PCS 9611s x application manual EN overseas general x r1 00

Preface About This Manual This manual describes the configuration scheme in multiple application scenarios for PCS-9611S Feeder Relay, including how to connect the device to a computer

Copyright © 2019 NR All rights reserved

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Preface

About This Manual

This manual describes the configuration scheme in multiple application scenarios for PCS-9611S Feeder Relay, including how to connect the device to a computer and to configure functions, such

as protection, control, measurement and supervision in using of configuration tool

To start using this manual for application configuration, user should know the basic operations of the configuration tool PCS-Studio

Safety Information

This manual is not a complete index of all safety measures required for operation of the equipment (module or device) However, it comprises important information that must be followed for personal safety, as well as to avoid material damage Information is highlighted and illustrated

as follows according to the degree of danger:

Indicates an imminently hazardous situation that, if not avoided, will result in death or serious injury

Indicates a potentially hazardous situation that, if not avoided, could result in death or serious injury

Indicates a potentially hazardous situation that, if not avoided, may result

in minor or moderate injury or equipment damage

Indicates that property damage can result if the measures specified are

not taken

Important information about the device, product handling or a certain section of the documentation which must be given particular attention

Instructions and Warnings

The following hazard statements apply to this device

Contact with instrument terminals can cause electrical shock that can result in injury or death

Use of this equipment in a manner other than specified in this manual can impair operator safety safeguards provided by this equipment

Have only qualified personnel service this equipment If you are not qualified to service this equipment, you can injure yourself or others, or cause equipment damage

This device is shipped with default passwords Default passwords should

be changed to private passwords at installation Failure to change each default password to a private password may allow unauthorized access

NR shall not be responsible for any damage resulting from unauthorized access

DO NOT look into the fiber (laser) ports/connectors

DO NOT look into the end of an optical cable connected to an optical

output

DO NOT perform any procedures or adjustments that this instruction

manual does not describe

During installation, maintenance, or testing of the optical ports, ONLY use the test equipment qualified for Class 1 laser products!

Incorporated components, such as LEDs, transceivers, and laser emitters,

are NOT user serviceable Return units to NR for repair or replacement

Equipment components are SENSITIVE to electrostatic discharge (ESD)

Undetectable permanent damage can result if you do not use proper ESD procedures Ground yourself, your work surface, and this equipment

BEFORE removing any cover from this equipment If your facility is not

equipped to work with these components, contact NR about returning this device and related NR equipment for service

Insufficiently rated insulation can deteriorate under abnormal operating conditions and cause equipment damage For external circuits, use wiring

of SUFFICIENTLY RATED insulation that will not break down under

abnormal operating conditions

SEVERE power and ground problems can occur on the communications

ports of this equipment as a result of using non-standard cables Please use the wiring method recommended in the manual for communication terminals

DO NOT connect power to the relay until you have completed these

procedures and receive instruction to apply power Equipment damage can result otherwise

Use of controls or adjustments, or performance of procedures other than

those specified herein, may RESULT IN hazardous radiation exposure

 The abbreviations and acronyms in this manual are explained in “Appendix A Glossary” The Glossary also contains definitions of important terms

 Menu path is connected with the arrow "→" and bold

For example: the access path of protection settings is: MainMenu→Settings→Protection Settings

 Settings not in the table should be placed in brackets

For example: the system setting [Opt_SysFreq]

 Cross-references are presented in italics

For example: refer to Figure 1.1-1, refer to Table 1.1-1, reference to Section 1.1

 Binary input signals, binary output signals, analogs, LED lights, buttons, and other fixed meanings, should be written in double quotes and bold

For example: press the button "ENT"

To concentrate on the target sections of this manual as your job needs and responsibilities dictate

An overview of each manual section and section topics follows

1 Functions and Application

Introduces summarizes functions and typical applications of the device

2 Configuration Tool

Introduces the communication interface of the device and the corresponding software and hardware settings by which PCS-Studio connects with the device

3 Basic Function Configuration

Introduces how to configure the basic function of the device, such as, enabling/disabling functions, setting HMI (human machine interface), setting communication protocol and network structure, binary inputs, binary outputs, user-defined logic, authority management, etc

4 Protection Function Configuration

Introduces how to configure protection functions, including enabling/disabling functions, configuration methods and corresponding settings

Introduces the configuration method of the sampling channel for different typical application scenarios

7 Supervision Function Configuration

Introduces the configuration method of supervision functions, such as, secondary circuit supervision, tripping statistic, etc

Appendix A Glossary

Describes the abbreviations adopted in this manual

Document Revision History

PN: ZL_PCS-9611S_X_Application Manual_EN_Overseas General_X

1.2.1 Feeder Protection Application 1-7

1.2.2 Transformer Backup Protection Application 1-8

1.2.3 Double-star Connection Capacitor Bank Protection Application 1-9

1.2.4 Single-star Connection Capacitor Bank Protection Application 1-10

List of Figures

Figure 1.1-1 Functional diagram of PCS-9611S 1-1

Figure 1.2-1 Feeder protection typical application 1-7

Figure 1.2-2 Transformer backup protection typical application 1-8

Figure 1.2-3 Double-star connection capacitor bank protection typical application 1-9

Figure 1.2-4 Single-star connection capacitor bank protection typical application 1-10

1

1

1.1 Functions

The PCS-9611S relay is a protection, control and monitoring unit for various primary equipment

(such as overhead line, underground cable and transformer etc.) on solidly grounded, impedance

grounded, Peterson coil grounded and ungrounded system This relay is suitable for wall surface

mounted indoors or outdoors or flush mounted into a control panel

The functional overview of this relay is shown as below

51SEF

51P

50G 50P

1VT

60/50 60/59

Figure 1.1-1 Functional diagram of PCS-9611S

The PCS-9611S is widely adopted not only for conventional substations, but also for digital

substations It supports IEC 61850 Editions 1 and 2 and provides GOOSE and SV network

interfaces with high real-time performance The process level network supports peer-to-peer (P2P)

mode and networking mode, including single network mode and dual network mode The station

level network can also receive and send MMS messages (such as interlocking signals) or process

level GOOSE messages (such as circuit breakers or disconnectors positions and trip signals)

1 Protection functions

1

67P 50/51P Phase overcurrent protection

 Up to 6 stages with independent logic

 Voltage control element for each stage

 Optional direction element for each stage, including forward direction, reverse direction and non-direction

 Optional definite-time characteristic and inverse-time characteristic for each stage

 Selectable trip purpose or alarm purpose for each stage

 Harmonic control element for each stage

67G 50/51G Earth fault protection

 Up to 6 stages with independent logic

 Optional direction element for each stage, including forward direction, reverse direction and non-direction

 Optional measured zero-sequence current or calculated zero-sequence current

 Optional definite-time characteristic and inverse-time characteristic for each stage

 Selectable trip purpose or alarm purpose for each stage

 Harmonic control element for each stage

A.67G A.50/51G

Another group of earth fault overcurrent protection

 Only measured zero-sequence current is supported

 Up to 6 stages with independent logic

 Optional definite-time characteristic and inverse-time characteristic for each stage

 Selectable trip purpose or alarm purpose for each stage

50/51Q Negative-sequence

overcurrent protection

 Up to 2 stages with independent logic

 Optional direction element for each stage, including forward direction, reverse direction and non-direction

 Optional definite-time characteristic and inverse-time characteristic for each stage

 Selectable trip purpose or alarm purpose for each stage

46BC Broken conductor protection

 Adopt the ratio of negative-sequence current to positive-sequence current (Ι2/Ι1) to detect the broken conductor

 Up to 6 stages with independent logic

 Optional direction element for each stage, including forward direction, reverse direction and non-direction

 Optional definite-time characteristic and inverse-time characteristic for each stage

 Selectable trip purpose or alarm purpose for each stage

50/51R RMS overcurrent protection

 Up to 2 stages with independent logic

 Full-current RMS value includes 2 nd ~11 th harmonic components

 Selectable trip purpose or alarm purpose for each stage

50BF Breaker failure protection

 Breaker failure protection and re-trip function

 Optional current criterion (phase overcurrent element, zero-sequence overcurrent element, negative-sequence overcurrent element)

 It can be initiated by current, circuit breaker position or external binary input

 Two time delays

50PSOTF

50GSOTF Switch-on-to-fault protection

 One stage of phase overcurrent SOTF protection

 One stage of earth fault overcurrent SOTF protection

 Harmonic control element

 Voltage control element for phase overcurrent SOTF protection

59P Overvoltage protection

 Up to 2 stages with independent logic

 Optional definite-time characteristic and inverse-time characteristic for each stage

 Optional phase voltage or phase-to-phase voltage

 Optional “1-out-of-3” logic or “3-out-of-3” logic

 Selectable trip purpose or alarm purpose for each stage

1

27P Undervoltage protection

 Up to 2 stages with independent logic

 Optional definite-time characteristic and inverse-time characteristic for each stage

 Optional phase voltage or phase-to-phase voltage

 Optional “1-out-of-3” logic or “3-out-of-3” logic

 Check mode using circuit breaker position and current criterion

 Blocked by instantaneous VT circuit failure

 Selectable trip purpose or alarm purpose for each stage

59Q Negative-sequence

overvoltage protection

 Up to 2 stages with independent logic

 Selectable trip purpose or alarm purpose for each stage

59Pos Positive-sequence

overvoltage protection

 One stage of positive-sequence overvoltage protection

 Selectable trip purpose or alarm purpose

59G Residual overvoltage

protection

 Up to 2 stages with independent logic

 Optional measured zero-sequence voltage or calculated zero-sequence voltage

 Selectable trip purpose or alarm purpose for each stage

81O Overfrequency protection  Up to 6 stages with independent logic

 Voltage control element 81U Underfrequency protection  Up to 6 stages with independent logic

 Voltage control element 81R Frequency rate-of-change

protection

 Up to 6 stages with independent logic

 Voltage control element

32R Reverse power protection

 Up to 2 stages with independent logic

 Selectable trip purpose or alarm purpose for each stage

60/50 Current unbalance protection

 Up to 2 stages with independent logic

 Selectable trip purpose or alarm purpose for each stage

60/59 Voltage unbalance protection

 Up to 2 stages with independent logic

 Selectable trip purpose or alarm purpose for each stage

CLP Cold load pickup

 It can be triggered by on-load signal or circuit breaker position

 Short resetting is supported

25 Synchro-check  Independent logic for auto-reclosing and manually

closing

49 Thermal overload protection  Two stages of thermal overload protection, one stage

for alarm purpose and the other stage for trip purpose 50L/NL Arc flash protection  The arc flash signal is acquired by an arc sensor

 It is combined with the auxiliary fault current criterion

supervision TCS Tripping circuit supervision

2 Control functions

 Circuit breaker & disconnector control (Remote/Local)

 Synchronism check for remote and manual closing

 Event recorder including 1024 disturbance items, 1024 binary events, 1024 supervision

events, 256 control logs and 1024 device logs

 Disturbance recorder including 64 disturbance records with waveforms (The file format of

disturbance recorder is compatible with international COMTRADE file.)

 DC power supply supervision

 System frequency supervision

1

60870-5-103 over TCP/IP

 Two RS-485 serial ports using IEC 60870-5-103 or Modbus

 One RS-485 serial port for clock synchronization

 Support GOOSE communication module using IEC 61850-8-1 GOOSE

 Full compatibility between IEC 61850 Editions 1 and 2

 Redundancy protocols PRP and HSR

 One front RJ45 port for debugging

6 Digital interface

 Support IEC 61850 MMS Server via extendable electrical or optical Ethernet port

 Support IEC 61850-8-1 GOOSE via extendable electrical or optical Ethernet port

 Support IEC 61850-9-2LE SV via extendable electrical or optical Ethernet port

 4 programmable operator pushbuttons with user-configurable labels

 Up to 18 (6U, 1/2 × 19")/15 (6U, 1/3 × 19") programmable target LEDs with user-configurable labels

 1 RS-232 or RS-485 rear ports for printer

 Language switchover—English + selected language

 Configuration tool—PCS-Studio

8 Additional functions

 User programmable logic

 Fault location

 Fault phase selection

 System phase sequences rotation function (ABC or ACB)

 Clock synchronization

 IRIG-B: IRIG-B via RS-485 differential level or TTL level

 PPS: Pulse per second (PPS) via RS-485 differential level or binary input

 PPM: Pulse per minute (PPM) via RS-485 differential level or binary input

1

 IEEE1588: Clock message based on IEEE1588 via optical fiber interface

 SNTP (PTP): Unicast (point-to-point) SNTP mode via Ethernet network

 SNTP (BC): Broadcast SNTP mode via Ethernet network

 Message (IEC103/Modbus/DNP3.0): Clock messages through IEC103 protocol,

Modbus protocol and DNP3.0 protocol

The PCS-9611S can be used for several applications, including feeder protection, transformer

backup protection, and capacitor protection etc In addition, many auxiliary functions such as fault

diagnosis, fault recording, event recording, and communication functions etc are also integrated

into the device The device supports up to 13 analog inputs

1.2.1 Feeder Protection Application

51P

50G 50P

1

The application scenario corresponding to this configuration is feeder protection The device provides phase overcurrent protection (67/50/51P), earth fault overcurrent protection (67/50/51G), undervoltage protection (27P), switch-on-to fault protection (SOTF), underfrequency protection (81U), overfrequency protection (81O) ), frequency rate-of-change protection (81R), breaker failure protection (50BF), automatic reclosure (79) and other protection functions

For the large-resistance grounding system, when an earth fault occurs, the zero-sequence current sensitivity is insufficient, and the earth fault overcurrent protection may not operate In this case, sensitive earth fault protection (67/50/51SEF) can be configured

For double busbars arrangement, the voltages of the two busbars can be connected to the external voltage selection device firstly, and then the selected voltage is connected to the device; the voltages of the two busbars can also be connected to the device directly and the voltage selection function can be accomplished by the internal software

In addition, the device provides some control functions such as synchronism check and switchgear control etc., it also supports the measurement of apparent power (S), active power (P), reactive power (Q), current (I), voltage (U), power factor (Cos), frequency (f) and others

1.2.2 Transformer Backup Protection Application

50/

51G 50/

Figure 1.2-2 Transformer backup protection typical application

The application scenario corresponding to this configuration is transformer backup protection, a set of transformer backup protection is required for each side of the transformer The device provides phase overcurrent protection (67/50/51P), earth fault overcurrent protection (67/50/51G), another group of earth fault overcurrent protection (A.50/51G), residual overvoltage protection (59G), breaker failure protection (50BF) and other protection functions

1

In addition, the device supports the measurement of apparent power (S), active power (P),

reactive power (Q), current (I), voltage (U), power factor (Cos), frequency (f) and others

1.2.3 Double-star Connection Capacitor Bank Protection Application

51G

51P

50G 50P

FR

Busbar

3VT

1CT 3CTs

Figure 1.2-3 Double-star connection capacitor bank protection typical application

The application scenario corresponding to this configuration is double-star connection capacitor

bank protection The device provides phase overcurrent protection (50/51P), earth fault

overcurrent protection (50/51G), undervoltage protection (27P), phase overvoltage protection

(59P), undercurrent protection (37), current unbalance protection (60/50), breaker failure

protection (50BF) and other protection functions

In addition, the device provides the switchgear control function, it also supports the measurement

of apparent power (S), active power (P), reactive power (Q), current (I), voltage (U), power factor

(Cos), frequency (f) and others

Busbar

3VT

1CT 3CTs

Figure 1.2-4 Single-star connection capacitor bank protection typical application

The application scenario corresponding to this configuration is neutral point ungrounded single-star capacitor bank protection The device provides phase overcurrent protection (50/51P), earth fault overcurrent protection (50/51G), undervoltage protection (27P), phase overvoltage protection (59P), undercurrent protection (37), voltage unbalance protection (60/59), breaker failure protection (50BF) and other protection functions

In addition, the device provides the switchgear control function, it also supports the measurement

of apparent power (S), active power (P), reactive power (Q), current (I), voltage (U), power factor (Cos), frequency (f) and others

2

2 Configuration Tool

Table of Contents

2.1 Brief Introduction to PCS-Studio 2-1

2.2 Connection to Debugging Computer 2-1

2.2.1 Via Front RJ45 Port 2-1

2.2.2 Via Ethernet Interface on CPU Module 2-2

2.3 Validation of Configuration 2-2

2

2

2.1 Brief Introduction to PCS-Studio

PCS-Studio is a configuration and debugging tool designed for PCS S series devices It provides

the following configuration and debugging functions:

 Device information configuration

Viewing and editing project name, user configuration file version, file modification time, etc

 Global function configuration

MOT selection, system configuration, function object activation/deactivation, etc

 Human-machine interface configuration

Single Line Diagram (SLD) drawing for LCD display, definition of LED indicators, shortcut

keys, user-level waveform recording, etc

 Communication configuration

Support of multiple communication protocols, including IEC 61850 (Edition 1 & Edition 2), IEC

60870-5-103, DNP3.0, Modbus, etc

 IO signal configuration

Binary inputs, binary outputs, AC and DC analogue inputs, etc

 User-defined logic programming

Complete and rich symbol library for user-defined logic programming

 Parameter setting

Setting, import and export of device parameters

 Online debugging

Debugging through visual pages and virtual LCD screen

2.2 Connection to Debugging Computer

On the front panel of the device, there is a multiplex RJ45 port which is the debugging port for

connection to a portable computer Meanwhile, the CPU plug-in module is equipped with several

Ethernet interfaces which may also be used to communicate with debugging computer

2.2.1 Via Front RJ45 Port

2

2.2.2 Via Ethernet Interface on CPU Module

Firstly, a connection between the device and the computer must be established by setting the IP address and subnet mask of the corresponding interfaces Configure the IP address and the

subnet mask of corresponding Ethernet interface through MainMenu → Settings → Global Settings → Comm Settings → General Comm Settings

The IP addresses and the subnet masks of device PC should be in the same network segment Take the second Ethernet interface (LAN2) on CPU module as an example:

IP address [IP_LAN2] = 198.87.96.XXX 198.87.96.102

Subnet mask [Mask_LAN2] = 255.255.255.0 255.255.255.0

LAN enabling setting [En_LAN2] = Enabled

“XXX” can be any value from 0 to 255 except 102

2.3 Validation of Configuration

To take effect of all kinds of offline configuration work through PCS-Studio, it is necessary to regenerate the device configuration file (*.devs) and download it to the device A reboot of device

is obligatory after the download for the validation of any modification

All function configuration described in the following chapters are offline tasks, which requires the “file generation, file downloading and device reboot” process for validation

3.2.4 Disturbance Fault Recording 3-4

3.3 Human Machine Interface Configuration 3-6

3.3.1 Single Line Diagram Display 3-7

3.5.2 Input Signal from BI Module 3-21

3.5.3 Modify Signal Description 3-22

3.5.4 Modify Signal Parameter 3-23

3

3.7 User-programmable Logic 3-27 3.8 Authority Management 3-29

3.8.1 Role Group Configuration 3-31 3.8.2 User Configuration (Remote/Local) 3-32

3.9 Setting Group Switching 3-33

3.9.1 Number of Groups 3-33 3.9.2 Active Group Switching 3-34 3.9.3 Group Number Output 3-35

3.10 GOOSE Communication 3-36

3.10.1 GOOSE Receiving 3-37 3.10.2 GOOSE Sending 3-42 3.10.3 Logic Symbols 3-48

3.11 SV Communication Configuration 3-50

List of Figures

Figure 3.4-1 EIA RS-485 bus connection arrangements 3-20

3

3.1 Device Information

Select the page "Device Information" through the path Project Node → Device Node → Device

Setup → Device Information to view the basic information of the device The information is

derived from the driver file when adding the device into a project

Some information may be modified to facilitate the device management, including instance name,

config file version, config time, etc The length of user-defined information (User Information) is

limited to 106 bytes

When generating the driver file, the configuration tool will package user-defined information and

MOT information After downloading the driver file to the device, the information will be analyzed

and displayed on the device′s LCD

3.2 Global Configuration

3.2.1 MOT Selection

Usually, the device Market Ordering Table (MOT) is defined during the project ordering phase

Please check and adapt to the MOT code to verify the device functions configuration in specific

project dessin The MOT selection path is: Device Node → Device Setup → Global Config →

MOT

The MOT code and the detailed option information are displayed on the page Please double click

3

Between some options, coercive and mutually exclusive relations may exist For a coercive relation, one option is fixed to be selected; for a mutually exclusive relation, one option is impossible to be selected

Click on the “Software Function” button to view the device function scheme for different

application scenarios

Click on the “Show Back View” button to view the device rear panel modelled and composed of

user configured plug-in modules

3

1 Config file downloading mode

To respond to the cyber security requirements, the downloading operation of device firmware or

configuration file could be checked for user authority

2 Frequency track function

Frequency track function can be enabled or disabled via this option

3 High frequency record

High frequency recording function can be enabled or disabled via this option

4 Device maintenance mode

During the factory test or site commissioning, the device can be put into "Maintenance" state in

order to block signal noise in station communication network The enabling mode of this state

could be activated by a local terminal of binary input or by the logic device "MODE" in IEC 61850

communication protocol

3.2.3 Function Group

The function group configure path is: Device Node → Device Setup → Global Config →

Function Group Through the page "Function Group", all protection functions and control

functions can be enabled or disabled sorted by the secondary menu, as shown in figure below

Double-click the cell in the "Option" column to switch the option from drop-down box

3

3.2.4 Disturbance Fault Recording

Through the path Project Node → Device Node → HMI Setup → DFR Setup, the user can configure the triggering conditions ("Trigger") and recorded analog quantities ("Analog Record") and binary quantities ("Binary Record") of the disturbance recording function

Some default variables have been set by default If the "Deletable" attribute is "No", the variable

is fixed to be recorded Otherwise, it can be removed from the recording function The user can

pick up variables through the path in PCS-Studio: Variable DB → Source → Function_Logic → Page:** to customize the recording variable list

3

Some attributes could be set for the variables in different recording group:

 "Trigger Type" in "Trigger"

3

After setting the phase identification The phase field corresponding to the channel in the waveform recording file (*.CFG file) will be filled with the corresponding phase By default, the phase field corresponding to the channel is empty

 "Record in Wave File" in "Analog Record" and "Binary Record"

This attribute is used to involve the corresponding analog channels and binary variables into waveform recording function

3.3 Human Machine Interface Configuration

The human machine interface (HMI) module is installed on the front panel of this device It is used

to observe the running status and event information on the LCD, and configure the protection settings and device operation mode It can help the user to know the status of this device and detailed event information easily, and provide convenient and friendly access interface for the

3

user

As shown in the following figures, this device provides two variants (6U height, 1/3 and 1/2 × 19"

width) whose HMI elements on front panel are similar

1 Local LCD screen for device status and information display

2 Easy-to-use keypad aiding simple navigation and set-point adjustment

3 Push buttons for opening/closing operation and switching of local/remote control mode

4 Push button for user login/logout of authority management

5 Push buttons with configurable labels for user-programmable functions

6 Front RJ45 multiplex port for debugging

7 Push button for target reset of all signals

8 Two LED indictors for device running status

9 Up to 18 (6U, 1/2 × 19")/15 (6U, 1/3 × 19") programmable target LEDs with user-configurable

labels

3.3.1 Single Line Diagram Display

as circle, direct line, rectangle, etc The configuration steps are:

 Enter the configuration page through the path in PCS-Studio: Project Node → Device Node

→ HMI Setup → LCD Graph

 Drag the objective symbols to the red grid zone, adjust their location and use "Line" to

3

 In the “Display” label page, set the display control variable and display condition The value

of the control variable determines whether the element is displayed or its status

3

selecting a known output from the default drop-down box or by clicking the button "Advance"

and selecting a pre-defined enabling/disabling function output

3.3.2 LED Indicators

This device provides 2 default fixed LEDs "HEALTHY" and "ALARM' to indicate device running

status and abnormal status Additionally, it provides up to 18 (6U, 1/2 × 19") or 15 (6U, 1/3 × 19") programmable LEDs with user-configurable labels

Each programmable LED supports two status:

LED by a command from the device LCD menu or by pressing the button "TARGET RESET" on

front HMI panel The setup step is as below

 Enter the configuration page through the path in PCS-Studio: Project Node → Device Node