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The contents of this manual are the property of GE Multilin Inc. This documentation is furnished on license and may not be reproduced in whole or in part without the permission of GE Multilin. The content of this manual is for informational use only and is subject to change without notice.
Graphical front panel......................2-40 2.5.13 Environmental........................2-40 2.5.14 Type tests ..........................2-41 2.5.15 Production tests ........................2-42 2.5.16 Approvals ..........................2-42 2.5.17 Maintenance.........................2-42 3 INSTALLATION Unpack and inspect ....................3-1 Panel cutouts ......................3-2 3.2.1 Horizontal units ........................3-2 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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3.8.5 Automatic discovery of UR devices................3-64 Connect to the G60....................3-65 3.9.1 Connect to the G60 in EnerVista................. 3-65 3.9.2 Use Quick Connect via the front panel RS232 port..........3-66 3.9.3 Use Quick Connect via a rear Ethernet port............3-67 3.10 Set up CyberSentry and change default password........3-68...
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User-definable displays....................5-133 5.3.18 Direct inputs and outputs....................5-135 5.3.19 Teleprotection ........................5-141 5.3.20 Installation ..........................5-142 Remote resources ....................5-142 5.4.1 Remote resources configuration ................5-142 System setup.......................5-144 5.5.1 AC inputs ..........................5-144 5.5.2 Power system........................5-145 5.5.3 Signal sources........................5-146 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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Virtual outputs........................5-367 5.9.5 Resetting ..........................5-367 5.9.6 Direct inputs and outputs ................... 5-368 5.9.7 Teleprotection inputs and outputs ................. 5-372 5.10 Transducer inputs/outputs................5-374 5.10.1 DCmA inputs........................5-374 5.10.2 RTD inputs .......................... 5-375 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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Field ground ..........................6-25 6.4.14 Volts per hertz........................6-26 6.4.15 Restricted ground fault....................6-26 6.4.16 Phasor Measurement Unit .....................6-26 6.4.17 PMU aggregator........................6-27 6.4.18 Transducer inputs and outputs ...................6-27 6.4.19 Distance..........................6-28 Records ........................6-29 6.5.1 User-programmable fault reports................6-29 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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10.1 Phase distance through power transformers ..........10-1 OPERATION 10.1.1 Example..........................10-5 10.2 Saturation detector....................10-7 10.2.1 CT saturation detection....................10-7 11 MAINTENANCE 11.1 Monitoring ......................11-1 11.1.1 Devices with Site Targets ....................11-1 11.1.2 Data with Modbus Analyzer..................11-1 viii G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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A FLEXANALOG FlexAnalog items ....................A-1 OPERANDS B RADIUS SERVER RADIUS server configuration ................B-1 CONFIGURATION C COMMAND LINE Command line interface ..................C-1 INTERFACE D MISCELLANEOUS Warranty .........................D-1 Revision history ......................D-1 ABBREVIATIONS INDEX G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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TABLE OF CONTENTS G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
Ensure that the control power applied to the device, the alternating current (AC), and voltage input match the ratings specified on the relay nameplate. Do not apply current or voltage in excess of the specified limits. G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
Website: http://www.gegridsolutions.com/multilin When contacting GE by e-mail, optionally include a device information file, which is generated in the EnerVista software by clicking the Service Report button. When using the optional graphical front panel, the report instead can be generated by connecting a USB drive to the front panel.
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CHAPTER 1: INTRODUCTION FOR FURTHER ASSISTANCE Figure 1-1: Generate service report in EnerVista software G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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FOR FURTHER ASSISTANCE CHAPTER 1: INTRODUCTION G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
This chapter outlines the product, order codes, and specifications. 2.1 Product description The G60 Generator Protection System is part of the Universal Relay (UR) series of products. It is a microprocessor-based relay that provides protection, monitoring, control, and recording functions for alternating current (AC) generators driven by steam, gas, or hydraulic turbine.
Phase instantaneous overcurrent Overfrequency 50SP Split phase protection Rate of change of frequency 50/27 Accidental energization Underfrequency Ground time overcurrent 87RGF Restricted ground fault 51PV Phase time overcurrent with voltage Stator differential restraint G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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Virtual inputs (64) Digital elements (48) Non-volatile selector switch Virtual outputs (96) Direct inputs and outputs (32) Oscillography VT fuse failure Disconnect switches RTD protection DNP 3.0 or IEC 60870-5-104 protocol Remote RTD protection G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
The G60 supports password entry from a local or remote connection. Local access is defined as any access to settings or commands via the front panel interface. This includes both keypad entry and the through the front panel RS232 port.
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|--------------- Clear Relay Records (settings) |--------------- Communications |--------------- Modbus User Map |--------------- Real Time Clock |--------------- Oscillography |--------------- Data Logger |--------------- Demand |--------------- User-Programmable LEDs |--------------- User-Programmable Self Tests |--------------- Control Pushbuttons RW G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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Actual Values |---------- Front panel labels designer |---------- Status |---------- Metering |---------- Transducer I/O |---------- Records |---------- Product Info Maintenance |---------- Modbus Analyzer |---------- Change front panel |---------- Update firmware |---------- Retrieve file G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
The order code is on the product label and indicates the product options applicable. The G60 is available as a 19-inch rack horizontal mount or reduced-size (¾) vertical unit. It consists of the following modules: power supply, CPU, CT/VT, contact input and output, transducer input and output, and inter-relay communications.
ORDER CODES CHAPTER 2: PRODUCT DESCRIPTION 2.3.1 Order codes with enhanced CT/VT modules Table 2-4: G60 order codes for horizontal units - * ** - * * * - F ** - H ** - M ** - P **...
G.703, 2 Channels RS422, 1 Channel 7W RS422, 2 Channels 2.3.2 Order codes with process bus modules Table 2-6: G60 order codes for horizontal units with process bus - * ** - * * * - F ** - H **...
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Enhanced front panel with Turkish display and user-programmable pushbuttons Enhanced front panel with German display Enhanced front panel with German display and user-programmable pushbuttons 7" Graphical front panel display in multiple languages with USB front port and user-programmable pushbuttons 2-12 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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Channel 1 - G.703; Channel 2 - 1300 nm, single-mode Laser G.703, 1 Channel G.703, 2 Channels RS422, 1 Channel 7W RS422, 2 Channels Table 2-7: G60 order codes for reduced-size vertical units with process bus - * ** - * * * - F ** - H **...
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Enhanced front panel with Chinese display and user-programmable pushbuttons Enhanced front panel with Turkish display Enhanced front panel with Turkish display and user-programmable pushbuttons Enhanced front panel with German display Enhanced front panel with German display and user-programmable pushbuttons 2-14 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
Replacement modules can be ordered separately. When ordering a replacement CPU module or front panel, provide the serial number of your existing unit. Not all replacement modules apply to the G60 relay. The modules specified in the order codes for the G60 are available as replacement modules for the G60.
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4 DCmA inputs, 4 DCmA outputs (only one 5A module is allowed) 8 RTD inputs 4 RTD inputs, 4 DCmA outputs (only one 5D module is allowed) 4 DCmA inputs, 4 RTD inputs 8 DCmA inputs 2-16 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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4 DCmA inputs, 4 DCmA outputs (only one 5A module is allowed) 8 RTD inputs 4 RTD inputs, 4 DCmA outputs (only one 5D module is allowed) 4 DCmA inputs, 4 RTD inputs 8 DCmA inputs G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 2-17...
The UR samples its AC signals at 64 samples per cycle, that is, at 3840 Hz in 60 Hz systems, and 3200 Hz in 50 Hz systems. The sampling rate is dynamically adjusted to the actual system frequency by an accurate and fast frequency tracking system. The A/D converter has the following ranges of AC signals: 2-18 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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Measured analog values and binary signals can be captured in COMTRADE format with sampling rates from 8 to 64 samples per power cycle. Analog values can be captured with Data Logger, allowing much slower rates extended over long period of time. G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 2-19...
STATOR DIFFERENTIAL Pickup: 0.050 to 1.00 pu in steps of 0.01 Slope 1 and 2: 1 to 100% in steps of 1 Break 1: 1.00 to 1.50 pu in steps of 0.01 2-20 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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> 2.0 × CT: ±1.5% of reading > 2.0 × CT rating Curve shapes: IEEE Moderately/Very/Extremely Inverse; IEC (and BS) A/B/C and Short Inverse; GE IAC Inverse, Short/Very/ Extremely Inverse; I t; FlexCurves™ (programmable); Definite Time (0.01 s base curve) Curve multiplier: Time Dial = 0.00 to 600.00 in steps of 0.01...
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±3% of operate time or ±5 cycles, whichever is greater Operate time: <5 cycles at 1.10 × pickup at 60 Hz SENSITIVE DIRECTIONAL POWER Measured power: 3-phase, true RMS Number of stages: 2-22 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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<30 ms at 1.10 × pickup at 60 Hz Timer accuracy: ±3% of operate time or ±1/4 cycle (whichever is greater) NEUTRAL OVERVOLTAGE Pickup level: 0.004 to 3.000 pu in steps of 0.001 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 2-23...
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Sub-harmonic element operating time: 0.6 to 1.2 s Sub-harmonic element dropout level accuracy:102 to 103% of pickup Time delay accuracy: ±3% of time delay setting or ± 4 ms, whichever is greater 2-24 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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0 to 65.535 s in steps of 0.001 Reset delay: 0 to 65.535 s in steps of 0.001 Timer accuracy: ±3% of operate time or ±1/4 cycle (whichever is greater) 95% settling time for df/dt: <24 cycles G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 2-25...
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None, LV1 & DV2, DV1 & LV2, DV1 or DV2, DV1 xor DV2, DV1 & DV2 (L = Live, D = Dead) S-CLS MAX dF: 0.10 to 2.00 Hz in steps of 0.01 S-CLS MIN dF: 0.00 to 1.00 Hz in steps of 0.01 2-26 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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±100 ms or 2%, whichever is greater Timer accuracy (hot curve): ±500 ms or 2%, whichever is greater for I < 0.9 × k × I and I / (k × I ) > 1.1 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 2-27...
20 ms to 60 days Pickup and dropout delay: 0.000 to 65.535 s in steps of 0.001 NON-VOLATILE LATCHES Type: set-dominant or reset-dominant Number: 16 (individually programmed) Output: stored in non-volatile memory 2-28 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
±3% or ±4 ms, whichever is greater 2.5.3 Monitoring OSCILLOGRAPHY Maximum records: Sampling rate: 64 samples per power cycle Triggers: any element pickup, dropout, or operate; contact input change of state; contact output change of state; FlexLogic equation G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 2-29...
±1.0% of reading RMS VOLTAGE Accuracy: ±0.5% of reading from 10 to 208 V REAL POWER (WATTS) Accuracy at 0.1 to 1.5 x CT rating and 0.8 to 1.2 x VT rating: 2-30 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
±2.0% 2.5.5 Inputs AC CURRENT CT rated primary: 1 to 50000 A CT rated secondary: 1 A or 5 A by connection Relay burden: < 0.2 VA at rated secondary Conversion range: G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 2-31...
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Types (3-wire): 100 Ω Platinum, 100 and 120 Ω Nickel, 10 Ω Copper Sensing current: 5 mA Range: –50 to +250°C Accuracy: ±2°C Isolation: 36 V pk-pk REMOTE RTD INPUTS Wire type: three-wire 2-32 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
100 to 240 V at 50/60 Hz Minimum AC voltage: 88 V at 25 to 100 Hz Maximum AC voltage: 265 V at 25 to 100 Hz Voltage loss hold-up: 200 ms duration at maximum load G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 2-33...
1 to 2.5 mA FORM-A CURRENT MONITOR Threshold current: approx. 80 to 100 mA FORM-C AND CRITICAL FAILURE RELAY Make and carry for 0.2 s: 30 A as per ANSI C37.90 Carry continuous: 2-34 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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1.6 A at L/R = 20 ms 0.8 A L/R = 40 ms CONTROL POWER EXTERNAL OUTPUT (For dry contact input) Capacity: 100 mA DC at 48 V DC Isolation: ±300 Vpk DIRECT OUTPUTS Output points: G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 2-35...
Supports IEC 61850 Edition 2.0. See the UR Family Communications Guide and its conformance statements. RS232 (Enhanced and standard front panels) Front port: 19.2 kbps, Modbus RTU USB (Graphical front panel) Front port: USB 2.0 type B G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 2-37...
SHIELDED TWISTED-PAIR INTERFACE OPTIONS Interface type Typical distance RS422 1200 m G.703 100 m RS422 distance is based on transmitter power and does not take into consideration the clock source provided by the user. 2-38 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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125 km single mode Typical distances listed are based on the following assumptions for system loss. As actual losses vary from one installation to another, the distance covered by your system can vary. G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 2-39...
IP20 front, IP54 front with graphical front panel, IP10 back 2.5.13 Environmental AMBIENT TEMPERATURES Storage temperature: –40 to 85°C Operating temperature: –40 to 60°C; the LCD contrast can be impaired at temperatures less than –20°C 2-40 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
UL 508 e83849 NKCR Safety UL C22.2-14 e83849 NKCR7 Safety UL 1053 e83849 NKCR Safety IEC 60255-27 Insulation: class 1, Pollution degree: 2, Over voltage cat II 1 Not tested by third party. G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 2-41...
Normally, cleaning is not required. When dust has accumulated on the front panel display, wipe with a dry cloth. To avoid deterioration of electrolytic capacitors, power up units that are stored in a de-energized state once per year, for one hour continuously. 2-42 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
For any issues, contact GE as outlined in the For Further Assistance section in chapter 1. Check that you have the latest copy of the G60 Instruction Manual and the UR Family Communications Guide, for the applicable firmware version, at http://www.gegridsolutions.com/multilin/manuals/index.htm...
3.2.1 Horizontal units The G60 is available as a 19-inch rack horizontal mount unit with a removable front panel. The front panel can be specified as either standard or enhanced at the time of ordering. The enhanced front panel contains additional user-programmable pushbuttons and LED indicators.
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CHAPTER 3: INSTALLATION PANEL CUTOUTS Figure 3-1: Horizontal dimensions (enhanced front panel) Figure 3-2: Horizontal mounting (enhanced and graphical front panel) G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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PANEL CUTOUTS CHAPTER 3: INSTALLATION Figure 3-3: Horizontal mounting and dimensions (standard front panel) Figure 3-4: Horizontal dimension (graphical front panel) G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
3.2.2 Vertical units The G60 is available as a reduced size (¾) vertical mount unit, with a removable front panel. The front panel can be specified as either standard or enhanced at the time of ordering. The enhanced front panel contains additional user- programmable pushbuttons and LED indicators.
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CHAPTER 3: INSTALLATION PANEL CUTOUTS Figure 3-6: Vertical and mounting dimensions (standard front panel) For side-mounting G60 devices with the enhanced front panel, see the following documents available on the UR DVD and the GE Grid Solutions website: • GEK-113180 —...
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PANEL CUTOUTS CHAPTER 3: INSTALLATION For side-mounting G60 devices with the standard front panel, use the following figures. Figure 3-7: Vertical side-mounting installation (standard front panel) G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
Two-slot wide modules take their slot designation from the first slot position (nearest to CPU module), indicated by an arrow marker on the terminal block. The figure shows an example of rear terminal assignments. 3-10 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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Wire connections to these two modules at 13 inch-pounds. Figure 3-10: CPU modules and power supply The following figure shows the optical connectors for CPU modules. Figure 3-11: LC fiber connector (left) and ST fiber connector (right) G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 3-11...
3.3.2 Dielectric strength Dielectric strength is the maximum electric strength that can be sustained without breakdown. It is measured in volts. The table shows the dielectric strength of the UR-series module hardware. G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 3-13...
The power supply module can be ordered for two possible voltage ranges, and the G60 can be ordered with or without a redundant power supply module option. Each range has a dedicated input connection for proper operation. The ranges are as follows (see the Specifications section of chapter 2 for details): •...
These modules have enhanced diagnostics that can automatically detect CT/VT hardware failure and take the relay out of service. CT connections for both ABC and ACB phase rotations are identical, as shown in the Typical Wiring Diagram. G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 3-15...
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UR models. Substitute the tilde “~” symbol with the slot position of the module in the following figure. Figure 3-16: CT/VT module wiring 3-16 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
3.3.5 Process bus modules The G60 can be ordered with a process bus interface module. The module interfaces with the HardFiber Process Bus System, or HardFiber Brick, allowing bidirectional IEC 61850 fiber optic communications with up to eight HardFiber Bricks.
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Where a tilde “~” symbol appears, substitute the slot position of the module. Where a number sign “#” appears, substitute the contact number. 3-18 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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~5a, ~5c 2 Inputs 2 Outputs Solid-State Solid-State ~6a, ~6c 2 Inputs 2 Outputs Not Used Not Used ~7a, ~7c 2 Inputs 2 Outputs Solid-State Solid-State ~8a, ~8c 2 Inputs Not Used 3-20 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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CHAPTER 3: INSTALLATION WIRING Figure 3-18: Contact input and output module wiring (Sheet 1 of 2) G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 3-21...
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CHAPTER 3: INSTALLATION Figure 3-19: Contact input and output module wiring (Sheet 2 of 2) For proper functionality, observe the polarity shown in the figures for all contact input and output connections. 3-22 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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G60 input even when the output is open, if there is a substantial distributed capacitance (represented by C1) present in the wiring between the output and the G60 input and the debounce time setting in the G60 relay is low enough.
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This operation of contact inputs also can be prevented by using the Auto-Burnish contact inputs or contact inputs with active impedance. Figure 3-22: Contact input connected to a contact output with resistor (R2) across the input 3-24 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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Eq. 3-2 The 2 mA current is used in case the contact input is connected across the GE Form A contact output with voltage monitoring. Otherwise use the amperage of the active circuit connected to the contact input when its contact output is open and the voltage across the contact input is third trigger threshold to calculate the resistor value.
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Consequently, the threshold voltage setting is also defined per group of two contact inputs. The auto-burnish feature can be disabled or enabled using the DIP switches found on each daughter card. There is a DIP switch for each contact, for a total of 16 inputs. 3-26 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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Contact inputs susceptible to parasitic capacitance caused by long cable runs affected by switching surges from external circuits can result in inadvertent activation of contact inputs with the external contact open. In this case, GE recommends using the contact I/O module with active impedance circuit.
The following figure illustrates the transducer module types (5A, 5C, 5D, 5E, and 5F) and channel arrangements that can be ordered for the relay. 3-28 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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CHAPTER 3: INSTALLATION WIRING Where a tilde “~” symbol appears, substitute the slot position of the module. Figure 3-26: Transducer input/output module wiring The following figure show how to connect RTDs. G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 3-29...
EnerVista UR Setup software provided with the relay. Cabling for the RS232 port is shown in the following figure for both 9-pin and 25-pin connectors. The baud rate for this port can be set, with a default of 115200 bps. 3-30 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
Figure 3-28: RS232 front panel port connection 3.3.9 CPU communication ports 3.3.9.1 Overview In addition to the front panel RS232 port, there is a rear RS485 communication port. The CPU modules do not require a surge ground connection. G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 3-31...
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This common voltage is implied to be a power supply common. Some systems allow the shield (drain wire) to be used as common wire and to connect directly to the G60 COM terminal (#3); others function correctly only if the common wire is connected to the G60 COM terminal, but insulated from the shield.
IRIG-B is a standard time code format that allows stamping of events to be synchronized among connected devices. The IRIG-B code allows time accuracies of up to 100 ns. Using the IRIG-B input, the G60 operates an internal oscillator with 1 µs resolution and accuracy.
The direct inputs and outputs feature makes use of the type 7 series of communications modules and allows direct messaging between UR devices. The communications modules are outlined in the table later in this section. 3-34 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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UR1-Tx1 to UR2-Rx1, UR2-Tx1 to UR3-Rx1, UR3-Tx1 to UR4-Rx1, and UR4-Tx1 to UR1-Rx1 for the first ring; and UR1-Tx2 to UR4-Rx2, UR4-Tx2 to UR3-Rx2, UR3-Tx2 to UR2-Rx2, and UR2-Tx2 to UR1-Rx2 for the second ring. G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 3-35...
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Those that apply depend on options purchased. The options are outlined in the Inter-Relay Communications section of the Order Code tables in Chapter 2. All of the fiber modules use ST type connectors. 3-36 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
The following figure shows the configuration for the 72, 73, 7D, and 7K fiber-laser modules. Figure 3-37: 7x Laser fiber modules The following figure shows configuration for the 2I and 2J fiber-laser modules. G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 3-37...
The following figure shows the typical pin interconnection between two G.703 interfaces. For the actual physical arrangement of these pins, see the Rear Terminal Layout section earlier in this chapter. All pin interconnections are to be maintained for a connection to a multiplexer. 3-38 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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Once the clips have cleared the raised edge of the chassis, engage the clips simultaneously. When the clips have locked into position, the module is inserted fully. G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 3-39...
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(S1 = ON) and set timing mode to loop timing (S5 = OFF and S6 = OFF). The switch settings for the internal and loop timing modes are shown. 3-40 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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One source lies on the G.703 line side of the interface while the other lies on the differential Manchester side of the interface. Figure 3-44: G.703 dual loopback mode G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 3-41...
(data module 1) connects to the clock inputs of the UR RS422 interface in the usual way. In 3-42 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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Figure 3-47: Timing configuration for RS422 two-channel, three-terminal application Data module 1 provides timing to the G60 RS422 interface via the ST(A) and ST(B) outputs. Data module 1 also provides timing to data module 2 TT(A) and TT(B) inputs via the ST(A) and AT(B) outputs. The data module pin numbers have been omitted in the figure because they vary by manufacturer.
For the direct fiber channel, address power budget issues properly. When using a laser interface, attenuators can be necessary to ensure that you do not exceed maximum optical input power to the receiver. Figure 3-49: RS422 and fiber interface connection 3-44 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
Connection — as per all fiber optic connections, a Tx to Rx connection is required The UR-series C37.94 communication module can be connected directly to any compliant digital multiplexer that supports the IEEE C37.94 standard. The figure shows the concept. G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 3-45...
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5.60. For customers using firmware release 5.60 and higher, the module can be identified with "Rev D" printed on the module and is to be used on all ends of G60 communication for two and three terminal applications.
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When the clips have locked into position, the module is inserted fully. Figure 3-54: IEEE C37.94 timing selection switch setting Modules shipped since January 2012 have status LEDs that indicate the status of the DIP switches, as shown in the following figure. G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 3-47...
Fiber optic cable length — Up to 11.4 km • Fiber optic connector — Type ST • Wavelength — 1300 ±40 nm • Connection — As per all fiber optic connections, a Tx to Rx connection is required 3-48 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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5.60. For customers using firmware release 5.60 and higher, the module can be identified with "Rev D" printed on the module and is to be used on all ends of G60 communication for two and three terminal applications.
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When the clips have locked into position, the module is inserted fully. Figure 3-57: C37.94SM timing selection switch setting Modules shipped since January 2012 have status LEDs that indicate the status of the DIP switches, as shown in the following figure. 3-50 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
3.5 Field and stator ground modules GPM field and stator ground fault protection modules can be used with the G60. The stator ground unit, for example, works in combination with the G60 to provide 100% stator ground fault protection during generator start-up, running, and stopped conditions.
LED is on and the "In Service" LED is off. The relay in the “Not Programmed” state blocks signaling of any output relay. These conditions remain until the relay is explicitly put in the “Programmed” state. 3-52 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
To communicate via the RS232 port, use a standard straight-through serial cable. Connect the DB-9 male end to the relay and the DB-9 or DB-25 female end to the computer COM2 port as described in the CPU Communication Ports section earlier in this chapter. G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 3-53...
This device (catalog number F485) connects to the computer using a straight-through serial cable. A shielded twisted-pair (20, 22, or 24 AWG) connects the F485 converter to the G60 rear communications port. The converter terminals (+, –, GND) are connected to the G60 communication module (+, –, COM) terminals. See the CPU Communication Ports section in chapter 3 for details.
Click the Next button to begin the installation. The files are installed in the directory indicated, and the installation program automatically creates icons and adds an entry to the Windows start menu. G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 3-55...
3.8 Add device to software You connect remotely to the G60 through the rear RS485 or Ethernet port with a computer running the EnerVista UR Setup software. The G60 also can be accessed locally with a computer through the front panel RS232 port or the rear Ethernet port using the Quick Connect feature.
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From the Windows desktop, right-click the My Network Places icon and select Properties to open the network connections window. Or in Windows 7, access the Network and Sharing Center in the Control Panel. Right-click the Local Area Connection icon and select Properties. G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 3-57...
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Select the Internet Protocol (TCP/IP) item from the list, and click the Properties button. Click the “Use the following IP address” box. Enter an IP address with the first three numbers the same as the IP address of the G60 relay and the last number different (in this example, 1.1.1.2).
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Minimum = 0ms, Maximum = 0ms, Average = 0 ms Pinging 1.1.1.1 with 32 bytes of data: verify the physical connection between the G60 and the computer, and double-check the programmed IP address in setting, then repeat step 2. Product Setup Communications Network IP Address...
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Click the Quick Connect button to open the window. Select the Ethernet interface and enter the IP address assigned to the G60, then click the Connect button. The EnerVista UR Setup software creates a site named “Quick Connect” with a corresponding device also named “Quick Connect”...
For the RS232 connection, a computer with an RS232 port and a serial cable are required. To use the RS485 port at the back of the relay, a GE Grid Solutions F485 converter (or compatible RS232-to-RS485 converter) is required. See the F485 instruction manual for details.
SEL-2032. This option enables display of a terminal window to allow interaction with the other device. 11. Click the Read Order Code button to connect to the G60 and upload the order code to the software. If a communications error occurs, ensure that the EnerVista software serial communications values entered in the previous step correspond to the relay setting values, and also ensure that the same IP address is not assigned to multiple G60 ports.
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12. If using a gateway to connect to the device, select Yes from the drop-down list. 13. Click the Read Order Code button to connect to the G60 device and upload the order code. If the device was entered already, a message displays "Device ’x’ is also using IP address.." If a communications error occurs, ensure that the values entered in the previous steps correspond to the relay setting values, and also ensure that the same IP address is not assigned to multiple G60 ports.
ADD DEVICE TO SOFTWARE CHAPTER 3: INSTALLATION The device has been configured for Ethernet communications. Proceed to the Connect to the G60 section to begin communications. 3.8.4 Configure modem connection A modem connection allows a computer to communicate with a UR device over phone lines.
When unable to connect because of an "ACCESS VIOLATION," access Device Setup and refresh the order code for the device. When unable to connect, ensure that the same IP address is not assigned to multiple G60 ports, for example under Settings > Product Setup > Communications > Network.
Connect a nine-pin to nine-pin RS232 serial cable to the computer and the front panel RS232 port. Verify that the latest version of the EnerVista UR Setup software is installed (available from the GE EnerVista DVD or online from http://www.gegridsolutions.com/multilin). See the software installation section if not already installed.
Connect" and displays them in the Online Window. Expand the sections to view data directly from the G60 device. Use the Device Setup button to change the site name. Each time that the EnerVista software is initialized, click the Quick Connect button to establish direct communications to the G60.
IID — Instantiated IED capability description file — Actual settings on UR • CID — Configured IED description file — Settings sent to the UR (may or may not be actual settings) The import is done in the Offline Window area. 3-68 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
3.12 Connect to D400 gateway A GE Multilin D400 Substation Gateway can be used to collect data from UR devices in a local area network (LAN). It collects metering, status, event, and fault report data from serial or LAN-based intelligent substation devices, and it pre-processes the data.
These are the configuration/settings files in the IEC 61850 SCL/IID format. The ur.iid file is saved with a "_YYMMDDhhmmss" retrieval time stamp, for example ur_170525183124.iid. It is stored in the D400 folder system using the UR site and device name. 3-70 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
The EnerVista UR Setup software is provided with every G60. This chapter outlines the EnerVista software interface features. The EnerVista UR Setup Help File also provides details for getting started and using the software interface.
IP Address IP Subnet Mask IP Routing When a settings file is loaded to a G60 that is in-service, the following sequence occurs: The G60 takes itself out of service. The G60 issues a UNIT NOT PROGRAMMED major self-test error.
Site list / online window area Settings list / offline window area Software windows, with common toolbar Settings file data view windows, with common toolbar Workspace area with data view tabs Status bar 10. Quick action hot links G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
4.1.6 Protection summary window The Protection Summary is a graphical user interface to manage elements, such as enabling and disabling them. Access it under Settings > Protection Summary. See the Settings chapter for information on use. G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
Right-click the selected device or settings file and select the Template Mode > Create Template option. The settings file template is now enabled and the file menus displayed in light blue. A message displays. The settings file is now in template editing mode. G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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Figure 4-4: Settings template with all settings specified as locked Specify the settings to make viewable by clicking them. A setting available to view is displayed against a yellow background. G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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To display only the settings available for editing: Select an installed device or a settings file from the left menu of the EnerVista UR Setup window. Apply the template by selecting the Template Mode > View In Template Mode option. G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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Once the template has been applied, users are limited to edit the settings specified by the template, but all settings are shown. The effect of applying the template to the phase time overcurrent settings is shown as follows. G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
4.1.8.1 Lock FlexLogic equations To lock individual entries of a FlexLogic equation: Right-click the settings file or online device and select the Template Mode > Create Template item to enable the settings template feature. G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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The effect of applying the template to the FlexLogic entries is shown here. Figure 4-10: Locking FlexLogic entries through settings templates The FlexLogic entries are also shown as locked in the graphical view and on the front panel display. 4-10 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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Right-click the setting file in the offline window area and select the Edit Device Properties item. The window opens. Figure 4-12: Settings file properties window G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 4-11...
When a settings file is transferred to a G60 device, the date, time, and serial number of the G60 are sent back to EnerVista UR Setup and added to the settings file on the local computer. This information can be compared with the G60 actual values at any later date to determine if security has been compromised.
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4.1.9.2 Online device traceability information The G60 serial number and file transfer date are available for an online device through the actual values. Select the Actual Values > Product Info > Model Information menu item within the EnerVista online window as shown in the example.
The enhanced front panel consists of LED panels, an RS232 port, keypad, LCD display, control pushbuttons, and optional user-programmable pushbuttons. The front panel is hinged to allow access to removable modules inside the chassis. 4-14 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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The standard front panel can be horizontal or vertical. The following figure shows the horizontal front panel. Figure 4-18: Standard horizontal front panel The following figure shows the vertical front panel for relays ordered with the vertical option. G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 4-15...
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The USB port is the square type B. User-programmable pushbuttons 9 to 16 can be programmed among the 10 pushbuttons on the left and right sides of the display. 4-16 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
The front panel can be viewed and used in the EnerVista software, for example to view an error message displayed on the front panel or the LEDs. To view the front panel in EnerVista software: Click Actual Values > Front Panel, then any option. G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 4-17...
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The footer dynamically labels the Tab, or control, pushbuttons immediately below. Page content displays between the header and footer. The pages are arranged for navigation in a hierarchical structure similar to that used for the enhanced and standard front panels. 4-18 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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Active targets symbol. View error messages by pressing the Menu Tab pushbutton, then accessing the TARGETS menu. G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 4-19...
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Factory default names are SLD 1, SLD 2, and so on. Pages that have no configured content have a blank Tab pushbutton label, and the Tab pushbutton does nothing. The label for the current page has a blue background. 4-20 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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Single-line diagram example The following example outlines how to create a circuit breaker diagram, then how to close the second circuit breaker. The figure shows six switches, two breakers, feeder, and ground. G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 4-21...
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Line Diagram Editor. Add the four switches for the top line by clicking the GE switch symbol in the toolbar, then clicking in the window. If the UR device is not online, the software attempts to connect. Double-click to edit properties. Rotate switches SW569 and SW5682 to 270 degrees.
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Add the two lower switches. Leave rotation at 0 degrees. Add the breakers by clicking the GE breaker symbol in the toolbar, then clicking in the window. Double-click to edit properties, rotating 90 degrees and setting the color to red (open).
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Load — Opens single-line diagram files, which replaces all five windows with that in the file To save drawings as a separate file, click File > Save As. The file is saved in the .mif format. 4-24 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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Up to 32 static symbols can be used per single-line diagram. To add a symbol, click it in the toolbox, then click in the window. Double-click the symbol to open its properties window to set orientation. G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 4-25...
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Each breaker and each disconnect can be configured to use the UR-style symbols, IEC symbols, or simple square/slash symbols as shown in the following figure. The symbols assume horizontal symbol orientation, red - closed color, and green - open scheme. With vertical orientation, they are rotated 90 degrees. 4-26 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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(horizontal or vertical), color scheme (red - closed, or red - open), and assigned side button (if any). If the selected breaker or disconnect element G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 4-27...
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A question mark displays in a symbol on the graphical front panel when status is bad. The question mark does not rotate with orientation. Figure 4-34: Symbols when status is bad The following figures show the orientation available for the static components. The default position is 0 degrees. 4-28 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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CHAPTER 4: INTERFACES FRONT PANEL INTERFACE Figure 4-35: Single-line diagram static symbol orientation (sheet 1 of 2) G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 4-29...
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User-programmable pushbuttons 9 to 16 can be programmed among the 10 pushbuttons on the left and right sides of the screen display. They show dynamically and provide a means to perform the same control as a hardware user- programmable pushbutton. 4-30 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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To add a metering component, click the M symbol in the toolbox, then click in the window. Drag it to its final location. Double-click it to open the properties window. The figure shows the properties that can be edited. G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 4-31...
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Self Reset, so the alarm displays in a solid color. The blue alarm type is Acknowledgeable, so the alarm flashes until it is acknowledged, for example by navigating with the arrow keys and pressing the ENTER button. The alarm then remains blue until the trigger condition is eliminated. 4-32 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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Alarm types of each window can be configured as Self Reset, Latched, or Acknowledgeable. In Self Reset mode, the window lighting follows the state of the configured FlexLogic operand. The self-reset mode alarm sequence conforms to ISA-18.1-1979 (R2004) standard type A 4 5 6. G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 4-33...
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In Acknowledgeable mode, both Off to On and On to Off state changes in the configured operand cause the background to flash; the window must be acknowledged/reset to cancel flashing. This mode conforms to ISA-18.1-1979 (R2004) standard type R-6. 4-34 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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The last window is not configured and displays blank/grey. In order for the Ethernet and battery alarms to work, the corresponding self-test alarms have been enabled under Settings > Product Setup > User-Programmable Self Tests (not shown). G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 4-35...
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Five tabular metering pages can be configured, while there can be a phasor page for each configured AC source. They display on the graphical front panel using the Metering Tab pushbutton. The path to the editor is Settings > Product Setup > Graphical Panel > Metering Editor. 4-36 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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Content to display is configured with the cell lines. The content can be actual values, a status indicator, or text. • Actual value — Select from the FlexAnalogs applicable to the G60, where a FlexAnalog is an analog parameter •...
The decimal key initiates and advances to the next character in text edit mode or enters a decimal point. key can be pressed at any time for context-sensitive help messages. HELP 4-38 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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Tab pushbutton — Five pushbuttons under the display. They navigate through the page hierarchy, and on some pages activate other actions. The display footer dynamically labels the page or action that is activated by the tab pushbutton. G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 4-39...
“Enabled” or “Latched.” If a protection element target setting is “Enabled,” then the corresponding event-cause LEDs remain on as long as the operand associated with the element remains asserted. If a 4-40 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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Support for applying a customized label beside every LED is provided. Default labels are shipped in the label package of every G60, together with custom templates. The default labels can be replaced by user-printed labels. User customization of LED operation is of maximum benefit in installations where languages other than English are used to communicate with operators.
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The default labels are intended to represent the following: • GROUP 1...6 — The illuminated GROUP is the active settings group • SYNCHROCHECK NO1(4) IN-SYNCH — Voltages have satisfied the synchrocheck element 4-42 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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TRIP — Indicates that the selected FlexLogic operand serving as a trip output has operated. This indicator latches; initiate the reset command to reset the latch. • ALARM — Indicates that the selected FlexLogic operand serving as an alarm output has operated G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 4-43...
NEUTRAL/GROUND — LED 14 — Indicates that neutral or ground was involved 4.2.5 Front panel labelling 4.2.5.1 Enhanced front panel The following procedure requires these pre-requisites: • The UR front panel label cutout sheet (GE part number 1006-0047) has been downloaded from http://www.gegridsolutions.com/products/support/ur/URLEDenhanced.doc and printed • Small-bladed knife To create custom LED and pushbuttons labels for the enhanced front panel: Start the EnerVista UR Setup software.
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LED labels. Use the tool with the printed side containing the GE part number facing the user. The label package shipped with every G60 contains the three default labels, the custom label template sheet, and the label removal tool.
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Bend the tab at the center of the tool tail as shown. To remove the LED labels from the G60 front panel and insert the custom labels: Use the knife to lift the LED label and slide the label tool underneath. Ensure that the bent tabs are pointing away from the relay.
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Slide the new LED label inside the pocket until the text is properly aligned with the LEDs, as shown. To remove the user-programmable pushbutton labels from the G60 front panel and insert the custom labels: Use the knife to lift the pushbutton label and slide the tail of the label tool underneath, as shown. Ensure that the bent G60 GENERATOR PROTECTION SYSTEM –...
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Remove the tool and attached user-programmable pushbutton label. Slide the new user-programmable pushbutton label inside the pocket until the text is properly aligned with the 4-48 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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To create LED and pushbutton labels for a standard front panel: In the EnerVista software, if the G60 is not already listed in the Offline Window area, add it by right-clicking it and selecting the Add Device to Offline Window option.
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4.2.5.3 Graphical front panel The G60 includes software for labelling the LEDs and pushbuttons on the graphical front panel and a sticker sheet with pre-printed and blank labels. The pre-printed labels are on the top-left of the template sheet, and the blank labels are on the bottom-right.
Use the down, right, left, and up arrows to navigate the menu. The up and down arrow keys move within a group of headers, sub-headers, setting values, or actual MESSAGE G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 4-51...
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The Page Up and Page Down Tab pushbuttons also navigate through the list. When there is only a single page of options, they jump to the first and last entries. The options displayed depend on order code. 4-52 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
This flash message momentarily appears as confirmation of the storing process. Numerical values that contain decimal places are rounded-off if more decimal place digits are entered than specified by the step value. G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 4-53...
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An example is a confirmation message upon saving settings. This setting specifies how long to display the message. Press the Menu pushbutton to display the main menu. 4-54 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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Figure 4-56: Main menu Use the Up or Down pushbutton to select SETTINGS, then press the Right or ENTER pushbutton. Figure 4-57: Settings menu With PRODUCT SETUP selected, press the Right or ENTER pushbutton. G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 4-55...
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As the FLASH MESSAGE TIME setting accepts a numerical value, a keypad displays. The time is to be changed to 4.0 seconds. 4-56 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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The shift key (up arrow on keyboard) is green upon activation, while the keyboard letters switch to upper case. The globe key (shown greyed-out) toggles the keyboard language between English and another display language selected, for example between English and French. G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 4-57...
Each phasor page has a name, which consists of the value of the SOURCE # NAME setting appended with " Phasors." Phasor pages that have no configured CTs or VTs do not have a Tab pushbutton, and phasor pages that have no configured cells cannot be displayed. 4-58 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
4.2.9 Breaker control The G60 can interface with associated circuit breakers. In many cases the application monitors the state of the breaker, that can be presented on front panel LEDs, along with a breaker trouble indication. Breaker operations can be manually initiated from the front panel keypad or automatically initiated from a FlexLogic operand.
The information in this section refers to password security. For information on how to set the password for the first time or change CyberSentry passwords, see the previous chapter or the Settings > Product Setup > Security > CyberSentry section in the next chapter. 4-60 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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When entering a settings or command password via EnerVista or any serial interface, the user must enter the corresponding connection password. If the connection is to the back of the G60, the remote password must be used. If the connection is to the RS232 port of the front panel, the local password must be used.
By default, when an incorrect Command or Setting password has been entered via the front panel three times within five minutes, the FlexLogic operand is set to “On” and the G60 does not allow settings or command level LOCAL ACCESS DENIED access via the front panel for five minutes.
Works with all UR firmware versions The figure shows an example where several inputs are used to trigger an output. With the OR function, any one of the inputs can trigger the output. G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 4-63...
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This section explains how to use Engineer. It outlines the following topics: • Design logic • Send file to and from device • Monitor logic • View front panel • Generate connectivity report • Preferences 4-64 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
Preparation — Under Settings > Inputs/Outputs > Virtual Outputs, virtual outputs 3 and 4 are named DLTrigger Top logic — Seven-minute timer trigger Bottom logic — Turn on LED 9 for 10 seconds when the trigger starts G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 4-65...
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This procedure uses input / output logic as an example. To create a logic diagram: In the Offline Window area, access Engineer for the device, then Logic Designer. If the device is not listed, right-click 4-66 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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Add the input blocks to the logic diagram. For example, click the I/O Tokens tab on the right, click the Input element, then click in the logic sheet to add it. Or drag-and-drop it. G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 4-67...
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Line option. The cursor needs to be at the connection point to end the line, not elsewhere on the block. Note that the outline color is no longer red on the blocks. 4-68 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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The warning "input using disabled feature" means that input needs to be enabled. Double-click the block, click the View Associated Screen button, enable the setting, save, and recompile. The output and messages are explained in the next section. G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 4-69...
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IEC 61850 panel and thereby become synchronized. The CID file and the IID file (depending on the preference 'Do not update IID file when updating SCL files') are updated. If the CID file is not already there, it is generated. 4-70 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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FLEXLOGIC DESIGN USING ENGINEER The location of these files is C:\ProgramData\GE Power Management\urpc, for example, in the Offline and Online folders. Any FlexLogic equations entered in the Offline Window area are erased. The logic drawn in the Logic Designer window in Engineer in the Offline Window area remain.
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Click the Ok button to save and exit from the window. In the logic diagram, select an element, then click in the drawing area to add it, click again to add a second box, and so on. 4-72 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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Optimization Summary. Changes also display when the FlexLogic Equation Editor is accessed. The logic diagram does not change. In the example shown, no lines were saved to free up space. Figure 4-81: Code optimization results G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 4-73...
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Type in the second text string box, or select any of the 32 previous searches from the drop-down list. Click the Search button. Any results display. The search applies to all tabs, not just the active tab. Double-click a search result to view the item. 4-74 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
When a window opens, select the device to which you want to send the file, then click the Send button and confirm. The order codes must match. The file is sent to the live device. Any errors can be viewed in the log file at the prompt. G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 4-75...
(green box outline). In this case, the battery is weak and needs to be replaced. This can be viewed as the Replace Battery message on the front panel of the device and in the EnerVista software under Actual Values > Front Panel > Front Panel or Display/Keypad. 4-76 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
To save the report and labels, click File > Save As, enter a file name, and select the FPR, JPG, or PDF format. Use the instructions in the second tab of the window to add the labels to the physical device. G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 4-77...
View > Toolbar > Advanced Actions — Active when in Logic Designer. Toggles a toolbar to nudge, rotate, flip, or change the order of an element. View > Show Unused Pins — Enable to display unconnected pins. Disable to eliminate unconnected pins from the view, for example when printing. 4-78 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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File Information The text entered here displays at the bottom right of a diagram when printing, provided that the Show Title Block option is enabled. Note the option to change the logo from the GE logo to your company logo. Display The panel sets how the element boxes display.
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The software displays the color specified when an element is on. There is no color when the element is off. The software displays another color when the status cannot be determined and is unknown. 4-80 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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Options display for filtering, such as recording timing for Virtual Inputs and Outputs, but not Communications Status. 4.4.6.4 COMTRADE waveforms Waveform files are viewable in the EnerVista software. The preferences are unrelated to Engineer and are outlined in the UR Family Communications Guide. G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 4-81...
When you re-launch the EnerVista software, communication is on by default. 4.4.7.2 Token Toolbox Drawing Tools Draw a line. Click and drag to draw. Draw multiple joined lines. Click and drag for each line. Double-click to finish. 4-82 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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Remote inputs from other devices Input from another UR device. Teleprotection inputs/outputs and direct inputs/outputs are mutually exclusive and cannot be used simultaneously. Teleprotection inputs/outputs and direct inputs/outputs are mutually exclusive and cannot be used simultaneously. G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 4-83...
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Tag-In can is used to reference an existing Tag-Out. It joins another diagram to a previous diagram. Boolean Tokens These symbols are used to create FlexLogic Equations. Use them as intermediate logic for the Virtual Output equations. The display can vary from that shown here. 4-84 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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Place a positive one shot and a negative one shot symbol in the Logic Designer diagram Place a timer in the Logic Designer diagram Elements These blocks configure properties of the element or use element operands as input to FlexLogic equations. G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 4-85...
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Set the width of the selected components to the same width as the reference component Same Height Set the height of the selected components to the same height as the reference component 4-86 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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Front, Back Moves current components to the absolute front or back of all viewable layers Forward, Backward Moves current components on layer higher or lower than its original layer hierarchy G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 4-87...
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FLEXLOGIC DESIGN USING ENGINEER CHAPTER 4: INTERFACES 4-88 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
REAL TIME See page 5-110 CLOCK USER-PROGRAMMABLE See page 5-114 FAULT REPORT OSCILLOGRAPHY See page 5-115 DATA LOGGER See page 5-117 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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See page 5-208 NON-VOLATILE See page 5-214 LATCHES SETTINGS SETTING GROUP 1 See page 5-215 GROUPED ELEMENTS SETTING GROUP 2 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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See page 5-368 DIRECT OUTPUTS See page 5-368 TELEPROTECTION See page 5-372 SETTINGS DCMA INPUTS See page 5-374 TRANSDUCER I/O G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
For example, if CT1 = 300 / 5 A and CT2 = 100 / 1 A, then in order to sum these, CT2 is scaled to the CT1 ratio. In this case, the base quantity is 300 A primary, 5 A secondary for CT1, and 300/(100/1) = 3 A secondary for CT2. G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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Not every operand of a given element in a UR relay generates events, only the major output operands. Elements, asserting output per phase, log operating phase output only, without asserting the common three-phase operand event. G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
For example, in the scheme shown in the preceding figure, the user configures one source to be the sum of CT1 and CT2 and can name this source as “Wdg1 I.” G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
(as described earlier) as follows for a maximum configuration: F1, F5, M1, M5, U1, and U5. 5.3 Product setup 5.3.1 Security 5.3.1.1 Security overview The following security features are available: • Password security — Basic security present by default G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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To reset the unit after a lost password: Email GE customer service at multilin.tech@ge.com with the serial number and using a recognizable corporate email account. Customer service provides a code to reset the relay to the factory defaults.
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When entering a settings or command password via EnerVista or any serial interface, the user must enter the corresponding connection password. If the connection is to the back of the G60, the remote password must be used. If the connection is to the RS232 port of the front panel, the local password must be used.
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When an original password has already been used, enter it in the Enter Password field and click the Send Password to Device button. Re-enter the password in the Confirm Password field. 5-10 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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INVALID ATTEMPTS BEFORE LOCKOUT The G60 provides a means to raise an alarm upon failed password entry. If password verification fails while accessing a password-protected level of the relay (either settings or commands), the FlexLogic operand is UNAUTHORIZED ACCESS asserted.
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ACCESS AUTH TIMEOUT immediately denied. If access is permitted and an off-to-on transition of the FlexLogic operand is detected, the timeout is restarted. The status of this timer updates every five seconds. 5-12 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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It is disabled by default to allow access to the device immediately after installation. When security is disabled, all users have administrator access. GE recommends enabling the EnerVista security before placing the device in service. G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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If you force password entry by using this feature, ensure that you know the Administrator password. If you do not know the password and are locked out of the software, contact GE Grid Solutions for the default password of a UR device.
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The EnerVista security management system must be enabled (the Enable Security check box enabled) To modify user privileges: Select the Security > User Management item from the top menu to open the user management window. Locate the username in the User field. G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 5-15...
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This feature requires a CyberSentry software option. See the Order Codes section in chapter 2 for details. The EnerVista software provides the means to configure and authenticate the G60 access using either a server or the device. Access to functions depends on user role.
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When the "Device" button is selected, the G60 uses its local authentication database and not the RADIUS server to authenticate the user. In this case, it uses built-in roles (Administrator, Engineer, Supervisor, Operator, Observer, or Administrator and Supervisor when Device Authentication is disabled), as login accounts and the associated passwords are stored on the G60 device.
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Figure 5-3: Security panel when CyberSentry installed For the Device > Settings > Product Setup > Supervisory option, the panel looks like the following. Figure 5-4: Supervisory panel For the Security panel, the following settings are available. 5-18 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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Administrator is to re-enable Device authentication when Device authentication is disabled. To re-enable Device authentication, the Supervisor unlocks the device for setting changes, and then the Administrator can re- enable Device authentication. G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 5-19...
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LOGIN: Range: Administrator, Engineer, Supervisor, None Operator, Factory (for factory use only), None CHANGE LOCAL See page 5-21 PASSWORDS SESSION See page 5-22 SETTINGS 5-20 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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• Observer — This role has read-only access to all G60 settings. This role allows unlimited concurrent access but it has no download access to any files on the device. Observer is the default role if no authentication has been done to the device.
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In Device authentication mode, the Observer role does not have a password associated with it. In Server authentication mode the Observer role requires a password. If you are locked out of the software, contact GE Grid Solutions for the default password. When using CyberSentry, the default password is "ChangeMe1#".
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After making any required changes, log out. When changing settings offline, ensure that only settings permitted by the role that performs the settings download are changed because only those changes are applied. 5-24 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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Clear Energy command (not applicable to all UR products) Clear Unauthorized Access command Clear Teleprotection Counters command (not applicable to all UR products) Clear All Relay Records command Role Log in Role Log off G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 5-25...
PRODUCT SETUP CHAPTER 5: SETTINGS In addition to supporting syslog, a G60 with CyberSentry also saves the security events in two local security files, these being SECURITY_EVENTS.CSV and SETTING_CHANGES.LOG. Details on these files and how to retrieve them are available in the EnerVista software under Maintenance >...
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Some customers prefer very low currents to display as zero, while others prefer the current to display even when the value reflects noise rather than the actual signal. The G60 applies a cut-off value to the magnitudes and angles of the measured currents.
The path is Settings > Product Setup > Graphical Panel > Home Page. The menu does not display when there is no graphical front panel. 5-28 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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Whenever an annunciator window changes state this list is re-evaluated, which can result in the home page displaying a different annunciator page. The Tabular option displays a configured actual values/metering page. The Targets option displays error messages. G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 5-29...
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If the display rolls, the rolling mode pages remain displaying regardless of the home page or rolling mode delay specified. Each page displays for a few seconds; duration cannot be set. The path is Settings > Product Setup > Graphical Panel > Rolling Mode. 5-30 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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Range: 1 to 10 in steps of 1 Default: 1 This setting specifies the number of rolling pages. During rolling mode, the graphical front panel displays pages from 1 to the selected number. G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 5-31...
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Metering Tab pushbutton on the graphical front panel. The Metering Editor is not used. The figures show setup and preview for monitoring actual values in a table on the graphical front panel. 5-32 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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A maximum of eight Status Inputs can be used per metering page, and 16 in all metering pages. Select the metering input from the drop-down list. The options reflect the FlexLogic operands applicable to the G60. They are inputs for all five metering pages, not just the current page.
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Range: 24-bit color selector Default: Black Set the text color to display in the specified cell. BACK COLOR Range: 24-bit color selector Default: Grey Set the background color to display for the specified cell. 5-34 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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Range: 1 to 12 in steps of 1 Default: 1 This setting specifies the number of integers in the displayed metered value. It can be used to provide for leading character spacing of the display value. G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 5-35...
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User-Programmable Self Tests (not shown). When the alarms are triggered, they display with a red background. An alarm is acknowledged by using the arrow keys on the graphical front panel then pressing the Enter button. 5-36 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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Range: up to 20 alphanumeric characters Default: Page 1...Page 8 Up to 20 characters can be input as the name of each annunciator page. The number of pages depends on the Layout. G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 5-37...
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The background color to display for any triggered cell, for example when alarm is triggered. Configure Range: Configure Default: Configure The Configure button becomes active when the CONTENT field is set to "Actual" or "Mixed." The window configures metered values. 5-38 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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(such as wrong password), IRIG-B clock failure, or breaker trouble, the Event Records display. When a breaker opens, a single-line diagram displays. For the Ethernet and IRIG-B failure operation to work, these functions also have been enabled under Settings > Product Setup > User-Programmable Self Tests. G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 5-39...
Selected records can be cleared from user-programmable conditions with FlexLogic operands. Assigning user- programmable pushbuttons to clear specific records is a typical application for these commands. Since the G60 responds to rising edges of the configured FlexLogic operands, they must be asserted for at least 50 ms to take effect.
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MIN TIME: 0 ms The G60 is equipped with up to two independent serial communication ports. The faceplate RS232 port is intended for local use and is fixed at 19200 baud and no parity. The rear COM2 port be used for either RS485 or RRTD communications.
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5.3.5.3 Ethernet network topology The G60 has three Ethernet ports. Each Ethernet port must belong to a different network or subnetwork. Configure the IP address and subnet to ensure that each port meets this requirement. Two subnets are different when the bitwise AND operation performed between their respective IP address and mask produces a different result.
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SCADA is provided through LAN2. P2 and P3 are connected to LAN2, where P2 is the primary channel and P3 is the redundant channel. In this configuration, P3 uses the IP and MAC addresses of P2. Figure 5-14: Multiple LANs, with redundancy 5-44 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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IP addresses and mask. Configure the network IP and subnet settings before configuring the routing settings. To obtain a list of all port numbers used, for example for audit purposes, contact GE technical support with substantiating information, such as the serial number and order code of your device.
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2 is performed. The delay in switching back ensures that rebooted switching devices connected to the G60, which signal their ports as active prior to being completely functional, have time to completely initialize themselves and become active. Once port 2 is active again, port 3 returns to standby mode.
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UR 7 redundancy Failover is selected for redundancy. 5.3.5.6 Parallel Redundancy Protocol (PRP) The G60 is provided with optional PRP capability. This feature is specified as a software option at the time of ordering. See the Order Codes section in chapter 2 for details.
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The default route is used as the last choice when no other route towards a given destination is found. DEFAULT IPv4 ROUTE GATEWAY ADDRESS: Range: standard IPV4 unicast address format 127.0.0.1 IPv4 NETWORK RT1 DESTINATION: Range: standard IPV4 address format ROUTE 1 127.0.0.1 5-48 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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(RtGwy & Prt1Mask) == (Prt1IP & Prt1Mask) || (RtGwy & Prt2Mask) == (Prt2IP & Prt2Mask) || (RtGwy & Prt3Mask) == (Prt3IP & Prt3Mask) where & is the bitwise-AND operator == is the equality operator || is the logical OR operator G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 5-49...
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PRT2 IP ADDRESS = 10.1.2.2 PRT2 SUBNET IP MASK = 255.255.255.0 IPV4 DEFAULT ROUTE: GATEWAY ADDRESS = 10.1.1.1 STATIC NETWORK ROUTE 1: RT1 DESTINATION = 10.1.3.0/24; RT1 NET MASK = 255.255.255.0; and RT1 GATEWAY = 10.1.2.1 5-50 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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0 disables Modbus over TCP/IP, meaning closes the Modbus TCP port. When the port number is changed to 0, the change takes effect when the G60 is restarted. When it is set to 0, use the front panel or serial port to communicate with the relay.
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Range: 1 to 10080 min. in steps of 1 PERIOD: 1440 min DNP MESSAGE FRAGMENT Range: 30 to 2048 in steps of 1 SIZE: 240 DNP OBJECT 1 Range: 1, 2 DEFAULT VARIATION: 2 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 5-53...
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COMMUNICATIONS PROTOCOL multiple DNP masters (usually an RTU or a SCADA master station). Since the G60 maintains two sets of DNP data change buffers and connection information, two DNP masters can actively communicate with the G60 at one time.
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DNP ADDRESS unique address to each DNP slave. The G60 can specify a maximum of five clients for its DNP connections. These are IP addresses for the controllers to which the G60 can connect. The settings follow. SETTINGS PRODUCT SETUP COMMUNICATIONS DNP PROTOCOL DNP NETWORK CLIENT ADDRESSES ...
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DNP TCP connection for greater than the time specified by this setting, the connection is aborted by the G60. This frees up the connection to be re-used by a client. For any change to take effect, restart the relay.
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The maximum number of simultaneous clients supported by the UR family is five. EnerVista setup for IEC 61850 The EnerVista UR Setup software provides the interface to configure G60 settings for the IEC 61850 protocol. This section describes this interface. The software also supports import/export and merging of IEC 61850 Substation Configuration Language (SCL) files as documented in the UR Family Communications Guide.
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Figure 5-19: IEC 61850 panel Opening the IEC 61850 window while online causes the UR Setup software to retrieve and import an SCL file from the G60. This System Configuration Description (SCD) file contains all the settings in the UR at the time of the file request, both those that are mapped into the IEC 61850 information model (that is, the "public"...
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When the Save button is clicked in the online IEC 61850 window, UR Setup software prepares a configured IED description (CID) file containing all the settings of the UR and sends the CID file to the G60. Upon receipt, the G60 checks the CID file for correctness, going out of service, then back into service when the CID file is accepted.
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Default: TEMPLATE The value entered sets the IED name used by IEC 61850 for the G60. An IED name unique within the network must be entered for proper operation. Valid characters are upper and lowercase letters, digits, and the underscore (_) character.
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Range: status-only, direct-with-normal-security, sbo-with-normal-security Default: sbo-with-normal-security This setting specifies the control service that clients must use to control the TEST MODE FUNCTION of the G60. An "on" control to <LDName>/LLN0.Mod changes TEST MODE FUNCTION to Disabled, an "on-blocked" control changes it to Forcible, and a "test/blocked"...
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Protection logical device has been set to instance name "Prot", the function-related name "Feeder1Prot" and the configuration revision "2016-03-07 08:46." The text is clipped on the right if the line is longer than the available width. The next paragraphs explain how to do this setup. 5-62 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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Figure 5-23: Menu for logical node If the insert option is selected, or the edit option is selected for other than the Master logical device, a logical device parameters edit dialog opens. G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 5-63...
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Each logical device inst name is required to be unique within the device, and it cannot be blank. Also, if the corresponding functional ldName setting is blank, the concatenation of the IED name and the logical device 5-64 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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The UR increments the value of paramRev by one whenever one or multiple setting changes occurs in one Modbus write request by any means (front panel, Modbus, or MMS) other than by SCL file G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 5-65...
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A v7.4 device can send an R-GOOSE message to another v7.4 device when both have R-GOOSE active as the protocol • A v7.4 device can send a GOOSE message to another v7.4 device when both have GOOSE active as the protocol 5-66 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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Navigate to Settings > Product Setup > Communications > IEC 61850 > GOOSE > TxGOOSE > TxGOOSE1 to access the settings for the first TxGOOSE. The settings and functionality for the others are similar. G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 5-67...
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Range: 0 to 129 VisibleString characters Default: TxGOOSE1 The entered value sets the goID value published in TxGOOSE1 messages, and can be used by subscribers to discriminate the TxGOOSE1 messages from other GOOSE messages. 5-68 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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VID values of 0 and 1 are assigned by IEEE 802.1Q to other functions and are not to be used for GOOSE. G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 5-69...
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Also, Port 3 configuration in the CID file is ignored. The Port 3 ConnectedAP elements has no meaning, as ports 2 and 3 use the port 2 MAC address, IP address, and mask. 5-70 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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(test field in edition 1.0 messages) are accepted only when the UR Test Mode Function setting is set to Forcible or Isolated. RxGOOSE messages can be received through any UR Ethernet port. G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 5-71...
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RxGOOSE1 messages. An entered address of zero disables RxGOOSE1. If the publisher is a UR series 7.3x device, the setting needs to match the value of the publisher’s TxGOOSE DST MAC setting. 5-72 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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<GoCBName> is the name of the publishing control block. The G60 translates the ACSI format required for this setting to the MMS format used in GOOSE messages: <LDName>/LLN0$GO$<GoCBName> If the publisher is a UR 7.3x or 7.40 series device, <LDName> is the value of the publisher's Master functional ldName setting if that setting is not empty, otherwise it is the value of the publisher's IED NAME suffixed with "Master".
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7.40 UR Setup RxGOOSE Inputs pages. In this case the Member setting displays as the product-related name used by the publishing IED of the data object or data attribute, in standard SCSM format (e.g. Publisher1LD1/LLN0$ST$Off$stVal). 5-74 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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(supported in version 7.40 and later). When the file format is SCD, the system lists all IEDs inside the SCD file and lets the user select the ones to add. The figure shows a selection being made by importing a CID file using the Add IED function. G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 5-75...
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This setting selects the logic state for the RxGOOSE Boolean1 FlexLogic operand if the UR has just completed startup and the selected RxGOOSE has not yet received a message, or the selected RxGOOSE has lost its connectivity with the publisher. The following choices are available: 5-76 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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Range: None, RxGOOSE1, RxGOOSE2, and so on Default: None This setting selects the GOOSE message containing the value that drives the RxGOOSE DPS1 FlexLogic operand. If set to None, the RxGOOSE DPS1 FlexLogic operand assumes its default state. G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 5-77...
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(supported in version 7.40 and later). When the file format is SCD, the system lists all IEDs inside the SCD file and lets the user select the ones to add. Figure 5-31: RxGOOSE Analog Inputs panel There are 32 RxGOOSE analog inputs. 5-78 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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Range: 0.000 to 1000000000.000 in steps of 0.001 Default: 1.000 This setting specifies the per-unit base value for other G60 features to use with the RxGOOSE Analog1 operand. A FlexElement for instance subtracts two quantities after converting their values to integers rescaled to a common base, the common base being the largest of the base values of the two quantities.
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RptEna attribute is false. Buffered and unbuffered reports Navigate to Settings > Product Setup > Communications > IEC 61850 > Reports > Buffered Reports or Unbuffered Reports. 5-80 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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Also, the control block can be configured to send integrity reports containing the present value of all members either on demand from the client or periodically. A TCP handshaking mechanism causes messages that are not read and acknowledged by the client to be retransmitted. G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 5-81...
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Control blocks and data sets can be pre-configured by sending the G60 a CID file. See the UR Family Communications Guide for details. EnerVista UR Setup also can be used to select the data set members and to pre-configure the control blocks.
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This setting selects the data set whose members' status is reported in Unbuffered Report1 messages using the UR Setup software designator for the data set. The IEC 61850 name of the data sets are configured in the Datasets panel, as described later. G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 5-83...
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The DataSet name is not copied or pasted. In short, use this feature to copy a DataSet Member setting and paste it into another Member setting, a text file, or Word, as examples. G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 5-85...
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Select the member from the drop-down list. Or right-click an entry to copy, paste, delete, or insert. Product setup Navigate to Settings > Product Setup > Communications > IEC 61850 > Product Setup. 5-86 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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Deadband parameters of measured values related to the Energy metering are configured here. Real Time Clock Navigate to Settings > Product Setup > Communications > IEC 61850 > Product Setup > Real Time Clock. G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 5-87...
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The analog value that each deadband setting applies is usually obvious from the name of the setting. However, a tabulation of the analog values and their associated deadband setting can be found in the UR Family Communications Guide. 5-88 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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Auxiliary voltage — 275 x auxiliary VT ration setting • Power (real, reactive, apparent, 3-phase, and 1-phase) — 4 × phase CT primary setting × 1.5 × VT Secondary setting × VT ratio setting G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 5-89...
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While the selected operand is asserted, Bkr0XCBR1.Loc.stVal is true and IEC 61850 commands to BkrCSWI1.Pos and Bkr0XCBR1.Pos are not accepted, and a Negative Response (-Rsp) is issued with the REASON CODE of Blocked-by- switching-hierarchy. 5-90 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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Bkr0XCBR1.BlkOpn.ctlVal signal on the Breaker Control Logic (Sheet 1 of 2) diagram in the Settings > System Setup section later. This signal when true blocks breaker 1 trip control while the operand selected by setting XCBR1 ST.LOC OPERAND is not active. G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 5-91...
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Navigate to Settings > Product Setup > Communications > IEC 61850 > System Setup > Switches > Switch 1 to access the settings that configure the IEC 61850 protocol interface with the first disconnect switch control and status monitoring element. The settings and functionality for the others are similar. 5-92 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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> System Setup section later. These signals force a disconnect switch trip or close control while the operand selected by setting XSWI1 ST.LOC OPERAND is not active. "sbo" here is select-before-operate. Enhanced security means that the G60 reports to the client the disconnect switch 1 position the end of the command sequence.
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SelectEditSG. The setting related to these IEC 61850 commands are described here. Navigate to Settings > Product Setup > Communications > IEC 61850 > Control Elements > Setting Groups to access the setting that configures the IEC 61850 setting group commands. 5-94 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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Navigate to Settings > Product Setup > Communications > IEC 61850 > Settings for Commands to access the settings that configure the IEC 61850 protocol interface for record clear commands. Figure 5-43: Commands panel G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 5-95...
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This setting selects the control model clients must use to successfully control the command CLEAR FAULT REPORTS. "sbo" here is select-before-operate. Enhanced security means that the G60 reports to the client the breaker 1 position at the end of the command sequence.
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Navigate to Settings > Product Setup > Communications > IEC 61850 > GGIO > GGIO2 to access the settings that configure the IEC 61850 protocol interface for Virtual Input commands. Figure 5-45: GGIO2 panel G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 5-97...
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<LDName>/GGIO4.AnIn01.instMag.f. The value of the FlexAnalog operand is converted automatically to the format and scaling required by the standard, that is to say primary amperes, primary volts, and so on. See Appendix A for a list of FlexAnalog operands. 5-98 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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File transfer by IEC 61850 The G60 supports file transfer by IEC 61850. The approach is as follows, using the SISCO AX-S4 61850 client software as an example. In the AX-S4 61850 Explorer window, click the Tools menu and access the SISCO File Transfer Utility.
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NUMBER(80): 80 The G60 contains an embedded web server and can display pages in a web browser. The web pages are organized as a series of menus that can be accessed starting at the G60 “Main Menu.” Web pages are read-only and are available showing DNP and IEC 60870-5-104 points lists, Modbus registers, event records, fault reports, and so on.
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NUMBER: 0 The Trivial File Transfer Protocol (TFTP) can be used to transfer files from the G60 over a network. The G60 operates as a TFTP server. TFTP client software is available from various sources, including Microsoft Windows NT. The dir.txt file obtained from the G60 contains a list and description of all available files, for example event records and oscillography.
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COMMUNICATIONS PROTOCOL connected to a maximum of two masters (usually either an RTU or a SCADA master station). Since the G60 maintains two sets of IEC 60870-5-104 data change buffers, ideally no more than two masters actively communicate with the G60 at one time.
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PRODUCT SETUP The G60 can specify a maximum of five clients for its IEC 104 connections. These are IP addresses for the controllers to which the G60 can connect. A maximum of two simultaneous connections are supported at any given time.
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EXCH 1 DATA ITEM 1 to 20/50 from the G60 memory map can be configured to be included in an EGD exchange. The settings are the starting Modbus register address for the data item in decimal format. See the Modbus memory map in the UR Series Communications Guide for details.
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PTP, or SNTP, its time is overwritten by these three sources, if any of them is active. If the synchronization timeout occurs and none of IRIG-B, PTP, or SNTP is active, the G60 sets the invalid bit in the time stamp of a time-tagged message.
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Spontaneous transmission occurs as a response to cyclic Class 2 requests. If the G60 wants to transmit Class 1 data at that time, it demands access for Class 1 data transmission (ACD=1 in the control field of the response).
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FlexAnalog operands. The measurands sent are voltage, current, power, power factor, and frequency. If any other FlexAnalog is chosen, the G60 sends 0 instead of its value. Note that the power is transmitted in KW, not W. Measurands are transmitted as ASDU 3 or ASDU 9 (type identification value set to measurands I, respectively measurands II).
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Range: Virtual input COMMAND 31 OFF: Range: Virtual input Commands are received as General Command (Type Identification 20). The user can configure the action to perform when an ASDU command comes. 5-108 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
CHAPTER 5: SETTINGS PRODUCT SETUP A list of available mappings is provided on the G60. This includes 64 virtual inputs (see the following table). The ON and OFF for the same ASDU command can be mapped to different virtual inputs.
Setup for IRIG-B is illustrated in the Installation chapter. For the Other protocols, whenever a time synchronization message is received through any of the active protocols, the G60 clock updates. However, given that IEC 60870-5-103, IEC 60870-5-104, Modbus, and DNP are low-accuracy time synchronization methods, avoid their use for synchronization when better accuracy time protocols, such as IRIG-B and PTP, are active in the system.
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See the Order Codes section in chapter 2 for details. The G60 supports the Precision Time Protocol (PTP) specified in IEEE Std 1588 2008 using the Power Profile (PP) specified in IEEE Std C37.238 2011. This enables the relay to synchronize to the international time standard over an Ethernet network that implements PP.
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When a clock on start-up discovers that it is “better” than the present grandmaster, it assumes the grandmaster role and the previous grandmaster reverts to slave. The G60 qualification mechanism accepts a potential master clock as a new grandmaster, when in a four-second interval it has received three announce messages from it, all better than the present grandmaster clock and better than any other announce in this interval.
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G60 clock is closely synchronized with the SNTP/ NTP server. It takes up to two minutes for the G60 to signal an SNTP self-test error if the server is offline.
2:00 The G60 maintains two times: local time and Universal Coordinated Time (UTC). Local time can be provided by IRIG-B signals. UTC time is provided by SNTP servers. The real-time clock (RTC) and time stamps reported in historical records and communication protocols can be incorrect if the Local Time settings are not configured properly.
The user programmable record contains the following information: the user-programmed relay name, detailed firmware revision (x.xx, for example) and relay model (G60), the date and time of trigger, the name of pre-fault trigger (a specific FlexLogic operand), the name of fault trigger (a specific FlexLogic operand), the active setting group at pre-fault trigger, the active setting group at fault trigger, pre-fault values of all programmed analog channels (one cycle before pre-fault trigger), and fault values of all programmed analog channels (at the fault trigger).
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Parameters set to “Off” are ignored. To populate quickly the rows in the Offline Window, use Ctrl C/V to copy/paste, or click then double-click a row to display a quick selection window. 5-116 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
DATA LOGGER DATA LOGGER MODE: Range: Continuous, Trigger Continuous DATA LOGGER TRIGGER: Range: FlexLogic operand DATA LOGGER RATE: Range: 15 to 3600000 ms in steps of 1 60000 msec G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 5-117...
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Analog Input hardware modules installed. Upon startup, the relay automatically prepares the parameter list. A list of all possible analog metering actual value parameters is shown in 5-118 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
90% of a steady-state value, just as the response time of an analog instrument. A steady state value applied for twice the response time indicates 99% of the value. Figure 5-50: Thermal demand characteristic G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 5-119...
LEDS TRIP & ALARM LEDS See page 5-123 EVENT CAUSE LED 1 See page 5-124 EVENT CAUSE LED 9 5-120 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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The test responds to the position and rising edges of the control input defined by the LED TEST CONTROL setting. The control pulses must last at least 250 ms to take effect. The following diagram explains how the test is executed. G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 5-121...
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2. When stage 2 is completed, stage 3 starts automatically. The test can be cancelled at any time by pressing the pushbutton. 5-122 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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LED 19 operand LED 8 operand LED 20 operand LED 9 operand LED 21 operand LED 10 operand LED 22 operand LED 11 operand LED 23 operand LED 12 operand LED 24 operand G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 5-123...
The location of the control pushbuttons are shown in the following figures. Figure 5-52: Control pushbuttons (enhanced front panel) An additional four control pushbuttons are included on the standard front panel when the G60 is ordered with the 12 user- programmable pushbutton option.
Range: up to 20 alphanumeric characters USER PB 1 PUSHBTN 1 ON TEXT: Range: up to 20 alphanumeric characters PUSHBTN 1 OFF TEXT: Range: up to 20 alphanumeric characters 5-126 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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EVENTS: Disabled The G60 is provided with this optional feature, specified as an option at the time of ordering. Using the order code for your device, see the order codes in chapter 2 for details. User-programmable pushbuttons provide an easy and error-free method of entering digital state (on, off) information. The number depends on the front panel ordered.
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PUSHBTN 1 SET interface. The state of each pushbutton is stored in non-volatile memory and maintained through a loss of control power. 5-128 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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“Self-reset” as the pushbutton operand status is implied to be “Off” upon its PUSHBUTTON 1 FUNCTION release. The length of the “Off” message is configured with the PRODUCT SETUP DISPLAY PROPERTIES FLASH MESSAGE G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 5-129...
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10 seconds. — If this setting is enabled, each user-programmable pushbutton state change is logged as an PUSHBUTTON 1 EVENTS event into the event recorder. The figures show the user-programmable pushbutton logic. 5-130 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
The state bits can be read out in the “Flex States” register array beginning at Modbus address 0900h. Sixteen states are packed into each register, with the lowest-numbered state in the lowest-order bit. Sixteen registers accommodate the 256 state bits. 5-132 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
When this type of entry occurs, the sub-menus are automatically configured with the proper content—this content can be edited subsequently. G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 5-133...
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If the parameters for the top line and the bottom line items have the same units, then the unit is displayed on the bottom line only. The units are only displayed on both lines if the units specified both the top and bottom line items are different. 5-134 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
DIRECT OUTPUT DEVICE ID messages. All UR-series IEDs in a ring need to have unique numbers assigned. The IED ID is used to identify the sender of the direct input and output message. G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 5-135...
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DIRECT I/O DATA RATE setting applies to a G60 with dual-channel communication cards and allows crossing DIRECT I/O CHANNEL CROSSOVER over messages from channel 1 to channel 2. This places all UR-series IEDs into one direct input and output network regardless of the physical media of the two communication channels.
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DIRECT I/O CH1 RING CONFIGURATION: “Yes” DIRECT I/O CH2 RING CONFIGURATION: “Yes” For UR-series IED 2: DIRECT OUTPUT DEVICE ID: “2” DIRECT I/O CH1 RING CONFIGURATION: “Yes” DIRECT I/O CH2 RING CONFIGURATION: “Yes” For UR-series IED 3: G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 5-137...
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Figure 5-63: Three-terminal line application A permissive pilot-aided scheme can be implemented in a two-ring configuration, shown as follows (IEDs 1 and 2 constitute a first ring, while IEDs 2 and 3 constitute a second ring). 5-138 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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In this application, apply the following settings. For UR-series IED 1: DIRECT OUTPUT DEVICE ID: “1” DIRECT I/O CH1 RING CONFIGURATION: “Yes” DIRECT I/O CH2 RING CONFIGURATION: “Yes” For UR-series IED 2: G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 5-139...
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EVENTS: Disabled The G60 checks integrity of the incoming direct input and output messages using a 32-bit CRC. The CRC alarm function is available for monitoring the communication medium noise by tracking the rate of messages failing the CRC check. The monitoring function counts all incoming messages, including messages that failed the CRC check.
EVENTS: Disabled The G60 checks integrity of the direct input and output communication ring by counting unreturned messages. In the ring configuration, all messages originating at a given device should return within a pre-defined period of time. The unreturned messages alarm function is available for monitoring the integrity of the communication ring by tracking the rate of unreturned messages.
5.4 Remote resources 5.4.1 Remote resources configuration When the G60 is ordered with a process card module as a part of HardFiber system, an additional Remote Resources menu tree is available in the EnerVista software to allow configuration of the HardFiber system.
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Bricks. Remote resources settings configure the point-to-point connection between specific fiber optic ports on the G60 process card and specific Brick. The relay is then configured to measure specific currents, voltages and contact inputs from those Bricks, and to control specific outputs.
The same rule applies for current sums from CTs with different secondary taps (5 A and 1 A). 5.5.1.2 Voltage banks SETTINGS SYSTEM SETUP AC INPUTS VOLTAGE BANK F5(M5) VOLTAGE BANK F5 PHASE VT F5 Range: Wye, Delta CONNECTION: Wye 5-144 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
PHASE ROTATION sequence, either ABC or ACB. CT and VT inputs on the relay, labelled as A, B, and C, must be connected to system phases A, B, and C for correct operation. G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 5-145...
“Disabled” only in unusual circumstances; consult GE Grid Solutions for special variable- FREQUENCY TRACKING frequency applications. The frequency tracking feature functions only when the G60 is in the “Programmed” mode. If the G60 is “Not Programmed,” then metering values are available but can exhibit significant errors. 5.5.3 Signal sources SETTINGS ...
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CT wiring problem. A disturbance detector is provided for each source. The 50DD function responds to the changes in magnitude of the sequence currents. The disturbance detector logic is as follows. G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 5-147...
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8 CTs 4 CTs, 4 VTs 4 CTs, 4 VTs C60, D60, G30, G60, L30, L90, M60, T60 not applicable This configuration can be used on a two-winding transformer, with one winding connected into a breaker-and-a-half system. The following figure shows the arrangement of sources used to provide the functions required in this application, and the CT/VT inputs that are used to provide the data.
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BREAKER 1 TRIP A/B/C BREAKER 1 ON element inputs as described here. A description of the operation of the breaker control and status monitoring features from the front panel is provided in chapter 4. 5-150 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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— This setting specifies the seal-in time of the three-pole open command initiated by either the BREAKER 1 OPEN SEAL-IN Trip Out element or a manual open command to the circuit breaker. G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 5-151...
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If this setting is set to Off, the racked status is not considered. 5-152 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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CHAPTER 5: SETTINGS SYSTEM SETUP Figure 5-69: Dual breaker control logic (Sheet 1 of 3) G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 5-153...
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SYSTEM SETUP CHAPTER 5: SETTINGS Figure 5-70: Dual breaker control logic (Sheet 2 of 3) 5-154 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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— This setting selects “3-Pole” mode, where disconnect switch poles have a single common auxiliary SWITCH 1 MODE switch, or “1-Pole” mode where each disconnect switch pole has its own auxiliary switch. 5-156 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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— This setting specifies the delay interval during which a disagreement of status among the pole SWITCH 1 ALARM DELAY position tracking operands do not declare a pole disagreement. This allows for non-simultaneous operation of the poles. G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 5-157...
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CHAPTER 5: SETTINGS IEC 61850 functionality is permitted when the G60 is in “Programmed” mode and not in local control mode. The switch element has direct hard-coded connections to the IEC 61850 model as shown in the logic diagrams. This allows remote open/close operation of each switch, using either CSWI or XSWI IEC 61850 logical nodes.
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CHAPTER 5: SETTINGS SYSTEM SETUP Figure 5-73: Disconnect switch control status logic (sheet 2 of 3) G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 5-159...
FlexCurve, enter the reset and operate times (using the keys) for each selected pickup point (using the VALUE up/down keys) for the required protection curve (A, B, C, or D). MESSAGE 5-160 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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The recloser curve configuration window shown here appears when the Initialize From setting in the EnerVista software is set to “Recloser Curve” and the Initialize FlexCurve button is clicked. G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 5-161...
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MRT and from then onwards the operating time remains at 200 ms. Figure 5-76: Composite recloser curve with HCT disabled With the HCT feature enabled, the operating time reduces to 30 ms for pickup multiples exceeding eight times pickup. 5-162 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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EnerVista software generates an error message and discards the proposed changes. 5.5.6.5 Standard recloser curves The following graphs display standard recloser curves available for the G60. Figure 5-78: Recloser curves GE101 to GE106 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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SYSTEM SETUP CHAPTER 5: SETTINGS Figure 5-79: Recloser curves GE113, GE120, GE138, and GE142 Figure 5-80: Recloser curves GE134, GE137, GE140, GE151, and GE201 5-164 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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CHAPTER 5: SETTINGS SYSTEM SETUP Figure 5-81: Recloser curves GE131, GE141, GE152, and GE200 Figure 5-82: Recloser curves GE133, GE161, GE162, GE163, GE164, and GE165 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 5-165...
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SYSTEM SETUP CHAPTER 5: SETTINGS Figure 5-83: Recloser curves GE116, GE117, GE118, GE132, GE136, and GE139 Figure 5-84: Recloser curves GE107, GE111, GE112, GE114, GE115, GE121, and GE122 5-166 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
CONFIGURATION The G60 is provided with an optional Phasor Measurement Unit (PMU) feature. This feature is specified as a software option at the time of ordering. The number of PMUs available also depends on this option. Using the order code for your device, see the order codes in chapter 2 for details.
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The figure shows an example of an N60 using four Logical Device PMUs (Logical Device 2 through 5) and four aggregators. The control blocks for the aggregators are located in LD1. A 64 character LDName setting is provided. 5-168 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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MxxMMXU1 ClcMth = M-Class (Note Vaux is mapped to Vneut of MMXU) • MxxMSQI1 ClcMth = M-CLASS • NxxMMXU1 ClcMth = M-Class (Note Vaux is mapped to Vneut of MMXU) • NxxMSQI1 ClcMth = M-CLASS G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 5-169...
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The mapping is implemented as STN-IDCode (text string). From each PMU, the user selects the phasor information of interest that is mapped into the selected aggregator datset(s). For version 7.0 and later, only FCDA data is supported. 5-170 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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5.5.7.6 Configuration example: CFG-2 based configuration (using IEC 61850-90-5) The G60 is expected to send the CFG-2 file (IEEE C37.118 config. file) upon request from the upstream synchrophasor devices (for example, P30) without stopping R-SV multicasting, as shown in the following figure. The primary domain controller (PDC) does not need to use a stop/start data stream command if the UR protocol is set to IEC 61850-90-5 prior to requesting the configuration via CFG-2 (IEEE C37.118 config.
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FUNCTION: Disabled PMU 1 IDCODE: Range: 1 to 65534 in steps of 1 PMU 1 STN: Range: 32-character ASCII string truncated to 16 characters if mapped into C37.118 Default: GE-UR-PMU GE-UR-PMU 5-172 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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PMU 1 D-CH-16 Range: 16-character ASCII string NM: Dig Channel 16 PMU 1 D-CH- 1 Range: Off, On NORMAL STATE: Off PMU 1 D-CH-16: Range: Off, On NORMAL STATE: Off G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 5-173...
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PMU 1 RATE of the device that are assigned to transmit over this aggregator. For a system frequency of 60 Hz (50 Hz), the G60 generates a reporting mismatch message if the selected rate is not set as 10 Hz, 12 Hz, 15 Hz, 20 Hz, 30 Hz, 60 Hz, or 120 Hz (or 10 Hz, 25 Hz, 50 Hz, or 100 Hz when the system frequency is 50 Hz) when entered via the keypad or software;...
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(magnitude and angle) coordinates. This setting complies with bit-0 of the FORMAT field of the IEEE C37.118 configuration frame. With 90-5 PMU, the FORMAT and STYLE are Floating-point and Polar respectively, as specified in the IEC 61850-90-5 technical report. G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 5-175...
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MAG: 100.0% PMU 1 IG CALIBRATION Range: –5.00 to 5.00° in steps of 0.05 ANGLE: 0.00° PMU 1 IG CALIBRATION Range: 95.0 to 105.0 in steps of 0.1% MAG: 100.0% 5-176 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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When receiving synchrophasor data at multiple locations, with possibly different reference nodes, it can be more beneficial to allow the central locations to perform the compensation of sequence voltages. • This setting applies to PMU data only. The G60 calculates symmetrical voltages independently for protection and control purposes without applying this correction. •...
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PMU 1 FREQ TRIGGER Range: 20.00 to 70.00 Hz in steps of 0.01 LOW-FREQ: 49.00 Hz PMU 1 FREQ TRIGGER Range: 20.00 to 70.00 Hz in steps of 0.01 HIGH-FREQ: 61.00 Hz 5-178 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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G60 standards. This element requires that the frequency be above the minimum measurable value. If the frequency is below this value, such as when the circuit is de-energized, the trigger drops out.
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Range: 0.00 to 600.00 s in steps of 0.01 DPO TIME: 1.00 s PMU 1 CURR TRIG BLK: Range: FlexLogic operand PMU 1 CURR TRIGGER Range: Self-reset, Latched, Disabled TARGET: Self-reset 5-180 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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The trigger responds to the single-phase and three-phase power signals of the Phasor Measurement Unit (PMU) source. G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 5-181...
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Range: 0.00 to 600.00 s in steps of 0.01 DPO TIME: 1.00 s PMU 1 df/dt TRG BLK: Range: FlexLogic operand PMU 1 df/dt TRIGGER Range: Self-reset, Latched, Disabled TARGET: Self-reset 5-182 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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“Automatic Overwrite,” the last record is erased to facilitate new recording, when triggered. Under the “Protected” selection, the recorder stops creating new records when the entire memory is used up by the old uncleared records. G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 5-183...
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FlexLogic operands are updated, and the five-second timer restarts. This setting enables or disables the control. When enabled, all 16 operands for each aggregator are active; when disabled, all 16 operands for each aggregator remain reset. 5-184 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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ASDU at T-2 (previous values) + ASDU at T-1 (previous values) + ASDU at T0 (current values) ASDU at T-3 (previous values) + ASDU at T-2 (previous values) + ASDU at T-1 (previous values) + ASDU at T0 (current values) G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 5-185...
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0 state, the remote client writes to the reserve bit, the SvEna is rejected by the UR, and a negative response with the appropriate Service Error is returned to the client. 5-186 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
FlexLogic. In general, the system receives analog and digital inputs that it uses to produce analog and digital outputs. The figure shows major subsystems of a generic UR-series relay involved in this process. G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 5-187...
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Figure 5-99: UR architecture overview The states of all digital signals used in the G60 are represented by flags (or FlexLogic operands, which are described later in this section). A digital “1” is represented by a set flag. Any external contact change-of-state can be used to block an element from operating, as an input to a control feature in a FlexLogic equation, or to operate a contact output.
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The following table lists the operands available for the relay. The operands can be viewed online by entering the IP address of the relay in a web browser and accessing the Device Information Menu. G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 5-189...
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Auxiliary AUX UV1 DPO Auxiliary undervoltage element has dropped out undervoltage AUX UV1 OP Auxiliary undervoltage element has operated AUX UV2 to 3 Same set of operands as shown for AUX UV1 5-190 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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Breaker restrike detected in phase B of the breaker control 1 element BRK RESTRIKE 1 OP C Breaker restrike detected in phase C of the breaker control 1 element BKR RESTRIKE 2 Same set of operands as shown for BKR RESTRIKE 1 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 5-191...
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DIR POWER 1 DPO The directional power element has dropped out DIR POWER 1 OP The directional power element has operated DIR POWER 2 Same set of operands as DIR POWER 1 5-192 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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Negative-sequence directional overcurrent 1 reverse has operated directional NEG SEQ DIR OC2 FWD Negative-sequence directional overcurrent 2 forward has operated overcurrent NEG SEQ DIR OC2 REV Negative-sequence directional overcurrent 2 reverse has operated G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 5-193...
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Phase B of phase instantaneous overcurrent 1 has dropped out PHASE IOC1 DPO C Phase C of phase instantaneous overcurrent 1 has dropped out PHASE IOC2 to 12 Same set of operands as shown for PHASE IOC1 5-194 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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PMU ONE-SHOT OP Indicates the one-shot operation and remains asserted for 30 seconds afterwards PMU ONE-SHOT PENDING Indicates the one-shot operation is pending; that is, the present time is before the scheduled one-shot time G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 5-195...
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Setting group 3 is active SETTING GROUP ACT 4 Setting group 4 is active SETTING GROUP ACT 5 Setting group 5 is active SETTING GROUP ACT 6 Setting group 6 is active 5-196 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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Phase A of stator differential phase comparison has been satisfied STATOR DIFF DIR B Phase B of stator differential phase comparison has been satisfied STATOR DIFF DIR C Phase C of stator differential phase comparison has been satisfied G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 5-197...
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Same set of operands as shown for THERMAL PROT 1 ELEMENT: TRIP BUS 1 PKP Asserted when the trip bus 1 element picks up Trip bus TRIP BUS 1 OP Asserted when the trip bus 1 element operates 5-198 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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Virt Op 1 Flag is set, logic=1 Virtual outputs Virt Op 2 Flag is set, logic=1 Virt Op 3 Flag is set, logic=1 ↓ ↓ Virt Op 96 Flag is set, logic=1 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 5-199...
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RxGOOSE 1 On Flag is set, logic=1 ↓ ↓ RxGOOSE 64 On Flag is set, logic=1 RxGOOSE 1 Off Flag is set, logic=1 ↓ ↓ RxGOOSE 64 Off Flag is set, logic=1 5-200 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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ID of any of these operands, the assigned name appears in the relay list of operands. The default names are shown in the FlexLogic operands table. The characteristics of the logic gates are tabulated in the following table, and the operators available in FlexLogic are listed in the FlexLogic operators table. G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 5-201...
Assigning the output of an operator to a virtual output terminates the equation. A timer operator (for example, "TIMER 1") or virtual output assignment (for example, " = Virt Op 1") can be used once 5-202 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
Inspect each operator between the initial operands and final virtual outputs to determine if the output from the operator is used as an input to more than one following operator. If so, the operator output must be assigned as a virtual output. G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 5-203...
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Figure 5-102: Logic for virtual output 3 Prepare a logic diagram for virtual output 4, replacing the logic ahead of virtual output 3 with a symbol identified as virtual output 3, shown as follows. 5-204 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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Assume for this example that the state is to be ON for a closed contact. The operand is therefore “Cont Ip H1c On”. G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 5-205...
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[88] Virt Ip 1 On [89] DIG ELEM 1 PKP [90] XOR(2) [91] Virt Op 3 On [92] OR(4) [93] LATCH (S,R) [94] Virt Op 3 On [95] TIMER 1 [96] Cont Ip H1c On 5-206 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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Virt Op 1 On Virt Op 2 On Virt Ip 1 On DIG ELEM 1 PKP XOR(2) Virt Op 3 On OR(4) LATCH (S,R) Virt Op 3 On TIMER 1 Cont Ip H1c On OR(3) G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 5-207...
FLEXELEMENT 1 NAME: Range: up to six alphanumeric characters FxE 1 FLEXELEMENT 1 +IN: Range: Off, any analog actual value parameter FLEXELEMENT 1 -IN: Range: Off, any analog actual value parameter 5-208 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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The element can be programmed to respond either to a signal level or to a rate-of-change (delta) over a pre-defined period of time. The output operand is asserted when the operating signal is higher than a threshold or lower than a threshold, as per your choice. G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 5-209...
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— Enables the relay to respond to either high or low values of the operating signal. The following FLEXELEMENT 1 DIRECTION figure explains the application of the , and FLEXELEMENT 1 DIRECTION FLEXELEMENT 1 PICKUP FLEXELEMENT 1 HYSTERESIS settings. 5-210 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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Figure 5-108: FlexElement direction, pickup, and hysteresis In conjunction with the setting, the element can be programmed to provide two extra FLEXELEMENT 1 INPUT MODE characteristics, as shown in the following figure. G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 5-211...
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(Brk X Arc Amp A, B, and C) DCmA BASE = maximum value of the DCMA INPUT MAX setting for the two transducers configured under the +IN and –IN inputs DELTA TIME BASE = 1 µs 5-212 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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“Delta.” FLEXELEMENT 1 COMP MODE — Specifies the pickup delay of the element. FLEXELEMENT 1 PKP DELAY — Specifies the reset delay of the element. FLEXELEMENT 1 RST DELAY G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 5-213...
Figure 5-110: Non-volatile latch operation table (N = 1 to 16) and logic Latch n type Latch n Latch n Latch n Latch n reset Reset Dominant Previous Previous State State Dominant Previous Previous State State 5-214 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
FIELD See page 5-311 GROUND Each of the six setting group menus is identical. Setting group 1 (the default active group) is active automatically when no other group is active. G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 5-215...
(logic 1), the distance functions become self-polarized regardless of other memory voltage logic conditions. When the selected operand is de-asserted (logic 0), the distance functions follow other conditions of the memory voltage logic as shown in the following logic diagram. 5-216 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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REACH: 2.00 Ω PHS DIST Z1 Range: 30 to 90° in steps of 1 RCA: 85° PHS DIST Z1 REV Range: 0.02 to 500.00 ohms in steps of 0.01 REACH: 2.00 Ω G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 5-217...
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PHS DIST Z1 REACH PHS DIST Z1 RCA as illustrated in the following figures. PHS DIST Z1 REV REACH PHS DIST Z1 REV REACH RCA 5-218 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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Therefore, the Z1 setting is set to “Dy11.” In section (b), the CTs are located at the same side as the read point. Therefore, the Z3 setting is set to “None.” See the Application of Settings chapter for information on calculating distance reach settings in applications involving power transformers. 5-220 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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— This setting defines the angle of the reverse reach impedance of the non-directional zone PHS DIST Z1 REV REACH RCA setting). This setting does not apply when the zone direction is set to "Forward" or "Reverse." PHS DIST Z1 DIR G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 5-221...
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— This setting enables the user to select a FlexLogic operand to block a given distance element. VT fuse fail PHS DIST Z1 BLK detection is one of the applications for this setting. Figure 5-116: Phase distance zone 1 OP logic 5-222 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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2 operation when the fault evolves from one type to another or migrates from the initial zone to zone 2. Assign the required zones in the trip output function to accomplish this functionality. Figure 5-118: Phase distance zones 3 and higher OP logic G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 5-223...
Range: 0.050 to 30.000 pu in steps of 0.001 SUPV: 0.600 pu POWER SW I2 SUPV ENAB: Range: FlexLogic operand POWER SWING Range: 0.050 to 30.000 pu in steps of 0.001 I2 SUPV: 0.200 pu 5-224 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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Range: 0.000 to 65.535 s in steps of 0.001 DELAY 4: 0.017 s POWER SWING SEAL-IN Range: 0.000 to 65.535 s in steps of 0.001 DELAY: 0.400 s POWER SWING TRIP Range: Early, Delayed MODE: Delayed G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 5-225...
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Second, the stage involving the POWER timer is bypassed. It is up to the user to integrate the blocking (POWER SWING BLOCK) and tripping SWING PICKUP DELAY 2 5-226 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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“Mho,” the element applies the right and left blinders as well. If the blinders are not required, set their settings high enough to effectively disable the blinders. Figure 5-120: Power swing detect mho operating characteristics Figure 5-121: Effects of blinders on the mho characteristics G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 5-227...
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— This setting selects the shapes (either “Mho” or “Quad”) of the outer, middle, and inner POWER SWING SHAPE characteristics of the power swing detect element. The operating principle is not affected. The “Mho” characteristics use the left and right blinders. 5-228 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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— This setting defines the middle power swing detect characteristic. It is relevant only POWER SWING MIDDLE LIMIT ANGLE for the three-step mode. A typical value is close to the average of the outer and inner limit angles. This setting applies to mho shapes only. G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 5-229...
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POWER SWING TRIP — Enables and disables the logging of power swing detect events in the sequence of events POWER SWING EVENTS recorder. 5-230 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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CHAPTER 5: SETTINGS GROUPED ELEMENTS Figure 5-123: Power swing detect logic (Sheet 1 of 3) G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 5-231...
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GROUPED ELEMENTS CHAPTER 5: SETTINGS Figure 5-124: Power swing detect logic (Sheet 2 of 3) Figure 5-125: Power swing detect logic (Sheet 3 of 3) 5-232 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
This element has a dual slope characteristic. The main purpose of the percent-slope characteristic is to prevent a maloperation caused by unbalances between CTs during external faults. CT unbalances arise as a result of the following factors: • CT accuracy errors • CT saturation G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 5-233...
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— This setting defines the end of the transition region and the start of the Slope 2 region. Set it to the STATOR DIFF BREAK 2 level at which any of the protection CTs are expected to begin to saturate. Figure 5-127: Stator differential logic 5-234 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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In order to provide additional security against maloperations during these events, the G60 incorporates saturation detection logic. When saturation is detected, the element makes an additional check on the angle between the neutral and output current. If this angle indicates an internal fault, then tripping is permitted.
DIRECTIONAL 1 5.7.6.2 Inverse TOC curve characteristics The inverse time overcurrent curves used by the time overcurrent elements are the IEEE, IEC, GE Type IAC, and I t standard curve shapes. This allows for simplified coordination with downstream devices.
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A to E = constants defined in the table = characteristic constant defined in the table = reset time in seconds (assuming energy capacity is 100% and RESET is “Timed”) RESET Table 5-34: GE type IAC inverse time curve constants IAC curve shape IAC Extreme Inverse 0.0040 0.6379...
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GROUPED ELEMENTS CHAPTER 5: SETTINGS Table 5-35: GE type IAC curve trip times Multiplier Current ( I / I pickup (TDM) 10.0 IAC Extremely Inverse 1.699 0.749 0.303 0.178 0.123 0.093 0.074 0.062 0.053 0.046 3.398 1.498 0.606 0.356 0.246 0.186...
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T = Operate Time (in seconds) TDM = Multiplier setting I = Input Current = Pickup Current setting pickup = Reset Time in seconds (assuming energy capacity is 100% and RESET: Timed) RESET G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 5-241...
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GROUPED ELEMENTS CHAPTER 5: SETTINGS Recloser curves The G60 uses the FlexCurve feature to facilitate programming of 41 recloser curves. See the FlexCurves settings section earlier in this chapter for details. 5.7.6.3 Phase time overcurrent (ANSI 51P, IEC PTOC) SETTINGS GROUPED ELEMENTS SETTING GROUP 1(6) PHASE CURRENT PHASE TOC1(6) ...
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— Selects the signal source for the phase time overcurrent protection element. SIGNAL SOURCE — Selects how phase current input quantities are interpreted by the G60. Inputs can be selected as fundamental INPUT phasor magnitudes or total waveform RMS magnitudes as required by the application.
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Range: 0.004 to 3.000 pu in steps of 0.001 THRESHOLD: 0.700 pu PHASE DIR 1 BLOCK Range: No, Yes WHEN V MEM EXP: No PHASE DIR 1 Range: Self-reset, Latched, Disabled TARGET: Self-reset G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 5-245...
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(phase current) and the polarizing signal (the line voltage, shifted in the leading direction by the characteristic angle, ECA). The table shows the operating and polarizing signals used for phase directional control. 5-246 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
Page 461
When set to "No," the directional element allows tripping of phase overcurrent elements under directional control. — This setting enables and disables the logging of phase directional overcurrent events in the PHASE DIR 1 EVENTS sequence of events recorder. G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 5-247...
NEUTRAL TOC 2 NEUTRAL IOC 1 See page 5-250 NEUTRAL See page 5-251 DIRECTIONAL OC1 NEUTRAL DIRECTIONAL OC2 5-248 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
Page 463
— This setting selects the signal source for the neutral time overcurrent protection element. NEUTRAL TOC1 SIGNAL SOURCE — This setting selects how neutral current input quantities are interpreted by the G60. Inputs can be NEUTRAL TOC1 INPUT selected as fundamental phasor magnitudes or total waveform RMS magnitudes as required by the application.
Page 464
The positive-sequence restraint allows for more sensitive settings by counterbalancing spurious zero-sequence currents resulting from: • System unbalances under heavy load conditions • Transformation errors of current transformers (CTs) during double-line and three-phase faults • Switch-off transients during double-line and three-phase faults 5-250 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
Page 465
VOLT: Calculated V0 NEUTRAL DIR OC1 OP Range: Calculated 3I0, Measured IG CURR: Calculated 3I0 NEUTRAL DIR OC1 POS- Range: 0.000 to 0.500 in steps of 0.001 SEQ RESTRAINT: 0.063 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 5-251...
Page 466
The following tables define the neutral directional overcurrent element. V_0 is the zero-sequence voltage, I_0 is the zero-sequence current, ECA is the element characteristic angle, and IG is the ground current. 5-252 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
Page 467
REV LA = 80° (reverse limit angle = the ± angular limit with the ECA for operation) Take the bias into account when using the neutral directional overcurrent element to directionalize other protection elements. G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 5-253...
Page 468
For example, if using an autotransformer neutral current as a polarizing source, ensure that a reversal of the ground current does not occur for a high-side fault. Assume that the 5-254 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
Page 469
When selecting this setting, keep in mind that the design uses a positive-sequence restraint technique for the “Calculated 3I0” mode of operation. Proper application of this element requires that the operating current and the polarizing voltage (or current) be measured from the same side of the transformer. G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 5-255...
See page 5-258 RESTRICTED GROUND See page 5-259 FAULT 1 RESTRICTED GROUND FAULT 4 See the Inverse Time Overcurrent Characteristics section earlier for information. 5-256 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
Page 471
— This setting selects the signal source for the ground time overcurrent protection element. GROUND TOC1 SIGNAL SOURCE — This setting selects how ground current input quantities are interpreted by the G60. Inputs can be GROUND TOC1 INPUT selected as fundamental phasor magnitudes or total waveform RMS magnitudes as required by the application.
Page 472
0.02 to 46 times the CT rating. This channel can be equipped with a standard or sensitive input. The conversion range of a sensitive channel is from 0.002 to 4.6 times the CT rating. 5-258 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
Page 473
Application of the restricted ground fault protection extends the coverage towards the neutral point (see the following figure). G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 5-259...
Page 474
Even with the improved definition of the restraining signal, the breaker-and-a-half application of the restricted ground fault must be approached with care, and is not recommended unless the settings are carefully selected to avoid maloperation due to CT saturation. 5-260 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
Page 475
(Igr(k)) does not reduce instantly but keeps decaying decreasing its value by 50% each 15.5 power system cycles. Having the differential and restraining signals developed, the element applies a single slope differential characteristic with a minimum pickup as shown in the following logic diagram. G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 5-261...
Page 476
Given the following inputs: IA = 1.10 pu ∠0°, IB = 1.0 pu ∠–120°, IC = 1.0 pu ∠120°, and IG = 0.05 pu ∠0° The relay calculates the following values: I_0 = 0.033 pu ∠0°, I_2 = 0.033 pu ∠0°, and I_1 = 1.033 pu ∠0° 5-262 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
NEG SEQ DIR OC1 FWD Range: 0 to 90° Lag in steps of 1 ECA: 75° Lag NEG SEQ DIR OC1 FWD Range: 40 to 90° in steps of 1 LIMIT ANGLE: 90° G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 5-263...
Page 478
CT errors, since the current is low. The operating quantity depends on the way the test currents are injected into the G60. For single phase injection •...
Page 479
The negative-sequence current must be greater than the PRODUCT SETUP DISPLAY PROPERTIES CURRENT setting value. CUT-OFF LEVEL G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 5-265...
Page 480
When NEG SEQ DIR OC1 TYPE selecting this setting, keep in mind that the design uses a positive-sequence restraint technique. Figure 5-145: Negative-sequence directional OC1 logic 5-266 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
This is set to prevent false trips for faults that would be cleared normally by system protections. — The maximum operate time of the stage 1 element. This setting can be applied to limit the GEN UNBAL STG1 TMAX maximum tripping time for low level unbalances. G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 5-267...
Page 482
— The minimum operate time of the stage 2 element. This is set to prevent nuisance alarms GEN UNBAL STG2 PKP DELAY during system faults. Figure 5-146: Generator unbalance inverse time curves Figure 5-147: Generator unbalance logic 5-268 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
The split phase element allows a separate pickup setting to be applied for each phase. Additionally, the pickup can be biased by the load current (slope characteristic). Two modes of operation are supported (over and over-under). G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 5-269...
Page 484
Eq. 5-28 and offset is the split phase current at no-load. In “Over” mode, the element picks up if > pickup) and (I ≥ min_load) Eq. 5-29 split bias load 5-270 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
Page 485
| > pickup) and (I ≥ min_load) Eq. 5-30 split bias load Figure 5-150: Split phase protection operating characteristics Settings are described as follows. — This setting enables and disables the function. SPLIT PHASE FUNCTION G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 5-271...
Page 486
CTs (first figure presented). In this instance, a time delay can be used to ride through the saturation event. Alternately, the CT saturation flag also can be used to supervise the function. 5-272 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
Page 488
DELAY: 0.000 s BF1 TRIP DROPOUT Range: 0.000 to 65.535 s in steps of 0.001 DELAY: 0.000 s BF1 TARGET: Range: Self-reset, Latched, Disabled Self-Reset BF1 EVENTS: Range: Disabled, Enabled Disabled 5-274 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
Page 489
The delayed paths are associated with breaker failure timers 1, 2, and 3, which are intended to have delays increasing with increasing timer numbers. These delayed paths are individually enabled to allow for maximum flexibility. G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 5-275...
Page 490
Figure 5-152: Breaker failure main path sequence The current supervision elements reset in less than 0.7 of a power cycle for any multiple of pickup current as shown in the following figure. 5-276 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
Page 491
In microprocessor relays this time is not significant. In G60 relays, which use a Fourier transform, the calculated current magnitude ramps-down to zero one power frequency cycle after the current is interrupted, and this lag needs to be included in the overall margin duration, as it occurs after current interruption.
Page 492
Upon operation of the breaker failure element for a single pole trip command, a three-pole trip command needs to be given via output operand BKR FAIL 1 TRIP 5-278 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
• Source transfer schemes — In the event of an undervoltage, a transfer signal can be generated to transfer a load from its normal source to a standby or emergency power source. G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 5-283...
Page 498
Range: 0.004 to 3.000 pu in steps of 0.001 PICKUP: 1.000 pu PHASE UV1 Range: Definite Time, Inverse Time CURVE: Definite Time PHASE UV1 Range: 0.00 to 600.00 s in steps of 0.01 DELAY: 1.00 s 5-284 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
Page 499
PHASE OV1 RESET Range: 0.00 to 600.00 s in steps of 0.01 DELAY: 1.00 s PHASE OV1 BLOCK: Range: FlexLogic Operand PHASE OV1 Range: Self-reset, Latched, Disabled TARGET: Self-reset G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 5-285...
Page 500
Range: 0.00 to 600.00 s in steps of 0.01 DELAY: 1.00 s NEUTRAL OV1 BLOCK: Range: FlexLogic operand NEUTRAL OV1 TARGET: Range: Self-reset, Latched, Disabled Self-reset NEUTRAL OV1 EVENTS: Range: Disabled, Enabled Disabled 5-286 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
Page 501
There are three negative-sequence overvoltage elements available. Use the negative-sequence overvoltage element to detect loss of one or two phases of the source, a reversed phase sequence of voltage, or a non-symmetrical system voltage condition. G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 5-287...
Page 502
Range: Disabled, Enabled Disabled The G60 contains one auxiliary undervoltage element for each VT bank. This element monitors undervoltage conditions of the auxiliary voltage. selects the voltage level at which the time undervoltage element starts timing. The nominal secondary...
Page 503
SETUP AC INPUTS VOLTAGE BANK X5 AUXILIARY VT X5 SECONDARY pickup level. In the G60, this element is used to detect stator ground faults by measuring the voltage across the neutral resistor. G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
Page 504
If the voltage mode is set as “Phase- phase”, then the operating quantity for this element is the phase-to-phase nominal voltage. Likewise, if the voltage 5-290 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
Page 505
“Phase-ground”, then the operating quantity for this element is the phase-to-ground nominal voltage. It is beneficial to use the phase-to-phase voltage mode for this element when the G60 device is applied on an isolated or resistance-grounded system.
Page 506
TDM = Time Delay Multiplier (delay in sec.) V = fundamental RMS value of voltage (pu) F = frequency of voltage signal (pu) Pickup = volts-per-hertz pickup setpoint (pu) The figure shows the volts/hertz inverse B curves. 5-292 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
Page 507
TDM = Time Delay Multiplier (delay in sec.) V = fundamental RMS value of voltage (pu) F = frequency of voltage signal (pu) Pickup = volts-per-hertz pickup setpoint (pu) The figure shows the volts/hertz inverse C curves. G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 5-293...
LOSS OF EXCITATION Range: 0.000 to 65.535 s in steps of 0.01 PKP DELAY2: 0.500 s LOSS OF EXCITATION Range: 0.000 to 1.250 pu in steps of 0.001 UV SUPV: 0.700 pu 5-294 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
Page 509
If exposed to pickup conditions for an extended period of time and unblocked, the element picks up and starts timing out at the moment of unblocking. The element responds to the positive sequence impedance as shown in the logic diagram. G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 5-295...
The machine offline status is indicated by a dedicated FlexLogic operand. Once armed, the accidental energization feature operates upon detecting an overcurrent condition in any of the stator phases. This feature can also provide protection against poor synchronization. 5-296 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
SETTINGS GROUPED ELEMENTS SETTING GROUP 1(6) POWER SENSITIVE DIRECTIONAL POWER DIRECTIONAL POWER 1(2) DIRECTIONAL DIR POWER 1 Range: Disabled, Enabled POWER 1 FUNCTION: Disabled G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 5-297...
Page 512
The operating quantity is displayed in the actual value. ACTUAL VALUES METERING SENSITIVE DIRECTIONAL POWER 1(2) The element has two independent (as to the pickup and delay settings) stages for alarm and trip, respectively. 5-298 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
Page 513
For example, section (a) in the figure shows settings for reverse power, while section (b) shows settings for low forward power applications. G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 5-299...
Page 514
DIR POWER 1 RCA setting to “90°,” active underpower by setting to “180°,” and reactive underpower by DIR POWER 1 RCA DIR POWER 1 RCA setting to “270°.” DIR POWER 1 RCA 5-300 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
GROUND SOURCE: SRC1 100% STATOR See page 5-302 GROUND 3RD HARM NTRL See page 5-305 UNDERVOLTAGE SH STATOR See page 5-307 GROUND G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 5-301...
Page 516
100% STATOR GND STG1 Range: 0.00 to 600.00 s in steps of 0.01 DELAY: 1.00 s 100% STATOR GND STG1 Range: 0.0010 to 0.1000 pu in steps of 0.0001 SUPV: 0.0057 pu 5-302 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
Page 517
X /3, and at 3 x F , the neutral resistance is X For analysis, assume that E = 10 V, R = 5Ω, and X = 5Ω. G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 5-303...
Page 518
For analysis, consider the above figure and assume that E = 10 V, R = 5Ω, X = 5Ω, and k = 0.15. In this case, we have the magnitude of the neutral voltage at: Eq. 5-42 5-304 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
Page 519
This can be achieved using the actual values menu of the G60. — This setting specifies a time delay required to operate after the pickup condition is 100% STATOR GND STG1 DELAY established.
Page 520
Phase CT Primary x Phase VT Ratio x Phase VT Secondary in case of delta connected VTs and as 3 x Phase CT Primary x Phase VT Ratio x Phase VT Secondary in case of wye connected VTs. 5-306 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
Page 521
Range: 0.000 to 0.100 pu in steps of 0.001 0.000 pu SH STATOR GND BLK: Range: FlexLogic operand SH STATOR GROUND Range: Self-reset, Latched, Disabled TARGET: Self-reset SH STATOR GROUND Range: Disabled, Enabled EVENTS: Disabled G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 5-307...
Page 522
I is very small and the G60 sensitive ground input is used to make this measurement. Thus, a CT/VT module with sensitive ground current input needs to be present in a G60 when used for sub-harmonic stator ground protection.
Page 523
SH CT ANGLE COMPEN accurate fault resistance calculations. Perform a test during commissioning at no fault condition by measuring the reported by the G60. In a healthy machine, the SH impedance is purely capacitive and the angle is 90°. The CURRENT ANGLE difference in angle can be used as the setting.
Page 524
• Use the current from the CT in the secondary of the NGT fed to the sensitive ground input of G60 only for sub- harmonic-based stator ground protection and not for any other protection element, such as ground over current or...
See page 5-315 CURRENT The figure shows a field ground detection scheme using the G60 and the GPM-F. The field winding of a synchronous generator is represented electrically by the impedance Z . Under normal conditions, the field circuit is ungrounded.
Page 526
500 KΩ. See the GPM Field and Stator Ground Fault Protection Modules Instruction Manual for details of wiring and installation of the field ground module. 5-312 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
Page 527
Field current monitoring The G60 can monitor the field current via a Hall effect transducer that produces a 4 to 20 mA output. This device must be wired to a DCmA input of the G60 or a HardFiber Brick. Note that the relay must be configured with a transducer input card for the former case.
Page 528
For single point injection, the G60 provides the feature of fault location. In case of a field ground fault, the G60 displays the location of the fault in the field winding as a percentage of the winding from the negative terminal.
Page 529
Range: 0.00 to 600.00 s in steps of 0.01 DELAY: 1.00 s FIELD CURRENT BLK: Range: FlexLogic operand FIELD CURRENT Range: Self-reset, Latched, Disabled TARGET: Self-reset FIELD CURRENT Range: Disabled, Enabled EVENTS: Disabled G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 5-315...
Page 530
24 possible inputs, depending on the number of installed transducer modules. In a HardFiber Brick / G60 system, this setting can point to one of the Resistance Temperature Detector (RTD) inputs mapped to a Brick DCmA input.
Once the required element is selected for a specific bus, a list of element operate-type operands are displayed and can be assigned to a trip bus. If more than one operate-type operand is required, it can be assigned directly from the trip bus menu. G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 5-317...
Page 532
TRIP BUS 1 RESET RESET OP operand is pre-wired to the reset gate of the latch, As such, a reset command from the front panel interface or via communications resets the trip bus output. 5-318 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
Prevents the active setting group from changing when the selected FlexLogic operand is "On." This SETTING GROUPS BLK — can be useful in applications where it is undesirable to change the settings under certain conditions, such as during a control sequence. G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 5-319...
RANGE: 7 SELECTOR 1 TIME-OUT: Range: 3.0 to 60.0 s in steps of 0.1 5.0 s SELECTOR 1 STEP-UP: Range: FlexLogic operand SELECTOR 1 STEP-UP Range: Time-out, Acknowledge MODE: Time-out 5-320 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
Page 535
(“Acknowledge” mode). When the new position is applied, the relay displays the SELECTOR SWITCH 1: POSITION Z IN USE message. Typically, a user-programmable pushbutton is configured as the stepping up control input. G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 5-321...
Page 536
(that is, the three-bit input is not available (0,0,0) or out of range), then the selector switch output is set to position 0 (no output operand selected) and an alarm is established ( SELECTOR 1 PWR ALARM 5-322 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
Page 537
The selector position pre-selected via the three-bit control input has not been confirmed before the time The following figures illustrate the operation of the selector switch. In these diagrams, “T” represents a time-out setting. G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 5-323...
Page 538
CONTROL ELEMENTS CHAPTER 5: SETTINGS Figure 5-187: Time-out mode 5-324 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
Page 539
1 through 3. The pre-selected setting group is to be applied automatically after five seconds of inactivity of the control inputs. When the relay powers up, it is to synchronize the setting group to the three-bit control input. G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 5-325...
Page 540
SETTINGS PRODUCT menu: SETUP USER-PROGRAMMABLE PUSHBUTTONS USER PUSHBUTTON 1 : “Self-reset” PUSHBUTTON 1 FUNCTION : “0.10 s” PUSHBUTTON 1 DROP-OUT TIME The figure shows the logic for the selector switch. 5-326 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
The channels are searched for the signal input in the following order: voltage channel A, auxiliary voltage channel, current channel A, and ground current channel. The first available signal is used for frequency calculation. 5-328 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
Range: 0 to 65.535 s in steps of 0.001 DELAY: 0.000 s FREQ RATE 1 RESET Range: 0 to 65.535 s in steps of 0.001 DELAY: 0.000 s FREQ RATE 1 BLOCK: Range: FlexLogic operand G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 5-329...
Page 544
If the signal source assigned to the frequency rate of change element is only set to auxiliary VT, then the minimum voltage supervision is 3 V. Figure 5-192: Frequency rate of change logic 5-330 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
Page 547
V1 or V2 to traverse an angle equal to 2 × ΔΦ at a frequency equal to the frequency difference ΔF. This time is calculated by: Eq. 5-50 where G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 5-333...
Page 548
— Specifies the minimum slip frequency allowed in Hz in the dynamic mode. The dynamic mode is SYNCHK1 S-CLS MIN dF disarmed when the slip frequency drops below this setting. 5-334 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
Page 549
VAG from the other source. If the comparison is required on a specific voltage, the user can externally connect that specific voltage to auxiliary voltage terminals and then use this "Auxiliary Voltage" to check the synchronism conditions. G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 5-335...
Page 550
The relay uses the phase channel of a three-phase set of voltages if programmed as part of that source. The relay uses the auxiliary voltage channel only if that channel is programmed as part of the Source and a three-phase set is not. 5-336 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
Page 551
CHAPTER 5: SETTINGS CONTROL ELEMENTS Figure 5-196: Synchrocheck logic G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 5-337...
It can also be used where a power transformer is located between the two potential sources by compensating for the power transformer phase shift with the auxiliary VT connection to the G60 and the auxiliary VT connection setting, as shown in the following example for the 230/13.8 kV Yn/D-1 transformer.
Page 553
DC current is interrupted, the trickle current drops below the threshold and the Cont Op 1 FlexLogic operand is set. Consequently, the state of these operands can be used as indicators of the integrity of the VOff circuits in which form-A contacts are inserted. G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 5-339...
Page 554
Using the contact input settings, this input is given an ID name, for example, “Cont Ip 1," and is set “On” when the breaker is closed. The settings to use digital element 1 to monitor the breaker trip circuit are indicated (EnerVista example shown). 5-340 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
COUNTER 1 COUNTER 1 Range: Disabled, Enabled FUNCTION: Disabled COUNTER 1 NAME: Range: up to 12 alphanumeric characters Counter 1 COUNTER 1 UNITS: Range: up to six alphanumeric characters G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 5-341...
Page 556
If control power is interrupted, the accumulated and frozen values are saved into non-volatile memory during the power-down operation. 5-342 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
Page 558
The feature is programmed to perform fault duration calculations. Fault duration is defined as a time between operation of the disturbance detector occurring before initiation of this feature, and reset of an internal low-set overcurrent function. Correction is implemented to account for a non-zero reset time of the overcurrent function. 5-344 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
Page 559
-cycle) and AMP MAX (kA) values of the last event. — This setting specifies the maximum symmetrical interruption rating of the circuit breaker. BKR 1 INTERUPTION RATING Figure 5-202: Arcing current measurement G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 5-345...
Page 560
CONTROL ELEMENTS CHAPTER 5: SETTINGS Figure 5-203: Breaker arcing current logic 5-346 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
Page 561
(contact input indicating the breaker status is off), and no flashover current is flowing. A contact showing the breaker status must be provided to the relay. The voltage difference is not considered as a condition for open breaker in this part of the logic. G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 5-347...
Page 562
This application does not require detection of breaker status via a 52a contact, as it uses a voltage difference larger than setting. However, monitoring the breaker contact ensures scheme stability. BRK 1 FLSHOVR DIFF V PKP 5-348 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
Page 563
(all line breakers open), to well above the maximum line (feeder) load (line/feeder connected to load). G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 5-349...
Page 564
A six-cycle time delay applies after the selected FlexLogic operand resets. — This setting specifies the time delay to operate after a pickup condition is detected. BRK FLSHOVR PKP DELAY 5-350 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
Page 565
CHAPTER 5: SETTINGS CONTROL ELEMENTS Figure 5-204: Breaker flashover logic G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 5-351...
Page 566
EVENTS: Disabled One breaker restrike element is provided for each DSP in the G60. According to IEEE standard C37.100 entitled IEEE Standard Definitions for Power Switchgear, restrike is defined as “a resumption of current between the contacts of a switching device during an opening operation after an interval of zero current of ¼...
Page 567
— Specifies the reset delay for this element. When set to “0 ms,” then FlexLogic operand is BREAKER RESTRIKE 1 RESET DELAY picked up for only 1/8th of the power cycle. G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 5-353...
Page 568
CT FAIL 1 3V0 INPUT Range: 0.04 to 2.00 pu in steps of 0.01 PKP: 0.20 pu CT FAIL 1 PICKUP Range: 0.000 to 65.535 s in steps of 0.001 DELAY: 1.000 s 5-354 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
Page 569
CT FAIL 1 3V0 INPUT — Specifies the pickup value for the 3V_0 source. CT FAIL 1 3V0 INPUT PICKUP — Specifies the pickup delay of the CT failure element. CT FAIL 1 PICKUP DELAY G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 5-355...
Page 570
Once the fuse failure condition is declared, it is sealed-in until the cause that generated it disappears. 5-356 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
Page 572
) is limited to 8, even when realistically it is exceeding this value. The reset time of the thermal overload protection element is also time delayed using following formula: Eq. 5-53 where 5-358 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
Page 573
, element starts increasing the thermal energy: Eq. 5-54 When current is less than the dropout level, I > 0.97 × k × I , the element starts decreasing the thermal energy: Eq. 5-55 where G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 5-359...
The figure shows the logic for the thermal overload protection element. Figure 5-211: Thermal overload protection logic 5.9 Inputs/outputs 5.9.1 Contact inputs SETTINGS INPUTS/OUTPUTS CONTACT INPUTS CONTACT INPUTS 5-360 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
Page 575
The DC input voltage is compared to a user-settable threshold. A new contact input state must be maintained for a user-settable debounce time in order for the G60 to validate the new contact state. In the following figure, the debounce time is set at 2.5 ms;...
Note that the 52b contact is closed when the breaker is open and open when the breaker is closed. 5.9.2 Virtual inputs SETTINGS INPUTS/OUTPUTS VIRTUAL INPUTS VIRTUAL INPUT 1(64) VIRTUAL INPUT 1 VIRTUAL INPUT 1 Range: Disabled, Enabled FUNCTION: Disabled 5-362 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
Page 578
On power up, the relay reads positions of the latching contacts from the hardware before executing any other functions of the relay (such as protection and control features or FlexLogic). 5-364 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
Page 579
The relay is to be controlled from virtual outputs: VO1 to operate and VO2 to reset. Program the Latching Outputs by making the following changes in the SETTINGS INPUTS/OUTPUTS CONTACT menus (assuming an H4L module): OUTPUTS CONTACT OUTPUT H1a CONTACT OUTPUT H1c G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 5-365...
Page 580
Write the following FlexLogic equation (EnerVista example shown). Program the Latching Outputs by making the following changes in the SETTINGS INPUTS/OUTPUTS CONTACT menu (assuming an H4L module): OUTPUTS CONTACT OUTPUT H1a 5-366 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
The other methods to acknowledge/reset annunciator windows include: • On the displayed page, press the RESET pushbutton with none of the annunciator windows selected to acknowledge/ reset all annunciator windows on that page G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 5-367...
5.9.6.2 Direct outputs SETTINGS INPUTS/OUTPUTS DIRECT OUTPUTS DIRECT OUTPUT 1(32) DIRECT OUTPUT 1 DIRECT OUT 1 NAME: Range: up to 12 alphanumeric characters Dir Out 1 5-368 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
Page 583
A simple interlocking busbar protection scheme can be accomplished by sending a blocking signal from downstream devices, say 2, 3 and 4, to the upstream device that monitors a single incomer of the busbar, as shown in the figure. G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 5-369...
Page 584
(if any default state is set to “On”), or to trip the bus on any overcurrent condition (all default states set to “Off”). Example 3: Pilot-aided schemes Consider a three-terminal line protection application shown in the following figure. 5-370 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
Page 585
5" (forward a message from 1 to 3) DIRECT OUT 3 OPERAND "DIRECT INPUT 6" (forward a message from 3 to 1) DIRECT OUT 4 OPERAND The figure shows the signal flow among the three IEDs. G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 5-371...
The “Latest/On” and “Latest/Off” values freeze the input in case of lost communications. If the latest state is not known, such as after relay power-up but before the first communication exchange, then the input defaults to logic 1 for “Latest/ On” and logic 0 for “Latest/Off.” 5-372 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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(teleprotection outputs at the sending end or corresponding teleprotection inputs at the receiving end). On three-terminal two-channel systems, redundancy is achieved by programming signal re-transmittal in the case of channel failure between any pair of relays. Figure 5-221: Teleprotection input/output processing G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 5-373...
VALUE: 0.000 The G60 is provided with optional DCmA capability. This feature is specified as an option at the time of ordering. See the Order Codes section in chapter 2 for details. Hardware and software are provided to receive signals from external transducers and to convert these signals into a digital format for use as required.
— Specifies the RTD type. Four different RTD types are available: 100 Ω Nickel, 10 Ω Copper, 100 Ω RTD INPUT H1 TYPE Platinum, and 120 Ω Nickel. The following table outlines reference temperature values for each type. G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 5-375...
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A value of “None” specifies that the RTD operates individually and not part of any RTD group. All RTDs programmed to “Stator” are used for RTD biasing of the G60 thermal model. Common groups are provided for rotating machines applications such as ambient, bearing, group 1, or group 2.
Menus are available to configure each of the remote RTDs. It is recommended to use the G60 to configure the RRTD parameters. If the RRTDPC software is used to change the RRTD settings directly (the application and type settings), then one of the following two operations is required for changes to be reflected in the G60: •...
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RTD types in common use. Hardware details are contained in chapter 3. On power up, the G60 reads and saves all application and type settings from the RRTD. This synchronizes the RRTD and G60.
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A value of “None” specifies that the remote RTD operates individually and not part of any RTD group. All remote RTDs programmed to “Stator” are used for RTD biasing of the G60 thermal model. Common groups are provided for rotating machines applications, such as ambient, bearing, group 1, or group 2.
Range: Off, any analog actual value parameter SOURCE: Off DCMA OUTPUT H1 Range: –1 to 1 mA, 0 to 1 mA, 4 to 20 mA RANGE: –1 to 1 mA 5-380 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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MAX VAL MIN VAL MAX VAL – < 0.1 pu. The resulting characteristic is illustrated in the following figure. MIN VAL Figure 5-224: DCmA output characteristic Settings G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 5-381...
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±1% of reading error for the active power at power factor of 0.9 For example at the reading of 20 MW, the worst-case error is 0.01 × 20 MW + 0.207 MW = 0.407 MW. 5-382 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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6), while at the same time the VT nominal voltage is 1 pu for the settings. Consequently the settings required in this example differ from naturally expected by the factor of The worst-case error for this application could be calculated by superimposing the following two sources of error: G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 5-383...
FUNCTION: Disabled The G60 provides a test facility to verify the functionality of contact inputs and outputs, some communication functions and the phasor measurement unit (where applicable), using simulated conditions. The test mode can be in any of three states: Disabled, Isolated, or Forcible.
When in Forcible mode, the operand selected by the setting dictates further response of the G60 to TEST MODE FORCING testing conditions, as described in the following two sections. The test mode state is indicated on the relay front panel by a combination of the Test Mode LED indicator, the In-Service LED indicator, and by the critical fail relay, as shown in the following table.
If set to “Closed,” the input is forced to report as closed (Logic 1) while the operand selected by TEST MODE FORCING setting is On regardless of the voltage across the input terminals. While the selected operand is Off, the input behaves as it does when in service. 5-386 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
While the selected operand is Off, the output behaves as it does when in service. On restart, the setting and the force contact input and force contact output settings revert to TEST MODE FORCING their default states. G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 5-387...
The front panel can be viewed and used in the EnerVista software, for example to view an error message displayed on the front panel. The feature applies to the enhanced and standard front panels. To view the front panel in EnerVista software: Click Actual Values > Front Panel. G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
The present status of the 64 virtual inputs is shown here. The first line of a message display indicates the ID of the virtual input. For example, ‘Virt Ip 1’ refers to the virtual input in terms of the default name. The second line of the display indicates the logic state of the virtual input. G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
Range: On, Off STATUS: Off The G60 is provided with optional IEC 61850 capability. This feature is specified as a software option at the time of ordering. See the Order Codes section of chapter 2 for details. 6.3.4 RxGOOSE DPS inputs ACTUAL VALUES ...
Offline The G60 is provided with optional IEC 61850 capability. This feature is specified as a software option at the time of ordering. See the Order Codes section of chapter 2 for details. actual value does not consider RxGOOSE that are not configured or are not used by any RxGOOSE All RxGOOSE Online Input.
CHAPTER 6: ACTUAL VALUES STATUS The G60 is provided with optional IEC 61850 capability. This feature is specified as a software option at the time of ordering. See the Order Codes section of chapter 2 for details. — State number. The most recently received value in GOOSE message field stNum. The publisher increments stNum stNum each time that the state of one or more of the GOOSE message members is sent with a revised value.
Calibrating if an active master has been selected but lock is not at present established • Synch’d (No Pdelay) if the port is synchronized, but the peer delay mechanism is non-operational • Synchronized if synchronized G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
DIRECT DEVICE 1 Range: Offline, Online STATUS STATUS: Offline DIRECT DEVICE 16 Range: Offline, Online STATUS: Offline These actual values represent the state of direct devices 1 through 16. G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
If a remote relay ID does not match the programmed ID at the local relay, the “FAIL” message displays. The “N/A” value appears if the local relay ID is set to a default value of “0,” the channel is failed, or if the teleprotection inputs/outputs are not enabled. 6-10 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
Range: 0 to 4G, blank if PRP disabled The G60 is provided with optional PRP capability. This feature is specified as a software option at the time of ordering. See the Order Codes section in chapter 2 for details.
ARP: The G60 is provided with optional IEC 61850 capability. This feature is specified as a software option at the time of ordering. See the Order Codes section of chapter 2 for details. This status is relevant to R-GOOSE reception when configured for SSM or ASM reception modes. It is not relevant for GOOSE or for R-GOOSE in unicast reception mode.
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6.4.1.2 UR convention for measuring phase angles All phasors calculated by URs and used for protection, control and metering functions are rotating phasors that maintain the correct phase angle relationships with each other at all times. G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 6-13...
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For display and oscillography purposes the phase angles of symmetrical components are referenced to a common reference as described in the previous sub-section. WYE-connected instrument transformers • ABC phase rotation: • ACB phase rotation: The above equations apply to currents as well. 6-14 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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* The power system voltages are phase-referenced – for simplicity – to V and V , respectively. This, however, is a relative matter. It is important to remember that the G60 displays are always referenced as specified under SETTINGS SYSTEM SETUP POWER SYSTEM FREQUENCY AND PHASE REFERENCE The example above is illustrated in the following figure.
Metered values presented for each source depend on the phase and auxiliary VTs and phase and ground CTs assignments for this particular source. For example, if no phase VT is assigned to this source, then any voltage, energy, and power values are unavailable. 6-16 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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6.4.3.4 Phase voltage metering ACTUAL VALUES METERING SOURCE SRC 1 PHASE VOLTAGE PHASE VOLTAGE SRC 1 RMS Vag: SRC 1 0.00 V SRC 1 RMS Vbg: 0.00 V G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 6-17...
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ACTUAL VALUES METERING SOURCE SRC 1 POWER POWER SRC 1 REAL POWER SRC 1 3φ: 0.000 W SRC 1 REAL POWER φa: 0.000 W SRC 1 REAL POWER φb: 0.000 W 6-18 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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S = V x Î x Î x Î Eq. 6-1 When VTs are configured in delta, the G60 does not calculate power in each phase and three-phase power is measured as S = V x Î x Î Eq. 6-2...
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This menu displays metered values for current and power demand. The "SRC 1" text is replaced by the name programmed by the user for the associated source (see SETTINGS SYSTEM SETUP SIGNAL SOURCES 6-20 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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This menu displays metered voltage harmonics values. The “SRC 1” text is replaced by the programmed name for the associated source (see the menu). SETTINGS SYSTEM SETUP SIGNAL SOURCES To extract the 2nd to 25th voltage harmonics, each harmonic is computed on a per-phase basis, where: G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 6-21...
× cycle (Brk X Arc Amp A, B, and C) DCmA BASE = maximum value of the DCMA INPUT MAX setting for the two transducers configured under the +IN and –IN inputs. G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 6-23...
PhaseVTSecondary and PhaseCTSecondary are specified in setting under SETTINGS SYSTEM SETUP AC INPUTS. 6.4.9 RxGOOSE analogs ACTUAL VALUES METERING RxGOOSE Analogs RxGOOSE RxGOOSE Analog 1 Analogs 0.000 RxGOOSE Analog 32 0.000 6-24 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
CHAPTER 6: ACTUAL VALUES METERING The G60 is provided with optional GOOSE communications capability. This feature is specified as a software option at the time of ordering. See the Order Codes section of chapter 2 for details. The RxGOOSE Analog values display in this menu. The RxGOOSE Analog values are received via IEC 61850 GOOSE messages sent from other devices.
0.000 V 0.00° PMU 1 V2: 0.000 V 0.00° PMU 1 V0: Range: Substituted with zero if delta-connected VTs 0.000 V 0.00° PMU 1 IA: 0.000 A 0.00° 6-26 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
-50 °C Actual values for each RTD input channel that is enabled are displayed with the top line as the programmed channel ID and the bottom line as the value. G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 6-27...
2002/8/11 14:23:57 LAST REPORT DATE: 2002/10/09 08:25:27 This menu displays the user-programmable fault report actual values. See the User-Programmable Fault Report section in chapter 5 for information on this feature. G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 6-29...
Figure 6-5: Event records viewed in EnerVista software 6.5.2.2 Graphical front panel To display the event records page, press the Home pushbutton then the Event Record Tab pushbutton. The newest event is always at the top. 6-30 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
COMMANDS CLEAR menu for information on clearing the oscillography records. RECORDS 6.5.4 Data logger ACTUAL VALUES RECORDS DATA LOGGER DATA LOGGER OLDEST SAMPLE TIME: 2000/01/14 13:45:51 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 6-31...
Range: up to 20 alphanumeric characters SERIAL NUMBER: Range: standard GE serial number format ETHERNET MAC ADDRESS Range: standard Ethernet MAC address format 000000000000 MANUFACTURING DATE: Range: YYYY/MM/DD HH:MM:SS 6-32 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
BOOT PROGRAM Range: 0.00 to 655.35 REVISION: 7.01 Revision number of the boot program firmware. COMPILE DATE: Range: YYYY/MM/DD HH:MM:SS 2017/06/15 04:55:16 Date and time when product firmware was built. G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 6-33...
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The shown data is illustrative only. A modification file number of 0 indicates that, currently, no modifications have been installed. The date format reflects the format specified for the clock and can vary from that shown here. 6-34 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
The commands menu contains relay directives intended for operations personnel. All commands can be protected from unauthorized access via the command password; see the Security section of chapter 5 for details. The following flash message appears after successfully command entry. COMMAND EXECUTED G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
This menu contains commands for clearing historical data such as the event records. Data is cleared by changing a command setting to “Yes” and pressing the key. After clearing data, the command setting automatically reverts to ENTER “No.” G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
PERFORM PUSHBUTTON Range: No, Yes TEST? No UPDATE ORDER CODE? Range: No, Yes REBOOT RELAY? Range: No, Yes SERVICE COMMAND Range: 0, 101 SAVE VOLATILE DATA? Range: No, Yes G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
Although the diagnostic information is cleared before the G60 is shipped from the factory, the user can want to clear the diagnostic information for themselves under certain circumstances. For example, you clear diagnostic information after replacement of hardware.
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30 seconds afterwards PMU ONE-SHOT OP When the function is disabled, all three operands are de-asserted. The one-shot function applies to all logical PMUs of a given G60 relay. Figure 7-1: PMU one-shot FlexLogic operands 7.1.5.1 Testing accuracy of the PMU The one-shot feature is used to test accuracy of the synchrophasor measurement.
— Selecting ‘Yes’ allows the Supervisor to forcefully logoff an operator session. OPERATOR LOGOFF — Selecting ‘Yes’ allows the Supervisor to forcefully clear all the security logs and clears all the CLEAR SECURITY DATA operands associated with the self-tests. 7.2 Targets menu TARGETS G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
A target enables the EnerVista UR Setup software to monitor automatically and display the status of any active target messages of all the devices inserted into that site. Each G60 element with a TARGET setting has a target message that when activated by its element is displayed in sequence with any other currently active target messages in the menu.
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Contact Factory (xxx) • Latched target message: Yes. • Description of problem: One or more installed hardware modules is not compatible with the G60 order code. • How often the test is performed: Module dependent. • What to do: Contact the factory and supply the failure code noted in the display. The “xxx” text identifies the failed module (for example, F8L).
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Proper cable functionality (that is, check for physical damage or perform a continuity test). – The IRIG-B receiver is functioning. – Check the input signal level (it can be less than specification). If none of these apply, then contact the factory. G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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What to do: Verify that the setting change was legitimate and essential for proper functioning of the protection and control system. MAINTENANCE ALERT: Front Panel Trouble • Latched target message: No. • Description of problem: The front panel is not communicating with the CPU module. 7-10 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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Description of problem: The ambient temperature is greater than the maximum operating temperature (+80°C). • How often the test is performed: Every hour. • What to do: Remove the G60 from service and install in a location that meets operating temperature standards. UNEXPECTED RESTART: Press “RESET” key •...
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V-type CPU = All ports support RJ45 SFPs only The consequence of an incorrect SFP can range from damage to the G60 to no power information for the G60 on its web page (enter IP address in a web browser, then click the SFP Transceiver Information. Only the type of SFP displays and not power data).
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TROUBLE 01 • Latched target message: No. • Description of problem: The G60 detects loss of communication with the field ground module on the RS485 link. • How often the test is performed: Every five seconds. • What to do: Check the field ground module and its RS485 connection to G60.
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How often the test is performed: Every second. • What to do: Verify that the injection voltage actual value in the G60 is around 15 V. If the message remains, cycle power to the field ground module. If the problem persists, contact the factory.
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An indication of communications loss means that no messages are being received. Check that the patching is correct, and that the Brick has power. If that is not the problem, use a G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 7-15...
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Brick output failing to respond to an output command can only be detected while the command is active, and so in this case the target is latched. A latched target can be unlatched by pressing the front panel reset key if the command has ended, however the output can still be non-functional. 7-16 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
Chapter 8: Application of settings Application of settings This chapter provides example(s) of use. 8.1 Overview This section provides an example of the settings required for system configuration. Consider the generator protection system shown. G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
Make the following settings changes in the EnerVista UR Setup software or the front panel SYSTEM SETUP AC INPUTS and the menus. CURRENT BANK F1 SYSTEM SETUP AC INPUTS CURRENT BANK M1 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
Always enable frequency tracking for generator applications. Make the following power system parameters changes in the EnerVista software or the front panel menu. SETTINGS SYSTEM SETUP POWER SYSTEM VOLTAGE BANK F5 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
The minimum operate time of stage 1 is to be set to 0.25 seconds, the maximum operating time is to be 10 minutes, and the reset time is to be set to 4 minutes. G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
The choice of source is not critical for this application. The NEUTRL source is chosen for the following setting changes. Make the following changes in the EnerVista software or the front panel SETTINGS GROUPED ELEMENTS SETTING menu. GROUP 1 LOSS OF EXCITATION G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
Make the following changes in the EnerVista software or the front panel SETTINGS GROUPED ELEMENTS SETTING menu. GROUP 1 SENSITIVE DIRECTIONAL POWER DIRECTIONAL POWER 1 Sequential tripping logic can be implemented in FlexLogic as follows. G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
Eq. 8-22 The equation for an IEEE extremely inverse curve is as follows: Eq. 8-23 where A = 28.2, B = 0.1217, and p = 2. Solving for TDM, we have: Eq. 8-24 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
120% of impedance of the GSU transformer and the transmission line. In the instance that there are multiple lines and/or multiple generators, the zone 1 reach must be increased to compensate for the infeed effect. Eq. 8-25 Eq. 8-26 Eq. 8-27 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
For the sample system, a time delay of 1 second is to be used. Make the following changes in the EnerVista software or the front panel SETTINGS GROUPED ELEMENTS SETTING GROUP 1 VOLTAGE ELEMENTS AUXILIARY OV1 menu. G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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In this case, the third harmonic neutral undervoltage element can be used. Field measurements are taken over the entire operating range of the machine to determine the variation of the third harmonic voltage, such as shown in the figure. 8-10 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
STATOR GROUND 3RD HARM NTRL UNDERVOLTAGE 8.2.11 Overexcitation This protection is to be set to coordinate with the manufacturer’s excitation capability curves. For the example system, the combined generator/GSU limit curve is shown as follows. G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 8-11...
The following inputs and outputs are used in this example. Make the following changes in the EnerVista software or the front panel menus. SETTINGS INPUTS/OUTPUTS CONTACT INPUTS CONTACT INPUT H7a(H7c) 8-12 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
The elements are to be blocked when offline. Underfrequency is to initiate a trip. Overfrequency is to alarm only. Either source can be assigned. G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 8-13...
SETTING S GROUPED ELEMENTS SETTING menu. GROUP 1 ACCIDENTAL ENERGIZATION 8.2.15 FlexLogic The following logic as given as an example. The logic for each specific application depends on system design, protection philosophies, and operating practices. 8-14 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
8.3.1 Phase distance protection 8.3.1.1 Description Phase distance elements of the G60 can be set to respond to faults beyond any three-phase power transformer. The relay guarantees accurate reach and targeting for any phase fault. Moreover, the current and voltage transformers can be located independently on different sides of the transformer.
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Because both VTs and CTs are located on the same side as the intended reach point, no correction for the transformer ratio is required. The primary impedance must be only re- calculated to secondary quantities: Eq. 8-36 8-16 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
Injection to a particular G60 frequency element must be to its configured source and to the channels that the source uses for frequency measurement. For frequency measurement, a source uses the first quantity configured in the following...
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0.20 Hz before the threshold and subtract 1 second from the test set time reading of ramp start to relay operation. Note that the G60 event records only show the “pickup delay” component, a definite time timer. This is exclusive of the time taken by the frequency responding component to pickup.
The G60 provides for any location of the VTs and CTs with respect to the involved power transformer and the direction of any given zone.
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PHASE DISTANCE THROUGH POWER TRANSFORMERS CHAPTER 10: THEORY OF OPERATION Figure 10-1: Applications of the "PHS DIST XF MR VOL/CUR CONNECTION" settings 10-2 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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CHAPTER 10: THEORY OF OPERATION PHASE DISTANCE THROUGH POWER TRANSFORMERS Table 10-1: Phase distance input signals for delta-wye transformers G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 10-3...
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PHASE DISTANCE THROUGH POWER TRANSFORMERS CHAPTER 10: THEORY OF OPERATION 10-4 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
Normally, in order to respond to the fault shown in the figure, a distance relay is applied at the relaying point X. The table outlines the relay input signals at this location. Table 10-2: Relay input signals at location X Input Primary Secondary 100.4 kV ∠–7.32° 38.25 V ∠–7.32° G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 10-5...
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0.687 Ω ∠85° secondary in order to reach to the fault shown in the figure. When installed at H, the relay needs to be set to 2.569 Ω ∠88.4° to ensure exactly same coverage. 10-6 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
10.2.1 CT saturation detection The saturation detector of the G60 takes advantage of the fact that any CT operates correctly for a short period of time, even under very large primary currents that would subsequently cause a very deep saturation. As a result, in the case of an external fault, the differential current stays very low during the initial period of linear operation of the CTs while the restraining signal develops rapidly.
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SATURATION DETECTOR CHAPTER 10: THEORY OF OPERATION Figure 10-4: Saturation detector state machine 10-8 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
UR Family Communications Guide for the entries. The upper part of the window displays values. The lower part of the window is for factory service use. G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 11-1...
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Float — A numbering system with no fixed number of digits before or after the decimal point. An example is 0.000000. Binary — A numbering system using 0 and 1. An example is 0000-0000-0000-0000. Entries are not saved when closing the window. 11-2 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
GENERAL MAINTENANCE 11.2 General maintenance The G60 requires minimal maintenance. As a microprocessor-based relay, its characteristics do not change over time. Expected service life is 20 years for UR devices manufactured June 2014 or later when applied in a controlled indoor environment and electrical conditions within specification.
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Using the Up or Down pushbuttons on the front panel, select the file. Press the COPY pushbutton. The files are copied from the G60 to the USB drive. Do not unplug the USB drive while copying is in progress, else the USB drive can be compromised.
Convert the settings by right-clicking one of the files in the Offline Window and selecting the Convert Device Settings option. GE recommends converting settings in firmware steps, for example when converting from 6.0 to 7.4x, convert first to 7.0 then 7.4 in order to follow embedded conversion rules and keep settings.
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Change settings in the new file, for example by looking at the original file. Write the converted file to the device, for example by dragging and dropping from the Offline Window to the Online Window. Check settings and operation. 11-6 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
11.5 Copy settings to other device Settings from one G60 device can be copied to another G60 device for rapid deployment. The order codes must match. See the Settings File section at the beginning of the Interfaces chapter for a list of settings not deployed, such as IP address.
UR device settings can be saved in a backup URS file using the EnerVista UR Setup software. The URS file is the standard UR settings file. For an introduction to settings files in the URS format, see the beginning of the Interfaces chapter. 11-8 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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Have this option enabled when you want to keep the IID file from the UR device instead of from another tool. The location of the file is C:\ProgramData\GE Power Management\urpc\Offline, for example.
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The file is copied from the computer to the location specified. To save list of sites and devices with an Environment backup: In EnerVista, click File > Environment > Backup. A window opens. Name and save the .ENV file. 11-10 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
These messages display because the roles of the protection engineer and network engineer can be separate. The former can require a URS file, while the latter can require stored Modbus settings and protection schemes. G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 11-11...
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EnerVista UR Setup software. To restore the list of sites and devices from an Environment backup: In EnerVista, click File > Environment > Restore. A window opens. Select the .ENV file to restore. 11-12 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
Click the OK button to save the change. 11.9 Upgrade firmware If upgrading both EnerVista software and G60 firmware, upgrade the software first. The firmware of the G60 device can be upgraded, locally or remotely, using the EnerVista software. G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 11-13...
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You access the Convert Device Settings option by right-clicking the file in the Offline Window area at the lower left. GE recommends converting settings in firmware steps, for example when converting from 6.0 to 7.4x, convert first to 7.0 then 7.4 in order to follow embedded conversion rules and keep settings. Note that the values of all settings that have been defaulted during conversion are not listed in the conversion report;...
For an enhanced front panel, loosen the thumb screw and open slightly the front panel. For a standard front panel, lift up the black plastic latch on the right side of the front panel and open slightly the front panel. G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 11-15...
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With a Phillips screwdriver, unscrew and remove the mounting bracket on the right side of the unit. The bracket for the enhanced front panel looks similar to that for the graphical front panel, but they are not the same. 11-16 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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Figure 11-15: Remove standard front panel mounting bracket on right side Open the front panel. Unplug or unscrew the grey ground cable from the front panel. Unplug the RJ45 connector from the CPU module in the second slot on the left. G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 11-17...
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Unscrew and remove the mounting bracket with the front panel from the left side. Figure 11-17: Unscrew enhanced front panel mounting bracket on left side Figure 11-18: Unscrew standard front panel mounting bracket on left side 11-18 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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Figure 11-19: Attach mounting bracket to relay on left side (no power supply module in first slot) Screw the right mounting bracket to the right side of the relay. G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 11-19...
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Close the front panel without tightening the screw to the mounting bracket. Optionally remove the protective plastic film on the graphical front panel. It is normally peeled off, but also can be left The graphical front panel has been installed but not connected. 11-20 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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Ensure that the RS485 connector and the black cover plate are not on the back of the CPU module before sliding the module into the front of the relay. Figure 11-23: Rear of a CPU module before insertion without RS485 connector or cover plate G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 11-21...
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Insert the silver SFP connector(s) at the back of the CPU module, then connect any Ethernet connection(s). Power up the relay. If the graphical front panel does not power up immediately, disconnect power, open the front 11-22 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
Open the enhanced front panel to the left once the thumb screw has been removed. This allows for easy access of the modules for withdrawal. The new wide-angle hinge assembly in the enhanced front panel opens completely and allows easy access to all modules in the G60. Figure 11-26: Modules inside relay with front cover open (enhanced front panel) G60 GENERATOR PROTECTION SYSTEM –...
When required, the battery can be replaced. The power supply module contains the battery. The battery type is 3 V cylindrical. 11.12.1 Replace battery for SH/SL power supply When required, the battery can be replaced. The power supply module contains the battery. 11-24 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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10. Reinstall the battery holder and the metal cover, and reinsert the power supply module into the unit. 11. Power on the unit. 12. Dispose of the old battery as outlined in the next section. G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 11-25...
(Cd), el plomo (Pb), o el mercurio (Hg ). Para el reciclaje apropiado, devuelva este producto a su distribuidor ó deshágase de él en los puntos de reciclaje designados. Para mas información : wwwrecyclethis.info. 11-26 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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(Cd), lood (Pb) of kwik (Hg). Voor correcte vorm van kringloop, geef je de producten terug aan jou locale leverancier of geef het af aan een gespecialiseerde verzamelpunt. Meer informatie vindt u op de volgende website: www.recyclethis.info. G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL 11-27...
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Bu sembolle işaretlenmiş piller Kadmiyum(Cd), Kurşun(Pb) ya da Civa(Hg) içerebilir. Doğru geri dönüşüm için ürünü yerel tedarikçinize geri veriniz ya da özel işaretlenmiş toplama noktlarına atınız. Daha fazla bilgi için: www.recyclethis.info. 11-28 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
For issues not solved by troubleshooting, the process to return the device to the factory for repair is as follows: • Contact a GE Grid Solutions Technical Support Center. Contact information is found in the first chapter. • Obtain a Return Materials Authorization (RMA) number from the Technical Support Center.
Customers are responsible for shipping costs to the factory, regardless of whether the unit is under warranty. • Fax a copy of the shipping information to the GE Grid Solutions service department in Canada at +1 905 927 5098. Use the detailed return procedure outlined at https://www.gegridsolutions.com/multilin/support/ret_proc.htm...
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Source 2 three-phase apparent power 7218 SRC 2 Sa Source 2 phase A apparent power 7220 SRC 2 Sb Source 2 phase B apparent power 7222 SRC 2 Sc Source 2 phase C apparent power G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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Source 1 phase A voltage twenty-fourth harmonic 8088 SRC 1 Va Harm[25] Source 1 phase A voltage twenty-fifth harmonic 8089 SRC 1 Vb THD Source 1 phase B voltage total harmonic distortion (THD) G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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SRC 1 Vc Harm[21] Source 1 phase C voltage twenty-first harmonic 8135 SRC 1 Vc Harm[22] Source 1 phase C voltage twenty-second harmonic 8136 SRC 1 Vc Harm[23] Source 1 phase C voltage twenty-third harmonic G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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SRC 2 Vb Harm[18 Source 2 phase B voltage eighteenth harmonic 8182 SRC 2 Vb Harm[19] Source 2 phase B voltage nineteenth harmonic 8183 SRC 2 Vb Harm[20] Source 2 phase B voltage twentieth harmonic A-10 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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SRC 3 Va Harm[15] Source 3 phase A voltage fifteenth harmonic 8229 SRC 3 Va Harm[16] Source 3 phase A voltage sixteenth harmonic 8230 SRC 3 Va Harm[17] Source 3 phase A voltage seventeenth harmonic G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL A-11...
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SRC 3 Vc Harm[12] Source 3 phase C voltage twelfth harmonic 8276 SRC 3 Vc Harm[13] Source 3 phase C voltage thirteenth harmonic 8277 SRC 3 Vc Harm[14] Source 3 phase C voltage fourteenth harmonic A-12 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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SRC 4 Vb Harm[9] Source 4 phase B voltage ninth harmonic 8323 SRC 4 Vb Harm[10] Source 4 phase B voltage tenth harmonic 8324 SRC 4 Vb Harm[11] Source 4 phase B voltage eleventh harmonic G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL A-13...
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Phasor measurement unit 1 phase C voltage angle 9590 PMU 1 Vx Mag Volts Phasor measurement unit 1 auxiliary voltage magnitude 9592 PMU 1 Vx Angle Degrees Phasor measurement unit 1 auxiliary voltage angle A-14 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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SRC 1 Ia Harm[22] Source 1 phase A current twenty-second harmonic 10262 SRC 1 Ia Harm[23] Source 1 phase A current twenty-third harmonic 10263 SRC 1 Ia Harm[24] Source 1 phase A current twenty-fourth harmonic G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL A-15...
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SRC 1 Ic Harm[19] Source 1 phase C current nineteenth harmonic 10325 SRC 1 Ic Harm[20] Source 1 phase C current twentieth harmonic 10326 SRC 1 Ic Harm[21] Source 1 phase C current twenty-first harmonic A-16 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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SRC 2 Ib Harm[16] Source 2 phase B current sixteenth harmonic 10388 SRC 2 Ib Harm[17] Source 2 phase B current seventeenth harmonic 10389 SRC 2 Ib Harm[18] Source 2 phase B current eighteenth harmonic G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL A-17...
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SRC 3 Ia Harm[13] Source 3 phase A current thirteenth harmonic 10451 SRC 3 Ia Harm[14] Source 3 phase A current fourteenth harmonic 10452 SRC 3 Ia Harm[15] Source 3 phase A current fifteenth harmonic A-18 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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SRC 3 Ic Harm[10] Source 3 phase C current tenth harmonic 10514 SRC 3 Ic Harm[11] Source 3 phase C current eleventh harmonic 10515 SRC 3 Ic Harm[12] Source 3 phase C current twelfth harmonic G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL A-19...
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SRC 4 Ib Harm[7] Source 4 phase B current seventh harmonic 10577 SRC 4 Ib Harm[8] Source 4 phase B current eighth harmonic 10578 SRC 4 Ib Harm[9] Source 4 phase B current ninth harmonic A-20 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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Breaker 1 Acc arcing amp phase C 12038 Brk 1 Op Time A Breaker 1 operating time phase A 12039 Brk 1 Op Time B Breaker 1 operating time phase B A-22 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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DCmA input 22 actual value 13548 DCmA Ip 23 DCmA input 23 actual value 13550 DCmA Ip 24 DCmA input 24 actual value 13552 RTD Ip 1 RTD input 1 actual value G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL A-23...
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RTD input 45 actual value 13597 RTD Ip 46 RTD input 46 actual value 13598 RTD Ip 47 RTD input 47 actual value 13599 RTD Ip 48 RTD input 48 actual value A-24 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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39182 FlexElement 8 Value FlexElement 8 actual value 39184 FlexElement 9 Value FlexElement 9 actual value 39186 FlexElement 10 Value FlexElement 10 actual value 39188 FlexElement 11 Value FlexElement 11 actual value G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL A-25...
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RxGOOSE Analog 30 RxGOOSE analog input 30 45644 RxGOOSE Analog 31 RxGOOSE analog input 31 45646 RxGOOSE Analog 32 RxGOOSE analog input 32 61439 PMU Num Triggers Phasor measurement unit recording number of triggers A-26 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
UR device for successful authentication, and the shortname is a short, optional alias that can be used in place of the IP address. client 10.0.0.2/24 { secret = testing123 shortname = private-network-1 In the <Path_to_Radius>\etc\raddb folder, create a file called dictionary.ge and add the following content. # ########################################################## GE VSAs ############################################################ VENDOR...
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Access Settings > Product Setup > Security. Configure the IP address and ports for the RADIUS server. Leave the GE vendor ID field at the default of 2910. Update the RADIUS shared secret as specified in the clients.conf file. Restart the relay for the IP address and port changes to take effect.
When the Supervisor account is enabled, the 'Lock Relay' setting must first be changed to No before the putsettings, inservice, or reboot command can be used. This setting cannot be changed using the command line interface. • Use quotes ("") to enclose any parameter containing a space G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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For non-CyberSentry devices — Set <authentication type> to "traditional". Note that <authentication type> defaults to "traditional" if not specified. Set <account> to "COMMANDS" or "SETTINGS". If not specified, the SETTINGS account is used. Example: SetupCLI URPC login -d "C30 Melbourne" -A traditional -a SETTINGS -w 1password1 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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Read settings from device <device> and save them to the .urs file <File>. The <File> must not already exist. The default path to the output file is C:\Users\Public\Public Documents\GE Power Management\URPC\Data Example: SetupCLI URPC getsettings -d C30 -f "C30 Markham.urs"...
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SetupCLI URPC getsettings -d demoDevice -f devicefile.urs SetupCLI URPC compare -f existingfile.urs -r devicefile.urs -o output.txt The output is similar to the following: Comparing settings file aaa.urs : C:\Users\Public\Public Documents\GE Power Management\URPC\Data\ with bbb.urs : C:\Users\Public\Public Documents\GE Power Management\URPC\Data\ Setting Name...
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SetupCLI URPC getsettings -d DEV@SETUP_CLI -f "example file.urs" SetupCLI URPC logout -d DEV@SETUP_CLI SetupCLI URPC exit DEV@SETUP_CLI has to be used as the device name in the commands followed by the 'adddevice' command. G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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COMMAND LINE INTERFACE APPENDIX C: COMMAND LINE INTERFACE G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
This chapter provides the warranty and revision history. D.1 Warranty For products shipped as of 1 October 2013, GE Grid Solutions warrants most of its GE manufactured products for 10 years. For warranty details including any limitations and disclaimers, see the Terms and Conditions at http://www.gegridsolutions.com/multilin/warranty.htm...
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17-3561 1601-0110-AF1 7.6x 30 June 2017 17-3779 Table D-2: Major changes for G60 manual version AF1 (English) Page Description General revision Updated "faceplate" to "front panel" for consistency and to reflect web site G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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Added Convert Device Settings section 11-7 Added Copy Settings to Other Device section 11-15 Added Replace Front Panel section for retrofit with the new graphical front panel Table D-3: Major changes for G60 manual version AE3 (English) Page Description General revision Updated order codes...
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Added Support for Routable GOOSE section 5-192 Updated number of FlexLogic lines from 512 to 1024 in FlexLogic Equation Editor settings section 11-1 Added Monitoring section 11-2 Added Retrieve Files section Added Command Line Interface appendix G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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Full Load Current Contact Output Fiber Optic Communication FPGA Field-programmable Gate Array COMM Communications FREQ Frequency COMP Compensated, Comparison Frequency-Shift Keying CONN Connection File Transfer Protocol CONT Continuous, Contact FlexElement™ CO-ORD Coordination Forward G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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Protection Low Voltage Parallel Redundancy Protocol PSEL Presentation Selector Machine Precision Time Protocol Machine to Machine Per Unit MilliAmpere PUIB Pickup Current Block Magnitude PUIT Pickup Current Trip Manual / Manually PUSHBTN Pushbutton G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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Time Dial Multiplier TEMP Temperature TFTP Trivial File Transfer Protocol Total Harmonic Distortion Timer Time Overcurrent Time Overvoltage TRANS Transient TRANSF Transfer TSEL Transport Selector Time Undercurrent Time Undervoltage TX (Tx) Transmit, Transmitter G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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ABBREVIATIONS G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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.......... 3-64 Add relay ....................3-56 Auxiliary overvoltage Administrator FlexLogic operands ...............5-190 add user account ................5-14 logic ......................5-290 command to force logoff ..............7-6 settings ....................5-289 role for CyberSentry ................2-5 specifications ..................2-24 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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CPU module diagram ................3-11 Default settings ................ 11-7, 11-8 CPU, new types T, U, V ..............11-15 Definite time curve ............5-241, 5-284 CRC alarm .....................5-140 Delete files and records .............5-40, 11-29 Critical failure relay specifications ..........2-34 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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................... 3-55 settings ....................5-368 oscillography ..................4-2 specifications ..................2-35 requirements ..................3-54 Directional overcurrent restart relay ...................5-1 see Phase, Ground, and Neutral directional Directional polarization ..............5-245 Directional power, sensitive actual values ......6-25 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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EVENTS setting ..................5-5 pickup ....................5-210 Excitation, loss of settings ....................5-208 specifications ..................2-27 specifications ..................2-28 Export settings to file .................11-8 F485 ......................3-54 Factory default reset ............... 5-8, 5-22 Far-End Fault Indication ..............5-47 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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....................3-51 actual values ..................6-23 specifications ..................2-36 FlexAnalogs ...................A-2 FlexLogic operands ...............5-193 logic diagram ...................5-330 settings ....................5-329 specifications ..................2-25 Frequency testing .................. 9-1 Frequency tracking ................6-23 Frequency, nominal .................5-145 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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Incompatible device order codes or versions ....11-14 Incompatible hardware error ............7-8 HardFiber interface module described ............3-17 order codes for compatible URs ..........2-7 self-test errors ..................7-14 Harmonic content ................6-21 Harmonics actual values ..................6-21 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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Labels, front panel ..............4-44, 4-77 commands .....................7-3 Lamp test module replacement ..............11-23 ....................7-3 upgrade or downgrade .............. 11-13 Language setting ................5-26 Manufacturing date ................6-32 Laser module ..................3-37 viii G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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..........7-6 OR gate explained ................4-84 Nameplate, rear ..................3-1 Order codes ....................2-7 NAND gate explained ................4-84 actual values ..................6-32 Navigation keys ..................4-38 update ..................3-63, 7-3 Oscillatory transient testing specifications ......2-41 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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FlexLogic operands ..............5-195 logic diagram .................. 5-285 settings ....................5-284 specifications ..................2-23 Phasor display graphical front panel ......4-58, 5-32 Phasor explained ................5-167 Plastic film on front panel ............11-20 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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..................7-10 RADIUS server port behavior ..................5-46 authentication ................... 5-16 settings ....................5-111 setup ......................B-1 specifications ..................2-38 RAM required ..................3-54 Reactive power ..................6-18 Reactive power specifications ............. 2-31 Real power ....................6-18 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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................2-40 Routable GOOSE .................. 5-66 specifications ..................2-40 RRTD inputs system and event logs ..............5-25 FlexAnalogs ..................A-25 Security audit list of port numbers ..........5-45 logic diagram ...................5-380 settings ....................5-377 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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Modbus Analyzer ........11-1 Settings file ....................5-59 description ..................... 4-1 import .....................3-68 takes relay out of service when loaded ........4-2 traceability ...................4-12 transfer with USB stick ..............4-16 Settings password ..............4-61, 5-10 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL xiii...
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..............5-101 clock using time source ..............5-110 settings ....................5-101 clocks of UR devices to local computer ......5-111 ......................A-15 files between offline and online ..........4-70 Synchronize Devices ...............5-111 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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.....................11-13 Trouble LED .....................3-52 Upgrade device settings ..............11-5 Upgrade over Internet message ..........11-14 URS file does not include IEC 61850 configuration ..11-11 URS file is part of a device folder ..........11-11 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...
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FlexLogic operands ...............5-199 settings ....................5-367 Voltage banks ..................5-144 Zero-sequence core balance ............3-16 Voltage deviation specifications ..........2-41 Voltage elements ................5-283 Voltage metering actual values ..................6-17 specifications ..................2-30 Voltage restraint characteristic ..........5-242 G60 GENERATOR PROTECTION SYSTEM – INSTRUCTION MANUAL...