GE 1601-0149-A2 manual

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Buen manual de instrucciones

Las leyes obligan al vendedor a entregarle al comprador, junto con el producto, el manual de instrucciones GE 1601-0149-A2. La falta del manual o facilitar información incorrecta al consumidor constituyen una base de reclamación por no estar de acuerdo el producto con el contrato. Según la ley, está permitido adjuntar un manual de otra forma que no sea en papel, lo cual últimamente es bastante común y los fabricantes nos facilitan un manual gráfico, su versión electrónica GE 1601-0149-A2 o vídeos de instrucciones para usuarios. La condición es que tenga una forma legible y entendible.

¿Qué es un manual de instrucciones?

El nombre proviene de la palabra latina “instructio”, es decir, ordenar. Por lo tanto, en un manual GE 1601-0149-A2 se puede encontrar la descripción de las etapas de actuación. El propósito de un manual es enseñar, facilitar el encendido o el uso de un dispositivo o la realización de acciones concretas. Un manual de instrucciones también es una fuente de información acerca de un objeto o un servicio, es una pista.

Desafortunadamente pocos usuarios destinan su tiempo a leer manuales GE 1601-0149-A2, sin embargo, un buen manual nos permite, no solo conocer una cantidad de funcionalidades adicionales del dispositivo comprado, sino también evitar la mayoría de fallos.

Entonces, ¿qué debe contener el manual de instrucciones perfecto?

Sobre todo, un manual de instrucciones GE 1601-0149-A2 debe contener:
- información acerca de las especificaciones técnicas del dispositivo GE 1601-0149-A2
- nombre de fabricante y año de fabricación del dispositivo GE 1601-0149-A2
- condiciones de uso, configuración y mantenimiento del dispositivo GE 1601-0149-A2
- marcas de seguridad y certificados que confirmen su concordancia con determinadas normativas

¿Por qué no leemos los manuales de instrucciones?

Normalmente es por la falta de tiempo y seguridad acerca de las funcionalidades determinadas de los dispositivos comprados. Desafortunadamente la conexión y el encendido de GE 1601-0149-A2 no es suficiente. El manual de instrucciones siempre contiene una serie de indicaciones acerca de determinadas funcionalidades, normas de seguridad, consejos de mantenimiento (incluso qué productos usar), fallos eventuales de GE 1601-0149-A2 y maneras de solucionar los problemas que puedan ocurrir durante su uso. Al final, en un manual se pueden encontrar los detalles de servicio técnico GE en caso de que las soluciones propuestas no hayan funcionado. Actualmente gozan de éxito manuales de instrucciones en forma de animaciones interesantes o vídeo manuales que llegan al usuario mucho mejor que en forma de un folleto. Este tipo de manual ayuda a que el usuario vea el vídeo entero sin saltarse las especificaciones y las descripciones técnicas complicadas de GE 1601-0149-A2, como se suele hacer teniendo una versión en papel.

¿Por qué vale la pena leer los manuales de instrucciones?

Sobre todo es en ellos donde encontraremos las respuestas acerca de la construcción, las posibilidades del dispositivo GE 1601-0149-A2, el uso de determinados accesorios y una serie de informaciones que permiten aprovechar completamente sus funciones y comodidades.

Tras una compra exitosa de un equipo o un dispositivo, vale la pena dedicar un momento para familiarizarse con cada parte del manual GE 1601-0149-A2. Actualmente se preparan y traducen con dedicación, para que no solo sean comprensibles para los usuarios, sino que también cumplan su función básica de información y ayuda.

Índice de manuales de instrucciones

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    489 Generator Management Relay COMMUNICATIONS GUIDE Software R evision: 3.00 GE Publication Code: GEK -10 6495A GE Multilin Part Number: 1601-0149-A2 Copyright © 2004 GE Multilin GE Multilin 215 Anderson A venue, Markham, Ontario Canada L6E 1B3 T el: (905) 294-6222 F ax: (905) 201-2098 Internet: http://www .GEindustrial.com/mu ltilin g GE Industri[...]

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    489 Communications Guide http://www .GEind ustrial.com/multilin i GE Multilin T able of Contents MODBUS PROTOCOL Electrical Interfa ce ............................ ............................ ........................ ........................... ...................... . 1 Modbus RTU Des cription ................ ............................ .......[...]

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    Table of Contents 489 Communications Guide http://www .GEindus trial.com /multilin ii GE Multilin[...]

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    Modbus Protocol 489 Communications Guide http://www .GEind ustrial.com/multilin 1 GE Multilin 489 Communications Guide GE Publication Code: GEK-106495A GE Multilin Part Number: 1601-0149-A2 Copyright © 2004 GE Multilin Modbus Pr otocol Electrical Interface The hardware o r electrical interface is one of the foll owing: one of two 2-wire RS485 port[...]

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    Modbus Protocol 489 Communications Guide http://www .GEindus trial.com /multilin 2 GE Multilin Data Packet Format A complete request/response sequence cons ists of the following bytes (transmitted as separate data fr ames): 1. A Master Query Message consisting of: a 1-byt e Slave Addr ess , a 1-byte Func- tion Code , a v ariable number of Data Byte[...]

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    Modbus Functions 489 Communications Guide http://www .GEind ustrial.com/multilin 3 GE Multilin CRC-16 Algorithm Once the following algorithm is complete, the working register “ A ” will contain the CRC value to be tr ansmitted. Note that this algorithm requires the characteristic polynomial to be reverse bit ordered. Th e MSbit of the character[...]

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    Modbus Functions 489 Communications Guide http://www .GEindus trial.com /multilin 4 GE Multilin Function Codes 03/04: Read Setpoints / Actual Va l u e s Modbus implementation: Read Input and Holding R egisters 489 Implementation: Read Setpoints and Actual Values For the 489 Modbus implementation, these commands are used to read any setpoint (‘hol[...]

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    Modbus Functions 489 Communications Guide http://www .GEind ustrial.com/multilin 5 GE Multilin Function Code 05: Execute Operation Modbus Implementation: Force Single Coil 489 Implementation: Execute Oper ation This function code allows the master to request specific 489 command operations. The command numbers listed in the Commands area of the mem[...]

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    Modbus Functions 489 Communications Guide http://www .GEindus trial.com /multilin 6 GE Multilin Function Code 07: Read Device Status Modbus Implementation: Read Exception Status 489 Implementation: Read Devi ce Status This function reads the selected device status. A short message length allows for rapid reading of status. The re turned status byte[...]

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    Modbus Functions 489 Communications Guide http://www .GEind ustrial.com/multilin 7 GE Multilin Function Code 16: Store Multiple Setpoints Modbus Implementation: Preset Mu ltiple Registers 489 Implementation: Store Multiple Setpoints This function code allows mult iple Setp oints to be stored into the 489 memory . Modbus “registers” are 16-bit ([...]

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    Modbus Functions 489 Communications Guide http://www .GEindus trial.com /multilin 8 GE Multilin Function Code 16: Performing Commands Some PLCs may not support execution of commands usi ng function code 5 but do support storing multiple setpoints using func tion code 16. T o perform this operation using function code 16 (10h), a certain sequence of[...]

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    Modbus Memory Map 489 Communications Guide http://www .GEind ustrial.com/multilin 9 GE Multilin Modbus Memory Map Memory Map Information The data stored in the 489 is grouped as Setpoints and Actual V alues. Setpoints can be read and written by a master computer . Actual V alues are read only . All Setpoints and Actual V alues are stored as two byt[...]

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    Modbus Memory Map 489 Communications Guide http://www .GEindus trial.com /multilin 10 GE Multilin Each communications port can individually select the ID number of the event of interest by writing address 3003h. This wa y the front port, rear port and auxiliary port can read different event s from the event recor der simultaneously . W aveform Capt[...]

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    Modbus Memory Map 489 Communications Guide http://www .GEind ustrial.com/multilin 11 GE Multilin 489 Memory Map The 489 memory ma p is shown in the following table. Table 1: 489 Memory Map (Sheet 1 of 29) ADDR NAME RANGE STEP UNITS FORMAT DEFAULT PRODUCT ID 0000 GE Multilin Product Device Code N/A N/A N/A F1 32 0001 Product Hardware R evision 1 to [...]

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    Modbus Memory Map 489 Communications Guide http://www .GEindus trial.com /multilin 12 GE Multilin 023D Reactiv e Power Mvar Pretrip –2000000 to 2000000 1 Mvar F13 0 023F Apparent Power MV A Pretrip 0 to 2000000 1 MVA F13 0 0241 Last T rip Data Stator RTD 1 to 12 1 – F1 1 0242 Hottest Stator RTD T emperature –50 to 250 1 °C F4 0 0243 Last T r[...]

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    Modbus Memory Map 489 Communications Guide http://www .GEind ustrial.com/multilin 13 GE Multilin 029E RTD #3 Pickup 0 to 4 1 – F123 0 029F RTD #4 Pickup 0 to 4 1 – F123 0 02A0 RTD #5 Pickup 0 to 4 1 – F123 0 02A1 RTD #6 Pickup 0 to 4 1 – F123 0 02A2 RTD #7 Pickup 0 to 4 1 – F123 0 02A3 RTD #8 Pickup 0 to 4 1 – F123 0 02A4 RTD #9 Pickup [...]

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    Modbus Memory Map 489 Communications Guide http://www .GEindus trial.com /multilin 14 GE Multilin 0320 RTD #12 Pickup 0 to 4 1 – F123 0 0321 Open Sensor Pickup 0 to 4 1 – F1 23 0 0322 Short/Low T emperature Pickup 0 to 4 1 – F123 0 0323 Thermal Model Pickup 0 to 4 1 – F123 0 0324 T rip C ounter Pickup 0 to 4 1 – F123 0 0325 Breaker F ailu[...]

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    Modbus Memory Map 489 Communications Guide http://www .GEind ustrial.com/multilin 15 GE Multilin 0421 Phase B Current Angle 0 to 359 1 ° F1 0 0422 Phase C Current Angle 0 to 359 1 ° F1 0 0423 Phase A Neutral-Side Angl e 0 to 359 1 ° F1 0 0424 Phase B Neutral-Side Angle 0 to 359 1 ° F1 0 0425 Phase C Neutral-Side Angle 0 to 359 1 ° F1 0 0426 Ph[...]

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    Modbus Memory Map 489 Communications Guide http://www .GEindus trial.com /multilin 16 GE Multilin 04AC RTD #11 T emperature –52 to 251 1 °C F4 –52 04AD RTD #12 T emperature –52 to 251 1 °C F4 –52 04C0 Hottest Stator RTD T emperature –52 to 250 1 °F F4 –52 04C1 RTD #1 T emperature –52 to 251 1 °F F4 –52 04C2 RTD #2 T emperature ?[...]

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    Modbus Memory Map 489 Communications Guide http://www .GEind ustrial.com/multilin 17 GE Multilin 0643 RTD #4 Maximum T emperature (F ahrenheit) –52 to 251 1 °F F4 –52 0644 RTD #5 Maximum T emperature (F ahrenheit) –52 to 251 1 °F F4 –52 0645 RTD #6 Maximum T emperature (F ahrenheit) –52 to 251 1 °F F4 –52 0646 RTD #7 Maximum T empera[...]

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    Modbus Memory Map 489 Communications Guide http://www .GEindus trial.com /multilin 18 GE Multilin 07A1 Number Of Thermal Resets 0 to 50000 1 – F1 0 MAINTENANCE / TRIP COUNTERS 07A2 Loss Of Excitation 1 T rips 0 to 50000 1 – F1 0 07A3 Loss Of Excitation 2 T rips 0 to 50000 1 – F1 0 07A4 Ground Directional T rips 0 to 50000 1 – F1 0 07A5 High[...]

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    Modbus Memory Map 489 Communications Guide http://www .GEind ustrial.com/multilin 19 GE Multilin 1138 Clear Breaker Information 0 to 1 1 – F103 0 SYSTEM SETUP / CURRENT SEN SING 1180 Phase CT Primary 10 to 50001 1 Amps F1 50001 1181 Ground CT 0 to 3 1 – F104 0 1182 Ground CT Ratio 10 to 10000 1 : 1 / :5 F1 100 SYSTEM SETUP / VOLTAGE S ENSING 11[...]

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    Modbus Memory Map 489 Communications Guide http://www .GEindus trial.com /multilin 20 GE Multilin 1242 Assign T rip Relays (1-4) 0 to 3 1 – F5 0 1 1243 General Input B T rip Delay 1 to 50000 1 s F2 50 DIGITAL IN PUTS / GENERAL IN PUT C 1250 Assign Digital Input 0 to 7 1 – F2 10 0 1251 Asserted Digital Input State 0 to 1 1 – F131 0 1252 Input [...]

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    Modbus Memory Map 489 Communications Guide http://www .GEind ustrial.com/multilin 21 GE Multilin 12B2 Input Name 0 to 12 1 – F22 _ 12B8 Block Input From Online 0 to 5000 1 s F1 0 12B9 Gener al Input F Control 0 to 1 1 – F105 0 12BA Pulsed C ontrol Relay Dwell Time 0 to 250 1 s F2 0 12BB Assign Control Relays (1-5) 0 to 4 1 – F50 0 12BC Genera[...]

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    Modbus Memory Map 489 Communications Guide http://www .GEindus trial.com /multilin 22 GE Multilin 13A2 T achometer Alarm 0 to 2 1 – F115 0 13A3 Assign Alarm Relays (2-5) 1 to 4 1 – F50 16 13A4 T achometer Alarm Speed 101 to 175 1 %Rated F1 110 13A5 T achometer Alarm Delay 1 to 250 1 s F1 1 13A6 T achometer Alarm Events 0 to 1 1 – F1 05 0 13A7[...]

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    Modbus Memory Map 489 Communications Guide http://www .GEind ustrial.com/multilin 23 GE Multilin 160E FlexCurve™ T rip Time at 1.80 × PU 0 to 65535 1 ms F1 65535 160F FlexCurve™ T rip Time at 1.90 × PU 0 to 65535 1 ms F1 65535 1610 FlexCurve™ T rip Time at 2.00 × PU 0 to 65535 1 ms F1 65535 1611 FlexCurve™ T rip Time at 2.10 × PU 0 to 6[...]

  • Página 28

    Modbus Memory Map 489 Communications Guide http://www .GEindus trial.com /multilin 24 GE Multilin 1643 FlexCurve™ T rip Time at 11.5 × PU 0 to 65535 1 ms F1 65535 1644 FlexCurve™ T rip Time at 12.0 × PU 0 to 65535 1 ms F1 65535 1645 FlexCurve™ T rip Time at 12.5 × PU 0 to 65535 1 ms F1 65535 1646 FlexCurve™ T rip Time at 13.0 × PU 0 to [...]

  • Página 29

    Modbus Memory Map 489 Communications Guide http://www .GEind ustrial.com/multilin 25 GE Multilin 1733 FlexCurve™ T rip Time at 1.90 × PU 0 to 65535 1 ms F1 65535 1734 FlexCurve™ T rip Time at 2.00 × PU 0 to 65535 1 ms F1 65535 1735 FlexCurve™ T rip Time at 2.10 × PU 0 to 65535 1 ms F1 65535 1736 FlexCurve™ T rip Time at 2.20 × PU 0 to 6[...]

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    Modbus Memory Map 489 Communications Guide http://www .GEindus trial.com /multilin 26 GE Multilin 1768 FlexCurve™ T rip Time at 12.0 × PU 0 to 65535 1 ms F1 65535 1769 FlexCurve™ T rip Time at 12.5 × PU 0 to 65535 1 ms F1 65535 176A FlexCurve™ T rip Time at 13.0 × PU 0 to 65535 1 ms F1 65535 176B FlexCurve™ T r ip Time at 13.5 × PU 0 to[...]

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    Modbus Memory Map 489 Communications Guide http://www .GEind ustrial.com/multilin 27 GE Multilin 2009 Undervoltage Curve R eset Rate 0 to 9999 1 s F2 14 200A Undervoltage Curve Element 0 to 1 1 – F2 08 0 VOLTAGE ELEM ENTS / OVERVOLTAGE 2020 Overvoltage Alarm 0 to 2 1 – F115 0 2021 Assign Alarm Relays (2-5) 1 to 4 1 – F50 16 2022 Overvoltage A[...]

  • Página 32

    Modbus Memory Map 489 Communications Guide http://www .GEindus trial.com /multilin 28 GE Multilin 20A9 Overfrequency T r ip Level 1 2501 to 7000 1 Hz F3 6050 20AA Overfrequency T rip Delay 1 1 to 50000 1 s F2 600 20AB Overfrequency T rip Level 2 2501 to 7000 1 Hz F3 6200 20AC Overfrequency T rip Delay 2 1 to 50000 1 s F2 300 VOLTAGE ELEM ENTS / NEU[...]

  • Página 33

    Modbus Memory Map 489 Communications Guide http://www .GEind ustrial.com/multilin 29 GE Multilin 213A Zone 2 Angle 50 to 85 1 ° F1 75 213B Zone 2 T rip Delay 0 to 1500 1 s F2 20 POWER ELEMENTS / REACTIVE POW ER 2200 Block Mvar Element From Online 0 to 5000 1 s F1 1 2201 Reactiv e Power Alarm 0 to 2 1 – F115 0 2202 Assign Alarm Relays (2-5) 1 to [...]

  • Página 34

    Modbus Memory Map 489 Communications Guide http://www .GEindus trial.com /multilin 30 GE Multilin 2428 RTD #1 T rip T emperature 1 to 250 1 °C F1 155 2429 RTD #1 Name 0 to 8 1 – F22 _ RTD TEMPERATU RE / RTD #2 2460 RTD #2 Applicati on 0 to 4 1 – F121 1 2461 RTD #2 Alarm 0 to 2 1 – F115 0 2462 Assign Alarm Relays (2-5) 1 to 4 1 – F50 16 246[...]

  • Página 35

    Modbus Memory Map 489 Communications Guide http://www .GEind ustrial.com/multilin 31 GE Multilin 2566 RTD #6 T rip V oting 1 to 12 1 – F1 22 6 2567 Assign T rip Relays (1-4) 0 to 3 1 – F50 1 2568 RTD #6 T rip T emperature 1 to 250 1 °C F1 155 2569 RTD #6 Name 0 to 8 1 – F22 _ RTD TEMPERATU RE / RTD #7 25A0 RTD #7 Application 0 to 4 1 – F12[...]

  • Página 36

    Modbus Memory Map 489 Communications Guide http://www .GEindus trial.com /multilin 32 GE Multilin 26A4 RTD #11 Alarm Events 0 to 1 1 – F105 0 26A5 RTD #11 T rip 0 to 2 1 – F115 0 26A6 RTD #11 T rip V oting 1 to 12 1 – F122 11 26A7 Assign T r ip Rela ys (1-4) 0 to 3 1 – F50 1 26A8 RTD #11 T rip T e mperature 1 to 250 1 °C F1 90 26A9 RTD #11[...]

  • Página 37

    Modbus Memory Map 489 Communications Guide http://www .GEind ustrial.com/multilin 33 GE Multilin 282A Time to T rip at 3.75 × FLA 5 to 999999 1 s F10 5 282C Time to T rip at 4.00 × FLA 5 to 999999 1 s F10 5 282E Time to T rip at 4.25 × FLA 5 to 999999 1 s F10 5 2830 Time to T rip at 4.50 × FLA 5 to 999999 1 s F10 5 2832 Time to T rip at 4.75 ×[...]

  • Página 38

    Modbus Memory Map 489 Communications Guide http://www .GEindus trial.com /multilin 34 GE Multilin 2A65 Current Demand Alarm Events 0 to 1 1 A F105 0 MONITORING / MW DEMAN D 2A70 MW Demand Period 5 to 90 1 min F1 15 2A71 MW Demand Alarm 0 to 2 1 – F 115 0 2A72 Assign Alarm Relays (2-5) 1 to 4 1 – F50 16 2A73 MW Demand Limit 1 0 to 200 1 × Rated[...]

  • Página 39

    Modbus Memory Map 489 Communications Guide http://www .GEind ustrial.com/multilin 35 GE Multilin 2B0F Averaged Gener ator Load Maximum 0 to 2000 1 × FLA F3 125 2B10 Hottest Stator RTD Minimum – 50 to 250 1 °C F4 0 2B11 Hottest Stator RTD Maximum –50 to 250 1 °C F4 200 2B12 Hottest Bearing RTD Minimum –50 to 250 1 °C F4 0 2B13 Hottest Bear[...]

  • Página 40

    Modbus Memory Map 489 Communications Guide http://www .GEindus trial.com /multilin 36 GE Multilin 2B48 Analog Input 2 Minimum –50000 to 50000 1 Units F12 0 2B4A Analog Input 2 M aximum –500 00 to 50000 1 Units F1 2 50000 2B4C Analog Input 3 Minimum –50000 to 50000 1 Units F12 0 2B4E Analog Input 3 Maximum –50000 to 50000 1 Units F12 50000 2[...]

  • Página 41

    Modbus Memory Map 489 Communications Guide http://www .GEind ustrial.com/multilin 37 GE Multilin 2C58 Analog Input 2 T r ip Pickup 0 to 1 1 – F130 0 2C59 Analog Input 2 T r ip Delay 1 to 3000 1 s F2 1 2C5A Analog Input 2 Name 0 to 12 1 – F22 _ ANALOG INPUT/OUT PUT / ANALOG INP UT 3 2C80 Analog Input 3 0 to 3 1 – F1 29 0 2C85 Analog Input 3 Un[...]

  • Página 42

    Modbus Memory Map 489 Communications Guide http://www .GEindus trial.com /multilin 38 GE Multilin 2D2A Pre-Fault S ystem Frequency 50 to 900 1 Hz F2 600 2D2B Pre-Fault An alog Input 1 0 to 100 1 % F1 0 2D2C Pre-F ault Analog Input 2 0 to 100 1 % F1 0 2D2D Pre-F ault Analog Input 3 0 to 100 1 % F1 0 2D2E Pre-F ault Analog Input 4 0 to 100 1 % F1 0 2[...]

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    Modbus Memory Map 489 Communications Guide http://www .GEind ustrial.com/multilin 39 GE Multilin 3017 Ground Current 0 to 20000000 1 A F14 0 3019 A-B V oltage 0 to 50000 1 Volts F1 0 301A B-C Voltage 0 to 50000 1 Volts F1 0 301B C- A Voltage 0 to 50000 1 Volts F1 0 301C Frequency 0 to 12000 1 Hz F3 0 301D Active Group 0 to 1 1 – F1 0 301F Real Po[...]

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    Modbus Memory Map 489 Communications Guide http://www .GEindus trial.com /multilin 40 GE Multilin Memory Map Data Formats The data formats used in the Mo dbus memory map are shown below . Table 2: Data Formats (Sheet 1 of 12) CODE TYPE DEFINITION F1 16 bits UNSIGNED VALUE Example: 1234 stored as 1234 F2 16 bits U NSIGNED VALUE, 1 DECIMAL PLACE Exam[...]

  • Página 45

    Modbus Memory Map 489 Communications Guide http://www .GEind ustrial.com/multilin 41 GE Multilin F100 Unsigned 16 bit integer TEMPEATURE D ISPLAY UNITS 0C e l s i u s 1 F ahrenheit FC101 Unsigned 16 bit integer RS 485 BAUD RATE 0 300 baud 1 1200 baud 2 2400 baud 3 4800 baud 4 9600 baud 5 19200 baud F102 Unsigned 16 bit integer RS 485 PARITY 0N o n [...]

  • Página 46

    Modbus Memory Map 489 Communications Guide http://www .GEindus trial.com /multilin 42 GE Multilin F127 Unsigned 16 bit integer ANALOG OUTPUT PARAMETER SELECTION 0N o n e 1 IA Output Current 2 IB Output Current 3 IC Ou tput Current 4 Avera ge Output Current 5 Neg ative Sequence Current 6A v e r a g e G e n e r a t o r L o a d 7 Hottest Stator RTD 8 [...]

  • Página 47

    Modbus Memory Map 489 Communications Guide http://www .GEind ustrial.com/multilin 43 GE Multilin F134 ctd. 16 Not Used 17 Not Used 18 Not Used 19 Not Used 20 Differential T rip 21 Acceleration T rip 22 RTD 1 T rip 23 RTD 2 T rip 24 RTD 3 T rip 25 RTD 4 T rip 26 RTD 5 T rip 27 RTD 6 T rip 28 RTD 7 T rip 29 RTD 8 T rip 30 RTD 9 T rip 31 RTD 10 T rip [...]

  • Página 48

    Modbus Memory Map 489 Communications Guide http://www .GEindus trial.com /multilin 44 GE Multilin F134 ctd. 122 Input C Control 123 Input D Control 124 Input E Control 125 Input F Control 126 Input G Control 127 Neutr al Overvoltag e Alarm 128 Neutral Undervoltage (3rd Harmonic) Alarm 129 Setpoint Group 1 Active 130 Setpoint Group 2 Active 131 Loss[...]

  • Página 49

    Modbus Memory Map 489 Communications Guide http://www .GEind ustrial.com/multilin 45 GE Multilin F208 Unsigned 16 bit integer UNDERVOLTAGE TRIP ELEMENT T YPE 0C u r v e 1 Definite Time F209 Unsigned 16 bit integer BREAKER OPERATION TYPE 0 Breaker Auxiliary A 1 Breaker Auxiliary B F210 Unsigned 16 bit integer ASSIGNABLE IN PUT SELECTION 0N o n e 1 I[...]

  • Página 50

    DNP Protocol 489 Communications Guide http://www .GEindus trial.com /multilin 46 GE Multilin DNP Pr otocol Device Pr ofile Document The communications port configured as a DNP slav e port must support the full set of features listed in the Level 2 DNP V3.0 0 Implementation (DNP -L2) described in Chapter 2 of the subset definitions. See the DNP prot[...]

  • Página 51

    DNP Protocol 489 Communications Guide http://www .GEind ustrial.com/multilin 47 GE Multilin Implementation T able The table below gives a list of all objects recognized and returned by the relay . Additional information is provided on the following pages including a list of the default variations returned for each ob ject and lists of defined point[...]

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    DNP Protocol 489 Communications Guide http://www .GEindus trial.com /multilin 48 GE Multilin Default V ariations The following table specifies the defau lt va ri ation for all objects return ed by the relay . These are the v ariations that will be ret urned for the object in a response when no specific v ariation is specified in a request. Table 3:[...]

  • Página 53

    DNP Point Lists 489 Communications Guide http://www .GEind ustrial.com/multilin 49 GE Multilin DNP Point Lists Binary Input / Binary Input Change (Objects 01/02) The poin t list fo r Binary Inpu ts (Obje ct 01) and Binary Input Change (O bject 02) is shown below: Table 5: Binary Inputs (Sheet 1 of 4) Idx Description Class 0 R elay In Service Class [...]

  • Página 54

    DNP Point Lists 489 Communications Guide http://www .GEindus trial.com /multilin 50 GE Multilin Any detected change in the state of any point assigned to Class 1 will cause the gener ation of an event object. 82 Analog Input 3 T rip Active or Latche d Class 1 83 Analog Input 4 T rip Active or Latche d Class 1 84 Loss of Exc itation Circle 1 T rip A[...]

  • Página 55

    DNP Point Lists 489 Communications Guide http://www .GEind ustrial.com/multilin 51 GE Multilin Binary / Control Relay Output Block (Objects 10/12) The following restrictions should be noted when using object 12 to control the points listed above: 1. The Count field is checked first. If it is zero, the c ommand will be accepted but no action will be[...]

  • Página 56

    DNP Point Lists 489 Communications Guide http://www .GEindus trial.com /multilin 52 GE Multilin Binary / Froze n Counter (Objects 20/21) The counters cannot be cleared with the Freeze /Clear functi on codes (9/10). Instead, the control relay output block points can be used to clear groups of counters. There is onl y one copy of each counter , so cl[...]

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    DNP Point Lists 489 Communications Guide http://www .GEind ustrial.com/multilin 53 GE Multilin Analog Input / Input Change (Objects 30/32) In the following tabl e, the Format column indicates that the a ssociated data point format is determined by the entry in Data Formats on page 40. For example, an “F1” format is described in that table as a [...]

  • Página 58

    DNP Point Lists 489 Communications Guide http://www .GEindus trial.com /multilin 54 GE Multilin 35 F1 La st T rip Ambient RT D Class 1 Note 3 36 F4 Last T rip Hottest Ambient RTD T emperature (°C) Class 1 Note 3 37 F12 Pre- T rip Analog Input 1 Class 1 Notes 3,9 38 F12 Pre- T rip Analog Input 2 Class 1 Notes 3,9 39 F12 Pre- T rip Analog Input 3 Cl[...]

  • Página 59

    DNP Point Lists 489 Communications Guide http://www .GEind ustrial.com/multilin 55 GE Multilin 74 F1 Third Harmonic Neutral V oltage (volts) Class 2 Note 10 75 F10 Third Harmonic Neutral V oltage (tenths of a volt) Class 2 Note 10 76 F1 Third Harmonic T erminal Voltage (volts) Class 2 Note 10 77 F10 Third Harmonic T erminal V oltage (t enths of a v[...]

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    DNP Point Lists 489 Communications Guide http://www .GEindus trial.com /multilin 56 GE Multilin TABLE NOTES: 1. Unless otherwise spec ified, an event obje ct will be gener ated for a p oint if the current value of the point changes by an amount greater than or equal to two percent of its previous v alue. 2. An event object is created for the Freq u[...]

  • Página 61

    489 Communications Guide http://www .GEind ustrial.com/multilin i GE Multilin Index A ANALOG INP UTS DNP point list ................................................................ 2-5 3 B BAUD RATE ...................................................................... 2- 1 BINARY COUNTER DNP POINTS .................................... 2-52 BINARY [...]

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    489 Communications Guide http://www .GEindus trial.com /multilin ii GE Multilin T TIMING .............................................................................. 2-3 TRACE MEMORY ............................................................. 2-10 U USER DEFINABLE MEMORY MAP ..................................... 2-9 W WAVEFORM CAPTURE .........[...]