png Substation Automation Products Application Manual
Document ID: 1MRK 505 353-UEN Issued: March 2016 Revision: A Product version: 8.2 Copyright 2016 ABB. All rights reserved
Copyright This document and parts thereof must not be reproduced or copied without written permission from ABB, and the contents thereof must not be imparted to a third party, nor used for any unauthorized purpose. The software and hardware described in this document is furnished under a license and may be used or disclosed only in accordance with the terms of such license. Trademarks ABB and Relion are registered trademarks of the ABB Group. All other brand or product names mentioned in this document may be trademarks or registered trademarks of their respective holders. Warranty Please inquire about the terms of warranty from your nearest ABB representative. ABB AB Substation Automation Products SE-721 59 Västerås Sweden Telephone: +46 (0) 21 32 50 00 Facsimile: +46 (0) 21 14 69 18 http://www.abb.com/substationautomation
Disclaimer The data, examples and diagrams in this manual are included solely for the concept or product description and are not to be deemed as a statement of guaranteed properties. All persons responsible for applying the equipment addressed in this manual must satisfy themselves that each intended application is suitable and acceptable, including that any applicable safety or other operational requirements are complied with. In particular, any risks in applications where a system failure and /or product failure would create a risk for harm to property or persons (including but not limited to personal injuries or death) shall be the sole responsibility of the person or entity applying the equipment, and those so responsible are hereby requested to ensure that all measures are taken to exclude or mitigate such risks. This document has been carefully checked by ABB but deviations cannot be completely ruled out. In case any errors are detected, the reader is kindly requested to notify the manufacturer. Other than under explicit contractual commitments, in no event shall ABB be responsible or liable for any loss or damage resulting from the use of this manual or the application of the equipment.
Conformity This product complies with the directive of the Council of the European Communities on the approximation of the laws of the Member States relating to electromagnetic compatibility (EMC Directive 2004/108/EC) and concerning electrical equipment for use within specified voltage limits (Low-voltage directive 2006/95/EC). This conformity is the result of tests conducted by ABB in accordance with the product standards EN 50263 and EN 60255-26 for the EMC directive, and with the product standards EN 60255-1 and EN 60255-27 for the low voltage directive. The product is designed in accordance with the international standards of the IEC 60255 series.
Safety information Dangerous voltages can occur on the connectors, even though the auxiliary voltage has been disconnected. Non-observance can result in death, personal injury or substantial property damage. Only a competent electrician is allowed to carry out the electrical installation. National and local electrical safety regulations must always be followed. The frame of the IED has to be carefully earthed. Whenever changes are made in the IED, measures should be taken to avoid inadvertent tripping. The IED contains components which are sensitive to electrostatic discharge. Unnecessary touching of electronic components must therefore be avoided.
Table of contents Table of contents Section 1 Introduction... 3 1.2 This manual... 3 1.3 Intended audience... 3 1.4 Product documentation... 3 1.5 Symbols and conventions... 4 1.5.1 Symbols... 4 1.5.2 Document conventions... 4 Section 2 Overview... 6 2.1 Functionalities... 6 2.2 Structure of protection function software... 6 2.2.1 Functional diagram of bay protection REB500... 7 2.2.2 Label number guide for Figure 1... 8 2.3 Signals... 9 2.3.1 Bay / Station Protection à function overlapping signals... 9 2.3.2 Bay protection à function-specific signals... 11 Section 3 Configuring bay protection using HMI500... 18 3.1 Integration of bay protection... 18 3.2 Configuring the bay protection using HMI500... 19 3.3 Select Protection Function... 19 3.4 Binary signal configuration... 23 3.4.2 Configuring binary output signals... 29 3.4.3 Recording a binary signal as an event... 32 3.4.4 Disturbance recording of a binary signal... 32 3.5 Protection function settings... 32 Section 4 System functions... 33 4.1 BP Function Monitoring... 33 4.2 BP Licenses... 34 4.3 CT grounding... 34 Section 5 Bay protection functions... 35 5.1 Application / Technical details... 35 5.2 Technical additions... 36 Application Manual 1
Table of contents 5.2.1 Voltage transformers for bay protection...36 Section 6 BP-Additions to base documentation... 38 6.1 Technical Data...38 6.2 Operation and maintenance...46 6.2.1 Maintenance of bay protection functions...46 6.2.2 Protection blocking...46 6.2.3 Protection tripping...46 6.3 Commissioning...48 6.3.1 Regulations...48 6.3.2 Additional checks for bay protection REB500...48 6.4 Communication...51 2 Application Manual
1MRK 505 353-UEN Section 1 Introduction Section 1 Introduction 1.2 This manual The manual contains application descriptions, setting guidelines and technical data for the bay protection functions. It is complementary to the basic Application Manual of REB500. The manual can be used to find out when and for what purpose a typical protection function can be used. The manual can also be used when calculating settings. 1.3 Intended audience This manual addresses the protection and control engineer responsible for planning, pre-engineering and engineering. The protection and control engineer must be experienced in electrical power engineering and have knowledge of related technology, such as protection schemes and communication principles. 1.4 Product documentation Manual Product Guide Application Manual Technical Manual Operation Manual Commissioning Manual Application Manual Bay protection Functions Cyber Security Guideline Communication Protocol Manual IEC 61850 Communication Protocol Manual, IEC 60870-5-103 Document number 1MRK 505 352-BEN 1MRK 505 349-UEN 1MRK 505 350-UEN 1MRK 500 124-UEN 1MRK 505 351-UEN 1MRK 505 353-UEN 1MRK 511 373-UEN 1MRK 511 370-UEN 1MRK 511 371-UEN Application Manual 3
Section 1 Introduction 1MRK 505 353-UEN 1.5 Symbols and conventions 1.5.1 Symbols The electrical warning icon indicates the presence of a hazard which could result in electrical shock. The warning icon indicates the presence of a hazard which could result in personal injury. The caution icon indicates important information or warning related to the concept discussed in the text. It might indicate the presence of a hazard which could result in corruption of software or damage to equipment or property. The information icon alerts the reader of important facts and conditions. The tip icon indicates advice on, for example, how to design your project or how to use a certain function. Although warning hazards are related to personal injury, it is necessary to understand that under certain operational conditions, operation of damaged equipment may result in degraded process performance leading to personal injury or death. Therefore, comply fully with all warning and caution notices. 1.5.2 Document conventions A particular convention may not be used in this manual. Abbreviations and acronyms in this manual are spelled out in the glossary. The glossary also contains definitions of important terms. Push button navigation in the LHMI menu structure is presented by using the push button icons, e.g.: To navigate the options, use and. 4 Application Manual
1MRK 505 353-UEN Section 1 Introduction HMI menu paths are presented in bold, e.g.: Select Main menu/settings. LHMI messages are shown incourier font, e.g.: To save the changes in non-volatile memory, select Yes and. Parameter names are shown in italics, e.g.: The function can be enabled and disabled with the Operation setting. The * character after an input or output signal name in the function block symbol given for a function indicates that the signal must be connected to another function block in the application configuration to achieve a valid application configuration. Application Manual 5
Section 2 Overview 1MRK 505 353-UEN Section 2 Overview In addition to the station protection (SP) the system includes bay protection functions (BP) applicable for HV and EHV networks. Depending on the requirements single functions up to system specific line protection arrangements can be configured. Adding the BP arrangement is made under the Configurator mode of HMI500. 2.1 Functionalities Table 1 Available Bay protection functions Function REB5000 IEEE / IEC Base L-V2 ANSI No. 61850 Logic LOGIC - - x x Delay / integrator DELAY - - x x Distance protection DIST 21 PDIS/PSCH - x Definite time over and undercurrent protection OCDT 51 PTOC - x Inverse time overcurrent protection OCINV 51 PTOC - x Directional overcurrent definite time protection DIROCDT 67 PTOC - x Directional overcurrent inverse time protection DIROCINV 67 PTOC - x Inverse time earthfault overcurrent protection I0INV 51N PTOC - x Peak value over and undercurrent protection OCINST 50 PTOC - x Definite time over and undervoltage protection OVDT 59/27 PTOV - x Three phase current plausibility CHKI3PH 46 PTOC - x Three phase voltage plausibility CHKU3PH 47 PTOV - x More than one instance of functions is available and may be configured (e.g. two instances of the OCDT function) 2.2 Structure of protection function software Figure 1 and the subsequent tables give an overview of the structure of the station and bay protection functions in a bay unit. These functions are accessed through so-called BP-input (Bi) and BP output blocks (Bo) which can accommodate up to 20 input and 120 output signals respectively. 6 Application Manual
1MRK 505 353-UEN Section 2 Overview It is to be noted that all signals that are to be mapped to the binary output contacts, substation automation systems SAS (e.g. IEC 61850 bus) or LEDs first have to be routed via the BP output block (Bo). The following diagram gives an overview of the protection function und hardware blocks of a RE500 bay unit including the possible signal assignments. Table 2 to Table 4 provide the detailed description of the labeled items. 2.2.1 Functional diagram of bay protection REB500 For the purposes of illustration, the configuration steps described under Section 3 refer to the functional diagram Figure 1 below and the herein included label numbers. Figure 1 Structure and assignment of station and bay protection functions Application Manual 7
Section 2 Overview 1MRK 505 353-UEN 2.2.2 Label number guide for Figure 1 Table 2 Explanations to inputs / outputs Item No. Name Definition Remark 1 OC input Optocoupler input of bay unit 33 binary inputs per bay unit 2 CR output Relay (contact) output of bay unit 19 binary outputs per bay unit 3 U, I input Analog input of bay unit Assignment to SP functions is fixed. Assignment to BP functions is partly configurable. 4 BP input Logical input of BP part 20 logical inputs per bay unit 5 BP output Logical output of BP part 120 logical outputs per bay unit Table 3 Explanations to protection function part Label No. Name Definition Remark 6 SP Station protection part Contains station protection functions SP function Station protection function Available functions e.g. BBP, BFP, EFP,.. 7 BP Bay protection part Contains bay protection functions BP function Bay protection function Available functions e.g. DIST, OCDT,.. Table 4 Explanations to signal connections Label No. Definition Remark 8 OC input assigned to SP function Assignment via software HMI500 e.g. 13710_Start BFP_L1_1 9 SP function assigned to CR output Assignment via software HMI500 e.g. 23105_BFP TRIP 10 OC input assigned to BP input Assignment via software HMI500 e.g. 111205_DIST Ext. Block Dist. 11 BP input assigned to BP function Assignment via software HMI500 e.g. DIST: Ext Blk Dist 12 BP function assigned to BP output Assignment via software HMI500 e.g. DIST: Com Send 13 BP-output assigned to CR output Assignment via software HMI500 e.g. 211880_ DIST Com 14 BP-output assigned to SP function Assignment via software HMI500 e.g. DIST: Trip_DIST à 13785_BP Start BFP L1L2L3 15 SP-function assigned to BP input Assignment via software HMI500 16 OC-input assigned to SP function and BP input 17 SP function and BP output assigned to CR output Assignment via software HMI500 e.g. 11530/ 118515_Q0 Open and CB OPEN Assignment via software HMI500 e.g. 21110/ 220815_TRIP 18 Internal connections between BP-functions Assignment via software HMI500 19 Internal connections between SP-functions Automatic assignment done by REB500 ITT-system (ITT = intertripping) 8 Application Manual
1MRK 505 353-UEN Section 2 Overview 2.3 Signals 2.3.1 Bay / Station Protection à function overlapping signals 2.3.1.1 Signal designations The BP/ SP function overlapping (general) signals correspond to the signal numbers nomenclature of the station protection system (for details see Technical Manual REB500) Example: 19205_Block BP (5 digit signal number) 2.3.1.2 Outputs generated by BP and used as SP inputs (default signals) Table 5 BU_ BP outputs to SP inputs (default signals) Signal 11120_BP External TRIP 11125_BP External TRIP BB zone 13210_BP Block BFP 13610_BP Trip transfer 13761_BP Start BFP L1L2L3_5 Description This is the tripping signal generated by bay protection of REB500. It trips faults on a line with the aid of the REB500 tripping contact. Tripping thus takes account of the busbar configuration at the time. The signal is activated by the bay protection directly and does not therefore appear as binary input signal. This is a tripping signal generated by the bay protection of REB500 which is used to trip the entire bus zone to which the fbay is connected. The tripping command is applied to all the bay units of the bus zone and sections of busbars interconnected by an isolator (intertripping). This signal is directly activated by the bay protection and doesn t therefore appear as a binary input signal. The operation of the breaker failure protection of the corresponding feeder is blocked. When the blocking signal is cancelled and providing a starting signal is present and current is flowing, the timers start again at t = 0. Reserved for the special application trip transfer. This signal is directly activated by the bay protection unit and does not therefore appear as a binary input signal. This signal is functionally identical to signal "13760_Start BFP L1L2L3_5", but it is directly activated by the bay protection and does not therefore appear as a binary input signal. 13770..13780_BP Start BFP Lp Breaker failure protection with phase-selective starting (p = 1, 2 or 3). The breaker failure protection timer starts when this signal is activated by BP functions and the BFP measures a current in the corresponding phase. This signal is directly activated by the bay protection and does not therefore appear as a binary input signal. 13785_BP Start BFP L1L2L3 Breaker failure protection with three-phase starting. The breaker failure protection timer starts when this signal is activated and the BFP measures a current in any phase. This signal is directly activated by the bay protection and does not therefore appear as a binary input signal. Application Manual 9
Section 2 Overview 1MRK 505 353-UEN Signal 13790_BP External start BFP 13797_BP Start BFP L0 16760_BP Global Start DR Description Breaker failure protection with three-phase starting. The breaker failure protection timer starts when this signal is activated regardless of the current measurement. This signal is directly activated by the bay protection and does not therefore appear as a binary input signal. Breaker failure protection with L0 - starting. The breaker failure protection timer starts when this signal is activated by BP functions and the BFP measures a current in the neutral system. This signal is directly activated by the bay protection and does not therefore appear as a binary input signal. Starts those disturbance recorders in the bay units that are configured. The signal Central start DR in the bay units must be configured. This signal is directly activated by the BP unit and does not therefore appear as a binary input signal. 2.3.1.3 General inputs to BP Table 6 BU_ Inputs to BP Signal 19205_Block BP 19600_Activation BP ParSet_1 19605_Activation BP ParSet_2 19610_Activation BP ParSet_3 19615_Activation BP ParSet_4 Description The BP output signals of the respective bay unit are blocked. (Internal processing of the functions continues and therefore measurements and signals continue to be displayed on the local HMI.) The protection functions and settings assigned to parameter set 1 are active. They remain active after the signal has been reset. The protection functions and settings assigned to parameter set 2 are active. They remain active after the signal has been reset. The protection functions and settings assigned to parameter set 3 are active. They remain active after the signal has been reset. The protection functions and settings assigned to parameter set 4 are active. They remain active after the signal has been reset. Table 7 Signal 39205_Block BP CU_ Inputs to BP Description The bay protection output signals are blocked throughout the system (internal processing of the functions continues and therefore measurements and signals continue to be displayed on the local HMI). 10 Application Manual
1MRK 505 353-UEN Section 2 Overview 2.3.1.5 General outputs from BP Table 8 BU_ Output signals from BP Signal 29405_BP blocked 29410_BP partial blocked Description Signals that the outputs of the bay protection functions are blocked (either the bay concerned or throughout the system). Signals certain bay protection functions are blocked (Signal must be set explicitly in the bay protection). 29600 ParaSet_1 active Signals that parameter set 1 is active (activated via the station bus or an input signal). 29605 ParaSet_2 active Signals that parameter set 2 is active (activated via the station bus or an input signal). 29610 ParaSet_3 active Signals that parameter set 3 is active (activated via the station bus or an input signal). 29615 ParaSet_4 active Signals that parameter set 4 is active (activated via the station bus or an input signal). Table 9 CU_ Output signals from BP Signal 49405_BP blocked 49410_BP partial blocked Description Signals that the outputs of the bay protection functions are blocked (either individual bays or throughout the system). Signals that certain bay protection output signals in specific bays or throughout the entire system are blocked (Must be configured together with the corresponding BU output signal 29410_BP partial blocked). 2.3.2 Bay protection à function-specific signals 2.3.2.1 Signal designations of binary inputs and outputs The signal range of REB500 is expanded for the bay protection functions. The BP function-specific signal can be identified by a 6 digit signal number Example: Signal 211105_DIST_Trip CB L1 Table 10 Signal numbers nomenclature 211105 DIST Trip CB L1 6 Digit signal number Protection function Signal designation Application Manual 11
Section 2 Overview 1MRK 505 353-UEN Table 11 Signal numbers nomenclature Digit 1 Category Digit 2,3 Protection function Digit 4 Signal function Digit 5,6 Sequence number 1 BU_in 11 DIST 1 TRIP 05 2 BU_out 12 OCDT 2 Block command 10 3 CU_in 13 OCINV 3 Tripping signal 15 4 CU_out 14 DIROCDT 4 Blocking signal 20 5 System 15 DIROCINV 5 Bus image etc. 16 OVTD 6 Control 21 I0INV 7 Start 24 CHKI3PH 8 General alarm 25 CHKU3PH 26 OCINST 2.3.2.2 Signal designations of BP internal signals Each BP function provides a set of internal input and output signals. They can be mapped to binary inputs (optocoupler) and outputs (contacts) of the bay unit by using the corresponding binary inputs and output signals. Example: BP internal Signal Trip CB L1 Designation of binary input signal 211105_DIST TRIP CB L1 2.3.2.3 Binary input signals of BP Table 12 BU_ Logic input signals BP int. Signal Designation of binary input sig. Description Block 122205_LOGIC Block Input for blocking LOGIC function Binary Input 1 122805_LOGIC Binary Input 1 Logic input 1 Binary Input 2 122810_LOGIC Binary Input 2 Logic input 2 Binary Input 3 122815_LOGIC Binary Input 3 Logic input 3 Binary Input 4 122820_LOGIC Binary Input 4 Logic input 4 Table 13 BU_ Delay input signals BP int. Signal Designation of binary input sig. Description Block 123205_DELAY Block Input for blocking of DELAY function Binary Input 123805_DELAY Binary Input Input to be delayed 12 Application Manual
1MRK 505 353-UEN Section 2 Overview Table 14 BU_ DIST input signals BP int. Signal Designation of binary input sig. Description Ext Blk Dist 111205_DIST Ext. Block Dist. Input for disabling the distance protection function. Ext Blk PSB 111215_DIST Ext. Blk. PSB Input for blocking the power-swing function Ext Blk O/C 111220_DIST Ext. Block O/C Input the backup overcurrent function ExtBlkSOTF 111225_DIST Ext. Block SOTF Input for blocking the tripping condition for the switch-onto-fault logic ExtBlkHF 111230_DIST Ext. Block HF Input for blocking a received PLC signal (controlled, for example, by a sensitive E/F scheme using the same PLC channel ExtBlock Z1 111235_DIST Ext. Block Z1 Input for blocking measurement in the first zone Manual close 111505_DIST Manual Close Circuit breaker manual close command Isol Open 111510_DIST Isolator Open Isolator open signal for activating the short-zone logic and protection (T section in 1½ breaker schemes) ChgMeasDir 111605_DIST Change Meas. Dir. Input for changing the direction of measurement DeadLine 111805_DIST Deadline Line de-energized signal (auxiliary contact on the circuit-breaker when the VTs are on the busbar) ZExtension 111810_DIST Zextension External zone extension control signal Zone extension Com Rec 111815_DIST Com Rec Input for PLC signal from the remote station Com Fail 111820_DIST Com Fail Input for PLC failure signal Table 15 BU_ OCDT input signals BP int. Signal Designation of binary input sig. Description Block 112205_OCDT Block Input for blocking OCDT Table 16 BU_ OCINV input signals BP int. Signal Designation of binary input sig. Description Block 113205_OCINV Block Input for blocking of OCINV Table 17 BU_ DIROCDT input signals BP int. Signal Designation of binary input sig. Description Block 114205_DIROCDT Block Input for Blocking of DIROCDT Receive 114805_DIROCDT Receive PLC receive signal Table 18 BU_ DIROCINV input signals BP int. Signal Designation of binary input sig. Description Block 115205_DIROCINV Block Input for blocking of DIROCINV Receive 115805_DIROCINV Receive PLC receive signal Application Manual 13
Section 2 Overview 1MRK 505 353-UEN Table 19 BU_ I0INV input signals BP int. Signal Designation of binary input sig. Description Block 121205_I0INV Block Input for blocking of I0INV Table 20 BU_ OCINST input signals BP int. Signal Designation of binary input sig. Description Block 126205_OCINST Block Input for blocking of OCINST Table 21 BU_ OVDT input signals BP int. Signal Designation of binary input sig. Description Block 116205_OVDT Block Input for blocking of OVTD Table 22 BU_CHKI3PH input signals BP int. Signal Designation of binary input sig. Description Block 124205_CHKI3PH Block Input for blocking of CHKI3PH Table 23 BU_ CHKU3PH input signals BP int. Signal Designation of binary input sig. Description Block 125205_CHKU3PH Block Input for blocking of CHKU3PH 2.3.2.4 Binary output signals of BP Table 24 BU_ LOGIC output signals BP int. Signal Designation of binary output sig. Description Binary output 222805_LOGIC Binary Output Logic signal (output from logic) Binary output 222810_LOGIC BINARY OUT- PUT Trip signal (output from trip logic) Table 25 BU_ DELAY output signals BP int. Signal Designation of binary output sig. Description Trip 223105_DELAY TRIP Trip signal Start 223705_DELAY Start Start signal Table 26 BU_ DIST output signals BP int. Signal Designation of binary output sig. Description Trip CB L1 211105_DIST TRIP CB L1 Circuit-breaker L1 phase trip This signal is disabled while a blocking signal is being applied with the exception of a trip by the backup over-current protection. 14 Application Manual
1MRK 505 353-UEN Section 2 Overview BP int. Signal Designation of binary output sig. Description Trip CB L2 211110_DIST TRIP CB L2 Circuit-breaker L2 phase trip This signal is disabled while a blocking signal is being applied with the exception of a trip by the backup over-current protection. Trip CB L3 211115_DIST TRIP CB L3 Circuit-breaker L3 phase trip This signal is disabled while a blocking signal is being applied with the exception of a trip by the backup over-current protection. Trip CB 211305_DIST TRIP CB General circuit-breaker tripping signal. This signal is disabled while a blocking signal is being applied with the exception of a trip by the backup overcurrent protection. Trip L1L2L3 Trip L1L2L3 Aux 211310_DIST Trip L1L2L3 211315_DIST Trip L1L2L3 Aux General tripping signal. This signal is not disabled while a blocking signal is being applied. Trip CB 3P 211320_DIST Trip CB 3ph Three-phase trip signal. This signal is disabled while a blocking signal is being applied with the exception of a trip by the backup overcurrent protection. Trip CB 1P 211325_DIST Trip CB 1ph Single-phase trip signal. This signal is disabled while a blocking signal is being applied with the exception of a trip by the backup overcurrent protection. Trip O/C 211330_DIST Trip O/C Backup overcurrent trip signal. Trip SOTF 211335_DIST Trip SOTF Switch-onto-fault trip signal. Trip Com 211340_DIST Trip Com Signal for tripping either enabled by the receipt of a permissive signal or the non-receipt of a blocking signal. (This signal is disabled while a blocking signal is being applied.) Trip Stub 211345_DIST Trip Stub 'Short-zone protection trip signal. Dist Blocked 211405_DIST Blocked Signal indicating that the distance protection is blocked. DelDistBlk 211410_DIST Del Blocked Signal delayed by 12 s indicating that the distance protection is blocked. Start L1+L2+L3 Start L1L2L3 Start L1L2L3 Aux Start L1 Start L1 Aux Start L2 Start L2 Aux Start L3 Start L3 Aux Start L0 Start L0 Aux 211705_DIST Start L1+L2+L3 211710_DIST Start L1L2L3 211715_DIST Start L1L2L3 Aux 211720_DIST Start L1 211725_DIST Start L1 Aux 211730_DIST Start L2 211735_DIST Start L2 Aux 211740_DIST Start L3 211745_DIST Start L3 Aux 211750_DIST Start E 211755_DIST Start E Aux General distance protection starting signal (OR logic for all starting signals excepting weak infeed'). General distance protection starting signal (OR logic for all starting signals including weak infeed'). Distance protection L1 phase starting signal (including weak infeed'). Distance protection L2 phase starting signal (including weak infeed'). Distance protection L3 phase starting signal (including weak infeed'). Distance protection E/F starting signal (U0 or I0). Only generated together with a phase starter. Start I0 211760_DIST Start I0 Neutral current starting signal (I0). Start U0 211765_DIST Start U0 Neutral voltage starting signal (U0). Start OC 211770_DIST Start O/C Overcurrent starting signal. Start SOFT 211780_DIST Start SOTF Enabling signal for the switch-onto-fault protection. Application Manual 15
Section 2 Overview 1MRK 505 353-UEN BP int. Signal Designation of binary output sig. Description Start O/C 211785_DIST Start OC Backup overcurrent startsignal. Start UZ 211790_DIST Start UZ Underimpedance starting signal. Start 1ph 211805_DIST Start 1ph Indicates that the distance protection was started by a single phase. Delay >= 2 211810_DIST Delay >= 2 Signal for starting in Zone 2 or higher. Delay 1 211815_DIST Delay 1 Signal for starting in Zone 1. Delay 2 211820_DIST Delay 2 Signal for starting in Zone 2. Delay 3 211825_DIST Delay 3 Signal for starting in Zone 3. Delay 4 211830_DIST Delay 4 Signal for starting in Zone 4 (excepting when Zone 4 is being used as an overreaching zone). Delay Def 211835_DIST Delay Def Signal for starting in the final zone. Meas Main 211840_DIST Meas Main Measurement by the distance function (Zones 1, 2, 3, 4 or the final zone). Meas Oreach 211845_DIST Meas Oreach Measurement in the distance protection overreach zone. Meas Fward 211850_DIST Meas Fward Measurement by the distance protection in the forwards direction. Meas Bward 211855_DIST Meas Bward Measurement by the distance protection in the reverse direction (reverse zone). Weak Infeed 211860_DIST Weak Infeed Tripping by the weak infeed function. Power Swing 211865_DIST Power Swing Power-swing blocking function picked up. VTSup 211870_DIST VT Sup VT supervision picked up. VTSup Delay 211875_DIST VT Sup Delay Delayed operation of the VT supervision after 12 s. Com Send 211880_DIST Com Send Signal generated when a transfer trip signal is transmitted. Com Boost 211885_DIST Com Boost Signal for boosting PLC transmitting power. Freq dev 211890_DIST Freq Dev Signal indicating a deviation of the memory voltage frequency. Table 27 BU_ OCDT output signals BP int. Signal Designation of binary output sig. Description Trip 212105_OCDT TRIP Trip signal Start 212705_OCDT Start Start signal Table 28 BU_ OCINV output signals BP int. Signal Designation of binary output sig. Description Trip 213105_OCINV TRIP Trip signal Start 213705_OCINV Start Start signal Table 29 BU_ DIROCDT output signals BP int. Signal Designation of binary output sig. Description Trip 214105_DIROCDT TRIP Trip signal. Start 214705_DIROCDT Start Start signal. Start L1 214710_DIROCDT Start L1 L1 phase startsignal 16 Application Manual
1MRK 505 353-UEN Section 2 Overview Start L2 214715_DIROCDT Start L2 L2 phase startsignal Start L3 214720_DIROCDT Start L3 L3 phase startsignal MeasFwd 214805_DIROCDT MeasFwd Signals measurement in the forwards direction. MeasBwd 214810_DIROCDT MeasBwd Signals measurement in the backwards direction. Table 30 BU_ DIROCINV output signals BP int. Signal Designation of binary output sig. Description Trip 215305_DIROCINV TRIP Trip signal. Start 215705_DIROCINV Start Start signal. Start L1 215710_DIROCINV Start L1 L1 phase start signal Start L2 215715_DIROCINV Start L2 L2 phase start signal Start L3 215720_DIROCINV Start L3 L3 phase start signal MeasFwd 215805_DIROCINV MeasFwd Signals measurement in the forwards direction. MeasBwd 215810_DIROCINV MeasBwd Signals measurement in the backwards direction. Table 31 BU_ I0INV output signals BP int. Signal Designation of binary output sig. Description Trip 221105_I0INV TRIP Trip signal Start 221705_I0INV Start Start signal Table 32 BU_ OCINST output signals BP int. Signal Designation of binary output sig. Description Trip 226105_OCINST TRIP Trip signal Start 226705_OCINST Start Start signal Table 33 BU_ OVDT output signals BP int. Signal Designation of binary output sig. Description Trip 216105_OVDT TRIP Trip signal Start 216705_OVDT Start Start signal Table 34 BU_ CHKI3PH output signals BP int. Signal Designation of binary output sig. Description Trip 224605_CHKI3PH Picked Up Trip signal Table 35 BU_ CHKU3PH output signals BP int. Signal Designation of binary output sig. Description Trip 225605_CHKU3PH Picked Up Trip signal Application Manual 17
Section 3 Configuring bay protection using HMI500 1MRK 505 353-UEN Section 3 Configuring bay protection using HMI500 3.1 Integration of bay protection The REB500 bay models include no bay protection functionality. The integration of the bay protection (variant V-L2) takes place under the setfile engineering during the Import a Bay Model process. The dialogue Bay model import options enables the selection of the BP variant V-L2. After pressing the OK button, the respective bay is imported to the singleline diagram and the selected BP variant (comprising the V-L2 set of BP functions) is available for further configuration. Figure 2 Selection the import option Bay protection and Variant For detailed information about the setfile engineering refer the REB500 Engineering Manual Section single-line diagram The setfile engineering and the integration of the Bay protection requires that the HMI500 is started under der Configurator Mode. After that, the configuration details can also be adjusted under the Operator Mode. 18 Application Manual
1MRK 505 353-UEN Section 3 Configuring bay protection using HMI500 3.2 Configuring the bay protection using HMI500 To configure and set the bay protection function, open the HMI500 menu Settings and select the menu item Bay protection. Figure 3 Table 36 Settings / Bay protection Configuration Bay protection Configuration - buttons Button Continue Copy Paste Delete configuration Function Opens the dialogue Select Protection Function of a selected bay and thus the BP configuration. Instead of Continue button, simply double click a unit line Copies the BP configuration of a selected bay Pastes the copied BP configuration to a selected bay Delete the BP configuration of the selected bay 3.3 Select Protection Function This dialog is divided into the following parts: The protection functions available for configuration are listed on the left (in the form of buttons). Its content is determined by the already selected Bay protection variant (see Section 3.2). The protection functions used for configuration are listed on the right. The first is always the binary output function BP output (see Figure 4). Application Manual 19
Section 3 Configuring bay protection using HMI500 1MRK 505 353-UEN Figure 4 Table 37 Menu item No. Func. Description P1..P4 Copy of Select Protection Functions Select Protection Function used BP Functions Description Unique instance number of the BP function Symbol representing the BP function of the instance User specific description of the BP function of the instance Parameter set in which the protection function occurs. Switching between parameter sets is accomplished using the binary input signals 19600_x, 19605_x, 19610_x and 19615_x x = Activation BP ParSet 1..4 Instance No. of the original function, where the instance is a copy of a function that already exists. If the number of function instances exceeds the size of the display area, a scroll bar automatically appears on the right. The maximum number of instances per bay unit is limited to 128. There are a number of tabs, which can be selected in this part of the dialog. The first tab (ParSet 1..4) lists all the functions. It has to be selected to change functions and determine the instances where they occur. The tabs ParSet 1 to ParSet 4 list the functions configured for a particular parameter set and are merely for information. Creating instances of protection functions An instance of a protection function is created by selecting it in the list on the left of the dialog using the left mouse button and while keeping the button depressed dragging it onto the area of the first tab (ParSet 1..4) (drag and drop). It is not possible to drop the function while the symbol is being shown. The instance of 20 Application Manual
1MRK 505 353-UEN Section 3 Configuring bay protection using HMI500 the protection function is created when the mouse cursor changes to an arrow and the mouse button is released. Assigning protection functions to parameter sets Every instance of a protection function can be assigned to a particular parameter set. The REB500 runs the protection functions in the currently selected parameter set. The active parameter set is changed by setting the appropriate binary input on the bay unit. Figure 5 Parameter set assignment To assign the instance of a protection function to a parameter set, simply check the corresponding box using the left mouse button. Using the context menu To open the context menu for a particular protection function, first select the function by clicking the left mouse button on its symbol and then clicking the right mouse button. Figure 6 Table 38 Menu item Copy Content menu Content menu dialogues Description Creates a copy of the protection function according to the following rules: A copy cannot be in the same parameter set as the original. The input signals of a copy are the same as those of the original and cannot be changed. Only defined parameters of a copy can be configured. All other parameters are taken from the original. Application Manual 21
Section 3 Configuring bay protection using HMI500 1MRK 505 353-UEN Menu item Delete Description The instance of the specific protection function is deleted together with all the settings that the user has made up to that point. If the function being deleted has connections to other protection functions, an error message appears instructing you to first delete the connections. Properties Thus an instance can only be deleted after all its interconnections have been deleted. This opens a dialog with all the function s settings. Double clicking on the function s symbol opens the same dialog. Status indicator On the left of each instance number and function symbol there is a status indicator which signals the validity of the parameters entered. Figure 7 Status indication of BP Function Green indicates that the configuration is correct and valid while red indicates that the setting procedure has not been completed. This generally means in the case of a single-phase function that an analog channel has not yet been assigned to it. The Bay protection dialog cannot be closed by clicking on OK until all the status indicators are green. Statistical evaluation Double clicking with the right mouse button with the cursor in the dialog below the area of the tabs opens a window with statistics and status information on the bay protection functions. Figure 8 Area below tabs sensitive for selection of statistical evaluation The version number of the bay protection configuration module is shown in the bottom left-hand corner. 22 Application Manual
1MRK 505 353-UEN Section 3 Configuring bay protection using HMI500 Figure 9 Table 39 Dialogue tem Configuration Measurements Test Read- Write Read- only Status indication of BP Function Status indication of BP Function Mode Description The dialog is in the protection function configuration or setting mode. The dialog was started in the measurement display mode. Not implemented in this version. The user can edit and save settings. The user cannot edit settings. Table 40 Status indication of BP Function Statistics Dialogue item Configured functions Available parameters Used parameters Description Number of instances created by the user for this bay unit. The maximum number is 128. The number of memory locations available for protection function settings in the entire system. Number of protection function settings used by the present bay unit. 3.4 Binary signal configuration 3.4.1.1 Configuring binary input signals Each Bay protection function has a defined number of binary inputs. These are described for each of the protection functions in Section 2.3.2.3.. Application Manual 23
Section 3 Configuring bay protection using HMI500 1MRK 505 353-UEN In the dialogs for setting protection functions, a binary input is described in plain text and has a button for configuration. Figure 10 Setting binary input signal e.g. OCDT Blocking input The following signals can be assigned to the binary inputs of each BP function: BP internal outputs from an another BP function (see 3.4.1.2) General inputs to BP (see 2.3.1.3) Signal status Always FALSE or Always TRUE BP external (see 3.4.1.4) Binary input signals (from optocoupler inputs) Predefined outputs of a station protection function 24 Application Manual
1MRK 505 353-UEN Section 3 Configuring bay protection using HMI500 3.4.1.3 Assignment of BP internal input signals Click the left mouse button on the status button of the desired signal to open the dialog Select Binary Input for configuring the status of the particular binary input signal. The dialog has two tabs, the first of which ( TRUE / FALSE ) provides facility for setting the input status to Always True, OR Always False. This is a permanent assignment, without the involvement of an output signal of another function. Figure 11 Configuring binary inputs (TRUE / FALSE) The second tab Output from Function enables the output of an existing instance of a protection function to be connected to the particular signal input. The Output from Function tab lists all the protection function instances set for the particular bay unit together with the unique number of the instance. Upon selecting a protection function in the list on the left by clicking the left mouse button on it, its binary output signals appear on the right of the dialog. Application Manual 25
Section 3 Configuring bay protection using HMI500 1MRK 505 353-UEN Figure 12 Configuring binary inputs (Output from other BP function) Table 41 Dialogue tem Channel Inv Signal text Output from Function - dialogue / Column designations Description Unique No. of the output signal Check this box to invert the signal Output signal name Location of BP internal input signals within the BP function diagram see Figure 1, Label No. 18. 3.4.1.4 Assignment BP external input signals The system automatically creates an instance BP Binary Input. It thus always heads the list of instances. If you select BP Binary Input, the right-hand half of the dialog presents two tabs Default and General purpose. 26 Application Manual
1MRK 505 353-UEN Section 3 Configuring bay protection using HMI500 Default The Default tab lists station protection default outputs (see Figure 13). Any binary input of a BP function can be linked to these to enable the exchange of signals between station protection and the bay protection sections (e.g. signal 21105_External TRIP). Figure 13 Configuring binary inputs ( Default à Output from SP function) Location of input signals from SP function within the BP function diagram see Figure 1, Label No. 15. General Purpose The General Purpose tab provides facility for defining up to 20 user signals. To this end, select a signal number with the left mouse button. A text field appears in which the user can write a signal name (see Figure 14). The signal name entered must conform to REB500 signal conventions (see Section 2.3.2.1). The Section 2.3.2.3 provides a list of all signals available for General Purpose inputs. Application Manual 27
Section 3 Configuring bay protection using HMI500 1MRK 505 353-UEN Example: Signal name under the BP function Ext Blk Dist Designation of binary input signals to be entered under General Purpose 111205_DIST Ext. Block Dist. Figure 14 Configuring binary inputs (General purpose) Location of BP internal input signals within the BP function diagram see Figure 1, Label No. 11. Once defined, signals can be assigned to an optocoupler input by selecting the menu Configuration/ Binary module/ Inputs. Location of Binary module input signals within the BP function diagram see Figure 1, Label No. 10. 28 Application Manual
1MRK 505 353-UEN Section 3 Configuring bay protection using HMI500 3.4.2 Configuring binary output signals Each REB500 bay protection function has a defined number of binary output signals. These are described for each of the protection functions in Section 2.3.2.4. In the dialogs for setting protection functions, a binary output signal is described in plain text and has a field, which lists the input signals assigned to the respective output. Figure 15 BP output signal assignment The list shows the input signals assigned to the respective output. For each signal in the list, the instance number and an abbreviation of the function are given. Table 42 BP output signal assignment Example Description 09 Instance of BP function OR Symbol representing the BP function of the instance Binary Inp 2 Binary input 2 of OR function Output signals are assigned when configuring either the binary output function (see Section 3.4.2.1) or bay protection input signal function (see Section 3.4.1.1). 3.4.2.1 Exception: Binary output function The binary output function has to be included in all sets of parameters and that is why the function is automatically selected for all of them and the setting cannot be changed by the user. Figure 16 Parameter set assignment of BP outputs (fixed allocation) Application Manual 29
Section 3 Configuring bay protection using HMI500 1MRK 505 353-UEN The configuration of the binary output function is basically the same as for the other protection functions. Open the configuration dialog by double clicking with the left mouse button on the symbol or via the context menu. The signals of the binary output function are divided into two groups for Default and General purpose outputs. Default The default groups are signals which are exchanged between bay and station protection functions (e.g. distance protection trip for starting the breaker failure protection). The station protection input signals (see Table 5) are all predefined and can t be changed. Choice of the bay protection output signals ( General Purpose, see Figure 18), on the other hand, is unrestricted. Figure 17 BP output (Default) The signals assigned under the default group do not reduce the number of BP output channels (total of 120). Location of BP default output signals within the BP function diagram see Figure 1, Label No. 14. 30 Application Manual
1MRK 505 353-UEN Section 3 Configuring bay protection using HMI500 General Purpose The General Purpose tab provides facility for defining up to 120 output signals. Figure 18 BP output (General purpose) Location of BP general purpose output signals within the BP function diagram see Figure 1, Label No. 12. Edit (used for both Default and General purpose signals Click on the respective Edit button to assign a Default or General purpose signal. This opens the dialog Select binary input. The remaining procedure is the same as described for binary input signals (see Section 3.4.1.4). Only bay protection output signals that are configured to a BP Output Channel can be assigned to an output relay of the bay unit by selecting the menu Configuration/ Binary module/ Outputs. Section 2.3.2.4 provides a list of available bay protection output signals. Location of Binary module output signals within the BP function diagram see Figure 1, Label No. 13. Application Manual 31
Section 3 Configuring bay protection using HMI500 1MRK 505 353-UEN 3.4.3 Recording a binary signal as an event Only bay protection binary signals can be configured to be recorded as events that are also configured via menu Configuration/ Binary module (output signals do not necessarily have to be assigned to output relays). 3.4.4 Disturbance recording of a binary signal Binary output signals generated by bay protection functions can be configured for disturbance recording, providing they are configured in the General purpose dialog for the binary output function (see Figure 18). Binary input signals of the bay protection functions can be configured for disturbance recording, providing they are configured in the General purpose dialog for the binary input function (see Figure 14) and also as a binary input via the HMI500 menu Configuration/Binary module/inputs menu. 3.5 Protection function settings The appropriate dialog for setting a protection function is opened by double clicking the left mouse button on the respective symbol or via the context menu. Figure 19 Protection function settings The settings in the dialog for each protection function are described in detail in Section 5. 32 Application Manual
1MRK 505 353-UEN Section 4 System functions Section 4 System functions 4.1 BP Function Monitoring The BP function monitoring (measurement of primary system values) is made under the Operator mode. The bay units licensed to include bay protection are listed in the overview dialog. To view the measurements, select a bay unit and click on the Continue button or more directly, simply double click on the desired bay unit using the left mouse button. The Select function dialog with a list of bay protection functions and measurements available in the particular bay unit appears. Select the desired function either by double clicking on it or selecting and clicking on the 'Open function' button. The protection function measurement is automatically refreshed. Close the dialog either by clicking on 'OK' or 'Cancel'. Figure 20 Bay protection measurements The primary system values are needed, for example, for checking the measuring direction of the distance protection function while commissioning the protection. Application Manual 33
Section 4 System functions 1MRK 505 353-UEN 4.2 BP Licenses The menu Configuration / BP Licences provides an overview of licensed and configured protection function groups for each bay unit is shown. Figure 21 licensed BP function groups 4.3 CT grounding The location at which the CT neutrals are grounded (line or busbar side) is of consequence to directional protection functions (Distance protection DIST, Directional overcurrent definite time protection DIROCDT and Directional overcurrent inverse time protection DIROCINV). The following table lists the functions with provision for configuring the location of the CT neutral ground: Table 43 CT grounding setting Protection function Distance protection Directional overcurrent definite time protection Directional overcurrent inverse time protection Provision for configuring the CT ground? yes no no The default setting for the last two functions is busbar side, but if a Distance protection function has been configured, its setting (line or busbar side) applies for the directional overcurrent functions as well. 34 Application Manual
1MRK 505 353-UEN Section 5 Bay protection functions Section 5 Bay protection functions 5.1 Application / Technical details For detailed information about application and technical details of the bay protection functions refer to Users Guide REB500/ REB500sys 1MRB520292-Uen Section 12 as follows: Bay protection Function Section Logic 12.15 Delay / integrator 12.16 DIST Distance protection 12.2 OCDT Definite time over and undercurrent protection 12.3 OCINV Inverse time overcurrent protection 12.4 DIROCDT Directional overcurrent definite time protection 12.5 DIROCINV Directional overcurrent inverse time protection 12.6 I0INV Inverse time earthfault overcurrent protection 12.7 OCINST Peak value over and undercurrent protection 12.17 OVDT Definite time over and undervoltage protection 12.8 CHKI3PH Three phase current plausibility 12.11 CHKU3PH Three phase voltage plausibility 12.12 Application Manual 35
Section 5 Bay protection functions 1MRK 505 353-UEN 5.2 Technical additions 5.2.1 Voltage transformers for bay protection The HMI500 Settings/Voltage transformers/overview tab opens a dialog with the list of all voltage transformers in the single-line diagram with their labels, bay labels primary and secondary rated voltages. In the Details view the description can be edited in the input field Markings. The ratio is determined by the primary and secondary ratings entered in the Transformer ratio input field. The VT input is a single winding, which is suitable for all the main VT secondary ratings, the effective voltage being set via HMI500 to either 100 V or 200 V. Other voltages are accommodated by appropriately setting the scaling factor. This menu item appears only if voltage transformers have been fitted. Figure 22 Settings/Voltage transformers 36 Application Manual