ABB综保REF615培训教材PPT幻灯片

Transformer protection and control RET615Relion ®615 seriesCompact and versatile solution for utility and industrial power distribution systemsRET615 is a dedicated transformer protection and control IED for power transformers, unit and step-up transformers including power generator-transformer blocks in utility and industry power distribution systems.RET615 is a member of ABB’s Relion® protection and control product family and its 615 series. The 615series IEDs are characterized by their compactness and withdrawable-unit design. Re-engineered from the ground up, the 615 series has been designed to unleash the full potential of the IEC 61850 standard for communication and interoperability between substation automation devices.ApplicationRET615 is an advanced protection and control IED for two-winding power transformers and power generator-transformer blocks. RET615 is available in eight standard configurationsto match the most commonly employed power transformer vector groups and to coordinate the applied transformer neutral earthing principles with the relevant earth-fault protection schemes.Protection and controlRET615 features, three-phase, multi-slope stabilized (biased) stage transformer differential protection and an instantaneous stage to provide fast and selective phase-to-phase short-circuit, winding interturn fault and bushing flash-over protection. Besides second harmonic restraint an advanced waveform-based blocking algorithm ensures stability at transformer energization and a fifth harmonic restraint function ensures good protection stability at moderate overexcitation of a power transformer. Sensitive restricted earth-fault protection (REF) completes the overall differential protection providing detection of even single phase-to-earth faults close to the earthed neutral point of the transformer. Either the conventional high-impedance scheme or a numerical low-impedance scheme can be selected for protection of the transformer windings. When low-impedance REF protectionis used, neither stabilizing resistors nor varistors are needed. As a further benefit the transforming ratio of the neutral earthing CT may differ from that of the phase current transformers. Due to its unit protection character and absolute selectivity the REF protection does not need to be time graded with other protection schemes, and therefore high-speed fault clearance can be achieved.RET615 also incorporates a thermal overload protection function, which supervises the thermal stress of the transformer windings to prevent premature aging of the insulation of the windings. Multiple stages of short-circuit, phase-overcurrent, negative-phase-sequence and earth-fault back-up protection are provided for both the high voltage and the low voltage side of the transformer. Depending on the standard configuration the IED also includes three-phase overvoltage protection, three-phase undervoltage protection and earth fault protection based on a measured or calculated residual voltage. Furthermore, RET615 also offers circuit-breaker failure protection. Enhanced with an optional communication card, RET615 offers a fast three-channel arc-fault protection system for arc flash supervision of the circuit-breaker, busbar and cable compartment of metal-enclosed air-insulated switchgears.The optional RTD/mA module offered for the standard configurations A – D allow up to six temperature signals tobe measured via the RTD inputs and two transducer derived analog signals via the mA inputs. The RTD and mA inputs can be used for measuring the oil temperature at the bottom and top of the transformer. Furthermore, the RTD/mA inputs can be used for measuring the ambient air temperature. The RTD inputs also offer thermal protection of dry-type power transformers fitted with Pt-100 temperature sensors. Temperature measurement over the RTD /mA inputs extends the function of the three-phase thermal overload protectionof the IED. An RTD input can also be used as a direct resistance measuring input for position tracking of an on-load tap changer. Alternatively, tap changer position can be obtained via a mA-transducer. The analog temperature or tap changer position values can, if required, be sent using analog horizontal GOOSE messaging to other IEDs.RET615 also integrates functionality for the control of theHV-side circuit breaker via the front panel HMI or by meansof remote controls. RET615 also features two control blocks which are intended for motor-operated control of disconnectors or circuit-breaker trucks and their position indications. Further, RET615 offers a control block which is intended for motor-operated control of one earthing switch control and it’s position indication. The number of controllable primary devices depends on the number of available inputs and outputs in the selected configuration.The signal configuration of the IED can be adjusted using the signal matrix functionality (SMT) or the graphical application configuration functionality (ACT) of the Protection and Control IED Manager PCM600. The ACT supports creation of multi-layer logic by combining various logic functions blocks also including timers and flip-flops. By combining protection functions with logic functions the IED configuration can be modified to fit the special requirements of the application.2 Transformer protection and control | RET615RET615 | Transformer protection and control 3I 2>463I >51P-1 ARC50L3I >>>50P/51PIo > BF51NBFARC 50NL3I >>>50P/51PMAPMAP3I >51P-13I >>51P-2Io3I >>51P-23θ>T49TI 2>463I >BF51BF3I >T87TIo >51N-1Io1) Optional1)1)1)IoLo >87NLIo >>51N-2Protection function overview of the A configuration of RET615.Standardized communicationRET615 features genuine support for the new IEC 61850standard for communication in substationsand also for Parallel Redundancy Protocol (PRP) and High-availability Seamless Redundancy (HSR) protocols. The IED also supports DNP3, IEC 60870-5-103 and Modbus® protocols.For a redundant Ethernet solution the IED offers an optional fibre-optic communication module providing two optical and one galvanic Ethernet network interfaces. Alternatively, the IED features an optional galvanic communication module with two galvanic and one optical Ethernet network interfaces or three galvanic interfaces. The third Ethernet interface provides connectivity of any other Ethernet devices to an IEC 61850 station bus inside of a switchgear bay. The redundant Ether-net solution can be built on the Ethernet based IEC 61850, Modbus ® and DNP3 protocols.The implementation of the IEC 61850 substationcommunication standard in RET615 covers both vertical and horizontal communication, including GOOSE messaging with both binary and analog signals and parameter setting according to IEC 61850-8-1. The substation configuration language enables the use of engineering tools for efficient configuration and commissioning of substation devices. For accurate time stamping RET615 supports synchronization over Ethernet using SNTP or over a separate bus using IRIG-B.Preventive condition monitoringFor continuous control of its operational availabilityRET615 features a comprehensive set of monitoring functions to supervise the IED itself, the CB trip circuit and the circuit breaker. The IED monitors the wear and tear of the circuit breaker, the spring charging time of the CB operatingmechanism and the gas pressure of the breaker chambers. The IED also supervises the breaker travel time and the num-ber of CB operations to provide basic information for schedul-ing CB maintenance to support asset management.Single line diagramThe 615 series IEDs with large graphical display offer customizable visual single line mimic diagrams (SLD) with position indication for the relevant circuit breaker,disconnectors and the earthing switch. Apart from the default single line diagram, the IED may display related measured values, as provided by the chosen standard configuration. The SLD view can also be accessed through the web-browser based user interface. The default SLD can be modified according to user requirements using the graphical display editor of PCM600.Standard configurationsDescriptionThree-phase transformer differential protection for two-winding transformers, numerical restricted earth-fault protectionfor the high-voltage (HV) side, CB control (HV side) and optional RTD/mA inputsThree-phase transformer differential protection for two-winding transformers, numerical restricted earth-fault protectionfor the low-voltage (LV) side, CB control (HV side), optional RTD/mA inputsThree-phase transformer differential protection for two-winding transformers, high-impedance based restricted earth-fault protection for the high-voltage (HV) side, CB control (HV side) and optional RTD/mA inputsThree-phase transformer differential protection for two-winding transformers, high-impedance based restricted earth-fault protection for the low-voltage (LV) side, CB control (HV side) and optional RTD/mA inputsThree-phase transformer differential protection for two-winding transformers, numerical restricted earth-fault protectionfor the high-voltage (HV) side, phase-voltage based protection and measurement functions and CB control (HV side)Three-phase transformer differential protection for two-winding transformers, numerical restricted earth-fault protectionfor the low-voltage (LV) side, phase-voltage based protection and measurement functions and CB control (HV side)Three-phase transformer differential protection for two-winding transformers, high-impedance based restricted earth-fault protection for the high-voltage (HV) side, phase-voltage based protection and measurement functions and CB control (HV side) Three-phase transformer differential protection for two-winding transformers, high-impedance based restricted earth-fault protection for the low-voltage (LV) side, phase-voltage based protection and measurement functions and CB control (HV side)Standard configurationABCDEFGHStandard configurationsSupported functions, codes and symbolsFunctionalityProtectionStabilized and instantaneous differential protection for two-winding transformers Multi-purpose protection9)Master tripHV-side protectionNumerical stabilized low impedance restricted earth-fault protectionHigh impedance based restricted earth-fault protectionThree-phase non-directional overcurrent protection, low stageThree-phase non-directional overcurrent protection, high stageThree-phase non-directional overcurrent protection, instantaneous stageNon-directional earth-fault protection, low stageNon-directional earth-fault protection, high stageNegative-sequence overcurrent protectionResidual overvoltage protection5)Three-phase undervoltage protectionThree-phase overvoltage protectionThree-phase thermal overload protection for power transformers, two time constants Circuit-breaker failure protection2)LV-side protectionNumerical stabilized low impedance restricted earth-fault protectionHigh impedance based restricted earth-fault protectionThree-phase non-directional overcurrent protection, low stageThree-phase non-directional overcurrent protection, high stageThree-phase non-directional overcurrent protection, instantaneous stageNon-directional earth-fault protection, low stageNon-directional earth-fault protection, high stageNegative-sequence overcurrent protectionArc protection4)4 Transformer protection and control | RET615RET615 | Transformer protection and control 5H 1-2--111--122211-16)11113)13)1(3)A 1(6)21-11111)11)1---11--111--1(3)IEC-ANSI 87T MAP 94/86 87NL 87NH 51P-151P-2 50P/51P 51N-1 51N-24659G 275949T51BF/51NBF 87NL 87NH 51P-151P-2 50P/51P 51N-1 51N-2 4650L/50NLF 1-2--111--12221117)-11118)18)1(3)G 1-2-111112)12)122211--111--1(3)E 1-21-11111)11)122211--111--1(3)IEC 606173dI >T MAP Master Trip dIoLo >dIoHi >3I > 3I >> 3I >>> Io > Io >>I2> Uo > 3U < 3U > 3Ith >T 3I >/Io >BF dIoLo >dIoHi >3I > 3I >> 3I >>> Io > Io >> I2> ARCIEC 61850TR2PTDF MAPGAPC TRPPTRC LREFPNDF HREFPDIF PHLPTOC PHHPTOC PHIPTOC EFLPTOC EFHPTOC NSPTOC ROVPTOV PHPTUV PHPTOV T2PTTR CCBRBRF LREFPNDF HREFPDIF PHLPTOC PHHPTOC PHIPTOC EFLPTOC EFHPTOC NSPTOC ARCSARCD 1(6)2--111--1---11-16)11113)13)1(3)C 1(6)2-111112)12)1---11--111--1(3)B 1(6)2--111--1---1117)-11118)18)1(3)1, 2,... = number of included instances / I/Os( ) = optionalStandard configurationsSupported functions, codes and symbolsFunctionalityControlDisconnector controlEarthing switch controlDisconnector position indicationEarthing switch indicationTap changer position indicationCircuit-breaker control (HV-side)Condition MonitoringCircuit-breaker condition monitoringTrip circuit supervisionFuse failure supervisionRuntime counter for machines and devicesMeasurementDisturbance recorderRTD/mA measurementHV-side measurementThree-phase current measurementSequence current measurementResidual current measurementThree-phase voltage measurementResidual voltage measurementSequence voltage measurementThree-phase power, energy measurement, including power factorLV-side measurementThree-phase current measurementResidual current measurementInputs/OutputsAnalog inputsCTVTRTD inputs13)mA inputs13)Binary outputs/inputsBI13)BO13)6 Transformer protection and control | RET615RET615 | Transformer protection and control 7H 21321112111-11-1111117510)-.1210A 21321112-11(1)111----1-7-(6)11) (2)11)8 (14)12)10 (13)12)IEC-ANSI I ↔ O DCC I ↔ O ESC I ↔ O DC I ↔ O ES 84MI ↔ O CB CBCM TCM 60OPTM -X130 (RTD)3I I1, I2, I0In 3U Vn U1, U2, U0P , E 3I(B)In (B)F 21321112111-11-1111117510)--1210G 21321112111-11111111-7510)--1210E 21321112111-11111111-7510)--1210IEC 60617I ↔ O DCC I ↔ O ESC I ↔ O DC I ↔ O ES TPOSM I ↔ O CB CBCM TCS FUSEF OPTS -X130 (RTD)3I I1, I2, I0Io 3U Uo U1, U2, U0P , E 3I(B)Io (B)IEC 61850DCXSWI ESXSWI DCSXSWI ESSXSWI TPOSSLTC CBXCBR SSCBR TCSSCBR SEQRFUF MDSOPT RDRE XRGGIO130CMMXU CSMSQI RESCMMXU VMMXU RESVMMXU VSMSQI PEMMXU CMMXU RESCMMXUD 21321112-11(1)11-----117-(6)11) (2)11)8 (14)12)10 (13)12)C 21321112-11(1)111----1-7-(6)11) (2)11)8 (14)12)10 (13)12)B 21321112-11(1)11-----117-(6)11) (2)11)8 (14)12)10 (13)12)1, 2,... = number of included instances / I/Os( ) = optional1) Io selectable by parameter and the default value is Io measured 2)Io calculated is always used 3)IoB calculated is always used 4)IoB calculated and 3IB are always used 5)Uo selectable by parameter, Uo measured as default 6)IoB measured is always used 7)IoB measured and 3IB are always used 8)IoB selectable by parameter, IoB measured as default 9)Multi-purpose protection is used for, for example, RTD/mA based protection 10)One of the five inputs is reserved for future applications 11)With optional RTD/mA module 12)With optional binary I/O module ()13)The optional I/O module and the optional RTD/mA modules are mutually exlusiveNote that all directional protection functions can also be used in non-directional mode.The instances of a protection function represent the number of identical function blocks available in a standard configuration. By setting the application specific parameters of an instance, a protection function stage can be established.Contact us1M R S 756898 E , 4.0 F P 1 © C o p y r i g h t 2013 A B B . A l l r i g h t s r e s e r v e d .For more information see RET615 Product Guide or contact us:ABB Oy, Distribution Automation P .O. Box 699FI-65101 VAASA, Finland Phone: +358 10 22 11Fax: +358 10 22 41094ABB Limited, Distribution Automation Maneja, Vadodara – 390013, India Phone: +91 265 260 4386Fax: +91 265 263 8922/substationautomation。

ABB综保REF615培训教材一、ABB 综保 REF615 概述ABB 综保 REF615 是一款先进的综合保护继电器，广泛应用于电力系统中，为电力设备的安全稳定运行提供可靠的保护。

它具备强大的功能和灵活的配置，能够满足不同用户的需求。

REF615 采用了先进的数字技术和微处理器，具有高精度的测量、快速的故障判断和可靠的保护动作特性。

它可以对电力系统中的各种电气参数进行实时监测和分析，如电流、电压、功率、频率等，并根据预设的保护逻辑和定值，及时准确地判断故障类型和位置，迅速采取相应的保护措施，如跳闸、报警等，以避免故障的扩大和设备的损坏。

二、REF615 的主要功能1、过流保护REF615 能够监测线路中的电流，并在电流超过设定值时迅速动作。

过流保护可分为定时限过流保护和反时限过流保护两种方式。

定时限过流保护按照固定的时间延迟动作，适用于对动作时间要求较严格的场合；反时限过流保护则根据电流的大小自动调整动作时间，电流越大，动作时间越短，能够更好地保护设备免受过载的损害。

2、接地保护对于中性点不接地或经消弧线圈接地的系统，REF615 提供了零序电流保护和零序电压保护功能，能够及时检测到接地故障并采取相应的保护措施。

对于中性点直接接地的系统，REF615 则提供了零序过流保护和接地距离保护功能，确保接地故障得到快速可靠的处理。

3、过压保护和欠压保护REF615 可以实时监测系统电压，当电压超过过压设定值或低于欠压设定值时，及时发出跳闸指令，保护电力设备免受过高或过低电压的影响。

4、频率保护REF615 具备频率保护功能，能够监测系统频率的变化。

当频率超出正常范围时，如过高或过低，它会采取相应的保护动作，以保障电力系统的稳定运行。

5、重合闸功能在电力系统发生瞬时性故障时，REF615 支持重合闸功能，能够自动重合断路器，恢复供电，提高供电的可靠性。

6、测控功能除了保护功能外，REF615 还具备强大的测控功能。

馈线保护测控装置REF615产品指南目 录1概述...............................................................12标准配置........................................................13保护功能........................................................34应用...............................................................75控制功能......................................................106测量.............................................................107故障录波......................................................108事件记录......................................................109故障数据记录...............................................1010断路器监视..................................................1011跳闸回路监视...............................................1112自检功能......................................................1113VT熔丝断线监视..........................................1114电流回路监视.. (1115)访问控制 (11)16输入和输出装置...........................................1217通信.............................................................1318技术数据......................................................1419显示选项......................................................3620安装方法......................................................3721外壳和插件单元...........................................3722选机及订货号...............................................3823配件及其订货号...........................................4224工具.............................................................4225ABB采用的解决方案....................................4426接线图..........................................................4527认证.............................................................4828参考资料 (4829)功能、代码和符号 (49)免责声明本文信息可能会更改，恕不另行通知。