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Relion REG670 first page preview

Relion REG670

Brand: ABB | Category: Protection Device
Table of contents
  1. Table Of Contents
  2. Table Of Contents
  3. Table Of Contents
  4. Table Of Contents
  5. Table Of Contents
  6. Table Of Contents
  7. Table Of Contents
  8. Table Of Contents
  9. Table Of Contents
  10. Table Of Contents
  11. Section 1 Introduction
  12. About the operator's manual
  13. Intended audience
  14. Revision notes
  15. Section 2 Safety information
  16. Section 3 Overview
  17. Section 4 Understand the IED local human-machine interface
  18. Keypad
  19. Key activated screens
  20. The Reset screen
  21. Introduction
  22. Local HMI setup
  23. Control
  24. Section 5 Understand the HMI tree
  25. Section 6 Read measured values
  26. View analog primary values
  27. View analog mean values
  28. Voltage phasors VMMXU/VNMMXU
  29. Function for energy calculation and demand handling ETPMMTR
  30. View events
  31. Identify a disturbance
  32. View trip values
  33. System time and synchronization
  34. TIMESYNCHBIN
  35. General settings
  36. SPA, LON and IEC 60870–5–103 settings
  37. Station communication
  38. Ethernet configuration
  39. Analog and I/O modules
  40. I/O modules
  41. Functions
  42. Control commands
  43. Synchrocheck and energizing check SESRSYN
  44. Current phasors CMMXU
  45. Disturbance report DRPRDRE
  46. Logical signal status report BINSTATREP
  47. Setting group N
  48. High impedance differential protection HZPDIF
  49. Distance protection zones, quadrilateral characteristics for series compensated lines ZMCPDIS, ZMCAPDIS
  50. Phase selection, quadrilateral characteristic with fixed angle FDPSPDIS
  51. Additional distance protection directional function for earth faults ZDARDIR
  52. Breaker failure protection CCRBRF
  53. Instantaneous residual overcurrent protection EFPIOC
  54. Sensitive directional residual over current and power protection SDEPSDE
  55. Overexcitation protection OEXPVPH
  56. Overfrequency protection SAPTOF
  57. Scheme communication
  58. Fuse failure supervision SDDRFUF
  59. Automatic voltage control for tapchanger, parallel control TR8ATCC
  60. LogicGate
  61. Read internal events
  62. Overview
  63. IED test mode
  64. Signal matrix for binary input SMBI
  65. Impedance protection
  66. Transformer differential protection, three winding T3WPDIF
  67. Distance protection zone, quadrilateral characteristic ZMCPDIS, ZMCAPDIS
  68. Faulty phase identification with load enchroachment FMPSPDIS
  69. Directional impedance quadrilateral, including series compensation ZDSRDIR
  70. Current protection
  71. Two step overvoltage protection OV2PTOV
  72. Rate-of-change frequency protection SAPFRC
  73. Scheme communication logic for residual overcurrent protection ECPSCH
  74. Commands
  75. IEC61850 generic communication I/O functions DPGGIO
  76. Automatic voltage control for tapchanger, single and parallel control TR1ATCC/TR8ATCC
  77. Generic measured value MVGGIO
  78. Logic
  79. Logic SR/RS memory
  80. Setting groups
  81. Line differential test
  82. Control screen messages
  83. Section 13 Reset
  84. Reset lockout SMPPTRC
  85. Section 14 Authorization
  86. LogOn or logOff
  87. Internet Protocol ports security guideline
  88. Section 15 Glossary
Relion REG670 first page preview

Relion REG670

Brand: ABB | Category: Power distribution unit
Table of contents
  1. Table Of Contents
  2. Table Of Contents
  3. Table Of Contents
  4. Section 1 Introduction
  5. Product documentation
  6. Document revision history
  7. Related documents
  8. Document symbols and conventions
  9. Section 2 Safety information
  10. Caution signs
  11. Note signs
  12. Section 3 Environmental aspects
  13. Section 4 Unpacking, inspecting and storing
  14. Returning an IED damaged in transit
  15. Section 5 Mounting
  16. Flush mounting
  17. Mounting procedure for flush mounting
  18. panel rack mounting
  19. Mounting procedure for 19" panel rack mounting
  20. Wall mounting
  21. Mounting procedure for wall mounting
  22. Side-by-side 19" rack mounting
  23. Mounting procedure for side-by-side rack mounting
  24. Side-by-side flush mounting
  25. Mounting procedure for side-by-side flush mounting
  26. Mounting the coupling capacitor unit REX061 and shunt resistor unit REX062 (REG670 only)
  27. Shunt resistor unit REX062
  28. Making the electrical connection
  29. Front side connectors
  30. Rear side connectors
  31. Connection examples for high impedance differential protection
  32. Connecting to protective earth
  33. Connecting the power supply module
  34. Connecting the binary input and output signals
  35. Making the shield connection
  36. Making the electrical connection to the rotor and stator injection equipment (REG670 only)
  37. Coupling capacitor unit REX061
  38. Connecting injection unit REX060, coupling capacitor unit REX061 and shunt resistor unit REX062
  39. Connecting and setting voltage inputs
  40. Making of Ethernet connections
  41. Connecting remote communication interfaces LDCM
  42. Installing the serial communication cable for RS485
  43. Installing the serial communication cable for RS485 SPA/IEC
  44. Data on RS485 serial communication module cable
  45. Electrical installation
  46. Section 7 Checking installation
  47. Section 8 Removing, repairing and exchanging
  48. Sending the IED for repair
  49. Section 9 Technical data
  50. Case with rear cover
  51. Flush mounting dimensions
  52. Side-by-side flush mounting dimensions
  53. Wall mounting dimensions
  54. Section 10 Glossary
Relion REG670 first page preview

Relion REG670

Brand: ABB | Category: Power distribution unit
Table of contents
  1. Table Of Contents
  2. Table Of Contents
  3. Table Of Contents
  4. Table Of Contents
  5. Table Of Contents
  6. Table Of Contents
  7. Table Of Contents
  8. Table Of Contents
  9. Table Of Contents
  10. Table Of Contents
  11. Section 1 Introduction
  12. Product documentation
  13. Document revision history
  14. Document symbols and conventions
  15. Document conventions
  16. Section 2 Safety information
  17. Caution signs
  18. Note signs
  19. Section 3 Available functions
  20. Back-up protection functions
  21. Control and monitoring functions
  22. Communication
  23. Basic IED functions
  24. Section 4 Starting up
  25. Checking the power supply
  26. Energizing REX060
  27. Writing an application configuration to the IED
  28. Checking VT circuits
  29. Checking the binary I/O circuits
  30. Section 5 Configuring the IED and changing settings
  31. Reconfiguring the IED
  32. Section 6 Calibrating injection based sensitive rotor earth fault protection
  33. Launching injection commissioning tool (ICT) and performing the installation
  34. Performing calibration
  35. Acquiring references
  36. Verifying calibration
  37. Auditing
  38. Editing features in graph
  39. Logging measurements to file
  40. Section 7 Calibrating injection based 100% stator earth fault protection
  41. Section 8 Establishing connection and verifying the SPA/IEC communication
  42. Verifying the communication
  43. Optical budget calculation for serial communication with SPA/IEC
  44. Section 9 Establishing connection and verifying the LON communication
  45. The LON Protocol
  46. Optical budget calculation for serial communication with LON
  47. Section 10 Establishing connection and verifying the IEC 61850 communication
  48. Preparing for test
  49. Preparing the IED to verify settings
  50. Activating the test mode
  51. Connecting the test equipment to the IED
  52. Verifying analog primary and secondary measurement
  53. Forcing of binary I/O signals for testing
  54. Enable forcing using TESTMODE function block
  55. Forcing by using PCM600
  56. How to undo forcing changes and return the IED to normal operation
  57. Testing disturbance report
  58. Event recorder (ER) and Event list (EL)
  59. Verifying the settings
  60. Completing the test
  61. Measuring the operating limit of set values
  62. Phase-to-phase faults
  63. Faulty phase identification with load encroachment FMPSPDIS
  64. Measuring the operating time of distance protection zones
  65. Testing the power swing detection function ZMRPSB
  66. Automatic switch onto fault logic ZCVPSOF
  67. Activating ZCVPSOF externally
  68. Under impedance protection for Generator ZGVPDIS
  69. Testing
  70. Four step phase overcurrent protection 3-phase output OC4PTOC
  71. Four step non-directional earth fault protection
  72. Measuring the operate and time limit for set values
  73. Checking the re-trip and back-up times
  74. Verifying the back-up trip mode
  75. Verifying instantaneous back-up trip at CB faulty condition
  76. Checking the phase current operate value IP
  77. Measuring the operate limit of set values
  78. Accidental energizing protection for synchronous generator AEGPVOC
  79. Voltage protection
  80. Extended testing
  81. Check of undervoltage levels
  82. Check of voltage differential trip and alarm levels
  83. Check of trip and trip reset timers
  84. Final adjustment of compensation for VT ratio differences
  85. Verifying settings
  86. Rate-of-change frequency protection SAPFRC
  87. Overcurrent feature with current restraint
  88. Over/Undervoltage feature
  89. Measuring the operate value for the negative sequence function
  90. Measuring the operate value for the dead line detection function
  91. Testing the synchronizing function
  92. Testing the synchrocheck check
  93. Testing the energizing check
  94. Testing the voltage selection
  95. Secondary test
  96. Check the normal voltage regulation function
  97. Check the upper and lower busbar voltage limit
  98. Parallel voltage regulation
  99. ph/3ph operating mode
  100. Circuit breaker lockout
  101. Remote communication
  102. Exit test mode
  103. Overview
  104. Commissioning tests
  105. Visual inspection
  106. Alarm test
  107. Restoring
  108. Checking the self supervision signals
  109. Fault tracing
  110. Using front-connected PC
  111. Diagnosing the IED status via the LHMI hint menu
  112. Hardware re-configuration
  113. Repair instruction
  114. Repair support
  115. Section 16 Glossary
Relion REG670 first page preview

Relion REG670

Brand: ABB | Category: Protection Device
Table of contents
  1. Table Of Contents
  2. Table Of Contents
  3. Table Of Contents
  4. Section 1 Introduction
  5. Product documentation
  6. Document revision history
  7. Document symbols and conventions
  8. Document conventions
  9. Section 2 Safety information
  10. Caution signs
  11. Note signs
  12. Section 3 Environmental aspects
  13. Section 4 Unpacking, inspecting and storing
  14. Storing
  15. Section 5 Mounting
  16. Flush mounting
  17. Mounting procedure for flush mounting
  18. Mounting procedure for 19" panel rack mounting
  19. Wall mounting
  20. Side-by-side 19" rack mounting
  21. Mounting procedure for side-by-side rack mounting
  22. Side-by-side flush mounting
  23. Mounting procedure for side-by-side flush mounting
  24. Coupling capacitor unit REX061
  25. Shunt resistor unit REX062
  26. Section 6 Connecting
  27. Front side connectors
  28. Rear side connectors
  29. Connection examples for high impedance differential protection
  30. Connecting to protective ground
  31. Connecting to CT and VT circuits
  32. Connecting the binary input and output signals
  33. Making the shield connection
  34. Making the electrical connection to the rotor and stator injection equipment (REG670 only)
  35. Connecting injection unit REX060, coupling capacitor unit REX061 and shunt resistor unit REX062
  36. Connecting and setting voltage inputs
  37. Making of Ethernet connections
  38. Connecting remote communication interfaces LDCM
  39. Installing the serial communication cable for RS485
  40. Installing the serial communication cable for RS485 SPA/IEC
  41. Data on RS485 serial communication module cable
  42. Installing the GPS antenna
  43. Electrical installation
  44. Section 7 Checking installation
  45. Section 8 Removing, repairing and exchanging
  46. Exchanging the IED
  47. Section 9 Technical data
  48. Case with protective cover
  49. Flush mounting dimensions
  50. Side-by-side flush mounting dimensions
  51. Wall mounting dimensions
  52. Section 10 Glossary
Relion REG670 first page preview

Relion REG670

Brand: ABB | Category: Protection Device
Table of contents
  1. Table Of Contents
  2. Table Of Contents
  3. Table Of Contents
  4. Table Of Contents
  5. Table Of Contents
  6. Table Of Contents
  7. Table Of Contents
  8. Table Of Contents
  9. Table Of Contents
  10. Table Of Contents
  11. Table Of Contents
  12. Table Of Contents
  13. Table Of Contents
  14. Table Of Contents
  15. Table Of Contents
  16. Table Of Contents
  17. Table Of Contents
  18. Table Of Contents
  19. Table Of Contents
  20. Table Of Contents
  21. Table Of Contents
  22. Table Of Contents
  23. Table Of Contents
  24. Table Of Contents
  25. Table Of Contents
  26. Table Of Contents
  27. Table Of Contents
  28. Table Of Contents
  29. Table Of Contents
  30. Table Of Contents
  31. Table Of Contents
  32. Table Of Contents
  33. Table Of Contents
  34. Table Of Contents
  35. Table Of Contents
  36. Table Of Contents
  37. Table Of Contents
  38. Section 1 Introduction
  39. Product documentation
  40. Document revision history
  41. Related documents
  42. Document conventions
  43. IEC 61850 edition 1 / edition 2 mapping
  44. Section 2 Available functions
  45. Back-up protection functions
  46. Control and monitoring functions
  47. Communication
  48. Basic IED functions
  49. Section 3 Analog inputs
  50. Signals
  51. Settings
  52. Monitored data
  53. Operation principle
  54. Section 4 Binary input and output modules
  55. Setting parameters for binary input/output module
  56. Section 5 Local Human-Machine-Interface LHMI
  57. Function block
  58. Display
  59. LEDs
  60. Keypad
  61. Functionality
  62. Indication LEDs
  63. Function keys
  64. Transformer differential protection T2WPDIF and T3WPDIF
  65. Function calculation principles
  66. Logic diagram
  67. Technical data
  68. Ph High impedance differential protection HZPDIF
  69. Generator differential protection GENPDIF
  70. Supplementary criteria
  71. Harmonic restrain
  72. Cross-block logic scheme
  73. Low impedance restricted earth fault protection REFPDIF
  74. Restricted earth-fault protection, low impedance differential protection
  75. Calculation of differential current and bias current
  76. Detection of external earth faults
  77. Algorithm of the restricted earth-fault protection
  78. Full-scheme distance measuring, Mho characteristic ZMHPDIS
  79. Impedance characteristic
  80. Basic operation characteristics
  81. Theory of operation
  82. Simplified logic diagrams
  83. High speed distance protection ZMFPDIS
  84. Distance measuring zones
  85. Phase-selection criteria
  86. Directional criteria
  87. Fuse failure
  88. Load encroachment
  89. Simplified logic schemes
  90. Phase-selection element
  91. Directional element
  92. Lens characteristic
  93. Detecting an out-of-step condition
  94. Maximum slip frequency
  95. Taking care of the circuit breaker
  96. Design
  97. Description of input signals
  98. The injection unit REX060
  99. Rotor Earth Fault Protection function
  100. General measurement of earth fault impedance
  101. Simplified logic diagram
  102. stator earth fault protection, injection based STTIPHIZ
  103. Generator system earthing methods
  104. Stator earth fault protection function
  105. Measuring reference impedance
  106. Under impedance protection for generators and transformers ZGVPDIS
  107. Operation principle of zone 1
  108. Operation principle of zone 2
  109. Operation principle of zone 3
  110. Under voltage seal-in
  111. Instantaneous phase overcurrent protection 3-phase output PHPIOC
  112. Identification
  113. Second harmonic blocking element
  114. Instantaneous residual overcurrent protection EFPIOC
  115. Internal polarizing
  116. External polarizing for earth-fault function
  117. Base quantities within the protection
  118. Directional supervision element with integrated directional comparison function
  119. Switch on to fault feature
  120. Four step directional negative phase sequence overcurrent protection NS4PTOC
  121. Internal polarizing facility of the function
  122. External polarizing for negative sequence function
  123. Thermal overload protection, two time constants TRPTTR
  124. Pole discordance signaling from circuit breaker
  125. Directional underpower protection GUPPDUP
  126. Low pass filtering
  127. Calibration of analog inputs
  128. Directional overpower protection GOPPDOP
  129. Start sensitivity
  130. Alarm function
  131. Voltage-restrained time overcurrent protection VRPVOC
  132. Generator stator overload protection, GSPTTR
  133. Two step undervoltage protection UV2PTUV
  134. Measurement principle
  135. Blocking
  136. Two step residual overvoltage protection ROV2PTOV
  137. Overexcitation protection OEXPVPH
  138. Measured voltage
  139. Operate time of the overexcitation protection
  140. Cooling
  141. Overexcitation alarm
  142. Voltage differential protection VDCPTOV
  143. Underfrequency protection SAPTUF
  144. Voltage dependent time delay
  145. Overfrequency protection SAPTOF
  146. Time delay
  147. Rate-of-change frequency protection SAPFRC
  148. General current and voltage protection CVGAPC
  149. Base quantities for CVGAPC function
  150. Built-in undercurrent protection steps
  151. Built-in overvoltage protection steps
  152. Multipurpose filter SMAIHPAC
  153. Filter calculation example
  154. Current circuit supervision CCSSPVC
  155. Delta current and delta voltage detection
  156. Dead line detection
  157. Main logic
  158. Synchrocheck, energizing check, and synchronizing SESRSYN
  159. Logic diagrams
  160. Interlocking
  161. Logical node for interlocking SCILO
  162. Interlocking for busbar earthing switch BB_ES
  163. Interlocking for bus-section disconnector A1A2_DC
  164. Interlocking for bus-coupler bay ABC_BC
  165. Interlocking for 1 1/2 CB BH
  166. Function blocks
  167. Interlocking for double CB bay DB
  168. Interlocking for line bay ABC_LINE
  169. Interlocking for transformer bay AB_TRAFO
  170. Position evaluation POS_EVAL
  171. Error handling
  172. Bay control QCBAY
  173. Local/Remote switch LOCREM
  174. Switch controller SCSWI
  175. Circuit breaker SXCBR
  176. Circuit switch SXSWI
  177. Bay reserve QCRSV
  178. Reservation input RESIN
  179. Voltage control
  180. Tap changer control and supervision, 6 binary inputs TCMYLTC and TCLYLTC
  181. Connection between TR1ATCC or TR8ATCC and TCMYLTCor TCLYLTC
  182. Logic rotating switch for function selection and LHMI presentation SLGAPC
  183. Graphical display
  184. Selector mini switch VSGAPC
  185. Generic communication function for Double Point indication DPGAPC
  186. Tripping logic common 3-phase output SMPPTRC
  187. Logic for group warning WRNCALH
  188. AND function block AND
  189. Set-reset with memory function block SRMEMORY
  190. ANDQT function block
  191. Reset/Set function block RSMEMORYQT
  192. Extension logic package
  193. Boolean 16 to Integer conversion B16I
  194. Setting parameters
  195. Elapsed time integrator with limit transgression and overflow supervision TEIGAPC
  196. Operation accuracy
  197. Measurements
  198. Measurements CVMMXN
  199. Phase current measurement CMMXU
  200. Phase-phase and phase-neutral voltage measurements VMMXU, VNMMXU
  201. Gas medium supervision SSIMG
  202. Circuit breaker contact travel time
  203. Circuit breaker status
  204. Remaining life of circuit breaker
  205. Accumulated energy
  206. Circuit breaker operation cycles
  207. Circuit breaker operation monitoring
  208. Circuit breaker spring charge monitoring
  209. Circuit breaker gas pressure indication
  210. Event function EVENT
  211. Disturbance report DRPRDRE
  212. Logical signal status report BINSTATREP
  213. Measured value expander block RANGE_XP
  214. Reporting
  215. Pulse-counter logic PCFCNT
  216. series protocols
  217. LON communication protocol
  218. Communication ports
  219. IEC 60870-5-103 communication protocol
  220. I103MEASUSR
  221. Function status auto-recloser for IEC 60870-5-103 I103AR
  222. Function status earth-fault for IEC 60870-5-103 I103EF
  223. I103FLTPROT
  224. Supervison status for IEC 60870-5-103 I103SUPERV
  225. I103USRDEF
  226. Function commands for IEC 60870-5-103 I103CMD
  227. I103USRCMD
  228. Goose binary receive GOOSEBINRCV
  229. GOOSEDPRCV
  230. GOOSEMVRCV
  231. MULTICMDRCV and MULTICMDSND
  232. Security events on protocols SECALARM
  233. Binary signal transfer
  234. Transmission of analog data from LDCM LDCMTransmit
  235. Authority check ATHCHCK
  236. Authorization with Central Account Management enabled IED
  237. Authority management AUTHMAN
  238. Internal signals
  239. Supervision of analog inputs
  240. Time synchronization TIMESYNCHGEN
  241. Real-time clock (RTC) operation
  242. Synchronization alternatives
  243. ChangeLock function CHNGLCK
  244. Test mode functionality TESTMODE
  245. IED identifiers TERMINALID
  246. Product information PRODINF
  247. Signal matrix for binary inputs SMBI
  248. Signal matrix for mA inputs SMMI
  249. Frequency values
  250. Global base values GBASVAL
  251. Primary system values PRIMVAL
  252. Overview
  253. Case from the rear side
  254. Hardware modules
  255. Numeric processing module (NUM)
  256. Block diagram
  257. Introduction
  258. Binary input module (BIM)
  259. Binary output modules (BOM)
  260. Static binary output module (SOM)
  261. Binary input/output module (IOM)
  262. mA input module (MIM)
  263. Galvanic RS485 communication module
  264. Optical ethernet module (OEM)
  265. Galvanic X.21 line data communication (X.21-LDCM)
  266. Dimensions
  267. Flush mounting dimensions
  268. Side-by-side flush mounting dimensions
  269. Wall mounting dimensions
  270. Mounting alternatives
  271. Mounting procedure for flush mounting
  272. panel rack mounting
  273. Mounting procedure for 19" panel rack mounting
  274. Wall mounting
  275. How to reach the rear side of the IED
  276. Side-by-side 19" rack mounting
  277. IED in the 670 series mounted with a RHGS6 case
  278. Mounting procedure for side-by-side flush mounting
  279. Influencing factors
  280. Type tests according to standard
  281. REX060 Front panel controls
  282. Coupling capacitor unit REX061
  283. Shunt resistor unit REX062
  284. Injection unit REX060 from rear side
  285. Type tests according to standards
  286. Section 23 Labels
  287. Labels on injection equipment
  288. Section 24 Connection diagrams
  289. Section 25 Inverse time characteristics
  290. Principle of operation
  291. Inverse characteristics
  292. Section 26 Glossary
Relion REG670 first page preview

Relion REG670

Brand: ABB | Category: Relays
Table of contents
  1. Table Of Contents
  2. Table Of Contents
  3. Table Of Contents
  4. Table Of Contents
  5. Table Of Contents
  6. Table Of Contents
  7. Table Of Contents
  8. Table Of Contents
  9. Table Of Contents
  10. Table Of Contents
  11. Table Of Contents
  12. Table Of Contents
  13. Table Of Contents
  14. Table Of Contents
  15. Table Of Contents
  16. Table Of Contents
  17. Table Of Contents
  18. Table Of Contents
  19. Table Of Contents
  20. Table Of Contents
  21. Section 1 Introduction
  22. Product documentation
  23. Document revision history
  24. Document symbols and conventions
  25. Document conventions
  26. IEC 61850 edition 1 / edition 2 mapping
  27. Section 2 Application
  28. Main protection functions
  29. Back-up protection functions
  30. Control and monitoring functions
  31. Communication
  32. Basic IED functions
  33. Section 3 Configuration
  34. Description of configuration B30
  35. Description of configuration C30
  36. Section 4 Analog inputs
  37. Example
  38. Example 1
  39. Example 3
  40. Examples on how to connect, configure and set CT inputs for most commonly used CT connections
  41. Example on how to connect a star connected three-phase CT set to the IED
  42. Example how to connect single-phase CT to the IED
  43. Relationships between setting parameter Base Current, CT rated primary current and minimum pickup of a protection IED
  44. Setting of voltage channels
  45. Examples how to connect, configure and set VT inputs for most commonly used VT connections
  46. Example on how to connect a phase-to-phase connected VT to the IED
  47. Example on how to connect an open delta VT to the IED for high impedance earthed or unearthed networks
  48. Example how to connect the open delta VT to the IED for low impedance earthed or solidly earthed power systems
  49. Example on how to connect a neutral point VT to the IED
  50. Section 5 Local HMI
  51. Display
  52. LEDs
  53. Keypad
  54. Local HMI functionality
  55. Parameter management
  56. Front communication
  57. C37.118 Phasor Measurement Data Streaming Protocol Configuration PMUCONF
  58. Short guidance for use of TCP
  59. Short guidance for use of UDP
  60. Protocol reporting via IEEE 1344 and C37.118 PMUREPORT
  61. Operation principle
  62. Frequency reporting
  63. Reporting filters
  64. Scaling Factors for ANALOGREPORT channels
  65. PMU Report Function Blocks Connection Rules in PCM600 Application Configuration Tool (ACT)
  66. Setting guidelines
  67. Transformer differential protection T2WPDIF and T3WPDIF
  68. Elimination of zero sequence currents
  69. Inrush restraint methods
  70. Cross-blocking between phases
  71. On-line compensation for on-load tap-changer position
  72. Open CT detection
  73. Typical main CT connections for transformer differential protection
  74. Application Examples
  75. Summary and conclusions
  76. High impedance differential protection, single phase HZPDIF
  77. The basics of the high impedance principle
  78. Connection examples for high impedance differential protection
  79. Connections for 1Ph High impedance differential protection HZPDIF
  80. Settings of protection function
  81. Tertiary reactor protection
  82. Restricted earth fault protection
  83. Alarm level operation
  84. Generator differential protection GENPDIF
  85. Application
  86. Percentage restrained differential operation
  87. Negative sequence internal/external fault discriminator feature
  88. Other additional options
  89. Low impedance restricted earth fault protection REFPDIF
  90. Transformer winding, solidly earthed
  91. Transformer winding, earthed through zig-zag earthing transformer
  92. Autotransformer winding, solidly earthed
  93. Multi-breaker applications
  94. CT earthing direction
  95. Settings
  96. Full-scheme distance measuring, Mho characteristic ZMHPDIS
  97. High speed distance protection ZMFPDIS
  98. Fault infeed from remote end
  99. Load encroachment
  100. Short line application
  101. Long transmission line application
  102. Tapped line application
  103. Setting of reverse zone
  104. Setting of zones for parallel line application
  105. Setting the reach with respect to load
  106. Zone reach setting lower than minimum load impedance
  107. Zone reach setting higher than minimum load impedance
  108. Other settings
  109. High speed distance protection for series compensated lines ZMFCPDIS
  110. Series compensation in power systems
  111. Increase in power transfer
  112. Impact of series compensation on protective IED of adjacent lines
  113. Distance protection
  114. Underreaching and overreaching schemes
  115. Setting of zone 1
  116. Setting of reach in resistive direction
  117. Load impedance limitation, without load encroachment function
  118. Parameter setting guidelines
  119. Pole slip protection PSPPPAM
  120. Identification
  121. Setting example for line application
  122. Setting example for generator application
  123. Out-of-step protection OOSPPAM
  124. Loss of excitation LEXPDIS
  125. Sensitive rotor earth fault protection, injection based ROTIPHIZ
  126. Rotor earth fault protection function
  127. Connecting and setting voltage inputs
  128. Settings for sensitive rotor earth fault protection,ROTIPHIZ
  129. stator earth fault protection, injection based STTIPHIZ
  130. Stator earth fault protection function
  131. stator earth fault protection
  132. Under impedance protection for generators and transformers ZGVPDIS
  133. Operating zones
  134. Zone 1 operation
  135. Zone 3 operation
  136. Undervoltage seal-in function
  137. External block signals
  138. Under voltage seal-in
  139. Rotor earth fault protection using CVGAPC
  140. Instantaneous phase overcurrent protection PHPIOC
  141. Meshed network with parallel line
  142. Directional phase overcurrent protection, four steps OC4PTOC
  143. Settings for each step
  144. Setting example
  145. Instantaneous residual overcurrent protection EFPIOC
  146. Directional residual overcurrent protection, four steps EF4PTOC
  147. Common settings for all steps
  148. nd harmonic restrain
  149. Parallel transformer inrush current logic
  150. Switch onto fault logic
  151. Transformer application example
  152. Four step directional negative phase sequence overcurrent protection NS4PTOC
  153. Sensitive directional residual overcurrent and power protection SDEPSDE
  154. Thermal overload protection, two time constants TRPTTR
  155. Setting guideline
  156. Breaker failure protection CCRBRF
  157. Pole discordance protection CCPDSC
  158. Directional underpower protection GUPPDUP
  159. Directional overpower protection GOPPDOP
  160. Negativ sequence time overcurrent protection for machines NS2PTOC
  161. Features
  162. Generator continuous unbalance current capability
  163. Start sensitivity
  164. Accidental energizing protection for synchronous generator AEGPVOC
  165. Voltage-restrained time overcurrent protection VRPVOC
  166. Application possibilities
  167. Voltage-restrained overcurrent protection for generator and step-up transformer
  168. Overcurrent protection with undervoltage seal-in
  169. Two step undervoltage protection UV2PTUV
  170. Settings for two step undervoltage protection
  171. Two step overvoltage protection OV2PTOV
  172. Equipment protection, such as for motors, generators reactors and transformers
  173. Two step residual overvoltage protection ROV2PTOV
  174. Stator earth-fault protection based on residual voltage measurement
  175. Power supply quality
  176. Direct earthed system
  177. Settings for two step residual overvoltage protection
  178. Overexcitation protection OEXPVPH
  179. Service value report
  180. Voltage differential protection VDCPTOV
  181. Underfrequency protection SAPTUF
  182. Overfrequency protection SAPTOF
  183. Rate-of-change of frequency protection SAPFRC
  184. Frequency time accumulation protection function FTAQFVR
  185. General current and voltage protection CVGAPC
  186. Current and voltage selection for CVGAPC function
  187. Base quantities for CVGAPC function
  188. Inadvertent generator energization
  189. Negative sequence overcurrent protection
  190. Generator stator overload protection in accordance with IEC or ANSI standards
  191. for generators
  192. Voltage restrained overcurrent protection for generator and step-up transformer
  193. General settings of the instance
  194. Setting for UC1
  195. Setting for UV2
  196. Multipurpose filter SMAIHPAC
  197. Current circuit supervision CCSSPVC
  198. Fuse failure supervision FUFSPVC
  199. Negative sequence based
  200. Zero sequence based
  201. Dead line detection
  202. Section 15 Control
  203. Synchrocheck
  204. Energizing check
  205. Voltage selection
  206. External fuse failure
  207. Single circuit breaker with single busbar
  208. selection
  209. Double circuit breaker
  210. Bay control QCBAY
  211. Switch controller SCSWI
  212. Switches SXCBR/SXSWI
  213. XLNPROXY
  214. Reservation function (QCRSV and RESIN)
  215. Interaction between modules
  216. Bay control (QCBAY)
  217. Switch (SXCBR/SXSWI)
  218. Interlocking
  219. Configuration guidelines
  220. Signals from bypass busbar
  221. Signals from bus-coupler
  222. Configuration setting
  223. Interlocking for bus-coupler bay ABC_BC
  224. Interlocking for transformer bay AB_TRAFO
  225. Interlocking for bus-section breaker A1A2_BS
  226. Interlocking for bus-section disconnector A1A2_DC
  227. Signals in double-breaker arrangement
  228. Signals in 1 1/2 breaker arrangement
  229. Interlocking for busbar earthing switch BB_ES
  230. Interlocking for double CB bay DB
  231. Interlocking for 1 1/2 CB BH
  232. Voltage control
  233. TR1ATCC or TR8ATCC Setting group
  234. TCMYLTC and TCLYLTC general settings
  235. Logic rotating switch for function selection and LHMI presentation SLGAPC
  236. Generic communication function for Double Point indication DPGAPC
  237. AutomationBits, command function for DNP3.0 AUTOBITS
  238. Tripping logic SMPPTRC
  239. Three-phase tripping
  240. Single- and/or three-phase tripping
  241. Single-, two- or three-phase tripping
  242. Example of directional data
  243. Blocking of the function block
  244. Fixed signal function block FXDSIGN
  245. Boolean 16 to Integer conversion B16I
  246. Boolean to integer conversion with logical node representation 16 bit BTIGAPC
  247. Integer to Boolean 16 conversion IB16
  248. ITBGAPC
  249. Pulse integrator TIGAPC
  250. Elapsed time integrator with limit transgression and overflow supervision TEIGAPC
  251. Comparator for integer inputs - INTCOMP
  252. Comparator for real inputs - REALCOMP
  253. Measurement
  254. Zero clamping
  255. Setting examples
  256. Gas medium supervision SSIMG
  257. Liquid medium supervision SSIML
  258. Breaker monitoring SSCBR
  259. Setting procedure on the IED
  260. Event function EVENT
  261. Disturbance report DRPRDRE
  262. Recording times
  263. Analog input signals
  264. Consideration
  265. Logical signal status report BINSTATREP
  266. Running hour-meter TEILGAPC
  267. function (LOL1)
  268. Pulse-counter logic PCFCNT
  269. Function for energy calculation and demand handling ETPMMTR
  270. Access point
  271. Redundant communication
  272. Merging unit
  273. Communication protocols
  274. Receiving data
  275. IEC/UCA 61850-9-2LE communication protocol
  276. Specific settings related to the IEC/UCA 61850-9-2LE communication
  277. synchronization
  278. IEC 61850 quality expander QUALEXP
  279. LON communication protocol
  280. MULTICMDRCV and MULTICMDSND
  281. IEC 60870-5-103 communication protocol
  282. Design
  283. Settings for RS485 and optical serial communication
  284. Settings from PCM600
  285. Function and information types
  286. DNP3 Communication protocol
  287. Section 21 Remote communication
  288. Communication hardware solutions
  289. Section 22 Security
  290. Change lock CHNGLCK
  291. Denial of service SCHLCCH/RCHLCCH
  292. Section 23 Basic IED functions
  293. Measured value expander block RANGE_XP
  294. Signal matrix for binary inputs SMBI
  295. Test mode functionality TESTMODE
  296. Process bus IEC/UCA 61850-9-2LE synchronization
  297. Section 24 Requirements
  298. Conditions
  299. Fault current
  300. Rated equivalent secondary e.m.f. requirements
  301. Transformer differential protection
  302. Breaker failure protection
  303. standards
  304. Current transformers according to ANSI/IEEE
  305. SNTP server requirements
  306. IEC/UCA 61850-9-2LE Merging unit requirements
  307. Section 25 Glossary
Relion REG670 first page preview

Relion REG670

Brand: ABB | Category: Protection Device
Table of contents
  1. Table Of Contents
  2. Table Of Contents
  3. Table Of Contents
  4. Table Of Contents
  5. Table Of Contents
  6. Table Of Contents
  7. Table Of Contents
  8. Table Of Contents
  9. Table Of Contents
  10. Table Of Contents
  11. Section 1 Introduction
  12. Product documentation
  13. Document revision history
  14. Related documents
  15. Document conventions
  16. IEC 61850 edition 1 / edition 2 mapping
  17. Section 2 Safety information
  18. Caution signs
  19. Note signs
  20. Section 3 Available functions
  21. Back-up protection functions
  22. Control and monitoring functions
  23. Communication
  24. Basic IED functions
  25. Section 4 Starting up
  26. Checking the power supply
  27. IED start-up sequence
  28. Energizing REX060
  29. Writing an application configuration to the IED
  30. Checking CT circuits
  31. Checking VT circuits
  32. Checking the binary input/output circuits
  33. Binary output circuits
  34. Section 5 Configuring the IED and changing settings
  35. Configuring analog CT inputs
  36. Section 6 Calibrating injection based sensitive rotor earth fault protection
  37. Launching injection commissioning tool (ICT)
  38. Performing calibration
  39. Acquiring references
  40. Verifying calibration
  41. Auditing
  42. Editing features in graph
  43. Logging measurements to file
  44. Section 7 Calibrating injection based 100% stator earth fault protection
  45. Section 8 Establishing connection and verifying the SPA/IEC communication
  46. Verifying the communication
  47. Fibre optic loop
  48. Section 9 Establishing connection and verifying the LON communication
  49. The LON Protocol
  50. Optical budget calculation for serial communication with LON
  51. Section 10 Establishing connection and verifying the IEC
  52. Section 11 Establishing connection and verifying the IEEE C37.118/1344 communication
  53. Setting the PMU station communication (PMU configuration)
  54. Setting the TCP/UDP client communication
  55. Verifying the IEEE C37.118/1344 TCP communication
  56. Verifying the IEEE C37.118/1344 UDP communication
  57. Optical budget calculation for PMU - PDC communication
  58. Section 12 Testing IED operation
  59. Preparing the IED to verify settings
  60. Activating the test mode
  61. Connecting the test equipment to the IED
  62. Releasing the function to be tested
  63. Verifying analog primary and secondary measurement
  64. Testing the protection functionality
  65. Enable forcing by using LHMI
  66. Forcing by using LHMI
  67. Forcing by using PCM600
  68. How to undo forcing changes and return the IED to normal operation
  69. Testing disturbance report
  70. Event recorder (ER) and Event list (EL)
  71. Identifying the function to test in the technical reference manual
  72. Completing the test
  73. High impedance differential protection HZPDIF (87)
  74. Impedance protection
  75. Measuring the operating limit of set values
  76. Measuring the operating time of distance protection zones
  77. Verifying the settings
  78. Loss of excitation LEXPDIS (40)
  79. Four step non-directional ground fault protection
  80. Measuring the trip and time limit for set values
  81. Checking the re-trip and back-up times
  82. Verifying the re-trip mode
  83. Verifying instantaneous back-up trip at CB faulty condition
  84. Voltage-restrained time overcurrent protection VRPVOC(51V)
  85. Generator stator overload protection GSPTTR (49S)
  86. Generator rotor overload protection (49R)
  87. Two step overvoltage protection OV2PTOV (59)
  88. Check of voltage differential trip and alarm levels
  89. Check of trip and trip reset timers
  90. Stator ground fault protection, 3rd harmonic based STEFPHIZ (59THD)
  91. Verifying settings
  92. Built-in overcurrent feature (non-directional)
  93. Overcurrent feature with voltage restraint
  94. Over/Undervoltage feature
  95. Measuring the trip value for the negative sequence function
  96. Measuring the trip value for the zero-sequence function
  97. Checking the operation of the dv/dt and di/dt based function
  98. Testing the synchronizing function
  99. Testing the synchrocheck functionality
  100. Testing the energizing check
  101. Testing the voltage selection
  102. Tap changer control and supervision TCMYLTC, TCLYLTC
  103. Secondary test
  104. Check the normal voltage regulation function
  105. Check the undervoltage block function
  106. Check the overcurrent block function
  107. Parallel voltage regulation
  108. Logic
  109. Circuit breaker lockout
  110. Testing the gas medium supervision for pressure alarm and pressure lockout conditions
  111. Liquid medium supervision SSIML
  112. Limit counter L4UFCNT
  113. Remote communication
  114. Section 14 Checking the directionality
  115. Section 15 Commissioning and maintenance of the fault clearing system
  116. Visual inspection
  117. Preparation
  118. Self supervision check
  119. Measurement of service currents
  120. Section 16 Troubleshooting
  121. Fault tracing
  122. Using front-connected PC
  123. Diagnosing the IED status via the LHMI hint menu
  124. Repair instruction
  125. Repair support
  126. Section 17 Glossary
Relion REG670 first page preview

Relion REG670

Brand: ABB | Category: Protection Device
Table of contents
  1. Table Of Contents
  2. Table Of Contents
  3. Table Of Contents
  4. Table Of Contents
  5. Table Of Contents
  6. Table Of Contents
  7. Table Of Contents
  8. Table Of Contents
  9. Table Of Contents
  10. Table Of Contents
  11. Section 1 Introduction
  12. Product documentation
  13. Document revision history
  14. Related documents
  15. Document conventions
  16. IEC 61850 edition 1 / edition 2 mapping
  17. Section 2 Safety information
  18. Caution signs
  19. Note signs
  20. Section 3 Available functions
  21. Back-up protection functions
  22. Control and monitoring functions
  23. Communication
  24. Basic IED functions
  25. Section 4 Starting up
  26. Checking the power supply
  27. IED start-up sequence
  28. Setting up communication between PCM600 and the IED
  29. Writing an application configuration to the IED
  30. Checking CT circuits
  31. Checking VT circuits
  32. Checking the binary input/output circuits
  33. Checking optical connections
  34. Section 5 Configuring the IED and changing settings
  35. Configuring analog CT inputs
  36. Section 6 Calibrating injection based sensitive rotor earth fault protection
  37. Launching injection commissioning tool (ICT)
  38. Performing calibration
  39. Acquiring references
  40. Verifying calibration
  41. Auditing
  42. Editing features in graph
  43. Logging measurements to file
  44. Section 7 Calibrating injection based 100% stator earth fault protection
  45. Section 8 Establishing connection and verifying the SPA/IEC communication
  46. Verifying the communication
  47. Fibre optic loop
  48. The LON Protocol
  49. Optical budget calculation for serial communication with LON
  50. Section 10 Establishing connection and verifying the IEC
  51. Section 11 Establishing connection and verifying the IEEE C37.118/1344 communication
  52. Setting the PMU station communication (PMU configuration)
  53. Setting the TCP/UDP client communication
  54. Verifying the IEEE C37.118/1344 TCP communication
  55. Verifying the IEEE C37.118/1344 UDP communication
  56. Optical budget calculation for PMU - PDC communication
  57. Section 12 Testing IED operation
  58. Preparing the IED to verify settings
  59. Activating the test mode
  60. Connecting the test equipment to the IED
  61. Releasing the function to be tested
  62. Verifying analog primary and secondary measurement
  63. Testing the protection functionality
  64. Enable forcing using TESTMODE function block
  65. Forcing by using PCM600
  66. operation
  67. Testing disturbance report
  68. Event recorder (ER) and Event list (EL)
  69. Identifying the function to test in the technical reference manual
  70. Completing the test
  71. High speed distance protection zones, quadrilateral and mho characteristic ZMFPDIS
  72. Measuring the operating limit of set values
  73. Measuring the operating time of distance protection zones
  74. Verifying the settings
  75. Loss of excitation LEXPDIS
  76. Four step non-directional earth fault protection
  77. Measuring the operate and time limit for set values
  78. Checking the re-trip and back-up times
  79. Verifying the back-up trip mode
  80. Verifying instantaneous back-up trip at CB faulty condition
  81. Voltage-restrained time overcurrent protection VRPVOC
  82. Extended testing
  83. Check of voltage differential trip and alarm levels
  84. Check of trip and trip reset timers
  85. Final adjustment of compensation for VT ratio differences
  86. Testing
  87. Verifying settings
  88. Built-in overcurrent feature (non-directional)
  89. Overcurrent feature with current restraint
  90. Over/Undervoltage feature
  91. Measuring the operate value for the negative sequence function
  92. function
  93. Testing the synchronizing function
  94. Testing the energizing check
  95. Testing the voltage selection
  96. Apparatus control APC
  97. Secondary test
  98. Check the normal voltage regulation function
  99. Check the undervoltage block function
  100. Check the overcurrent block function
  101. Parallel voltage regulation
  102. ph/3ph operating mode
  103. ph/2ph/3ph operating mode
  104. Circuit breaker lockout
  105. alarm and temperature lock out conditions
  106. Testing the liquid medium supervision for level alarm and level lockout conditions
  107. Breaker monitoring SSCBR
  108. Verifying the signals and settings
  109. Function for energy calculation and demand handling ETPMMTR
  110. Remote communication
  111. Overview
  112. clearing system
  113. Visual inspection
  114. Recording
  115. Measurement of service currents
  116. Restoring
  117. Section 16 Troubleshooting
  118. Fault tracing
  119. Using front-connected PC
  120. Diagnosing the IED status via the LHMI hint menu
  121. Repair instruction
  122. Repair support
  123. Section 17 Glossary
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