GE M60 UR Series Instruction Manual

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Digital Energy

GE Digital Energy

650 Markland Street

Markham, Ontario

Canada L6C 0M1

Tel: +1 905 927 7070 Fax: +1 905 927 5098

Internet:

http://www.GEDigitalEnergy.com

*1601-0108-AA1*

M60 Motor Protection System

UR Series Instruction Manual

Manual P/N: 1601-0108-AA1 (GEK-119565)

E83849

LISTED

IND.CONT. EQ.

M60 Revision: 7.2x

833711A2.CDR

52TL

GE Multilin's Quality Management

System is registered to ISO

9001:2008

QMI # 005094

UL # A3775

Table of Contents

Summary of Contents for GE M60 UR Series

Page 1 GE Digital Energy LISTED 650 Markland Street IND.CONT. EQ. 52TL Markham, Ontario GE Multilin's Quality Management System is registered to ISO Canada L6C 0M1 9001:2008 Tel: +1 905 927 7070 Fax: +1 905 927 5098 QMI # 005094 UL # A3775 Internet: http://www.GEDigitalEnergy.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
TYPE TESTS ....................2-27 2.3.12 PRODUCTION TESTS ..................2-27 2.3.13 APPROVALS ....................2-28 2.3.14 MAINTENANCE ....................2-28 3. HARDWARE 3.1 DESCRIPTION 3.1.1 PANEL CUTOUT ....................3-1 3.1.2 REAR TERMINAL LAYOUT................3-6 3.2 WIRING 3.2.1 TYPICAL WIRING....................3-8 GE Multilin M60 Motor Protection System...
Page 4 USER-PROGRAMMABLE FAULT REPORT............5-69 5.2.8 OSCILLOGRAPHY ...................5-70 5.2.9 DATA LOGGER ....................5-72 5.2.10 USER-PROGRAMMABLE LEDS ..............5-73 5.2.11 USER-PROGRAMMABLE SELF TESTS ............5-76 5.2.12 CONTROL PUSHBUTTONS ................5-77 5.2.13 USER-PROGRAMMABLE PUSHBUTTONS............5-79 5.2.14 FLEX STATE PARAMETERS ................5-84 5.2.15 USER-DEFINABLE DISPLAYS ................5-85 M60 Motor Protection System GE Multilin...
Page 5 IEC 61850 GOOSE ANALOGS..............5-266 5.8.13 IEC 61850 GOOSE INTEGERS..............5-267 5.9 TRANSDUCER INPUTS AND OUTPUTS 5.9.1 DCMA INPUTS ....................5-268 5.9.2 RTD INPUTS....................5-269 5.9.3 RRTD INPUTS ....................5-271 5.9.4 DCMA OUTPUTS ..................5-275 GE Multilin M60 Motor Protection System...
Page 6 MODEL INFORMATION ...................6-29 6.5.2 FIRMWARE REVISIONS..................6-29 7. COMMANDS AND 7.1 COMMANDS TARGETS 7.1.1 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......................7-3 M60 Motor Protection System GE Multilin...
Page 7 GGIO3: DIGITAL STATUS AND ANALOG VALUES FROM GOOSE DATA ..C-2 C.2.5 GGIO4: GENERIC ANALOG MEASURED VALUES .........C-2 C.2.6 MMXU: ANALOG MEASURED VALUES............C-3 C.2.7 PROTECTION AND OTHER LOGICAL NODES ..........C-3 C.3 SERVER FEATURES AND CONFIGURATION C.3.1 BUFFERED/UNBUFFERED REPORTING ............C-5 GE Multilin M60 Motor Protection System...
Page 8 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 G. RADIUS SERVER G.1 RADIUS SERVER CONFIGURATION G.1.1 RADIUS SERVER CONFIGURATION ..............G-1 H. MISCELLANEOUS H.1 CHANGE NOTES viii M60 Motor Protection System GE Multilin...
Page 9 TABLE OF CONTENTS H.1.1 REVISION HISTORY ..................H-1 H.1.2 CHANGES TO THE M60 MANUAL ..............H-2 H.2 ABBREVIATIONS H.2.1 STANDARD ABBREVIATIONS .................H-5 H.3 WARRANTY H.3.1 GE MULTILIN WARRANTY ................H-7 INDEX GE Multilin M60 Motor Protection System...
Page 10 TABLE OF CONTENTS M60 Motor Protection System GE Multilin...
Page 11: Getting Started
Class 1M devices are considered safe to the unaided eye. Do not view directly with optical instruments. This product is rated to Class A emissions levels and is to be used in Utility, Substation Industrial environments. Not to be used near electronic devices rated for Class B levels. GE Multilin M60 Motor 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 Digital Energy 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. M60 Motor 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.gedigitalenergy.com/multilin and install it.
Page 16: Configuring The M60 For Software Access
An Ethernet module must be specified at the time of ordering. • To configure the M60 for local access with a laptop through either the front RS232 port or rear Ethernet port, see the Using the Quick Connect Feature section. M60 Motor Protection System GE Multilin...
Page 17 1.3 ENERVISTA UR SETUP SOFTWARE b) CONFIGURING SERIAL COMMUNICATIONS A GE Multilin F485 converter (or compatible RS232-to-RS485 converter) is required. See the F485 instruction manual for details. Connect a serial cable to the RS485 terminal on the back of the UR device.
Page 18 EnerVista UR Setup window. The Site Device has now been configured for Ethernet communications. Proceed to the Connecting to the M60 section to begin communications. M60 Motor 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.gedigitalenergy.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 M60 Motor Protection System GE Multilin...
Page 21 M60 and the laptop computer, and double-check the programmed IP address in the    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 M60 Motor Protection System 1-11...
Page 22 If this computer is used to connect to the Internet, re-enable any proxy server settings after the laptop has been discon- nected from the M60 relay. Start the Internet Explorer software. Select the “UR” device from the EnerVista Launchpad to start EnerVista UR Setup. 1-12 M60 Motor 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 M60 Motor Protection System 1-13...
Page 24: Connecting To The M60 Relay
View the last recorded oscillography record • View the status of all M60 inputs and outputs • View all of the M60 metering values • View the M60 protection summary • Generate a service report 1-14 M60 Motor Protection System GE Multilin...
Page 25: Setting Up Cybersentry And Changing Default Password
. Be sure to disable this bypass setting after SETTINGS > PRODUCT SETUP > SECURITY > SUPERVISORY commissioning the device. You can change the password for any role either from the front panel or through EnerVista. GE Multilin M60 Motor Protection System 1-15...
Page 26 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. Figure 1–10: CHANGING THE DEFAULT PASSWORD 1-16 M60 Motor Protection System GE Multilin...
Page 27: Ur Hardware
Figure 1–11: RELAY COMMUNICATION OPTIONS To communicate through the M60 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 M60 rear communications port.
Page 28: Using The Relay
LED is on and the In Service LED off. The relay in the “Not Programmed” state blocks signaling of any output relay. These conditions remain until the relay is explicitly put in the “Programmed” state. 1-18 M60 Motor Protection System GE Multilin...
Page 29: Relay Passwords
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. GE Multilin M60 Motor Protection System 1-19...
Page 30: 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. 1-20...
Page 31: Product Description
Starts Per Hour, Time Between Starts Phase Sequence Voltage Neutral Directional Overcurrent Thermal Overload Phase Directional Overcurrent 50BF Breaker Failure Overfrequency Ground Instantaneous Overcurrent Underfrequency Neutral Instantaneous Overcurrent Stator Differential Phase Instantaneous Overcurrent Mechanical Jam GE Multilin M60 Motor Protection System...
Page 32: Security
EnerVista software. • CyberSentry security — Advanced security options available as a software option. When purchased, the options are automatically enabled, and the default Password security and EnerVista security are disabled. M60 Motor Protection System GE Multilin...
Page 33 CYBERSENTRY SECURITY CyberSentry Embedded Security is a software option that provides advanced security services. When this option is pur- chased, the basic password security is disabled automatically. CyberSentry provides security through the following features: GE Multilin M60 Motor Protection System...
Page 34 This means that the EnerVista software allows for access to functionality based on the user’s logged in role. Example: Observer cannot write any settings. The table lists the roles that are supported and their corresponding capabilities. M60 Motor Protection System GE Multilin...
Page 35 |--------------- |--------------- Virtual Inputs |--------------- Contact Output |--------------- Virtual Output |--------------- Remote Devices |--------------- Remote Inputs |--------------- Remote DPS input Remote Output DNA |--------------- Bit Pair Remote Output user |--------------- Bit Pair |--------------- Resetting GE Multilin M60 Motor Protection System...
Page 36 RADIUS server when one is provided. If a RADIUS server is provided, but is unreachable over the network, server authentication requests are denied. In this situ- ation, use local UR accounts to gain access to the UR system. M60 Motor Protection System GE Multilin...
Page 37: Iec 870-5-103 Protocol
103 communication messages. The UR implementation of IEC 60870-5-103 consists of the following functions: • Report binary inputs • Report analog values (measurands) • Commands • Time synchronization The RS485 port supports IEC 60870-5-103. GE Multilin M60 Motor Protection System...
Page 38: Order Codes
IEEE 1588 + PRP + IEC 60870-5-103 + Rotor broken bar + EGD + IEC 61850 IEC 60870-5-103 + IEEE 1588 + PRP + CyberSentry Lvl 1 IEC 60870-5-103 + IEEE 1588 + PRP + CyberSentry Lvl 1 + EGD M60 Motor Protection System GE Multilin...
Page 39 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 M60 Motor Protection System...
Page 40 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 2-10 M60 Motor Protection System GE Multilin...
Page 41: Order Codes With Process Bus Modules
PRP, Ethernet Global Data (EGD), and IEC 61850 PRP and Rotor broken bar PRP, Rotor broken bar, and Ethernet Global Data (EGD) PRP, Rotor broken bar, and IEC 61850 PRP, Rotor broken bar, Ethernet Global Data (EGD), and IEC 61850 GE Multilin M60 Motor 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 M60 Motor Protection System GE Multilin...
Page 43 IEEE 1588, PRP, Rotor broken bar, Ethernet Global Data (EGD), and IEC 61850 PRP and CyberSentry Lvl 1 PRP, CyberSentry Lvl 1, and Ethernet Global Data (EGD) PRP, CyberSentry Lvl 1, and IEC 61850 GE Multilin M60 Motor Protection System 2-13...
Page 44 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 2-14 M60 Motor Protection System GE Multilin...
Page 45: 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. GE Multilin M60 Motor Protection System 2-15...
Page 46 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 2-16 M60 Motor Protection System GE Multilin...
Page 47: Specifications
Inverse; IEC (and BS) A/B/C and Short Overload factor (OF): 1.00 to 1.50 in steps of 0.01 Inverse; GE IAC Inverse, Short/Very/ Extremely Inverse; I t; FlexCurves™ Motor full load current (FLA): 0.050 to 1.000 pu in steps of 0.001 (programmable);...
Page 48 Pickup delay: 0.10 to 600.00 s in steps of 0.01 Reset delay: 0.00 to 600.00 s in steps of 0.01 Timer accuracy: ±3% of operate time or ±20 ms, which- ever is greater 2-18 M60 Motor Protection System GE Multilin...
Page 49 ±0.5% of reading from 10 to 208 V Pickup level: 20.00 to 65.00 Hz in steps of 0.01 Curve shapes: GE IAV Inverse, Definite Time Dropout level: pickup + 0.03 Hz Curve multiplier: Time Dial = 0 to 600.00 in steps of 0.01 Level accuracy: ±0.001 Hz...
Page 50: User-Programmable Elements
0.00 to 60.00 s in steps of 0.05 Pickup & dropout delay: 0.000 to 65.535 s in steps of 0.001 Autoreset timer: 0.2 to 600.0 s in steps of 0.1 Hold timer: 0.0 to 10.0 s in steps of 0.1 2-20 M60 Motor 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 M60 Motor Protection System 2-21...
Page 52: Inputs
50 k Isolation: 2 kV 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 M60 Motor 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 M60 Motor 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 M60 Motor Protection System GE Multilin...
Page 55: Communications
–1 dBm –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 M60 Motor Protection System 2-25...
Page 56: Environmental
Pollution degree: impaired at temperatures less than – Overvoltage category: 20°C Ingress protection: IP20 front, IP10 back HUMIDITY Humidity: operating up to 95% (non-condensing) at 55°C (as per IEC60068-2-30 variant 1, 6 days). 2-26 M60 Motor Protection System GE Multilin...
Page 57: Type Tests
20 V/m, 80 MHz to 1 GHz Safety UL508 e83849 NKCR Safety UL C22.2-14 e83849 NKCR7 Safety UL1053 e83849 NKCR 2.3.12 PRODUCTION TESTS THERMAL Products go through an environmental test based upon an Accepted Quality Level (AQL) sampling process. GE Multilin M60 Motor 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 M60 Motor 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. 11.016” [279,81 mm] 9.687” [246,05 mm] 17.56” [446,02 mm] 7.460” [189,48 mm] 6.995” 6.960” [177,67 mm] [176,78 mm] 19.040” [483,62 mm] 842807A1.CDR Figure 3–1: M60 HORIZONTAL DIMENSIONS (ENHANCED PANEL) GE Multilin M60 Motor Protection System...
Page 60 The case dimensions are shown below, along with panel cutout details for panel mounting. When planning the location of your panel cutout, ensure that provision is made for the faceplate to swing open without interference to or from adjacent equipment. M60 Motor Protection System GE Multilin...
Page 61 RS232 communications port. The relay is secured to the panel with the use of four screws supplied with the relay. 11.015” 7.482” 1.329” 13.560” 15.000” 14.025” 4.000” 9.780” 843809A1.CDR Figure 3–4: M60 VERTICAL DIMENSIONS (ENHANCED PANEL) GE Multilin M60 Motor Protection System...
Page 62 Figure 3–5: M60 VERTICAL MOUNTING AND DIMENSIONS (STANDARD PANEL) For details on side mounting M60 devices with the enhanced front panel, refer to the following documents available online from the GE Multilin website. • GEK-113180: UR-series UR-V side-mounting front panel assembly instructions.
Page 63 3 HARDWARE 3.1 DESCRIPTION Figure 3–6: M60 VERTICAL SIDE MOUNTING INSTALLATION (STANDARD PANEL) GE Multilin M60 Motor Protection System...
Page 64: Rear Terminal Layout
3.1 DESCRIPTION 3 HARDWARE Figure 3–7: M60 VERTICAL SIDE MOUNTING REAR DIMENSIONS (STANDARD PANEL) 3.1.2 REAR TERMINAL LAYOUT Figure 3–8: REAR TERMINAL VIEW M60 Motor Protection System GE Multilin...
Page 65 (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 M60 Motor 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) M60 Motor Protection System GE Multilin...
Page 67: Dielectric Strength
An LED on the front of the control power module shows the status of the power supply: LED INDICATION POWER SUPPLY CONTINUOUS ON ON / OFF CYCLING Failure Failure GE Multilin M60 Motor 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 below. Twisted-pair cabling on the zero-sequence CT is recommended. 3-10 M60 Motor Protection System GE Multilin...
Page 69 Substitute the tilde “~” symbol with the slot position of the module in the following figure. 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 M60 Motor Protection System 3-11...
Page 70: Process Bus Modules
3.2.5 PROCESS BUS MODULES The M60 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 M60 Motor Protection System 3-13...
Page 72 2 Inputs ~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 M60 Motor Protection System GE Multilin...
Page 73 Not Used ~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 M60 Motor 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 M60 Motor Protection System GE Multilin...
Page 75 CONTACT IN CONTACT IN COMMON SURGE 842763A2.CDR Figure 3–16: CONTACT INPUT AND OUTPUT MODULE WIRING (2 of 2) For proper functionality, observe correct polarity for all contact input and solid state output connec- tions. GE Multilin M60 Motor Protection System 3-17...
Page 76 There is no provision in the relay to detect a DC ground fault on 48 V DC control power external output. We recom- mend using an external DC supply. NOTE 3-18 M60 Motor Protection System GE Multilin...
Page 77 CONTACT INPUT 2 AUTO-BURNISH = ON 842751A1.CDR Figure 3–19: AUTO-BURNISH DIP SWITCHES The auto-burnish circuitry has an internal fuse for safety purposes. During regular maintenance, check the auto- burnish functionality using an oscilloscope. NOTE GE Multilin M60 Motor 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 3-20 M60 Motor Protection System GE Multilin...
Page 79: Rs232 Faceplate Port
Figure 3–21: RS232 FACEPLATE PORT CONNECTION 3.2.9 CPU COMMUNICATION PORTS a) OPTIONS In addition to the faceplate RS232 port, the M60 provides a rear RS485 communication port. The CPU modules do not require a surge ground connection. NOTE GE Multilin M60 Motor Protection System 3-21...
Page 80 For larger systems, additional serial channels must be added. It is also possible to use com- mercially available repeaters to have more than 32 relays on a single channel. Avoid star or stub connections entirely. 3-22 M60 Motor Protection System GE Multilin...
Page 81 62.5 µm for 100 Mbps. For optical power budgeting, splices are required every 1 km for the transmitter/receiver pair. When splicing optical fibers, the diameter and numerical aperture of each fiber must be the same. GE Multilin M60 Motor Protection System...
Page 82: Irig-B
Figure 3–24: OPTIONS FOR THE IRIG-B CONNECTION Using an amplitude modulated receiver causes errors up to 1 ms in event time-stamping. NOTE 3-24 M60 Motor Protection System GE Multilin...
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 M60 Motor Protection System 3-25...
Page 84 1300 nm, multimode, LED, 2 channels 1300 nm, single-mode, ELED, 2 channels 1300 nm, single-mode, LASER, 2 channels Channel 1: RS422, channel: 820 nm, multimode, LED Channel 1: RS422, channel 2: 1300 nm, multimode, LED 3-26 M60 Motor Protection System GE Multilin...
Page 85: Fiber: Led And Eled Transmitters
The following figure shows the configuration for the 7A, 7B, 7C, 7H, 7I, and 7J fiber-only modules. Figure 3–28: LED AND ELED FIBER MODULES 3.3.3 FIBER-LASER TRANSMITTERS The following figure shows the configuration for the 72, 73, 7D, and 7K fiber-laser module. Figure 3–29: LASER FIBER MODULES GE Multilin M60 Motor Protection System 3-27...
Page 86: Interface
Simultaneously pull the ejector/inserter clips located at the top and at the bottom of each module in order to release the module for removal. Remove the module cover screw. Remove the top cover by sliding it towards the rear and then lift it upwards. 3-28 M60 Motor 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 M60 Motor 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 3–34: G.703 DUAL LOOPBACK MODE 3-30 M60 Motor 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 M60 Motor Protection System 3-31...
Page 90 Figure 3–38: CLOCK AND DATA TRANSITIONS d) RECEIVE TIMING The RS422 interface utilizes NRZI-MARK modulation code and; therefore, does not rely on an Rx clock to recapture data. NRZI-MARK is an edge-type, invertible, self-clocking code. 3-32 M60 Motor 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. Figure 3–40: G.703 AND FIBER INTERFACE CONNECTION GE Multilin M60 Motor Protection System 3-33...
Page 92: Ieee C37.94 Interface
IEEE C37.94 standard, shown as follows. The UR-series C37.94 communication module has six switches to set the clock configuration. The following figure shows the functions of these control switches. 3-34 M60 Motor Protection System GE Multilin...
Page 93 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. Figure 3–41: IEEE C37.94 TIMING SELECTION SWITCH SETTING GE Multilin M60 Motor Protection System 3-35...
Page 94 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 3-36 M60 Motor Protection System GE Multilin...
Page 95: C37.94Sm Interface
For the internal timing mode, the system clock is generated internally. Therefore, the timing switch selection should be internal timing for relay 1 and loop timed for relay 2. There must be only one timing source configured. GE Multilin M60 Motor Protection System...
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. Figure 3–43: C37.94SM TIMING SELECTION SWITCH SETTING 3-38 M60 Motor Protection System GE Multilin...
Page 97 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 GE Multilin M60 Motor Protection System 3-39...
Page 98 3.3 DIRECT INPUT/OUTPUT COMMUNICATIONS 3 HARDWARE 3-40 M60 Motor 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 M60 with settings files: Modbus Slave Address Modbus IP Port Number RS485 COM2 Baud Rate RS485 COM2 Parity COM2 Minimum Response Time GE Multilin M60 Motor Protection System...
Page 100 EEPROM DATA ERROR message intended to inform users that the Modbus addresses have changed with the upgraded firmware. This message does not signal any problems when appearing after firmware upgrades. M60 Motor Protection System GE Multilin...
Page 101: Enervista Ur Setup Main 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 842786A2.CDR Figure 4–1: ENERVISTA UR SETUP SOFTWARE MAIN WINDOW GE Multilin M60 Motor Protection System...
Page 102: 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. M60 Motor Protection System GE Multilin...
Page 103 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. GE Multilin M60 Motor Protection System...
Page 104 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 M60 Motor Protection System GE Multilin...
Page 105 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. GE Multilin M60 Motor Protection System...
Page 106: 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. M60 Motor Protection System GE Multilin...
Page 107 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. GE Multilin M60 Motor Protection System...
Page 108: Settings File Traceability
M60 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. 4-10 M60 Motor Protection System GE Multilin...
Page 109 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 GE Multilin M60 Motor Protection System 4-11...
Page 110: Automatic Configurator
The EnerVista UR Setup software suite contains an automatic configurator for motor starting settings. The configurator automatically populates settings and operands for input relays, output relays, trip bus, AC inputs, and signal sources based on user requirements and the relay features. 4-12 M60 Motor Protection System GE Multilin...
Page 111: Faceplate Interface
LED panel 2 LED panel 3 Display Front panel RS232 port Small user-programmable User-programmable Keypad (control) pushbuttons 1 to 7 pushbuttons 1 to 12 827801A . Figure 4–16: UR-SERIES STANDARD HORIZONTAL FACEPLATE PANELS GE Multilin M60 Motor Protection System 4-13...
Page 112: 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. 4-14 M60 Motor Protection System GE Multilin...
Page 113 EVENT CAUSE IN SERVICE VOLTAGE TROUBLE CURRENT RESET TEST MODE FREQUENCY TRIP OTHER USER 1 ALARM PHASE A PICKUP USER 2 PHASE B PHASE C NEUTRAL/GROUND USER 3 842781A1.CDR Figure 4–19: LED PANEL 1 GE Multilin M60 Motor Protection System 4-15...
Page 114 LEDs on these panels. USER-PROGRAMMABLE LEDS USER-PROGRAMMABLE LEDS 842782A1.CDR Figure 4–20: LED PANELS 2 AND 3 (INDEX TEMPLATE) DEFAULT LABELS FOR LED PANEL 2: The default labels are intended to represent: 4-16 M60 Motor Protection System GE Multilin...
Page 115: Custom Labeling Of Leds
EnerVista UR Setup software is installed and operational • The M60 settings have been saved to a settings file • The M60 front panel label cutout sheet (GE Multilin part number 1006-0047) has been downloaded from http://www.gedigitalenergy.com/products/support/ur/URLEDenhanced.doc and printed •...
Page 116 Remove the M60 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 117 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. GE Multilin M60 Motor Protection System 4-19...
Page 118 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. 4-20 M60 Motor Protection System GE Multilin...
Page 119 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. GE Multilin M60 Motor Protection System 4-21...
Page 120 The panel templates provide relative LED locations and located example text (x) edit boxes. The following procedure demonstrates how to install/uninstall the custom panel labeling. Remove the clear Lexan Front Cover (GE Multilin part number: 1501-0014). Push in...
Page 121: Display
Microsoft Word 97 or later software for editing the template • 1 each of: 8.5" x 11" white paper, exacto knife, ruler, custom display module (GE Multilin Part Number: 1516-0069), and a custom module cover (GE Multilin Part Number: 1502-0015) The following procedure describes how to customize the M60 display module: Open the LED panel customization template with Microsoft Word.
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 • Commands • Targets • User displays (when enabled) 4-24 M60 Motor Protection System GE Multilin...
Page 123 FLASH MESSAGE Properties. TIME: 1.0 s  To view the remaining settings associated with the Display Properties subheader, DEFAULT MESSAGE repeatedly press the MESSAGE DOWN key. The last message appears as shown. INTENSITY: 25% GE Multilin M60 Motor Protection System 4-25...
Page 124: 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. 4-26 M60 Motor Protection System GE Multilin...
Page 125: 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. GE Multilin M60 Motor Protection System...
Page 126 3-minute time span, the FlexLogic operand is set to and the M60 does not allow settings or command access via the REMOTE ACCESS DENIED “ ” any external communications interface for the next five minutes. 4-28 M60 Motor Protection System GE Multilin...
Page 127 M60 does not allow Settings or Command access via the any external communications interface for the next ten minutes. FlexLogic operand is set to “Off” after the expiration of the ten-minute timeout. REMOTE ACCESS DENIED GE Multilin M60 Motor Protection System 4-29...
Page 128 4.3 FACEPLATE INTERFACE 4 HUMAN INTERFACES 4-30 M60 Motor Protection System GE Multilin...
Page 129: Overview
See page 5-94.   INSTALLATION See page 5-95.   SETTINGS  AC INPUTS See page 5-97.  SYSTEM SETUP   POWER SYSTEM See page 5-98.   SIGNAL SOURCES See page 5-99.  GE Multilin M60 Motor Protection System...
Page 130  OVERFREQUENCY See page 5-226.   START SUPERVISION See page 5-227.   REDUCED VOLTAGE See page 5-230.  STARTING  DIGITAL ELEMENTS See page 5-232.   DIGITAL COUNTERS See page 5-236.  M60 Motor Protection System GE Multilin...
Page 131  TRANSDUCER I/O   RTD INPUTS See page 5-269.   RRTD INPUTS See page 5-271.   DCMA OUTPUTS See page 5-275.   SETTINGS TEST MODE See page 5-279.  TESTING FUNCTION: Disabled GE Multilin M60 Motor Protection System...
Page 132: Introduction To Elements
“Disabled”. Once programmed to “Enabled”, any element associated with the function becomes active and all options become available. • NAME setting: This setting is used to uniquely identify the element. • SOURCE setting: This setting is used to select the parameter or set of parameters to be monitored. M60 Motor 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 M60 Motor Protection System...
Page 134 INCREASING SLOT POSITION LETTER --> CT/VT MODULE 1 CT/VT MODULE 2 CT/VT MODULE 3 < bank 1 > < bank 3 > < bank 5 > < bank 2 > < bank 4 > < bank 6 > M60 Motor Protection System GE Multilin...
Page 135 CTs on each of two breakers is required to measure the winding current flow. GE Multilin M60 Motor Protection System...
Page 136: Product Setup
If all passwords are lost, recovery is possible by resetting the unit to default values. 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 Access automatically reverts to the “Restricted” level according to the access level timeout setting values. If the setting and command passwords are identical, then this one password allows access to both commands and settings. NOTE GE Multilin M60 Motor Protection System...
Page 138 FlexLogic operand is UNAUTHORIZED ACCESS asserted. The operand can be programmed to raise an alarm via contact outputs or communications. This feature can be used to protect against both unauthorized and accidental access attempts. 5-10 M60 Motor Protection System GE Multilin...
Page 139 ACCESS AUTH TIMEOUT immediately denied. If access is permitted and an off-to-on transition of the FlexLogic operand is detected, the timeout is restarted. The status of this timer is updated every 5 seconds. GE Multilin M60 Motor 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 M60 Motor 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 M60 Motor Protection System GE Multilin...
Page 143 (RADIUS) only. No password or security information is displayed in plain text by the EnerVista software or UR device, nor are they ever transmitted without cryptographic protection. GE Multilin M60 Motor Protection System 5-15...
Page 144 5.2 PRODUCT SETUP 5 SETTINGS CYBERSENTRY SETTINGS THROUGH ENERVISTA CyberSentry security settings are configured under Device > Settings > Product Setup > Security. Figure 5–3: CYBERSENTRY SECURITY PANEL 5-16 M60 Motor Protection System GE Multilin...
Page 145 Authentication method used by RADIUS EAP-TTLS EAP-TTLS EAP-TTLS Administrator Authentication server. Currently fixed to EAP-TTLS. Method Timeout Timeout in seconds between re- 9999 Administrator transmission requests Retries Number of retries before giving up 9999 Administrator GE Multilin M60 Motor Protection System 5-17...
Page 146 See the Change Text The specified role password-protected. All RADIUS users are Password following Me1# and Administrator, password-protected. Requirement password except for s section section for Supervisor, where requireme it is only itself 5-18 M60 Motor Protection System GE Multilin...
Page 147 This role can also be disabled, but only through a Supervisor authentication. When this role is disabled its permissions are assigned to the Administrator role. GE Multilin M60 Motor Protection System...
Page 148 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. 5-20 M60 Motor Protection System GE Multilin...
Page 149 Factory Service Mode: When enabled (meaning "Yes" is selected) the device can go into factory service mode. For this setting to become enabled a Supervisor authentication is necessary. The default value is Disabled. GE Multilin M60 Motor Protection System 5-21...
Page 150 The use of CyberSentry for devices communicating through an Ethernet-to-RS485 gateway is not supported. Because these gateways do not support the secure protocols necessary to communicate with such devices, the connection cannot be established. Use the device as a non-CyberSentry device. 5-22 M60 Motor Protection System GE Multilin...
Page 151: Display Properties
LEVEL: 0.020 pu Range: 0.1 to 1.0 V secondary in steps of 0.1 VOLTAGE CUT-OFF MESSAGE LEVEL: 1.0 V Some relay messaging characteristics can be modified to suit different situations using the display properties settings. GE Multilin M60 Motor Protection System 5-23...
Page 152 PHASE VT RATIO : “Delta”. PHASE VT CONNECTION We have: CT primary = “100 A”, and VT primary = = 66.4 V x 208 = 13811.2 V PHASE VT SECONDARY PHASE VT RATIO 5-24 M60 Motor Protection System GE Multilin...
Page 153: Clear Relay Records
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: GE Multilin M60 Motor Protection System 5-25...
Page 154: Communications
The M60 is equipped with up to two independent serial communication ports. The faceplate RS232 port is intended for local use and is fixed at 19200 baud and no parity. The rear COM2 port be used for either RS485 or RRTD communications. 5-26 M60 Motor Protection System GE Multilin...
Page 155 IP3/Mask3: 10.3.1.2/255.255.255.0 (where LAN3 is 10.3.1.x/255.255.255.0) Example 2 IP1/Mask1: 10.1.1.2/255.0.0.0 (where LAN1 is 10.x.x.x/255.0.0.0) IP2/Mask2: 11.1.1.2/255.0.0.0 (where LAN2 is 11.x.x.x/255.0.0.0) IP3/Mask3: 12.1.1.2/255.0.0.0 (where LAN3 is 12.x.x.x/255.0.0.0) Example 3 — Incorrect IP1/Mask1: 10.1.1.2/255.0.0.0 IP2/Mask2: 10.2.1.2/255.0.0.0 GE Multilin M60 Motor Protection System 5-27...
Page 156 The topology shown in the following figure allows communications to SCADA, local configuration/monitoring through EnerVista, and access to the public network shared on the same LAN. No redundancy is provided. Figure 5–5: NETWORK CONFIGURATION FOR SINGLE LAN 5-28 M60 Motor Protection System GE Multilin...
Page 157 LAN2, to which port 2 (P2) is connected and communications with SCADA on LAN3, to which port 3 (P3) is connected. There is no redundancy. Figure 5–7: MULTIPLE LANS, NO REDUNDANCY GE Multilin M60 Motor Protection System 5-29...
Page 158 Failover, the operation of ports 2 and 3 is as follows: • Ports 2 and 3 use the port 2 MAC address, IP address, and mask • The configuration fields for IP address and mask on port 3 are hidden 5-30 M60 Motor Protection System GE Multilin...
Page 159 There is a second type of specialized device used in PRP networks, called RedBox, with the role of connecting Single Attached Nodes (SANs) to a redundant network. UR relays implement only the DANP functionality. The RedBox functionality is not implemented. GE Multilin M60 Motor Protection System 5-31...
Page 160 1 to 6, that entry becomes a static route and it must meet all the rules listed in the next section, General Conditions to be Satisfied by Static Routes. 5-32 M60 Motor Protection System GE Multilin...
Page 161 Port 2 (IP address 10.1.2.2) connects the UR to LAN 10.1.2.0/24 and to the EnerVista software through Router 2. Router 2 has an interface on 10.1.2.0/24 and the IP address of this interface is 10.1.2.1. The configuration before release 7.10 was as follows: GE Multilin M60 Motor Protection System 5-33...
Page 162 PRODUCT SETUP COMMUNICATIONS MODBUS PROTOCOL Range: 0 to 254 in steps of 1  MODBUS PROTOCOL MODBUS SLAVE  ADDRESS: 254 Range: 0 to 65535 in steps of 1 MODBUS TCP PORT MESSAGE NUMBER: 5-34 M60 Motor Protection System GE Multilin...
Page 163 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 GE Multilin M60 Motor Protection System 5-35...
Page 164 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 5-36 M60 Motor Protection System GE Multilin...
Page 165 Changes to these settings take effect when power has been cycled to the relay. NOTE settings can force the M60 to respond to a maximum of five specific DNP masters. The DNP NETWORK CLIENT ADDRESS settings in this sub-menu are shown below. GE Multilin M60 Motor Protection System 5-37...
Page 166 (for circuit breakers) or raise/lower (for tap changers) using a single control point. That is, the DNP master can operate a single point for both trip and close, or raise and lower, operations. The M60 can be configured to 5-38 M60 Motor Protection System GE Multilin...
Page 167 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. GE Multilin M60 Motor Protection System 5-39...
Page 168 The GSSE/GOOSE configuration main menu is divided into two areas: transmission and reception.     PATH: SETTINGS PRODUCT SETUP COMMUNICATIONS IEC 61850 PROTOCOL GSSE/GOOSE CONFIGURATION  GSSE / GOOSE  TRANSMISSION  CONFIGURATION   RECEPTION MESSAGE  5-40 M60 Motor Protection System GE Multilin...
Page 169 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 M60 releases previous to 5.0x, this name string was repre- sented by the setting. RELAY NAME GE Multilin M60 Motor Protection System 5-41...
Page 170 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 5-42 M60 Motor Protection System GE Multilin...
Page 171 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. GE Multilin M60 Motor Protection System...
Page 172 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. 5-44 M60 Motor Protection System GE Multilin...
Page 173 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 GE Multilin M60 Motor Protection System 5-45...
Page 174 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. 5-46 M60 Motor Protection System GE Multilin...
Page 175 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 GE Multilin M60 Motor Protection System 5-47...
Page 176 M60. Clients are still able to connect to the server (M60 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 M60 is restarted. IED NAME LD INST NOTE 5-48 M60 Motor Protection System GE Multilin...
Page 177 275  VT ratio setting • power (real, reactive, and apparent): 46  phase CT primary setting  275  VT ratio setting • • frequency: 90 Hz • power factor: 2 GE Multilin M60 Motor Protection System 5-49...
Page 178 GGIO4. When this value is NUMBER OF ANALOG POINTS changed, the M60 must be rebooted in order to allow the GGIO4 logical node to be re-instantiated and contain the newly configured number of analog points. 5-50 M60 Motor Protection System GE Multilin...
Page 179 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. GE Multilin M60 Motor Protection System 5-51...
Page 180 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. 5-52 M60 Motor Protection System GE Multilin...
Page 181 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. GE Multilin M60 Motor Protection System...
Page 182 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 5-54 M60 Motor Protection System GE Multilin...
Page 183 M60 contains a list and description of all available files (event records, oscillography, etc.). When the is set to 0, the change takes effect when the M60 is restarted. TFTP MAIN UDP PORT NUMBER NOTE GE Multilin M60 Motor Protection System 5-55...
Page 184 The IEC 60870-5-104 and DNP protocols cannot be used simultaneously. When the IEC 60870-5-104 FUNCTION setting is set to “Enabled”, the DNP protocol does not operate. When this setting is changed, it takes effect when power to the relay is cycled (off-to-on). NOTE 5-56 M60 Motor Protection System GE Multilin...
Page 185 Modbus register address. Note that the default setting value of “0” is considered invalid. GE Multilin M60 Motor Protection System...
Page 186 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. 5-58 M60 Motor Protection System GE Multilin...
Page 187 IEC103 INPUTS BINARY 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  GE Multilin M60 Motor Protection System 5-59...
Page 188  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  5-60 M60 Motor Protection System GE Multilin...
Page 189 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 GE Multilin M60 Motor Protection System 5-61...
Page 190 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 5-62 M60 Motor Protection System GE Multilin...
Page 191 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 5–7: COMMANDS MAPPING TABLE DESCRIPTION VALUE GE Multilin M60 Motor Protection System 5-63...
Page 192: Modbus User Map
A setting of PP/IRIG-B/PTP/SNTP, IRIG-B/PP/PTP/SNTP, or PP/PTP/IRIG-B/SNTP causes the relay to track the first source named that is enabled and operational, or free-run if none of these are available. Here, PP 5-64 M60 Motor Protection System GE Multilin...
Page 193 The relay implements PTP according to IEEE Std 1588 2008 and the equivalent IEC 61588:2009(E), sometimes referred to as version 2 PTP. It does not support the previous version of the standard (version 1). NOTE GE Multilin M60 Motor Protection System 5-65...
Page 194 • Depending on the characteristics of the device to which the relay is directly linked, VLAN ID may have no effect. • This setting applies to all of the relay’s PTP capable ports. 5-66 M60 Motor Protection System GE Multilin...
Page 195 123 for normal SNTP operation. If SNTP is not required, close the port by setting it to 0. SNTP UDP PORT NUMBER When the is set to 0, the change takes effect when the M60 is restarted. SNTP UDP PORT NUMBER NOTE GE Multilin M60 Motor Protection System 5-67...
Page 196 DST rules of the local time zone. DAYLIGHT SAVINGS TIME (DST) Note that when IRIG-B time synchronization is active, the local time in the IRIG-B signal contains any daylight savings time offset and so the DST settings are ignored. 5-68 M60 Motor Protection System GE Multilin...
Page 197: User-Programmable Fault Report
RMS, phase angle, frequency, temperature, etc., to be stored should the report be created. Up to 32 channels can be configured. Two reports are configurable to cope with variety of trip conditions and items of interest. GE Multilin M60 Motor Protection System...
Page 198: 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 5-70 M60 Motor Protection System GE Multilin...
Page 199 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 M60 Motor Protection System 5-71...
Page 200: Data Logger
490920 s 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 5-72 M60 Motor Protection System GE Multilin...
Page 201: User-Programmable Leds
LEDs, an LED test feature is also provided. b) LED TEST    PATH: SETTINGS PRODUCT SETUP USER-PROGRAMMABLE LEDS LED TEST Range: Disabled, Enabled.  LED TEST LED TEST FUNCTION:  Disabled Range: FlexLogic operand LED TEST CONTROL: MESSAGE GE Multilin M60 Motor Protection System 5-73...
Page 202 (one LED on at a time) control input rising edge of the Wait 1 second control input rising edge STAGE 3 of the control (one LED off at a time) input 842011A1.CDR Figure 5–10: LED TEST SEQUENCE 5-74 M60 Motor Protection System GE Multilin...
Page 203 LED column 2: user-programmable LEDs 1 through 12 • LED column 3: user-programmable LEDs 13 through 24 • LED column 4: user-programmable LEDs 25 through 36 • LED column 5: user-programmable LEDs 37 through 48 GE Multilin M60 Motor Protection System 5-75...
Page 204: User-Programmable Self Tests
FUNCTION: Disabled Range: Disabled, Enabled. BATTERY FAIL MESSAGE FUNCTION: Enabled Range: Disabled, Enabled. SNTP FAIL MESSAGE FUNCTION: Enabled Range: Disabled, Enabled. IRIG-B FAIL MESSAGE FUNCTION: Enabled Range: Disabled, Enabled. PTP FAIL MESSAGE FUNCTION: Enabled 5-76 M60 Motor Protection System GE Multilin...
Page 205: Control Pushbuttons
Control pushbuttons are not typically used for critical operations and are not protected by the control password. However, by supervising their output operands, the user can dynamically enable or disable control pushbuttons for security reasons. GE Multilin M60 Motor Protection System...
Page 206 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 5-78 M60 Motor Protection System GE Multilin...
Page 207: 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 M60 Motor Protection System 5-79...
Page 208 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 5-80 M60 Motor Protection System GE Multilin...
Page 209 PUSHBTN 1 SET 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 M60 Motor Protection System 5-81...
Page 210 “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. 5-82 M60 Motor Protection System GE Multilin...
Page 211 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 M60 Motor Protection System 5-83...
Page 212: Flex State Parameters
PATH: SETTINGS PRODUCT SETUP FLEX STATE PARAMETERS Range: FlexLogic operand  FLEX STATE PARAMETER  PARAMETERS Range: FlexLogic operand PARAMETER MESSAGE Range: FlexLogic operand PARAMETER MESSAGE  Range: FlexLogic operand PARAMETER 256: MESSAGE 5-84 M60 Motor Protection System GE Multilin...
Page 213: User-Definable Displays
INVOKE AND SCROLL play, not at the first user-defined display. The pulses must last for at least 250 ms to take effect. INVOKE AND SCROLL GE Multilin M60 Motor Protection System 5-85...
Page 214 While viewing a user display, press the ENTER key and then select the ‘Yes” option to remove the display from the user display list. Use the MENU key again to exit the user displays menu. 5-86 M60 Motor Protection System GE Multilin...
Page 215: Direct Inputs/Outputs
See page 5–93. MESSAGE   CRC ALARM CH2 See page 5–93. MESSAGE   UNRETURNED See page 5–94. MESSAGE  MESSAGES ALARM CH1  UNRETURNED See page 5–94. MESSAGE  MESSAGES ALARM CH2 GE Multilin M60 Motor Protection System 5-87...
Page 216 64 kbps Channel 1 128 kbps Channel 1 128 kbps Channel 1 64 kbps, 128 kbps Channel 2 64 kbps, 128 kbps Channel 1 64 kbps, 128 kbps Channel 2 64 kbps, 128 kbps 5-88 M60 Motor Protection System GE Multilin...
Page 217 “Yes” DIRECT I/O CH1 RING CONFIGURATION: “128 kbps” DIRECT I/O DATA RATE: For UR-series IED 2: “2” DIRECT OUTPUT DEVICE ID: “Yes” DIRECT I/O CH1 RING CONFIGURATION: “128 kbps” DIRECT I/O DATA RATE: GE Multilin M60 Motor Protection System 5-89...
Page 218 Dual-ring configuration effectively reduces the maximum ‘communications distance’ by a factor of two. In this configuration the following delivery times are expected (at 128 kbps) if both rings are healthy: 5-90 M60 Motor Protection System GE Multilin...
Page 219 In the above application, the following settings should be applied. For UR-series IED 1: “1” DIRECT OUTPUT DEVICE ID: “Yes” DIRECT I/O CH1 RING CONFIGURATION: “Yes” DIRECT I/O CH2 RING CONFIGURATION: For UR-series IED 2: GE Multilin M60 Motor Protection System 5-91...
Page 220 IED 2 to IED 3: 0.2 of power system cycle. The two communications configurations could be applied to both permissive and blocking schemes. Speed, reliability and cost should be taken into account when selecting the required architecture. 5-92 M60 Motor Protection System GE Multilin...
Page 221 10000 bits sent or received. Assuming the best case of only 1 bit error in a failed packet, having 1 failed –4 packet for every 63 received is about equal to a BER of 10 GE Multilin M60 Motor Protection System 5-93...
Page 222: Teleprotection
Once teleprotection is enabled and the teleprotection input/outputs are configured, data packets are transmitted continu- ously every 1/4 cycle (3/8 cycle if using C37.94 modules) from peer-to-peer. Security of communication channel data is achieved by using CRC-32 on the data packet. 5-94 M60 Motor Protection System GE Multilin...
Page 223: Installation
"Programmed" state. UNIT NOT PROGRAMMED setting allows the user to uniquely identify a relay. This name will appear on generated reports. RELAY NAME GE Multilin M60 Motor Protection System 5-95...
Page 224: 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 225: 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). GE Multilin M60 Motor Protection System 5-97...
Page 226: Power System
5-98 M60 Motor Protection System GE Multilin...
Page 227: Signal Sources
CT and VT input. For CT inputs, this is the nominal primary and secondary current. For VTs, this is the connection type, ratio and nominal secondary voltage. Once the inputs have been specified, the configuration for each source is entered, including specifying which CTs are summed together. GE Multilin M60 Motor Protection System 5-99...
Page 228 UR Relay Figure 5–25: 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 5-100 M60 Motor Protection System GE Multilin...
Page 229: Motor
MOTOR NAMEPLATE VOLTAGE: This setting represents the rated phase-to-phase motor voltage. The MOTOR NAME- setting is used as a reference for the voltage dependant thermal overload curve feature and indicates PLATE VOLTAGE a 100% voltage starting condition. GE Multilin M60 Motor Protection System 5-101...
Page 230 M60 expects a transition from speed 1 to speed 2 within two seconds; otherwise, the motor status value may be reset. • SPEED2 SWITCH 2-1 DELAY: This setting specifies the time delay to transfer from high to low speed. This allows the motor to slow down before energizing at low speed. 5-102 M60 Motor Protection System GE Multilin...
Page 231 SPEED2 MOTOR FLA: This setting specifies the motor full load current for speed 2. MOTOR CT bank 1 CT bank 2 STOP M60 protection and logic HIGH 833723A1.CDR Figure 5–26: TWO SPEED MOTOR CONNECTIONS GE Multilin M60 Motor Protection System 5-103...
Page 232: 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 5-104 M60 Motor Protection System GE Multilin...
Page 233 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. GE Multilin M60 Motor Protection System 5-105...
Page 234 5 SETTINGS Figure 5–27: DUAL BREAKER CONTROL SCHEME LOGIC (Sheet 1 of 2) IEC 61850 functionality is permitted when the M60 is in “Programmed” mode and not in the local control mode. NOTE 5-106 M60 Motor Protection System GE Multilin...
Page 235 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. GE Multilin M60 Motor Protection System 5-107...
Page 236: Disconnect Switches
1. • 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. 5-108 M60 Motor Protection System GE Multilin...
Page 237 This allows for non-simultaneous operation of the poles. IEC 61850 functionality is permitted when the M60 is in “Programmed” mode and not in the local control mode. NOTE GE Multilin M60 Motor Protection System 5-109...
Page 238 5.4 SYSTEM SETUP 5 SETTINGS Figure 5–29: DISCONNECT SWITCH SCHEME LOGIC 5-110 M60 Motor Protection System GE Multilin...
Page 239: Flexcurves
0.86 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 GE Multilin M60 Motor Protection System 5-111...
Page 240 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 5-112 M60 Motor Protection System GE Multilin...
Page 241 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 M60 are displayed in the following graphs. GE Multilin M60 Motor Protection System 5-113...
Page 242 CURRENT (multiple of pickup) 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 5-114 M60 Motor Protection System GE Multilin...
Page 243 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 GE Multilin M60 Motor Protection System 5-115...
Page 244 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 5-116 M60 Motor Protection System GE Multilin...
Page 245 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 GE Multilin M60 Motor Protection System 5-117...
Page 246: 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. 5-118 M60 Motor Protection System GE Multilin...
Page 247 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"). GE Multilin M60 Motor Protection System 5-119...
Page 248 BKR FAIL 1 T3 OP Breaker failure 1 timer 3 is operated BKR FAIL 1 TRIP OP Breaker failure 1 trip is operated BKR FAIL 2... Same set of operands as shown for BKR FAIL 1 5-120 M60 Motor Protection System GE Multilin...
Page 249 Non-volatile latch 1 is ON (Logic = 1) Non-volatile latches LATCH 1 OFF Non-volatile latch 1 is OFF (Logic = 0) LATCH 2 to LATCH 16 Same set of operands as shown for LATCH 1 GE Multilin M60 Motor Protection System 5-121...
Page 250 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 and higher Same set of operands as shown for PHASE IOC1 5-122 M60 Motor Protection System GE Multilin...
Page 251 Position of selector switch 1 is undetermined or restored from memory when the relay powers up and synchronizes to the three-bit input SELECTOR 2 Same set of operands as shown above for SELECTOR 1 GE Multilin M60 Motor Protection System 5-123...
Page 252 Disconnect switch 1 phase C intermediate status is detected (transition from one position to another) SWITCH 1 BAD STATUS Disconnect switch 1 bad status is detected on any pole SWITCH 2... Same set of operands as shown for SWITCH 1 5-124 M60 Motor Protection System GE Multilin...
Page 253 (will not appear unless ordered)   voltage (from detector on Cont Op 1 VOff (will not appear unless ordered) form-A output only) Cont Op 2 VOff (will not appear unless ordered)   GE Multilin M60 Motor Protection System 5-125...
Page 254 REMOTE DEVICE 1 Off Flag is set, logic=1 REMOTE DEVICE 2 Off Flag is set, logic=1 REMOTE DEVICE 3 Off Flag is set, logic=1   REMOTE DEVICE 16 Off Flag is set, logic=1 5-126 M60 Motor Protection System GE Multilin...
Page 255 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 M60 Motor Protection System 5-127...
Page 256: Flexlogic Rules
When making changes to settings, all FlexLogic equations are re-compiled whenever any new setting value is entered, so all latches are automatically reset. If it is necessary to re-initialize FlexLogic during testing, for example, it is suggested to power the unit down and then back up. 5-128 M60 Motor Protection System GE Multilin...
Page 257: Flexlogic Example
DIGITAL ELEMENT 1 on 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 M60 Motor Protection System 5-129...
Page 258 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." 5-130 M60 Motor Protection System GE Multilin...
Page 259 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 M60 Motor Protection System 5-131...
Page 260 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) 5-132 M60 Motor Protection System GE Multilin...
Page 261: 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 M60 Motor Protection System 5-133...
Page 262: 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. 5-134 M60 Motor Protection System GE Multilin...
Page 263 The FLEXELEMENT 1 DIRECTION following figure explains the application of the FLEXELEMENT 1 DIRECTION FLEXELEMENT 1 PICKUP FLEXELEMENT 1 HYS- settings. TERESIS GE Multilin M60 Motor Protection System 5-135...
Page 264 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. 5-136 M60 Motor Protection System GE Multilin...
Page 265 DELTA TIME BASE = 1 µs FREQUENCY = 1 Hz BASE  PHASE ANGLE = 360 degrees (see the UR angle referencing convention) BASE POWER FACTOR = 1.00 BASE RTDs BASE = 100°C GE Multilin M60 Motor Protection System 5-137...
Page 266: Non-Volatile Latches
Typical applications include sustaining operator commands or permanently block relay functions, such as Autorecloser, until a deliberate interface action resets the latch. The settings element operation is described below: • LATCH 1 TYPE: This setting characterizes Latch 1 to be Set- or Reset-dominant. 5-138 M60 Motor Protection System GE Multilin...
Page 267 LATCH N 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 M60 Motor Protection System 5-139...
Page 268: Grouped Elements
Each of the six setting group menus is identical. Setting group 1 (the default active group) automatically becomes active if no other group is active (see the Control elements section for additional details). 5-140 M60 Motor Protection System GE Multilin...
Page 269 The figure below shows examples of constant and variable acceleration currents and explains measurement of the acceler- ation time and current. Part A represents a constant current start and part B represents a variable current start. GE Multilin M60 Motor Protection System...
Page 270 Peak acceleration current ACCELERATION TIME = Ib magnitude Effective acceleration current EFFECTIVE CURENT Acceleration time = Ic magnitude PEAK CURRENT FLEXLOGIC OPERANDS MOTOR STARTING MOTOR RUNNING 833013A3.CDR Figure 5–54: ACCELERATION TIME SCHEME LOGIC 5-142 M60 Motor Protection System GE Multilin...
Page 271 Range: 0.1 to 1000.0 s in steps of 0.1 VD SAFE STALL TIME @ MESSAGE MIN V: 20.0 sec. Range: 1.50 to 20.00 x FLA in steps of 0.01 VD ACCELL. INTERSECT MESSAGE @ MIN V: 4.00 x FLA GE Multilin M60 Motor Protection System 5-143...
Page 272 (OF) times the setting (FLA). The MOTOR OVERLOAD FACTOR MOTOR FULL LOAD AMPS (FLA) setting can be found in the  menu. MOTOR FULL LOAD AMPS SYSTEM SETUP MOTOR 5-144 M60 Motor Protection System GE Multilin...
Page 273 IEC CURVE TIME CONSTANT – I = measured motor load current. – = Motor load current before overload occurs. – k = k-factor (overload factor) defined by setting applied to I IEC CURVE K FACTOR GE Multilin M60 Motor Protection System 5-145...
Page 274 IEC CURVE k FACTOR: This setting applies only to the IEC motor curve and is applied as described in the THERMAL setting description. Refer to the IEC 255-8 standard for additional details on its application. MODEL CURVE 5-146 M60 Motor Protection System GE Multilin...
Page 275 If thermal model curve is selected as “Motor”, then the can be specified THERMAL MODEL TD MULTIPLIER between “1.00” and “15.00” as indicated in the Standard motor curves diagram below. NOTE GE Multilin M60 Motor Protection System 5-147...
Page 276 In these cases, it may be necessary to use a custom curve so the motor can be started success- fully and used to its full potential without compromising protection. For these conditions, it is recommended that the 5-148 M60 Motor Protection System GE Multilin...
Page 277 Negative sequence current, which has a phase rotation that is opposite to the positive sequence current, and hence opposite to the direction of rotor rotation, will generate a rotor voltage that will produce a GE Multilin M60 Motor Protection System...
Page 278 PERCENT VOLTAGE UNBALANCE PERCENT VOLTAGE UNBALANCE NEMA GE Multilin 808728A2.CDR Figure 5–58: MEDIUM MOTOR DERATING FACTOR DUE TO UNBALANCED VOLTAGE If a value of k = 0 is entered, unbalance biasing is defeated and the overload curve will time out against the measured per unit motor positive sequence current.
Page 279 (average three phase RMS and the selected setting. Thermal capacity used will either rise at the fixed rate of 5% per minute or fall as dictated by the running cool time constant.     ---------- - 100% (EQ 5.16) –   cold GE Multilin M60 Motor Protection System 5-151...
Page 280 100%, the load current must be above the overload pickup setting to set the output. Do not program setpoint greater than 200°C if using a remote RTD unit, since the RRTD RTD BIAS MAXIMUM only measures temperatures up to 200°C. NOTE 5-152 M60 Motor Protection System GE Multilin...
Page 281 TCU values are to be applied: TC accumulated from the moment the motor was stopped start (EQ 5.23)     margin  100% ------------------------- - –     maxStart 100% GE Multilin M60 Motor Protection System 5-153...
Page 282 This curve is composed of the three characteristic of thermal limit curve shapes as determined by the stall or locked rotor condition, acceleration, and running overload. The figure below presents the typical thermal limit curve for high inertia application. GE Multilin HIGH INERTIA LOAD OVERLOAD CURVES 8800 HP, 13.2 kV, REACTOR COOLANT PUMP...
Page 283 ). This value can be typically determined from motor acceleration curves. The value at the breakdown torque for the minimum volt- age start is recommended for this setting. 833714A1.CDR Figure 5–61: TYPICAL MOTOR ACCELERATION CHARACTERISTICS GE Multilin M60 Motor Protection System 5-155...
Page 284 1.00 PER UNIT CURRENT THERMAL MODEL CURVE LOCKED ROTOR LINE MIN V ACCELERATE 100% ACCELERATE 110% ACCELERATE MIN V LINE 100% V LINE 110% V LINE 833715A1.CDR Figure 5–62: VOLTAGE DEPENDENT OVERLOAD CURVES 5-156 M60 Motor Protection System GE Multilin...
Page 285 The following three figures illustrate the resultant overload protection curve for minimum, 100%, and maximum line voltages. For voltages between these limits, the M60 will shift the acceleration curve linearly and constantly, based on the measured line voltage during a motor start. GE Multilin M60 Motor Protection System 5-157...
Page 286 PER UNIT CURRENT 833716A1.CDR Figure 5–63: VOLTAGE DEPENDENT OVERLOAD CURVE PROTECTION AT MINIMUM VOLTAGE 10000.00 1000.00 100.00 10.00 1.00 PER UNIT CURRENT 833717A1.CDR Figure 5–64: VOLTAGE DEPENDENT OVERLOAD CURVE PROTECTION AT 100% VOLTAGE 5-158 M60 Motor Protection System GE Multilin...
Page 287 The following three figures illustrate the motor starting curves for the following abnormal conditions: line voltages below the minimum, above 110%, and the situation for voltage loss. 10000.00 1000.00 100.00 10.00 1.00 PER UNIT CURRENT 833719A1.CDR Figure 5–66: VOLTAGE DEPENDENT OVERLOAD CURVE PROTECTION AT LESS THAN MINIMUM VOLTAGE GE Multilin M60 Motor Protection System 5-159...
Page 288 833720A1.CDR Figure 5–67: VOLTAGE DEPENDENT OVERLOAD CURVE PROTECTION AT VOLTAGE LOSS CONDITION 10000.00 1000.00 100.00 10.00 1.00 PER UNIT CURRENT 833721A1.CDR Figure 5–68: VOLTAGE DEPENDENT OVERLOAD CURVE PROTECTION AT MORE THAN 110% VOLTAGE 5-160 M60 Motor Protection System GE Multilin...
Page 289 If the motor status is offline when control power is lost, the thermal capacity will decay for the duration of the loss of control power based on the stopped motor cooling rate. GE Multilin M60 Motor Protection System...
Page 290 5.6 GROUPED ELEMENTS 5 SETTINGS Figure 5–70: THERMAL MODEL LOGIC 5-162 M60 Motor Protection System GE Multilin...
Page 291 3 to 10 seconds. • AMP UNBAL 1(2) RESET DELAY: This timer can be used to maintain the output until other equipment or an operator can react to the unbalance condition. GE Multilin M60 Motor Protection System 5-163...
Page 292 SYSTEM SETUP MOTOR MOTOR LINE SOURCE motor status asserted by the thermal model element. Both the signal source and thermal protection must be configured properly in order for the mechanical jam protection to operate. 5-164 M60 Motor Protection System GE Multilin...
Page 293: Motor
  setting. SYSTEM SETUP MOTOR MOTOR LINE SOURCE Phase currents must be configured on this source; otherwise, the undercurrent function will not be operational. The ele- ment responds to a per-phase current. GE Multilin M60 Motor Protection System 5-165...
Page 294 FLEXLOGIC OPERANDS magnitude Ia < PICKUP MOTOR LINE SOURCE U/CURR ALARM PKP = Ia magnitude Ib < PICKUP U/CURR TRIP PKP = Ib magnitude IC < PICKUP = Ic 833024A1.CDR Figure 5–73: UNDERCURRENT LOGIC 5-166 M60 Motor Protection System GE Multilin...
Page 295 As such, the accumulated thermal capacity is calculated from overload contributions at each speed. Refer to the Thermal model sub-section for details on settings for thermal model at the second motor speed. GE Multilin M60 Motor Protection System 5-167...
Page 296 The acceleration time at speed 2 becomes functional only if the acceleration time at speed 1 is enabled. When the acceleration time at any speed is not required, it can be permanently blocked. 5-168 M60 Motor Protection System GE Multilin...
Page 297 2. Prior to starting, the motor state is determined from the operand. Refer to MOTOR OFFLINE the Motor setup section for additional information on the motor offline state determination. The speed 2 undercurrent GE Multilin M60 Motor Protection System 5-169...
Page 298 IA_mag < PICKUP = Ia magnitude U/CURR SP2 ALARM PKP = Ib magnitude IB_mag < PICKUP U/CURR SP2 TRIP PKP IC_mag < PICKUP = Ic magnitude 833022A1.CDR Figure 5–76: SPEED 2 UNDERCURRENT LOGIC 5-170 M60 Motor Protection System GE Multilin...
Page 299: Stator Differential
This element has a dual slope characteristic. The main purpose of the percent-slope characteristic is to prevent a maloper- ation caused by unbalances between CTs during external faults. CT unbalances arise as a result of the following factors: CT accuracy errors GE Multilin M60 Motor Protection System 5-171...
Page 300 STATOR DIFF BREAK 2: This setting defines the end of the transition region and the start of the Slope 2 region. It should be set to the level at which any of the protection CTs are expected to begin to saturate. Figure 5–78: STATOR DIFFERENTIAL SCHEME LOGIC 5-172 M60 Motor Protection System GE Multilin...
Page 301 = restraining current, DIR = flag indicating that the phase comparison principle is satisfied = breakpoint 1 setting, I = current at the terminal and neutral sources, respectively K = factory constant of 0.25 GE Multilin M60 Motor Protection System 5-173...
Page 302: Power
5.6.5 POWER a) MAIN MENU    PATH: SETTINGS GROUPED ELEMENTS SETTING GROUP 1(6) POWER  POWER  SENSITIVE See page 5-175.   DIRECTIONAL POWER  UNDERPOWER See page 5-178. MESSAGE  5-174 M60 Motor Protection System GE Multilin...
Page 303 The operating quantity is displayed in the   actual ACTUAL VALUES METERING SENSITIVE DIRECTIONAL POWER 1(2) value. The element has two independent (as to the pickup and delay settings) stages for alarm and trip, respectively. GE Multilin M60 Motor Protection System 5-175...
Page 304 RCA = 0 SMIN < 0 SMIN > 0 OPERATE RESTRAIN RESTRAIN OPERATE RCA = 90 RCA = 270 SMIN > 0 SMIN < 0 842702A1.CDR Figure 5–82: DIRECTIONAL POWER ELEMENT SAMPLE APPLICATIONS 5-176 M60 Motor Protection System GE Multilin...
Page 305 DIR POWER 1 OP Three-phase reactive power (Q) DIR POWER 1 STG2 DPO DIR POWER 1 STG2 OP SETTING DIR POWER 1 STG2 DELAY: 100 ms 842003A3.CDR Figure 5–83: SENSITIVE DIRECTIONAL POWER SCHEME LOGIC GE Multilin M60 Motor Protection System 5-177...
Page 306 VT Secondary in case of delta connected VTs; and 3 x Phase CT Primary x Phase VT Ratio x Phase VT Secondary in case of wye connected VTs. This setting should be less than the corresponding setting for the alarm stage. 5-178 M60 Motor Protection System GE Multilin...
Page 307 Vb > 0.25 pu UNDERPOWER 1 magnitude Vc > 0.25 pu FUNCTION = Enabled UNDERPOWER 1 BLOCK = Off SETTING UNDERPOWER 1 START BLOCK DLY FLEXLOGIC OPERAND MOTOR OFFLINE 833025A1.CDR Figure 5–84: UNDERPOWER LOGIC GE Multilin M60 Motor Protection System 5-179...
Page 308: Phase Current
See page 5-182. MESSAGE  DIRECTIONAL 2 The M60 Motor Protection System has up to eight (8) phase instantaneous overcurrent elements (dependent on CT/VT modules ordered) and two (2) phase directional overcurrent elements. 5-180 M60 Motor Protection System GE Multilin...
Page 309 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 5–85: PHASE INSTANTANEOUS OVERCURRENT 1 SCHEME LOGIC GE Multilin M60 Motor Protection System 5-181...
Page 310 CTs and the line-line voltage from the VTs, based on the 90° or quadrature connection. If there is a requirement to supervise overcurrent elements for flows in opposite directions, such as can happen through a bus-tie breaker, two phase directional elements should be programmed with opposite element characteristic angle (ECA) settings. 5-182 M60 Motor Protection System GE Multilin...
Page 311 10 ms must be added to all the instantaneous protection elements under the supervi- sion of the phase directional element. If current reversal is of a concern, a longer delay – in the order of 20 ms – may be needed. GE Multilin M60 Motor Protection System 5-183...
Page 312: Neutral Current
See page 5-186. MESSAGE  DIRECTIONAL 2 The M60 Motor Protection System has up to eight (8) neutral instantaneous overcurrent elements (dependent on CT/VT modules ordered) and two (2) neutral directional overcurrent elements. 5-184 M60 Motor Protection System GE Multilin...
Page 313 The operating quantity depends on how test currents are injected into the relay (single-phase injection:   0.9375 I ; three-phase pure zero-sequence injection: injected injected Figure 5–88: NEUTRAL IOC1 SCHEME LOGIC GE Multilin M60 Motor Protection System 5-185...
Page 314     (EQ 5.30) – The positive-sequence restraint allows for more sensitive settings by counterbalancing spurious zero-sequence currents resulting from: • System unbalances under heavy load conditions. 5-186 M60 Motor Protection System GE Multilin...
Page 315 REV LA = 80° (reverse limit angle = the ± angular limit with the ECA for operation) The above bias should be taken into account when using the neutral directional overcurrent element to directionalize other protection elements. GE Multilin M60 Motor Protection System 5-187...
Page 316 If “Dual” polarizing is selected, the element performs both directional comparisons as described. A given direction is confirmed if either voltage or current comparators indicate so. If a conflicting (simultaneous forward and reverse) indication occurs, the forward direction overrides the reverse direction. 5-188 M60 Motor Protection System GE Multilin...
Page 317 NEUTRAL DIR OC1 REV PICKUP: This setting defines the pickup level for the overcurrent unit of the element in the reverse direction. When selecting this setting it must be kept in mind that the design uses a positive-sequence restraint technique for the “Calculated 3I0” mode of operation. GE Multilin M60 Motor Protection System 5-189...
Page 318: Ground Current
 GROUND CURRENT  GROUND TOC1 See page 5-196.    GROUND TOC2 See page 5-196. MESSAGE   GROUND IOC1 See page 5-197. MESSAGE   GROUND IOC2 See page 5-197. MESSAGE  5-190 M60 Motor Protection System GE Multilin...
Page 319 5.6 GROUPED ELEMENTS b) INVERSE TOC CURVE CHARACTERISTICS The inverse time overcurrent curves used by the time overcurrent elements are the IEEE, IEC, GE Type IAC, and I t stan- dard curve shapes. This allows for simplified coordination with downstream devices.
Page 320 5.041 4.827 38.634 22.819 14.593 11.675 10.130 9.153 8.470 7.960 7.562 7.241 51.512 30.426 19.458 15.567 13.507 12.204 11.294 10.614 10.083 9.654 10.0 64.390 38.032 24.322 19.458 16.883 15.255 14.117 13.267 12.604 12.068 5-192 M60 Motor Protection System GE Multilin...
Page 321 0.60 1.835 1.067 0.668 0.526 0.451 0.404 0.371 0.346 0.327 0.311 0.80 2.446 1.423 0.890 0.702 0.602 0.538 0.494 0.461 0.435 0.415 1.00 3.058 1.778 1.113 0.877 0.752 0.673 0.618 0.576 0.544 0.518 GE Multilin M60 Motor Protection System 5-193...
Page 322 = characteristic constant, and T = reset time in seconds (assuming energy capacity is 100% RESET is “Timed”) RESET Table 5–25: GE TYPE IAC INVERSE TIME CURVE CONSTANTS IAC CURVE SHAPE IAC Extreme Inverse 0.0040 0.6379 0.6200 1.7872 0.2461...
Page 323 = Reset Time in seconds (assuming energy capacity is 100% and RESET: Timed) RESET RECLOSER CURVES: The M60 uses the FlexCurve feature to facilitate programming of 41 recloser curves. See the FlexCurve section in this chapter for details. GE Multilin M60 Motor Protection System 5-195...
Page 324 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 Figure 5–91: GROUND TOC1 SCHEME LOGIC 5-196 M60 Motor Protection System GE Multilin...
Page 325 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 Figure 5–92: GROUND IOC1 SCHEME LOGIC GE Multilin M60 Motor Protection System 5-197...
Page 326: Breaker Failure
Range: 0.001 to 30.000 pu in steps of 0.001 BF1 N AMP HISET MESSAGE PICKUP: 1.050 pu Range: 0.001 to 30.000 pu in steps of 0.001 BF1 PH AMP LOSET MESSAGE PICKUP: 1.050 pu 5-198 M60 Motor Protection System GE Multilin...
Page 327 This can also occur in breaker-and-a-half or ring bus configurations where the first breaker closes into a fault; the protection trips and attempts to initiate breaker failure for the second breaker, which is in the process of closing, but does not yet have current flowing through it. GE Multilin M60 Motor Protection System 5-199...
Page 328 BREAKER FAILURE TIMER No. 2 (±1/8 cycle) INITIATE (1/8 cycle) BREAKER FAILURE CURRENT DETECTOR PICKUP (1/8 cycle) BREAKER FAILURE OUTPUT RELAY PICKUP (1/4 cycle) FAULT cycles OCCURS 827083A6.CDR Figure 5–93: BREAKER FAILURE MAIN PATH SEQUENCE 5-200 M60 Motor Protection System GE Multilin...
Page 329 BF1 TIMER 3 PICKUP DELAY: Timer 3 is set to the same interval as timer 2, plus an increased safety margin. Because this path is intended to operate only for low level faults, the delay can be in the order of 300 to 500 ms. GE Multilin M60 Motor Protection System...
Page 330 Upon operation of the breaker failure element for a single pole trip command, a three-pole trip command should be given via output operand BKR FAIL 1 TRIP OP 5-202 M60 Motor Protection System GE Multilin...
Page 331 5 SETTINGS 5.6 GROUPED ELEMENTS Figure 5–95: SINGLE-POLE BREAKER FAILURE, INITIATE GE Multilin M60 Motor Protection System 5-203...
Page 332 5.6 GROUPED ELEMENTS 5 SETTINGS Figure 5–96: SINGLE-POLE BREAKER FAILURE, TIMERS 5-204 M60 Motor Protection System GE Multilin...
Page 333 5 SETTINGS 5.6 GROUPED ELEMENTS Figure 5–97: THREE-POLE BREAKER FAILURE, INITIATE GE Multilin M60 Motor Protection System 5-205...
Page 334 5.6 GROUPED ELEMENTS 5 SETTINGS Figure 5–98: THREE-POLE BREAKER FAILURE, TIMERS 5-206 M60 Motor Protection System GE Multilin...
Page 335: 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 M60 Motor Protection System 5-207...
Page 336 V = secondary voltage applied to the relay = pickup level pickup % of voltage pickup 842788A1.CDR Figure 5–99: INVERSE TIME UNDERVOLTAGE CURVES At 0% of pickup, the operating time equals the UNDERVOLTAGE DELAY setting. NOTE 5-208 M60 Motor Protection System GE Multilin...
Page 337 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 5–100: PHASE UNDERVOLTAGE1 SCHEME LOGIC GE Multilin M60 Motor Protection System 5-209...
Page 338 FLEXLOGIC OPERAND PHASE OV1 PKP 827066A7.CDR Figure 5–101: PHASE OVERVOLTAGE SCHEME LOGIC   If the source VT is wye-connected, then the phase overvoltage pickup condition is Pickup for V and V NOTE 5-210 M60 Motor Protection System GE Multilin...
Page 339 “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 5–102: NEUTRAL OVERVOLTAGE1 SCHEME LOGIC GE Multilin M60 Motor Protection System 5-211...
Page 340 The negative-sequence overvoltage element may be used to detect loss of one or two phases of the source, a reversed phase sequence of voltage, or a non-symmetrical system voltage condition. Figure 5–103: NEGATIVE-SEQUENCE OVERVOLTAGE SCHEME LOGIC 5-212 M60 Motor Protection System GE Multilin...
Page 341 The element resets instantaneously. The minimum voltage setting selects the operating voltage below which the element is blocked. Figure 5–104: AUXILIARY UNDERVOLTAGE SCHEME LOGIC GE Multilin M60 Motor Protection System 5-213...
Page 342 VOLTAGE BANK X5 AUXILIARY VT X5 SECONDARY pickup level. A typical application for this element is monitoring the zero-sequence voltage (3V_0) supplied from an open-corner-delta VT connection. Figure 5–105: AUXILIARY OVERVOLTAGE SCHEME LOGIC 5-214 M60 Motor Protection System GE Multilin...
Page 343: Control Elements
If more than one operate-type operand is required, it may be assigned directly from the trip bus menu. GE Multilin M60 Motor Protection System...
Page 344 TRIP BUS 1 PKP = Enabled TRIP BUS 1 BLOCK = Off SETTINGS TRIP BUS 1 LATCHING = Enabled TRIP BUS 1 RESET = Off FLEXLOGIC OPERAND RESET OP 842023A1.CDR Figure 5–107: TRIP BUS LOGIC 5-216 M60 Motor Protection System GE Multilin...
Page 345: Setting Groups
The setting groups menu controls the activation and deactivation of up to six possible groups of settings in the GROUPED settings menu. The faceplate Settings In Use LEDs indicate which active group (with a non-flashing energized ELEMENTS LED) is in service. GE Multilin M60 Motor Protection System 5-217...
Page 346 CONT IP 1 ON (H5A) OR (2) AND (3) = VIRT OP 1 (VO1) PHASE TOC1 PKP PHASE TOC2 PKP AND (3) = VIRT OP 1 (VO1) 842789A1.CDR Figure 5–108: EXAMPLE FLEXLOGIC CONTROL OF A SETTINGS GROUP 5-218 M60 Motor Protection System GE Multilin...
Page 347: Selector Switch
1 to the . If the control word is outside the range, an alarm is established SELECTOR FULL RANGE by setting the FlexLogic operand for 3 seconds. SELECTOR ALARM GE Multilin M60 Motor Protection System 5-219...
Page 348 SELECTOR 1 3BIT ACK: This setting specifies an acknowledging input for the three-bit control input. The pre- selected position is applied on the rising edge of the assigned FlexLogic operand. This setting is active only under the 5-220 M60 Motor Protection System GE Multilin...
Page 349 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 M60 Motor Protection System 5-221...
Page 350 3BIT A1 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 5–109: TIME-OUT MODE 5-222 M60 Motor Protection System GE Multilin...
Page 351 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 M60 Motor Protection System 5-223...
Page 352 3-bit acknowledge 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 5–111: SELECTOR SWITCH LOGIC 5-224 M60 Motor Protection System GE Multilin...
Page 353: Underfrequency
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 5–112: UNDERFREQUENCY SCHEME LOGIC GE Multilin M60 Motor Protection System 5-225...
Page 354: Overfrequency
The setting selects OVERFREQ 1 SOURCE OVERFREQ 1 PICKUP the level at which the overfrequency element is to pickup. Figure 5–113: OVERFREQUENCY SCHEME LOGIC 5-226 M60 Motor Protection System GE Multilin...
Page 355: Motor Start Supervision
It allows load interruption transient conditions such as down-hole pump applications where gravitational force causes reverse rotation to subside. Starting when the load is reversing could cause damage to the motor or pump. GE Multilin M60 Motor Protection System 5-227...
Page 356 STARTS-PER-HOUR DPO STARTS-PER-HOUR OP FLEXLOGIC OPERANDS ACTUAL VALUE MOTOR STARTING STARTS/HR LOCKOUT MOTOR OFFLINE LOCKOUT TIME SETTINGS SETTINGS / SYSTEM SETUP / MOTOR / EMERGENCY RESTART: 833015A2.CDR Figure 5–114: MAXIMUM STARTING RATE SCHEME LOGIC 5-228 M60 Motor Protection System GE Multilin...
Page 357 TIME-BTWN-STARTS DPO FLEXLOGIC OPERAND MOTOR STARTING TIME-BTWN-STARTS OP MOTOR OFFLINE ACTUAL VALUE SETTINGS BTWN STARTS LOCKOUT SETTINGS / SYSTEM SETUP / MOTOR / EMERGENCY RESTART: 833016A2.CDR Figure 5–115: TIME BETWEEN STARTS SCHEME LOGIC GE Multilin M60 Motor Protection System 5-229...
Page 358: Reduced Voltage Starting
Range: 1.0 to 600.0 s in steps of 0.1 REDUCED VOLT TIMER: MESSAGE 10.0 s Range: FlexLogic operand REDUCED VOLT BLOCK: MESSAGE Range: Self-reset, Latched, Disabled REDUCED VOLT TARGET: MESSAGE Self-reset Range: Disabled, Enabled REDUCED VOLT EVENTS: MESSAGE Disabled 5-230 M60 Motor Protection System GE Multilin...
Page 359 If the reduced voltage timer expires prior to the motor load dropping below the setting, the operand does not change state and REDUCED VOLT CTRL REDUCED VOLTAGE FLA operand is asserted. REDUCED VOLT OP GE Multilin M60 Motor Protection System 5-231...
Page 360: Digital Elements
Range: Disabled, Enabled DIG ELEMENT MESSAGE PICKUP LED: Enabled Range: FlexLogic operand DIG ELEM 1 BLOCK: MESSAGE Range: Self-reset, Latched, Disabled DIGITAL ELEMENT MESSAGE TARGET: Self-reset Range: Disabled, Enabled DIGITAL ELEMENT MESSAGE EVENTS: Disabled 5-232 M60 Motor Protection System GE Multilin...
Page 361 If the circuit presents a high resis- tance, the trickle current will fall below the monitor threshold and an alarm would be declared. GE Multilin M60 Motor Protection System...
Page 362 The settings to use digital element 1 to monitor the breaker trip circuit are indicated below (EnerVista UR Setup example shown): The PICKUP DELAY setting should be greater than the operating time of the breaker to avoid nuisance alarms. NOTE 5-234 M60 Motor Protection System GE Multilin...
Page 363 “Off”. In this case, the settings are as follows (EnerVista UR Setup example shown). Figure 5–121: TRIP CIRCUIT EXAMPLE 2 The wiring connection for two examples above is applicable to both form-A contacts with voltage monitoring and solid-state contact with voltage monitoring. NOTE GE Multilin M60 Motor Protection System 5-235...
Page 364: 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. 5-236 M60 Motor Protection System GE Multilin...
Page 365 If control power is interrupted, the accumulated and frozen values are saved into non-volatile memory during the power down operation. Figure 5–122: DIGITAL COUNTER SCHEME LOGIC GE Multilin M60 Motor Protection System 5-237...
Page 366: Monitoring Elements
See page 5–246. MESSAGE   VT FUSE FAILURE 3 See page 5–246. MESSAGE   VT FUSE FAILURE 4 See page 5–246. MESSAGE   BROKEN ROTOR BAR See page 5–247. MESSAGE  5-238 M60 Motor Protection System GE Multilin...
Page 367 Breaker open, Voltage difference drop, and Measured flashover current through the breaker. Furthermore, the scheme is applicable for cases where either one or two sets of three-phase voltages are available across the breaker. GE Multilin M60 Motor Protection System 5-239...
Page 368 This application does not require detection of breaker status via a 52a contact, as it uses a voltage difference larger than setting. However, monitoring the breaker contact will ensure scheme stability. BRK 1 FLSHOVR DIFF V PKP 5-240 M60 Motor Protection System GE Multilin...
Page 369 BRK 1 FLSHOVR SPV A to BRK 1 FLSHOVR SPV C: These settings specify FlexLogic operands (per breaker pole) that supervise the operation of the element per phase. Supervision can be provided by operation of other protection GE Multilin M60 Motor Protection System...
Page 370 Range: FlexLogic operand. To supervise voltage logic, CONT MONITOR V-SUPV: MESSAGE use VT FUSE FAIL OP Range: Self-reset, Latched, Disabled CONT MONITOR MESSAGE TARGET: Self-reset Range: Disabled, Enabled CONT MONITOR MESSAGE EVENTS: Disabled 5-242 M60 Motor Protection System GE Multilin...
Page 371 This could occur when an element is incorrectly set so that it may misoperate under load. The continuous monitor can detect this state and issue an alarm and/or block the trip- ping of the relay. Figure 5–124: CONTINUOUS MONITOR SCHEME LOGIC GE Multilin M60 Motor Protection System 5-243...
Page 372 CT FAIL 3I0 INPUT 2 PICKUP: This setting selects the 3I_0 pickup value for input 2 (different CT input) of the relay. • CT FAIL 3V0 INPUT: This setting selects the voltage source. 5-244 M60 Motor Protection System GE Multilin...
Page 373 CT FAIL 3V0 INPUT PICKUP: This setting specifies the pickup value for the 3V_0 source. • CT FAIL PICKUP DELAY: This setting specifies the pickup delay of the CT failure element. Figure 5–125: CT FAILURE DETECTOR SCHEME LOGIC GE Multilin M60 Motor Protection System 5-245...
Page 374 VT is connected in Delta, do not enabled this function because there is no neutral wire for Delta connected VT. setting specifies the pickup level of 3rd harmonic of 3V0 signal for the VT NEU VT NEU WIRE OPEN 1 3 HRAM PKP WIRE OPEN detection logic to pick up. 5-246 M60 Motor Protection System GE Multilin...
Page 375 DELTA VTs. e) BROKEN ROTOR BAR DETECTION    PATH: SETTINGS CONTROL ELEMENTS MONITORING ELEMENTS BROKEN ROTOR BAR Range: Disabled, Enabled  BROKEN ROTOR BAR BROKEN ROTOR BAR  FUNCTION: Disabled GE Multilin M60 Motor Protection System 5-247...
Page 376 • The motor current unbalance is below a corresponding setpoint. The excessive current unbalance stresses the motor, and it may cause a false broken rotor bar detection. 5-248 M60 Motor Protection System GE Multilin...
Page 377 The broken rotor bar detection algo- rithm cannot accurately determine the broken rotor bar spectral component when the motor load varies. GE Multilin M60 Motor Protection System...
Page 378 This setting can be left at its default value since the element updates its state one to two times per minute. • BRB BLOCK: This setting selects a FlexLogic operand used to block the broken rotor bar detection feature. Typically, a panel cut-off switch or other user-specified conditions blocks this function. 5-250 M60 Motor Protection System GE Multilin...
Page 379: 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 M60 Motor Protection System...
Page 380 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. 5-252 M60 Motor Protection System GE Multilin...
Page 381: 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 5–128: VIRTUAL INPUTS SCHEME LOGIC GE Multilin M60 Motor Protection System 5-253...
Page 382: Contact Outputs
L-Cont Op 1 Range: FlexLogic operand OUTPUT H1a OPERATE: MESSAGE Range: FlexLogic operand OUTPUT H1a RESET: MESSAGE Range: Operate-dominant, Reset-dominant OUTPUT H1a TYPE: MESSAGE Operate-dominant Range: Disabled, Enabled OUTPUT H1a EVENTS: MESSAGE Disabled 5-254 M60 Motor Protection System GE Multilin...
Page 383 Application Example 3: A make before break functionality must be added to the preceding example. An overlap of 20 ms is required to implement this functionality as described below: GE Multilin M60 Motor Protection System 5-255...
Page 384: Virtual Outputs
Logic equations. Any change of state of a virtual output can be logged as an event if programmed to do so. For example, if Virtual Output 1 is the trip signal from FlexLogic and the trip relay is used to signal events, the settings would be programmed as follows: 5-256 M60 Motor Protection System GE Multilin...
Page 385: Remote Devices
SETTINGS PRODUCT SETUP COMMUNICATIONS IEC 61850 PROTOCOL GSSE/GOOSE    setting. CONFIGURATION TRANSMISSION GSSE GSSE ID In M60 releases previous to 5.0x, these name strings were represented by the setting. RELAY NAME GE Multilin M60 Motor Protection System 5-257...
Page 386: Remote Inputs
REMOTE IN 1 DEFAULT STATE the remote device sending the point is declared to be non-communicating. The following choices are available: 5-258 M60 Motor Protection System GE Multilin...
Page 387: 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 GE Multilin M60 Motor Protection System 5-259...
Page 388: Resetting
RESET OP to identify the source of the command. The setting RESET OP (PUSHBUTTON) RESET OP (COMMS) RESET OP (OPERAND) shown above selects the operand that will create the operand. RESET OP (OPERAND) 5-260 M60 Motor Protection System GE Multilin...
Page 389: Direct Inputs And Outputs
FlexLogic operand that determines the state of this direct output. c) 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. GE Multilin M60 Motor Protection System 5-261...
Page 390 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 5-262 M60 Motor Protection System GE Multilin...
Page 391 "3" (effectively, this is a message from IED 1) 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: GE Multilin M60 Motor Protection System 5-263...
Page 392: 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 5-264 M60 Motor Protection System GE Multilin...
Page 393 (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. GE Multilin M60 Motor Protection System 5-265...
Page 394: Iec 61850 Goose Analogs
M60 features, such as FlexElements. The base factor is applied to the GOOSE analog input Flex- Analog quantity to normalize it to a per-unit quantity. The base units are described in the following table. 5-266 M60 Motor Protection System GE Multilin...
Page 395: 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 M60 functions that use FlexInteger values. GE Multilin M60 Motor Protection System 5-267...
Page 396: 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 5-268 M60 Motor Protection System GE Multilin...
Page 397: Rtd Inputs
RTD INPUT H1 ID: An alphanumeric ID is assigned to the channel. This ID will be included in the channel actual val- ues. It is also used to reference the channel as the input parameter to features designed to measure this type of parameter. GE Multilin M60 Motor Protection System 5-269...
Page 398 RTD INPUT H1 TRIP TEMPERATURE: This setting specifies the temperature pickup level for the trip stage. • RTD INPUT H1 TRIP PKP DELAY: This setting specifies time delay for the trip stage until the output can be asserted. 5-270 M60 Motor Protection System GE Multilin...
Page 399: Rrtd Inputs
 RRTD See page 5-272.    RRTD See page 5-272. MESSAGE    RRTD 12 See page 5-272. MESSAGE  Menus are available to configure each of the remote RTDs. GE Multilin M60 Motor Protection System 5-271...
Page 400 “None”. RRTD 1 FUNCTION RRTD1 APPLICATION • If the settings are changes, then these settings are immediately written to the RRTD 1 APPLICATION RRTD 1 TYPE RRTD device. 5-272 M60 Motor Protection System GE Multilin...
Page 401 172.46 291.96 231.6 16.39 175.84 303.46 16.78 An RRTD open condition is detected when actual RRTD resistance is greater than 1000 ohms and RRTD open is dis- played as “250°C” in the M60. GE Multilin M60 Motor Protection System 5-273...
Page 402 RTDs are detected and corrective action may be taken. • RRTD 1 BLOCK: This setting is used to block remote RTD operation. 5-274 M60 Motor Protection System GE Multilin...
Page 403: Dcma Outputs
. The follow- MIN VAL MAX VAL RANGE ing equation is applied:  if x  MIN VAL   if x  MAX VAL (EQ 5.50)    otherwise  – MIN VAL GE Multilin M60 Motor Protection System 5-275...
Page 404 20% overload compared to the nominal. The nominal three-phase power is:    13.8 kV 0.8 kA 17.21 MW (EQ 5.52) The three-phase power with 20% overload margin is:  1.2 17.21 MW 20.65 MW (EQ 5.53) 5-276 M60 Motor Protection System GE Multilin...
Page 405 400 kV 400 kV   ------------------ - ------------------ - 161.66 kV, 254.03 kV (EQ 5.59) The base unit for voltage (refer to the FlexElements section in this chapter for additional details) is: GE Multilin M60 Motor Protection System 5-277...
Page 406 254.03 kV 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. 5-278 M60 Motor Protection System GE Multilin...
Page 407 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 M60 Motor Protection System...
Page 408 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. 5-280 M60 Motor Protection System GE Multilin...
Page 409: Testing 5.10.1 Test Mode
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 M60 Motor Protection System 5-281...
Page 410 5.10 TESTING 5 SETTINGS 5-282 M60 Motor Protection System GE Multilin...
Page 411: Actual Values
 IEC 61850 See page 6-11.  GOOSE UINTEGERS  EGD PROTOCOL See page 6-11.  STATUS  TELEPROT CH TESTS See page 6-12.   COMM STATUS See page 6-12.  REMAINING CONNECT GE Multilin M60 Motor Protection System...
Page 412  DATA  EVENT RECORDS See page 6-27.   OSCILLOGRAPHY See page 6-28.   DATA LOGGER See page 6-28.   ACTUAL VALUES  MODEL INFORMATION See page 6-29.  PRODUCT INFO  M60 Motor Protection System GE Multilin...
Page 413 6 ACTUAL VALUES 6.1 OVERVIEW  FIRMWARE REVISIONS See page 6-29.  GE Multilin M60 Motor Protection System...
Page 414 The present status of the contact inputs is shown here. The first line of a message display indicates the ID of the contact input. For example, ‘Cont Ip 1’ refers to the contact input in terms of the default name-array index. The second line of the display indicates the logic state of the contact input. M60 Motor Protection System GE Multilin...
Page 415: Remote Inputs
The present state of the remote double-point status inputs is shown here. The actual values indicate if the remote double- point status inputs are in the on (close), off (open), intermediate, or bad state. GE Multilin M60 Motor Protection System...
Page 416: Teleprotection Inputs
For form-A contact outputs, the state of the voltage and current detectors is displayed as Off, VOff, IOff, On, IOn, and VOn. For form-C contact outputs, the state is displayed as Off or On. NOTE M60 Motor Protection System GE Multilin...
Page 417: 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. GE Multilin M60 Motor Protection System...
Page 418: 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. M60 Motor Protection System GE Multilin...
Page 419: 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. GE Multilin M60 Motor Protection System...
Page 420: 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) 6-10 M60 Motor Protection System GE Multilin...
Page 421: Direct Devices Status
SIGNATURE: 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. GE Multilin M60 Motor Protection System 6-11...
Page 422: Teleprotection Channel Tests
 COMM STATUS MMS (max 5)  REMAINING CONNECT Range: 0 to 4 MODBUS TCP (max 4) MESSAGE Range: 0 to 2 DNP (max 2) MESSAGE Range: 0 to 2 IEC-104 (max 2) MESSAGE MESSAGE 6-12 M60 Motor Protection System GE Multilin...
Page 423: Parallel Redundancy Protocol (Prp)
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 M60 Motor Protection System 6-13...
Page 424: Metering Conventions
PF = Lag 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 M60 Motor Protection System GE Multilin...
Page 425 -- - V   -- - V   -- - V   -- - V   -- - V   The above equations apply to currents as well. GE Multilin M60 Motor Protection System 6-15...
Page 426 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 M60 Motor Protection System GE Multilin...
Page 427: Stator Differential
MOTOR UNBALANCE: This value is the amount of unbalance in the motor currents. A full explanation of the calcula- tion of this value is presented for the Amp Unbalance element • U/B BIASED MOTOR LOAD: Unbalance Bias Motor Load shows the equivalent motor heating current caused by the unbalance k factor. GE Multilin M60 Motor Protection System 6-17...
Page 428: Sources
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° SRC 1 PHASOR In: MESSAGE 0.000 0.0° SRC 1 ZERO SEQ I0: MESSAGE 0.000 0.0° 6-18 M60 Motor Protection System GE Multilin...
Page 429 SRC 1 RMS Vbc: MESSAGE 0.00 SRC 1 RMS Vca: MESSAGE 0.00 SRC 1 PHASOR Vab: MESSAGE 0.000 0.0° SRC 1 PHASOR Vbc: MESSAGE 0.000 0.0° SRC 1 PHASOR Vca: MESSAGE 0.000 0.0° GE Multilin M60 Motor Protection System 6-19...
Page 430 REACTIVE PWR MESSAGE c: 0.000 SRC 1 APPARENT PWR MESSAGE 3: 0.000 SRC 1 APPARENT PWR MESSAGE a: 0.000 SRC 1 APPARENT PWR MESSAGE b: 0.000 SRC 1 APPARENT PWR MESSAGE c: 0.000 6-20 M60 Motor Protection System GE Multilin...
Page 431: Sensitive Directional Power
6.3.5 SENSITIVE DIRECTIONAL POWER   PATH: ACTUAL VALUES METERING SENSITIVE DIRECTIONAL POWER  SENSITIVE DIRECTIONAL POWER 1  DIRECTIONAL POWER 3: 0.000 W DIRECTIONAL POWER 2 MESSAGE 3: 0.000 W GE Multilin M60 Motor Protection System 6-21...
Page 432: Broken Rotor Bar
LOAD DEV. AT BRB MAX: This value indicates the motor load standard deviation at the time when data for the maxi- mum broken rotor bar was acquired. • TIME OF MAXIMUM BRB: This value indicates the time stamp of the maximum broken rotor bar component level. 6-22 M60 Motor Protection System GE Multilin...
Page 433: Tracking Frequency
THERMAL MODEL BASE = 10 minutes (Model Lockout Time) THERMAL MODEL BASE = 1.00 pu of FLA (Thermal Model Load) (Biased Motor Load) THERMAL MODEL BASE = 10 seconds (Trip Time on Overload) GE Multilin M60 Motor Protection System 6-23...
Page 434: Iec 61580 Goose Analog Values
RRTD INPUT 1  -50°C Actual values for each RRTD input channel that is enabled are displayed this menu. The top line the programmed RRTD ID and the bottom line displays the metered value. 6-24 M60 Motor Protection System GE Multilin...
Page 435: Records
START 1 EFFECTIVE MESSAGE CURRENT: 5.85 x FLA START 1 PEAK MESSAGE CURRENT: 6.70 x FLA Up to five motor starts are displayed. When the buffer is full, the newest record overwrites the oldest record. GE Multilin M60 Motor Protection System 6-25...
Page 436: Motor Learned Data
Learned values associated with motor acceleration require the acceleration time function to be enabled. The learned features are not be used until at least N + 1 successful motor starts have occurred. NOTE 6-26 M60 Motor Protection System GE Multilin...
Page 437: Event Records
EVENT: XXXX  RESET OP(PUSHBUTTON)  EVENT: 3 EVENT 3 MESSAGE POWER ON DATE: 2000/07/14 EVENT: 2 EVENT 3 MESSAGE POWER OFF TIME: 14:53:00.03405 EVENT: 1 Date and Time Stamps MESSAGE EVENTS CLEARED GE Multilin M60 Motor Protection System 6-27...
Page 438: 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 6-28 M60 Motor Protection System GE Multilin...
Page 439: Product Information
6.5PRODUCT INFORMATION 6.5.1 MODEL INFORMATION   PATH: ACTUAL VALUES PRODUCT INFO MODEL INFORMATION Range: standard GE Multilin order code format;  MODEL INFORMATION ORDER CODE LINE 1: example order code shown  M60-A00-HCH-F8A-H6A Range: standard GE Multilin serial number format...
Page 440 6.5 PRODUCT INFORMATION 6 ACTUAL VALUES 6-30 M60 Motor Protection System GE Multilin...
Page 441: 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 M60 Motor Protection System...
Page 442 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. M60 Motor Protection System GE Multilin...
Page 443: Security
CLEAR SECURITY DATA: Default: No With the CyberSentry option, this setting is available to enable or disable the following commands: • Administrator Logoff: Selecting ‘Yes’ allows the Supervisor to forcefully logoff an administrator session. GE Multilin M60 Motor Protection System...
Page 444 Operator Logoff: Selecting ‘Yes’ allows the Supervisor to forcefully logoff an operator session. • Clear Security Data: Selecting ‘Yes’ allows the Supervisor to forcefully clear all the security logs and clears all the operands associated with the self-tests. M60 Motor Protection System GE Multilin...
Page 445: Targets
The critical fail relay on the power supply module is de-energized. • All other output relays are de-energized and are prevented from further operation. • The faceplate In Service LED indicator is turned off. • event is recorded. RELAY OUT OF SERVICE GE Multilin M60 Motor Protection System...
Page 446 How often the test is performed: On power up and whenever the   PRODUCT SETUP INSTALLATION RELAY SETTINGS setting is altered • What to do: Program all settings and then set   to “Programmed”. PRODUCT SETUP INSTALLATION RELAY SETTINGS M60 Motor Protection System GE Multilin...
Page 447 Description of problem: The Ethernet connection has failed for the specified port. • How often the test is performed: Every five seconds. • What to do: Check the Ethernet port connection on the switch. MAINTENANCE ALERT: **Bad IRIG-B Signal** GE Multilin M60 Motor Protection System...
Page 448 • 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. M60 Motor Protection System GE Multilin...
Page 449 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 GE Multilin M60 Motor Protection System...
Page 450 If this message appears, contact the factory and supply the failure code noted in the display. Text in the message identifies the failed module (for example, H81). If operated on a Process Card failure, the Module Fail self-test seals-in (latches) till the UR-series device is restarted. 7-10 M60 Motor Protection System GE Multilin...
Page 451 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. GE Multilin M60 Motor Protection System 7-11...
Page 452 7.2 TARGETS 7 COMMANDS AND TARGETS 7-12 M60 Motor Protection System GE Multilin...
Page 453: 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 M60 Motor Protection System...
Page 454 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 M60 sample clock to catch-up or wait as necessary to reach synchro- nism with the power system. M60 Motor Protection System GE Multilin...
Page 455: 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 M60 Motor Protection System...
Page 456 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 M60 Motor Protection System GE Multilin...
Page 457: 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 M60 Motor Protection System...
Page 458 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. M60 Motor Protection System GE Multilin...
Page 459: 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 M60 Motor Protection System...
Page 460 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. M60 Motor Protection System GE Multilin...
Page 461 Global Contacts 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 M60 Motor Protection System...
Page 462 9.2 BATTERIES 9 MAINTENANCE M60 Motor Protection System GE Multilin...
Page 463: Parameter Lists
Source 1 ground current magnitude 6168 SRC 1 Ig Angle Amps Source 1 ground current angle 6169 SRC 1 I_0 Mag Degrees Source 1 zero-sequence current magnitude 6171 SRC 1 I_0 Angle Amps Source 1 zero-sequence current angle GE Multilin M60 Motor Protection System...
Page 464 Source 3 ground current angle 6297 SRC 3 I_0 Mag Degrees Source 3 zero-sequence current magnitude 6299 SRC 3 I_0 Angle Amps Source 3 zero-sequence current angle 6300 SRC 3 I_1 Mag Degrees Source 3 positive-sequence current magnitude M60 Motor Protection System GE Multilin...
Page 465 SRC 1 Vca Mag Volts Source 1 phase CA voltage magnitude 6685 SRC 1 Vca Angle Degrees Source 1 phase CA voltage angle 6686 SRC 1 Vx RMS Volts Source 1 auxiliary voltage RMS GE Multilin M60 Motor Protection System...
Page 466 SRC 3 Vab RMS Volts Source 3 phase AB voltage RMS 6801 SRC 3 Vbc RMS Volts Source 3 phase BC voltage RMS 6803 SRC 3 Vca RMS Volts Source 3 phase CA voltage RMS M60 Motor Protection System GE Multilin...
Page 467 Source 1 phase A real power 7172 SRC 1 Pb Watts Source 1 phase B real power 7174 SRC 1 Pc Watts Source 1 phase C real power 7176 SRC 1 Q Vars Source 1 three-phase reactive power GE Multilin M60 Motor Protection System...
Page 468 Source 4 three-phase real power 7266 SRC 4 Pa Watts Source 4 phase A real power 7268 SRC 4 Pb Watts Source 4 phase B real power 7270 SRC 4 Pc Watts Source 4 phase C real power M60 Motor Protection System GE Multilin...
Page 469 RTD input 3 actual value 13555 RTD Inputs 4 Value RTD input 4 actual value 13556 RTD Inputs 5 Value RTD input 5 actual value 13557 RTD Inputs 6 Value RTD input 6 actual value GE Multilin M60 Motor Protection System...
Page 470 13601 Ohm Inputs 2 Value Ohms Ohm inputs 2 value 14189 PTP–IRIG-B Delta PTP time minus IRIG-B time 24447 Active Setting Group Current setting group 26161 Therm Mdl Cap Used Thermal model capacity used M60 Motor Protection System GE Multilin...
Page 471 Motor load at maximum broken rotor bar calculation 41001 Load Dev At Brb Max × FLA Motor load deviation at maximum broken rotor bar calculation 41002 Time St. At Brb Max Time stamp at maximum broken rotor bar GE Multilin M60 Motor Protection System...
Page 472 45610 GOOSE Analog In 14 IEC 61850 GOOSE analog input 14 45612 GOOSE Analog In 15 IEC 61850 GOOSE analog input 15 45614 GOOSE Analog In 16 IEC 61850 GOOSE analog input 16 A-10 M60 Motor Protection System GE Multilin...
Page 473: 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 M60 Motor Protection System A-11...
Page 474 A.1 PARAMETER LISTS APPENDIX A A-12 M60 Motor Protection System GE Multilin...
Page 475: Modbus Communications
Broadcast mode is only recognized when associated with function code 05h. For any other function code, a packet with broadcast mode slave address 0 will be ignored. GE Multilin M60 Motor Protection System...
Page 476: Algorithm
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 M60 Motor Protection System GE Multilin...
Page 477: 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 478: 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 M60 Motor Protection System GE Multilin...
Page 479: 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 GE Multilin M60 Motor Protection System...
Page 480: 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 M60 Motor Protection System GE Multilin...
Page 481: Modbus Password Operation
Command or setting password security access is restricted to the particular port or particular TCP/IP connection on which the entry was made. Passwords must be entered when accessing the relay through other ports or connections, and the passwords must be re-entered after disconnecting and re-connecting on TCP/IP. GE Multilin M60 Motor Protection System...
Page 482: Memory Mapping
0 (Off) 0411 Virtual Input 18 State 0 to 1 F108 0 (Off) 0412 Virtual Input 19 State 0 to 1 F108 0 (Off) 0413 Virtual Input 20 State 0 to 1 F108 0 (Off) M60 Motor Protection System GE Multilin...
Page 483 IEC103 Binary Input 1 INF 0 to 255 F001 0586 IEC103 Binary Input 1 Operand 0 to 4294967295 F300 0588 ...Repeated for Binary Input 2 058C ...Repeated for Binary Input 3 0590 ...Repeated for Binary Input 4 GE Multilin M60 Motor Protection System...
Page 484 ...Repeated for Binary Input 53 0658 ...Repeated for Binary Input 54 065C ...Repeated for Binary Input 55 0660 ...Repeated for Binary Input 56 0664 ...Repeated for Binary Input 57 0668 ...Repeated for Binary Input 58 B-10 M60 Motor Protection System GE Multilin...
Page 485 IEC103 ASDU 1 Analog Offset 3 -32768 to 32767 F002 0711 IEC103 ASDU 1 Analog Param 4 0 to 65535 F600 0712 IEC103 ASDU 1 Analog Factor 4 0 to 65.535 0.001 F001 1000 GE Multilin M60 Motor Protection System B-11...
Page 486 ...Repeated for IEC103 Command 26 07E8 ...Repeated for IEC103 Command 27 07EC ...Repeated for IEC103 Command 28 07F0 ...Repeated for IEC103 Command 29 07F4 ...Repeated for IEC103 Command 30 07F8 ...Repeated for IEC103 Command 31 B-12 M60 Motor Protection System GE Multilin...
Page 487 Direct Inputs/Outputs Unreturned Message Count - Ch. 1 0 to 65535 F001 15CB Direct Inputs/Outputs Unreturned Message Count - Ch. 2 0 to 65535 F001 15D0 Direct Device States 0 to 65535 F500 15D1 Reserved 0 to 65535 F001 GE Multilin M60 Motor Protection System B-13...
Page 488 Field Unit Transducer Actuals (Read Only) (8 Modules) 16C8 Field Transducer x Value -32.768 to 32.767 0.001 F004 16CA ...Repeated for module number 2 16CC ...Repeated for module number 3 16CE ...Repeated for module number 4 B-14 M60 Motor Protection System GE Multilin...
Page 489 Source 1 Phase CA or CB Voltage Magnitude 0 to 999999.999 0.001 F060 1A1D Source 1 Phase CA or CB Voltage Angle -359.9 to 0 degrees F002 1A1E Source 1 Auxiliary Voltage RMS F060 GE Multilin M60 Motor Protection System B-15...
Page 490 0.001 F060 1D06 Source 1 Negative Varhour 0 to 1000000000000 varh 0.001 F060 1D08 Reserved (8 items) F001 1D10 ...Repeated for Source 2 1D20 ...Repeated for Source 3 1D30 ...Repeated for Source 4 B-16 M60 Motor Protection System GE Multilin...
Page 491 IEC 61850 GGIO5 uinteger Input 6 Operand F612 26D6 IEC 61850 GGIO5 uinteger Input 7 Operand F612 26D7 IEC 61850 GGIO5 uinteger Input 8 Operand F612 26D8 IEC 61850 GGIO5 uinteger Input 9 Operand F612 GE Multilin M60 Motor Protection System B-17...
Page 492 3092 Fault Report 1 Function 0 to 1 F102 0 (Disabled) 3093 Fault Report 1 Prefault Trigger 0 to 4294967295 F300 3095 Fault Report Analog Channel 1 (32 items) 0 to 65536 F600 B-18 M60 Motor Protection System GE Multilin...
Page 493 0 (Disabled) 3334 Factory Service Mode Enable 0 to 1 F102 0 (Disabled) 3335 Failed Authentication Alarm Enable 0 to 1 F102 1 (Enabled) 3336 Firmware Lock Alarm 0 to 1 F102 1 (Enabled) GE Multilin M60 Motor Protection System B-19...
Page 494 -32768 to 32767 °C F002 34F5 RTD Input 6 Value -32768 to 32767 °C F002 34F6 RTD Input 7 Value -32768 to 32767 °C F002 34F7 RTD Input 8 Value -32768 to 32767 °C F002 B-20 M60 Motor Protection System GE Multilin...
Page 495 3738 Undefined 1 to 65535 F001 1813 3739 Undefined 0 to 4294967295 F003 56554706 373B Undefined 0 to 65535 F001 1812 373D Undefined 0 to 65535 F001 1813 373F Undefined F619 0 (EAP-TTLS) GE Multilin M60 Motor Protection System B-21...
Page 496 Remote Ground CT x Origin 1 0 to 16 F248 0 (none)) 3893 Remote Ground CT x Origin 2 0 to 16 F248 0 (none) 3894 AC Bank Redundancy Type 0 to 2 F261 1 (Dependability Biased) B-22 M60 Motor Protection System GE Multilin...
Page 497 ...Repeated for Field Contact Input 29 3A3F ...Repeated for Field Contact Input 30 3A4A ...Repeated for Field Contact Input 31 3A55 ...Repeated for Field Contact Input 32 3A60 ...Repeated for Field Contact Input 33 GE Multilin M60 Motor Protection System B-23...
Page 498 ...Repeated for Field Latching Output 7 3E22 ...Repeated for Field Latching Output 8 Field Unit Shared Outputs (Read/Write Setting) (16 Modules) 3E30 Field Shared Output 1 ID 0 to 65535 F205 "SO 1" B-24 M60 Motor Protection System GE Multilin...
Page 499 Attached Field Unit 1 Type 0 to 3 F243 0 (CC-05) 3FC0 Field Unit 1 Status 0 to 4 F262 0 (Disabled) 3FC1 ...Repeated for Field Unit 2 3FCA ...Repeated for Field Unit 3 GE Multilin M60 Motor Protection System B-25...
Page 500 0 to 11 F112 8 (115200) 4086 RS485 Com2 Parity 0 to 2 F113 0 (None) 4087 IP Address 0 to 4294967295 F003 56554706 4089 IP Subnet Mask 0 to 4294967295 F003 4294966272 B-26 M60 Motor Protection System GE Multilin...
Page 501 F003 4104 IEC 60870-5-104 Redundancy Port 0 to 1 F126 0 (No) 4105 Port 2 IP Address 0 to 4294967295 F003 56554706 4107 Port 2 IP Subnet Mask 0 to 4294967295 F003 4294966272 GE Multilin M60 Motor Protection System B-27...
Page 502 0 to 11 F237 0 (January) 41AB Daylight Savings Time (DST) Start Day 0 to 6 F238 0 (Sunday) 41AC Daylight Savings Time (DST) Start Day Instance 0 to 4 F239 0 (First) B-28 M60 Motor Protection System GE Multilin...
Page 503 ...Repeated for User-Programmable LED 30 431A ...Repeated for User-Programmable LED 31 431D ...Repeated for User-Programmable LED 32 4320 ...Repeated for User-Programmable LED 33 4323 ...Repeated for User-Programmable LED 34 4326 ...Repeated for User-Programmable LED 35 GE Multilin M60 Motor Protection System B-29...
Page 504 Ground CT 1 Secondary 0 to 1 F123 0 (1 A) 4484 ...Repeated for CT Bank 2 4488 ...Repeated for CT Bank 3 448C ...Repeated for CT Bank 4 4490 ...Repeated for CT Bank 5 B-30 M60 Motor Protection System GE Multilin...
Page 505 0.001 F001 47F3 Breaker 1 Events 0 to 1 F102 0 (Disabled) 47F4 Reserved 0 to 65535 F001 47F5 ...Repeated for breaker 2 481A ...Repeated for breaker 3 483F ...Repeated for breaker 4 GE Multilin M60 Motor Protection System B-31...
Page 506 Raw Field Data Brick Transceiver Voltage 0 to 0.01 0.01 F001 4E22 Raw Field Data Brick Transceiver Current 0 to 1 F001 4E23 Raw Field Data Brick Tx Power 0 to 0.01 F002 B-32 M60 Motor Protection System GE Multilin...
Page 507 ...Repeated for RTD Input 18 5568 ...Repeated for RTD Input 19 557C ...Repeated for RTD Input 20 5590 ...Repeated for RTD Input 21 55A4 ...Repeated for RTD Input 22 55B8 ...Repeated for RTD Input 23 GE Multilin M60 Motor Protection System B-33...
Page 508 ...Repeated for FlexLogic Timer 20 58A0 ...Repeated for FlexLogic Timer 21 58A8 ...Repeated for FlexLogic Timer 22 58B0 ...Repeated for FlexLogic Timer 23 58B8 ...Repeated for FlexLogic Timer 24 58C0 ...Repeated for FlexLogic Timer 25 B-34 M60 Motor Protection System GE Multilin...
Page 509 Ground Time Overcurrent 1 Signal Source 0 to 5 F167 0 (SRC 1) 5D02 Ground Time Overcurrent 1 Input 0 to 1 F122 0 (Phasor) 5D03 Ground Time Overcurrent 1 Pickup 0 to 30 0.001 F001 1000 GE Multilin M60 Motor Protection System B-35...
Page 510 Setting Group for Modbus Comms (0 means group 1) 0 to 5 F001 5F71 Setting Groups Block 0 to 4294967295 F300 5F73 FlexLogic to Activate Groups 2 through 6 (5 items) 0 to 4294967295 F300 B-36 M60 Motor Protection System GE Multilin...
Page 511 0 to 65.535 0.001 F001 6477 Overfrequency 1 Target 0 to 2 F109 0 (Self-reset) 6478 Overfrequency 1 Events 0 to 1 F102 0 (Disabled) 6479 Reserved (4 items) 0 to 1 F001 GE Multilin M60 Motor Protection System B-37...
Page 512 66AD Underpower 1 Alarm Pickup Delay 0 to 600 0.01 F001 66AE Underpower 1 Trip Power Pickup 0.05 to 2 0.01 F001 66AF Underpower 1 Trip Pickup Delay 0 to 600 0.01 F001 B-38 M60 Motor Protection System GE Multilin...
Page 513 1 to 10 x FLA 0.01 F001 6952 Mechanical Jam Pickup Delay 0.1 to 600 0.01 F001 6953 Mechanical Jam Reset Delay 0 to 600 0.01 F001 6954 Mechanical Jam Block 0 to 4294967295 F300 GE Multilin M60 Motor Protection System B-39...
Page 514 0 to 2 F109 0 (Self-reset) 7208 Phase Directional Overcurrent 1 Events 0 to 1 F102 0 (Disabled) 7209 Reserved (8 items) 0 to 1 F001 7211 ...Repeated for Phase Directional Overcurrent 2 B-40 M60 Motor Protection System GE Multilin...
Page 515 ...Repeated for module number 14 7652 ...Repeated for module number 15 7671 ...Repeated for module number 16 7690 ...Repeated for module number 17 76AF ...Repeated for module number 18 76CE ...Repeated for module number 19 GE Multilin M60 Motor Protection System B-41...
Page 516 Voltage Dependent Overload Voltage Loss 0 to 4294967295 F300  FLA 7B24 VD Overload Stall Current at Minimum Volts 1.5 to 20 0.01 F001 7B25 VD Overload Safe Stall Time at Minimum Volts 0.1 to 1000 F001 B-42 M60 Motor Protection System GE Multilin...
Page 517 ...Repeated for User Programmable Pushbutton 7 7CB0 ...Repeated for User Programmable Pushbutton 8 7DE0 ...Repeated for User Programmable Pushbutton 9 7D10 ...Repeated for User Programmable Pushbutton 10 7D40 ...Repeated for User Programmable Pushbutton 11 GE Multilin M60 Motor Protection System B-43...
Page 518 2147483647 81C4 Reserved Register T4 0 to 4294967295 F003 81C6 Reserved Register T5 0 to 4294967295 F003 81C8 Reserved Register T6 0 to 4294967295 F003 81CA Reserved Register T7 0 to 4294967295 F003 B-44 M60 Motor Protection System GE Multilin...
Page 519 Breaker Failure 1 Phase B Initiate 0 to 4294967295 F300 8623 Breaker Failure 1 Phase C Initiate 0 to 4294967295 F300 8625 Breaker Failure 1 Breaker Status 1 Phase B 0 to 4294967295 F300 GE Multilin M60 Motor Protection System B-45...
Page 520 ...Repeated for Digital Element 16 8B60 ...Repeated for Digital Element 17 8B76 ...Repeated for Digital Element 18 8B8C ...Repeated for Digital Element 19 8BA2 ...Repeated for Digital Element 20 8BB8 ...Repeated for Digital Element 21 B-46 M60 Motor Protection System GE Multilin...
Page 521 0 to 1 F517 0 (OVER) 9009 FlexElement 1 Hysteresis 0.1 to 50 F001 900A FlexElement 1 Pickup -90 to 90 0.001 F004 1000 900C FlexElement 1 DeltaT Units 0 to 2 F518 0 (Milliseconds) GE Multilin M60 Motor Protection System B-47...
Page 522 F522 0 (–1 to 1 mA) 9362 dcmA Output 1 Minimum –90 to 90 0.001 F004 9364 dcmA Output 1 Maximum –90 to 90 0.001 F004 1000 9366 ...Repeated for dcmA Output 2 B-48 M60 Motor Protection System GE Multilin...
Page 523 ...Repeated for Direct Input/Output 25 952C ...Repeated for Direct Input/Output 26 9538 ...Repeated for Direct Input/Output 27 9544 ...Repeated for Direct Input/Output 28 9550 ...Repeated for Direct Input/Output 29 955C ...Repeated for Direct Input/Output 30 GE Multilin M60 Motor Protection System B-49...
Page 524 Teleprotection Output 1-n Operand (16 items) 0 to 4294967295 F300 9A40 Teleprotection Output 2-n Operand (16 items) 0 to 4294967295 F300 Teleprotection Channel Tests (Read Only) 9AA0 Teleprotection Channel 1 Status 0 to 2 F134 1 (OK) B-50 M60 Motor Protection System GE Multilin...
Page 525 0.01 F001 A039 Broken rotor bar block 0 to 4294967295 F300 A03B Broken rotor bar target 0 to 2 F109 0 (Self-reset) A03C Broken rotor bar events 0 to 1 F102 0 (Disabled) GE Multilin M60 Motor Protection System B-51...
Page 526 0 to 4294967295 F300 A319 Digital Counter 1 Freeze/Count 0 to 4294967295 F300 A31B Digital Counter 1 Set To Preset 0 to 4294967295 F300 A31D Reserved (11 items) F001 A328 ...Repeated for Digital Counter 2 B-52 M60 Motor Protection System GE Multilin...
Page 527 ...Repeated for IEC 61850 GOOSE analog input 14 AA62 ...Repeated for IEC 61850 GOOSE analog input 15 AA69 ...Repeated for IEC 61850 GOOSE analog input 16 AA70 ...Repeated for IEC 61850 GOOSE analog input 17 GE Multilin M60 Motor Protection System B-53...
Page 528 1000 IEC 61850 GGIO4 Analog Input Points Configuration Settings (Read/Write) AF10 IEC 61850 GGIO4 analog input 1 value F600 AF11 IEC 61850 GGIO4 analog input 1 deadband 0.001 to 100 0.001 F003 100000 B-54 M60 Motor Protection System GE Multilin...
Page 529 Include non-IEC 61850 Data 0 to 1 F102 0 (Disabled) B0B6 IEC 61850 Server Data Scanning Function 0 to 1 F102 0 (Disabled) B0B7 IEC 61850 LPHD Latitude -90 to 90 degree 0.001 F004 GE Multilin M60 Motor Protection System B-55...
Page 530 ...Repeated for Received Analog 11 B226 ...Repeated for Received Analog 12 B228 ...Repeated for Received Analog 13 B22A ...Repeated for Received Analog 14 B22C ...Repeated for Received Analog 15 B22E ...Repeated for Received Analog 16 B-56 M60 Motor Protection System GE Multilin...
Page 531 IEC 61850 Configurable GOOSE ID 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 M60 Motor Protection System B-57...
Page 532 ...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 BBA8 ...Repeated for Contact Input 22 B-58 M60 Motor Protection System GE Multilin...
Page 533 ...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 BD58 ...Repeated for Contact Input 76 GE Multilin M60 Motor Protection System B-59...
Page 534 ...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 BF68 ...Repeated for Virtual Input 27 B-60 M60 Motor Protection System GE Multilin...
Page 535 ...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 C198 ...Repeated for Virtual Output 14 GE Multilin M60 Motor Protection System B-61...
Page 536 ...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 C348 ...Repeated for Virtual Output 68 B-62 M60 Motor Protection System GE Multilin...
Page 537 Platform Direct Outputs (Read/Write Setting) (32 Modules) C600 Direct Output 1 Operand 0 to 4294967295 F300 C602 Direct Output 1 Events 0 to 1 F102 0 (Disabled) C603 ...Repeated for Direct Output 2 GE Multilin M60 Motor Protection System B-63...
Page 538 Direct input/output commands (Read/Write Command) C888 Direct input/output clear counters command 0 to 1 F126 0 (No) Direct inputs (Read/Write Setting) (32 Modules) C890 Direct Input 1 Device Number 0 to 16 F001 B-64 M60 Motor Protection System GE Multilin...
Page 539 Direct I/O Ch 2 Unreturned Messages Alarm Msg Count 100 to 10000 F001 CAEA Direct I/O Ch 2 Unreturned Messages Alarm Threshold 1 to 1000 F001 CAEB Direct I/O Channel 2 Unreturned Messages Alarm Events 0 to 1 F102 0 (Disabled) GE Multilin M60 Motor Protection System B-65...
Page 540 ...Repeated for Remote Input 6 CFDC ...Repeated for Remote Input 7 CFE6 ...Repeated for Remote Input 8 CFF0 ...Repeated for Remote Input 9 CFFA ...Repeated for Remote Input 10 D004 ...Repeated for Remote Input 11 B-66 M60 Motor Protection System GE Multilin...
Page 541 ...Repeated for Remote Input 59 D1EE ...Repeated for Remote Input 60 D1F8 ...Repeated for Remote Input 61 D202 ...Repeated for Remote Input 62 D20C ...Repeated for Remote Input 63 D216 ...Repeated for Remote Input 64 GE Multilin M60 Motor Protection System B-67...
Page 542 ...Repeated for Remote Output 11 D2CC ...Repeated for Remote Output 12 D2D0 ...Repeated for Remote Output 13 D2D4 ...Repeated for Remote Output 14 D2D8 ...Repeated for Remote Output 15 D2DC ...Repeated for Remote Output 16 B-68 M60 Motor Protection System GE Multilin...
Page 543 IEC 61850 GGIO2.CF.SPCSO34.ctlModel Value 0 to 2 F001 D342 IEC 61850 GGIO2.CF.SPCSO35.ctlModel Value 0 to 2 F001 D343 IEC 61850 GGIO2.CF.SPCSO36.ctlModel Value 0 to 2 F001 D344 IEC 61850 GGIO2.CF.SPCSO37.ctlModel Value 0 to 2 F001 GE Multilin M60 Motor Protection System B-69...
Page 544 ...Repeated for Remote Device 20 D3B0 ...Repeated for Remote Device 21 D3B4 ...Repeated for Remote Device 22 D3B8 ...Repeated for Remote Device 23 D3BC ...Repeated for Remote Device 24 D3C0 ...Repeated for Remote Device 25 B-70 M60 Motor Protection System GE Multilin...
Page 545 ...Repeated for Contact Output 34 D5DE ...Repeated for Contact Output 35 D5ED ...Repeated for Contact Output 36 D5FC ...Repeated for Contact Output 37 D60B ...Repeated for Contact Output 38 D61A ...Repeated for Contact Output 39 GE Multilin M60 Motor Protection System B-71...
Page 546 ...Repeated for dcmA Inputs 17 D8E3 ...Repeated for dcmA Inputs 18 D9F6 ...Repeated for dcmA Inputs 19 D909 ...Repeated for dcmA Inputs 20 D91C ...Repeated for dcmA Inputs 21 D92F ...Repeated for dcmA Inputs 22 B-72 M60 Motor Protection System GE Multilin...
Page 547 ED01 Template Access F205 (none) Setting File Template (Read Only) ED07 Last Settings Change Date 0 to 4294967295 F050 Settings File Template (Read/Write Setting) ED09 Template Bitmask (750 items) 0 to 65535 F001 GE Multilin M60 Motor Protection System B-73...
Page 548: Data Formats
First 16 bits are Hours/Minutes (HH:MM:xx.xxx). Hours: 0=12am, 1=1am,...,12=12pm,...23=11pm; F098 Minutes: 0 to 59 in steps of 1 ENUMERATION: MOTOR STATUS 0 = Offline, 1 = Starting, 2 = Running, 3 = Overload B-74 M60 Motor Protection System GE Multilin...
Page 549 Phase Instantaneous Overcurrent 2 ENUMERATION: CONTACT OUTPUT OPERATION Phase Time Overcurrent 1 0 = Self-reset, 1 = Latched, 2 = Disabled Phase Time Overcurrent 2 Neutral Instantaneous Overcurrent 1 Neutral Instantaneous Overcurrent 2 GE Multilin M60 Motor Protection System B-75...
Page 550 Digital Element 16 FlexElement 4 Digital Element 17 FlexElement 5 Digital Element 18 FlexElement 6 Digital Element 19 FlexElemen 7 Digital Element 20 FlexElement 8 Digital Element 21 FlexElement 9 Digital Element 22 B-76 M60 Motor Protection System GE Multilin...
Page 551 Disconnect switch 2 RTD Input 14 Disconnect switch 3 RTD Input 15 Disconnect switch 4 RTD Input 16 Disconnect switch 5 RTD Input 17 Disconnect switch 6 RTD Input 18 Disconnect switch 7 GE Multilin M60 Motor Protection System B-77...
Page 552 ENUMERATION: FORCED CONTACT OUTPUT STATE Any Minor Error Any Major Error 0 = Disabled, 1 = Energized, 2 = De-energized, 3 = Freeze Maintenance Alert Maintenance Alert IEC 61850 Data Set Aggregator Error B-78 M60 Motor Protection System GE Multilin...
Page 553 A bit value of 0 = no error, 1 = error System Integrity Recovery 06 System Integrity Recovery 07 F144 ENUMERATION: FORCED CONTACT INPUT STATE 0 = Disabled, 1 = Open, 2 = Closed GE Multilin M60 Motor Protection System B-79...
Page 554 0 = Vn, 1 = Vag, 2 = Vbg, 3 = Vcg, 4 = Vab, 5 = Vbc, 6 = Vca F167 ENUMERATION: SIGNAL SOURCE 0 = SRC 1, 1 = SRC 2, 2 = SRC 3, 3 = SRC 4, 4 = SRC 5, 5 = SRC 6 B-80 M60 Motor Protection System GE Multilin...
Page 555 User-programmable key 13 Message Down User-programmable key 14 Message Left User-programmable key 15 Message Right User-programmable key 16 Menu User 4 (control pushbutton) Help User 5 (control pushbutton) Escape User 6 (control pushbutton) GE Multilin M60 Motor Protection System B-81...
Page 556 0 = None, 1 = SRC 1, 2 = SRC 2, 3 = SRC 3, 4 = SRC 4, MMXU1.MX.PhV.phsA.cVal.ang.f 5 = SRC 5, 6 = SRC 6 MMXU1.MX.PhV.phsB.cVal.mag.f MMXU1.MX.PhV.phsB.cVal.ang.f MMXU1.MX.PhV.phsC.cVal.mag.f MMXU1.MX.PhV.phsC.cVal.ang.f MMXU1.MX.A.phsA.cVal.mag.f B-82 M60 Motor Protection System GE Multilin...
Page 557 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 MMXU2.MX.VA.phsB.cVal.mag.f MMXU4.MX.PhV.phsA.cVal.mag.f MMXU2.MX.VA.phsC.cVal.mag.f MMXU4.MX.PhV.phsA.cVal.ang.f GE Multilin M60 Motor Protection System B-83...
Page 558 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 MMXU5.MX.W.phsC.cVal.mag.f GGIO4.MX.AnIn7.mag.f MMXU5.MX.VAr.phsA.cVal.mag.f GGIO4.MX.AnIn8.mag.f B-84 M60 Motor Protection System GE Multilin...
Page 559 GGIO5.ST.UIntIn7.q GGIO3.MX.AnIn21.mag.f GGIO5.ST.UIntIn7.stVal GGIO3.MX.AnIn22.mag.f GGIO5.ST.UIntIn8.q GGIO3.MX.AnIn23.mag.f GGIO5.ST.UIntIn8.stVal GGIO3.MX.AnIn24.mag.f GGIO5.ST.UIntIn9.q GGIO3.MX.AnIn25.mag.f GGIO5.ST.UIntIn9.stVal GGIO3.MX.AnIn26.mag.f GGIO5.ST.UIntIn10.q GGIO3.MX.AnIn27.mag.f GGIO5.ST.UIntIn10.stVal GGIO3.MX.AnIn28.mag.f GGIO5.ST.UIntIn11.q GGIO3.MX.AnIn29.mag.f GGIO5.ST.UIntIn11.stVal GGIO3.MX.AnIn30.mag.f GGIO5.ST.UIntIn12.q GGIO3.MX.AnIn31.mag.f GGIO5.ST.UIntIn12.stVal GGIO3.MX.AnIn32.mag.f GGIO5.ST.UIntIn13.q GGIO3.ST.IndPos1.stVal GGIO5.ST.UIntIn13.stVal GGIO3.ST.IndPos2.stVal GGIO5.ST.UIntIn14.q GGIO3.ST.IndPos3.stVal GGIO5.ST.UIntIn14.stVal GGIO3.ST.IndPos4.stVal GGIO5.ST.UIntIn15.q GE Multilin M60 Motor Protection System B-85...
Page 560 ENUMERATION: REAL TIME CLOCK MONTH Isolated Forcible Value Month January February F246 ENUMERATION: BRICK TRANSDUCER RANGE March April Value Description -5...5V June -1...1mA July 0...1mA August 0...-1mA September 0...5mA October 0...10mA November 0...20mA December 4...20mA B-86 M60 Motor Protection System GE Multilin...
Page 561 The right most T bit indicates whether the type is an ON Value Description or OFF type. There can be a total of 64 types (plus protection ele- None ments). There can be a total of 256 descriptors of each type. GE Multilin M60 Motor Protection System B-87...
Page 562 0 = Reset-Dominant, 1 = Set-Dominant 0 = Default Value, 1 = Last Known F522 ENUMERATION: TRANSDUCER DCMA OUTPUT RANGE 0 = –1 to 1 mA; 1 = 0 to 1 mA; 2 = 4 to 20 mA B-88 M60 Motor Protection System GE Multilin...
Page 563 Enumeration RTD trip voting None Group RTD Input 1 RTD Input 2 RTD Input 3 RTD Input 4 RTD Input 5 RTD Input 6 RTD Input 7 RTD Input 8 RTD Input 9 GE Multilin M60 Motor Protection System B-89...
Page 564 Remote RTD 2 PDIF1.ST.Op.general Remote RTD 3 PDIF2.ST.Str.general Remote RTD 4 PDIF2.ST.Op.general Remote RTD 5 PDIF3.ST.Str.general Remote RTD 6 PDIF3.ST.Op.general Remote RTD 7 PDIF4.ST.Str.general Remote RTD 8 PDIF4.ST.Op.general Remote RTD 9 PDIS1.ST.Str.general Remote RTD 10 B-90 M60 Motor Protection System GE Multilin...
Page 565 PIOC36.ST.Str.general PIOC10.ST.Str.general PIOC36.ST.Op.general PIOC10.ST.Op.general PIOC37.ST.Str.general PIOC11.ST.Str.general PIOC37.ST.Op.general PIOC11.ST.Op.general PIOC38.ST.Str.general PIOC12.ST.Str.general PIOC38.ST.Op.general PIOC12.ST.Op.general PIOC39.ST.Str.general PIOC13.ST.Str.general PIOC39.ST.Op.general PIOC13.ST.Op.general PIOC40.ST.Str.general PIOC14.ST.Str.general PIOC40.ST.Op.general PIOC14.ST.Op.general PIOC41.ST.Str.general PIOC15.ST.Str.general PIOC41.ST.Op.general PIOC15.ST.Op.general PIOC42.ST.Str.general PIOC16.ST.Str.general PIOC42.ST.Op.general PIOC16.ST.Op.general PIOC43.ST.Str.general PIOC17.ST.Str.general PIOC43.ST.Op.general PIOC17.ST.Op.general PIOC44.ST.Str.general GE Multilin M60 Motor Protection System B-91...
Page 566 PTOC17.ST.Str.general PIOC63.ST.Str.general PTOC17.ST.Op.general PIOC63.ST.Op.general PTOC18.ST.Str.general PIOC64.ST.Str.general PTOC18.ST.Op.general PIOC64.ST.Op.general PTOC19.ST.Str.general PIOC65.ST.Str.general PTOC19.ST.Op.general PIOC65.ST.Op.general PTOC20.ST.Str.general PIOC66.ST.Str.general PTOC20.ST.Op.general PIOC66.ST.Op.general PTOC21.ST.Str.general PIOC67.ST.Str.general PTOC21.ST.Op.general PIOC67.ST.Op.general PTOC22.ST.Str.general PIOC68.ST.Str.general PTOC22.ST.Op.general PIOC68.ST.Op.general PTOC23.ST.Str.general PIOC69.ST.Str.general PTOC23.ST.Op.general PIOC69.ST.Op.general PTOC24.ST.Str.general PIOC70.ST.Str.general PTOC24.ST.Op.general PIOC70.ST.Op.general PTOV1.ST.Str.general B-92 M60 Motor Protection System GE Multilin...
Page 567 RBRF17.ST.OpEx.general PTUV4.ST.Str.general RBRF17.ST.OpIn.general PTUV4.ST.Op.general RBRF18.ST.OpEx.general PTUV5.ST.Str.general RBRF18.ST.OpIn.general PTUV5.ST.Op.general RBRF19.ST.OpEx.general PTUV6.ST.Str.general RBRF19.ST.OpIn.general PTUV6.ST.Op.general RBRF20.ST.OpEx.general PTUV7.ST.Str.general RBRF20.ST.OpIn.general PTUV7.ST.Op.general RBRF21.ST.OpEx.general PTUV8.ST.Str.general RBRF21.ST.OpIn.general PTUV8.ST.Op.general RBRF22.ST.OpEx.general PTUV9.ST.Str.general RBRF22.ST.OpIn.general PTUV9.ST.Op.general RBRF23.ST.OpEx.general PTUV10.ST.Str.general RBRF23.ST.OpIn.general PTUV10.ST.Op.general RBRF24.ST.OpEx.general PTUV11.ST.Str.general RBRF24.ST.OpIn.general PTUV11.ST.Op.general RFLO1.MX.FltDiskm.mag.f GE Multilin M60 Motor Protection System B-93...
Page 568 GGIO1.ST.Ind11.stVal CSWI10.ST.Loc.stVal GGIO1.ST.Ind12.stVal CSWI10.ST.Pos.stVal GGIO1.ST.Ind13.stVal CSWI11.ST.Loc.stVal GGIO1.ST.Ind14.stVal CSWI11.ST.Pos.stVal GGIO1.ST.Ind15.stVal CSWI12.ST.Loc.stVal GGIO1.ST.Ind16.stVal CSWI12.ST.Pos.stVal GGIO1.ST.Ind17.stVal CSWI13.ST.Loc.stVal GGIO1.ST.Ind18.stVal CSWI13.ST.Pos.stVal GGIO1.ST.Ind19.stVal CSWI14.ST.Loc.stVal GGIO1.ST.Ind20.stVal CSWI14.ST.Pos.stVal GGIO1.ST.Ind21.stVal CSWI15.ST.Loc.stVal GGIO1.ST.Ind22.stVal CSWI15.ST.Pos.stVal GGIO1.ST.Ind23.stVal CSWI16.ST.Loc.stVal GGIO1.ST.Ind24.stVal CSWI16.ST.Pos.stVal GGIO1.ST.Ind25.stVal CSWI17.ST.Loc.stVal GGIO1.ST.Ind26.stVal CSWI17.ST.Pos.stVal GGIO1.ST.Ind27.stVal B-94 M60 Motor Protection System GE Multilin...
Page 569 GGIO1.ST.Ind117.stVal GGIO1.ST.Ind65.stVal GGIO1.ST.Ind118.stVal GGIO1.ST.Ind66.stVal GGIO1.ST.Ind119.stVal GGIO1.ST.Ind67.stVal GGIO1.ST.Ind120.stVal GGIO1.ST.Ind68.stVal GGIO1.ST.Ind121.stVal GGIO1.ST.Ind69.stVal GGIO1.ST.Ind122.stVal GGIO1.ST.Ind70.stVal GGIO1.ST.Ind123.stVal GGIO1.ST.Ind71.stVal GGIO1.ST.Ind124.stVal GGIO1.ST.Ind72.stVal GGIO1.ST.Ind125.stVal GGIO1.ST.Ind73.stVal GGIO1.ST.Ind126.stVal GGIO1.ST.Ind74.stVal GGIO1.ST.Ind127.stVal GGIO1.ST.Ind75.stVal GGIO1.ST.Ind128.stVal GGIO1.ST.Ind76.stVal MMXU1.MX.TotW.mag.f GGIO1.ST.Ind77.stVal MMXU1.MX.TotVAr.mag.f GGIO1.ST.Ind78.stVal MMXU1.MX.TotVA.mag.f GGIO1.ST.Ind79.stVal MMXU1.MX.TotPF.mag.f GGIO1.ST.Ind80.stVal MMXU1.MX.Hz.mag.f GE Multilin M60 Motor Protection System B-95...
Page 570 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 MMXU2.MX.PhV.phsB.cVal.ang.f MMXU3.MX.VAr.phsC.cVal.mag.f MMXU2.MX.PhV.phsC.cVal.mag.f MMXU3.MX.VA.phsA.cVal.mag.f 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 B-96 M60 Motor Protection System GE Multilin...
Page 571 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 MMXU5.MX.PPV.phsCA.cVal.mag.f MMXU6.MX.W.phsA.cVal.mag.f MMXU5.MX.PPV.phsCA.cVal.ang.f MMXU6.MX.W.phsB.cVal.mag.f 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 GE Multilin M60 Motor Protection System B-97...
Page 572 GGIO4.MX.AnIn28.mag.f XCBR1.ST.Loc.stVal GGIO4.MX.AnIn29.mag.f XCBR1.ST.Pos.stVal GGIO4.MX.AnIn30.mag.f XCBR2.ST.Loc.stVal GGIO4.MX.AnIn31.mag.f XCBR2.ST.Pos.stVal GGIO4.MX.AnIn32.mag.f XCBR3.ST.Loc.stVal XSWI1.ST.Loc.stVal XCBR3.ST.Pos.stVal XSWI1.ST.Pos.stVal XCBR4.ST.Loc.stVal XSWI2.ST.Loc.stVal XCBR4.ST.Pos.stVal XSWI2.ST.Pos.stVal XCBR5.ST.Loc.stVal XSWI3.ST.Loc.stVal XCBR5.ST.Pos.stVal XSWI3.ST.Pos.stVal XCBR6.ST.Loc.stVal XSWI4.ST.Loc.stVal XCBR6.ST.Pos.stVal XSWI4.ST.Pos.stVal XSWI5.ST.Loc.stVal XSWI5.ST.Pos.stVal XSWI6.ST.Loc.stVal XSWI6.ST.Pos.stVal XSWI7.ST.Loc.stVal XSWI7.ST.Pos.stVal XSWI8.ST.Loc.stVal XSWI8.ST.Pos.stVal B-98 M60 Motor Protection System GE Multilin...
Page 573 GGIO1.ST.Ind43.q GGIO1.ST.Ind17.q GGIO1.ST.Ind43.stVal GGIO1.ST.Ind17.stVal GGIO1.ST.Ind44.q GGIO1.ST.Ind18.q GGIO1.ST.Ind44.stVal GGIO1.ST.Ind18.stVal GGIO1.ST.Ind45.q GGIO1.ST.Ind19.q GGIO1.ST.Ind45.stVal GGIO1.ST.Ind19.stVal GGIO1.ST.Ind46.q GGIO1.ST.Ind20.q GGIO1.ST.Ind46.stVal GGIO1.ST.Ind20.stVal GGIO1.ST.Ind47.q GGIO1.ST.Ind21.q GGIO1.ST.Ind47.stVal GGIO1.ST.Ind21.stVal GGIO1.ST.Ind48.q GGIO1.ST.Ind22.q GGIO1.ST.Ind48.stVal GGIO1.ST.Ind22.stVal GGIO1.ST.Ind49.q GGIO1.ST.Ind23.q GGIO1.ST.Ind49.stVal GGIO1.ST.Ind23.stVal GGIO1.ST.Ind50.q GGIO1.ST.Ind24.q GGIO1.ST.Ind50.stVal GGIO1.ST.Ind24.stVal GGIO1.ST.Ind51.q GE Multilin M60 Motor Protection System B-99...
Page 574 GGIO1.ST.Ind96.q GGIO1.ST.Ind70.q GGIO1.ST.Ind96.stVal GGIO1.ST.Ind70.stVal GGIO1.ST.Ind97.q GGIO1.ST.Ind71.q GGIO1.ST.Ind97.stVal GGIO1.ST.Ind71.stVal GGIO1.ST.Ind98.q GGIO1.ST.Ind72.q GGIO1.ST.Ind98.stVal GGIO1.ST.Ind72.stVal GGIO1.ST.Ind99.q GGIO1.ST.Ind73.q GGIO1.ST.Ind99.stVal GGIO1.ST.Ind73.stVal GGIO1.ST.Ind100.q GGIO1.ST.Ind74.q GGIO1.ST.Ind100.stVal GGIO1.ST.Ind74.stVal GGIO1.ST.Ind101.q GGIO1.ST.Ind75.q GGIO1.ST.Ind101.stVal GGIO1.ST.Ind75.stVal GGIO1.ST.Ind102.q GGIO1.ST.Ind76.q GGIO1.ST.Ind102.stVal GGIO1.ST.Ind76.stVal GGIO1.ST.Ind103.q GGIO1.ST.Ind77.q GGIO1.ST.Ind103.stVal GGIO1.ST.Ind77.stVal GGIO1.ST.Ind104.q B-100 M60 Motor Protection System GE Multilin...
Page 575 MMXU2.MX.TotPF.mag.f GGIO1.ST.Ind123.q MMXU2.MX.Hz.mag.f GGIO1.ST.Ind123.stVal MMXU2.MX.PPV.phsAB.cVal.mag.f GGIO1.ST.Ind124.q MMXU2.MX.PPV.phsAB.cVal.ang.f GGIO1.ST.Ind124.stVal MMXU2.MX.PPV.phsBC.cVal.mag.f GGIO1.ST.Ind125.q MMXU2.MX.PPV.phsBC.cVal.ang.f GGIO1.ST.Ind125.stVal MMXU2.MX.PPV.phsCA.cVal.mag.f GGIO1.ST.Ind126.q MMXU2.MX.PPV.phsCA.cVal.ang.f GGIO1.ST.Ind126.stVal MMXU2.MX.PhV.phsA.cVal.mag.f GGIO1.ST.Ind127.q MMXU2.MX.PhV.phsA.cVal.ang.f GGIO1.ST.Ind127.stVal MMXU2.MX.PhV.phsB.cVal.mag.f GGIO1.ST.Ind128.q MMXU2.MX.PhV.phsB.cVal.ang.f GGIO1.ST.Ind128.stVal MMXU2.MX.PhV.phsC.cVal.mag.f MMXU1.MX.TotW.mag.f MMXU2.MX.PhV.phsC.cVal.ang.f MMXU1.MX.TotVAr.mag.f MMXU2.MX.A.phsA.cVal.mag.f MMXU1.MX.TotVA.mag.f MMXU2.MX.A.phsA.cVal.ang.f MMXU1.MX.TotPF.mag.f MMXU2.MX.A.phsB.cVal.mag.f GE Multilin M60 Motor Protection System B-101...
Page 576 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 MMXU3.MX.A.neut.cVal.mag.f MMXU5.MX.TotVA.mag.f MMXU3.MX.A.neut.cVal.ang.f MMXU5.MX.TotPF.mag.f MMXU3.MX.W.phsA.cVal.mag.f MMXU5.MX.Hz.mag.f MMXU3.MX.W.phsB.cVal.mag.f MMXU5.MX.PPV.phsAB.cVal.mag.f MMXU3.MX.W.phsC.cVal.mag.f MMXU5.MX.PPV.phsAB.cVal.ang.f MMXU3.MX.VAr.phsA.cVal.mag.f MMXU5.MX.PPV.phsBC.cVal.mag.f MMXU3.MX.VAr.phsB.cVal.mag.f MMXU5.MX.PPV.phsBC.cVal.ang.f MMXU3.MX.VAr.phsC.cVal.mag.f MMXU5.MX.PPV.phsCA.cVal.mag.f MMXU3.MX.VA.phsA.cVal.mag.f MMXU5.MX.PPV.phsCA.cVal.ang.f MMXU3.MX.VA.phsB.cVal.mag.f MMXU5.MX.PhV.phsA.cVal.mag.f MMXU3.MX.VA.phsC.cVal.mag.f MMXU5.MX.PhV.phsA.cVal.ang.f MMXU3.MX.PF.phsA.cVal.mag.f MMXU5.MX.PhV.phsB.cVal.mag.f MMXU3.MX.PF.phsB.cVal.mag.f MMXU5.MX.PhV.phsB.cVal.ang.f B-102 M60 Motor Protection System GE Multilin...
Page 577 GGIO4.MX.AnIn31.mag.f MMXU6.MX.PhV.phsC.cVal.mag.f GGIO4.MX.AnIn32.mag.f MMXU6.MX.PhV.phsC.cVal.ang.f GGIO5.ST.UIntIn1.q MMXU6.MX.A.phsA.cVal.mag.f GGIO5.ST.UIntIn1.stVal MMXU6.MX.A.phsA.cVal.ang.f GGIO5.ST.UIntIn2.q MMXU6.MX.A.phsB.cVal.mag.f GGIO5.ST.UIntIn2.stVal MMXU6.MX.A.phsB.cVal.ang.f GGIO5.ST.UIntIn3.q MMXU6.MX.A.phsC.cVal.mag.f GGIO5.ST.UIntIn3.stVal MMXU6.MX.A.phsC.cVal.ang.f GGIO5.ST.UIntIn4.q MMXU6.MX.A.neut.cVal.mag.f GGIO5.ST.UIntIn4.stVal MMXU6.MX.A.neut.cVal.ang.f GGIO5.ST.UIntIn5.q MMXU6.MX.W.phsA.cVal.mag.f GGIO5.ST.UIntIn5.stVal MMXU6.MX.W.phsB.cVal.mag.f GGIO5.ST.UIntIn6.q MMXU6.MX.W.phsC.cVal.mag.f GGIO5.ST.UIntIn6.stVal MMXU6.MX.VAr.phsA.cVal.mag.f GGIO5.ST.UIntIn7.q MMXU6.MX.VAr.phsB.cVal.mag.f GGIO5.ST.UIntIn7.stVal MMXU6.MX.VAr.phsC.cVal.mag.f GGIO5.ST.UIntIn8.q GE Multilin M60 Motor Protection System B-103...
Page 578 PIOC23.ST.Str.general PDIS7.ST.Str.general PIOC23.ST.Op.general PDIS7.ST.Op.general PIOC24.ST.Str.general PDIS8.ST.Str.general PIOC24.ST.Op.general PDIS8.ST.Op.general PIOC25.ST.Str.general PDIS9.ST.Str.general PIOC25.ST.Op.general PDIS9.ST.Op.general PIOC26.ST.Str.general PDIS10.ST.Str.general PIOC26.ST.Op.general PDIS10.ST.Op.general PIOC27.ST.Str.general PIOC1.ST.Str.general PIOC27.ST.Op.general PIOC1.ST.Op.general PIOC28.ST.Str.general PIOC2.ST.Str.general PIOC28.ST.Op.general PIOC2.ST.Op.general PIOC29.ST.Str.general PIOC3.ST.Str.general PIOC29.ST.Op.general PIOC3.ST.Op.general PIOC30.ST.Str.general PIOC4.ST.Str.general PIOC30.ST.Op.general PIOC4.ST.Op.general PIOC31.ST.Str.general B-104 M60 Motor Protection System GE Multilin...
Page 579 PTOC4.ST.Str.general PIOC50.ST.Str.general PTOC4.ST.Op.general PIOC50.ST.Op.general PTOC5.ST.Str.general PIOC51.ST.Str.general PTOC5.ST.Op.general PIOC51.ST.Op.general PTOC6.ST.Str.general PIOC52.ST.Str.general PTOC6.ST.Op.general PIOC52.ST.Op.general PTOC7.ST.Str.general PIOC53.ST.Str.general PTOC7.ST.Op.general PIOC53.ST.Op.general PTOC8.ST.Str.general PIOC54.ST.Str.general PTOC8.ST.Op.general PIOC54.ST.Op.general PTOC9.ST.Str.general PIOC55.ST.Str.general PTOC9.ST.Op.general PIOC55.ST.Op.general PTOC10.ST.Str.general PIOC56.ST.Str.general PTOC10.ST.Op.general PIOC56.ST.Op.general PTOC11.ST.Str.general PIOC57.ST.Str.general PTOC11.ST.Op.general PIOC57.ST.Op.general PTOC12.ST.Str.general GE Multilin M60 Motor Protection System B-105...
Page 580 RBRF4.ST.OpEx.general PTOV7.ST.Str.general RBRF4.ST.OpIn.general PTOV7.ST.Op.general RBRF5.ST.OpEx.general PTOV8.ST.Str.general RBRF5.ST.OpIn.general PTOV8.ST.Op.general RBRF6.ST.OpEx.general PTOV9.ST.Str.general RBRF6.ST.OpIn.general PTOV9.ST.Op.general RBRF7.ST.OpEx.general PTOV10.ST.Str.general RBRF7.ST.OpIn.general PTOV10.ST.Op.general RBRF8.ST.OpEx.general PTRC1.ST.Tr.general RBRF8.ST.OpIn.general PTRC1.ST.Op.general RBRF9.ST.OpEx.general PTRC2.ST.Tr.general RBRF9.ST.OpIn.general PTRC2.ST.Op.general RBRF10.ST.OpEx.general PTRC3.ST.Tr.general RBRF10.ST.OpIn.general PTRC3.ST.Op.general RBRF11.ST.OpEx.general PTRC4.ST.Tr.general RBRF11.ST.OpIn.general PTRC4.ST.Op.general RBRF12.ST.OpEx.general B-106 M60 Motor Protection System GE Multilin...
Page 581 CSWI23.ST.Loc.stVal RREC3.ST.Op.general CSWI23.ST.Pos.stVal RREC3.ST.AutoRecSt.stVal CSWI24.ST.Loc.stVal RREC4.ST.Op.general CSWI24.ST.Pos.stVal RREC4.ST.AutoRecSt.stVal CSWI25.ST.Loc.stVal RREC5.ST.Op.general CSWI25.ST.Pos.stVal RREC5.ST.AutoRecSt.stVal CSWI26.ST.Loc.stVal RREC6.ST.Op.general CSWI26.ST.Pos.stVal RREC6.ST.AutoRecSt.stVal CSWI27.ST.Loc.stVal CSWI1.ST.Loc.stVal CSWI27.ST.Pos.stVal CSWI1.ST.Pos.stVal CSWI28.ST.Loc.stVal CSWI2.ST.Loc.stVal CSWI28.ST.Pos.stVal CSWI2.ST.Pos.stVal CSWI29.ST.Loc.stVal CSWI3.ST.Loc.stVal CSWI29.ST.Pos.stVal CSWI3.ST.Pos.stVal CSWI30.ST.Loc.stVal CSWI4.ST.Loc.stVal CSWI30.ST.Pos.stVal CSWI4.ST.Pos.stVal XSWI1.ST.Loc.stVal GE Multilin M60 Motor Protection System B-107...
Page 582 XSWI20.ST.Loc.stVal Port 3 PTP Clock XSWI20.ST.Pos.stVal IRIG-B XSWI21.ST.Loc.stVal SNTP XSWI21.ST.Pos.stVal XSWI22.ST.Loc.stVal XSWI22.ST.Pos.stVal F625 ENUMERATION: PTP STATE XSWI23.ST.Loc.stVal XSWI23.ST.Pos.stVal Enumeration Item XSWI24.ST.Loc.stVal Disabled XSWI24.ST.Pos.stVal No Signal XCBR1.ST.Loc.stVal Calibrating XCBR1.ST.Pos.stVal Synchronized XCBR2.ST.Loc.stVal Synchronized (No PDelay) B-108 M60 Motor Protection System GE Multilin...
Page 583 APPENDIX B B.4 MEMORY MAPPING F626 F627 ENUMERATION: NETWORK PORT FOR REMOTE DEVICE ENUMERATION: REDUNDANCY MODE Enumeration Item Enumeration Item None None Network Port 1 Failover Network Port 2 Network Port 3 GE Multilin M60 Motor Protection System B-109...
Page 584 B.4 MEMORY MAPPING APPENDIX B B-110 M60 Motor Protection System GE Multilin...
Page 585: 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 M60 Motor Protection System...
Page 586: 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. M60 Motor Protection System GE Multilin...
Page 587: Mmxu: Analog Measured Values
The following list describes the protection elements for all UR-series relays. The M60 relay will contain a subset of protec- tion elements from this list. • PDIF: bus differential, transformer instantaneous differential, transformer percent differential, current differential GE Multilin M60 Motor Protection System...
Page 588 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. M60 Motor Protection System GE Multilin...
Page 589: Server Features And Configuration
M60. 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 M60. GE Multilin M60 Motor Protection System...
Page 590: Logical Node Name Prefixes
The exact structure and values of the supported IEC 61850 logical nodes can be seen by connecting to a M60 relay with an MMS browser, such as the “MMS Object Explorer and AXS4-MMS” DDE/OPC server from Sisco Inc. M60 Motor Protection System GE Multilin...
Page 591: 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 M60. The M60 supports the configuration of eight (8) transmission and reception datasets, allowing for the optimization of data transfer between devices. GE Multilin M60 Motor Protection System...
Page 592 “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. M60 Motor Protection System GE Multilin...
Page 593 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. GE Multilin M60 Motor Protection System...
Page 594: 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 M60; no settings are required. C-10 M60 Motor Protection System GE Multilin...
Page 595: Iec 61850 Implementation Via Enervista Ur Setup
An ICD file is generated for the M60 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 596: 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 597: 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 598 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. C-14 M60 Motor Protection System GE Multilin...
Page 599 RptEnabled 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 GE Multilin M60 Motor Protection System C-15...
Page 600 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 C-16 M60 Motor Protection System GE Multilin...
Page 601: 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 602 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 C-18 M60 Motor Protection System GE Multilin...
Page 603 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. GE Multilin M60 Motor Protection System...
Page 604: Importing An Scd File With Enervista Ur Setup
The following procedure describes how to update the M60 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. C-20 M60 Motor Protection System GE Multilin...
Page 605 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 606: Acsi Conformance
Setting group control 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 C-22 M60 Motor Protection System GE Multilin...
Page 607: Acsi Services Conformance Statement
SERVER/ 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 GE Multilin M60 Motor Protection System C-23...
Page 608 LOGGING (CLAUSE 17) 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 C-24 M60 Motor Protection System GE Multilin...
Page 609 (QueryLogByTime or QueryLogAfter) c8: shall declare support for at least one (SendGOOSEMessage or SendGSSEMessage) NOTE c9: shall declare support if TP association is available c10: shall declare support for at least one (SendMSVMessage or SendUSVMessage) GE Multilin M60 Motor Protection System C-25...
Page 610: 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 C-26 M60 Motor Protection System GE Multilin...
Page 611 PRTR: Rotor protection 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 GE Multilin M60 Motor Protection System C-27...
Page 612 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 C-28 M60 Motor Protection System GE Multilin...
Page 613 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 GE Multilin M60 Motor Protection System C-29...
Page 614 C.7 LOGICAL NODES APPENDIX C C-30 M60 Motor Protection System GE Multilin...
Page 615: 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 M60 Motor Protection System...
Page 616: 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 M60 Motor Protection System GE Multilin...
Page 617  <67> Start/pick-up N  <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 M60 Motor Protection System...
Page 618  <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 M60 Motor Protection System GE Multilin...
Page 619  Generic services  Private data Miscellaneous MEASURAND MAX MVAL = TIMES RATED VALUE Current L   Current L   Current L   Voltage L   Voltage L   GE Multilin M60 Motor Protection System...
Page 620 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   M60 Motor Protection System GE Multilin...
Page 621: 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 M60 Motor Protection System...
Page 622  <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 M60 Motor Protection System GE Multilin...
Page 623  <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 M60 Motor Protection System...
Page 624 •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 M60 Motor Protection System GE Multilin...
Page 625 <34> 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 M60 Motor Protection System...
Page 626 <120> 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 M60 Motor Protection System GE Multilin...
Page 627  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 M60 Motor Protection System...
Page 628 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 M60 Motor Protection System GE Multilin...
Page 629: Point List
E.1.2 POINT 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 M60 Motor Protection System...
Page 630 E.1 IEC 60870-5-104 PROTOCOL APPENDIX E E-10 M60 Motor Protection System GE Multilin...
Page 631: Device Profile Document
2048 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 M60 Motor Protection System...
Page 632 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. M60 Motor Protection System GE Multilin...
Page 633  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 M60 Motor Protection System...
Page 634: 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 M60 is not restarted, but the DNP process is restarted. M60 Motor Protection System GE Multilin...
Page 635 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 M60 is not restarted, but the DNP process is restarted. GE Multilin M60 Motor Protection System...
Page 636 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 M60 is not restarted, but the DNP process is restarted. M60 Motor Protection System GE Multilin...
Page 637 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 M60 is not restarted, but the DNP process is restarted. GE Multilin M60 Motor Protection System...
Page 638: 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 M60 Motor Protection System GE Multilin...
Page 639: Binary And Control Relay Output
Virtual Input 27 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 M60 Motor Protection System...
Page 640: Counters
A counter freeze command has no meaning for counters 8 and 9. M60 Digital Counter values are represented as 32-bit integers. The DNP 3.0 protocol defines counters to be unsigned integers. Care should be taken when interpreting negative counter values. F-10 M60 Motor Protection System GE Multilin...
Page 641: 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 M60 Motor Protection System F-11...
Page 642 F.2 DNP POINT LISTS APPENDIX F F-12 M60 Motor Protection System GE Multilin...
Page 643: Radius Server Configuration
Set up the RADIUS client on the UR as follows. Access Device > 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.
Page 644 G.1 RADIUS SERVER CONFIGURATION APPENDIX G M60 Motor Protection System GE Multilin...
Page 645: Revision History
04 January 2011 11-2237 1601-0109-W1 5.9x 12 January 2011 11-2227 1601-0109-X1 6.0x 21 December 2011 11-2840 1601-0109-X2 6.0x 5 April 2012 12-3254 1601-0109-Y1 7.0x 30 September 2012 12-3529 1601-0109-Y2 7.0x 11 November 2012 12-3601 GE Multilin M60 Motor Protection System...
Page 646: Changes To The M60 Manual
Added battery disposal information as chapter 0 Table H–5: MAJOR UPDATES FOR M60 MANUAL REVISION Y2 (Sheet 1 of 2) PAGE PAGE CHANGE DESCRIPTION (Y1) (Y2) Update Minor changes throughout document Delete Deleted CPU options U and V M60 Motor Protection System GE Multilin...
Page 647 Added new section 6.2.21 Remaining Connection Status Added Security command to the Commands main menu Added Reboot Relay command and description to the Relay Maintenance menu items Added Security menu and submenu commands and descriptions to the Command menu GE Multilin M60 Motor Protection System...
Page 648 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 M60 Motor Protection System GE Multilin...
Page 649: Abbreviations
FxE ....FlexElement™ AMP ....Ampere FWD....Forward ANG ....Angle ANSI....American National Standards Institute G .....Generator AR ....Automatic Reclosure GE....General Electric ASDU ..... Application-layer Service Data Unit GND....Ground ASYM ..... Asymmetry GNTR....Generator AUTO ..... Automatic GOOSE...General Object Oriented Substation Event AUX....
Page 650 WRT....With Respect To RSTR ..... Restrained RTD ....Resistance Temperature Detector X ....Reactance RTU ....Remote Terminal Unit XDUCER..Transducer RX (Rx) ..Receive, Receiver XFMR..... Transformer s ..... second Z..... Impedance, Zone M60 Motor Protection System GE Multilin...
Page 651: H.3.1 Ge Multilin Warranty
24 months from date of shipment from factory. In the event of a failure covered by warranty, GE Multilin will undertake to repair or replace the relay providing the warrantor determined that it is defective and it is returned with all transportation charges prepaid to an authorized service centre or the factory.
Page 652: Warranty
H.3 WARRANTY APPENDIX H M60 Motor Protection System GE Multilin...
Page 653 Modbus registers ............B-63 settings ................. 5-25 CLOCK setting date and time ............7-2 BANKS ............. 5-6, 5-97, 5-98 settings ................. 5-64 BATTERY COMMANDS MENU ............7-1 disposal ................9-5 failure ................7-7 replace ................9-3 GE Multilin M60 Motor Protection System...
Page 654 DIMENSIONS ............. 3-1, 3-2 CT FAILURE DIRECT DEVICES logic ................5-245 actual values ..............6-11 settings ............... 5-244 Modbus registers ............B-21 CT INPUTS ............3-11, 5-6, 5-97 settings ................ 5-261 CT WIRING ..............3-11 M60 Motor Protection System GE Multilin...
Page 655 ............4-1 settings ..........5-134, 5-135, 5-138 event recorder ..............4-2 specifications ..............2-20 firmware upgrades ............4-2 installation ..............1-5 introduction ..............4-1 oscillography ..............4-2 overview ................. 4-1 requirements ..............1-5 GE Multilin M60 Motor Protection System...
Page 656 G.703 ............ 3-28, 3-29, 3-30, 3-33 direct inputs ..............2-23 GATEWAY ADDRESS ............5-32 IRIG-B ..............2-22, 3-24 GE TYPE IAC CURVES ..........5-194 remote inputs ......... 2-22, 5-257, 5-258, 5-259 GROUND CURRENT METERING ........6-19 RTD inputs ............2-22, 3-20 GROUND IOC virtual ................
Page 657 ................2-21 FlexLogic operands ............5-122 voltage ................2-21 logic ................5-212 METERING CONVENTIONS ..........6-15 Modbus registers ............B-37 settings ............... 5-212 specifications ..............2-19 NEUTRAL DIRECTIONAL OC Modbus registers ............B-41 GE Multilin M60 Motor Protection System...
Page 658 FlexCurves ..............5-195 settings ................ 5-210 I2T ................5-195 specifications ..............2-19 IAC ................5-194 PHASE ROTATION ............5-99 IEC ................5-193 PHASE TIME OVERCURRENT IEEE ................5-191 see entry for PHASE TOC PHASE TOC specifications ..............2-17 M60 Motor Protection System GE Multilin...
Page 659 ................5-224 FlexLogic operands ............. 5-126 Modbus registers ............B-52 Modbus registers ........ B-13, B-18, B-66, B-70 settings ............... 5-219 settings ............... 5-257 specifications ..............2-21 statistics ................. 6-8 timing ............... 5-222, 5-223 GE Multilin M60 Motor Protection System...
Page 660 ............... 5-171 TRACEABILITY description..............5-171 data ..............4-11, 4-12 FlexLogic operands ............5-124 overview ................4-10 logic ................5-172 rules ................4-12 Modbus registers ..........B-14, B-37 TRACKING FREQUENCY ........6-23, B-44 settings ............... 5-171 specifications..............2-17 viii M60 Motor Protection System GE Multilin...
Page 661 USER-PROGRAMMABLE FAULT REPORT WATT-HOURS ............2-21, 6-21 actual values ..............6-25 WEB SERVER PROTOCOL ..........5-55 clearing ..............5-25, 7-2 WEBSITE ................1-2 Modbus registers ............B-18 settings ................. 5-69 ZERO SEQUENCE CORE BALANCE ........ 3-11 GE Multilin M60 Motor Protection System...
Page 662 INDEX M60 Motor Protection System GE Multilin...

GE M60 UR Series Instruction Manual

1 Getting Started

2 Product Description

3 Hardware

4 Human Interfaces

5 Settings

6 Actual Values

7 Commands and

8 Commissioning

9 Maintenance

Parameter Lists

Modbus Communications

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 M60 UR Series

Summary of Contents for GE M60 UR Series