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GE Multilin F650 Instruction Manual

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Table of Contents
g
GE Multilin
215 Anderson Avenue
L6E 1B3 Markham, ON -CANADA
T (905) 294 6222 F (905) 294 8512
E gemultilin@ge.com
Internet: www.GEMultilin.com
GE Consumer & Industrial
Multilin
F650
Digital Bay Controller
Instruction manual
GEK-106310N
Firmware version: 2.20
EnerVista F650 Setup version: 2.20
Copyright © 2005 GE Multilin
GE Multilin
Avda. Pinoa, 10
48170 Zamudio SPAIN
T +34 94 485 88 00 F +34 94 485 88 45
E gemultilin.euro@ge.com

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  • Page 1 Multilin F650 Digital Bay Controller Instruction manual GEK-106310N Firmware version: 2.20 EnerVista F650 Setup version: 2.20 Copyright © 2005 GE Multilin GE Multilin GE Multilin Avda. Pinoa, 10 215 Anderson Avenue 48170 Zamudio SPAIN L6E 1B3 Markham, ON -CANADA T +34 94 485 88 00 F +34 94 485 88 45 T (905) 294 6222 F (905) 294 8512 E gemultilin.euro@ge.com...
  • Page 2: Table Of Contents

    REAR DESCRIPTION..................3-5 3.3 WIRING 3.3.1 EXTERNAL CONNECTIONS................3-9 3.3.2 DIGITAL INPUTS WITH TRIP CIRCUIT SUPERVISION ........3-9 3.3.3 CABLE/FIBER ETHERNET BOARD..............3-9 3.4 OPTIC FEATURES 3.5 TRANSCEIVER OPTICAL POWER BUDGET VERSUS LINK LENGTH GE Multilin F650 Digital Bay Controller...
  • Page 3: Table Of Contents

    NEGATIVE SEQUENCE CURRENT ..............5-64 5.4.8 VOLTAGE ELEMENTS ..................5-65 5.4.9 POWER ......................5-70 5.5 CONTROL ELEMENTS 5.5.1 SETTING GROUP ....................5-77 5.5.2 UNDERFREQUENCY ELEMENT (81U)............5-78 5.5.3 OVERFREQUENCY ELEMENT (81O) .............5-78 5.5.4 SYNCHRONISM CHECK ELEMENT - SYNCHROCHECK (25) ......5-79 F650 Digital Bay Controller GE Multilin...
  • Page 4: Table Of Contents

    6.3.3 PHASOR DIAGRAM ..................6-27 6.3.4 FREQUENCY....................6-27 6.3.5 INPUTS / OUTPUTS ..................6-28 6.4 RECORDS 6.4.1 EVENT RECORDER..................6-34 6.4.2 WAVEFORM CAPTURE .................. 6-36 6.4.3 FAULT REPORT....................6-37 6.4.4 DATA LOGGER ....................6-39 GE Multilin F650 Digital Bay Controller...
  • Page 5: Table Of Contents

    10.7.2 PHASE CURRENTS..................10-7 10.7.3 ACTIVE, REACTIVE POWER, AND COSJ METERING ........10-8 10.7.4 FREQUENCY ....................10-8 10.8 INPUTS AND OUTPUTS 10.8.1 DIGITAL INPUTS....................10-9 10.8.2 CONTACT OUTPUTS ..................10-10 10.8.3 CIRCUIT CONTINUITY SUPERVISION INPUTS ..........10-10 10.8.4 LATCHING CIRCUITS..................10-10 F650 Digital Bay Controller GE Multilin...
  • Page 6: Table Of Contents

    11.3 EXAMPLE Nº 3 – PROCEDURE TO SET AN OPERATION 11.3.1 DESCRIPTION OF THE EXERCISE ............... 11-8 11.3.2 PROCEDURE ....................11-8 11.3.3 TEST ......................11-10 12. FREQUENTLY ASKED 12.1 COMMUNICATIONS QUESTIONS 12.2 PROTECTION 12.3 CONTROL AND HMI 12.4 RELAY CONFIGURATION 13. TROUBLESHOOTING GUIDE GE Multilin F650 Digital Bay Controller...
  • Page 7 CONFIGURING DNP USER MAP ..............C-11 C.5.2 EXAMPLE OF CUSTOM BINARY INPUT POINTS MAP ........ C-13 C.5.3 MULTIPLE DNP 3.0 MASTERS COMMUNICATION WITH F650....C-15 C.6 BINARY OUTPUT AND CONTROL RELAY OUTPUT C.7 BINARY COUNTERS C.8 ANALOG INPUTS F650 Digital Bay Controller GE Multilin...
  • Page 8 E. FACTORY DEFAULT LOGIC E.1 FACTORY DEFAULT SETTINGS E.1.1 FACTORY DEFAULT SETTINGS..............E-1 F. FACTORY DEFAULT F.1 FACTORY DEFAULT SETTINGS CONFIGURATION F.2 FACTORY DEFAULT CONFIGURATION G. MISCELLANEOUS G.1 F650 FIRMWARE REVISION HISTORY G.2 GE MULTILIN WARRANTY GE Multilin F650 Digital Bay Controller...
  • Page 9 TABLE OF CONTENTS F650 Digital Bay Controller GE Multilin...
  • Page 10: Cautions And Warnings

    Figure 1–2:: MODULE WITHDRAWAL/INSERTION shows the location of communication modules on the rear part of the relay. Skilled personnel must carry out the insertion or extraction of communication boards only after interrupting the relay auxiliary voltage and ensuring that all the rear terminals are potential free. GE Multilin F650 Digital Bay Controller...
  • Page 11 INSERTION: Insert the module and press it firmly in the case, until it is completely fixed. After this, bolt the faceplate screws and replace the control power. Check that the relay is fully operative. GE Multilin will not be responsible for any damage in the relay, connected equipment or personnel whenever this safety rules are not followed.
  • Page 12 C u rre n ts a n d V o lta g e In p u ts Figure 1–3: REAR VIEW OF F650 UNIT will not be responsible for any damage in the relay, connected equipment or personnel GE Multilin whenever this safety rules are not followed. GE Multilin...
  • Page 13: Inspection Checklist

    Mounting screws for rear terminals and for fixing the relay to a cabinet • CD containing EnerVista F650 Setup software • Wiring diagram • Certificate of Compliance For product information, instruction manual updates, and the latest software updates, please visit the GE Multilin Home Page www.geindustrial.com/multilin. F650 Digital Bay Controller GE Multilin...
  • Page 14 1 GETTING STARTED 1.1 IMPORTANT PROCEDURES Note: If there is any physical damage detected on the relay, or any of the contents listed are missing, please contact GE Multilin immediately at: EUROPE, MIDDLE EAST AND AFRICA: GE MULTILIN Av. Pinoa, 10 48170 Zamudio, Vizcaya (SPAIN) Tel.: (34) 94-485 88 54, Fax: (34) 94-485 88 38...
  • Page 15: Safety Instructions

    GE Multilin will not be responsible for any damage in the relay or connected equipment whenever this elemental safety rule is not followed.
  • Page 16: Introduction To 650 Family Of Relays

    650 unit via a fiber optic CAN Bus. PLC: Programmable Logic Controller. Control module that enables the unit configuration (assignment of inputs/outputs) and the implementation of logic circuits. Protection Elements: Relay protection elements, for example: Overcurrent, overvoltage, etc. GE Multilin F650 Digital Bay Controller...
  • Page 17: Software Architecture

    100BaseFX connectors, depending on the selected model. Most complete models include a double redundant 100BaseFX fiber optic port. Redundancy is provided at a physical media level; the unit incorporates internally duplicated and independent controllers for extended system reliability and accessibility. F650 Digital Bay Controller GE Multilin...
  • Page 18 CAN BUS I/Os. This fact provides increased communication speed, as well as the possibility of acknowledgement of modules, abnormalities, etc. As this is a serial port supporting a communications protocol, it provides extraordinary immunity against external or internal disturbances. Figure 1–7: COMMUNICATIONS ARCHITECTURE (B6816F1) GE Multilin F650 Digital Bay Controller...
  • Page 19: System Requirements

    1.3.2 INSTALLATION After ensuring the minimum requirements for using EnerVista F650 Setup are met (see previous section), use the following procedure to install the EnerVista F650 Setup from the GE EnerVista CD. Insert the GE EnerVista CD into your CD-ROM drive.
  • Page 20 EnerVista Launchpad will obtain the installation program from the Web or CD. Once the download is complete, double- click the installation program to install the EnerVista F650 Setup software. Select the complete path, including the new directory name, where the EnerVista F650 Setup will be installed. GE Multilin F650 Digital Bay Controller 1-11...
  • Page 21 11. When the Choose Destination Location window appears, and if the software is not to be located in the default directory, click Change… and type in the complete path name including the new directory name and click Next to continue with the installation procedure. Figure 1–12: ENERVISTA F650 SETUP INSTALLATION CONT. 1-12 F650 Digital Bay Controller GE Multilin...
  • Page 22 13. To finish with the installation process, select the desired language for startup. Figure 1–14: LANGUAGE WINDOW 14. Click Finish to end the installation. The F650 device will be added to the list of installed IEDs in the EnerVista Launchpad window, as shown below. GE Multilin F650 Digital Bay Controller 1-13...
  • Page 23: Connecting With The Unit

    Before starting, verify that the Ethernet network cable is properly connected to the Ethernet port on the back of the relay. Install and start the latest version of the EnerVista F650 Setup software (available from the GE EnerVista CD or online from http://www.GEindustrial.com/multilin...
  • Page 24 To communicate with the relay rear RS485 port from a computer RS232 port, an RS232/RS485 converter box is needed. We recommend using the F485 converter, manufactured by GE. This converter box is connected to the computer using a straight through serial cable. A shielded twisted pair (20, 22 or 24 AWG according to the American standards; 0.25, 0.34 or 0.5 mm...
  • Page 25: Communications

    Lightning strikes and ground surge currents can cause large momentary voltage differences between remote ends of the communication link. For this reason, surge protection devices are internally provided. To ensure maximum reliability, all equipment should have similar transient protection devices installed. 1-16 F650 Digital Bay Controller GE Multilin...
  • Page 26 1 GETTING STARTED 1.3 ENERVISTA F650 SETUP SOFTWARE Figure 1–17: RS485 CONNECTION FOR F650 UNITS GE Multilin F650 Digital Bay Controller 1-17...
  • Page 27 1.3 ENERVISTA F650 SETUP SOFTWARE 1 GETTING STARTED 1-18 F650 Digital Bay Controller GE Multilin...
  • Page 28: F650 Overview

    Oscillography registers, fault reports, data logger • Bay control (open/close commands, etc.) • Bay mimic. • Communications (RS232/RS485/fibre optic/Ethernet) • Fully programmable front buttons, 15 LED’s and input/output contacts Figure 2–1: FUNCTIONAL BLOCK DIAGRAM GE Multilin F650 Digital Bay Controller...
  • Page 29: Ansi Device Numbers And Functions

    Power Factor 32 Latched Virtual Inputs Three Phase Energy IEC 870-5-104 32 Self-Reset Virtual Inputs Virtual Outputs (up to 512) Frequency ModBus User Map Tripping and closing circuit supervision Sequence components of currents and voltages F650 Digital Bay Controller GE Multilin...
  • Page 30 Oscillography (up to 20 records) Settings Groups (up to 3) shuttle key Configurable One-Line Diagram (Graphic Snapshot Events (up to 479) Operations (up to 24) model only) Phasor Diagram (available in EnerVista Web Server Application F650 Setup) GE Multilin F650 Digital Bay Controller...
  • Page 31 (*) Note: Russian language available only for basic display models. For those applications requiring a high number of inputs and outputs, F650 units can be connected to a CIO module (Remote CAN Bus I/O module) for using up to 2 additional boards. F650 Digital Bay Controller GE Multilin...
  • Page 32 8 inputs + 4 circuit supervision circuits + 6 outputs + 2 outputs with tripping current supervision (latching) AUXILIARY VOLTAGE 24-48 Vdc (range 19.2 – 57.6) 110-250 Vdc (range 88 – 300) 120-230 Vac (range 96 – 250) GE Multilin F650 Digital Bay Controller...
  • Page 33: Protection Units

    0.05 to 160.00 A in steps of 0.01 A Reset level 98% of the pickup level ±0.5% of the reading ± 10 mA from 0.05 to 10 A Level Accuracy ±1.5% of the reading for higher values. F650 Digital Bay Controller GE Multilin...
  • Page 34 For connection to 1 or 5 A CTs. Pickup level 0.005 to 16.000 A in steps of 0.001 A Reset level 98% of the pickup level ±1.5% of the reading ± 1 mA from 0.005 to 16 A Level Accuracy GE Multilin F650 Digital Bay Controller...
  • Page 35 0.00 to 900.00 s. in steps of 0.01 s. Operate time 20 ms at 3 x Pickup at 50 Hz, typically Timing accuracy ±3% of operate time or 30 ms. (whichever is greater) Snapshot Events Selectable by setting F650 Digital Bay Controller GE Multilin...
  • Page 36 0.00 to 900.00 s in steps of 0.01 s Reset type Instantaneous or time delayed according to IEEE Timing accuracy Operate at > 1.03 times the pickup ±3.5% of operate time or 30 ms. (whichever is greater) GE Multilin F650 Digital Bay Controller...
  • Page 37 Polarizing Voltage threshold 0 to 300 Vac in steps of 1 V Polarizing Current threshold 0.005 A Characteristic angle -90º to +90º in steps of 1º Block Logic Permission or Block selectable by setting 2-10 F650 Digital Bay Controller GE Multilin...
  • Page 38 0.00 to 900.00 s. in steps of 0.01 s. Timing accuracy ±3.5% of operate time or 30 ms. (whichever is greater) Logic Any/Two/All phases logic selectable by setting Snapshot Events Selectable by setting GE Multilin F650 Digital Bay Controller 2-11...
  • Page 39 ±3.5% of operate time or 30 ms. (whichever is greater) Snapshot Events Selectable by setting s) AUXILIARY OVERVOLTAGE (59X) Voltage Input Fundamental Phasor Pickup level 3 to 300 in steps of 1 V Reset level 97% of the pickup level 2-12 F650 Digital Bay Controller GE Multilin...
  • Page 40 0.00 to 900.00 s. in steps of 0.01 s Minimum voltage threshold 30 to 300V in steps of 1 V Timing accuracy ±3.5% of operate time or 100 ms. (whichever is greater) Snapshot Events Selectable by setting GE Multilin F650 Digital Bay Controller 2-13...
  • Page 41 Firmware Version Current Inhibition Level 1.50 or Lower 10 mA 1.60 or Higher 50 mA 1.80 or Higher Selectable by setting from 0.000 to 1.000 in steps of 0.001 A 2-14 F650 Digital Bay Controller GE Multilin...
  • Page 42 0.01 to 600.00 s in steps of 0.01 s Angle accuracy 2º Dead Source function None (DL-DB) Dead Line - Dead Bus (LL-DB) Live Line-Dead Bus (DL-LB) Dead Line – Live Bus Snapshot Events Selectable by setting GE Multilin F650 Digital Bay Controller 2-15...
  • Page 43: Control

    0 to 9999 in steps of 1 Breaker Closings Counter 0 to 9999 in steps of 1 g) SWITCHGEAR Switchgear 1 to16 (configurable in “relay configuration” screen). Snapshot Events Selectable by setting (for each switchgear in “system setup”) 2-16 F650 Digital Bay Controller GE Multilin...
  • Page 44: Monitoring

    (fault location), line parameters, recloser and breaker status information. Data Storage: In non volatile memory (flash) without battery available through communications In volatile memory (ram) available through HMI (if selectable by setting) Format: Text in ASCII format GE Multilin F650 Digital Bay Controller 2-17...
  • Page 45 Selectable by setting f) DATA LOGGER Number of Channels: 1 to 16 Parameters Any available analog actual value Samples 1 sec., 1, 5, 10, 15, 20, 30, 60 min. Storage Capacity Fixed, 32768 measures 2-18 F650 Digital Bay Controller GE Multilin...
  • Page 46: User –Programable Elements

    Logotype, metering or both in scrolling mode, can be selectable as default screen in text display for all models (basic and mimic). The metering screen con- tains current and voltages for phases and ground in primary values. GE Multilin F650 Digital Bay Controller 2-19...
  • Page 47: Metering

    100 ms g) WAR-HOURS (POSITIVE AND NEGATIVE) ±1% of the reading Accuracy: ±0 to 2147 MVArh Range: Parameters: 3-phase only Update rate: 100 ms h) POWER FACTOR Accuracy: 0.02 Parameters: 3-Phase and single phase 2-20 F650 Digital Bay Controller GE Multilin...
  • Page 48: Inputs

    (inputs sharing the same common). In mixed and supervision boards there are two groups of inputs, called A and B. Input Type and Delay Input Time are not grouped; there is a different setting for each input. GE Multilin F650 Digital Bay Controller 2-21...
  • Page 49: Real Time Clock

    If the current in the tripping F36) for board type 2 (supervi- circuit is maintained over 100 mA, the function is sealed independently of the sta- sion) in slot F: tus of the function that caused the trip. 2-22 F650 Digital Bay Controller GE Multilin...
  • Page 50: Outputs

    Optic Features for ST connectors Wave length: 1300nm devices: Fiber type: multimode 62.5/125 μm or 50/125 μm Baud Rate: 300, 600, 1200, 2400, 4800, 9600, 19200, 38400, 57600 y 115200 bauds Default Baud Rate 19200 GE Multilin F650 Digital Bay Controller 2-23...
  • Page 51 Storage temperature: - 40°C to + 80°C Humidity (non condensing): Altitude Up to 2000 m Installation category 2.4.12 PACKAGING AND WEIGHT Net weight: 5 kg Packaged: 6 kg Package dimensions: 30x40x40 cm (DxWxH) 2-24 F650 Digital Bay Controller GE Multilin...
  • Page 52 The relay complies with ANSI C37.90 standards, and has been designed to comply with international standards. 2.4.14 APPROVALS ISO9001 Registered system. CE marking: Meets the CE standards relevant for protections. GE Multilin F650 Digital Bay Controller 2-25...
  • Page 53 Option 2: Board with 8 digital inputs, 4 circuit supervision outputs, 6 conventional outputs, and two current sensing outputs Each model has a different wiring diagram, as follows: Figure 2–2: WIRING DIAGRAM FOR MODELS WITH OPTION 1 (189C4216H3) 2-26 F650 Digital Bay Controller GE Multilin...
  • Page 54 2 PRODUCT DESCRIPTION 2.5 EXTERNAL CONNECTIONS The option 2 wiring diagram is shown below: Figure 2–3: WIRING DIAGRAM FOR MODELS WITH OPTION 2 (189C4216H2) GE Multilin F650 Digital Bay Controller 2-27...
  • Page 55 2.5 EXTERNAL CONNECTIONS 2 PRODUCT DESCRIPTION 2-28 F650 Digital Bay Controller GE Multilin...
  • Page 56 CAN bus. • Transformers module with 5 current transformers and 4 voltage transformers • CPU including a powerful DSP for measure processing as well as synchronous and asynchronous communication accessories. GE Multilin F650 Digital Bay Controller...
  • Page 57 Skilled personnel must carry out the insertion or extraction of communication boards, only after interrupting the relay auxiliary voltage, and making sure that all rear terminals are potential free. Figure 3–2: COMMUNICATIONS MODULE F650 Digital Bay Controller GE Multilin...
  • Page 58 The drilling dimensions are shown on Figure 3–4:: DRILLING DIMENSIONS DIAGRAM. Figure 3–3: PANEL MOUNTING The relay width allows the mounting of two units on a standard 19’’ panel, 6 units high. GE Multilin F650 Digital Bay Controller...
  • Page 59 3.2 MECHANICAL DESCRIPTION 3 HARDWARE Figure 3–4: DRILLING DIMENSIONS DIAGRAM F650 Digital Bay Controller GE Multilin...
  • Page 60: Rear Description

    15 A at 300 V. These terminal blocks admit a cable section of up to 2.54 mm (AWG 12). The communication boards have a different type of connector depending on the selected media: RS485, glass or plastic fiber optic. GE Multilin F650 Digital Bay Controller...
  • Page 61 3.2 MECHANICAL DESCRIPTION 3 HARDWARE COM 1 (RS 485) A(-) B(+) COM 2 (RS485) A(-) B(+) Eth1 10/100 100FX Eth2 100FX Figure 3–6: CONNECTORS LOCATION F650 Digital Bay Controller GE Multilin...
  • Page 62 CAN, and the lower port for the ETHERNET board in any of its configurations. Skilled personnel must carry out the insertion or extraction of communication boards only after interrupting the relay auxiliary voltage. GE Multilin F650 Digital Bay Controller...
  • Page 63 It is very important, for safety reasons not to change or swift the terminals for CTs and VTs. A grounded antistatic wristband must be used when manipulating the module in order to avoid electrostatic discharges that may cause damage to the electronic components. F650 Digital Bay Controller GE Multilin...
  • Page 64 3 HARDWARE 3.2 MECHANICAL DESCRIPTION Figure 3–9: REAR TERMINALS LOCATION GE Multilin F650 Digital Bay Controller...
  • Page 65: External Connections

    In order to implement these schemes, it is not necessary to perform any setting in the unit. Internal functions are always operative. The detailed description of trip circuit supervision is included in chap- ter 5 in this manual. 3-10 F650 Digital Bay Controller GE Multilin...
  • Page 66: Cable/Fiber Ethernet Board

    The default port selected by switch is 10/100 TX in factory configuration. The switch selects between cable (10/100 TX) and the first fiber port (100 FX). In Ethernet board type D (double fiber port) the backup channel is always fiber. Figure 3–10: FIBER/CABLE SELECTION GE Multilin F650 Digital Bay Controller 3-11...
  • Page 67 At the end of one meter of noted optical fiber with cladding modes removed. The average power value can be converted to a peak power value by adding 3 dB. Higher output optical power transmitters are available on special request. 3-12 F650 Digital Bay Controller GE Multilin...
  • Page 68 At the Beginning of Life (BOL). Over the specified operating temperature and voltage ranges. All conditions for Note 3 apply except that the measurement is made at the center of the symbol with no window time- width. GE Multilin F650 Digital Bay Controller 3-13...
  • Page 69 Fiber optic OPB (dB) Cable length (km) 50/125 μm 62.5/125 μm 11.4 10.9 10.5 3-14 F650 Digital Bay Controller GE Multilin...
  • Page 70 4 HUMAN INTERFACES 4.1ENERVISTA 650 SETUP SOFTWARE INTERFACE 4.1.1 OVERVIEW This software package uses ModBus protocol, and it is designed to communicate with a single relay at a time. GE offers different communication software packages, such as GE-POWER, which can be used to communicate simultaneously with several relays.
  • Page 71 Figure 4–1: ENERVISTA 650 SETUP MAIN SCREEN F650 Digital Bay Controller GE Multilin...
  • Page 72: Starting Communication

    ModBus/TCP Setup (if ModBus /TCP is selected as control type): Communication parameters for ModBus TCP communication. Communication control: Device communication status (communicating or not communicating). Communication optimization: allows optimizing the communication time outs and failure establishing. GE Multilin F650 Digital Bay Controller...
  • Page 73 F650. The ON button will be available to press and the OFF button will be disabled (in grey color). In this stage the relay is not communicating to the computer and the communication parameters can be modified to establish the communication lately by pressing in the ON communication button. F650 Digital Bay Controller GE Multilin...
  • Page 74 F650. The ON button will be disabled (in grey color) and the OFF button will be available to press. In this stage the relay communicating to the computer and the communication parameters cannot be modified. In the example on Figure 4– 2: COMMUNICATION PARAMETERS MENU , communication has not been established yet. GE Multilin F650 Digital Bay Controller...
  • Page 75 Ethernet communication. Firmware is related to the relay internal program, designed by GE Multilin, which performs the protection and control functions, and which is run by the relay main microprocessor.
  • Page 76 “Communications>Upload/Download info files to relay“, stores/retrieves in the relay flash memory: settings, configuration and compiled logic equations (*.650) besides the PLC files (*.pep, *.aut, *.lib). This is only a physical storage (file backup). GE Multilin F650 Digital Bay Controller...
  • Page 77: File Management

    * . 6 5 0 f o r f u r t h e r lo g i c c h a n g e s . Figure 4–4: OFF-LINE MODE FILE MANAGEMENT F650 Digital Bay Controller GE Multilin...
  • Page 78 (“Run>Send Equations to Relay”). Texts of virtual outputs are outputs, etc. are not sent to the relay. The only texts not stored in the relay, only in the logic configuration files to be sent to relay are operations, events, and LEDs. edited. GE Multilin F650 Digital Bay Controller...
  • Page 79 *.pep in the relay, the associated *.aut and *.lib files are also stored. File storage inside the relay “Communication > Upload info files to relay” through Ethernet (RECOMMENDED) Retrieval of files stored in the relay “Communication > Download info files from relay” through Ethernet (RECOMMENDED) 4-10 F650 Digital Bay Controller GE Multilin...
  • Page 80 * . 6 5 0 f o r f u r t h e r lo g ic c h a n g e s . ( “ C o m m u n i c a t i o n > U p l o a d i n f o f i l e s t o r e l a y ” ) Figure 4–5: ON LINE MODE FILE MANAGEMENT GE Multilin F650 Digital Bay Controller...
  • Page 81 File storage inside the relay in a flash memory (RECOMMENDED): “Communication>Upload info files to relay” through Ethernet “Communication/Download info files from relay” through File Retrieval of relay hard disk stored files (RECOMMENDED): Ethernet 4-12 F650 Digital Bay Controller GE Multilin...
  • Page 82: Enervista 650 Setup Menus Structure

    Upgrade F650 Web to relay (*) Configuration Server Print Setup Upload info files to Clock (*) (**) relay Print Download info files Preview from relay (**) Print (**) Print to file (**) Exit GE Multilin F650 Digital Bay Controller 4-13...
  • Page 83: File Menu Overview

    *.650 printed to file in excel format. Exit Quit the application closing all the open windows. Options enabled only in On-line mode are marked as (*). Options enabled only in Off-line mode are marked as (**) 4-14 F650 Digital Bay Controller GE Multilin...
  • Page 84 ”Close” option, a new *.650 can be opened without closing the previous one. The ”Close file” option is used to clear all data in EnerVista 650 Setup program, enabling “Language”, ”Upload firmware” and “boot code” options. GE Multilin F650 Digital Bay Controller 4-15...
  • Page 85 Figure 4–8: FILE PROPERTIES MENU 4.1.6.4 PRINTING OPTIONS (PRINT SETUP/PRINT PREVIEW/PRINT/PRINT TO FILE) The printing options are active only in off-line mode, in “File edition”, and not in on-line mode, connected with the relay. 4-16 F650 Digital Bay Controller GE Multilin...
  • Page 86 4.1.6.8 PRINT TO FILE (*XLS) Possibility to export the configuration file to an Excel file using the “Print to file (*.xls)” option. GE Multilin F650 Digital Bay Controller 4-17...
  • Page 87: Settings Menu Overview

    Demand settings. The demand trigger and demand reset signals must be Demand configured in “Settings>Relay configuration” Options enabled only in On-line mode are marked as (*). Options enabled only in Off-line mode are marked as (**) 4-18 F650 Digital Bay Controller GE Multilin...
  • Page 88 Switchgear Configuration of snapshot events for each switchgear (enable or disable) Options enabled only in On-line mode are marked as (*). Options enabled only in Off-line mode are marked as (**) GE Multilin F650 Digital Bay Controller 4-19...
  • Page 89 Power Forward and directional power grouped protection functions. Options enabled only in On-line mode are marked as (*). Options enabled only in Off-line mode are marked as (**) 4-20 F650 Digital Bay Controller GE Multilin...
  • Page 90: Thermal Image

    Negative Sequence Negative sequence overvoltage (47) Auxiliary OV Auxiliary overvoltage (59X) Auxiliary UV Auxiliary undervoltage (27X) POWER Forward Power Forward power (32FP), in primary values. Directional Power Directional power (32), in primary values. GE Multilin F650 Digital Bay Controller 4-21...
  • Page 91 I1. In normal and balanced load situations, this ratio is zero, while in severe load fault conditions, an unbalance is produced and this ratio is increased. Locked Rotor Locked rotor detection function (48). Grouped element. 4-22 F650 Digital Bay Controller GE Multilin...
  • Page 92 G0 there is no board in second slot. Board H Board located in first slot of CIO Module (external inputs/outputs module) Board located in second slot of CIO Module (external inputs/outputs Board J module) GE Multilin F650 Digital Bay Controller 4-23...
  • Page 93: Remote Devices

    Machine Interface) transformer, etc. The menu includes a library for power elements, metering elements, text and drawings. See an example in Figure 4–11: 4-24 F650 Digital Bay Controller GE Multilin...
  • Page 94 4 HUMAN INTERFACES 4.1 ENERVISTA 650 SETUP SOFTWARE INTERFACE The following figures show an example of the default factory configuration for F650. Figure 4–10: RELAY CONFIGURATION Figure 4–11: HMI CONFIGURATION GE Multilin F650 Digital Bay Controller 4-25...
  • Page 95 (FDB). User programmable logic objects: Library file to be included as an object *.lib in a PLC project. Logic packages that can be stored into libraries and be distributed in different PLC projects. 4-26 F650 Digital Bay Controller GE Multilin...
  • Page 96: Actual Values Menu Overview

    4.1.8.1 FRONT PANEL The front panel menu shows only the LEDs submenu where all the front LEDs can be monitored. 4.1.8.2 STATUS The following menu includes all the available protection status in the device. GE Multilin F650 Digital Bay Controller 4-27...
  • Page 97 Status signals (activations and blocks) for the relay setting group change. By default the “setting group” setting is disabled and all the grouped elements can be enabled at the same time. Locked Rotor Status signals (pickups and operations) for locked rotor units. 4-28 F650 Digital Bay Controller GE Multilin...
  • Page 98 Energy Freeze, unfreeze and reset input signals for energy counters. Breaker Maintenance All signals related to breaker maintenance, such as number of openings, closings, (KI) t counters, alarm signal for (KI) t, etc. GE Multilin F650 Digital Bay Controller 4-29...
  • Page 99: Remote Inputs

    Data logger (*) Retrieval and visualization of data logger files. Only by Ethernet. Options enabled only in On-line mode are marked as (*). Options enabled only in Off-line mode are marked as (**) 4-30 F650 Digital Bay Controller GE Multilin...
  • Page 100: Operations Menu Overview

    Retrieval of settings and configuration files that had been previously from relay stored in the relay hard disk. Options enabled only in On-line mode are marked as (*). Options enabled only in Off-line mode are marked as (**) GE Multilin F650 Digital Bay Controller 4-31...
  • Page 101: Security Menu Overview

    Complete instructions manual and data about EnerVista 650 Setup release. Table 4–28: GENERAL OVERVIEW OF HELP MENU: HELP Instructions Manual Instructions manual in the language selected in “View>Languages” menu. About EnerVista 650 Release version and date of EnerVista 650 Setup program. Setup 4-32 F650 Digital Bay Controller GE Multilin...
  • Page 102: Display

    F 6 5 0 M Z D F 2 G 1 H I R 1 9 2 0 0 N 8 1 : M O D B U S : 2 5 4 Figure 4–14: TEXT MAIN SCREEN GE Multilin F650 Digital Bay Controller 4-33...
  • Page 103: Front Led Indicators

    Shuttle Key (it can be both rotated and pressed): Used for selecting menus, submenus, settings and for confirmation. Press or rotate the shuttle key to enter the text main menu from the text standby screen. Figure 4–15: KEYPAD AND SHUTTLE KEY DESCRIPTION 4-34 F650 Digital Bay Controller GE Multilin...
  • Page 104: Front Port And Cover Sealing System

    Cover sealing system Screen contrast regulator Electrically isolated RS232 port Local/remote Operations access Figure 4–16: DETAIL OF FRONT PORT AND COVER SEALING SYSTEM GE Multilin F650 Digital Bay Controller 4-35...
  • Page 105: Text Menus

    * L o g o t y p e > M e t e r in g > A ll > < − r e t u r n Figure 4–17: NAVIGATION IN MAIN TEXT MENU 4-36 F650 Digital Bay Controller GE Multilin...
  • Page 106 Move L-R to select the default language. Press ordering code) and English. shuttle key to confirm selection. Switch the relay off and on. < - return Return to previous level Press shuttle key to return to previous level. GE Multilin F650 Digital Bay Controller 4-37...
  • Page 107 Flex Curves System Info SNTP/IRIG_B Records Status > Fault Reports Control Events Oscillography Data logger Demand Energy Breaker Maintenan. Metering > Primary Values > Current Voltage Power Energy Demand Secondary Values > Current 4-38 F650 Digital Bay Controller GE Multilin...
  • Page 108: Remote Outputs

    Figure 4–18: ACTUAL VALUES SCREEN DATA In the Actual Values menus are different types of data, each type of data will display its particular status type (on and off, 0 or 1, ok or fail, analog values, etc.) GE Multilin F650 Digital Bay Controller 4-39...
  • Page 109 To select different snapshot events to be displayed, rotate the shuttle key to select the snapshot event and then press the shuttle key to enter the metering screen. Press esc to exit the metering screen and return to snapshot events menu. 4-40 F650 Digital Bay Controller GE Multilin...
  • Page 110 To exit from this screen press the ESC key and return to the snapshot events menu. 0 . 0 0 0 0 . 0 0 0 Figure 4–19: SNAPSHOT EVENTS NAVIGATION IN HMI GE Multilin F650 Digital Bay Controller 4-41...
  • Page 111 Fault reset, and they can be obtained from the relay using EnerVista 650 Setup software, at the “Actual>Records>Fault report” menu. If there is no fault report available through the display, the relay will show a “Fault report not available” message. 4-42 F650 Digital Bay Controller GE Multilin...
  • Page 112 PHASE Phase to phase faults phase A to phase B phase B to phase C phase C to phase A 3PHASE Three-phase faults (shown on the display as 3PH) Fault type not calculated GE Multilin F650 Digital Bay Controller 4-43...
  • Page 113 Phase IOC Low > Phase IOC Low 1 Phase IOC Low 2 Phase IOC Low 3 Phase Directional > Phase Directional 1 Phase Directional 2 Phase Directional 3 Thermal Model > Thermal Model 1 4-44 F650 Digital Bay Controller GE Multilin...
  • Page 114 Sens. Ground Dir. 2 Sens. Ground Dir. 3 Neg. Seq. Current > Neg. Seq. TOC > Neg. Seq. TOC 1 Neg. Seq. TOC 2 Neg. Seq. TOC 3 Voltage Elements > Phase UV > GE Multilin F650 Digital Bay Controller 4-45...
  • Page 115 Control Elements > Setting Group Underfrequency > Underfrequency 1 Underfrequency 2 Underfrequency 3 Overfrequency > Overfrequency 1 Overfrequency 2 Overfrequency 3 Synchrocheck Autoreclose Breaker Failure VT Fuse Failure Broken Conductor > Broken Conductor 1 4-46 F650 Digital Bay Controller GE Multilin...
  • Page 116 4.2 HUMAN MACHINE INTERFACE (HMI) MAIN SETTINGS MENU FIRST LEVEL SECOND LEVEL THIRD LEVEL Broken Conductor 2 Broken Conductor 3 Locked Rotor > Locked Rotor 1 Locked Rotor 2 Locked Rotor 3 Inputs/outputs > Remote Comms. GE Multilin F650 Digital Bay Controller 4-47...
  • Page 117 Intro. At this moment of time, the new settings will be t o s a v e s e t t i n g s active in the relay. Figure 4–21: CHANGE SETTINGS PROCEDURE IN HMI 4-48 F650 Digital Bay Controller GE Multilin...
  • Page 118 Once this sequence is completed, these values will remain stored in the relay, and the display will show again the date at the bottom of the text screen. Figure 4–22: CHANGE DATE AND TIME PROCEDURE IN HMI GE Multilin F650 Digital Bay Controller 4-49...
  • Page 119 C o m p l e t e d Once the commands has been performed or the time out has expired the “Command completed” message will appear in the display. Figure 4–23: COMMANDS IN HMI 4-50 F650 Digital Bay Controller GE Multilin...
  • Page 120 The valid range for F650 passwords is a number from 0000 to 9999. The default password is 0000, which provides access to the whole relay functionality. This is the default option for enabling relay use without using passwords. GE Multilin F650 Digital Bay Controller 4-51...
  • Page 121 Cod Settings: [35c0] Cod Commands: [35c0] <Push Intro> In order to obtain the decoded password from the encrypted codes provided by the relay, it is necessary to contact GE Multilin and provide these encrypted codes. 4-52 F650 Digital Bay Controller...
  • Page 122 V c a 0 . 0 0 0 I g 0 . 0 0 0 V 0 0 . 0 0 0 Figure 4–25: DEFAULT METERING SCREEN This option alternates in time the two previous options. GE Multilin F650 Digital Bay Controller 4-53...
  • Page 123 P l e a s e r e b o o t order to start working with the new language in the device. t h e r e l a y . Figure 4–26: LANGUAGE SELECTION IN HMI 4-54 F650 Digital Bay Controller GE Multilin...
  • Page 124: Graphic Display

    The following sections describe only the operation of screens that are specific for the graphic display models. GE Multilin F650 Digital Bay Controller...
  • Page 125 Phase A Power Factor Neg MWatthour Cnt I0 Primary VL Primary Phase B Power Factor I1 Primary Phase A Reactive Pwr Phase C Power Factor I2 Primary Phase A Apparent Pwr 3 Phase Power Factor 4-56 F650 Digital Bay Controller GE Multilin...
  • Page 126 The user accesses the next available graphic screen (Events – New) <PREV> This option returns to the general events graphic menu (All Events) <RELOAD> This option updates all events stored in the relay and returns to the general events screen. GE Multilin F650 Digital Bay Controller 4-57...
  • Page 127 ESC: Prev. If the user presses the ESC key from the event detail screen, the system will return to the all events screen. 4-58 F650 Digital Bay Controller GE Multilin...
  • Page 128 After the new events have been read, if the user selects again the Reload menu, the system will show a <No new events available.> message, indicating that there are no more new events available since the last reading. GE Multilin F650 Digital Bay Controller...
  • Page 129 This option provides access to the next available graphic screen (I/O boards) <PREV> The system returns to the previous New Events screen. <ACK> This option acknowledges the alarm on which the cursor is located. 4-60 F650 Digital Bay Controller GE Multilin...
  • Page 130 As in previous screens, to access the different options provided by the inputs/outputs graphic menu, the user must move the shuttle key left to right. The selected option will be displayed in upper case and between brackets. To access the selected option, the shuttle key must be pressed. GE Multilin F650 Digital Bay Controller 4-61...
  • Page 131 The first relay input will appear blinking and between brackets; the user can select a different input by rotating the shuttle key. When the shuttle key is pressed, the selected input will be activated. Navigation through this screen is indicated by the following legend: Esc: Exit Text. Intro: Chg Input. 4-62 F650 Digital Bay Controller GE Multilin...
  • Page 132 Note: Output emulation can be executed through the TEST OUTPUT tool on the graphic display, and also through communications using EnerVista 650 Setup software for all F650 models. L-R: Chg Card Rotating the shuttle key allows to change the selected I/O board in the main I/O screen. GE Multilin F650 Digital Bay Controller 4-63...
  • Page 133: Home

    (see section 4.2.5.11 in this manual). Figure 4–34: WEB SERVER MAIN SCREEN 4-64 F650 Digital Bay Controller GE Multilin...
  • Page 134: Snapshot Events

    Figure 4–35: SNAPSHOT EVENTS SCREEN 4.3.3 CONTROL EVENTS The control events screen provides access to all events that have been configured in the Control Events screen inside the Relay Configuration menu of EnerVista 650 Setup. GE Multilin F650 Digital Bay Controller 4-65...
  • Page 135: Control Events

    Unlike the case of Snapshot events, in this screen the highest index corresponds to the most recent event. The information provided is the control event index, the text that has been associated to such event when configured, its status, active (ON) or inactive (OFF), and its date and time. 4-66 F650 Digital Bay Controller GE Multilin...
  • Page 136: Alarms

    The alarms screen provides access to alarms configured in the relay. As in the case of snapshot events and control events, this screen allows only to view the alarms, but not to acknowledge them. Figure 4–37: ALARMS SCREEN GE Multilin F650 Digital Bay Controller 4-67...
  • Page 137: Oscillography

    Download button. The system will then open a window to allow saving the files in Comtrade format in the PC hard drive. Once the records have been saved, the system will ask if the user wants to open GE-OSC tool (Comtrade record viewer) to view the downloaded files.
  • Page 138: Fault Report

    To obtain a text file with all the fault report information, press the Download option and save the file in the computer. GE Multilin F650 Digital Bay Controller 4-69...
  • Page 139: Data Logger

    The data logger screen allows viewing the data logger first and last value retrieval date and allows downloading the data record files in Comtrade format, by pressing the Download option. Stored files can be viewed later using any Comtrade format viewer. Figure 4–41: DATA LOGGER SCREEN 4-70 F650 Digital Bay Controller GE Multilin...
  • Page 140 4 HUMAN INTERFACES 4.3 WEB SERVER 4.3.8 METERING This screen includes the 53 primary metering values provided by the relay display. Figure 4–42: METERING SCREEN GE Multilin F650 Digital Bay Controller 4-71...
  • Page 141 4.3 WEB SERVER 4 HUMAN INTERFACES 4-72 F650 Digital Bay Controller GE Multilin...
  • Page 142 Sensitive Ground Directional Negative Sequence Current Negative Sequence TOC Voltage Elements Phase UV Phase OV Neutral OV High Neutral OV Low Negative Sequence OV Auxiliary OV Auxiliary UV Power Forward Power Directional Power Control Elements GE Multilin F650 Digital Bay Controller...
  • Page 143 5 SETPOINTS setpoint Group Underfrequency Overfrequency Synchrocheck Autoreclose Breaker Failure VT Fuse Failure Broken Conductor Input/Outputs Contact I/O Board F Board G Board H Board J Virtual Inputs Latched Virtual Inputs Self-Reset Virtual Inputs F650 Digital Bay Controller GE Multilin...
  • Page 144 Table 5–4: MODBUS PROTOCOL SETPOINTS PRODUCT SETUP>COMMUNICATION SETPOINTS >MODBUS PROTOCO Name Default Value Step Range ModBus Address COM1 254 [1 : 255] ModBus Address COM2 254 [1 : 255] ModBus Port Number [0 : 65535] GE Multilin F650 Digital Bay Controller...
  • Page 145 Binary Input Block 1 CTL EVENTS 1-16 Binary Input Block 2 CTL EVENTS 17-32 Binary Input Block 3 CTL EVENTS 33-48 Binary Input Block 4 CTL EVENTS 49-64 Binary Input Block 5 CTL EVENTS 65-80 F650 Digital Bay Controller GE Multilin...
  • Page 146: Modbus User Map

    Information referred to the last ten faults is stored as fault report and available to the user through EnerVista 650 Setup software or the web server application. Each fault report includes the following information: • Fault date and time • Pre-fault current and voltage in primary values GE Multilin F650 Digital Bay Controller...
  • Page 147 States associated to the fault report (“Actual >Metering>Records Status>Fault Reports”), are shown on Table 5–9: Table 5–9: FAULT REPORT STATES FAULT REPORT STATES FAULT REPORT TRIGG CLEAR FAULT REPORTS FAULT DATE FAULT TYPE FAULT LOCATION FAULT REPORT NUMBER F650 Digital Bay Controller GE Multilin...
  • Page 148 Setpoint > Relay Configuration > Oscillography in fault conditions (OSCILLO TRIGGER signal activation). All oscillography records store all analog signals (fixed) plus 16 digital signals (programmable). The order of storage in the case of analog signals is as follows: Analog 1IA channel. GE Multilin F650 Digital Bay Controller...
  • Page 149 The oscillography module will be reset once the Mbyte has been completely stored in Flash memory and the TRIGGER OSCILLO state is deactivated. F650 Digital Bay Controller GE Multilin...
  • Page 150 CYCLES PER RECORD: This state contains the number of cycles that will be stored in each oscillography record. Although the number of cycles can be a decimal digit, the record will represent only the integer part. GE Multilin F650 Digital Bay Controller...
  • Page 151 Clicking on the “Download” button, the three files (*.DAT, *.HDR, *.CFG) that form the oscillography record in COMTRADE standard will be retrieved, and they will be viewed automatically if the GE-OSC software is installed in the computer. Retrieved oscillographies can be viewed using any Comtrade format viewer. EnerVista 650 Setup software stores by default oscillography records in folder “.\EnerVista 650 Setup\files\osc”, in the same directory where the program is...
  • Page 152 “..\EnerVista 650 Setup\files\osc”, using “DLGxxx.DAT”, “DLGxxx.CFG” names, where xxx is the corresponding record number. Data logger files can be retrieved only by Ethernet. File Format Data logger information is made of two text files: configuration file (datalogger.cfg), and data file (datalogger.dat). GE Multilin F650 Digital Bay Controller 5-11...
  • Page 153 THERMAL EXPONENTIAL] Demand interval Demand Interval 5 Minutes [5 – 10 – 15 – 20– 30–60] Trigger Enabled Trigger Enabled DISABLED [DISABLED – ENABLED] Snapshot Event generation Snapshot Events ENABLED [DISABLED – ENABLED] 5-12 F650 Digital Bay Controller GE Multilin...
  • Page 154: Demand

    If the input signal decreases, time t restarts at 0 and the equation to be applied (cooling) will be: d t ( ) ) 1 e – – – – GE Multilin F650 Digital Bay Controller 5-13...
  • Page 155 This method calculates a linear average of the magnitude. Figure 5–1: shows the behavior of the demand, depending on the Selected setpoint for demand calculation. 5-14 F650 Digital Bay Controller GE Multilin...
  • Page 156 T iem p o (m in u to s ) R es p u es ta " C arac terís tic a R o llin g " Figure 5–1: RESPONSE TO THE DIFFERENT DEMAND METHODS GE Multilin F650 Digital Bay Controller 5-15...
  • Page 157 DEMAND IX MAX Demand maximeter; it stores the Maximum demand value until a demand reset is produced. DEMAND IX DATE Date of the Maximum demand value Being X the current considered in each case. 5-16 F650 Digital Bay Controller GE Multilin...
  • Page 158 DEMAND RESET INPBit type state, programmable at “setpoints>Relay Configuration>Protection Elements” in EnerVista 650 Setup software. When this bit is activated, the demand measures are reset. All stored values are reset to zero (for demand dates, this value represents January 1 , 2000). GE Multilin F650 Digital Bay Controller 5-17...
  • Page 159 If VX is selected in the Auxiliary Voltage setpoint, the measured voltage would be the busbar voltage used for the synchronism element, in this case the zero sequence voltage used by the neutral, ground and sensitive ground directional elements. 59N will be calculated from the phase voltages. 5-18 F650 Digital Bay Controller GE Multilin...
  • Page 160: Flex Curves

    FlexCurve, the information must be saved in the FlexCurve general menu, by clicking on the “Store” option. This way the selected user curve is definitely stored, so that it can be used by any of the time overcurrent elements available in the relay. GE Multilin F650 Digital Bay Controller 5-19...
  • Page 161 Breaker Maintenance: These setpoints correspond to the initialization of (KI) t counters, and the counting of number of openings and closings of the switchgear configured as breaker. 5-20 F650 Digital Bay Controller GE Multilin...
  • Page 162: Breaker

    Once the breaker has been operated, and the preventive maintenance is in place, accumulated I2t values and the number of operations are reset to zero. GE Multilin F650 Digital Bay Controller 5-21...
  • Page 163 BREAKER CLOSED Breaker closed BREAKER UNDEFINED Breaker undefined 5-22 F650 Digital Bay Controller GE Multilin...
  • Page 164: Switchgear

    Snapshot Events SWGR 14 DISABLED [DISABLED – ENABLED] Snapshot Event generation for switchgear #15 Snapshot Events SWGR 15 DISABLED [DISABLED – ENABLED] Snapshot Event generation for switchgear #16 Snapshot Events SWGR 16 DISABLED [DISABLED – ENABLED] GE Multilin F650 Digital Bay Controller 5-23...
  • Page 165 3 x SENSITIVE GROUND DIR (67SG) VOLTAGE UNITS Phase under/overvoltage 3 x PHASE UV (27P) 3 x PHASE OV (59P) Zero sequence overvoltage 3 x NEUTRAL OV HIGH (59NH) 3 x NEUTRAL OV LOW (59NL) 5-24 F650 Digital Bay Controller GE Multilin...
  • Page 166 The rest of control elements such as recloser, fuse failure, breaker failure, synchronism, and breaker setpoints are not involved in the tabled groups concept. The distribution of protection units in tabled groups is described in Table 5–26: GE Multilin F650 Digital Bay Controller 5-25...
  • Page 167 Active group: Possible values are 1, 2 or 3. The setpoint group selected by default is setpoint Group 1. This setpoint indicates which setpoint group is active (for this purpose, the previous setpoint must be set as ENABLED) 5-26 F650 Digital Bay Controller GE Multilin...
  • Page 168 GROUP 2 BLOCKED GROUP 3 BLOCKED All signals corresponding to setpoint Groups, both the activation and the block signals, are located in the Actual > Status > Control Elements > setpoint Groups menu. GE Multilin F650 Digital Bay Controller 5-27...
  • Page 169: Inverse Time Curves Characteristics

    = Operation time in seconds Dial = multiplier setpoint I = Input current Itap = Current pickup value A, B, p = constants defined by the standard = reset time in seconds RESET = characteristic constant. 5-28 F650 Digital Bay Controller GE Multilin...
  • Page 170 5.041 4.827 38.634 22.819 14.593 11.675 10.130 9.153 8.470 7.960 7.562 7.241 51.512 30.426 19.458 15.567 13.507 12.204 11.294 10.614 10.083 9.654 10.0 64.390 38.032 24.322 19.458 16.883 15.255 14.117 13.267 12.604 12.068 GE Multilin F650 Digital Bay Controller 5-29...
  • Page 171 IEC Curve B IEC Curve B 13.500 IEC Curve C IEC Curve C 80.000 2.000 58.2 IEC Long-Time Inverse IEC Long-Time Inv 120.000 1.000 120.0 IEC Short-Time Inverse IEC Short-Time Inv 0.050 0.040 5-30 F650 Digital Bay Controller GE Multilin...
  • Page 172 0.60 1.835 1.067 0.668 0.526 0.451 0.404 0.371 0.346 0.327 0.311 0.80 2.446 1.423 0.890 0.702 0.602 0.538 0.494 0.461 0.435 0.415 1.00 3.058 1.778 1.113 0.877 0.752 0.673 0.618 0.576 0.544 0.518 GE Multilin F650 Digital Bay Controller 5-31...
  • Page 173 IAC Extremely Inverse IAC Ext Inv 0.0040 0.6379 0.6200 1.7872 0.2461 6.008 IAC Very Inverse IAC Very Inv 0.0900 0.7955 0.1000 -1.2885 7.9586 4.678 IAC Inverse IAC Mod Inv 0.2078 0.8630 0.8000 -0.4180 0.1947 0.990 5-32 F650 Digital Bay Controller GE Multilin...
  • Page 174 1.229 1.188 6.931 4.496 3.192 2.656 2.353 2.158 2.022 1.921 1.843 1.781 9.242 5.995 4.256 3.541 3.138 2.878 2.695 2.561 2.457 2.375 10.0 11.552 7.494 5.320 4.426 3.922 3.597 3.369 3.201 3.072 2.969 GE Multilin F650 Digital Bay Controller 5-33...
  • Page 175 ANSI Extremely Inverse 0.0399 0.2294 3.0094 0.7222 5.67 ANSI Very Inverse 0.0615 0.7989 0.34 -0.284 4.0505 3.88 ANSI Normally Inverse 0.0274 2.2614 -4.1899 9.1272 5.95 ANSI Moderately Inverse 0.1735 0.6791 -0.08 0.1271 1.08 5-34 F650 Digital Bay Controller GE Multilin...
  • Page 176 6.00 8.106 4.544 2.866 2.291 1.994 1.812 1.689 1.600 1.532 1.479 8.00 10.807 6.059 3.821 3.054 2.659 2.416 2.252 2.133 2.043 1.972 10.00 13.509 7.574 4.776 3.818 3.324 3.020 2.815 2.666 2.554 2.465 GE Multilin F650 Digital Bay Controller 5-35...
  • Page 177 T = Operation time (in seconds). TDM = Multiplying factor I = Input current = Pickup current pickup = Reset time (in seconds) assuming a 100% of power capacity and that the reset is activated reset 5-36 F650 Digital Bay Controller GE Multilin...
  • Page 178 EnerVista 650 Setup, which incorporates a graphical environment for viewing the curve, thus making it easy for the user to create it. This module can be accessed from the “Edit Curve” option in the FlexCurve menu, at Setpoint > System Setup > Flex Curves. GE Multilin F650 Digital Bay Controller 5-37...
  • Page 179: Phase Current

    ‘Mvr’ times the ‘Pickup’ setpoint. In the figure, Vpp is the phase-to-phase voltage, and VT Nominal is the rated voltage set under General setpoints (please refer to section 1.3.1. BUSCAR REFERENCIA EN CAP. Figure 5–4: VOLTAGE RESTRAINT CHARACTERISTIC 5-38 F650 Digital Bay Controller GE Multilin...
  • Page 180 If the voltage restraint feature is disabled, the pickup level always remains at the value set in the Pickup Level setpoint. The snapshot event setpoint enables or disables the snapshot event generation for the phase time overcurrent units. GE Multilin F650 Digital Bay Controller...
  • Page 181 The following diagram shows the logic scheme followed by high range and low range time overcurrent elements (51PH and 51PL) in the following figure. Figure 5–5: FIGURE 5-5. TOC UNIT LOGIC SCHEME (A6632F2) 5-40 F650 Digital Bay Controller GE Multilin...
  • Page 182 Reset Delay 0.00 0.01 s [0.00 : 900.00] Snapshot event generation Snapshot Events ENABLED [DISABLED – ENABLED] The snapshot event setpoint enables or disables the snapshot event generation for the phase instantaneous overcurrent units. GE Multilin F650 Digital Bay Controller 5-41...
  • Page 183 5.4 PROTECTION ELEMENTS 5 SETPOINTS The following figure shows the logic scheme diagram followed by high range and low range Instantaneous overcurrent elements (50PH, 50PL). Figure 5–6: PHASE IOC UNITS LOGIC SCHEME (A6632F1) 5-42 F650 Digital Bay Controller GE Multilin...
  • Page 184 Phase directional element is an independent Protection unit that provides block and Operation signals for each phase. These signals can be monitored both through the relay HMI or using EnerVista 650 Setup at “Actual > Status > Protection > Phase Current” GE Multilin F650 Digital Bay Controller 5-43...
  • Page 185 If the Block Logic setpoint had set as Permission, operation signals would be activated to allow the operation of the associated overcurrent elements. 5-44 F650 Digital Bay Controller GE Multilin...
  • Page 186 VBC angle x 1 MTA VCB angle x 1 MTA IB angle VCA angle x 1 MTA VAC angle x 1 MTA IC angle VAB angle x 1 MTA VBA angle x 1 MTA GE Multilin F650 Digital Bay Controller 5-45...
  • Page 187 This time is approximately 20 ms. Certain instantaneous overcurrent units can be activated before receiving the blocking signal from the directional unit. In cases where these situations can be expected, we recommend to add a 50ms delay to IOC units. 5-46 F650 Digital Bay Controller GE Multilin...
  • Page 188 5 SETPOINTS 5.4 PROTECTION ELEMENTS The following figure shows the logic scheme for the phase directional unit. Figure 5–10: DIRECTIONAL UNIT LOGIC SCHEME (A6632F3) GE Multilin F650 Digital Bay Controller 5-47...
  • Page 189 Snapshot event generation Snapshot Events ENABLED [DISABLED – ENABLED] The cooling constant is given in times the heating constant. The snapshot event setpoint enables or disables the snapshot event generation for the thermal model units. 5-48 F650 Digital Bay Controller GE Multilin...
  • Page 190: Neutral Current

    Reset time Reset Delay 0.00 0.01 s [0.00 : 900.00] Snapshot event generation Snapshot Events ENABLED [DISABLED – ENABLED] The snapshot event setpoint enables or disables the snapshot event generation for this unit. GE Multilin F650 Digital Bay Controller 5-49...
  • Page 191 5.4 PROTECTION ELEMENTS 5 SETPOINTS The following figure shows the logic scheme for the neutral Instantaneous overcurrent unit. Figure 5–11: LOGIC SCHEME FOR NEUTRAL IOC UNIT 5-50 F650 Digital Bay Controller GE Multilin...
  • Page 192 Under this setpoint, the unit will be blocked. Snapshot Events: The snapshot event setpoint enables or disables the snapshot event generation for this units. GE Multilin F650 Digital Bay Controller 5-51...
  • Page 193 ±90º arc at both sides of the polarization current. In any other case, the direction will be Reverse. If the polarization current is lower than 5 mA, the unit output takes the value of the Block Logic setpoint.VOLTAGE POLARIZATION 5-52 F650 Digital Bay Controller GE Multilin...
  • Page 194 In cases where this situation is foreseen, it is recommended to program the Block Logic setpoint as Block, or else to add a small time delay to the overcurrent unit to allow the directional unit to polarize and block the trip. GE Multilin F650 Digital Bay Controller 5-53...
  • Page 195 NEUTRAL TOC3 BLOCK = NOT (NEUTRAL DIR3 OP) To block neutral instantaneous units: NEUTRAL IOC1 BLOCK = NOT (NEUTRAL DIR1 OP) NEUTRAL IOC2 BLOCK = NOT (NEUTRAL DIR2 OP) NEUTRAL IOC3 BLOCK = NOT (NEUTRAL DIR3 OP) 5-54 F650 Digital Bay Controller GE Multilin...
  • Page 196 Io x 1 MTA VOLTAGE (Vo) REVERSE -Io x 1 MTA FORWARD CURRENT (Ip) REVERSE - Vo FORWARD Vo + Ip - Vo REVERSE - Vo FORWARD Vo * Ip - Vo REVERSE GE Multilin F650 Digital Bay Controller 5-55...
  • Page 197: Ground Current

    Reset time Reset Delay 0.00 0.01 s [0.00 : 900.00] Snapshot event generation Snapshot Events ENABLED [DISABLED – ENABLED] The snapshot event setpoint enables or disables the snapshot event generation for this unit. 5-56 F650 Digital Bay Controller GE Multilin...
  • Page 198 The following table shows the used magnitudes in each of the Polarization possibilities: Table 5–52: USED MAGNITUDES ACCORDING TO THE POLARIZATION SETPOINT POLARIZATION SETPOINT OPERATION MAG. POLARIZATION MAG. Vo + Ip 3V0 or Isg Vo * Ip 3V0 and Isg GE Multilin F650 Digital Bay Controller 5-57...
  • Page 199 GROUND TOC3 BLOCK = NOT (GROUND DIR3 OP) To block the Ground Instantaneous units: GROUND IOC1 BLOCK = NOT (GROUND DIR1 OP) GROUND IOC2 BLOCK = NOT (GROUND DIR2 OP) GROUND IOC3 BLOCK = NOT (GROUND DIR3 OP) 5-58 F650 Digital Bay Controller GE Multilin...
  • Page 200: Sensitive Ground Current

    Reset time Reset Delay 0.00 0.01 s [0.00 : 900.00] Snapshot event generation Snapshot Events ENABLED [DISABLED – ENABLED] The snapshot event setpoint enables or disables the snapshot event generation for this unit. GE Multilin F650 Digital Bay Controller 5-59...
  • Page 201 Deviation time to Instantaneous (Time to inst): Time after the trip during which the units become instantaneous. It must be set to zero if the functionality is not required. Snapshot Events: The snapshot event setpoint enables or disables the snapshot event generation for this unit. 5-60 F650 Digital Bay Controller GE Multilin...
  • Page 202 MTA line. Vn rotated this angle points the semi plane that corresponds to a Reverse fault. (-Vn) rotated this angle points the semi plane that corresponds to a Forward fault. GE Multilin F650 Digital Bay Controller 5-61...
  • Page 203 SENS GND IOC3 BLOCK = NOT (SENS GND DIR3 OP) To block isolated Ground units: ISOLATED GND1 BLK = NOT (SENS GND DIR1 OP) ISOLATED GND2 BLK = NOT (SENS GND DIR2 OP) ISOLATED GND3 BLK = NOT (SENS GND DIR3 OP) 5-62 F650 Digital Bay Controller GE Multilin...
  • Page 204: Negative Sequence Current

    [0.00 : 900.00] Reset type Reset INSTANTANEOUS [INSTANTANEOUS – LINEAR] Snapshot Event generation Snapshot Events ENABLED [DISABLED – ENABLED] The snapshot event setpoint enables or disables the snapshot event generation for this unit. GE Multilin F650 Digital Bay Controller 5-63...
  • Page 205: Voltage Elements

    These units can also be set as inverse time curves. This family of curves is defined by the following formula: − Vpickup Where: T = operation time D = operation time setpoint (delay) V = voltage applied to the relay Vpickup = pickup setpoint (Pickup level) Figure 5–14: INVERSE TIME UNDERVOLTAGE CURVES 5-64 F650 Digital Bay Controller GE Multilin...
  • Page 206 In case this setpoint is enabled, the undervoltage element will be supervised by the breaker status. Otherwise, the element will operate independently of the breaker status. Snapshot Events: The snapshot event setpoint enables or disables the snapshot event generation for this unit. GE Multilin F650 Digital Bay Controller 5-65...
  • Page 207 TWO PHASES The unit will operate under an overvoltage condition in at least two phases. ALL PHASES The unit will operate under an overvoltage condition in the three phases. Snapshot Events: The snapshot event setpoint enables or disables the snapshot event generation for this unit. 5-66 F650 Digital Bay Controller GE Multilin...
  • Page 208 If the voltage input is set as the voltage measured by the 4 voltage transformer, then the metered value will be applied directly to the algorithm. This voltage can be taken through a grounding resistance, a high impedance grounding, a busbar voltage etc. GE Multilin F650 Digital Bay Controller 5-67...
  • Page 209 [DEFINITE TIME – INVERSE TIME] Time Dial Delay 10.00 0.01 s [0.00 : 900.00] Snapshot Event generation Snapshot Events ENABLED [DISABLED – ENABLED] The snapshot event setpoint enables or disables the snapshot event generation for this unit. 5-68 F650 Digital Bay Controller GE Multilin...
  • Page 210: Power

    52B type contact. The purpose of this setpoint is to avoid spurious trips caused by overloads after the breaker closure. Power calculations depending on the VT connection: WYE VT connection, or only one transformer in phase-to-ground connection: × × × × × × GE Multilin F650 Digital Bay Controller 5-69...
  • Page 211 5.4 PROTECTION ELEMENTS 5 SETPOINTS DELTA VT connection, or only one voltage transformer in phase-to-ground connection: × × × × × × -------- - -------- - -------- - – – – 5-70 F650 Digital Bay Controller GE Multilin...
  • Page 212 RCA angle of 180º, the unit would operate as a 32 Reverse Power element. For angles of 90º and 270º, the case would be similar but with reactive power. GE Multilin F650 Digital Bay Controller...
  • Page 213 Table 5–66: DIRECTIONAL POWER ELEMENT SMIN (STAGE TAP) ANGLE (RCA) ELEMENT >0 0º Forward Active Power <0 0º Reverse Low Forward Active Power >0 180º Reverse Forward Active Power <0 180º Low Forward Active Power 5-72 F650 Digital Bay Controller GE Multilin...
  • Page 214 This setpoint specifies the relay characteristic angle (RCA) for the directional power unit. This setpoint provides ability to respond to the function in any direction defined (active forward power, active low forward power, etc.) GE Multilin F650 Digital Bay Controller 5-73...
  • Page 215 5.4 PROTECTION ELEMENTS 5 SETPOINTS The following figure illustrates the conventions established: Figure 5–18: ANGLES 5-74 F650 Digital Bay Controller GE Multilin...
  • Page 216 Stage 1 is used for alarm functions, while Stage 2 is used for tripping functions. Events: This setpoint enables or disables the generation of events. All states in this function are affected by this setpoint. GE Multilin F650 Digital Bay Controller...
  • Page 217 PWR STG2 OP statuses. Activation of this status indicates that the power value has exceeded the threshold indicated by any of the Stage 1/2 units. Events generated by this unit are: DIR PWR1 (2, 3) STG OP ON DIR PWR1 (2, 3) STG OP OFF 5-76 F650 Digital Bay Controller GE Multilin...
  • Page 218: Autoreclose (79)

    [GROUP 1 – GROUP 2 – GROUP 3] Snapshot Event generation Snapshot Events ENABLED [DISABLED – ENABLED] The snapshot event setpoint enables or disables the snapshot event generation for this unit. For more detail information go to section 5.4.1 GE Multilin F650 Digital Bay Controller 5-77...
  • Page 219 [0.00 : 900.00] Minimum voltage threshold Minimum Voltage [30 : 300] Snapshot event generation Snapshot Events ENABLED [DISABLED – ENABLED] The snapshot event setpoint enables or disables the snapshot event generation for this unit. 5-78 F650 Digital Bay Controller GE Multilin...
  • Page 220 Experience tells us that the window of angle difference between voltage phasors must be fixed to a value of 15º- 20º. GE Multilin F650 Digital Bay Controller 5-79...
  • Page 221 This is why F650 is not suitable for one and a half breaker configurations, or ring configurations where a transmission line or feeder has two breakers. 5-80 F650 Digital Bay Controller GE Multilin...
  • Page 222 Breaker Closing time (Time): Estimated breaker Closing time, used for establishing the Closing order in a moment that allows the busbar and line voltages to be in phase. GE Multilin F650 Digital Bay Controller 5-81...
  • Page 223 SYNCROCHECK COND OP: Closing permission according to permission logics (DL-DB, LL-DB, DL-LB). DL-DB OPERATION: Closing permission in dead line – dead bus condition. 5-82 F650 Digital Bay Controller GE Multilin...
  • Page 224 In order to establish the closing permission signal, the first parameter used by the algorithm is the difference in magnitude between line and bus voltages, and afterwards, the angle difference and frequency slip are verified. Δ Voltage Difference GE Multilin F650 Digital Bay Controller 5-83...
  • Page 225 Live Line – Dead Bus (LL - DB): Case number (7) will not allow the synchronism function, but it will allow LL-DB operation logic, if this logic is enabled by setpoint (LL-DB Function) Case numbers (1), (4) and (5) are not considered neither for synchronism check purposes, nor for closing logic. 5-84 F650 Digital Bay Controller GE Multilin...
  • Page 226 The main benefit is that after a considerable number of breaker operations, damage to internal connection elements, as well as to the chamber isolating element is drastically reduced, ensuring a longer life for the breaker, and reducing costly maintenance operations. GE Multilin F650 Digital Bay Controller 5-85...
  • Page 227 ) is entered, the relay will produce a closing permission output, if it is guaranteed that the projected phasor will be within the limit marked by the setpoint, as shown in the following figure. ϕ ϕ ϕ R e f V ’ ϕ Figure 5–22: HIGH SLIP CLOSING PERMISSION SIGNAL 5-86 F650 Digital Bay Controller GE Multilin...
  • Page 228: Introduction

    This is the time that the autoreclose takes to return to READY status after a successful reclose. Once this time has expired, the shot counter will reset and the autoreclose will get to READY. GE Multilin F650 Digital Bay Controller...
  • Page 229 Cond. Permission setpoint is enabled. Otherwise, these conditions wouldn’t have any effect. In the default factory configuration, the conditions input is associated to the synchronism check element close permission. 5-88 F650 Digital Bay Controller GE Multilin...
  • Page 230 AR BLK AFTER 3 SHOT Block signal sent by the autoreclose after the third shot AR BLK AFTER 4 SHOT Block signal sent by the autoreclose after the fourth shot AR BLOCK BY LEVEL Autoreclose blocked by level. See AR block signals configuration (AR LEVEL BLOCK) GE Multilin F650 Digital Bay Controller 5-89...
  • Page 231 AR BLOCK BY PULSE Autoreclose blocked by pulse. See AR block signals configuration (AR PULSE BLOCK) AR STATUS Autoreclose status (see ) AR LOCKOUT MODE Autoreclose lockout mode (see ) AR BLOCK MODE Autoreclose block mode (see ) 5-90 F650 Digital Bay Controller GE Multilin...
  • Page 232 The reclosing sequence consists on the following steps: Wait until the breaker is open, if the waiting exceeds the Fail to Open Time setpoint, the autoreclose will go to LOCKOUT by failure of opening status (AR LCK BY FAIL OPEN). GE Multilin F650 Digital Bay Controller 5-91...
  • Page 233 Unblock pulse (in case of block by pulse), the block status is abandoned and the autoreclose returns to the Lockout status. Configurable signals to block the autorecloser are described in section 5.5.5.3. 5-92 F650 Digital Bay Controller GE Multilin...
  • Page 234 Figure 5–25: CONFIGURATION EXAMPLE OF THE RECLOSE INITIATION AND BLOCK SIGNALS GE Multilin F650 Digital Bay Controller 5-93...
  • Page 235 2nd step time delay (2 Step Delay): Time delay applied to the breaker failure second step. No current unit time delay (No Current Delay): Time delay applied to the trip without current unit. 5-94 F650 Digital Bay Controller GE Multilin...
  • Page 236 BKR FAIL HISET Signal for high-level breaker failure BKR FAIL LOWSET Signal for low-level breaker failure INTERNAL ARC Signal for internal arc BKR FAIL 2nd STEP Signal for Second level breaker failure (high and low) GE Multilin F650 Digital Bay Controller 5-95...
  • Page 237 (Internal Arc Delay), and the breaker is open, the corresponding internal arc signal will be issued (INTERNAL ARC). 5-96 F650 Digital Bay Controller GE Multilin...
  • Page 238 To configure the block of these elements it is necessary to enter the Setpoint > Relay Configuration > Protection Elements” menu and select as block input for protection units, the fuse failure operation signal. GE Multilin F650 Digital Bay Controller 5-97...
  • Page 239: Broken Conductor

    Note: The I2/I1 current inhibition level for the different firmware versions is as follows: FIRMWARE VERSION CURRENT INHIBITION LEVEL 1.50 or Lower 10 mA 1.60 or Higher 50 mA 1.80 or Higher Selectable by setpoint from 0.000 to 1.000 in steps of 0.001 A 5-98 F650 Digital Bay Controller GE Multilin...
  • Page 240: Locked Rotor

    The operating current for this unit is calculated as follows: × Level Trip time (Trip Delay): setpoint of the Protection element operation time. Reset time (Reset Delay): Reset time of the Protection element. GE Multilin F650 Digital Bay Controller 5-99...
  • Page 241 5.5 CONTROL ELEMENTS 5 SETPOINTS Snapshot Events: The snapshot event setpoint enables or disables the snapshot event generation for this unit. 5-100 F650 Digital Bay Controller GE Multilin...
  • Page 242 The unit will pickup if at least one of the three phase currents are above the adjusted level. The operation value will be the higher of the three. Reset level at 97% of the pickup level. GE Multilin F650 Digital Bay Controller 5-101...
  • Page 243: Input/Output Placement

    C O I L 2 C C 1 6 5 2 / b O U T P U T S I S E N S I S E N S Figure 5–28: INPUT/OUTPUT LOCATION AND TYPE 5-102 F650 Digital Bay Controller GE Multilin...
  • Page 244 Mixed, 16 digital inputs: CC1….CC16 Supervision: 8 digital inputs: CC1,..., CC8 Is the name used for the different outputs in I/O boards, 8 outputs available for any of the two types of board (01,…., 08) GE Multilin F650 Digital Bay Controller 5-103...
  • Page 245 This is not a grouped setpoint; there is a different setpoint for each input. It is important to distinguish between this delay input time and the debounce time used for filtering undesired transients in the input signal. The Debounce time is always added to the delay input time. Figure 5–29: INPUT LOGIC TYPES 5-104 F650 Digital Bay Controller GE Multilin...
  • Page 246 CONT IP_X_CC13 CC13 O7_SEAL CONT IP_X_CC14 CC14 O8_SEAL CONT IP_X_CC15 CC15 SUP_COIL1 CONT IP_X_CC16 CC16 SUP_COIL2 The operation logic for supervision signals (board type 2) is detailed in section . in this manual. GE Multilin F650 Digital Bay Controller 5-105...
  • Page 247 Pulse Output Time_0X _0Z: This is the length of the output pulse in case the output type is selected as pulse ; the default value is 10000 ms. Figure 5–30:shows the types of signals associated to the different output configuration types. Figure 5–30: OUTPUT LOGIC TYPES. 5-106 F650 Digital Bay Controller GE Multilin...
  • Page 248 CONT OP RESET_X_05 CONT OP_X_06 CONT OP OPER_X_06 CONT OP RESET_X_06 CONT OP_X_07 CONT OP OPER_X_07 CONT OP RESET_X_07 CONT OP_X_08 CONT OP OPER_X_08 CONT OP RESET_X_08 Being X the corresponding board in each case GE Multilin F650 Digital Bay Controller 5-107...
  • Page 249: Circuit Supervision And Contact Seal-In Circuits

    F1-F2 and F3-F4. The second group, symmetrical and identical to the first, is formed by isolated voltage inputs F15-F16 and F17-F18. Using voltage detectors and current sensing, it is possible to implement several trip or close circuit supervision schemes, as well as protection of the unit output contact. 5-108 F650 Digital Bay Controller GE Multilin...
  • Page 250 In order to assure a high isolation level between groups, the digital inputs for supervision have been located in a symmetrical basis. That is to optimize the isolation between groups that can be connected to different batteries, and therefore requiring a greater distance between circuits. GE Multilin F650 Digital Bay Controller 5-109...
  • Page 251 This is a very frequent common case, and we must only wire the tripping circuit to terminals F35 and F36, leaving unused terminals F34, F15, F16, F17, F18. Figure 5–32: CIRCUIT WITHOUT TRIPPING CIRCUIT SUPERVISION (A6631F1) 5-110 F650 Digital Bay Controller GE Multilin...
  • Page 252 0.35 A at 125 Vdc. This latching or memory function is only guaranteed while the unit is powered. Figure 5–33: CURRENT SUPERVISION OF THE TRIPPING CONTACT (A6631F2) GE Multilin F650 Digital Bay Controller 5-111...
  • Page 253 5.6 INPUTS/OUTPUTS 5 SETPOINTS d) WITH SIMPLE VOLTAGE SUPERVISION Figure 5–34: SUPERVISION APPLICATION WITH AUXILIARY CONTACT 52A AND A RESISTOR (A6631F3) 5-112 F650 Digital Bay Controller GE Multilin...
  • Page 254 As shown in the second case in the table, with an open breaker, as current will flow through R if there is continuity in the WHOLE tripping circuit, voltage will be detected in input V 52/a. GE Multilin F650 Digital Bay Controller...
  • Page 255 (SUP_COIL2) will be activated showing a failure when the breaker is open, and therefore it will be required to supervise the continuity failure signaling by the breaker status information. Figure 5–35: TRIP CIRCUIT AND TRIP COIL SUPERVISION USING AUXILIARY CONTACT 52/A. ONLY WITH CLOSED BREAKER (A6631F5) 5-114 F650 Digital Bay Controller GE Multilin...
  • Page 256 5 SETPOINTS 5.6 INPUTS/OUTPUTS e) WITH DOUBLE VOLTAGE SUPERVISION Figure 5–36: SUPERVISION APPLICATION WITH AUXILIARY CONTACTS 52A AND 52B (A6631F4) GE Multilin F650 Digital Bay Controller 5-115...
  • Page 257 (terminals F35 and F36), or be provided by another protection or by the parallel of several protections. This provides high flexibility in the use of this circuit. The battery voltage can also be monitored, by using one of the standard digital inputs. 5-116 F650 Digital Bay Controller GE Multilin...
  • Page 258 2mA. With a shorted 52/b voltage monitor, no false trip will be performed because 52/a is in series limiting current to 2mA. Figure 5–37: SUPERVISION APPLICATION WITH AUXILIARY CONTACTS 52A AND 52B AND SERIES RESISTOR IN F15-F16 GE Multilin F650 Digital Bay Controller 5-117...
  • Page 259: Virtual Inputs

    .OFF. (Logic 0). An ID may be assigned to each virtual output. Virtual outputs are resolved in each pass through the evaluation of the logic equations. For more detail information see chapters 5.8 and 5.9 in this manual. 5-118 F650 Digital Bay Controller GE Multilin...
  • Page 260: Force Io –Input Testing

    In order to refresh the real status of outputs, according to the information received by the relay processor, the Refresh button must be pressed. The following figure shows the output-testing screen: Figure 5–39: FORCE IO GE Multilin F650 Digital Bay Controller 5-119...
  • Page 261 OR checkbox for configuring the output operation by activation of any of the indicated signals. The unit performs an OR of the signals, and its output produces operation. • NOT checkbox for inverting or not the configured logic. Figure 5–40: OUTPUTS CONFIGURATION 5-120 F650 Digital Bay Controller GE Multilin...
  • Page 262: Leds

    This label can replace the original one under the black plastic cover. The label is also provided in word format and can be modified by the user (e.g. different color marking) Figure 5–41: LED CONFIGURATION GE Multilin F650 Digital Bay Controller 5-121...
  • Page 263: Operations

    If the success signal is received before this period expires, the command signal will be removed and the timer reset. If the success condition is not received within this period of time, the operation is considered to be finished. 5-122 F650 Digital Bay Controller GE Multilin...
  • Page 264 Condition n Condition 1 Time Out Interlocking Condition n Operation Bit Reset (state) Condition 1 Interlocking Condition n Keyboard Push button Operation Digital input Condition 1 Success Condition n Figure 5–43: OPERATION LOGIC DIAGRAM GE Multilin F650 Digital Bay Controller 5-123...
  • Page 265 SYNCHK CLOSE PERM FINAL STATES (LOGIC) BREAKER CLOSED FRONT KEY I Key INPUT Not configured VIRTUAL OUTPUT Not configured TIMEOUT CHANNELS Finally, configure a contact output to be activated with the programmed Operation (Operation1). 5-124 F650 Digital Bay Controller GE Multilin...
  • Page 266 The object will be blinking during one minute. After that time, the object will be deselected. Front Keys: In operations performed by front keys, the time out for confirmation is 10 seconds. GE Multilin F650 Digital Bay Controller...
  • Page 267: Protection Elements

    OR checkbox to select a group of operands instead of a single one. The relay performs an OR of the signals, and its output produces the operation. The following figure shows this screen: Figure 5–45: PROTECTION ELEMENTS 5-126 F650 Digital Bay Controller GE Multilin...
  • Page 268 This screen is used for the configuration of digital channels and oscillography trigger. The rest of parameters, such as function enabling/disabling, sampling rate, number of oscillography files, etc. must be set on the Setpoint > Product Setup > Oscillography menu. GE Multilin F650 Digital Bay Controller 5-127...
  • Page 269 OR checkbox to select a group of operands instead of a single one. The relay performs an OR of the signals, and its output produces operation. • Alarm checkbox: allows treating the event as an alarm and making the event activation to be reported on the alarm panel. Figure 5–47: CONTROL EVENTS CONFIGURATION 5-128 F650 Digital Bay Controller GE Multilin...
  • Page 270 HMI: Acknowledged status is shown on the HMI with a selection mark on the right of the ON label. EnerVista 650 Setup: the acknowledged status is shown by a selection mark to the left of the Operation name. GE Multilin F650 Digital Bay Controller...
  • Page 271 The operation bit signal used to launch the opening init must be configured in the operations tab inside relay configuration. 5-130 F650 Digital Bay Controller GE Multilin...
  • Page 272: Hmi (Human-Machine Interface)

    This functionality is only applicable to F650 units with graphical display (240x128pixels), and not for units with alphanumerical display (20x4 characters). Figure 5–49: HMI CONFIGURATION GE Multilin F650 Digital Bay Controller 5-131...
  • Page 273 When the operated object is selected on the screen to execute this operation, the object on which it is located will blink. It is possible to place several operations on the same object, for example to open and close the breaker object. 5-132 F650 Digital Bay Controller GE Multilin...
  • Page 274 Symbols reserved for future uses Symbol for capacitor banks. Symbol for wye connection Symbol for open delta and delta connection Display of a fix text up to 40 ASCII characters Auxiliary drawing lines GE Multilin F650 Digital Bay Controller 5-133...
  • Page 275 Please take note of the following remarks: The first equation entered in the PLC can never be a timer Analog elements (analog comparators, etc,) are not implemented. 5-134 F650 Digital Bay Controller GE Multilin...
  • Page 276: Theory Of Operation

    TIMER: timer signal with set, reset and mask for timing. TEXT LABEL: text to customize the logic configuration file. Flip-Flop D : signal that maintains the actual value frozen during a PLC cycle MASK: Time mask to be used in timing operations. GE Multilin F650 Digital Bay Controller 5-135...
  • Page 277 S E T i n p u t RESET input R E S E T i n p u t O u t p u t T ( m s ) T 1 + T 2 = T 5-136 F650 Digital Bay Controller GE Multilin...
  • Page 278 In this case, equation A is the first to be executed. However, in the second case, the first equation to be executed would be B, as its output is before the Equation A output. GE Multilin F650 Digital Bay Controller...
  • Page 279: Main Menu

    The RUN menu includes the following options: Configuration: Not valid in the current application (for analog operations still not available) Compile: Compiles the configuration functions to generate the equations that will be interpreted by the F650 PLC. 5-138 F650 Digital Bay Controller GE Multilin...
  • Page 280: Configuration Generation

    We must take into account that as the timer is a digital operation that operates as an analog, there must only be a single internal variable or digital input in the timer input. GE Multilin F650 Digital Bay Controller 5-139...
  • Page 281: Generation Of Libraries

    > New Library Open a new library or modify an existing one, in this example a timer library is going to be displayed Timer(Pkp-Dpt).lib as shown on Figure 2–52: Figure 5–52: TIMER(PKP-DPT).LIB CONFIGURATION EXAMPLE 5-140 F650 Digital Bay Controller GE Multilin...
  • Page 282 Once the library is created and saved it can be selected in the main application menu in Project > Insert Library. The library will have the following object: Figure 5–53: LIBRARY OBJECT GE Multilin F650 Digital Bay Controller 5-141...
  • Page 283: Example Of Application

    This process will be repeated while the digital input is active. To finish the process the logic must be compiled (Run >Compile)and the equations sent to the relay (Run >Send Equations to relay) to start working with the new logic. 5-142 F650 Digital Bay Controller GE Multilin...
  • Page 284 LED 1 LED 2 LED 3 LED 4 LED 5 LED 6 LED 7 LED 8 LED 9 LED 10 LED 11 LED 12 LED 13 LED 14 LED 15 LOCAL OPERATION MODE OPERATIONS BLOCKED GE Multilin F650 Digital Bay Controller...
  • Page 285: Operation Bits

    PH IOC3 LOW A /B / C BLK PH TOC3 LOW A /B /C BLK NEUTRAL DIR3 BLK INP PHASE OV3 BLOCK NEUTRAL IOC1 BLOCK NEUTRAL TOC1 BLOCK GROUND DIR1 BLK INP NEUTRAL OV1 HIGH BLK F650 Digital Bay Controller GE Multilin...
  • Page 286 PH IOC3 LOW A / B / C OP PH TOC3 LOW A / B / C OP PH IOC3 LOW PKP PH TOC3 LOW PKP PH IOC3 LOW OP PH TOC3 LOW OP GE Multilin F650 Digital Bay Controller...
  • Page 287 SENS GND DIR2 OP SENS GND IOC3 PKP SENS GND TOC3 PKP ISOLATED GND3 PKP SENS GND DIR3 BLOCK SENS GND IOC3 OP SENS GND TOC3 OP ISOLATED GND3 OP SENS GND DIR3 OP F650 Digital Bay Controller GE Multilin...
  • Page 288 THERMAL3 A RST THERMAL3 A ALRM THERMAL3 A OP THERMAL3 IMAGE A THERMAL3 B RST THERMAL3 B ALRM THERMAL3 B OP THERMAL3 IMAGE B THERMAL3 C RST THERMAL3 C ALRM THERMAL3 C OP THERMAL3 IMAGE C GE Multilin F650 Digital Bay Controller...
  • Page 289 PHASE UV2 BC PKP PHASE OV3 PKP AUXILIARY UV2 PKP PHASE UV2 BC OP PHASE OV3 OP AUXILIARY UV2 OP PHASE UV2 CA PKP AUXILIARY UV3 PKP PHASE UV2 CA OP AUXILIARY UV3 OP F650 Digital Bay Controller GE Multilin...
  • Page 290 DIR PWR3 STG1 PKP FWD PWR3 STG1 OP DIR PWR3 STG1 OP FWD PWR3 STG2 PKP DIR PWR3 STG2 PKP FWD PWR3 STG2 OP DIR PWR3 STG2 OP DIR PWR3 STG PKP DIR PWR3 STG OP GE Multilin F650 Digital Bay Controller...
  • Page 291: Control Elements

    SYNCROCHECK COND OP: Closing permission according to permission logics (DL-DB, LL-DB, DL-LB). DL-DB OPERATION: Closing permission in dead line – dead bus condition. DL-LB OPERATION: Closing permission in dead line – live bus condition. F650 Digital Bay Controller GE Multilin...
  • Page 292 AR PULSE UNBLOCK: programmable signal to block the autoreclose unit by pulse AR INITIATE: programmable signal to initiate the autoreclose. AR CONDS INPUT: programmable signal to set the conditions to be met before executing a breaker close. GE Multilin F650 Digital Bay Controller...
  • Page 293 AR BLOCK BY PULSE: Autoreclose blocked by pulse. See AR block signals configuration AR STATUS: Autoreclose status (in service – out of service) AR LOCKOUT MODE: Relay “Lockout” status. AR BLOCK MODE: Relay “Block” status 6-10 F650 Digital Bay Controller GE Multilin...
  • Page 294 LEDs for the breaker failure function: Table 6–18: TABLE 6-18 BROKEN CONDUCTOR ACTUAL VALUES BROKEN CONDUCTOR ACTUAL VALUES BROKEN CONDUCT1 PKP BROKEN CONDUCT1 OP BROKEN CONDUCT2 PKP BROKEN CONDUCT2 OP BROKEN CONDUCT3 PKP BROKEN CONDUCT3 OP GE Multilin F650 Digital Bay Controller 6-11...
  • Page 295 Actual> Status > Control Elements > Locked Rotor, and it includes the following signaling LEDs. Table 6–20: LOCKED ROTOR ACTUAL VALUES LOCKED ROTOR ACTUAL VALUES LOCKED ROTOR1 PKP LOCKED ROTOR1 OP LOCKED ROTOR2 PKP LOCKED ROTOR2 OP LOCKED ROTOR3 PKP LOCKED ROTOR3 OP 6-12 F650 Digital Bay Controller GE Multilin...
  • Page 296: Protection Summary

    Neutral Directional1 Phase TOC3 Low Neutral Directional2 Data Logger Neutral Directional3 Directional Power1 Ground Directional1 Directional Power2 Ground Directional2 Directional Power3 Ground Directional3 Locked Rotor1 Breaker Failure Locked Rotor2 Fuse Failure Locked Rotor3 GE Multilin F650 Digital Bay Controller 6-13...
  • Page 297: Snapshot Events Summary

    Phase UV3 Event Isolated Ground IOC3 Event Negative Sequence OV1 Event Sensitive Ground Directional1 Negative Sequence OV2 Event Event Negative Sequence OV3 Event Sensitive Ground Directional2 Event Thermal Model1 Event Thermal Model2 Event 6-14 F650 Digital Bay Controller GE Multilin...
  • Page 298 This screen can be accessed at Actual> Status > ModBus User Map, and it includes all the readings for the previously configured records in the ModBus memory map. Table 6–23: MODBUS USER MAP ACTUAL VALUES MODBUS USER MAP Address 00 Address 01 … Address 255 GE Multilin F650 Digital Bay Controller 6-15...
  • Page 299: Switchgear Status

    Output that represents a failure to open, from the associated external device (opening time exceeded) SWGR X FAIL TO CLOSE Output that represents a failure to close from the associated external device (closing time exceeded) 6-16 F650 Digital Bay Controller GE Multilin...
  • Page 300: Calibration

    FACTORY CALIBRATION: this value will be active when the relay calibration settings are the default values (no calibration). CALIBRATION ERROR: Error shown when there is a problem in the calibration settings (wrong values). GE Multilin F650 Digital Bay Controller 6-17...
  • Page 301 FAULT LOCATION: Location of the last fault produced in the relay. FAULT REPORT NUMBER: Number of fault reports available in the relay (ten is the maximum number of records supported by the relay). 6-18 F650 Digital Bay Controller GE Multilin...
  • Page 302 Setpoint > Product Setup > Oscillography. AVAILABLE RECORDS: This is the number of available oscillography records in the relay. Values for these last 3 fields are reset every time the oscillography settings are modified. GE Multilin F650 Digital Bay Controller 6-19...
  • Page 303 Signal used to unfreeze the energy counters. RESET ENERGY CNT: Signal to reset the energy measurements and set the values to zero. These signals can be configured at Setpoint > Relay Configuration > Protection Elements 6-20 F650 Digital Bay Controller GE Multilin...
  • Page 304 Time to set a failure in opening the breaker. BKR CLOSING TIME Time to set a failure in closing the breaker. Breaker opening and closing time signals are configured at Setpoint > Relay Configuration > Switchgear for the related switchgear device. GE Multilin F650 Digital Bay Controller 6-21...
  • Page 305: Primary Values

    Phasor Ic Primary Phasor Ig Primary Phasor Isg Primary Phasor In Primary RMS Ia Primary RMS Ib Primary RMS Ic Primary RMS Ig Primary RMS Isg Primary I0 Primary I1 Primary I2 Primary 6-22 F650 Digital Bay Controller GE Multilin...
  • Page 306 NOTE: If voltage inputs are configured in Delta connection and the auxiliary voltage input is set as Vx, measurement of single phase power value cannot be duly calculated, and therefore, its value will be zero. For the three-phase power value, the system uses the ARON method, or two-wattmeters method. GE Multilin F650 Digital Bay Controller 6-23...
  • Page 307 DEMAND W DEMAND W MAX DEMAND W DATE dd/mm/yy hh:mm:ss:ms DEMAND VAR PWR MVAr DEMAND VAR MAX MVAr DEMAND VAR DATE dd/mm/yy hh:mm:ss:ms DEMAND VA PWR DEMAND VA MAX DEMAND VA DATE dd/mm/yy hh:mm:ss:ms 6-24 F650 Digital Bay Controller GE Multilin...
  • Page 308: Secondary Values

    DESCRIPTION UNITS Phasor Vab Phasor Vbc Phasor Vca Phasor Van Phasor Vbn Phasor Vcn Phasor Vn Positive Seq V1 Negative Seq V2 Zero Seq V0 Phasor Vx Nominal Voltage Line Voltage Bus Voltage GE Multilin F650 Digital Bay Controller 6-25...
  • Page 309 NOTE: If voltage inputs are configured in Delta connection and the auxiliary voltage input is set as Vx, measurement of single phase power value cannot be duly calculated, and therefore, its value will be zero. For the three-phase power value, the system uses the ARON method, or two-wattmeters method. 6-26 F650 Digital Bay Controller GE Multilin...
  • Page 310: Phasor Diagram

    (0,0°), Vb (0,-120°), Vc (0,120°) the relay will provided the following angles Va (0,0°), Vb (0,120°), Vc (0,240°). The following figure shows the phasor diagram provided by EnerVista F650 Setup: Figure 6–2: PHASOR DIAGRAM 6.3.4 FREQUENCY Actual> Metering > Frequency Table 6–42: FREQUENCY VALUES DESCRIPTION UNITS Line Frequency Bus Frequency GE Multilin F650 Digital Bay Controller 6-27...
  • Page 311: Inputs / Outputs

    CONT IP_X_CC12 (CC12) CONT IP_X_CC13 (O7_SEAL) CONT IP_X_CC13 (CC13) CONT IP_X_CC14 (O8_SEAL) CONT IP_X_CC14 (CC14) CONT IP_X_CC15 (SUP_COIL1) CONT IP_X_CC15 (CC15) CONT IP_X_CC16 (SUP_COIL2) CONT IP_X_CC16 (CC16) BOARD X STATUS BOARD X STATUS 6-28 F650 Digital Bay Controller GE Multilin...
  • Page 312 These logic signals (Contact Output Operates), when being transformed by the outputs logic configured at Setpoint > Inputs/Outputs >Contact I/O > Board X become Contact Output signals. This output logic can be POSITIVE, NEGATIVE, pulse, latched, etc. GE Multilin F650 Digital Bay Controller 6-29...
  • Page 313 I/O board, thus when the contact output has been configured to emulate function 86 (latching relay). Configuration for the contact output reset signal is set at Setpoint > Relay Configuration > Outputs > Contact Output Reset. 6-30 F650 Digital Bay Controller GE Multilin...
  • Page 314 The configuration of the logic associated to the virtual output is in the Setpoint > Logic Configuration tool provided by EnerVista F650 Setup program. Table 6–49: VIRTUAL OUTPUTS STATUS VIRTUAL OUTPUT STATUS VIRTUAL OUTPUT 000 VIRTUAL OUTPUT 001 … VIRTUAL OUTPUT 511 GE Multilin F650 Digital Bay Controller 6-31...
  • Page 315: Event Recorder

    (see ). There is a “Select” option, which is used for selecting the events that are required to appear when the screen information is printed or saved. Figure 6–5: SNAPSHOT EVENT DETAILS 6-32 F650 Digital Bay Controller GE Multilin...
  • Page 316 The user can either acknowledge all alarms at the same time, or do it partially by selecting the alarms to be acknowledged. Figure 6–7: ALARM PANEL GE Multilin F650 Digital Bay Controller 6-33...
  • Page 317: Waveform Capture

    GE-OSC is GE proprietary software that is not distributed together with EnerVista F650 Setup. This program is A COMTRADE viewer and analysis software for oscillography files. If the user does not have the GE-OSC tool, the oscillography record can be stored and viewed using any other analysis tool capable of reproducing COMTRADE.1999 files.
  • Page 318 Fault report file retrieval can be performed via serial or Ethernet communications. It must be taken into account that any settings change in the fault report will produce the removal of all the information stored up to that moment. GE Multi