Page 1 GE Grid Solutions LISTED 650 Markland Street IND.CONT. EQ. 52TL Markham, Ontario GE Multilin's Quality Management Canada L6C 0M1 System is registered to ISO 9001:2008 Tel: +1 905 927 7070 Fax: +1 905 927 5098 QMI # 005094 UL # A3775 Internet: http://www.GEGridSolutions.com...
Page 2 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.
Page 3: Table Of Contents
ENVIRONMENTAL ..................2-26 2.4.11 TYPE TESTS ....................2-27 2.4.12 PRODUCTION TESTS ..................2-27 2.4.13 APPROVALS ....................2-28 2.4.14 MAINTENANCE ....................2-28 3. HARDWARE 3.1 DESCRIPTION 3.1.1 PANEL CUTOUT ....................3-1 3.1.2 REAR TERMINAL LAYOUT................3-7 GE Multilin F35 Multiple Feeder Protection System...
Page 4 REAL TIME CLOCK ..................5-65 5.2.7 FAULT REPORTS ....................5-70 5.2.8 OSCILLOGRAPHY ...................5-72 5.2.9 DATA LOGGER ....................5-74 5.2.10 DEMAND ......................5-75 5.2.11 USER-PROGRAMMABLE LEDS ..............5-76 5.2.12 USER-PROGRAMMABLE SELF TESTS ............5-80 5.2.13 CONTROL PUSHBUTTONS ................5-81 5.2.14 USER-PROGRAMMABLE PUSHBUTTONS............5-83 F35 Multiple Feeder Protection System GE Multilin...
Page 5 TELEPROTECTION INPUTS AND OUTPUTS..........5-225 5.8.12 IEC 61850 GOOSE ANALOGS..............5-227 5.8.13 IEC 61850 GOOSE INTEGERS..............5-228 5.9 TRANSDUCER INPUTS AND OUTPUTS 5.9.1 DCMA INPUTS ....................5-229 5.9.2 RTD INPUTS....................5-230 5.9.3 DCMA OUTPUTS ..................5-232 GE Multilin F35 Multiple Feeder Protection System...
Page 6 COMMANDS MENU ...................7-1 7.1.2 VIRTUAL INPUTS ....................7-1 7.1.3 CLEAR RECORDS .....................7-2 7.1.4 SET DATE AND TIME ..................7-2 7.1.5 RELAY MAINTENANCE ..................7-3 7.1.6 SECURITY......................7-4 7.1.7 TARGETS MENU ....................7-4 7.1.8 TARGET MESSAGES ..................7-4 7.1.9 RELAY SELF-TESTS ..................7-5 F35 Multiple Feeder Protection System GE Multilin...
Page 7 B.4 MEMORY MAPPING B.4.1 MODBUS MEMORY MAP .................B-9 B.4.2 DATA FORMATS .....................B-73 C. IEC 61850 C.1 OVERVIEW COMMUNICATIONS C.1.1 INTRODUCTION....................C-1 C.1.2 COMMUNICATION PROFILES .................C-1 C.1.3 FILE TRANSFER BY IEC 61850 ...............C-2 C.2 SERVER DATA ORGANIZATION GE Multilin F35 Multiple Feeder Protection System...
Page 8 DNP V3.00 DEVICE PROFILE ................F-1 F.1.2 IMPLEMENTATION TABLE ................F-4 F.2 DNP POINT LISTS F.2.1 BINARY INPUT POINTS ................... F-8 F.2.2 BINARY AND CONTROL RELAY OUTPUT............F-9 F.2.3 COUNTERS..................... F-10 F.2.4 ANALOG INPUTS.................... F-11 viii F35 Multiple Feeder Protection System GE Multilin...
Page 9 G.1.1 RADIUS SERVER CONFIGURATION.............. G-1 H. MISCELLANEOUS H.1 CHANGE NOTES H.1.1 REVISION HISTORY ..................H-1 H.1.2 CHANGES TO THE MANUAL ................H-2 H.2 ABBREVIATIONS H.2.1 STANDARD ABBREVIATIONS .................H-5 H.3 WARRANTY H.3.1 GE MULTILIN WARRANTY ................H-7 GE Multilin F35 Multiple Feeder Protection System...
Page 10 TABLE OF CONTENTS F35 Multiple Feeder Protection System GE Multilin...
Page 11: Getting Started
Product disassembly and repairs are not permitted. All service needs to be conducted by the factory. LED transmitters are classified as IEC 60825-1 Accessible Emission Limit (AEL) Class 1M. Class 1M devices are considered safe to the unaided eye. Do not view directly with optical instruments. GE Multilin F35 Multiple Feeder Protection System...
Page 12: Inspection Procedure
• GE EnerVista™ DVD (includes the EnerVista UR Setup software and manuals in PDF format) • Mounting screws If there is any noticeable physical damage, or any of the contents listed are missing, contact GE Grid Solutions as fol- lows.
Page 13: Ur Overview
1.2UR OVERVIEW 1.2.1 INTRODUCTION TO THE UR The GE Universal Relay (UR) series is a new generation of digital, modular, and multifunction equipment that is easily incorporated into automation systems, at both the station and enterprise levels. 1.2.2 HARDWARE ARCHITECTURE...
Page 14: Software Architecture
The application software for any UR-series device (for example, feeder protection, transformer protection, distance protection) is constructed by combining objects from the various functional classes. This results in a common interface across the UR series. F35 Multiple Feeder Protection System GE Multilin...
Page 15: Enervista Ur Setup Software
• PCTEL 2304WT V.92 MDC internal modem 1.3.2 INSTALLATION After ensuring that the requirements for using EnerVista UR Setup software are met, install the software from the GE EnerVista DVD. Or download the UR EnerVista software from http://www.gegridsolutions.com/multilin and install it.
Page 16: Configuring The F35 For Software Access
To configure the F35 for remote access via the rear Ethernet port, see the Configuring Ethernet Communications sec- tion. • To configure the F35 for local access with a computer through either the front RS232 port or rear Ethernet port, see the Using the Quick Connect Feature section. F35 Multiple Feeder Protection System GE Multilin...
Page 17 CONFIGURING SERIAL COMMUNICATIONS A computer with an RS232 port and a serial cable is required. To use the RS485 port at the back of the relay, a GE Multilin F485 converter (or compatible RS232-to-RS485 converter) is required. See the F485 instruction manual for details.
Page 18 EnerVista UR Setup window. The Site Device has now been configured for Ethernet communications. Proceed to the Connecting to the F35 section to begin communications. F35 Multiple Feeder Protection System GE Multilin...
Page 19: Using The Quick Connect Feature
Before starting, verify that the serial cable is properly connected from the computer to the front panel RS232 port with a straight-through 9-pin to 9-pin RS232 cable. Verify that the latest version of the EnerVista UR Setup software is installed (available from the GE EnerVista CD or online from http://www.gegridsolutions.com/multilin). See the Software Installation section if not already installed.
Page 20 Right-click the Local Area Connection icon and select Properties. Select the Internet Protocol (TCP/IP) item from the list, and click the Properties button. Click the “Use the following IP address” box. 1-10 F35 Multiple Feeder Protection System GE Multilin...
Page 21 F35 and the computer, and double-check the programmed IP address in    setting, then repeat step 2. PRODUCT SETUP COMMUNICATIONS NETWORK IP ADDRESS If the following sequence of messages appears when entering the command: C:\WINNT>ping 1.1.1.1 GE Multilin F35 Multiple Feeder Protection System 1-11...
Page 22 If this computer is used to connect to the Internet, re-enable any proxy server settings after the computer has been discon- nected from the F35 relay. Start the Internet Explorer software. Select the “UR” device from the EnerVista Launchpad to start EnerVista UR Setup. 1-12 F35 Multiple Feeder Protection System GE Multilin...
Page 23 The EnerVista UR Setup software then proceeds to configure all settings and order code options in the Device Setup menu. This feature allows the user to identify and interrogate all UR-series devices at a loca- tion. GE Multilin F35 Multiple Feeder Protection System 1-13...
Page 24: Connecting To The F35 Relay
View the last recorded oscillography record • View the status of all F35 inputs and outputs • View all of the F35 metering values • View the F35 protection summary • Generate a service report 1-14 F35 Multiple Feeder Protection System GE Multilin...
Page 25: Setting Up Cybersentry And Changing Default Password
If using EnerVista, navigate to Settings > Product Setup > Security. Change the Local Administrator Password, for example. It is strongly recommended that the password for the Administrator be changed from the default. Changing the passwords for the other three roles is optional. GE Multilin F35 Multiple Feeder Protection System 1-15...
Page 26: Ur Hardware
Figure 1–10: RELAY COMMUNICATION OPTIONS To communicate through the F35 rear RS485 port from a computer RS232 port, the GE Multilin RS232/RS485 converter box is required. 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 F35 rear communications port.
Page 27: Using The Relay
MESSAGE LEFT key from a setting value or actual value display returns to the header display. HIGHEST LEVEL LOWEST LEVEL (SETTING VALUE)  SETTINGS  SECURITY ACCESS LEVEL:  PRODUCT SETUP  Restricted  SETTINGS  SYSTEM SETUP GE Multilin F35 Multiple Feeder Protection System 1-17...
Page 28: Relay Activation
For more information, see the CyberSentry content in the Security section of the next chapter. 1.5.6 FLEXLOGIC CUSTOMIZATION FlexLogic equation editing is required for setting user-defined logic for customizing the relay operations. See the FlexLogic section in Chapter 5. 1-18 F35 Multiple Feeder Protection System GE Multilin...
Page 29: Commissioning
Unscheduled maintenance, such as a disturbance causing system interruption: View the event recorder and oscillography or fault report for correct operation of inputs, outputs, and elements. If it is concluded that the relay or one of its modules is of concern, contact GE Multilin for service. GE Multilin...
Page 30 1.5 USING THE RELAY 1 GETTING STARTED 1-20 F35 Multiple Feeder Protection System GE Multilin...
Page 31: Product Description
Phase time overcurrent Thermal overload protection Negative-sequence time overcurrent 50DD Disturbance detector AC circuit breaker Ground instantaneous overcurrent Neutral overvoltage Neutral instantaneous overcurrent Auxiliary overvoltage Phase instantaneous overcurrent Autoreclose 50_2 Negative-sequence instantaneous overcurrent Underfrequency GE Multilin F35 Multiple Feeder Protection System...
Page 32: Security
Password security and EnerVista security are disabled. Changing the password, or any other setting, does not take the relay out of service. The relay is taken out of service when a settings file is written to it. F35 Multiple Feeder Protection System GE Multilin...
Page 33 Secure Shell (SSH) protocol, the Advanced Encryption Standard (AES), and 128-bit keys in Galois Counter Mode (GCM) as specified in the U.S. National Security Agency Suite B extension for SSH and approved by the National Institute of Standards and Technology (NIST) FIPS-140-2 standards for cryptographic systems. GE Multilin F35 Multiple Feeder Protection System...
Page 34 |--------------- Oscillography |--------------- Data Logger |--------------- Demand User Programmable |--------------- LEDs User Programmable |--------------- self test |--------------- Control Pushbuttons User programmable |--------------- Pushbuttons |--------------- Flex states User definable dis- |--------------- plays |--------------- Direct I/O F35 Multiple Feeder Protection System GE Multilin...
Page 35 |------------ Clear Records |------------ Set date and time User Displays Targets Actual Values |------------ Front Panel Labels Designer |------------ Status |------------ Metereing |------------ Transducer I/O |------------ Records |------------ Product Info Maintenance |------------ Modbus Analyzer GE Multilin F35 Multiple Feeder Protection System...
Page 36: Iec 870-5-103 Protocol
The communication is based on a point to point principle. The master must be able to interpret the IEC 60870-5- 103 communication messages. The UR implementation of IEC 60870-5-103 consists of the following functions: • Report binary inputs • Report analog values (measurands) F35 Multiple Feeder Protection System GE Multilin...
Page 37 2 PRODUCT DESCRIPTION 2.1 INTRODUCTION • Commands • Time synchronization The RS485 port supports IEC 60870-5-103. GE Multilin F35 Multiple Feeder Protection System...
Page 38: Order Codes
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 F35 Multiple Feeder Protection System GE Multilin...
Page 39 IEEE 1588 and PRP IEEE 1588, PRP, CyberSentry Lvl 1, and Ethernet Global Data IEEE 1588, PRP, CyberSentry Lvl 1, and IEC 61850 IEEE 1588, PRP, CyberSentry Lvl 1, Ethernet Global Data, and IEC 61850 GE Multilin F35 Multiple Feeder Protection System...
Page 40 Channel 1 - RS422; Channel 2 - 1300 nm, single-mode, Laser Channel 1 - G.703; Channel 2 - 1300 nm, single-mode Laser G.703, 1 Channel G.703, 2 Channels RS422, 1 Channel RS422, 2 Channels 2-10 F35 Multiple Feeder Protection System GE Multilin...
Page 41: Order Codes With Process Bus Modules
IEEE C37.94, 820 nm, 128 kbps, multimode, LED, 2 Channels Channel 1 - IEEE C37.94, MM, 64/128 kbps; Channel 2 - 1300 nm, single-mode, Laser Channel 1 - IEEE C37.94, MM, 64/128 kbps; Channel 2 - 1550 nm, single-mode, Laser GE Multilin F35 Multiple Feeder Protection System 2-11...
Page 42 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 2-12 F35 Multiple Feeder Protection System GE Multilin...
Page 43 Channel 1 - RS422; Channel 2 - 1300 nm, single-mode, Laser Channel 1 - G.703; Channel 2 - 1300 nm, single-mode Laser G.703, 1 Channel G.703, 2 Channels RS422, 1 Channel RS422, 2 Channels GE Multilin F35 Multiple Feeder Protection System 2-13...
Page 44: Replacement Modules
4 RTD inputs, 4 DCmA outputs (only one 5D module is allowed) 4 DCmA inputs, 4 RTD inputs 8 DCmA inputs The replacement module order codes for the reduced-size vertical mount units are shown below. 2-14 F35 Multiple Feeder Protection System GE Multilin...
Page 45 4 DCmA inputs, 4 DCmA outputs (only one 5A module is allowed) 8 RTD inputs INPUTS/OUTPUTS 4 RTD inputs, 4 DCmA outputs (only one 5D module is allowed) 4 DCmA inputs, 4 RTD inputs 8 DCmA inputs GE Multilin F35 Multiple Feeder Protection System 2-15...
Page 46: Signal Processing
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: Voltages: ± ⋅ 260 V (EQ 2.1) Currents: 2-16 F35 Multiple Feeder Protection System GE Multilin...
Page 47 Other advanced UR order code options are available to support IEC 61850 Ed2.0 (including fast GOOSE, MMS server, 61850 services, ICD/CID/IID files, and so on), IEEE 1588 (IEEE C37.238 power profile) based time synchronization, Cyber- Sentry (advanced cyber security), the Parallel Redundancy Protocol (PRP), IEC 60870-5-103, and so on. GE Multilin F35 Multiple Feeder Protection System 2-17...
Page 48: Specifications
±1.5% of reading > 2.0 × CT rating Inverse; IEC (and BS) A/B/C and Short Curve shapes: IEEE Moderately/Very/Extremely Inverse; GE IAC Inverse, Short/Very/ Inverse; IEC (and BS) A/B/C and Short Extremely Inverse; I t; FlexCurves™ Inverse; GE IAC Inverse, Short/Very/ (programmable);...
Page 49 Level accuracy: ±0.5% of reading from 10 to 208 V sures fault duration Curve shapes: GE IAV Inverse, Definite Time Initiation: programmable per phase from any Flex- Curve multiplier: Time Dial = 0 to 600.00 in steps of 0.01...
Page 50: User-Programmable Elements
0.000 to 999999.999 s in steps of 0.001 tual input Dropout delay: 0.000 to 999999.999 s in steps of 0.001 Reset mode: self-reset or latched Timing accuracy: ±3% or ±4 ms, whichever is greater 2-20 F35 Multiple Feeder Protection System GE Multilin...
Page 51: Monitoring
REACTIVE POWER (VARS) Parameters: three-phase only Accuracy at 0.1 to 1.5 x Update rate: 50 ms CT rating and 0.8 to ±1.0% of reading at –0.2 ≤ PF ≤ 0.2 1.2 x VT rating: GE Multilin F35 Multiple Feeder Protection System 2-21...
Page 52: Inputs
Continuous current draw:4 mA (when energized) REMOTE INPUTS (IEC 61850 GSSE/GOOSE) Input points: 32, configured from 64 incoming bit pairs Remote devices: Default states on loss of comms.: On, Off, Latest/Off, Latest/On Remote DPS inputs: 2-22 F35 Multiple Feeder Protection System GE Multilin...
Page 53: Power Supply
Control mode: operate-dominant or reset-dominant FORM-A VOLTAGE MONITOR Applicable voltage: approx. 15 to 250 V DC Trickle current: approx. 1 to 2.5 mA FORM-A CURRENT MONITOR Threshold current: approx. 80 to 100 mA GE Multilin F35 Multiple Feeder Protection System 2-23...
Page 54 99% Settling time to a step change: 100 ms Isolation: 1.5 kV Driving signal: any FlexAnalog quantity Upper and lower limit for the driving signal: –90 to 90 pu in steps of 0.001 2-24 F35 Multiple Feeder Protection System GE Multilin...
Page 55: Communication Protocols
–30 dBm 29 dB Single mode 1550 nm Laser, +5 dBm –30 dBm 35 dB Single mode These power budgets are calculated from the manu- facturer’s worst-case transmitter power and worst NOTE GE Multilin F35 Multiple Feeder Protection System 2-25...
Page 56: Environmental
– Overvoltage category: 20°C Ingress protection: IP20 front, IP10 back HUMIDITY Noise: 0 dB Humidity: operating up to 95% (non-condensing) at 55°C (as per IEC60068-2-30 variant 1, 6 days). 2-26 F35 Multiple Feeder Protection System GE Multilin...
Page 57: Type Tests
Safety IEC 60255-27 Insulation: class 1, Pollution degree: 2, Over voltage cat II 2.4.12 PRODUCTION TESTS THERMAL Products go through an environmental test based upon an Accepted Quality Level (AQL) sampling process. GE Multilin F35 Multiple Feeder Protection System 2-27...
Page 58: Approvals
To avoid deterioration of electrolytic capacitors, power up units that are stored in a de-energized state once per year, for one hour continuously. 2-28 F35 Multiple Feeder Protection System GE Multilin...
Page 59: Hardware
RS232 communications port. The relay is secured to the panel with the use of four screws supplied with the relay. Figure 3–1: F35 HORIZONTAL DIMENSIONS (ENHANCED PANEL) GE Multilin F35 Multiple Feeder Protection System...
Page 60 The relay must be mounted such that the faceplate sits semi-flush with the panel or switchgear door, allowing the operator access to the keypad and the RS232 communications port. The relay is secured to the panel with the use of four screws supplied with the relay. F35 Multiple Feeder Protection System GE Multilin...
Page 61 3 HARDWARE 3.1 DESCRIPTION Figure 3–4: F35 VERTICAL DIMENSIONS (ENHANCED PANEL) GE Multilin F35 Multiple Feeder Protection System...
Page 62 Figure 3–5: F35 VERTICAL MOUNTING AND DIMENSIONS (STANDARD PANEL) For side mounting F35 devices with the enhanced front panel, see the following documents available on the UR DVD and the GE Grid Solutions website: • GEK-113180: UR-Series UR-V Side-Mounting Front Panel Assembly Instructions •...
Page 63 3 HARDWARE 3.1 DESCRIPTION Figure 3–6: F35 VERTICAL SIDE MOUNTING INSTALLATION (STANDARD PANEL) GE Multilin F35 Multiple Feeder Protection System...
Page 64 3.1 DESCRIPTION 3 HARDWARE Figure 3–7: F35 VERTICAL SIDE MOUNTING REAR DIMENSIONS (STANDARD PANEL) F35 Multiple Feeder Protection System GE Multilin...
Page 65: Rear Terminal Layout
(nearest to CPU module) which is indicated by an arrow marker on the terminal block. See the following figure for an example of rear terminal assignments. Figure 3–9: EXAMPLE OF MODULES IN F AND H SLOTS GE Multilin F35 Multiple Feeder Protection System...
Page 66: Wiring
3.2 WIRING 3 HARDWARE 3.2WIRING 3.2.1 TYPICAL WIRING Figure 3–10: TYPICAL WIRING DIAGRAM (T MODULE SHOWN FOR CPU) F35 Multiple Feeder Protection System GE Multilin...
Page 67: Dielectric Strength
If one of the power supplies become faulted, the second power supply assumes the full load of the relay without any interruptions. Each power supply has a green LED on the front of the module to indicate it is functional. The critical fail relay of the module also indicates a faulted power supply. GE Multilin F35 Multiple Feeder Protection System...
Page 68: Ct/Vt Modules
CT connections for both ABC and ACB phase rotations are identical as shown in the Typical wiring diagram. The exact placement of a zero-sequence core balance CT to detect ground fault current is shown as follows. Twisted-pair cabling on the zero-sequence CT is recommended. 3-10 F35 Multiple Feeder Protection System GE Multilin...
Page 69 NOTE Current inputs Voltage inputs 8F, 8G, 8L, and 8M modules (4 CTs and 4 VTs) Current inputs 8H, 8J, 8N, and 8R modules (8 CTs) 842766A3.CDR Figure 3–13: CT/VT MODULE WIRING GE Multilin F35 Multiple Feeder Protection System 3-11...
Page 70: Process Bus Modules
3.2.5 PROCESS BUS MODULES The F35 can be ordered with a process bus interface module. This module is designed to interface with the GE Multilin HardFiber system, allowing bidirectional IEC 61850 fiber optic communications with up to eight HardFiber merging units, known as Bricks.
Page 71 Logic operand driving the contact output should be given a reset delay of 10 ms to prevent damage of the output contact (in situations when the element initiating the contact output is bouncing, at val- ues in the region of the pickup value). GE Multilin F35 Multiple Feeder Protection System 3-13...
Page 72 ~7a, ~7c 2 Inputs ~7a, ~7c 2 Inputs ~7a, ~7c 2 Inputs ~7a, ~7c 2 Inputs ~8a, ~8c 2 Inputs ~8a, ~8c 2 Inputs ~8a, ~8c 2 Inputs ~8a, ~8c 2 Inputs 3-14 F35 Multiple Feeder Protection System GE Multilin...
Page 73 ~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 GE Multilin F35 Multiple Feeder Protection System 3-15...
Page 74 3.2 WIRING 3 HARDWARE Figure 3–15: CONTACT INPUT AND OUTPUT MODULE WIRING (1 of 2) 3-16 F35 Multiple Feeder Protection System GE Multilin...
Page 75 3 HARDWARE 3.2 WIRING Figure 3–16: CONTACT INPUT AND OUTPUT MODULE WIRING (2 of 2) For proper functionality, observe the polarity shown in the figures for all contact input and output con- nections. GE Multilin F35 Multiple Feeder Protection System 3-17...
Page 76 Wherever a tilde “~” symbol appears, substitute with the slot position of the module. NOTE There is no provision in the relay to detect a DC ground fault on 48 V DC control power external output. We recommend using an external DC supply. 3-18 F35 Multiple Feeder Protection System GE Multilin...
Page 77 = OFF CONTACT INPUT 1 AUTO-BURNISH = OFF CONTACT INPUT 2 AUTO-BURNISH = ON CONTACT INPUT 1 AUTO-BURNISH = ON CONTACT INPUT 2 AUTO-BURNISH = ON 842751A1.CDR Figure 3–19: AUTO-BURNISH DIP SWITCHES GE Multilin F35 Multiple Feeder Protection System 3-19...
Page 78: Transducer Inputs/Outputs
(5A, 5C, 5D, 5E, and 5F) and channel arrangements that can be ordered for the relay. Wherever a tilde “~” symbol appears, substitute with the slot position of the module. NOTE Figure 3–20: TRANSDUCER INPUT/OUTPUT MODULE WIRING The following figure show how to connect RTDs. 3-20 F35 Multiple Feeder Protection System GE Multilin...
Page 79: Rs232 Faceplate Port
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 is fixed at 19200 bps. NOTE Figure 3–22: RS232 FACEPLATE PORT CONNECTION GE Multilin F35 Multiple Feeder Protection System 3-21...
Page 80: Cpu Communication Ports
(drain wire) to be used as common wire and to connect directly to the F35 COM terminal (#3); others function cor- rectly only if the common wire is connected to the F35 COM terminal, but insulated from the shield. 3-22 F35 Multiple Feeder Protection System GE Multilin...
Page 81 The fiber optic communication ports allow for fast and efficient communications between relays at 100 Mbps. Optical fiber can be connected to the relay supporting a wavelength of 1310 nm in multi-mode. GE Multilin F35 Multiple Feeder Protection System 3-23...
Page 82: Irig-B
µs resolution and accuracy. The IRIG time code formats are serial, pulse width-modulated codes that can be either DC level shifted or amplitude modulated (AM). The GE MultiSync 100 1588 GPS Clock as well as third-party equipment are available for generating the IRIG-B signal; this equipment can use a global positioning system (GPS) satellite system to obtain the time reference so that devices at different geographic locations can be synchronized.
Page 83: Direct Input/Output Communications
1 to channel 2 on UR2, the setting should be “Enabled” on UR2. This DIRECT I/O CHANNEL CROSSOVER forces UR2 to forward messages received on Rx1 out Tx2, and messages received on Rx2 out Tx1. GE Multilin F35 Multiple Feeder Protection System 3-25...
Page 84: Fiber: Led And Eled Transmitters
Order Code tables in Chapter 2. All of the fiber modules use ST type connectors. 3.3.2 FIBER: LED AND ELED TRANSMITTERS The following figure shows the configuration for the 7A, 7B, 7C, 7H, 7I, and 7J fiber-only modules. Figure 3–29: LED AND ELED FIBER MODULES 3-26 F35 Multiple Feeder Protection System GE Multilin...
Page 85: Fiber-Laser Transmitters
Observing any fiber transmitter output can injure the eye. When using a laser Interface, attenuators can be necessary to ensure that you do not exceed the maximum optical input power to the receiver. GE Multilin F35 Multiple Feeder Protection System 3-27...
Page 86: Interface
Remove the module cover screw. Remove the top cover by sliding it towards the rear and then lift it upwards. Set the timing selection switches (channel 1, channel 2) to the desired timing modes. 3-28 F35 Multiple Feeder Protection System GE Multilin...
Page 87 Loop Timing Mode: The system clock is derived from the received line signal. Therefore, the G.703 timing selection should be in loop timing mode for connections to higher order systems. For connection to a higher order system (UR- GE Multilin F35 Multiple Feeder Protection System...
Page 88 G.703 line side of the interface while the other lies on the differential Manchester side of the interface. DMR = Differential Manchester Receiver DMX = Differential Manchester Transmitter G7X = G.703 Transmitter G7R = G.703 Receiver 842775A1.CDR Figure 3–36: G.703 DUAL LOOPBACK MODE 3-30 F35 Multiple Feeder Protection System GE Multilin...
Page 89: Rs422 Interface
UR–RS422 channels is synchronized via the send timing leads on data module 1 as shown below. If the terminal timing feature is not available or this type of connection is not desired, the G.703 interface is a viable option that does not impose timing restrictions. GE Multilin F35 Multiple Feeder Protection System 3-31...
Page 90 For example, the following figure shows the positive edge of the Tx clock in the center of the Tx data bit. Tx Clock Tx Data 831733A1.CDR Figure 3–40: CLOCK AND DATA TRANSITIONS 3-32 F35 Multiple Feeder Protection System GE Multilin...
Page 91: Rs422 And Fiber Interface
G.703 and fiber interfaces. When using a laser Interface, attenuators can be necessary to ensure that you do not exceed the maximum optical input power to the receiver. GE Multilin F35 Multiple Feeder Protection System 3-33...
Page 92: Ieee C37.94 Interface
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 shown as follows. 3-34 F35 Multiple Feeder Protection System GE Multilin...
Page 93 In 2008, GE Grid Solutions released revised modules 76 and 77 for C37.94 communication to enable multi-ended fault location functionality with firmware 5.60 release and higher. All modules 76 and 77 shipped the change support this feature and are fully backward compatible with firmware releases below 5.60.
Page 94 Modules shipped since January 2012 have status LEDs that indicate the status of the DIP switches, as shown in the follow- ing figure. Figure 3–44: STATUS LEDS The clock configuration LED status is as follows: • Flashing green — loop timing mode while receiving a valid data packet 3-36 F35 Multiple Feeder Protection System GE Multilin...
Page 95: C37.94Sm Interface
It can also can be connected directly to any other UR-series relay with a C37.94SM module as shown below. In 2008, GE Grid Solutions released revised modules 2A and 2B for C37.94SM communication to enable multi-ended fault location functionality with firmware 5.60 release and higher. All modules 2A and 2B shipped since the change support this feature and are fully backward compatible with firmware releases below 5.60.
Page 96 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 fully inserted. 3-38 F35 Multiple Feeder Protection System GE Multilin...
Page 97 Modules shipped since January 2012 have status LEDs that indicate the status of the DIP switches, as shown in the follow- ing figure. Figure 3–46: STATUS LEDS The clock configuration LED status is as follows: • Flashing green — loop timing mode while receiving a valid data packet GE Multilin F35 Multiple Feeder Protection System 3-39...
Page 98 Solid yellow — FPGA is receiving a "yellow bit" and remains yellow for each "yellow bit" • Solid red — FPGA is not receiving a valid packet or the packet received is invalid 3-40 F35 Multiple Feeder Protection System GE Multilin...
Page 99: Human Interfaces
Factory default values are supplied and can be restored after any changes. The following communications settings are not transferred to the F35 with settings files: Modbus Slave Address Modbus TCP Port Number RS485 COM2 Baud Rate RS485 COM2 Parity GE Multilin F35 Multiple Feeder Protection System...
Page 100 Before backing up settings and upgrading, set the Settings > Product Setup > Security > Dual Permission Security Access > Remote Setting Authorized and Local Setting Authorized settings to "ON." Otherwise, the upgrade is blocked and results in an "Unable to put relay in flash mode" message. F35 Multiple Feeder Protection System GE Multilin...
Page 101: Enervista Ur Setup Main Window
Settings list control bar window Device data view windows, with common tool bar Settings file data view windows, with common tool bar Workspace area with data view tabs Status bar 10. Quick action hot links GE Multilin F35 Multiple Feeder Protection System...
Page 102 4.1 ENERVISTA UR SETUP SOFTWARE INTERFACE 4 HUMAN INTERFACES 842786A2.CDR Figure 4–1: ENERVISTA UR SETUP SOFTWARE MAIN WINDOW F35 Multiple Feeder Protection System GE Multilin...
Page 103: Extended Enervista Ur Setup Features
Select the Template Mode > Edit Template option to place the device in template editing mode. Enter the template password then click OK. Open the relevant settings windows that contain settings to be specified as viewable. GE Multilin F35 Multiple Feeder Protection System...
Page 104 The following procedure describes how to add password protection to a settings file template. Select a settings file from the offline window on the left of the EnerVista UR Setup main screen. Selecting the Template Mode > Password Protect Template option. F35 Multiple Feeder Protection System GE Multilin...
Page 105 Template Mode > View In Template Mode command. The template specifies that only the Pickup Curve Phase time overcurrent settings window without template applied. settings be available. 842858A1.CDR Figure 4–4: APPLYING TEMPLATES VIA THE VIEW IN TEMPLATE MODE COMMAND GE Multilin F35 Multiple Feeder Protection System...
Page 106 Select an installed device or settings file from the tree menu on the left of the EnerVista UR Setup main screen. Select the Template Mode > Remove Settings Template option. Enter the template password and click OK to continue. F35 Multiple Feeder Protection System GE Multilin...
Page 107: Securing And Locking Flexlogic Equations
Click on Save to save and apply changes to the settings template. Select the Template Mode > View In Template Mode option to view the template. Apply a password to the template then click OK to secure the FlexLogic equation. GE Multilin F35 Multiple Feeder Protection System...
Page 108 FlexLogic entries in a settings file have been secured, use the following procedure to lock the settings file to a specific serial number. Select the settings file in the offline window. Right-click on the file and select the Edit Settings File Properties item. 4-10 F35 Multiple Feeder Protection System GE Multilin...
Page 109: Settings File Traceability
F35 device. Any partial settings transfers by way of drag and drop do not add the traceability information to the settings file. Figure 4–11: SETTINGS FILE TRACEABILITY MECHANISM With respect to the above diagram, the traceability feature is used as follows. GE Multilin F35 Multiple Feeder Protection System 4-11...
Page 110 Figure 4–12: DEVICE DEFINITION SHOWING TRACEABILITY DATA This information is also available in printed settings file reports as shown in the example below. Traceability data in settings report 842862A1.CDR Figure 4–13: SETTINGS FILE REPORT SHOWING TRACEABILITY DATA 4-12 F35 Multiple Feeder Protection System GE Multilin...
Page 111 If the user converts an existing settings file to another revision, then any existing traceability information is removed from the settings file. • If the user duplicates an existing settings file, then any traceability information is transferred to the duplicate settings file. GE Multilin F35 Multiple Feeder Protection System 4-13...
Page 112: Faceplate Interface
The following figure shows the horizontal arrange- ment of the faceplate panels. Figure 4–16: UR-SERIES STANDARD HORIZONTAL FACEPLATE PANELS 4-14 F35 Multiple Feeder Protection System GE Multilin...
Page 113: Led Indicators
The status indicators in the first column are described below. • IN SERVICE: This LED indicates that control power is applied, all monitored inputs, outputs, and internal systems are OK, and that the device has been programmed. GE Multilin F35 Multiple Feeder Protection System 4-15...
Page 114 LED indicator or target message, once the condition has been cleared (these latched conditions can also be reset via the   menu). The RS232 port is for connection to a com- SETTINGS INPUT/OUTPUTS RESETTING puter. keys are used by the breaker control feature. USER 4-16 F35 Multiple Feeder Protection System GE Multilin...
Page 115 User customization of LED operation is of maximum benefit in installations where languages other than English are used to communicate with operators. Refer to the User-programmable LEDs section in chapter 5 for the settings used to program the operation of the LEDs on these panels. GE Multilin F35 Multiple Feeder Protection System 4-17...
Page 116: Custom Labeling Of Leds
EnerVista UR Setup software is installed and operational • The F35 settings have been saved to a settings file • The F35 front panel label cutout sheet (GE Multilin part number 1006-0047) has been downloaded from http://www.gegridsolutions.com/products/support/ur/URLEDenhanced.doc and printed •...
Page 117 Remove the F35 label insert tool from the package and bend the tabs as described in the following procedures. These tabs are used for removal of the default and custom LED labels. It is important that the tool be used EXACTLY as shown below, with the printed side containing the GE part number facing the user.
Page 118 Use the knife to lift the LED label and slide the label tool underneath. Make sure the bent tabs are pointing away from the relay. Slide the label tool under the LED label until the tabs snap out as shown below. This attaches the label tool to the LED label. 4-20 F35 Multiple Feeder Protection System GE Multilin...
Page 119 Use the knife to lift the pushbutton label and slide the tail of the label tool underneath, as shown below. Make sure the bent tab is pointing away from the relay. GE Multilin F35 Multiple Feeder Protection System 4-21...
Page 120 Slide the label tool under the user-programmable pushbutton label until the tabs snap out as shown below. This attaches the label tool to the user-programmable pushbutton label. Remove the tool and attached user-programmable pushbutton label as shown below. 4-22 F35 Multiple Feeder Protection System GE Multilin...
Page 121: Display
1. For the following discussion it is assumed the     SETTINGS SYSTEM SETUP BREAKERS BREAKER 1(2) BREAKER setting is "Enabled" for each breaker. FUNCTION GE Multilin F35 Multiple Feeder Protection System 4-23...
Page 122: Menus
Press the MENU key to select a header display page (top-level menu). The header title appears momentarily followed by a header display page menu item. Each press of the MENU key advances through the following main heading pages: • Actual values • Settings 4-24 F35 Multiple Feeder Protection System GE Multilin...
Page 123 4 HUMAN INTERFACES 4.3 FACEPLATE INTERFACE • Commands • Targets • User displays (when enabled) GE Multilin F35 Multiple Feeder Protection System 4-25...
Page 124 Pressing the MESSAGE DOWN key displays the second setting sub-header associ-  PROPERTIES ated with the Product Setup header.  Press the MESSAGE RIGHT key once more to display the first setting for Display FLASH MESSAGE Properties. TIME: 1.0 s 4-26 F35 Multiple Feeder Protection System GE Multilin...
Page 125: Changing Settings
ENTERING ALPHANUMERIC TEXT Text settings have data values which are fixed in length, but user-defined in character. They can be upper case letters, lower case letters, numerals, and a selection of special characters. GE Multilin F35 Multiple Feeder Protection System 4-27...
Page 126: Settings
The information in this section refers to password security. For information on how to set or change CyberSentry pass- words, see the Settings > Product Setup > Security > CyberSentry section in the next chapter. 4-28 F35 Multiple Feeder Protection System GE Multilin...
Page 127 FlexLogic operand is set to “On” and the F35 does not allow settings or LOCAL ACCESS DENIED command level access via the faceplate interface for the next five minutes. GE Multilin F35 Multiple Feeder Protection System 4-29...
Page 128 FlexLogic operand is set to “Off” after five minutes for a Command password or 30 minutes for a Settings password. These default settings can be changed in EnerVista under Settings > Product Setup > Security. 4-30 F35 Multiple Feeder Protection System GE Multilin...
Page 129: Overview
See page 5-92.   TELEPROTECTION See page 5-99.   INSTALLATION See page 5-100.   SETTINGS  AC INPUTS See page 5-102.  SYSTEM SETUP   POWER SYSTEM See page 5-103.  GE Multilin F35 Multiple Feeder Protection System...
Page 130  SELECTOR SWITCH See page 5-173.   UNDERFREQUENCY See page 5-179.   AUTORECLOSE See page 5-180.   DIGITAL ELEMENTS See page 5-186.   DIGITAL COUNTERS See page 5-189.  F35 Multiple Feeder Protection System GE Multilin...
Page 131  IEC 61850 See page 5-228.  GOOSE UINTEGERS  SETTINGS  DCMA INPUTS See page 5-229.  TRANSDUCER I/O   RTD INPUTS See page 5-230.   DCMA OUTPUTS See page 5-232.  GE Multilin F35 Multiple Feeder Protection System...
Page 132: Introduction To Elements
For wye-connected VTs, the primary and secondary bases quanitities are as before, but the secondary voltage (here a phase-to-phase ground value) is: 13800 --------------- - --------- - × 66.4 V (EQ 5.2) 14400 Many settings are common to most elements and are discussed below: F35 Multiple Feeder Protection System GE Multilin...
Page 133: Introduction To Ac Sources
The same considerations apply to transformer winding 2. The protection elements require access to the net current for transformer protection, but some elements may need access to the individual currents from CT1 and CT2. GE Multilin F35 Multiple Feeder Protection System...
Page 134 CT/VT MODULE 1 CT/VT MODULE 2 CT/VT MODULE 3 < bank 1 > < bank 3 > < bank 5 > < bank 2 > < bank 4 > < bank 6 > F35 Multiple Feeder Protection System GE Multilin...
Page 135 Upon startup, the CPU configures the settings required to characterize the current and voltage inputs, and will display them in the appropriate section in the sequence of the banks (as described above) as follows for a maximum configuration: F1, F5, M1, M5, U1, and U5. GE Multilin F35 Multiple Feeder Protection System...
Page 136: Product Setup
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.
Page 137 CHANGE SET- setting is programmed to “Yes” via the front panel interface, the following message sequence is invoked: TING PASSWORD ENTER NEW PASSWORD: ____________. VERIFY NEW PASSWORD: ____________. NEW PASSWORD HAS BEEN STORED. GE Multilin F35 Multiple Feeder Protection System...
Page 138 When lockout occurs, the LOCAL ACCESS DENIED FlexLogic operands are set to “On”. These operands are returned to the “Off” state upon REMOTE ACCESS DENIED expiration of the lockout. 5-10 F35 Multiple Feeder Protection System GE Multilin...
Page 139 If this setting is "Off," firmware upgrades are blocked. If this setting is "On," firmware upgrades are allowed. • REMOTE SETTING AUTH: This setting is used for remote (Ethernet or RS485 interfaces) setting access supervision. GE Multilin F35 Multiple Feeder Protection System 5-11...
Page 140 It is disabled by default to allow the administrator direct access to the EnerVista software immediately after installation. When security is disabled, all users have administrator access. GE recommends enabling the EnerVista security before placing the device in service.
Page 141 Enter a username in the User field. The username must be 4 to 20 characters in length. Select the user access rights by enabling the check box of one or more of the fields. GE Multilin F35 Multiple Feeder Protection System...
Page 142 Deletes the user account when exiting the user management window Actual Values Allows the user to read actual values Settings Allows the user to read setting values Commands Allows the user to execute commands 5-14 F35 Multiple Feeder Protection System GE Multilin...
Page 143 Note that other protocols (DNP, 101, 103, 104, EGD) are not encrypted, and they are good communications options for SCADA systems when CyberSentry is enabled. CYBERSENTRY SETTINGS THROUGH ENERVISTA CyberSentry security settings are configured under Device > Settings > Product Setup > Security. GE Multilin F35 Multiple Feeder Protection System 5-15...
Page 144 Number of retries before giving up 9999 Administrator Confirm RADIUS Confirmation of the shared secret. The See the 245 characters Administrator Authentication entry displays as asterisks. Password (Shared) Secret Requirement s section 5-16 F35 Multiple Feeder Protection System GE Multilin...
Page 145 Supervisor accept any settings changes. If Yes and a (Administrator if settings change attempt is made, the device Supervisor has alarm activates. If No, the device alarm does not been disabled) activate. GE Multilin F35 Multiple Feeder Protection System 5-17...
Page 146: Security
PATH: SETTINGS PRODUCT SETUP SECURITY CHANGE LOCAL PASSWORDS Range: 20 Alphanumeric Characters  CHANGE LOCAL LOGIN:  PASSWORDS None Range: 20 Alphanumeric Characters NEW PASSWORD: MESSAGE Range: 20 Alphanumeric Characters CONFIRM PASSWORD: MESSAGE 5-18 F35 Multiple Feeder Protection System GE Multilin...
Page 147 LOAD FACTORY DEFAULTS: This setting is used to reset all the settings, communication and security passwords. An Administrator role is used to change this setting and a Supervisor role (if not disabled) approves it. GE Multilin F35 Multiple Feeder Protection System...
Page 148 Administrator if the Supervisor role is disabled. The Supervisor role enables this setting for the relay to start accepting setting changes or command changes or firmware upgrade. After all the setting changes are applied or com- mands executed, the Supervisor disables to lock setting changes. 5-20 F35 Multiple Feeder Protection System GE Multilin...
Page 149 Observer). When using a serial connection, only device authentication is supported. When server authentication is required, characteristics for communication with a RADIUS server must be configured. This is possible only in the EnerV- GE Multilin F35 Multiple Feeder Protection System...
Page 150 Event Number — Event identification number (index) Date & Timestamp — UTC date and time Username — 255 chars maximum, but in the security log it is truncated to 20 characters IP address — Device IP address 5-22 F35 Multiple Feeder Protection System GE Multilin...
Page 151 Clear energy command was issued RESET_UNAUTH_ACCESS Warning (4) Reset Unauthorized access command was issued CLEAR_TELEPROTECTION_CNT Notice (5) Clear teleprotection counters command was issued CLEAR_ALL_RECS Warning (4) Clear all records command was issued GE Multilin F35 Multiple Feeder Protection System 5-23...
Page 152: Display Properties
The F35 applies a cut-off value to the magnitudes and angles of the measured voltages. If the magnitude is below the cut-off level, it is substituted with zero. This operation applies to phase and auxiliary voltages, and symmetrical 5-24 F35 Multiple Feeder Protection System GE Multilin...
Page 153: Clear Relay Records
CLEAR EVENT RECORDS: MESSAGE Range: FlexLogic operand CLEAR OSCILLOGRAPHY? MESSAGE Range: FlexLogic operand CLEAR DATA LOGGER: MESSAGE Range: FlexLogic operand CLEAR ARC AMPS 1: MESSAGE Range: FlexLogic operand CLEAR ARC AMPS 2: MESSAGE GE Multilin F35 Multiple Feeder Protection System 5-25...
Page 154 Set the properties for user-programmable pushbutton 1 by making the following changes in the  SETTINGS PRODUCT   menu: SETUP USER-PROGRAMMABLE PUSHBUTTONS USER PUSHBUTTON 1 “Self-reset” PUSHBUTTON 1 FUNCTION: “0.20 s” PUSHBTN 1 DROP-OUT TIME: 5-26 F35 Multiple Feeder Protection System GE Multilin...
Page 155: Communications
32 relays can be daisy-chained and connected to a DCS, PLC, or computer using the RS485 ports. If IEC 60870-103 is chosen as the protocol, valid baud rates are 9600 and 19200 bit/s, and valid parity is Even. GE Multilin F35 Multiple Feeder Protection System...
Page 156 EnerVista, and access to the public network shared on the same LAN. No redundancy is provided. Figure 5–4: NETWORK CONFIGURATION FOR SINGLE LAN Public Network SCADA EnerVista Software LAN1 ML3000 IP1/ MAC1 859708A2.vsd 5-28 F35 Multiple Feeder Protection System GE Multilin...
Page 157 LAN3, to which port 3 (P3) is connected. There is no redundancy. Figure 5–6: MULTIPLE LANS, NO REDUNDANCY Public Network SCADA EnerVista Software LAN1 LAN2 LAN3 ML3000 ML3000 ML3000 IP1/ IP2/ IP3/ MAC2 MAC3 MAC1 859710A2.vsd GE Multilin F35 Multiple Feeder Protection System 5-29...
Page 158 IP addresses and mask. Configure the network IP and subnet settings before configuring the rout- ing 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.
Page 159 Under normal circumstances both frames reach the destination and one of them is sent up the OSI stack to the destination application, while the second one is discarded. If an error occurs in one of the networks and GE Multilin F35 Multiple Feeder Protection System...
Page 160 The default route is used as the last choice when no other route towards a given destination is found. Range: Standard IPV4 unicast address format  IPV4 DEFAULT ROUTE GATEWAY ADDRESS  127.0.0.1 5-32 F35 Multiple Feeder Protection System GE Multilin...
Page 161 (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 GE Multilin F35 Multiple Feeder Protection System 5-33...
Page 162 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 GATE- WAY = 10.1.2.1 5-34 F35 Multiple Feeder Protection System GE Multilin...
Page 163 PORT NUMBER MODBUS TCP PORT NUMBER over TCP/IP, meaning closes the Modbus TCP port. When it is set to 0, use the front panel or serial port to communicate with the relay. GE Multilin F35 Multiple Feeder Protection System 5-35...
Page 164 Modbus, IEC 61850 Channel 2: RS485 Channel 1: RS485 Modbus Modbus, IEC 61850 Channel 2: none IEC 104 Modbus Modbus IEC 104, Modbus, IEC 61850 IEC 103 Modbus IEC 103 Modbus, IEC 61850 5-36 F35 Multiple Feeder Protection System GE Multilin...
Page 165 DEADBAND: 30000 Range: 0 to 100000000 in steps of 1 DNP OTHER DEFAULT MESSAGE DEADBAND: 30000 Range: 1 to 10080 min. in steps of 1 DNP TIME SYNC IIN MESSAGE PERIOD: 1440 min GE Multilin F35 Multiple Feeder Protection System 5-37...
Page 166 Do not set more than one protocol to the same TCP/UDP port number, as this results in unreliable operation of NOTE those protocols. setting is the DNP slave address. This number identifies the F35 on a DNP communications link. Each DNP ADDRESS DNP slave should be assigned a unique address. 5-38 F35 Multiple Feeder Protection System GE Multilin...
Page 167 1, 2, 20, 21, 22, 23, 30, and 32. The default variation refers to the variation response when variation 0 is requested and/or in class 0, 1, 2, or 3 scans. See the DNP Implementation section in the DNP appendix. GE Multilin F35 Multiple Feeder Protection System 5-39...
Page 168 Up to 256 analog input points can be configured for the DNP or IEC 60870-5-104 protocols. The analog point list is config- ured by assigning an appropriate FlexAnalog parameter to each point. Refer to Appendix A: FlexAnalog Parameters for the full range of assignable parameters. 5-40 F35 Multiple Feeder Protection System GE Multilin...
Page 169 The F35 supports the Manufacturing Message Specification (MMS) protocol as specified by IEC 61850. MMS is supported over two protocol stacks: TCP/IP over Ethernet. The F35 operates as an IEC 61850 server. The Remote Inputs and Out- puts section in this chapter describe the peer-to-peer GSSE/GOOSE message scheme. GE Multilin F35 Multiple Feeder Protection System 5-41...
Page 170 IEC 61850 GSSE application ID name string sent as part of each GSSE message. This GSSE ID string identifies the GSSE message to the receiving device. In F35 releases previous to 5.0x, this name string was repre- sented by the setting. RELAY NAME 5-42 F35 Multiple Feeder Protection System GE Multilin...
Page 171 ID for each GOOSE sending device. This value can be left at its default if the feature is not required. Both the GOOSE VLAN settings are required by IEC 61850. PRIORITY GOOSE ETYPE APPID GE Multilin F35 Multiple Feeder Protection System 5-43...
Page 172 The aggressive scheme is only supported in fast type 1A GOOSE messages (GOOSEOut 1 and GOOSEOut 2). For slow GOOSE messages (GOOSEOut 3 to GOOSEOut 8) the aggressive scheme is the same as the medium scheme. 5-44 F35 Multiple Feeder Protection System GE Multilin...
Page 173 Configure the transmission dataset. Configure the GOOSE service settings. Configure the data. The general steps required for reception configuration are: Configure the reception dataset. Configure the GOOSE service settings. Configure the data. GE Multilin F35 Multiple Feeder Protection System 5-45...
Page 174 Configure the GOOSE service settings by making the following changes in the  INPUTS/OUTPUTS REMOTE DEVICES  settings menu: REMOTE DEVICE 1 – to match the GOOSE ID string for the transmitting device. Enter “GOOSEOut_1”. REMOTE DEVICE 1 ID 5-46 F35 Multiple Feeder Protection System GE Multilin...
Page 175 The status value for GGIO1.ST.Ind1.stVal is determined by the FlexLogic operand assigned to GGIO1 indication 1. Changes to this operand will result in the transmission of GOOSE messages con- taining the defined dataset. GE Multilin F35 Multiple Feeder Protection System 5-47...
Page 176 Received values are used to populate the GGIO3.MX.AnIn1 and higher items. Received values are also available as FlexAnalog parameters (GOOSE analog In1 and up). GGIO3.MX.AnIn1 to GGIO3.MX.AnIn32 can only be used once for all sixteen reception datasets. NOTE 5-48 F35 Multiple Feeder Protection System GE Multilin...
Page 177 F35. Clients are still able to connect to the server (F35 relay), but most data values are not updated. This set- ting does not affect GOOSE/GSSE operation. Changes to the setting, setting, and GOOSE dataset take effect when the F35 is restarted. IED NAME LD INST NOTE GE Multilin F35 Multiple Feeder Protection System 5-49...
Page 178 275 × VT ratio setting • power (real, reactive, and apparent): 46 × phase CT primary setting × 275 × VT ratio setting • • frequency: 90 Hz • power factor: 2 5-50 F35 Multiple Feeder Protection System GE Multilin...
Page 179 GGIO4. When this value is NUMBER OF ANALOG POINTS changed, the F35 must be rebooted in order to allow the GGIO4 logical node to be re-instantiated and contain the newly configured number of analog points. GE Multilin F35 Multiple Feeder Protection System 5-51...
Page 180 GGIO5 integer inputs. The following setting is available for all GGIO5 configuration points. • GGIO5 UINT IN 1 VALUE: This setting selects the FlexInteger value to drive each GGIO5 integer status value (GGIO5.ST.UIntIn1). This setting is stored as an 32-bit unsigned integer value. 5-52 F35 Multiple Feeder Protection System GE Multilin...
Page 181 LLN0 if a user needs some (but not all) data from already existing GGIO1, GGIO4, and MMXU4 points and their quantity is not greater than 64 minus the number items in this dataset. GE Multilin F35 Multiple Feeder Protection System...
Page 182 XCBR operating counter status attribute (OpCnt) increments with every operation. Frequent breaker operation can result in very large OpCnt values over time. This setting allows the OpCnt to be reset to “0” for XCBR1. 5-54 F35 Multiple Feeder Protection System GE Multilin...
Page 183 Since GSSE/GOOSE messages are multicast Ethernet by specification, they are not usually be forwarded by net- work routers. However, GOOSE messages may be forwarded by routers if the router has been configured for VLAN functionality. NOTE GE Multilin F35 Multiple Feeder Protection System 5-55...
Page 184 0, the change takes effect when the F35 is restarted. TFTP MAIN UDP PORT NUMBER Do not set more than one protocol to the same TCP/UDP port number, as this results in unreliable operation of NOTE those protocols. 5-56 F35 Multiple Feeder Protection System GE Multilin...
Page 185 When the IEC port number is set to 0, the change takes effect when the F35 is restarted. Do not set more than one protocol to the same TCP/UDP port number, as this results in unreliable operation of NOTE those protocols. GE Multilin F35 Multiple Feeder Protection System 5-57...
Page 186 Modbus register address. Note that the default setting value of “0” is considered invalid. 5-58 F35 Multiple Feeder Protection System GE Multilin...
Page 187 50 ms. If the setting is 1000 ms, the exchange data will be updated and sent once per second. EGD exchange 1 has a setting range of 50 to 1000 ms. Exchanges 2 and 3 have a setting range of 500 to 1000 ms. GE Multilin F35 Multiple Feeder Protection System 5-59...
Page 188 Range: see sub-menu below  POINT 0  IEC103 INPUTS   BINARY Range: see sub-menu below  POINT 1 MESSAGE  ↓ Range: see sub-menu below  POINT 95 MESSAGE  5-60 F35 Multiple Feeder Protection System GE Multilin...
Page 189  IEC103 INPUTS   MEASURANDS Range: see sub-menu below  ASDU 2 MESSAGE  Range: see sub-menu below  ASDU 3 MESSAGE  Range: see sub-menu below  ASDU 4 MESSAGE  GE Multilin F35 Multiple Feeder Protection System 5-61...
Page 190 ASDU 4 ANALOG 9 MESSAGE Range: 0.000 to 65.535 in steps of 0.001 ASDU 4 ANALOG 9 MESSAGE FACTOR: 1.000 Range: -32768 to 32767 in steps of 1 ASDU 4 ANALOG 9 MESSAGE OFFSET: 0 5-62 F35 Multiple Feeder Protection System GE Multilin...
Page 191 Since RMS voltage V can be only positive: Transmitted voltage Vt = (8191/(Vn*2.4)) * V - 4096 = = (8191/(500000 * 2.4) ) * V - 4096 = 0.0068 * V - 4096 GE Multilin F35 Multiple Feeder Protection System 5-63...
Page 192 Each command is identified by the unique combination made by the function type (FUN), and information number (INF). If the master sends an ASDU command that does not have the FUN and INF of any configured command, the relay rejects it. Table 5–8: COMMANDS MAPPING TABLE DESCRIPTION VALUE 5-64 F35 Multiple Feeder Protection System GE Multilin...
Page 193: Modbus User Map
A setting of None causes the RTC and the synchrophasor clock to free-run until the clock is GE Multilin F35 Multiple Feeder Protection System...
Page 194 Range: 0 to 60 000 ns in steps of 1 PORT 1 PATH DELAY MESSAGE ADDER: 00000 ns Range: –1 000 to +1 000 ns in steps of 1 PORT 1 PATH DELAY MESSAGE ASYMMETRY: 0000 ns 5-66 F35 Multiple Feeder Protection System GE Multilin...
Page 195 This setting selects the value of the priority field in the 802.1Q VLAN tag in request messages issued by the relay’s peer delay mechanism. In compliance with PP the default VLAN priority is 4, but it is recommended that in accordance with PTP it be set to 7. GE Multilin F35 Multiple Feeder Protection System 5-67...
Page 196 GPS receiver to provide an accurate time. UR series relays support unicast, broadcast, multicast, and any- cast SNTP functionality. setting enables or disabled the SNTP feature on the F35. SNTP FUNCTION 5-68 F35 Multiple Feeder Protection System GE Multilin...
Page 197 UTC from the local time these provide. When the RTC is synchronized with a communications protocol providing only UTC (such as PTP or SNTP), the time offset setting is used to determine local time from the UTC provided. PTP ALTERNATE_TIME_OFFSET_INDICATOR TLVs are not used to calculate local time. GE Multilin F35 Multiple Feeder Protection System 5-69...
Page 198: Fault Reports
If trigger does not occur within this time, the values are cleared to prepare for the next disturbance. • Fault current and voltage phasors (one cycle after the trigger). • Elements operated at the time of triggering. 5-70 F35 Multiple Feeder Protection System GE Multilin...
Page 199 It should be kept in mind that grounding points in vicinity of the installation impact the system zero-sequence impedance (grounded loads, reactors, zig-zag transformers, shunt capacitor banks, etc.). GE Multilin F35 Multiple Feeder Protection System...
Page 200: Oscillography
64 samples per cycle; that is, it has no effect on the fundamental calculations of the device. When changes are made to the oscillography settings, all existing oscillography records will be CLEARED. NOTE 5-72 F35 Multiple Feeder Protection System GE Multilin...
Page 201 IB signal on terminal 2 of the CT/VT module in slot F. If there are no CT/VT modules and analog input modules, no analog traces will appear in the file; only the digital traces will appear. GE Multilin F35 Multiple Feeder Protection System 5-73...
Page 202: Data Logger
436380 s 254460 s 3600000 ms 2727.5 235645200 s 340.9 29455200 s 26182800 s Changing any setting affecting data logger operation will clear any data that is currently in the log. NOTE 5-74 F35 Multiple Feeder Protection System GE Multilin...
Page 203: Demand
D 1 e (EQ 5.6) – where: d = demand value after applying input quantity for time t (in minutes) D = input quantity (constant), and k = 2.3 / thermal 90% response time. GE Multilin F35 Multiple Feeder Protection System 5-75...
Page 204: User-Programmable Leds
 TRIP & ALARM LEDS MESSAGE See page 5–79.   USER-PROGRAMMABLE MESSAGE See page 5–79.  LED 1  USER-PROGRAMMABLE MESSAGE  LED 2 ↓  USER-PROGRAMMABLE MESSAGE  LED 48 5-76 F35 Multiple Feeder Protection System GE Multilin...
Page 205 The test responds to the position and rising edges of the control input defined by the set- LED TEST CONTROL ting. The control pulses must last at least 250 ms to take effect. The following diagram explains how the test is executed. GE Multilin F35 Multiple Feeder Protection System 5-77...
Page 206 2. Once stage 2 has started, the pushbutton can be released. When stage 2 is completed, stage 3 will automatically start. The test may be aborted at any time by pressing the pushbutton. 5-78 F35 Multiple Feeder Protection System GE Multilin...
Page 207 AR ENABLED LED 10 operand BREAKER 1 CLOSED LED 22 operand AR DISABLED LED 11 operand BREAKER 1 TROUBLE LED 23 operand AR RIP LED 12 operand LED 24 operand AR LO GE Multilin F35 Multiple Feeder Protection System 5-79...
Page 208: User-Programmable Self Tests
ANY MINOR ALARM ANY SELF-TEST minor alarms continue to function along with other major and minor alarms. See the Relay Self-tests section in chapter 7 for information on major and minor self-test alarms. 5-80 F35 Multiple Feeder Protection System GE Multilin...
Page 209: Control Pushbuttons
An event is logged in the event record (as per user setting) when a control pushbutton is pressed. No event is logged when the pushbutton is released. The faceplate keys (including control keys) cannot be operated simultaneously – a given key must be released before the next one can be pressed. GE Multilin F35 Multiple Feeder Protection System 5-81...
Page 210 SYSTEM SETUP/ BREAKERS/BREAKER 1/ BREAKER 1 PUSHBUTTON CONTROL Enabled=1 TIMER FLEXLOGIC OPERAND SYSTEM SETUP/ BREAKERS/BREAKER 2/ CONTROL PUSHBTN 1 ON 100 msec BREAKER 2 PUSHBUTTON CONTROL 842010A2.CDR Enabled=1 Figure 5–13: CONTROL PUSHBUTTON LOGIC 5-82 F35 Multiple Feeder Protection System GE Multilin...
Page 211: User-Programmable Pushbuttons
FlexLogic equations, protection elements, and control elements. Typical applications include breaker control, autorecloser blocking, and setting groups changes. The user-programmable pushbuttons are under the control level of password protection. The user-configurable pushbuttons for the enhanced faceplate are shown below. GE Multilin F35 Multiple Feeder Protection System 5-83...
Page 212 The pulse duration of the remote set, remote reset, or local pushbutton must be at least 50 ms to operate the push- button. This allows the user-programmable pushbuttons to properly operate during power cycling events and vari- ous system disturbances that may cause transient assertion of the operating signals. NOTE 5-84 F35 Multiple Feeder Protection System GE Multilin...
Page 213 PUSHBTN 1 RESET • PUSHBTN 1 LOCAL: This setting assigns the FlexLogic operand serving to inhibit pushbutton operation from the front panel pushbuttons. This locking functionality is not applicable to pushbutton autoreset. GE Multilin F35 Multiple Feeder Protection System 5-85...
Page 214 “Normal” if the setting is “High Priority” or “Normal”. PUSHBTN 1 MESSAGE • PUSHBUTTON 1 EVENTS: If this setting is enabled, each pushbutton state change will be logged as an event into event recorder. 5-86 F35 Multiple Feeder Protection System GE Multilin...
Page 215 Off = 0 SETTING SETTING Autoreset Delay Autoreset Function = Enabled = Disabled SETTING Drop-Out Timer TIMER FLEXLOGIC OPERAND 200 ms PUSHBUTTON 1 ON 842021A3.CDR Figure 5–16: USER-PROGRAMMABLE PUSHBUTTON LOGIC (Sheet 1 of 2) GE Multilin F35 Multiple Feeder Protection System 5-87...
Page 216 User-programmable pushbuttons require a type HP or HQ faceplate. If an HP or HQ type faceplate was ordered separately, the relay order code must be changed to indicate the correct faceplate option. This can be done via EnerVista UR Setup with the Maintenance > Enable Pushbutton command. NOTE 5-88 F35 Multiple Feeder Protection System GE Multilin...
Page 217: Flex State Parameters
• USER-PROGRAMMABLE CONTROL INPUT: The user-definable displays also respond to the INVOKE AND SCROLL setting. Any FlexLogic operand (in particular, the user-programmable pushbutton operands), can be used to navigate the programmed displays. GE Multilin F35 Multiple Feeder Protection System 5-89...
Page 218 (setting, actual value, or command) which has a Modbus address, to view the hexadecimal form of the Modbus address, then manually convert it to decimal form before entering it (EnerVista UR Setup usage conveniently facilitates this conversion). 5-90 F35 Multiple Feeder Protection System GE Multilin...
Page 219 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. NOTE GE Multilin F35 Multiple Feeder Protection System 5-91...
Page 220: Direct Inputs/Outputs
“Yes”), all direct output messages should be received back. If not, the direct input/output ring CH2 RING CONFIGURATION break self-test is triggered. The self-test error is signaled by the FlexLogic operand. DIRECT RING BREAK 5-92 F35 Multiple Feeder Protection System GE Multilin...
Page 221 Channel 1 64 kbps Channel 1 64 kbps Channel 2 64 kbps The G.703 modules are fixed at 64 kbps. The setting is not applicable to these modules. DIRECT I/O DATA RATE NOTE GE Multilin F35 Multiple Feeder Protection System 5-93...
Page 222 UR IED 1 BLOCK UR IED 4 UR IED 2 UR IED 3 842712A1.CDR Figure 5–19: SAMPLE INTERLOCKING BUSBAR PROTECTION SCHEME For increased reliability, a dual-ring configuration (shown below) is recommended for this application. 5-94 F35 Multiple Feeder Protection System GE Multilin...
Page 223 The complete application requires addressing a number of issues such as failure of both the communications rings, failure or out-of-service conditions of one of the relays, etc. Self-monitoring flags of the direct inputs and outputs feature would be primarily used to address these concerns. GE Multilin F35 Multiple Feeder Protection System 5-95...
Page 224 Inputs and Outputs section. A blocking pilot-aided scheme should be implemented with more security and, ideally, faster message delivery time. This is accomplished using a dual-ring configuration as shown here. 5-96 F35 Multiple Feeder Protection System GE Multilin...
Page 225 FlexLogic operand is set. When the total message counter reaches the user-defined maximum specified by the set- CRC ALARM CH1 MESSAGE COUNT ting, both the counters reset and the monitoring process is restarted. GE Multilin F35 Multiple Feeder Protection System 5-97...
Page 226 The unreturned messages alarm function is available on a per-channel basis and is active only in the ring configuration. The total number of unreturned input and output messages is available as the   ACTUAL VALUES STATUS DIRECT  actual value. INPUTS UNRETURNED MSG COUNT CH1 5-98 F35 Multiple Feeder Protection System GE Multilin...
Page 227: Teleprotection
On two- terminals two-channel systems, the same is transmitted over LOCAL RELAY ID NUMBER both channels; as such, only the has to be programmed on the receiving end. TERMINAL 1 ID NUMBER GE Multilin F35 Multiple Feeder Protection System 5-99...
Page 228: Installation
"Programmed" state. UNIT NOT PROGRAMMED setting allows the user to uniquely identify a relay. This name will appear on generated reports. RELAY NAME 5-100 F35 Multiple Feeder Protection System GE Multilin...
Page 229: Remote Resources Configuration
Configure shared inputs and outputs as required for the application's functionality. Shared inputs and outputs are dis- tinct binary channels that provide high-speed protection quality signaling between relays through a Brick. For additional information on how to configure a relay with a process bus module, see GE publication number GEK-113658: HardFiber Process Bus System Instruction Manual.
Page 230: System Setup
1000:1 CT before summation. If a protection element is set up to act on SRC 1 currents, then a pickup level of 1 pu will operate on 1000 A primary. The same rule applies for current sums from CTs with different secondary taps (5 A and 1 A). 5-102 F35 Multiple Feeder Protection System GE Multilin...
Page 231: Power System
Range: ABC, ACB PHASE ROTATION: MESSAGE Range: SRC 1, SRC 2, SRC 3, SRC 4, SRC 5, SRC 6 FREQUENCY AND PHASE MESSAGE REFERENCE: SRC 1 Range: Disabled, Enabled FREQUENCY TRACKING: MESSAGE Enabled GE Multilin F35 Multiple Feeder Protection System 5-103...
Page 232: Signal Sources
For example, the selection “F1+F5” indicates the sum of each phase from channels “F1” and “F5”, scaled to whichever CT has the higher ratio. Selecting “None” hides the associated actual values. 5-104 F35 Multiple Feeder Protection System GE Multilin...
Page 233 CUT-OFF LEVEL _1 - _1’ >2*CUT-OFF FLEXLOGIC OPERAND _2 - _2’ >2*CUT-OFF SRC 6 50DD OP _0 - _0’ >2*CUT-OFF Where ’ is 2 cycles old 827092A3.CDR Figure 5–25: DISTURBANCE DETECTOR LOGIC DIAGRAM GE Multilin F35 Multiple Feeder Protection System 5-105...
Page 234 Figure 5–26: EXAMPLE USE OF SOURCES Y LV D HV SRC 1 SRC 2 SRC 3 Phase CT F1+F5 None Ground CT None None Phase VT None None Aux VT None None 5-106 F35 Multiple Feeder Protection System GE Multilin...
Page 235: Breakers
Range: 0.000 to 65.535 s in steps of 0.001 MANUAL CLOSE RECAL1 MESSAGE TIME: 0.000 s Range: FlexLogic operand BREAKER 1 OUT OF SV: MESSAGE Range: Disabled, Enabled BREAKER 1 EVENTS: MESSAGE Disabled GE Multilin F35 Multiple Feeder Protection System 5-107...
Page 236 MANUAL CLOSE RECAL1 TIME: This setting specifies the interval required to maintain setting changes in effect after an operator has initiated a manual close command to operate a circuit breaker. • BREAKER 1 OUT OF SV: Selects an operand indicating that breaker 1 is out-of-service. 5-108 F35 Multiple Feeder Protection System GE Multilin...
Page 237 5.4 SYSTEM SETUP Figure 5–27: DUAL BREAKER CONTROL SCHEME LOGIC (Sheet 1 of 2) IEC 61850 functionality is permitted when the F35 is in “Programmed” mode and not in the local control mode. NOTE GE Multilin F35 Multiple Feeder Protection System 5-109...
Page 238 Note that IEC 61850 commands are event-driven and dwell time for these is one protection pass only. If you want to main- tain the close/open command for a certain time, do so either on the contact outputs using the "Seal-in" setting or in Flex- Logic. 5-110 F35 Multiple Feeder Protection System GE Multilin...
Page 239: Disconnect Switches
• SWITCH 1 MODE: This setting selects “3-Pole” mode, where disconnect switch poles have a single common auxiliary switch, or “1-Pole” mode where each disconnect switch pole has its own auxiliary switch. GE Multilin F35 Multiple Feeder Protection System 5-111...
Page 240 This allows for non-simultaneous operation of the poles. IEC 61850 functionality is permitted when the F35 is in “Programmed” mode and not in the local control mode. NOTE 5-112 F35 Multiple Feeder Protection System GE Multilin...
Page 241 5 SETTINGS 5.4 SYSTEM SETUP Figure 5–29: DISCONNECT SWITCH SCHEME LOGIC GE Multilin F35 Multiple Feeder Protection System 5-113...
Page 242: Flexcurves
15.0 0.48 0.88 15.5 0.50 0.90 16.0 0.52 0.91 16.5 0.54 0.92 17.0 0.56 0.93 17.5 0.58 0.94 18.0 0.60 0.95 18.5 0.62 0.96 19.0 0.64 0.97 19.5 0.66 0.98 10.0 20.0 5-114 F35 Multiple Feeder Protection System GE Multilin...
Page 243 The multiplier and adder settings only affect the curve portion of the characteristic and not the MRT and HCT set- tings. The HCT settings override the MRT settings for multiples of pickup greater than the HCT ratio. NOTE GE Multilin F35 Multiple Feeder Protection System 5-115...
Page 244 EnerVista UR Setup software generates an error message and discards the proposed changes. NOTE e) STANDARD RECLOSER CURVES The standard recloser curves available for the F35 are displayed in the following graphs. 5-116 F35 Multiple Feeder Protection System GE Multilin...
Page 245 842723A1.CDR Figure 5–33: RECLOSER CURVES GE101 TO GE106 GE142 GE138 GE120 GE113 0.05 7 8 9 10 12 CURRENT (multiple of pickup) 842725A1.CDR Figure 5–34: RECLOSER CURVES GE113, GE120, GE138 AND GE142 GE Multilin F35 Multiple Feeder Protection System 5-117...
Page 246 Figure 5–35: RECLOSER CURVES GE134, GE137, GE140, GE151 AND GE201 GE152 GE141 GE131 GE200 7 8 9 10 12 CURRENT (multiple of pickup) 842728A1.CDR Figure 5–36: RECLOSER CURVES GE131, GE141, GE152, AND GE200 5-118 F35 Multiple Feeder Protection System GE Multilin...
Page 247 Figure 5–37: RECLOSER CURVES GE133, GE161, GE162, GE163, GE164 AND GE165 GE132 GE139 GE136 GE116 0.05 GE117 GE118 0.02 0.01 7 8 9 10 12 CURRENT (multiple of pickup) 842726A1.CDR Figure 5–38: RECLOSER CURVES GE116, GE117, GE118, GE132, GE136, AND GE139 GE Multilin F35 Multiple Feeder Protection System 5-119...
Page 248 Figure 5–39: RECLOSER CURVES GE107, GE111, GE112, GE114, GE115, GE121, AND GE122 GE202 GE135 GE119 7 8 9 10 12 CURRENT (multiple of pickup) 842727A1.CDR Figure 5–40: RECLOSER CURVES GE119, GE135, AND GE202 5-120 F35 Multiple Feeder Protection System GE Multilin...
Page 249: Flexlogic
Traditionally, protective relay logic has been relatively limited. Any unusual applications involving interlocks, blocking, or supervisory functions had to be hard-wired using contact inputs and outputs. FlexLogic minimizes the requirement for aux- iliary components and wiring while making more complex schemes possible. GE Multilin F35 Multiple Feeder Protection System 5-121...
Page 250 The virtual input is presently in the ON state Virtual Output Virt Op 1 On The virtual output is presently in the set state (i.e. evaluation of the equation which produces this virtual output results in a "1") 5-122 F35 Multiple Feeder Protection System GE Multilin...
Page 251 Breaker arcing current 2 has operated BKR ARC 2 DPO Breaker arcing current 2 has dropped out BKR ARC 3 to 6 Same set of operands as shown for BKR ARC 1 GE Multilin F35 Multiple Feeder Protection System 5-123...
Page 252 GROUND TOC1 OP Ground time overcurrent 1 has operated overcurrent GROUND TOC1 DPO Ground time overcurrent 1 has dropped out GROUND TOC2 to 6 Same set of operands as shown for GROUND TOC1 5-124 F35 Multiple Feeder Protection System GE Multilin...
Page 253 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 GE Multilin F35 Multiple Feeder Protection System 5-125...
Page 254 Source 3 disturbance detector has operated SRC4 50DD OP Source 4 disturbance detector has operated SRC5 50DD OP Source 5 disturbance detector has operated SRC6 50DD OP Source 6 disturbance detector has operated 5-126 F35 Multiple Feeder Protection System GE Multilin...
Page 255 Cont Ip 1 (will not appear unless ordered) Cont Ip 2 (will not appear unless ordered) ↓ ↓ Cont Ip 96 (will not appear unless ordered) Cont Ip 96 (will not appear unless ordered) GE Multilin F35 Multiple Feeder Protection System 5-127...
Page 256 Asserted when remote command access is disabled ACCESS REM CMND ON Asserted when remote command access is enabled UNAUTHORIZED ACCESS Asserted when a password entry fails while accessing a password protected level of the F35 5-128 F35 Multiple Feeder Protection System GE Multilin...
Page 257 2 to 16 any input is ‘1’ 2 to 16 all inputs are ‘1’ 2 to 16 all inputs are ‘0’ NAND 2 to 16 any input is ‘0’ only one input is ‘1’ GE Multilin F35 Multiple Feeder Protection System 5-129...
Page 258: Flexlogic Rules
When making changes to FlexLogic entries in the settings, all FlexLogic equations are re-compiled whenever any new FlexLogic entry value is entered, and as a result of the re-compile all latches are reset automatically. 5-130 F35 Multiple Feeder Protection System GE Multilin...
Page 259: Flexlogic Example
Dropout State=Pickup (200 ms) DIGITAL ELEMENT 2 Timer 1 State=Operated Time Delay on Pickup (800 ms) CONTACT INPUT H1c State=Closed VIRTUAL OUTPUT 3 827026A2.VSD Figure 5–43: LOGIC EXAMPLE WITH VIRTUAL OUTPUTS GE Multilin F35 Multiple Feeder Protection System 5-131...
Page 260 Following the procedure outlined, start with parameter 99, as follows: 99: The final output of the equation is virtual output 3, which is created by the operator "= Virt Op n". This parameter is therefore "= Virt Op 3." 5-132 F35 Multiple Feeder Protection System GE Multilin...
Page 261 87: The input just below the upper input to OR #1 is operand “Virt Op 2 On". 86: The upper input to OR #1 is operand “Virt Op 1 On". 85: The last parameter is used to set the latch, and is operand “Virt Op 4 On". GE Multilin F35 Multiple Feeder Protection System 5-133...
Page 262 In the following equation, virtual output 3 is used as an input to both latch 1 and timer 1 as arranged in the order shown below: DIG ELEM 2 OP Cont Ip H1c On AND(2) 5-134 F35 Multiple Feeder Protection System GE Multilin...
Page 263: Flexlogic Equation Editor
TIMER 1 TYPE: This setting is used to select the time measuring unit. • TIMER 1 PICKUP DELAY: Sets the time delay to pickup. If a pickup delay is not required, set this function to "0". GE Multilin F35 Multiple Feeder Protection System 5-135...
Page 264: Flexelements
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 user's choice. 5-136 F35 Multiple Feeder Protection System GE Multilin...
Page 265 The FLEXELEMENT 1 DIRECTION following figure explains the application of the FLEXELEMENT 1 DIRECTION FLEXELEMENT 1 PICKUP FLEXELEMENT 1 HYS- settings. TERESIS GE Multilin F35 Multiple Feeder Protection System 5-137...
Page 266 Figure 5–50: FLEXELEMENT DIRECTION, PICKUP, AND HYSTERESIS In conjunction with the setting the element could be programmed to provide two extra charac- FLEXELEMENT 1 INPUT MODE teristics as shown in the figure below. 5-138 F35 Multiple Feeder Protection System GE Multilin...
Page 267 = 360 degrees (see the UR angle referencing convention) BASE POWER FACTOR = 1.00 BASE RTDs BASE = 100°C SOURCE CURRENT = maximum nominal primary RMS value of the +IN and –IN inputs BASE GE Multilin F35 Multiple Feeder Protection System 5-139...
Page 268 “Delta”. FLEXELEMENT 1 COMP MODE This setting specifies the pickup delay of the element. The setting FLEXELEMENT 1 PKP DELAY FLEXELEMENT 1 RST DELAY specifies the reset delay of the element. 5-140 F35 Multiple Feeder Protection System GE Multilin...
Page 269: Non-Volatile Latches
LATCH N LATCH N LATCH N TYPE RESET Reset Dominant Previous Previous State State Dominant Previous Previous State State Figure 5–52: NON-VOLATILE LATCH OPERATION TABLE (N = 1 to 16) AND LOGIC GE Multilin F35 Multiple Feeder Protection System 5-141...
Page 270: Grouped Elements
5.6.3 PHASE CURRENT a) INVERSE TIME OVERCURRENT CURVE CHARACTERISTICS The inverse time overcurrent curves used by the time overcurrent elements are the IEEE, IEC, GE Type IAC, and I t stan- dard curve shapes. This allows for simplified coordination with downstream devices.
Page 271 4.827 38.634 22.819 14.593 11.675 10.130 9.153 8.470 7.960 7.562 7.241 51.512 30.426 19.458 15.567 13.507 12.204 11.294 10.614 10.083 9.654 10.0 64.390 38.032 24.322 19.458 16.883 15.255 14.117 13.267 12.604 12.068 GE Multilin F35 Multiple Feeder Protection System 5-143...
Page 272 1.835 1.067 0.668 0.526 0.451 0.404 0.371 0.346 0.327 0.311 0.80 2.446 1.423 0.890 0.702 0.602 0.538 0.494 0.461 0.435 0.415 1.00 3.058 1.778 1.113 0.877 0.752 0.673 0.618 0.576 0.544 0.518 5-144 F35 Multiple Feeder Protection System GE Multilin...
Page 273 = characteristic constant, and T = reset time in seconds (assuming energy capacity is 100% RESET is “Timed”) RESET Table 5–24: GE TYPE IAC INVERSE TIME CURVE CONSTANTS IAC CURVE SHAPE IAC Extreme Inverse 0.0040 0.6379 0.6200 1.7872 0.2461...
Page 274 = Reset Time in seconds (assuming energy capacity is 100% and RESET: Timed) RESET RECLOSER CURVES: The F35 uses the FlexCurve feature to facilitate programming of 41 recloser curves. See the FlexCurve section in this chapter for details. 5-146 F35 Multiple Feeder Protection System GE Multilin...
Page 275 (see the figure below); the pickup level is calculated as ‘Mvr’ times the setting. If the voltage restraint PHASE TOC1 PICKUP feature is disabled, the pickup level always remains at the setting value. GE Multilin F35 Multiple Feeder Protection System 5-147...
Page 276 5.6 GROUPED ELEMENTS 5 SETTINGS Phase-Phase Voltage ÷ VT Nominal Phase-phase Voltage 818784A4.CDR Figure 5–53: PHASE TIME OVERCURRENT VOLTAGE RESTRAINT CHARACTERISTIC Figure 5–54: PHASE TIME OVERCURRENT 1 SCHEME LOGIC 5-148 F35 Multiple Feeder Protection System GE Multilin...
Page 277 The input current is the fundamental phasor magnitude. For timing curves, see the publication Instan- taneous Overcurrent Element Response to Saturated Waveforms in UR-Series Relays (GET-8400A). Figure 5–55: PHASE INSTANTANEOUS OVERCURRENT 1 SCHEME LOGIC GE Multilin F35 Multiple Feeder Protection System 5-149...
Page 278: Neutral Current
The neutral current input value is a quantity calculated as 3Io from the phase currents and may be programmed as fundamental phasor magnitude or total waveform RMS magnitude as required by the application. 5-150 F35 Multiple Feeder Protection System GE Multilin...
Page 279 × Kx I_1 where K 1 16 ⁄ (EQ 5.16) – The positive-sequence restraint allows for more sensitive settings by counterbalancing spurious zero-sequence currents resulting from GE Multilin F35 Multiple Feeder Protection System 5-151...
Page 280 The positive-sequence restraint must be considered when testing for pickup accuracy and response time (multiple of pickup). The operating quantity depends on how test currents are injected into the relay (single-phase injection: × 0.9375xI ; three-phase pure zero-sequence injection: injected injected Figure 5–57: NEUTRAL IOC1 SCHEME LOGIC 5-152 F35 Multiple Feeder Protection System GE Multilin...
Page 281: Wattmetric Ground Fault
VT connected to the auxiliary channel bank of the relay). When the latter selection is made, the auxiliary channel must be identified by the user as a neutral voltage under the VT bank settings. This element operates when the auxil- iary voltage is configured as neutral. GE Multilin F35 Multiple Feeder Protection System 5-153...
Page 282   FlexCurve --------- - (EQ 5.19)   Again, the FlexCurve timer starts after the definite time timer expires. 5-154 F35 Multiple Feeder Protection System GE Multilin...
Page 283 Figure 5–58: WATTMETRIC CHARACTERISTIC ANGLE RESPONSE • WATTMETRIC GND FLT 1 MULTIPLIER: This setting is applicable if above is selected WATTMETRIC GND FLT 1 CURVE to Inverse and defines the multiplier factor for the inverse time delay. GE Multilin F35 Multiple Feeder Protection System 5-155...
Page 284 5.6 GROUPED ELEMENTS 5 SETTINGS Figure 5–59: WATTMETRIC ZERO-SEQUENCE DIRECTIONAL LOGIC 5-156 F35 Multiple Feeder Protection System GE Multilin...
Page 285: Ground Current
0.02 to 46 times the CT rating. NOTE This channel may be also equipped with a sensitive input. The conversion range of a sensitive channel is from 0.002 to 4.6 times the CT rating. NOTE GE Multilin F35 Multiple Feeder Protection System 5-157...
Page 286 0.02 to 46 times the CT rating. NOTE This channel may 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. NOTE 5-158 F35 Multiple Feeder Protection System GE Multilin...
Page 287: Negative Sequence Current
MESSAGE See page 5–161.   NEG SEQ IOC2 MESSAGE See page 5–161.  For additional information on the negative sequence time overcurrent curves, see the Inverse Time Overcurrent Curves section earlier. GE Multilin F35 Multiple Feeder Protection System 5-159...
Page 288 Characteristics sub-section for details on curve setup, trip times and reset operation). When the element is blocked, the time accumulator resets according to the reset characteristic. For example, if the element reset characteristic is set to “Instantaneous” and the element is blocked, the time accumulator is cleared immediately. 5-160 F35 Multiple Feeder Protection System GE Multilin...
Page 289 ⋅ 1 8 ⁄ K I_1 where K (EQ 5.20) – The positive-sequence restraint allows for more sensitive settings by counterbalancing spurious negative-sequence cur- rents resulting from: GE Multilin F35 Multiple Feeder Protection System 5-161...
Page 290 The operating quantity depends on the way the test currents are injected into the relay (single-phase injection: 0.2917 I ⋅ ; three-phase injection, opposite rotation: injected injected Figure 5–63: NEGATIVE SEQUENCE IOC1 SCHEME LOGIC 5-162 F35 Multiple Feeder Protection System GE Multilin...
Page 291: Voltage Elements
The time delay is adjustable from 0 to 600.00 seconds in steps of 0.01. The undervoltage elements can also be programmed to have an inverse time delay char- acteristic. GE Multilin F35 Multiple Feeder Protection System 5-163...
Page 292 V = secondary voltage applied to the relay = pickup level pickup % of voltage pickup 842788A1.CDR Figure 5–64: INVERSE TIME UNDERVOLTAGE CURVES At 0% of pickup, the operating time equals the UNDERVOLTAGE DELAY setting. NOTE 5-164 F35 Multiple Feeder Protection System GE Multilin...
Page 293 The minimum voltage setting selects the operating voltage below which the element is blocked (a setting of “0” will allow a dead source to be considered a fault condition). Figure 5–65: PHASE UNDERVOLTAGE1 SCHEME LOGIC GE Multilin F35 Multiple Feeder Protection System 5-165...
Page 294 “Definite time”. The source assigned to this element must be configured for a phase VT. NEUTRAL OV1 CURVE VT errors and normal voltage unbalance must be considered when setting this element. This function requires the VTs to be wye-connected. Figure 5–66: NEUTRAL OVERVOLTAGE1 SCHEME LOGIC 5-166 F35 Multiple Feeder Protection System GE Multilin...
Page 295 The element resets instantaneously. The minimum voltage setting selects the operating voltage below which the element is blocked. Figure 5–67: AUXILIARY UNDERVOLTAGE SCHEME LOGIC GE Multilin F35 Multiple Feeder Protection System 5-167...
Page 296 The nominal secondary voltage of the auxiliary voltage channel entered under SYSTEM    is the per-unit (pu) base used when setting the SETUP AC INPUTS VOLTAGE BANK X5 AUXILIARY VT X5 SECONDARY pickup level. Figure 5–68: AUXILIARY OVERVOLTAGE SCHEME LOGIC 5-168 F35 Multiple Feeder Protection System GE Multilin...
Page 297: Control Elements
If more than one operate-type operand is required, it may be assigned directly from the trip bus menu. GE Multilin F35 Multiple Feeder Protection System...
Page 298 TRIP BUS 1 RESET: The trip bus output is reset when the operand assigned to this setting is asserted. Note that the operand is pre-wired to the reset gate of the latch, As such, a reset command the front panel interface or via RESET OP communications will reset the trip bus output. 5-170 F35 Multiple Feeder Protection System GE Multilin...
Page 299: Setting Groups
GROUP 1 NAME: MESSAGE Range: up to 16 alphanumeric characters GROUP 2 NAME: MESSAGE ↓ Range: up to 16 alphanumeric characters GROUP 6 NAME: MESSAGE Range: Disabled, Enabled SETTING GROUP MESSAGE EVENTS: Disabled GE Multilin F35 Multiple Feeder Protection System 5-171...
Page 300 The assigned operand is used to control the “On” state of a particular settings group. VIRTUAL OUTPUT 1 5-172 F35 Multiple Feeder Protection System GE Multilin...
Page 301: Selector Switch
SELECTOR 1 3BIT ACK: MESSAGE Range: Restore, Synchronize, Sync/Restore SELECTOR 1 POWER-UP MESSAGE MODE: Restore Range: Self-reset, Latched, Disabled SELECTOR 1 TARGETS: MESSAGE Self-reset Range: Disabled, Enabled SELECTOR 1 EVENTS: MESSAGE Disabled GE Multilin F35 Multiple Feeder Protection System 5-173...
Page 302 SELECTOR 1 3BIT A0, A1, and A2: These settings specify a three-bit control input of the selector. The three-bit con- trol word pre-selects the position using the following encoding convention: POSITION rest 5-174 F35 Multiple Feeder Protection System GE Multilin...
Page 303 The selector position pre-selected via the stepping up control input has not been confirmed before the time out. SELECTOR 1 BIT ALARM The selector position pre-selected via the three-bit control input has not been confirmed before the time out. GE Multilin F35 Multiple Feeder Protection System 5-175...
Page 304 3BIT A2 POS 1 POS 2 POS 3 POS 4 POS 5 POS 6 POS 7 BIT 0 BIT 1 BIT 2 STP ALARM BIT ALARM ALARM 842737A1.CDR Figure 5–72: TIME-OUT MODE 5-176 F35 Multiple Feeder Protection System GE Multilin...
Page 305 Make the following changes to selector switch element in the    SETTINGS CONTROL ELEMENTS SELECTOR SWITCH menu to assign control to user programmable pushbutton 1 and contact inputs 1 through 3: SELECTOR SWITCH 1 GE Multilin F35 Multiple Feeder Protection System 5-177...
Page 306 SELECTOR 1 BIT ALARM 3-bit position out SELECTOR 1 ALARM SELECTOR 1 PWR ALARM SELECTOR 1 BIT 0 SELECTOR 1 BIT 1 SELECTOR 1 BIT 2 842012A2.CDR Figure 5–74: SELECTOR SWITCH LOGIC 5-178 F35 Multiple Feeder Protection System GE Multilin...
Page 307: Underfrequency (Ansi 81U)
For example, UNDERFREQ 1 PICKUP if the system frequency is 60 Hz and the load shedding is required at 59.5 Hz, the setting will be 59.50 Hz. Figure 5–75: UNDERFREQUENCY SCHEME LOGIC GE Multilin F35 Multiple Feeder Protection System 5-179...
Page 308: Autoreclose (Ansi 79)
4.000 s Range: FlexLogic operand AR1 ADD DELAY 1: MESSAGE Range: 0.00 to 655.35 s in steps of 0.01 AR1 DELAY 1: MESSAGE 0.000 s Range: FlexLogic operand AR1 ADD DELAY 2: MESSAGE 5-180 F35 Multiple Feeder Protection System GE Multilin...
Page 309 Scheme lockout blocks all phases of the reclosing cycle, preventing automatic reclosure, if any of the following occurs: • The maximum shot number was reached. • A ‘Block’ input is in effect (for instance; Breaker Failure, bus differential protection operated, etc.). GE Multilin F35 Multiple Feeder Protection System 5-181...
Page 310 ‘reclose-in-progress’ state. If all condi- tions allowing a breaker closure are not satisfied when this time expires, the scheme goes to “Lockout”. This timer must be set to a delay less than the reset timer. NOTE 5-182 F35 Multiple Feeder Protection System GE Multilin...
Page 311 5 SETTINGS 5.7 CONTROL ELEMENTS Figure 5–76: AUTORECLOSURE SCHEME LOGIC (Sheet 1 of 2) GE Multilin F35 Multiple Feeder Protection System 5-183...
Page 312 5.7 CONTROL ELEMENTS 5 SETTINGS Figure 5–77: AUTORECLOSURE SCHEME LOGIC (Sheet 2 of 2) 5-184 F35 Multiple Feeder Protection System GE Multilin...
Page 313 5 SETTINGS 5.7 CONTROL ELEMENTS Figure 5–78: SINGLE SHOT AUTORECLOSING SEQUENCE - PERMANENT FAULT GE Multilin F35 Multiple Feeder Protection System 5-185...
Page 314: Digital Elements
DIGITAL ELEMENT 1 RESET DELAY: Sets the time delay to reset. If a reset delay is not required, set to “0”. • DIGITAL ELEMENT 1 PICKUP LED: This setting enables or disabled the digital element pickup LED. When set to “Disabled”, the operation of the pickup LED is blocked. 5-186 F35 Multiple Feeder Protection System GE Multilin...
Page 315 In most breaker control circuits, the trip coil is connected in series with a breaker auxiliary contact which is open when the breaker is open (see diagram below). To prevent unwanted alarms in this situation, the trip circuit monitoring logic must include the breaker position. Figure 5–80: TRIP CIRCUIT EXAMPLE 1 GE Multilin F35 Multiple Feeder Protection System 5-187...
Page 316 In this case, it is not required to supervise the monitoring circuit with the breaker position – the setting is BLOCK selected to “Off”. In this case, the settings are as follows (EnerVista UR Setup example shown). Figure 5–81: TRIP CIRCUIT EXAMPLE 2 5-188 F35 Multiple Feeder Protection System GE Multilin...
Page 317: Digital Counters
–2,147,483,648 counts, the counter will rollover to +2,147,483,647. • COUNTER 1 BLOCK: Selects the FlexLogic operand for blocking the counting operation. All counter operands are blocked. GE Multilin F35 Multiple Feeder Protection System 5-189...
Page 318 COUNTER 1 FROZEN: Off = 0 STORE DATE & TIME Date & Time SETTING COUNT1 FREEZE/RESET: Off = 0 827065A2.VSD SETTING COUNT1 FREEZE/COUNT: Off = 0 Figure 5–82: DIGITAL COUNTER SCHEME LOGIC 5-190 F35 Multiple Feeder Protection System GE Multilin...
Page 319: 8-Bit Switches
If the control operand is in the "Off" state, the first (A) input is switched to the output. If the control operand is in the "On" state, the second (B) input is switched to the output. The switching takes place instantaneously. GE Multilin F35 Multiple Feeder Protection System...
Page 320 FLEXLOGIC OPERAND Off = 0 8BIT SW 1 ARG B7: 8BIT SWITCH 1 BIT 7 Off = 0 SETTING 8BIT SW 1 CONTROL: Off = 0 842017A1.CDR Figure 5–83: 8-BIT SWITCH LOGIC 5-192 F35 Multiple Feeder Protection System GE Multilin...
Page 321: Monitoring Elements
See page 5–202.   BROKEN CONDUCTOR 3 MESSAGE See page 5–202.  ↓  BROKEN CONDUCTOR 6 MESSAGE See page 5–202.   THERMAL OVERLOAD MESSAGE See page 5–205.  PROTECTION GE Multilin F35 Multiple Feeder Protection System 5-193...
Page 322 • BKR 1 ARC AMP LIMIT: Selects the threshold value above which the output operand is set. 5-194 F35 Multiple Feeder Protection System GE Multilin...
Page 323 5 SETTINGS 5.7 CONTROL ELEMENTS Breaker Contacts Initiate Extinguished Part Total Area = Breaker Arcing Current (kA·cycle) Programmable 100 ms Start Delay Start Stop Integration Integration Figure 5–84: ARCING CURRENT MEASUREMENT GE Multilin F35 Multiple Feeder Protection System 5-195...
Page 324 5.7 CONTROL ELEMENTS 5 SETTINGS Figure 5–85: BREAKER ARCING CURRENT SCHEME LOGIC 5-196 F35 Multiple Feeder Protection System GE Multilin...
Page 325 BRK RESTRIKE 1 OP user can add counters and other logic to facilitate the decision making process as to the appropriate actions upon detecting a single restrike or a series of consecutive restrikes. GE Multilin F35 Multiple Feeder Protection System 5-197...
Page 326 FlexLogic operand will be picked up for only 1/8th of the power cycle. • BREAKER RESTRIKE 1 HF DETECT: This setting enables/disables high-frequency (HF) pattern detection when breaker restrike occurs. High-frequency pattern is typical for capacitor bank, cables, and long transmission line appli- cations. 5-198 F35 Multiple Feeder Protection System GE Multilin...
Page 327 • BRK RSTR 1 CLS CMD: This setting assigns a FlexLogic operand indicating a breaker close command. It must be logic “1” when breaker is closed. Figure 5–88: BREAKER RESTRIKE SCHEME LOGIC GE Multilin F35 Multiple Feeder Protection System 5-199...
Page 328 B current (red). The superimposed current shows two fault current blips as the data slides through the two-cycle memory window. During the actual fault, the neutral current and the superimposed phase B currents closely correspond, confirming the incipient fault hypothesis and identifying the affected phase. 5-200 F35 Multiple Feeder Protection System GE Multilin...
Page 329 INCIPNT FLT 1 DETECT WINDOW: This setting specifies a time window for “Counts per window” mode of operation. • INCIPIENT FAULT 1 RESET DELAY: This setting specifies a reset time for the output after the trip is initiated. GE Multilin F35 Multiple Feeder Protection System 5-201...
Page 330 It also monitors changes in the I_2 / I_1 ratio, I_1 minimum, and I_1 maximum. 5-202 F35 Multiple Feeder Protection System GE Multilin...
Page 331 • BROKEN CONDUCTOR 1 PKP DELAY: This setting specifies the pickup time delay for this function to operate after assertion of the broken conductor pickup FlexLogic operand. GE Multilin F35 Multiple Feeder Protection System 5-203...
Page 332 5.7 CONTROL ELEMENTS 5 SETTINGS Figure 5–91: BROKEN CONDUCTOR DETECTION LOGIC 5-204 F35 Multiple Feeder Protection System GE Multilin...
Page 333 • = measured load RMS current before overload occurs • k= IEC 255-8 k-factor applied to I , defining maximum permissible current above nominal current • = protected element base (nominal) current GE Multilin F35 Multiple Feeder Protection System 5-205...
Page 334 When current is greater than the pickup level, I > k × I , element starts increasing the thermal energy: t Δ -------------- - (EQ 5.25) – op In 5-206 F35 Multiple Feeder Protection System GE Multilin...
Page 335 30 minutes Busbar 60 minutes 20 minutes Underground cable 20 to 60 minutes 60 minutes The logic for the thermal overload protection element is shown below. Figure 5–93: THERMAL OVERLOAD PROTECTION SCHEME LOGIC GE Multilin F35 Multiple Feeder Protection System 5-207...
Page 336: Pid Regulator
Range: 1 to 20 s in steps of 1 PID 1 DEAD TIME: MESSAGE 1.00 sec Range: FlexLogic operand PID 1 BLK: MESSAGE Range: Self-reset, Latched, Disabled PID 1 MESSAGE TARGET: Self-reset Range: Enabled, Disabled PID 1 MESSAGE EVENTS: Disabled 5-208 F35 Multiple Feeder Protection System GE Multilin...
Page 337 AW is a flag which enables anti-windup. The incremental form of the above equation is: Du k ( ) u k ( ) u k 1 – – (EQ 5.28) Dp k ( ) Di k ( ) Dd k ( ) Where: GE Multilin F35 Multiple Feeder Protection System 5-209...
Page 338 Dd k 1 ----------------------- - y k ( ) 2y k 1 y k 2 ----------------------- - – – – – The PID regulator logic is shown below. Figure 5–95: PID REGULATOR LOGIC 5-210 F35 Multiple Feeder Protection System GE Multilin...
Page 339: Inputs And Outputs
The update is performed at the beginning of the protection pass so all protection and control functions, as well as FlexLogic equations, are fed with the updated states of the contact inputs. GE Multilin F35 Multiple Feeder Protection System...
Page 340 Event Records menu, make the following settings changes: "Breaker Closed (52b)" CONTACT INPUT H5A ID: "Enabled" CONTACT INPUT H5A EVENTS: Note that the 52b contact is closed when the breaker is open and open when the breaker is closed. 5-212 F35 Multiple Feeder Protection System GE Multilin...
Page 341: Virtual Inputs
FlexLogic equation, it will likely have to be lengthened NOTE in time. A FlexLogic timer with a delayed reset can perform this function. Figure 5–97: VIRTUAL INPUTS SCHEME LOGIC GE Multilin F35 Multiple Feeder Protection System 5-213...
Page 342: Contact Outputs
PATH: SETTINGS INPUTS/OUTPUTS CONTACT OUTPUTS CONTACT OUTPUT H1a Range: Up to 12 alphanumeric characters  CONTACT OUTPUT H1a OUTPUT H1a ID  L-Cont Op 1 Range: FlexLogic operand OUTPUT H1a OPERATE: MESSAGE 5-214 F35 Multiple Feeder Protection System GE Multilin...
Page 343 PRODUCT SETUP USER-PROGRAMMABLE PUSHBUT-  menus: TONS USER PUSHBUTTON 1 USER PUSHBUTTON 2 “Self-reset” “Self-reset” PUSHBUTTON 1 FUNCTION: PUSHBUTTON 2 FUNCTION: “0.00 s” “0.00 s” PUSHBTN 1 DROP-OUT TIME: PUSHBTN 2 DROP-OUT TIME: GE Multilin F35 Multiple Feeder Protection System 5-215...
Page 344 Write the following FlexLogic equation (EnerVista UR Setup example shown): Program the Latching Outputs by making the following changes in the   SETTINGS INPUTS/OUTPUTS CONTACT OUT-  menu (assuming an H4L module): PUTS CONTACT OUTPUT H1a 5-216 F35 Multiple Feeder Protection System GE Multilin...
Page 345: Virtual Outputs
The status of a remote device, where “Offline” indicates non-communicating, can be displayed. The remote input/output facility provides for 32 remote inputs and 64 remote outputs. GE Multilin F35 Multiple Feeder Protection System 5-217...
Page 346 PRODUCT SETUP COMMUNICATIONS IEC 61850 PROTOCOL GSSE/GOOSE    setting. CONFIGURATION TRANSMISSION GSSE GSSE ID In F35 releases previous to 5.0x, these name strings were represented by the setting. RELAY NAME 5-218 F35 Multiple Feeder Protection System GE Multilin...
Page 347: Remote Inputs
REMOTE IN 1 DEFAULT STATE the remote device sending the point is declared to be non-communicating. The following choices are available: GE Multilin F35 Multiple Feeder Protection System 5-219...
Page 348: Remote Double-Point Status Inputs
REMOTE OUTPUTS DNA BIT PAIRS REMOTE OUTPUTS DNA- 1(32) BIT PAIR Range: FlexLogic operand  REMOTE OUTPUTS DNA- 1 OPERAND:  DNA- 1 BIT PAIR Range: Disabled, Enabled DNA- 1 EVENTS: MESSAGE Disabled 5-220 F35 Multiple Feeder Protection System GE Multilin...
Page 349: Resetting
Each of these three operands generates an event in the event record when AND) activated. The setting shown above selects the operand that activates the operand. RESET OP (OPERAND) GE Multilin F35 Multiple Feeder Protection System 5-221...
Page 350: Direct Inputs And Outputs
APPLICATION EXAMPLES The examples introduced in the earlier Direct Inputs and Outputs section (part of the Product Setup section) are continued below to illustrate usage of the direct inputs and outputs. 5-222 F35 Multiple Feeder Protection System GE Multilin...
Page 351 DIRECT INPUT 7 DEFAULT STATE : "3" DIRECT INPUT 8 DEVICE ID : "3" DIRECT INPUT 8 BIT NUMBER : select "On" for security, select "Off" for dependability DIRECT INPUT 8 DEFAULT STATE GE Multilin F35 Multiple Feeder Protection System 5-223...
Page 352 DIRECT INPUT 6 BIT NUMBER: UR IED 2: "1" DIRECT INPUT 5 DEVICE ID: "2" DIRECT INPUT 5 BIT NUMBER: "3" DIRECT INPUT 6 DEVICE ID: "2" DIRECT INPUT 6 BIT NUMBER: 5-224 F35 Multiple Feeder Protection System GE Multilin...
Page 353: Teleprotection Inputs And Outputs
Range: Off, On, Latest/Off, Latest/On TELEPROT INPUT 2-1 MESSAGE DEFAULT: Off Range: Off, On, Latest/Off, Latest/On TELEPROT INPUT 2-2 MESSAGE DEFAULT: Off ↓ Range: Off, On, Latest/Off, Latest/On TELEPROT INPUT 2-16 MESSAGE DEFAULT: Off GE Multilin F35 Multiple Feeder Protection System 5-225...
Page 354 (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. 5-226 F35 Multiple Feeder Protection System GE Multilin...
Page 355: Iec 61850 Goose Analogs
GOOSE analog input value. GOOSE Analogs are floating-point values, with no units. The GOOSE UNIT and PU base settings allow the user to configure GOOSE Analog, so that it can be used in a FlexElement. GE Multilin F35 Multiple Feeder Protection System 5-227...
Page 356: Iec 61850 Goose Integers
“Default Value”, then the value of the GOOSE uinteger input is defined by the setting. UINTEGER 1 DEFAULT The GOOSE integer input FlexInteger values are available for use in other F35 functions that use FlexInteger values. 5-228 F35 Multiple Feeder Protection System GE Multilin...
Page 357: Transducer Inputs And Outputs
–20 to +180 MW; in this case the value would be “–20” and the DCMA INPUT H1 MIN VALUE DCMA INPUT H1 MAX value “180”. Intermediate values between the min and max values are scaled linearly. VALUE GE Multilin F35 Multiple Feeder Protection System 5-229...
Page 358: Rtd Inputs
1.5 pu. FlexElement operands are available to FlexLogic for further interlocking or to operate an output contact directly. Refer to the following table for reference temperature values for each RTD type. 5-230 F35 Multiple Feeder Protection System GE Multilin...
Page 359 168.47 280.77 233.97 16.00 172.46 291.96 243.30 16.39 175.84 303.46 252.88 16.78 179.51 315.31 262.76 17.17 183.17 327.54 272.94 17.56 186.82 340.14 283.45 17.95 190.45 353.14 294.28 18.34 194.08 366.53 305.44 18.73 GE Multilin F35 Multiple Feeder Protection System 5-231...
Page 360: Dcma Outputs
– MAX VAL MIN VAL MAX VAL < 0.1 pu. The resulting characteristic is illustrated in the following figure. DRIVING SIGNAL MIN VAL MAX VAL 842739A1.CDR Figure 5–106: DCMA OUTPUT CHARACTERISTIC 5-232 F35 Multiple Feeder Protection System GE Multilin...
Page 361 The CT ratio is 5000:5 and the maximum load current is 4200 A. The current should be monitored from 0 A upwards, allow- ing for 50% overload. The phase current with the 50% overload margin is: GE Multilin F35 Multiple Feeder Protection System 5-233...
Page 362 1.27 kV – • ±0.5% of reading For example, under nominal conditions, the positive-sequence reads 230.94 kV and the worst-case error is 0.005 x 230.94 kV + 1.27 kV = 2.42 kV. 5-234 F35 Multiple Feeder Protection System GE Multilin...
Page 363: Testing
The test mode state is indicated on the relay faceplate 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. GE Multilin F35 Multiple Feeder Protection System...
Page 364: Force Contact Inputs
Mode LED will be on, indicating that the relay is in test mode. The state of each contact input may be programmed as “Dis- abled”, “Open”, or “Closed”. All contact input operations return to normal when all settings for this feature are disabled. 5-236 F35 Multiple Feeder Protection System GE Multilin...
Page 365: Force Contact Outputs
PUSHBUTTON 1 FUNCTION input 1 to initiate the Test mode, make the following changes in the menu:   SETTINGS TESTING TEST MODE “Enabled” and “ ” TEST MODE FUNCTION: TEST MODE INITIATE: GE Multilin F35 Multiple Feeder Protection System 5-237...
Page 366 5.10 TESTING 5 SETTINGS 5-238 F35 Multiple Feeder Protection System GE Multilin...
Page 367: Actual Values
 STATUS  IEC 61850 See page 6-10.  GOOSE UINTEGERS  EGD PROTOCOL See page 6-10.  STATUS  TELEPROT CH TESTS See page 6-11.   INCIPIENT FAULT See page 6-11.  GE Multilin F35 Multiple Feeder Protection System...
Page 368  RTD INPUTS  ACTUAL VALUES  FAULT REPORTS See page 6-26.  RECORDS   EVENT RECORDS See page 6-26.   OSCILLOGRAPHY See page 6-27.   DATA LOGGER See page 6-27.  F35 Multiple Feeder Protection System GE Multilin...
Page 369 6 ACTUAL VALUES 6.1 OVERVIEW  MAINTENANCE See page 6-28.   ACTUAL VALUES  MODEL INFORMATION See page 6-29.  PRODUCT INFO   FIRMWARE REVISIONS See page 6-29.  GE Multilin F35 Multiple Feeder Protection System...
Page 370: Contact Inputs
The state displayed will be that of the remote point unless the remote device has been established to be “Offline” in which case the value shown is the programmed default state for the remote input. F35 Multiple Feeder Protection System GE Multilin...
Page 371: Remote Double-Point Status Inputs
The present state of the contact outputs is shown here. The first line of a message display indicates the ID of the contact output. For example, ‘Cont Op 1’ refers to the contact output in terms of the default name-array index. The second line of the display indicates the logic state of the contact output. GE Multilin F35 Multiple Feeder Protection System...
Page 372: Virtual Outputs
The present state of the programmed remote devices is shown here. The message indicates ALL REMOTE DEVICES ONLINE whether or not all programmed remote devices are online. If the corresponding state is "No", then at least one required remote device is not online. F35 Multiple Feeder Protection System GE Multilin...
Page 373: Digital Counters
Range: Current Position / 7 SELECTOR SWITCH 2 MESSAGE POSITION: 0/7 The display shows both the current position and the full range. The current position only (an integer from 0 through 7) is the actual value. GE Multilin F35 Multiple Feeder Protection System...
Page 374: Flex States
PTP grandmaster, this actual value is zero. The grandmasterIdentity code is specified by PTP to be globally unique, so one can always know which clock is grandmaster in a system with multiple grandmaster-capable clocks. F35 Multiple Feeder Protection System GE Multilin...
Page 375: Direct Inputs
The UNRETURNED MSG COUNT CRC FAIL values can be cleared using the command. COUNT CLEAR DIRECT I/O COUNTERS values represent the state of each direct input. DIRECT INPUT 1 DIRECT INPUT (32) GE Multilin F35 Multiple Feeder Protection System...
Page 376: Direct Devices Status
FAST EXCHANGE 1 MESSAGE DATA LENGTH: These values provide information that may be useful for debugging an EGD network. The EGD signature and packet size for the fast EGD exchange is displayed. 6-10 F35 Multiple Feeder Protection System GE Multilin...
Page 377: Teleprotection Channel Tests
The number of detected incipient faults for each incipient fault element are displayed here for each phase. These values can be reset to zero with the   command. COMMANDS CLEAR RECORDS CLEAR INCIPENT FAULT COUNTERS GE Multilin F35 Multiple Feeder Protection System 6-11...
Page 378: Remaining Connection Status
See the Order Codes section in chapter 2 for details. is a counter for total messages received (either from DANPs or from SANs) on Port A. TOTAL RECEIVED PORT A 6-12 F35 Multiple Feeder Protection System GE Multilin...
Page 379 LAN ID in the frame do not match). is a counter for total messages received with an error on Port B (PRP frame, but port received through MISMATCHES PORT B and LAN ID in the frame do not match). GE Multilin F35 Multiple Feeder Protection System 6-13...
Page 380: Metering Conventions
WATTS = Negative VARS = Positive PF = Lead PF = Lag PF = Lead Current UR RELAY 827239AC.CDR S=VI Generator Figure 6–1: FLOW DIRECTION OF SIGNED VALUES FOR WATTS AND VARS 6-14 F35 Multiple Feeder Protection System GE Multilin...
Page 381 ABC phase rotation: • ACB phase rotation: -- - V -- - V -- - V -- - V -- - V -- - V The above equations apply to currents as well. GE Multilin F35 Multiple Feeder Protection System 6-15...
Page 382 SYSTEM SETUP POWER SYSTEM FREQUENCY AND PHASE REFERENCE The example above is illustrated in the following figure. SYSTEM VOLTAGES SYMMETRICAL COMPONENTS WYE VTs DELTA VTs 827844A1.CDR Figure 6–3: MEASUREMENT CONVENTION FOR SYMMETRICAL COMPONENTS 6-16 F35 Multiple Feeder Protection System GE Multilin...
Page 383: Sources
SRC 1 RMS Ic: MESSAGE 0.000 SRC 1 RMS In: MESSAGE 0.000 SRC 1 PHASOR Ia: MESSAGE 0.000 0.0° SRC 1 PHASOR Ib: MESSAGE 0.000 0.0° SRC 1 PHASOR Ic: MESSAGE 0.000 0.0° GE Multilin F35 Multiple Feeder Protection System 6-17...
Page 384 SRC 1 PHASOR Vcg: MESSAGE 0.000 0.0° SRC 1 RMS Vab: MESSAGE 0.00 SRC 1 RMS Vbc: MESSAGE 0.00 SRC 1 RMS Vca: MESSAGE 0.00 SRC 1 PHASOR Vab: MESSAGE 0.000 0.0° 6-18 F35 Multiple Feeder Protection System GE Multilin...
Page 385 REACTIVE PWR MESSAGE φa: 0.000 SRC 1 REACTIVE PWR MESSAGE φb: 0.000 SRC 1 REACTIVE PWR MESSAGE φc: 0.000 SRC 1 APPARENT PWR MESSAGE 3φ: 0.000 SRC 1 APPARENT PWR MESSAGE φa: 0.000 GE Multilin F35 Multiple Feeder Protection System 6-19...
Page 386 Because energy values are accumulated, these values should be recorded and then reset immediately prior to changing CT or VT characteristics. h) DEMAND METERING    PATH: ACTUAL VALUES METERING SOURCE SRC 1 DEMAND  DEMAND SRC 1 DMD IA:  SRC 1 0.000 6-20 F35 Multiple Feeder Protection System GE Multilin...
Page 387 Maxi- mum demand quantities can be reset to zero with the  command. CLEAR RECORDS CLEAR DEMAND RECORDS GE Multilin F35 Multiple Feeder Protection System 6-21...
Page 388 Voltage harmonics are calculated only for Wye connected phase VTs. Ensure the   SYSTEM SETUP AC INPUTS setting is “Wye” to enable voltage harmonics metering.  VOLTAGE BANK F5 PHASE VT XX CONNECTION NOTE 6-22 F35 Multiple Feeder Protection System GE Multilin...
Page 389: Tracking Frequency
The tracking frequency is displayed here. The frequency is tracked based on the selection of the reference source with the setting in the   menu. See the Power FREQUENCY AND PHASE REFERENCE SETTINGS SYSTEM SETUP POWER SYSTEM System section of chapter 5 for details. GE Multilin F35 Multiple Feeder Protection System 6-23...
Page 390: Flexelements
2 for details. The IEC 61850 GGIO3 analog input data points are displayed in this menu. The GGIO3 analog data values are received via IEC 61850 GOOSE messages sent from other devices. 6-24 F35 Multiple Feeder Protection System GE Multilin...
Page 391: Wattmetric Ground Fault
RTD INPUT xx  -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. GE Multilin F35 Multiple Feeder Protection System 6-25...
Page 392: Records
COMMANDS CLEAR RECORDS Only major output operands generate events, not every operand. Elements that assert output per phase, for example, log operating phase output only without asserting the common three-phase operand event. 6-26 F35 Multiple Feeder Protection System GE Multilin...
Page 393: Oscillography
It counts up at the defined sampling rate. If the data logger channels are defined, then both values are static. Refer to the  menu for clearing data logger records. COMMANDS CLEAR RECORDS GE Multilin F35 Multiple Feeder Protection System 6-27...
Page 394: Breaker Maintenance
BKR 1 ARCING AMP  menu for clearing breaker arcing current records. The COMMANDS CLEAR RECORDS BREAKER OPERATING TIME defined as the slowest operating time of breaker poles that were initiated to open. 6-28 F35 Multiple Feeder Protection System GE Multilin...
Page 395: Product Information
6.5PRODUCT INFORMATION 6.5.1 MODEL INFORMATION   PATH: ACTUAL VALUES PRODUCT INFO MODEL INFORMATION Range: standard GE order code format;  MODEL INFORMATION ORDER CODE LINE 1: example order code shown  F35-E00-HCH-F8F-H6G Range: standard GE serial number format SERIAL NUMBER:...
Page 396 6.5 PRODUCT INFORMATION 6 ACTUAL VALUES 6-30 F35 Multiple Feeder Protection System GE Multilin...
Page 397: Commands And
The states of up to 64 virtual inputs are changed here. The first line of the display indicates the ID of the virtual input. The second line indicates the current or selected status of the virtual input. This status will be a state off (logic 0) or on (logic 1). GE Multilin F35 Multiple Feeder Protection System...
Page 398 When the relay is synchronizing to an external time source such as PTP, IRIG-B, or SNTP, the manually entered time is over-written. The timescale of the entered time is local time, including daylight savings time where and when applicable. F35 Multiple Feeder Protection System GE Multilin...
Page 399: Relay Maintenance
This allows the saved data to be as recent SAVE VOLATILE DATA as possible instead of relying on the periodic timer to save the data. GE Multilin F35 Multiple Feeder Protection System...
Page 400: Security
If there are active targets and the user is navigating through other messages, and when the default message timer times out (i.e. the keypad has not been used for a determined period of time), the display will again default back to the tar- get message. F35 Multiple Feeder Protection System GE Multilin...
Page 401: Relay Self-Tests
What to do: Check all modules against the order code, ensure they are inserted properly, and cycle control power. If the problem persists, contact the factory. FLEXLOGIC ERROR: with 2nd line detail • Latched target message: No. • Description of problem: A FlexLogic equation is incorrect. GE Multilin F35 Multiple Feeder Protection System...
Page 402 (7.25), Module Failure 31 indicates the limited functionality. If your application requires the new functionality, then new process card hardware is required and otherwise you can continue using the existing hardware. To know the revision of your hardware, contact the factory. F35 Multiple Feeder Protection System GE Multilin...
Page 403 Bad IRIG-B Signal • Latched target message: No. • Description of problem: A bad IRIG-B input signal has been detected. • How often the test is performed: Monitored whenever an IRIG-B signal is received. GE Multilin F35 Multiple Feeder Protection System...
Page 404 How often the test is performed: Upon initiation of a contact output state change. • What to do: Verify the state of the output contact and contact the factory if the problem persists. MAINTENANCE ALERT: GGIO Ind xxx oscill F35 Multiple Feeder Protection System GE Multilin...
Page 405 DC supply, or as a result of internal relay failure. • How often the test is performed: Event driven. • What to do: Contact the factory. FIRST ETHERNET FAIL SECOND ETHERNET FAIL THIRD ETHERNET FAIL • Latched target message: Yes. GE Multilin F35 Multiple Feeder Protection System...
Page 406 A webpage "SFP Transceiver Information" is provided. This page displays the type of the SFP in it. This data is to be used with the CPU type to know the cause of the problem. e) SFP X MODULE FAIL MESSAGES Description: A faulty SFP or unplugging the SFP would generate this self test. 7-10 F35 Multiple Feeder Protection System GE Multilin...
Page 407 Description: Communications problems with one or more Bricks. The text of the message identifies the affected field units. This self-test is initiated by low received signal levels at either the Brick or Process Card end, and by the sustained failure to receive poll responses from the proper Brick. GE Multilin F35 Multiple Feeder Protection System 7-11...
Page 408 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 faceplate reset key if the command has ended, however the output may still be non-functional. 7-12 F35 Multiple Feeder Protection System GE Multilin...
Page 409: Theory Of Operation
Depending on the fault type, appropriate voltage and current signals are selected from the phase quantities before applying the two equations above (the superscripts denote phases, the subscripts denote stations). For AG faults: ⋅ (EQ 8.7) – Apre GE Multilin F35 Multiple Feeder Protection System...
Page 410 -- - V (EQ 8.14) – – SYS0 -- - V – – SYS0 where Z is the equivalent zero-sequence impedance behind the relay as entered under the fault report setting menu. SYS0 F35 Multiple Feeder Protection System GE Multilin...
Page 411 FAULT TYPE FAULT FAULT LOCATION 3I_0 LOCATOR 1 FAULT# RECLOSE SHOT VA or VAB VB or VBC VC or VCA Vn or V_0 SHOT # FROM 827094A5.CDR AUTO RECLOSURE Figure 8–2: FAULT LOCATOR SCHEME GE Multilin F35 Multiple Feeder Protection System...
Page 412 8.1 FAULT LOCATOR 8 THEORY OF OPERATION F35 Multiple Feeder Protection System GE Multilin...
Page 413: Commissioning
The injected frequency should smoothly ramp through the set threshold, with the ramp starting frequency sufficiently out- side the threshold so the relay becomes conditioned to the trend before operation. For typical interconnected power sys- tems, the recommended testing ramp rate is 0.20 Hz/s. GE Multilin F35 Multiple Feeder Protection System...
Page 414 20 ms. The tracking frequency should not be used in timing measurements, as its algorithm involves phase locking, which purposely sets its frequency high or low to allow the F35 sample clock to catch-up or wait as necessary to reach synchro- nism with the power system. F35 Multiple Feeder Protection System GE Multilin...
Page 415: Maintenance
Before performing this action, control power must be removed from the relay. Record the original loca- tion of the module to ensure that the same or replacement module is inserted into the correct slot. Modules with current input provide automatic shorting of external CT circuits. GE Multilin F35 Multiple Feeder Protection System 10-1...
Page 416 The new CT/VT modules can only be used with new CPUs; similarly, old CT/VT modules can only be used with old CPUs. In the event that there is a mismatch between the CPU and CT/VT module, the relay does not function and error displays. NOTE DSP ERROR HARDWARE MISMATCH 10-2 F35 Multiple Feeder Protection System GE Multilin...
Page 417: Batteries
10. Reinstall the battery clip 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. GE Multilin F35 Multiple Feeder Protection System 10-3...
Page 418 10. Reinstall the battery clip 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. 10-4 F35 Multiple Feeder Protection System GE Multilin...
Page 419: Dispose Of Battery
La batterie est marqué de ce symbole, qui comprennent les indications cadmium (Cd), plomb (Pb), ou mercure (Hg). Pour le recyclage, retourner la batterie à votre fournisseur ou à un point de collecte. Pour plus d'informations, voir: www.recyclethis.info. GE Multilin F35 Multiple Feeder Protection System 10-5...
Page 420 Baterija je označena s tem simbolom, ki lahko vključuje napise, ki označujejo kadmij (Cd), svinec (Pb) ali živo srebro (Hg). Za ustrezno recikliranje baterijo vrnite dobavitelju ali jo odstranite na določenem zbirališču. Za več informacij obiščite spletno stran: www.recyclethis.info. 10-6 F35 Multiple Feeder Protection System GE Multilin...
Page 421 North America 905-294-6222 Latin America +55 11 3614 1700 Europe, Middle East, Africa +(34) 94 485 88 00 Asia +86-21-2401-3208 India +91 80 41314617 From GE Part Number 1604-0021-A1, GE Publication Number GEK-113574 GE Multilin F35 Multiple Feeder Protection System 10-7...
Page 422: Uninstall And Clear Files And Data
Other files can be in standard formats, such as COMTRADE or .csv. You cannot erase directly the flash memory, but all records and settings in that memory can be deleted. Do this using the   command. SETTINGS PRODUCT SETUP CLEAR RELAY RECORDS 10-8 F35 Multiple Feeder Protection System GE Multilin...
Page 423: Repairs
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...
Page 424: Storage
Store the unit indoors in a cool, dry place. If possible, store in the original packaging. Follow the storage temperature range outlined in the Specifications. To avoid deterioration of electrolytic capacitors, power up units that are stored in a de-energized state once per year, for one hour continuously. 10-10 F35 Multiple Feeder Protection System GE Multilin...
Page 425: Disposal
European Union, dispose of the battery as outlined earlier. To prevent non-intended use of the unit, remove the modules as outlined earlier, dismantle the unit, and recycle the metal when possible. GE Multilin F35 Multiple Feeder Protection System...
Page 426 10.6 DISPOSAL 10 MAINTENANCE 10-12 F35 Multiple Feeder Protection System GE Multilin...
Page 427: Parameter Lists
SRC 1 Igd Angle Degrees Source 1 differential ground current angle 6208 SRC 2 Ia RMS Amps Source 2 phase A current RMS 6210 SRC 2 Ib RMS Amps Source 2 phase B current RMS GE Multilin F35 Multiple Feeder Protection System...
Page 428 SRC 4 Ia RMS Amps Source 4 phase A current RMS 6338 SRC 4 Ib RMS Amps Source 4 phase B current RMS 6340 SRC 4 Ic RMS Amps Source 4 phase C current RMS F35 Multiple Feeder Protection System GE Multilin...
Page 429 SRC 6 Ib RMS Amps Source 6 phase B current RMS 6468 SRC 6 Ic RMS Amps Source 6 phase C current RMS 6470 SRC 6 In RMS Amps Source 6 neutral current RMS GE Multilin F35 Multiple Feeder Protection System...
Page 430 SRC 1 V_2 Mag Volts Source 1 negative-sequence voltage magnitude 6699 SRC 1 V_2 Angle Degrees Source 1 negative-sequence voltage angle 6720 SRC 2 Vag RMS Volts Source 2 phase AG voltage RMS F35 Multiple Feeder Protection System GE Multilin...
Page 431 6814 SRC 3 Vx RMS Volts Source 3 auxiliary voltage RMS 6816 SRC 3 Vx Mag Volts Source 3 auxiliary voltage magnitude 6818 SRC 3 Vx Angle Degrees Source 3 auxiliary voltage angle GE Multilin F35 Multiple Feeder Protection System...
Page 432 SRC 5 Vca RMS Volts Source 5 phase CA voltage RMS 6933 SRC 5 Vab Mag Volts Source 5 phase AB voltage magnitude 6935 SRC 5 Vab Angle Degrees Source 5 phase AB voltage angle F35 Multiple Feeder Protection System GE Multilin...
Page 433 Source 1 phase C real power 7176 SRC 1 Q Vars Source 1 three-phase reactive power 7178 SRC 1 Qa Vars Source 1 phase A reactive power 7180 SRC 1 Qb Vars Source 1 phase B reactive power GE Multilin F35 Multiple Feeder Protection System...
Page 434 Source 4 phase B real power 7270 SRC 4 Pc Watts Source 4 phase C real power 7272 SRC 4 Q Vars Source 4 three-phase reactive power 7274 SRC 4 Qa Vars Source 4 phase A reactive power F35 Multiple Feeder Protection System GE Multilin...
Page 435 Source 1 negative Watthour 7428 SRC 1 Pos varh varh Source 1 positive varhour 7430 SRC 1 Neg varh varh Source 1 negative varhour 7440 SRC 2 Pos Watthour Source 2 positive Watthour GE Multilin F35 Multiple Feeder Protection System...
Page 436 SRC 4 Demand Ib Amps Source 4 phase B current demand 7732 SRC 4 Demand Ic Amps Source 4 phase C current demand 7734 SRC 4 Demand Watt Watts Source 4 real power demand A-10 F35 Multiple Feeder Protection System GE Multilin...
Page 437 SRC 1 Vb Harm[6] Source 1 phase B voltage sixth harmonic 8095 SRC 1 Vb Harm[7] Source 1 phase B voltage seventh harmonic 8096 SRC 1 Vb Harm[8] Source 1 phase B voltage eighth harmonic GE Multilin F35 Multiple Feeder Protection System A-11...
Page 438 SRC 2 Va Harm[3] Source 2 phase A voltage third harmonic 8142 SRC 2 Va Harm[4] Source 2 phase A voltage fourth harmonic 8143 SRC 2 Va Harm[5] Source 2 phase A voltage fifth harmonic A-12 F35 Multiple Feeder Protection System GE Multilin...
Page 439 Source 2 phase B voltage twenty-fifth harmonic 8189 SRC 2 Vc THD Source 2 phase C voltage total harmonic distortion (THD) 8190 SRC 2 Vc Harm[2] Source 2 phase C voltage second harmonic GE Multilin F35 Multiple Feeder Protection System A-13...
Page 440 SRC 3 Va Harm[22] Source 3 phase A voltage twenty-second harmonic 8236 SRC 3 Va Harm[23] Source 3 phase A voltage twenty-third harmonic 8237 SRC 3 Va Harm[24] Source 3 phase A voltage twenty-fourth harmonic A-14 F35 Multiple Feeder Protection System GE Multilin...
Page 441 SRC 3 Vc Harm[19] Source 3 phase C voltage nineteenth harmonic 8283 SRC 3 Vc Harm[20] Source 3 phase C voltage twentieth harmonic 8284 SRC 3 Vc Harm[21] Source 3 phase C voltage twenty-first harmonic GE Multilin F35 Multiple Feeder Protection System A-15...
Page 442 SRC 4 Vb Harm[16] Source 4 phase B voltage sixteenth harmonic 8330 SRC 4 Vb Harm[17] Source 4 phase B voltage seventeenth harmonic 8331 SRC 4 Vb Harm[18] Source 4 phase B voltage eighteenth harmonic A-16 F35 Multiple Feeder Protection System GE Multilin...
Page 443 SRC 5 Va Harm[13] Source 5 phase A voltage thirteenth harmonic 8377 SRC 5 Va Harm[14] Source 5 phase A voltage fourteenth harmonic 8378 SRC 5 Va Harm[15] Source 5 phase A voltage fifteenth harmonic GE Multilin F35 Multiple Feeder Protection System A-17...
Page 444 SRC 5 Vc Harm[10] Source 5 phase C voltage tenth harmonic 8424 SRC 5 Vc Harm[11] Source 5 phase C voltage eleventh harmonic 8425 SRC 5 Vc Harm[12] Source 5 phase C voltage twelfth harmonic A-18 F35 Multiple Feeder Protection System GE Multilin...
Page 445 SRC 6 Vb Harm[7] Source 6 phase B voltage seventh harmonic 8471 SRC 6 Vb Harm[8] Source 6 phase B voltage eighth harmonic 8472 SRC 6 Vb Harm[9] Source 6 phase B voltage ninth harmonic GE Multilin F35 Multiple Feeder Protection System A-19...
Page 446 Brk 1 Op Time A Breaker 1 operating time phase A 8679 Brk 1 Op Time B Breaker 1 operating time phase B 8680 Brk 1 Op Time C Breaker 1 operating time phase C A-20 F35 Multiple Feeder Protection System GE Multilin...
Page 447 Fault Vb Ang [1] Degrees Fault 1 phase B voltage angle 9057 Fault Vc Mag [1] Volts Fault 1 phase C voltage magnitude 9059 Fault Vc Ang [1] Degrees Fault 1 phase C voltage angle GE Multilin F35 Multiple Feeder Protection System A-21...
Page 448 Fault Ic Mag [3] Amps Fault 3 phase C current magnitude 9126 Fault Ic Ang [3] Degrees Fault 3 phase C current angle 9127 Fault Va Mag [3] Volts Fault 3 phase A voltage magnitude A-22 F35 Multiple Feeder Protection System GE Multilin...
Page 449 Degrees Fault 5 pre-fault phase C voltage angle 9194 Fault Ia Mag [5] Amps Fault 5 phase A current magnitude 9196 Fault Ia Ang [5] Degrees Fault 5 phase A current angle GE Multilin F35 Multiple Feeder Protection System A-23...
Page 450 RTD input 7 actual value 13559 RTD Ip 8 RTD input 8 actual value 13560 RTD Ip 9 RTD input 9 actual value 13561 RTD Ip 10 RTD input 10 actual value A-24 F35 Multiple Feeder Protection System GE Multilin...
Page 451 Current setting group 32768 Tracking Frequency Tracking frequency 39168 FlexElement 1 Value FlexElement 1 actual value 39170 FlexElement 2 Value FlexElement 2 actual value 39172 FlexElement 3 Value FlexElement 3 actual value GE Multilin F35 Multiple Feeder Protection System A-25...
Page 452 GOOSE Analog In 20 IEC 61850 GOOSE analog input 20 45624 GOOSE Analog In 21 IEC 61850 GOOSE analog input 21 45626 GOOSE Analog In 22 IEC 61850 GOOSE analog input 22 A-26 F35 Multiple Feeder Protection System GE Multilin...
Page 453: Flexinteger Items
IEC61850 GOOSE UInteger input 13 9994 GOOSE UInt Input 14 IEC61850 GOOSE UInteger input 14 9996 GOOSE UInt Input 15 IEC61850 GOOSE UInteger input 15 9998 GOOSE UInt Input 16 IEC61850 GOOSE UInteger input 16 GE Multilin F35 Multiple Feeder Protection System A-27...
Page 454 A.1 PARAMETER LISTS APPENDIX A A-28 F35 Multiple Feeder Protection System GE Multilin...
Page 455: Modbus Rtu Protocol
CRC: This is a two byte error checking code. The RTU version of Modbus includes a 16-bit cyclic redundancy check (CRC-16) with every packet which is an industry standard method used for error detection. If a Modbus slave device GE Multilin F35 Multiple Feeder Protection System...
Page 456: Modbus Rtu Crc-16 Algorithm
This algorithm requires the characteristic polynomial to be reverse bit ordered. The most significant bit of the characteristic polynomial is dropped, since it does not affect the value of the remainder. A C programming language implementation of the CRC algorithm will be provided upon request. F35 Multiple Feeder Protection System GE Multilin...
Page 457 No: go to 8; Yes: G (+) A --> A and continue. Is j = 8? No: go to 5; Yes: continue i + 1 --> i Is i = N? No: go to 3; Yes: continue A --> CRC GE Multilin F35 Multiple Feeder Protection System...
Page 458: Modbus Function Codes
Modbus officially defines function codes from 1 to 127 though only a small subset is generally needed. The relay supports some of these functions, as summarized in the following table. Subsequent sections describe each function code in detail. FUNCTION CODE MODBUS DEFINITION GE MULTILIN DEFINITION Read holding registers Read actual values or settings Read holding registers...
Page 459: Execute Operation (Function Code 05H
DATA STARTING ADDRESS - low DATA STARTING ADDRESS - low DATA - high DATA - high DATA - low DATA - low CRC - low CRC - low CRC - high CRC - high GE Multilin F35 Multiple Feeder Protection System...
Page 460: Store Multiple Settings (Function Code 10H
PACKET FORMAT EXAMPLE (HEX) SLAVE ADDRESS SLAVE ADDRESS FUNCTION CODE FUNCTION CODE CRC - low order byte ERROR CODE CRC - high order byte CRC - low order byte CRC - high order byte F35 Multiple Feeder Protection System GE Multilin...
Page 461: File Transfers
Cleared Date to the present date and time. To read binary COMTRADE oscillography files, read the following filenames: OSCnnnn.CFG and OSCnnn.DAT Replace “nnn” with the desired oscillography trigger number. For ASCII format, use the following file names OSCAnnnn.CFG and OSCAnnn.DAT GE Multilin F35 Multiple Feeder Protection System...
Page 462 EVTnnn.TXT (replace nnn with the desired starting record number) To read from a specific record to another specific record, use the following filename: EVT.TXT xxxxx yyyyy (replace xxxxx with the starting record number and yyyyy with the ending record number) F35 Multiple Feeder Protection System GE Multilin...
Page 463: Memory Mapping
040C Virtual Input 13 State 0 to 1 F108 0 (Off) 040D Virtual Input 14 State 0 to 1 F108 0 (Off) 040E Virtual Input 15 State 0 to 1 F108 0 (Off) GE Multilin F35 Multiple Feeder Protection System...
Page 464 IEC103 Common ASDU Address 0 to 254 F001 0583 IEC103 Sync Timeout 1 to 1440 F001 IEC 103 Binary Inputs (Read/Write Setting) (96 modules) 0584 IEC103 Binary Input 1 FUN 0 to 255 F001 B-10 F35 Multiple Feeder Protection System GE Multilin...
Page 465 ...Repeated for Binary Input 48 0644 ...Repeated for Binary Input 49 0648 ...Repeated for Binary Input 50 064C ...Repeated for Binary Input 51 0650 ...Repeated for Binary Input 52 0654 ...Repeated for Binary Input 53 GE Multilin F35 Multiple Feeder Protection System B-11...
Page 466 IEC103 ASDU 1 Analog Param 2 0 to 65535 F600 070C IEC103 ASDU 1 Analog Factor 2 0 to 65.535 0.001 F001 1000 070D IEC103 ASDU 1 Analog Offset 2 -32768 to 32767 F002 B-12 F35 Multiple Feeder Protection System GE Multilin...
Page 467 ...Repeated for IEC103 Command 21 07D4 ...Repeated for IEC103 Command 22 07D8 ...Repeated for IEC103 Command 23 07DC ...Repeated for IEC103 Command 24 07E0 ...Repeated for IEC103 Command 25 07E4 ...Repeated for IEC103 Command 26 GE Multilin F35 Multiple Feeder Protection System B-13...
Page 468 F605 3 (Bad) 1555 Remote Double-Point Status Input 5 State 0 to 3 F605 3 (Bad) Platform Direct Input/Output States (Read Only) 15C0 Direct Input States (6 items) 0 to 65535 F500 B-14 F35 Multiple Feeder Protection System GE Multilin...
Page 469 ...Repeated for Field Transducer 3 16CE ...Repeated for Field Transducer 4 16D0 ...Repeated for Field Transducer 5 16D2 ...Repeated for Field Transducer 6 16D4 ...Repeated for Field Transducer 7 16D6 ...Repeated for Field Transducer 8 GE Multilin F35 Multiple Feeder Protection System B-15...
Page 470 Source 1 Auxiliary Voltage Angle -359.9 to 0 degrees F002 1A23 Source 1 Zero Sequence Voltage Magnitude 0 to 999999.999 0.001 F060 1A25 Source 1 Zero Sequence Voltage Angle -359.9 to 0 degrees F002 B-16 F35 Multiple Feeder Protection System GE Multilin...
Page 471 ...Repeated for Source 3 1D30 ...Repeated for Source 4 1D40 ...Repeated for Source 5 1D50 ...Repeated for Source 6 Energy Commands (Read/Write Command) 1D60 Energy Clear Command 0 to 1 F126 0 (No) GE Multilin F35 Multiple Feeder Protection System B-17...
Page 472 Breaker Arcing Current Actual Values (Read Only Non-Volatile) (6 modules) 21E0 Breaker 1 Arcing Current Phase A 0 to 99999999 -cyc F060 21E2 Breaker 1 Arcing Current Phase B 0 to 99999999 -cyc F060 B-18 F35 Multiple Feeder Protection System GE Multilin...
Page 473 Fault 1 Phase B Voltage Angle -359.9 to 0 degrees F002 2361 Fault 1 Phase C Voltage Magnitude 0 to 999999.999 0.001 F060 2363 Fault 1 Phase C Voltage Angle -359.9 to 0 degrees F002 GE Multilin F35 Multiple Feeder Protection System B-19...
Page 474 0 to 4294967295 F003 2700 IEC 61850 Received uinteger 9 0 to 4294967295 F003 2702 IEC 61850 Received uinteger 10 0 to 4294967295 F003 2704 IEC 61850 Received uinteger 11 0 to 4294967295 F003 B-20 F35 Multiple Feeder Protection System GE Multilin...
Page 475 Security (Read/Write Setting) 3280 Administrator Alphanumeric Password Setting F202 (none) Security (Read Only) 328A Administrator Alphanumeric Password Status 0 to 1 F102 0 (Disabled) Security (Read/Write) 328B Administrator Alphanumeric Password Entry F202 (none) GE Multilin F35 Multiple Feeder Protection System B-21...
Page 476 0 to 9999 F001 3374 Address 0x3374 reserved for serial logout 0 to 9999 F001 Security Reserved Modbus Registers (Read Only) 3375 Address 0x3374 reserved for serial logout 0 to 5 F617 3 (Engineer) B-22 F35 Multiple Feeder Protection System GE Multilin...
Page 477 °C F002 3503 RTD Input 20 Value -32768 to 32767 °C F002 3504 RTD Input 21 Value -32768 to 32767 °C F002 3505 RTD Input 22 Value -32768 to 32767 °C F002 GE Multilin F35 Multiple Feeder Protection System B-23...
Page 478 PTP Port 1 Function 0 to 1 F102 0 (Disabled) 3757 PTP Port 1 Path Delay Adder 0 to 60000 F001 3758 PTP Port 1 Path Delay Asymmetry -1000 to 1000 F002 B-24 F35 Multiple Feeder Protection System GE Multilin...
Page 479 Remote Auxiliary VT 1 Ratio 1 to 24000 F060 38A1 ...Repeated for Field Unit 2 38B2 ...Repeated for Field Unit 3 38C3 ...Repeated for Field Unit 4 38D4 ...Repeated for Field Unit 5 GE Multilin F35 Multiple Feeder Protection System B-25...
Page 480 Field Shared Input 1 Channel Origin 1 1 to 15 F001 3B08 Field Shared Input 1 Events 0 to 1 F102 1 (Enabled) 3B09 ...Repeated for Field Shared Input 2 3B12 ...Repeated for Field Shared Input 3 B-26 F35 Multiple Feeder Protection System GE Multilin...
Page 481 ...Repeated for Field Shared Output 5 3E71 ...Repeated for Field Shared Output 6 3E7E ...Repeated for Field Shared Output 7 3E8B ...Repeated for Field Shared Output 8 3E98 ...Repeated for Field Shared Output 9 GE Multilin F35 Multiple Feeder Protection System B-27...
Page 482 Passwords (Read/Write) 4014 Command Password Entry 0 to 4294967295 F202 (none) 401E Setting Password Entry 0 to 4294967295 F202 (none) Passwords (Read Only) 4028 Command Password Status 0 to 1 F102 0 (Disabled) B-28 F35 Multiple Feeder Protection System GE Multilin...
Page 483 Data Transfer UDP Port Numbers for the TFTP Protocol 0 to 65535 F001 (zero means “automatic”) (2 items) 40A9 DNP Unsolicited Responses Function 0 to 1 F102 0 (Disabled) 40AA DNP Unsolicited Responses Timeout 0 to 60 F001 GE Multilin F35 Multiple Feeder Protection System B-29...
Page 484 0 (Disabled) 413F High Enet Traffic Events 0 to 1 F102 0 (Disabled) 4140 DNP Object 1 Default Variation 1 to 2 F001 4141 DNP Object 2 Default Variation 1 to 3 F001 B-30 F35 Multiple Feeder Protection System GE Multilin...
Page 485 Oscillography AC Input Waveforms 0 to 4 F183 2 (16 samples/ cycle) 41D0 Oscillography Analog Channel n (16 items) 0 to 65535 F600 4200 Oscillography Digital Channel n (63 items) 0 to 4294967295 F300 GE Multilin F35 Multiple Feeder Protection System B-31...
Page 486 ...Repeated for User-Programmable LED 43 4341 ...Repeated for User-Programmable LED 44 4344 ...Repeated for User-Programmable LED 45 4347 ...Repeated for User-Programmable LED 46 434A ...Repeated for User-Programmable LED 47 434D ...Repeated for User-Programmable LED 48 B-32 F35 Multiple Feeder Protection System GE Multilin...
Page 487 Auxiliary VT 1 Ratio 1 to 24000 F060 4508 ...Repeated for VT Bank 2 4510 ...Repeated for VT Bank 3 4518 ...Repeated for VT Bank 4 4520 ...Repeated for VT Bank 5 GE Multilin F35 Multiple Feeder Protection System B-33...
Page 488 0 to 4294967295 F300 47EE Breaker 1 Phase B Opened 0 to 4294967295 F300 47F0 Breaker 1 Phase C Opened 0 to 4294967295 F300 47F2 Breaker 1 Operate Time 0 to 65.535 0.001 F001 B-34 F35 Multiple Feeder Protection System GE Multilin...
Page 489 Raw Field Data AC6 Mag 0 to 0.001 0.001 F003 4E11 Raw Field Data AC6 Angle 0 to 0.01 degree F002 4E12 Raw Field Data AC7 Mag 0 to 0.001 0.001 F003 GE Multilin F35 Multiple Feeder Protection System B-35...
Page 490 ...Repeated for RTD Input 15 552C ...Repeated for RTD Input 16 5540 ...Repeated for RTD Input 17 5554 ...Repeated for RTD Input 18 5568 ...Repeated for RTD Input 19 557C ...Repeated for RTD Input 20 B-36 F35 Multiple Feeder Protection System GE Multilin...
Page 491 ...Repeated for FlexLogic Timer 17 5888 ...Repeated for FlexLogic Timer 18 5890 ...Repeated for FlexLogic Timer 19 5898 ...Repeated for FlexLogic Timer 20 58A0 ...Repeated for FlexLogic Timer 21 58A8 ...Repeated for FlexLogic Timer 22 GE Multilin F35 Multiple Feeder Protection System B-37...
Page 492 Neutral Time Overcurrent 1 Signal Source 0 to 5 F167 0 (SRC 1) 5B02 Neutral Time Overcurrent 1 Input 0 to 1 F122 0 (Phasor) 5B03 Neutral Time Overcurrent 1 Pickup 0 to 30 0.001 F001 1000 B-38 F35 Multiple Feeder Protection System GE Multilin...
Page 493 0 to 1 F102 0 (Disabled) 5DA1 Ground Instantaneous Overcurrent 1 Signal Source 0 to 5 F167 0 (SRC 1) 5DA2 Ground Instantaneous Overcurrent 1 Pickup 0 to 30 0.001 F001 1000 GE Multilin F35 Multiple Feeder Protection System B-39...
Page 494 0 to 1 F102 0 (Disabled) 6201 Autoreclose 1 Initiate 0 to 4294967295 F300 6203 Autoreclose 1 Block 0 to 4294967295 F300 6205 Autoreclose 1 Max Number of Shots 1 to 4 F001 B-40 F35 Multiple Feeder Protection System GE Multilin...
Page 495 ...Repeated for Negative Sequence Instantaneous OC 2 Phase Undervoltage (Read/Write Grouped Setting) (3 modules) 7000 Phase Undervoltage 1 Function 0 to 1 F102 0 (Disabled) 7001 Phase Undervoltage 1 Signal Source 0 to 5 F167 0 (SRC 1) GE Multilin F35 Multiple Feeder Protection System B-41...
Page 496 ...Repeated for Disconnect Switch 4 751C ...Repeated for Disconnect Switch 5 753B ...Repeated for Disconnect Switch 6 755A ...Repeated for Disconnect Switch 7 7579 ...Repeated for Disconnect Switch 8 7598 ...Repeated for Disconnect Switch 9 B-42 F35 Multiple Feeder Protection System GE Multilin...
Page 497 Underfrequency (Read/Write Setting) (6 modules) 7A80 Underfrequency 1 Function 0 to 1 F102 0 (Disabled) 7A81 Underfrequency 1 Block 0 to 4294967295 F300 7A83 Underfrequency 1 Min Current 0.1 to 1.25 0.01 F001 GE Multilin F35 Multiple Feeder Protection System B-43...
Page 498 Neutral Overvoltage 1 Target 0 to 2 F109 0 (Self-reset) 7F08 Neutral Overvoltage 1 Events 0 to 1 F102 0 (Disabled) 7F09 Neutral Overvoltage 1 Curves 0 to 3 F116 0 (Definite Time) B-44 F35 Multiple Feeder Protection System GE Multilin...
Page 499 EGD Fast Production Status (Read Only Non-Volatile and Read Only) 83E0 EGD Fast Producer Exchange 1 Signature 0 to 65535 F001 83E1 EGD Fast Producer Exchange 1 Configuration Time 0 to 4294967295 F003 GE Multilin F35 Multiple Feeder Protection System B-45...
Page 500 ...Repeated for Digital Element 18 8B8C ...Repeated for Digital Element 19 8BA2 ...Repeated for Digital Element 20 8BB8 ...Repeated for Digital Element 21 8BCE ...Repeated for Digital Element 22 8BE4 ...Repeated for Digital Element 23 B-46 F35 Multiple Feeder Protection System GE Multilin...
Page 501 0.001 F004 1000 900C FlexElement 1 DeltaT Units 0 to 2 F518 0 (Milliseconds) 900D FlexElement 1 DeltaT 20 to 86400 F003 900F FlexElement 1 Pickup Delay 0 to 65.535 0.001 F001 GE Multilin F35 Multiple Feeder Protection System B-47...
Page 502 ...Repeated for DCmA Output 4 9378 ...Repeated for DCmA Output 5 937E ...Repeated for DCmA Output 6 9384 ...Repeated for DCmA Output 7 938A ...Repeated for DCmA Output 8 9390 ...Repeated for DCmA Output 9 B-48 F35 Multiple Feeder Protection System GE Multilin...
Page 503 IEC 61850 GOOSE uinteger 1 Default Value 0 to 429496295 F003 1000 98A2 IEC 61850 GOOSE uinteger Input 1 Mode 0 to 1 F491 0 (Default Value) 98A3 ...Repeated for IEC61850 GOOSE uinteger 2 GE Multilin F35 Multiple Feeder Protection System B-49...
Page 504 Teleprotection Number of Terminals 2 to 3 F001 9992 Teleprotection Number of Channels 1 to 2 F001 9993 Teleprotection Local Relay ID 0 to 255 F001 9994 Teleprotection Terminal 1 ID 0 to 255 F001 B-50 F35 Multiple Feeder Protection System GE Multilin...
Page 505 Digital Counter 1 Set To Preset 0 to 4294967295 F300 A31D Reserved (11 items) F001 A328 ...Repeated for Digital Counter 2 A350 ...Repeated for Digital Counter 3 A378 ...Repeated for Digital Counter 4 GE Multilin F35 Multiple Feeder Protection System B-51...
Page 506 ...Repeated for Non-Volatile Latch 4 A730 ...Repeated for Non-Volatile Latch 5 A73C ...Repeated for Non-Volatile Latch 6 A748 ...Repeated for Non-Volatile Latch 7 A754 ...Repeated for Non-Volatile Latch 8 A760 ...Repeated for Non-Volatile Latch 9 B-52 F35 Multiple Feeder Protection System GE Multilin...
Page 507 Operand for IEC 61850 XCBR Pos ct1Model 0 to 4 F001 AB0A Operand for IEC 61850 XCBR Pos sboTimeout 2 to 60 F001 AB0B ...Repeated for Module 2 AB16 ...Repeated for Module 3 GE Multilin F35 Multiple Feeder Protection System B-53...
Page 508 ...Repeated for IEC 61850 GGIO4 Analog Input 22 AFAA ...Repeated for IEC 61850 GGIO4 Analog Input 23 AFB1 ...Repeated for IEC 61850 GGIO4 Analog Input 24 AFB8 ...Repeated for IEC 61850 GGIO4 Analog Input 25 B-54 F35 Multiple Feeder Protection System GE Multilin...
Page 509 0.001 to 100 0.001 F003 10000 B0EA IEC 61850 MMXU VA.phsA Deadband 1 0.001 to 100 0.001 F003 10000 B0EC IEC 61850 MMXU VA.phsB Deadband 1 0.001 to 100 0.001 F003 10000 GE Multilin F35 Multiple Feeder Protection System B-55...
Page 510 Wattmetric Ground Fault 1 Overcurrent Pickup 0.002 to 30.000 0.001 F001 B306 Wattmetric Ground Fault 1 Overcurrent Pickup Delay 0 to 600 0.01 F001 B307 Wattmetric Ground Fault 1 Power Pickup 0.001 to 1.2 0.001 F001 B-56 F35 Multiple Feeder Protection System GE Multilin...
Page 511 F209 “GOOSEOut_x_” B5C2 Configurable GOOSE Destination MAC Address F072 B5C5 IEC 61850 Configurable GOOSE VLAN Transmit Priority 0 to 7 F001 B5C6 IEC 61850 Configurable GOOSE VLAN ID 0 to 4095 F001 GE Multilin F35 Multiple Feeder Protection System B-57...
Page 512 ...Repeated for Contact Input 16 BB80 ...Repeated for Contact Input 17 BB88 ...Repeated for Contact Input 18 BB90 ...Repeated for Contact Input 19 BB98 ...Repeated for Contact Input 20 BBA0 ...Repeated for Contact Input 21 B-58 F35 Multiple Feeder Protection System GE Multilin...
Page 513 ...Repeated for Contact Input 70 BD30 ...Repeated for Contact Input 71 BD38 ...Repeated for Contact Input 72 BD40 ...Repeated for Contact Input 73 BD48 ...Repeated for Contact Input 74 BD50 ...Repeated for Contact Input 75 GE Multilin F35 Multiple Feeder Protection System B-59...
Page 514 ...Repeated for Virtual Input 21 BF2C ...Repeated for Virtual Input 22 BF38 ...Repeated for Virtual Input 23 BF44 ...Repeated for Virtual Input 24 BF50 ...Repeated for Virtual Input 25 BF5C ...Repeated for Virtual Input 26 B-60 F35 Multiple Feeder Protection System GE Multilin...
Page 515 ...Repeated for Virtual Output 8 C170 ...Repeated for Virtual Output 9 C178 ...Repeated for Virtual Output 10 C180 ...Repeated for Virtual Output 11 C188 ...Repeated for Virtual Output 12 C190 ...Repeated for Virtual Output 13 GE Multilin F35 Multiple Feeder Protection System B-61...
Page 516 ...Repeated for Virtual Output 62 C320 ...Repeated for Virtual Output 63 C328 ...Repeated for Virtual Output 64 C330 ...Repeated for Virtual Output 65 C338 ...Repeated for Virtual Output 66 C340 ...Repeated for Virtual Output 67 B-62 F35 Multiple Feeder Protection System GE Multilin...
Page 517 0 to 4294967295 F300 C462 Clear Breaker 5 Arcing Current Operand 0 to 4294967295 F300 C464 Clear Breaker 6 Arcing Current Operand 0 to 4294967295 F300 C468 Clear Energy Operand 0 to 4294967295 F300 GE Multilin F35 Multiple Feeder Protection System B-63...
Page 518 0 to 3 F131 0 (Disabled) Direct Inputs/Outputs (Read/Write Setting) C880 Direct Device ID 1 to 16 F001 C881 Direct I/O Channel 1 Ring Configuration Function 0 to 1 F126 0 (No) B-64 F35 Multiple Feeder Protection System GE Multilin...
Page 519 Direct Input/Output Channel 2 CRC Alarm Events 0 to 1 F102 0 (Disabled) CADC Reserved (4 items) 1 to 1000 F001 CAE0 Direct Input/Output Ch 1 Unreturned Messages Alarm 0 to 1 F102 0 (Disabled) Function GE Multilin F35 Multiple Feeder Protection System B-65...
Page 520 ...Repeated for Remote Input 9 CFFA ...Repeated for Remote Input 10 D004 ...Repeated for Remote Input 11 D00E ...Repeated for Remote Input 12 D018 ...Repeated for Remote Input 13 D022 ...Repeated for Remote Input 14 B-66 F35 Multiple Feeder Protection System GE Multilin...
Page 521 ...Repeated for Remote Output 27 D28C ...Repeated for Remote Output 28 D290 ...Repeated for Remote Output 29 D294 ...Repeated for Remote Output 30 D298 ...Repeated for Remote Output 31 D29C ...Repeated for Remote Output 32 GE Multilin F35 Multiple Feeder Protection System B-67...
Page 522 IEC 61850 GGIO2.CF.SPCSO15.ctlModel Value 0 to 2 F001 D32F IEC 61850 GGIO2.CF.SPCSO16.ctlModel Value 0 to 2 F001 D330 IEC 61850 GGIO2.CF.SPCSO17.ctlModel Value 0 to 2 F001 D331 IEC 61850 GGIO2.CF.SPCSO18.ctlModel Value 0 to 2 F001 B-68 F35 Multiple Feeder Protection System GE Multilin...
Page 523 0 to 4294967295 F003 D364 ...Repeated for Remote Device 2 D368 ...Repeated for Remote Device 3 D36C ...Repeated for Remote Device 4 D370 ...Repeated for Remote Device 5 D374 ...Repeated for Remote Device 6 GE Multilin F35 Multiple Feeder Protection System B-69...
Page 524 ...Repeated for Contact Output 31 D5B1 ...Repeated for Contact Output 32 D5C0 ...Repeated for Contact Output 33 D5CF ...Repeated for Contact Output 34 D5DE ...Repeated for Contact Output 35 D5ED ...Repeated for Contact Output 36 B-70 F35 Multiple Feeder Protection System GE Multilin...
Page 525 ...Repeated for DCmA Inputs 14 D8AA ...Repeated for DCmA Inputs 15 D8BD ...Repeated for DCmA Inputs 16 D8D0 ...Repeated for DCmA Inputs 17 D8E3 ...Repeated for DCmA Inputs 18 D8F6 ...Repeated for DCmA Inputs 19 GE Multilin F35 Multiple Feeder Protection System B-71...
Page 526 Template Access F205 (none) Setting File Template (Read Only Non-Volatile) ED07 Last Settings Change Date 0 to 4294967295 F050 Settings File Template (Read/Write Setting) ED09 Template Bitmask (750 items) 0 to 65535 F001 B-72 F35 Multiple Feeder Protection System GE Multilin...
Page 527: Data Formats
0 = Disabled, 1 = Enabled UR_UINT32 TIME in SR format (alternate format for F050) First 16 bits are Hours/Minutes (HH:MM:xx.xxx). Hours: 0=12am, 1=1am,...,12=12pm,...23=11pm. Minutes: 0 to 59 in steps of 1. GE Multilin F35 Multiple Feeder Protection System B-73...
Page 528 Neutral Instantaneous Overcurrent 3 0 = None, 1 = Odd, 2 = Even Neutral Instantaneous Overcurrent 4 Neutral Instantaneous Overcurrent 5 Neutral Instantaneous Overcurrent 6 Neutral Instantaneous Overcurrent 7 Neutral Instantaneous Overcurrent 8 B-74 F35 Multiple Feeder Protection System GE Multilin...
Page 529 SRC5 50DD (Disturbance Detection) Non-volatile Latch 7 SRC6 50DD (Disturbance Detection) Non-volatile Latch 8 Breaker Arcing Current 1 Non-volatile Latch 9 Breaker Arcing Current 2 Non-volatile Latch 10 Breaker Arcing Current 3 Non-volatile Latch 11 GE Multilin F35 Multiple Feeder Protection System B-75...
Page 530 RTD Input 28 Digital Element 30 RTD Input 29 Digital Element 31 RTD Input 30 Digital Element 32 RTD Input 31 Digital Element 33 RTD Input 32 Digital Element 34 RTD Input 33 B-76 F35 Multiple Feeder Protection System GE Multilin...
Page 531 0 = 17 V DC, 1 = 33 V DC, 2 = 84 V DC, 3 = 166 V DC Disconnect switch 17 Disconnect switch 18 Disconnect switch 19 F129 Disconnect switch 20 ENUMERATION: FLEXLOGIC TIMER TYPE Disconnect switch 21 0 = millisecond, 1 = second, 2 = minute GE Multilin F35 Multiple Feeder Protection System B-77...
Page 532 Latching Output Discrepancy Maintenance Alert 01 SNTP Failure F143 Maintenance Alert UR_UINT32: 32 BIT ERROR CODE (F141 specifies bit number) Maintenance Alert A bit value of 0 = no error, 1 = error B-78 F35 Multiple Feeder Protection System GE Multilin...
Page 533 UserSt-21 DNA-19 UserSt-22 DNA-20 UserSt-23 F147 DNA-21 UserSt-24 ENUMERATION: LINE LENGTH UNITS DNA-22 UserSt-25 0 = km, 1 = miles DNA-23 UserSt-26 DNA-24 UserSt-27 DNA-25 UserSt-28 DNA-26 UserSt-29 DNA-27 UserSt-30 DNA-28 UserSt-31 GE Multilin F35 Multiple Feeder Protection System B-79...
Page 534 0 to 5 mA GooseIn 15 0 to 10 mA GooseIn 16 0 to 20 mA 4 to 20 mA F186 ENUMERATION: MEASUREMENT MODE 0 = Phase to Ground, 1 = Phase to Phase B-80 F35 Multiple Feeder Protection System GE Multilin...
Page 535 TEXT20: 20-CHARACTER ASCII TEXT MMXU1.MX.PPV.phsBC.cVal.ang.f 10 registers, 16 Bits: 1st Char MSB, 2nd Char LSB MMXU1.MX.PPV.phsCA.cVal.mag.f MMXU1.MX.PPV.phsCA.cVal.ang.f F203 MMXU1.MX.PhV.phsA.cVal.mag.f TEXT16: 16-CHARACTER ASCII TEXT MMXU1.MX.PhV.phsA.cVal.ang.f MMXU1.MX.PhV.phsB.cVal.mag.f MMXU1.MX.PhV.phsB.cVal.ang.f F204 MMXU1.MX.PhV.phsC.cVal.mag.f TEXT80: 80-CHARACTER ASCII TEXT GE Multilin F35 Multiple Feeder Protection System B-81...
Page 536 MMXU2.MX.PhV.phsC.cVal.ang.f MMXU3.MX.VA.phsB.cVal.mag.f MMXU2.MX.A.phsA.cVal.mag.f MMXU3.MX.VA.phsC.cVal.mag.f MMXU2.MX.A.phsA.cVal.ang.f MMXU3.MX.PF.phsA.cVal.mag.f MMXU2.MX.A.phsB.cVal.mag.f MMXU3.MX.PF.phsB.cVal.mag.f MMXU2.MX.A.phsB.cVal.ang.f MMXU3.MX.PF.phsC.cVal.mag.f MMXU2.MX.A.phsC.cVal.mag.f MMXU4.MX.TotW.mag.f MMXU2.MX.A.phsC.cVal.ang.f MMXU4.MX.TotVAr.mag.f MMXU2.MX.A.neut.cVal.mag.f MMXU4.MX.TotVA.mag.f MMXU2.MX.A.neut.cVal.ang.f MMXU4.MX.TotPF.mag.f MMXU2.MX.W.phsA.cVal.mag.f MMXU4.MX.Hz.mag.f MMXU2.MX.W.phsB.cVal.mag.f MMXU4.MX.PPV.phsAB.cVal.mag.f MMXU2.MX.W.phsC.cVal.mag.f MMXU4.MX.PPV.phsAB.cVal.ang.f MMXU2.MX.VAr.phsA.cVal.mag.f MMXU4.MX.PPV.phsBC.cVal.mag.f MMXU2.MX.VAr.phsB.cVal.mag.f MMXU4.MX.PPV.phsBC.cVal.ang.f MMXU2.MX.VAr.phsC.cVal.mag.f MMXU4.MX.PPV.phsCA.cVal.mag.f MMXU2.MX.VA.phsA.cVal.mag.f MMXU4.MX.PPV.phsCA.cVal.ang.f B-82 F35 Multiple Feeder Protection System GE Multilin...
Page 537 MMXU5.MX.PhV.phsA.cVal.mag.f MMXU6.MX.W.phsC.cVal.mag.f MMXU5.MX.PhV.phsA.cVal.ang.f MMXU6.MX.VAr.phsA.cVal.mag.f MMXU5.MX.PhV.phsB.cVal.mag.f MMXU6.MX.VAr.phsB.cVal.mag.f MMXU5.MX.PhV.phsB.cVal.ang.f MMXU6.MX.VAr.phsC.cVal.mag.f MMXU5.MX.PhV.phsC.cVal.mag.f MMXU6.MX.VA.phsA.cVal.mag.f MMXU5.MX.PhV.phsC.cVal.ang.f MMXU6.MX.VA.phsB.cVal.mag.f MMXU5.MX.A.phsA.cVal.mag.f MMXU6.MX.VA.phsC.cVal.mag.f MMXU5.MX.A.phsA.cVal.ang.f MMXU6.MX.PF.phsA.cVal.mag.f MMXU5.MX.A.phsB.cVal.mag.f MMXU6.MX.PF.phsB.cVal.mag.f MMXU5.MX.A.phsB.cVal.ang.f MMXU6.MX.PF.phsC.cVal.mag.f MMXU5.MX.A.phsC.cVal.mag.f GGIO4.MX.AnIn1.mag.f MMXU5.MX.A.phsC.cVal.ang.f GGIO4.MX.AnIn2.mag.f MMXU5.MX.A.neut.cVal.mag.f GGIO4.MX.AnIn3.mag.f MMXU5.MX.A.neut.cVal.ang.f GGIO4.MX.AnIn4.mag.f MMXU5.MX.W.phsA.cVal.mag.f GGIO4.MX.AnIn5.mag.f MMXU5.MX.W.phsB.cVal.mag.f GGIO4.MX.AnIn6.mag.f GE Multilin F35 Multiple Feeder Protection System B-83...
Page 538 GGIO3.MX.AnIn18.mag.f GGIO5.ST.UIntIn6.stVal GGIO3.MX.AnIn19.mag.f GGIO5.ST.UIntIn7.q GGIO3.MX.AnIn20.mag.f GGIO5.ST.UIntIn7.stVal GGIO3.MX.AnIn21.mag.f GGIO5.ST.UIntIn8.q GGIO3.MX.AnIn22.mag.f GGIO5.ST.UIntIn8.stVal GGIO3.MX.AnIn23.mag.f GGIO5.ST.UIntIn9.q GGIO3.MX.AnIn24.mag.f GGIO5.ST.UIntIn9.stVal GGIO3.MX.AnIn25.mag.f GGIO5.ST.UIntIn10.q GGIO3.MX.AnIn26.mag.f GGIO5.ST.UIntIn10.stVal GGIO3.MX.AnIn27.mag.f GGIO5.ST.UIntIn11.q GGIO3.MX.AnIn28.mag.f GGIO5.ST.UIntIn11.stVal GGIO3.MX.AnIn29.mag.f GGIO5.ST.UIntIn12.q GGIO3.MX.AnIn30.mag.f GGIO5.ST.UIntIn12.stVal GGIO3.MX.AnIn31.mag.f GGIO5.ST.UIntIn13.q GGIO3.MX.AnIn32.mag.f GGIO5.ST.UIntIn13.stVal GGIO3.ST.IndPos1.stVal GGIO5.ST.UIntIn14.q B-84 F35 Multiple Feeder Protection System GE Multilin...
Page 539 Calculated VN ENUMERATION: REAL TIME CLOCK DAYLIGHT SAVINGS Measured VX TIME START DAY INSTANCE Value Instance F235 ENUMERATION: WATTMETRIC GROUND FAULT CURRENT First Second Value Current Third Calculated IN Fourth Measured IG Last GE Multilin F35 Multiple Feeder Protection System B-85...
Page 540 ENUMERATION: INCIPIENT CABLE FAULT MODE U1/AC5..7 Value Function U2/AC1..3 Number of Counts U2/AC5..7 Counts per Window U3/AC1..3 U3/AC5..7 U4/AC1..3 F256 U4/AC5..7 ENUMERATION: BRICK ORIGIN/DESTINATION U5/AC1..3 Value Description U5/AC5..7 None U6/AC1..3 U6/AC5..7 U7/AC1..3 U7/AC5..7 U8/AC1..3 B-86 F35 Multiple Feeder Protection System GE Multilin...
Page 541 The number of registers required is determined by the specific [11] CONTACT OUTPUTS VOLTAGE OFF DETECTED (1 to 64) data item. A bit value of 0 = Off and 1 = On. [12] CONTACT OUTPUTS CURRENT DETECTED (1 to 64) GE Multilin F35 Multiple Feeder Protection System B-87...
Page 542 UR_UINT16: FLEXANALOG PARAMETER Corresponds to the Modbus address of the value used when this parameter is selected. Only certain values can be used as FlexAn- alogs (basically all metering quantities used in protection). B-88 F35 Multiple Feeder Protection System GE Multilin...
Page 543 FlexInteger parameter. Only certain values can be used PIOC5.ST.Op.general as FlexIntegers. There is no operation executed even though they PIOC6.ST.Str.general are called FlexIntegers. PIOC6.ST.Op.general PIOC7.ST.Str.general PIOC7.ST.Op.general PIOC8.ST.Str.general PIOC8.ST.Op.general PIOC9.ST.Str.general PIOC9.ST.Op.general PIOC10.ST.Str.general PIOC10.ST.Op.general GE Multilin F35 Multiple Feeder Protection System B-89...
Page 544 PIOC29.ST.Op.general PIOC56.ST.Str.general PIOC30.ST.Str.general PIOC56.ST.Op.general PIOC30.ST.Op.general PIOC57.ST.Str.general PIOC31.ST.Str.general PIOC57.ST.Op.general PIOC31.ST.Op.general PIOC58.ST.Str.general PIOC32.ST.Str.general PIOC58.ST.Op.general PIOC32.ST.Op.general PIOC59.ST.Str.general PIOC33.ST.Str.general PIOC59.ST.Op.general PIOC33.ST.Op.general PIOC60.ST.Str.general PIOC34.ST.Str.general PIOC60.ST.Op.general PIOC34.ST.Op.general PIOC61.ST.Str.general PIOC35.ST.Str.general PIOC61.ST.Op.general PIOC35.ST.Op.general PIOC62.ST.Str.general PIOC36.ST.Str.general PIOC62.ST.Op.general PIOC36.ST.Op.general PIOC63.ST.Str.general PIOC37.ST.Str.general PIOC63.ST.Op.general B-90 F35 Multiple Feeder Protection System GE Multilin...
Page 545 PTOC10.ST.Op.general PTRC3.ST.Tr.general PTOC11.ST.Str.general PTRC3.ST.Op.general PTOC11.ST.Op.general PTRC4.ST.Tr.general PTOC12.ST.Str.general PTRC4.ST.Op.general PTOC12.ST.Op.general PTRC5.ST.Tr.general PTOC13.ST.Str.general PTRC5.ST.Op.general PTOC13.ST.Op.general PTRC6.ST.Tr.general PTOC14.ST.Str.general PTRC6.ST.Op.general PTOC14.ST.Op.general PTUV1.ST.Str.general PTOC15.ST.Str.general PTUV1.ST.Op.general PTOC15.ST.Op.general PTUV2.ST.Str.general PTOC16.ST.Str.general PTUV2.ST.Op.general PTOC16.ST.Op.general PTUV3.ST.Str.general PTOC17.ST.Str.general PTUV3.ST.Op.general PTOC17.ST.Op.general PTUV4.ST.Str.general PTOC18.ST.Str.general PTUV4.ST.Op.general GE Multilin F35 Multiple Feeder Protection System B-91...
Page 546 RBRF10.ST.OpIn.general CSWI3.ST.Loc.stVal RBRF11.ST.OpEx.general CSWI3.ST.Pos.stVal RBRF11.ST.OpIn.general CSWI4.ST.Loc.stVal RBRF12.ST.OpEx.general CSWI4.ST.Pos.stVal RBRF12.ST.OpIn.general CSWI5.ST.Loc.stVal RBRF13.ST.OpEx.general CSWI5.ST.Pos.stVal RBRF13.ST.OpIn.general CSWI6.ST.Loc.stVal RBRF14.ST.OpEx.general CSWI6.ST.Pos.stVal RBRF14.ST.OpIn.general CSWI7.ST.Loc.stVal RBRF15.ST.OpEx.general CSWI7.ST.Pos.stVal RBRF15.ST.OpIn.general CSWI8.ST.Loc.stVal RBRF16.ST.OpEx.general CSWI8.ST.Pos.stVal RBRF16.ST.OpIn.general CSWI9.ST.Loc.stVal RBRF17.ST.OpEx.general CSWI9.ST.Pos.stVal RBRF17.ST.OpIn.general CSWI10.ST.Loc.stVal RBRF18.ST.OpEx.general CSWI10.ST.Pos.stVal B-92 F35 Multiple Feeder Protection System GE Multilin...
Page 547 CSWI29.ST.Pos.stVal GGIO1.ST.Ind51.stVal CSWI30.ST.Loc.stVal GGIO1.ST.Ind52.stVal CSWI30.ST.Pos.stVal GGIO1.ST.Ind53.stVal GGIO1.ST.Ind1.stVal GGIO1.ST.Ind54.stVal GGIO1.ST.Ind2.stVal GGIO1.ST.Ind55.stVal GGIO1.ST.Ind3.stVal GGIO1.ST.Ind56.stVal GGIO1.ST.Ind4.stVal GGIO1.ST.Ind57.stVal GGIO1.ST.Ind5.stVal GGIO1.ST.Ind58.stVal GGIO1.ST.Ind6.stVal GGIO1.ST.Ind59.stVal GGIO1.ST.Ind7.stVal GGIO1.ST.Ind60.stVal GGIO1.ST.Ind8.stVal GGIO1.ST.Ind61.stVal GGIO1.ST.Ind9.stVal GGIO1.ST.Ind62.stVal GGIO1.ST.Ind10.stVal GGIO1.ST.Ind63.stVal GGIO1.ST.Ind11.stVal GGIO1.ST.Ind64.stVal GGIO1.ST.Ind12.stVal GGIO1.ST.Ind65.stVal GGIO1.ST.Ind13.stVal GGIO1.ST.Ind66.stVal GE Multilin F35 Multiple Feeder Protection System B-93...
Page 548 GGIO1.ST.Ind104.stVal MMXU1.MX.VAr.phsA.cVal.mag.f GGIO1.ST.Ind105.stVal MMXU1.MX.VAr.phsB.cVal.mag.f GGIO1.ST.Ind106.stVal MMXU1.MX.VAr.phsC.cVal.mag.f GGIO1.ST.Ind107.stVal MMXU1.MX.VA.phsA.cVal.mag.f GGIO1.ST.Ind108.stVal MMXU1.MX.VA.phsB.cVal.mag.f GGIO1.ST.Ind109.stVal MMXU1.MX.VA.phsC.cVal.mag.f GGIO1.ST.Ind110.stVal MMXU1.MX.PF.phsA.cVal.mag.f GGIO1.ST.Ind111.stVal MMXU1.MX.PF.phsB.cVal.mag.f GGIO1.ST.Ind112.stVal MMXU1.MX.PF.phsC.cVal.mag.f GGIO1.ST.Ind113.stVal MMXU2.MX.TotW.mag.f GGIO1.ST.Ind114.stVal MMXU2.MX.TotVAr.mag.f GGIO1.ST.Ind115.stVal MMXU2.MX.TotVA.mag.f GGIO1.ST.Ind116.stVal MMXU2.MX.TotPF.mag.f GGIO1.ST.Ind117.stVal MMXU2.MX.Hz.mag.f GGIO1.ST.Ind118.stVal MMXU2.MX.PPV.phsAB.cVal.mag.f GGIO1.ST.Ind119.stVal MMXU2.MX.PPV.phsAB.cVal.ang.f B-94 F35 Multiple Feeder Protection System GE Multilin...
Page 549 MMXU3.MX.PPV.phsBC.cVal.mag.f MMXU4.MX.A.neut.cVal.mag.f MMXU3.MX.PPV.phsBC.cVal.ang.f MMXU4.MX.A.neut.cVal.ang.f MMXU3.MX.PPV.phsCA.cVal.mag.f MMXU4.MX.W.phsA.cVal.mag.f MMXU3.MX.PPV.phsCA.cVal.ang.f MMXU4.MX.W.phsB.cVal.mag.f MMXU3.MX.PhV.phsA.cVal.mag.f MMXU4.MX.W.phsC.cVal.mag.f MMXU3.MX.PhV.phsA.cVal.ang.f MMXU4.MX.VAr.phsA.cVal.mag.f MMXU3.MX.PhV.phsB.cVal.mag.f MMXU4.MX.VAr.phsB.cVal.mag.f MMXU3.MX.PhV.phsB.cVal.ang.f MMXU4.MX.VAr.phsC.cVal.mag.f MMXU3.MX.PhV.phsC.cVal.mag.f MMXU4.MX.VA.phsA.cVal.mag.f MMXU3.MX.PhV.phsC.cVal.ang.f MMXU4.MX.VA.phsB.cVal.mag.f MMXU3.MX.A.phsA.cVal.mag.f MMXU4.MX.VA.phsC.cVal.mag.f MMXU3.MX.A.phsA.cVal.ang.f MMXU4.MX.PF.phsA.cVal.mag.f MMXU3.MX.A.phsB.cVal.mag.f MMXU4.MX.PF.phsB.cVal.mag.f MMXU3.MX.A.phsB.cVal.ang.f MMXU4.MX.PF.phsC.cVal.mag.f MMXU3.MX.A.phsC.cVal.mag.f MMXU5.MX.TotW.mag.f MMXU3.MX.A.phsC.cVal.ang.f MMXU5.MX.TotVAr.mag.f GE Multilin F35 Multiple Feeder Protection System B-95...
Page 550 MMXU6.MX.TotVA.mag.f GGIO4.MX.AnIn19.mag.f MMXU6.MX.TotPF.mag.f GGIO4.MX.AnIn20.mag.f MMXU6.MX.Hz.mag.f GGIO4.MX.AnIn21.mag.f MMXU6.MX.PPV.phsAB.cVal.mag.f GGIO4.MX.AnIn22.mag.f MMXU6.MX.PPV.phsAB.cVal.ang.f GGIO4.MX.AnIn23.mag.f MMXU6.MX.PPV.phsBC.cVal.mag.f GGIO4.MX.AnIn24.mag.f MMXU6.MX.PPV.phsBC.cVal.ang.f GGIO4.MX.AnIn25.mag.f MMXU6.MX.PPV.phsCA.cVal.mag.f GGIO4.MX.AnIn26.mag.f MMXU6.MX.PPV.phsCA.cVal.ang.f GGIO4.MX.AnIn27.mag.f MMXU6.MX.PhV.phsA.cVal.mag.f GGIO4.MX.AnIn28.mag.f MMXU6.MX.PhV.phsA.cVal.ang.f GGIO4.MX.AnIn29.mag.f MMXU6.MX.PhV.phsB.cVal.mag.f GGIO4.MX.AnIn30.mag.f MMXU6.MX.PhV.phsB.cVal.ang.f GGIO4.MX.AnIn31.mag.f MMXU6.MX.PhV.phsC.cVal.mag.f GGIO4.MX.AnIn32.mag.f MMXU6.MX.PhV.phsC.cVal.ang.f XSWI1.ST.Loc.stVal MMXU6.MX.A.phsA.cVal.mag.f XSWI1.ST.Pos.stVal B-96 F35 Multiple Feeder Protection System GE Multilin...
Page 551 GGIO1.ST.Ind14.q XSWI20.ST.Pos.stVal GGIO1.ST.Ind14.stVal XSWI21.ST.Loc.stVal GGIO1.ST.Ind15.q XSWI21.ST.Pos.stVal GGIO1.ST.Ind15.stVal XSWI22.ST.Loc.stVal GGIO1.ST.Ind16.q XSWI22.ST.Pos.stVal GGIO1.ST.Ind16.stVal XSWI23.ST.Loc.stVal GGIO1.ST.Ind17.q XSWI23.ST.Pos.stVal GGIO1.ST.Ind17.stVal XSWI24.ST.Loc.stVal GGIO1.ST.Ind18.q XSWI24.ST.Pos.stVal GGIO1.ST.Ind18.stVal XCBR1.ST.Loc.stVal GGIO1.ST.Ind19.q XCBR1.ST.Pos.stVal GGIO1.ST.Ind19.stVal XCBR2.ST.Loc.stVal GGIO1.ST.Ind20.q XCBR2.ST.Pos.stVal GGIO1.ST.Ind20.stVal XCBR3.ST.Loc.stVal GGIO1.ST.Ind21.q XCBR3.ST.Pos.stVal GGIO1.ST.Ind21.stVal XCBR4.ST.Loc.stVal GE Multilin F35 Multiple Feeder Protection System B-97...
Page 552 GGIO1.ST.Ind40.stVal GGIO1.ST.Ind67.q GGIO1.ST.Ind41.q GGIO1.ST.Ind67.stVal GGIO1.ST.Ind41.stVal GGIO1.ST.Ind68.q GGIO1.ST.Ind42.q GGIO1.ST.Ind68.stVal GGIO1.ST.Ind42.stVal GGIO1.ST.Ind69.q GGIO1.ST.Ind43.q GGIO1.ST.Ind69.stVal GGIO1.ST.Ind43.stVal GGIO1.ST.Ind70.q GGIO1.ST.Ind44.q GGIO1.ST.Ind70.stVal GGIO1.ST.Ind44.stVal GGIO1.ST.Ind71.q GGIO1.ST.Ind45.q GGIO1.ST.Ind71.stVal GGIO1.ST.Ind45.stVal GGIO1.ST.Ind72.q GGIO1.ST.Ind46.q GGIO1.ST.Ind72.stVal GGIO1.ST.Ind46.stVal GGIO1.ST.Ind73.q GGIO1.ST.Ind47.q GGIO1.ST.Ind73.stVal GGIO1.ST.Ind47.stVal GGIO1.ST.Ind74.q GGIO1.ST.Ind48.q GGIO1.ST.Ind74.stVal B-98 F35 Multiple Feeder Protection System GE Multilin...
Page 553 GGIO1.ST.Ind93.stVal GGIO1.ST.Ind120.q GGIO1.ST.Ind94.q GGIO1.ST.Ind120.stVal GGIO1.ST.Ind94.stVal GGIO1.ST.Ind121.q GGIO1.ST.Ind95.q GGIO1.ST.Ind121.stVal GGIO1.ST.Ind95.stVal GGIO1.ST.Ind122.q GGIO1.ST.Ind96.q GGIO1.ST.Ind122.stVal GGIO1.ST.Ind96.stVal GGIO1.ST.Ind123.q GGIO1.ST.Ind97.q GGIO1.ST.Ind123.stVal GGIO1.ST.Ind97.stVal GGIO1.ST.Ind124.q GGIO1.ST.Ind98.q GGIO1.ST.Ind124.stVal GGIO1.ST.Ind98.stVal GGIO1.ST.Ind125.q GGIO1.ST.Ind99.q GGIO1.ST.Ind125.stVal GGIO1.ST.Ind99.stVal GGIO1.ST.Ind126.q GGIO1.ST.Ind100.q GGIO1.ST.Ind126.stVal GGIO1.ST.Ind100.stVal GGIO1.ST.Ind127.q GGIO1.ST.Ind101.q GGIO1.ST.Ind127.stVal GE Multilin F35 Multiple Feeder Protection System B-99...
Page 554 MMXU1.MX.PF.phsB.cVal.mag.f MMXU3.MX.PhV.phsB.cVal.ang.f MMXU1.MX.PF.phsC.cVal.mag.f MMXU3.MX.PhV.phsC.cVal.mag.f MMXU2.MX.TotW.mag.f MMXU3.MX.PhV.phsC.cVal.ang.f MMXU2.MX.TotVAr.mag.f MMXU3.MX.A.phsA.cVal.mag.f MMXU2.MX.TotVA.mag.f MMXU3.MX.A.phsA.cVal.ang.f MMXU2.MX.TotPF.mag.f MMXU3.MX.A.phsB.cVal.mag.f MMXU2.MX.Hz.mag.f MMXU3.MX.A.phsB.cVal.ang.f MMXU2.MX.PPV.phsAB.cVal.mag.f MMXU3.MX.A.phsC.cVal.mag.f MMXU2.MX.PPV.phsAB.cVal.ang.f MMXU3.MX.A.phsC.cVal.ang.f MMXU2.MX.PPV.phsBC.cVal.mag.f MMXU3.MX.A.neut.cVal.mag.f MMXU2.MX.PPV.phsBC.cVal.ang.f MMXU3.MX.A.neut.cVal.ang.f MMXU2.MX.PPV.phsCA.cVal.mag.f MMXU3.MX.W.phsA.cVal.mag.f MMXU2.MX.PPV.phsCA.cVal.ang.f MMXU3.MX.W.phsB.cVal.mag.f MMXU2.MX.PhV.phsA.cVal.mag.f MMXU3.MX.W.phsC.cVal.mag.f MMXU2.MX.PhV.phsA.cVal.ang.f MMXU3.MX.VAr.phsA.cVal.mag.f MMXU2.MX.PhV.phsB.cVal.mag.f MMXU3.MX.VAr.phsB.cVal.mag.f B-100 F35 Multiple Feeder Protection System GE Multilin...
Page 555 MMXU4.MX.VAr.phsC.cVal.mag.f MMXU6.MX.PPV.phsCA.cVal.mag.f MMXU4.MX.VA.phsA.cVal.mag.f MMXU6.MX.PPV.phsCA.cVal.ang.f MMXU4.MX.VA.phsB.cVal.mag.f MMXU6.MX.PhV.phsA.cVal.mag.f MMXU4.MX.VA.phsC.cVal.mag.f MMXU6.MX.PhV.phsA.cVal.ang.f MMXU4.MX.PF.phsA.cVal.mag.f MMXU6.MX.PhV.phsB.cVal.mag.f MMXU4.MX.PF.phsB.cVal.mag.f MMXU6.MX.PhV.phsB.cVal.ang.f MMXU4.MX.PF.phsC.cVal.mag.f MMXU6.MX.PhV.phsC.cVal.mag.f MMXU5.MX.TotW.mag.f MMXU6.MX.PhV.phsC.cVal.ang.f MMXU5.MX.TotVAr.mag.f MMXU6.MX.A.phsA.cVal.mag.f MMXU5.MX.TotVA.mag.f MMXU6.MX.A.phsA.cVal.ang.f MMXU5.MX.TotPF.mag.f MMXU6.MX.A.phsB.cVal.mag.f MMXU5.MX.Hz.mag.f MMXU6.MX.A.phsB.cVal.ang.f MMXU5.MX.PPV.phsAB.cVal.mag.f MMXU6.MX.A.phsC.cVal.mag.f MMXU5.MX.PPV.phsAB.cVal.ang.f MMXU6.MX.A.phsC.cVal.ang.f MMXU5.MX.PPV.phsBC.cVal.mag.f MMXU6.MX.A.neut.cVal.mag.f MMXU5.MX.PPV.phsBC.cVal.ang.f MMXU6.MX.A.neut.cVal.ang.f GE Multilin F35 Multiple Feeder Protection System B-101...
Page 556 GGIO4.MX.AnIn26.mag.f PDIS4.ST.Str.general GGIO4.MX.AnIn27.mag.f PDIS4.ST.Op.general GGIO4.MX.AnIn28.mag.f PDIS5.ST.Str.general GGIO4.MX.AnIn29.mag.f PDIS5.ST.Op.general GGIO4.MX.AnIn30.mag.f PDIS6.ST.Str.general GGIO4.MX.AnIn31.mag.f PDIS6.ST.Op.general GGIO4.MX.AnIn32.mag.f PDIS7.ST.Str.general GGIO5.ST.UIntIn1.q PDIS7.ST.Op.general GGIO5.ST.UIntIn1.stVal PDIS8.ST.Str.general GGIO5.ST.UIntIn2.q PDIS8.ST.Op.general GGIO5.ST.UIntIn2.stVal PDIS9.ST.Str.general GGIO5.ST.UIntIn3.q PDIS9.ST.Op.general GGIO5.ST.UIntIn3.stVal PDIS10.ST.Str.general GGIO5.ST.UIntIn4.q PDIS10.ST.Op.general GGIO5.ST.UIntIn4.stVal PIOC1.ST.Str.general GGIO5.ST.UIntIn5.q PIOC1.ST.Op.general B-102 F35 Multiple Feeder Protection System GE Multilin...
Page 557 PIOC20.ST.Op.general PIOC47.ST.Str.general PIOC21.ST.Str.general PIOC47.ST.Op.general PIOC21.ST.Op.general PIOC48.ST.Str.general PIOC22.ST.Str.general PIOC48.ST.Op.general PIOC22.ST.Op.general PIOC49.ST.Str.general PIOC23.ST.Str.general PIOC49.ST.Op.general PIOC23.ST.Op.general PIOC50.ST.Str.general PIOC24.ST.Str.general PIOC50.ST.Op.general PIOC24.ST.Op.general PIOC51.ST.Str.general PIOC25.ST.Str.general PIOC51.ST.Op.general PIOC25.ST.Op.general PIOC52.ST.Str.general PIOC26.ST.Str.general PIOC52.ST.Op.general PIOC26.ST.Op.general PIOC53.ST.Str.general PIOC27.ST.Str.general PIOC53.ST.Op.general PIOC27.ST.Op.general PIOC54.ST.Str.general PIOC28.ST.Str.general PIOC54.ST.Op.general GE Multilin F35 Multiple Feeder Protection System B-103...
Page 558 PTOC1.ST.Op.general PTOV4.ST.Str.general PTOC2.ST.Str.general PTOV4.ST.Op.general PTOC2.ST.Op.general PTOV5.ST.Str.general PTOC3.ST.Str.general PTOV5.ST.Op.general PTOC3.ST.Op.general PTOV6.ST.Str.general PTOC4.ST.Str.general PTOV6.ST.Op.general PTOC4.ST.Op.general PTOV7.ST.Str.general PTOC5.ST.Str.general PTOV7.ST.Op.general PTOC5.ST.Op.general PTOV8.ST.Str.general PTOC6.ST.Str.general PTOV8.ST.Op.general PTOC6.ST.Op.general PTOV9.ST.Str.general PTOC7.ST.Str.general PTOV9.ST.Op.general PTOC7.ST.Op.general PTOV10.ST.Str.general PTOC8.ST.Str.general PTOV10.ST.Op.general PTOC8.ST.Op.general PTRC1.ST.Tr.general PTOC9.ST.Str.general PTRC1.ST.Op.general B-104 F35 Multiple Feeder Protection System GE Multilin...
Page 559 RBRF1.ST.OpIn.general RPSB1.ST.Op.general RBRF2.ST.OpEx.general RPSB1.ST.BlkZn.stVal RBRF2.ST.OpIn.general RREC1.ST.Op.general RBRF3.ST.OpEx.general RREC1.ST.AutoRecSt.stVal RBRF3.ST.OpIn.general RREC2.ST.Op.general RBRF4.ST.OpEx.general RREC2.ST.AutoRecSt.stVal RBRF4.ST.OpIn.general RREC3.ST.Op.general RBRF5.ST.OpEx.general RREC3.ST.AutoRecSt.stVal RBRF5.ST.OpIn.general RREC4.ST.Op.general RBRF6.ST.OpEx.general RREC4.ST.AutoRecSt.stVal RBRF6.ST.OpIn.general RREC5.ST.Op.general RBRF7.ST.OpEx.general RREC5.ST.AutoRecSt.stVal RBRF7.ST.OpIn.general RREC6.ST.Op.general RBRF8.ST.OpEx.general RREC6.ST.AutoRecSt.stVal RBRF8.ST.OpIn.general CSWI1.ST.Loc.stVal RBRF9.ST.OpEx.general CSWI1.ST.Pos.stVal GE Multilin F35 Multiple Feeder Protection System B-105...
Page 560 CSWI20.ST.Pos.stVal XSWI17.ST.Loc.stVal CSWI21.ST.Loc.stVal XSWI17.ST.Pos.stVal CSWI21.ST.Pos.stVal XSWI18.ST.Loc.stVal CSWI22.ST.Loc.stVal XSWI18.ST.Pos.stVal CSWI22.ST.Pos.stVal XSWI19.ST.Loc.stVal CSWI23.ST.Loc.stVal XSWI19.ST.Pos.stVal CSWI23.ST.Pos.stVal XSWI20.ST.Loc.stVal CSWI24.ST.Loc.stVal XSWI20.ST.Pos.stVal CSWI24.ST.Pos.stVal XSWI21.ST.Loc.stVal CSWI25.ST.Loc.stVal XSWI21.ST.Pos.stVal CSWI25.ST.Pos.stVal XSWI22.ST.Loc.stVal CSWI26.ST.Loc.stVal XSWI22.ST.Pos.stVal CSWI26.ST.Pos.stVal XSWI23.ST.Loc.stVal CSWI27.ST.Loc.stVal XSWI23.ST.Pos.stVal CSWI27.ST.Pos.stVal XSWI24.ST.Loc.stVal CSWI28.ST.Loc.stVal XSWI24.ST.Pos.stVal B-106 F35 Multiple Feeder Protection System GE Multilin...
Page 561 Network Port 3 Enumeration Role None F627 ENUMERATION: REDUNDANCY MODE Administrator Supervisor Enumeration Item Engineer None Operator Failover Observer F628 ENUMERATION: SECURITY BYPASS ACCESS Disables security on local access, remote access, or both. GE Multilin F35 Multiple Feeder Protection System B-107...
Page 562 ENUMERATION: SCADA PROTOCOL ↓ ↓ 0 = DNP 3.0, 1 = IEC 60870-5-104, 2 = IEC 60870-5-103 Virtual Input 64 F630 ENUMERATION: IEC 103 ASDU TYPE 0 = 3, 1 = 9 B-108 F35 Multiple Feeder Protection System GE Multilin...
Page 563: Iec 61850
System Specification Description (SSD) file. The entire substation con- figuration is stored in a Substation Configuration Description (SCD) file. The SCD file is the combination of the individ- ual ICD files and the SSD file. GE Multilin F35 Multiple Feeder Protection System...
Page 564: File Transfer By Iec 61850
With the Copy option active, select a file to transfer and click the Go button. The file is copied and displays in the Local list on the left side of the window. Repeat the process to transfer any other files. Figure 0–1: FILE TRANSFER BY IEC 61850 F35 Multiple Feeder Protection System GE Multilin...
Page 565: Server Data Organization
GGIO4 (4 to 32) and the choice of the FlexAnalog values that determine the value of the GGIO4 analog inputs. Clients can utilize polling or the IEC 61850 unbuffered reporting feature available from GGIO4 in order to obtain the analog values provided by GGIO4. GE Multilin F35 Multiple Feeder Protection System...
Page 566: Mmxu: Analog Measured Values
The following list describes the protection elements for all UR-series relays. The F35 relay will contain a subset of protec- tion elements from this list. • PDIF: bus differential, transformer instantaneous differential, transformer percent differential, current differential F35 Multiple Feeder Protection System GE Multilin...
Page 567 IEC 61850 control model. • XCBR1.CO.BlkCls: This is where IEC 61850 clients can issue block close commands to the breaker. Direct control with normal security is the only supported IEC 61850 control model. GE Multilin F35 Multiple Feeder Protection System...
Page 568: Server Features And Configuration
F35. This attribute is programmed through the setting and its LOCATION default value is “Location”. This value should be changed to describe the actual physical location of the F35. F35 Multiple Feeder Protection System GE Multilin...
Page 569: Logical Node Name Prefixes
The exact structure and values of the supported IEC 61850 logical nodes can be seen by connecting to a F35 relay with an MMS browser, such as the “MMS Object Explorer and AXS4-MMS” DDE/OPC server from Sisco Inc. GE Multilin F35 Multiple Feeder Protection System...
Page 570: Generic Substation Event Services: Gsse And Goose
The configurable GOOSE feature allows for the configuration of the datasets to be transmitted or received from the F35. The F35 supports the configuration of eight (8) transmission and reception datasets, allowing for the optimization of data transfer between devices. F35 Multiple Feeder Protection System GE Multilin...
Page 571 “GGIO1.ST.Ind1.stVal” to indicate the status value for GGIO1 status indication 1. ITEM 2 The transmission dataset now contains a set of quality flags and a single point status Boolean value. The reception dataset on the receiving device must exactly match this structure. GE Multilin F35 Multiple Feeder Protection System...
Page 572 The value of remote input 1 (Boolean on or off) in the receiving device will be determined by the GGIO1.ST.Ind1.stVal value in the sending device. The above settings will be automatically populated by the EnerVista UR Setup software when a com- plete SCD file is created by third party substation configurator software. C-10 F35 Multiple Feeder Protection System GE Multilin...
Page 573: Ethernet Mac Address For Gsse/Goose
DatSet - the name of the associated dataset, and GoCBRef - the reference (name) of the associated GOOSE control block. These strings are automatically populated and interpreted by the F35; no settings are required. GE Multilin F35 Multiple Feeder Protection System...
Page 574: Iec 61850 Implementation Via Enervista Ur Setup
An ICD file is generated for the F35 by the EnerVista UR Setup software that describe the capabilities of the IED. The ICD file is then imported into a system configurator along with other ICD files for other IEDs (from GE or other ven- dors) for system configuration.
Page 575: Configuring Iec 61850 Settings
It can also import a system SCL file (SCD) to set communication configuration parame- ters (that is, required addresses, reception GOOSE datasets, IDs of incoming GOOSE datasets, etc.) for the IED. The IED configurator functionality is implemented in the GE Multilin EnerVista UR Setup software. C.5.2 CONFIGURING IEC 61850 SETTINGS Before creating an ICD file, the user can customize the IEC 61850 related settings for the IED.
Page 576: About Icd Files
Although configurable transmission GOOSE can also be created and altered by some third-party system con- figurators, we recommend configuring transmission GOOSE for GE Multilin IEDs before creating the ICD, and strictly within EnerVista UR Setup software or the front panel display (access through the Settings > Product Setup > Com- munications >...
Page 577 Furthermore, it defines the capabilities of an IED in terms of communication services offered and, together with its LNType, instantiated data (DO) and its default or configuration values. There should be only one IED section in an ICD since it only describes one IED. GE Multilin F35 Multiple Feeder Protection System C-15...
Page 578 Other ReportControl elements DOI (name) SDI (name) DAI (name) Text Other DOI elements SDI (name) DAI (name) Text Other LN elements Other LDevice elements 842797A1.CDR Figure C–4: ICD FILE STRUCTURE, IED NODE C-16 F35 Multiple Feeder Protection System GE Multilin...
Page 579 BDA (name, bType, type) Other BDA elements Other BDA elements Other DAType elements Other DAType elements EnumType (id) Text EnumVal (ord) Other EnumVal elements Other EnumType elements 842798A1.CDR Figure C–5: ICD FILE STRUCTURE, DATATYPETEMPLATES NODE GE Multilin F35 Multiple Feeder Protection System C-17...
Page 580: Creating An Icd File With Enervista Ur Setup
C.5.5 ABOUT SCD FILES System configuration is performed in the system configurator. While many vendors (including GE Multilin) are working their own system configuration tools, there are some system configurators available in the market (for example, Siemens DIGSI version 4.6 or above and ASE Visual SCL Beta 0.12).
Page 581 Like ICD files, the Header node identifies the SCD file and its version, and specifies options for the mapping of names to signals. The Substation node describes the substation parameters: Substation PowerSystemResource EquipmentContainer Power Transformer GeneralEquipment EquipmentContainer VoltageLevel Voltage PowerSystemResource Function SubFunction GeneralEquipment 842792A1.CDR Figure C–7: SCD FILE STRUCTURE, SUBSTATION NODE GE Multilin F35 Multiple Feeder Protection System C-19...
Page 582 IdInst is the instance identification of the logical device within the IED on which the control block is located, and cbName is the name of the control block. C-20 F35 Multiple Feeder Protection System GE Multilin...
Page 583: Importing An Scd File With Enervista Ur Setup
The following procedure describes how to update the F35 with the new configuration from an SCD file with the EnerVista UR Setup software. Right-click anywhere in the files panel and select the Import Contents From SCD File item. Select the saved SCD file and click Open. GE Multilin F35 Multiple Feeder Protection System C-21...
Page 584 The software will open the SCD file and then prompt the user to save a UR-series settings file. Select a location and name for the URS (UR-series relay settings) file. If there is more than one GE Multilin IED defined in the SCD file, the software prompt the user to save a UR-series set- tings file for each IED.
Page 585: Acsi Conformance
REPORTING Buffered report control M7-1 sequence-number M7-2 report-time-stamp M7-3 reason-for-inclusion M7-4 data-set-name M7-5 data-reference M7-6 buffer-overflow M7-7 entryID M7-8 BufTm M7-9 IntgPd M7-10 Unbuffered report control M8-1 sequence-number M8-2 report-time-stamp M8-3 reason-for-inclusion GE Multilin F35 Multiple Feeder Protection System C-23...
Page 586: Acsi Services Conformance Statement
UR FAMILY PUBLISHER SERVER (CLAUSE 7) ServerDirectory APPLICATION ASSOCIATION (CLAUSE 8) Associate Abort Release LOGICAL DEVICE (CLAUSE 9) LogicalDeviceDirectory LOGICAL NODE (CLAUSE 10) LogicalNodeDirectory GetAllDataValues DATA (CLAUSE 11) GetDataValues SetDataValues GetDataDirectory GetDataDefinition C-24 F35 Multiple Feeder Protection System GE Multilin...
Page 587 LOG CONTROL BLOCK GetLCBValues SetLCBValues QueryLogByTime QueryLogByEntry GetLogStatusValues GENERIC SUBSTATION EVENT MODEL (GSE) (CLAUSE 18, ANNEX C) GOOSE-CONTROL-BLOCK (CLAUSE 18) SendGOOSEMessage GetReference GetGOOSEElementNumber GetGoCBValues SetGoCBValues GSSE-CONTROL-BLOCK (ANNEX C) SendGSSEMessage GetReference GetGSSEElementNumber GetGsCBValues GE Multilin F35 Multiple Feeder Protection System C-25...
Page 588 (SendGOOSEMessage or SendGSSEMessage) NOTE c9: shall declare support if TP association is available c10: shall declare support for at least one (SendMSVMessage or SendUSVMessage) C-26 F35 Multiple Feeder Protection System GE Multilin...
Page 589: Logical Nodes
GGIO: Generic process I/O GLOG: Generic log GSAL: Generic security application I: LOGICAL NODES FOR INTERFACING AND ARCHIVING IARC: Archiving IHMI: Human machine interface ISAF: Safety alarm function ITCI: Telecontrol interface ITMI: Telemonitoring interface GE Multilin F35 Multiple Feeder Protection System C-27...
Page 590 PSCH: Protection scheme PSDE: Sensitive directional earth fault PTEF: Transient earth fault PTOC: Time overcurrent PTOF: Overfrequency PTOV: Overvoltage PTRC: Protection trip conditioning PTTR: Thermal overload PTUC: Undercurrent PTUF: Underfrequency PTUV: Undervoltage C-28 F35 Multiple Feeder Protection System GE Multilin...
Page 591 T: LOGICAL NODES FOR INSTRUMENT TRANSFORMERS TANG: Angle TAXD: Axial displacement TCTR: Current transformer TDST: Distance TFLW: Liquid flow TFRQ: Frequency TGSN: Generic sensor THUM: Humidity TLVL: Media level TMGF: Magnetic field TMVM: Movement sensor GE Multilin F35 Multiple Feeder Protection System C-29...
Page 592 ZLIN: Power overhead line ZMOT: Motor ZREA: Reactor ZRES: Resistor ZRRC: Rotating reactive component ZSAR: Surge arrestor ZSCR: Semi-conductor controlled rectifier ZSMC: Synchronous machine ZTCF: Thyristor controlled frequency converter ZTRC: Thyristor controlled reactive component C-30 F35 Multiple Feeder Protection System GE Multilin...
Page 593: Iec 60870-5-103
Xt = (8191/Xmax) * X - 4096 a = 2 * 4096/Xmax b = -4096 To calculate Xmax, one needs to know the rated value for the specific type of measurand. Xmax = 2.4 * Xrated GE Multilin F35 Multiple Feeder Protection System...
Page 594: Interoperability Document
 <5> Power on Status indications in monitor direction INF Semantics  <16> Auto-recloser active  <17> Teleprotection active  <18> Protection active  <19> LED reset  <20> Monitor direction blocked  <21> Test mode F35 Multiple Feeder Protection System GE Multilin...
Page 595  <68> General trip  <69> Trip L  <70> Trip L  <71> Trip L  <72> Trip I>> (back-up operation)  <73> Fault location X in ohms  <74> Fault forward/line GE Multilin F35 Multiple Feeder Protection System...
Page 596  <243> Read directory of a single entry  <244> Read value or attribute of a single entry  <245> End of general interrogation of generic data  <249> Write entry with confirmation  <250> Write entry with execution F35 Multiple Feeder Protection System GE Multilin...
Page 597  Generic services  Private data Miscellaneous MEASURAND MAX MVAL = TIMES RATED VALUE Current L   Current L   Current L   Voltage L   Voltage L   GE Multilin F35 Multiple Feeder Protection System...
Page 598 D.1 IEC 60870-5-103 APPENDIX D MEASURAND MAX MVAL = TIMES RATED VALUE Voltage L   Active power P   Reactive power Q   Frequency f   Voltage L   F35 Multiple Feeder Protection System GE Multilin...
Page 599: Iec 60870-5-104 Protocol
Balanced Transmission Not Present (Balanced Transmission Only)   Unbalanced Transmission One Octet  Two Octets  Structured  Unstructured Frame Length (maximum length, number of octets): Not selectable in companion IEC 60870-5-104 standard GE Multilin F35 Multiple Feeder Protection System...
Page 600  <18> := Packed start events of protection equipment with time tag M_EP_TB_1  <19> := Packed output circuit information of protection equipment with time tag M_EP_TC_1  <20> := Packed single-point information with status change detection M_SP_NA_1 F35 Multiple Feeder Protection System GE Multilin...
Page 601  <103> := Clock synchronization command (see Clause 7.6 in standard) C_CS_NA_1  <104> := Test command C_TS_NA_1  <105> := Reset process command C_RP_NA_1  <106> := Delay acquisition command C_CD_NA_1  <107> := Test command with time tag CP56Time2a C_TS_TA_1 GE Multilin F35 Multiple Feeder Protection System...
Page 602 •Blank boxes indicate functions or ASDU not used. •‘X’ if only used in the standard direction TYPE IDENTIFICATION CAUSE OF TRANSMISSION MNEMONIC <1> M_SP_NA_1 <2> M_SP_TA_1 <3> M_DP_NA_1 <4> M_DP_TA_1 <5> M_ST_NA_1 <6> M_ST_TA_1 <7> M_BO_NA_1 <8> M_BO_TA_1 <9> M_ME_NA_1 F35 Multiple Feeder Protection System GE Multilin...
Page 603 M_ME_TD_1 <35> M_ME_TE_1 <36> M_ME_TF_1 <37> M_IT_TB_1 <38> M_EP_TD_1 <39> M_EP_TE_1 <40> M_EP_TF_1 <45> C_SC_NA_1 <46> C_DC_NA_1 <47> C_RC_NA_1 <48> C_SE_NA_1 <49> C_SE_NB_1 <50> C_SE_NC_1 <51> C_BO_NA_1 <58> C_SC_TA_1 <59> C_DC_TA_1 <60> C_RC_TA_1 GE Multilin F35 Multiple Feeder Protection System...
Page 604 F_FR_NA_1 <121> F_SR_NA_1 <122> F_SC_NA_1 <123> F_LS_NA_1 <124> F_AF_NA_1 <125> F_SG_NA_1 <126> F_DR_TA_1*) BASIC APPLICATION FUNCTIONS Station Initialization:  Remote initialization Cyclic Data Transmission:  Cyclic data transmission Read Procedure:  Read procedure F35 Multiple Feeder Protection System GE Multilin...
Page 605  Mode B: Local freeze with counter interrogation  Mode C: Freeze and transmit by counter-interrogation commands  Mode D: Freeze by counter-interrogation command, frozen values reported simultaneously  Counter read  Counter freeze without reset GE Multilin F35 Multiple Feeder Protection System...
Page 606 Maximum number of outstanding I-format APDUs k and latest acknowledge APDUs (w): PARAMETER DEFAULT REMARKS SELECTED VALUE VALUE 12 APDUs Maximum difference receive sequence number to send state variable 12 APDUs 8 APDUs 8 APDUs Latest acknowledge after receiving I-format APDUs F35 Multiple Feeder Protection System GE Multilin...
Page 607: Points List
E.1.2 POINTS LIST The IEC 60870-5-104 data points are configured through the    SETTINGS PRODUCT SETUP COMMUNICATIONS DNP / menu. See the Communications section of chapter 5 for details. IEC104 POINT LISTS GE Multilin F35 Multiple Feeder Protection System...
Page 608 E.1 IEC 60870-5-104 PROTOCOL APPENDIX E E-10 F35 Multiple Feeder Protection System GE Multilin...
Page 609: Device Profile Document
Maximum Data Link Re-tries: Maximum Application Layer Re-tries:  None  None  Fixed at 3  Configurable  Configurable Requires Data Link Layer Confirmation:  Never  Always  Sometimes  Configurable GE Multilin F35 Multiple Feeder Protection System...
Page 610 FlexLogic. The On/Off times and Count value are ignored. “Pulse Off” and “Latch Off” operations put the appropriate Virtual Input into the “Off” state. “Trip” and “Close” operations both put the appropriate Virtual Input into the “On” state. F35 Multiple Feeder Protection System GE Multilin...
Page 611  16 Bits (Counter 8) Default Variation: 1  32 Bits (Counters 0 to 7, 9)  Point-by-point list attached  Other Value: _____  Point-by-point list attached Sends Multi-Fragment Responses:  Yes  No GE Multilin F35 Multiple Feeder Protection System...
Page 612: F.1.2 Implementation Table
Otherwise, static object requests sent with qualifiers 00, 01, 06, 07, or 08, will be responded with qualifiers 00 or 01 (for change- event objects, qualifiers 17 or 28 are always responded.) Note 3: Cold restarts are implemented the same as warm restarts – the F35 is not restarted, but the DNP process is restarted. F35 Multiple Feeder Protection System GE Multilin...
Page 613 Otherwise, static object requests sent with qualifiers 00, 01, 06, 07, or 08, will be responded with qualifiers 00 or 01 (for change- event objects, qualifiers 17 or 28 are always responded.) Note 3: Cold restarts are implemented the same as warm restarts – the F35 is not restarted, but the DNP process is restarted. GE Multilin F35 Multiple Feeder Protection System...
Page 614 Otherwise, static object requests sent with qualifiers 00, 01, 06, 07, or 08, will be responded with qualifiers 00 or 01 (for change- event objects, qualifiers 17 or 28 are always responded.) Note 3: Cold restarts are implemented the same as warm restarts – the F35 is not restarted, but the DNP process is restarted. F35 Multiple Feeder Protection System GE Multilin...
Page 615 Otherwise, static object requests sent with qualifiers 00, 01, 06, 07, or 08, will be responded with qualifiers 00 or 01 (for change- event objects, qualifiers 17 or 28 are always responded.) Note 3: Cold restarts are implemented the same as warm restarts – the F35 is not restarted, but the DNP process is restarted. GE Multilin F35 Multiple Feeder Protection System...
Page 616: Dnp Point Lists
Change Event Variation reported when variation 0 requested: 2 (Binary Input Change with Time), Configurable Change Event Scan Rate: 8 times per power system cycle Change Event Buffer Size: 500 Default Class for All Points: 1 F35 Multiple Feeder Protection System GE Multilin...
Page 617: Binary And Control Relay Output
Virtual Input 59 Virtual Input 28 Virtual Input 60 Virtual Input 29 Virtual Input 61 Virtual Input 30 Virtual Input 62 Virtual Input 31 Virtual Input 63 Virtual Input 32 Virtual Input 64 GE Multilin F35 Multiple Feeder Protection System...
Page 618: Counters
A counter freeze command has no meaning for counters 8 and 9. F35 Digital Counter values are represented as 32-bit inte- gers. The DNP 3.0 protocol defines counters to be unsigned integers. Care should be taken when interpreting negative counter values. F-10 F35 Multiple Feeder Protection System GE Multilin...
Page 619: Analog Inputs
Change Event Variation reported when variation 0 requested: 1 (Analog Change Event without Time) Change Event Scan Rate: defaults to 500 ms Change Event Buffer Size: 256 Default Class for all Points: 2 GE Multilin F35 Multiple Feeder Protection System F-11...
Page 620 F.2 DNP POINT LISTS APPENDIX F F-12 F35 Multiple Feeder Protection System GE Multilin...
Page 621: Radius Server Configuration
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...
Page 622 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. Verify operation. Log in to the UR software as follows. In the login window, select Server as the Authentication Type, enter the user name entered (for example user name Tester and password "testpw").
Page 623: Change Notes
12 March 2008 URX-260 1601-0106-T1 5.6x 27 June 2008 08-0390 1601-0109-U1 5.7x 29 May 2009 09-0938 1601-0109-U2 5.7x 30 September 2009 09-1165 1601-0109-V1 5.8x 29 May 2010 09-1457 1601-0109-V2 5.8x 04 January 2011 11-2237 GE Multilin F35 Multiple Feeder Protection System...
Page 624: Changes To The Manual
DESCRIPTION (AA3) (AA4) Update General revision, including updated branding from GE Digital Energy to GE Grid Solutions Delete Deleted EAC logo from title page and deleted EAC certification from Approvals specifications because document not translated into Russian Table H–2: MAJOR UPDATES FOR F35 MANUAL REVISION AA3...
Page 625 Table H–8: MAJOR UPDATES FOR F35 MANUAL REVISION Y1 (Sheet 1 of 2) PAGE PAGE CHANGE DESCRIPTION (X2) (Y1) Delete Deleted content pertaining to Ethernet switch Title Title Update Changed part numbers. Updated address and contact information. GE Multilin F35 Multiple Feeder Protection System...
Page 626 Updated Modbus memory map table to include port 0 for Modbus slave address, TCP, DNP, HTTP, TFTP, MMS, and removed references to COM 1 RS485 port C-23 C-23 Update Updated tables in sections C.6.3 ACSI Services Conformance Statement and C.7.1 Logical Nodes Table F35 Multiple Feeder Protection System GE Multilin...
Page 627: Abbreviations
FxE ....FlexElement™ ANG ....Angle FWD....Forward ANSI....American National Standards Institute AR ....Automatic Reclosure G .....Generator ASDU ..... Application-layer Service Data Unit GE....General Electric ASYM ..... Asymmetry GND....Ground AUTO ..... Automatic GNTR....Generator AUX....Auxiliary GOOSE...General Object Oriented Substation Event AVG....
Page 628 ROD ....Remote Open Detector RST ....Reset X ....Reactance RSTR ..... Restrained XDUCER..Transducer RTD ....Resistance Temperature Detector XFMR..... Transformer RTU ....Remote Terminal Unit RX (Rx) ..Receive, Receiver Z..... Impedance, Zone F35 Multiple Feeder Protection System GE Multilin...
Page 629: H.3.1 Ge Multilin Warranty
H.3.1 GE MULTILIN 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 GE Grid Solutions Terms and Conditions at https://www.gegridsolutions.com/multilin/warranty.htm...
Page 630: Warranty
H.3 WARRANTY APPENDIX H F35 Multiple Feeder Protection System GE Multilin...
Page 631 Modbus registers ............B-45 CLOCK settings ............... 5-167 setting date and time ............7-2 specifications ..............2-19 settings ................. 5-65 AUXILIARY VOLTAGE CHANNEL ........3-11 COMMANDS MENU ............7-1 AUXILIARY VOLTAGE METERING ........6-19 GE Multilin F35 Multiple Feeder Protection System...
Page 632 CURRENT DEMAND ............5-75 settings ................ 5-186 CURRENT DIFFERENTIAL DIGITAL OUTPUTS Modbus registers ............B-20 see entry for CONTACT OUTPUTS CURRENT HARMONICS ..........6-22 DIMENSIONS ............. 3-1, 3-2 CURRENT METERING actual values ..............6-17 specifications ..............2-21 F35 Multiple Feeder Protection System GE Multilin...
Page 633 ELEMENTS ............... 5-4 settings ................. 5-70 EMAIL ADDRESS FOR SUPPORT ........1-2 FAULT REPORTS END OF LIFE ..............10-11 Modbus registers ............B-48 FAULT TYPE ..............8-1 FAX NUMBER ..............1-2 FEATURES ................ 2-1 GE Multilin F35 Multiple Feeder Protection System...
Page 634 G.703 ............ 3-28, 3-29, 3-30, 3-33 equation ..............5-146 G.703 WIRE SIZE .............3-28 Modbus registers ............B-52 GATEWAY ADDRESS ............5-32 settings ............... 5-114 GE TYPE IAC CURVES ..........5-145 specifications ..............2-20 GROUND CURRENT METERING ........6-18 table ................5-114 GROUND IOC FLEXCURVES™...
Page 635 ............B-5 supported function codes ..........B-4 user map ............. 5-65, B-14, B-35 MODEL INFORMATION ............ 6-29 MODIFICATION FILE NUMBER ........6-29 LAMPTEST ................ 7-3 MODULE FAILURE ERROR ..........7-6 LANGUAGE ..............5-24 GE Multilin F35 Multiple Feeder Protection System...
Page 636 PHASE CURRENT METERING .........6-17 ONE SHOTS ..............5-130 PHASE INSTANTANEOUS OVERCURRENT OPERATING TEMPERATURE .......... 2-26 see entry for PHASE IOC OPERATING TIMES ............2-18 ORDER CODES ......2-8, 2-9, 2-11, 2-12, 6-29, 7-3 F35 Multiple Feeder Protection System GE Multilin...
Page 637 ............... 5-230 Modbus registers ............B-31 specifications ..............2-22 settings ................. 5-65 REAR TERMINAL ASSIGNMENTS ........3-7 RECLOSER CURVES .......... 5-117, 5-146 SAVING SETTING DOES NOT TAKE RELAY OUT OF SERVICE 2-2, 5-8 GE Multilin F35 Multiple Feeder Protection System...
Page 638 EnerVista UR Setup see PHASE, NEUTRAL, and GROUND TOC entries SOURCE FREQUENCY ............ 6-22 TIMERS ................. 5-135 SOURCE TRANSFER SCHEMES ........5-163 ground ................. 5-158 neutral ................. 5-151 phase ................5-147 specifications ..............2-18 viii F35 Multiple Feeder Protection System GE Multilin...
Page 639 Modbus registers ............B-32 settings ................. 5-79 specifications ..............2-20 USER-PROGRAMMABLE PUSHBUTTONS FlexLogic operands ............. 5-129 ZERO SEQUENCE CORE BALANCE ........ 3-11 Modbus registers ..........B-35, B-44 settings ................. 5-83 specifications ..............2-20 GE Multilin F35 Multiple Feeder Protection System...
Page 640 INDEX F35 Multiple Feeder Protection System GE Multilin...

GE UR F35 Series Instruction Manual

1 Getting Started

2 Product Description

3 Hardware

4 Human Interfaces

5 Settings

6 Actual Values

7 Commands and

8 Theory of Operation

9 Commissioning

10 Maintenance

Parameter Lists

Modbus Rtu Protocol

Modbus Function Codes

File Transfers

Memory Mapping

Iec 61850

Overview

Server Data Organization

Server Features and Configuration

Quick Links

Related Manuals for GE UR F35 Series

Summary of Contents for GE UR F35 Series