Contents - Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- Table Of Contents
- GETTING STARTED
- General cautions and warnings
- Communication board withdrawal/insertion
- Magnetic module terminals
- Inspection checklist
- Safety instructions
- General safety instructions
- Warning symbols
- Overview
- F650 signal type
- Protection
- EnerVista 650 Setup software
- Connecting EnerVista 650 Setup to the F650
- hardware
- Faceplate display
- Maintenance
- Repairs
- PRODUCT
- DESCRIPTION
- Other device functions
- Order codes
- CIO Modules
- Technical specifications
- Control
- Monitoring
- User-programmable
- Metering
- Real time clock
- Communications
- Optical
- Environmental
- Approvals
- External connections
- GEK-113000-AF F650 DIGITAL BAY CONTROLLER
- Viewing actual values
- Main screen
- Connect to the relay
- Computer Settings:
- File management menu
- Online mode
- EnerVista 650 Setup menu
- File menu
- New, Open, Save, Save as, and Close
- Configuration file converter
- Properties
- Compare to settings file
- Setting checksum calculation
- Product setup menu
- System setup menu
- Control elements menu
- Inputs/Outputs menu
- Quick settings menu
- Logic Configuration menu
- IEC 103 Configuration menu
- Actual values menu
- Operations menu
- Security menu
- View menu
- Human-machine interface (HMI)
- Display
- LED indicators
- Command push button
- Screen contrast
- Text menu hierarchy
- Snapshot events
- Fault report
- View settings menu
- Change Settings
- Date & time
- Commands
- Passwords
- Select main screen
- Graphic display
- Metering screen
- All events screen
- New events screen
- Alarms panel
- Input/output monitoring screen
- Web server
- Control events
- Alarms
- Oscillography
- Data logger
- SECURITY 4.1 Adding users
- Changing passwords
- Enabling security
- Logging into EnerVista 650 Setup
- Firmware upgrade versions below 7.00
- Communication parameters
- Bootware version upgrade
- Firmware version upgrade
- Summary of main steps
- Firmware upgrade(*)
- Firmware upgrade version 7.00 or above
- Order code upgrade process
- Summary of main firmware upgrade steps
- Visual inspection
- Out of service setting
- General considerations, power supply network
- Isolation tests
- Indicators
- Verification of measurement
- Active, reactive power, and COSJ metering
- Frequency
- Inputs and outputs
- Contact outputs
- Connections for testing protection elements
- Instantaneous overcurrent (50PH, 50PL, 50N, 50G, 50SG)
- Time overcurrent (51PH, 51PL, 51N, 51G, 46)
- Directional elements (67P, 67N, 67G, 67SG)
- G element
- Undervoltage elements (27P, 27X)
- Overvoltage elements (59P, 59X, 59NH, 59NL, 47)
- NH and 59NL elements
- Frequency elements (81O/81U)
- Recloser (79)
- Recloser status
- Thermal image element (49)
- Control & HMI
- Relay configuration
- Symptoms and recommended actions
- A.1 Operands - F650 - model FX - GX
- B.1 PRP and HSR Ethernet protocols
- B.1.1 PRP
- B.1.2 HSR
- B.2 RSTP (IEEE 802.1D-2004) and daisy chain
- B.2.3 Use in meshed networks
- B.3 Link loss alert (LLA)
- D.1 Factory default settings
- D.2 Factory default configuration
- E.1 GE Multilin warranty
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CHAPTER 2: PRODUCT DESCRIPTION 2.5 TECHNICAL SPECIFICATIONSGEK-113000-AF F650 DIGITAL BAY CONTROLLER 2-11SENSITIVE GROUND INSTANTANEOUS OVERCURRENT (50SG)Current Input:............................................................................. phasor (without harmonics) or RMSRated Current:........................................................................... for connection to 1 or 5 A CTsPickup Level:............................................................................... 0.005 to 16.000 A in steps of 0.001 ALevel Accuracy: ........................................................................ values at nominal frequency:±1.5% of the reading ± 1 mA from 0.005 to 16.000 AOverreach: .................................................................................. < 2%Trip Delay: ................................................................................... 0.00 to 900.00 s in steps of 0.01 sReset Delay: ............................................................................... 0.00 to 900.00 s in steps of 0.01 sOperate Time:............................................................................ < 50 ms at 3 x pickup at 50 Hz, typicallyTiming Accuracy:..................................................................... at 0 ms time delay (no intentional delay): 50 msat non-zero time delay: ±3% of operate time or 50 ms(whichever is greater)Snapshot Events: ..................................................................... selectable by settingISOLATED GROUND INSTANTANEOUS OVERCURRENT (50IG)Current Input:............................................................................. fundamental phasor (without harmonics)Voltage Input: ............................................................................ fundamental phasor (without harmonics)Current Pickup Level:.............................................................. 0.005 to 0.400 A in steps of 0.001 AVoltage Pickup Level: ............................................................. 2 to 70 V in steps of 1 VDropout Level: ........................................................................... 97% to 98% of the pickup levelLevel Accuracy: ........................................................................ ±1.5% of the reading ± 1 mA from 0.005 to 16.000 ATrip Delay: ................................................................................... 0.00 to 900.00 s in steps of 0.01 sTime to Instantaneous: ......................................................... 0.00 to 900.00 s in steps of 0.01 sOperate Time:............................................................................ < 50 ms at 3 x pickup at 50 Hz, typicallyTiming Accuracy:..................................................................... at 0 ms time delay (no intentional delay): 50 msat non-zero time delay: ±3% of operate time or 50 ms(whichever is greater)Snapshot Events: ..................................................................... selectable by settingNEGATIVE SEQUENCE CURRENT (46)Current Input:............................................................................. fundamental phasor (without harmonics)Pickup Level:............................................................................... 0.05 to 160.00 A in steps of 0.01 ADropout Level: ........................................................................... 97% to 98% of the pickup levelLevel Accuracy: ........................................................................ values at nominal frequency:±0.5% of the reading ±10 mA from 0.05 to 10.00 A±1.5% of the reading for higher valuesCurve Shape:.............................................................................. IEEE extremely/very/moderately inverseIEC A/B/C/long-time inverse/short time inverse curveIAC extremely/very/moderately inverseANSI extremely/very/normally/moderately inverseI2tDefinite timeRectifier curveFlexCurveTM A/B/C/D user curveCurve Multiplier (Time Dial): ................................................ 0.00 to 900.00 s in steps of 0.01 sReset Type: ................................................................................. instantaneous or time delayed, according to IEEETiming Accuracy:..................................................................... Operate at > 1.03 times the pickup ±3% of operate time or 50 ms(whichever is greater)Saturation Level: ...................................................................... 48 times the pickup levelSnapshot Events: ..................................................................... selectable by setting PreviousNext |