Page 1 Title Page GE Industrial Systems T60 Transformer Management Relay UR Series Instruction Manual T60 Revision: 3.4x Manual P/N: 1601-0090-F1 (GEK-106448) Copyright © 2003 GE Multilin 828743A1.CDR GE Multilin 215 Anderson Avenue, Markham, Ontario Canada L6E 1B3 Tel: (905) 294-6222 Fax: (905) 201-2098 Internet: http://www.GEindustrial.com/multilin...
Page 3 GE Industrial Systems ADDENDUM This Addendum contains information that relates to the T60 Transformer Management Relay relay, version 3.4x. This addendum lists a number of information items that appear in the instruction manual GEK-106448 (revision F1) but are not included in the current T60 operations.
Page 5: Table Of Contents
IMPORTANT CONCEPTS ................. 1-4 1.3 ENERVISTA UR SETUP SOFTWARE 1.3.1 PC REQUIREMENTS ..................1-5 1.3.2 INSTALLATION....................1-5 1.3.3 CONNECTING ENERVISTA UR SETUP WITH THE T60......... 1-8 1.4 UR HARDWARE 1.4.1 MOUNTING AND WIRING................1-10 1.4.2 COMMUNICATIONS..................1-10 1.4.3 FACEPLATE DISPLAY ..................1-10 1.5 USING THE RELAY...
Page 6 TRANSFORMER WINDINGS BETWEEN TWO BREAKERS ......5-48 5.3.6 FLEXCURVES™ ....................5-50 5.4 FLEXLOGIC™ 5.4.1 INTRODUCTION TO FLEXLOGIC™..............5-57 5.4.2 FLEXLOGIC™ RULES ..................5-63 5.4.3 FLEXLOGIC™ EVALUATION ................5-64 5.4.4 FLEXLOGIC™ EXAMPLE ................5-64 5.4.5 FLEXLOGIC™ EQUATION EDITOR..............5-69 5.4.6 FLEXLOGIC™ TIMERS ...................5-69 T60 Transformer Management Relay GE Multilin...
Page 7 TRANSFORMER DIFFERENTIAL AND RESTRAINT ........6-11 6.3.3 SOURCES ....................... 6-11 6.3.4 TRACKING FREQUENCY ................6-15 6.3.5 FLEXELEMENTS™ ..................6-16 6.3.6 VOLTS PER HERTZ ..................6-16 6.3.7 RESTRICTED GROUND FAULT ..............6-16 6.3.8 TRANSDUCER I/O ..................6-17 GE Multilin T60 Transformer Management Relay...
Page 8 READ ACTUAL VALUES OR SETTINGS (FUNCTION CODE 03/04H) ... B-3 B.2.3 EXECUTE OPERATION (FUNCTION CODE 05H)........... B-4 B.2.4 STORE SINGLE SETTING (FUNCTION CODE 06H)........B-4 B.2.5 STORE MULTIPLE SETTINGS (FUNCTION CODE 10H) ........ B-5 B.2.6 EXCEPTION RESPONSES................B-5 viii T60 Transformer Management Relay GE Multilin...
Page 9 COUNTERS .....................E-14 E.2.4 ANALOG INPUTS ....................E-15 F. MISCELLANEOUS F.1 CHANGE NOTES F.1.1 REVISION HISTORY ..................F-1 F.1.2 CHANGES TO THE T60 MANUAL ..............F-1 F.2 ABBREVIATIONS F.2.1 STANDARD ABBREVIATIONS ................. F-4 F.3 WARRANTY F.3.1 GE MULTILIN WARRANTY ................F-6 INDEX...
Page 10 TABLE OF CONTENTS T60 Transformer Management Relay GE Multilin...
Page 11: Cautions And Warnings
• registration card (attached as the last page of the manual) • Fill out the registration form and return to GE Multilin (include the serial number located on the rear nameplate). • For product information, instruction manual updates, and the latest software updates, please visit the GE Multilin web- site at http://www.GEindustrial.com/multilin.
Page 12: Ur Overview 1.2.1 Introduction To The Ur
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. T60 Transformer Management Relay...
Page 13: 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. GE Multilin T60 Transformer Management Relay...
Page 14: Software Architecture
CTs and VTs is in the Introduction to AC Sources section in Chapter 5. A description of how digital signals are used and routed within the relay is contained in the Introduction to FlexLogic™ section in Chapter 5. T60 Transformer Management Relay GE Multilin...
Page 15: Enervista Ur Setup Software 1.3.1 Pc Requirements
Click the IED Setup section of the Launch Pad window. In the enerVista Launch Pad window, click the Install Software button and select the “T60 Transformer Management Relay” from the Install Software window as shown below. Select the “Web” option to ensure the most recent software...
Page 16 “CD” if you do not have a web connection, then click the Check Now button to list software items for the T60. Select the T60 software program and release notes (if desired) from the list and click the Download Now button to obtain the installation program.
Page 17 1 GETTING STARTED 1.3 ENERVISTA UR SETUP SOFTWARE 10. Click Finish to end the installation. The T60 device will be added to the list of installed IEDs in the enerVista Launch- pad window, as shown below. GE Multilin T60 Transformer Management Relay...
Page 18: Connecting Enervista Ur Setup With The T60
MODBUS TCP PORT NUMBER Click the Read Order Code button to connect to the T60 device and upload the order code. If an communications error occurs, ensure that the three enerVista UR Setup values entered in the previous step correspond to the relay setting values.
Page 19 Enter the physical communications parameters (baud rate and parity settings) in their respective fields. Click the Read Order Code button to connect to the T60 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 correspond to the relay setting values.
Page 20: Ur Hardware 1.4.1 Mounting And Wiring
Figure 1–4: RELAY COMMUNICATIONS OPTIONS To communicate through the T60 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 T60 rear communications port.
Page 21: Using The Relay 1.5.1 Faceplate Keypad
MESSAGE key from a setting value or actual value display returns to the header display. HIGHEST LEVEL LOWEST LEVEL (SETTING VALUE) SETTINGS PASSWORD ACCESS LEVEL: PRODUCT SETUP SECURITY Restricted SETTINGS SYSTEM SETUP GE Multilin T60 Transformer Management Relay 1-11...
Page 22: Relay Activation
Logic™ section in Chapter 5 for additional details. 1.5.7 COMMISSIONING Templated tables for charting all the required settings before entering them via the keypad are available from the GE Multi- lin website at http://www.GEindustrial.com/multilin. Commissioning tests are also included in the COMMISSIONING chap- ter of this manual.
Page 23: Overview
The metering functions of the T60 include true RMS and phasors for currents and voltages, current harmonics and THD, symmetrical components, frequency, power, power factor, and energy.
Page 24 3I_0 3I_0 Calculate Calculate Calculate Restraint Amps Operate Amps Harmonics 2&5 Amps Amps Harmonic Restraint 50/87 Block Metering Transducer Input FlexElement 81 U 81 O Transformer Management Relay 828713AD.CDR Figure 2–1: SINGLE LINE DIAGRAM T60 Transformer Management Relay GE Multilin...
Page 25 User Programmable Fault Reports FlexLogic™ Equations User Programmable LEDs Metering: Current, Voltage, Power, Power Factor, Energy, User Programmable Pushbuttons Frequency, Harmonics, THD User Programmable Self-Tests Modbus Communications Virtual Inputs (32) Modbus User Map Virtual Outputs (64) GE Multilin T60 Transformer Management Relay...
Page 26: Ordering
Chapter 3: Hardware). Table 2–3: T60 ORDER CODES T60 - * 00 - H * * - F ** - H ** - M ** - P ** - U ** - W ** Full Size Horizontal Mount...
Page 27 Channel 1 - G.703, Channel 2 - 1550 nm, single -mode, LASER (L90 only) IEEE C37.94, 820 nm, multi-mode, LED, 1 Channel IEEE C37.94, 820 nm, multi-mode, LED, 2 Channels TRANSDUCER I/O 8 RTD Inputs 4 dcmA Inputs, 4 RTD Inputs 8 dcmA Inputs GE Multilin T60 Transformer Management Relay...
Page 28: Protection Elements
IEEE Moderately/Very/Extremely harmonic inhibit level: 1.0 to 40.0% in steps of 0.1 Inverse; IEC (and BS) A/B/C and Short harmonic inhibit function: Adaptive, Traditional, Disabled Inverse; GE IAC Inverse, Short/Very/ harmonic inhibit mode: Per-phase, 2-out-of-3, Average Extremely Inverse; I t; FlexCurves™...
Page 29 Level accuracy: ±0.5% of reading from 10 to 208 V Dropout level: Pickup + 0.03 Hz Curve shapes: GE IAV Inverse, Definite Time Level accuracy: ±0.01 Hz Curve multiplier: Time Dial = 0 to 600.00 in steps of 0.01 Time delay: 0 to 65.535 s in steps of 0.001...
Page 30: User-Programmable Elements
Pickup & dropout delay: 0.000 to 65.535 s in steps of 0.001 chronize to a 3-bit control input NON-VOLATILE LATCHES Type: Set-dominant or Reset-dominant Number: 16 (individually programmed) Output: Stored in non-volatile memory Execution sequence: As input prior to protection, control, and FlexLogic™ T60 Transformer Management Relay GE Multilin...
Page 31: Monitoring
Accuracy: ±2.0% of reading mum measured currents ±0 to 2 × 10 Range: Mvarh 3-Phase Power (P, Q, and S) present and maximum measured currents Parameters: 3-phase only Accuracy: ±2.0% Update rate: 50 ms GE Multilin T60 Transformer Management Relay...
Page 32: Inputs
Nominal AC voltage: 100 to 240 V at 50/60 Hz, 0.7 A INTERRUPTING CAPACITY Min/max AC voltage: 88 / 265 V at 48 to 62 Hz 100 000 A RMS symmetrical 10 000 A 2-10 T60 Transformer Management Relay GE Multilin...
Page 33: Outputs
ST connector Typical distance: 1200 m 10Base-T: RJ45 connector Power budget: 10 db Max optical Ip power: –7.6 dBm Typical distance: 1.65 km SNTP clock synchronization error: <10 ms (typical) GE Multilin T60 Transformer Management Relay 2-11...
Page 34: Inter-Relay Communications
OPERATING TEMPERATURES OTHER Cold: IEC 60028-2-1, 16 h at –40°C Humidity (noncondensing): IEC 60068-2-30, 95%, Variant 1, 6 days Dry Heat: IEC 60028-2-2, 16 h at +85°C Altitude: Up to 2000 m Installation Category: 2-12 T60 Transformer Management Relay GE Multilin...
Page 35: Type Tests
EN 50081-2, EN 50082-2 Manufactured under an ISO9000 registered system. 2.2.14 MAINTENANCE MAINTENANCE Cleaning: Normally, cleaning is not required; but for situations where dust has accumulated on the faceplate display, a dry cloth can be used. GE Multilin T60 Transformer Management Relay 2-13...
Page 36 2.2 SPECIFICATIONS 2 PRODUCT DESCRIPTION 2-14 T60 Transformer Management Relay GE Multilin...
Page 37: Description
RS232 communications port. The relay is secured to the panel with the use of four screws supplied with the relay. UR SERIES UR SERIES Figure 3–1: T60 VERTICAL MOUNTING AND DIMENSIONS GE Multilin T60 Transformer Management Relay...
Page 38 3.1 DESCRIPTION 3 HARDWARE Figure 3–2: T60 VERTICAL SIDE MOUNTING INSTALLATION T60 Transformer Management Relay GE Multilin...
Page 39 3 HARDWARE 3.1 DESCRIPTION Figure 3–3: T60 VERTICAL SIDE MOUNTING REAR DIMENSIONS Figure 3–4: T60 HORIZONTAL MOUNTING AND DIMENSIONS GE Multilin T60 Transformer Management Relay...
Page 40: Module Withdrawal And Insertion
Type 9C and 9D CPU modules are equipped with 10Base-T and 10Base-F Ethernet connectors for communica- tions. These connectors must be individually disconnected from the module before the it can be removed from the chassis. NOTE T60 Transformer Management Relay GE Multilin...
Page 41: Rear Terminal Layout
(nearest to CPU module) which is indicated by an arrow marker on the terminal block. See the following figure for an example of rear terminal assignments. Figure 3–7: EXAMPLE OF MODULES IN F & H SLOTS GE Multilin T60 Transformer Management Relay...
Page 42: Wiring 3.2.1 Typical Wiring
3.2 WIRING 3 HARDWARE 3.2WIRING 3.2.1 TYPICAL WIRING VOLTAGE SUPV. VOLT & CURRENT SUPV. Figure 3–8: TYPICAL WIRING DIAGRAM T60 Transformer Management Relay GE Multilin...
Page 43: Dielectric Strength
The connection from ground to the Filter Ground (Terminal 8b) and Surge Ground (Terminal 8a) must be removed before testing. Some versions of the digital I/O module have a Surge Ground connection on Terminal 8b. On these module types, this connection must be removed before testing. GE Multilin T60 Transformer Management Relay...
Page 44: Control Power
OCCUR! CAUTION The T60 relay, like almost all electronic relays, contains electrolytic capacitors. These capacitors are well known to be subject to deterioration over time if voltage is not applied periodically. Deterioration can be avoided by powering the relays up once a year.
Page 45 VOLTAGE INPUTS CURRENT INPUTS 8A / 8B 827831A8-X5.CDR CURRENT INPUTS 8C / 8D 827831A8-X3.CDR Figure 3–11: CT/VT MODULE WIRING Wherever a tilde “~” symbol appears, substitute with the Slot Position of the module. NOTE GE Multilin T60 Transformer Management Relay...
Page 46: Contact Inputs/Outputs
Cont Op x Ioff Load b) Current with optional voltage monitoring Current monitoring only Both voltage and current monitoring (external jumper a-b is required) Load c) No monitoring 827821A4.CDR Figure 3–12: FORM-A CONTACT FUNCTIONS 3-10 T60 Transformer Management Relay GE Multilin...
Page 47 ~6a, ~6c 2 Inputs Form-A ~7a, ~7c 2 Inputs Fast Form-C ~7a, ~7c 2 Inputs ~7a, ~7c 2 Inputs ~8a, ~8c 2 Inputs Fast Form-C ~8a, ~8c 2 Inputs ~8a, ~8c 2 Inputs GE Multilin T60 Transformer Management Relay 3-11...
Page 48 OUTPUT TERMINAL OUTPUT ASSIGNMENT ASSIGNMENT Not Used 2 Outputs Solid-State 2 Outputs Not Used 2 Outputs Solid-State 2 Outputs Not Used 2 Outputs Solid-State 2 Outputs Not Used 2 Outputs Solid-State Not Used 3-12 T60 Transformer Management Relay GE Multilin...
Page 49 3 HARDWARE 3.2 WIRING 82719CX-X1.dwg Figure 3–13: DIGITAL I/O MODULE WIRING (1 of 2) GE Multilin T60 Transformer Management Relay 3-13...
Page 50 – MOSFET Solid State Contact – MOSFET Solid State Contact 82719CX-X2.dwg Figure 3–14: DIGITAL I/O MODULE WIRING (2 of 2) CORRECT POLARITY MUST BE OBSERVED FOR ALL CONTACT INPUT CONNECTIONS OR EQUIPMENT DAMAGE MAY RESULT. CAUTION 3-14 T60 Transformer Management Relay GE Multilin...
Page 51 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. NOTE GE Multilin T60 Transformer Management Relay 3-15...
Page 52: Transducer Inputs/Outputs
5 & dcmA In Comp Comp Return for RTD 7 & Return for RTD 6 & SURGE Comp Comp SURGE Return for RTD 7 & Comp SURGE 827831A8-X1.CDR Figure 3–16: TRANSDUCER I/O MODULE WIRING 3-16 T60 Transformer Management Relay GE Multilin...
Page 53: Rs232 Faceplate Port
NORMAL RS485 COM 1 NORMAL 10BaseT 10BaseF ALTERNATE NORMAL 10BaseT RS485 RS485 COM 2 COM 2 RS485 COM 2 IRIG-B IRIG-B SURGE SURGE IRIG-B SURGE GROUND 827831A8-X6.CDR Figure 3–18: CPU MODULE COMMUNICATIONS WIRING GE Multilin T60 Transformer Management Relay 3-17...
Page 54 EACH END (TYPICALLY 120 Ohms and 1 nF) 485 - SURGE COMP 485COM UP TO 32 DEVICES, RELAY MAXIMUM 4000 FEET 485 + 485 - SURGE COMP 485COM LAST DEVICE 827757A5.DWG Figure 3–19: RS485 SERIAL CONNECTION 3-18 T60 Transformer Management Relay GE Multilin...
Page 55: Irig-B
(AM). Third party equipment is available for generating the IRIG-B signal; this equipment may use a GPS satellite system to obtain the time reference so that devices at different geographic locations can also be synchronized. GE Multilin T60 Transformer Management Relay 3-19...
Page 56: Description
3.3DIRECT I/O COMMUNICATIONS 3.3.1 DESCRIPTION The T60 direct inputs/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 I/O feature uses the communications channel(s) provided by these modules to exchange digital state information between relays.
Page 57 Channel 1 - RS422; Channel 2 - 1550 nm, single-mode, LASER IEEE C37.94, 820 nm, multi-mode, LED, 1 Channel IEEE C37.94, 820 nm, multi-mode, LED, 2 Channels OBSERVING ANY FIBER TRANSMITTER OUTPUT MAY CAUSE INJURY TO THE EYE. CAUTION GE Multilin T60 Transformer Management Relay 3-21...
Page 58: Fiber: Led And Eled Transmitters
1 Channel 2 Channels 831720A3.CDR Figure 3–25: LASER FIBER MODULES When using a LASER Interface, attenuators may be necessary to ensure that you do not exceed Maximum Optical Input Power to the receiver. WARNING 3-22 T60 Transformer Management Relay GE Multilin...
Page 59: Interface
Re-insert the G.703 module Take care to ensure that the correct module type is inserted into the correct slot position. The ejector/inserter clips located at the top and at the bottom of each module must be in the disengaged position as GE Multilin T60 Transformer Management Relay 3-23...
Page 60 Loop Timing Mode for connections to higher order systems. For connection to a higher order system (UR- to-multiplexer, factory defaults), set to Octet Timing (S1 = ON) and set Timing Mode = Loop Timing (S5 = OFF and S6 = OFF). 3-24 T60 Transformer Management Relay GE Multilin...
Page 61: Rs422 Interface
The shield pins (6a and 7b) are internally connected to the ground pin (8a). Proper shield termination is as follows: Site 1: Terminate shield to pins 6a and/or 7b; Site 2: Terminate shield to ‘COM’ pin 2b. GE Multilin T60 Transformer Management Relay 3-25...
Page 62 1 as shown in the following figure. If the Terminal Timing feature is not available or this type of connection is not desired, the G.703 interface is a viable option that does not impose timing restrictions. 3-26 T60 Transformer Management Relay GE Multilin...
Page 63 Figure 3–31: TIMING CONFIGURATION FOR RS422 TWO-CHANNEL, 3-TERMINAL APPLICATION Data Module 1 provides timing to the T60 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 64: Rs422 And Fiber Interface
When using a LASER Interface, attenuators may be necessary to ensure that you do not exceed Maximum Optical Input Power to the receiver. WARNING Shld. Tx - G.703 Rx - CHANNEL 1 Tx + Rx + SURGE FIBER CHANNEL 2 Figure 3–34: G.703 AND FIBER INTERFACE CONNECTION 3-28 T60 Transformer Management Relay GE Multilin...
Page 65: Ieee C37.94 Interface
Loop Timed Internal Timing Mode xt te xt te xt te xt te xt te xt te xt te xt te xt te xt te Switch Internal Loop Timed GE Multilin T60 Transformer Management Relay 3-29...
Page 66 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. Figure 3–35: C37.94 TIMING SELECTION SWITCH SETTING 3-30 T60 Transformer Management Relay GE Multilin...
Page 67: 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 T60 section in Chapter 1 for details.
Page 68 Site List window will automatically be sent to the on-line communicating device. g) FIRMWARE UPGRADES The firmware of a T60 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 69: Enervista Ur Setup Main Window
Settings List control bar window Device data view window(s), with common tool bar Settings File data view window(s), with common tool bar Workspace area with data view tabs Status bar Figure 4–1: ENERVISTA UR SETUP SOFTWARE MAIN WINDOW GE Multilin T60 Transformer Management Relay...
Page 70: Faceplate Interface
IN SERVICE VOLTAGE TROUBLE CURRENT RESET TEST MODE FREQUENCY LED PANEL 1 TRIP OTHER USER 1 ALARM PHASE A PICKUP PHASE B USER 2 PHASE C NEUTRAL/GROUND USER 3 Figure 4–3: UR-SERIES VERTICAL FACEPLATE PANELS T60 Transformer Management Relay GE Multilin...
Page 71: Led Indicators
OTHER: Indicates a composite function was involved. • PHASE A: Indicates Phase A was involved. • PHASE B: Indicates Phase B was involved. • PHASE C: Indicates Phase C was involved. • NEUTRAL/GROUND: Indicates neutral or ground was involved. GE Multilin T60 Transformer Management Relay...
Page 72 LED settings must be entered by the user as shown in the USER-PROGRAMMABLE LEDs section of the SETTINGS chapter. The LEDs are fully user-programmable. The default labels can be replaced by user-printed labels for both LED panels 2 and 3 as explained in the next section. T60 Transformer Management Relay GE Multilin...
Page 73 Microsoft Word 97 or later software • 1 each of: 8.5" x 11" white paper, exacto knife, ruler, custom display module (GE Multilin Part Number: 1516-0069), and a custom module cover (GE Multilin Part Number: 1502-0015) Open the LED panel customization template with Microsoft Word. Add text in places of the LED x text placeholders on the template(s).
Page 74: Display
ACTUAL VALUES SETTINGS COMMANDS TARGETS ACTUAL VALUES SETTINGS COMMANDS No Active STATUS PRODUCT SETUP VIRTUAL INPUTS Targets USER DISPLAYS (when in use) User Display 1 T60 Transformer Management Relay GE Multilin...
Page 75 Dis- FLASH MESSAGE play Properties. TIME: 1.0 s To view the remaining settings associated with the Display Properties subheader, DEFAULT MESSAGE repeatedly press the MESSAGE key. The last message appears as shown. INTENSITY: 25% GE Multilin T60 Transformer Management Relay...
Page 76: Changing Settings
Changes are not registered by the relay until the key is pressed. Pressing NEW SETTING stores the new value in memory. This flash message momentarily appears as confirma- HAS BEEN STORED tion of the storing process. 4-10 T60 Transformer Management Relay GE Multilin...
Page 77: Settings
Not Programmed message appears on the display, press the VALUE keys change the RELAY SETTINGS: selection to "Programmed". Press the key. RELAY SETTINGS: RELAY SETTINGS: NEW SETTING Not Programmed Programmed HAS BEEN STORED GE Multilin T60 Transformer Management Relay 4-11...
Page 78 (for each security level) before a new password can be entered. In the event that a password has been lost (forgotten), submit the corresponding Encrypted Password from the PASSWORD menu to the Factory for decoding. SECURITY 4-12 T60 Transformer Management Relay GE Multilin...
Page 79: Overview
See page 5–28. PARAMETERS USER-DEFINABLE See page 5–29. DISPLAYS DIRECT I/O See page 5–31. INSTALLATION See page 5–36. SETTINGS AC INPUTS See page 5–37. SYSTEM SETUP POWER SYSTEM See page 5–38. SIGNAL SOURCES See page 5–39. GE Multilin T60 Transformer Management Relay...
Page 80 DIGITAL COUNTERS See page 5–124. SETTINGS CONTACT INPUTS See page 5–126. INPUTS / OUTPUTS VIRTUAL INPUTS See page 5–128. CONTACT OUTPUTS See page 5–129. LATCHING OUTPUTS See page 5–129. VIRTUAL OUTPUTS See page 5–131. T60 Transformer Management Relay GE Multilin...
Page 81: Introduction To Elements
For current elements, the ‘base quantity’ is the nominal secondary or primary current of the CT. Where the current source is the sum of two CTs with different ratios, the ‘base quantity’ will be the common secondary or primary current GE Multilin T60 Transformer Management Relay...
Page 82: Introduction To Ac Sources
BACKGROUND The T60 may be used on systems with breaker-and-a-half or ring bus configurations. In these applications, each of the two three-phase sets of individual phase currents (one associated with each breaker) can be used as an input to a breaker fail- ure element.
Page 83 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. GE Multilin T60 Transformer Management Relay...
Page 84 Source is a transformer winding, on which a three phase voltage is mea- sured, and the sum of the currents from CTs on each of two breakers is required to measure the winding current flow. T60 Transformer Management Relay GE Multilin...
Page 85: Product Setup
If an entered password is lost (or forgotten), consult the factory with the corresponding ENCRYPTED PASSWORD The T60 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 UNAUTHORIZED ACCESS FlexLogic™ oper- and is asserted.
Page 86: 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 T60 applies a cut- off value to the magnitudes and angles of the measured currents.
Page 87: Clear Relay Records
MESSAG Valid only for units with Direct I/O module. The T60 allows selected records to be cleared from user-programmable conditions with FlexLogic™ operands. Setting user-programmable pushbuttons to clear specific records are typical applications for these commands. The T60 responds to rising edges of the configured FlexLogic™ operands. As such, the operand must be asserted for at least 50 ms to take effect.
Page 88: Communications
0 ms The T60 is equipped with up to 3 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 will depend on the CPU ordered: it may be either an Ethernet or an RS485 port.
Page 89 MODBUS SLAVE ADDRESS grammed. For the RS485 ports each T60 must have a unique address from 1 to 254. Address 0 is the broadcast address which all Modbus slave devices listen to. Addresses do not have to be sequential, but no two devices can have the same address or conflicts resulting in errors will occur.
Page 90 DEADBAND: 30000 Range: 0 to 65535 in steps of 1 DNP OTHER DEFAULT MESSAGE DEADBAND: 30000 Range: 1 to 10080 min. in steps of 1 DNP TIME SYNC IIN MESSAGE PERIOD: 1440 min 5-12 T60 Transformer Management Relay GE Multilin...
Page 91 DNP VOLTAGE SCALE FACTOR Input points that are voltages will be returned with values 1000 times smaller (e.g. a value of 72000 V on the T60 will be returned as 72). These settings are useful when Analog Input values must be adjusted to fit within certain ranges in DNP masters.
Page 92 NUMBER: The Trivial File Transfer Protocol (TFTP) can be used to transfer files from the UR over a network. The T60 operates as a TFTP server. TFTP client software is available from various sources, including Microsoft Windows NT. The dir.txt file obtained from the T60 contains a list and description of all available files (event records, oscillography, etc.).
Page 93 THRESHOLD: 30000 The T60 supports the IEC 60870-5-104 protocol. The T60 can be used as an IEC 60870-5-104 slave device connected to a single master (usually either an RTU or a SCADA master station). Since the T60 maintains one set of IEC 60870-5-104 data change buffers, only one master should actively communicate with the T60 at one time.
Page 94: Modbus User Map
T60 clock is closely synchronized with the SNTP/NTP server. It may take up to one minute for the T60 to signal an SNTP self-test error if the server is offline.
Page 95: User-Programmable Fault Report
The user programmable record contains the following information: the user-programmed relay name, detailed firmware revision (3.4x, for example) and relay model (T60), the date and time of trigger, the name of pre-fault trigger (specific Flex- Logic™ operand), the name of fault trigger (specific FlexLogic™ operand), the active setting group at pre-fault trigger, the active setting group at fault trigger, pre-fault values of all programmed analog channels (one cycle before pre-fault trigger), and fault values of all programmed analog channels (at the fault trigger).
Page 96: Oscillography
See the ACTUAL VALUES menu to view the number of cycles captured per record. The following table provides sam- RECORDS OSCILLOGRAPHY ple configurations with corresponding cycles/record. 5-18 T60 Transformer Management Relay GE Multilin...
Page 97 Analog channel 0 ↔ 2nd Harmonic Analog channel 1 ↔ 3rd Harmonic Analog channel 23 ↔ 25th Harmonic When the setting is altered, all oscillography records will be CLEARED. NUMBER OF RECORDS WARNING GE Multilin T60 Transformer Management Relay 5-19...
Page 98: Data Logger
POWER DEMAND METHOD: MESSAGE Rolling Demand Thermal Exponential Range: 5, 10, 15, 20, 30, 60 minutes DEMAND INTERVAL: MESSAGE 15 MIN Range: FlexLogic™ operand DEMAND TRIGGER: MESSAGE Note: for calculation using Method 2a 5-20 T60 Transformer Management Relay GE Multilin...
Page 99 This method calculates a linear average of the quantity (RMS current, real power, reactive power, or apparent power) over the programmed demand time interval, in the same way as Block Interval. The value is updated every minute and indicates the demand over the time interval just preceding the time of update. GE Multilin T60 Transformer Management Relay 5-21...
Page 100: User-Programmable Leds
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. 5-22 T60 Transformer Management Relay GE Multilin...
Page 101 Stage 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. GE Multilin T60 Transformer Management Relay 5-23...
Page 102 LED 22 Operand LED 11 Operand LED 23 Operand LED 12 Operand LED 24 Operand Refer to the Control of Setting Groups example in the Control Elements section of this chapter for group activation. 5-24 T60 Transformer Management Relay GE Multilin...
Page 103: User-Programmable Self Tests
The three standard pushbuttons located on the top left panel of the faceplate are user-programmable and can be used for various applications such as performing an LED test, switching setting groups, and invoking and scrolling though user-pro- grammable displays, etc. The location of the control pushbuttons in shown below. GE Multilin T60 Transformer Management Relay 5-25...
Page 104 SYSTEM SETUP/ BREAKERS/BREAKER 1/ BREAKER 1 PUSHBUTTON CONTROL Enabled=1 TIMER FLEXLOGIC OPERAND SYSTEM SETUP/ BREAKERS/BREAKER 2/ CONTROL PUSHBTN 1 ON 100 msec BREAKER 2 PUSHBUTTON CONTROL 842010A2.CDR Enabled=1 Figure 5–5: CONTROL PUSHBUTTON LOGIC 5-26 T60 Transformer Management Relay GE Multilin...
Page 105: User-Programmable Pushbuttons
MESSAGE EVENTS: Disabled The T60 has 12 optional user-programmable pushbuttons available, each configured via 12 identical menus. The pushbut- tons provide an easy and error-free method of manually entering digital information (On, Off) into FlexLogic™ equations as well as protection and control elements. Typical applications include breaker control, autorecloser blocking, ground protec- tion blocking, and setting groups changes.
Page 106: Flex State Parameters
The state bits may be read out in the "Flex States" register array beginning at Modbus address 900 hex. 16 states are packed into each register, with the lowest-numbered state in the lowest-order bit. There are 16 registers in total to accom- modate the 256 state bits. 5-28 T60 Transformer Management Relay GE Multilin...
Page 107: User-Definable Displays
Range: 0 to 65535 in steps of 1 DISP 1 ITEM 3 MESSAGE Range: 0 to 65535 in steps of 1 DISP 1 ITEM 4 MESSAGE Range: 0 to 65535 in steps of 1 DISP 1 ITEM 5: MESSAGE GE Multilin T60 Transformer Management Relay 5-29...
Page 108 This item is not being used - there is no corresponding DISP 1 ITEM 5: MESSAGE Tilde marker in Top or Bottom lines. Shows the resultant display content. USER DISPLAYS Current X 0.850 A → Current Y 0.327 A 5-30 T60 Transformer Management Relay GE Multilin...
Page 109: Direct I/O
Delivery time for Direct I/O messages is approximately 0.2 of a power system cycle at 128 kbps and 0.4 of a power system cycle at 64 kbps, per each “bridge”. GE Multilin T60 Transformer Management Relay 5-31...
Page 110 UR IED 1 BLOCK UR IED 4 UR IED 2 UR IED 3 842712A1.CDR Figure 5–8: SAMPLE INTERLOCKING BUSBAR PROTECTION SCHEME For increased reliability, a dual-ring configuration (shown below) is recommended for this application. 5-32 T60 Transformer Management Relay GE Multilin...
Page 111 Figure 5–10: THREE-TERMINAL LINE APPLICATION A permissive pilot-aided scheme could be implemented in a two-ring configuration as shown below (IEDs 1 and 2 constitute a first ring, while IEDs 2 and 3 constitute a second ring): GE Multilin T60 Transformer Management Relay 5-33...
Page 112 IED 2 to IED 3: 0.2 of power system cycle The two communications configurations could be applied to both permissive and blocking schemes. Speed, reliability and cost should be taken into account when selecting the required architecture. 5-34 T60 Transformer Management Relay GE Multilin...
Page 113 EVENTS: Disabled The T60 checks integrity of the incoming Direct I/O 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 func- tion counts all incoming messages, including messages that failed the CRC check.
Page 114: Installation
MESSAGE EVENTS: Disabled The T60 checks integrity of the Direct I/O communication ring by counting unreturned messages. In the ring configuration, all messages originating at a given device should return within a pre-defined period of time. The Unreturned Messages Alarm function is available for monitoring the integrity of the communication ring by tracking the rate of unreturned mes- sages.
Page 115: System Setup
1000:1 CT before summation. If a protection element is set up to act on SRC 1 currents, then a pickup level of 1 pu will operate on 1000 A primary. The same rule applies for current sums from CTs with different secondary taps (5 A and 1 A). GE Multilin T60 Transformer Management Relay 5-37...
Page 116: Power System
5-38 T60 Transformer Management Relay GE Multilin...
Page 117: Signal Sources
CT and VT input. For CT inputs, this is the nominal primary and secondary current. For VTs, this is the connection type, ratio and nominal secondary voltage. Once the inputs have been specified, the configuration for each Source is entered, including specifying which CTs will be summed together. GE Multilin T60 Transformer Management Relay 5-39...
Page 118 CT/VT inputs that are used to provide the data. DSP Bank Source 1 Source 2 Amps Amps Source 3 51BF-1 51BF-2 Volts Amps Volts Amps Source 4 UR Relay Figure 5–13: EXAMPLE USE OF SOURCES 5-40 T60 Transformer Management Relay GE Multilin...
Page 119: Transformer
WINDING ~ ANGLE WRT MESSAGE (displayed when viewed Winding is not WINDING 1) WINDING 1: 0.0° Range: 0.0001 to 100.0000 ohms in steps of 0.0001 WINDING 1 RESISTANCE MESSAGE 3φ: 10.0000 ohms WINDING 2 ↓ GE Multilin T60 Transformer Management Relay 5-41...
Page 120 WINDING 4 The T60 Transformer Management Relay has been designed to provide primary protection for medium to high voltage power transformers. It is able to perform this function on 2 to 4 winding transformers in a variety of system configurations.
Page 121 The reason the source phase sequence must be stated when describing the winding phase relationships is that these rela- tionships change when the phase sequence changes. The example shown below shows why this happens, using a trans- former described in IEC nomenclature as a type “Yd1” or in GE Multilin nomenclature as a “Y/d30.” 828716A1.CDR Figure 5–14: EXAMPLE TRANSFORMER...
Page 122 CTs or tapped relay windings were used to minimize this error. The T60 automatically corrects for CT mismatch errors. All currents are magnitude compensated to be in units of the CTs of one winding before the calculation of differential and restraint quantities.
Page 123 The T60 performs this phase angle compensation and zero sequence removal automatically, based on the settings entered for the transformer. All CTs are connected Wye (polarity markings pointing away from the transformer). All currents are phase and zero sequence compensated internally before the calculation of differential and restraint quantities.
Page 124 ------ - I – – ------ - I ------ - I ------ - I ------ - I – – ------ - I – ------ - I ------ - I – ------ - I 5-46 T60 Transformer Management Relay GE Multilin...
Page 125 1 [ ] I 2 [ ] … I max I total where is the phase A differential current and is the phase A restraint current (likewise for phases B and C). GE Multilin T60 Transformer Management Relay 5-47...
Page 126: Transformer Windings Between Two Breakers
SIG- settings menu. NAL SOURCES SOURCE n “WDG 2" SOURCE 3 NAME: “M1” SOURCE 3 PHASE CT: “M1” SOURCE 3 GROUND CT: : “None” SOURCE 3 PHASE VT “None” SOURCE 3 AUX VT: 5-48 T60 Transformer Management Relay GE Multilin...
Page 127 SYSTEM SETUP SIGNAL settings menu. SOURCES SOURCE n “WDG 2" SOURCE 2 NAME: “M1” SOURCE 2 PHASE CT: “M1” SOURCE 2 GROUND CT: “None” SOURCE 2 PHASE VT: “None” SOURCE 2 AUX VT: GE Multilin T60 Transformer Management Relay 5-49...
Page 128: Flexcurves
1, i.e. 0.98 pu and 1.03 pu. It is recommended to set the two times to a similar value; otherwise, the linear NOTE approximation may result in undesired behavior for the operating quantity that is close to 1.00 pu. 5-50 T60 Transformer Management Relay GE Multilin...
Page 129 Multiplier and Adder settings only affect the curve portion of the characteristic and not the MRT and HCT settings. The HCT settings override the MRT settings for multiples of pickup greater than the HCT Ratio. NOTE GE Multilin T60 Transformer Management Relay 5-51...
Page 130 UR Setup software generates an error message and discards the proposed changes. NOTE e) STANDARD RECLOSER CURVES The standard Recloser curves available for the T60 are displayed in the following graphs. 5-52 T60 Transformer Management Relay...
Page 131 CURRENT (multiple of pickup) 842723A1.CDR Figure 5–20: RECLOSER CURVES GE101 TO GE106 GE142 GE138 GE120 GE113 0.05 7 8 9 10 12 CURRENT (multiple of pickup) 842725A1.CDR Figure 5–21: RECLOSER CURVES GE113, GE120, GE138 AND GE142 GE Multilin T60 Transformer Management Relay 5-53...
Page 132 Figure 5–22: RECLOSER CURVES GE134, GE137, GE140, GE151 AND GE201 GE152 GE141 GE131 GE200 7 8 9 10 12 CURRENT (multiple of pickup) 842728A1.CDR Figure 5–23: RECLOSER CURVES GE131, GE141, GE152, AND GE200 5-54 T60 Transformer Management Relay GE Multilin...
Page 133 Figure 5–24: RECLOSER CURVES GE133, GE161, GE162, GE163, GE164 AND GE165 GE132 GE139 GE136 GE116 0.05 GE117 GE118 0.02 0.01 7 8 9 10 12 CURRENT (multiple of pickup) 842726A1.CDR Figure 5–25: RECLOSER CURVES GE116, GE117, GE118, GE132, GE136, AND GE139 GE Multilin T60 Transformer Management Relay 5-55...
Page 134 Figure 5–26: RECLOSER CURVES GE107, GE111, GE112, GE114, GE115, GE121, AND GE122 GE202 GE135 GE119 7 8 9 10 12 CURRENT (multiple of pickup) 842727A1.CDR Figure 5–27: RECLOSER CURVES GE119, GE135, AND GE202 5-56 T60 Transformer Management Relay GE Multilin...
Page 135: Introduction To Flexlogic
Traditionally, protective relay logic has been relatively limited. Any unusual applications involving interlocks, blocking, or supervisory functions had to be hard-wired using contact inputs and outputs. FlexLogic™ minimizes the requirement for auxiliary components and wiring while making more complex schemes possible. GE Multilin T60 Transformer Management Relay 5-57...
Page 136 The virtual input is presently in the ON state. Virtual Output Virt Op 1 On The virtual output is presently in the set state (i.e. evaluation of the equation which produces this virtual output results in a "1"). 5-58 T60 Transformer Management Relay GE Multilin...
Page 137 5 SETTINGS 5.4 FLEXLOGIC™ The operands available for this relay are listed alphabetically by types in the following table. Table 5–7: T60 FLEXLOGIC™ OPERANDS (Sheet 1 of 4) OPERAND TYPE OPERAND SYNTAX OPERAND DESCRIPTION CONTROL CONTROL PUSHBTN n ON Control Pushbutton n (n = 1 to 7) is being pressed.
Page 138 5.4 FLEXLOGIC™ 5 SETTINGS Table 5–7: T60 FLEXLOGIC™ OPERANDS (Sheet 2 of 4) OPERAND TYPE OPERAND SYNTAX OPERAND DESCRIPTION ELEMENT: NEUTRAL TOC1 PKP Neutral Time Overcurrent 1 has picked up Neutral TOC NEUTRAL TOC1 OP Neutral Time Overcurrent 1 has operated...
Page 139 5 SETTINGS 5.4 FLEXLOGIC™ Table 5–7: T60 FLEXLOGIC™ OPERANDS (Sheet 3 of 4) OPERAND TYPE OPERAND SYNTAX OPERAND DESCRIPTION ELEMENT: SELECTOR 1 POS Y Selector Switch 1 is in Position Y (mutually exclusive operands). Selector Switch SELECTOR 1 BIT 0 First bit of the 3-bit word encoding position of Selector 1.
Page 140 5.4 FLEXLOGIC™ 5 SETTINGS Table 5–7: T60 FLEXLOGIC™ OPERANDS (Sheet 4 of 4) OPERAND TYPE OPERAND SYNTAX OPERAND DESCRIPTION INPUTS/OUTPUTS: REMOTE INPUT 1 On Flag is set, logic=1 ↓ ↓ Remote Inputs REMOTE INPUT 32 On Flag is set, logic=1...
Page 141: Flexlogic™ Rules
Assigning the output of an operator to a Virtual Output terminates the equation. A timer operator (e.g. "TIMER 1") or virtual output assignment (e.g. " = Virt Op 1") may only be used once. If this rule is broken, a syntax error will be declared. GE Multilin T60 Transformer Management Relay 5-63...
Page 142: Flexlogic™ Evaluation
Virtual Output and assigned the next available number (i.e. Virtual Output 3). The final output must also be assigned to a Virtual Output as Virtual Output 4, which will be programmed in the contact output section to operate relay H1 (i.e. Output Contact H1). 5-64 T60 Transformer Management Relay GE Multilin...
Page 143 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 T60 Transformer Management Relay 5-65...
Page 144 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. 5-66 T60 Transformer Management Relay GE Multilin...
Page 145 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 T60 Transformer Management Relay 5-67...
Page 146 In the expression above, the Virtual Output 4 input to the 4-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. 5-68 T60 Transformer Management Relay GE Multilin...
Page 147: 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 T60 Transformer Management Relay 5-69...
Page 148: 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. 5-70 T60 Transformer Management Relay GE Multilin...
Page 149 The FLEXELEMENT 1 DIRECTION following figure explains the application of the FLEXELEMENT 1 DIRECTION FLEXELEMENT 1 PICKUP FLEXELEMENT 1 HYS- settings. TERESIS GE Multilin T60 Transformer Management Relay 5-71...
Page 150 DIRECTION = Under; FLEXELEMENT COMP MODE = Signed; FlexElement 1 OpSig FLEXELEMENT 1 PKP FLEXELEMENT DIRECTION = Under; FLEXELEMENT COMP MODE = Absolute; FlexElement 1 OpSig 842706A1.CDR Figure 5–38: FLEXELEMENT™ INPUT MODE SETTING 5-72 T60 Transformer Management Relay GE Multilin...
Page 151 “Delta”. FLEXELEMENT 1 COMP MODE This setting specifies the pickup delay of the element. The setting FLEXELEMENT 1 PKP DELAY FLEXELEMENT 1 RST DELAY specifies the reset delay of the element. GE Multilin T60 Transformer Management Relay 5-73...
Page 152: Non-Volatile Latches
LATCH 1 SET: FLEXLOGIC OPERANDS Off=0 LATCH 1 ON Dominant LATCH 1 OFF Previous Previous SETTING State State LATCH 1 SET: Off=0 RESET 842005A1.CDR Figure 5–39: NON-VOLATILE LATCH OPERATION TABLE (N=1 to 16) AND LOGIC 5-74 T60 Transformer Management Relay GE Multilin...
Page 153: Grouped Elements 5.5.1 Overview
(see the Control Elements section in this chapter for additional details). 5.5.3 TRANSFORMER ELEMENTS a) MAIN MENU PATH: SETTINGS GROUPED ELEMENTS SETTING GROUP 1(6) TRANSFORMER TRANSFORMER PERCENT See page 5–76. DIFFERENTIAL INSTANTANEOUS See page 5–80. MESSAGE DIFFERENTIAL GE Multilin T60 Transformer Management Relay 5-75...
Page 154 “Σ” has as its output the vector sum of inputs, and “max” has as its output the input of maximum magnitude; these calculations are performed for each phase. 5-76 T60 Transformer Management Relay GE Multilin...
Page 155 The T60 Percent Differential element is based on a configurable dual-breakpoint / dual-slope differential restraint character- istic. The purpose of the preset characteristic is to define the differential restraint ratio for the transformer winding currents at different loading conditions and distinguish between external and internal faults. Differential restraint ratio variations occur due to current unbalance between primary and secondary windings and can be caused by the following: Inherent CT inaccuracies.
Page 156 2nd harmonic function. If set to "2-out-of-3", the relay checks 2nd harmonic level in all three phases individually. If any two phases establish a blocking condition, the remaining phase is restrained automatically. 5-78 T60 Transformer Management Relay GE Multilin...
Page 157 Iad5 LEVEL ACTUAL VALUES XFMR PCNT DIFF 5TH B > LEVEL Ibd5 DIFF 5TH HARM XFMR PCNT DIFF 5TH C > Icd5 LEVEL Iad5 Ibd5 Icd5 828001A5.CDR Figure 5–42: PERCENT DIFFERENTIAL SCHEME LOGIC GE Multilin T60 Transformer Management Relay 5-79...
Page 158 XFMR INST DIFF OP C Iad > PICKUP INST DIFF BLOCK: FLEXLOGIC OPERAND Off=0 Ibd > PICKUP XFMR INST DIFF OP ACTUAL VALUE Icd > PICKUP 828000A1.CDR DIFF PHASOR Figure 5–43: INSTANTANEOUS DIFFERENTIAL SCHEME LOGIC 5-80 T60 Transformer Management Relay GE Multilin...
Page 159: Phase Current
INVERSE TOC CHARACTERISTICS The inverse time overcurrent curves used by the TOC (time overcurrent) Current Elements are the IEEE, IEC, GE Type IAC, and I t standard curve shapes. This allows for simplified coordination with downstream devices. If however, none of these curve shapes is adequate, FlexCurves™...
Page 160 5.041 4.827 38.634 22.819 14.593 11.675 10.130 9.153 8.470 7.960 7.562 7.241 51.512 30.426 19.458 15.567 13.507 12.204 11.294 10.614 10.083 9.654 10.0 64.390 38.032 24.322 19.458 16.883 15.255 14.117 13.267 12.604 12.068 5-82 T60 Transformer Management Relay GE Multilin...
Page 161 0.60 1.835 1.067 0.668 0.526 0.451 0.404 0.371 0.346 0.327 0.311 0.80 2.446 1.423 0.890 0.702 0.602 0.538 0.494 0.461 0.435 0.415 1.00 3.058 1.778 1.113 0.877 0.752 0.673 0.618 0.576 0.544 0.518 GE Multilin T60 Transformer Management Relay 5-83...
Page 162 = characteristic constant, and T = reset time in seconds (assuming energy capacity is 100% RESET is “Timed”) RESET Table 5–16: GE TYPE IAC INVERSE TIME CURVE CONSTANTS IAC CURVE SHAPE IAC Extreme Inverse 0.0040 0.6379 0.6200 1.7872 0.2461...
Page 163 = Reset Time in seconds (assuming energy capacity is 100% and RESET: Timed) RESET RECLOSER CURVES: The T60 uses the FlexCurve™ feature to facilitate programming of 41 recloser curves. Please refer to the FlexCurve™ sec- tion in this chapter for additional details. GE Multilin...
Page 164 (Mvr) corresponding to the phase-phase voltages of the voltage restraint characteristic curve (see the figure below); the pickup level is calculated as ‘Mvr’ times the setting. If the voltage restraint feature PHASE TOC1 PICKUP is disabled, the pickup level always remains at the setting value. 5-86 T60 Transformer Management Relay GE Multilin...
Page 165 Set Pickup Calculate Multiplier PHASE TOC1 C DPO Multiplier-Phase C PHASE TOC1 C OP SETTING PHASE TOC1 PKP PHASE TOC1 VOLT RESTRAINT: PHASE TOC1 OP Enabled 827072A3.CDR Figure 5–45: PHASE TOC1 SCHEME LOGIC GE Multilin T60 Transformer Management Relay 5-87...
Page 166 PHASE IOC1 C OP BLOCK-A: Off = 0 PHASE IOC1 PKP SETTING PHASE IOC1 OP PHASE IOC1 BLOCK-B: 827033A5.VSD Off = 0 SETTING PHASE IOC1 BLOCK-C: Off = 0 Figure 5–46: PHASE IOC1 SCHEME LOGIC 5-88 T60 Transformer Management Relay GE Multilin...
Page 167 PHASE DIR 1 MESSAGE EVENTS: Disabled Phase Directional 1 target messages not used with the current version of the T60 relay. As a result, the Tar- get settings, for phase directional only, are not applicable. NOTE The phase directional elements (one for each of phases A, B, and C) determine the phase current flow direction for steady...
Page 168 Therefore, a coordination time of at least 10 msec must be added to all the instantaneous protection elements under the supervision of the Phase Directional element. If current reversal is of a con- cern, a longer delay – in the order of 20 msec – may be needed. 5-90 T60 Transformer Management Relay GE Multilin...
Page 169: Neutral Current
MESSAGE DIRECTIONAL OC1 The T60 relay contains six Neutral Time Overcurrent elements, eight Neutral Instantaneous Overcurrent elements, and one Neutral Directional Overcurrent element. For additional information on the Neutral Time Overcurrent curves, refer to Inverse TOC Characteristics on page 5–81.
Page 170 NEUTRAL TOC 1 SETTING NEUTRAL TOC1 PKP RESET: NEUTRAL TOC1 IN ≥ PICKUP NEUTRAL TOC1 DPO SOURCE: NEUTRAL TOC1 OP SETTING NEUTRAL TOC1 BLOCK: Off = 0 827034A3.VSD Figure 5–49: NEUTRAL TOC1 SCHEME LOGIC 5-92 T60 Transformer Management Relay GE Multilin...
Page 171 NEUTRAL IOC1 PKP RESET DELAY : SETTING NEUTRAL IOC1 DPO NEUTRAL IOC1 OP 3( _0 - K _1 ) PICKUP NEUTRAL IOC1 BLOCK: Off=0 SETTING NEUTRAL IOC1 SOURCE: 827035A4.CDR Figure 5–50: NEUTRAL IOC1 SCHEME LOGIC GE Multilin T60 Transformer Management Relay 5-93...
Page 172 The positive-sequence restraint allows for more sensitive settings by counterbalancing spurious zero-sequence currents resulting from: • System unbalances under heavy load conditions. • Transformation errors of Current Transformers (CTs) during double-line and three-phase faults. • Switch-off transients during double-line and three-phase faults. 5-94 T60 Transformer Management Relay GE Multilin...
Page 173 This allows for better protection coordination. The above bias should be taken into account when using the Neutral Directional Overcurrent element to directionalize other protection elements. GE Multilin T60 Transformer Management Relay 5-95...
Page 174 "Measured IG" the element uses ground current supplied to the ground CT of the CT bank configured as . Naturally, it is not possible to use the ground current as an operating NEUTRAL DIR OC1 SOURCE 5-96 T60 Transformer Management Relay GE Multilin...
Page 175 NEUTRAL DIR OC1 REV CURR: 3) POSITIVE SEQUENCE RESTRAINT IS NOT APPLIED WHEN _1 IS BELOW 0.8pu 3( _0 - K _1 ) PICKUP PICKUP 827077AA.CDR Figure 5–52: NEUTRAL DIRECTIONAL OC1 SCHEME LOGIC GE Multilin T60 Transformer Management Relay 5-97...
Page 176: Ground Current
MESSAGE FAULT 4 The T60 relay contains six Ground Time Overcurrent elements, eight Ground Instantaneous Overcurrent elements, and four Restricted Ground Fault elements. For additional information on the Ground Time Overcurrent curves, refer to Inverse TOC Characteristics on page 5–81.
Page 177 GROUND TOC 1 SETTING GROUND TOC1 PKP RESET: GROUND TOC1 IG ≥ PICKUP GROUND TOC1 DPO SOURCE: GROUND TOC1 OP SETTING GROUND TOC1 BLOCK: 827036A3.VSD Off = 0 Figure 5–53: GROUND TOC1 SCHEME LOGIC GE Multilin T60 Transformer Management Relay 5-99...
Page 178 The conversion range of a standard channel is from 0.02 to 46 times the CT rating. The conversion range of a sensitive channel is from 0.002 to 4.6 times the CT rating. NOTE 5-100 T60 Transformer Management Relay GE Multilin...
Page 179 MESSAGE EVENTS: Disabled As of T60 firmware revision 3.20, the definition of the restraining signal has been significantly changed compared to previous versions. The restraint during external faults is generally not lower, and often much higher, compared to the previous definition of the restraining signal (enhanced security). The restraint on...
Page 180 (EQ 5.16) The zero-sequence component of the restraining signal (IR0) is meant to provide maximum restraint during external ground faults, and therefore is calculated as a vectorial difference of the ground and neutral currents: 5-102 T60 Transformer Management Relay GE Multilin...
Page 181 RST RESTD GND FT1 SLOPE: RESTD GND FT1 SOURCE: Differential > SLOPE * Restraining Currents ACTUAL VALUES RGF 1 gd Mag RGF 1 gr Mag 828002A2.CDR Figure 5–57: RESTRICTED GROUND FAULT SCHEME LOGIC GE Multilin T60 Transformer Management Relay 5-103...
Page 182 Igd = abs(3 × 3.3 + 0.0) = 10 pu, IR0 = abs(3 × 3.3 – (0.0)) = 10 pu, IR2 = 3 × 3.3 = 10 pu, IR1 = 3 × (3.33 – 3.33) = 0 pu, and Igr = 10 pu The differential current is 100% of the restraining current. 5-104 T60 Transformer Management Relay GE Multilin...
Page 183: Voltage Elements
= Pickup Level pickup At 0% of pickup, the operating time equals the setting. UNDERVOLTAGE DELAY NOTE 20 30 80 90 100 110 % of V pickup Figure 5–58: INVERSE TIME UNDERVOLTAGE CURVES GE Multilin T60 Transformer Management Relay 5-105...
Page 184 PHASE UV1 C OP Source VT = Wye FLEXLOGIC OPERAND SETTING PHASE UV1 PKP PHASE UV1 MODE: FLEXLOGIC OPERAND Phase to Ground Phase to Phase PHASE UV1 OP 827039AA.CDR Figure 5–59: PHASE UNDERVOLTAGE1 SCHEME LOGIC 5-106 T60 Transformer Management Relay GE Multilin...
Page 185 V ≥ PICKUP PHASE OV1 A OP PHASE OV1 B OP SETTING PHASE OV1 C OP PHASE OV1 BLOCK: PHASE OV1 PKP Off = 0 PHASE OV1 OP 827066A2.VSD Figure 5–60: PHASE OV SCHEME LOGIC GE Multilin T60 Transformer Management Relay 5-107...
Page 186 Off=0 DELAY : FLEXLOGIC OPERANDS < 3V_0 Pickup NEUTRAL OV1 OP SETTING NEUTRAL OV1 DPO NEUTRAL OV1 SIGNAL NEUTRAL OV1 PKP SOURCE: ZERO SEQ VOLT (V_0) 827848A1.CDR Figure 5–61: NEUTRAL OVERVOLTAGE1 SCHEME LOGIC 5-108 T60 Transformer Management Relay GE Multilin...
Page 187 Vx Pickup AUX UV1 PKP AUX UV1 DPO SETTING SETTING AUX UV1 OP AUX UV1 MINIMUM AUX UV1 SIGNAL VOLTAGE: SOURCE: < AUX VOLT Vx Vx Minimum 827849A2.CDR Figure 5–62: AUXILIARY UNDERVOLTAGE SCHEME LOGIC GE Multilin T60 Transformer Management Relay 5-109...
Page 188 AUX OV1 RESET Off=0 DELAY : FLEXLOGIC OPERANDS < Vx Pickup AUX OV1 OP SETTING AUX OV1 DPO AUX OV1 SIGNAL AUX OV1 PKP SOURCE: AUXILIARY VOLT (Vx) 827836A2.CDR Figure 5–63: AUXILIARY OVERVOLTAGE SCHEME LOGIC 5-110 T60 Transformer Management Relay GE Multilin...
Page 189 VOLTS PER HERTZ 1 PKP VOLTS/HZ 1 BLOCK: VOLTS PER HERTZ 1 DPO Off = 0 VOLTS PER HERTZ 1 OP SETTING VOLTS/HZ 1 SOURCE: VOLT / Hz V/Hz 828003A5.CDR Figure 5–64: VOLTS PER HERTZ SCHEME LOGIC GE Multilin T60 Transformer Management Relay 5-111...
Page 190 TDM = Time Delay Multiplier (delay in sec.) V = fundamental RMS value of voltage (pu) F = frequency of voltage signal (pu) Pickup = volts-per-hertz pickup setpoint (pu) 1.00 1.20 1.40 1.60 1.80 2.00 Multiples of Voltz/Hertz Pickup 5-112 T60 Transformer Management Relay GE Multilin...
Page 191: Setting Groups
The assigned VIR- operand is used to control the “On” state of a particular settings group. TUAL OUTPUT 1 Figure 5–65: EXAMPLE FLEXLOGIC™ CONTROL OF A SETTINGS GROUP GE Multilin T60 Transformer Management Relay 5-113...
Page 192: Selector Switch
SELECTOR 1 TIME-OUT: This setting defines the time-out period for the selector. This value is used by the relay in the following two ways. When the is “Time-out”, the setting specifies the required period of SELECTOR STEP-UP MODE 5-114 T60 Transformer Management Relay GE Multilin...
Page 193 3-bit control inputs. Note that the stepping up control input and 3-bit control TIME-OUT input have independent acknowledging signals ( , accordingly). SELECTOR 1 ACK SELECTOR 1 3BIT ACK GE Multilin T60 Transformer Management Relay 5-115...
Page 194 3BIT A1 3BIT A2 POS 1 POS 2 POS 3 POS 4 POS 5 POS 6 POS 7 BIT 0 BIT 1 BIT 2 STP ALARM BIT ALARM ALARM 842737A1.CDR Figure 5–66: TIME-OUT MODE 5-116 T60 Transformer Management Relay GE Multilin...
Page 195 3BIT A2 3BIT ACK 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 842736A1.CDR Figure 5–67: ACKNOWLEDGE MODE GE Multilin T60 Transformer Management Relay 5-117...
Page 196 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 842012A1.CDR Figure 5–68: SELECTOR SWITCH LOGIC 5-118 T60 Transformer Management Relay GE Multilin...
Page 197: Underfrequency
UNDERFREQ 1 DPO SETTING < 0 < f PICKUP1 UNDERFREQ 1 OP UNDERFREQ 1 MIN VOLT / AMP: ACTUAL VALUES UNDERFREQ 1 SOURCE: < Level VOLT / AMP Frequency 827079A6.CDR Figure 5–69: UNDERFREQUENCY SCHEME LOGIC GE Multilin T60 Transformer Management Relay 5-119...
Page 198: Overfrequency
OVERFREQ 1 BLOCK: FLEXLOGIC OPERANDS OVERFREQ 1 RESET OVERFREQ 1 PKP DELAY : OVERFREQ 1 DPO OVERFREQ 1 OP SETTING < f PICKUP OVERFREQ 1 SOURCE: SRC1 Frequency 827832A3.CDR Figure 5–70: OVERFREQUENCY SCHEME LOGIC 5-120 T60 Transformer Management Relay GE Multilin...
Page 199: Digital Elements
DC current is interrupted, the trickle current will drop below the threshold and the FlexLogic™ operand "Cont Op # VOff" will be set. Consequently, the state of these operands can be used as indicators of the integrity of the cir- cuits in which Form-A contacts are inserted. GE Multilin T60 Transformer Management Relay 5-121...
Page 200 MESSAGE Cont Ip 1 Off DIGITAL ELEMENT MESSAGE TARGET: Self-reset DIGITAL ELEMENT MESSAGE EVENTS: Enabled setting should be greater than the operating time of the breaker to avoid nuisance PICKUP DELAY alarms. NOTE 5-122 T60 Transformer Management Relay GE Multilin...
Page 201 RESISTANCE POWER SUPPLY (V DC) (OHMS) (WATTS) I = Current Monitor 1000 5000 V = Voltage Monitor 10000 25000 By-pass 25000 Resistor 50000 Trip Coil 827074A1.vsd DC– Figure 5–73: TRIP CIRCUIT EXAMPLE 2 GE Multilin T60 Transformer Management Relay 5-123...
Page 202: 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. 5-124 T60 Transformer Management Relay GE Multilin...
Page 203 COUNTER 1 RESET: 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 5–74: DIGITAL COUNTER SCHEME LOGIC GE Multilin T60 Transformer Management Relay 5-125...
Page 204 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 T60 to validate the new contact state. In the figure below, the debounce time is set at 2.5 ms;...
Page 205 Event Records menu, make the following settings changes: "Breaker Closed (52b)" CONTACT INPUT H5A ID: "Enabled" CONTACT INPUT H5A EVENTS: Note that the 52b contact is closed when the breaker is open and open when the breaker is closed. GE Multilin T60 Transformer Management Relay 5-127...
Page 206: Virtual Inputs
SETTING “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 5–76: VIRTUAL INPUTS SCHEME LOGIC 5-128 T60 Transformer Management Relay GE Multilin...
Page 207: Contact Outputs
L-Cont Op 1 Range: FlexLogic™ operand OUTPUT H1a OPERATE: MESSAGE Range: FlexLogic™ operand OUTPUT H1a RESET: MESSAGE Range: Operate-dominant, Reset-dominant OUTPUT H1a TYPE: MESSAGE Operate-dominant Range: Disabled, Enabled OUTPUT H1a EVENTS: MESSAGE Disabled GE Multilin T60 Transformer Management Relay 5-129...
Page 208 5 SETTINGS The T60 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 209: Virtual Outputs
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: "Trip" VIRTUAL OUTPUT 1 ID: "Disabled" VIRTUAL OUTPUT 1 EVENTS: GE Multilin T60 Transformer Management Relay 5-131...
Page 210: Remote Devices
This setting is used to select specific remote devices by entering (bottom row) the exact identification (ID) assigned to those devices. 5-132 T60 Transformer Management Relay GE Multilin...
Page 211: Remote Inputs
Logic 0. When communication resumes, the input becomes fully operational. For additional information on the GOOSE specification, refer to the Remote Devices section in this chapter and to Appendix C: UCA/MMS Communications. NOTE GE Multilin T60 Transformer Management Relay 5-133...
Page 212: Remote Outputs
Sync Closing SyncClsOff SyncClsOn Mode Report mode status of local GOOSE device Normal Test 28→32 Reserved For more information on GOOSE specifications, see the Remote I/O Overview in the Remote Devices sec- tion. NOTE 5-134 T60 Transformer Management Relay GE Multilin...
Page 213: Resetting
These settings specify how the Direct Input information is processed. The represents the source of DIRECT INPUT DEVICE ID this Direct Input. The specified Direct Input is driven by the device identified here. GE Multilin T60 Transformer Management Relay 5-135...
Page 214 The examples introduced in the Product Setup section for Direct I/Os are continued below to illustrate usage of the Direct Inputs and Outputs. EXAMPLE 1: EXTENDING I/O CAPABILITIES OF A T60 RELAY Consider an application that requires additional quantities of digital inputs and/or output contacts and/or lines of program- mable logic that exceed the capabilities of a single UR-series chassis.
Page 215 Figure 5–79: THREE-TERMINAL LINE APPLICATION Assume the Hybrid Permissive Overreaching Transfer Trip (Hybrid POTT) scheme is applied using the architecture shown below. The scheme output operand is used to key the permission. HYB POTT TX1 GE Multilin T60 Transformer Management Relay 5-137...
Page 216 In three-terminal applications, both the remote terminals must grant permission to trip. Therefore, at each terminal, Direct Inputs 5 and 6 should be ANDed in FlexLogic™ and the resulting operand configured as the permission to trip ( HYB POTT setting). 5-138 T60 Transformer Management Relay GE Multilin...
Page 217: Transducer I/O 5.8.1 Dcma Inputs
–20 to +180 MW; in this case the value would be “–20” and the DCMA INPUT XX MIN VALUE DCMA INPUT XX MAX value “180”. Intermediate values between the min and max values are scaled linearly. VALUE GE Multilin T60 Transformer Management Relay 5-139...
Page 218: Rtd Inputs
In FlexElements™, the operate level is scaled to a base of 100°C. For example, a trip level of 150°C is achieved by setting the operate level at 1.5 pu. FlexElement™ operands are available to FlexLogic™ for further interlocking or to operate an output contact directly. 5-140 T60 Transformer Management Relay GE Multilin...
Page 219: Testing 5.9.1 Test Mode
The Test Mode starts when the selected operand assumes a Logic 1 state. TIATE When in Test Mode, the T60 remains fully operational, allowing for various testing procedures. In particular, the protection and control elements, FlexLogic™, and communication-based inputs and outputs function normally.
Page 220: Force Contact Outputs
USER PUSHBUTTON 1 PUSHBUTTON 1 FUNCTION Input 1 to initiate the Test mode, make the following changes in the menu: SETTINGS TESTING TEST MODE “Enabled” and “ ” TEST MODE FUNCTION: TEST MODE INITIATE: 5-142 T60 Transformer Management Relay GE Multilin...
Page 221: Actual Values Main Menu
See page 6-7. STATUS ACTUAL VALUES TRANSFORMER See page 6-11. METERING SOURCE SRC 1 See page 6-11. SOURCE SRC 2 SOURCE SRC 3 SOURCE SRC 4 TRACKING FREQUENCY See page 6-15. FLEXELEMENTS See page 6-16. GE Multilin T60 Transformer Management Relay...
Page 222 See page 6-18. RECORDS FAULT REPORTS EVENT RECORDS See page 6-18. OSCILLOGRAPHY See page 6-18. DATA LOGGER See page 6-19. ACTUAL VALUES MODEL INFORMATION See page 6-20. PRODUCT INFO FIRMWARE REVISIONS See page 6-20. T60 Transformer Management Relay GE Multilin...
Page 223: Virtual 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. GE Multilin T60 Transformer Management Relay...
Page 224: Contact Outputs
The present state of up to 16 programmed Remote Devices is shown here. The message indi- ALL REMOTE DEVICES ONLINE cates whether or not all programmed Remote Devices are online. If the corresponding state is "No", then at least one required Remote Device is not online. T60 Transformer Management Relay GE Multilin...
Page 225: Digital Counters
Range: Off, On FLEX STATES PARAM 1: Off ↓ Range: Off, On PARAM 256: Off MESSAGE There are 256 FlexState bits available. The second line value indicates the state of the given FlexState bit. GE Multilin T60 Transformer Management Relay...
Page 226: Ethernet
The UNRETURNED MSG COUNT CRC FAIL values can be cleared using the command. COUNT CLEAR DIRECT I/O COUNTERS values represent the state of the x-th Direct Input. DIRECT INPUT x T60 Transformer Management Relay GE Multilin...
Page 227: Direct Devices Status
DIRECT DEVICES STATUS DIRECT DEVICES DIRECT DEVICE 1 STATUS STATUS: Offline DIRECT DEVICE 2 MESSAGE STATUS: Offline ↓ DIRECT DEVICE 8 MESSAGE STATUS: Offline These actual values represent the state of Direct Devices 1 through 8. GE Multilin T60 Transformer Management Relay...
Page 228 PF = Lag WATTS = Negative VARS = Positive PF = Lead PF = Lag PF = Lead Current UR RELAY 827239AC.CDR S=VI Generator Figure 6–1: FLOW DIRECTION OF SIGNED VALUES FOR WATTS AND VARS T60 Transformer Management Relay GE Multilin...
Page 229 • ABC phase rotation: • ACB phase rotation: -- - V -- - V -- - V -- - V -- - V -- - V The above equations apply to currents as well. GE Multilin T60 Transformer Management Relay...
Page 230 SYSTEM SETUP POWER SYSTEM FREQUENCY AND PHASE REFERENCE The example above is illustrated in the following figure. SYSTEM VOLTAGES SYMMETRICAL COMPONENTS WYE VTs DELTA VTs 827844A1.CDR Figure 6–3: MEASUREMENT CONVENTION FOR SYMMETRICAL COMPONENTS 6-10 T60 Transformer Management Relay GE Multilin...
Page 231: Transformer Differential And Restraint
0.000 c: 0.000 SRC 1 RMS Ia: MESSAGE 0.000 SRC 1 RMS Ib: MESSAGE 0.000 SRC 1 RMS Ic: MESSAGE 0.000 SRC 1 RMS In: MESSAGE 0.000 SRC 1 PHASOR Ia: MESSAGE 0.000 0.0° GE Multilin T60 Transformer Management Relay 6-11...
Page 232 SRC 1 RMS Vbc: MESSAGE 0.000 SRC 1 RMS Vca: MESSAGE 0.000 SRC 1 PHASOR Vab: MESSAGE 0.000 0.0° SRC 1 PHASOR Vbc: MESSAGE 0.000 0.0° SRC 1 PHASOR Vca: MESSAGE 0.000 0.0° 6-12 T60 Transformer Management Relay GE Multilin...
Page 233 APPARENT PWR MESSAGE φc: 0.000 SRC 1 POWER FACTOR MESSAGE 3φ: 1.000 SRC 1 POWER FACTOR MESSAGE φa: 1.000 SRC 1 POWER FACTOR MESSAGE φb: 1.000 SRC 1 POWER FACTOR MESSAGE φc: 1.000 GE Multilin T60 Transformer Management Relay 6-13...
Page 234 DMD VAR MAX: MESSAGE 0.000 SRC 1 DMD VAR DATE: MESSAGE 2001/07/31 16:30:07 SRC 1 DMD VA: MESSAGE 0.000 SRC 1 DMD VA MAX: MESSAGE 0.000 SRC 1 DMD VA DATE: MESSAGE 2001/07/31 16:30:07 6-14 T60 Transformer Management Relay GE Multilin...
Page 235: Tracking Frequency
The tracking frequency is displayed here. The frequency is tracked based on configuration of the reference source. The is based upon positive sequence current phasors from all line terminals and is synchronously TRACKING FREQUENCY adjusted at all terminals. If currents are below 0.125 pu, then the is used. NOMINAL FREQUENCY GE Multilin T60 Transformer Management Relay 6-15...
Page 236: Flexelements™
RESTRICTED GROUND FAULT 1(4) RESTRICTED RGF 1 DIFF Igd: GROUND FAULT 1 0.000 RGF 1 RESTR Igr: MESSAGE 0.000 The differential and restraint current values for the Restricted Ground Fault Element are displayed in this menu. 6-16 T60 Transformer Management Relay GE Multilin...
Page 237: Transducer I/O
RTD INPUT xx -50 °C Actual values for each RTD input channel that is Enabled are displayed with the top line as the programmed Channel “ID” and the bottom line as the value. GE Multilin T60 Transformer Management Relay 6-17...
Page 238: Records
Chapter 5 for further details. A trigger can be forced here at any time by setting "Yes" to the command. Refer to the FORCE TRIGGER? COMMANDS menu for clearing the oscillography records. CLEAR RECORDS 6-18 T60 Transformer Management Relay GE Multilin...
Page 239: Data Logger
It counts up at the defined sampling rate. If Data Logger channels are defined, then both values are static. Refer to the menu for clearing data logger records. COMMANDS CLEAR RECORDS GE Multilin T60 Transformer Management Relay 6-19...
Page 240: Product Information
BOOT DATE: MESSAGE Date and time when the boot program was built. 2003/11/20 16:41:32 The shown data is illustrative only. A modification file number of 0 indicates that, currently, no modifications have been installed. 6-20 T60 Transformer Management Relay GE Multilin...
Page 241: Commands And
7.1.3 CLEAR RECORDS PATH: COMMANDS COMMANDS CLEAR RECORDS Range: No, Yes COMMANDS CLEAR USER FAULT CLEAR RECORDS REPORTS? No Range: No, Yes CLEAR EVENT RECORDS? Range: No, Yes CLEAR OSCILLOGRAPHY? Range: No, Yes CLEAR DATA LOGGER? GE Multilin T60 Transformer Management Relay...
Page 242 If an update occurs, the following message is shown. UPDATING... PLEASE WAIT There is no impact if there have been no changes to the hardware modules. When an update does not occur, the ORDER message will be shown. CODE NOT UPDATED T60 Transformer Management Relay GE Multilin...
Page 243: Targets Menu
In Service LED indicator is turned off • a RELAY OUT OF SERVICE event is recorded Most of the minor self-test errors can be disabled. Refer to the settings in the User-Programmable Self-Tests section in Chapter 5 for additional details. GE Multilin T60 Transformer Management Relay...
Page 244 SYSTEM EXCEPTION Abnormal restart from modules Event driven. Contact the factory. being removed/inserted when powered-up, abnormal DC supply, or internal relay failure. WATCHDOG ERROR Some tasks are behind schedule Event driven. Contact the factory. T60 Transformer Management Relay GE Multilin...
Page 245: Commissioning
CT is the 1 A or 5 A tap, and M[1] is the calculated magnitude compensation factor (see the Transformer section in Chapter 5 for details on calculating the M[1] and M[2] factors). GE Multilin T60 Transformer Management Relay...
Page 246 2 current as restraint and repeat the steps above by substituting the Breakpoint 2 value in the equations above with the new per-unit restraint current value. The above two tests can be repeated for Phases B and C. (pu) (pu) Figure 8–1: DIFFERENTIAL RESTRAINT CHARACTERISTIC T60 Transformer Management Relay GE Multilin...
Page 247: Differential Characteristic Test Examples
8.2DIFFERENTIAL CHARACTERISTIC TEST EXAMPLES 8.2.1 INTRODUCTION The T60 commissioning tests are based on secondary current injections, where two or three individually adjustable cur- rents are required. The differential protection compares the magnitudes of the varying HV and LV currents in real time.
Page 248: Test Example 1 (Detailed)
Slope 2 Angle WRT 0° Angle WRT 0° Resistance 3Ph 10.000 ohms Resistance 3Ph 10.000 ohms APPLICATION OF EXCESSIVE CURRENT (> 3 × In) FOR EXTENTED PERIODS WILL CAUSE DAMAGE TO THE RELAY! WARNING T60 Transformer Management Relay GE Multilin...
Page 249 0 A ∠0° 0.15 A ∠0° 0.23 A ∠–180° 0.15 A ∠–180° 0.23 A ∠0° The following differential and restraint current should be read from the T60 actual values menu: PHASE DIFFERENTIAL CURRENT (I PHASE RESTRAINT CURRENT (I 0 ∠0°...
Page 250 0 A ∠0° 0.48 A ∠0° 1 A ∠–180° 0.48 A ∠–180° 1 A ∠0° The following differential and restraint current should be read from the T60 actual values menu: PHASE DIFFERENTIAL CURRENT (I PHASE RESTRAINT CURRENT (I 0 ∠0°...
Page 251: Test Example 2
0 A ∠0° 1.2 A ∠0° 3.5 A ∠–180° 1.2 A ∠–180° 3.5 A ∠0° The following differential and restraint current should be read from the T60 actual values menu: PHASE DIFFERENTIAL CURRENT (I PHASE RESTRAINT CURRENT (I 0 ∠0°...
Page 252 0 A ∠0° 0.5 A ∠0° 9 A ∠–180° 0.5 A ∠–180° 9 A ∠0° The following differential and restraint current should be read from the T60 actual values menu: PHASE DIFFERENTIAL CURRENT (I PHASE RESTRAINT CURRENT (I 0 ∠0°...
Page 253: Test Example 2
0 ∠0° 7.915 ∠0° 8.646 ∠0° 0.2 ∠0° 15 ∠–180° 7.918 ∠–180° 8.650 ∠–180° Slope 2 Operate = 95.7% 0 ∠0° 0 ∠0° 0 ∠0° 0 ∠0° 0.2 ∠–180° 0 ∠0° 7.916 ∠0° 8.650 ∠0° GE Multilin T60 Transformer Management Relay...
Page 254: Test Example 3
4 ∠0° 0 ∠0° 0 ∠0° 0 ∠0° Slope 2 Operate = 95.7% 8 ∠–180° 0.6 ∠0° 12.13 ∠–180° 12.73 ∠0° > Slope 2 = 95% 4 ∠0° 0.6 ∠–180° 12.13 ∠0° 12.73 ∠–180° 8-10 T60 Transformer Management Relay GE Multilin...
Page 255: Test Example 4
0 ∠0° 0 ∠0° 0 ∠0° 0 ∠0° Slope 2 Operate = 96% 0.18 ∠–90° 8.33 ∠–270° 8 ∠–270° 8.33 ∠–270° > Slope 2 = 95% 0.18 ∠–270° 8.33 ∠–90° 8 ∠–90° 8.33 ∠–90° GE Multilin T60 Transformer Management Relay 8-11...
Page 256: Inrush Inhibit Test Procedure
Apply a second harmonic to Phase A with a level greater than the set threshold and monitor the operation of the Per- cent Differential element. The element should drop out when the injected second harmonic level becomes three times larger than the set threshold. 8-12 T60 Transformer Management Relay GE Multilin...
Page 257: Overexcitation Inhibit Test Procedure
2 A ∠–180° 9.5% 2 pu 4 pu Block 2 A ∠0° 4 A ∠–180° 8.5% 2 pu 4 pu Operate 2 A ∠0° 4 A ∠–180° 9.5% 2 pu 4 pu Block GE Multilin T60 Transformer Management Relay 8-13...
Page 258: Commissioning Test Tables
Slope 2 Status: ____________ = _____________ 8.5.2 INRUSH INHIBIT TESTS Table 8–4: INRUSH INHIBIT TEST TABLE PHASE INECTED DISPLAYED STATUS (BLOCK/ W1 2ND W2 2ND (PU) (PU) OPERATE) CURRENT HARMONIC CURRENT HARMONIC HARMONIC 8-14 T60 Transformer Management Relay GE Multilin...
Page 259: Overexcitation Inhibit Tests
8 COMMISSIONING 8.5 COMMISSIONING TEST TABLES 8.5.3 OVEREXCITATION INHIBIT TESTS Table 8–5: OVEREXCITATION INHIBIT TEST RESULTS PHASE INECTED DISPLAYED STATUS W1 5TH W2 5TH (PU) (PU) (BLOCK/ CURRENT HARMONIC CURRENT HARMONIC HARMONIC OPERATE) GE Multilin T60 Transformer Management Relay 8-15...
Page 260 8.5 COMMISSIONING TEST TABLES 8 COMMISSIONING 8-16 T60 Transformer Management Relay GE Multilin...
Page 261: Flexanalog
SRC 2 Neutral Current Angle 6360 SRC 4 Ground Current Angle 6228 SRC 2 Ground Current RMS 6361 SRC 4 Zero Sequence Current Magnitude 6230 SRC 2 Ground Current Magnitude 6363 SRC 4 Zero Sequence Current Angle GE Multilin T60 Transformer Management Relay...
Page 262 6872 SRC 4 Phase BC Voltage Magnitude 6749 SRC 2 Phase CA Voltage Angle 6874 SRC 4 Phase BC Voltage Angle 6750 SRC 2 Auxiliary Voltage RMS 6875 SRC 4 Phase CA Voltage Magnitude T60 Transformer Management Relay GE Multilin...
Page 263 SRC 3 Phase C Reactive Power 7738 SRC 4 Demand Va 7248 SRC 3 Three Phase Apparent Power 8064 SRC 1 Va THD 7250 SRC 3 Phase A Apparent Power 8065 SRC 1 Va Harmonics GE Multilin T60 Transformer Management Relay...
Page 264 DCMA Inputs 24 Value 10112 SRC 1 Ia THD 13552 RTD Inputs 1 Value 10113 SRC 1 Ib THD 13553 RTD Inputs 2 Value 10114 SRC 1 Ic THD 13554 RTD Inputs 3 Value T60 Transformer Management Relay GE Multilin...
Page 265 13599 RTD Inputs 48 Value 13600 Ohm Inputs 1 Value 13601 Ohm Inputs 2 Value 32768 Tracking Frequency 39425 FlexElement 1 Actual 39426 FlexElement 2 Actual 39427 FlexElement 3 Actual 39428 FlexElement 4 Actual GE Multilin T60 Transformer Management Relay...
Page 266 A.1 PARAMETER LIST APPENDIX A T60 Transformer Management Relay GE Multilin...
Page 267: Modbus Communications
Broadcast mode is only recognized when associated with Function Code 05h. For any other function code, a packet with broadcast mode slave address 0 will be ignored. GE Multilin T60 Transformer Management Relay...
Page 268: Algorithm
No: go to 8; Yes: G (+) A --> A and continue. Is j = 8? No: go to 5; Yes: continue i + 1 --> i Is i = N? No: go to 3; Yes: continue A --> CRC T60 Transformer Management Relay GE Multilin...
Page 269: Modbus Function Codes
DATA #1 - low NUMBER OF REGISTERS - low DATA #2 - high CRC - low DATA #2 - low CRC - high DATA #3 - high DATA #3 - low CRC - low CRC - high GE Multilin T60 Transformer Management Relay...
Page 270: 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 T60 Transformer Management Relay GE Multilin...
Page 271: Store Multiple Settings (Function Code 10H
PACKET FORMAT EXAMPLE (HEX) SLAVE ADDRESS SLAVE ADDRESS FUNCTION CODE FUNCTION CODE CRC - low order byte ERROR CODE CRC - high order byte CRC - low order byte CRC - high order byte GE Multilin T60 Transformer Management Relay...
Page 272: File Transfers
Cleared Date to the present date and time. To read binary COMTRADE oscillography files, read the following filenames: OSCnnnn.CFG and OSCnnn.DAT Replace “nnn” with the desired oscillography trigger number. For ASCII format, use the following file names OSCAnnnn.CFG and OSCAnnn.DAT T60 Transformer Management Relay GE Multilin...
Page 273: Modbus Password Operation
COMMAND or SETTING password security access is restricted to the particular port or particular TCP/IP connection on which the entry was made. Passwords must be entered when accessing the relay through other ports or connections, and the passwords must be re-entered after disconnecting and re-connecting on TCP/IP. GE Multilin T60 Transformer Management Relay...
Page 274: Memory Mapping
...Repeated for module number 23 0417 ...Repeated for module number 24 0418 ...Repeated for module number 25 0419 ...Repeated for module number 26 041A ...Repeated for module number 27 041B ...Repeated for module number 28 T60 Transformer Management Relay GE Multilin...
Page 275 ...Repeated for module number 3 155D ...Repeated for module number 4 1561 ...Repeated for module number 5 1565 ...Repeated for module number 6 1569 ...Repeated for module number 7 156D ...Repeated for module number 8 GE Multilin T60 Transformer Management Relay...
Page 276 0 to 999999.999 0.001 F060 181E Positive Sequence Current Angle -359.9 to 0 ° F002 181F Negative Sequence Current Magnitude 0 to 999999.999 0.001 F060 1821 Negative Sequence Current Angle -359.9 to 0 ° F002 B-10 T60 Transformer Management Relay GE Multilin...
Page 277 0.001 F060 1000000000000 1C06 Phase C Real Power -1000000000000 to 0.001 F060 1000000000000 1C08 Three Phase Reactive Power -1000000000000 to 0.001 F060 1000000000000 1C0A Phase A Reactive Power -1000000000000 to 0.001 F060 1000000000000 GE Multilin T60 Transformer Management Relay B-11...
Page 278 Reserved (4 items) F001 1E10 ...Repeated for module number 2 1E20 ...Repeated for module number 3 1E30 ...Repeated for module number 4 1E40 ...Repeated for module number 5 1E50 ...Repeated for module number 6 B-12 T60 Transformer Management Relay GE Multilin...
Page 279 Source Current THD And Harmonics (Read Only) (6 modules) 2800 Ia THD 0 to 99.9 F001 2801 Ia Harmonics - 2nd to 25th (24 items) 0 to 99.9 F001 2821 Ib THD 0 to 99.9 F001 GE Multilin T60 Transformer Management Relay B-13...
Page 280 F050 Event Recorder (Read/Write Command) 3406 Event Recorder Clear Command 0 to 1 F126 0 (No) DCMA Input Values (Read Only) (24 modules) 34C0 DCMA Inputs x Value -9999.999 to 9999.999 0.001 F004 B-14 T60 Transformer Management Relay GE Multilin...
Page 281 ...Repeated for module number 25 3509 ...Repeated for module number 26 350A ...Repeated for module number 27 350B ...Repeated for module number 28 350C ...Repeated for module number 29 350D ...Repeated for module number 30 GE Multilin T60 Transformer Management Relay B-15...
Page 282 F001 4083 RS485 Com1 Baud Rate 0 to 11 F112 8 (115200) 4084 RS485 Com1 Parity 0 to 2 F113 0 (None) 4085 RS485 Com2 Baud Rate 0 to 11 F112 8 (115200) B-16 T60 Transformer Management Relay GE Multilin...
Page 283 0 to 65535 F001 30000 40E8 IEC Energy Default Threshold 0 to 65535 F001 30000 40E9 IEC Other Default Threshold 0 to 65535 F001 30000 40EA IEC Communications Reserved (22 items) 0 to 1 F001 GE Multilin T60 Transformer Management Relay B-17...
Page 284 ...Repeated for module number 20 42A8 ...Repeated for module number 21 42AA ...Repeated for module number 22 42AC ...Repeated for module number 23 42AE ...Repeated for module number 24 42B0 ...Repeated for module number 25 B-18 T60 Transformer Management Relay GE Multilin...
Page 285 0 to 6 F166 1 (Vag) 4505 Auxiliary VT Secondary 50 to 240 F001 4506 Auxiliary VT Ratio 1 to 24000 F060 4508 ...Repeated for module number 2 4510 ...Repeated for module number 3 GE Multilin T60 Transformer Management Relay B-19...
Page 286 Modbus User Map (Read/Write Setting) 4A00 Modbus Address Settings for User Map (256 items) 0 to 65535 F001 User Displays Settings (Read/Write Setting) (8 modules) 4C00 User display top line text F202 “ “ B-20 T60 Transformer Management Relay GE Multilin...
Page 287 ...Repeated for module number 13 5868 ...Repeated for module number 14 5870 ...Repeated for module number 15 5878 ...Repeated for module number 16 5880 ...Repeated for module number 17 5888 ...Repeated for module number 18 GE Multilin T60 Transformer Management Relay B-21...
Page 288 ...Repeated for module number 7 5A70 ...Repeated for module number 8 5A80 ...Repeated for module number 9 5A90 ...Repeated for module number 10 5AA0 ...Repeated for module number 11 5AB0 ...Repeated for module number 12 B-22 T60 Transformer Management Relay GE Multilin...
Page 289 0 (Disabled) 5D0A Reserved (6 items) 0 to 1 F001 5D10 ...Repeated for module number 2 5D20 ...Repeated for module number 3 5D30 ...Repeated for module number 4 5D40 ...Repeated for module number 5 GE Multilin T60 Transformer Management Relay B-23...
Page 290 F001 64D6 Overfrequency Target 0 to 2 F109 0 (Self-reset) 64D7 Overfrequency Events 0 to 1 F102 0 (Disabled) 64D8 Reserved (4 items) 0 to 1 F001 64DC ...Repeated for module number 2 B-24 T60 Transformer Management Relay GE Multilin...
Page 291 Neutral DIR OC X Op Current 0 to 1 F196 0 (Calculated 3I0) 728D Neutral DIR OC X Offset 0 to 250 0.01 F001 728E Reserved (2 items) 0 to 1 F001 7290 ...Repeated for module number 2 GE Multilin T60 Transformer Management Relay B-25...
Page 292 ...Repeated for module number 12 7600 ...Repeated for module number 13 7610 ...Repeated for module number 14 7620 ...Repeated for module number 15 7630 ...Repeated for module number 16 7640 ...Repeated for module number 17 B-26 T60 Transformer Management Relay GE Multilin...
Page 293 ...Repeated for module number 4 7E44 ...Repeated for module number 5 7E55 ...Repeated for module number 6 Neutral Overvoltage (Read/Write Grouped Setting) (3 modules) 7F00 Neutral Overvoltage 1 Function 0 to 1 F102 0 (Disabled) GE Multilin T60 Transformer Management Relay B-27...
Page 294 FlexElement 1 DeltaT 20 to 86400 F003 900F FlexElement 1 Pickup Delay 0 to 65.535 0.001 F001 9010 FlexElement 1 Reset Delay 0 to 65.535 0.001 F001 9011 FlexElement 1 Block 0 to 65535 F300 B-28 T60 Transformer Management Relay GE Multilin...
Page 295 Selector 1 Step Up 0 to 65535 F300 A414 Selector 1 Step Mode 0 to 1 F083 0 (Time-out) A415 Selector 1 Ack 0 to 65535 F300 A416 Selector 1 Bit0 0 to 65535 F300 GE Multilin T60 Transformer Management Relay B-29...
Page 296 Digital Elements (Read/Write Setting) (16 modules) B000 Digital Element 1 Function 0 to 1 F102 0 (Disabled) B001 Digital Element 1 Name F203 “Dig Element 1 “ B015 Digital Element 1 Input 0 to 65535 F300 B-30 T60 Transformer Management Relay GE Multilin...
Page 297 ...Repeated for module number 3 C018 ...Repeated for module number 4 C020 ...Repeated for module number 5 C028 ...Repeated for module number 6 C030 ...Repeated for module number 7 C038 ...Repeated for module number 8 GE Multilin T60 Transformer Management Relay B-31...
Page 298 ...Repeated for module number 57 C1C8 ...Repeated for module number 58 C1D0 ...Repeated for module number 59 C1D8 ...Repeated for module number 60 C1E0 ...Repeated for module number 61 C1E8 ...Repeated for module number 62 B-32 T60 Transformer Management Relay GE Multilin...
Page 299 ...Repeated for module number 4 C6D0 ...Repeated for module number 5 C6E0 ...Repeated for module number 6 C6F0 ...Repeated for module number 7 C700 ...Repeated for module number 8 C710 ...Repeated for module number 9 GE Multilin T60 Transformer Management Relay B-33...
Page 300 ...Repeated for module number 23 CE00 ...Repeated for module number 24 CE10 ...Repeated for module number 25 CE20 ...Repeated for module number 26 CE30 ...Repeated for module number 27 CE40 ...Repeated for module number 28 B-34 T60 Transformer Management Relay GE Multilin...
Page 301 D29F Reserved F001 D2A0 ...Repeated for module number 2 D2B0 ...Repeated for module number 3 D2C0 ...Repeated for module number 4 D2D0 ...Repeated for module number 5 D2E0 ...Repeated for module number 6 GE Multilin T60 Transformer Management Relay B-35...
Page 302 ...Repeated for module number 55 D600 ...Repeated for module number 56 D610 ...Repeated for module number 57 D620 ...Repeated for module number 58 D630 ...Repeated for module number 59 D640 ...Repeated for module number 60 B-36 T60 Transformer Management Relay GE Multilin...
Page 303 ...Repeated for module number 4 DB60 ...Repeated for module number 5 DB64 ...Repeated for module number 6 DB68 ...Repeated for module number 7 DB6C ...Repeated for module number 8 DB70 ...Repeated for module number 9 GE Multilin T60 Transformer Management Relay B-37...
Page 304 ...Repeated for module number 24 DD30 ...Repeated for module number 25 DD32 ...Repeated for module number 26 DD34 ...Repeated for module number 27 DD36 ...Repeated for module number 28 DD38 ...Repeated for module number 29 B-38 T60 Transformer Management Relay GE Multilin...
Page 305 ...Repeated for module number 4 E110 ...Repeated for module number 5 E114 ...Repeated for module number 6 E118 ...Repeated for module number 7 E11C ...Repeated for module number 8 E120 ...Repeated for module number 9 GE Multilin T60 Transformer Management Relay B-39...
Page 306 ...Repeated for module number 23 E65C ...Repeated for module number 24 E660 ...Repeated for module number 25 E664 ...Repeated for module number 26 E668 ...Repeated for module number 27 E66C ...Repeated for module number 28 B-40 T60 Transformer Management Relay GE Multilin...
Page 307 F102 0 (Disabled) EF09 ...Repeated for module number 2 EF12 ...Repeated for module number 3 EF1B ...Repeated for module number 4 EF24 ...Repeated for module number 5 EF2D ...Repeated for module number 6 GE Multilin T60 Transformer Management Relay B-41...
Page 308: Data Formats
POWER_FACTOR PWR FACTOR (SIGNED 16 BIT INTEGER) 0 = Time-Out, 1 = Acknowledge Positive values indicate lagging power factor; negative values indi- cate leading. F084 ENUMERATION: SELECTOR POWER UP 0 = Restore, 1 = Synchronize, 2 = Sync/Restore B-42 T60 Transformer Management Relay GE Multilin...
Page 309 0 = 1×72 cycles, 1 = 3×36 cycles, 2 = 7×18 cycles, 3 = 15×9 cycles 0 = Disabled, 1 = Input 1, 2 = Input 2 F118 ENUMERATION: OSCILLOGRAPHY MODE 0 = Automatic Overwrite, 1 = Protected GE Multilin T60 Transformer Management Relay B-43...
Page 310 GROUND IOC8 ENUMERATION: LIST OF ELEMENTS GROUND IOC9 GROUND IOC10 bitmask element GROUND IOC11 PHASE IOC1 GROUND IOC12 PHASE IOC2 GROUND TOC1 PHASE IOC3 GROUND TOC2 PHASE IOC4 GROUND TOC3 PHASE IOC5 GROUND TOC4 B-44 T60 Transformer Management Relay GE Multilin...
Page 311 PUSHBUTTON 7 FLEX ELEMENT 11 PUSHBUTTON 8 FLEX ELEMENT 12 PUSHBUTTON 9 FLEX ELEMENT 13 PUSHBUTTON 10 FLEX ELEMENT 14 PUSHBUTTON 11 FLEX ELEMENT 15 PUSHBUTTON 12 FLEX ELEMENT 16 NON-VOLATILE LATCH 1 GE Multilin T60 Transformer Management Relay B-45...
Page 312 0 = 31 x 8 cycles, 1 = 15 x 16 cycles, 2 = 7 x 32 cycles 3 = 3 x 64 cycles, 4 = 1 x 128 cycles F144 ENUMERATION: FORCED CONTACT INPUT STATE 0 = Disabled, 1 = Open, 2 = Closed B-46 T60 Transformer Management Relay GE Multilin...
Page 313 OSCILLOGRAPHY CLEAR F153 REBOOT COMMAND ENUMERATION: DISTANCE TRANSFORMER CONNECTION LED TEST INITIATED bitmask type bitmask type bitmask type FLASH PROGRAMMING None Dy11 Yd11 F155 ENUMERATION: REMOTE DEVICE STATE 0 = Offline, 1 = Online GE Multilin T60 Transformer Management Relay B-47...
Page 314 –1 to 1 mA ENUMERATION: TRANSFORMER WINDING GROUNDING 0 to 5 mA 0 = Not within zone, 1 = Within zone 0 to 10 mA 0 to 20 mA 4 to 20 mA B-48 T60 Transformer Management Relay GE Multilin...
Page 315 Virtual Outputs 33 to 48 Virtual Outputs 49 to 64 Contact Inputs 1 to 16 Contact Inputs 17 to 32 Contact Inputs 33 to 48 Contact Inputs 49 to 64 Contact Inputs 65 to 80 GE Multilin T60 Transformer Management Relay B-49...
Page 316 TEXT40: 40-CHARACTER ASCII TEXT [0] Off(0) this is boolean FALSE value 20 registers, 16 Bits: 1st Char MSB, 2nd Char. LSB [0] On (1)This is boolean TRUE value [2] CONTACT INPUTS (1 - 96) B-50 T60 Transformer Management Relay GE Multilin...
Page 317 Each bit contains the operate state for an element. See the F124 13TH 25TH format code for a list of element IDs. The operate bit for element ID X is bit [X mod 16] in register [X/16]. GE Multilin T60 Transformer Management Relay B-51...
Page 318 PRESSED KEY IS INVALID HERE INVALID KEY: MUST BE IN LOCAL MODE NEW PASSWORD HAS BEEN STORED PLEASE ENTER A NON-ZERO PASSCODE NO ACTIVE TARGETS (TESTING LEDS) OUT OF RANGE - VALUE NOT STORED B-52 T60 Transformer Management Relay GE Multilin...
Page 319 DISPLAY ADDED TO USER DISPLAY LIST Setting types for display in web pages DISPLAY NOT ADDED TO USER DISPLAY LIST bitmask Setting Type DISPLAY REMOVED FROM USER DISPLAY LIST Unrestricted Setting Master-accessed Setting Setting Command Factory Setting GE Multilin T60 Transformer Management Relay B-53...
Page 320 B.4 MEMORY MAPPING APPENDIX B B-54 T60 Transformer Management Relay GE Multilin...
Page 321: Uca/Mms
RREC (reclosing relay) • PDOC (directional overcurrent) • RSYN (synchronizing or synchronism-check relay) • PDPR (directional power relay) • XCBR (circuit breaker) • PFRQ (frequency relay) UCA data can be accessed through the "UCADevice" MMS domain. GE Multilin T60 Transformer Management Relay...
Page 322 VARIABLE ACCESS SERVICES: • Read • Write • InformationReport • GetVariableAccessAttributes • GetNamedVariableListAttributes OPERATOR COMMUNICATION SERVICES: (none) SEMAPHORE MANAGEMENT SERVICES: (none) DOMAIN MANAGEMENT SERVICES: • GetDomainAttributes PROGRAM INVOCATION MANAGEMENT SERVICES: (none) EVENT MANAGEMENT SERVICES: (none) T60 Transformer Management Relay GE Multilin...
Page 323 GCTL1 = Virtual Inputs (32 total points – SI1 to SI32); includes SBO functionality. NOTE Table C–3: GENERIC INDICATORS – GIND 1 TO 6 NAME CLASS RWECS DESCRIPTION SIG Generic Indication (block of 16) Description for brick BrcbST BasRCB Controls reporting of STATUS GE Multilin T60 Transformer Management Relay...
Page 324 Description for brick All MMXU.MX Description of ALL included MMXU.MX BrcbMX BasRCB Controls reporting of measurements Actual instantiation of MMXU objects is as follows: 1 MMXU per Source (as determined from the ‘product order code’) NOTE T60 Transformer Management Relay GE Multilin...
Page 325 PVPH (volts per hertz relay) • PBRL (phase balance current relay) Actual instantiation of these objects is determined by the number of the corresponding elements present in the T60 as per the ‘product order code’. NOTE Table C–8: CT RATIO INFORMATION – ctRATO...
Page 326: Uca Reporting
Also note that the Shots class data (i.e. Tmr1, Tmr2, Tmr3, Tmr4, RsTmr) is specified to be of type INT16S (16 bit signed integer); this data type is not large enough to properly display the full range of these settings from the T60.
Page 327: Iec 60870-5-104 Protocol
Address Field of the Link: Balanced Transmision 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 T60 Transformer Management Relay...
Page 328 <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 Ë <20> := Packed single-point information with status change detection M_SP_NA_1 T60 Transformer Management Relay GE Multilin...
Page 329 <103> := Clock synchronization command (see Clause 7.6 in standard) C_CS_NA_1 <104> := Test command C_TS_NA_1 Ë <105> := Reset process command C_RP_NA_1 <106> := Delay acquisition command C_CD_NA_1 Ë <107> := Test command with time tag CP56Time2a C_TS_TA_1 GE Multilin T60 Transformer Management Relay...
Page 330 Blank boxes indicate functions or ASDU not used. • ‘X’ if only used in the standard direction TYPE IDENTIFICATION CAUSE OF TRANSMISSION MNEMONIC <1> M_SP_NA_1 <2> M_SP_TA_1 <3> M_DP_NA_1 <4> M_DP_TA_1 <5> M_ST_NA_1 <6> M_ST_TA_1 <7> M_BO_NA_1 <8> M_BO_TA_1 T60 Transformer Management Relay GE Multilin...
Page 331 <21> M_ME_ND_1 <30> M_SP_TB_1 <31> M_DP_TB_1 <32> M_ST_TB_1 <33> M_BO_TB_1 <34> M_ME_TD_1 <35> M_ME_TE_1 <36> M_ME_TF_1 <37> M_IT_TB_1 <38> M_EP_TD_1 <39> M_EP_TE_1 <40> M_EP_TF_1 <45> C_SC_NA_1 <46> C_DC_NA_1 <47> C_RC_NA_1 <48> C_SE_NA_1 <49> C_SE_NB_1 GE Multilin T60 Transformer Management Relay...
Page 332 <102> C_RD_NA_1 <103> C_CS_NA_1 <104> C_TS_NA_1 <105> C_RP_NA_1 <106> C_CD_NA_1 <107> C_TS_TA_1 <110> P_ME_NA_1 <111> P_ME_NB_1 <112> P_ME_NC_1 <113> P_AC_NA_1 <120> F_FR_NA_1 <121> F_SR_NA_1 <122> F_SC_NA_1 <123> F_LS_NA_1 <124> F_AF_NA_1 <125> F_SG_NA_1 <126> F_DR_TA_1*) T60 Transformer Management Relay GE Multilin...
Page 333 Long pulse duration (duration determined by a system parameter in the outstation) Ë Persistent output Ë Supervision of maximum delay in command direction of commands and setpoint commands Ë Maximum allowable delay of commands and setpoint commands: 10 s GE Multilin T60 Transformer Management Relay...
Page 334 Transmission of sequences of events Transmission of sequences of recorded analog values Ë File transfer in control direction: Transparent file Ë Background scan: Background scan Ë Acquisition of transmission delay: Acquisition of transmission delay T60 Transformer Management Relay GE Multilin...
Page 335 The suitable selection of documents from RFC 2200 defined in this standard for given projects has to be chosen by the user of this standard. Ethernet 802.3 Ë Serial X.21 interface Ë Ë Other selection(s) from RFC 2200 (list below if selected) GE Multilin T60 Transformer Management Relay...
Page 336: Point List
SRC 1 Zero Sequence Voltage Magnitude 2092 SRC 1 Ia Harmonics[14] 2045 SRC 1 Zero Sequence Voltage Angle 2093 SRC 1 Ia Harmonics[15] 2046 SRC 1 Positive Sequence Voltage Magnitude 2094 SRC 1 Ia Harmonics[16] D-10 T60 Transformer Management Relay GE Multilin...
Page 337 DCMA Inputs 23 Value 2146 SRC 1 Ic Harmonics[18] 2200 DCMA Inputs 24 Value 2147 SRC 1 Ic Harmonics[19] 2201 RTD Inputs 1 Value 2148 SRC 1 Ic Harmonics[20] 2202 RTD Inputs 2 Value GE Multilin T60 Transformer Management Relay D-11...
Page 338 2250 FlexElement 1 Actual 4007 Digital Counter 8 Value 2251 FlexElement 2 Actual 2252 FlexElement 3 Actual 2253 FlexElement 4 Actual 2254 FlexElement 5 Actual 2255 FlexElement 6 Actual 2256 FlexElement 7 Actual D-12 T60 Transformer Management Relay GE Multilin...
Page 339: Dnp Communications
2048 Maximum Data Link Re-tries: Maximum Application Layer Re-tries: None None Ë Ë Fixed at 2 Configurable Ë Ë Configurable Ë Requires Data Link Layer Confirmation: Ë Never Always Ë Sometimes Ë Configurable Ë GE Multilin T60 Transformer Management Relay...
Page 340 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. T60 Transformer Management Relay GE Multilin...
Page 341 Default Object: Ë 16 Bits (Counter 8) Default Variation: 1 32 Bits (Counters 0 to 7, 9) Ë Point-by-point list attached Ë Other Value: _____ Ë Point-by-point list attached Ë Sends Multi-Fragment Responses: Ë Ë GE Multilin T60 Transformer Management Relay...
Page 342: E.1.2 Implementation Table
Otherwise, static object requests sent with qualifiers 00, 01, 06, 07, or 08, will be responded with qualifiers 00 or 01 (for change- event objects, qualifiers 17 or 28 are always responded.) Note 3: Cold restarts are implemented the same as warm restarts – the UR is not restarted, but the DNP process is restarted. T60 Transformer Management Relay GE Multilin...
Page 343 Otherwise, static object requests sent with qualifiers 00, 01, 06, 07, or 08, will be responded with qualifiers 00 or 01 (for change- event objects, qualifiers 17 or 28 are always responded.) Note 3: Cold restarts are implemented the same as warm restarts – the UR is not restarted, but the DNP process is restarted. GE Multilin T60 Transformer Management Relay...
Page 344 Otherwise, static object requests sent with qualifiers 00, 01, 06, 07, or 08, will be responded with qualifiers 00 or 01 (for change- event objects, qualifiers 17 or 28 are always responded.) Note 3: Cold restarts are implemented the same as warm restarts – the UR is not restarted, but the DNP process is restarted. T60 Transformer Management Relay GE Multilin...
Page 345 Otherwise, static object requests sent with qualifiers 00, 01, 06, 07, or 08, will be responded with qualifiers 00 or 01 (for change- event objects, qualifiers 17 or 28 are always responded.) Note 3: Cold restarts are implemented the same as warm restarts – the UR is not restarted, but the DNP process is restarted. GE Multilin T60 Transformer Management Relay...
Page 346 Virtual Input 27 Virtual Output 27 Virtual Input 28 Virtual Output 28 Virtual Input 29 Virtual Output 29 Virtual Input 30 Virtual Output 30 Virtual Input 31 Virtual Output 31 Virtual Input 32 Virtual Output 32 T60 Transformer Management Relay GE Multilin...
Page 347 Contact Input 12 Contact Input 61 Contact Input 13 Contact Input 62 Contact Input 14 Contact Input 63 Contact Input 15 Contact Input 64 Contact Input 16 Contact Input 65 Contact Input 17 Contact Input 66 GE Multilin T60 Transformer Management Relay...
Page 348 Contact Output 63 Contact Output 15 Contact Output 64 Contact Output 16 Remote Input 1 Contact Output 17 Remote Input 2 Contact Output 18 Remote Input 3 Contact Output 19 Remote Input 4 E-10 T60 Transformer Management Relay GE Multilin...
Page 349 PHASE IOC2 Element OP AUX OV1 Element OP PHASE IOC3 Element OP PHASE OV1 Element OP PHASE IOC4 Element OP NEUTRAL OV1 Element OP PHASE IOC5 Element OP XFRMR INST DIFF Elemnt OP GE Multilin T60 Transformer Management Relay E-11...
Page 350 DIG ELEM 12 Element OP UNIT NOT PROGRAMMED DIG ELEM 13 Element OP SYSTEM EXCEPTION DIG ELEM 14 Element OP LATCHING OUT ERROR DIG ELEM 15 Element OP DIG ELEM 16 Element OP COUNTER 1 Element OP E-12 T60 Transformer Management Relay GE Multilin...
Page 351: Binary And Control Relay Outputs
Virtual Input 22 Virtual Input 23 Virtual Input 24 Virtual Input 25 Virtual Input 26 Virtual Input 27 Virtual Input 28 Virtual Input 29 Virtual Input 30 Virtual Input 31 Virtual Input 32 GE Multilin T60 Transformer Management Relay E-13...
Page 352: Counters
Events Since Last Clear A counter freeze command has no meaning for counters 8 and 9. T60 Digital Counter values are represented as 32-bit inte- gers. The DNP 3.0 protocol defines counters to be unsigned integers. Care should be taken when interpreting negative counter values.
Page 353: Analog Inputs
Deadbands for individual Analog Input Points can be set using DNP Object 34. When using the T60 in DNP systems with limited memory, the Analog Input Points below may be replaced with a user- definable list. This user-definable list uses the same settings as the Modbus User Map and can be configured with the Mod- bus User Map settings.
Page 354 SRC 1 Ia Harmonics[22] SRC 1 Negative Sequence Voltage Angle SRC 1 Ia Harmonics[23] SRC 1 Three Phase Real Power SRC 1 Ib THD SRC 1 Phase A Real Power SRC 1 Ib Harmonics[0] E-16 T60 Transformer Management Relay GE Multilin...
Page 355 Transformer Reference Winding RTD Inputs 4 Value Transformer Differential Phasor Iad Magnitude RTD Inputs 5 Value Transformer Differential Phasor Iad Angle RTD Inputs 6 Value Transformer Restraint Phasor Iar Magnitude RTD Inputs 7 Value GE Multilin T60 Transformer Management Relay E-17...
Page 356 RTD Inputs 48 Value Tracking Frequency FlexElement 1 Actual FlexElement 2 Actual FlexElement 3 Actual FlexElement 4 Actual FlexElement 5 Actual FlexElement 6 Actual FlexElement 7 Actual FlexElement 8 Actual FlexElement 9 Actual FlexElement 10 Actual E-18 T60 Transformer Management Relay GE Multilin...
Page 357: Change Notes
URX-080 1601-0090-E2 3.3x 29 May 2003 URX-083 1601-0090-F1 3.4x 10 December 2003 URX-111 F.1.2 CHANGES TO THE T60 MANUAL Table F–1: MAJOR UPDATES FOR T60 MANUAL REVISION F1 PAGE PAGE CHANGE DESCRIPTION (E2) (F1) Title Title Update Manual part number to 1601-0090-F1.
Page 358 Title Update Manual part number to 1601-0090-D1. Update Updated CONNECTING URPC WITH THE T60 section to reflect new URPC software. Update Updated OTHER DEVICE FUNCTIONS table to include User-Programmable Fault Reports and User-Programmable Self Tests Added specifications for USER-PROGRAMMABLE FAULT REPORT element.
Page 359 APPENDIX F F.1 CHANGE NOTES Table F–5: MAJOR UPDATES FOR T60 MANUAL REVISION C4 PAGE PAGE CHANGE DESCRIPTION (C2) (C4) Title Title Update Manual part number to 1601-0090-C4. Update Updated ORDER CODES table to remove the 63 and 64 Digital I/O options...
Page 360: Abbreviations
FDH....Fault Detector high-set MVA ....MegaVolt-Ampere (total 3-phase) FDL ....Fault Detector low-set MVA_A ... MegaVolt-Ampere (phase A) FLA....Full Load Current MVA_B ... MegaVolt-Ampere (phase B) FO ....Fiber Optic MVA_C... MegaVolt-Ampere (phase C) T60 Transformer Management Relay GE Multilin...
Page 361 ....With Option RST ....Reset WRT....With Respect To RSTR ..... Restrained RTD....Resistance Temperature Detector X .....Reactance RTU....Remote Terminal Unit XDUCER..Transducer RX (Rx) ..Receive, Receiver XFMR....Transformer s ..... second Z......Impedance, Zone S..... Sensitive GE Multilin T60 Transformer Management Relay...
Page 362: Warranty
24 months from date of shipment from factory. In the event of a failure covered by warranty, GE Multilin will undertake to repair or replace the relay providing the warrantor determined that it is defective and it is returned with all transportation charges prepaid to an authorized service centre or the factory.
Page 363: Index
C37.94 COMMUNICATIONS ........3-29, 3-30 CRC ALARM ..............5-35 CE APPROVALS .............. 2-13 CRC-16 ALGORITHM ............B-2 CHANGES TO MANUAL ........F-1, F-2, F-3 CRITICAL FAILURE RELAY ........2-11, 3-8 CHANGES TO T60 MANUAL ..........F-1 GE Multilin T60 Transformer Management Relay...
Page 364 ..............2-11 FlexLogic™ operands ............ 5-59 EVENT CAUSE INDICATORS ..........4-5 DIGITAL ELEMENTS EVENT RECORDER application example ............. 5-122 actual values ..............6-18 logic ................5-121 clearing ..............5-9, 7-1 settings ............... 5-121 Modbus ................B-7 T60 Transformer Management Relay GE Multilin...
Page 365 FACEPLATE PANELS ..........4-4, 4-7 FAST FORM-C RELAY ............. 2-11 G.703 ............ 3-23, 3-24, 3-25, 3-28 FAST TRANSIENT TESTING ..........2-13 GE TYPE IAC CURVES ............ 5-84 FAX NUMBERS ..............1-1 GOMSFE ................C-1 FEATURES ................ 2-1 GOOSE ....5-14, 5-132, 5-133, 5-134, 5-135, 5-136, 6-5 FIRMWARE REVISION ............
Page 366 ................2-9 logic ................5-108 demand ................2-9 settings ................ 5-108 frequency ................ 2-9 specifications ..............2-7 harmonics ................ 2-9 NEUTRAL TIME OVERCURRENT power ................2-9 see entry for NEUTRAL TOC THD ................2-9 T60 Transformer Management Relay GE Multilin...
Page 367 USER-PROGRAMMBLE PUSHBUTTONS PASSWORDS changing ............... 4-12 lost password ............4-12, 5-7 Modbus ................B-7 overview ............... 1-12 REACTIVE POWER ........... 2-9, 6-13 security ................5-7 REAL POWER ............2-9, 6-13 settings ................5-7 GE Multilin T60 Transformer Management Relay...
Page 368 PHASE, NEUTRAL, and GROUND TOC entries SELECTOR SWITCH TIMERS ................5-69 actual values ..............6-5 application example ............. 5-118 ground ................5-99 FlexLogic™ operands ............ 5-61 neutral ................5-92 logic ................5-118 phase ................5-86 settings ............... 5-114 specifications ..............2-6 T60 Transformer Management Relay GE Multilin...
Page 369 ................ 5-30 invoking and scrolling ............ 5-29 Modbus registers ............. B-9 settings ..............5-29, 5-30 specifications ..............2-8 ZERO SEQUENCE CORE BALANCE ........3-9 USER-PROGRAMMABLE FAULT REPORT ZERO-SEQUENCE COMPENSATION ...... 5-46, 5-47 actual values ..............6-18 GE Multilin T60 Transformer Management Relay...
Page 370 INDEX viii T60 Transformer Management Relay GE Multilin...

GE t60 Instruction Manual

1.2 Ur Overview

1.3 Enervista Ur Setup Software

1.5 Using the Relay

2.2 Specifications

Inputs

3.3 Direct I/O Communications

3.1 Description

3.2 Wiring

Human Interfaces

Enervista Ur Setup Software Interface

Faceplate Interface

Settings

Overview

Product Setup

System Setup

5.4 Flexlogic?

5.5 Grouped Elements

5.6 Control Elements

6.2 Status

5.9 Testing

6.1 Overview

6.3 Metering

Transducer I/O

Records

Product Information

Commands and

Commands

7.2 Targets

Commissioning

Differential Characteristic Tests

Differential Characteristic Test Examples

8.3 Inrush Inhibit Test

8.4 Overexcitation Inhibit Test

Commissioning Test Tables

Flexanalog

Modbus Communications

Modbus Rtu Protocol

Modbus Function Codes

File Transfers

Memory Mapping

Uca/Mms

Uca/Mms Protocol

Iec 60870-5-104 Protocol

E.2 Dnp Point Lists

Dnp Communications

Dnp Protocol

Change Notes

Abbreviations

Warranty

Index

Quick Links

Related Manuals for GE t60

Summary of Contents for GE t60