transformer terminal ret 541,gy-eng.com/gyeng/board/upload/sub4_1/up_sub4_1_114_1.pdfearth faults...

Transformer TerminalProduct Guide

RET 541, RET 543, RET 545

Transformer Terminal RET 541, RET 543, RET 5451MRS755543

Issued: February 2005Status: Updated Version: E/26.10.2010 Data subject to change without notice

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Features • Transformer terminal for protection, control, measurement and supervision of two-wind-ing power transformers and generator-transformer blocks in distribution networks

• Designed to withstand harsh environments e.g. in heavy industry, marine and offshore applications

• Three-phase current differential protection with stabilized and instantaneous stages for fast and selective winding short-circuit and interturn fault protection as main pro-tection

• Fast and reliable operation even with satu-rating CTs

• Numerical implementation of vector group matching allows wye-connection of mea-suring CTs as standard without interposing CTs, irrespective of transformer vector group

• Restricted earth-fault protection with the conventional high impedance principle or the stabilized numerical principle

• Three-phase overcurrent and earth-fault back-up protection with definite time and IDMT characteristics for both windings

• Thermal overload and negative phase sequence protection

• Additional protection functions available in the Multi –version terminal: overexcitation, overvoltage, undervoltage, residual over-voltage, directional overcurrent and earth-fault, overfrequency, underfrequency and underimpedance line back-up protection

• Large graphic display, either integrated or as an external module

• Control functions including local and remote control of switching objects, includ-ing object status indication and interlock-ings on bay and substation level

• Optional automatic on-load tap-changer control function for single or parallel trans-formers using the Master-Follower, Nega-tive Reactance or Minimizing Circulating Current principles

• Supports several methods to interface tap-changer position information to differential protection and voltage regulator

• Measurement of two sets of three-phase currents, phase-to-phase or phase to neu-tral voltages, neutral current, residual volt-age, frequency, power factor, active and reactive power and energy

• Condition monitoring including circuit-breaker condition monitoring, trip circuit supervision and internal self-supervision of the transformer terminal

• Extensive set of integrated communication protocols: SPA, LON, IEC 60870-5-103, Modbus RTU/ASCII, DNP 3.0

• Interface to Profibus DP and IEC 61850 based systems via adapters

• Part of ABB’s substation automation sys-tem

ret54_mimic_co180dpiFig. 1 Mimic view of RET 54_ transformer termi-

nal.


Application The RET 541/543/545 transformer terminals are designed to be used for the protection, control, measurement and supervision of two-winding power transformers and generator-transformer blocks in distribution networks. RET 54_ terminals can also be used in harsh environments e.g. in heavy industry, marine and offshore applications.

The main protection function is three-phase current differential protection with stabilized and instantaneous stages for fast and selective winding short-circuit and interturn protection. Besides 2nd and 5th harmonic restraints, the stabilized stage also includes a waveform rec-ognition-based blocking-deblocking feature. Reliable operation even with partially saturat-ed current transformers, that is, short operate times at faults occurring in the zone to be pro-tected and high stability at external faults are achieved. Increased sensitivity can be obtain-ed by automatic adaptation to the position changes of the on load tap changer. Interpos-ing current transformers are not needed: Any vector group matching and CT ratio correc-tions in a wide range are numerically imple-mented as well as zero-sequence current elimination, which prevents unwanted trips at earth faults occurring outside the protected area.

In addition to the differential protection, the Basic version terminals incorporate the fol-lowing protections: Restricted earth fault pro-tection with stabilized numerical or high impedance principle, unbalance and thermal overload protections, three phase overcurrent and non-directional earth fault back-up pro-tection with definite and IDMT characteris-tics on both sides of the transformer.

The Multi-version terminals, further includ-ing overvoltage and undervoltage, residual overvoltage, underfrequency and overfre-quency, overexcitation, directional earth-fault, directional overcurrent and under-impedance line back-up protections fulfill the most demanding application requirements.

Enhanced with the optional automatic voltage regulation function, the RET 54_ terminal can be applied as a comprehensive integrated transformer management terminal. The volt-age regulator can be applied for a single transformer or for parallel transformers with Master-Follower, Negative Reactance or Minimizing Circulating Current principles.

A special control version terminal with volt-age regulator and control functions can be applied, when integration of voltage regula-tion and protection is not allowed.

The graphical configuration tool, based on the IEC 61131-3 standard, enables easy cre-ation of application-specific configurations and MIMIC pictures corresponding to differ-ent switchgear systems. The process status is shown on a dynamic large graphical display. Detailed information, for instance, measured values, events and application-specific alarms, are presented in the display views.

The RET 54_ terminals can measure two sets of three phase currents, phase-to-phase or phase-to-earth voltages, neutral current, residual voltage, frequency and power factor. Active and reactive power is calculated from the measured currents and voltages. Energy can be calculated on the basis of the mea-sured power. The measured values can be indicated locally and remotely as scaled pri-mary values.

With the condition monitoring functions the RET 54_ transformer terminal monitors e.g. trip circuits, gas pressure of the breaker and breaker wear and provides scheduled time intervals for maintenance.

The RTD1 card, available as an option to the RET 541 and RET 543 terminals, provides versatile analog inputs enabling e.g. tap posi-tion supervision of the on load tap changer, RTD inputs for top and bottom oil tempera-ture monitoring, and ambient temperature biasing for accurate thermal overload protec-tion. The mA outputs allow transfer of any measurement data e.g. to PLCs.

By means of the graphic HMI display, the control functions in the transformer terminal indicate the position of disconnectors, circuit breakers and tap changer locally. Local con-trol of these objects is possible via the push buttons on the front panel of the terminal. Furthermore, the terminal allows position information of the objects to be transmitted to the remote control system. Controllable objects, such as CBs, can also be opened and closed over the remote control system.

Supporting a wide range of communication protocols, including SPA, LON, IEC 60870-5-103, DNP 3.0 and Modbus RTU/ASCII, commonly used by utilities and industries, the terminals are flexibly integrated into different control systems. Connection to Profibus DP or IEC 61850 based system is possible via the interface adapters SPA-ZC 302 or SPA-ZC 400, respectively.

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Design The transformer terminals RET 541, RET 543 and RET 545 differ from each other regarding the number of digital inputs and outputs available. Please, refer to section “Ordering” for more details.

The functions of the RET 54_ transformer terminal are categorized as:

• protection functions• measurement functions• control functions• condition monitoring functions• communication functions• general functions• standard functionsThe functions are further divided to three sub-sets that correspond to different functionality levels, refer to section “Ordering Informa-tion”

Protection functionsProtection is one of the most important func-tions of the RET 54_ transformer terminal. The protection function blocks (e.g. NOC3Low) are independent of each other and have e.g. their own setting groups and data recording.

The protection function blocks are docu-mented on the CD-ROM “Technical Descrip-tions of Functions” (1MRS750889-MCD)

Measurement functionsThe measurement function blocks are docu-mented on the CD-ROM “Technical Descrip-tions of Functions” (1MRS750889-MCD)

Control functionsThe control functions are used to indicate the position of switching devices, i.e. circuit breakers and disconnectors, and to execute open and close commands for controllable switching devices in the switchgear. Further-more, there are supplementary functions for control logic purposes, e.g. on/off switches, MIMIC alarm, LED control, numerical data for the MIMIC and logic controlled position selection.

The control functions configured using the Relay Configuration Tool can be associated with position indicators that are part of the MIMIC configuration picture displayed on the HMI. Position indicators are used to indi-cate the position of switching devices via the MIMIC picture and to control them locally.

The control function blocks are documented on the CD-ROM “Technical Descriptions of Functions” (1MRS750889-MCD)

Condition monitoring functionsThe condition monitoring function blocks are documented on the CD-ROM “Technical Descriptions of Functions” (1MRS750889-MCD)

General functionsAdditional functions are available for differ-ent general purposes to be used in logics such as activation of HMI backlight, switchgroups, and resetting of operation indications, latched output signals, registers and disturbance recorder.

Communication functionsThe RET 54_ transformer terminal provides the IEC_103, Modbus, DNP 3.0, SPA and LON serial communication protocols.

In a customer-specific transformer terminal configuration, special events can be gener-ated via an EVENT230 event function. EVENT230 is documented on the CD-ROM “Technical descriptions of Functions” (1MRS750889-MCD).

Standard functionsStandard functions are used for logics, such as interlocking, alarming and control sequencing. The use of logic functions is not limited and the functions can be intercon-nected with each other as well as with protec-tion, measurement, power quality, control, condition monitoring and general functions. In addition, the digital inputs and outputs as well as LON inputs and outputs can be con-nected to standard functions by using the Relay Configuration Tool.

The standard function blocks are documented on the CD-ROM “Technical descriptions of Functions” (1MRS750889-MCD).

Other functions

Low auxiliary voltage indicationThe RET 54_ transformer terminal is pro-vided with a low auxiliary voltage indication feature. The power supply module issues an internal alarm signal when a drop in the power supply voltage is detected (ACFail, active low). The alarm signal is activated if the power supply voltage falls about 10% below the lowest rated DC input voltage of the power supply module.


Design (cont´d) The indication of a low auxiliary voltage is available in the transformer terminal configu-ration and can be connected to any signal out-put of the RET 54_.

Overtemperature indicationThe RET 54_ transformer terminal includes an internal temperature supervision function. The power supply module issues an internal alarm signal when overtemperature has been detected inside the terminal enclosure. The alarm signal will be activated once the tem-perature inside the terminal enclosure increases to +78C (+75...+83C). Over-temperature indication is available in the transformer terminal configuration and can be connected to any signal output of the RET 54_.

Analog channelsThe transformer terminal measures the analog signals needed for protection, measuring, etc. via galvanically separated matching trans-formers.

RET 54_ transformer terminals have 9 analog channels. Furthermore, the transformer termi-nal includes virtual analog channels for calcu-lating the residual current and residual voltage from phase currents and voltages. Both the amplitude and the phase angle are calculated for the virtual channels.

Note! When sensitive earth-fault protection is needed, core balance transformers are not recommended to be replaced with the numer-ically derived sum of phase currents. Nor-mally, an earth-fault setting below 10% of the rated value requires the use of a core balance transformer.

Analog channels of the transformer terminal are configured with the CAP 505 Relay Prod-uct Engineering Tools.

A separate scaling factor can be set for each analog channel. The factors enable differ-ences between the ratings of the protected unit and those of the measuring device (CT and VT ratio corrections). The setting value 1.00 means that the rated value of the pro-tected unit is exactly the same as that of the measuring device.

Digital inputsThe digital inputs of the transformer termi-nals are voltage controlled and optically iso-lated with three treshold voltages defined by the order, see chapter “Ordering”. The func-

tion of a digital input can be inverted. The programmable filter time removes debounces and short disturbances on a digital input. The filter time can be set for each digital input separately.

Some specific digital inputs can be pro-grammed to operate either as digital inputs, as pulse counters or as used for time synchroni-zation. When a digital input operates as a pulse counter, pulse counting frequency can be up to100 Hz.

Oscillation suppressionThe transformer terminals have two global parameters for the suppression of digital input oscillation. The settings of these parameters determine the oscillation level and hysteresis for all digital inputs. Event is generated in case oscillation is detected.

Attributes of a digital input for transformer terminal configurationFor each digital input, the status of the input (value), the time tag for the status change (time) and the validity of the digital input (invalidity) can be issued by the attributes. These attributes are available in the trans-former terminal configuration and can be used for various purposes.

RTD/analog inputsThe RET 541 and RET 543 transformer ter-minals equipped with an RTD/analog module (RTD1) have eight general purpose analog inputs for DC measurement. The RTD/analog inputs are galvanically isolated from the transformer terminal power supply and enclo-sure. However, the inputs have a common ground. The general purpose RTD/analog inputs accept voltage-, current- or resistance-type signals. For each measuring mode, a separate parameter is provided for choosing between the available measurement ranges. RTD/analog inputs can be applied for e.g. temperature measurement.

Digital outputsThe outputs of the transformer terminal are categorized as follows:

• HSPO: High-speed power output, double-pole contact, preferred for tripping pur-poses and for circuit breaker and discon-nector control

• PO: Power output, either single-pole or double-pole contact, preferred for circuit breaker and disconnector control

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• SO: Signal output, either NO (Normally Open) or NO/NC (Normally Open/Nor-mally Closed) contact. The output contact is a normal-duty contact and cannot be used for controlling a heavy load such as a circuit breaker.

Analog outputsThe RET 541 and RET 543 transformer ter-minals equipped with an RTD/analog module have four general purpose 0...20 mA analog current outputs. All outputs are galvanically isolated from the supply and enclosure of the transformer terminal and from each other.

Analog outputs can be utilized for transfer-ring any measured or calculated information to panel meters or e.g. PLCs.

Alarm LED indicatorsThe transformer terminal offers eight alarm LED indicators to be configured with the Relay Mimic Editor. The LED colours (green, yellow, red), their use, and the ON and OFF state texts can be freely defined. Three basic

operation modes are supported: non-latched, latched-steady and latched flashflashing. Alarms can be acknowledged remotely, locally or by using logic of the transformer terminal.

The alarm channels include time tagging for detected alarms. The time tagging principle used depends on the operation mode.

Interlocking LED indicatorThe interlocking LED indicates that control operation has been interlocked or that the interlocking is in bybass mode, e.g. when control is possible despite of interlocking.

Trip Circuit SupervisionThe purpose of this function is to supervise the tripping circuitry of the circuit breaker. An alarm will be generated in case a faulty tripping circuit, e.g. a circuit is not able to perform a trip, is detected.

The supervision is based on the constant-cur-rent injection through the tripping circuitry.

Display panel The transformer terminal is provided with either a fixed display or an external display module. The external display module requires a separate voltage supply from a common source with the main unit. The display con-sists of 19 rows divided into two windows: a main window (17 rows) and an assisting win-dow (2 rows).

The graphic display presents detailed infor-mation on MIMIC, objects, events, measure-ments, control alarms, and parameters. The assisting window is used for terminal-depen-dent indications/alarms and help messages.

Additionally, the panel includes the following HMI items:

• three push-buttons for object control (I, O, object selection)

• eight freely programmable alarm LEDs with different colours and modes accord-ing to the configuration

• LED indicator for control interlocking• three protection LED indicators• HMI push-button section with four arrow

buttons and buttons for clear and enter• optically isolated serial communication

port• backlight and contrast control• freely programmable button (F) which can

be used in the configuration of the trans-former terminal

• a button for remote/local controlHMI has two main levels, the user level and the technical level. The user level is for “everyday” measurements and monitoring whereas the technical level is intended for advanced transformer terminal programming. Unauthorized access can be prevented with passwords.

Serial commu-nication

The transformer terminal has three serial communication ports, one on the front panel and two on the rear panel.

The standard optical ABB connectorThe standard optical ABB connector (RS-232 connection) on the front panel is intended for the connection of a PC for configuring the transformer terminal with the CAP 50_ tools. The front interface uses the SPA bus protocol.

SPA/IEC_103/DNP 3.0/Modbus communi-cation on the rear connector X3.2The 9-pin D-type subminiature male connec-tor (RS-232 connection) on the rear panel connects the transformer terminal to the dis-tribution automation system via the SPA bus, IEC_103, DNP 3.0 or Modbus. The fibre-optic interface module type RER 123 is used to connect the transformer terminal to the fibre-optic communication bus for SPA and


IEC_103 protocols. RS-485 interface module RER 133 is used to connect the transformer terminal to the RS-485 communication bus for DNP 3.0 and Modbus.

LON/SPA bus communication on the rear connector X3.3The 9-pin D-type subminiature female con-nector (RS-485 connection) on the rear panel connects the transformer terminal to the sub-station automation system via the SPA bus or the LON bus. The fibre-optic interface module type RER 103 is used to connect the trans-former terminal to the fibre-optic communi-cation bus. The RER 103 module supports both SPA bus and LON bus communication. The SPA-ZC 302 is an interface module that provides connectivity to the Profibus DP fieldbus and SPA-ZC 400 interface module provides connectivity to the IEC 61850-8-1 Station bus.

Self-supervisionThe transformer terminal RET 54_ is pro-vided with an extensive self-supervision sys-tem. The self-supervision system handles run-time fault situations and informs the user of faults via the HMI and LON/SPA bus com-munication.

When a fault has been detected, the green Ready indicator starts flashing, a fault indica-tion text is displayed on the HMI and an event 0/E57 is generated. The fault indication text on the HMI consists of two rows: a gen-eral message ‘internal fault’, followed by the generated IRF code of the fault.

The relay will try to recover from a fault either by restarting the module (I/O module or HMI) that reported the fault, or by restart-ing the whole relay. During restarting the IRF state will remain active until the internal self-supervision program has determined that the relay is operating normally. If the fault is still persistent after restarting three times, the relay will be in permanent IRF state.

Transformer terminal configuration

The Relay Configuration Tool, based on the IEC 61131-3 standard and included in the CAP 505 Relay Product Engineering Tools, is used for configuring the basic terminal, pro-tection and logic function blocks, control and measurement functions, timers and other functional elements included in the logic functions category.

The programmable system of RET 54_ trans-former terminals allows the output contacts to be operated in accordance with the state of the logic inputs and the outputs of the protec-tion, control, measurement and condition monitoring functions. The PLC functions (e.g. interlocking and alarm logic) are pro-grammed with Boolean functions, timers, counters, comparators and flip-flops. The program is written in a graphic function block diagram language by using the configuration software.

Mimic configuration with Relay Mimic Edi-torThe Relay Mimic Editor, which is included in the CAP 505 Relay Product Engineering Tools, is used for configuring the graphic dis-play and the alarm channels of the trans-former terminal. The mimic configuration may include circuit breakers, disconnectors, indicators, measurement data objects and user-defined texts and explanations. Any con-figuration can be saved for later use.

All of the eight alarm function blocks can be configured in the same alarm view of the mimic editor. ON and OFF state texts (only one language version at a time can be sup-ported for the alarm) and LED colours can be defined. Three different colours can be used to define the ON and OFF state. Three basic modes are available:

• non-latched• latched-steady• latched flashing

Interlocking LED texts can also be defined in the same alarm view but the colour of the interlocking LED cannot be changed.

LON network configurationThe LON Network Tool is used for binding network variables between the transformer terminal units. Typically, LON horizontal communication is used for transferring object status data (open, close, undefined) between units for interlocking purposes. Additionally, LON horizontal communication is used to transfer measured current amplitude and phase angle information between terminals, when parallel control with MCC principle is to be applied.

DNP 3.0 and Modbus configurationThe Protocol Mapping Tool is used for con-figuring the DNP 3.0 and Modbus interfaces of the transformer terminal.

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Transformer ter-minal parameter-ization

The parameters of the transformer terminal units can be set either locally over the HMI or externally via the serial communication using the Relay Engineering Tools CAP 501/505.

Local parameterizationWhen the parameters are set locally, the set-ting parameters can be chosen from the hier-archical menu structure. The desired language for parameter description can be selected.

External parameterizationThe Relay Setting Tool is used for parameter-izing and setting the transformer terminals externally. The parameters can be set off-line on a PC and downloaded to the transformer terminal over a communication port. The menu structure of the setting tool, including views for parameterization and settings, is the same as the menu structure of the transformer terminal.

Auxiliary voltage

For its operation, the RET 54_ terminal, in-cluding the external display module, requires a secured auxiliary voltage supply. The termi-nal’s internal power supply module forms the voltages required by the terminal electronics. The power supply module is a galvanically isolated (fly-back type) dc/dc converter. A green protection LED indicator on the front panel is lit when the power supply module is in operation.

Power supply modulesThere are two basic types of power supply modules available for the RET 54_: type PS1/_ and type PS2/_. The operating range of digital inputs depends on the type of the power supply module. See Technical data.

Terminal connections

All external circuits are connected to the ter-minal blocks on the rear panel, see figures 2...4. The terminal block for the measuring transformers consists of fixed screw termi-nals.

The serial interface RS-232 on the rear panel is used for connecting the transformer termi-nal to the SPA bus, the IEC_103, DNP 3.0 or Modbus. The SPA/IEC_103 is connected via a connection module type RER 123 fitted to the 9-pin D-type subminiature connector and screwed to the rear panel. DNP 3.0/Modbus is connected via a connection module, type RER 133.

The serial interface RS-485 on the rear panel is used for connecting the transformer termi-nal to the SPA bus or the LON bus. The SPA/LON bus is connected via a connection module type RER 103 fitted to the 9-pin D-type subminiature connector and screwed to the rear panel.

The digital input and output contacts of the transformer terminal are connected to the multi-pole connectors.

Protective earth is connected to the screw marked with the earth symbol.


Terminal diagrams

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CD543



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Technical dataTable 1: General functions available for the RET 54_Function Description

INDRESET Resetting of operation indicators, latched output signals, registers and waveforms i.e. the disturbance recorder

MMIWAKE Activation of HMI backlightSWGRP1 Switchgroup SWGRP1SWGRP2 Switchgroup SWGRP2SWGRP3 Switchgroup SWGRP3......SWGRP20 Switchgroup SWGRP20

Table 2: Standard functions available for the RET 54_Function Description

ABS Absolute valueACOS Principal arc cosineADD Extensible adderAND Extensible AND connectionASIN Principal arc sineATAN Principal arc tangentBCD2INT Type conversion from BCD coded input to SINT (Tap changer)BITGET Get one bitBITSET Set one bitBOOL_TO_* Type conversion from BOOL to WORD / USINT / UINT / UDINT / SINT / REAL

/ INT / DWORD / DINT / BYTEBOOL2INT Type conversion from BOOL inputs to INT output BYTE_TO_* Type conversion from BYTE to WORD / DWORDCOMH Hysteresis comparatorCOS Cosine in radiansCTD Down-counterCTUD Up-down counterCTU Up-counterDATE_TO_UDINT Type conversion from DATE to UDINTDINT_TO_* Type conversion from DINT to SINT / REAL / INTDIV DividerDWORD_TO_* Type conversion from DWORD to WORD / BYTEEQ Extensible comparison to equalEXP Natural exponentialEXPT ExponentiationF_TRIG Falling edge detectorGE Extensible comparison to greater or equalGRAY2INT Type conversion from GRAY coded input to SINT (Tap changer)GT Extensible comparison to greaterINT_TO_* Type conversion from INT to REAL / DINTINT2BOOL Type conversion from INT input to BOOL outputsLE Extensible comparison to less or equalLIMIT LimitationLN Natural logarithmLOG Logarithm base 10LT Extensible comparison to lessMAX Extensible maximumMIN Extensible minimumMOD ModuloMOVE Move


MUL Extensible multiplierMUX Extensible multiplexerNAT2INT Type conversion from natural binary coded input to SINT (Tap changer)NE Comparison to greater or lessNOT ComplementOR Extensible OR connectionR_TRIG Rising edge detectorREAL_TO_* Type conversion from REAL to USINT / UINT / UDINT / SINT / INT / DINTROL Rotate to leftROR Rotate to rightRS Reset dominant bistable function blockRS_D Reset dominant bistable function block with data inputSEL Binary selectionSHL Bit-shift to leftSHR Bit-shift to rightSIN Sine in radiansSINT_TO_* Type conversion from SINT to REAL / INT / DINTSUB SubtractorSQRT Square rootSR Set dominant bistable function blockXOR Extensible exclusive OR connectionTAN Tangent in radiansTIME_TO_* Type conversion from TIME to UDINT / TOD / REALTOD_TO_* Type conversion from TOD to UDINT / TIME / REALTOF Off-delay timerTON On-delay timerTP PulseTRUNC_REAL_TO* Truncation toward zero from REAL to DINT / INT / SINT / UDINT / UINT /

USINTUDINT_TO_* Type conversion from UDINT to USINT / UINT / REALUINT_TO_* Type conversion from UINT to USINT / UDINT / REAL / BOOLUSINT_TO_* Type conversion from USINT to UINT / UDINT / REALWORD_TO_* Type conversion from WORD to DWORD / BYTE

Table 3: Conditioning monitoring functions available for the RET 54_Function Description

CMBWEAR1 Circuit-breaker electric wear 1CMBWEAR2 Circuit-breaker electric wear 2CMCU3 Supervision function of the energizing current input circuitCMGAS1 Gas pressure monitoringCMGAS3 Three-pole gas pressure monitoring CMSCHED Scheduled maintenanceCMSPRC1 Spring charging control 1CMTCS1 Trip circuit supervision 1CMTCS2 Trip circuit supervision 2CMTIME1 Operate time counter 1 for the operate time used (e.g. motors)CMTIME2 Operate time counter 2 for the operate time used (e.g. motors)CMTRAV1 Breaker travel time 1CMVO3 Supervision function of the energizing voltage input circuit

Table 2: Standard functions available for the RET 54_Function Description

14


Table 4: Control functions available for the RET 54_Function Description

CO3DC1 Three-state disconnector 1 with indicationCO3DC2 Three-state disconnector 2 with indicationCOCB1 Circuit breaker 1 control with indicationCOCB2 Circuit breaker 2 control with indicationCOCBDIR Direct open for CBs via HMICODC1 Disconnector 1 control with indicationCODC2 Disconnector 2 control with indicationCODC3 Disconnector 3 control with indicationCODC4 Disconnector 4 control with indicationCODC5 Disconnector 5 control with indicationCOIND1 Switching device 1 indicationCOIND2 Switching device 2 indication COIND3 Switching device 3 indicationCOIND4 Switching device 4 indication COIND5 Switching device 5 indicationCOIND6 Switching device 6 indication COIND7 Switching device 7 indication COIND8 Switching device 8 indication COLOCAT Logic-controlled control position selectorCOLTC On-load tap changer controller (voltage regulator)COSW1 On/off switch 1 COSW2 On/off switch 2COSW3 On/off switch 3COSW4 On/off switch 4MMIALAR1 Alarm channel 1, LED indicatorMMIALAR2 Alarm channel 2, LED indicatorMMIALAR3 Alarm channel 3, LED indicatorMMIALAR4 Alarm channel 4, LED indicatorMMIALAR5 Alarm channel 5, LED indicatorMMIALAR6 Alarm channel 6, LED indicatorMMIALAR7 Alarm channel 7, LED indicatorMMIALAR8 Alarm channel 8, LED indicatorMMIDATA1 MIMIC data monitoring point 1MMIDATA2 MIMIC data monitoring point 2MMIDATA3 MIMIC data monitoring point 3MMIDATA4 MIMIC data monitoring point 4MMIDATA5 MIMIC data monitoring point 5

15


Table 5: On-load tap changer controller function blockOn load tap changer control function (voltage regulator), COLTC

Reference voltage 0.000 ... 2.000 xUnDelay time for the 1st control pulse 1.0 ... 300.0 sDelay time for the 2nd control pulse 1.0 ... 300.0 sResistive line-drop compens. factor (Ur) 0.0 ... 25.0 %UnReactive line-drop compens. factor (Ux) 0.0 ... 25.0 %UnLoad phase angle (in NRP mode) -89 ... +89 degStability factor in parallel operation 0.0 ... 70.0 %UnOperation mode Not in use

Manual Automatic single Automatic master Automatic follower Negative Reactance Principle Minimizing Circulating Current Controlled via op.mode inputs

Delay mode Definite time Inverse time

Raise and lower pulse duration 0.5 ... 10.0 sBandwith 0.60 ... 9.00 %UnOvercurrent blocking limit 0.10 ... 5.00 xInUndervoltage blocking limit 0.10 ... 1.20 xUnOvervoltage blocking limit 0.80 ... 1.60 xUnHigh circ. current blocking limit 0.10 ... 5.00 xInMax limit for LDC term 0.00 ... 2.00 xUnReduce Set Voltage step 0.00 ... 9.00 %UnMax volt tap -36 ... 36Min volt tap -36 ... 36Max parallel trafos in MCC mode 4Operation accuracies - voltage measurement:

- operation time DT mode: - operation time IDMT mode:

- lower and raise output pulse duration:

Depends on the frequency of the voltage measured:f/fn = 0.95 ... 1.05: +1.0% of the set value or +0.01xUn+1% of the set value or +250 ms250ms and an inaccuracy which occurs when voltage varies +0.5%+100 ms

Reset ratio (hysteresis) 20% of the set Bandwith

Table 6: Measurement function blocksGeneral measurement/ analog input on RTD/analog module, MEAI1...8

The general measurement function blocks can be used to measure general purpose dc or ac voltage signals with a sensor input. They also include a REAL type input which can be used to monitor any internal REAL type IEC 61131-3 based signal, e.g. input data from the RTD/analog module.GE1…3 (V dc/ac)General REAL type input

-10000.00000...10000.00000-10000.00000...10000.00000

Analog output on RTD/analog module, MEAO1...4

The analog output function blocks handle the scaling of any internal REAL type IEC 61131-3 based signal to fit a selectable 0…20 mA or 4…20 mA range for use with the outputs on the RTD/analog module.General REAL type input -10000.00000...10000.00000

Neutral current measurement, MECU1A and MECU1B

Io (A)Io (%)

0.0…20000.0 A0.0…80.0% In

16


Three-phase current measurement, MECU3A and MECU3B

IL1 IL2 IL3 IL1 IL2 IL3 IL1 demand IL2 demand IL3 demand IL1 demand IL2 demand IL3 demand

0.0…20000.0 A0.0…20000.0 A0.0…20000.0 A0.0…1000.0% In0.0…1000.0% In0.0…1000.0% In0.0…20000.0 A0.0…20000.0 A0.0…20000.0 A0.0…1000.0% In0.0…1000.0% In0.0…1000.0% In

Transient disturbance recorder for 16 analog channels, MEDREC16

The transient disturbance recorder MEDREC16 is used for recording the current and voltage waveforms, as well as the status data of internal IEC 61131-3 based logic signals and digital inputs connected to the transformer terminals. Maximum 16 analog inputs and 16 logic signal inputs are available. One fundamental cycle contains 40 samples.Operation mode

Pre-trg timeOver limit ILxOver limit IoOver limit IobOver limit UoOver limit UxOver limit UxyOver limit U12bOver limit ILxbUnder limit UxUnder limit UxyAI filter time

SaturationOverwriteExtension0…100%0.00…40.00 x In0.00…40.00 x In0.00…40.00 x In0.00…2.00 x Un0.00…2.00 x Un0.00…2.00 x Un0.00…2.00 x Un0.00…40.00 x In0.00…2.00 x Un0.00…2.00 x Un0.000…60.000 s

The recording can be triggered by any (or several) of the alternatives listed below:• triggering on the rising or falling edge of any (or several) of the digital inputs• triggering on overcurrent, overvoltage or undervoltage• manual triggering via the menu or with the push-button F on the front panel (if configured)• triggering via serial communication• periodic triggeringThe recording length depends on the number of recordings and inputs used. For example, the following combination of recording length, number of recordings and number of inputs is available at 50 Hz (60 Hz): recordings \ inputs 1 3 10

1 1163 cyc. 412 cyc. 126 cyc.23.3 s (19.4 s) 8.2 s (6.9 s) 2.5 s (2.1 s)



System frequency measurement, MEFR1

FrequencyAverage Freq.Voltage U

10.00…75.00 Hz10.00…75.00 Hz0.0…2.0 x Un

17


Three-phase power and energy measurement, MEPE7

P3 (kW)Q3 (kvar)Power factor DPFPower factor PFP3 demand (kW)Q3 demand (kvar)Energy kWhReverse kWhEnergy kvarhReverse kvarh

-999999…999999 kW-999999…999999 kvar-1.00…1.00-1.00…1.00-999999…999999 kW-999999…999999 kvar0…999999999 kWh0…999999999 kWh0…999999999 kvarh0…999999999 kvarh

Residual voltage measurement, MEVO1A and MEVO1B

UoUo

0…150000 V0.0…120.0% Un

Three-phase voltage measurement, MEVO3A and MEVO3B

UL1_U12 UL2_U23UL3_U31UL1_U12UL2_U23UL3_U31UL1_U12 averageUL2_U23 averageUL3_U31 average UL1_U12 averageUL2_U23 averageUL3_U31 average

0.00…999.99 kV0.00…999.99 kV0.00…999.99 kV0.00…2.00 x Un0.00…2.00 x Un0.00…2.00 x Un0.00…999.99 kV0.00…999.99 kV0.00…999.99 kV0.00…2.00 x Un0.00…2.00 x Un0.00…2.00 x Un

18


19

Table 7: Protection function blocksThree-phase non-directional overcurrent protection, low-set stages, NOC3Low, 3I>, NOC3LowB,3I>

Start currentOperate time at DT modeTime multiplier at IDMT modeOperation mode

Measuring mode

Drop-off time of the operate time counter

0.10…5.00 x In0.05…300.00 s0.05…1.00Not in useDefinite time Extremely inverse Very inverse Normal inverse Long time inverse RI-type inverse RD-type inverse IEEE curvesPeak-to-peak Fundamental frequency0...1000 ms

Operation accuracyStart time: - Injected currents- internal time - total timeReset time

Reset ratio, typicallyRetardation timeOperate time accuracy at DT modeAccuracy class index E at IDMT mode

Note! The values below apply when f/fn = 0.95...1.05±2.5% of set value or ±0.01 x In >2.0 x start current:, and instantaneous stage, NOC3Inst, 3I>>>

Start currentOperate timeOperation mode

Measuring mode


0.10…40.00 x In0.05…300.00 sNot in use Definite time Instantaneous

Peak-to-peak Fundamental frequency0...1000 ms

Operation accuracy

Start time: - injected currents - internal time- total time Reset time

Reset ratio, typicallyRetardation timeOperate time accuracy at DT mode

Note! The values below apply when f/fn = 0.95...1.050.1...10 x In: ±2.5% of set value or ±0.01 x In10...40 x In: ±5.0% of set value >2.0 x start current:


Three-phase directional overcurrent function, low-set stage, DOC6Low, I>

Operation mode

Start currentOperate timeTime multiplierBasic angle bOperation direction

Earth-fault protection

Measuring mode


Not in use Definite time Extremely inverse Very inverse Normal inverse Long-time inverse RI-type inverse RD-type inverse0.05…40.00 x In0.05…300.00 s0.05…1.000…90Forward ReverseDisabled EnabledPhase-to-phase voltages, peak-to-peak measurement Phase-to-phase voltages, fundamental freq. measurement Phase-to-earth voltages, peak-to-peak measurement Phase-to-earth voltages, fundamental freq. measurement0...1000 ms

Operation accuracy

Start time: - injected currents- internal time - total timeReset time


Note! The values below apply when f/fn = 0.95...1.050.1...10 x In: ±2.5% of set value or ±0.01 x In10...40 x In: ±5.0% of set value±2.5% of measured voltage or ±0.01 x Un±2 >2.0 x start current:and instantaneous stageDOC6Inst, I>>>

Operation mode

Start currentOperate timeBasic angle bOperation direction

Earth-fault protection

Non-directional operation (when the direction cannot be determined)Measuring mode


Not in use Definite time Instantaneous0.05…40.00 x In0.05…300.00 s0…90Forward ReverseDisabled EnabledDisabled EnabledPhase-to-phase voltages, peak-to-peak measurement Phase-to-phase voltages, fundamental freq. measurement Phase-to-earth voltages, peak-to-peak measurement Phase-to-earth voltages, fundamental freq. measurement0...1000 ms

20


21

Operation accuracy

Start time: - injected currents - internal time- total timeReset time


Note! The values below apply when f/fn = 0.95...1.050.1...10 x In: ±2.5% of set value or ±0.01 x In 10...40 x In: ±5.0% of set value ±2.5% of measured voltage or ±0.01 x Un ±2 >2.0 x start current:


Non-directional earth-fault protection, low-set stage, NEF1Low, I0>

Start currentOperate time at DT modeTime multiplier at IDMT modeOperation mode

Measuring mode


1.0…100.0% of In0.05…300.00 s0.05…1.00Not in use Definite time Extremely inverse Very inverse Normal inverse Long time inverse RI-type inverse RD-type inverseIEEE curvesPeak-to-peak Fundamental frequency0...1000 ms

Operation accuracyStart time: - Injected currents - internal time - total timeReset time


Note! The values below apply when f/fn = 0.95...1.05±2.5% of set value + 0.0005 x In >2.0 x start current:>>

Start currentOperate timeOperation mode

Measuring mode


0.10…12.00 x In0.05…300.00 sNot in use Definite time InstantaneousPeak-to-peak Fundamental frequency0...1000 ms

Operation accuracyStart time: - Injected currents - internal time - total time Reset time


Note! The values below apply when f/fn = 0.95...1.05±2.5% of set value or + 0.01 x In >2.0 x start current


Directional earth-fault protection, low-set stage, DEF2Low, I0>

Start currentStart voltageOperate time at DT modeTime multiplier at IDMT modeOperation mode

Operation criteria

Operation direction

Basic angle b

Operation characteristic

Intermittent E/F

Measuring mode


1.0…25.0% of In2.0…100.0% of Un0.1…300.0 s0.05…1.00Not in use Definite time Extremely inverse Very inverse Normal inverse Long time inverseBasic angle & Uo Basic angle IoSin/Cos & Uo IoSin/Cos Non-directional Io Non-directional UoForward Reverse-90 -60 -30 0IoSin() IoCos()Not active ActivePeak-to-peak Fundamental frequency0...1000 ms

Operation accuracy

Start time: - Injected neutral current and residual voltage - internal time - total timeReset time


Note! The values below apply when f/fn = 0.95...1.05±2.5% of set value + 0.0005 x In ±2.5% of set value or + 0.01 x Un Phase angle ±2 >2.0 x start current and residual voltage >2.0 x start voltage


Directional earth-fault protection, high-set stage, DEF2High, I0>> and instantaneous stage, DEF2Inst, I0>>>

Start currentStart voltageOperate timeOperation mode

Operation criteria

Operation direction

Basic angle b

Operation characteristic

Intermittent E/F

Measuring mode


1.0…200.0% of In2.0…100.0% of Un0.1…300.0 sNot in use Definite time InstantaneousBasic angle & Uo Basic angle IoSin/Cos & Uo IoSin/Cos Non-directional Io Non-directional UoForward Reverse-90 -60 -30 0IoSin() IoCos()Not active ActivePeak-to-peak Fundamental frequency0...1000 ms

Operation accuracy

Start time, injected neutral current and residual voltage - internal time - total timeReset time


Note! The values below apply when f/fn = 0.95...1.05±2.5% of set value + 0.0005 x In ±2.5% of set value or + 0.01 x Un Phase angle ±2Injected neutral current >2.0 x start current and residual voltage >2.0 x start voltage


Stabilized restricted earth-fault protection, REF4A, I0> and REF4B, I0>

Basic settingOperate timeRatio I2f/I1f>2nd harmonic blocking

0.5...50%0.04...300.00 s10...50 %Not in use / In use

Operation accuracy of differential current measurementOperation accuracy of phase angle measurementStart time: -injected currents - internal time - total time Reset time

Reset ratio, typicallyRetardation time (Total retardation time when the current drops below the start value) Operation time accuracy at definite time mode

Note! The values below apply when f/fn = 0.95...1.05±4% of set value or ±0.02 x In

±2%

>2.0 x operating current:


Residual overvoltage protection, high-set stage, ROV1High, U0>>, and instantaneous stage, ROV1Inst, U0>>>

Start voltageOperate timeOperation mode

Measuring mode

2.0…80.0% of Un0.05…300.00 sNot in use Definite timePeak-to-peak Fundamental frequency

Operation accuracyStart time - injected voltages - internal time - total timeReset time

Reset ratio, typicallyRetardation time

Operate time accuracy at DT mode

Note! The values below apply when f/fn = 0.95...1.05±2.5% of set value or ±0.01 x Un >2 x start voltage


Three-phase thermal overload protection for motors, generators and transformers, TOL3Dev, 3

BASIC SETTINGS:Starting current of the motorMax. starting time permitted for the motorNumber of starts allowed from cold stateType of device to be protected

Trip temperaturePrior alarm temperatureRestart inhibit (temperature limit for successful restarting)Ambient temperatureCooling time-constantHeating time-constant for generator or transformer

0.10...10.00 x In0.1...120.0 s1...3Motor; through-ventilated, rated power < 1500 kW Motor; through-ventilated, rated power > 1500 kW Motor; surface cooling, rated power < 500 kW Motor; surface cooling, rated power > 500 kW Generator; hydro or small air-cooled turbine generators Generator; large turbine generators Transformer80.0…120.0%40.0…100.0%

40.0…100.0%-50.0…100.0C1.0...10.0 x time constant 1...999 min

ADVANCED SETTINGS:Short time-constant for statorLong time-constant for statorWeighting factor of the short time-constant for statorTemperature rise of stator at rated currentMaximum temperature of statorShort time-constant for rotorLong time-constant for rotorWeighting factor of the short time-constant for rotorTemperature rise of rotor at rated currentMaximum temperature of rotor

0.0...999.0 min0.0...999.0 min 0.00...1.000.0...350.0 C0.0...350.0 C0.0...999.0 min0.0...999.0 min 0.00...1.000.0...350.0 C 0.0...350.0 C

Operation mode (principle of ambient temperature compensation)

Waiting time for a successful restart (Read-only parameter)Estimated time to the trip (Read-only parameter)

Not in use No sensors; the set ambient temperature 1 sensor used 2 sensors used 0...86400 s 0...86400 s

Operation accuracyReset ratio: - trip - start - restart

Note! The values below apply when f/fn = 0.95...1.05±1.0%, I = 0.1...10.0 x In (Calculated temp. rise - 0.1) / Trip temperature (Calculated temp. rise - 0.1) / Prior alarm temperature (Calculated temp. rise - 0.1) / Restart inhibit temperature limit

27


Negative phase-sequence protection, low-set stage, NPS3Low, I2>, and high-set stage, NPS3High, I2>>

Operation mode

Start value of negative-sequence current I2Operate timeOperating characteristic constant K (corresponds to the machine constant, equal to the I22t constant of the machine as stated by machine manufacturer)Definite start time at inverse-time modeDefinite minimum operate timeMaximum operate timeCooling time of the machineNumber of phases to be measuredRotation direction


Not in use Definite time Inverse time0.01...0.50 x In0.1....120.0 s5.0...100.0

0.1...60.0 s0.1...120.0 s500...10000 s5...10000 s2 or 3Forward Reverse0...1000 ms

Operation accuracyStart time: - injected negative-seq. current- internal time- total time Reset time

Reset ratio, typicallyRetardation timeOperate time accuracy at DT modeAccuracy class index E at IDMT mode, typically

Note! The values below apply when f/fn = 0.95...1.05±2.5% of set value or ±0.01 x In = 2.00 x start value


Three-phase overvoltage protection, high-set stage, OV3High, 3U>>

Start voltageOperate timeOperation mode

Measuring mode

Operation hysteresis

0.10…1.60 x Un0.05…300.0 sNot in use Definite timePhase-to-phase voltages; peak-to-peak measurement Phase-to-phase voltages; fundamental freq. measurement Phase-to-earth voltages; fundamental freq. measurement1.0...5.0%

Operation accuracyStart time: - injected voltages- internal time - total timeReset time

Reset ratioRetardation timeOperate time accuracy at DT mode

Note! The values below apply when f/fn = 0.95...1.05±2.5% of set value = 1.1 x start voltage


Three-phase undervoltage protection, high-set stage, UV3High, 3UOperation mode

Rotation direction selection

0.01…1.00 x Un0.01…1.20 x Un0.80…1.60 x Un0.04…60.00 s0.04…60.00 s0.04…60.00 sNot in use; U1< & U2> & U1>; U1< & U2>; U2> & U1>; U1< & U1>; U2>; U1Forward; Reverse; Input ROT_DIR

Operation accuracyTrip time, U2> operation: - Injected negative-sequency voltage - internal time - total time Trip time, U1< operation: - injected positive-sequency voltage - internal time - total time Trip time, U1> operation: - Injected positive-sequency voltage - internal time - total timeReset time

Reset ratio, typically

Retardation timeOperate time accuracy

Note! The values below apply when f/fn = 0.95...1.05± 2.5% of set value or ± 0.01 x Un = 1.1 x start value


Underfrequency or overfrequency protection, 5 stages, Freq1St1… Freq1St5, f, df/dt

Operation mode

Undervoltage limit for blockingStart value for under-/overfrequency prot.Operate time for under-/overfrequency prot.Start value for df/dt protectionOperate time for df/dt protection

Not in use f 1 timer f 2 timers f OR df/dt> f AND df/dt> f OR df/dt< f AND df/dt<0.30…0.90 x Un25.00…75.00 Hz0.10…120.00 s0.2…10.0 Hz/s0.12…120.00 s

Operation accuracy - Frequency rate of change (df/dt):

- real df/dt - real df/dt

- Undervoltage blockingStart time: - total start times at fn = 50 Hz:

- frequency measurement - df/dt measurement

Reset time

Operate time accuracy

Under-/overfrequency (f): ±10 mHz 2.0 x Un/fn


Three-phase transformer inrush and motor start-up current detector Inrush3, 3I2f>

Ratio I2f/I1f>Start currentOperation mode

5…50%0.10…5.00 x InNot in use Inrush mode Start-up mode

Operation accuracy: - current measurement - ratio I2f/I1f measurementStart time: - internal time - total time

Note! The values below apply when f/fn = 0.95...1.05 ±2.5% of set value or ±0.01 x In±5.0% of set value - for Ratio I2/I1<

±2.0 percentage units (of settings Ratio U2/U1> and Ratio I2/I1 and Ratio I2/I1 < 35 ms (within the same task and when the task interval is 10 ms) 20 ms (within the same task) 0.8...0.96 1.04...1.2

Table 8: Energizing inputsRated frequency 50.0/60.0 HzCurrent inputs rated current 1 A/5 A

thermal withstand capability

continuously 4 A/20 Afor 1 s 100 A/500 A

dynamic current withstand, half-wave value 250 A/1250 Ainput impedance


Table 10: Digital inputsPower supply version PS1/240 V (High) PS1/240 V (Medium),

PS2/240 VPS1/48 V (Low), PS2/48V

Input voltage, dc 220 V 110/125/220 V 24/48/60/110/125/220 V

Nominal treshold voltage, dc - operating range, dc

155 V 155…265 V

80 V 80...265 V

18 V 18...265 V

Current drain ~2…25 mAPower consumption/input


Table 14: Power outputsMax system voltage 250 V ac/dcContinuous carry 5 AMake and carry for 0.5 s 30 AMake and carry for 3 s 15 ABreaking capacity when control circuit time constant L/R 100 M, 500 V dc

Mechanical tests Vibration tests (sinusoidal) IEC 60255-21-1, class IShock and bump test IEC 60255-21-2, class ISeismic test IEC 60255-21-3, class 2

Table 17: Electromagnetic compatibility testsThe EMC immunity test level fulfills the requirements listed below1 MHz burst disturbance test, class III, IEC 60255-22-1

common mode 2.5 kVdifferential mode 1.0 kV

Electrostatic discharge test, class III, IEC 61000-4-2 and IEC 60255-22-2

for contact discharge 6 kVfor air discharge 8 kV

Radio frequency interference test conducted, common modeIEC 61000-4-6

10 V (rms), f = 150 kHz…80 MHz

radiated, amplitude-modulatedIEC 61000-4-3

10 V/m (rms),f = 80…1000 MHz

radiated, pulse-modulatedENV 50204

10 V/m, f = 900 MHz

radiated, test with a portable transmitterIEC 60255-22-3, method C

f = 77.2 MHz, P = 6 W;f = 172.25 MHz, P = 5 W

34


35

Fast transient disturbance test(IEC 60255-22-4 and IEC 61000-4-4)

power supply 4 kVI/O ports 2 kV

Surge immunity test(IEC 61000-4-5)

power supply 4 kV, common mode2 kV, differential mode

I/O ports 2 kV, common mode1 kV, differential mode

Power frequency (50 Hz) magnetic field, IEC 61000-4-8

100 A/m

Voltage dips and short interruptions, IEC 61000-4-11

30%, 10 ms >90%, 5000 ms

Electromagnetic emission testsEN 55011 and EN 50081-2

conducted RF emission (mains terminal)

EN 55011, class A

radiated RF emission EN 55011, class ACE approval Complies with the EMC directive 89/336/EEC and the LV directive

73/23/EEC

Table 18: Data communicationRear interface, connector X3.1 not used, reserved for future purposesRear interface, connector X3.2 RS-232 connection

the fibre-optic interface module RER 123 for SPA and IEC_103protocol SPA, IEC_103RS-485 connectionthe RS-485 interface module RER 133 for DNP 3.0 and Modbusprotocol DNP 3.0, Modbusdata transfer rates DNP 3.0 and Modbus:

300 bps...19.2 kbps, selectableRear interface, connector X3.3 RS-485 connection

LON bus or SPA bus, selectablethe fibre-optic interface module RER 103 is needed for galvanic isolationdata transfer rates SPA bus: 4.8/9.6/19.2 kbps

LON bus: 78.0 kbps/1.2 Mbpsprotocol SPA, LON

Rear interface, connector X3.4 RJ45 connectiongalvanically isolated RJ45 connection for an external display modulecommunication cable 1MRS 120511.001 (1 m)

1MRS 120511.002 (2 m) 1MRS 120511.003 (3 m)

Front panel optical connectionprotocol SPAserial communication cable 1MRS 120511.001 (1 m)

SPA protocol baud rates 4.8/9.6/19.2 kbpsstart bits 1data bits 7parity evenstop bits 1

LON protocol bit rates 78.0 kbps/1.2 MbpsIEC_103 protocol baud rates 9.6/19.2 kbps

data bits 8parity evenstop bits 1

DNP 3.0 bit rates 300, 600, 1200, 2400, 4800,9600, 19200 bps

data bits 8stop bits 1, 2parity none, odd, even

Table 17: Electromagnetic compatibility tests


Modbus RTU/ASCII bit rates 300, 600, 1200, 2400, 4800, 9600, 19200 bps

data bits 5, 6, 7, 8stop bits 1, 2parity none, odd, even

Table 19: GeneralToolboxes CAP 501

CAP 505 LNT 505

Event recording all events are recorded in higher level syntax: reason, time, date the last 100 events are recorded

Data recording records operate valuesProtection functions Control functions Condition monitoring functions Measurement functions

see Technical Descriptions of Functions, CD-ROM (1MRS 750889-MCD)

Self-supervision RAMs ROMs EEPROMs all analog reference voltages automatic test sequences for I/Os and HMI modules output contact condition monitoring (all contacts)

Mechanical dimensions Width: 223.7 mm (1/2 of a 19” rack) Height, frame: 265.9 mm (6U) Height, box: 249.8 mm Depth: 235 mm External display module Width: 223.7 mm

Height: 265.9 mm Depth: 74 mm

Weight of the unit ~8 kg

Table 18: Data communication

36


37

Ordering The following is to be specified when order-ing RET 54_ transformer terminals:

• Order number (see figure below)• Display language combination (e.g.

English-German)• Quantity of transformer terminals

Each RET 54_ transformer terminal has a specific order number that identifies the transformer terminal type as well as the hard-ware and the software as described in the fig-ure below. The order number is printed on the marking strip on the front panel of the trans-former terminal delivered, e.g. Order No: RET543AB230AAAA.

��

�-./0!"��"�1$*$-)2��"!)*.-"��"�/�"�$)! �/3��2��%��,��%��,��%��

�!"40!"��)5�6�"2� ��,��,��,��,��,��,��,��,��,��,��

,��,��,��,��

��7�.$8�4�4$*� !3,�#�7��8/�")! �4$*� !3��-45 �

�58$ $!"3�1- /!9��"!)9��-.�/+��-0�"�*5�� 3��-45 ��!)41- /!9��"!)9��-.�/+��4$9$/! �$)�5/*�2 �-0�"�*5�� 32� ��:��;(�4$5��4$9$/! �$)�5/*2�� '"�7��:��:��>�/+"�*+- 4�1- /!9�2� '/�7��>�

#2��-0�"�*5�� 32� ��:��;�$9+�4$9$/! �$)�5/*2� '"�7��>�/+"�*+- 4�1- /!9�2� '/�7��>�

�2��-0�"�*5�� 32� ��:

��;&-0�4$9$/! �$)�5/*2� '"�7��:

:�:��:��:��>��

��*�"1�4�.-"�.5/5"��5*��*�"1�4�.-"�.5/5"��5*�

�5)?/$-)! $/3� �1� 2��7��-)/"- ,�#�7�#!*$?,�(�7�(5 /$

ret54_ordernumber_

Fig. 5 Order number of RET 54_ transformer terminal.

Language combinationsThe display language combination (see table below) is identified by a three-digit suf-

fix in the software number labelled on the front panel of the transformer terminal, e.g. Software 1MRS110028-0_.

Suffix Language combination

001 English-German002 English-Swedish003 English-Finnish007 English-Portuguese008 English-Polish009 English-Russian010 English-Spanish011 English-Czech

Number of digital inputs/outputsThe RET 541, RET 543 and RET 545 trans-former terminals differ from each other as to

the number of digital inputs and outputs as follows:

Number of inputs/outputs RET 541 RET 543 RET 545

Digital inputs 15 25 34Trip circuit supervision inputs 2 2 2Power outputs (NO single-pole) 0 2 3Power outputs (NO double-pole) 5 9 11Signal outputs (NO) 2 2 4Signal outputs (NO/NC) 5 5 8


Functionality levelsThe functionality level determines the extent of the selection of function blocks available for the transformer terminal. For more detail-

ed information on the separate function blocks included in each selection, please con-sult your relay supplier.

Functionality level Selection of function blocks

C (Control) All control1, condition monitoring and measurement functionsB (Basic) All control1, condition monitoring and measurement functions,

basic protection functionsM (Multi) All control1, condition monitoring, measurement and

protection functions1) The COLTC Tap Changer control function block comes as standard in the Control version. In the Basic and the Multi

versions, COLTC is available as an option.

Self-supervision outputs 1 1 1

38


39

Table 20: Transformer terminal functionality levels


Transformer Terminals functionality levels, cont.

RET54_ Functionality2.xls

Hardware versions of RET 541, RET 543 and RET 545For the number of digital inputs and outputs of RET 54_ transformer terminals, refer to section “Order number” above. The number of matching transformers and analog inputs and outputs, and the auxiliary voltage range vary between the different hardware versions

of RET 54_. Moreover, RET 541 and RET 543 can be supplied with an RTD/analog module. For more detailed information about the hardware of RET 54_, refer to the tables 20...28 below.

40


Table 21: Hardware versions of RET 541, 6I/3U transformersHW modules Order number

RET

541A

_230

AA

AA

RET

541A

_230

BA

AA

RET

541A

_230

CA

AA

RET

541A

_230

AA

AB

RET

541A

_230

BA

AB

RET

541A

_233

AA

AA

RET

541A

_233

BA

AA

RET

541A

_233

CA

AA

RET

541A

_233

AA

AB

RET

541A

_233

BA

AB

Analog interface

Current rafo 1/5 A 6 6 6 6 6 6 6 6 6 6Voltage trafo 100 V 3 3 3 3 3 3 3 3 3 3Main processor boards

CPU module 1 1 1 1 1 1 1 1 1 1Power supply boards

PS1: 80...265 VDC/AC (High) 1 1 1 1PS1: 80...265 VDC /AC (Medium) 1 1 1 1PS1: 18...80 VDC (Low) 1 1PS2: 80...265 VDC/ACPS2: 18...80 VDC

Digital I/O boards

BIO1:Threshold voltage 155 VDC 1 1 1 1BIO1: threshold voltage 80 VDC 1 1 1 1BIO1: threshold voltage 18 VDC 1 1BIO2: Threshold voltage 155 VDCBIO2: threshold voltage 80 VDCBIO2: threshold voltage 18 VDC

Analog I/O board

RTD/analog module 1 1 1 1 1

Display boards

Graphic HMI display, fixed 1 1 1 1 1 1Graphic HMI display, external 1 1 1 1

Mechanic

1/2 enclosure 1 1 1 1 1 1 1 1 1 1

Digital inputs 15 15

Power outputs, single pole 0 0

Power outputs, double pole 5 5

Signal outputs (NO) 2 2

Signal outputs (NO/NC) 5 5

Supervised trip circuits 2 2

IRF outputs 1 1

RTD/analog inputs 0 8

Analog outputs 0 4

41



RET

541A

_231

AA

AA

RET

541A

_231

BA

AA

RET

541A

_231

CA

AA

RET

541A

_231

AA

AB

RET

541A

_231

BA

AB

RET

541A

_234

AA

AA

RET

541A

_234

BA

AA

RET

541A

_234

CA

AA

RET

541A

_234

AA

AB

RET

541A

_234

BA

AB

Analog interface

Current trafo 1/5 A 7 7 7 7 7 7 7 7 7 7Voltage trafo 100 V 2 2 2 2 2 2 2 2 2 2

Main processor boards

CPU module 1 1 1 1 1 1 1 1 1 1

Power supply boards


Digital I/O boards

BIO1:threshold voltage 155 VDC 1 1 1 1BIO1: threshold voltage 80 VDC 1 1 1 1BIO1: threshold voltage 18 VDC 1 1BIO2: threshold voltage 155 VDCBIO2: threshold voltage 80 VDCBIO2: threshold voltage 18 VDC

Analog I/O board


Display boards


Mechanic

1/2 enclosure 1 1 1 1 1 1 1 1 1 1







IRF outputs 1 1


Analog outputs 0 4

42



RET

541A

_232

AA

AA

RET

541A

_232

BA

AA

RET

541A

_232

CA

AA

RET

541A

_232

AA

AB

RET

541A

_232

BA

AB

RET

541A

_235

AA

AA

RET

541A

_235

BA

AA

RET

541A

_235

CA

AA

RET

541A

_235

AA

AB

RET

541A

_235

BA

AB

Analog interface

Current rafo 1/5 A 8 8 8 8 8 8 8 8 8 8Voltage trafo 100 V 1 1 1 1 1 1 1 1 1 1Main processor boards



Digital I/O boards

BIO1: threshold voltage 155 VDC 1 1 1 1BIO1: threshold voltage 80 VDC 1 1 1 1BIO1: threshold voltage 18 VDC 1 1BIO2: threshold voltage 155 VDCBIO2: threshold voltage 80 VDCBIO2: threshold voltage 18 VDC

Analog I/O board

RTD/analog module 1 1 1 1 1Display boards


Mechanic

1/2 enclosure 1 1 1 1 1 1 1 1 1 1







IRF outputs 1 1


Analog outputs 0 4

43



RET

543A

_240

AA

AA

RET

543A

_240

BA

AA

RET

543A

_240

CA

AA

RET

543A

_240

AA

AB

RET

543A

_240

BA

AB

RET

543A

_243

AA

AA

RET

543A

_243

BA

AA

RET

543A

_243

CA

AA

RET

543A

_243

AA

AB

RET

543A

_243

BA

AB

Analog interface

Current trafo 1/5 A 6 6 6 6 6 6 6 6 6 6Voltage trafo 100 V 3 3 3 3 3 3 3 3 3 3Main processor boards


PS1: 80...265 VDC/AC (High) 1 1 1 1PS1: 80...265 VDC/AC (Medium) 1 1 1 1PS1: 18...80 VDC (Low) 1 1PS2: 80...265 VDC/ACPS2: 18...80 VDC

Digital I/O boards

BIO1: threshold voltage 155 VDC 1 1 1 1BIO1: threshold voltage 80 VDC 1 1 1 1BIO1: threshold voltage 18 VDC 1 1BIO2: threshold voltage 155 VDC 1 1 1 1BIO2: threshold voltage 80 VDC 1 1 1 1BIO2: threshold voltage 18 VDC 1 1Analog I/O board


Graphic HMI display, fixed 1 1 1 1 1 1Graphic HMI display external 1 1 1 1Mechanic

1/2 enclosure 1 1 1 1 1 1 1 1 1 1







IRF outputs 1 1


Analog outputs 0 4

44



RET

543A

_241

AA

AA

RET

543A

_241

BA

AA

RET

543A

_241

CA

AA

RET

543A

_241

AA

AB

RET

543A

_241

BA

AB

RET

543A

_244

AA

AA

RET

543A

_244

BA

AA

RET

543A

_244

CA

AA

RET

543A

_244

AA

AB

RET

543A

_244

BA

AB

Analog interface

Current trafo 1/5 A 7 7 7 7 7 7 7 7 7 7Voltage trafo 100 V 2 2 2 2 2 2 2 2 2 2Main processor boards



Digital I/O boards



Graphic HMI display, fixed 1 1 1 1 1 1Graphic HMI display, external 1 1 1 1Mechanic

1/2 enclosure 1 1 1 1 1 1 1 1 1 1







IRF outputs 1 1


Analog outputs 0 4

45



RET

543A

_242

AA

AA

RET

543A

_242

BA

AA

RET

543A

_242

CA

AA

RET

543A

_242

AA

AB

RET

543A

_242

BA

AB

RET

543A

_245

AA

AA

RET

543A

_245

BA

AA

RET

543A

_245

CA

AA

RET

543A

_245

AA

AB

RET

543A

_245

BA

AB

Analog interface

Current trafo 1/5 A 8 8 8 8 8 8 8 8 8 8Voltage trafo 100 V 1 1 1 1 1 1 1 1 1 1

Main processor boards

CPU module 1 1 1 1 1 1 1 1 1 1

Power supply boards


Digital I/O boards



Display boards

Graphic HMI display, fixed 1 1 1 1 1 1Graphic HMI display external 1 1 1 1

Mechanic

1/2 enclosure 1 1 1 1 1 1 1 1 1 1







IRF outputs 1 1


Analog outputs 0 4

46



RET

545A

_250

AA

AA

RET

545A

_250

BA

AA

RET

545A

_250

CA

AA

RET

545A

_250

AA

AB

RET

545A

_250

BA

AB

Analog interface

Current trafo 1/5 A 6 6 6 6 6Voltage trafo 100 V 3 3 3 3 3Main processor boards

CPU module 1 1 1 1 1Power supply boards

PS1: 80...265 VDC/AC (High)PS1: 80...265 VDC/AC (Medium)PS1: 18...80 VDC (Low)PS2: 80...265 VDC/AC 1 1 1 1PS2: 18...80 VDC 1Digital I/O boards

BIO1: threshold voltage 155 VDC 2 2BIO1: threshold voltage 80 VDC 2 2BIO1: threshold voltage 18 VDC 2BIO2: threshold voltage 155 VDC 1 1BIO2: threshold voltage 80 VDC 1 1BIO2: threshold voltage 18 VDC 1Analog I/O board

RTD/analog module

Display boards

Graphic HMI display, fixed 1 1 1Graphic HMI display, external 1 1

Mechanic

1/2 enclosure 1 1 1 1 1

Digital inputs 34

Power outputs, single pole 3

Power outputs, double pole 11

Signal outputs (NO) 4

Signal outputs (NO/NC) 8

Supervised trip circuits 2

IRF outputs 1

RTD/analog inputs 0

Analog outputs 0

47



RET

545A

_251

AA

AA

RET

545A

_251

BA

AA

RET

545A

_251

CA

AA

RET

545A

_251

AA

AB

RET

545A

_251

BA

AB

Analog interface





RTD/analog module

Display boards

Graphic HMI display, fixed 1 1 1Graphic HMI display, external 1 1

Mechanic

1/2 enclosure 1 1 1 1 1

Digital inputs 34






IRF outputs 1

RTD/analog inputs 0

Analog outputs 0

48



RET

545A

_252

AA

AA

RET

545A

_252

BA

AA

RET

545A

_252

CA

AA

RET

545A

_252

AA

AB

RET

545A

_252

BA

AB

Analog interface





RTD/analog module

Display boards

Graphic HMI display, fixed 1 1 1Graphic HMI display, external 1 1Mechanic

1/2 enclosure 1 1 1 1 1

Digital inputs 34






IRF outputs 1

RTD/analog inputs 0

Analog outputs 0

49


Software configu-ration

Each RET 54_ transformer terminal allows various software configurations based on sep-arate functions. Functions included in the selected functionality level can be activated

within the scope of the I/O connections and considering the total CPU load of the func-tions.

Parts and assembly descriptions

To achieve the best possible operation accu-racy, all parts of a RET 54_ product have been calibrated together. Thus, each product forms a whole for which no separate spare

parts can be supplied. In the event of mal-function, please consult your

transformer terminal ret 541,gy-eng.com/gyeng/board/upload/sub4_1/up_sub4_1_114_1.pdfearth faults...

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