155 V (60...70% of VA,nom = 220...250 V) 8) -462

>73 V (67% of VA,nom = 110 V) 8) -463

>146 V (67% of VA,nom = 220 V) 8) -464With communication / information interface:Only IRIG-B input for clock synchronization -90 0Protocol IEC 60870-5-103 -91Protocol can be switched between: -92 IEC 60870-5-101/-103, Modbus, DNP3, Courier and IRIG-B input for clock synchronization and 2nd interface (RS485, IEC 60870-5-103)For connection to wire, RS485, isolated 1For connection to plastic fibre, FSMA connector 2For connection to glass fibre, ST connector 4Protocol IEC 61850: -94For connection to 100 MHz Ethernet, glass fibre SC and wire RJ45 6 and 2nd interface (RS485, IEC 60870-5-103)Language:English (German) 4) (without order extension no.)








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MiCOM P633Name Order number Three Winding Transformer Diff. Prot. P 6 3 3 - 9 9 1 -305 -4xx -610 -46x -9x x -95 x -8xxBasic device:Basic device 40TE, pin-terminal connection, 3 0 0 -404Basic device 84TE, pin-terminal connection, 7 -405Basic device 84TE, ring-terminal connection, 8 -406 basic complement with 4 binary inputs and 8 output relaysMounting option and display:Surface-mounted, local control panel with text display 3Flush-mounted, local control panel with text display 4Processor extension and Current transformer:With DSP-Coprocessor, Inom = 1 A / 5 A (T11...T13 / T21...23) 2) 8

Inom = 1 A / 5 A (T11...T14 / T21...24) 2) 9

Inom = 1 A / 5 A (T31...T34) 2) 9Voltage transformer:Vnom = 50 ... 130 V (1-pole) 1Additional binary I/O options:Without 0With 1 binary module (add. 6 binary inputs and 8 output relays) 1With 2 binary modules (add. 12 binary inputs and 16 output relays) 2Power supply and additional outputs:VA,nom = 24 VDC 3VA,nom = 48 ... 250 VDC / 100 ... 230 VAC 4VA,nom = 24 VDC and 6 output relays, 4 with thyristor 6VA,nom = 48 ... 250 VDC / 100 ... 230 VAC 7 and 6 output relays, 4 with thyristorVA,nom = 24 VDC and 6 output relays 8VA,nom = 48 ... 250 VDC / 100 ... 230 VAC and 6 output relays 9Further add. options:Without 0With analogue module 2With binary module (add. 24 binary inputs) 4With analogue and binary module (add. 24 binary inputs) 6Switching threshold on binary inputs:>18 V (standard variant) (without order extension no.)

>90 V (60...70% of VA,nom = 125...150 V) 8) -461

>155 V (60...70% of VA,nom = 220...250 V) 8) -462

>73 V (67% of VA,nom = 110 V) 8) -463









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MiCOM P634Name Order number Four Winding Transformer Diff. Prot. P 6 3 4 - 9 9 1 -305 -4xx -610 -46x -9x x -95 x -8xxBasic device:Basic device 84TE, pin-terminal connection, 7 -403Basic device 84TE, ring-terminal connection, 8 -404 basic complement with 4 binary inputs and 8 output relaysMounting option and display:Surface-mounted, local control panel with text display 3Flush-mounted, local control panel with text display 4Processor extension and Current transformer:With DSP-Coprocessor, Inom = 1 A / 5 A (T11...T13 / T21...23) 2) 8

Inom = 1 A / 5 A (T11...T14 / T21...24) 2) 9

Inom = 1 A / 5 A (T31...T34 / T41...43) 2) 9Voltage transformer:Vnom = 50 ... 130 V (1-pole) 1Additional binary I/O options:Without 0With 1 binary module (add. 6 binary inputs and 8 output relays) 1Power supply and additional outputs:VA,nom = 24 VDC 3VA,nom = 48 ... 250 VDC / 100 ... 230 VAC 4VA,nom = 24 VDC and 6 output relays, 4 with thyristor 6VA,nom = 48 ... 250 VDC / 100 ... 230 VAC 7 and 6 output relays, 4 with thyristorVA,nom = 24 VDC and 6 output relays 8VA,nom = 48 ... 250 VDC / 100 ... 230 VAC and 6 output relays 9Further add. options:Without 0With analogue module 2With binary module (add. 24 binary inputs) 4With analogue and binary module (add. 24 binary inputs) 6Switching threshold on binary inputs:>18 V (standard variant) (without order extension no.)

>90 V (60...70% of VA,nom = 125...150 V) 8) -461

>155 V (60...70% of VA,nom = 220...250 V) 8) -462

>73 V (67% of VA,nom = 110 V) 8) -463








Technical Data P63x/UK TD/A54 MiCOM P631, P632, P633, P634

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TECHNICAL DATA


-406 (P633)

P63x/UK TD/A54 Technical Data

MiCOM P631, P632, P633, P634

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Technical Data

General Data Design Surface-mounted case suitable for wall installation or flush mounted case for 19" cabinets and for control panels.

Installation Position Vertical 30

Degree of Protection Per EN 60529 or IEC 529 IP 52; IP 20 for the rear connection area of the flush-mounted case

Weight Case 40 TE: approx. 7 kg Case 84 TE: approx. 11 kg

Dimensions See Installation - IN, Section 7.

Terminal Connection Diagrams See Installation - IN, Section 8.

Terminals PC Interface (X6) DIN 41652 connector, type D-Sub, 9-pin

Communication Interface Optical fibers (X7, X8): F-SMA-interface per DIN 47258 or IEC 874-2 per plastic fibers or BFOC-(ST)-interface 2.5 per DIN 47254-1 or IEC 874-10 per glass fiber or Leads (X9, X10, X33): Threaded terminal ends M2 for wire cross-sections up to 1.5 mm2

IRIG-B Interface (X11) BNC plug

Current-Measuring Inputs (conventional) Threaded terminals for pin-terminal connection: Threaded terminal ends M5, self-centering with wire protection for conductor cross sections of 4 mm2 or Threaded terminals M4 for ring-terminal connection

Other Inputs and Outputs Threaded terminals for pin-terminal connection: Threaded terminal ends M3, self-centering with wire protection for conductor cross sections of 0.2 to 2.5 mm2 or Threaded terminals M4 for ring-terminal connection

Tests Type Test Tests according to EN 60255-6 or IEC 255-6

Electromagnetic Compatibility (EMC)

Interference Suppression Per EN 55022 or IEC CISPR 22, Class A

1MHz-Burst Disturbance Test Per IEC 255 Part 22-1 or IEC 60255-22-1, Class III, Common-mode test voltage: 2,5 kV, Differential test voltage: 1,0 kV, Test duration: > 2 s, Source impedance: 200

Immunity to Electrostatic Discharge Per EN 60255-22-2 or IEC 60255-22-2, Level 3, Contact discharge, single discharges : > 10, Holding time: > 5 s, Test voltage: 6 kV, Test generator: 50...100 M, 150 pF/330

Immunity to Radiated Electromagnetic Energy Per EN 61000-4-3 and ENV 50204, Level 3, Antenna distance to tested device: > 1 m on all sides, Test field strength, freq. band 80...1000 MHz: 10 V/m, Test using AM: 1 kHz/80 %, Single test at 900 MHz: AM 200 Hz/100 %

Electrical Fast Transient or Burst Requirements Per IEC 60255-22-4 Test severity Level 4, Rise time of one pulse t: 5 ns, Impulse duration (50% value): 50 ns, Amplitude: 4 kV / 2 kV, resp., Burst duration: 15 ms, Burst period: 300 ms, Burst frequency: 2.5 kHz, Source impedance: 50

P63x/UK TD/A54 Technical Data (TD) 2-2

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Surge immunity Test Per EN 61000-4-5 or IEC 61000-4-5, Level 4, Testing of power supply circuits, unsymmetrically/symmetrically operated lines, Open-circuit voltage front time/time to half-value: 1.2/50 s, Short-circuit current front time/time to half-value: 8/20 s, Amplitude: 4/2 kV, Pulse frequency: > 5/min, Source impedance: 12/42

Immunity to Conducted Disturbances Induced by Radio Frequency Fields Per EN 61000-4-6 or IEC 61000-4-6, Level 3, Disturbing test voltage: 10 V

Power Frequency Magnetic Field Immunity Per EN 61000-4-8 or IEC 61000-4-8, Level 4, Frequency: 50 Hz, Test field strength: 30 A/m

Alternating Component (Ripple) in DC Auxiliary Energizing Quantity Per IEC 255-11, 12 %

Insulation Voltage Test Per IEC 255-5 or DIN EN 61010, 2 kV~, 60 s For the voltage test of the power supply inputs, direct voltage (2.8 kV DC) must be used. The PC Interface must not be subjected to the voltage test.

Creepage Distance and Clearance Per IEC 60255-27: 2005 and IEC 664-1, pollution degree 3, working voltage 250 V, overvoltage category III, impulse test voltage 5 kV

Impulse Voltage Withstand Test Per IEC 255-5, Front time: 1.2 s, Time to half-value: 50 s, Peak value: 5 kV, Source impedance: 500

Mechanical Robustness Vibration Test Per EN 60255-21-1 or IEC 255-21-1, Test severity class 1, Frequency range in operation: 10..60 Hz, 0.035 mm, 60..150 Hz, 0.5 g, Frequency range during transport: 10...150 Hz, 1 g

Shock Response and Withstand Test, Bump Test Per EN 60255-21-2 or IEC 255-21-2, Test severity class 1, Acceleration: 5 g/15 g, Pulse duration 11 ms

Seismic Test Per EN 60255-21-3 or IEC 255-21-3, Test procedure A, Class 1, Frequency range: 5...8 Hz, 3.5 mm / 1.5 mm, 8...35 Hz, 10 / 5 m/s2 3 1 cycle

Routine Test Test per EN 60255-6 or IEC 255-6

Voltage Test Per IEC 255-5, 2.2 kV AC, 1 s For the voltage test of the power supply inputs, direct voltage (2.8 kV DC) must be used The PC Interface must not be subjected to the voltage test

Additional Thermal Test 100 % controlled thermal endurance test, inputs loaded.

EU Directives EMC Compliance Per 89/336/EEC amended by 93/68/EEC: Compliance to the European Commission Directive on EMC is claimed via the Technical Construction File route. Product Specific Standards were used to establish conformity: EN50263: 2000

Product Safety Per 73/23/EEC amended by 93/68/EEC: Compliance with European Commission Low Voltage Directive. Compliance is demonstrated by reference to generic safety standards: EN60255-27: 2006 EN60255-5: 2001

73/23/EEC

R&TTE Compliance Radio and Telecommunications Terminal Equipment (R&TTE) directive 99/5/EC. Compliance demonstrated by compliance to the Low Voltage Directive, 73/23/EEC amended by 93/68/EEC, down to zero volts by reference to safety standards. Applicable to rear communications ports.

ATEX Compliance ATEX Potentially Explosive Atmospheres directive 94/9/EC, for equipment. The equipment is compliant with Article 1(2) of European directive 94/9/EC. It is approved for operation outside an ATEX hazardous area. It is however approved for connection to Increased Safety, Ex e, motors with rated ATEX protection, Equipment


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Category 2, to ensure their safe operation in gas Zones 1 and 2 hazardous areas. CAUTION - Equipment with this marking is not itself suitable for operation within a potentially explosive atmosphere. Compliance demonstrated by Notified Body certificates of compliance.

II (2) G

Environmental Conditions Ambient Temperature Range Recommended temperature range: -5 C...+55 C, or +23 F...+131 F Limit temperature range: -25 C...+70 C, or -13 F...+158 F

Ambient Humidity Range 75 % relative humidity (annual mean), up to 56 days at 95 % relative humidity and 40 C, condensation not permissible

Solar Radiation Avoid exposure of the front panel to direct solar radiation

Ratings Measurement Inputs Nominal frequency fnom: 50 Hz and 60 Hz (settable) Operating range: 0.95...1.05 fnom Over/Underfrequency Protection: 4070 Hz Overexcitation Protection: 0.51.5 fnom

Current Nominal current Inom: 1 A and 5 A (settable) Nominal consumption / phase: < 0.1 VA at Inom Load rating: continuous: 4 Inom for 10 s: 30 Inom for 1 s: 100 Inom Nominal surge current: 250 Inom

Voltage Nominal voltage Vnom: 50...130 V AC (settable) Nominal consumption per phase: < 0.3 VA at Vnom = 130 V AC Load rating: continuous 150 V AC

Binary Signal Inputs Max. permissible voltage: 300 V DC

Switching threshold (as per order option) Standard variant: 18V (VA,nom: 24 ... 250 V DC): Switching threshold range: 14 V ... 19 V DC Special variant with switching thresholds from 58 ... 72 % of the nominal supply voltage (VA,nom) (definitively "low" at VA < 58 % of the nominal supply voltage, definitively "high" at VA > 72 % of the nominal supply voltage): "Special variant 73 V": nominal supply voltage 110 V DC "Special variant 90 V": nominal supply voltage 127 V DC "Special variant 146 V": nominal supply voltage 220 V DC "Special variant 155 V": nominal supply voltage 250 V DC

Power Consumption (as per order option): Standard variant: VA = 19...110V DC : 0.5 W 30% VA > 110V DC : VA 5 mA 30 % Special variants: VA > switching threshold: VA 5mA 30 %

Analog Inputs and Outputs Direct Current Input Input current: 0...26 mA Value range: 0.00...1.20 IDC,nom (IDC,nom = 20 mA) Max. permissible continuous current: 50 mA Maximum permissible input voltage: 17 V Input load: 100 Open-circuit monitoring: 0...10 mA (adjustable) Overload monitoring: > 24.8 mA Zero suppression: 0.000...0.200 IDC,nom (adjustable)

Resistance Temperature Detector For analog module only PT 100 permitted, Value range: -40...+215 C 3-wire configuration: max. 20 per conductor open and short-circuit input permitted Open circuit monitoring: > +215 C (or > +419 F) and < -40 C (or > -40 F)

Direct Current Output Output current: 0 20 mA Maximum permissible load: 500 Maximum output voltage: 15 V

IRIG-B Interface Min./max. input voltage level (peak-peak): 100 mVpp/20 Vpp Input impedance: 33 k at 1 kHz Galvanic isolation: 2 kV


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Output Relays Rated voltage: 250 V DC, 250 V AC Continuous current: 5 A Short-duration current: 30 A for 0.5 s Making capacity: 1000 W (VA) at L/R = 40 ms Breaking capacity: 0.2 A at 220 V DC and L/R = 40 ms, 4 A at 230 V AC and cos = 0.4

Power Supply Nominal Auxiliary Voltage VA,nom: 48250 V DC and 100...230 V AC or VA,nom: 24 V DC (depends on ordering)

Operating Range For direct voltage: 0.81.1 VA,nom with a residual of up to 12 % of VA,nom for alternating current: 0.91.1 VA,nom

Nominal Consumption At VA = 220 V DC and maximum number of modules fitted in case 40TE: Initial position approx.: 13 W Active position approx.: 29 W in case 84TE: Initial position approx.: 13 W Active position approx.: 37 W

Start-Up Peak Current < 3 A, duration 0.25 ms

Stored-Energy Time 50 ms for interruption of VA 220 V DC

PC-Interface Transmission rate: 300...115200 Baud (settable)

Communication Interface Communication Interface COMM1: Protocol per order either IEC 60870-5-103 or can be switched between IEC 60870-5-103, IEC 870-5-101, MODBUS, DNP 3.0 (Option) Transmission speed: 300...64000 bit/s (settable)

Communication Interface COMM2: Protocol per IEC 60870-5-103 Transmission speed: 300...57600 bit/s (settable)

Wire Leads Per EIA(RS)485 or EIA(RS)422, 2 kV-isolation Distance to be bridged: peer to peer link: max. 1200 m multi-endpoint link: max. 100 m

Plastic Fiber Connection Optical wavelength: typ. 660 nm Optical output: min. - 7.5 dBm Optical sensitivity: min. - 20 dBm Optical input: max. - 5 dBm Distance to be bridged: max. 45 m 1)

Glass Fiber Connection G 50/125 Optical wavelength: typ. 820 nm Optical output: min. - 19,8 dBm Optical sensitivity: min. - 24 dBm Optical input: max. - 10 dBm Distance to be bridged: max. 400 m 1)

Glass Fiber Connection G 62.5/125 Optical wavelength: typ. 820 nm Optical output: min. - 16 dBm Optical sensitivity: min. - 24 dBm Optical input: max. - 10 dBm Distance to be bridged: max. 1400 m 1)

IRIG-B Interface Format B122, Amplitude modulated 1 kHz carrier signal, BCD time-of-year code 1) Distance to be bridged for optical outputs and inputs that are equal on both ends, taking into account a system reserve of 3 dB and typical fiber attenuation.

Communication Interface IEC 61850: Ethernet communication, 100 Mbit/s. GSSE and GOOSE supported.

Typical Characteristic Data Main Function Minimum output pulse for a trip command: 0.1 10 s (settable)

Differential Protection Tripping time: 16 ms w/o inrush stabilization or (Idiff) > (Idiff>>) 32 ms with inrush stabilization

Definite Time and Inverse Time Overcurrent Protection Operate time inclusive of output relay (measured variable from 0 to 2 operate value): 40 ms, approx. 30 ms Reset time (measured variable from 0 to 2 operate value): 40 ms, approx. 30 ms Starting resetting ratio: approx. 0.95


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Over/Undervoltage Protection Operate time inclusive of output relay (measured variable from nominal value to 1.2 operate value or measured variable from nominal value to 0.8 operate value): 40 ms, approx. 30 ms Reset time (measured variable from nominal value to 1.2 operate value or measured variable from nominal value to 0.8 operate value): 45 ms, approx. 30 ms Starting resetting ratio: settable hysteresis 1...10 %

Overexcitation Protection Starting resetting ratio: approx. 0.95

Deviations of the Operate Values Reference Conditions Sinusoidal signals with nominal frequency fnom, total harmonic distortion 2 %, ambient temperature 20C and nominal auxiliary voltage VA,nom.

Deviation Deviation relative to the set value under reference conditions.

Differential Protection Measuring system at Id 0.2 Iref: 5 % Harmonic restraint: 10 %

Restricted Earth Fault Protection Measuring system at Id 0.2 Iref: 5 %

Overcurrent-Time Protection Operate Values: 5 %

Thermal Overload Protection Operate Value : 5 %

Over/Underfrequency Protection Operate Values f: 30mHz (fnom = 50 Hz) 40mHz (fnom = 60 Hz) Operate Values df/dt: 0.1Hz/s (fnom = 50 or 60 Hz)

Over/Undervoltage Protection Operate Values V: 1 % (setting 0.61.4 Vnom)

Overexcitation Protection Operate Values: 3 %

Deviations of the Timer Stages Reference Conditions Sinusoidal signals with nominal frequency fnom, total harmonic distortion 2 %, ambient temperature 20C and nominal auxiliary voltage VA,nom.

Deviation Deviation relative to the set value under reference conditions.

Definite-Time Stages 1% + 20...40 ms

Inverse-Time Stages 5 % + 10...25 ms (measured variable greater than 2 Iref) for IEC characteristic extremely inverse and for thermal overload protection and V/f characteristic: 7.5 % + 10...20 ms for frequency protection: 1% + up to 80 ms (depending on evaluation time setting)

Deviations in Measured Data Acquisition Reference Conditions Sinusoidal signals with nominal frequency fnom, total harmonic distortion 2 %, ambient temperature 20C and nominal auxiliary voltage VA,nom.

Deviation Deviation relative to the relevant nominal value under reference conditions.

Operating Data Currents/measuring inputs: 1% Voltages/measuring inputs: 0.5 % Currents/internally calculated: 2 % Voltages/internally calculated: 2 % Frequency: 10 mHz

Fault Data Phase and neutral/starpoint currents: 3 % Restraining and differential currents: 5 %

Internal Clock With free running internal clock: < 1 min./ month With external synchronization via protocol, synch. interval 1 min: < 10 ms via IRIG-B signal input: 1 ms


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Resolution in Fault Data Acquisition Time Resolution 20 sampled values per period

Currents Dynamic range: 33 Inom Amplitude resolution at Inom = 1 A: 2.0 mAr.m.s. at Inom = 5 A: 10.1 mAr.m.s.

Voltage Dynamic range: 150 V Amplitude resolution: 9.2 mVr.m.s.

Mechanical Robustness Vibration Test Per IEC 60255-21-1: 1996: Response Class 2 Endurance Class 2

Shock and Bump Per IEC 60255-21-2: 1996: Shock response Class 2 Shock withstand Class 1 Bump Class 1

Seismic Test Per IEC 60255-21-3: 1995: Class 2


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Address List

Function Settings Global PC Link (PC): Command Blocking: No/Yes Sig./meas. val. Block.: No/Yes

Communication Link 1 (COMM1): USER Command Block: No/Yes USER Sig/meas Block: No/Yes

Communication Link 2 (COMM2): USER Command Block: No/Yes USER Sig/meas Block: No/Yes

Binary and Analog Output (OUTP): USER Outp rel Block: No/Yes

Main Function (MAIN): Protection Enabled: No (Disabled)/Yes (Enabled) USER Test Mode: No/Yes Frequency fn: 50 Hz/60 Hz Phase Rotation: A - B - C/A - C - B In CT. prim.,end a: 1...50000 A In CT. prim.,end b: 1...50000 A In CT. prim.,end c: 1...50000 A In CT. prim.,end d: 1...50000 A In CT. Y prim,end a: 1...50000 A In CT. Y prim,end b: 1...50000 A In CT. Y prim,end c: 1...50000 A Vn V.T. prim.: 0.1...1500.0 kV In Device, end a: 1.0 A/5.0 A In Device, end b: 1.0 A/5.0 A In Device, end c: 1.0 A/5.0 A In Device, end d: 1.0 A/5.0 A IY,nom device, end a: 1.0 A/5.0 A IY,nom device, end b: 1.0 A/5.0 A IY,nom device, end c: 1.0 A/5.0 A Vn VT. Sec.: 50...130 V CT Orientation Iph,a: Standard/Reversed CT Orientation Iph,b: Standard/Reversed CT Orientation Iph,c: Standard/Reversed CT Orientation Iph,d: Standard/Reversed CT Orientation IY,a: Standard/Reversed CT Orientation Iy,b: Standard/Reversed CT Orientation IY,c: Standard/Reversed Minimum Iph Measmt: 0.00...0.20 In Minimum I2 Measmt: 0.0000.200 In Minimum I1 Measmt: 0.0000.200 In Minimum IN Measmt: 0.000...0.200 In Minimum IY Measmt: 0.000...0.200 IN,n Minimum V Measmt: 0.00...0.20 Vn Time Const Iph Dem.: 0.1...60.0 min Fct. Assign. Block 1: see selection table Fct. Assign. Block 2: see selection table Fct. Assign. Block 3: see selection table Fct. Assign. Block 4: see selection table Trip Cmd.Block USER: No/Yes

Fct. Assig Trip Cmd. 1: see selection table Fct. Assig Trip Cmd. 2: see selection table Fct. Assig Trip Cmd. 3: see selection table Fct. Assig Trip Cmd. 4: see selection table tDWELL Trip Cmd 1: 0.10...10.00 s tDWELL Trip Cmd 2: 0.10...10.00 s tDWELL Trip Cmd 3: 0.10...10.00 s tDWELL Trip Cmd 4: 0.10...10.00 s Latching trip cmd. 1: No/Yes Latching trip cmd. 2: No/Yes Latching trip cmd. 3: No/Yes Latching trip cmd. 4: No/Yes Fct Assign Fault: see function table

Setting Group Selection (GROUP): Control via USER: No/Yes Setting Grp Sel USER: Setting Group SG1 Setting Group SG2 Setting Group SG3 Setting Group SG4 Hold Timer: 0.000...65.000 s/Blocked

Self-Monitoring (CHECK): Fct Assign. Alarm: see selection table Mon.Sig. Retention: 0...240 h/Blocked

Fault Recording (OSCIL): Fct Assig. Trigger: see selection table Id>: 0.01...30.00 Iref/Blocked IR>: 0.01...30.00 Iref/Blocked Pre-Fault Time: 1...50 Cycles Post-Fault Time: 1...50 Cycles Max Record Time: 5...300 Cycles

Common Settings Main Function (MAIN): Vn prim., end a: 0.1...1500.0 kV Vn prim., end b: 0.1...1500.0 kV Vn prim., end c: 0.1...1500.0 kV Vn prim., end d: 0.1...1500.0 kV Evaluation IN, end a: Calculated/Measured Evaluation IN, end b: Calculated/Measured Evaluation IN, end c: Calculated/Measured Current summation: Disabled End (a) + end (b) End (a) + end (c) End (a) + end (d) End (b) + end (c) End (b) + end (d) End (c) + end (d) End (a) + end (b) + end (c) End (a) + end (b) + end (d) End (a) + end (c) + end (d) End (b) + end (c) + end (d) End (a) end (b) End (a) end (c) End (a) end (d) End (b) end (c) End (b) end (d) End (c) end (d)


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Hold Time Dyn.Settg.: 0.00...100.00 s/Blocked

Differential Protection (DIFF): General Enable USER: No/Yes Rated Ref Power Sref: 0.1...5000.0 MVA Ref. Curr. Iref,a: 0.000...50.000 kA Ref. Curr. Iref,b: 0.000...50.000 kA Ref. Curr. Iref,c: 0.000...50.000 kA Ref. Curr. Iref,d: 0.000...50.000 kA Matching fact. kam,a: 0.000...5.000 Matching fact. kam,b: 0.000...5.000 Matching fact. kam,c: 0.000...5.000 Matching fact. kam,d: 0.000...5.000 Minimum Id Measmt: 0.000...0.200 Iref Minimum IR Measmt: 0.000...0.200 Iref

Restricted Earth Fault Protection (REF_1, REF_2, REF_3): General Enable USER: No/Yes Select CT Input : End a/End b/End c Rated Ref Power Sref: 0.1...5000.0 MVA Ref. Curr. Iref: 0.000...50.000 kA Matching Fact. kam,N: 0.000...50.000 Matching Fact. kam,Y: 0.000...50.000 Minimum Id Measmt: 0.00...0.20 Iref Minimum IR Measmt: 0.00...0.20 Iref

Definite-Time Overcurrent Protection (DTOC1, DTOC2, DTOC3): General Enable USER: No/Yes Select CT Input: End a/End b/End c/End d/Current summation

Inverse-Time Overcurrent Protection (IDMT1, IDMT2, IDMT3): General Enable USER: No/Yes Select CT Input: End a/End b/End c/End d/Current summation

Thermal Overload Protection (THRM1, THRM2): General Enable USER: No/Yes Select CT Input: End a/End b/End c/End d/Current summation Operating Mode: Absolute Replica/Relative Replica O/T f Iref Persist x: -40300 C

Over/Undervoltage Protection (V): General Enable USER: No/Yes

Over/Underfrequency Protection (f): General Enable USER: No/Yes Evaluation time : 3...6 Cycles Undervolt. Block. V: 0.100...1.100 IDC,nom/Blocked IDC,lin>>: 0.100...1.100 IDC,nom/Blocked tIDC,lin>: 0.00...20.00 s/Blocked tIDC,lin>>: 0.00...20.00 s/Blocked IDC,lin: 0...1000 s/Blocked T: 0...100 s/Blocked I


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Setting Groups (valid for Setting Groups x = 1 to 4:)

Differential Protection (DIFF): Enable SGx: No/Yes Vector Grp. ends b-a: 0...11 Vector Grp. ends c-a: 0...11 Vector Grp. ends d-a: 0...11 Idiff> SGx: 0.10...2.50 Iref Idiff>> SGx: 2.5...30 Iref Idiff>>> SGx: 2.5...30 Iref Idiff>(CTS) SGx: 0.10...30.00 Iref m1 SGx: 0.10...1.50 m2 SGx: 0.10...1.50 IR,m2 SGx: 1.5...10.0 Iref Op. Mode Inrush SGx: Disabled Not Phase-Selective Phase Selective Inrush 2nd Harmon SGx: 10...50 % I0 filt a Enab SGx: No/Yes I0 filt b Enab SGx: No/Yes I0 filt c Enab SGx: No/Yes I0 filt d Enab SGx: No/Yes O/Flux Blk Enab SGx: No/Yes O/Flux 5th HarmonSGx: 10...80 % Op.del.,trip sig.SGx: 0.00100 s Hyst. Effective SGx: No/Yes

Restricted Earth Fault Protection (REF_1, REF_2, REF_3): Enable SGx: No/Yes Operating Mode SGx: Low-Z Iph Sum Bias Low-Z Iph Max. Bias High Impedance CTS Effective SGx: No/Yes Idiff> SGx: 0.10...1.00 Iref Idiff>>> SGx: 2.5...30.0 Iref m1 SGx: 0.001.00 m2 SGx: 0.151.50 IR,m2 SGx: 0.101.50 Iref

Definite-Time Overcurrent Protection (DTOC1, DTOC2, DTOC3): Enable SGx: No/Yes Block Tim. st. IN SGx: Disabled For Single-Ph. Start For Multi-Ph. Start. Gen.Starting Mode SGx: W/o Start. IN/I2 With Start. IN/I2 tGS SGx: 0.00...100.00 s/Blocked Inrush Restr Enab SGx: No/Yes Valid for y = >, >> & >>>: Iy SGx: 0.10...30.00 In/Blocked Iy dynamic SGx: 0.10...30.00 In/Blocked tIy SGx: 0.00...100.00 s/Blocked I2 y SGx: 0.10...8.00 In/Blocked I2 y dynamic SGx: 0.10...8.00 In/Blocked tI2 y: 0.00...100.00 s/Blocked INy: 0.10...8.00 In/Blocked

INy dynamic: 0.10...8.00 In/Blocked tINy: 0.00...100.00 s/Blocked

Inverse-Time Overcurrent Protection (IDMT1, IDMT2, IDMT3): Enable SGx: No/Yes Block Tim. st IN SGx: Disabled For Single-Ph. Start For Multi-Ph. Start. Gen.Starting Mode SGx: W/o Start. IN/I2 With Start. IN/I2 tGS SGx: 0.00...100.00 s/Blocked Inrush Restr Enab SGx: No/Yes Valid for y = Ph, 2 & N: Iref,y SGx: 0.10...4.00 In/Blocked Iref,y dynamic SGx: 0.10...4.00 In/Blocked Iy Charac SGx: Definite Time/IEC Standard Inverse/IEC Very Inverse/IEC Extr. Inverse/IEC Long Time Inv./IEEE Moderately Inv./IEEE Very Inverse/IEEE Extremely Inv./ANSI Normally Inv./ANSI Short Time Inv./ANSI Long Time Inv./RI-Type Inverse/RXIDG-Type Inverse kt Time Dial/TMS SGx: 0.05...10.00 Min. Trip t Iy SGx: 0.0010 s Hold Time Iy SGx: 0.00...600.00 s Release y SGx: Instantaneous/Delayed as per Char.

Thermal Overload Protection (THRM1, THRM2): Enable SGx: No/Yes Iref Rating SGx: 0.10...4.00 Inom Start Fact.OL_RC SGx: 1.05...1.50 Tim.const. 1 (heat) SGx: 1.0...1000.0 min Tim.const. 2 (cool) SGx: 1.0...1000.0 min Max perm obj tmp. SGx: 0...300 C Max perm cool tmp SGx: 0...70 C Select CT Ambient SGx: Default Temp. Value/From PT100/From 20 mA Input Default CT Amb SGx: -40...70 C Blk for CTA Fail SGx: No/Yes T> Alarm Reset,% SGx: 50200 % T> Trip Reset,% SGx: 50200 % Trip Hysteresis SGx: 230 % Pre-Trip Alarm SGx: 0.0...1000.0 min/Blocked

Over/Undervoltage Protection (U): Enable SGx: No/Yes V> SGx: 0.20...1.50 Vnom/Blocked V>> SGx: 0.20...1.50 Vnom/Blocked tV> SGx: 0.00...100.00 s/Blocked tV>> SGx: 0.00...100.00 s/Blocked V< SGx: 0.20...1.50 Vnom/Blocked V SGx: 0.000.60 Vnom/Blocked tV< SGx: 0.00...100.00 s/Blocked tV


MiCOM P631, P632, P633, P634

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Over/Underfrequency Protection (f): Enable SGx: No/Yes Valid for y = 1 to 4: Oper. Mode fy SGx: f/f with df/dt/f + Delta f/Delta t fy SGx: 40.00...70.00 Hz/Blocked tfy SGx: 0.00...10.00 s/Blocked dfy/dt SGx: 0.1...10.0 Hz/s/Blocked Delta fy SGx: 0.01...5.00 Hz/Blocked Delta ty SGx: 0.04...3.00 s

Overfluxing Protection (V/f): Enable SGx: No/Yes V/f> (Alarm) SGx: 1.00...1.20 Vn/fn/Blocked V/f(t)> SGx: 1.05...1.50 Vn/fn/Blocked V/f>> SGx: 1.05...1.60 Vn/fn/Blocked tV/f> SGx: 0...10000 s/Blocked t at V/f=1.05 SGx: 1.01000.0 s t at V/f=1.10 SGx: 1.01000.0 s t at V/f=1.15 SGx: 1.01000.0 s t at V/f=1.20 SGx: 1.01000.0 s t at V/f=1.25 SGx: 1.01000.0 s t at V/f=1.30 SGx: 1.01000.0 s t at V/f=1.35 SGx: 1.01000.0 s t at V/f=1.40 SGx: 1.01000.0 s t at V/f=1.45 SGx: 1.01000.0 s t at V/f=1.50 SGx: 1.01000.0 s t at V/f=1.55 SGx: 1.01000.0 s t at V/f=1.60 SGx: 1.01000.0 s Reset Time SGx: 010000 s tV/f>> SGx: 010000 s/Blocked

Current Transformer Supervision (CTS): Enable SGx: No/Yes I1> SGx: 0.054.00 Iref I2/I1> SGx: 0.051.00 I2/I1>> SGx: 0.051.00 t(Alarm) SGx: 0.0010.00 s t(Latch) SGx: 0.0010.00 s

Broken Conductor Detection (BC_1, BC_2, BC_3, BC_4): Enable SGx: No/Yes I2/I1> SGx: 0.201.00 Operate Delay SGx: 0.10100.00 s

Measurements Measured Data Input (RTDmA): Current IDC: 0.00...24.00 mA Current IDC p.u.: 0.00...1.20 IDC,nom Curr. IDC, lin. p.u.: 0.00...1.20 IDC,nom Scaled Value IDC, lin: -32000...32000 Temperature: -40.0...215.0 C Temperature p.u.: -0.40...2.15 (100 C)

Measured Data Output (mA_OP): Current A-1: 0.00...20.00 mA Current A-2: 0.00...20.00 mA

Main Function (MAIN): Date: 01.01.1997...31.12.2096 dd.mm.yy Time of day: 00:00:00...23:59:59 hh:mm:ss Time Switching: Standard Time/Daylight Saving Time Frequency f: 40.00...70.00 Hz Valid for y = a to d: Iph, Max now, y prim.: 0...25000 A Iph Therm dem y prim: 0...25000 A Iph Therm pk y prim: 0...25000 A Current Imin, y prim: 0...25000 A Current IA,y prim.: 0...25000 A Current IB,y prim.: 0...25000 A Current IC y prim.: 0...25000 A Current I2 y prim.: 025000 A Current I1 y prim.: 025000 A Current IN,y prim.: 0...25000 A Current IY, a prim.:025000 A Current IY, b prim.:025000 A Current IY, c prim.:025000 A Voltage V prim.: 0,0...2500.0 kV Valid for y = a to d: Curr Iph,Max now,y pu.: 0.00...25.00 In Iph pu Thermal dem.y: 0.00...25.00 In Iph pu Thermal peaky: 0.00...25.00 In Current Imin,y p.u.: 0.00...25.00 In Current IA,y p.u.: 0.00...25.00 In Current IB,y p.u.: 0.00...25.00 In Current IC,y p.u.: 0.00...25.00 In Current I2 y p.u.: 0.0025.00 In Current I1 y p.u.: 0.00...25.00 In Current IN,y p.u.: 0.000...25.000 In Current IY,a p.u.: 0.000...25.000 In Current IY,b p.u.: 0.000...25.000 In Current IY,c p.u.: 0.000...25.000 In Iph,max,add p.u.: 0.0025.00 In Iph,min,add p.u.: 0.0025.00 In Current IA,add p.u.: 0.0025.00 In Current IB,add p.u.: 0.0025.00 In Current IC,add p.u.: 0.0025.00 In Curr. I2, add p.u.: 0.0025.00 In Curr. I1, add p.u.: 0.0025.00 In Current IN,add p.u.: 0.00025.000 In Voltage V p.u.: 0.00...25.00 Vn Valid for y = a to d: Angle phi AB, end y: -180...180 Angle phi BC, end y: -180...180 Angle phi CA, end y: -180...180 Angle phi A, end b-a: -180...180 Angle phi B, end b-a: -180...180 Angle phi C, end b-a: -180...180 Angle phi A, end c-a: -180...180 Angle phi B, end c-a: -180...180 Angle phi C, end c-a: -180...180 Angle phi A, end d-a: -180...180 Angle phi B, end d-a: -180...180 Angle phi C, end d-a: -180...180 Angle phi NY, end a: -180...180 Angle phi NY, end b: -180...180 Angle phi NY, end c: -180...180


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Differential Protection (DIFF) Diff Current 1: 0.000...40.000 Iref Restrain Current 1: 0.000...40.000 Iref Diff Current 2: 0.000...40.000 Iref Restrain Current 2: 0.000...40.000 Iref Diff Current 3: 0.000...40.000 Iref Restrain Current 3: 0.000...40.000 Iref

Restricted Earth Fault Protection (REF_1, REF_2, REF_3): Valid for x = 1 to 3: Diff. Current, REF_x: 0.00...20.00 Iref Restrain Curr., REF_x: 0.00...20.00 Iref

Thermal Overload Protection (THRM1, THRM2) Valid for x = 1 to 2: Status Replica, THx: -25000...25000 % Object Temperat., THx: -40...300 C Coolant Temp. THx: -40...200 C Pre-Trip t. Left, THx: 0.0...1000.0 min Therm. Repl. p.u.THx: -25.00...25.00 Object Temp. p.u. x .: -0.04...0.30 100 C Coolant Temp. p.u. x: -0.04...0.20 100 C Temp. Offset Repl. x: -25000...25000 %

Overfluxing Protection (V/f) Excitation V/f p.u.: 0.0010.00 Status Replica in %: 0100 % Status Replica p.u.: 0.001.00


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Getting Started P63x/UK GS/A54 MiCOM P631, P632, P633, P634

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GETTING STARTED


-406 (P633)

P63x/UK GS/A54 Getting Started

MiCOM P631, P632, P633, P634

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Getting Started P63x/UK GS/A54

MiCOM P631, P632, P633, P634

(GS) 3-1

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CONTENTS

(GS) 3-

1. GETTING STARTED 3

1.1 User interfaces and menu structure 3

1.2 Introduction to the relay 3

1.2.1 Front panel 3

1.2.1.1 LED indications 4

1.2.2 Relay rear panel 5

1.3 Relay connection and power-up 7

1.4 Introduction to the user interfaces and settings options 8

1.5 HMI 8

1.5.1 Local control panel 8

1.5.2 Display and keypad 8

1.5.3 Display levels 9

1.5.4 Display panels 10

1.5.5 Menu tree and data points 10

1.5.6 List data points 10

1.5.7 Keys 11

1.6 Actions via the HMI 12

1.6.1 Changing between display levels 12

1.6.2 Control at the panel level 13

1.7 Password protected control actions 22

1.8 Front communication port user interface 25

1.8.1 Front IEC 60870-5-103 port 26

1.9 MiCOM S1 relay communications basics 26

1.9.1 PC requirements 26

1.9.2 Connecting to the P63x relay using MiCOM S1 26

1.9.3 Open communication link with relay 28

1.9.4 Off-line use of MiCOM S1 30

1.9.5 Viewing regional language english setting files in MiCOM S1 30


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FIGURES

Figure 1: Relay front view 3 Figure 2: Relay rear view for 40TE variant 6 Figure 3: Relay rear view for 84TE variant 7 Figure 4: Example P63x relay label 7 Figure 5: View of the front panel 9 Figure 6: Display panels and the menu tree 10 Figure 7: Basic menu tree structure 14 Figure 8: Relay keypad 23 Figure 9: Front port connection 25 Figure 10: PC - relay signal connection 26


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1. GETTING STARTED

1.1 User interfaces and menu structure

The settings and functions of the MiCOM protection relay can be accessed both from the front panel keypad and LCD, and via the front and rear communication ports. Information on each of these methods is given in this section to describe how to start using the relay.

1.2 Introduction to the relay

1.2.1 Front panel

The front panel of the relay is shown in Figure 1, with the hinged covers at the top and bottom of the relay shown open. Extra physical protection for the front panel can be provided by an optional transparent front cover. With the cover in place read only access to the user interface is possible. Removal of the cover does not compromise the environmental withstand capability of the product, but allows access to the relay settings. When full access to the relay keypad is required, for editing the settings, the transparent cover can be unclipped and removed when the top and bottom covers are open. If the lower cover is secured with a wire seal, this will need to be removed. Using the side flanges of the transparent cover, pull the bottom edge away from the relay front panel until it is clear of the seal tab. The cover can then be moved vertically down to release the two fixing lugs from their recesses in the front panel.

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Figure 1: Relay front view


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The front panel of the relay includes the following, as indicated in Figure 1:

A 20-character by 4-line alphanumeric liquid crystal display (LCD)

A 7-key keypad comprising 4 arrow keys (, , and ), an enter key (), a clear key () and a read key ()

17 LEDs; 5 fixed function LEDs and 12 programmable function LEDs on the right hand side

Under the top hinged cover:

The relay serial number, and the relays current and voltage rating information

Under the bottom hinged cover:

A 9-pin female D-type front port for communication with a PC locally to the relay (up to 15m distance) via an EIA(RS)232 serial data connection

1.2.1.1 LED indications

Fixed Function

The 5 fixed function LEDs on the left-hand side of the front panel are used to indicate the following conditions:

LED Number Color Description Default Signals

H4 Red TRIP MAIN: Gen Trip Signal

H3 Yellow ALARM CHECK: Alarm (LED)

H2 Yellow OUT OF SERVICE MAIN: Blocked/Faulty

H1 Green HEALTHY Internal fixed

H17 Red EDIT MODE Internal fixed

Trip (Red) indicates that the relay has issued a trip signal. It is reset when the associated fault record is cleared from the front display. (Alternatively the trip LED can be configured to be self-resetting)*.

Alarm (Yellow) flashes to indicate that the relay has registered an alarm. This may be triggered by a fault, event or maintenance record. The LED will flash until the alarms have been accepted (read), after which the LED will change to constant illumination, and will extinguish, when the alarms have been cleared.

Out of service (Yellow) indicates that the relays protection is unavailable.

Healthy (Green) indicates that the relay is in correct working order, and should be on at all times. It will be extinguished if the relays self-test facilities indicate that there is an error with the relays hardware or software. The state of the healthy LED is reflected by the watchdog contact at the back of the relay.

Edit Mode (Red) indicates the fact that the user is in the Edit Mode. In this mode, settings can be changed.


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Programmable LEDs

The 12 programmable LEDs on the right hand side are suitable for programming alarm indications.

LED Number Color Description Default Signals

H5 Red

H6 Red

H7 Red

H8 Red

H9 Red

H10 Red

H11 Red

H12 Red

H13 Red

H14 Red

H15 Red

H16 Red

User programmable

No default signals.

Signals from selection table dependent upon relay configuration.

1.2.2 Relay rear panel

The rear panel of the relay is shown in Figure 2 and Figure 3 for two variants of the P63x relay. All current and voltage signals, digital logic input signals and output contacts are connected at the rear of the relay.


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P1925ENa

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Figure 2: Relay rear view for 40TE variant


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P1926ENa

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Figure 3: Relay rear view for 84TE variant

Refer to the wiring diagram in the Installation section for complete connection details.

1.3 Relay connection and power-up

Before powering-up the relay, confirm that the relay auxiliary power supply voltage (Vx) and nominal ac signal magnitudes (In, Vn) are appropriate for your application. The relay serial number, and the relays current and voltage rating information can be viewed under the top hinged cover.

Model P6348481040NF00E09 Made in Europe 48-250

Variant P634-84881040-304-404-606-921-800 Vx

100-230 ~

DIAG No.P634.404 In 1\5 A 50/60 Hz

SER No. 01591083/11/05 F 2.159108.3 Vn 50-130 V ~

Figure 4: Example P63x relay label


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The P63x design version can be determined from the order number. A breakdown of the order number is given in the Introduction - IT section of this manual and in the Supporting Documents supplied with the unit.

Once the ratings have been verified for the application, connect external power capable of delivering the requirements specified on the label to perform the relay familiarization procedures. Figure 2 and 3 indicates the location of the power supply terminals but please refer to the wiring diagrams in the Installation - IN section for complete installation details ensuring that the correct polarities are observed in the case of dc supply.

1.4 Introduction to the user interfaces and settings options

The relay has the following user interfaces:

The front panel user interface via the LCD and keypad

The front port which supports IEC 60870-5-103 communication

An optional rear communications module which supports one protocol of either Courier, MODBUS, IEC 60870-5-103 or DNP3.0. The protocol for the rear port is selected via settings. This module may also include a second rear port supporting IEC 60870-5-103 protocol only.

An optional rear Ethernet communications module supporting IEC 61850 protocol

1.5 HMI

1.5.1 Local control panel

All data required for operation of the protection device are entered from the local control panel, and the data important for system management are read out there as well. The following tasks can be handled from the local control panel:

Readout and modification of settings

Readout of cyclically updated measured operating data and logic state signals

Readout of operating data logs and of monitoring signal logs

Readout of event logs after overload situations, ground faults, or short-circuits in the power system

Resetting of the device and triggering of additional control functions designed to support testing and commissioning tasks

In addition, control via the PC interface is also possible. This requires a suitable PC and the operating program S&R-103 for Windows.

1.5.2 Display and keypad

Control and display elements

The local control panel consists of an LCD display containing 4 x 20 alphanumeric characters, seven function keys positioned below the display, and 17 LED indicators.


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Figure 5: View of the front panel

1.5.3 Display levels

All data relevant for operation as well as the device settings are displayed on two levels. At the Panel level, data such as measured operating data are displayed in display Panels that provide a quick overview of the current state of the bay. The menu tree level below the Panel level allows the user to select all data points (settings, signals, measured variables, etc.) and to change them, if appropriate. To access a selected event recording from either the Panel level or from any other point in the menu tree, press the READ key, .


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MiCOM P631, P632, P633, P634

M+T/Meas/Analogue Readings

M+T/Meas/I.O. Status Monitor

Setting Group SG2

Set/Func/Setting Group SG3


Set/Func/

Set/Func/Common Settings

Fault, Oload Records

Set/Func/Global

Set/Function Settings

M+T/Operating Data Rec.

Flt+Ev/Fault,Event Counters

Flt+Ev/M+T/Control and Testing

Set/Configuration

Set/Device ID

M+T/Measurements

M+T/Meas/Log. State Signals


Flt+Ev/Disturbance Oscillo.

MiCOM P63xFault + Event Record

MiCOM P63xMeasurements + Tests

MiCOM P63x

MiCOM P63xSettings

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Figure 6: Display panels and the menu tree

1.5.4 Display panels

The P63x can display Measured Value Panels that can be called up at any given time, as appropriate.

Selected measured values are displayed on the Measured Value Panels. The system condition determines which Panel is called up (examples are the Operation Panel and the Fault Panel). Only the Measured Value Panels relevant for the design version of the given unit and its associated range of functions are actually available. The Operation Panel is always available.

1.5.5 Menu tree and data points

All data points (setting values, signals, measured values, etc.) are selected using a menu tree. As the user navigates through the menu tree, the first two lines of the LCD display always show the branch of the menu tree that is active, as selected by the user. The data points are accessed at the lowest level of a menu tree branch. They are displayed either with their plain text description or in numerically coded form, as selected by the user. The value associated with the selected data point, its meaning, and its unit of measurement are displayed in the line below.

1.5.6 List data points

List data points are a special category. In contrast to other data points, list data points generally have more than one value element associated with them. This category includes tripping matrices, programmable logic functions, and event logs. When a list data point is selected, the symbol is displayed in the bottom line of the LCD display, indicating that there is another level below the displayed level. The individual value elements of a list data point are found at the lower level. In the case of a list setting, the individual value elements are linked by operators such as OR.


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1.5.7 Keys

Up and Down Keys Panel Level:

By pressing the Up and Down keys, the user can switch between the Measured Value Panels.

Menu Tree Level:

By pressing the Up and Down keys, the user can navigate up and down through the menu tree in a vertical direction. If the unit is in input mode, the Up and Down keys have a different function.

Input mode:

Setting values can only be changed in the input mode, which is signaled by the LED labeled EDIT MODE. By pressing the Up and Down keys, the user can then change the setting value. With list settings, the user can change the logic operator of the value element by pressing the Up and Down keys.

Left and Right Keys Menu Tree Level:

By pressing the Left and Right keys, the user can navigate through the menu tree in a horizontal direction. If the unit is in input mode, the Left and Right keys have a different function.

Input mode:

Setting values can only be changed in the input mode, which is signaled by the LED indicator labeled EDIT MODE. When the Left and Right keys are pressed, the cursor positioned below one of the digits in the change-enabled value moves to the next digit to the right or left.

In the case of a list setting, the user can navigate through the list of items available for selection by pressing the Left and Right keys.

Enter Key Panel Level:

By pressing the ENTER key at the Panel level, the user can go to the menu tree.

Menu Tree Level:

To enter the input mode, press the ENTER key. Press the ENTER key a second time to accept the changes as entered and leave the input mode. The LED indicator labeled EDIT MODE signals that the input mode is active.

Clear Key Press the CLEAR key to reset the LED indicators and clear all measured event data. The records in the recording memories are not affected by this action.


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Input mode:

Press the CLEAR key to reject the changes entered and leave the input mode.

Read Key Press the READ key to access a selected event recording from either the Panel level or from any other point in the menu tree.

1.6 Actions via the HMI

The following, which show the individual control steps, specify the displays that can be changed by pressing specific keys. In these charts, a small black square to the right of the ENTER key indicates that the LED indicator labeled EDIT MODE is on. The examples shown here merely serve to illustrate the control principles involved.

1.6.1 Changing between display levels

After start-up of the device, the menu tree level is displayed.

Going from the menu tree level to the Panel level

Step Description Action Display

0 From the menu tree level, the user can go to the Panel level from any position within the menu tree.

Set/Func/Glob/MAIN Protection Enabled Yes (Enabled)

1 First press the Up key and hold it down while pressing the CLEAR key.

Note: It is important to press the Up key first and release it last to avoid unintentional resetting of stored data.

and

Current IA,a prim. 350 A

Current IA,b prim. 1050 A

Going from the Panel level to the menu tree level

Step Description Action Display

0 Example of a Measured Value Panel.

Current IA,a prim. 350 A Current IA,b prim. 1050 A

1 By pressing the ENTER key the user can go from the Panel level to the menu tree level.

MiCOM P634

After the set return time has elapsed (setting in menu tree: Set/Conf/HMI), the display will automatically switch to the Panel level if a Measured Value Panel has been configured.

Illumination of the Display

If none of the control keys is pressed, the display illumination will switch off once the set return time has elapsed (return time illumination setting in the menu tree at Set/Conf/HMI). The display illumination is turned on again by pressing one of the control keys. In this case the control action that is normally triggered by the key will not be Executed. Reactivation of display illumination is also possible by way of a binary input.

If continuous illumination is desired, the user can set the return time illumination function to blocked.


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1.6.2 Control at the panel level

The measured values to be displayed on the Measured Value Panels can first be selected at Set/Conf/HMI in the menu tree. The user can select different sets of measured values for the Measurements + Tests Panel, the Overload Panel, the Ground Fault Panel, and the Fault Panel. Only the Measured Value Panels relevant for the design version of the given unit and its associated range of functions are actually available. The Measurements + Tests Panel can be selected at any time. Please see Setting a List Setting for instructions regarding selection. If the user has selected MAIN: Disabled for a Panel, then this Panel will be inactive.

The Measured Value Panels are called up in accordance

P63x_UK_M_A543

Documents

started p63xuk gsa54

operation p63xuk opa54

settings p63xuk sta54

recording p63xuk mra54

glossary p63xuk sga54

started gs section

p63xuk ma54 terminology

english english data