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Hitachi Relion 670 Series Product Manual
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Hitachi Relion 670 Series Product Manual

Phasor measurement unit
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Relion
670 SERIES
Phasor measurement unit RES670
Version 2.2
Product guide

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  • Page 1 ® Relion 670 SERIES Phasor measurement unit RES670 Version 2.2 Product guide...
  • Page 2 (eay@cryptsoft.com) and Tim Hudson (tjh@cryptsoft.com). Trademarks ABB is a registered trademark of ABB Asea Brown Boveri Ltd. Manufactured by/for a Hitachi Energy company. All other brand or product names mentioned in this document may be trademarks or registered trademarks of their respective holders.
  • Page 3 This document has been carefully checked by Hitachi Energy but deviations cannot be completely ruled out. In case any errors are detected, the reader is kindly requested to notify the manufacturer. Other than under explicit contractual commitments, in no event shall Hitachi Energy be responsible or liable for any loss or damage resulting from the use of this manual or the application of the equipment.
  • Page 4 (Low-voltage directive 2006/95/EC). This conformity is the result of tests conducted by Hitachi Energy in accordance with the product standard EN 60255-26 for the EMC directive, and with the product standards EN 60255-1 and EN 60255-27 for the low voltage directive. The product is...

  • Page 5: Table Of Contents

    9. Multipurpose protection..........26 23. Certification..............41 10. General calculation.............26 24. Technical data............42 11. Secondary system supervision........26 25. Ordering for customized IED........101 12. Control................27 26. Ordering for pre-configured IED....... 110 13. Logic................28 27. Ordering for Accessories.......... 116 14. Monitoring..............31 Hitachi Energy...

  • Page 6: Document Revision History

    OC4PTOC, EF4PTOC, NS4PTOC, CVGAPC, DRPRDRE and SXCBR. Ordering section updated. 2021-06 2.2.5 Added note to Disturbance report and IEC 60870-5-103 protocol 2022-07 2.2.5.4 Introduced RIA600, which is a software implementation of the IED LHMI panel. Hitachi Energy © 2017 - 2022 Hitachi Energy. All rights reserved...

  • Page 7: Application

    IEDs and other systems within a • PDC Phasor Data Concentrator, including wide area substation. This incorporates management of user applications Hitachi Energy © 2017 - 2022 Hitachi Energy. All rights reserved...
  • Page 8 Note that RES670 A20 channels per PMU instance (on each data stream) on must be reconfigured if any additional functions are used. request. This can be done when ordering the RES670 A20 Hitachi Energy © 2017 - 2022 Hitachi Energy. All rights reserved...
  • Page 9 In the binary reporting channels over IEEE C37.118/1344 in the standard B20 configuration, in addition to frequency data, standard configuration. The number of analog and binary Hitachi Energy © 2017 - 2022 Hitachi Energy. All rights reserved...
  • Page 10 Note that RES670 B20 are mainly intended for alarm purposes. Available protection must be reconfigured if any additional functions are used. Hitachi Energy © 2017 - 2022 Hitachi Energy. All rights reserved...
  • Page 11 GUP PDUP NS4 PTOC OC4 PTOC Ucos IN> Zpsb VTHD UTHD OOS PPAM SDE PSDE VHM MHAI ZMBU RPSB IEC140000123‐4‐en.vsdx IEC140000123 V4 EN-US Figure 3. Block diagram for configuration B20 Hitachi Energy © 2017 - 2022 Hitachi Energy. All rights reserved...

  • Page 12: Available Functions

    C37.118, binary 9-16 2-P17 BINARYREPORT3 Protocol reporting of binary data via IEEE 1344 1-P16/ 1-P18/ and C37.118, binary 17-24 2-P17 2-P19 PMUSTATUS Diagnostics for C37.118 2011 and IEEE1344 protocol Hitachi Energy © 2017 - 2022 Hitachi Energy. All rights reserved...
  • Page 13 Rate-of-change of frequency protection FTAQFVR Frequency time accumulation protection Multipurpose protection CVGAPC General current and voltage protection 4-F01 6-F02 General calculation SMAIHPAC Multipurpose filter 67 requires voltage 67N requires voltage Hitachi Energy © 2017 - 2022 Hitachi Energy. All rights reserved...
  • Page 14 Real delta supervision, real Logic SMPPTRC Tripping logic SMAGAPC General start matrix block STARTCOMB Start combinator TMAGAPC Trip matrix logic ALMCALH Logic for group alarm WRNCALH Logic for group warning Hitachi Energy © 2017 - 2022 Hitachi Energy. All rights reserved...
  • Page 15 Hold minimum and maximum of input INT_REAL Converter integer to real CONST_INT Definable constant for logic functions INTSEL Analog input selector for integer values LIMITER Definable limiter Absolute value POL_REC Polar to rectangular converter Hitachi Energy © 2017 - 2022 Hitachi Energy. All rights reserved...
  • Page 16 60870-5-103 I103AR Function status auto-recloser for IEC 60870-5-103 I103EF Function status earth-fault for IEC 60870-5-103 I103FLTPROT Function status fault protection for IEC 60870-5-103 I103IED IED status for IEC 60870-5-103 Hitachi Energy © 2017 - 2022 Hitachi Energy. All rights reserved...
  • Page 17 Function for energy calculation and demand handling Table 2. Total number of instances for basic configurable logic blocks Basic configurable logic block Total number of instances GATE PULSETIMER RSMEMORY SRMEMORY TIMERSET Hitachi Energy © 2017 - 2022 Hitachi Energy. All rights reserved...
  • Page 18 RSMEMORYQT SRMEMORYQT TIMERSETQT XORQT Table 4. Total number of instances for extended logic package Extended configurable logic block Total number of instances GATE PULSETIMER RSMEMORY SLGAPC SRMEMORY TIMERSET VSGAPC Hitachi Energy © 2017 - 2022 Hitachi Energy. All rights reserved...
  • Page 19 GOOSE function block to receive a single point value ALGOS Supervision of GOOSE subscription MULTICMDRCV, Multiple command and transmit 60/10 60/10 60/10 MULTICMDSND OPTICAL103 IEC 60870-5-103 Optical serial communication Hitachi Energy © 2017 - 2022 Hitachi Energy. All rights reserved...
  • Page 20 Access point diagnostic for redundant Ethernet ports DHCP DHCP configuration for front access point QUALEXP IEC 61850 quality expander Remote communication BinSignRec1_1 Binary signal transfer, receive 3/3/6 3/3/6 3/3/6 BinSignRec1_2 BinSignReceive2 Hitachi Energy © 2017 - 2022 Hitachi Energy. All rights reserved...
  • Page 21 Receive binary status from remote LDCM LDCMRecBinStat3 LDCMRecBinStat2 Receive binary status from LDCM LDCM2M_305 Receive binary status from LDCM, 2Mbit LDCM2M_312 LDCM2M_322 LDCM2M_306 Receive binary status from remote LDCM, 2Mbit LDCM2M_313 LDCM2M_323 Hitachi Energy © 2017 - 2022 Hitachi Energy. All rights reserved...
  • Page 22 Date and time via SPA protocol BCSCONF Basic communication system GBASVAL Global base values for settings PRIMVAL Primary system values SAFEFILECOPY Safe file copy function ALTMS Time master supervision ALTIM Time management Hitachi Energy © 2017 - 2022 Hitachi Energy. All rights reserved...

  • Page 23: Impedance Protection

    Two current channels I3P1 and I3P2 are available in OOSPPAM function to allow the direct connection of two groups of three-phase currents; that may be needed for very Hitachi Energy © 2017 - 2022 Hitachi Energy. All rights reserved...

  • Page 24: Wide Area Measurement System

    IED. More information three-phase currents or taking the input from the neutral CT. regarding synchrophasor communication structure and TCP/UDP configuration is available in Application Manual Hitachi Energy © 2017 - 2022 Hitachi Energy. All rights reserved...

  • Page 25: Voltage Protection

    A thermal overload will often not be detected by other or definite time delayed. protection functions and the introduction of the thermal overload protection can allow the protected circuit to operate closer to the thermal limits. Hitachi Energy © 2017 - 2022 Hitachi Energy. All rights reserved...

  • Page 26: Frequency Protection

    Open or short circuited current transformer cores can cause Frequency time accumulation protection (FTAQFVR) is unwanted operation of many protection functions such as based on measured system frequency and time counters. Hitachi Energy © 2017 - 2022 Hitachi Energy. All rights reserved...

  • Page 27: Control

    Hardware selector switches are used extensively by utilities, in order to have different functions operating on pre-set values. Hardware switches are Hitachi Energy © 2017 - 2022 Hitachi Energy. All rights reserved...

  • Page 28: Logic

    The list below is a summary of the function circuit breaker. It provides a settable pulse prolongation blocks and their features. time to ensure a trip pulse of sufficient length, as well as all Hitachi Energy © 2017 - 2022 Hitachi Energy. All rights reserved...
  • Page 29 SP_OUT output. TIME input is copied to time part of Boolean, integer, floating point, string types of signals are SP_OUT output. Quality input bits are copied to the available. corresponding quality part of SP_OUT output. Hitachi Energy © 2017 - 2022 Hitachi Energy. All rights reserved...
  • Page 30 INPUT as soon as the START input select value number shall be 0. goes to 1, the outputs are updated as long as the START is Hitachi Energy © 2017 - 2022 Hitachi Energy. All rights reserved...

  • Page 31: Monitoring

    IED and maximum of 40 analog and 352 binary signals. the Disturbance recorder function (triggered). Hitachi Energy © 2017 - 2022 Hitachi Energy. All rights reserved...
  • Page 32 IED and the local HMI is used transformers, shunt reactors, and so on. Binary information to view the list of recordings . based on the liquid level in the circuit breaker can be used Hitachi Energy © 2017 - 2022 Hitachi Energy. All rights reserved...

  • Page 33: Metering

    This function amplitudes present in the system. The function also includes zero point clamping to remove noise from the input Hitachi Energy © 2017 - 2022 Hitachi Energy. All rights reserved...

  • Page 34: Human Machine Interface

    HSR, 15 IEDs can be IEC13000239-3-en.vsd IEC13000239 V3 EN-US Figure 4. Local human-machine interface The LHMI of the IED contains the following elements Hitachi Energy © 2017 - 2022 Hitachi Energy. All rights reserved...

  • Page 35: Ethernet

    PRP IEC 62439-3 redundant communication Redundant communication according to IEC 62439-3 PRP-0 Available communication protocols are: and IEC 62439-3 PRP-1 parallel redundancy protocol (PRP) is available as an option when ordering IEDs. PRP Hitachi Energy © 2017 - 2022 Hitachi Energy. All rights reserved...
  • Page 36 GUID-9C5DC78E-041B-422B-9668-320E62B847A2 v1 The quality expander component is used to display the SEMOD120134-5 v2 A single glass or plastic port is provided for the Hitachi detailed quality of an IEC/UCA 61850-9-2LE analog Power Grids SPA protocol. This allows extensions of simple channel.
  • Page 37 DNP3.0 communication protocol SEMOD153688-5 v3 An electrical RS485 serial port, optical serial ports on the serial communication module (SLM), optical Ethernet ports Hitachi Energy © 2017 - 2022 Hitachi Energy. All rights reserved...

  • Page 38: Remote Communication

    Ethernet ports. The port connectors are: • SFP Optical LC Ethernet ports can be configured as four separate or in • Galvanic RJ45 redundant mode PRP, HSR, or RSTP. The combination Hitachi Energy © 2017 - 2022 Hitachi Energy. All rights reserved...
  • Page 39 Ring lug or compression type connectors can be ordered. IEC08000165‐3‐en.vsdx IEC08000165 V3 EN-US Figure 8. Case with rear cover and 19” rack mounting kit Hitachi Energy © 2017 - 2022 Hitachi Energy. All rights reserved...
  • Page 40 – 1/2 case size (h) 254.3 mm/10.01” (w) 210.1 mm/8.27” – 3/4 case size (h) 254.3 mm/10.01” (w) 322.4 mm/12.69” – 1/1 case size (h) 254.3 mm/10.01” (w) 434.7 mm/17.11” • Wall mounting kit Hitachi Energy © 2017 - 2022 Hitachi Energy. All rights reserved...

  • Page 41: Connection Diagrams

    DNP 3.0 certificate issued by 10021419-OPE/INC 16-2532 DNV GL IEEE Synchrophasor certificate IEC/IEEE 60255-118-1:2018, issued by IEEE SA Test report no.: 2020004393 * Valid for IEDs produced at factory in Sweden. Hitachi Energy © 2017 - 2022 Hitachi Energy. All rights reserved...

  • Page 42: Technical Data

    = √3 × U × I 8. For operate and reset time testing, the default setting values of the function and BOM module are used if not explicitly stated otherwise. Hitachi Energy © 2017 - 2022 Hitachi Energy. All rights reserved...
  • Page 43 < 20 mVA at 110 V < 80 mVA at 220 V **) all values for individual voltage inputs Note! All current and voltage data are specified as RMS values at rated frequency Hitachi Energy © 2017 - 2022 Hitachi Energy. All rights reserved...
  • Page 44 EL = (24-60) V EL ±20% EL = (90-250) V Power consumption 50 W typically Auxiliary DC power in-rush < 10 A during 0.1 s Supply interruption bridging time < 50 ms Hitachi Energy © 2017 - 2022 Hitachi Energy. All rights reserved...
  • Page 45 Binary input operate time 3 ms (Debounce filter set to 0 ms) * Note: For compliance with surge immunity a debounce filter time setting of 5 ms is required. Hitachi Energy © 2017 - 2022 Hitachi Energy. All rights reserved...
  • Page 46 Binary input operate time 3 ms (Debounce filter set to 0 ms) * Note: For compliance with surge immunity a debounce filter time setting of 5 ms is required. Hitachi Energy © 2017 - 2022 Hitachi Energy. All rights reserved...
  • Page 47 Max operations with resistive load 2000 Max operations with no load 10000 Operating time < 6 ms <= 1 ms These reed relays have been excluded from UL evaluation. Hitachi Energy © 2017 - 2022 Hitachi Energy. All rights reserved...
  • Page 48 Max operations with inductive load L/R ≤ 40 ms 1000 Max operations with resistive load 2000 Max operations with no load 10000 Operating time < 6 ms <= 1 ms Hitachi Energy © 2017 - 2022 Hitachi Energy. All rights reserved...
  • Page 49 Max operations with inductive load L/R ≤ 40 ms 1000 Max operations with resistive load 2000 Max operations with resistive load (On ≤ 0.2 s) 10000 Max operations with no load 10000 Operating time < 1 ms Hitachi Energy © 2017 - 2022 Hitachi Energy. All rights reserved...
  • Page 50 220 V / 0.35 A 250 V / 0.3 A Max operations with resistive load 2 000 Max operations with no load 10 000 Operating time < 6 ms Hitachi Energy © 2017 - 2022 Hitachi Energy. All rights reserved...
  • Page 51 48 V / 2 A 110 V / 0.5 A 125 V / 0.45 A 220 V / 0.35 A 250 V / 0.3 A Operating time < 6 ms Hitachi Energy © 2017 - 2022 Hitachi Energy. All rights reserved...
  • Page 52 IP15846-1 v1 Table 21. Temperature and humidity influence Parameter Reference value Nominal range Influence Ambient temperature, operate +20±5°C -25°C to +55°C 0.02%/°C value Relative humidity 45-75% 10-90% Operative range 0-95% Hitachi Energy © 2017 - 2022 Hitachi Energy. All rights reserved...
  • Page 53 Within nominal range Influence Frequency dependence, operate value ±2.5 Hz for 50 Hz ±1.0%/Hz ±3.0 Hz for 60 Hz Harmonic frequency dependence (20% content) ±2.0% and 5 harmonic of f Hitachi Energy © 2017 - 2022 Hitachi Energy. All rights reserved...
  • Page 54 - X.21-LDCM Impulse voltage test 5 kV, 1.2/50ms, 0.5 J 1 kV, 1.2/50 ms 0.5 J: -SFP galvanic RJ45 - X.21-LDCM Insulation resistance > 100 MW at 500 VDC Hitachi Energy © 2017 - 2022 Hitachi Energy. All rights reserved...
  • Page 55 Class I: Rack, flush and wall mount IEC 60255-21-2 Bump test Class I: Rack, flush and wall mount IEC 60255-21-2 Seismic test Class II: Rack mount IEC 60255-21-3 Class I: Flush and wall mount Hitachi Energy © 2017 - 2022 Hitachi Energy. All rights reserved...
  • Page 56 ±2.0% of U Rotor start angle (90.0 - 130.0) degrees ±5.0 degrees Rotor trip angle (15.0 - 90.0) degrees ±5.0 degrees Zone 1 and Zone 2 trip counters (1 - 20) Hitachi Energy © 2017 - 2022 Hitachi Energy. All rights reserved...
  • Page 57 This means 10, 25, and 50 frames per second for 50 Hz system frequency and 10, 12, 15, 20, 30, and 60 frames per second for 60 Hz system frequency. Hitachi Energy © 2017 - 2022 Hitachi Energy. All rights reserved...
  • Page 58 Critical impulse time 10 ms typically at 0 to 2 x I Impulse margin time 15 ms typically Operate frequency, directional 38-83 Hz overcurrent Operate frequency, non-directional 10-90 Hz overcurrent Hitachi Energy © 2017 - 2022 Hitachi Energy. All rights reserved...
  • Page 59 10 ms typically at 0 to 2 x I Impulse margin time 15 ms typically *Note: Operate time and reset time are only valid if harmonic blocking is turned off for a step. Hitachi Energy © 2017 - 2022 Hitachi Energy. All rights reserved...
  • Page 60 Max. = 35 ms Critical impulse time 10 ms typically at 0 to 2 x I Impulse margin time 15 ms typically Transient overreach <10% at τ = 100 ms Hitachi Energy © 2017 - 2022 Hitachi Energy. All rights reserved...
  • Page 61 See Table 146, Table and Table Table and Table Relay characteristic angle (RCADir) (-179 to 180) degrees ±2.0 degrees Relay operate angle (ROADir) (0 to 90) degrees ±2.0 degrees Hitachi Energy © 2017 - 2022 Hitachi Energy. All rights reserved...
  • Page 62 Independent time delay to operate for Step 1 (0.01-6000.00) s ±0.2% or ±40 ms whichever is greater and Step 2 at 0.5 x S to 2 x S and k=0.000 Hitachi Energy © 2017 - 2022 Hitachi Energy. All rights reserved...
  • Page 63 Reset time, start at 0 to 1.2 x U Min. = 15 ms Max. = 35 ms Critical impulse time 5 ms typically at 1.2 x U to 0 Impulse margin time 15 ms typically Hitachi Energy © 2017 - 2022 Hitachi Energy. All rights reserved...
  • Page 64 Reset time, start at 1.2 x U to 0 Min. = 5 ms Max. = 25 ms Critical impulse time 10 ms typically at 0 to 2 x U Impulse margin time 15 ms typically Hitachi Energy © 2017 - 2022 Hitachi Energy. All rights reserved...
  • Page 65 Note: The stated accuracy is valid for the voltage range 50 V – 250 V secondary. The settings and test conditions are in accordance with IEC 60255-181 standard (section 6.2 – 6.7). Hitachi Energy © 2017 - 2022 Hitachi Energy. All rights reserved...
  • Page 66 Note: The stated accuracy is valid for the voltage range 50 V – 250 V secondary. The settings and test conditions are in accordance with IEC 60255-181 standard (section 6.2 – 6.7). Hitachi Energy © 2017 - 2022 Hitachi Energy. All rights reserved...
  • Page 67 Max. = 240 ms 1.2, 2.0, 5.0 x Gs Gs: ±3.00, ±6.00 & ±10.00 Min. = 180 ms Hz/s Max. = 300 ms Tested frequency slope: 1.2, 2.0 x Gs Hitachi Energy © 2017 - 2022 Hitachi Energy. All rights reserved...
  • Page 68 -0.02 Hz Independent time delay for the accumulation (10.0 – 90000.0) s ±0.2% or ±250 ms whichever is greater time limit at f +0.02 Hz to f -0.02 Hz Hitachi Energy © 2017 - 2022 Hitachi Energy. All rights reserved...
  • Page 69 ±0.5% of U at U > U Start undervoltage, step 1 - 2 (2.0 - 150.0)% of UBase ±0.5% of U at U ≤ U ±0.5% of U at U > U Hitachi Energy © 2017 - 2022 Hitachi Energy. All rights reserved...
  • Page 70 10 ms typically at 2 x I to 0 Impulse margin time 15 ms typically Overvoltage: Critical impulse time 10 ms typically at 0.8 x U to 1.2 x Impulse margin time 15 ms typically Hitachi Energy © 2017 - 2022 Hitachi Energy. All rights reserved...
  • Page 71 Table 45. General current and voltage protection CVGAPC, continued Function Range or value Accuracy Undervoltage: Critical impulse time 10 ms typically at 1.2 x U to 0.8 x Impulse margin time 15 ms typically Hitachi Energy © 2017 - 2022 Hitachi Energy. All rights reserved...
  • Page 72 Ur to (Ur + 5 x DelU>) <20msRMS & DFT Mag mode - <30ms Operate time for jump from Zero degrees to Vector shift mode - <60ms 'AngStVal' + 2 degrees Hitachi Energy © 2017 - 2022 Hitachi Energy. All rights reserved...
  • Page 73 Operate time for changeat Ir to (Ir + 2 x DelI>)at Ir to Instantaneous 1 cycle & Instantaneous 2 cycle mode - (Ir + 5 x DelI>) <20ms RMS & DFT Mag mode - <30ms Hitachi Energy © 2017 - 2022 Hitachi Energy. All rights reserved...
  • Page 74 Quantity with cycle time 3 ms 8 ms 100 ms INDCALH GUID-D1179280-1D99-4A66-91AC-B7343DBA9F23 v3 Table 57. Number of AND instances Logic block Quantity with cycle time 3 ms 8 ms 100 ms Hitachi Energy © 2017 - 2022 Hitachi Energy. All rights reserved...
  • Page 75 8 ms 100 ms TIMERSET (0.000–90000.000) s ±0.5% ±10 ms GUID-0B07F78C-10BD-4070-AFF0-6EE36454AA03 v2 Table 66. Number of XOR instances Logic block Quantity with cycle time 3 ms 8 ms 100 ms Hitachi Energy © 2017 - 2022 Hitachi Energy. All rights reserved...
  • Page 76 3 ms 8 ms 100 ms RSMEMORYQT GUID-341562FB-6149-495B-8A63-200DF16A5590 v1 Table 75. Number of SRMEMORYQT instances Logic block Quantity with cycle time 3 ms 8 ms 100 ms SRMEMORYQT GUID-B6231B97-05ED-40E8-B735-1E1A50FDB85F v1 Hitachi Energy © 2017 - 2022 Hitachi Energy. All rights reserved...
  • Page 77 Quantity with cycle time 3 ms 8 ms 100 ms BTIGAPC GUID-B45901F4-B163-4696-8220-7F8CAC84D793 v3 Table 81. Number of IB16 instances Function Quantity with cycle time 3 ms 8 ms 100 ms IB16 Hitachi Energy © 2017 - 2022 Hitachi Energy. All rights reserved...
  • Page 78 Quantity with cycle time 3 ms 8 ms 100 ms INT_REAL Table 89. Number of CONST_INT instances Function Quantity with cycle time 3 ms 8 ms 100 ms CONST_INT Hitachi Energy © 2017 - 2022 Hitachi Energy. All rights reserved...
  • Page 79 Quantity with cycle time 3 ms 8 ms 100 ms REALSEL Table 97. Number of STOREINT instances Function Quantity with cycle time 3 ms 8 ms 100 ms STOREINT Hitachi Energy © 2017 - 2022 Hitachi Energy. All rights reserved...
  • Page 80 Quantity with cycle time 3 ms 8 ms 100 ms STOREREAL Table 99. Number of DEG_RAD instances Function Quantity with cycle time 3 ms 8 ms 100 ms DEG_RAD Hitachi Energy © 2017 - 2022 Hitachi Energy. All rights reserved...
  • Page 81 ±0.5% of U at U ≤ 50 V ±0.2% of U at U > 50 V Phase angle (10 to 300) V ±0.5 degrees at U ≤ 50 V ±0.2 degrees at U > 50 V Hitachi Energy © 2017 - 2022 Hitachi Energy. All rights reserved...
  • Page 82 Min current of transducer to (-20.00 to +20.00) mA input Alarm level for input (-20.00 to +20.00) mA Warning level for input (-20.00 to +20.00) mA Alarm hysteresis for input (0.0-20.0) mA Hitachi Energy © 2017 - 2022 Hitachi Energy. All rights reserved...
  • Page 83 Reset time delay for temperature alarm (0.000-60.000) s ±0.2% or ±250 ms whichever is greater Time delay for temperature lockout (0.000-60.000) s ±0.2% or ±250 ms whichever is greater Hitachi Energy © 2017 - 2022 Hitachi Energy. All rights reserved...
  • Page 84 1 ms Accuracy Depending on time synchronizing M13765-1 v6 Table 112. Indications Function Value Buffer capacity Maximum number of indications presented for single disturbance Maximum number of recorded disturbances Hitachi Energy © 2017 - 2022 Hitachi Energy. All rights reserved...
  • Page 85 (0 - 99999.9) hours ±0.1% of set value Time limit for warning supervision, tWarning (0 - 99999.9) hours ±0.1% of set value Time limit for overflow supervision Fixed to 99999.9 hours ±0.1% Hitachi Energy © 2017 - 2022 Hitachi Energy. All rights reserved...
  • Page 86 (0.1 - 0.5) X U Distortion (VTHD) Note: - Applied Voltage Fundamental - Applied Voltage Harmonic (of respective harmonics) U - Actual Voltage = RMS (U and U Hitachi Energy © 2017 - 2022 Hitachi Energy. All rights reserved...
  • Page 87 Table 121. Function for energy calculation and demand handling ETPMMTR Function Range or value Accuracy Energy metering kWh Export/Import, kvarh Export/Import Input from CVMMXN. No extra error at steady load Hitachi Energy © 2017 - 2022 Hitachi Energy. All rights reserved...
  • Page 88 62.5/125 mm, 50/125 mm multimode Type of fiber OM1, OM2, OM3, OM4 Length Wave length 1310 nm, Class 1 laser safety Optical connector Type LC Communication speed Fast Ethernet 100 Mbit/s Hitachi Energy © 2017 - 2022 Hitachi Energy. All rights reserved...
  • Page 89 GUID-48F45DA2-B92E-4977-B9B8-C2FCE8091624 v1 The recovery time of a link failure on RSTP with the IEDs that are using Galvanic ports is higher than the IEDs with the Optical ports. Hitachi Energy © 2017 - 2022 Hitachi Energy. All rights reserved...
  • Page 90 Screw compression type 250 V AC 2.5 mm (AWG14) 2 × 1 mm (2 x AWG18) Terminal blocks suitable for ring lug terminals 300 V AC 3 mm (AWG14) Hitachi Energy © 2017 - 2022 Hitachi Energy. All rights reserved...
  • Page 91 SFP Optical LC or Galvanic RJ45 Carrier modules supported OEM, LDCM GUID-4876834C-CABB-400B-B84B-215F65D8AF92 v3 Table 136. OEM: Number of Ethernet ports 2 Ethernet Ports Ethernet connection type SFP Optical LC or Galvanic RJ45 Hitachi Energy © 2017 - 2022 Hitachi Energy. All rights reserved...
  • Page 92 26 db @ 1.6 GHz Antenna cable impedance 50 ohm Lightning protection Must be provided externally Antenna cable connector SMA in receiver end TNC in antenna end Accuracy +/-1μs Hitachi Energy © 2017 - 2022 Hitachi Energy. All rights reserved...
  • Page 93 +/-10μs for IRIG-B 00x and +/-100μs for IRIG-B 12x Input impedance 100 k ohm Optical connector: Optical connector IRIG-B Type ST Type of fiber 62.5/125 μm multimode fiber Supported formats IRIG-B 00x Accuracy +/- 1μs Hitachi Energy © 2017 - 2022 Hitachi Energy. All rights reserved...
  • Page 94 ANSI Moderately Inverse A=0.0515, B=0.1140, P=0.02, tr=4.85 Long Time Extremely Inverse A=64.07, B=0.250, P=2.0, tr=30 Long Time Very Inverse A=28.55, B=0.712, P=2.0, tr=13.46 Long Time Inverse A=0.086, B=0.185, P=0.02, tr=4.6 Hitachi Energy © 2017 - 2022 Hitachi Energy. All rights reserved...
  • Page 95 0.236 0.339 EQUATION1137-SMALL V1 EN-US I = I measured RD type logarithmic inverse characteristic æ ö ç × ÷ 1.35 è ø EQUATION1138-SMALL V1 EN-US I = I measured Hitachi Energy © 2017 - 2022 Hitachi Energy. All rights reserved...
  • Page 96 ANSI Moderately Inverse A=0.0515, B=0.1140, P=0.02, tr=4.85 Long Time Extremely Inverse A=64.07, B=0.250, P=2.0, tr=30 Long Time Very Inverse A=28.55, B=0.712, P=2.0, tr=13.46 Long Time Inverse A=0.086, B=0.185, P=0.02, tr=4.6 Hitachi Energy © 2017 - 2022 Hitachi Energy. All rights reserved...
  • Page 97 0.236 0.339 EQUATION1137-SMALL V1 EN-US I = I measured RD type logarithmic inverse characteristic æ ö ç × ÷ 1.35 è ø EQUATION1138-SMALL V1 EN-US I = I measured Hitachi Energy © 2017 - 2022 Hitachi Energy. All rights reserved...
  • Page 98 C = (0.0-1.0) in steps of 0.1 æ ö > ç × ÷ D = (0.000-60.000) in steps of 0.001 è ø > P = (0.000-3.000) in steps of 0.001 EQUATION1439-SMALL V1 EN-US Hitachi Energy © 2017 - 2022 Hitachi Energy. All rights reserved...
  • Page 99 < - P = (0.000-3.000) in steps of 0.001 ê ç × ÷ ú ë è ø û < EQUATION1433-SMALL V1 EN-US U< = U U = U measured Hitachi Energy © 2017 - 2022 Hitachi Energy. All rights reserved...
  • Page 100 C = (0.0-1.0) in steps of 0.1 æ ö > D = (0.000-60.000) in steps of 0.001 ç × ÷ è ø > P = (0.000-3.000) in steps of 0.001 EQUATION1439-SMALL V1 EN-US Hitachi Energy © 2017 - 2022 Hitachi Energy. All rights reserved...

  • Page 101: Ordering For Customized Ied

    Table 155. Product definition ordering codes Product RES670* Product version Configuration alternative RES670 Phasor measurement unit ACT configuration No ACT configuration downloaded Ordering number RES670 Phasor measurement unit 1MRK002824-AG Hitachi Energy © 2017 - 2022 Hitachi Energy. All rights reserved...
  • Page 102 Selected Notes and rules identification Underfrequency protection SAPTUF 1MRK005914-AC 00–10 Overfrequency protection SAPTOF 1MRK005914-BB 0–6 Rate-of-change of frequency protection SAPFRC 1MRK005914-CB 0–6 Frequency time accumulation protection FTAQFVR 1MRK005914-DB 00–04 Hitachi Energy © 2017 - 2022 Hitachi Energy. All rights reserved...
  • Page 103 Available Selected Notes and rules identification Circuit breaker condition monitoring SSCBR 1MRK005924-HA 00–18 Current harmonic monitoring, 3 phase CHMMHAI 1MRK005924-QB 0–3 Voltage harmonic monitoring, 3 phase VHMMHAI 1MRK005924-SB 0–3 Hitachi Energy © 2017 - 2022 Hitachi Energy. All rights reserved...
  • Page 104 Additional local HMI user dialogue language No additional HMI language HMI language, English US 1MRK002920-UB Selected Additional 2nd languages are continuously being added. Please get in touch with local Hitachi Power Grids sales contact. Table 181. Casing selection Casing Ordering no Selection Notes and rules 1/2 x 19"...
  • Page 105 3/4 x 19”, IEC 1MRK000030-CA 1/1 x 19”, IEC 1MRK000030-BA Blank front, ANSI symbols 1/2 x 19", ANSI 1MRK000030-AB 3/4 x 19”, ANSI 1MRK000030-CB 1/1 x 19”, ANSI 1MRK000030-BB Selected Hitachi Energy © 2017 - 2022 Hitachi Energy. All rights reserved...
  • Page 106 3 **) one (1) TRM *) Including a combination of maximum four modules of type BOM or SOM and six modules of type MIM. **) Max 2 SOM possible Hitachi Energy © 2017 - 2022 Hitachi Energy. All rights reserved...
  • Page 107 1/2 x 19” rack casing, 1, possible location: P3 one (1) TRM *) Including a combination of maximum four modules of type BOM or SOM and six modules of type MIM. Hitachi Energy © 2017 - 2022 Hitachi Energy. All rights reserved...
  • Page 108 1MRK000173-GD 24-30 VDC, 50mA, 10+2 output relays IOM 8 inputs, RL 1MRK000173-AE 48-60 VDC, 50mA, 10+2 output relays IOM 8 inputs, RL 1MRK000173-BE 110-125 VDC, 50mA, 10+2 output relays Hitachi Energy © 2017 - 2022 Hitachi Energy. All rights reserved...
  • Page 109 Ethernet SFP is basic in P30:1. P30:6:1 and P30:6:2 require the Optical Ethernet module in P30:6. LDCM is not applicable in RES670. One of GPS time module or IRIG-B time synchronization module must be ordered. Hitachi Energy © 2017 - 2022 Hitachi Energy. All rights reserved...

  • Page 110: Ordering For Pre-Configured Ied

    Selection for position #1 Configuration alternatives Ordering no Notes and rules Phasor measurement unit, 3 bays, single busbar 1MRK004824-AG Phasor measurement unit, 6 bays, double busbar 1MRK004824-BG Selection for position #2 Hitachi Energy © 2017 - 2022 Hitachi Energy. All rights reserved...
  • Page 111 HMI language, English US 1MRK002920-UB Selection for position #4 Additional 2nd languages are continuously being added. Please get in touch with local Hitachi Power Grids sales contact. Casing Ordering no Notes and rules 1/2 x 19" rack casing, 1 TRM 1MRK000151-VA 3/4 x 19"...
  • Page 112 TRM 9I 5A + 3U 110/220V, 50/60Hz, ring lug terminals 1MRK002247-BD Selection for position #9 Only valid if IEC 61850-9-2 Process bus communication is selected. B20 must include a second TRM. A20 can have only one TRM. Hitachi Energy © 2017 - 2022 Hitachi Energy. All rights reserved...
  • Page 113 1MRK000173-GD 24-30 VDC, 50mA, 10+2 output relays IOM 8 inputs, RL 1MRK000173-AE 48-60 VDC, 50mA, 10+2 output relays IOM 8 inputs, RL 1MRK000173-BE 110-125 VDC, 50mA, 10+2 output relays Hitachi Energy © 2017 - 2022 Hitachi Energy. All rights reserved...
  • Page 114 SOM must not to be placed in the position nearest to NUM: 1/2 case slot P5, 3/4 case 1 TRM slot P10, 3/4 case 2 TRM slot P7, 1/1 case 2 TRM slot P13, 1/1 case, 1 TRM slot P16. Hitachi Energy © 2017 - 2022 Hitachi Energy. All rights reserved...
  • Page 115 Ethernet SFP is basic in P30:1. P30:6:1 and P30:6:2 require the Optical Ethernet module in P30:6. LDCM is not applicable in RES670. One of GPS time module or IRIG-B time synchronization module must be ordered. Hitachi Energy © 2017 - 2022 Hitachi Energy. All rights reserved...

  • Page 116: Ordering For Accessories

    Note: To connect the key switch, leads with 10 A Combiflex socket on one end must be used. SEMOD130267-5 v8 Mounting kit Side-by-side mounting kit Quantity: 1MRK 002 420-Z Hitachi Energy © 2017 - 2022 Hitachi Energy. All rights reserved...
  • Page 117 Installation manual, Commissioning manual, Application manual and Getting started guide), Connectivity packages and LED label template is always included for each IED. Specify additional quantity of IED Connect USB flash drive requested. Quantity: 1MRK 002 290-AE Hitachi Energy © 2017 - 2022 Hitachi Energy. All rights reserved...
  • Page 118 1MRK 511 397-UUS Operation manual Quantity: 1MRK 500 127-UEN ANSI Quantity: 1MRK 500 127-UUS Installation manual Quantity: 1MRK 514 026-UEN ANSI Quantity: 1MRK 514 026-UUS Engineering manual Quantity: 1MRK 511 398-UEN Hitachi Energy © 2017 - 2022 Hitachi Energy. All rights reserved...
  • Page 119 1MRK 511 399-UEN guideline Connection and Installation 1MRK 513 003-BEN components Test system, COMBITEST 1MRK 512 001-BEN Application guide, 1MRK 505 382-UEN Communication set-up User guide, RIA600 1MRK 511 619-UEN Hitachi Energy © 2017 - 2022 Hitachi Energy. All rights reserved...
  • Page 121 Hitachi Energy Sweden AB Grid Automation Products SE-721 59 Västerås, Sweden Phone +46 (0) 10 738 00 00 Scan this QR code to visit our website https://hitachienergy.com/protection-control © 2017 - 2022 Hitachi Energy. All rights reserved...

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Res670

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