ABB REF 54 Series Technical Reference Manual Download

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1MRS750527-MUM

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Technical Reference Manual, General

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Included on the CD-ROM “Technical Descriptions of Functions”, 1MRS750889-MCD

Included on the CD-ROM “Relay Product Engineering Tools”, 1MRS751788-MCD

Included on the CD-ROM “Relay Setting Tools”, 1MRS751787-MCD

• Installation Manual

1MRS750526-MUM

• Operator’s Manual

1MRS750500-MUM

• Technical Reference Manual

1MRS750527-MUM

• Configuration Guideline

1MRS750745-MUM

• Technical Descriptions of Functions (CD-ROM)

1MRS750889-MCD

• Parameter List for REF 541 and REF 543

1MRS751774-MTI

• Parameter List for REF 545

1MRS751775-MTI

• Event List for REF 541 and REF 543

1MRS751776-MTI

• Event List for REF 545

1MRS751777-MTI

• Technical Description of the RER 103

1MRS750532-MUM

• Technical Description of the RER 123

1MRS751143-MUM

• CAP505 Installation and Commissioning Manual

1MRS751273-MEN

• CAP505 Operator’s Manual

1MRS751709-MUM

• CAP501 Installation and Commissioning Manual

1MRS751270-MEN

• CAP501 Operator’s Manual

1MRS751271-MUM

• Relay Configuration Tool, Quick Start Reference

1MRS751275-MEN

• Relay Configuration Tool, Tutorial

1MRS751272-MEN

• Relay Mimic Editor, Configuration Manual

1MRS751274-MEN

• Tools for Relays and Terminals, User’s Guide

1MRS752008-MUM

• LNT 505 Installation and Commissioning Manual

1MRS751705-MUM

• LNT 505 Operator’s Manual

1MRS751706-MUM

Summary of Contents for REF 54 Series

Page 1: ...led products from ABB are the building blocks for greater productivity featuring all the tools necessary for lifecycle product support in consistent electronic form 5 B HHGHU 7HUPLQDO 7HFKQLFDO 5HIHUH...

Page 2: ......

Page 3: ...toring functions 21 4 1 1 6 Communication functions 21 4 1 1 7 General functions 21 4 1 1 8 Standard functions 22 4 1 2 Configuration 23 4 1 2 1 Feeder terminal configuration 23 4 1 2 2 MIMIC configur...

Page 4: ...l range 46 4 1 9 3 Transducer supervision 48 4 1 9 4 Signal filtering 48 4 1 9 5 Input scaling linearization 48 4 1 9 6 Transducer connections 49 4 1 9 7 Attributes of an RTD analogue input for feeder...

Page 5: ...ng 73 4 2 Design description 75 4 2 1 Technical data 75 4 2 2 Terminal diagram of REF 541 80 4 2 3 Terminal diagram of REF 543 81 4 2 4 Terminal diagram of REF 545 82 4 2 5 Terminal diagram of the RTD...

Page 6: ...VVDU QGH XVWRPHU HHGEDFN SSHQGL 7KH EXV 12 1 Functions supported by the REF 54_ 103 12 2 IEC parameters 103 12 3 The general principle of application data mapping 104 12 4 The principle of the protect...

Page 7: ...this manual Text added to the table in section Standard functions INDRESET Resetting of operation indicators latched output signals registers and waveforms L H WKH GLVWXUEDQFH UHFRUGHU Section added...

Page 8: ...of a digital input Selection of input signal range RTD temperature vs resistance Trip circuit supervision Fault indication Fault codes Serial communication LON SPA bus communication on the rear conne...

Page 9: ...tal signal processing combined with a powerful CPU and distributed I O handling facilitates parallel operations and improves response times and accuracy The HMI including an LCD display with different...

Page 10: ...1 1 PS1 80 265 Vdc ac Medium 1 1 1 1 1 1 1 1 PS1 18 80 Vdc ac Low 1 1 1 1 PS2 80 265 Vdc PS2 18 80 Vdc LJLWDO 2 ERDUGV BIO1 threshold voltage 140 Vdc 1 1 1 1 1 1 1 1 BIO1 threshold voltage 80 Vdc 1 1...

Page 11: ...c Medium 1 1 1 1 1 1 1 1 PS1 18 80 Vdc ac Low 1 1 1 1 PS2 80 265 Vdc PS2 18 80 Vdc LJLWDO 2 ERDUGV BIO1 threshold voltage 140 Vdc 1 1 1 1 1 1 1 1 BIO1 threshold voltage 80 Vdc 1 1 1 1 1 1 1 1 BIO1 thr...

Page 12: ...18 80 Vdc ac Low PS2 80 265 Vdc 1 1 1 1 1 1 1 1 PS2 18 80 Vdc 1 1 LJLWDO 2 ERDUGV BIO1 threshold voltage 140 Vdc 2 2 2 2 BIO1 threshold voltage 80 Vdc 2 2 2 2 BIO1 threshold voltage 18 Vdc 2 2 BIO2 t...

Page 13: ...ys be followed The device contains components that are sensitive to electrostatic discharge The frame of the device has to be carefully earthed Only a competent electrician is allowed to carry out the...

Page 14: ...functions can be activated from a wide range of protection control measurement power quality condition monitoring general and communication functions within the scope of I O connections considering th...

Page 15: ...n with basic functions see Figure 3 1 2 below LJ DVLF IXQFWLRQV RI WKH LQWHJUDWHG IHHGHU WHUPLQDO 5 B In addition REF 54_ offers protection functions for a large variety of applications e g frequency...

Page 16: ...ervice on page 87 Feeder terminals are measuring instruments and should be handled with care and protected against moisture and mechanical stress especially during transport RQILJXUDWLRQ The REF 54_ f...

Page 17: ...ther Rogowski coils or conventional current transformers can be used for protection functions based on current measurement Correspondingly voltage dividers or voltage transformers are used for protect...

Page 18: ...directional overcurrent protection low set stage NOC3High Three phase non directional overcurrent protection high set stage NOC3Inst Three phase non directional overcurrent protection instantaneous st...

Page 19: ...figuration Tool can be associated with object status indicators that are part of the MIMIC configuration picture displayed on the HMI Object status indicators are used to indicate the status MEAI6 2 G...

Page 20: ...ector 3 control with indication CODC4 Disconnector 4 control with indication CODC5 Disconnector 5 control with indication COIND1 Switching device 1 indication COIND2 Switching device 2 indication COIN...

Page 21: ...ented on the CD ROM Technical Descriptions of Functions 1MRS750889 MCD 7DEOH RQGLWLRQLQJ PRQLWRULQJ IXQFWLRQV DYDLODEOH IRU WKH 5 B XQFWLRQ HVFULSWLRQ CMBWEAR1 Circuit breaker electric wear 1 CMBWEAR2...

Page 22: ...ipal arc sine ATAN Principal arc tangent BITGET Get one bit BITSET Set one bit BOOL_TO_ Type conversion from BOOL to WORD USINT UINT UDINT SINT REAL INT DWORD DINT BYTE BOOL2INT Type conversion from B...

Page 23: ...ement OR Extensible OR connection R_TRIG Rising edge detector REAL_TO_ Type conversion from REAL to USINT UINT UDINT SINT INT DINT ROL Rotate to left ROR Rotate to right RS Reset dominant bistable fun...

Page 24: ...oring and the resetting can be done by using the relay command buttons Store and Reset in the Relay Download Tool For more information about the configuration and the Relay Configuration Tool refer to...

Page 25: ...nfiguration Tool LJ 0 0 FRQILJXUDWLRQ ZLWK WKH 5HOD 0LPLF GLWRU The contents of the alarm view are configured with the Relay Mimic Editor by defining the ON and OFF state texts max 16 characters see F...

Page 26: ...O cards include a large number of parameters and events In addition general parameters and events are provided e g parameters for control and communication as well as events for testing and self super...

Page 27: ...ion and settings is the same as the menu structure of the feeder terminal The use of the tool is instructed in the RED Relay Tool Operator s Manual refer to section References on page 96 LJ 0DLQ GLDOR...

Page 28: ...s a galvanically isolated flyback type DC DC converter A green protection LED indicator on the front panel is lit when the power supply module is in operation The main unit and the external display mo...

Page 29: ...er supply refer to Table 4 2 1 2 on page 75 RZ DX LOLDU YROWDJH LQGLFDWLRQ The REF 54_ feeder terminal is provided with a low auxiliary voltage indication feature The power supply module issues an int...

Page 30: ...matching transformers 9 matching transformers CT1 CT2 CT3 CT4 CT5 VT1 VT2 VT3 VT4 In addition to conventional matching transformers current sensors and voltage dividers developed by ABB can be used i...

Page 31: ...eder terminal configuration and the kind of matching transformers or sensor inputs used Furthermore the feeder terminal includes virtual analogue channels refer to section Calculated analogue channels...

Page 32: ...b U1c GE1 GE2 GE3 Current Transformer CT1 In 1 A 5 A RS 1 10 VD 1 10 Gen meas 1 3 Not in use IL1 IL2 IL3 IL1b IL2b IL3b I0 I0b U1 U2 U3 U1b U2b U3b U1c GE1 GE2 GE3 Current Transformer CT2 In 1 A 5 A C...

Page 33: ...mple The scaling factor is not used for general measurement signals connected to the analogue channel The scaling factors for the analogue channels can be set via the HMI of the feeder terminal or wit...

Page 34: ...of the primary voltage transformer voltage at rated voltage 0 9000 1 1000 correction parameter for the primary transformer phase displacement error at rated voltage 2 00 2 00 9DOXHV WR EH VHW IRU D FX...

Page 35: ...tion on page 90 Note that this parameter can only be set via the HMI or the Relay Setting Tool 2 Only included in the feeder terminal revisions of the Release 2 0 or later Amplitude error at current I...

Page 36: ...as 11 and the following as 12 13 etc For example U0s is numbered as 11 and U12s as 12 if these virtual channels are selected for use When sensitive earth fault protection is needed core balance trans...

Page 37: ...ection References on page 96 7DEOH LJLWDO LQSXWV DYDLODEOH IRU WKH 5 B 5 5 5 Inputs PS1_4_BI1 1 PS1_4_BI1 1 BIO1_5_BI1 PS1_4_BI2 1 PS1_4_BI2 1 BIO1_5_BI2 PS1_4_BI3 1 PS1_4_BI3 1 BIO1_5_BI3 BIO1_5_BI1...

Page 38: ...t signal is at high state the short low state is filtered and no input status change is detected The low state starting from the time t0 exceeds the filter time which means that the change in the inpu...

Page 39: ...ut the pulse counter value remains at the present value When an input operates as a pulse counter the positive input transitions 0 1 of a filtered input are counted and the counter value of Input coun...

Page 40: ...Oscillation hysteresis Note that the oscillation hysteresis must be set lower than the oscillation level to enable the input to be restored from oscillation When the input returns to a non oscillating...

Page 41: ...ALSE 0 The BI value changes on the rising or falling edge of the input To prevent undesired status changes of the digital input due to e g switch debouncing the change of the attribute value is delaye...

Page 42: ...ion included 7DEOH LJLWDO RXWSXWV 5 5 5 Outputs PS1_4_HSPO1 1 PS1_4_HSPO1 1 PS2_4_HSPO1 1 PS1_4_HSPO2 1 PS1_4_HSPO2 1 PS2_4_HSPO2 1 PS1_4_HSPO3 PS1_4_HSPO3 PS2_4_HSPO3 PS1_4_HSPO4 PS1_4_HSPO4 PS2_4_HS...

Page 43: ...utput is recommended to be used for tripping purposes When TCS is used see Table 4 1 8 1 on page 42 the outputs are connected as shown in Figure 4 1 11 1 on page 58 LJ LJK VSHHG GRXEOH SROH SRZHU RXWS...

Page 44: ...an be used for tripping purposes and for circuit breaker and disconnector control LJ 6LQJOH SROH SRZHU RXWSXWV 2 B B32 DQG 2 B B32 DQG WKH KLJK VSHHG VLQJOH SROH SRZHU RXWSXW 36 B B 632 RXEOH SROH SRZ...

Page 45: ...pacity see the figure below LJ 6LQJOH SROH SRZHU RXWSXWV 32 6LJQDO RXWSXWV 62 The signalling relay outputs BIO1_5_SO_ are not heavy duty outputs and thus they cannot be used for controlling e g a circ...

Page 46: ...c Input mode parameters that can be found in the menu Configuration RTD1 Input The default value is Off which means that the channel is not sampled at all and the IN IN and SHUNT terminals are at high...

Page 47: ...1 0 5 mA 2 1 5 mA 3 0 10 mA 4 0 20 mA 5 4 20 mA 6 1 1 mA 7 2 5 2 5 mA 8 5 5 mA 9 10 10 mA 10 20 20 mA Resistance range 0 0 100 0 100 1 0 200 2 0 500 3 0 1000 4 0 2000 5 0 5000 6 0 10000 Temperature r...

Page 48: ...h the programmed level due to too high impedance in the circuit the invalid signal is immediately activated The invalid signal is deactivated as soon as the circuit resistance is low enough 6LJQDO ILO...

Page 49: ...each channel Further one connection screw analogue ground has been reserved per every two channels Two earth terminals see figure below located to the left of the connectors are reserved for connectin...

Page 50: ...he incoming voltage signal is connected to the IN terminal and the return voltage signal lead to the IN terminal LJ 3ULQFLSOH GLDJUDP IRU WKH FRQQHFWLRQ RI YROWDJH WUDQVGXFHUV The GND terminals are ga...

Page 51: ...sensor is connected across the IN and IN inputs and the side of the resistor RTD sensor is connected to the GND input The leads connected to the IN and GND inputs must be of the same type LJ 3ULQFLSOH...

Page 52: ...w limit an open loop condition is detected only possible on resistance and temperature measuring modes or the continuous recalibration of the module has failed The value AI is not locked when the inva...

Page 53: ...re thorough test of the hardware is performed by the continuous recalibration procedure which will catch errors that degrade the measurement accuracy DOLEUDWLRQ The RTD analogue module is calibrated a...

Page 54: ...7 5 1230 149 79 10 580 119 40 298 5 1194 129 1 154 92 322 75 1291 123 24 308 1 1232 4 135 3 162 36 338 25 1353 165 90 11 352 127 07 317 675 1270 7 141 7 170 04 354 25 1417 130 89 327 225 1308 9 148 3...

Page 55: ...by the attributes AO REAL type and AO IV BOOL type where denotes the number of the output These attributes are available in the feeder terminal configuration and can be used for different purposes 9DO...

Page 56: ...y the MEAO1 MEAO4 analogue output function blocks As an example to display the measured value of neutral current on an analogue gauge the neutral current measurement block MECU1A is connected to MEAO1...

Page 57: ...ch other The constant current generator forces a 1 5 mA measuring current through the circuit breaker trip circuit The constant current generator is connected over the trip contact of the feeder termi...

Page 58: ...e defined in the feeder terminal configuration The trip circuit supervision inputs in the feeder terminal configuration are as follows TCS1 and TCS2 inputs in REF 541 and REF 543 TCS1 and TCS2 inputs...

Page 59: ...rnal fault be detected the contact gap 3 5 is opened LJ 6HOI VXSHUYLVLRQ RXWSXW 5 When a fault has been detected the green Ready indicator starts blinking a fault indication text is displayed on the H...

Page 60: ...an internal fault appears in REF 54_ the self supervision system generates an IRF code that indicates the type of the fault The fault code can be read from the feeder terminal main menu Status General...

Page 61: ...RS 485 connection on the rear panel connects the feeder terminal to the distribution automation system via the SPA bus or the LON bus The fibre optic interface module type RER 103 is used to connect t...

Page 62: ...ease this blocking situation by writing the value 1 to the V202 variable Adjustable LON serial communication parameters are Subnet number Node number and Bit rate The bit rate 78 1 kbps on the LON pro...

Page 63: ...ia the LON bus 1 6 VWHP VWUXFWXUH The system very often resembles the system in the figure below The protection control or alarm functions are implemented by using REF 54_ feeder terminals SPACOM unit...

Page 64: ...ector X3 2 DWD W SH 5 0LFUR6 5 DQG 6 GHYLFHV WR HDFK RWKHU Control commands transparent SPA bus messages Events and alarms sliding window protocol Status of breakers and isolators sliding window proto...

Page 65: ...VHG VXEVWDWLRQ DXWRPDWLRQ V VWHP C E F I 0 C E F I 0 SMSbus1 C E F I 0 C E F I 0 REF 54_ terminals connected via the RER 103 to LON and via the RER 123 to IEC Optical CAP 501 505 SMS 510 RS 485 IEC MA...

Page 66: ...state for sending and receiving process data The LON inputs and outputs are accessible in the feeder terminal configuration and can be freely used for different types of data transfer between REF 54_...

Page 67: ...over the LON network to all communication inputs that are bound to the output The network variable connection can be from a single source to one or many sinks An output can also be unbound i e it is n...

Page 68: ...s of data will occur The system is however designed to always send the latest value when there is communication bandwidth available It may be necessary to use a data latch with timer mechanism in the...

Page 69: ...d refer to the instructions given for default time outs An over dimensioned longer time out will not cause any harm because the operation will always be faster in real life than the maximum time out O...

Page 70: ...clear C and enter E optically isolated serial communication port backlight and contrast control freely programmable button F button for remote local control Control position button R L LJ URQW YLHZ R...

Page 71: ...L 1 A 0 0 2 4 8 0 I L 2 A 0 0 2 5 1 0 I L 3 A 0 0 2 5 0 0 P o w e r P k W 0 0 6 9 2 8 N O C 3 L o w 3 1 E 1 1 9 9 9 1 2 2 4 1 8 3 5 1 2 2 3 0 N O C 3 L o w 3 1 E 1 1 9 9 9 1 2 2 4 1 8 3 5 1 2 3 3 0 N...

Page 72: ...Successful acknowledgement clears the time stamp line of the alarm view and the corresponding alarm LED An event is generated on the rising and falling edge of the ON signal and by acknowledgement Ala...

Page 73: ...OLQNLQJ V QWHUORFNLQJ The interlocking LED text can be defined in the same manner as for the other alarm channels The color of the interlocking LED is yellow and cannot be changed The normal LED state...

Page 74: ...ctivation of the interlocking bypass mode activates the interlocking enable signals of all control objects Thus all local control actions are possible and the enable signals OPENENA CLOSEENA of contro...

Page 75: ...SRZHU VXSSOLHV Type PS1 240V REF 541 REF 543 PS2 240V REF 545 only External display module PS1 48V REF 541 REF 543 PS2 48V REF 545 only Input voltage ac 110 120 220 240 V Input voltage dc 110 125 220...

Page 76: ...74 0 1 7DEOH 6LJQDO RXWSXWV Max system voltage 250 V ac dc Continuous carry 5 A Make and carry for 0 5 s 10 A Make and carry for 3 s 8 A Breaking capacity when control circuit time constant L R 40 ms...

Page 77: ...C immunity test level fulfills the requirements listed below 1 MHz burst disturbance test class III IEC 60255 22 1 common mode 2 5 kV differential mode 1 0 kV Electrostatic discharge test class III IE...

Page 78: ...nterface connector X3 4 RJ45 connection galvanically isolated RJ45 connection for an external display panel protocol CAN communication cable 1MRS 120511 001 1 m 1MRS 120511 003 3 m Front panel optical...

Page 79: ...module RTD analogue input module Internal communication bus A D converters and analogue multiplexers Mechanical dimensions Width 223 7 mm 1 2 of a 19 rack Height frame 265 9 mm 6U Height box 249 8 mm...

Page 80: ...3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 X5 1 5 6 7 9 8 10 12 11 13 15 14 16 18 17 1 2 X5 2 REF 541 1MRS 090115 AABA BABA CABA BIO1_5_BI1 BIO1_5_BI11 BIO1_5_BI9 BIO1_5_BI8 BIO1_5_BI7 BIO1_5_BI6 BIO1_...

Page 81: ...1_4_BI2 PS1_4_TempAlarm REF 543 1MRS 090127 AABA BABA CABA BIO2_7_BI9 BIO2_7_BI8 BIO2_7_BI7 BIO2_7_BI6 BIO2_7_BI5 BIO2_7_BI4 BIO2_7_BI3 BIO2_7_BI2 BIO2_7_BI10 BIO2_7_BI1 BIO2_7_PO1 BIO2_7_PO2 BIO2_7_P...

Page 82: ..._BI8 BIO1_5_BI7 BIO1_5_BI6 BIO1_5_BI5 BIO1_5_BI4 BIO1_5_BI3 BIO1_5_BI2 BIO1_5_BI10 BIO1_5_BI12 BIO1_6_BI1 BIO1_6_BI11 BIO1_6_BI9 BIO1_6_BI8 BIO1_6_BI7 BIO1_6_BI6 BIO1_6_BI5 BIO1_6_BI4 BIO1_6_BI3 BIO1_...

Page 83: ...f shielded twin BNC connector e g type AMP 332225 or Amphenol 31 224 is used to improve reliability and protection against disturbances The current and or voltage sensor used must have a connector tha...

Page 84: ...utputs are connected to the terminals X6 1 1 and X6 1 2 The feeder terminal self supervision output IRF is linked to the terminals X4 1 3 X4 1 4 and X4 1 5 Protective earth is connected to the screw m...

Page 85: ...X2 3 1 2 X2 4 1 2 X2 5 1 2 X2 6 1 2 X2 7 1 2 X2 8 1 2 X2 9 1 2 CE REF541D_115AABA BABA CABA 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 1 2 3 4 5 6 7 8 9...

Page 86: ...17 18 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 X3 4 Made in Finland X2 1 1 2 X2 2 1 2 X2 3 1 2 X2 4 1 2 X2 5 1 2 X2 6 1 2 X2 7 1 2 X2 8 1 2 X2 9 1 2 CE REF543B_129AABB BABB ExtMMI_a CNV BIO2 CPU1...

Page 87: ...ed All repairs are to be taken by the manufacturer Please contact the manufacturer or its nearest representative for further information about checking overhaul and recalibration of the terminal To ac...

Page 88: ...ction and power factor control functions are available XQFWLRQDOLW OHYHO 6HOHFWLRQ RI IXQFWLRQ EORFNV C Control All control condition monitoring and measurement functions B Basic All control condition...

Page 89: ...be supplied with an RTD analogue module For more detailed information about the hardware of REF 54_ refer to section Hardware versions on page 9 6RIWZDUH FRQILJXUDWLRQ Each REF 54_ feeder terminal al...

Page 90: ...ling factor for channels 1 10 For further information refer to section Scaling the rated values of the protected unit for analogue channels on page 33 Technical data of the VT1 VT2 VT3 and VT4 voltage...

Page 91: ...Extended 4 mm clearance according to IEC 60664 1 Insulation coordination for equipment within low voltage systems New CPU module with a SW downloading port X3 1 at the rear plate of the relay 5HOD FRQ...

Page 92: ...Improved storing shorter storing time New language versions English Swedish English Finnish An informative parameter Config capacity added Main menu Configuration General Config capacity For further...

Page 93: ...t Three phase start up supervision for motors TOL3Dev Three phase thermal overload protection for devices XQFWLRQ HVFULSWLRQ MEAI1 General measurement 1 analogue input on RTD analogue module MEAI2 Gen...

Page 94: ...ith the digital input voltage range 24 48 60 110 125 220 V dc 7RROV Uploading downloading of the Relay Configuration Tool project RCT in CAP 505 from to the feeder terminal via SPA or LON Uploading do...

Page 95: ...rear connectors DUGZDUH PHFKDQLFV Voltage threshold for digital inputs power supply PS1 240 V High 110 120 220 240 V ac or 110 125 220 V dc with the digital input nominal voltage 220 V dc 7RROV Protoc...

Page 96: ...List for REF 541 and REF 543 1 1MRS751774 MTI Parameter List for REF 545 1 1MRS751775 MTI Event List for REF 541 and REF 543 1 1MRS751776 MTI Event List for REF 545 1 1MRS751777 MTI Technical Descrip...

Page 97: ...NMARKTM LONMARK interoperability association is an independent world wide industry association which facilitates the development and implementation of open interoperable LonWorks based control product...

Page 98: ...uration 16 23 24 Connections 83 Connectors 83 Control functions 19 CPU load 14 89 CPU module 9 10 11 12 91 94 97 102 Current measurement 17 Current sensor 10 11 12 30 34 Current transformer 10 11 12 1...

Page 99: ...ork configuration 16 26 LON Network Tool 26 0 Manuals 96 Matching transformer 30 Measurement functions 15 18 Measuring devices 33 Mechanical dimensions 79 MIMIC picture 25 MMI 10 11 12 14 27 69 1 Non...

Page 100: ...factors 33 Self supervision IRF 59 Sensor channels 10 11 12 Serial communication 60 Service 87 Service report 102 Signal output SO 10 11 12 45 Single pole power output 10 11 12 44 Software 89 Standar...

Page 101: ...4 1080 Category Comment Query Complaint In case of feedback related to a specific product please name the product Product Description Initiator Issuer Company Country Telefax no e mail address If the...

Page 102: ...___ Status _________________ Downloaded to the relay 0 1 0 18 QIRUPDWLRQ GHQWLILFDWLRQ QYLURQPHQW Hardware No _________________ MicroSCADA version _________________ Software No _________________ Proto...

Page 103: ...RER 103 REX 52x RER 103 RER 123 RER 123 SMS IEC 103 Master REF RER 123 connected to X3 2 RER 103 connected to X3 3 RER 123 RER 103 RER 125 SPA ZC 22 SPA ZC 22 Fiber optic modem RS232C SMS SPA_IEC XQFW...

Page 104: ...rnal IEC 60870 5 103 Class 1 buffer inside the REF 54_ unit can store up to 50 spontaneous events The interrogation events and the possible response messages that also are part of the class 1 data do...

Page 105: ...supported in the REF 54_ In addition there are twelve more private class 2 ASDU frames defined The user can choose which one of these twelve measurand sets to use The measurand set number 1 17 can be...

Page 106: ...zende Empfehlungen zur Anwendung in Verteilnetzstationen P Private definition W S Function type Note If stated as the signal type Ftyp corresponds with the unit function type Unit function type may be...

Page 107: ...gnal from CUB1Cap A 85 0 2 1 CUB1Cap START signal from CUB1Cap dI1 stage P 182 1 1 1 1 9 CUB1Cap TRIP signal from CUB1Cap dI1 stage P 182 2 0 1 1 CUB1Cap ST_ALARM signal from CUB1Cap dI2 stage P 182 3...

Page 108: ...RIP1 signal from f f St5 P 175 90 0 1 1 FREQ1ST5 START2 signal from f f St5 P 175 94 1 1 1 9 FREQ1ST5 TRIP2 signal from f f St5 P 175 91 0 1 1 FUSEFAIL Fuse failure P 253 83 1 1 1 9 INRUSH3 START sign...

Page 109: ...START U1 P 180 2 1 1 1 9 PSV3St2 PSV3St2 START U1 P 180 3 1 1 1 9 PSV3St2 PSV3St2 TRIP U2 P 180 4 0 1 1 PSV3St2 PSV3St2 TRIP U1 P 180 5 0 1 1 PSV3St2 PSV3St2 TRIP U1 P 180 6 0 1 1 ROV1HIGH START signa...

Page 110: ...1 open output P 242 202 0 1 1 COCB1 Breaker 1 close output P 242 203 0 1 1 COCB1 Breaker 1 opening time P 242 204 0 1 1 COCB1 Breaker 1 closing time P 242 205 0 1 1 COCB1 Breaker 1 command status P 24...

Page 111: ...tion B 240 161 1 1 1 9 COIND2 Indication 2 position B 240 164 1 1 1 9 COIND3 Indication 3 position P 240 165 1 1 1 9 COIND4 Indication 4 position P 253 65 1 1 1 9 COIND5 Indication 5 position P 253 66...

Page 112: ...aveform distortion measurement P 205 20 0 1 1 RPPXQLFDWLRQ IXQFWLRQV EVENT230 Customer event 0 1 P 252 1 0 1 1 EVENT230 Customer event 2 3 P 252 2 0 1 1 EVENT230 Customer event 4 5 P 252 3 0 1 1 EVENT...

Page 113: ...g P 213 11 0 1 1 MEAI4 High alarm P 213 21 0 1 1 MEAI4 Low warning P 213 111 0 1 1 MEAI4 Low alarm P 213 121 0 1 1 MEAI5 High warning P 214 11 0 1 1 MEAI5 High alarm P 214 21 0 1 1 MEAI5 Low warning P...

Page 114: ...ansmission values in response direction 20 Positive acknowledgement 21 Negative acknowledgement 7DEOH RPPDQGV RPPDQGV 6W W S QI 1XP 7 S 27 FPG 27 UHVS COCB1 Circuit breaker B 240 160 20 20 20 21 COCB2...

Page 115: ...age data part Not available 7DEOH 5HFRPPHQGHG ODVV PHDVXUDQG VHWV 6HW 1R 6W XQFW S QIR 1XP 1XP GDWD 7 S DWD 1 Meas I 144 A 144 1 3 IL2 2 Meas I 145 A 145 2 3 IL2 U12 3 Meas I 146 A 146 4 3 IL1 U12 P Q...

Page 116: ...connected to the function block Available measurements depend on the configuration e g phase voltage or phase to phase voltage DPSOH If the set No 11 is used the ASDU octets will look like in the fol...

Page 117: ......

Page 118: ...2 Substation Automation P O Box 699 FIN 65101 VAASA Finland Tel 358 10 22 11 Fax 358 10 224 1094 www abb com substationautomation 1MRS750527 MUM 09 2003...

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