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MiCOM
P441/P442 & P444Numerical Distance Protection
P44x/EN T/H85
Software Version: C7.x, D4.x & D5.xHardware Version: J, K
Technical Guide
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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 Schneider Electric technical sales office and request the necessary information.
Any agreements, commitments, and legal relationships and any obligations on the part ofSchneider Electric 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 ofSchneider Electric, it will invalidate the warranty, and may render the product unsafe.
The Schneider Electric logo and any alternative version thereof are trademarks and service marks of Schneider Electric.
MiCOM is a registered trademark of Schneider Electric. All trade names or trademarks mentioned herein whetherregistered or not, are the property of their owners.
This manual is provided for informational use only and is subject to change without notice.
© 2011, Schneider Electric. All rights reserved.
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CONTENTS
Safety Section Pxxx/EN SS/G11
Section 1 Introduct ion P44x/EN IT/H85
Section 2 Technical Data P44x/EN TD/H85
Section 3 Getting Started P44x/EN GS/H85
Section 4 Settings P44x/EN ST/H85
Section 5 Appl ication Notes P44x/EN AP/H85
Section 6 Programmable Logic P44x/EN PL/H85
Section 7 Measurements and Recording P44x/EN MR/H85
Section 8 Firmware Design P44x/EN FD/H85
Section 9 Commission ing P44x/EN CM/H85
Section 10 Maintenance P44x/EN MT/H85
Section 11 Troubleshooting P44x/EN TS/H85
Section 12 SCADA Communications P44x/EN SC/H85
Section 13 Symbols and Glossary P44x/EN SG/H85
Section 14 Installation P44x/EN IN/H85
Section 15 Cyber Securi ty P44x/EN CS/H85
Section 16 Firmware and Service Manual Version History P44x/EN VH/H85
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Introduction P44x/EN IT/H85
MiCOM P441, P442 & P444
IT
INTRODUCTION
Date: 2011
Hardware Suffix: J, K
Software Version: C7.x, D4.x & D5.x
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Introduction P44x/EN IT/H85
MiCOM P441, P442 & P444 (IT) 1-1
IT
CONTENTS
1. INTRODUCTION TO MiCOM GUIDES 3
2.
INTRODUCTION TO MiCOM 5
3. PRODUCT SCOPE 6
3.1 Ordering options 10
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P44x/EN IT/H85 Introduction
(IT) 1-2 MiCOM P441, P442 & P444
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Introduction P44x/EN IT/H85
MiCOM P441, P442 & P444 (IT) 1-3
IT
1. INTRODUCTION TO MiCOM GUIDES
The manual provides a functional and technical description of the MiCOM protection relayand a comprehensive set of instructions for the relay’s use and application.
The section contents are summarized below:
Safety Guide
P44x/EN IT Introducti on
A guide to the MiCOM range of relays and the documentation structure. General safetyaspects of handling Electronic Equipment is discussed with particular reference to relaysafety symbols. Also a general functional overview of the relay and brief applicationsummary is given.
P44x/EN TD Technical Data
Technical data including setting ranges, accuracy limits, recommended operating conditions,ratings and performance data. Compliance with norms and international standards is quotedwhere appropriate.
P44x/EN 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 therelay, including a detailed description of how to access the settings database stored withinthe relay.
P44x/EN ST Settings
List of all relay settings, including ranges, step sizes and defaults, together with a briefexplanation of each setting.
P44x/EN AP Appl ication 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 settingsto the relay.
P44x/EN PL Programmable Logic
Overview of the programmable scheme logic and a description of each logical node. Thissection includes the factory default (PSL) and an explanation of typical applications.
P44x/EN MR Measurements and Recording
Detailed description of the relays recording and measurements functions including theconfiguration of the event and disturbance recorder and measurement functions.
P44x/EN FD Firmw are Design
Overview of the operation of the relay’s hardware and software. This section includesinformation on the self-checking features and diagnostics of the relay.
P44x/EN CM Commissioning
Instructions on how to commission the relay, comprising checks on the calibration andfunctionality of the relay.
P44x/EN MT Maintenance
A general maintenance policy for the relay is outlined.
P44x/EN TS Troubleshooting
Advice on how to recognize failure modes and the recommended course of action. Includesguidance on whom within Schneider Electric to contact for advice.
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P44x/EN IT/H85 Introduction
(IT) 1-4 MiCOM P441, P442 & P444
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P44x/EN SC SCADA Communications
This section provides an overview regarding the SCADA communication interfaces of therelay. Detailed protocol mappings, semantics, profiles and interoperability tables are notprovided within this manual. Separate documents are available per protocol, available fordownload from our website.
P44x/EN SG Symbols and Glossary
List of common technical abbreviations found within the product documentation.
P44x/EN IN Installation
Recommendations on unpacking, handling, inspection and storage of the relay. A guide tothe mechanical and electrical installation of the relay is provided, incorporating earthingrecommendations. All external wiring connections to the relay are indicated.
P44x/EN CS Cyber securi ty (Software Version C7.x only , hardware suf fix K)
This section provides an overview about cyber security protection (to secure communicationand equipment within substations environment). Cyber security standards and
implementaion are decribed.
P44x/EN VH Firmware and Service Manual Version History
History of all hardware and software releases for the product.
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Introduction P44x/EN IT/H85
MiCOM P441, P442 & P444 (IT) 1-5
IT
2. INTRODUCTION TO MiCOM
MiCOM is a comprehensive solution capable of meeting all electricity supply requirements. Itcomprises a range of components, systems and services from Schneider Electric.
Central to the MiCOM concept is flexibility.
MiCOM provides the ability to define an application solution and, through extensivecommunication capabilities, to 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
behaviour of the power system using disturbance and fault records. They can also providemeasurements of the system at regular intervals to a control centre enabling remotemonitoring and control to take place.
For up-to-date information on any MiCOM product, visit our website:
www.schneider-electric.com
http://www.schneider-electric.com/http://www.schneider-electric.com/
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P44x/EN IT/H85 Introduction
(IT) 1-6 MiCOM P441, P442 & P444
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3. PRODUCT SCOPE
MiCOM P441, P442 and P444 Numerical Full Scheme Distance Relays providecomprehensive distance protection for different applications like: lines, cables, tapped lines,lines with multiple zero sequence sources, non-homogeneous lines, series compensatedlines and parallel lines.
The independently settable resistive reach for each zone allows easy application to shortlines and cable protection. Using well-proven, patented techniques to directionalise, andmaking full use of digital memory, the relays can be applied in situations that can causeclassic distance implementations to maloperate (crosscountry faults, close-up faults, etc.).
The MiCOM P441, P442 and P444 are in-built with a library of channel aided scheme logic,supplementary and back-up protection. It provides complete protection (4 alternative settinggroups) to solidly earthed systems from distribution to transmission voltage levels.
Three phase tripping with faulted phase indication is provided for all protection functions. Inaddition models P442 and P444 allow single-phase tripping for the distance protection andthe channel aided DEF protection (67N).
The P441, P442 and P444 distance relays equipped with 150MHz CPU and coprocessorboard have been enhanced as described in the following table:
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Introduction P44x/EN IT/H85
MiCOM P441, P442 & P444 (IT) 1-7
IT
Protection Functions Overview
ANSI IEC 61850 Features P441 P442 P444
21P PDIS Quadrilatéral full scheme phase distance (6 zones) • • •
21G PDIS Quadrilatéral full scheme ground distance (6 zones) • • •
50/51/67 OcpPTOC /RDIR
Directional / non-directional phase overcurrent (2 stages) • • •
50N / 51N/ 67N
EfdPTOC /RDIR
Directional / non-directional stand by earth fault (2stages)
• • •
67N EfaPSCH Channel aided directional earth fault protection (DEF) • • •
32N Directional zero sequence power protection • • •
67/46 NgcPTOC /RDIR
Directional / non-directional negative sequenceovercurrent
• • •
27 PTUV Undervoltage (4 stages, 1st stage DT and IDMT) • • •
59 PTOV Overvoltage (4 stages, 1st stage DT and IDMT) • • •
37 3-phase undercurrent (2 stages) • • • 81U Underfrequency (4 stages) • • •
81O Overfrequency (2 stages) • • •
49 PTTR Thermal overload protection • • •
50 / 27 PSOF Switch on to fault / trip on reclose (SOTF/TOR) • • •
78 / 68 RPSB Power swing blocking & Out of step tripping (using PSL) • • •
85 PSCH Channel aided schemes (PUP, POP, Blocking) • • •
Weak Infeed (WI) Echo logic • • •
Accelerated trip feature: Loss of Load - Zx extension • • •
46BC Broken conductor (open jumper) • • •
50ST OcpPTOC Stub bus protection • • •
50BF RBRF Circuit breaker failure • • •
PTRC Tripping 3p 1/3p 1/3p
79 RREC Autoreclose (4 shots) 3p 1/3p 1/3p
25 RSYN Check synchronism option option option
VTS Voltage Transformer Supervision(1, 2 & 3 phase fuse failure detection)
• • •
CTS Current Transformer Supervision • • •
CVTS Capacitive Voltage Transformer Supervision • • •
51FF PTOC Emergency Overcurrent on VT failure • • •
OptGGIO Digital inputs 8 16 24
RlyGGIO Output relays (fast output optional) 14 21 32 or46
SV IEC61850-9-2 sampled values •
Front communication port (RS232/K-bus) • • •
Rear communication port (RS485/Optic/Ethernet) * • • •
Second rear communication port (RS232/RS485/K-Bus)* NA option option
Time synchronisation port (IRIG-B) * NA option option
IEC 61850-9-2-LE Sampled Analogue values Ethernet
board
NA NA option
* It may be possible to get all in one particular model.NA:Not applicable
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P44x/EN IT/H85 Introduction
(IT) 1-8 MiCOM P441, P442 & P444
S
To complement the wide range of protection functions listed in the table, the P441, P442 andP444 relays are provided with the following measurement, control, moni toring, post faultanalysis and self-diagnostic functions.
− Fault locator
− Display of instantaneous measured and derived values
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− Circuit breaker control, status & condition monitoring.
− Trip circuit and coil supervision
− 4 alternative setting groups
− Programmable scheme logic
− Sequence of event recording
− Comprehensive disturbance recording (waveform capture)
− User configurable LEDs
− Local and remote communication ports
− Multiple communication protocol and interface options
− Time synchronisation
− Fully customisable menu texts
− Multi level password protection
− Test facilities
− Power-up diagnostics and continuous self monitoring of the relay
− User friendly setting and analysis software (MiCOM S1 Studio)
Appl ication overview
FIGURE 1: FUNCTIONAL DIAGRAM
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Introduction P44x/EN IT/H85
MiCOM P441, P442 & P444 (IT) 1-9
IT
Rating options
Auxi liary Voltage Rating options
Features P441 P442 P444
24 – 48 Vdc only • • •
48 – 110 Vdc (30 – 100Vac) • • • 110 – 250Vdc (100 – 240Vac) • • •
In/Vn Rating boards options
Features P441 P442 P444
Dual rated CT (1&5A: 100-120V) • • •
Module Sum (Σ1A / PXDB) • • •
IEC 61850-9-2-LE Sampled Analogue values Ethernet board •
Communication protocol options
Communication protocol options
Features P441 P442 P444
K-Bus / Courier • • •
MODBUS • • •
VDEW (IEC 60870-5-103) (RS485 or Fibre Optic) • • •
DNP3.0 • • •
IEC 61850 + Courier via rear RS485 port • •
IEC 61850 + IEC60870-5-103 via rear RS485 port • •
DNP3.0 over Ethernet and Courier via rear K-Bus/RS485 •
•
IEC 61850-9-2-LE •
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P44x/EN IT/H85 Introduction
(IT) 1-10 MiCOM P441, P442 & P444
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3.1 Ordering options
Relay Type (Distance protection – 3 Pole tripping /reclosing with 8 inputs & 14 outputs))
P441
Auxi li ary Vol tage Rating
24 – 48V dc only48 – 110V dc (30 – 100V ac)
110 – 250V dc (100 – 240V ac)
12
3
In/Vn RatingBoards
Dual rated CT (1&5A: 100-120V)
Module Sum (Σ1A / PXDB)
1
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Hardware options
Standard version 1
Software options
Without check synchronism
With check synchronism
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Protocol Options
K-Bus/CourierMODBUS
VDEW (IEC 60870-5-103) (RS485 or Fibre Optic)
DNP3.0
12
3
4
Mounting
Panel / flush Mounting M
Language
English, French, German, Spanish
English, French, German, Italian
Chinese, English or French via HMI, with English or French onlyvia Communications port
0
4
C
Software Version
Unless specified the latest version will be delivered * *
Settings File
Standard version
Customer Specific: other characters
8
--
Hardware Suffix
Original J
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Introduction P44x/EN IT/H85
MiCOM P441, P442 & P444 (IT) 1-11
IT
Relay Type (Distance protection relay) P442
Auxi liary Vol tage Rating
24 – 48V dc only
48 – 110V dc (30 – 100V ac)
110 – 250V dc (100 – 240V ac)
1
2
3
In/Vn RatingBoards
Dual rated CT (1&5A: 100-120V)
Module Sum (Σ1A / PXDB)
1
5
Hardware options
Nothing
IRIG-B input
Fibre Optic Converter only (IEC60870-5-103)
IRIG-B input+ Fibre Optic Converter (IEC60870-5-103)
Single Ethernet (100Mbps) only
Rear Comms + InterMiCOM
Rear comms + IRIG-B (modulated) + InterMiCOM
Single Ethernet (100Mbps) + IRIG-B (modulated)
Single Ethernet (100Mbps) + IRIG-B (demodulated)
IRIG-B demodulated onlyInterMiCOM + Courier rear port
InterMiCOM + Courier rear port + IRIG-B modulated
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2
3
4
6
7
8
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B
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E
Redundant Ethernet (SHR) 2 multi-mode fibre ports + IRIG-B (modulated)
Redundant Ethernet (SHR) 2 multi-mode fibre ports + IRIG-B (un-modul.)
Redundant Ethernet (RSTP) 2 multi-mode fibre ports + IRIG-B (modulated)
Redundant Ethernet (RSTP) 2 multi-mode fibre ports + IRIG-B (un-modul.)
Redundant Ethernet (DHS) 2 multi-mode fibre ports + IRIG-B (modulated)
Redundant Ethernet (DHS) 2 multi-mode fibre ports + IRIG-B (un-modul.)
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Product Specific
16 logic imputs & 21 Relay Outputs without check synchronism
16 logic imputs & 21 Relay Outputs with check synchronism
16 logic imputs & 18 Relay Outputs (4 high break) with check synchronism
16 logic imputs & 21 Relay Outputs (3 fast trip) with check synchronism
16 logic imputs & 21 Relay Outputs (6 fast trip) with check synchronism
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Protocol Options
K-Bus/Courier
MODBUS
VDEW (IEC 60870-5-103) (RS485 or Fibre Optic)
DNP3.0
IEC 61850 + Courier via rear RS485 port
IEC 61850 + IEC60870-5-103 via rear RS485 port
DNP3.0 over Ethernet and Courier via rear K-Bus/RS485
1
2
3
4
6
7
8
Mounting
Panel / flush Mounting M
Language
English, French, German, Spanish
English, French, German, ItalianChinese, English or French via HMI, with English or French onlyvia Communications port
0
4
C
Software Version
Unless specified the latest version will be delivered * *
Settings File
Standard version
Customer Specific: other characters
8
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Hardware Suffix
Original --
I = Logic input(s), O=Relay outputs
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P44x/EN IT/H85 Introduction
(IT) 1-12 MiCOM P441, P442 & P444
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Relay Type (Distance protection relay) P444
Auxi li ary Vol tage Rating
24 – 48V dc only
48 – 110V dc (30 – 100V ac)
110 – 250V dc (100 – 240V ac)
1
2
3
In/Vn RatingBoards
Dual rated CT (1&5A: 100-120V)
IEC 61850-9-2-LE Sampled Analogue values Ethernet board
Module Sum (Σ1A / PXDB)
1
A
5
Hardware options
Nothing
IRIG-B input
Fibre Optic Converter only (IEC60870-5-103)
IRIG-B input+ Fibre Optic Converter (IEC60870-5-103)
Single Ethernet (100Mbps) only
Rear Comms + InterMiCOM
Rear comms + IRIG-B (modulated) + InterMiCOM
Single Ethernet (100Mbps) + IRIG-B (modulated)
Single Ethernet (100Mbps) + IRIG-B (demodulated)IRIG-B demodulated only
InterMiCOM + Courier rear port
InterMiCOM + Courier rear port + IRIG-B modulated
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2
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4
6
7
8
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Redundant Ethernet (SHR) 2 multi-mode fibre ports + IRIG-B (modulated)
Redundant Ethernet (SHR) 2 multi-mode fibre ports + IRIG-B (un-modul.)
Redundant Ethernet (RSTP) 2 multi-mode fibre ports + IRIG-B (modulated)
Redundant Ethernet (RSTP) 2 multi-mode fibre ports + IRIG-B (un-modul.)
Redundant Ethernet (DHS) 2 multi-mode fibre ports + IRIG-B (modulated)
Redundant Ethernet (DHS) 2 multi-mode fibre ports + IRIG-B (un-modul.)
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1 & 3 Pole tripping/reclosing with 24I & 32O without check synchronism (C/S)
1 & 3 Pole tripping/reclosing with 24I & 32O with C/S
1 & 3 Pole tripping/reclosing with 24I & 34O (12 high break) with C/S
1 & 3 Pole tripping/reclosing with 24I & 32O with C/S+1 fast+standard trip PCB1 & 3 Pole tripping/reclosing with 24I & 32O with C/S+2 fast+standard trip PCB
1 & 3 Pole tripping/reclosing with 24I & 46O without C/S
1 & 3 Pole tripping/reclosing with 24I & 46O with C/S
1 & 3 Pole tripping/reclosing with 24I & 46O with C/S+1 fast+standard trip PCB
1 & 3 Pole tripping/reclosing with 24I & 46O with C/S+2 fast+standard trip PCB
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Protocol Options
K-Bus/Courier
MODBUS
VDEW (IEC 60870-5-103) (RS485 or Fibre Optic)
DNP3.0
IEC 61850 + Courier via rear RS485 port
IEC 61850 + IEC60870-5-103 via rear RS485 port
DNP3.0 over Ethernet and Courier via rear K-Bus/RS485
1
2
3
4
6
7
8
Mounting
Panel / flush Mounting
Rack mounting
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Language
English, French, German, Spanish
English, French, German, Italian
Chinese, English or French via HMI, with English or French onlyvia Communications port
0
4
C
Software Version
Unless specified the latest version will be delivered * *
Settings File
Standard version
Customer Specific: other characters
8
--Hardware Suffix
Original --
I = Logic input(s), O=Relay outputs
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Technical Data P44x/EN TD/H85
MiCOM P441/P442 & P444
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TECHNICAL DATA
Date: 2011
Hardware Suffix: J, K
Software Version: C7.x, D4.x & D5.x
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Technical Data P44x/EN TD/H85
MiCOM P441/P442 & P444 (TD) 2-1
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Technical Data
P441, P442 & P444 Numerical DistanceProtection:∗ 3 Pole tripping/reclosing (P441)∗ 1 & 3 Pole tripping/reclosing (P442 & P444)
In/Vn rating (ordering option): ∗ Dual rated CT (1&5A: 100-120V)∗ Module sum (Σ1A / PXDB)∗ IEC 61850-9-2LE Sampled Analogue
Values Ethernet board (P444 only).
Input / Output (I/O)P441: 8I/14OP442 (with or without Check Synchronism):∗ 16I/21O,∗ 18I/18O (4 high break)∗ 16I/21O (3 or 6 Fast Trip)P444 (with or without Check Synchronism):
∗ 24I/32O,∗ 24I/46O,∗ 24I/34O (12 high break).
Protocol options:∗ K-Bus∗ Modbus,∗ VDEW (IEC 60870-5-103)∗ DNP3.0+ (P442 and P444 only):∗ IEC61850 + Courier via rear RS485 port∗ IEC61850 + IEC 60870-5-103 via rear
RS485 port∗ DNP3 over Ethernet with Courier rear port
K-Bus/RS485 protocol
Hardware options (P442 & P444): ∗ IRIG-B input∗ Fibre optic converter (IEC60870-5-103)∗ IRIG-B input and Fibre optic converter
(IEC60870-5-103)∗ Single Ethernet 100Mbit/s∗ Rear Comms + InterMiCOM∗ Rear Comms + IRIB-B + InterMiCOM∗ Single Ethernet (100Mbit/s) plus IRIG-B
(Modulated)∗ Single Ethernet (100Mbit/s) plus IRIG-B
(De-modulated)
∗ IRIG-B (De-modulated)∗ InterMiCOM + Courier Rear Port *∗ InterMiCOM + Courier Rear Port + IRIG-B
modulated *∗ Redundant Ethernet Self-Healing Ring, 2
multi-mode fibre ports + Modulated IRIG-B∗ Redundant Ethernet Self-Healing Ring, 2
multi-mode fibre ports + Un-modulatedIRIG-B
∗ Redundant Ethernet RSTP, 2 multi-modefibre ports + Modulated IRIG-B
∗ Redundant Ethernet RSTP, 2 multi-modefibre ports + Un-modulated IRIG-B
∗ Redundant Ethernet Dual-Homing Star, 2multi-mode fibre ports + Modulated IRIG-B∗ Redundant Ethernet Dual-Homing Star, 2
multi-mode fibre ports + Un-modulatedIRIG-B
Mechanical Specification
DesignModular MiCOM Px40 platform relay availablein three different case sizes:∗ P441 40TE (8”),∗ P442 60TE (12”),∗ P444 80TE (16”).Mounting:∗ front of panel flush mounting,∗ rack mounted (19” ordering option).
Enclosure Protection
Per IEC 60529: 1989IP 52 Protection (front panel) against dust anddripping water,IP 50 Protection for the rear and sides of thecase against dust,IP 10 Product safety protection for the rear due
to live connections on the terminal block.
Weight
40TE: approx. 7.3kg60TE: approx. 9.2kg80TE: approx. 11.0kg
Terminals
AC Current and Vol tage Measuring InputsLocated on heavy duty (black) terminal block:Threaded M4 terminals, for ring lugconnection.
CT inputs have integral safety shorting, uponremoval of the terminal block.
General Input/Output TerminalsFor power supply, opto inputs, output contactsand COM1 & optional COM2 rearcommunications.Located on general purpose (grey) blocks:Threaded M4 terminals, for ring lugconnection.
Case Protective Earth ConnectionRear stud connection, threaded M4.Must be earthed (grounded) using theprotective (earth) conductor for safety,minimum earth wire size 2.5mm².
Front Por t Serial PC InterfaceEIA RS232 DTE, 9 pin D-type femaleconnector.Courier protocol for interface to MiCOM S1software.PEB* rated Maximum cable length 15m.
Front Download/Monitor PortEIA RS232, 25 pin D-type female connector.For firmware downloads. PEB* rated circuit.Isolation to ELV level.
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P44x/EN TD/H85 Technical Data
(TD) 2-2 MiCOM P441/P442 & P444
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Rear Communications PortK-Bus/EIA(RS485) signal levels, two wireConnections located on general purpose block,M4 screw.For screened twisted pair cable, multidrop,1000m max.
SELV* rated circuit.Ethernet (copper & fibre)
Optional Rear IRIG-B Interface modulatedor un-modulatedBNC socketSELV* rated circuit.50 ohms coaxial cable.
Optional Rear Fiber Connection forSCADA/DCSBFOC 2.5-(ST®)-interface for multi-modeglass fibre type 62.5, as per IEC874-10,
850nm short-haul fibers, one Tx and one Rx.Optical budget: 5.6 dBData rate: 2.5 MbitsMax Length: 1000 m
Optional Rear Ethernet Connection forIEC 61850
10 Base T / 100 Base TX Communications
Interface in accordance with IEEE802.3 andIEC61850Isolation: 1.5kV.Connector type: RJ45
Cable type: Screened Twisted Pair (STP)Max. cable length: 100m
100 Base FX Interface
Interface in accordance with IEEE802.3 andIEC61850Wavelength: 1300nmFiber: multi-mode 50/125µm or 62.5/125µmConnector style: BFOC 2.5 - (ST®)
Optional Second Rear Communication PortEIA(RS)
232, 9 pin D-type female connector,socket SK4. Courier protocol: K-Bus, orEIA(RS)485 or EIA(RS)232. Maximum cablelength: 15m.
*: PEB = Protective equipotential bonded*: SELV = Safety/Separated extra low voltageBoth PEB and SELV circuits are safe to touchafter a single fault condition.
Optional Rear redundant Ethernetconnection for IEC 61850
100 Base FX Interface
Interface in accordance with IEEE802.3 andIEC61850
Wavelength: 1300nmFiber: multi-mode 50/125µm or 62.5/125µmConnector style: BFOC 2.5 - (ST®)
Fiber defect connector (watchdog relay)
Redundant Ethernet boardConnector (3 terminals): 2NC contactsRated voltage: 250 VContinuous current: 5 AShort duration current: 30 A for 3 s
Breaking capacity DC: 50 W resistive
DC: 25 W resistive AC: 1500 VA resistive (cos φ = unity)
AC: 1500 VA inductive (cos φ = unity)Subject to maxima of 5 A and 250 V
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Technical Data P44x/EN TD/H85
MiCOM P441/P442 & P444 (TD) 2-3
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Ratings
AC Measuring InputsNominal frequency:∗ 50 and 60 Hz (settable)Operating range:
∗ 45 to 65Hz
AC CurrentNominal current (In):∗ 1 and 5 A dual rated (separate terminals
are provided for the 1A and 5A windings,with the neutral input of each windingsharing one terminal)
Nominal burden per phase 1 A:∗
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P44x/EN TD/H85 Technical Data
(TD) 2-4 MiCOM P441/P442 & P444
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Output Contacts
Standard ContactsGeneral purpose relay outputs for signalling,tripping and alarming:Rated voltage: 300VContinuous current: 10AShort-duration current:∗ 30A for 3sMaking capacity:∗ 250A for 30ms∗ 10A continuous.Breaking capacity:∗ DC: 50W resistive∗ DC: 62.5W inductive (L/R = 50ms)∗ AC: 2500VA resistive (cos φ = unity)∗ AC: 2500VA inductive (cos φ = 0.7)Response to command: < 5msDurability:∗ Loaded contact: 10000 operations
minimum,∗ Unloaded contact: 100000 operations
minimum.
Fast operation and High Break ContactsDedicated purpose relay outputs for tripping:∗ Uses IGBT technologyMake and Carry:∗ 30 Amps for 3 sec, 30A @ 250V resistiveCarry:∗ 250 Amps dc for 30msContinuous Carry:∗ 10 Amps dcBreak Capacity:
∗ 10 Amps @ 250V resistive (10,000operations) 10 Amps @ 250V L/R=40ms
Operating time:∗ 100MΩ at 500Vdc(Using only electronic/brushless insulationtester).
Creepage Distances and ClearancesPer IEC 60255-27: 2005∗ Pollution degree 3,∗ overvoltage category III,∗ impulse test voltage 5 kV.
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Technical Data P44x/EN TD/H85
MiCOM P441/P442 & P444 (TD) 2-5
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High Voltage (Dielectric) Withstand(EIA RS232 ports excepted).(i) Per IEC 60255-27: 2005, 2 kV rms, AC, 1minute:Between all case terminals connected togetherand the case earth.
Also, between all terminals of independentcircuits.∗ 1kV rms AC for 1 minute, across open
watchdog contacts and across opencontacts of changeover output relays.
(ii) Per ANSI/IEEE C37.90-1989 (reaffirmed1994):∗ 1.5 kV rms AC for 1 minute, across open
contacts of changeover output relays.
Impulse Voltage Withstand TestPer IEC 60255-27: 2005Front time: 1.2 µs, Time to half-value: 50 µs,Peak value: 5 kV, 0.5JBetween all terminals, and all terminals andcase earth.
Electromagnetic Compatibility (EMC)
1 MHz Burst High Frequency DisturbanceTestPer IEC 60255-22-1: 2008, Class III,Common-mode test voltage: 2.5 kV,Differential test voltage: 1.0 kV,Test duration: 2 s, Source impedance: 200 Ω (EIA RS232 ports excepted).
100 kHz Damped osc illatory TestPer EN 61000-4-18: 2007, Level 3,Common-mode test voltage: 2.5 kV,Differential test voltage: 1.0 kV,
Immunity to Electrostatic DischargePer IEC 60255-22-2: 1997, Class 4,∗ 15kV discharge in air to user interface,
display, and exposed metalwork.Per IEC 60255-22-2: 1997, Class 3,∗ 8kV discharge in air to all communication
ports.∗ 6kV point contact discharge to any part of
the front of the product.
Electrical Fast Transient or BurstRequirementsPer IEC 60255-22-4: 2002 and EN 61000-4-4:2004.Test severity:∗ Class III and IV: Amplitude:∗ 2 kV, burst frequency 5kHz (Class III), Amplitude:∗ 4 kV, burst frequency 2.5kHz (Class IV). Applied directly to auxiliary supply, and appliedto all other inputs. (EIA RS232 portsexcepted).
Amplitude:∗ 4 kV, burst frequency 5kHz (Class IV). Applied directly to auxiliary supply.
Fast t ransient disturbances on powersupply (common mode only): 4 kV, 5 ns risetime, 50 ns decay time, 5 kHz repetitionfrequency, 15 ms burst, repeated every 300ms for 1 min in each polarity, with a 50 Ω source impedanceFast transient disturbances on I/O signal,data and cont rol lines (common mode only):4 kV, 5 ns rise time, 50 ns decay time, 5 kHzrepetition frequency, 15 ms burst, repeatedevery 300 ms for 1 min in each polarity, with a50 Ω source impedance.
Surge Withstand CapabilityPer IEEE/ANSI C37.90.1: 2002:4kV fast transient and 2.5kV oscillatory applieddirectly across each output contact, opticallyisolated input, and power supply circuit.
Surge Immunity Test(EIA RS232 ports excepted).Per IEC 61000-4-5: 2006 Level 4,Time to half-value: 1.2 / 50 µs,∗ Amplitude: 4kV between all groups and
case earth,∗ Amplitude: 2kV between terminals of each
group.
Immunity to Radiated ElectromagneticEnergyPer IEC 60255-22-3: 2000, Class III:Test field strength, frequency band 80 to 1000MHz:∗ 10 V/m,
∗ Test using AM: 1 kHz / 80%,∗ Spot tests at 80, 160, 450, 900 MHzPer IEEE/ANSI C37.90.2: 2004:25MHz to 1000MHz, zero and 100% squarewave modulated.Field strength of 35V/m.
Radiated Immunity from DigitalCommunicationsPer EN61000-4-3: 2002, Level 4:Test field strength, frequency band 800 to 960MHz, and 1.4 to 2.0 GHz:∗ 30 V/m,Test using AM:
∗ 1 kHz / 80%.
Radiated Immunity from Digital RadioTelephonesPer EN 61000-4-3: 2002∗ 10 V/m, 900MHz and 1.89GHz.
Immunity to Conducted DisturbancesInduced by Radio Frequency FieldsPer IEC 61000-4-6: 1996, Level 3,Disturbing test voltage: 10 Vrms at 1kHz 80%am., 0.15 to 80MHz
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P44x/EN TD/H85 Technical Data
(TD) 2-6 MiCOM P441/P442 & P444
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Power Frequency Magnetic Field ImmunityPer IEC 61000-4-8: 2001, Level 5,∗ 100A/m applied continuously,∗ 1000A/m applied for 3s.Per IEC 61000-4-9: 2001, Level 5,∗ 1000A/m applied in all planes.
Per IEC 61000-4-10: 2001, Level 5,∗ 100A/m applied in all planes at
100kHz/1MHz with a burst duration of 2s.
Conducted EmissionsPer EN 55022: 1998:∗ 0.15 – 0.5MHz, 79dBμV (quasi peak)
66dBμV (average)∗ 0.5 – 30MHz, 73dBμV (quasi peak)
60dBμV (average).
Radiated EmissionsPer EN 55022: 1998:∗ 30 - 230MHz, 40dBμV/m at 10m
measurement distance∗ 230 – 1GHz, 47dBμV/m at 10m
measurement distance.
EU Directives
EMC Compl iancePer 2004/108/EC:Compliance to the European CommissionDirective on EMC is claimed via the TechnicalConstruction File route. Product SpecificStandards were used to establish conformity:∗ EN50263: 2000
Product SafetyPer 2006/95/EC:Compliance with European Commission LowVoltage Directive. Compliance is demonstratedby reference to generic safety standards:∗ IEC 60255-27:2005
CE
R&TTE complianceRadio and telecommunication terminalequipment (R&TTE) directive 99/5/EC.Compliance demonstrated by compliance toboth the EMC directives on low voltage
directive down to 0V. Applicable to rear communication ports.
Mechanical Robustness
Vibration TestPer IEC 60255-21-1: 1996
Response Class 2Endurance Class 2
Shock and BumpPer IEC 60255-21-2: 1995
Shock response Class 2Shock withstand Class 1Bump Class 1
Seismic TestPer IEC 60255-21-3: 1995
Class 2
Cyber Security(where applicable)
ImplementationFollowing measures have been implemented:∗ Four level access,∗ Password strengthening,∗ Disabling of unused application and
physical ports,∗ Inactivity timer,∗ Storage of security events,∗ NERC-compliant default display.
Standards∗ NERC CIP (North American Electric
Reliability Corporation – CriticalInfrastructure Protection, USA):
CIP-002-1, CIP-003-1, CIP-004-1,CIP-005-1, CIP-006-1, CIP-007-1,CIP-008-1 and CIP-009-1
∗ BDEW (Germany),∗ ANSI ISA 99 (USA), IEEE 1686,∗ IEC 62351, ISO/IEC 27002,∗ NIST SP800-53 (National Institute of
Standards and Technology, USA),∗ CPNI Guidelines (Centre for the Protection
of National Infrastructure, UK).
IEC 61850-9-2 Ethernet board(option)
∗ connexion RJ45 or optical fibre∗ Antialiasing filter∗ Number of logical nodes: up to 6∗ Time-delay at message
reception: 0 to 3ms∗ Safety control:
- presence test alarm,- synchronization alarm,- quality alarm,independent per logical node
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Technical Data P44x/EN TD/H85
MiCOM P441/P442 & P444 (TD) 2-7
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Timing and Accuracy
PERFORMANCE DATA
For all accuracies specified, the repeatibility is± 5%, unless otherwise specified
DISTANCE PROTECTION All quoted operating times include the closureof the trip output contact.
50Hz OperationMinimum tripping time: 13ms (SIR = 5)
14ms (SIR = 30)Maximum tripping time: 18ms (SIR = 5)
21ms (SIR = 30)Typical tripping time: 17ms (SIR = 5)
17.5ms (SIR = 30)100% of faults up to 75% of Zone 1 reachsetting trip subcycle at SIR=5.
99% of faults up to 75% of Zone 1 reachsetting trip subcycle at SIR=30.
60Hz OperationMinimum tripping time: 13ms (SIR = 5)
13ms (SIR = 30)Maximum tripping time: 16.5ms (SIR = 5)
18ms (SIR = 30)Typical tripping time: 14ms (SIR = 5)
16ms (SIR = 30)100% of faults up to 75% of Zone 1 reachsetting trip subcycle at SIR=5.88% of faults up to 75% of Zone 1 reachsetting trip subcycle at SIR=30.
AccuracyCharacteristic shape, up to SIR = 30:±5% for on-angle fault (the set line angle)±10% for off-angle
(Example: For a 70 degree set line angle,injection testing at 40 degrees would bereferred to as “off-angle”).Zone time delay deviations:
±20ms or 2%, whichever is greater
SensitivitySettings < 5/In Ω: (0.05In*5/(setting*In)) ±5%Settings > 5/In Ω: 0.05 In ±5%
Distance elementsPick-up: Setting ±5%Zone timer deviation:
20ms or ±2%, whichever is greaterTimer accuracy: ±2msMinimum trip level for IDMT elements:
1.05 × Setting ± 5%Inverse time stages:
±40ms or 5%, whichever is greaterDefinite time stages:
±40ms or 2%, whichever is greaterRepeatability: 5%
SensitivitySettings < 5/In Ω: (0.05In*5/(setting*In)) ±5%Settings > 5/In Ω: 0.05 In ±5%
Transient Overreach: Additional tolerance dueto increasing X/R ratios:
±5% over the X/R ratio from 1 to 90
Breaker fail timers accuracy:20ms or ±2%, whichever is greater
DIRECTIONAL AND NON-DIRECTIONALOVERCURRENT
(I>1, I>2, I>3 or I>4)
AccuracyDT Pick-up: Setting ±5%IDMT Pick-up 1.05 × Setting ±5%DT reset: 0.95 × Setting ±2%IDMT reset: 0.95 × Setting ±5%Definite time stages:
±20ms or ±2%, whichever is greaterInverse time stages:
±40ms or ±5%, whichever is greater
NEGATIVE SEQUENCEOVERCURRENT
(I2>1, I2>2, I2>3 or I2>4)
AccuracyZone 1:Pick-up: Setting ±5%Reset: 0.95 × Setting ±5%Definite time stages:
±40ms or ±5%, whichever is greater
BROKEN CONDUCTOR DETECTION
Accuracy(I2/I1)Pick-up: Setting ±2.5%Reset: 0.95 × Setting ±2.5%Definite time stages:
±20ms or 2%, whichever is greater
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P44x/EN TD/H85 Technical Data
(TD) 2-8 MiCOM P441/P442 & P444
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DIRECTIONAL AND NON-DIRECTIONALEARTH FAULT PROTECTION
(IN>1, IN>2, IN>3 or IN>4)
Accuracy
DT Pick-up: Setting ±5%IDMT Pick-up 1.05 ×Setting ±5%Drop-off: 0.95 × setting ±5%Definite time stages:
±20ms or ±2%, whichever is greaterDT reset: 0.95 × Setting ±2%Inverse time stages:
40ms or ±5%, whichever is greaterIDMT reset: 0.95 × Setting ±5%
AIDED DIRECTIONAL EARTH FAULT(D.E.F.) PROTECTION
AccuracyZero Sequence Polarisation
pick-up: Setting ±10%with relay characterist angle = ±90°
Negative Sequence Polarisationpick-up: Setting ±5%
THERMAL OVERLOAD
AccuracyThermal alarm pick-up:
Calculated trip time ±10% ∗ Thermal overload pick-up:
Calculated trip time ±10% ∗ Cooling time accuracy±15% of theoretical
Repeatability: 1, VN>2)
AccuracyDT Pick-up: Setting ±5%IDMT Pick-up: 1.05 x setting ±5%
Definite time operation:±20ms or 2%, whichever is greater
Instantaneous operation:
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Technical Data P44x/EN TD/H85
MiCOM P441/P442 & P444 (TD) 2-9
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CURRENT TRANSFORMER
SUPERVISION
AccuracyIN> Pick-up: Setting ±5%VN< Pick-up: Setting ±5%
IN> Drop-off: 0.9 × setting ±5%VN< Drop-off:
(1.05 × setting) ±5% or 1Vwhichever is greater
Time delay operation:Setting ±2% or 20mswhichever is greater
CTS block operation:
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P44x/EN TD/H85 Technical Data
(TD) 2-10 MiCOM P441/P442 & P444
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FAULT AND DISTURBANCE
RECORDS
AccuracyTime and date stamping:±2ms of applied fault/event
Fault clearance time: ±2%CB operating time: ±5msProtection operating time: ±2%Waveshape:
Comparable with applied quantities,±5% of applied quantities
Trigger positions: ±2%Record length: 8 records each of 1.8s duration
(1.5s at 60Hz)
FAULT LOCATOR
AccuracyFault location: ±2% of line length (under
reference conditions)** Reference conditions solid fault applied on
line.
REFERENCE CONDITIONS
Ambient temperature: 20°C
FREQUENCY TRACKING RANGE
45 to 65Hz
BREAKER FAILURE
AccuracyReset time < 40ms ±2%
Thresholds: settings ±5%
Ethernet data(where applicable)
10 Base T /100 Base TX CommunicationsInterface in accordance with IEEE802.3 andIEC61850Isolation 1.5kVCable type: Screened twisted pair STPMax length: 100m
100 Base FX InterfaceInterface in accordance with IEEE802.3 andIEC61850Wavelength: 1300nmFibre: multi-mode 50/125µm or 62.5/125µmConnector style: ST
Transmitter Optical Characteristics(TA = 0°C to 70°C, VCC = 4.75 V to 5.25 V)BOL= Beginning of Life, EOL= End of Life
Parameter Sym Min. Typ. Max UnitOutput OpticalPowerBOL 62.5/125 µm,NA = 0.275 FiberEOL
PO-19-20
-16.8 -14 dBm avg.
Output OpticalPowerBOL 50/125 µm,NA = 0.20 FiberEOL
PO-22.5-23.5
-20.3 -14 dBm avg.
Optical ExtinctionRatio
10-10
%dB
Output OpticalPower atLogic “0” State
PO(“0”)
-45 dBm avg.
BOL – Beginning of life
EOL – End of life
Receive Optical Characteristics(TA = 0°C to 70°C, VCC = 4.75 V to 5.25 V)
Parameter Sym Min. Typ. Max. Unit
Input OpticalPower Minimum atWindow Edge
PINMin.(W)
-33.5 –31 dBm avg.
Input OpticalPower Minimum atEye Center
PINMin.(C)
-34.5 -31.8 Bm avg.
Input OpticalPower Maximum
PINMax.
-14 -11.8 dBm avg.
InterMiCOM64
fiber opticteleprotection(where applicable) End-end operation: Table below shows bittransfer time (for multiplexed links, ‘MUX’denotes the multiplexer delay).
IM64 Cmd Appli c.TypicalDelay(ms)
Max (ms) Note
Direct fiber 3 to 7 9 No Noise
PermissiveVia MUX
5 to 8+ MUX
12+ MUX
BER ≤10-3
Direct fiber 4 to 8 10 No NoiseDir. Intertrip
Via MUX6 to 8
+ MUX13
+ MUXBER ≤10-
3
BER – Bit Error Rate for Channel
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Technical Data P44x/EN TD/H85
MiCOM P441/P442 & P444 (TD) 2-11
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STZ1 (Impedance reach:) 0.001/In to 500/In Ω (step 0.001/In Ω)
SETTINGS, MEASUREMENTS AND RECORDS LIST
SETTINGS LIST
GLOBAL SETTINGS (SYSTEM DATA):Language:
English/French/German/Spanish/Italian/Chinese (ordering option)
Frequency: 50/60Hz
CONFIGURATIONSetting Group:
Select via MenuSelect via Opto
Active Settings: Group 1/2/3/4Setting Group 1: Disabled/EnabledSetting Group 2: Disabled/EnabledSetting Group 3: Disabled/EnabledSetting Group 4: Disabled/EnabledDistance Protection: Disabled/EnabledPower Swing: Disabled/EnabledBack-Up I>: Disabled/EnabledNegative Sequenceovercurrent: Disabled/EnabledBroken Conductor: Disabled/EnabledEarth Fault overcurrentprotection: Disabled/
Zero sequence power/Earth fault overcurrent
Aided Directional EarthFault (DEF): Disabled/EnabledVoltage Protection: Disabled/Enabled
Circuit Breaker Fail & I
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Zone Setting other parameters
Serial CompensatedLine: Enabled/DisabledOverlap Z mode: Enabled/DisabledZ1m Tilt Angle: –45° to +45° (step 1°)Z1p Tilt Angle: –45° to +45° (step 1°)
Z2/Zp/Zq Tilt Angle –45° to +45° (step 1°)Fwd Z Chgt Delay: 0 to 100ms (step 1ms)Volt. Memory Validity: 0 to 10s (step 10ms)Earth Current detection:
0 to 0.1×I1 (step 0.01×I1)Fault locator:∗ KZm mutual Comp: 0 to 7 (step1)∗ KZm Angle: 0 to 360° (step 1°)
Distance Scheme setting
Program mode Standard or open schemeStandard Modes:∗ Basic + Z1X,∗ POP Z1,
∗ POP Z2,∗ PUP Z2,∗ PUP Forward,∗ BOP Z1,∗ BOP Z2.POP = Permissive Overreach Protection
PUP = Permissive Underreach Protection
BOP = Blocking Overreach Protection
Fault type:∗ Phase to Ground,∗ Phase to Phase,∗ Both enabled.
Trip Mode:∗ Force 3 Pole,∗ 1 Pole Z1 and Carrier Received (CR),∗ POP Z1 Z2 and CR.
Signal sent from a zone to the relays setting(open scheme):∗ CsZ1 (Carrier sent by Z1),∗ CsZ2,∗ CsZ4. Aided scheme on Carrier receipt “Dist CR”(open scheme):∗ None,∗ PermZ1: Permissive Z1 (Z1 can trip without
waiting the end of tZ1 timout),∗ PermZ2,∗ PermFwd (forward),∗ Blocking Z1 (BlkZ1) (Z1 can only trip if a
Carrier is not received),∗ BlkZ2.
Additional time-delay for PUP Z2, PUP FWD,POP Z1 and POP Z2 schemes:
0 to 1s (stem 2ms)tReversal Guard: 0 to 0.15s (step 2ms)Unblocking schemes (with permissiveschemes):
∗ None,∗ Loss of Guard mode,∗ Loss of Carrier mode.
TOR (Trip On Reclose)–SOTF (Switch On ToFault) modes enabled or disabled for:∗ TOR logic in case of fault in Z1, Z2, Z3 or
All Zones,∗ SOTF logic in case of fault in Z1, Z2, Z3 or
All Zones,∗ TOR or SOTF in Distance scheme,∗ SOTF logic in case of fault Z1+Rev,
Z2+Rev or I>3 Enabled,∗ SOTF initiated by level detectors,SOTF Delay: 10 to 3600s (step 1s)Z1X extension on channel fail:
Enabled/Disabled
Weak Infeed
Mode Status:Disabled/Echo/WI Trip & Echo/PAP
Single Pole: Disabled/EnabledV< Threshold: 10 to 70V (step 5V)
Trip time delay: 0 to 1s (step 2ms)
Loss of Load (LoL)
Mode Status:Enabled/Disabled
LoL on Channel failed: Enabled/DisabledI (%max) 10% to 100% (step 1%)I2> Status: Enabled/Disabled∗ I2> (%max) 10% to 100% (step 1%)Imax line Status: Enabled/Disabled∗ Imax line> (%max):
1×In to 20×In (step 0.01×In)Delta I Status: Enabled/DisabledUnblocking time-delay: 0 to 30s (step 0.1s)Blocking zones:∗ Z1/Z1X Block: Yes/No
∗ Z2 Block: Yes/No∗ Zp Block: yes/No∗ Zq Block: Yes/No∗ Z3 Block: Yes/No∗ Z4 Block Yes/NoOut of Step (OOS): 1 to 255 (step 1)Stable swing: 1 to 255 (step 1)
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MiCOM P441/P442 & P444 (TD) 2-13
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∗ IEEE Moderately Inverse,
DIRECTIONAL AND NON DIRECTIONAL
OVERCURRENT PROTECTION
(Back-up I>)
Directional and non directionalI> protections:
I>1, I>2 (range 0.08–10×In)Non directional I> protections:I>3, I>4 (range 0.08–32×In)
I>1 Function / I>2 Function:∗ Disabled,∗ Definite Time (DT),∗ IEC Standard inverse∗ IEC Very inverse∗ IEC Extremely inverse∗ UK Long Time Inverse,∗ IEEE Moderately Inverse,∗ IEEE Very Inverse∗ IEEE Extremely Inverse
∗ US Inverse∗ US Short Time Inverse∗ IN> (%max) 10% to 100% (step 1%)
I>1 / I>2 Directional:∗ Non-directional,∗ Directional forward∗ Directional reverse
I>1 / I>2 VTS Block: Block/Non-directionalI>1 / I>2 current set: 0.08×In to 10.00×In
(step 0.01×In)I>1 / I>2 Time-delay: 0 to 100s (step 0.01s)
I>1 / I>2 Time-delayVTS: 0 to 100s (step 0.01s)I>1 / I>2 Time MultiplierSetting (TMS): 0.025 to 1.2 (step 0.005)I>1 / I>2 Time Dial: 0.5 to 15 (step 0.1)I>1 / I>2 Resetcharacteristics: DT or InverseI>1 / I>2 tReset 0 to 100s (step 0.01s)
I>3 Status / I>4 Status: Enabled/DisabledI>3 / I>4 current set: 0.08×In to 32.00×In
(step 0.01×In)I>3 / I>4 Time-delay: 0 to 100s (step 0.01s)
NEGATIVE SEQUENCE
OVERCURRENT PROTECTION
Directional and non directionalI2> protections:
I2>1, I2>2 (range 0.08–4×In)Non directional I2> protections:
I2>3, I2>4 (range 0.08–4×In)
I2>1 Function / I2>2 Function:∗ Disabled,∗ Definite Time (DT),
∗ IEC Standard inverse∗ IEC Very inverse∗ IEC Extremely inverse∗ UK Long Time Inverse,
∗ IEEE Very Inverse∗ IEEE Extremely Inverse
∗ US Inverse∗ US Short Time Inverse∗ IN> (%max) 10% to 100% (step 1%)
I2>1 / I2>2 Directional:∗ Non-directional,∗ Directional forward∗ Directional reverse
I2>1 / I2>2 VTS Block: Block/Non-directionalI2>1 / I2>2 current set: 0.08×In to 4.00×In
(step 0.01×In)I2>1 / I2>2 Time-delay:0 to 100s (step 0.01s)I2>1 / I2>2 Time VTS: 0 to 100s (step 0.01s)I2>1 / I2>2 TMS: 0.025 to 1.2 (step 0.005)I2>1 / I2>2 Time Dial: 0.01 to 100 (step 0.01)I2>1 / I2>2 Resetcharacteristics: DT or InverseI2>1 / I2>2 tReset 0 to 100s (step 0.01s)
I2>3 Status / I2>4 Status: Enabled/DisabledI2>3 / I2>4 Directional:∗ Non-directional,∗ Directional forward∗ Directional reverseI2>3 / I2>4 VTS Block: Block/Non-directionalI2>3 / I2>4 current set: 0.08×In to 32.00×In
(step 0.01×In)I2>3 / I2>4 Time-delay:0 to 100s (step 0.01s)I2>3 / I2>4 Time VTS: 0 to 100s (step 0.01s)
I>2 Char angle –95° to +95° (step 1°)
MAXIMUM OF RESIDUAL POWER –ZERO SEQUENCE POWER
Zero Sequence Power Status: Activated/Disabled
K Time delay factor: 0 to 2 (step 0.2)Basis Time Delay: 0 to 10s (step 0.01s)Residual current: 0.05×In to 1×In
(step 0.01×In)P0 threshold: 0.3 to 6.0VA (step 30mVA)
BROKEN CONDUCTOR DETECTION
Broken conductor: Enabled/Disabled
I2/I1 setting: 0.2 to 1 (step 0.01)I2/I1Time Delay: 0 to 100s (step 1s)I2/I1 Trip: Enabled/Disabled
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DIRECTIONAL AND NON-DIRECTIONAL
EARTH FAULT OVERCURRENT
PROTECTION
Earth Fault O/CDirectional and non directional
IN> protections:IN>1, IN>2 (range 0.08–10×In)Non directional IN> protections:
IN>3, IN>4 (range 0.08–32×In)
IN>1 Function / IN>2 Function:∗ Disabled,∗ Definite Time (DT),∗ IEC Standard inverse∗ IEC Very inverse∗ IEC Extremely inverse∗ UK Long Time Inverse,∗ IEEE Moderately Inverse,∗ IEEE Very Inverse
∗ IEEE Extremely Inverse∗ US Inverse∗ US Short Time Inverse∗ IN> (%max) 10% to 100% (step 1%)
IN>1 / IN>2 Directional:∗ Non-directional,∗ Directional forward∗ Directional reverse
IN>1 / IN>2 VTS Block: Block/Non-directionalIN>1 / IN>2 current set: 0.08×In to 10.00×In
(step 0.01×In)
IN>1 / IN>2 Time-delay:0 to 200s (step 0.01s)IN>1 / IN>2 Time VTS: 0 to 200s (step 0.01s)IN>1 / IN>2 TMS: 0.025 to 1.2 (step 0.005)IN>1 / IN>2 Time Dial: 0.5 to 15 (step 0.01)IN>1 / IN>2 Resetcharacteristics: DT or InverseIN>1 / IN>2 tReset 0 to 100s (step 0.01s)
IN>3 Status / IN>4 Status: Enabled/DisabledIN>3 / IN>4 Directional:∗ Non-directional,∗ Directional forward∗ Directional reverseIN>3 / IN>4 VTS Block: Block/Non-directional
IN>3 / IN>4 current set: 0.08×In to 32.00×In(step 0.01×In)
IN>3 / IN>4 Time-delay:0 to 200s (step 0.01s)IN>3 / IN>4 Time VTS: 0 to 200s (step 0.01s)
IN> DirectionalIN2 Char angle –95° to +95° (step 1°)Polarisation:∗ Zero Sequence,∗ Negative Sequence.
AIDED DIRECTIONAL EARTH FAULT
(DEF) OVERVOLTAGE PROTECTION
Aided DEF Status: Enabled/DisabledPolarisation:∗ Zero Sequence,
∗ Negative Sequence.V> Voltage set: 0.5V to 20V (step 0.01V)IN Forward: 0.05×In to 4×In (step0.01×In)Time delay: 0s to 10s (step 0.1s)Scheme logic: Shared/Blocking/PermissiveTripping: Three Phase/Single PhaseTp: 0 to 1000ms (step 2ms)IN Rev Factor: 0 to 1 (step 0.1)
THERMAL OVERLOAD
Thermal characteristics:Disabled/Single/Dual
Thermal trip:
0.08×In to 3.2×In (step 0.01×In)Thermal alarm: 50% to 100% (step 1%)Time constant 1: 1 mn to 200mn (step 1mn)Time constant 2: 1 mn to 200mn (step 1mn)
RESIDUAL OVERVOLTAGE
VN Type: Residual/Homopolar ∗
VN>1 function: Disabled/DT/IDMTVN>1 voltage set: 1V to 180V (step 1V)
homopolar: 0.5V to 60V (step 0.5V)∗
VN>1 Time delay: 0s to 100s (step 0.01s)VN>1 TMS: 0.5 to 100 (step 0.5)VN>1 tReset: 0 to 100s (step 0.5s)VN>2 Status: Enaled/DisabledVN>2 voltage set: 1V to 180V (step 1V)
homopolar: 0.5V to 60V (step 0.5V)∗
VN>2 Time delay: 0s to 100s (step 0.01s)∗
(software version C7.x only)
UNDERCURRENT PROTECTION
I< mode (threshold activation):∗ I
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VOLTAGE PROTECTION
V< & V> modes (threshold activation):∗ V4 status: activated/deactivated
UndervoltageV< Measurement mode:∗ Phase–Neutrel,∗ Phase–PhaseV3 or V>4 Time Delay:
0s to 100s (step 0.01s)
FREQUENCY PROTECTION
UnderfrequencyF
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CB CONTROL
CB Control by:∗ Disabled,∗ Local,∗ Remote,∗ Local + Remote,
∗ Opto-input,∗ Opto input + Local,∗ Opto input + Remote,∗ Opto input + Local + Remote.Close Pulse Time: 0.1s to 10s (step 0.01s)Trip Pulse Time: 0.1s to 5s (step 0.01s)Man Close Delay: 0.01s to 600s (step 0.01s)Healthy Window: 0.01s to 9999s (step 0.01s)Check Synchronizing (C/S) Window:
0.01s to 9999s (step 0.01s) A/R Single Pole: Enabled/Disabled A/R Three Pole: Enabled/Disabled
CT AND VT RATIOS
Main VT ratios: 100V to 1MV (step 1V)Main VT’s Secondary:
80V to 140V (step 1V)Check Synchronizing (C/S) VT:∗ Primary: 100V to 1MV (step 1V)∗ Secondary 80V to 140V (step 1V)Phase CT:∗ Primary: 1A to 30kA (step 1A)∗ Secondary 1A/5AMutual Compensation CT:∗ Primary: 1A to 30kA (step 1A)∗ Secondary 1A/5ACheck Synchronizing (C/S) input:
A (phase A)–N (Neutral)/B–B/C–N/A–B/B–C/C–AMain VT Location: Line/BusCT polarity: Standard/Inverted
SEQUENCE OF EVENT RECORDER
(RECORD CONTROL)
Clear Events: Enabled/DisabledClear Faults: Enabled/DisabledClear Maint: Enabled/Disabled Alarm Event: Enabled/DisabledRelay O/P Event: Enabled/DisabledOpto Input Event: Enabled/Disabled
System Event: Enabled/DisabledFault Rec Event: Enabled/DisabledMaint Rec Event: Enabled/DisabledProtection Event: Enabled/DisabledDDB 31 – 0: (up to): DDB 2047 – 2016:
Binary function link strings, selecting whichDDB signals will be stored as events, andwhich will be filtered out
MEASURED OPERATING DATA
(MEASURE'T SETUP)
Default Display:∗ Description∗ Plant reference,
∗ U – I – Freq,∗ P – Q,∗ Date and Time.Local Values: Primary/SecondaryRemote Values: Primary/SecondaryMeasurement Ref: VA/VB/VC/IA/IB/ICMeasurement Mode: 0/1/2/3Demand Interval: 1…99mn (step 1mn)Distance Unit: Miles/KilometresFault Location:
DistanceOhms% of Line
COMMUNICATIONS COLUMN
Courier protocol: Protocol indicatedRP1 Address: 7 to 34 (step 1)RP1 Inactiv timer: 1mn to 30 mn (step 1mn)Physical link: RS485, Fibre opticRP1 StatusRP1 Port configuration: Kbus/EIA(RS)485RP1 comms mode:∗ IEC60870 FT1.2∗ 10-Bit no parityRP1 Baud Rate: 9600/19200/38400 bits/s
IEC60870-5-103 protocol : Protocol indicatedRP1 Address: 7 to 34 (step 1)RP1 Inactiv timer: 1mn to 30 mn (step 1mn)Baud Rate: 9600/19200/38400 bits/sMeasurement period: 1 to 60s (step 1s)CS103 blocking:∗ Disabled,∗ Monitor blocking,∗ Command blocking.RP1 StatusRP1 Port configuration: Kbus/EIA(RS)485
RP1 comms mode:∗ IEC60870 FT1.2∗ 10-Bit no parityRP1 Baud Rate: 9600/19200/38400 bits/s
Modbus protocol: Protocol indicatedRP1 Address: 7 to 34 (step 1)RP1 Inactiv timer: 1mn to 30 mn (step 1mn)Baud Rate: 9600/19200/38400 bits/sParity: Odd/Even/NonePhysical link: RS485/Fibre opticDate/Time Format: Enabled/DisabledRP1 StatusRP1 Port configuration: Kbus/EIA(RS)485RP1 comms mode:∗ IEC60870 FT1.2∗ 10-Bit no parityRP1 Baud Rate: 9600/19200/38400 bits/s
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RP2 Inactivity timer: 1 to 30mn (step 1mn)
DNP3.0 protocol: Protocol indicatedRP1 Address: 7 to 34 (step 1)RP1 Inactiv timer: 1mn to 30 mn (step 1mn)Baud Rate: 9600/19200/38400 bits/sParity: Odd/Even/NoneMeasurement period: 1 to 60s (step 1s)Physical link: RS485/Fibre opticTime Synhronization: Enabled/DisabledDate/Time Format: Enabled/DisabledRP1 StatusRP1 Port configuration: Kbus/EIA(RS)485RP1 comms mode:
IEC60870 FT1.2/10-Bit no parityRP1 Baud Rate: 9600/19200/38400 bits/sScale Value indicatedMessage Gap: 0 to 50ms (step 1ms)DNP Need Time: 1 to 30 (step 1)DNP Application fragment size:
100 to 2048 (step 1)
DNP Application fragment timeout:1s to 120s (step 1s)
DNB SBO timeout: 1s to 10s (step 1s)DNP link timeout: 0 to 120s (step 1s)
Ethernet port, IEC61850 protocol :Protocol indicatedProtocol & Scale value indicated,Network Interface Card (NIC) protocol:
Courier/IEC60870-5-103/Modbus/DNP3.0NIC MAC Adress indicated,NIC tunnel timeout: 1 to 30mn (step 1mn)NIC Link Report: Alarm/Even/None
Ethernet port, DNP3.0 protocol:Protocol, IP address, subnet mask, NIC MACaddress and Gateway address indicated,DNP time synchro: Enabled/DisabledDNP Meas scaling:
Primary/Secondary/NormalizedRP1 Address: 7 to 34 (step 1)RP1 Inactiv timer: 1mn to 30 mn (step 1mn)Baud Rate: 9600/19200/38400 bits/sParity: Odd/Even/NoneNIC tunnel timeout: 1 to 30mn (step 1mn)NIC Link Report: Alarm/Even/NoneSNTP parameters:
Primary and Secondary SNTP addressesdisplayedSNTP poll rate: 64 to 1024s (step 1s)SNTP need time: 1 to 30mn (step 1mn)SNTP ApplicationFragment size: 100 to 2048 (step 1)SNTP Applicationfragment timeout: 1s to 120s (step 1s)SNTP SBO timeout: 1s to 10s (step 1s)
Second rear port connection setting:Protocol and Status indicatedRP2 Port configuration:
Kbus/EIA(RS)485/EIA RS232RP2 comms mode:
IEC60870 FT1.2/10-Bit no parityRP2 Address: 0 to 255 (step 1)
RP2 Baud Rate: 9600/19200/38400 bits/s
COMMISSIONING TESTS
Status of opto-isolated inputs indication,Status of output relays indication,Status of test port indication,Status of LEDs indication,Monitor Bit 1(up to 8):
Binary function link strings, selecting whichDDB signals have their status visible in theCommissioning menu, for test purposes
Test Mode: Enabled or Disabled87BB and 50BF trip blocked per zoneTest Pattern:
Configuration of which output contacts are tobe energized when the contact test isapplied.
Contact test:No operation/Apply test/Remove test
LEDs test, Autoreclose test:
No operation/ 3-pole test/Pole A, B or C testRed or Green LED status visible,DDB31-0 to DDB 2047-2016 status visible.
OPTO CONFIGURATION
Opto input voltage range:∗ 24-27V∗ 30-34V∗ 48-54V∗ 110-125V∗ 220-250VCustom
Opto Input 1(up to # = max. opto no. fitted)
Custom options allow independent thresholdsto be set per opto, from the same range asabove
HOTKEYS AND CONTROL INPUTS
Control Inputs operation (CTRL inputsmenu)menu:Status of control inputs indication,Control inputs operation:
Set/Reset/No operation
Control Inputs configuration (CTRL I/Pconfig. Menu):The control inputs can be individually assignedto the hotkeys by stetting,Control input configuration: Latched/PulsedFollowing text displayed in the hotkey menucan be set: Set/Reset / In/Out /
Enabled/Disabled / On/Off
Opto Input Labels (Opto I/P Labels menu)User defined text string to describe thefunction of the particular opto input.
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Logical Nodes: 4
Teleprotection (InterMiCOM comms)Source Address: 0 to 10 (step 1)Received Address: 0 to 10 (step 1)Baud rate:∗ 600 Baud∗ 1200 Baud∗ 2400 Baud∗ 4800 Baud∗ 9600 Baud∗ 19200 BaudChannels statistics: Visible/Invisible∗ Nbr of tripping messages received∗ Nbr blocking messages received,∗ Number of messages received: tripping,
blocking, total and incorrect,∗ Lost messages,∗ Elapsed time,∗ Reset statistics: Yes/NoChannel diagnostics: Visible/Invisible
∗ “Data carrier detect” status,∗ Frame synchronization status,∗ Message status,∗ Channel status,∗ InterMiCOM hardware status.Loopback Mode: Internal/External/Disabled
Configuration of which InterMiCOM signalsare to be energized when the loopback test isapplied.
∗ User defined test pattern,∗ Loopback status
InterMiCOM configurationIM Msg Alarm Level: 0 to 100.0% (step 1%)InterMiCOM command Types:∗ IM1, IM2, IM3 and IM4 Command types:
Disabled/Direct/Blocking∗ IM5 Cmd Type:
Disabled/Permissive/Direct∗ IM6, IM7 and IM8 Command types:
Disabled/Permissive/Direct
Fallback mode:Default/Latched
Default value: 0/1Frame Synchronization Time:
10ms to 1.50s (step 10ms)
Function keys10 function keys:∗ Status: Disabled/Locked/Unlocked∗ Mode: toggled/Normal∗ Label: User defined
Ethernet NCIT(MiCOM P444 relays with IEC61850-9-2 board only)
Physical Link: Copper/Fibre optic AntiAlaising Filter: Enabled/DisabledMerge Unit Delay: 0 to 3ms (step 250µs)Logical Nodes (LN) Arrangement:
VL,IL,IN / VL,IL,IN2 / VL,IL,IN,VB/VL,IL,IN2,VB / VL,IL,IN2,IN,VBVL,Sum(2xIL) / VL,IL,IN,2xVB
VL,IL,IN2,2xVB’
IED configurator (IEC61850)MiCOM P442 & P444 only
Switch between active or inactive configurationbanks,MiCOM Configuration Language (MCL) filesrestoration.IEC 61850 configuration data displayed:∗ Active / inactive Memory banks,∗ Configuration revision number of Active or
inactive Memory bank,∗ IP address, mask and Gateway conneced,∗ SNTP: IP address of the primary and
secondary servers,∗ IED name,∗ IEC61850 GOOSE∗ GOENA setting,∗ test mode,∗ Ignore test flag option
Supervision
VT Supervision∗ Time-delay: 1 to 20s (step 1s)∗ I2&I0 inhibition: 0 to 1A (step1mA)∗ 3P voltage detection: Enabled/Disabled∗ Threshold 3P 10 to 70V (step 1V)
CT Supervision∗ Status: Enabled/Disabled∗ VN< Inhibition:
0.5 to 22V (step 0.5V)or 2V to 88V (step 2V)
∗ IN> setting 0.08×In to 4×In (step 0.01×In)∗ Time-delay: 0 to 10s (step 1s)
CVT Supervision∗ Status: Enabled/Disabled∗ VN>: 0.5 to 22V (step 0.5V)∗ Time-delay: 0 to 300s (step 0.01s)
Check Synchronization(“system check” menu
Check Synchronism for autoreclosure orManual CB closure:
∗ Live bus/dead line: Yes/No∗ Dead bus /Live line: Yes/No∗ Live bus / Live line: Yes/NoV< Dead line: 5 to 30V (step 1V)V> Live line: 30 to 120V (step 1V)V< Dead bus: 5 to 30V (step 1V)V> live bus: 30 to 120V (step 1V)Differential voltage: 0.5V to 40V (step 0.1V)Diff. frequency: 0.02Hz to 1Hz
(step 0.01Hz)Diff phase 5° to 90° (step 2.5°)Bus-Line time-delay: 0.1s to 2s (step 0.1s)
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Autorecloser
Autoreclose mode:Number of shots:∗ 1P trip mode: 1, 1/3, 1/3/3 or 1/3/3/3∗ 3P trip mode: 3, 3/3, 3/3/3 or 3/3/3/31P – Dead time 1 0.1s to 5s (step 0.01s)1P – Dead time 1 0.1s to 60s (step 0.01s)Dead time 2 1s to 3600s (step 1s)Dead time 3 1s to 3600s (step 1s)Dead time 4 1s to 3600s (step 1s)Reclaim time: 1 to 600s (step 1s)Reclose time-delay: 0.1s to 10s (step 0.1s)Discrimination time: 0.1s to 5s (step 0.01s) A/R Inhibit window: 1s to 3600s (step 1s)C/S on 3P reclosure during Dead time 1:
Enabled/Disabled Autoreclose lockout Autoreclose is blocked when user defined fault
occurs:∗ at T2, t2, Tzp or Tzq∗ for Loss of Load Trip∗ for I>1 or I>2 Trip∗ for V4 Trip∗ for IN>1, IN>2, IN>3 or IN>4 Trip∗ for Aided D.E.F Trip∗ for Zero Sequence Power Trip∗ for PAP Trip (specific customer engineered
function)∗ for Thermal Trip∗ for I2>1, I2>2, I2>3 or I2>4 Trip∗ for VN>1 or VN>2 Trip∗ for I
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GETTING STARTED
Date: 2011
Hardware Suffix: J, K
Software Version: C7.x, D4.x & D5.x
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CONTENTS
1. GETTING STARTED 3
1.1
User interfaces and menu struc ture 3
1.2 Introduction to the relay 3
1.2.1 Front panel 3
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 Menu structu re 9
1.5.1 Protection settings 10
1.5.2
Disturbance recorder settings 10
1.5.3 Control and support settings 10
1.6 Password protection 11
1.7 Relay configuration 12
1.8 Front panel user interface (keypad and LCD) 13
1.8.1 Default display and menu time-out 14
1.8.2 Menu navigation and setting browsing 15
1.8.3 Hotkey menu navigation 16
1.8.4 Password entry 17
1.8.5
Reading and clearing of alarm messages and fault records 18
1.8.6 Setting changes 18
1.9 Front communication port user interface 19
1.10 MiCOM S1 relay communications basics 20
1.10.1 PC requirements 20
1.10.2 Connecting to the P44x relay using MiCOM S1 Studio 21
2. P44X RELAY MENU MAP 30
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BLANK PAGE
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1. GETTING STARTED
BEFORE CARRYING OUT ANY WORK ON THE EQUIPMENT, THE USERSHOULD BE FAMILIAR WITH THE CONTENTS OF THE SAFETYSECTION/SAFETY GUIDE SFTY/4LM/E11 OR LATER ISSUE, THETECHNICAL DATA SECTION AND THE RATINGS ON THE EQUIPMENT
RATING LABEL.
1.1 User interfaces and menu structu re
The settings and functions of the MiCOM protection relay can be accessed both from thefront panel keypad and LCD, and via the front and rear communication ports. Information oneach of these methods is given in this section to describe how to get started using the relay.
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1.2 Introduction to the relay
1.2.1 Front panel
The front panel of the relay is shown in the following figures, with the hinged covers at thetop and bottom of the relay shown open. Extra physical protection for the front panel can beprovided by an optional transparent front cover. With the cover in place read only access tothe user interface is possible. Removal of the cover does not compromise the environmentalwithstand capability of the product, but allows access to the relay settings. When full accessto the relay keypad is required, to edit the settings, the transparent cover can be unclippedand removed when the top and bottom covers are open. If the lower cover is secured with awire seal, this will need to be removed. Using the side flanges of the transparent cover, pullthe 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 theirrecesses in the front panel.
FIGURE 1 - MiCOM P441 RELAY FRONT VIEW ARRANGEMENT (hardware J)
MiCOM P442 and P444 relay (hardware J) front views arrangements are equivallent to thnotrepresented in this technical manual.
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User programmable
function LEDs (tricolor)
Serial No. Model
No. And Ratings
User programmable function
LED’s (tri-color)
Top cover HotkeysFixed
function LEDs
Bottom
cover
Function
Keypad
LCD
Ba tt er y c omp ar tm ent Fr ont c om ms po rt D ow nload/mon it or po rt
P0103ENf
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FIGURE 2 – MiCOM P442 & P444 RELAY FRONT VIEW (hardware K)
The front panel of the relay includes the following:
• a 16-character by 2- or 3-line (alphanumeric liquid crystal display (LCD).
• a keypad comprising 4 arrow keys ( , , and), an enter key (), a clear key(), and a read key () and two additive hotkeys.
• 12 LEDs; 4 fixed function LEDs on the left hand side of the front panel and 8programmable function LEDs on the right hand side.
• 10 additional function keys plus 10 additional LEDs .
Hotkey functionality (figures 1 and 2):
• SCROLL: Starts scrolling through the various default displays.
• STOP: Stops scrolling the default display
for control of setting groups, control inputs and circuit breaker operation.
Function key functionality (figure 2):
• The relay front panel, features control pushbutton switches with programmable LEDsthat facilitate local control. Factory default settings associate specific relay functionswith these 10 direct-action pushbuttons and LEDs e.g. Enable/Disable the auto-recloser function. Using programmable scheme logic, the user can readily change thedefault direct-action pushbutton functions and LED indications to fit specific controland operational needs.
Under the top hinged cover:
• the relay serial number, and the relay’s current and voltage rating information*.
Under the bottom hinged cover:
• battery compartment to hold the ½ AA size battery which is used for memory
back-up for the real time clock, event, fault and disturbance records.
• a 9-pin female D-type front port for communication with a PC locally to the relay(distance of up to 15m) via an EIA(RS)232 serial data connection.
• a 25-pin female D-type port providing internal signal monitoring and high speed localdownloading of software and language text via a parallel data connection.
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The fixed function LEDs on the left hand side of the front panel are used to indicate thefollowing conditions:
− Trip (Red) indicates that the relay has issued a trip signal. It is reset when theassociated fault record is cleared from the front display. (Alternatively the trip LED canbe configured to be self-resetting)*.
− Alarm (Yellow) flashes to indicate that the relay has registered an alarm. This may betriggered by a fault, event or maintenance record. The LED will flash until the alarmshave 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 relay’s protection is unavailable.
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− Healthy (Green) indicates that the relay is in correct working order, and should be onat all times. It will be extinguished if the relay’s self-test facilities indicate that there isan error in the relay’s hardware or software. The state of the healthy LED is reflectedby the watchdog contact at the back of the relay.
To improve the visibility of the settings via the front panel, the LCD contrast can be adjusted
using the “LCD Contrast” setting with the last cell in the CONFIGURATION column.1.2.2 Relay rear panel
The rear panel of the relay is shown in Figure 3 (refer to section P44x/EN IN ‘Installation’ forterminals connections layout). All current and voltage signals, digital logic input signals andoutput contacts are connected at the rear of the relay. Also connected at the rear is thetwisted pair wiring for the rear EIA(RS)485 communication port, the IRIG-B timesynchronising input and the optical fibre rear communication port which are both optional. Asecond rear port (Courier) and an interMiCOM port are also available.
P3023ENb
A – Not used D – Opto-input boardB – Output relay board E – Output relay boardC – Current and voltage input board F – Power supply board
FIGURE 3A – P441 RELAY REAR VIEW (40TE CASE)
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A – Optional board * F – Output relay/High Break board *B – Optional board * G – Output relay boardC – Current and voltage input board F – Power supply boardD – Opto-input boardE – Opto-input board * = option depending on the model
FIGURE 3B – P442 RELAY REAR VIEW (60 TE CASE)
P3025ENb
A – Optional board * H – Relay board
B – Optional board * J – Output relay/High Break board *C – Current and voltage input board K – Output relay/High Break board *D – Opto-input board L – Output relay/High Break board *E – Opto-input board M – Relay boardF – Opto Input board N – Power supply boardG – Relay board * * = option depending on the model
FIGURE 3C – P444 RELAY REAR VIEW (80 TE CASE)
Refer to the wiring diagram in section P44x/EN IN for complete connection details.
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1.3 Relay connection and power-up
Before powering-up the relay, confirm that the relay power supply voltage and nominal acsignal magnitudes are appropriate for your application. The relay serial number, and therelay’s current and voltage rating, power rating information can be viewed under the tophinged cover. The relay is available in the following auxiliary voltage versions and these are
specified in the table below:
Nominal RangesOperative dc
RangeOperative ac
Range
24 - 48V dc 19 to 65V -
48 - 110V dc (30 - 100V ac rms) ** 37 to 150V 24 to 110V
110 - 250V dc (100 - 240V ac rms) ** 87 to 300V 80 to 265V
** rated for ac or dc operation
Please note that the label does not specify the logic input ratings. The P44x relays are fittedwith universal opto isolated logic inputs that can be programmed for the nominal battery
voltage of the circuit of which they are a part. See ‘Universal Opto input’ in the Firmwaresection for more information on logic input specifications. Please note that the opto inputshave a maximum input voltage rating of 300V dc at any setting.
Once the ratings have been verified for the application, connect external power capable ofdelivering the power requirements specified on the label to perform the relay familiarizationprocedures. Figure 2 and 3 indicates the location of the power supply terminals but pleaserefer to the wiring diagrams in the Installation section for complete installation detailsensuring that the correct polarities are observed in the case of dc supply.
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1.4 Introduction to the user interfaces and settings options
The relay has thre following interfaces:
• the front panel user interface via the LCD and keypad.
• the front port which supports Courier communication.
• the rear port which supports one protocol of either Courier, Modbus,IEC 60870-5-103 or DNP3.0. The protocol for the rear port must be specified when therelay is ordered.
• the optional Ethernet, dual Ethernet or 9-2 Ethernet port(s),
• The optional second rear port wich supports Courier protocol.
The measurement information and relay settings which can be accessed from the threeinterfaces are summarised in Table 1.
Keypad/ LCD Couri er Modbus IEC870-5-103 DNP3.0 IEC61850(3)
Display &modification of allsettings
• • • •
Digital I/O signalstatus
• • • • • •
Display/extractionof measurements
• • • • • •
Display/extractionof fault records
• • • • • •
Extraction ofdisturbance
records
• • • •(Floc in %)
(1)
•
Programmablescheme logicsettings
•
Reset of fault &alarm records
• • • • •
Clear event &fault records
• • • • •
Timesynchronisation
• • • • •
Controlcommands
• • • • •
TABLE 1
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1.5 Menu structu re
The relay’s menu is arranged in a tabular structure. Each setting in the menu is referred toas a cell, and each cell in the menu may be accessed by reference to a row and columnaddress. The settings are arranged so that each column contains related settings, forexample all of the disturbance recorder settings are contained within the same column. Asshown in figure 4, the top row of each column contains the heading which describes thesettings contained within that column. Movement between the columns of the menu is onlypossible at the column heading level. A complete list of all of the menu settings is given inthe manual.
GS
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AP
PL
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FD
CM
MT
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SC
SG
IN
CS
VH
Up to 4 protection setting groups
Columnata
settings
Coumn ea er
Control & suppor Group
Repeated for Groups 2, 3, 4
System data View records Overcurrent Earth fault
P4003ENa
FIGURE 4 - MENU STRUCTURE
All of the settings in the menu fall into one of three categories: protection settings,disturbance recorder settings, or control and support (C&S) settings. One of two differentmethods is used to change a setting depending on which category the setting falls into.Control and support settings are stored and used by the relay immediately after they areentered. For either protection settings or disturbance recorder settings, the relay stores thenew setting values in a temporary ‘scratchpad’. It activates all the new settings together, butonly after it has been confirmed that the new settings are to be adopted. This technique is
employed to provide extra security, and so that several setting changes that are made withina group of protection settings will all take effect at the same time.
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P44x/EN GS/H85 Getting Started
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1.5.1 Protection settings
The protection settings include the following items:
• protection element settings
• scheme logic settings
• auto-reclose and check synchronisation settings (where appropriate)*∗
• fault locator settings (where appropriate)*
There are four groups of protection settings, with each group containing the same settingcells. One group of protection settings is selected as the active group, and is used by theprotection elements.
1.5.2 Disturbance recorder settings
The disturbance recorder settings include the record duration and trigger position, selectionof analogue and digital signals to record, and the signal sources that trigger the recording.
1.5.3 Control and support settings
The control and support settings include:
• relay configuration settings
• open/close circuit breaker*
• CT & VT ratio settings*
• reset LEDs
• active protection setting group
• password & language settings