Page 1 Title Page Digital Energy N60 Network Stability and Synchrophasor Measurement System UR Series Instruction Manual N60 Revision: 5.9x Manual P/N: 1601-0125-W2 (GEK-113387A) 847710A1.CDR E83849 GE Digital Energy LISTED 650 Markland Street IND.CONT. EQ. 52TL Markham, Ontario GE Multilin's Quality Management...
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
1.3 ENERVISTA UR SETUP SOFTWARE 1.3.1 PC REQUIREMENTS ..................1-6 1.3.2 INSTALLATION....................1-6 1.3.3 CONFIGURING THE N60 FOR SOFTWARE ACCESS ........1-7 1.3.4 USING THE QUICK CONNECT FEATURE............. 1-10 1.3.5 CONNECTING TO THE N60 RELAY .............. 1-16 1.4 UR HARDWARE 1.4.1...
Page 4 5.2.1 SECURITY......................5-8 5.2.2 DISPLAY PROPERTIES ..................5-13 5.2.3 CLEAR RELAY RECORDS ................5-14 5.2.4 COMMUNICATIONS ..................5-15 5.2.5 MODBUS USER MAP ..................5-38 5.2.6 REAL TIME CLOCK ..................5-39 5.2.7 OSCILLOGRAPHY ...................5-40 5.2.8 DATA LOGGER ....................5-42 N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 5 REMOTE INPUTS..................5-187 5.8.7 REMOTE DOUBLE-POINT STATUS INPUTS ..........5-188 5.8.8 REMOTE OUTPUTS..................5-188 5.8.9 RESETTING....................5-189 5.8.10 DIRECT INPUTS AND OUTPUTS ..............5-190 5.8.11 DIRECT ANALOG INPUTS AND OUTPUTS ..........5-193 GE Multilin N60 Network Stability and Synchrophasor Measurement System...
Page 6 6.4.1 EVENT RECORDS ...................6-24 6.4.2 OSCILLOGRAPHY ...................6-24 6.4.3 DATA LOGGER ....................6-24 6.4.4 PHASOR MEASUREMENT UNIT RECORDS ..........6-25 6.4.5 BREAKER MAINTENANCE ................6-26 6.5 PRODUCT INFORMATION 6.5.1 MODEL INFORMATION ...................6-27 6.5.2 FIRMWARE REVISIONS..................6-27 N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 7 A. FLEXANALOG AND A.1 PARAMETER LISTS FLEXINTEGER A.1.1 FLEXANALOG ITEMS ..................A-1 A.1.2 FLEXINTEGER ITEMS ..................A-17 PARAMETERS B. MODBUS B.1 MODBUS RTU PROTOCOL COMMUNICATIONS B.1.1 INTRODUCTION....................B-1 B.1.2 PHYSICAL LAYER.....................B-1 B.1.3 DATA LINK LAYER....................B-1 GE Multilin N60 Network Stability and Synchrophasor Measurement System...
Page 8 C.6.1 ACSI BASIC CONFORMANCE STATEMENT ..........C-23 C.6.2 ACSI MODELS CONFORMANCE STATEMENT ..........C-23 C.6.3 ACSI SERVICES CONFORMANCE STATEMENT ......... C-24 C.7 LOGICAL NODES C.7.1 LOGICAL NODES TABLE ................C-27 viii N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 9 F.1 CHANGE NOTES F.1.1 REVISION HISTORY ..................F-1 F.1.2 CHANGES TO THE MANUAL ................F-1 F.2 ABBREVIATIONS F.2.1 STANDARD ABBREVIATIONS ............... F-11 F.3 WARRANTY F.3.1 GE MULTILIN WARRANTY ................F-13 INDEX GE Multilin N60 Network Stability and Synchrophasor Measurement System...
Page 10 TABLE OF CONTENTS N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 11 (Cd), ólom (Pb) vagy higany (Hg) tartalomra utaló betűjelzés. A hulladék akkumulátor leadható a termék forgalmazójánál új akkumulátor vásárlásakor, vagy a kijelölt elektronikai hulladékudvarokban. További információ a www.recyclethis.info oldalon. GE Multilin N60 Network Stability and Synchrophasor Measurement System...
Page 12 Batteriet är märkt med denna symbol, vilket kan innebära att det innehåller kadmium (Cd), bly (Pb) eller kvicksilver (Hg). För korrekt återvinning skall batteriet returneras till leverantören eller till en därför avsedd deponering. För mer information, se: www.recyclethis.info. N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 13 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 N60 Network Stability and Synchrophasor Measurement System xiii...
Page 14 0.1 BATTERY DISPOSAL 0 BATTERY DISPOSAL N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 15: Getting Started
1 GETTING STARTED 1.1 IMPORTANT PROCEDURES 1 GETTING STARTED 1.1IMPORTANT PROCEDURES Please read this chapter to help guide you through the initial setup of your new N60 Network Stability and Synchrophasor Measurement System. 1.1.1 CAUTIONS AND WARNINGS Before attempting to install or use the device, review all safety indicators in this document to help prevent injury, equipment damage, or downtime.
Page 16 1.1 IMPORTANT PROCEDURES 1 GETTING STARTED E-MAIL: Worldwide multilin.tech@ge.com Europe multilin.tech.euro@ge.com HOME PAGE: http://www.gedigitalenergy.com/multilin N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 17: Ur Overview
This new generation of equipment must also be easily incorporated into automation systems, at both the station and enterprise levels. The GE Multilin Universal Relay (UR) has been developed to meet these goals. GE Multilin...
Page 18: Hardware Architecture
(dual) ring configuration. This feature is optimized for speed and intended for pilot- aided schemes, distributed logic applications, or the extension of the input/output capabilities of a single relay chassis. N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 19: Software Architecture
Employing OOD/OOP in the software architecture of the N60 achieves the same features as the hardware architecture: modularity, scalability, and flexibility. The application software for any UR-series device (for example, feeder protection, transformer protection, distance protection) is constructed by combining objects from the various functionality classes.
Page 20: Enervista Ur Setup Software
Video capable of displaying 800 x 600 or higher in high-color mode (16-bit color) • RS232 and/or Ethernet port for communications to the relay The following qualified modems have been tested to be compliant with the N60 and the EnerVista UR Setup software. • US Robotics external 56K FaxModem 5686 •...
Page 21: Configuring The N60 For Software Access
OVERVIEW The user can connect remotely to the N60 through the rear RS485 port or the rear Ethernet port with a PC running the EnerVista UR Setup software. The N60 can also be accessed locally with a computer through the front panel RS232 port or the rear Ethernet port using the Quick Connect feature.
Page 22 RS232 port. A computer with an RS232 port and a serial cable is required. To use the RS485 port at the back of the relay, a GE Multilin F485 converter (or compatible RS232-to-RS485 converter) is required. See the F485 instruction manual for details.
Page 23 MODBUS SLAVE ADDRESS fields. 11. Click the Read Order Code button to connect to the N60 device and upload the order code. If an communications error occurs, ensure that the EnerVista UR Setup serial communications values entered in the previous step corre- spond to the relay setting values.
Page 24: Using The Quick Connect Feature
MODBUS PROTOCOL 11. Click the Read Order Code button to connect to the N60 device and upload the order code. If an communications error occurs, ensure that the three EnerVista UR Setup values entered in the previous steps correspond to the relay setting values.
Page 25 N60. This ensures that configuration of the EnerVista UR Setup software matches the N60 model number. b) USING QUICK CONNECT VIA THE REAR ETHERNET PORTS To use the Quick Connect feature to access the N60 from a computer through Ethernet, first assign an IP address to the relay from the front panel keyboard.
Page 26 Right-click the Local Area Connection icon and select Properties. Select the Internet Protocol (TCP/IP) item from the list provided and click the Properties button. Click on the “Use the following IP address” box. 1-12 N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 27 1 GETTING STARTED 1.3 ENERVISTA UR SETUP SOFTWARE Enter an IP address with the first three numbers the same as the IP address of the N60 relay and the last number dif- ferent (in this example, 1.1.1.2). Enter a subnet mask equal to the one set in the N60 (in this example, 255.0.0.0).
Page 28 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 N60 relay. 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 for installation details.
Page 29 Each time the EnerVista UR Setup software is initialized, click the Quick Connect button to establish direct communica- tions to the N60. This ensures that configuration of the EnerVista UR Setup software matches the N60 model number. When direct communications with the N60 via Ethernet is complete, make the following changes: From the Windows desktop, right-click the My Network Places icon and select Properties to open the network con- nections window.
Page 30: Connecting To The N60 Relay
The EnerVista UR Setup software has several new quick action buttons that provide users with instant access to several functions that are often performed when using N60 relays. From the online window, users can select which relay to interro- gate from a pull-down window, then click on the button for the action they wish to perform. The following quick action func- tions are available: •...
Page 31: Ur Hardware
Figure 1–7: RELAY COMMUNICATIONS OPTIONS To communicate through the N60 rear RS485 port from a PC 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 N60 rear communications port.
Page 32: Using The Relay
LED off. The relay in the “Not Programmed” state will block signaling of any output relay. These conditions will remain until the relay is explicitly put in the “Programmed” state. Select the menu message    SETTINGS PRODUCT SETUP INSTALLATION RELAY SETTINGS RELAY SETTINGS: Not Programmed 1-18 N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 33: Relay Passwords
NOTE 1.5.6 FLEXLOGIC™ CUSTOMIZATION FlexLogic™ equation editing is required for setting up user-defined logic for customizing the relay operations. See the Flex- Logic™ section in Chapter 5 for additional details. GE Multilin N60 Network Stability and Synchrophasor Measurement System 1-19...
Page 34: Commissioning
1.5.7 COMMISSIONING The N60 requires a minimum amount of maintenance when it is commissioned into service. Since the N60 is a micropro- cessor-based relay, its characteristics do not change over time. As such, no further functional tests are required. Expected service life is 20 years for UR devices manufactured June 2014 or later when applied in a controlled indoors environment and electrical conditions within specification.
Page 35: Product Description
Up to 64 on/off signals can be exchanged between any two N60 devices via digital communications. The relays could be configured in rings with up to 16 devices each using direct fiber (C37.94), G.704 and RS422 interfaces. An optional redun- dant (dual-channel) communication card supports combinations of the three interfaces allowing different physical connec- tions in each channel.
Page 36 User-programmable self-tests Disconnect switches Non-volatile latches Virtual inputs (64) DNP 3.0 or IEC 60870-5-104 protocol Non-volatile selector switch Virtual outputs (96) Eight-bit switch Open pole detect VT fuse failure Event recorder Oscillography N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 37 2 PRODUCT DESCRIPTION 2.1 INTRODUCTION Figure 2–2: SINGLE LINE DIAGRAM GE Multilin N60 Network Stability and Synchrophasor Measurement System...
Page 38: Ordering
2.1.2 ORDERING a) OVERVIEW The N60 is available as a 19-inch rack horizontal mount or reduced-size (¾) vertical unit and consists of the following mod- ules: power supply, CPU, CT/VT, digital input and output, transducer input and output, and inter-relay communications.
Page 39: Replacement Modules
Replacement modules can be ordered separately as shown below. When ordering a replacement CPU module or face- plate, please provide the serial number of your existing unit. Not all replacement modules may be applicable to the N60 relay. Only the modules specified in the order codes are available as replacement modules.
Page 40 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 N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 41 Pickup delay: 0.00 to 600.00 in steps of 0.01 s Operate time: < 30 ms at 1.10 × pickup at 60 Hz Timing accuracy: ±3% or ±4 ms (whichever is greater) GE Multilin N60 Network Stability and Synchrophasor Measurement System...
Page 42 Number: up to 256 logical variables grouped tual input under 16 Modbus addresses Reset mode: self-reset or latched Programmability: any logical variable, contact, or virtual input N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 43: Specifications
01 channel for NN days 16 channels for NN days Triggers: any element pickup, dropout, or operate; digital input change of state; digital out- put change of state; self-test events Data storage: in non-volatile memory GE Multilin N60 Network Stability and Synchrophasor Measurement System...
Page 44: Metering
3-Phase Power (P, Q, and S) present WATT-HOURS (POSITIVE AND NEGATIVE) and maximum measured currents Accuracy: ±2.0% of reading Accuracy: ±2.0% ±0 to 1 × 10 Range: Parameters: three-phase only Update rate: 50 ms 2-10 N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 45: Inputs
Duration of auto-burnish impulse: 25 to 50 ms Remote devices: Default states on loss of comms.: On, Off, Latest/Off, Latest/On Ring configuration: Data rate: 64 or 128 kbps CRC: 32-bit GE Multilin N60 Network Stability and Synchrophasor Measurement System 2-11...
Page 46: Power Supply
15 to 250 V DC Operate time: < 0.6 ms Trickle current: approx. 1 to 2.5 mA Internal Limiting Resistor: 100 Ω, 2 W FORM-A CURRENT MONITOR Threshold current: approx. 80 to 100 mA 2-12 N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 47 Maximum voltage: 60 V DC Standard output points: 32 Internal fuse: 5 A / 350 V AC, Ceramic, Axial SLO User output points: BLO; Manufacturer: Conquer; Part number: SCD-A 005 GE Multilin N60 Network Stability and Synchrophasor Measurement System 2-13...
Page 48: Communications
MAXIMUM STANDARD FAST ETHERNET SEGMENT LENGTHS 10Base-T (CAT 3, 4, 5 UTP): 100 m (328 ft.) 100Base-TX (CAT 5 UTP):100 m (328 ft.) Shielded twisted pair: 150 m (492 ft.) 2-14 N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 49: Inter-Relay Communications
– Overvoltage category: 20°C Ingress protection: IP20 front, IP10 back HUMIDITY Noise: 0 dB Humidity: operating up to 95% (non-condensing) at 55°C (as per IEC60068-2-30 variant 1, 6days). GE Multilin N60 Network Stability and Synchrophasor Measurement System 2-15...
Page 50: Type Tests
IEEE/ANSI C37.90.1 2.5 kV, 1 MHz RF immunity IEEE/ANSI C37.90.2 20 V/m, 80 MHz to 1 GHz Safety UL508 e83849 NKCR Safety UL C22.2-14 e83849 NKCR7 Safety UL1053 e83849 NKCR 2-16 N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 51: Production Tests
Normally, cleaning is not required; but for situations where dust has accumulated on the faceplate display, a dry cloth can be used. Units that are stored in a de-energized state should be powered up once per year, for one hour continuously, to avoid deterioration of electrolytic capacitors. NOTE GE Multilin N60 Network Stability and Synchrophasor Measurement System 2-17...
Page 52 2.2 SPECIFICATIONS 2 PRODUCT DESCRIPTION 2-18 N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 53: Panel Cutout
3.1.1 PANEL CUTOUT The N60 Network Stability and Synchrophasor Measurement System is available as a 19-inch rack horizontal mount unit with a removable faceplate. The faceplate can be specified as either standard or enhanced at the time of ordering. The enhanced faceplate contains additional user-programmable pushbuttons and LED indicators.
Page 54 3.1 DESCRIPTION 3 HARDWARE Figure 3–2: N60 HORIZONTAL MOUNTING (ENHANCED PANEL) Figure 3–3: N60 HORIZONTAL MOUNTING AND DIMENSIONS (STANDARD PANEL) N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 55: Module Withdrawal And Insertion
The enhanced faceplate can be opened to the left, once the thumb screw has been removed, as shown below. This allows for easy accessibility of the modules for withdrawal. The new wide-angle hinge assembly in the enhanced front panel opens completely and allows easy access to all modules in the N60. 842812A1.CDR Figure 3–4: UR MODULE WITHDRAWAL AND INSERTION (ENHANCED FACEPLATE)
Page 56: Rear Terminal Layout
NOTE NOTE The 4.0x release of the N60 relay includes new hardware modules.The new CPU modules are specified with codes 9E and higher. The new CT/VT modules are specified with the codes 8F and higher. NOTE The new CT/VT modules can only be used with new CPUs; similarly, old CT/VT modules can only be used with old CPUs.
Page 57 3 HARDWARE 3.1 DESCRIPTION Figure 3–7: EXAMPLE OF MODULES IN F AND H SLOTS GE Multilin N60 Network Stability and Synchrophasor Measurement System...
Page 58: Wiring
3.2 WIRING 3 HARDWARE 3.2WIRING 3.2.1 TYPICAL WIRING Figure 3–8: TYPICAL WIRING DIAGRAM N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 59: Ge Multilin N60 Network Stability And Synchrophasor Measurement System
(see the Self-test errors section in chapter 7) or control power is lost, the relay will de-energize. For high reliability systems, the N60 has a redundant option in which two N60 power supplies are placed in parallel on the bus.
Page 60: Ct And Vt Modules
CT connections for both ABC and ACB phase rotations are identical as shown in the Typical wiring diagram. The exact placement of a zero-sequence core balance CT to detect ground fault current is shown as follows. Twisted-pair cabling on the zero-sequence CT is recommended. N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 61 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 3–11: CT/VT MODULE WIRING GE Multilin N60 Network Stability and Synchrophasor Measurement System...
Page 62: Process Bus Modules
3.2.5 PROCESS BUS MODULES The N60 can be ordered with a process bus interface module. This module is designed to interface with the GE Multilin HardFiber system, allowing bi-directional IEC 61850 fiber optic communications with up to eight HardFiber merging units, known as Bricks.
Page 63 Logic™ operand driving the contact output should be given a reset delay of 10 ms to prevent dam- age of the output contact (in situations when the element initiating the contact output is bouncing, at values in the region of the pickup value). GE Multilin N60 Network Stability and Synchrophasor Measurement System 3-11...
Page 64 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 3-12 N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 65 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 N60 Network Stability and Synchrophasor Measurement System 3-13...
Page 66 3.2 WIRING 3 HARDWARE Figure 3–13: CONTACT INPUT AND OUTPUT MODULE WIRING (1 of 2) 3-14 N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 67 3.2 WIRING Figure 3–14: CONTACT INPUT AND OUTPUT MODULE WIRING (2 of 2) For proper functionality, observe the polarity shown in the figures for all contact input and output con- nections. GE Multilin N60 Network Stability and Synchrophasor Measurement System 3-15...
Page 68 Wherever a tilde “~” symbol appears, substitute with the slot position of the module. NOTE There is no provision in the relay to detect a DC ground fault on 48 V DC control power external output. We recommend using an external DC supply. 3-16 N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 69 = ON 842751A1.CDR Figure 3–17: AUTO-BURNISH DIP SWITCHES The auto-burnish circuitry has an internal fuse for safety purposes. During regular maintenance, the auto-burnish functionality can be checked using an oscilloscope. NOTE GE Multilin N60 Network Stability and Synchrophasor Measurement System 3-17...
Page 70: Transducer Inputs And Outputs
(5A, 5C, 5D, 5E, and 5F) and channel arrangements that may be ordered for the relay. Wherever a tilde “~” symbol appears, substitute with the slot position of the module. NOTE Figure 3–18: TRANSDUCER INPUT/OUTPUT MODULE WIRING The following figure show how to connect RTDs. 3-18 N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 71 3 HARDWARE 3.2 WIRING Figure 3–19: RTD CONNECTIONS GE Multilin N60 Network Stability and Synchrophasor Measurement System 3-19...
Page 72: Rs232 Faceplate Port
3.2.8 RS232 FACEPLATE PORT A 9-pin RS232C serial port is located on the N60 faceplate for programming with a personal computer. All that is required to use this interface is a personal computer running the EnerVista UR Setup software provided with the relay. Cabling for the RS232 port is shown in the following figure for both 9-pin and 25-pin connectors.
Page 73 Installation of the 10/100Base-T Ethernet cable at the same time as the CH1 and/or CH2 100Base-F fiber cables does not affect the communication over the CH1 or CH2 fiber ports. Figure 3–21: CPU MODULE COMMUNICATIONS WIRING (MODULE APPLICABLE DEPENDS ON ORDER CODE) GE Multilin N60 Network Stability and Synchrophasor Measurement System 3-21...
Page 74 This common voltage is implied to be a power supply common. Some systems allow the shield (drain wire) to be used as common wire and to connect directly to the N60 COM terminal (#3); others function cor- rectly only if the common wire is connected to the N60 COM terminal, but insulated from the shield.
Page 75 The optical fiber sizes supported include 50/125 µm, 62.5/125 µm and 100/140 µm for 10 Mbps. In order to engage or dis- engage the ST type connector, only a quarter turn of the coupling is required. GE Multilin N60 Network Stability and Synchrophasor Measurement System 3-23...
Page 76: Irig-B
IRIG-B is a standard time code format that allows stamping of events to be synchronized among connected devices. The IRIG-B code allows time accuracies of up to 100 ns. Using the IRIG-B input, the N60 operates an internal oscillator with 1 µs resolution and accuracy.
Page 77 20 to 25 degree error in the synchrophasor angle measurement. The IEEE 1588 Precision Time Protocol can also be used to achieve accurate time synchronization for synchrophasor calculation. GE Multilin N60 Network Stability and Synchrophasor Measurement System 3-25...
Page 78: Direct Input And Output Communications
3.3.1 DESCRIPTION The N60 direct inputs and outputs feature makes use of the type 7 series of communications modules. These modules are also used by the L90 Line Differential Relay for inter-relay communications. The direct input and output feature uses the communications channels provided by these modules to exchange digital state information between relays.
Page 79 These modules are listed in the following table. All fiber modules use ST type connectors. Not all the direct input and output communications modules may be applicable to the N60 relay. Only the modules specified in the order codes are available as direct input and output communications modules.
Page 80: Fiber: Led And Eled Transmitters
The following figure shows the configuration for the 72, 73, 7D, and 7K fiber-laser module. Module: 72/ 7D 73/ 7K Connection Location: Slot X Slot X 831720A3.CDR 1 Channel 2 Channels Figure 3–29: LASER FIBER MODULES 3-28 N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 81 Observing any fiber transmitter output can injure the eye. When using a laser Interface, attenuators may be necessary to ensure that you do not exceed the maximum optical input power to the receiver. GE Multilin N60 Network Stability and Synchrophasor Measurement System 3-29...
Page 82: Interface
Remove the top cover by sliding it towards the rear and then lift it upwards. Set the timing selection switches (channel 1, channel 2) to the desired timing modes. Replace the top cover and the cover screw. 3-30 N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 83 For connection to a higher order system (UR- to-multiplexer, factory defaults), set to octet timing (S1 = ON) and set timing mode to loop timing (S5 = OFF and S6 = OFF). GE Multilin N60 Network Stability and Synchrophasor Measurement System 3-31...
Page 84 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 3-32 N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 85: Rs422 Interface
(data module 1), will connect to the clock inputs of the UR–RS422 interface in the usual fashion. In addition, the send timing outputs of data module 1 will also be paralleled to the terminal timing inputs of data module 2. GE Multilin N60 Network Stability and Synchrophasor Measurement System 3-33...
Page 86 Figure 3–37: TIMING CONFIGURATION FOR RS422 TWO-CHANNEL, 3-TERMINAL APPLICATION Data module 1 provides timing to the N60 RS422 interface via the ST(A) and ST(B) outputs. Data module 1 also provides timing to data module 2 TT(A) and TT(B) inputs via the ST(A) and AT(B) outputs. The data module pin numbers have been omitted in the figure above since they may vary depending on the manufacturer.
Page 87: Two-Channel Two-Clock Rs422 Interface
Rx1 + Shield Fiber Tx2 Rx2 channel 2 Surge 842777A1.CDR Figure 3–40: RS422 AND FIBER INTERFACE CONNECTION Connections shown above are for multiplexers configured as DCE (data communications equipment) units. GE Multilin N60 Network Stability and Synchrophasor Measurement System 3-35...
Page 88: Ieee C37.94 Interface
5.60. For customers using firmware release 5.60 and higher, the module can be identified with "Rev D" printed on the module and is to be used on all ends of N60 communi- cation for two and three terminal applications.
Page 89 Once the clips have cleared the raised edge of the chassis, engage the clips simultaneously. When the clips have locked into position, the module will be fully inserted. GE Multilin N60 Network Stability and Synchrophasor Measurement System 3-37...
Page 90 3.3 DIRECT INPUT AND OUTPUT COMMUNICATIONS 3 HARDWARE Figure 3–41: IEEE C37.94 TIMING SELECTION SWITCH SETTING 3-38 N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 91: Managed Ethernet Switch Modules
The type 2S and 2T embedded managed switch modules are supported by UR-series relays containing type 9S CPU mod- ules with revisions 5.5x and higher. The modules communicate to the N60 through an internal Ethernet port (referred to as the UR port or port 7) and provide an additional six external Ethernet ports: two 10/100Base-T ports and four multimode ST 100Base-FX ports.
Page 92: Managed Switch Led Indicators
DESCRIPTION Upon initial power up of a N60 device with an installed Ethernet switch, the front panel trouble LED will be illuminated and error message will be displayed. It will be necessary to configure the Ethernet switch and then ENET MODULE OFFLINE place it online.
Page 93 The following procedure describes how to initially configure the Ethernet switch to work on your LAN. Initiate communications from a PC to the N60 through a front panel serial connection (refer to the Configuring serial communications section in chapter 1 for details), or if you are familiar with the UR keypad you can use it to set up the network IP address and check the Modbus slave address and Modbus TCP port.
Page 94 After few seconds you should see your local area connection attempting to connect to the switch. Once connected, check your IP address by going to bottom of your screen and right-clicking the Local Area Connection icon as shown below. 3-42 N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 95 This procedure describes how to configure the N60 switch module through EnerVista UR Setup. Before starting this proce- dure, ensure that the local PC is properly configured on the same network as the N60 device as shown in the previous sec- tion.
Page 96: Configuring The Managed Ethernet Switch Module
Click the Save button. It will take few seconds to save the settings to the Ethernet switch module and the following message displayed. Verify that the target message is cleared and that the N60 displays the MAC address of the Ethernet switch in the Actual Values > Status > Ethernet Switch window.
Page 97 SAVING THE ETHERNET SWITCH SETTINGS TO A SETTINGS FILE The N60 allows the settings information for the Ethernet switch module to be saved locally as a settings file. This file con- tains the advanced configuration details for the switch not contained within the standard N60 settings file.
Page 98 Navigate to the folder containing the Ethernet switch settings file, select the file, then click Open. The settings file will be transferred to the Ethernet switch and the settings uploaded to the device. 3-46 N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 99: Uploading N60 Switch Module Firmware
NOTE b) SELECTING THE PROPER SWITCH FIRMWARE VERSION The latest switch module firmware is available as a download from the GE Multilin web site. Use the following procedure to determine the version of firmware currently installed on your switch Log into the switch using the EnerVista web interface.
Page 100 Select the firmware file to be loaded on to the Switch, and select the Open option. The following window will pop up, indicating that the firmware file transfer is in progress. If the firmware load was successful, the following window will appear: Note 3-48 N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 101: Ethernet Switch Self-Test Errors
No setting required; the N60 EQUIPMENT The N60 has not detected the The N60 failed to see the switch module will read the state of a general MISMATCH: Card XXX presence of the Ethernet on power-up, because switch won’t...
Page 102 3.4 MANAGED ETHERNET SWITCH MODULES 3 HARDWARE 3-50 N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 103: Human Interfaces
To start using the EnerVista UR Setup software, a site definition and device definition must first be created. See the EnerV- ista UR Setup Help File or refer to the Connecting EnerVista UR Setup with the N60 section in Chapter 1 for details.
Page 104 Site List window will automatically be sent to the on-line communicating device. g) FIRMWARE UPGRADES The firmware of a N60 device can be upgraded, locally or remotely, via the EnerVista UR Setup software. The correspond- ing instructions are provided by the EnerVista UR Setup Help file under the topic “Upgrading Firmware”.
Page 105: Enervista Ur Setup Main Window
Settings list control bar window. Device data view windows, with common tool bar. Settings file data view windows, with common tool bar. Workspace area with data view tabs. Status bar. 10. Quick action hot links. GE Multilin N60 Network Stability and Synchrophasor Measurement System...
Page 106 4.1 ENERVISTA UR SETUP SOFTWARE INTERFACE 4 HUMAN INTERFACES 842786A2.CDR Figure 4–1: ENERVISTA UR SETUP SOFTWARE MAIN WINDOW N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 107: Extended Enervista Ur Setup Features
(settings file templates) and online devices (online settings templates). The func- tionality is identical for both purposes. The settings template feature requires that both the EnerVista UR Setup software and the N60 firmware are at ver- sions 5.40 or higher.
Page 108 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. N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 109 The template specifies that only the Pickup Curve Phase time overcurrent settings window without template applied. settings be available. 842858A1.CDR Figure 4–4: APPLYING TEMPLATES VIA THE VIEW IN TEMPLATE MODE COMMAND GE Multilin N60 Network Stability and Synchrophasor Measurement System...
Page 110 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. N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 111: Securing And Locking Flexlogic™ Equations
Click on Save to save and apply changes to the settings template. Select the Template Mode > View In Template Mode option to view the template. Apply a password to the template then click OK to secure the FlexLogic™ equation. GE Multilin N60 Network Stability and Synchrophasor Measurement System...
Page 112 FlexLogic™ entries in a settings file have been secured, use the following procedure to lock the settings file to a specific serial number. Select the settings file in the offline window. Right-click on the file and select the Edit Settings File Properties item. 4-10 N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 113: Settings File Traceability
When a settings file is transferred to a N60 device, the date, time, and serial number of the N60 are sent back to EnerVista UR Setup and added to the settings file on the local PC. This infor- mation can be compared with the N60 actual values at any later date to determine if security has been compromised.
Page 114 4 HUMAN INTERFACES The transfer date of a setting file written to a N60 is logged in the relay and can be viewed via EnerVista UR Setup or the front panel display. Likewise, the transfer date of a setting file saved to a local PC is logged in EnerVista UR Setup.
Page 115 ONLINE DEVICE TRACEABILITY INFORMATION The N60 serial number and file transfer date are available for an online device through the actual values. Select the Actual Values > Product Info > Model Information menu item within the EnerVista UR Setup online window as shown in the example below.
Page 116: Faceplate Interface
The following figure shows the horizontal arrangement of the faceplate panels. Figure 4–16: UR-SERIES STANDARD HORIZONTAL FACEPLATE PANELS 4-14 N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 117: Led Indicators
• OTHER: This LED indicates a composite function was involved. • PHASE A: This LED indicates phase A was involved. • PHASE B: This LED indicates phase B was involved. GE Multilin N60 Network Stability and Synchrophasor Measurement System 4-15...
Page 118 Support for applying a customized label beside every LED is provided. Default labels are shipped in the label pack- age of every N60, together with custom templates. The default labels can be replaced by user-printed labels. User customization of LED operation is of maximum benefit in installations where languages other than English are used to communicate with operators.
Page 119 LED settings must be entered as shown in the User-programmable LEDs section of chapter 5. The LEDs are fully user-programmable. The default labels can be replaced by user-printed labels for both panels as explained in the following section. Figure 4–20: LED PANEL 2 (DEFAULT LABELS) GE Multilin N60 Network Stability and Synchrophasor Measurement System 4-17...
Page 120: Custom Labeling Of Leds
Enter the text to appear next to each LED and above each user-programmable pushbuttons in the fields provided. Feed the N60 front panel label cutout sheet into a printer and press the Print button in the front panel report window.
Page 121 Bend the tabs at the left end of the tool upwards as shown below. Bend the tab at the center of the tool tail as shown below. The following procedure describes how to remove the LED labels from the N60 enhanced front panel and insert the custom labels.
Page 122 Slide the new LED label inside the pocket until the text is properly aligned with the LEDs, as shown below. The following procedure describes how to remove the user-programmable pushbutton labels from the N60 enhanced front panel and insert the custom labels.
Page 123 Slide the label tool under the user-programmable pushbutton label until the tabs snap out as shown below. This will attach the label tool to the user-programmable pushbutton label. Remove the tool and attached user-programmable pushbutton label as shown below. GE Multilin N60 Network Stability and Synchrophasor Measurement System 4-21...
Page 124: Display
4.3.6 BREAKER CONTROL a) INTRODUCTION The N60 can interface with associated circuit breakers. In many cases the application monitors the state of the breaker, which can be presented on faceplate LEDs, along with a breaker trouble indication. Breaker operations can be manually initiated from faceplate keypad or automatically initiated from a FlexLogic™...
Page 125: Menus
Each press of the MENU key advances through the following main heading pages: • Actual values. • Settings. • Commands. • Targets. • User displays (when enabled). GE Multilin N60 Network Stability and Synchrophasor Measurement System 4-23...
Page 126: Changing Settings
4.3.8 CHANGING SETTINGS a) ENTERING NUMERICAL DATA Each numerical setting has its own minimum, maximum, and increment value associated with it. These parameters define what values are acceptable for a setting. 4-24 N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 127 For example: to enter the text, “Breaker #1”. Press the decimal to enter text edit mode. Press the VALUE keys until the character 'B' appears; press the decimal key to advance the cursor to the next position. GE Multilin N60 Network Stability and Synchrophasor Measurement System 4-25...
Page 128 In Service LED will turn on. e) ENTERING INITIAL PASSWORDS The N60 supports password entry from a local or remote connection. Local access is defined as any access to settings or commands via the faceplate interface. This includes both keypad entry and the faceplate RS232 connection.
Page 129 By default, when an incorrect Command or Setting password has been entered via the faceplate interface three times within three minutes, the FlexLogic™ operand is set to “On” and the N60 does not allow settings or LOCAL ACCESS DENIED command level access via the faceplate interface for the next five minutes.
Page 130 4.3 FACEPLATE INTERFACE 4 HUMAN INTERFACES 4-28 N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 131: Overview
 INSTALLATION See page 5-67.   SETTINGS  AC INPUTS See page 5-69.  SYSTEM SETUP   POWER SYSTEM See page 5-71.   SIGNAL SOURCES See page 5-72.  GE Multilin N60 Network Stability and Synchrophasor Measurement System...
Page 132  SELECTOR SWITCH See page 5-145.   UNDERFREQUENCY See page 5-151.   OVERFREQUENCY See page 5-152.   SYNCHROCHECK See page 5-153.   DIGITAL ELEMENTS See page 5-157.  N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 133 See page 5-190.   DIRECT ANALOGS See page 5-193.   DIRECT INTEGERS See page 5-195.   TELEPROTECTION See page 5-197.   IEC 61850 See page 5-199.  GOOSE ANALOGS GE Multilin N60 Network Stability and Synchrophasor Measurement System...
Page 134: Introduction To Elements
For example, if CT1 = 300 / 5 A and CT2 = 100 / 1 A, then in order to sum these, CT2 is scaled to the CT1 ratio. In this case, the base quantity is 300 A primary, 5 A secondary for CT1, and 300/(100/1) = 3 A secondary for CT2. N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 135 Not every operand of a given element in a UR relay generates events, only the major output operands. Elements, asserting output per phase, log operating phase output only, without asserting the common three-phase operand event. GE Multilin N60 Network Stability and Synchrophasor Measurement System...
Page 136: Introduction To Ac Sources
The CT/VT modules calculate total waveform RMS levels, fundamental frequency phasors, symmetrical components and harmonics for voltage or current, as allowed by the hardware in each channel. These modules may calculate other parameters as directed by the CPU module. N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 137 Upon startup, the CPU configures the settings required to characterize the current and voltage inputs, and will display them in the appropriate section in the sequence of the banks (as described above) as follows for a maximum configuration: F1, F5, M1, M5, U1, and U5. GE Multilin N60 Network Stability and Synchrophasor Measurement System...
Page 138: Product Setup
When entering a settings or command password via EnerVista or any serial interface, the user must enter the correspond- ing connection password. If the connection is to the back of the N60, the remote password must be used. If the connection is to the RS232 port of the faceplate, the local password must be used.
Page 139 If the setting and command passwords are identical, then this one password allows access to both com- mands and settings. NOTE If a remote connection is established, local passcodes are not visible. NOTE GE Multilin N60 Network Stability and Synchrophasor Measurement System...
Page 140  TIMEOUTS Range: 2 to 5 in steps of 1 INVALID ATTEMPTS MESSAGE BEFORE LOCKOUT: 3 Range: 5 to 60 minutes in steps of 1 PASSWORD LOCKOUT MESSAGE DURATION: 5 min 5-10 N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 141 INVALID ATTEMPTS BEFORE LOCKOUT The N60 provides a means to raise an alarm upon failed password entry. Should password verification fail while accessing a password-protected level of the relay (either settings or commands), the FlexLogic™ operand is UNAUTHORIZED ACCESS asserted.
Page 142 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. 5-12 N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 143: Display Properties
Some customers prefer very low currents to display as zero, while others prefer the current be displayed even when the value reflects noise rather than the actual signal. The N60 applies a cut- off value to the magnitudes and angles of the measured currents.
Page 144: Clear Relay Records
Range: FlexLogic™ operand CLEAR OSCILLOGRAPHY? MESSAGE Range: FlexLogic™ operand CLEAR DATA LOGGER: MESSAGE Range: FlexLogic™ operand CLEAR DEMAND: MESSAGE Range: FlexLogic™ operand CLEAR ENERGY: MESSAGE Range: FlexLogic™ operand RESET UNAUTH ACCESS: MESSAGE 5-14 N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 145: Communications
Selected records can be cleared from user-programmable conditions with FlexLogic™ operands. Assigning user-program- mable pushbuttons to clear specific records are typical applications for these commands. Since the N60 responds to rising edges of the configured FlexLogic™ operands, they must be asserted for at least 50 ms to take effect.
Page 146 0 ms The N60 is equipped with up to three independent serial communication ports. The faceplate RS232 port is intended for local use and is fixed at 19200 baud and no parity. The rear COM1 port type is selected when ordering: either an Ethernet or RS485 port.
Page 147 This allows the EnerVista UR Setup software to be used on the port. The UR operates as a Modbus slave device only. When using Modbus protocol on the RS232 port, the N60 responds regardless of the pro- MODBUS SLAVE ADDRESS grammed.
Page 148 DEFAULT VARIATION: 2 Range: 1, 2, 3, 4, 5 DNP OBJECT 30 MESSAGE DEFAULT VARIATION: 1 Range: 1, 2, 3, 4, 5, 7 DNP OBJECT 32 MESSAGE DEFAULT VARIATION: 1 5-18 N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 149 TIMEOUT: 120 s The N60 supports the Distributed Network Protocol (DNP) version 3.0. The N60 can be used as a DNP slave device con- nected to multiple DNP masters (usually an RTU or a SCADA master station). Since the N60 maintains two sets of DNP data change buffers and connection information, two DNP masters can actively communicate with the N60 at one time.
Page 150 DNP analog input points that are voltages will be returned with values 1000 times smaller (for example, a value of 72000 V on the N60 will be returned as 72). These settings are useful when analog input values must be adjusted to fit within cer- tain ranges in DNP masters.
Page 151 IEC 60870-5-104 point lists must be in one continuous block, any points assigned after the first “Off” point NOTE are ignored. Changes to the DNP / IEC 60870-5-104 point lists will not take effect until the N60 is restarted. NOTE GE Multilin...
Page 152 The N60 supports the Manufacturing Message Specification (MMS) protocol as specified by IEC 61850. MMS is supported over two protocol stacks: TCP/IP over ethernet and TP4/CLNP (OSI) over ethernet. The N60 operates as an IEC 61850 server. The Remote inputs and outputs section in this chapter describe the peer-to-peer GSSE/GOOSE message scheme.
Page 153 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 N60 releases previous to 5.0x, this name string was repre- sented by the setting.
Page 154 DESTINATION MAC address; the least significant bit of the first byte must be set. In N60 releases previous to 5.0x, the destination Ethernet MAC address was determined automatically by taking the sending MAC address (that is, the unique, local MAC address of the N60) and setting the multicast bit.
Page 155 The N60 has the ability of detecting if a data item in one of the GOOSE datasets is erroneously oscillating. This can be caused by events such as errors in logic programming, inputs improperly being asserted and de-asserted, or failed station components.
Page 156 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. 5-26 N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 157 MMXU1 HZ DEADBAND change greater than 45 mHz, from the previous MMXU1.MX.mag.f value, in the source frequency. The N60 must be rebooted (control power removed and re-applied) before these settings take effect. The following procedure illustrates the reception configuration. Configure the reception dataset by making the following changes in the ...
Page 158 IEC61850 GOOSE ANALOG INPUT 1 UNITS The GOOSE analog input 1 can now be used as a FlexAnalog™ value in a FlexElement™ or in other settings. The N60 must be rebooted (control power removed and re-applied) before these settings take effect.
Page 159 DNA and UserSt bit pairs that are included in GSSE messages. To set up a N60 to receive a configurable GOOSE dataset that contains two IEC 61850 single point status indications, the following dataset items can be selected (for example, for configurable GOOSE dataset 1): “GGIO3.ST.Ind1.stVal” and “GGIO3.ST.Ind2.stVal”.
Page 160 CPU resources. When server scanning is disabled, there will be not updated to the IEC 61850 logical node sta- tus values in the N60. Clients will still be able to connect to the server (N60 relay), but most data values will not be updated.
Page 161 The GGIO2 control configuration settings are used to set the control model for each input. The available choices are “0” (status only), “1” (direct control), and “2” (SBO with normal security). The GGIO2 control points are used to control the N60 virtual inputs.
Page 162 GGIO4. When this value is NUMBER OF ANALOG POINTS changed, the N60 must be rebooted in order to allow the GGIO4 logical node to be re-instantiated and contain the newly configured number of analog points.
Page 163 ITEM 64 attributes supported by the N60. Changes to the dataset will only take effect when the N60 is restarted. It is recommended to use reporting service from logical node 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.
Page 164 XCBR operating counter status attribute (OpCnt) increments with every operation. Frequent breaker operation may result in very large OpCnt values over time. This setting allows the OpCnt to be reset to “0” for XCBR1. 5-34 N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 165 Internet Explorer or Mozilla Firefox. This feature is available only if the N60 has the ethernet option installed. The web pages are organized as a series of menus that can be accessed starting at the N60 “Main Menu”. Web pages are available showing DNP and IEC 60870-5-104 points lists, Modbus registers, event records, fault reports, etc.
Page 166 NUMBER: The Trivial File Transfer Protocol (TFTP) can be used to transfer files from the N60 over a network. The N60 operates as a TFTP server. TFTP client software is available from various sources, including Microsoft Windows NT. The dir.txt file obtained from the N60 contains a list and description of all available files (event records, oscillography, etc.).
Page 167 N60 clock is closely synchronized with the SNTP/NTP server. It may take up to two minutes for the N60 to signal an SNTP self-test error if the server is offline.
Page 168: Modbus User Map
MESSAGE Disabled These settings appear only if the N60 is ordered with an Ethernet switch module (type 2S or 2T). The IP address and Modbus TCP port number for the Ethernet switch module are specified in this menu. These settings are used in advanced network configurations.
Page 169: Real Time Clock
SNTP, the offset is used to determine the local time for the N60 clock, since SNTP provides UTC time. The daylight savings time (DST) settings can be used to allow the N60 clock can follow the DST rules of the local time zone.
Page 170: Oscillography
Reducing the sampling rate allows longer records to be stored. This setting has no effect on the internal sampling rate of the relay which is always 64 samples per cycle; that is, it has no effect on the fundamental calculations of the device. 5-40 N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 171 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 N60 Network Stability and Synchrophasor Measurement System 5-41...
Page 172: Data Logger
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 5-42 N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 173 (EQ 5.6) – where: d = demand value after applying input quantity for time t (in minutes) D = input quantity (constant), and k = 2.3 / thermal 90% response time. GE Multilin N60 Network Stability and Synchrophasor Measurement System 5-43...
Page 174: User-Programmable Leds
 TRIP & ALARM MESSAGE See page 5–47.  LEDS  USER-PROGRAMMABLE MESSAGE See page 5–47.  LED 1  USER-PROGRAMMABLE MESSAGE  LED 2 ↓  USER-PROGRAMMABLE MESSAGE  LED 48 5-44 N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 175 The test responds to the position and rising edges of the control input defined by the set- LED TEST CONTROL ting. The control pulses must last at least 250 ms to take effect. The following diagram explains how the test is executed. GE Multilin N60 Network Stability and Synchrophasor Measurement System 5-45...
Page 176 2. Once stage 2 has started, the pushbutton can be released. When stage 2 is completed, stage 3 will automatically start. The test may be aborted at any time by pressing the pushbutton. 5-46 N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 177 BREAKER 1 OPEN LED 21 operand LED 10 operand BREAKER 1 CLOSED LED 22 operand LED 11 operand BREAKER 1 TROUBLE LED 23 operand LED 12 operand LED 24 operand GE Multilin N60 Network Stability and Synchrophasor Measurement System 5-47...
Page 178: User-Programmable Self Tests
Firmware revisions 3.2x and older use these three pushbuttons for manual breaker control. This functionality has been retained – if the breaker control feature is configured to use the three pushbuttons, they cannot be used as user-program- mable control pushbuttons. 5-48 N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 179 The location of the control pushbuttons are shown in the following figures. Control pushbuttons 842813A1.CDR Figure 5–5: CONTROL PUSHBUTTONS (ENHANCED FACEPLATE) An additional four control pushbuttons are included on the standard faceplate when the N60 is ordered with the twelve user-programmable pushbutton option. STATUS EVENT CAUSE...
Page 180: 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. 5-50 N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 181 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- NOTE ous system disturbances that may cause transient assertion of the operating signals. GE Multilin N60 Network Stability and Synchrophasor Measurement System 5-51...
Page 182 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. 5-52 N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 183 “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. GE Multilin N60 Network Stability and Synchrophasor Measurement System 5-53...
Page 184 SETTING Autoreset Delay Autoreset Function = Enabled = Disabled SETTING Drop-Out Timer TIMER FLEXLOGIC OPERAND 200 ms PUSHBUTTON 1 ON 842021A3.CDR Figure 5–10: USER-PROGRAMMABLE PUSHBUTTON LOGIC (Sheet 1 of 2) 5-54 N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 185 This can be done via NOTE EnerVista UR Setup with the Maintenance > Enable Pushbutton command. GE Multilin N60 Network Stability and Synchrophasor Measurement System 5-55...
Page 186: Flex State Parameters
USER-PROGRAMMABLE CONTROL INPUT: The user-definable displays also respond to the INVOKE AND SCROLL setting. Any FlexLogic™ operand (in particular, the user-programmable pushbutton operands), can be used to navi- gate the programmed displays. 5-56 N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 187 (setting, actual value, or command) which has a Modbus address, to view the hexadecimal form of the Modbus address, then manually convert it to decimal form before entering it (EnerVista UR Setup usage conveniently facilitates this conversion). GE Multilin N60 Network Stability and Synchrophasor Measurement System 5-57...
Page 188 If the parameters for the top line and the bottom line items have the same units, then the unit is displayed on the bottom line only. The units are only displayed on both lines if the units specified both the top and bottom line items NOTE are different. 5-58 N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 189: Direct Inputs/Outputs
“Yes”), all direct output messages should be received back. If not, the direct input/output ring CH2 RING CONFIGURATION break self-test is triggered. The self-test error is signaled by the FlexLogic™ operand. DIRECT RING BREAK GE Multilin N60 Network Stability and Synchrophasor Measurement System 5-59...
Page 190 The following application examples illustrate the basic concepts for direct input and output configuration. Please refer to the Inputs and outputs section in this chapter for information on configuring FlexLogic™ operands (flags, bits) to be exchanged. 5-60 N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 191 UR IED 4 UR IED 2 UR IED 3 842712A1.CDR Figure 5–13: SAMPLE INTERLOCKING BUSBAR PROTECTION SCHEME For increased reliability, a dual-ring configuration (shown below) is recommended for this application. GE Multilin N60 Network Stability and Synchrophasor Measurement System 5-61...
Page 192 The complete application requires addressing a number of issues such as failure of both the communications rings, failure or out-of-service conditions of one of the relays, etc. Self-monitoring flags of the direct inputs and outputs feature would be primarily used to address these concerns. 5-62 N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 193 Inputs and outputs section. A blocking pilot-aided scheme should be implemented with more security and, ideally, faster message delivery time. This could be accomplished using a dual-ring configuration as shown below. GE Multilin N60 Network Stability and Synchrophasor Measurement System 5-63...
Page 194 EVENTS: Disabled The N60 checks integrity of the incoming direct input and output messages using a 32-bit CRC. The CRC alarm function is available for monitoring the communication medium noise by tracking the rate of messages failing the CRC check. The monitoring function counts all incoming messages, including messages that failed the CRC check.
Page 195 MESSAGE EVENTS: Disabled The N60 checks integrity of the direct input and output communication ring by counting unreturned messages. In the ring configuration, all messages originating at a given device should return within a pre-defined period of time. The unreturned messages alarm function is available for monitoring the integrity of the communication ring by tracking the rate of unre- turned messages.
Page 196: Teleprotection
On two- terminals two-channel systems, the same is transmitted over LOCAL RELAY ID NUMBER both channels; as such, only the has to be programmed on the receiving end. TERMINAL 1 ID NUMBER 5-66 N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 197: Installation
This name will appear on generated reports. This name RELAY NAME is also used to identify specific devices which are engaged in automatically sending/receiving data over the Ethernet com- munications channel using the IEC 61850 protocol. GE Multilin N60 Network Stability and Synchrophasor Measurement System 5-67...
Page 198: Remote Resources Configuration
Bricks. Remote resources settings configure the point-to-point connection between specific fiber optic ports on the N60 process card and specific Brick. The relay is then configured to measure spe- cific currents, voltages and contact inputs from those Bricks, and to control specific outputs.
Page 199: System Setup
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 N60 Network Stability and Synchrophasor Measurement System 5-69...
Page 200 On a 14.4 kV system with a delta connection and a VT primary to secondary turns ratio of 14400:120, the voltage value entered would be 120; that is, 14400 / 120. 5-70 N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 201: Power System
FREQUENCY TRACKING cial variable-frequency applications. NOTE The frequency tracking feature will function only when the N60 is in the “Programmed” mode. If the N60 is “Not Pro- grammed”, then metering values will be available but may exhibit significant errors. NOTE...
Page 202: Signal Sources
CT wiring problem. A disturbance detector is provided for each source. The 50DD function responds to the changes in magnitude of the sequence currents. The disturbance detector scheme logic is as follows: 5-72 N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 203 This configuration could be used on a two-winding transformer, with one winding connected into a breaker-and-a-half sys- tem. The following figure shows the arrangement of sources used to provide the functions required in this application, and the CT/VT inputs that are used to provide the data. GE Multilin N60 Network Stability and Synchrophasor Measurement System 5-73...
Page 204 Figure 5–20: 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 5-74 N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 205: Breakers
Range: 0.000 to 65.535 s in steps of 0.001 MANUAL CLOSE RECAL1 MESSAGE TIME: 0.000 s Range: FlexLogic™ operand BREAKER 1 OUT OF SV: MESSAGE Range: Disabled, Enabled BREAKER 1 EVENTS: MESSAGE Disabled GE Multilin N60 Network Stability and Synchrophasor Measurement System 5-75...
Page 206 1. The number of breaker control elements is dependent on the number of CT/VT modules specified with the N60. The follow- ing settings are available for each breaker control element.
Page 207 5 SETTINGS 5.4 SYSTEM SETUP Figure 5–21: DUAL BREAKER CONTROL SCHEME LOGIC (Sheet 1 of 2) IEC 61850 functionality is permitted when the N60 is in “Programmed” mode and not in the local control mode. NOTE GE Multilin N60 Network Stability and Synchrophasor Measurement System...
Page 208 5.4 SYSTEM SETUP 5 SETTINGS Figure 5–22: DUAL BREAKER CONTROL SCHEME LOGIC (Sheet 2 of 2) 5-78 N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 209: Disconnect Switches
For greater security in determination of the switch pole position, both the 89/a and 89/b auxiliary contacts are used with reporting of the discrepancy between them. The number of available disconnect switches depends on the number of the CT/VT modules ordered with the N60. •...
Page 210 SWITCH 1 ALARM DELAY: This setting specifies the delay interval during which a disagreement of status among the three-pole position tracking operands will not declare a pole disagreement. This allows for non-simultaneous operation of the poles. IEC 61850 functionality is permitted when the N60 is in “Programmed” mode and not in the local control mode. NOTE 5-80...
Page 211 5 SETTINGS 5.4 SYSTEM SETUP Figure 5–23: DISCONNECT SWITCH SCHEME LOGIC GE Multilin N60 Network Stability and Synchrophasor Measurement System 5-81...
Page 212: Phasor Measurement Unit
See page 5-97.  NETWORK The N60 Network Stability and Synchrophasor Measurement System is provided with an optional phasor measurement unit feature. This feature is specified as a software option at the time of ordering. The num- ber of phasor measurement units available is also dependent on this option. Refer to the Ordering section of chapter 2 for additional details.
Page 213 • PMU 1 SIGNAL SOURCE: This setting specifies one of the available N60 signal sources for processing in the PMU. Note that any combination of voltages and currents can be configured as a source. The current channels could be con- figured as sums of physically connected currents.
Page 214 When receiving synchrophasor data at multiple locations, with possibly different reference nodes, it can be more beneficial to allow the central locations to perform the compensation of sequence voltages. This setting applies to PMU data only. The N60 calculates symmetrical voltages independently for protection and control purposes without applying this correction.
Page 215 MESSAGE NORMAL STATE: Off This section configures the phasor measurement unit (PMU) communication functions. • PMU1 COMM PORT: This setting specifies the communication port for transmission of the PMU data. GE Multilin N60 Network Stability and Synchrophasor Measurement System 5-85...
Page 216 PMU1 PORT D-CH-1 NORMAL STATE to PMU1 PORT D-CH-16 NORMAL STATE: These settings allow for specify- ing a normal state for each digital channel. These states are transmitted in configuration frames to the data concentra- tor. 5-86 N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 217  PMU 1 USER PMU1 USER TRIGGER:  TRIGGER The user trigger allows customized triggering logic to be constructed from FlexLogic™. The entire triggering logic is refreshed once every two power system cycles. GE Multilin N60 Network Stability and Synchrophasor Measurement System 5-87...
Page 218 N60 standards. This element requires the frequency is above the minimum measurable value. If the frequency is below this value, such as when the circuit is de-energized, the trigger will drop out.
Page 219 PMU 1 VOLT TRIGGER DPO TIME: This setting could be used to extend the trigger after the situation returned to nor- mal. This setting is of particular importance when using the recorder in the forced mode (recording as long as the trig- gering condition is asserted). GE Multilin N60 Network Stability and Synchrophasor Measurement System 5-89...
Page 220 PMU 1 CURR TRIGGER DPO TIME: This setting could be used to extend the trigger after the situation returned to nor- mal. This setting is of particular importance when using the recorder in the forced mode (recording as long as the trig- gering condition is asserted). 5-90 N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 221 VT ratio and the nominal primary current. For the three-phase power, 1 pu is three times that for a sin- gle-phase power. The comparator applies a 3% hysteresis. GE Multilin N60 Network Stability and Synchrophasor Measurement System 5-91...
Page 222 S > APPARENT PICKUP APPARENT POWER, SB S > APPARENT PICKUP APPARENT POWER, SC S > APPARENT PICKUP 3P APPARENT POWER, S S > 3*(APPARENT PICKUP) 847003A1.CDR Figure 5–28: POWER TRIGGER SCHEME LOGIC 5-92 N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 223 PMU 1 df/dt TRIGGER DPO TIME: PMU 1 SIGNAL FLEXLOGIC OPERAND SOURCE: df/dt > RAISE PMU 1 ROCOF TRIGGER ROCOF, df/dt –df/dt > FALL 847000A1.CDR Figure 5–29: RATE OF CHANGE OF FREQUENCY TRIGGER SCHEME LOGIC GE Multilin N60 Network Stability and Synchrophasor Measurement System 5-93...
Page 224 Each logical phasor measurement unit (PMU) is associated with a recorder. The triggering condition is programmed via the menu. The recorder works with polar values using resolution as in the PMU actual values. PMU 1 TRIGGERING 5-94 N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 225 Record Record Record Free Other logical PMUs memory Record Record Record Record Record Other logical PMUs No further recording after all allocated memory is used 847706A1.CDR Figure 5–32: “PROTECTED” MODE GE Multilin N60 Network Stability and Synchrophasor Measurement System 5-95...
Page 226 PMU 1 REC D-CH-1 NM to PMU 1 REC D-CH-16 NM: This setting allows custom naming of the digital channels. Six- teen-character ASCII strings are allowed as in the CHNAM field of the configuration frame. 5-96 N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 227 NETWORK UDP PORT 1: This setting selects the first UDP port that will be used for network reporting. • NETWORK UDP PORT 2: This setting selects the second UDP port that will be used for network reporting. GE Multilin N60 Network Stability and Synchrophasor Measurement System 5-97...
Page 228: Flexlogic
Figure 5–33: UR ARCHITECTURE OVERVIEW The states of all digital signals used in the N60 are represented by flags (or FlexLogic™ operands, which are described later in this section). A digital “1” is represented by a 'set' flag. Any external contact change-of-state can be used to block an element from operating, as an input to a control feature in a FlexLogic™...
Page 229 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 N60 Network Stability and Synchrophasor Measurement System 5-99...
Page 230 5.5 FLEXLOGIC™ 5 SETTINGS The operands available for this relay are listed alphabetically by types in the following table. Table 5–8: N60 FLEXLOGIC™ OPERANDS (Sheet 1 of 7) OPERAND TYPE OPERAND SYNTAX OPERAND DESCRIPTION CONTROL CONTROL PUSHBTN 1 ON Control pushbutton 1 is being pressed...
Page 231 5 SETTINGS 5.5 FLEXLOGIC™ Table 5–8: N60 FLEXLOGIC™ OPERANDS (Sheet 2 of 7) OPERAND TYPE OPERAND SYNTAX OPERAND DESCRIPTION ELEMENT: BREAKER 1 OFF CMD Breaker 1 open command initiated Breaker control BREAKER 1 ON CMD Breaker 1 close command initiated BREAKER 1 ΦA BAD ST...
Page 232 5.5 FLEXLOGIC™ 5 SETTINGS Table 5–8: N60 FLEXLOGIC™ OPERANDS (Sheet 3 of 7) OPERAND TYPE OPERAND SYNTAX OPERAND DESCRIPTION ELEMENT: FxE 1 PKP FlexElement™ 1 has picked up FlexElements™ FxE 1 OP FlexElement™ 1 has operated FxE 1 DPO FlexElement™ 1 has dropped out...
Page 233 5 SETTINGS 5.5 FLEXLOGIC™ Table 5–8: N60 FLEXLOGIC™ OPERANDS (Sheet 4 of 7) OPERAND TYPE OPERAND SYNTAX OPERAND DESCRIPTION ELEMENT: POWER SWING OUTER Positive-sequence impedance in outer characteristic Power swing detect POWER SWING MIDDLE Positive-sequence impedance in middle characteristic POWER SWING INNER...
Page 234 5.5 FLEXLOGIC™ 5 SETTINGS Table 5–8: N60 FLEXLOGIC™ OPERANDS (Sheet 5 of 7) OPERAND TYPE OPERAND SYNTAX OPERAND DESCRIPTION ELEMENT: SWITCH 1 OFF CMD Disconnect switch 1 open command initiated Disconnect switch SWITCH 1 ON CMD Disconnect switch 1 close command initiated SWITCH 1 ΦA BAD ST...
Page 235 5 SETTINGS 5.5 FLEXLOGIC™ Table 5–8: N60 FLEXLOGIC™ OPERANDS (Sheet 6 of 7) OPERAND TYPE OPERAND SYNTAX OPERAND DESCRIPTION INPUTS/OUTPUTS: Cont Ip 1 (will not appear unless ordered) Contact inputs Cont Ip 2 (will not appear unless ordered) ↓ ↓...
Page 236 5.5 FLEXLOGIC™ 5 SETTINGS Table 5–8: N60 FLEXLOGIC™ OPERANDS (Sheet 7 of 7) OPERAND TYPE OPERAND SYNTAX OPERAND DESCRIPTION PASSWORD ACCESS LOC SETG OFF Asserted when local setting access is disabled SECURITY ACCESS LOC SETG ON Asserted when local setting access is enabled...
Page 237: Flexlogic™ Rules
A timer operator (for example, "TIMER 1") or virtual output assignment (for example, " = Virt Op 1") may only be used once. If this rule is broken, a syntax error will be declared. GE Multilin N60 Network Stability and Synchrophasor Measurement System 5-107...
Page 238: Flexlogic™ Evaluation
4, which will be programmed in the contact output section to oper- ate relay H1 (that is, contact output H1). 5-108 N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 239 Until accustomed to using FlexLogic™, it is suggested that a worksheet with a series of cells marked with the arbitrary parameter numbers be prepared, as shown below. GE Multilin N60 Network Stability and Synchrophasor Measurement System 5-109...
Page 240 99: The final output of the equation is virtual output 4 which is parameter “= Virt Op 4". 98: The operator preceding the output is timer 2, which is operand “TIMER 2". Note that the settings required for the timer are established in the timer programming section. 5-110 N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 241 It is now possible to check that the selection of parameters will produce the required logic by converting the set of parame- ters into a logic diagram. The result of this process is shown below, which is compared to the logic for virtual output 4 dia- gram as a check. GE Multilin N60 Network Stability and Synchrophasor Measurement System 5-111...
Page 242 In the expression above, the virtual output 4 input to the four-input OR is listed before it is created. This is typical of a form of feedback, in this case, used to create a seal-in effect with the latch, and is correct. 5-112 N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 243: Flexlogic™ Equation Editor
TIMER 1 PICKUP DELAY: Sets the time delay to pickup. If a pickup delay is not required, set this function to "0". • TIMER 1 DROPOUT DELAY: Sets the time delay to dropout. If a dropout delay is not required, set this function to "0". GE Multilin N60 Network Stability and Synchrophasor Measurement System 5-113...
Page 244: 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. 5-114 N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 245 The FLEXELEMENT 1 DIRECTION following figure explains the application of the FLEXELEMENT 1 DIRECTION FLEXELEMENT 1 PICKUP FLEXELEMENT 1 HYS- settings. TERESIS GE Multilin N60 Network Stability and Synchrophasor Measurement System 5-115...
Page 246 FLEXELEMENT INPUT MODE = Signed; FlexElement 1 OpSig FLEXELEMENT 1 PKP FLEXELEMENT DIRECTION = Under; FLEXELEMENT INPUT MODE = Absolute; FlexElement 1 OpSig 842706A2.CDR Figure 5–43: FLEXELEMENT™ INPUT MODE SETTING 5-116 N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 247 FLEXELEMENT 1 COMP MODE This setting specifies the pickup delay of the element. The setting FLEXELEMENT 1 PKP DELAY FLEXELEMENT 1 RST DELAY specifies the reset delay of the element. GE Multilin N60 Network Stability and Synchrophasor Measurement System 5-117...
Page 248: Non-Volatile Latches
LATCH N LATCH N TYPE RESET Reset Dominant Previous Previous State State Dominant Previous Previous State State Figure 5–44: NON-VOLATILE LATCH OPERATION TABLE (N = 1 to 16) AND LOGIC 5-118 N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 249: Flexmath
MESSAGE Disabled Six identical summators are available in each N60 device. Each summator has six inputs and a scaling factor is provided for each input. The scaling factors can be set to +1 and –1 allowing straight addition and subtraction of the inputs. A FlexLogic™ operand provided for each input can dynamically include/exclude the input from calculations.
Page 250 FlexAn- SUMMATOR 1 OUTPUT alog™ quantity in other N60 features, such as FlexElements™. This value is used to normalize the SUMMATOR 1 OUT- FlexAnalog™ quantity (that is, change it to a per-unit quantity). Refer to the FlexElements™ section for additional details on per-unit base values.
Page 251 OUTPUT > SUMMATOR PICKUP SUMMATOR OP SUMMATOR INPUT4 SUMMATOR SCALE4 SUMMATOR INPUT MODE SUMMATOR POS4 SUMMATOR INPUT5 SUMMATOR SCALE5 SUMMATOR POS5 SUMMATOR INPUT6 SUMMATOR SCALE6 SUMMATOR POS6 847006A1.CDR Figure 5–45: SUMMATOR LOGIC SCHEME GE Multilin N60 Network Stability and Synchrophasor Measurement System 5-121...
Page 252: 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). 5-122 N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 253: Power Swing Detect
Range: 0.10 to 500.00 ohms in steps of 0.01 POWER SWING MIDDLE MESSAGE LFT BLD: 100.00 Ω Range: 0.10 to 500.00 ohms in steps of 0.01 POWER SWING INNER MESSAGE RGT BLD: 100.00 Ω GE Multilin N60 Network Stability and Synchrophasor Measurement System 5-123...
Page 254 Two-step operation: If the two-step mode is selected, the sequence is identical, but it is the outer and inner character- istics that are used to time the power swing locus. 5-124 N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 255 “Mho”, the element applies the right and left blinders as well. If the blinders are not required, their settings should be set high enough to effectively disable the blinders. Figure 5–46: POWER SWING DETECT MHO OPERATING CHARACTERISTICS GE Multilin N60 Network Stability and Synchrophasor Measurement System 5-125...
Page 256 FlexLogic™ operands are auxiliary operands that could be used to facilitate TMR3 PKP POWER SWING TMR4 PKP testing and special applications. • FlexLogic™ operand shall be used to block selected protection elements such as distance POWER SWING BLOCK functions. 5-126 N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 257 POWER SWING QUAD REV REACH MID: This setting specifies the reverse reach of the middle quadrilateral charac- teristic. The angle of this reach impedance is specified by the setting. The setting is not used if POWER SWING FWD RCA the shape setting is “Mho”. GE Multilin N60 Network Stability and Synchrophasor Measurement System 5-127...
Page 258 The delayed trip occurs when the impedance leaves the outer charac- teristic. This time delay is provided for extra security and should be set considering the fastest expected power swing. 5-128 N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 259 K_0, K_2 - three times the average change over last power cycle 842008A1.CDR K_1 - four times the average change over last power cycle Figure 5–50: POWER SWING DETECT SCHEME LOGIC (2 of 3) GE Multilin N60 Network Stability and Synchrophasor Measurement System 5-129...
Page 260 L1 AND L4 LATCHES ARE SET DOMINANT L2, L3 AND L5 LATCHES ARE RESET DOMINANT Off=0 FLEXLOGIC OPERAND POWER SWING OUTGOING 827841A4.CDR Figure 5–51: POWER SWING DETECT SCHEME LOGIC (3 of 3) 5-130 N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 261: Phase Current
The phase instantaneous overcurrent element may be used as an instantaneous element with no intentional delay or as a definite time element. The input current is the fundamental phasor magnitude. The phase instantaneous overcurrent timing curves are shown below for form-A contacts in a 60 Hz system. GE Multilin N60 Network Stability and Synchrophasor Measurement System 5-131...
Page 262 5.6 GROUPED ELEMENTS 5 SETTINGS Figure 5–52: PHASE INSTANTANEOUS OVERCURRENT TIMING CURVES Figure 5–53: PHASE INSTANTANEOUS OVERCURRENT 1 SCHEME LOGIC 5-132 N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 263: Voltage Elements
  pickup where: T = operating time D = undervoltage delay setting (D = 0.00 operates instantaneously) V = secondary voltage applied to the relay = pickup level pickup GE Multilin N60 Network Stability and Synchrophasor Measurement System 5-133...
Page 264 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). 5-134 N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 265 The input voltage is the phase-to-phase voltage, either measured directly from delta-connected VTs or as cal- culated from phase-to-ground (wye) connected VTs. The specific voltages to be used for each phase are shown below. GE Multilin N60 Network Stability and Synchrophasor Measurement System 5-135...
Page 266 PHASE OV1 PKP 827066A7.CDR Figure 5–56: PHASE OVERVOLTAGE SCHEME LOGIC > × If the source VT is wye-connected, then the phase overvoltage pickup condition is Pickup for V and V NOTE 5-136 N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 267: Supervising Elements
OPEN POLE CURRENT PICKUP: This setting is used to select the pickup value of the phase current. The pickup set- ting is the minimum of the range and likely to be somewhat above of the charging current of the line. GE Multilin N60 Network Stability and Synchrophasor Measurement System 5-137...
Page 268 OPEN POLE VOLTAGE SOURCE: DELTA VA < 75% Nominal VAG or VBG or VB < 75% Nominal VCG or VC < 75% Nominal 827047A6.CDR Figure 5–57: OPEN POLE DETECTOR SCHEME LOGIC 5-138 N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 269: Sensitive Directional Power
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 N60 Network Stability and Synchrophasor Measurement System 5-139...
Page 270 SMIN < 0 SMIN > 0 OPERATE RESTRAIN RESTRAIN OPERATE RCA = 90 RCA = 270 SMIN > 0 SMIN < 0 842702A1.CDR Figure 5–59: DIRECTIONAL POWER ELEMENT SAMPLE APPLICATIONS 5-140 N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 271 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 5–60: SENSITIVE DIRECTIONAL POWER SCHEME LOGIC GE Multilin N60 Network Stability and Synchrophasor Measurement System 5-141...
Page 272: Control Elements
If more than one operate-type operand is required, it may be assigned directly from the trip bus menu. 5-142 N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 273 = Enabled TRIP BUS 1 BLOCK = Off SETTINGS TRIP BUS 1 LATCHING = Enabled TRIP BUS 1 RESET = Off FLEXLOGIC OPERAND RESET OP 842023A1.CDR Figure 5–62: TRIP BUS LOGIC GE Multilin N60 Network Stability and Synchrophasor Measurement System 5-143...
Page 274: Setting Groups
The assigned operand is used to control the “On” state of a particular settings group. VIRTUAL OUTPUT 1 5-144 N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 275: Selector Switch
SELECTOR 1 3BIT ACK: MESSAGE Range: Restore, Synchronize, Sync/Restore SELECTOR 1 POWER-UP MESSAGE MODE: Restore Range: Self-reset, Latched, Disabled SELECTOR 1 TARGETS: MESSAGE Self-reset Range: Disabled, Enabled SELECTOR 1 EVENTS: MESSAGE Disabled GE Multilin N60 Network Stability and Synchrophasor Measurement System 5-145...
Page 276 SELECTOR 1 3BIT A0, A1, and A2: These settings specify a three-bit control input of the selector. The three-bit con- trol word pre-selects the position using the following encoding convention: POSITION rest 5-146 N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 277 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 N60 Network Stability and Synchrophasor Measurement System 5-147...
Page 278 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 5–64: TIME-OUT MODE 5-148 N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 279 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 N60 Network Stability and Synchrophasor Measurement System 5-149...
Page 280 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 5–66: SELECTOR SWITCH LOGIC 5-150 N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 281: Underfrequency
0 < f PICKUP UNDERFREQ 1 OP UNDERFREQ 1 ACTUAL VALUES MIN VOLT / AMP: UNDERFREQ 1 SOURCE: ≥ Level Minimum VOLT / AMP Frequency 827079A8.CDR Figure 5–67: UNDERFREQUENCY SCHEME LOGIC GE Multilin N60 Network Stability and Synchrophasor Measurement System 5-151...
Page 282: Overfrequency
OVERFREQ 1 RESET OVERFREQ 1 PKP DELAY : Off = 0 OVERFREQ 1 DPO OVERFREQ 1 OP SETTING ≥ PICKUP OVERFREQ 1 SOURCE: Frequency 827832A5.CDR Figure 5–68: OVERFREQUENCY SCHEME LOGIC 5-152 N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 283: Synchrocheck
ΔF. This time can be calculated by: ------------------------------- - (EQ 5.12) 360° ----------------- - × ΔF 2 ΔΦ × where: ΔΦ = phase angle difference in degrees; ΔF = frequency difference in Hz. GE Multilin N60 Network Stability and Synchrophasor Measurement System 5-153...
Page 284 SOURCE Y SOURCE Z Phase VTs and Phase VTs and Phase Phase Auxiliary VT Auxiliary VT Phase VTs and Phase VT Phase Phase Auxiliary VT Phase VT Phase VT Phase Phase 5-154 N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 285 The relay will use the auxiliary voltage channel only if that channel is programmed as part of the Source and a three-phase set is not. GE Multilin N60 Network Stability and Synchrophasor Measurement System 5-155...
Page 286 5.7 CONTROL ELEMENTS 5 SETTINGS Figure 5–69: SYNCHROCHECK SCHEME LOGIC 5-156 N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 287: Digital Elements
DIGITAL ELEMENT 1 RESET DELAY: Sets the time delay to reset. If a reset delay is not required, set to “0”. • DIGITAL ELEMENT 1 PICKUP LED: This setting enables or disabled the digital element pickup LED. When set to “Disabled”, the operation of the pickup LED is blocked. GE Multilin N60 Network Stability and Synchrophasor Measurement System 5-157...
Page 288 Using the contact input settings, this input will be given an ID name, for example, “Cont Ip 1", and will be set “On” when the breaker is closed. The settings to use digital element 1 to monitor the breaker trip circuit are indicated below (EnerVista UR 5-158 N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 289 “Off”. In this case, the settings are as follows (EnerVista UR Setup example shown). Figure 5–72: 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 N60 Network Stability and Synchrophasor Measurement System 5-159...
Page 290: 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. 5-160 N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 291 COUNTER 1 FROZEN: Off = 0 STORE DATE & TIME Date & Time SETTING COUNT1 FREEZE/RESET: Off = 0 827065A1.VSD SETTING COUNT1 FREEZE/COUNT: Off = 0 Figure 5–73: DIGITAL COUNTER SCHEME LOGIC GE Multilin N60 Network Stability and Synchrophasor Measurement System 5-161...
Page 292: Monitoring Elements
An additional condition is introduced to inhibit a fuse failure declaration when the monitored circuit is de-energized; positive- sequence voltage and current are both below threshold levels. The function setting enables and disables the fuse failure feature for each source. 5-162 N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 293 5 SETTINGS 5.7 CONTROL ELEMENTS Figure 5–74: VT FUSE FAIL SCHEME LOGIC GE Multilin N60 Network Stability and Synchrophasor Measurement System 5-163...
Page 294 = measured load RMS current before overload occurs. • k= IEC 255-8 k-factor applied to I , defining maximum permissible current above nominal current. • = protected element base (nominal) current. 5-164 N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 295 -------------- - (EQ 5.16) – op In When current is less than the dropout level, I > 0.97 × k × I , the element starts decreasing the thermal energy: GE Multilin N60 Network Stability and Synchrophasor Measurement System 5-165...
Page 296 60 minutes 20 minutes Underground cable 20 to 60 minutes 60 minutes The logic for the thermal overload protection element is shown below. Figure 5–76: THERMAL OVERLOAD PROTECTION SCHEME LOGIC 5-166 N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 297: Frequency Rate Of Change
FREQ RATE 1 OC SUPV PICKUP: This setting defines minimum current level required for operation of the element. The supervising function responds to the positive-sequence current. Typical application includes load shedding. Set the pickup threshold to zero if no overcurrent supervision is required. GE Multilin N60 Network Stability and Synchrophasor Measurement System 5-167...
Page 298 FREQ RATE 1 PKP FREQ RATE 1 MIN FREQUENCY: FREQ RATE 1 MAX FREQUENCY: F > MIN & F < MAX Calculate df/dt 832023A2.CDR Figure 5–77: FREQUENCY RATE OF CHANGE SCHEME LOGIC 5-168 N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 299: Digitizers
The digitizer averages the signal prior to digitization for increased accuracy. The extra filtering is in effect only under steady- state conditions or during slow changes of the input value. When the input signal changes significantly, the filtering is removed to maintain the response speed of the element. GE Multilin N60 Network Stability and Synchrophasor Measurement System 5-169...
Page 300 DIGITIZER 1 SOURCE: This setting specifies an internal analog value to be digitized. A variety of analog actual values (FlexAnalog parameters) such as power, current amplitude, voltage amplitude, power factor, etc., can be configured as the digitizer source. Refer to Appendix A for a complete list of FlexAnalog parameters available for the N60. •...
Page 301 (typically via the 8-bit comparator feature). The following table illustrates this application for four sample current values. CURRENT B7... B0 1.00 kA 00010100 2.50 kA 00110010 4.20 kA 01010101 6.00 kA 01111001 GE Multilin N60 Network Stability and Synchrophasor Measurement System 5-171...
Page 302: 8-Bit Comparators
This feature allows simple manipulations on 8-bit numbers. In particular two numbers can be added or subtracted depend- ing on a user-programmable dynamic condition. User-programmable threshold, hysteresis, direction of comparison, pickup and dropout time delays can be applied. 5-172 N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 303 OPERATING SIGNAL OPERATING SIGNAL INPUT MODE = Absolute INPUT MODE = Absolute DIRECTION = Over DIRECTION = Under OPERATING SIGNAL OPERATING SIGNAL 842740A1.CDR Figure 5–80: OPERATING CHARACTERISTICS OF THE 8-BIT COMPARATOR GE Multilin N60 Network Stability and Synchrophasor Measurement System 5-173...
Page 304 8-bit comparator. The VT fuse fail at the remote location, or the indication may REMOTE DEVICE OFFLINE be used to block this element. 5-174 N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 305 The application requires the following features: For UR-1: Digitizer to prepare the measured power for sending to the UR-2 IED, and direct outputs to send the digitized power to the UR-2 IED. GE Multilin N60 Network Stability and Synchrophasor Measurement System 5-175...
Page 306 8 BIT COMP 1 ARG A3: 8 BIT COMP 1 ARG A7: Local power from the UR-2 IED available internally is the second argument for the comparator. Thus, the following set- tings should be applied: 5-176 N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 307 × 11.81 MW 1818.7 MW Therefore, the reading for the total power at UR-2 is 1818.7 MW, versus a true total of 1020 MW + 800 MW = 1820 MW. GE Multilin N60 Network Stability and Synchrophasor Measurement System 5-177...
Page 308: 8-Bit Switches
If the control operand is in the "Off" state, the first (A) input is switched to the output. If the control oper- and is in the "On" state, the second (B) input is switched to the output. The switching takes place instantaneously. 5-178 N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 309 Off = 0 8BIT SW 1 ARG B7: 8BIT SWITCH 1 BIT 7 Off = 0 SETTING 8BIT SW 1 CONTROL: Off = 0 842017A1.CDR Figure 5–82: 8-BIT SWITCH LOGIC GE Multilin N60 Network Stability and Synchrophasor Measurement System 5-179...
Page 310: Inputs And Outputs
The DC input voltage is compared to a user-settable threshold. A new contact input state must be maintained for a user- settable debounce time in order for the N60 to validate the new contact state. In the figure below, the debounce time is set at 2.5 ms;...
Page 311 "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. GE Multilin N60 Network Stability and Synchrophasor Measurement System 5-181...
Page 312: Virtual Inputs
“Virtual Input 1 to OFF = 0” VIRTUAL INPUT 1 ID: (Flexlogic Operand) SETTING Virt Ip 1 VIRTUAL INPUT 1 TYPE: Latched Self - Reset 827080A2.CDR Figure 5–84: VIRTUAL INPUTS SCHEME LOGIC 5-182 N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 313: Contact Outputs
The most dependable protection of the initiating contact is provided by directly measuring current in the tripping circuit, and using this parameter to control resetting of the initiating relay. This scheme is often called trip seal-in. This can be realized in the N60 using the FlexLogic™ operand to seal-in the contact output as follows: CONT OP 1 ION “Cont Op 1"...
Page 314 5 SETTINGS The N60 latching output contacts are mechanically bi-stable and controlled by two separate (open and close) coils. As such they retain their position even if the relay is not powered up. The relay recognizes all latching output contact cards and pop- ulates the setting menu accordingly.
Page 315: Virtual Outputs
FlexLogic™ 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: GE Multilin N60 Network Stability and Synchrophasor Measurement System 5-185...
Page 316: Remote Devices
The remote input/output facility provides for 64 remote inputs and 64 remote outputs. b) LOCAL DEVICES: ID OF DEVICE FOR TRANSMITTING GSSE MESSAGES In a N60 relay, the device ID that represents the IEC 61850 GOOSE application ID (GoID) name string sent as part of each GOOSE message is programmed in the ...
Page 317: Remote Inputs
This setting identifies the Ethernet application identification in the GOOSE message. It should match the corre- sponding settings on the sending device. setting provides for the choice of the N60 fixed (DNA/UserSt) dataset (that is, containing REMOTE DEVICE 1 DATASET DNA and UserSt bit pairs), or one of the configurable datasets.
Page 318: Remote Double-Point Status Inputs
REMOTE OUTPUTS DNA BIT PAIRS REMOTE OUTPUTS DNA- 1(32) BIT PAIR Range: FlexLogic™ operand  REMOTE OUTPUTS DNA- 1 OPERAND:  DNA- 1 BIT PAIR Range: Disabled, Enabled DNA- 1 EVENTS: MESSAGE Disabled 5-188 N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 319: Resetting
The setting RESET OP (PUSHBUTTON) RESET OP (COMMS) RESET OP (OPERAND) shown above selects the operand that will create the operand. RESET OP (OPERAND) GE Multilin N60 Network Stability and Synchrophasor Measurement System 5-189...
Page 320: Direct Inputs And Outputs
APPLICATION EXAMPLES The examples introduced in the earlier Direct inputs and outputs section (part of the Product Setup section) are continued below to illustrate usage of the direct inputs and outputs. 5-190 N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 321 5 SETTINGS 5.8 INPUTS AND OUTPUTS EXAMPLE 1: EXTENDING INPUT/OUTPUT CAPABILITIES OF A N60 RELAY Consider an application that requires additional quantities of digital inputs or output contacts or lines of programmable logic that exceed the capabilities of a single UR-series chassis. The problem is solved by adding an extra UR-series IED, such as the C30, to satisfy the additional inputs/outputs and programmable logic requirements.
Page 322 DIRECT INPUT 6 BIT NUMBER: UR IED 2: "1" DIRECT INPUT 5 DEVICE ID: "2" DIRECT INPUT 5 BIT NUMBER: "3" DIRECT INPUT 6 DEVICE ID: "2" DIRECT INPUT 6 BIT NUMBER: 5-192 N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 323: Direct Analog Inputs And Outputs
ANALOG 1 VALUE: See Appendix A for complete list.  OUTPUT Range: 0.000 to 1000000000.000 in steps of 0.001 ANALOG 1 DEADBAND: MESSAGE 0.000 Range: FlexLogic™ operand ANALOG 1 TRIGGER: MESSAGE GE Multilin N60 Network Stability and Synchrophasor Measurement System 5-193...
Page 324 DIRECT ANALOG INPUT 1 ACTUAL FlexAnalog™ value in other N60 features, such as FlexElements™. This value is used to normalize the direct analog input 1 FlexAnalog™ quantity to its per-unit base. Refer to the FlexElements™ section for additional details on per-unit base values.
Page 325: Direct Integer Inputs And Outputs
Direct analog input FlexAnalog parameters (the values) are available for use DIR ANALOG INPUT 1 DIR ANALOG INPUT 32 in other N60 functions that use FlexAnalog parameters. , and DIR ANA 1 INTEGRITY DIR ANA 32 INTEGRITY DIR ANA 1 DEADBAND...
Page 326 “Last Known”, the value of direct integer input 1 remains at the last received value. This value is stored as an unsigned 32-bit integer. 5-196 N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 327: Teleprotection Inputs/Outputs
The “Latest/On” and “Latest/Off” values freeze the input in case of lost communications. If the latest state is not known, such as after relay power-up but before the first communication exchange, then the input defaults to logic 1 for “Latest/On” and logic 0 for “Latest/Off”. GE Multilin N60 Network Stability and Synchrophasor Measurement System 5-197...
Page 328 (same for 1-2...1-16) SETTING with redundant channel) FLEXLOGIC OPERAND TELEPROT OUTPUT 2-1: (same for 2-2...2-16) Fail TELEPRO INPUT 2-1 On Off (Flexlogic Operand) (same for 1-2...1-16) 842750A2.CDR Figure 5–91: TELEPROTECTION INPUT/OUTPUT PROCESSING 5-198 N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 329: Iec 61850 Goose Analogs
GOOSE ANALOG 1 PU: This setting specifies the per-unit base factor when using the GOOSE analog input FlexAna- log™ values in other N60 features, such as FlexElements™. The base factor is applied to the GOOSE analog input FlexAnalog quantity to normalize it to a per-unit quantity. The base units are described in the following table.
Page 330: Iec 61850 Goose Integers
= maximum primary RMS value of all the sources related to the +IN and –IN inputs BASE (Max Delta Volts) The GOOSE analog input FlexAnalog™ values are available for use in other N60 functions that use FlexAnalog™ values. 5.8.15 IEC 61850 GOOSE INTEGERS ...
Page 331: Transducer Inputs And Outputs
–20 to +180 MW; in this case the value would be “–20” and the DCMA INPUT F1 MIN VALUE DCMA INPUT F1 MAX value “180”. Intermediate values between the min and max values are scaled linearly. VALUE GE Multilin N60 Network Stability and Synchrophasor Measurement System 5-201...
Page 332: Rtd Inputs
1.5 pu. FlexElement™ operands are available to FlexLogic™ for further interlocking or to operate an output contact directly. Refer to the following table for reference temperature values for each RTD type. 5-202 N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 333 233.97 16.00 172.46 291.96 243.30 16.39 175.84 303.46 252.88 16.78 179.51 315.31 262.76 17.17 183.17 327.54 272.94 17.56 186.82 340.14 283.45 17.95 190.45 353.14 294.28 18.34 194.08 366.53 305.44 18.73 GE Multilin N60 Network Stability and Synchrophasor Measurement System 5-203...
Page 334: Dcma Outputs
MAX VAL MIN VAL MAX VAL < 0.1 pu. The resulting characteristic is illustrated in the following figure. DRIVING SIGNAL MIN VAL MAX VAL 842739A1.CDR Figure 5–92: DCMA OUTPUT CHARACTERISTIC 5-204 N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 335 The CT ratio is 5000:5 and the maximum load current is 4200 A. The current should be monitored from 0 A upwards, allow- ing for 50% overload. The phase current with the 50% overload margin is: GE Multilin N60 Network Stability and Synchrophasor Measurement System 5-205...
Page 336 – • ±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. 5-206 N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 337: Testing
TEST MODE FORCING: MESSAGE The N60 provides a test facility to verify the functionality of contact inputs and outputs, some communication channels and the phasor measurement unit (where applicable), using simulated conditions. The test mode is indicated on the relay face- plate by a Test Mode LED indicator.
Page 338: Force Contact Inputs
Following a restart, power up, settings TEST MODE FUNCTION upload, or firmware upgrade, the test mode will remain at the last programmed value. This allows a N60 that has been placed in isolated mode to remain isolated during testing and maintenance activities. On restart, the TEST MODE FORCING setting and the force contact input and force contact output settings all revert to their default states.
Page 339: Force Contact Outputs
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 N60 Network Stability and Synchrophasor Measurement System 5-209...
Page 340: Phasor Measurement Unit Test Values
The relay must be in test mode to use the PMU test mode. That is, the  setting must be TESTING TEST MODE FUNCTION “Enabled” and the  initiating signal must be “On”. TESTING TEST MODE INITIATE 5-210 N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 341 When required, it is recommended to use the user-pro- grammable digital channels to signal the C37.118 client that test values are being sent in place of the real measurements. GE Multilin N60 Network Stability and Synchrophasor Measurement System 5-211...
Page 342 5.10 TESTING 5 SETTINGS 5-212 N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 343: Actual Values
 TELEPROT CH TESTS See page 6-9.   ETHERNET SWITCH See page 6-9.   ACTUAL VALUES  SOURCE SRC 1 See page 6-14.  METERING   SOURCE SRC 2  GE Multilin N60 Network Stability and Synchrophasor Measurement System...
Page 344 See page 6-24.  RECORDS   OSCILLOGRAPHY See page 6-24.   DATA LOGGER See page 6-24.   PMU See page 6-25.  RECORDS  MAINTENANCE See page 6-26.  N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 345 6 ACTUAL VALUES 6.1 OVERVIEW  ACTUAL VALUES  MODEL INFORMATION See page 6-27.  PRODUCT INFO   FIRMWARE REVISIONS See page 6-27.  GE Multilin N60 Network Stability and Synchrophasor Measurement System...
Page 346: Contact Inputs
The state displayed will be that of the remote point unless the remote device has been established to be “Offline” in which case the value shown is the programmed default state for the remote input. N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 347: Remote Double-Point Status Inputs
For example, ‘Cont Op 1’ refers to the contact output in terms of the default name-array index. The second line of the display indicates the logic state of the contact output. GE Multilin N60 Network Stability and Synchrophasor Measurement System...
Page 348: Virtual Outputs
DNA or UserSt bit occurs. The SqNum number is obtained from the indicated remote device and is incremented whenever a GSSE message is sent. This number will rollover to zero when a count of 4 294 967 295 is incremented. N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 349: Digital Counters
Range: Fail, OK  ETHERNET ETHERNET PRI LINK  STATUS: OK Range: Fail, OK ETHERNET SEC LINK MESSAGE STATUS: OK These values indicate the status of the primary and secondary Ethernet links. GE Multilin N60 Network Stability and Synchrophasor Measurement System...
Page 350: Direct Inputs
Range: Offline, Online DIRECT DEVICE 2 MESSAGE STATUS: Offline ↓ Range: Offline, Online DIRECT DEVICE 16 MESSAGE STATUS: Offline These actual values represent the state of direct devices 1 through 16. N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 351: Iec 61850 Goose Integers
UINT INPUT 16 MESSAGE The N60 Network Stability and Synchrophasor Measurement System is provided with optional IEC 61850 communications capability. This feature is specified as a software option at the time of ordering. Refer to the Ordering section of chapter 2 for additional details. The IEC 61850 protocol features are not available if CPU type E is ordered.
Page 352: Ethernet Switch
SWITCH MAC ADDRESS: MESSAGE 00A0F40138FA These actual values appear only if the N60 is ordered with an Ethernet switch module (type 2S or 2T). The status informa- tion for the Ethernet switch is shown in this menu. • SWITCH 1 PORT STATUS to SWITCH 6 PORT STATUS: These values represents the receiver status of each port on the Ethernet switch.
Page 353: Metering Conventions
WATTS = Negative VARS = Positive PF = Lead PF = Lag PF = Lead Current UR RELAY 827239AC.CDR S=VI Generator Figure 6–1: FLOW DIRECTION OF SIGNED VALUES FOR WATTS AND VARS GE Multilin N60 Network Stability and Synchrophasor Measurement System 6-11...
Page 354 • ACB phase rotation: -- - V -- - V -- - V -- - V -- - V -- - V The above equations apply to currents as well. 6-12 N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 355 The power system voltages are phase-referenced – for simplicity – to VAG and VAB, respectively. This, however, is a relative matter. It is important to remember that the N60 displays are always referenced as specified under SETTINGS ...
Page 356: Sources
MESSAGE 0.000 SRC 1 PHASOR Ia: MESSAGE 0.000 0.0° SRC 1 PHASOR Ib: MESSAGE 0.000 0.0° SRC 1 PHASOR Ic: MESSAGE 0.000 0.0° SRC 1 PHASOR In: MESSAGE 0.000 0.0° 6-14 N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 357 RMS Vab: MESSAGE 0.00 SRC 1 RMS Vbc: MESSAGE 0.00 SRC 1 RMS Vca: MESSAGE 0.00 SRC 1 PHASOR Vab: MESSAGE 0.000 0.0° SRC 1 PHASOR Vbc: MESSAGE 0.000 0.0° GE Multilin N60 Network Stability and Synchrophasor Measurement System 6-15...
Page 358 φb: 0.000 SRC 1 REACTIVE PWR MESSAGE φc: 0.000 SRC 1 APPARENT PWR MESSAGE 3φ: 0.000 SRC 1 APPARENT PWR MESSAGE φa: 0.000 SRC 1 APPARENT PWR MESSAGE φb: 0.000 6-16 N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 359 S = V x Î x Î x Î (EQ 6.1) When VTs are configured in delta, the N60 does not calculate power in each phase and three-phase power is measured as S = V x Î x Î (EQ 6.2)
Page 360 CLEAR RECORDS CLEAR DEMAND RECORDS i) FREQUENCY METERING    PATH: ACTUAL VALUES METERING SOURCE SRC 1 FREQUENCY  FREQUENCY SRC 1 FREQUENCY:  SRC 1 0.00 Hz 6-18 N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 361: Sensitive Directional Power
FLEXELEMENT 1(16)  FLEXELEMENT 1 FLEXELEMENT 1  OpSig: 0.000 pu The operating signals for the FlexElements™ are displayed in pu values using the following definitions of the base units. GE Multilin N60 Network Stability and Synchrophasor Measurement System 6-19...
Page 362: Digitizers
6.3.9 SUMMATOR   PATH: ACTUAL VALUES METERING SUMMATOR  SUMMATOR SUMMATOR 1 OUTPUT:  0.000 unit SUMMATOR 2 OUTPUT: MESSAGE 0.000 unit ↓ SUMMATOR 6 OUTPUT: MESSAGE 0.000 unit 6-20 N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 363: Direct Analogs
MESSAGE 0.000 The N60 Network Stability and Synchrophasor Measurement System is provided with optional IEC 61850 communications capability. This feature is specified as a software option at the time of ordering. Refer to the Ordering section of chapter 2 for additional details. The IEC 61850 protocol features are not available if CPU type E is ordered.
Page 364: Phasor Measurement Unit
Also, the recording post-filtering setting is applied to these values. 6.3.13 TRANSDUCER INPUTS AND OUTPUTS    PATH: ACTUAL VALUES METERING TRANSDUCER I/O DCMA INPUTS DCMA INPUT xx  DCMA INPUT xx DCMA INPUT xx  0.000 mA 6-22 N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 365 -50 °C Actual values for each RTD input channel that is enabled are displayed with the top line as the programmed channel ID and the bottom line as the value. GE Multilin N60 Network Stability and Synchrophasor Measurement System 6-23...
Page 366: Records
CLEAR RECORDS 6.4.3 DATA LOGGER   PATH: ACTUAL VALUES RECORDS DATA LOGGER  DATA LOGGER OLDEST SAMPLE TIME:  2000/01/14 13:45:51 NEWEST SAMPLE TIME: MESSAGE 2000/01/14 15:21:19 6-24 N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 367: Phasor Measurement Unit Records
RECORDS: 0 Range: 0 to 6553.5 in steps of 0.1 PUM 1 SECONDS MESSAGE PER RECORD: 0.0 Range: date and time in format shown PUM 1 LAST CLEARED: MESSAGE 2005/07/14 015:40:16 GE Multilin N60 Network Stability and Synchrophasor Measurement System 6-25...
Page 368: Breaker Maintenance
BKR 1 ARCING AMP  menu for clearing breaker arcing current records. The COMMANDS CLEAR RECORDS BREAKER OPERATING TIME defined as the slowest operating time of breaker poles that were initiated to open. 6-26 N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 369: Product Information
Date and time when the boot program was built. 2004/09/15 16:41:32 The shown data is illustrative only. A modification file number of 0 indicates that, currently, no modifications have been installed. GE Multilin N60 Network Stability and Synchrophasor Measurement System 6-27...
Page 370 6.5 PRODUCT INFORMATION 6 ACTUAL VALUES 6-28 N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 371: Commands And Targets
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 N60 Network Stability and Synchrophasor Measurement System...
Page 372 “Yes” and pressing the ENTER key. After clearing data, the command setting automatically reverts to “No”. 7.1.4 SET DATE AND TIME  PATH: COMMANDS SET DATE AND TIME (YYYY/MM/DD HH:MM:SS)  COMMANDS SET DATE AND TIME:  SET DATE AND TIME 2000/01/14 13:47:03 N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 373: Relay Maintenance
Various self-checking diagnostics are performed in the background while the N60 is running, and diagnostic information is stored on the non-volatile memory from time to time based on the self-checking result. Although the diagnostic information is cleared before the N60 is shipped from the factory, the user may want to clear the diagnostic information for themselves under certain circumstances.
Page 374 PMU and not to the absolute UTC time. Therefore a simple IRIG-B genera- tor could be used instead. Also, the test set does not have to support GPS synchronization. Any stable signal source can N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 375 The one-shot feature can be used for ad hoc collection of synchronized measurements in the network. Two or more PMU can be pre-scheduled to freeze their measurements at the same time. When frozen the measurements could be collected using EnerVista UR Setup or a protocol client. GE Multilin N60 Network Stability and Synchrophasor Measurement System...
Page 376: Targets Menu
 MESSAGE Each N60 element with a TARGET setting has a target message that when activated by its element is displayed in sequence with any other currently active target messages in the menu. In the example shown, the Phase TOC4 TARGETS and Digital Element 48 target settings are active and so have their targets displayed.
Page 377 Contact Factory (xxx) • Latched target message: Yes. • Description of problem: One or more installed hardware modules is not compatible with the N60 order code. • How often the test is performed: Module dependent. • What to do: Contact the factory and supply the failure code noted in the display. The “xxx” text identifies the failed mod- ule (for example, F8L).
Page 378 • What to do: Verify that all the items in the GOOSE data set are supported by the N60. The EnerVista UR Setup soft- ware will list the valid items. An IEC61850 client will also show which nodes are available for the N60.
Page 379 What to do: Verify the state of the output contact and contact the factory if the problem persists. MAINTENANCE ALERT: GGIO Ind xxx oscill • Latched target message: No. • Description of problem: A data item in a configurable GOOSE data set is oscillating. GE Multilin N60 Network Stability and Synchrophasor Measurement System...
Page 380 Description of problem: The ambient temperature is greater than the maximum operating temperature (+80°C). • How often the test is performed: Every hour. • What to do: Remove the N60 from service and install in a location that meets operating temperature standards. UNEXPECTED RESTART: Press “RESET” key •...
Page 381: Security
When entering a settings or command password via EnerVista or any serial interface, the user must enter the correspond- ing connection password. If the connection is to the back of the N60, the remote password must be used. If the connection is to the RS232 port of the faceplate, the local password must be used.
Page 382: Password Security Menu
If the setting and command passwords are identical, then this one password allows access to both com- mands and settings. NOTE If a remote connection is established, local passcodes are not visible. NOTE N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 383: Remote Passwords
If a command or setting password is lost (or forgotten), consult the factory with the corresponding Encrypted Password value. If you establish a local connection to the relay (serial), you cannot view remote passcodes. NOTE GE Multilin N60 Network Stability and Synchrophasor Measurement System...
Page 384: Access Supervision
INVALID ATTEMPTS BEFORE LOCKOUT The N60 provides a means to raise an alarm upon failed password entry. Should password verification fail while accessing a password-protected level of the relay (either settings or commands), the FlexLogic™ operand is UNAUTHORIZED ACCESS asserted.
Page 385 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 N60 Network Stability and Synchrophasor Measurement System...
Page 386: Settings Security
(settings file templates) and online devices (online settings templates). The func- tionality is identical for both purposes. The settings template feature requires that both the EnerVista UR Setup software and the N60 firmware are at ver- sions 5.40 or higher.
Page 387 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 N60 Network Stability and Synchrophasor Measurement System...
Page 388 The template specifies that only the Pickup Curve Phase time overcurrent settings window without template applied. settings be available. 842858A1.CDR Figure 8–4: APPLYING TEMPLATES VIA THE VIEW IN TEMPLATE MODE COMMAND N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 389 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 N60 Network Stability and Synchrophasor Measurement System...
Page 390: 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. 8-10 N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 391 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 N60 Network Stability and Synchrophasor Measurement System 8-11...
Page 392: Settings File Traceability
When a settings file is transferred to a N60 device, the date, time, and serial number of the N60 are sent back to EnerVista UR Setup and added to the settings file on the local PC. This infor- mation can be compared with the N60 actual values at any later date to determine if security has been compromised.
Page 393 8.2 SETTINGS SECURITY The transfer date of a setting file written to a N60 is logged in the relay and can be viewed via EnerVista UR Setup or the front panel display. Likewise, the transfer date of a setting file saved to a local PC is logged in EnerVista UR Setup.
Page 394 ONLINE DEVICE TRACEABILITY INFORMATION The N60 serial number and file transfer date are available for an online device through the actual values. Select the Actual Values > Product Info > Model Information menu item within the EnerVista UR Setup online window as shown in the example below.
Page 395: Enervista Security Management System
Select the Security > User Management menu item to open the user management configuration window. Enter a username in the User field. The username must be between 4 and 20 characters in length. GE Multilin N60 Network Stability and Synchrophasor Measurement System 8-15...
Page 396: Modifying User Privileges
The following procedure describes how to modify user privileges. Select the Security > User Management menu item to open the user management configuration window. Locate the username in the User field. 8-16 N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 397 When this box is checked, the user will become an EnerVista URPlus Setup administrator, therefore receiving all of the administrative rights. Exercise caution when granting administrator rights. Click OK to save the changes to user to the security management system. GE Multilin N60 Network Stability and Synchrophasor Measurement System 8-17...
Page 398 8.3 ENERVISTA SECURITY MANAGEMENT SYSTEM 8 SECURITY 8-18 N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 399: Commissioning
Injection to a particular N60 frequency element must be to its configured source and to the channels the source uses for frequency measurement. For frequency measurement, a source will use the first quantity configured in the following order: Phase voltages.
Page 400 1 second from test set time reading of ramp start to relay operation. Note that the N60 event records only show the “pickup delay” component, a definite time timer. This is exclusive of the time taken by the frequency responding component to pickup.
Page 401: Maintenance
You cannot erase directly the flash memory, but all records and settings in that memory can be deleted. Do this using the   command. SETTINGS PRODUCT SETUP CLEAR RELAY RECORDS GE Multilin N60 Network Stability and Synchrophasor Measurement System 10-1...
Page 402: Repairs
Customers are responsible for shipping costs to the factory, regardless of whether the unit is under warranty. • Fax a copy of the shipping information to the GE Digital Energy service department in Canada at +1 905 927 5098. Use the detailed return procedure outlined at https://www.gedigitalenergy.com/multilin/support/ret_proc.htm...
Page 403: Storage
Store the unit indoors in a cool, dry place. If possible, store in the original packaging. Follow the storage temperature range outlined in the Specifications. To avoid deterioration of electrolytic capacitors, power up units that are stored in a de-energized state once per year, for one hour continuously. GE Multilin N60 Network Stability and Synchrophasor Measurement System 10-3...
Page 404: Disposal
European Union, dispose of the battery as outlined earlier. To prevent non-intended use of the unit, remove the modules as outlined earlier, dismantle the unit, and recycle the metal when possible. 10-4 N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 405: Parameter Lists
SRC 2 Ic Angle Degrees Source 2 phase C current angle 6225 SRC 2 In Mag Amps Source 2 neutral current magnitude 6227 SRC 2 In Angle Degrees Source 2 neutral current angle GE Multilin N60 Network Stability and Synchrophasor Measurement System...
Page 406 SRC 4 In Mag Amps Source 4 neutral current magnitude 6355 SRC 4 In Angle Degrees Source 4 neutral current angle 6356 SRC 4 Ig RMS Amps Source 4 ground current RMS N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 407 SRC 6 In Angle Degrees Source 6 neutral current angle 6484 SRC 6 Ig RMS Amps Source 6 ground current RMS 6486 SRC 6 Ig Mag Amps Source 6 ground current magnitude GE Multilin N60 Network Stability and Synchrophasor Measurement System...
Page 408 Degrees Source 2 phase CG voltage angle 6735 SRC 2 Vab RMS Volts Source 2 phase AB voltage RMS 6737 SRC 2 Vbc RMS Volts Source 2 phase BC voltage RMS N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 409 Volts Source 4 phase BG voltage RMS 6852 SRC 4 Vcg RMS Volts Source 4 phase CG voltage RMS 6854 SRC 4 Vag Mag Volts Source 4 phase AG voltage magnitude GE Multilin N60 Network Stability and Synchrophasor Measurement System...
Page 410 SRC 5 V_0 Mag Volts Source 5 zero-sequence voltage magnitude 6949 SRC 5 V_0 Angle Degrees Source 5 zero-sequence voltage angle 6950 SRC 5 V_1 Mag Volts Source 5 positive-sequence voltage magnitude N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 411 SRC 1 Phase B PF Source 1 phase B power factor 7195 SRC 1 Phase C PF Source 1 phase C power factor 7200 SRC 2 P Watts Source 2 three-phase real power GE Multilin N60 Network Stability and Synchrophasor Measurement System...
Page 412 SRC 4 Phase A PF Source 4 phase A power factor 7290 SRC 4 Phase B PF Source 4 phase B power factor 7291 SRC 4 Phase C PF Source 4 phase C power factor N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 413 Amps Source 2 phase A current demand 7698 SRC 2 Demand Ib Amps Source 2 phase B current demand 7700 SRC 2 Demand Ic Amps Source 2 phase C current demand GE Multilin N60 Network Stability and Synchrophasor Measurement System...
Page 414 Phasor measurement unit 1 negative-sequence voltage angle 9554 PMU 1 V0 Mag Volts Phasor measurement unit 1 zero-sequence voltage magnitude 9556 PMU 1 V0 Angle Degrees Phasor measurement unit 1 zero-sequence voltage angle A-10 N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 415 Phasor measurement unit 2 zero-sequence current angle 9628 PMU 2 Freq Phasor measurement unit 2 frequency 9630 PMU 2 df dt Hz/s Phasor measurement unit 2 rate of change of frequency GE Multilin N60 Network Stability and Synchrophasor Measurement System A-11...
Page 416 Phasor measurement unit 4 zero-sequence voltage magnitude 9706 PMU 4 V0 Angle Degrees Phasor measurement unit 4 zero-sequence voltage angle 9707 PMU 4 Ia Mag Amps Phasor measurement unit 4 phase A current magnitude A-12 N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 417 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 N60 Network Stability and Synchrophasor Measurement System A-13...
Page 418 Tracking frequency 33024 Comp Arg A 1 Eight-bit comparator 1 input A 33026 Comp Arg B 1 Eight-bit comparator 1 input B 33028 Comp Out 1 Eight-bit comparator 1 output A-14 N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 419 Dir Analog Input 30 Direct analog input 30 actual value 33182 Dir Analog Input 31 Direct analog input 31 actual value 33183 Dir Analog Input 32 Direct analog input 32 actual value GE Multilin N60 Network Stability and Synchrophasor Measurement System A-15...
Page 420 GOOSE Analog In 15 IEC 61850 GOOSE analog input 15 45614 GOOSE Analog In 16 IEC 61850 GOOSE analog input 16 61449 PMU Num Triggers Phasor measurement unit recording number of triggers A-16 N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 421: Flexinteger Items
Dir Integer Input 13 Direct integer input 13 actual value 10058 Dir Integer Input 14 Direct integer input 14 actual value 10060 Dir Integer Input 15 Direct integer input 15 actual value GE Multilin N60 Network Stability and Synchrophasor Measurement System A-17...
Page 422 A.1 PARAMETER LISTS APPENDIX A Table A–2: FLEXINTEGER DATA ITEMS ADDRESS FLEXINTEGER NAME UNITS DESCRIPTION 10062 Dir Integer Input 16 Direct integer input 16 actual value A-18 N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 423: Modbus Rtu Protocol
See the Supported Function Codes section for complete details. An exception response from the slave is indi- cated by setting the high order bit of the function code in the response packet. See the Exception Responses section for further details. GE Multilin N60 Network Stability and Synchrophasor Measurement System...
Page 424: Modbus Rtu Crc-16 Algorithm
A C programming language implementation of the CRC algorithm will be provided upon request. N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 425 No: go to 8; Yes: G (+) A --> A and continue. Is j = 8? No: go to 5; Yes: continue i + 1 --> i Is i = N? No: go to 3; Yes: continue A --> CRC GE Multilin N60 Network Stability and Synchrophasor Measurement System...
Page 426: Modbus Function Codes
NUMBER OF REGISTERS - low DATA #2 - high CRC - low DATA #2 - low CRC - high DATA #3 - high DATA #3 - low CRC - low CRC - high N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 427: Execute Operation (Function Code 05H
DATA STARTING ADDRESS - low DATA STARTING ADDRESS - low DATA - high DATA - high DATA - low DATA - low CRC - low CRC - low CRC - high CRC - high GE Multilin N60 Network Stability and Synchrophasor Measurement System...
Page 428: Store Multiple Settings (Function Code 10H
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 N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 429: File Transfers
To read binary COMTRADE oscillography files, read the following filenames: OSCnnnn.CFG and OSCnnn.DAT Replace “nnn” with the desired oscillography trigger number. For ASCII format, use the following file names OSCAnnnn.CFG and OSCAnnn.DAT GE Multilin N60 Network Stability and Synchrophasor Measurement System...
Page 430 To read from a specific record to another specific record, use the following filename: EVT.TXT xxxxx yyyyy (replace xxxxx with the starting record number and yyyyy with the ending record number) N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 431: Memory Mapping
Virtual Input 19 State 0 to 1 F108 0 (Off) 0413 Virtual Input 20 State 0 to 1 F108 0 (Off) 0414 Virtual Input 21 State 0 to 1 F108 0 (Off) GE Multilin N60 Network Stability and Synchrophasor Measurement System...
Page 432 0 to 4294967295 F003 part of time stamp) 0808 ...Repeated for Digital Counter 2 0810 ...Repeated for Digital Counter 3 0818 ...Repeated for Digital Counter 4 0820 ...Repeated for Digital Counter 5 B-10 N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 433 ...Repeated for Direct Analog Input and Output 29 1499 ...Repeated for Direct Analog Input and Output 30 14A6 ...Repeated for Direct Analog Input and Output 31 14B3 ...Repeated for Direct Analog Input and Output 32 GE Multilin N60 Network Stability and Synchrophasor Measurement System B-11...
Page 434 0 to 65535 F500 160E Field Transducer Input Trouble States 0 to 65535 F500 Ethernet Fibre Channel Status (Read Only) 1610 Ethernet Primary Fibre Channel Status 0 to 2 F134 0 (Fail) B-12 N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 435 Source 1 Positive Sequence Current Magnitude 0 to 999999.999 0.001 F060 181E Source 1 Positive Sequence Current Angle -359.9 to 0 degrees F002 181F Source 1 Negative Sequence Current Magnitude 0 to 999999.999 0.001 F060 GE Multilin N60 Network Stability and Synchrophasor Measurement System B-13...
Page 436 Source 1 Phase C Real Power -1000000000000 to 0.001 F060 1000000000000 1C08 Source 1 Three Phase Reactive Power -1000000000000 to 0.001 F060 1000000000000 1C0A Source 1 Phase A Reactive Power -1000000000000 to 0.001 F060 1000000000000 B-14 N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 437 1E0C Reserved (4 items) F001 1E10 ...Repeated for Source 2 1E20 ...Repeated for Source 3 1E30 ...Repeated for Source 4 1E40 ...Repeated for Source 5 1E50 ...Repeated for Source 6 GE Multilin N60 Network Stability and Synchrophasor Measurement System B-15...
Page 438 PMU 1 Ground Current Magnitude 0 to 999999.999 0.001 F060 2560 PMU 1 Ground Current Angle -180 to 180 ° 0.01 F002 2561 PMU 1 Positive Sequence Current Magnitude 0 to 999999.999 0.001 F060 B-16 N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 439 26FA IEC 61850 Received uinteger 6 0 to 4294967295 F003 26FC IEC 61850 Received uinteger 7 0 to 4294967295 F003 26FE IEC 61850 Received uinteger 8 0 to 4294967295 F003 GE Multilin N60 Network Stability and Synchrophasor Measurement System B-17...
Page 440 Event Recorder (Read Only) 3400 Events Since Last Clear 0 to 4294967295 F003 3402 Number of Available Events 0 to 4294967295 F003 3404 Event Recorder Last Cleared Date 0 to 4294967295 F050 B-18 N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 441 3507 RTD Input 24 Value -32768 to 32767 °C F002 3508 RTD Input 25 Value -32768 to 32767 °C F002 3509 RTD Input 26 Value -32768 to 32767 °C F002 GE Multilin N60 Network Stability and Synchrophasor Measurement System B-19...
Page 442 0 to 16 F247 0 (None) 3891 Remote Phase CT x Origin 2 0 to 16 F247 0 (None) 3892 Remote Ground CT x Origin 1 0 to 16 F248 0 (None) B-20 N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 443 ...Repeated for Field Contact Input 26 3A1E ...Repeated for Field Contact Input 27 3A29 ...Repeated for Field Contact Input 28 3A34 ...Repeated for Field Contact Input 29 3A3F ...Repeated for Field Contact Input 30 GE Multilin N60 Network Stability and Synchrophasor Measurement System B-21...
Page 444 ...Repeated for Field Latching Output 3 3D81 ...Repeated for Field Latching Output 4 3D8C ...Repeated for Field Latching Output 5 3D97 ...Repeated for Field Latching Output 6 3DA2 ...Repeated for Field Latching Output 7 B-22 N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 445 Attached Filed Unit 1 Port Number F001 3F87 Attached Field Unit 1 Type 0 to 3 F243 0 (CC-05) 3F88 Field Unit 1 Status 0 to 4 F262 0 (Disabled) GE Multilin N60 Network Stability and Synchrophasor Measurement System B-23...
Page 446 0 to 4294967295 F003 4294966272 408B Gateway IP Address 0 to 4294967295 F003 56554497 408D Network Address NSAP F074 409A DNP Channel 1 Port 0 to 5 F177 0 (None) B-24 N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 447 0 to 3 F523 0 (1) 4143 DNP Object 21 Default Variation 0 to 3 F524 0 (1) 4144 DNP Object 22 Default Variation 0 to 3 F523 0 (1) GE Multilin N60 Network Stability and Synchrophasor Measurement System B-25...
Page 448 1 to 64 F001 41C1 Oscillography Trigger Mode 0 to 1 F118 0 (Auto. Overwrite) 41C2 Oscillography Trigger Position 0 to 100 F001 41C3 Oscillography Trigger Source 0 to 65535 F300 B-26 N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 449 42D2 ...Repeated for User-Programmable LED 42 42D4 ...Repeated for User-Programmable LED 43 42D6 ...Repeated for User-Programmable LED 44 42D8 ...Repeated for User-Programmable LED 45 42DA ...Repeated for User-Programmable LED 46 GE Multilin N60 Network Stability and Synchrophasor Measurement System B-27...
Page 450 Phase Rotation 0 to 1 F106 0 (ABC) 4602 Frequency and Phase Reference 0 to 5 F167 0 (SRC 1) 4603 Frequency Tracking Function 0 to 1 F102 1 (Enabled) B-28 N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 451 Demand (Read/Write Command) 47D4 Demand Clear Record 0 to 1 F126 0 (No) Modbus User Map (Read/Write Setting) 4A00 Modbus Address Settings for User Map (256 items) 0 to 65535 F001 GE Multilin N60 Network Stability and Synchrophasor Measurement System B-29...
Page 452 Raw Field Data Local Transceiver Voltage 0 to 0.01 0.01 F001 4E29 Raw Field Data Local Transceiver Current 0 to 1 F001 4E2A Raw Field Data Local Tx Power 0 to 0.1 F002 B-30 N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 453 56AC ...Repeated for RTD Input 37 56BF ...Repeated for RTD Input 38 56D2 ...Repeated for RTD Input 39 56E5 ...Repeated for RTD Input 40 56F8 ...Repeated for RTD Input 41 GE Multilin N60 Network Stability and Synchrophasor Measurement System B-31...
Page 454 Phase IOC1 Block For Phase C 0 to 65535 F300 5A08 Phase Instantaneous Overcurrent 1 Target 0 to 2 F109 0 (Self-reset) 5A09 Phase Instantaneous Overcurrent 1 Events 0 to 1 F102 0 (Disabled) B-32 N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 455 Overfrequency 1 Target 0 to 2 F109 0 (Self-reset) 64D7 Overfrequency 1 Events 0 to 1 F102 0 (Disabled) 64D8 Reserved (4 items) 0 to 1 F001 64DC ...Repeated for Overfrequency 2 GE Multilin N60 Network Stability and Synchrophasor Measurement System B-33...
Page 456 0 to 5 F167 0 (SRC 1) 7002 Phase Undervoltage 1 Pickup 0 to 3 0.001 F001 1000 7003 Phase Undervoltage 1 Curve 0 to 1 F111 0 (Definite Time) B-34 N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 457 ...Repeated for DCmA Inputs 24 Disconnect (Breaker) Switch (Read/Write Setting) (24 modules) 7540 Disconnect Switch 1 Function 0 to 1 F102 0 (Disabled) 7541 Disconnect Switch 1 Name F206 “SW 1" GE Multilin N60 Network Stability and Synchrophasor Measurement System B-35...
Page 458 0 (Disabled) 7743 Reserved (2 items) F001 7745 Repeated for Thermal Protection 2 Ohm Inputs (Read/Write Setting) (2 modules) 7840 Ohm Inputs 1 Function 0 to 1 F102 0 (Disabled) B-36 N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 459 PMU 1 Test Frequency 20 to 70 0.001 F003 60000 78D3 PMU 1 Test df/dt -10 to 10 Hz/s 0.001 F002 78D4 ...Repeated for PMU 2 78F0 ...Repeated for PMU 3 GE Multilin N60 Network Stability and Synchrophasor Measurement System B-37...
Page 460 Phasor Measurement Unit Current Trigger (Read/Write Setting) (4 modules) 79A5 PMU 1 Current Trigger Function 0 to 1 F102 0 (Disabled) 79A6 PMU 1 Current Trigger Pickup 0.1 to 30 0.001 F001 1800 B-38 N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 461 ...Repeated for User Programmable Pushbutton 14 7DBA ...Repeated for User Programmable Pushbutton 15 7DE5 ...Repeated for User Programmable Pushbutton 16 Underfrequency (Read/Write Setting) (6 modules) 7E10 Underfrequency Function 0 to 1 F102 0 (Disabled) GE Multilin N60 Network Stability and Synchrophasor Measurement System B-39...
Page 462 8188 Direct Analog Input 5 Value 0 to 2147483647 F060 818A Direct Analog Input 6 Value 0 to 2147483647 F060 818C Direct Analog Input 7 Value 0 to 2147483647 F060 B-40 N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 463 Digitizer 1 Limit Setting 0.05 to 90 0.001 F003 1000 8264 Reserved (4 items) 0 to 65535 F001 8268 ...Repeated for Digitizer 2 8270 ...Repeated for Digitizer 3 8278 ...Repeated for Digitizer 4 GE Multilin N60 Network Stability and Synchrophasor Measurement System B-41...
Page 464 0 (Self-reset) 8A10 Digital Element 1 Events 0 to 1 F102 0 (Disabled) 8A11 Digital Element 1 Pickup LED 0 to 1 F102 1 (Enabled) 8A12 Reserved (2 items) F001 B-42 N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 465 Trip Bus 1 Reset Delay 0 to 600 0.01 F001 8E04 Trip Bus 1 Input 1 0 to 65535 F300 8E05 Trip Bus 1 Input 2 0 to 65535 F300 GE Multilin N60 Network Stability and Synchrophasor Measurement System B-43...
Page 466 90A0 ...Repeated for FlexElement™ 9 90B4 ...Repeated for FlexElement™ 10 90C8 ...Repeated for FlexElement™ 11 90DC ...Repeated for FlexElement™ 12 90F0 ...Repeated for FlexElement™ 13 9104 ...Repeated for FlexElement™ 14 B-44 N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 467 94CC ...Repeated for Direct Input/Output 18 94D8 ...Repeated for Direct Input/Output 19 94E4 ...Repeated for Direct Input/Output 20 94F0 ...Repeated for Direct Input/Output 21 94FC ...Repeated for Direct Input/Output 22 GE Multilin N60 Network Stability and Synchrophasor Measurement System B-45...
Page 468 ...Repeated for IEC61850 GOOSE uinteger 6 9922 ...Repeated for IEC61850 GOOSE uinteger 7 9925 ...Repeated for IEC61850 GOOSE uinteger 8 9928 ...Repeated for IEC61850 GOOSE uinteger 9 992B ...Repeated for IEC61850 GOOSE uinteger 10 B-46 N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 469 ...Repeated for VT Fuse Failure 2 A042 ...Repeated for VT Fuse Failure 3 A043 ...Repeated for VT Fuse Failure 4 A044 ...Repeated for VT Fuse Failure 5 A045 ...Repeated for VT Fuse Failure 6 GE Multilin N60 Network Stability and Synchrophasor Measurement System B-47...
Page 470 A714 ...Repeated for Non-Volatile Latch 3 A71E ...Repeated for Non-Volatile Latch 4 A728 ...Repeated for Non-Volatile Latch 5 A732 ...Repeated for Non-Volatile Latch 6 A73C ...Repeated for Non-Volatile Latch 7 B-48 N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 471 0 to 1 F491 0 (Default Value) AA03 IEC 61850 GOOSE Analog Input 1 Units F207 (none) AA05 IEC 61850 GOOSE Analog Input 1 Per-Unit Base 0 to 999999999.999 0.001 F060 GE Multilin N60 Network Stability and Synchrophasor Measurement System B-49...
Page 472 F206 (none) ACFE IEC 61850 Logical Node RPSBx Name Prefix 0 to 65534 F206 (none) AD01 IEC 61850 Logical Node RRECx Name Prefix (6 items) 0 to 65534 F206 (none) B-50 N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 473 ...Repeated for IEC 61850 GGIO4 Analog Input 7 AF41 ...Repeated for IEC 61850 GGIO4 Analog Input 8 AF48 ...Repeated for IEC 61850 GGIO4 Analog Input 9 AF4F ...Repeated for IEC 61850 GGIO4 Analog Input 10 GE Multilin N60 Network Stability and Synchrophasor Measurement System B-51...
Page 474 0.001 to 100 0.001 F003 10000 B0D2 IEC 61850 MMXU PhV.phsB Deadband 1 0.001 to 100 0.001 F003 10000 B0D4 IEC 61850 MMXU PhV.phsC Deadband 1 0.001 to 100 0.001 F003 10000 B-52 N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 475 B244 ...Repeated for Received Analog 27 B246 ...Repeated for Received Analog 28 B248 ...Repeated for Received Analog 29 B24A ...Repeated for Received Analog 30 B24C ...Repeated for Received Analog 31 GE Multilin N60 Network Stability and Synchrophasor Measurement System B-53...
Page 476 BB18 ...Repeated for Contact Input 4 BB20 ...Repeated for Contact Input 5 BB28 ...Repeated for Contact Input 6 BB30 ...Repeated for Contact Input 7 BB38 ...Repeated for Contact Input 8 B-54 N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 477 BCC8 ...Repeated for Contact Input 58 BCD0 ...Repeated for Contact Input 59 BCD8 ...Repeated for Contact Input 60 BCE0 ...Repeated for Contact Input 61 BCE8 ...Repeated for Contact Input 62 GE Multilin N60 Network Stability and Synchrophasor Measurement System B-55...
Page 478 BE90 ...Repeated for Virtual Input 9 BE9C ...Repeated for Virtual Input 10 BEA8 ...Repeated for Virtual Input 11 BEB4 ...Repeated for Virtual Input 12 BEC0 ...Repeated for Virtual Input 13 B-56 N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 479 ...Repeated for Virtual Input 64 Virtual Outputs (Read/Write Setting) (96 modules) C130 Virtual Output 1 Name F205 “Virt Op 1 “ C136 Virtual Output 1 Events 0 to 1 F102 0 (Disabled) GE Multilin N60 Network Stability and Synchrophasor Measurement System B-57...
Page 480 C2B8 ...Repeated for Virtual Output 50 C2C0 ...Repeated for Virtual Output 51 C2C8 ...Repeated for Virtual Output 52 C2D0 ...Repeated for Virtual Output 53 C2D8 ...Repeated for Virtual Output 54 B-58 N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 481 0 to 1 F126 0 (No) Contact Outputs (Read/Write Setting) (64 modules) C440 Contact Output 1 Name F205 “Cont Op 1" C446 Contact Output 1 Operation 0 to 65535 F300 GE Multilin N60 Network Stability and Synchrophasor Measurement System B-59...
Page 482 C65C ...Repeated for Contact Output 46 C668 ...Repeated for Contact Output 47 C674 ...Repeated for Contact Output 48 C680 ...Repeated for Contact Output 49 C68C ...Repeated for Contact Output 50 B-60 N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 483 0 to 1 F102 0 (Disabled) C894 ...Repeated for Direct Input 2 C898 ...Repeated for Direct Input 3 C89C ...Repeated for Direct Input 4 C8A0 ...Repeated for Direct Input 5 GE Multilin N60 Network Stability and Synchrophasor Measurement System B-61...
Page 484 C968 ...Repeated for Direct Input 55 C96C ...Repeated for Direct Input 56 C970 ...Repeated for Direct Input 57 C974 ...Repeated for Direct Input 58 C978 ...Repeated for Direct Input 59 B-62 N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 485 CA64 ...Repeated for Direct Output 43 CA66 ...Repeated for Direct Output 44 CA68 ...Repeated for Direct Output 45 CA6A ...Repeated for Direct Output 46 CA6C ...Repeated for Direct Output 47 GE Multilin N60 Network Stability and Synchrophasor Measurement System B-63...
Page 486 0 to 1 F126 0 (No) CB24 ...Repeated for Device 2 CB48 ...Repeated for Device 3 CB6C ...Repeated for Device 4 CB90 ...Repeated for Device 5 CBB4 ...Repeated for Device 6 B-64 N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 487 D0F4 ...Repeated for Remote Input 35 D0FE ...Repeated for Remote Input 36 D108 ...Repeated for Remote Input 37 D112 ...Repeated for Remote Input 38 D11C ...Repeated for Remote Input 39 GE Multilin N60 Network Stability and Synchrophasor Measurement System B-65...
Page 488 D274 ...Repeated for Remote Output 22 D278 ...Repeated for Remote Output 23 D27C ...Repeated for Remote Output 24 D280 ...Repeated for Remote Output 25 D284 ...Repeated for Remote Output 26 B-66 N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 489 0 to 2 F001 D329 IEC 61850 GGIO2.CF.SPCSO10.ctlModel Value 0 to 2 F001 D32A IEC 61850 GGIO2.CF.SPCSO11.ctlModel Value 0 to 2 F001 D32B IEC 61850 GGIO2.CF.SPCSO12.ctlModel Value 0 to 2 F001 GE Multilin N60 Network Stability and Synchrophasor Measurement System B-67...
Page 490 IEC 61850 GGIO2.CF.SPCSO63.ctlModel Value 0 to 2 F001 D35F IEC 61850 GGIO2.CF.SPCSO64.ctlModel Value 0 to 2 F001 Remote Device Status (Read Only) (16 modules) D380 Remote Device 1 StNum 0 to 4294967295 F003 B-68 N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 491 0 to 11 F544 3 (5/sec.) E637 PMU 1 No of Timed Records 2 to 128 F001 E638 PMU 1 Trigger Mode Ex 0 to 1 F542 0 (Auto Overwrite) GE Multilin N60 Network Stability and Synchrophasor Measurement System B-69...
Page 492 Settings File Template (Read/Write Setting) ED09 Template Bitmask (750 items) 0 to 65535 F001 Phasor Measurement Unit Records (Read Only) EFFF PMU Recording Number of Triggers 0 to 65535 F001 B-70 N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 493: Data Formats
Last 16 bits are Seconds (xx:xx:.SS.SSS): 0=00.000s, F101 1=00.001,...,59999=59.999s). ENUMERATION: MESSAGE DISPLAY INTENSITY 0 = 25%, 1 = 50%, 2 = 75%, 3 = 100% F102 ENUMERATION: DISABLED/ENABLED 0 = Disabled, 1 = Enabled GE Multilin N60 Network Stability and Synchrophasor Measurement System B-71...
Page 494 Underfrequency 5 Phase Instantaneous Overcurrent 5 Underfrequency 6 Phase Instantaneous Overcurrent 6 Open Pole Detector (N60) Phase Instantaneous Overcurrent 7 Selector switch 1 Phase Instantaneous Overcurrent 8 Selector switch 2 B-72 N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 495 8-bit Switch 6 Digital Element 45 Digital Counter 1 Digital Element 46 Digital Counter 2 Digital Element 47 Digital Counter 3 Digital Element 48 Digital Counter 4 Phasor Measurement Unit 1 Frequency GE Multilin N60 Network Stability and Synchrophasor Measurement System B-73...
Page 496 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 B-74 N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 497 ENUMERATION: FORCED CONTACT OUTPUT STATE SNTP Failure 0 = Disabled, 1 = Energized, 2 = De-energized, 3 = Freeze Primary Ethernet Fail Secondary Ethernet Fail Temperature Monitor Process Bus Trouble Brick Trouble GE Multilin N60 Network Stability and Synchrophasor Measurement System B-75...
Page 498 0 = Active Group, 1 = Group 1, 2 = Group 2, 3 = Group 3 4 = Group 4, 5 = Group 5, 6 = Group 6 F155 ENUMERATION: REMOTE DEVICE STATE 0 = Offline, 1 = Online B-76 N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 499 32 samples/cycle ENUMERATION: SIGNAL SOURCE 64 samples/cycle 0 = SRC 1, 1 = SRC 2, 2 = SRC 3, 3 = SRC 4, 4 = SRC 5, 5 = SRC 6 GE Multilin N60 Network Stability and Synchrophasor Measurement System B-77...
Page 500 User 6 (control pushbutton) F220 Message Right User 7 (control pushbutton) ENUMERATION: PUSHBUTTON MESSAGE PRIORITY Menu User-programmable key 13 Help User-programmable key 14 Value Priority Escape User-programmable key 15 Disabled B-78 N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 501 MMXU1.MX.A.phsA.cVal.mag.f MMXU2.MX.VA.phsC.cVal.mag.f MMXU1.MX.A.phsA.cVal.ang.f MMXU2.MX.PF.phsA.cVal.mag.f MMXU1.MX.A.phsB.cVal.mag.f MMXU2.MX.PF.phsB.cVal.mag.f MMXU1.MX.A.phsB.cVal.ang.f MMXU2.MX.PF.phsC.cVal.mag.f MMXU1.MX.A.phsC.cVal.mag.f MMXU3.MX.TotW.mag.f MMXU1.MX.A.phsC.cVal.ang.f MMXU3.MX.TotVAr.mag.f MMXU1.MX.A.neut.cVal.mag.f MMXU3.MX.TotVA.mag.f MMXU1.MX.A.neut.cVal.ang.f MMXU3.MX.TotPF.mag.f MMXU1.MX.W.phsA.cVal.mag.f MMXU3.MX.Hz.mag.f MMXU1.MX.W.phsB.cVal.mag.f MMXU3.MX.PPV.phsAB.cVal.mag.f MMXU1.MX.W.phsC.cVal.mag.f MMXU3.MX.PPV.phsAB.cVal.ang.f MMXU1.MX.VAr.phsA.cVal.mag.f MMXU3.MX.PPV.phsBC.cVal.mag.f MMXU1.MX.VAr.phsB.cVal.mag.f MMXU3.MX.PPV.phsBC.cVal.ang.f MMXU1.MX.VAr.phsC.cVal.mag.f MMXU3.MX.PPV.phsCA.cVal.mag.f MMXU1.MX.VA.phsA.cVal.mag.f MMXU3.MX.PPV.phsCA.cVal.ang.f GE Multilin N60 Network Stability and Synchrophasor Measurement System B-79...
Page 502 MMXU4.MX.PhV.phsA.cVal.ang.f MMXU5.MX.VAr.phsA.cVal.mag.f MMXU4.MX.PhV.phsB.cVal.mag.f MMXU5.MX.VAr.phsB.cVal.mag.f MMXU4.MX.PhV.phsB.cVal.ang.f MMXU5.MX.VAr.phsC.cVal.mag.f MMXU4.MX.PhV.phsC.cVal.mag.f MMXU5.MX.VA.phsA.cVal.mag.f MMXU4.MX.PhV.phsC.cVal.ang.f MMXU5.MX.VA.phsB.cVal.mag.f MMXU4.MX.A.phsA.cVal.mag.f MMXU5.MX.VA.phsC.cVal.mag.f MMXU4.MX.A.phsA.cVal.ang.f MMXU5.MX.PF.phsA.cVal.mag.f MMXU4.MX.A.phsB.cVal.mag.f MMXU5.MX.PF.phsB.cVal.mag.f MMXU4.MX.A.phsB.cVal.ang.f MMXU5.MX.PF.phsC.cVal.mag.f MMXU4.MX.A.phsC.cVal.mag.f MMXU6.MX.TotW.mag.f MMXU4.MX.A.phsC.cVal.ang.f MMXU6.MX.TotVAr.mag.f MMXU4.MX.A.neut.cVal.mag.f MMXU6.MX.TotVA.mag.f MMXU4.MX.A.neut.cVal.ang.f MMXU6.MX.TotPF.mag.f MMXU4.MX.W.phsA.cVal.mag.f MMXU6.MX.Hz.mag.f MMXU4.MX.W.phsB.cVal.mag.f MMXU6.MX.PPV.phsAB.cVal.mag.f B-80 N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 503 GGIO5.ST.UIntIn16.stVal GGIO4.MX.AnIn12.mag.f GGIO4.MX.AnIn13.mag.f F233 GGIO4.MX.AnIn14.mag.f ENUMERATION: CONFIGURABLE GOOSE Rx GGIO4.MX.AnIn15.mag.f DATASET ITEMS GGIO4.MX.AnIn16.mag.f Value IEC 61850 GOOSE Rx dataset GGIO4.MX.AnIn17.mag.f item GGIO4.MX.AnIn18.mag.f None GGIO4.MX.AnIn19.mag.f GGIO3.ST.Ind1.q GGIO4.MX.AnIn20.mag.f GGIO3.ST.Ind1.stVal GGIO4.MX.AnIn21.mag.f GGIO3.ST.Ind2.q GGIO4.MX.AnIn22.mag.f GE Multilin N60 Network Stability and Synchrophasor Measurement System B-81...
Page 504 F238 GGIO3.ST.UIntIn1.q ENUMERATION: REAL TIME CLOCK DAY (FOR EXAMPLE, GGIO3.ST.UIntIn1.stVal DAYLIGHT SAVINGS TIME) GGIO3.ST.UIntIn2.q Value GGIO3.ST.UIntIn2.stVal Sunday GGIO3.ST.UIntIn3.q Monday GGIO3.ST.UIntIn3.stVal Tuesday GGIO3.ST.UIntIn4.q Wednesday GGIO3.ST.UIntIn4.stVal Thursday GGIO3.ST.UIntIn5.q Friday GGIO3.ST.UIntIn5.stVal Saturday GGIO3.ST.UIntIn6.q B-82 N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 505 None 4...20mA U1/DC1 potentiometer U1/DC2 tap position U1/DC3 U2/DC1 F247 ENUMERATION: BRICK AC BANK ORIGIN U8/DC3 Value Description None F256 U1/AC1..3 ENUMERATION: BRICK ORIGIN/DESTINATION U1/AC5..7 U2/AC1..3 Value Description U2/AC5..7 None GE Multilin N60 Network Stability and Synchrophasor Measurement System B-83...
Page 506 A bit value of 0 = Off and 1 = On. [14] REMOTE INPUTS (1 to 32) [16] DIRECT INPUTS (1 to 96) 0 = Off, 1 = On [18] REMOTE OUTPUT DNA BIT PAIRS (1 to 32) B-84 N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 507 0 = –1 to 1 mA, 1 = 0 to 1 mA, 2 = 4 to 20 mA F531 ENUMERATION: LANGUAGE 0 = English, 1 = French, 2 = Chinese, 3 = Russian GE Multilin N60 Network Stability and Synchrophasor Measurement System B-85...
Page 508 UR_UINT16: FLEXINTEGER PARAMETER 0 = Integer, 1 = Floating This 16-bit value corresponds to the Modbus address of the selected FlexInteger parameter. Only certain values can be used as FlexIntegers. B-86 N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 509 PIOC3.ST.Op.general PIOC30.ST.Str.general PIOC4.ST.Str.general PIOC30.ST.Op.general PIOC4.ST.Op.general PIOC31.ST.Str.general PIOC5.ST.Str.general PIOC31.ST.Op.general PIOC5.ST.Op.general PIOC32.ST.Str.general PIOC6.ST.Str.general PIOC32.ST.Op.general PIOC6.ST.Op.general PIOC33.ST.Str.general PIOC7.ST.Str.general PIOC33.ST.Op.general PIOC7.ST.Op.general PIOC34.ST.Str.general PIOC8.ST.Str.general PIOC34.ST.Op.general PIOC8.ST.Op.general PIOC35.ST.Str.general PIOC9.ST.Str.general PIOC35.ST.Op.general PIOC9.ST.Op.general PIOC36.ST.Str.general PIOC10.ST.Str.general PIOC36.ST.Op.general PIOC10.ST.Op.general PIOC37.ST.Str.general GE Multilin N60 Network Stability and Synchrophasor Measurement System B-87...
Page 510 PIOC56.ST.Op.general PTOC11.ST.Str.general PIOC57.ST.Str.general PTOC11.ST.Op.general PIOC57.ST.Op.general PTOC12.ST.Str.general PIOC58.ST.Str.general PTOC12.ST.Op.general PIOC58.ST.Op.general PTOC13.ST.Str.general PIOC59.ST.Str.general PTOC13.ST.Op.general PIOC59.ST.Op.general PTOC14.ST.Str.general PIOC60.ST.Str.general PTOC14.ST.Op.general PIOC60.ST.Op.general PTOC15.ST.Str.general PIOC61.ST.Str.general PTOC15.ST.Op.general PIOC61.ST.Op.general PTOC16.ST.Str.general PIOC62.ST.Str.general PTOC16.ST.Op.general PIOC62.ST.Op.general PTOC17.ST.Str.general PIOC63.ST.Str.general PTOC17.ST.Op.general PIOC63.ST.Op.general PTOC18.ST.Str.general B-88 N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 511 PTRC3.ST.Op.general RBRF11.ST.OpEx.general PTRC4.ST.Tr.general RBRF11.ST.OpIn.general PTRC4.ST.Op.general RBRF12.ST.OpEx.general PTRC5.ST.Tr.general RBRF12.ST.OpIn.general PTRC5.ST.Op.general RBRF13.ST.OpEx.general PTRC6.ST.Tr.general RBRF13.ST.OpIn.general PTRC6.ST.Op.general RBRF14.ST.OpEx.general PTUV1.ST.Str.general RBRF14.ST.OpIn.general PTUV1.ST.Op.general RBRF15.ST.OpEx.general PTUV2.ST.Str.general RBRF15.ST.OpIn.general PTUV2.ST.Op.general RBRF16.ST.OpEx.general PTUV3.ST.Str.general RBRF16.ST.OpIn.general PTUV3.ST.Op.general RBRF17.ST.OpEx.general PTUV4.ST.Str.general RBRF17.ST.OpIn.general PTUV4.ST.Op.general RBRF18.ST.OpEx.general GE Multilin N60 Network Stability and Synchrophasor Measurement System B-89...
Page 512 CSWI3.ST.Pos.stVal CSWI30.ST.Loc.stVal CSWI4.ST.Loc.stVal CSWI30.ST.Pos.stVal CSWI4.ST.Pos.stVal GGIO1.ST.Ind1.stVal CSWI5.ST.Loc.stVal GGIO1.ST.Ind2.stVal CSWI5.ST.Pos.stVal GGIO1.ST.Ind3.stVal CSWI6.ST.Loc.stVal GGIO1.ST.Ind4.stVal CSWI6.ST.Pos.stVal GGIO1.ST.Ind5.stVal CSWI7.ST.Loc.stVal GGIO1.ST.Ind6.stVal CSWI7.ST.Pos.stVal GGIO1.ST.Ind7.stVal CSWI8.ST.Loc.stVal GGIO1.ST.Ind8.stVal CSWI8.ST.Pos.stVal GGIO1.ST.Ind9.stVal CSWI9.ST.Loc.stVal GGIO1.ST.Ind10.stVal CSWI9.ST.Pos.stVal GGIO1.ST.Ind11.stVal CSWI10.ST.Loc.stVal GGIO1.ST.Ind12.stVal CSWI10.ST.Pos.stVal GGIO1.ST.Ind13.stVal B-90 N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 513 GGIO1.ST.Ind52.stVal GGIO1.ST.Ind105.stVal GGIO1.ST.Ind53.stVal GGIO1.ST.Ind106.stVal GGIO1.ST.Ind54.stVal GGIO1.ST.Ind107.stVal GGIO1.ST.Ind55.stVal GGIO1.ST.Ind108.stVal GGIO1.ST.Ind56.stVal GGIO1.ST.Ind109.stVal GGIO1.ST.Ind57.stVal GGIO1.ST.Ind110.stVal GGIO1.ST.Ind58.stVal GGIO1.ST.Ind111.stVal GGIO1.ST.Ind59.stVal GGIO1.ST.Ind112.stVal GGIO1.ST.Ind60.stVal GGIO1.ST.Ind113.stVal GGIO1.ST.Ind61.stVal GGIO1.ST.Ind114.stVal GGIO1.ST.Ind62.stVal GGIO1.ST.Ind115.stVal GGIO1.ST.Ind63.stVal GGIO1.ST.Ind116.stVal GGIO1.ST.Ind64.stVal GGIO1.ST.Ind117.stVal GGIO1.ST.Ind65.stVal GGIO1.ST.Ind118.stVal GGIO1.ST.Ind66.stVal GGIO1.ST.Ind119.stVal GE Multilin N60 Network Stability and Synchrophasor Measurement System B-91...
Page 514 MMXU1.MX.VAr.phsB.cVal.mag.f MMXU3.MX.PPV.phsBC.cVal.ang.f MMXU1.MX.VAr.phsC.cVal.mag.f MMXU3.MX.PPV.phsCA.cVal.mag.f MMXU1.MX.VA.phsA.cVal.mag.f MMXU3.MX.PPV.phsCA.cVal.ang.f MMXU1.MX.VA.phsB.cVal.mag.f MMXU3.MX.PhV.phsA.cVal.mag.f MMXU1.MX.VA.phsC.cVal.mag.f MMXU3.MX.PhV.phsA.cVal.ang.f MMXU1.MX.PF.phsA.cVal.mag.f MMXU3.MX.PhV.phsB.cVal.mag.f MMXU1.MX.PF.phsB.cVal.mag.f MMXU3.MX.PhV.phsB.cVal.ang.f MMXU1.MX.PF.phsC.cVal.mag.f MMXU3.MX.PhV.phsC.cVal.mag.f MMXU2.MX.TotW.mag.f MMXU3.MX.PhV.phsC.cVal.ang.f MMXU2.MX.TotVAr.mag.f MMXU3.MX.A.phsA.cVal.mag.f MMXU2.MX.TotVA.mag.f MMXU3.MX.A.phsA.cVal.ang.f MMXU2.MX.TotPF.mag.f MMXU3.MX.A.phsB.cVal.mag.f MMXU2.MX.Hz.mag.f MMXU3.MX.A.phsB.cVal.ang.f MMXU2.MX.PPV.phsAB.cVal.mag.f MMXU3.MX.A.phsC.cVal.mag.f MMXU2.MX.PPV.phsAB.cVal.ang.f MMXU3.MX.A.phsC.cVal.ang.f B-92 N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 515 MMXU4.MX.A.neut.cVal.ang.f MMXU6.MX.TotPF.mag.f MMXU4.MX.W.phsA.cVal.mag.f MMXU6.MX.Hz.mag.f MMXU4.MX.W.phsB.cVal.mag.f MMXU6.MX.PPV.phsAB.cVal.mag.f MMXU4.MX.W.phsC.cVal.mag.f MMXU6.MX.PPV.phsAB.cVal.ang.f MMXU4.MX.VAr.phsA.cVal.mag.f MMXU6.MX.PPV.phsBC.cVal.mag.f MMXU4.MX.VAr.phsB.cVal.mag.f MMXU6.MX.PPV.phsBC.cVal.ang.f MMXU4.MX.VAr.phsC.cVal.mag.f MMXU6.MX.PPV.phsCA.cVal.mag.f MMXU4.MX.VA.phsA.cVal.mag.f MMXU6.MX.PPV.phsCA.cVal.ang.f MMXU4.MX.VA.phsB.cVal.mag.f MMXU6.MX.PhV.phsA.cVal.mag.f MMXU4.MX.VA.phsC.cVal.mag.f MMXU6.MX.PhV.phsA.cVal.ang.f MMXU4.MX.PF.phsA.cVal.mag.f MMXU6.MX.PhV.phsB.cVal.mag.f MMXU4.MX.PF.phsB.cVal.mag.f MMXU6.MX.PhV.phsB.cVal.ang.f MMXU4.MX.PF.phsC.cVal.mag.f MMXU6.MX.PhV.phsC.cVal.mag.f MMXU5.MX.TotW.mag.f MMXU6.MX.PhV.phsC.cVal.ang.f MMXU5.MX.TotVAr.mag.f MMXU6.MX.A.phsA.cVal.mag.f GE Multilin N60 Network Stability and Synchrophasor Measurement System B-93...
Page 516 GGIO4.MX.AnIn20.mag.f XSWI21.ST.Loc.stVal GGIO4.MX.AnIn21.mag.f XSWI21.ST.Pos.stVal GGIO4.MX.AnIn22.mag.f XSWI22.ST.Loc.stVal GGIO4.MX.AnIn23.mag.f XSWI22.ST.Pos.stVal GGIO4.MX.AnIn24.mag.f XSWI23.ST.Loc.stVal GGIO4.MX.AnIn25.mag.f XSWI23.ST.Pos.stVal GGIO4.MX.AnIn26.mag.f XSWI24.ST.Loc.stVal GGIO4.MX.AnIn27.mag.f XSWI24.ST.Pos.stVal 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 B-94 N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 517 GGIO1.ST.Ind14.stVal GGIO1.ST.Ind41.q GGIO1.ST.Ind15.q GGIO1.ST.Ind41.stVal GGIO1.ST.Ind15.stVal GGIO1.ST.Ind42.q GGIO1.ST.Ind16.q GGIO1.ST.Ind42.stVal GGIO1.ST.Ind16.stVal 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 GE Multilin N60 Network Stability and Synchrophasor Measurement System B-95...
Page 518 GGIO1.ST.Ind67.stVal GGIO1.ST.Ind94.q GGIO1.ST.Ind68.q GGIO1.ST.Ind94.stVal GGIO1.ST.Ind68.stVal GGIO1.ST.Ind95.q GGIO1.ST.Ind69.q GGIO1.ST.Ind95.stVal GGIO1.ST.Ind69.stVal 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 B-96 N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 519 GGIO1.ST.Ind120.stVal MMXU1.MX.PF.phsC.cVal.mag.f GGIO1.ST.Ind121.q MMXU2.MX.TotW.mag.f GGIO1.ST.Ind121.stVal MMXU2.MX.TotVAr.mag.f GGIO1.ST.Ind122.q MMXU2.MX.TotVA.mag.f GGIO1.ST.Ind122.stVal 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 GE Multilin N60 Network Stability and Synchrophasor Measurement System B-97...
Page 520 MMXU3.MX.PhV.phsC.cVal.mag.f MMXU4.MX.VA.phsA.cVal.mag.f MMXU3.MX.PhV.phsC.cVal.ang.f MMXU4.MX.VA.phsB.cVal.mag.f MMXU3.MX.A.phsA.cVal.mag.f MMXU4.MX.VA.phsC.cVal.mag.f MMXU3.MX.A.phsA.cVal.ang.f MMXU4.MX.PF.phsA.cVal.mag.f MMXU3.MX.A.phsB.cVal.mag.f MMXU4.MX.PF.phsB.cVal.mag.f MMXU3.MX.A.phsB.cVal.ang.f MMXU4.MX.PF.phsC.cVal.mag.f MMXU3.MX.A.phsC.cVal.mag.f MMXU5.MX.TotW.mag.f MMXU3.MX.A.phsC.cVal.ang.f MMXU5.MX.TotVAr.mag.f 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 B-98 N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 521 MMXU6.MX.PPV.phsCA.cVal.ang.f GGIO4.MX.AnIn27.mag.f MMXU6.MX.PhV.phsA.cVal.mag.f GGIO4.MX.AnIn28.mag.f MMXU6.MX.PhV.phsA.cVal.ang.f GGIO4.MX.AnIn29.mag.f MMXU6.MX.PhV.phsB.cVal.mag.f GGIO4.MX.AnIn30.mag.f MMXU6.MX.PhV.phsB.cVal.ang.f GGIO4.MX.AnIn31.mag.f MMXU6.MX.PhV.phsC.cVal.mag.f GGIO4.MX.AnIn32.mag.f MMXU6.MX.PhV.phsC.cVal.ang.f 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 GE Multilin N60 Network Stability and Synchrophasor Measurement System B-99...
Page 522 PDIS4.ST.Op.general PIOC21.ST.Str.general PDIS5.ST.Str.general PIOC21.ST.Op.general PDIS5.ST.Op.general PIOC22.ST.Str.general PDIS6.ST.Str.general PIOC22.ST.Op.general PDIS6.ST.Op.general 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 B-100 N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 523 PIOC47.ST.Op.general PTOC2.ST.Str.general PIOC48.ST.Str.general PTOC2.ST.Op.general PIOC48.ST.Op.general PTOC3.ST.Str.general PIOC49.ST.Str.general PTOC3.ST.Op.general PIOC49.ST.Op.general 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 GE Multilin N60 Network Stability and Synchrophasor Measurement System B-101...
Page 524 PTOV4.ST.Op.general RBRF2.ST.OpEx.general PTOV5.ST.Str.general RBRF2.ST.OpIn.general PTOV5.ST.Op.general RBRF3.ST.OpEx.general PTOV6.ST.Str.general RBRF3.ST.OpIn.general PTOV6.ST.Op.general 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 B-102 N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 525 RPSB1.ST.BlkZn.stVal CSWI21.ST.Loc.stVal RREC1.ST.Op.general CSWI21.ST.Pos.stVal RREC1.ST.AutoRecSt.stVal CSWI22.ST.Loc.stVal RREC2.ST.Op.general CSWI22.ST.Pos.stVal RREC2.ST.AutoRecSt.stVal 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 GE Multilin N60 Network Stability and Synchrophasor Measurement System B-103...
Page 526 XSWI10.ST.Loc.stVal XSWI10.ST.Pos.stVal XSWI11.ST.Loc.stVal XSWI11.ST.Pos.stVal XSWI12.ST.Loc.stVal XSWI12.ST.Pos.stVal XSWI13.ST.Loc.stVal XSWI13.ST.Pos.stVal XSWI14.ST.Loc.stVal XSWI14.ST.Pos.stVal XSWI15.ST.Loc.stVal XSWI15.ST.Pos.stVal XSWI16.ST.Loc.stVal XSWI16.ST.Pos.stVal XSWI17.ST.Loc.stVal XSWI17.ST.Pos.stVal XSWI18.ST.Loc.stVal XSWI18.ST.Pos.stVal XSWI19.ST.Loc.stVal XSWI19.ST.Pos.stVal XSWI20.ST.Loc.stVal XSWI20.ST.Pos.stVal XSWI21.ST.Loc.stVal XSWI21.ST.Pos.stVal XSWI22.ST.Loc.stVal XSWI22.ST.Pos.stVal XSWI23.ST.Loc.stVal XSWI23.ST.Pos.stVal XSWI24.ST.Loc.stVal XSWI24.ST.Pos.stVal B-104 N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 527: Iec 61850
The N60 relay supports IEC 61850 server services over both TCP/IP and TP4/CLNP (OSI) communication protocol stacks. The TP4/CLNP profile requires the N60 to have a network address or Network Service Access Point (NSAP) to establish a communication link. The TCP/IP profile requires the N60 to have an IP address to establish communications. These addresses are located in the ...
Page 528: File Transfer By Iec 61850
APPENDIX C C.1.3 FILE TRANSFER BY IEC 61850 The N60 supports file transfer by IEC 61850. The approach is as follows, using the SISCO AX-S4 61850 client software as an example. In the AX-S4 61850 Explorer window, click the Tools menu and access the SISCO File Transfer Utility.
Page 529: Server Data Organization
C.2.2 GGIO1: DIGITAL STATUS VALUES The GGIO1 logical node is available in the N60 to provide access to as many 128 digital status points and associated time- stamps and quality flags. The data content must be configured before the data can be used. GGIO1 provides digital status points for access by clients.
Page 530: Mmxu: Analog Measured Values
A limited number of measured analog values are available through the MMXU logical nodes. Each MMXU logical node provides data from a N60 current and voltage source. There is one MMXU available for each con- figurable source (programmed in the ...
Page 531 The protection elements listed above contain start (pickup) and operate flags. For example, the start flag for PIOC1 is PIOC1.ST.Str.general. The operate flag for PIOC1 is PIOC1.ST.Op.general. For the N60 protection elements, these flags take their values from the pickup and operate FlexLogic™ operands for the corresponding element.
Page 532: Server Features And Configuration
C.3.4 LOGICAL DEVICE NAME The logical device name is used to identify the IEC 61850 logical device that exists within the N60. This name is composed of two parts: the IED name setting and the logical device instance. The complete logical device name is the combination of the two character strings programmed in the settings.
Page 533: Logical Node Name Prefixes
A built-in TCP/IP connection timeout of two minutes is employed by the N60 to detect ‘dead’ connections. If there is no data traffic on a TCP connection for greater than two minutes, the connection will be aborted by the N60. This frees up the con- nection to be used by other clients.
Page 534: Overview
MAC address for GSSE messages. If GSSE DESTINATION MAC ADDRESS a valid multicast Ethernet MAC address is not entered (for example, 00 00 00 00 00 00), the N60 will use the source Ether- net MAC address as the destination, with the multicast bit set.
Page 535 The N60 has the ability of detecting if a data item in one of the GOOSE datasets is erroneously oscillating. This can be caused by events such as errors in logic programming, inputs improperly being asserted and de-asserted, or failed station components.
Page 536: Ethernet Mac Address For Gsse/Goose
REMOTE IN 1 ITEM item to remote input 1. Remote input 1 can now be used in FlexLogic™ equations or other settings. The N60 must be rebooted (control power removed and re-applied) before these settings take effect. 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.
Page 537: Gsse Id And Goose Id Settings
GSSE and GOOSE messages must have multicast destination MAC addresses. By default, the N60 is configured to use an automated multicast MAC scheme. If the N60 destination MAC address setting is not a valid multicast address (that is, the least significant bit of the first byte is not set), the address used as the destina- tion MAC will be the same as the local MAC address, but with the multicast bit set.
Page 538: Iec 61850 Implementation Via Enervista Ur Setup
An ICD file is generated for the N60 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 539: Configuring Iec 61850 Settings
Transmission GOOSE dataset may be added or deleted, or prefixes of some logical nodes may be changed. While all new configurations will be mapped to the N60 settings file when importing an SCD file, all unchanged settings will preserve the same values in the new settings file.
Page 540: 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 541 Furthermore, it defines the capabilities of an IED in terms of communication services offered and, together with its LNType, instantiated data (DO) and its default or configuration values. There should be only one IED section in an ICD since it only describes one IED. GE Multilin N60 Network Stability and Synchrophasor Measurement System C-15...
Page 542 Other ReportControl elements DOI (name) SDI (name) DAI (name) Text Other DOI elements SDI (name) DAI (name) Text Other LN elements Other LDevice elements 842797A1.CDR Figure C–4: ICD FILE STRUCTURE, IED NODE C-16 N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 543 Other BDA elements Other BDA elements Other DAType elements Other DAType elements EnumType (id) Text EnumVal (ord) Other EnumVal elements Other EnumType elements 842798A1.CDR Figure C–5: ICD FILE STRUCTURE, DATATYPETEMPLATES NODE GE Multilin N60 Network Stability and Synchrophasor Measurement System C-17...
Page 544: Creating An Icd File With Enervista Ur Setup
The EnerVista UR Setup will prompt to save the file. Select the file path and enter the name for the ICD file, then click OK to generate the file. The time to create an ICD file from the offline N60 settings file is typically much quicker than create an ICD file directly from the relay.
Page 545 Like ICD files, the Header node identifies the SCD file and its version, and specifies options for the mapping of names to signals. The Substation node describes the substation parameters: Substation PowerSystemResource EquipmentContainer Power Transformer GeneralEquipment EquipmentContainer VoltageLevel Voltage PowerSystemResource Function SubFunction GeneralEquipment 842792A1.CDR Figure C–7: SCD FILE STRUCTURE, SUBSTATION NODE GE Multilin N60 Network Stability and Synchrophasor Measurement System C-19...
Page 546 IdInst is the instance identification of the logical device within the IED on which the control block is located, and cbName is the name of the control block. C-20 N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 547: Importing An Scd File With Enervista Ur Setup
Figure C–9: SCD FILE STRUCTURE, IED NODE C.5.6 IMPORTING AN SCD FILE WITH ENERVISTA UR SETUP The following procedure describes how to update the N60 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.
Page 548 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 549: Acsi Conformance
Buffered report control M7-1 sequence-number M7-2 report-time-stamp M7-3 reason-for-inclusion M7-4 data-set-name M7-5 data-reference M7-6 buffer-overflow M7-7 entryID M7-8 BufTm M7-9 IntgPd M7-10 Unbuffered report control M8-1 sequence-number M8-2 report-time-stamp M8-3 reason-for-inclusion GE Multilin N60 Network Stability and Synchrophasor Measurement System C-23...
Page 550: Acsi Services Conformance Statement
PUBLISHER SERVER (CLAUSE 6) ServerDirectory APPLICATION ASSOCIATION (CLAUSE 7) Associate Abort Release LOGICAL DEVICE (CLAUSE 8) LogicalDeviceDirectory LOGICAL NODE (CLAUSE 9) LogicalNodeDirectory GetAllDataValues DATA (CLAUSE 10) GetDataValues SetDataValues GetDataDirectory GetDataDefinition C-24 N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 551 (dupd) GetURCBValues SetURCBValues LOGGING (CLAUSE 14) LOG CONTROL BLOCK GetLCBValues SetLCBValues QueryLogByTime QueryLogByEntry GetLogStatusValues GENERIC SUBSTATION EVENT MODEL (GSE) (CLAUSE 14.3.5.3.4) GOOSE-CONTROL-BLOCK SendGOOSEMessage GetReference GetGOOSEElementNumber GetGoCBValues SetGoCBValues GSSE-CONTROL-BLOCK SendGSSEMessage GetReference GE Multilin N60 Network Stability and Synchrophasor Measurement System C-25...
Page 552 (SendGOOSEMessage or SendGSSEMessage) c9: shall declare support if TP association is available c10: shall declare support for at least one (SendMSVMessage or SendUSVMessage) C-26 N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 553: Logical Nodes
RDRE: Disturbance recorder function RADR: Disturbance recorder channel analogue RBDR: Disturbance recorder channel binary RDRS: Disturbance record handling RBRF: Breaker failure RDIR: Directional element RFLO: Fault locator RPSB: Power swing detection/blocking RREC: Autoreclosing GE Multilin N60 Network Stability and Synchrophasor Measurement System C-27...
Page 554 T: LOGICAL NODES FOR INSTRUMENT TRANSFORMERS TCTR: Current transformer TVTR: Voltage transformer Y: LOGICAL NODES FOR POWER TRANSFORMERS YEFN: Earth fault neutralizer (Peterson coil) YLTC: Tap changer YPSH: Power shunt YPTR: Power transformer C-28 N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 555 ZGEN: Generator ZGIL: Gas insulated line ZLIN: Power overhead line ZMOT: Motor ZREA: Reactor ZRRC: Rotating reactive component ZSAR: Surge arrestor ZTCF: Thyristor controlled frequency converter ZTRC: Thyristor controlled reactive component GE Multilin N60 Network Stability and Synchrophasor Measurement System C-29...
Page 556 C.7 LOGICAL NODES APPENDIX C C-30 N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 557: Iec 60870-5-104 Protocol
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 N60 Network Stability and Synchrophasor Measurement System...
Page 558  <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 N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 559 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 N60 Network Stability and Synchrophasor Measurement System...
Page 560 •‘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 N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 561 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 N60 Network Stability and Synchrophasor Measurement System...
Page 562 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 N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 563  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 N60 Network Stability and Synchrophasor Measurement System...
Page 564 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 N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 565: Points List
The IEC 60870-5-104 data points are configured through the    SETTINGS PRODUCT SETUP COMMUNICATIONS DNP / menu. Refer to the Communications section of Chapter 5 for additional details. IEC104 POINT LISTS GE Multilin N60 Network Stability and Synchrophasor Measurement System...
Page 566 D.1 IEC 60870-5-104 PROTOCOL APPENDIX D D-10 N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 567: Device Profile Document
Maximum Data Link Re-tries: Maximum Application Layer Re-tries:  None  None  Fixed at 3  Configurable  Configurable Requires Data Link Layer Confirmation:  Never  Always  Sometimes  Configurable GE Multilin N60 Network Stability and Synchrophasor Measurement System...
Page 568 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. N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 569  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 N60 Network Stability and Synchrophasor Measurement System...
Page 570: E.1.2 Implementation Table
17 or 28 are always responded.) Note 3: Cold restarts are implemented the same as warm restarts – the N60 is not restarted, but the DNP process is restarted. N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 571 17 or 28 are always responded.) Note 3: Cold restarts are implemented the same as warm restarts – the N60 is not restarted, but the DNP process is restarted. GE Multilin N60 Network Stability and Synchrophasor Measurement System...
Page 572 17 or 28 are always responded.) Note 3: Cold restarts are implemented the same as warm restarts – the N60 is not restarted, but the DNP process is restarted. N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 573 17 or 28 are always responded.) Note 3: Cold restarts are implemented the same as warm restarts – the N60 is not restarted, but the DNP process is restarted. GE Multilin N60 Network Stability and Synchrophasor Measurement System...
Page 574: 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 N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 575: Binary And Control Relay Output
Virtual Input 59 Virtual Input 28 Virtual Input 60 Virtual Input 29 Virtual Input 61 Virtual Input 30 Virtual Input 62 Virtual Input 31 Virtual Input 63 Virtual Input 32 Virtual Input 64 GE Multilin N60 Network Stability and Synchrophasor Measurement System...
Page 576: Counters
Events Since Last Clear A counter freeze command has no meaning for counters 8 and 9. N60 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.
Page 577: 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 N60 Network Stability and Synchrophasor Measurement System E-11...
Page 578 E.2 DNP POINT LISTS APPENDIX E E-12 N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 579: Change Notes
11-2237 1601-0125-W1 5.9x 12 January 2011 11-2227 1601-0125-W2 5.9x 31 August 2015 12-0025 F.1.2 CHANGES TO THE MANUAL Table F–1: MAJOR UPDATES FOR N60 MANUAL REVISION W2 (Sheet 1 of 2) PAGE PAGE CHANGE DESCRIPTION (W1) (W2) Title Title Update...
Page 580 F.1 CHANGE NOTES APPENDIX F Table F–1: MAJOR UPDATES FOR N60 MANUAL REVISION W2 (Sheet 2 of 2) PAGE PAGE CHANGE DESCRIPTION (W1) (W2) Update Updated CPU module 9H in Figure 3-8 Typical Wiring Diagram 3-14 3-14 Update Updated Figure 3-13 Contact Input and Output Module Wiring to include surge on module 67...
Page 581 Update Updated FREQUENCY RATE OF CHANGE section 5-195 5-195 Update Updated DCMA OUTPUTS section Update Updated CONFIGURABLE GOOSE section Table F–6: MAJOR UPDATES FOR N60 MANUAL REVISION U1 (Sheet 1 of 2) PAGE PAGE CHANGE DESCRIPTION (T1) (U1) Title Title...
Page 582 F.1 CHANGE NOTES APPENDIX F Table F–6: MAJOR UPDATES FOR N60 MANUAL REVISION U1 (Sheet 2 of 2) PAGE PAGE CHANGE DESCRIPTION (T1) (U1) 3-10 3-10 Update Updated CONTACT INPUTS AND OUTPUTS section Update Updated USING SETTINGS FILES section Update...
Page 583 APPENDIX F F.1 CHANGE NOTES Table F–8: MAJOR UPDATES FOR N60 MANUAL REVISION S3 PAGE PAGE CHANGE DESCRIPTION (S2) (S3) Title Title Update Manual part number to 1601-0125-S3 2-11 2-11 Update Updated COMMUNICATIONS specifications section 2-12 2-12 Update Updated INTER-RELAY COMMUNICATIONS specifications section...
Page 584 Updated MODBUS PASSWORD OPERATION section Update Updated MODBUS MEMORY MAP section Added GGIO4: GENERIC ANALOG MEASURED VALUES section Update Updated CONFIGURABLE GOOSE section Table F–14: MAJOR UPDATES FOR N60 MANUAL REVISION P2 (Sheet 1 of 2) PAGE PAGE CHANGE DESCRIPTION (P1)
Page 585 APPENDIX F F.1 CHANGE NOTES Table F–14: MAJOR UPDATES FOR N60 MANUAL REVISION P2 (Sheet 2 of 2) PAGE PAGE CHANGE DESCRIPTION (P1) (P2) 3-18 3-18 Update Updated CPU MODULE COMMUNICATIONS WIRING diagram to 842765A2 Added BREAKER CONTROL section 6-17...
Page 586 F.1 CHANGE NOTES APPENDIX F Table F–16: MAJOR UPDATES FOR N60 MANUAL REVISION N2 (Sheet 2 of 2) PAGE PAGE CHANGE DESCRIPTION (N1) (N2) Update Updated CONTACT INPUTS/OUTPUTS section 3-16 3-17 Update Updated CPU COMMUNICATION PORTS section 5-37 5-37 Update...
Page 587 Added PHASOR MEASUREMENT UNIT TEST VALUES section 6-16 Added PHASOR MEASUREMENT UNIT section Added PHASOR MEASUREMENT UNIT ONE-SHOT section Update Updated MODBUS MEMORY MAP for 4.9x release Table F–20: MAJOR UPDATES FOR N60 MANUAL REVISION L1 (Sheet 1 of 2) PAGE PAGE CHANGE DESCRIPTION (K1)
Page 588 APPENDIX F F.1 CHANGE NOTES Table F–20: MAJOR UPDATES FOR N60 MANUAL REVISION L1 (Sheet 2 of 2) PAGE PAGE CHANGE DESCRIPTION (K1) (L1) Update Updated MODBUS MEMORY MAP for release 4.8x Update Updated IEC 60870-5-104 POINT LIST sub-section Update...
Page 589: Abbreviations
FD ....Fault Detector MVA ....MegaVolt-Ampere (total 3-phase) FDH....Fault Detector high-set MVA_A ... MegaVolt-Ampere (phase A) FDL ....Fault Detector low-set MVA_B ... MegaVolt-Ampere (phase B) FLA....Full Load Current F-11 N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 590 RST ....Reset RSTR ..... Restrained X ....Reactance RTD ....Resistance Temperature Detector XDUCER..Transducer RTU ....Remote Terminal Unit XFMR..... Transformer RX (Rx) ..Receive, Receiver Z..... Impedance, Zone F-12 N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 591: Warranty
F.3.1 GE MULTILIN WARRANTY For products shipped as of 1 October 2013, GE Digital Energy warrants most of its GE manufactured products for 10 years. For warranty details including any limitations and disclaimers, see the GE Digital Energy Terms and Conditions at https://www.gedigitalenergy.com/multilin/warranty.htm...
Page 592 F.3 WARRANTY APPENDIX F F-14 N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 593 BLOCK DIAGRAM .............. 1-4 COMPARATOR BLOCK SETTING ............... 5-5 see entry for 8-BIT COMPARATOR BREAKER ARCING CURRENT COMTRADE ............... B-7, B-8 actual values ..............6-26 CONDUCTED RFI ............2-16 CONTACT INFORMATION ..........1-1 GE Multilin N60 Network Stability and Synchrophasor Measurement System...
Page 594 2-11 error messages ............... 7-8 DCMA OUTPUTS DIRECT INTEGER INPUTS description..............3-18 settings ................ 5-196 Modbus registers ............B-45 DIRECT INTEGER OUTPUTS settings ............... 5-204 settings ................ 5-196 specifications ..............2-13 N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 595 ............... 5-115 introduction ..............4-1 settings ..........5-114, 5-115, 5-117 oscillography ..............4-2 specifications ..............2-8 overview ................. 4-1 FLEXLOGIC requirements ..............1-6 locking to a serial number ........4-10, 8-11 GE Multilin N60 Network Stability and Synchrophasor Measurement System...
Page 596 GSSE ..........5-187, 5-188, 5-189, 6-6 settings ................5-39 GUARANTEE ..............F-13 specifications ............2-11, 2-13 ISO-9000 REGISTRATION ..........2-17 HALF-DUPLEX ..............B-1 HTTP PROTOCOL ............5-35 KEYPAD ..............1-18, 4-22 LAMPTEST ................ 7-3 N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 597 Fast Form-C relay ............2-12 Form-A relay ..........2-12, 3-10, 3-11 Form-C relay ............2-12, 3-10 IRIG-B ................2-13 latching outputs ..........2-12, 5-183 remote outputs ..........5-188, 5-189 virtual outputs .............. 5-185 GE Multilin N60 Network Stability and Synchrophasor Measurement System...
Page 598 REVISION HISTORY ............F-1 description............... 3-7 RF IMMUNITY ..............2-16 low range ..............2-12 RFI, CONDUCTED ............2-16 specifications ..............2-12 RMS CURRENT ..............2-10 POWER SWING BLOCKING ........2-8, 5-124 RMS VOLTAGE ..............2-10 ROLLING DEMAND ............5-44 N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 599 ......... 5-83 phasor measurement unit ..........5-82 phasor measurement unit calibration ......5-84 phasor measurement unit communications ...... 5-85 phasor measurement unit recording ........ 5-94 test values ..............5-210 GE Multilin N60 Network Stability and Synchrophasor Measurement System...
Page 600 UNABLE TO PUT RELAY IN FLASH MODE ......4-3 values ................6-15 UNAUTHORIZED ACCESS VT FUSE FAILURE commands ..............5-14 logic ................5-163 resetting ................7-2 Modbus registers ............B-47 settings ................ 5-162 VT INPUTS ............3-9, 5-7, 5-70 viii N60 Network Stability and Synchrophasor Measurement System GE Multilin...
Page 601 RS422 and fiber interface ..........3-35 RS422 interface ............. 3-33 WITHDRAWAL FROM OPERATION ........10-1 WARNINGS ............... 1-1 WARRANTY ..............F-13 WATT-HOURS ............2-10, 6-17 WEB SERVER PROTOCOL ..........5-35 ZERO SEQUENCE CORE BALANCE ........3-9 GE Multilin N60 Network Stability and Synchrophasor Measurement System...
Page 602 INDEX N60 Network Stability and Synchrophasor Measurement System GE Multilin...

GE N60 Instruction Manual

1 Getting Started

2 Product Description

4 Human Interfaces

5 Settings

6 Actual Values

7 Commands and Targets

8 Security

9 Commissioning

10 Maintenance

Parameter Lists

Modbus Rtu Protocol

Modbus Function Codes

File Transfers

Memory Mapping

Iec 61850

Overview

Quick Links

Related Manuals for GE N60

Summary of Contents for GE N60