ABB Relion REC670 manuals
Relion REC670
Table of contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Section 1 Introduction
- Product documentation
- Document revision history
- Related documents
- Document conventions
- IEC61850 edition 1 / edition 2 mapping
- Section 2 Safety information
- Caution signs
- Section 3 Available functions
- Control and monitoring functions
- Communication
- Basic IED functions
- Section 4 Starting up
- Checking the power supply
- IED start-up sequence
- Writing an application configuration to the IED
- Checking CT circuits
- Checking VT circuits
- Checking the binary I/O circuits
- Section 5 Configuring the IED and changing settings
- Configuring analog CT inputs
- Section 6 Establishing connection and verifying the SPA/IEC communication
- Verifying the communication
- Fibre optic loop
- Section 7 Establishing connection and verifying the LON communication
- The LON Protocol
- Optical budget calculation for serial communication with LON
- Section 8 Establishing connection and verifying the IEC
- Section 9 Testing IED operation
- Preparing the IED to verify settings
- Activating the test mode
- Connecting the test equipment to the IED
- Releasing the function to be tested
- Verifying analog primary and secondary measurement
- Testing the protection functionality
- Forcing of binary I/O signals for testing
- Enable forcing using TESTMODE function block
- Forcing by using PCM600
- operation
- Testing disturbance report
- Event recorder (ER) and Event list (EL)
- Identifying the function to test in the technical reference manual
- Completing the test
- Measuring the operate limit of set values
- Four step non-directional earth fault protection
- Measuring the operate and time limit for set values
- Checking the re-trip and back-up times
- Verifying the back-up trip mode
- Verifying instantaneous back-up trip at CB faulty condition
- Verifying the settings and operation of the function
- Extended testing
- Check of voltage differential trip and alarm levels
- Check of trip and trip reset timers
- Final adjustment of compensation for VT ratio differences
- Verifying the settings
- Rate-of-change frequency protection SAPFRC
- Multipurpose protection
- Overcurrent feature with current restraint
- Over/Undervoltage feature
- Secondary system supervision
- Measuring the operate value for the negative sequence function
- Measuring the operate value for the zero-sequence function
- function
- Control
- Testing the synchronizing function
- Testing the energizing check
- Testing the voltage selection
- Autorecloser for 1/2/3-phase operation SMBRREC
- Preparation of the verification
- Verifying the autorecloser function SMBRREC
- Checking the reclosing conditions
- Voltage control (VCTR) TR1ATCC, TR8ATCC, TCMYLTC TCLYLTC
- Secondary test
- Check the normal voltage regulation function
- Check the upper and lower busbar voltage limit
- Single transformer
- Parallel voltage regulation
- Scheme communication
- Testing permissive overreaching
- Checking of unblocking logic
- Current reversal logic
- ph/3ph operating mode
- ph/2ph/3ph operating mode
- Circuit breaker lockout
- Monitoring
- Testing the liquid medium supervision for alarm and lock out conditions
- Event function EVENT
- Measuring the operate limit
- Transformer Voltage Control ATCC
- Voltage control of Parallel Transformers
- Master Follower (MF) method
- clearing system
- Visual inspection
- Recording
- Measurement of service currents
- Restoring
- Section 13 Glossary
Relion REC670
Table of contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Section 1 Introduction
- Product documentation
- Document revision history
- Related documents
- Document symbols and conventions
- Section 2 Safety information
- Caution signs
- Note signs
- Section 3 Environmental aspects
- Section 4 Unpacking, inspecting and storing
- Returning an IED damaged in transit
- Section 5 Mounting
- Flush mounting
- Mounting procedure for flush mounting
- panel rack mounting
- Mounting procedure for 19" panel rack mounting
- Wall mounting
- Mounting procedure for wall mounting
- Side-by-side 19" rack mounting
- Mounting procedure for side-by-side rack mounting
- Side-by-side flush mounting
- Mounting procedure for side-by-side flush mounting
- Mounting the coupling capacitor unit REX061 and shunt resistor unit REX062 (REG670 only)
- Shunt resistor unit REX062
- Making the electrical connection
- Front side connectors
- Rear side connectors
- Connection examples for high impedance differential protection
- Connecting to protective earth
- Connecting the power supply module
- Connecting the binary input and output signals
- Making the shield connection
- Making the electrical connection to the rotor and stator injection equipment (REG670 only)
- Coupling capacitor unit REX061
- Connecting injection unit REX060, coupling capacitor unit REX061 and shunt resistor unit REX062
- Connecting and setting voltage inputs
- Making of Ethernet connections
- Connecting remote communication interfaces LDCM
- Installing the serial communication cable for RS485
- Installing the serial communication cable for RS485 SPA/IEC
- Data on RS485 serial communication module cable
- Electrical installation
- Section 7 Checking installation
- Section 8 Removing, repairing and exchanging
- Sending the IED for repair
- Section 9 Technical data
- Case with rear cover
- Flush mounting dimensions
- Side-by-side flush mounting dimensions
- Wall mounting dimensions
- Section 10 Glossary
Relion REC670
Table of contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Section 1 Introduction
- Product documentation
- Document revision history
- Document symbols and conventions
- Document conventions
- Section 2 Application
- Main protection functions
- Control and monitoring functions
- Communication
- Basic IED functions
- Section 3 Configuration
- Description of configuration REC670
- Description of configuration A31
- Description of configuration B30
- Description of configuration C30
- Section 4 Analog inputs
- Example
- Example 2
- Example 3
- Examples on how to connect, configure and set CT inputs for most commonly used CT connections
- Example on how to connect a star connected three-phase CT set to the IED
- Example how to connect delta connected three-phase CT set to the IED
- Example how to connect single-phase CT to the IED
- Relationships between setting parameter Base Current, CT rated primary current and minimum pickup of a protection IED
- Setting of voltage channels
- Examples on how to connect a three phase-to-earth connected VT to the IED
- Example on how to connect a phase-to-phase connected VT to the IED
- Example on how to connect an open delta VT to the IED for high impedance earthed or unearthed netwoeks
- Example how to connect the open delta VT to the IED for low impedance earthed or solidly earthed power systems
- Example on how to connect a neutral point VT to the IED
- Section 5 Local HMI
- Display
- LEDs
- Keypad
- Local HMI functionality
- Parameter management
- Section 6 Differential protection
- The basics of the high impedance principle
- Connection examples for high impedance differential protection
- Connections for 1Ph High impedance differential protection HZPDIF
- Setting guidelines
- Tertiary reactor protection
- Alarm level operation
- Section 7 Current protection
- Meshed network without parallel line
- Meshed network with parallel line
- Four step phase overcurrent protection OC4PTOC
- Settings for each step
- nd harmonic restrain
- Instantaneous residual overcurrent protection EFPIOC
- Identification
- Four step residual overcurrent protection, (Zero sequence or negative sequence directionality) EF4PTOC
- Common settings for all steps
- Switch onto fault logic
- Line application example
- Four step directional negative phase sequence overcurrent protection NS4PTOC
- Sensitive directional residual overcurrent and power protection SDEPSDE
- Application
- Thermal overload protection, one time constant, Celsius/Fahrenheit LCPTTR/LFPTTR
- Setting guideline
- Thermal overload protection, two time constants TRPTTR
- Breaker failure protection CCRBRF
- Stub protection STBPTOC
- Directional underpower protection GUPPDUP
- Directional overpower protection GOPPDOP
- Broken conductor check BRCPTOC
- SCB protection
- Restrike detection
- Undervoltage seal-in
- Voltage-restrained overcurrent protection for generator and step-up transformer
- Overcurrent protection with undervoltage seal-in
- Section 8 Voltage protection
- Equipment protection, such as for motors and generators
- Two step overvoltage protection OV2PTOV
- High impedance earthed systems
- Two step residual overvoltage protection ROV2PTOV
- Direct earthed system
- Settings for Two step residual overvoltage protection
- Voltage differential protection VDCPTOV
- Loss of voltage check LOVPTUV
- Section 9 Frequency protection
- Overfrequency protection SAPTOF
- Section 10 Multipurpose protection
- Current and voltage selection for CVGAPC function
- Base quantities for CVGAPC function
- Inadvertent generator energization
- Negative sequence overcurrent protection
- Generator stator overload protection in accordance with IEC or ANSI standards
- Open phase protection for transformer, lines or generators and circuit breaker head flashover protection for generators
- Voltage restrained overcurrent protection for generator and step-up transformer
- Section 11 System protection and control
- Section 12 Secondary system supervision
- Fuse failure supervision FUFSPVC
- Zero sequence based
- Delta U and delta I
- Section 13 Control
- Synchrocheck
- Energizing check
- External fuse failure
- Application examples
- Single circuit breaker with double busbar, external voltage selection
- Double circuit breaker
- Autorecloser for 1 phase, 2 phase and/or 3 phase operation SMBRREC
- Auto-reclosing operation OFF and ON
- Start auto-reclosing and conditions for start of a reclosing cycle
- Long trip signal
- ARMode = 1/2ph , 1-phase or 2-phase reclosing in the first shot
- External selection of auto-reclose mode
- Pulsing of the CB closing command and Counter
- Evolving fault
- Automatic continuation of the reclosing sequence
- Auto-recloser parameter settings
- Apparatus control APC
- Bay control (QCBAY)
- Switch controller (SCSWI)
- Switches (SXCBR/SXSWI)
- Interaction between modules
- Switch (SXCBR/SXSWI)
- Configuration guidelines
- Signals from bus-coupler
- Configuration setting
- Interlocking for bus-coupler bay ABC_BC
- Configuration
- Interlocking for transformer bay AB_TRAFO
- Signals in double-breaker arrangement
- Signals in 1 1/2 breaker arrangement
- Interlocking for busbar earthing switch BB_ES
- Voltage control
- TR1ATCC or TR8ATCC Setting group
- TCMYLTC and TCLYLTC general settings
- Scheme communication logic for distance or overcurrent protection ZCPSCH
- Delta blocking scheme
- Permissive schemes
- Intertrip scheme
- Permissive underreaching scheme
- Local acceleration logic ZCLCPSCH
- Scheme communication logic for residual overcurrent protection ECPSCH
- Weak-end infeed
- Tripping logic SMPPTRC
- Three-phase tripping
- Single-, two- or three-phase tripping
- Trip matrix logic TMAGAPC
- Fixed signal function block FXDSIGN
- Boolean 16 to Integer conversion B16I
- Boolean to integer conversion with logical node representation, 16 bit BTIGAPC
- Integer to Boolean 16 conversion IB16
- Integer to Boolean 16 conversion with logic node representation ITBGAPC
- Elapsed time integrator with limit transgression and overflow supervision TEIGAPC
- Comparator for integer inputs - INTCOMP
- Setting example
- Measurement
- Zero clamping
- Setting examples
- Gas medium supervision SSIMG
- Event function EVENT
- Recording times
- Binary input signals
- Sub-function parameters
- Logical signal status report BINSTATREP
- Fault locator LMBRFLO
- Connection of analog currents
- Limit counter L4UFCNT
- Section 17 Metering
- Function for energy calculation and demand handling ETPMMTR
- Communication protocols
- Horizontal communication via GOOSE for interlocking GOOSEINTLKRCV
- IEC 61850-8-1 redundant station bus communication
- IEC 61850-9-2LE communication protocol
- Specific settings related to the IEC 61850-9-2LE communication
- Setting examples for IEC 61850-9-2LE and time synchronization
- LON communication protocol
- MULTICMDRCV and MULTICMDSND
- IEC 60870-5-103 communication protocol
- DNP3 Communication protocol
- Binary signal transfer
- Authority status ATHSTAT
- Change lock CHNGLCK
- IED identifiers
- Measured value expander block RANGE_XP
- Parameter setting groups
- Test mode functionality TEST
- IEC 61850 protocol test mode
- Process bus IEC 61850-9-2LE synchronization
- Current transformer requirements
- Fault current
- General current transformer requirements
- Non-directional instantaneous and definitive time, phase and residual overcurrent protection
- Directional phase and residual overcurrent protection
- Current transformer requirements for CTs according to other standards
- Current transformers according to ANSI/IEEE
- SNTP server requirements
- IEC 61850-9-2LE Merging unit requirements
- Section 23 Glossary
Relion REC670
Table of contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Section 1 Introduction
- Product documentation
- Document revision history
- Document symbols and conventions
- Document conventions
- Section 2 Application
- Main protection functions
- Control and monitoring functions
- Communication
- Basic IED functions
- Section 3 Configuration
- Description of configuration A31
- Description of configuration B30
- Description of configuration C30
- Description of configuration REB670
- Description of 3 ph package A20A
- Description of 3 ph package A31A
- Description of 1 ph package B20A
- Description of 1 ph package B31A
- Section 4 Analog inputs
- Example
- Example 2
- Examples on how to connect, configure and set CT inputs for most commonly used CT connections
- Example on how to connect a wye connected three-phase CT set to the IED
- Example how to connect delta connected three-phase CT set to the IED
- Example how to connect single-phase CT to the IED
- Relationships between setting parameter Base Current, CT rated primary current and minimum pickup of a protection IED
- Examples how to connect, configure and set VT inputs for most commonly used VT connections
- Example on how to connect a phase-to-phase connected VT to the IED
- Example on how to connect an open delta VT to the IED for high impedance grounded or ungrounded netwoeks
- Example how to connect the open delta VT to the IED for low impedance grounded or solidly grounded power systems
- Example on how to connect a neutral point VT to the IED
- Section 5 Local HMI
- Display
- LEDs
- Keypad
- Local HMI functionality
- Parameter management
- Section 6 Differential protection
- The basics of the high impedance principle
- Connection examples for high impedance differential protection
- Connections for 1Ph High impedance differential protection HZPDIF (87)
- Setting guidelines
- T-feeder protection
- Tertiary reactor protection
- Alarm level operation
- Section 7 Current protection
- Meshed network without parallel line
- Meshed network with parallel line
- Four step phase overcurrent protection OC4PTOC(51/67)
- Identification
- Settings for each step
- nd harmonic restrain
- Instantaneous residual overcurrent protection EFPIOC (50N)
- Four step residual overcurrent protection, (Zero sequence or negative sequence directionality) EF4PTOC (51N/67N)
- Common settings for all steps
- Parallel transformer inrush current logic
- Line application example
- Four step directional negative phase sequence overcurrent protection NS4PTOC (46I2)
- Sensitive directional residual overcurrent and power protection SDEPSDE (67N)
- Application
- Thermal overload protection, one time constant Fahrenheit/Celsius LFPTTR LCPTTR (26)
- Setting guideline
- Breaker failure protection CCRBRF(50BF)
- Breaker failure protection, single phase version CCSRBRF (50BF)
- Stub protection STBPTOC (50STB)
- Pole discrepancy protection CCPDSC(52PD)
- Directional underpower protection GUPPDUP (37)
- Directional overpower protection GOPPDOP (32)
- Broken conductor check BRCPTOC (46)
- SCB protection
- Restrike detection
- Base quantities
- Voltage-restrained overcurrent protection for generator and step-up transformer
- Overcurrent protection with undervoltage seal-in
- Section 8 Voltage protection
- Two step overvoltage protection OV2PTOV (59)
- Equipment protection, capacitors
- Two step residual overvoltage protection ROV2PTOV (59N)
- Equipment protection, such as for motors, generators, reactors and transformers
- Direct grounded system
- Settings for Two step residual overvoltage protection
- Voltage differential protection VDCPTOV (60)
- Loss of voltage check LOVPTUV (27)
- Section 9 Frequency protection
- Overfrequency protection SAPTOF (81)
- Frequency time accumulation protection function FTAQFVR (81A)
- General current and voltage protection CVGAPC
- Current and voltage selection for CVGAPC function
- Base quantities for CVGAPC function
- Application possibilities
- Negative sequence overcurrent protection
- Generator stator overload protection in accordance with IEC or ANSI standards
- Open phase protection for transformer, lines or generators and circuit breaker head flashover protection for generators
- Loss of excitation protection for a generator
- Section 11 System protection and control
- Section 12 Secondary system supervision
- Fuse failure supervision FUFSPVC
- Negative sequence based
- Delta V and delta I
- Fuse failure supervision VDSPVC (60)
- Section 13 Control
- Synchronism check
- Energizing check
- Voltage selection
- Application examples
- Single circuit breaker with single busbar
- Single circuit breaker with double busbar, external voltage selection
- Single circuit breaker with double busbar, internal voltage selection
- Double circuit breaker
- Breaker-and-a-half
- Autorecloser for 1 phase, 2 phase and/or 3 phase operation SMBRREC (79)
- Auto-reclosing operation OFF and ON
- Initiate auto-reclosing from CB open information
- Long trip signal
- ARMode = 1/2ph , 1-phase or 2-phase reclosing in the first shot
- External selection of auto-reclose mode
- Reclosing reset timer
- Evolving fault
- Automatic continuation of the reclosing sequence
- Auto-recloser parameter settings
- Apparatus control APC
- Bay control (QCBAY)
- Switch controller (SCSWI)
- Switches (SXCBR/SXSWI)
- Interaction between modules
- Switch (SXCBR/SXSWI)
- Configuration guidelines
- Signals from bus-coupler
- Configuration setting
- Interlocking for bus-coupler bay ABC_BC (3)
- Configuration
- Interlocking for transformer bay AB_TRAFO (3)
- Interlocking for bus-section breaker A1A2_BS (3)
- Signals in double-breaker arrangement
- Signals in breaker and a half arrangement
- Interlocking for busbar grounding switch BB_ES (3)
- Interlocking for breaker-and-a-half diameter BH (3)
- Voltage control
- TR1ATCC (90) or TR8ATCC (90) Setting group
- TCMYLTC and TCLYLTC (84) general settings
- Logic rotating switch for function selection and LHMI presentation SLGAPC
- Selector mini switch VSGAPC
- AutomationBits, command function for DNP3.0 AUTOBITS
- Scheme communication logic for distance or overcurrent protection ZCPSCH(85)
- Blocking schemes
- Permissive schemes
- Intertrip scheme
- Delta blocking scheme
- Weak-end infeed logic
- Local acceleration logic ZCLCPSCH
- Scheme communication logic for residual overcurrent protection ECPSCH (85)
- Weak-end infeed
- Tripping logic SMPPTRC (94)
- Three-pole tripping
- Single-, two- or three-pole tripping
- Blocking of the function block
- Fixed signal function block FXDSIGN
- Boolean 16 to Integer conversion B16I
- Boolean to integer conversion with logical node representation, 16 bit BTIGAPC
- Integer to Boolean 16 conversion IB16
- Integer to Boolean 16 conversion with logic node representation ITBGAPC
- Elapsed time integrator with limit transgression and overflow supervision TEIGAPC
- Comparator for real inputs - REALCOMP
- Setting example
- Measurement
- Zero clamping
- Setting examples
- Gas medium supervision SSIMG (63)
- Breaker monitoring SSCBR
- Event function EVENT
- Disturbance report DRPRDRE
- Recording times
- Analog input signals
- Consideration
- Connection of analog currents
- Limit counter L4UFCNT
- Pulse-counter logic PCFCNT
- Function for energy calculation and demand handling ETPMMTR
- Communication protocols
- Horizontal communication via GOOSE for interlocking GOOSEINTLKRCV
- IEC 61850-8-1 redundant station bus communication
- IEC 61850-9-2LE communication protocol
- Setting examples for IEC 61850-9-2LE and time synchronization
- LON communication protocol
- MULTICMDRCV and MULTICMDSND
- IEC 60870-5-103 communication protocol
- DNP3 Communication protocol
- Section 19 Remote communication
- Section 20 Security
- Change lock CHNGLCK
- Denial of service DOS
- Section 21 Basic IED functions
- Measured value expander block RANGE_XP
- Signal matrix for binary outputs SMBO
- Frequency values
- Test mode functionality TEST
- IEC 61850 protocol test mode
- Process bus IEC 61850-9-2LE synchronization
- Current transformer requirements
- Conditions
- General current transformer requirements
- Non-directional instantaneous and definitive time, phase and residual overcurrent protection
- Non-directional inverse time delayed phase and residual overcurrent protection
- Current transformer requirements for CTs according to other standards
- Current transformers according to ANSI/IEEE
- Voltage transformer requirements
- IEC 61850-9-2LE Merging unit requirements
- Section 23 Glossary
Relion REC670
Table of contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Section 1 Introduction
- Product documentation
- Document revision history
- Document symbols and conventions
- Document conventions
- Section 2 Safety information
- Caution signs
- Note signs
- Section 3 Environmental aspects
- Section 4 Unpacking, inspecting and storing
- Storing
- Section 5 Mounting
- Flush mounting
- Mounting procedure for flush mounting
- Mounting procedure for 19" panel rack mounting
- Wall mounting
- Side-by-side 19" rack mounting
- Mounting procedure for side-by-side rack mounting
- Side-by-side flush mounting
- Mounting procedure for side-by-side flush mounting
- Coupling capacitor unit REX061
- Shunt resistor unit REX062
- Section 6 Connecting
- Front side connectors
- Rear side connectors
- Connection examples for high impedance differential protection
- Connecting to protective ground
- Connecting to CT and VT circuits
- Connecting the binary input and output signals
- Making the shield connection
- Making the electrical connection to the rotor and stator injection equipment (REG670 only)
- Connecting injection unit REX060, coupling capacitor unit REX061 and shunt resistor unit REX062
- Connecting and setting voltage inputs
- Making of Ethernet connections
- Connecting remote communication interfaces LDCM
- Installing the serial communication cable for RS485
- Installing the serial communication cable for RS485 SPA/IEC
- Data on RS485 serial communication module cable
- Installing the GPS antenna
- Electrical installation
- Section 7 Checking installation
- Section 8 Removing, repairing and exchanging
- Exchanging the IED
- Section 9 Technical data
- Case with protective cover
- Flush mounting dimensions
- Side-by-side flush mounting dimensions
- Wall mounting dimensions
- Section 10 Glossary
Relion REC670
Table of contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Section 1 Introduction
- About the operator's manual
- Intended audience
- Revision notes
- Section 2 Safety information
- Section 3 Overview
- Section 4 Understand the local human-machine interface
- Keypad
- Key activated screens
- The Reset screen
- Introduction
- Local HMI setup
- Control
- Section 5 Understand the HMI tree
- Section 6 Read measured values
- View analog primary values
- View analog mean values
- Voltage phasors VMMXU/VNMMXU
- Function for energy calculation and demand handling ETPMMTR
- View events
- Identify a disturbance
- View event recordings
- System time and synchronization
- TimeSynchBIN
- Power system
- SPA, LON and IEC 60870–5–103 settings
- Station communication
- Ethernet configuration
- Analog and I/O modules
- I/O modules
- Functions
- Control commands
- Monitoring
- Voltage sequence components VMSQI
- Event function
- Current protection
- Instantaneous residual overcurrent protection EFPIOC
- Stub protection STBPTOC
- Two step residual overvoltage protection ROV2PTOV
- Underfrequency protection SAPTUF
- Current reversal and weak-end infeed logic for distance protection ZCRWPSCH
- Current circuit supervision CCSRDIF
- TCLYLTC
- Logic
- LogicTimerSet
- Read internal events
- Overview
- IED test mode
- Signal matrix for binary input SMBI
- Broken conductor check BRCPTOC
- Four step residual overcurrent protection EF4PTOC
- Voltage protection
- Overfrequency protection SAPTOF
- Scheme communication
- Secondary system supervision
- Autorecloser SMBRREC
- Commands
- IEC61850 generic communication I/O functions DPGGIO
- Disturbance report DRPRDRE
- LEDs
- Tripping logic SMPPTRC
- Logic timer set qt
- Setting groups
- Control screen messages
- Reset guide
- LDCM clear counters
- All indication LEDs
- Section 14 Authorization
- LogOn or logOff
- Section 15 Glossary
Relion REC670
Table of contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- section 1 introduction
- Product documentation
- Document revision history
- Related documents
- Document conventions
- IEC 61850 edition 1 / edition 2 mapping
- Section 2 Application
- Main protection functions
- Back-up protection functions
- Control and monitoring functions
- Communication
- Basic IED functions
- Section 3 Configuration
- Description of configuration B30
- Description of configuration C30
- Description of configuration D30
- Section 4 Analog inputs
- Example
- Example 1
- Example 3
- for most commonly used CT connections
- Example on how to connect a wye connected three-phase CT set to the IED
- Example how to connect delta connected three-phase CT set to the IED
- Example how to connect single-phase CT to the IED
- Relationships between setting parameter Base Current, CT rated primary current and minimum pickup of a protection IED
- Examples on how to connect a three phase-to-ground connected VT to the IED
- Example on how to connect a phase-to-phase connected VT to the IED
- Example on how to connect an open delta VT to the IED for high impedance grounded or ungrounded networks
- Example how to connect the open delta VT to the IED for low impedance grounded or solidly grounded power systems
- Section 5 Local HMI
- Display
- LEDs
- Keypad
- Local HMI functionality
- Parameter management
- Front communication
- C37.118 Phasor Measurement Data Streaming Protocol Configuration PMUCONF
- Short guidance for use of TCP
- Short guidance for use of UDP
- Protocol reporting via IEEE 1344 and C37.118 PMUREPORT
- Application
- Operation principle
- Frequency reporting
- Reporting filters
- Scaling Factors for ANALOGREPORT channels
- PMU Report Function Blocks Connection Rules in PCM600 Application Configuration Tool (ACT)
- Setting guidelines
- High impedance differential protection, single phase HZPDIF (87)
- The basics of the high impedance principle
- Connection examples for high impedance differential protection
- Connections for 1Ph High impedance differential protection HZPDIF (87)
- Configuration
- Tertiary reactor protection
- Alarm level operation
- Instantaneous phase overcurrent protection PHPIOC (50)
- Meshed network without parallel line
- Meshed network with parallel line
- Directional phase overcurrent protection, four steps OC4PTOC(51_67)
- Settings for each step
- Setting example
- Instantaneous residual overcurrent protection EFPIOC (50N)
- Identification
- nd harmonic restrain
- Switch onto fault logic
- Settings for each step (x = 1, 2, 3 and 4)
- Line application example
- Four step directional negative phase sequence overcurrent protection NS4PTOC (46I2)
- Common settings for all steps
- Sensitive directional residual overcurrent and power protection SDEPSDE (67N)
- Thermal overload protection, one time constant Fahrenheit Celsius LFPTTR/LCPTTR (26)
- Setting guideline
- Breaker failure protection CCRBRF(50BF)
- Stub protection STBPTOC (50STB)
- Pole discrepancy protection CCPDSC(52PD)
- Directional underpower protection GUPPDUP (37)
- Directional overpower protection GOPPDOP (32)
- Broken conductor check BRCPTOC (46)
- SCB protection
- Restrike detection
- Voltage-restrained time overcurrent protection VRPVOC (51V)
- Base quantities
- Undervoltage seal-in
- Voltage-restrained overcurrent protection for generator and step-up transformer
- Two step undervoltage protection UV2PTUV (27)
- Backup protection for power system faults
- Two step overvoltage protection OV2PTOV (59)
- Power supply quality
- Two step residual overvoltage protection ROV2PTOV (59N)
- Direct grounded system
- Voltage differential protection VDCPTOV (60)
- Loss of voltage check LOVPTUV (27)
- Underfrequency protection SAPTUF (81)
- Rate-of-change of frequency protection SAPFRC (81)
- Frequency time accumulation protection function FTAQFVR (81A)
- General current and voltage protection CVGAPC
- Current and voltage selection for CVGAPC function
- Base quantities for CVGAPC function
- Inadvertent generator energization
- Negative sequence overcurrent protection
- Generator stator overload protection in accordance with IEC or ANSI standards
- Open phase protection for transformer, lines or generators and circuit breaker head flashover protection for generators
- Voltage restrained overcurrent protection for generator and step-up transformer
- Multipurpose filter SMAIHPAC
- Current circuit supervision (87)
- Setting of common parameters
- Zero sequence based
- Dead line detection
- Fuse failure supervision VDSPVC (60)
- Synchronism check, energizing check, and synchronizing SESRSYN (25)
- Synchronism check
- Energizing check
- Voltage selection
- External fuse failure
- Application examples
- Single circuit breaker with single busbar
- Single circuit breaker with double busbar, external voltage selection
- Single circuit breaker with double busbar, internal voltage selection
- Double circuit breaker
- Breaker-and-a-half
- SMBRREC (79)
- Auto reclosing operation Off and On
- Initiate auto reclosing and conditions for start of a reclosing cycle
- Control of the auto reclosing dead time for shot 1
- Maximum number of reclosing shots
- ARMode = 1/2ph , 1-phase or 2-phase reclosing in the first shot
- External selection of auto reclosing mode
- Auto reclosing reset timer
- Lock-out initiation
- Evolving fault
- Automatic continuation of the auto reclosing sequence
- Auto recloser settings
- Apparatus control APC
- Bay control QCBAY
- Switch controller SCSWI
- Proxy for signals from switching device via GOOSE XLNPROXY
- Reservation function (QCRSV and RESIN)
- Interaction between modules
- Switch (SXCBR/SXSWI)
- Bay Reserve (QCRSV)
- Configuration guidelines
- Interlocking for line bay ABC_LINE (3)
- Signals from bus-coupler
- Configuration setting
- Interlocking for bus-coupler bay ABC_BC (3)
- Interlocking for transformer bay AB_TRAFO (3)
- Interlocking for bus-section breaker A1A2_BS (3)
- Interlocking for bus-section disconnector A1A2_DC (3)
- Signals in double-breaker arrangement
- Signals in breaker and a half arrangement
- Interlocking for busbar grounding switch BB_ES (3)
- Signals in single breaker arrangement
- Interlocking for double CB bay DB (3)
- Interlocking for breaker-and-a-half diameter BH (3)
- Voltage control
- TR1ATCC (90) or TR8ATCC (90) Setting group
- TCMYLTC and TCLYLTC (84) general settings
- Logic rotating switch for function selection and LHMI presentation SLGAPC
- Selector mini switch VSGAPC
- protection ZCPSCH(85)
- Blocking schemes
- Delta blocking scheme
- Permissive schemes
- Intertrip scheme
- Weak-end infeed logic
- Scheme communication logic for residual overcurrent protection ECPSCH (85)
- Current reversal and weak-end infeed logic for residual overcurrent protection ECRWPSCH (85)
- Current reversal
- Weak-end infeed
- Tripping logic SMPPTRC (94)
- Three-pole tripping
- Single- and/or three-pole tripping
- Single-, two- or three-pole tripping
- Lock-out
- Blocking of the function block
- Fixed signal function block FXDSIGN
- Boolean 16 to Integer conversion B16I
- Boolean to integer conversion with logical node representation
- Integer to Boolean 16 conversion IB16
- Integer to Boolean 16 conversion with logic node representation ITBGAPC
- Elapsed time integrator with limit transgression and overflow supervision TEIGAPC
- Comparator for integer inputs - INTCOMP
- Comparator for real inputs - REALCOMP
- Measurement
- Zero clamping
- Setting examples
- Gas medium supervision SSIMG (63)
- Liquid medium supervision SSIML (71)
- Breaker monitoring SSCBR
- Event function EVENT
- Recording times
- Analog input signals
- Sub-function parameters
- Logical signal status report BINSTATREP
- Connection of analog currents
- Limit counter L4UFCNT
- Setting parameters for insulation loss of life calculation function (LOL1)
- Pulse-counter logic PCFCNT
- Function for energy calculation and demand handling ETPMMTR
- Access point
- Redundant communication
- Merging unit
- Communication protocols
- sending data
- receiving data
- LON communication protocol
- MULTICMDRCV and MULTICMDSND
- IEC 60870-5-103 communication protocol
- Design
- Settings
- Settings from PCM600
- Function and information types
- DNP3 Communication protocol
- Binary signal transfer
- Communication hardware solutions
- Authority status ATHSTAT
- Change lock CHNGLCK
- Denial of service SCHLCCH/RCHLCCH
- IED identifiers TERMINALID
- Factory defined settings
- Summation block 3 phase 3PHSUM
- Signal matrix for binary outputs SMBO
- Test mode functionality TESTMODE
- Time synchronization TIMESYNCHGEN
- Current transformer requirements
- Conditions
- Fault current
- General current transformer requirements
- Breaker failure protection
- Non-directional inverse time delayed phase and residual overcurrent protection
- Directional phase and residual overcurrent protection
- Current transformer requirements for CTs according to other standards
- Current transformers according to ANSI/IEEE
- Voltage transformer requirements
- protection and control terminals in digital telecommunication networks
- Section 25 Glossary
Relion REC670
Table of contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- section 1 introduction
- Product documentation
- Document revision history
- Related documents
- Document conventions
- IEC 61850 edition 1 / edition 2 mapping
- Section 2 Application
- Main protection functions
- Back-up protection functions
- Control and monitoring functions
- Communication
- Basic IED functions
- Section 3 Configuration
- Description of configuration B30
- Description of configuration C30
- Description of configuration D30
- analog inputs
- Setting of the phase reference channel
- Example 1
- Example 3
- Examples on how to connect, configure and set CT inputs for most commonly used CT connections
- phase CT set to the IED
- Example how to connect delta connected three-phase CT set to the IED
- Example how to connect single-phase CT to the IED
- Relationships between setting parameter Base Current, CT rated primary current and minimum pickup of a protection IED
- Examples how to connect, configure and set VT inputs for most commonly used VT connections
- Examples on how to connect a three phase-to-earth connected VT to the IED
- Example on how to connect a phase-to-phase connected VT to the IED
- Example on how to connect an open delta VT to the IED for high impedance earthed or unearthed networks
- for low impedance earthed or solidly earthed power systems
- Section 5 Local HMI
- Display
- LEDs
- Keypad
- Local HMI functionality
- Parameter management
- Front communication
- C37.118 Phasor Measurement Data Streaming Protocol Configuration PMUCONF
- Short guidance for use of TCP
- Short guidance for use of UDP
- Protocol reporting via IEEE 1344 and C37.118 PMUREPORT
- Operation principle
- Frequency reporting
- Reporting filters
- Scaling Factors for ANALOGREPORT channels
- PCM600 Application Configuration Tool (ACT)
- Setting guidelines
- High impedance differential protection, single phase HZPDIF
- The basics of the high impedance principle
- Connection examples for high impedance differential protection
- Connections for 1Ph High impedance differential protection HZPDIF
- T-feeder protection
- Tertiary reactor protection
- Alarm level operation
- Instantaneous phase overcurrent protection PHPIOC
- Meshed network with parallel line
- Directional phase overcurrent protection, four steps OC4PTOC
- Settings for each step
- Setting example
- Instantaneous residual overcurrent protection EFPIOC
- Directional residual overcurrent protection, four steps EF4PTOC
- Common settings for all steps
- nd harmonic restrain
- Parallel transformer inrush current logic
- Switch onto fault logic
- Settings for each step (x = 1, 2, 3 and 4)
- Line application example
- Four step directional negative phase sequence overcurrent protection NS4PTOC
- Sensitive directional residual overcurrent and power protection SDEPSDE
- Identification
- Thermal overload protection, one time constant, Celsius Fahrenheit LCPTTR/LFPTTR
- Setting guideline
- Breaker failure protection CCRBRF
- Stub protection STBPTOC
- Pole discordance protection CCPDSC
- Application
- Directional overpower protection GOPPDOP
- Broken conductor check BRCPTOC
- Capacitor bank protection CBPGAPC
- SCB protection
- Restrike detection
- Application possibilities
- Voltage-restrained overcurrent protection for generator and step-up transformer
- Two step undervoltage protection UV2PTUV
- Settings for two step undervoltage protection
- Two step overvoltage protection OV2PTOV
- Equipment protection, such as for motors, generators reactors and transformers
- Two step residual overvoltage protection ROV2PTOV
- reactors and transformersEquipment protection for transformers
- Direct earthed system
- Settings for two step residual overvoltage protection
- Voltage differential protection VDCPTOV
- Loss of voltage check LOVPTUV
- Underfrequency protection SAPTUF
- Overfrequency protection SAPTOF
- Rate-of-change of frequency protection SAPFRC
- Frequency time accumulation protection function FTAQFVR
- General current and voltage protection CVGAPC
- Current and voltage selection for CVGAPC function
- Base quantities for CVGAPC function
- Inadvertent generator energization
- Negative sequence overcurrent protection
- Generator stator overload protection in accordance with IEC or ANSI standards
- generators and circuit breaker head flashover protection for generators
- Voltage restrained overcurrent protection for generator and step-up transformer
- Loss of excitation protection for a generator
- Multipurpose filter SMAIHPAC
- Current circuit supervision CCSSPVC
- Fuse failure supervision FUFSPVC
- Negative sequence based
- Zero sequence based
- Dead line detection
- Synchrocheck, energizing check, and synchronizing SESRSYN
- Synchrocheck
- Energizing check
- Voltage selection
- External fuse failure
- Application examples
- Single circuit breaker with single busbar
- Single circuit breaker with double busbar, external voltage selection
- Double circuit breaker
- SMBRREC
- Auto reclosing operation Off and On
- Start auto reclosing from circuit breaker open information
- Long trip signal
- first shot
- ARMode = 1ph + 1*2/3ph, 1-phase, 2-phase or 3-phase reclosing in the first shot
- Auto reclosing reclaim timer
- Lock-out initiation
- Evolving fault
- Automatic continuation of the auto reclosing sequence
- Auto recloser settings
- Apparatus control APC
- Bay control QCBAY
- Switch controller SCSWI
- Switches SXCBR/SXSWI
- XLNPROXY
- Reservation function (QCRSV and RESIN)
- Interaction between modules
- Bay control (QCBAY)
- Switch (SXCBR/SXSWI)
- Reservation input (RESIN)
- Configuration guidelines
- Signals from bypass busbar
- Signals from bus-coupler
- Configuration setting
- Interlocking for bus-coupler bay ABC_BC
- Interlocking for transformer bay AB_TRAFO
- Interlocking for bus-section breaker A1A2_BS
- Interlocking for bus-section disconnector A1A2_DC
- Signals in double-breaker arrangement
- Signals in 1 1/2 breaker arrangement
- Interlocking for busbar earthing switch BB_ES
- Interlocking for double CB bay DB
- Interlocking for 1 1/2 CB BH
- Voltage control
- TR1ATCC or TR8ATCC Setting group
- TCMYLTC and TCLYLTC general settings
- Logic rotating switch for function selection and LHMI presentation SLGAPC
- Selector mini switch VSGAPC
- Scheme communication logic for distance or overcurrent protection ZCPSCH
- Blocking schemes
- Delta blocking scheme
- Permissive schemes
- Intertrip scheme
- Permissive underreaching scheme
- Current reversal and Weak-end infeed logic for distance protection 3-phase ZCRWPSCH
- Weak-end infeed logic
- Local acceleration logic ZCLCPSCH
- Scheme communication logic for residual overcurrent protection ECPSCH
- Current reversal and weak-end infeed logic for residual overcurrent protection ECRWPSCH
- Weak-end infeed
- Tripping logic SMPPTRC
- Three-phase tripping
- Single- and/or three-phase tripping
- Single-, two- or three-phase tripping
- Example of directional data
- Blocking of the function block
- Fixed signal function block FXDSIGN
- Boolean 16 to Integer conversion B16I
- representation, 16 bit BTIGAPC
- Integer to Boolean 16 conversion IB16
- representation ITBGAPC
- Elapsed time integrator with limit transgression and overflow supervision TEIGAPC
- Comparator for real inputs - REALCOMP
- Measurement
- Zero clamping
- Setting examples
- Gas medium supervision SSIMG
- Liquid medium supervision SSIML
- Breaker monitoring SSCBR
- Event function EVENT
- Recording times
- Binary input signals
- Sub-function parameters
- Logical signal status report BINSTATREP
- Connection of analog currents
- Limit counter L4UFCNT
- Estimation of transformer insulation life LOLSPTR
- Pulse-counter logic PCFCNT
- Function for energy calculation and demand handling ETPMMTR
- Access point
- Redundant communication
- Merging unit
- Communication protocols
- sending data
- receiving data
- IEC/UCA 61850-9-2LE communication protocol
- Specific settings related to the IEC/UCA 61850-9-2LE communication
- Setting examples for IEC/UCA 61850-9-2LE and time synchronization
- IEC 61850 quality expander QUALEXP
- LON communication protocol
- MULTICMDRCV and MULTICMDSND
- IEC 60870-5-103 communication protocol
- Design
- Settings
- Settings for RS485 and optical serial communication
- Settings from PCM600
- Function and information types
- DNP3 Communication protocol
- Binary signal transfer
- Communication hardware solutions
- Authority status ATHSTAT
- Change lock CHNGLCK
- Denial of service SCHLCCH/RCHLCCH
- IED identifiers TERMINALID
- Measured value expander block RANGE_XP
- Signal matrix for binary inputs SMBI
- Signal matrix for mA inputs SMMI
- Test mode functionality TESTMODE
- Process bus IEC/UCA 61850-9-2LE synchronization
- Current transformer requirements
- Conditions
- Fault current
- General current transformer requirements
- Non-directional instantaneous and definitive time, phase and residual overcurrent protection
- Non-directional inverse time delayed phase and residual overcurrent protection
- Directional phase and residual overcurrent protection
- PX, PXR (and old IEC 60044-6, class TPS and old British Standard, class X)
- Voltage transformer requirements
- PTP requirements
- IEC/UCA 61850-9-2LE Merging unit requirements
- Application manual
- Section 25 Glossary
Relion REC670
Table of contents
- Table Of Contents
- Application
- Available functions
- Control
- Differential protection
- Voltage protection
- Frequency protection
- Multipurpose protection
- Scheme communication
- Monitoring
- Metering
- Human machine interface
- Station communication
- Remote communication
- Connection diagrams
- Technical data
- Ordering for customized IED
- Ordering for pre-configured IED
- Ordering for Accessories
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