ABB Relion REC615 manuals
Relion REC615
Table of contents
- Table Of Contents
- Table Of Contents
- Section 1 Introduction
- Product documentation
- Related documentation
- Section 2 Environmental aspects
- Section 3 Unpacking, inspecting and storing
- Returning a product damaged in transit
- Section 4 Mounting
- Installing plug-in unit
- Sealing plug-in unit
- Securing handle
- Mounting protection relay
- Flush mounting protection relay
- Semi-flush mounting protection relay
- Semi-flush mounting protection relay inclined
- Rack mounting protection relay
- Wall mounting protection relay
- Section 5 Connecting
- Connecting ring-lug type wires
- Connecting analog signals
- Connecting current and voltage sensor signalling inputs
- Connecting protection relay with a test switch
- Connecting power supply
- Connecting communication
- Section 6 Removing, repairing and exchanging
- Removing protection relay
- Exchanging protection relay
- Section 7 Technical data
- Rear side of the protection relay
- Dimensions
- Enclosure class
- Section 8 Accessories and ordering data
- Section 9 Glossary
Relion REC615
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
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Section 1 Introduction
- Product documentation
- Related documentation
- Document conventions
- Section 2 REC615 and RER615 overview
- PCM600 and IED connectivity package version
- Display
- LEDs
- Authorization
- Communication
- Ethernet redundancy
- Process bus
- Secure communication
- Section 3 Basic functions
- Warnings
- LED indication control
- Programmable LEDs
- Signals
- Settings
- Monitored data
- Time synchronization
- Parameter setting groups
- Test mode
- Application configuration and Test mode
- Application configuration and Control mode
- Fault recorder FLTRFRC
- Nonvolatile memory
- Sensor inputs for currents and voltages
- Binary input
- Binary input inversion
- Oscillation suppression
- Power output contacts
- supervision
- Signal output contacts
- Signal outputs SO1 and SO2 in power supply module
- Signal outputs SO1, SO2 and SO3 in BIO0006
- RTD/mA inputs
- Selection of output value format
- Measurement chain supervision
- Calibration
- Deadband supervision
- RTD temperature vs. resistance
- RTD/mA input connection
- RTD/mA card variants
- SMV function blocks
- Functionality
- GOOSERCV_BIN function block
- GOOSERCV_ENUM function block
- Type conversion function blocks
- QTY_BAD function block
- T_DIR function block
- AND function block
- XOR function block
- MAX3 function block
- MIN3 function block
- R_TRIG function block
- T_POS_XX function blocks
- SWITCHR function block
- SWITCHI32 function block
- SR function block
- RS function block
- Minimum pulse timer
- Minimum pulse timer TPSGAPC
- Minimum pulse timer TPMGAPC
- Pulse timer function block PTGAPC
- Technical data
- Application
- Move (8 pcs) MVGAPC
- Local/remote control function block CONTROL
- L/R control access
- Station authority level "L,R,L+R
- Station authority level "L,S,R
- Station authority level "L,S,S+R,L+S,L+S+R
- Generic control point (16 pcs) SPCGAPC
- Remote generic control points SPCRGAPC
- Local generic control points SPCLGAPC
- Programmable buttons (4 buttons) FKEY4GGIO
- Load profile record LDPRLRC
- Length of record
- Clearing of record
- Configuration
- Three-phase current protection
- Operation principle
- Measurement modes
- Timer characteristics
- Function block
- Directional overcurrent characteristics
- Three-phase thermal protection for feeders, cables and distribution transformers T1PTTR
- Loss of phase, undercurrent PHPTUC
- Earth-fault protection
- Technical revision history
- Directional earth-fault protection (F)DEFxPDEF
- Directional earth-fault principles
- Directional earth-fault characteristics
- Neutral admittance characteristics
- Harmonics-based earth-fault protection HAEFPTOC
- Wattmetric-based earth-fault protection WPWDE
- Residual overvoltage protection ROVPTOV
- Power protection
- Three-phase inrush detector INRPHAR
- Master trip TRPPTRC
- Phase selection logic
- Fault impedance and distance calculation
- Trigger detection
- Alarm indication
- Recorded data
- Trip circuit supervision TCSSCBR
- Circuit-breaker condition monitoring SSCBR
- Circuit breaker status
- Circuit breaker operation monitoring
- Breaker contact travel time
- Operation counter
- Remaining life of circuit breaker
- Circuit breaker spring-charged indication
- Basic measurements
- Measurement function applications
- Frequency measurement FMMXU
- Recorded analog inputs
- Length of recordings
- Sampling frequencies
- Deletion of recordings
- Pre-trigger and post-trigger data
- Exclusion mode
- Circuit breaker control CBXCBR and Disconnector control DCXSWI
- Zone coordination
- Thermal overload blocking
- Signal collection and delay logic
- Shot initiation
- Shot pointer controller
- Reclose controller
- Sequence controller
- Protection coordination controller
- Circuit breaker controller
- Counters
- Sequence
- Configuration examples
- Delayed initiation lines
- Shot initiation from protection start signal
- Current total demand distortion CMHAI
- Phase mode setting
- Variation validation
- Duration measurement
- Three/single-phase selection variation examples
- Definite time characteristics
- Current based inverse definite minimum time characteristics
- Standard inverse-time characteristics
- User-programmable inverse-time characteristics
- Reset in inverse-time modes
- Inverse-timer freezing
- Voltage based inverse definite minimum time characteristics
- Standard inverse-time characteristics for overvoltage protection
- User programmable inverse-time characteristics for overvoltage protection
- IDMT curve saturation of overvoltage protection
- Standard inverse-time characteristics for undervoltage protection
- User-programmable inverse-time characteristics for undervoltage protection
- IDMT curve saturation of undervoltage protection
- Calculated measurements
- Current transformers
- Non-directional overcurrent protection
- Example for non-directional overcurrent protection
- Module slot numbering
- Protective earth connections
- Ethernet RJ-45 front connection
- Ethernet rear connections
- Communication interfaces and protocols
- COM0022 and COM0023 jumper locations and connections
- COM0032 jumper locations and connections
- Section 14 Technical data
- Section 15 Protection relay and functionality tests
- Section 16 Applicable standards and regulations
- Section 17 Glossary
Relion REC615
Table of contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Section 1 Introduction
- Product documentation
- Related documentation
- Functions, codes and symbols
- Section 2 Relay engineering process
- Monitoring and control system structure
- Standard configuration concept
- Workflow
- Section 3 PCM600 tool
- Connectivity packages
- Installing connectivity packages
- Activating connectivity packages
- PCM600 projects
- IEC 61850 naming conventions to identify an IED
- Setting the technical key
- Communication between PCM600 and the protection relay
- Setting up IP addresses
- IED Update
- Updating firmware or language
- Section 4 Setting up a project
- Building the plant structure
- Inserting an IED
- Inserting an IED in online mode
- Inserting an IED in offline mode
- Inserting an IED from the template directory
- Inserting an IED by importing a .pcmi file
- Setting the IED IP address in a project
- COM600S project
- Selecting communication port for configuration
- Using the Web HMI
- PCM600 project's IEC 61850 version identification
- Application Configuration tool
- Function blocks
- Signals and signal management
- Function block execution parameters
- Execution order and feedback loops
- Configuration parameters
- Connections and variables
- Online monitoring
- Validation
- Validation when writing to the protection relay
- Parameter Setting tool
- Configuration parameter
- Parameter organization
- Load Profile tool
- Load Profile tool user interface
- Information fields
- Fault Record tool interface
- IED Compare
- Control blocking example
- Single-line diagram engineering
- Display window and sequence order
- Symbol library
- HMI display raster layout and text font selection
- Text handling
- Adding select buttons
- Adding measurands
- Adding a busbar
- Drawing lines to create links
- Bay configuration engineering
- Creating a complete HMI display
- Template export and import
- Importing a template
- Searching events
- IEC 61850 protocol references and pre-conditions
- IEC 61850 interface in the protection relay
- Function view for IEC 61850 in PCM600
- Station configuration description file types
- Exporting SCL files from PCM600
- Exporting ICD or CID files
- Engineering vertical and horizontal communication
- Importing SCL files to PCM600
- Importing SCD files
- Importing ICD or CID files
- Section 8 Configuration migration
- Preconditions for configuration migration
- Reengineering the migrated configuration
- Example of reengineering LED connections
- Reengineering in the Parameter Setting tool
- Reengineering in the IEC 61850 Configuration tool
- Checking and updating IEC 60870-5-103 points
- Section 9 Glossary
Relion REC615
Table of contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Section 1 Introduction
- Product documentation
- Related documentation
- Section 2 IEC 61850 overview
- Section 3 PCM600 tool
- Connectivity packages
- Section 4 615 series data model
- Vertical and horizontal communication
- Predefined vertical communication data sets
- Predefined horizontal communication data set
- Vertical communication diagnostic counters
- Section 5 GOOSE
- Configuring GOOSE with the IEC 61850 Configuration tool
- Defining IEDs and starting the IEC 61850 Configuration tool
- Configuring a GOOSE publisher with the IEC
- Configuring a GOOSE control block with the IEC
- Configuring a GOOSE subscriber with the IEC
- Configuring GOOSE with IET600
- Defining devices and exporting the SCD file for IET600
- Creating an empty project with IET600
- Importing the SCD file into IET600
- Configuring a GOOSE publisher with IET600
- Configuring a GOOSE control block with IET600
- Configuring a GOOSE subscriber with IET600
- Finalizing GOOSE configuration with IET600
- Importing the SCL file
- Connecting GOOSE inputs to a relay application
- Received GOOSE message handling
- GOOSE supervision
- Alarm supervision in application
- Forcing of GOOSE signals
- Testing of many devices in a system
- synchronization
- Parallel redundancy protocol PRP
- Performance optimization
- SMV system configuration
- Configuring SMV with the IEC 61850 Configuration tool
- Configuring SMV with IET600
- Bay level configuration
- SMV control block
- Angle and amplitude corrections
- IEEE 1588 v2 parameters and status information
- Power profile parameters
- Quality bits in SMV frames
- Section 7 Engineering of event reporting with PCM600
- IEC 61850 Configuration tool user interface
- Creating data sets with the IEC 61850 Configuration tool
- Defining data set entries with the IEC 61850 Configuration tool
- tool
- Configuring RCB clients with the IEC 61850 Configuration tool
- Section 8 Engineering of event reporting with IET600
- Attaching IEC 61850 clients to a bus with IET600
- Setting visibility of columns in grid editors
- Creating data sets with IET600
- Creating report control blocks with IET600
- RCB client configuration with IET600
- Configuring RCB clients semi-automatically
- Section 9 Glossary
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