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EMR-4000

IM02602009E

Parameter

Description

Setting range

Default

Menu path

LOP Blo

Activates the use of the measuring circuit supervision. In 
this case the module will be blocked if a measuring circuit 
supervision module (e.g. LOP, VTS) signals a disturbed 
measuring circuit (e.g. caused by a fuse failure).

Inactive, 

Active

Inactive

[Protection Para

/<1..4>

/Unbalance-Prot

/47[1]]

States of the Inputs of the Voltage Unbalance Module

Name

Description

Assignment via

ExBlo1-I

Module Input State: External Blocking1

[Protection Para

/Global Prot Para

/Unbalance-Prot

/47[1]]

ExBlo2-I

Module Input State: External Blocking2

[Protection Para

/Global Prot Para

/Unbalance-Prot

/47[1]]

ExBlo TripCmd-I

Module Input State: External Blocking of the Trip Command

[Protection Para

/Global Prot Para

/Unbalance-Prot

/47[1]]

www.eaton.com

616

Summary of Contents for EMR-4000

Page 1: ...EMR 4000 MOTOR RELAY Installation Operation and Maintenance Software Version 3 0 d IM02602009E Revision E English...

Page 2: ...watt Mvar PF Metering Statistics and Demand standard 3 1 3 EMR 4000 74 TC Zone Interlocking Breaker Wear Programmable Logic 51 50R 46 51J 51P 27A 59A 47 55 A D 27M 59M 81 U O 51X LOP 51V 50X 1 Fault r...

Page 3: ...ltage Transformer Measuring Inputs 46 Slot X5 Relay Output Card 53 Typical Connection Diagrams 56 Slot X100 Ethernet Interface 60 Slot X103 Data Communication 62 Slot X104 IRIG B00X and Supervision Co...

Page 4: ...emand Management States of the Outputs 174 Global Protection Parameter of the Demand Management 175 States of the Inputs of the Demand Management 178 Resets 179 Manual Acknowledgment 181 External Ackn...

Page 5: ...384 Permanent Blocking 384 Temporary Blocking 385 To Activate or Deactivate the Tripping Command of a Protection Module 386 Activate Deactivate Respectively to Block Temporary Protection Functions 38...

Page 6: ...otection 658 55A and 55D PF Protection 671 RT Remote Trip 681 ExP External Protection 686 Ex87 External Differential Protection 691 RTD Protection Module 697 URTDII Module Interface 727 Supervision 73...

Page 7: ...tical Ethernet_module with LC connector 838 URTD Interface 838 Analog Outputs 839 Boot Phase 839 Standards 840 Approvals 840 Design Standards 840 High Voltage Tests IEC 60255 1 840 EMC Immunity Tests...

Page 8: ...EMR 4000 IM02602009E md5_1 md5_2 RMS Handoff 0 File generated EMR 4000_user_manual_eaton_en odt This manual applies to devices version Version 3 0 d Build 29322 www eaton com 8...

Page 9: ...nging this manual and without previous notice Therefore no claim can be brought based on the information and descriptions included in this manual Text graphics and formulas do not always apply to the...

Page 10: ...y alert symbol is used to address practices not related to personal injury NOTICE is used to address information and practices not related to personal injury FOLLOW INSTRUCTIONS Read this entire manua...

Page 11: ...on concept of the equipment that is to be protected The User must ensure that the device will properly recognize and manage e g switch off the circuit breaker on the basis of User selected programming...

Page 12: ...oduced To verify that you have the latest revision be sure to check the Eaton Corporation website http www eaton com The latest versions of most publications are available at this site If the User s p...

Page 13: ...s cigarette packages cellophane wrappers vinyl books or folders plastic bottles and plastic ash trays away from the device the modules and the work area as much as possible 4 Do not remove any printed...

Page 14: ...ains the device templates The device templates MUST BE installed to allow PowerPort E to configure a device off line Please make sure the product label wiring diagram type code and materials and descr...

Page 15: ...pre defined value can be selected 1 n Assignment List Name 1 n VeEnable No assignment 1 n No a ssignment 1 Name 1 n Assignment List Parameter of a Module Input with special values An 1 n output from...

Page 16: ...is expired the output becomes 1 too The time stage will be reset by 0 at the input Thus the output will be set to 0 at the same time Time stage minimum pulse width The pulse width name t will be start...

Page 17: ...SIGNALS are indicated by right and left double arrow heads and small caps Paths are indicated by brackets Software and Device names are written in italic Module and Instance Element names are display...

Page 18: ...ction module will lead to a general trip Each trip of an active trip authorized protection module will lead to a general trip Each trip of an active trip authorized protection module will lead to a ge...

Page 19: ...the device type will lead to a phase selective general pickup collective pickup Each phase selective pickup of a module I IG V VX depending on the device type will lead to a phase selective general p...

Page 20: ...m Q V Decoupling Distributed Generator Q V Decoupling Distributed Generator 40 Please Refer to Diagram CTS Pickup CTS Pickup 44 45 Please Refer to Diagram Analog Values Please Refer to Diagram Analog...

Page 21: ...Read Only Lv0 Prot Lv1 Prot Lv2 Supervisor Lv3 Control Lv1 Control Lv2 Parameters can only be read within this level This level enables execution of Resets and Acknowledgements This level enables mod...

Page 22: ...s the directional feature of the over current protections then the device no longer trips in a directional way but merely in a non directional way The manufacturer does not accept liability for any pe...

Page 23: ...rent 5A 1A Sensitive Ground Current 5A 1A Phase Current 5A 1A Ground Current 5A 1A EMR 4000 Communication Communication A Without B RS 485 Modbus RTU DNP RTU C Ethernet Modbus TCP DNP UDP TCP D Fiber...

Page 24: ...8 DI 5 Outputs 4AO Removable Terminals Zone Interlocking URTD Interface IRIG B Small Display A Hardware Option 2 Phase Current 5A 1A Ground Current 5A 1A Power Supply Range 19 300 Vdc 40 250 Vac 0 Zer...

Page 25: ...s included in the EMR 4000 2 For example if the catalog number were EMR 4000 2A0BA1 the device would have the following EMR 4000 2 A 8 Digital Inputs 5 Output Relays 4 4 20 mA Analog Output URTD Inter...

Page 26: ...he auxiliary voltage is switched off unsafe voltages remain at the device connections Outline Projection Mount Door Cut out The housing must be carefully grounded Connect a ground cable AWG 12 10 4 to...

Page 27: ...onal injury or damage the relay Outline Standard Mount Door Cut out The housing must be carefully grounded Connect a ground cable AWG 12 10 4 to 6 mm2 15 In lb 1 7 Nm to the housing using the screw th...

Page 28: ...the individual modules can be determined from the connection diagram attached to the top of your device Overview of Slots Housing B2 Schematic Diagram The housing must be carefully grounded Connect a...

Page 29: ...6 mm2 15 In lb 1 7 Nm to the housing using the screw that is marked with the ground symbol at the rear side of the device The power supply card needs a separate ground connection AWG 14 2 5 mm2 5 7 In...

Page 30: ...d device type The different variants have a different scope of functions Available assembly groups in this slot DI8 X1 This assembly group comprises a wide range power supply unit and two non grouped...

Page 31: ...s to be configured Wrong switching thresholds can result in malfunctions wrong signal transfer times The digital inputs are provided with different switching thresholds that are configurable two AC an...

Page 32: ...DI1 COM2 DI2 DI3 DI4 DI5 DI6 DI7 DI8 COM3 Donot use DI 8P X COM3 N C Donot use 1 3 2 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 Power Supply 1 2 3 4 5 6 7 8 9 10 11 12 COM1 13 14 15 16 17 18 V Power Supp...

Page 33: ...pe The different variants have a different scope of functions Available assembly groups in this slot RO 4Z X2 Assembly Group with four Relay Outputs two Form A and two Form C and Zone Interlocking The...

Page 34: ...elay Outputs section the assignment of the Relay Outputs is specified The changeable signals are listed in the Assignment List section Make sure that the tightening torque is 5 7 In lb 0 56 0 79 Nm Pl...

Page 35: ...com 35 Do not use Do not use RO3 CMN RO3 N O RO3 N C 1 3 2 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 RO 4Z X RO1 N O RO2 N O COM OUT IN COM RO4 CMN RO4 N O RO4 N C 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16...

Page 36: ...tive ground current measuring card Available assembly groups in this slot TI 4 X3 Standard ground current measuring card TIS 4 X3 Sensitive Ground current measuring card The Technical data of the sens...

Page 37: ...hort circuited before the current circuit to the device is opened The current measuring inputs may exclusively be connected to current measuring transformers with galvanic separation Do not mix the in...

Page 38: ...E Terminal Markings Pin Assignment www eaton com 38 IA 1A IA N IA 5A IB 1A IB N IC 1A IC N IC 5A IX 1A IX N IX 5A IB 5A 1 2 3 4 5 6 7 8 10 11 9 12 1 2 3 4 5 6 7 8 9 10 11 12 IA 1A 5A N IB 1A 5A N IC 1...

Page 39: ...transformers have to be short circuited before the current circuit to the device is opened The current measuring inputs may exclusively be connected to current measuring transformers with galvanic se...

Page 40: ...E Terminal Markings Pin Assignment www eaton com 40 IA 1A IA N IA 5A IB 1A IB N IC 1A IC N IC 5A IX 1A IX N IX 5A IB 5A 1 2 3 4 5 6 7 8 10 11 9 12 1 2 3 4 5 6 7 8 9 10 11 12 IA 1A 5A N IB 1A 5A N IC 1...

Page 41: ...ive current measuring inputs is the measurement of small currents like they could occur in isolated and high resistance grounded networks Due to the sensitiveness of these measuring inputs don t use t...

Page 42: ...09E 3 phase 3 wire IG Calculated www eaton com 42 A B C IA IB IC 1 X 2 3 4 5 6 7 8 9 10 11 12 Three phase Current Measurement Inom Secondary 5 A IA 1A 5A N IB 1A 5A N IC 1A 5A N IX 1A 5A N IB IC IA IR...

Page 43: ...IB 1A 5A N IC 1A 5A N IX 1A 5A N Warning The shielding at the dismantled end of the line has to be put through the zero sequence current transformer and has to be grounded at the cable side ZeroSequen...

Page 44: ...m 4th CT on Neutral www eaton com 44 A B C IA IB IC 1 X 2 3 4 5 6 7 8 9 10 11 12 4 wire system 4th CT on Neutral In secondary 5 A IA 1A 5A N IB 1A 5A N IC 1A 5A N IX 1A 5A N IB IC IA N IN IN IX meas I...

Page 45: ...g Neutral www eaton com 45 A B C IA IB IC 1 X 2 3 4 5 6 7 8 9 10 11 12 4 wire system with ground current CT Toroidal involving Neutral In secondary 5 A IA 1A 5A N IB 1A 5A N IC 1A 5A N IX 1A 5A N IB I...

Page 46: ...X4 Voltage Transformer Measuring Inputs Rear side of the device Slots This slot contains the voltage transformer measuring inputs www eaton com 46 X1 X2 X3 X100 X102 X5 X6 X104 X4 X103 slot3 slot4 slo...

Page 47: ...input is to be used for VX Make sure that the tightening torque is 1 2 1 6 Nm 11 15 In lb The rotating field of your power supply system has to be taken in to account Make sure that the voltage trans...

Page 48: ...EMR 4000 IM02602009E Terminal Marking Pin assignment www eaton com 48 VA 1 1 2 6 3 7 8 5 4 VA 2 VB 1 VB 2 VC 1 VC 2 VX1 1 VX1 2 1 2 3 4 5 6 7 8 X VX VX VC VC VB VB VA VA...

Page 49: ...on functionality VT Check Measuring Values Connect a three phase measuring voltage equal to the rated voltage to the relay Take the connection of the measuring transformers open delta Wye connection i...

Page 50: ...2602009E VT Wye www eaton com 50 A B C VAB VBC VCA VA VB VC VA A C B N VB VC VAB VBC VCA 1 X 2 3 4 5 6 7 8 Three phase voltage measurement wiring of the measurement inputs star connection VX VX VC VC...

Page 51: ...51 1 X 2 3 4 5 6 7 8 A B C VAB VBC VCA VA VB VC A C B N VB VC VAB VBC VCA VA n VX Three phase voltage measurement wiring of the measurement inputs star connection Measurement of the residual voltage...

Page 52: ...MR 4000 IM02602009E VT Open Delta www eaton com 52 A B C VAB VBC VCA A C B VAB VBC VCA 1 X 2 3 4 5 6 7 8 Two phase voltage measurement wiring of the measuring inputs Open Delta VX VX VC VC VB VB VA VA...

Page 53: ...e The different variants have a different scope of functions Available assembly groups in this slot AO 4 X5 Assembly Group with 4 Analog Outputs Availability depends on ordered device The available co...

Page 54: ...Nm 5 7 In lb There are 4 Analog Output channels that are configurable to either output 0 20 mA 4 20 mA or 0 10 V Each of the 4 channels can be independently programmed to either of these three output...

Page 55: ...COM Do not use Do not use Do not use AnOut 3 COM AnOut 3 AnOut 4 AnOut 4 COM Do not use Do not use Do not use Do not use Do not use AN O 4 1 3 2 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 Do not use AnOu...

Page 56: ...tion Diagrams Wye VTs and 1 A CTs in Residual Connection www eaton com 56 1 X4 2 3 4 5 6 7 8 A B C C B A A B C 1 X3 2 3 4 5 6 7 8 9 10 11 12 IX IA 1A 5A N IB 1A 5A N IC 1A 5A N IX 1A 5A N IA IB IC IB...

Page 57: ...de of the Breaker and 1A CTs in Residual Connection www eaton com 57 1 X4 2 3 4 5 6 7 8 A B C C B A A B C 1 X3 2 3 4 5 6 7 8 9 10 11 12 IX IA 1A 5A N IB 1A 5A N IC 1A 5A N IX 1A 5A N IA IB IC IB IC IA...

Page 58: ...VTs Input Wiring and 1 A CTs in Residual Connection www eaton com 58 C B A A B C 1 X3 2 3 4 5 6 7 8 9 10 11 12 IX IA 1A 5A N IB 1A 5A N IC 1A 5A N IX 1A 5A N IA IB IC IB IC IA A B C 1 X4 2 3 4 5 6 7...

Page 59: ...side of the breaker and 1A CTs in Residual Connection www eaton com 59 A B C 1 X4 2 3 4 5 6 7 8 C B A A B C 1 X3 2 3 4 5 6 7 8 9 10 11 12 IX IA 1A 5A N IB 1A 5A N IC 1A 5A N IX 1A 5A N IA IB IC IB IC...

Page 60: ...of the device Slots An Ethernet interface may be available depending on the device type ordered The available combinations can be gathered from the ordering code www eaton com 60 X1 X2 X3 X100 X102 X...

Page 61: ...EMR 4000 IM02602009E Ethernet RJ45 Terminal Marking www eaton com 61 1 8 TxD TxD RxD N C N C RxD N C N C...

Page 62: ...unication interface Available assembly groups in this slot RS485 Terminals for Modbus and DNP Ethernet Interface for Modbus and DNP Fiber Optics for Modbus and DNP D Sub for Modbus and DNP Ethernet fo...

Page 63: ...bus connection cable must be shielded The shielding has to be fixed at the screw that is marked with the ground symbol at the rear side of the device The communication is Half Duplex www eaton com 63...

Page 64: ...the Bus Wiring Example Device at the End of the BUS Using the Integrated Terminal Resistor www eaton com 64 6 4 5 3 2 1 5V GND R1 560 R2 120 Protective Relay B B A A R1 R2 R1 HF Shield 6 4 5 3 2 1 5V...

Page 65: ...1 3 2 4 5 6 TR P B A B A B A B A TR N TR N TR N TR N Common Common Common Common HF Shield HF Shield HF Shield HF Shield 2 2nF internal 2 2nF internal 1 3 2 4 5 6 TR P 1 3 2 4 5 6 TR P 1 3 2 4 5 6 TR...

Page 66: ...IRIG B00X and Supervision Contact Rear side of the device Slots This comprises the IRIG B00X and the System contact Supervision Contact www eaton com 66 X1 X2 X3 X100 X102 X5 X6 X104 X4 X103 slot3 slo...

Page 67: ...o the Self Supervision section The System OK contact SC relay cannot be configured The system contact is a Form C contact that picks up when the device is free from internal faults While the device is...

Page 68: ...EMR 4000 IM02602009E Slot X120 PC Interface USB Mini B www eaton com 68 B1 B2 und B3 Housing USB Interface for Parameter Setting and Evaluation Software X120...

Page 69: ...MR 4000 www eaton com 69 EMR 4000 X2 3 X2 4 Relay 1 This relay has to be normally open to ensure that protection is enabled when motor is started X2 5 X2 6 Relay 2 X2 8 X2 9 Relay 3 H2 H3 X2 X1 X3 EMR...

Page 70: ...LS bb V V V V C S C 7 A 8 6 7 Y 5 R 7 Y b P S 1 4 Y L S b b L C L SD D 6 2 1 V V V V V V 10K G 13 13 5 b 14 20 10K R CS T 86 EMR 4000 V V TC D D V V 19 86 B6 9 9 6 86 86A 5B X2 8 X2 9 50 51 N X1 13 X1...

Page 71: ...M02602009E Typical Wiring Diagram for Reduced Voltage for the EMR 4000 www eaton com 71 EMR X2 7 X2 8 X1 9 EMR X1 14 EM R X2 3 X2 4 CTs GFCT EMR 4000 X 1 X2 Gnd X2 X3 V2 V3 Gnd Gnd X4 1 X4 2 X4 3 X4 5...

Page 72: ...EMR 4000 IM02602009E Wiring Diagrams Please refer to the file emr 4000_wiring_diagrams pdf on your User manual CD www eaton com 72...

Page 73: ...h of the digital inputs Nominal voltage Debouncing time A state change will only be adopted by the digital input after the debouncing time has expired and Inverting where necessary The debouncing time...

Page 74: ...r Setting Wrench Click on Add and assign a target Assign where required additional targets Deleting an assignment Select as described above a Digital Input that should be edited at the HMI Call up the...

Page 75: ...1 Checking the Assignments of a Digital Input In order to check the targets that a Digital Input is assigned to please proceed as follows Call up menu Device Parameter Digital Inputs Navigate to the...

Page 76: ...e Para Digital Inputs DI 8P X1 Group 1 Debouncing Time 1 A change of the state of a digital input will only be recognized after the debouncing time has expired become effective Thus transient signals...

Page 77: ...tal Inputs DI 8P X1 Group 3 Debouncing Time 3 A change of the state of a digital input will only be recognized after the debouncing time has expired become effective Thus transient signals will not be...

Page 78: ...Time 20 ms 50 ms 100 ms 20 ms Device Para Digital Inputs DI 8P X1 Group 3 Inverting 7 Inverting the input signals Inactive Active Inactive Device Para Digital Inputs DI 8P X1 Group 3 Debouncing Time 7...

Page 79: ...red Inputs The module WiredInputs allows to alias Digital Inputs By means of the menu Device Para WiredInputs the user can assign specific functions on digital inputs Alias Example The 52a contact wil...

Page 80: ...Inputs Device Para Wired Inputs RunCont Running Contactor inc sequence 1 n Dig Inputs Device Para Wired Inputs Start Start 1 n Dig Inputs Device Para Wired Inputs Stop Stop 1 n Dig Inputs Device Para...

Page 81: ...Inputs Device Para Wired Inputs GrpSetSelect Group Setting Select 1 n Dig Inputs Device Para Wired Inputs Jog Forward JogFow 1 n Dig Inputs Device Para Wired Inputs Jog reverse JogRev 1 n Dig Inputs...

Page 82: ...e1 Device Para Wired Inputs ExtPer2 I State of the module input External Permissive2 Device Para Wired Inputs ExtTrip1 I State of the module input External Trip1 Device Para Wired Inputs ExtTrip I2 St...

Page 83: ...will keep it s position as long as it has not been reset and as long as the power supply feeds the protective relay In the case of a loss of power to the protective device the relays will return to th...

Page 84: ...verting 4 Assignment 5 Inverting 5 OR Inactive Active Latched Assignment 6 Inverting 6 Assignment 7 Inverting 7 OR OR AND State of the Relay Output Acknowledge HMI Acknowledge 1 n Assignment List Ackn...

Page 85: ...cknowledgment Options Relay output contacts can be acknowledged Via the push button Ack Rst at the operating panel If Latched is active each relay output contact can be acknowledged by a signal for ex...

Page 86: ...X2 Force all Outs By means of this function the normal Relay Output State can be overwritten forced The relay can be set from normal operation relay works according to the assigned signals to force e...

Page 87: ...n the normal Relay Output State can be overwritten forced The relay can be set from normal operation relay works according to the assigned signals to force energized or force de energized state Normal...

Page 88: ...cknowledges the corresponding Relay Output can be assigned to each Relay Output The acknowledgement signal is only effective if the parameter Latched is set to active Only available if Latched Active...

Page 89: ...f the assigned signal Inactive Active Inactive Device Para Relay Outputs RO 4Z X2 RO 1 Assignment 5 Assignment 1 n Assignment List Device Para Relay Outputs RO 4Z X2 RO 1 Inverting 5 Inverting of the...

Page 90: ...ara Relay Outputs RO 4Z X2 RO 2 Acknowledgment Acknowledgment Signal An acknowledgment signal that acknowledges the corresponding Relay Output can be assigned to each Relay Output The acknowledgement...

Page 91: ...t 1 n Assignment List RTD Alarm Device Para Relay Outputs RO 4Z X2 RO 2 Inverting 4 Inverting of the state of the assigned signal Inactive Active Inactive Device Para Relay Outputs RO 4Z X2 RO 2 Assig...

Page 92: ...ines whether the Relay Output will be latched when it picks up Inactive Active Active Device Para Relay Outputs RO 4Z X2 RO 3 Acknowledgment Acknowledgment Signal An acknowledgment signal that acknowl...

Page 93: ...ing of the state of the assigned signal Inactive Active Inactive Device Para Relay Outputs RO 4Z X2 RO 3 Assignment 4 Assignment 1 n Assignment List Device Para Relay Outputs RO 4Z X2 RO 3 Inverting 4...

Page 94: ...a Relay Outputs RO 4Z X2 RO 4 t Off Delay Switch Off Delay 0 00 300 00s 0 2s Device Para Relay Outputs RO 4Z X2 RO 4 Latched Defines whether the Relay Output will be latched when it picks up Inactive...

Page 95: ...ignment 1 n Assignment List Device Para Relay Outputs RO 4Z X2 RO 4 Inverting 3 Inverting of the state of the assigned signal Inactive Active Inactive Device Para Relay Outputs RO 4Z X2 RO 4 Assignmen...

Page 96: ...step of a two step process to inhibit the operation or the relay outputs Please refer to DISARMED for the second step Inactive Active Inactive Service Test Mode Prot inhibit WARNING Cont DISARMED RO 4...

Page 97: ...e assigned signals to force energized or force de energized state Permanent Timeout Permanent Service Test Mode Prot inhibit WARNING Cont Force RO RO 4Z X2 t Timeout Force The Output State will be set...

Page 98: ...a Relay Outputs RO 4Z X2 RO 1 RO1 5 Module Input State Assignment Device Para Relay Outputs RO 4Z X2 RO 1 RO1 6 Module Input State Assignment Device Para Relay Outputs RO 4Z X2 RO 1 RO1 7 Module Input...

Page 99: ...ate Assignment Device Para Relay Outputs RO 4Z X2 RO 2 RO2 6 Module Input State Assignment Device Para Relay Outputs RO 4Z X2 RO 2 RO2 7 Module Input State Assignment Device Para Relay Outputs RO 4Z X...

Page 100: ...ate Assignment Device Para Relay Outputs RO 4Z X2 RO 3 RO3 7 Module Input State Assignment Device Para Relay Outputs RO 4Z X2 RO 3 Ack signal RO 3 Module Input State Acknowledgment signal for the Rela...

Page 101: ...ts RO 4Z X2 RO 4 RO4 6 Module Input State Assignment Device Para Relay Outputs RO 4Z X2 RO 4 RO4 7 Module Input State Assignment Device Para Relay Outputs RO 4Z X2 RO 4 Ack signal RO 4 Module Input St...

Page 102: ...er to safely perform maintenance while eliminating the risk of taking an entire process off line Note Zone Interlocking and Supervision Contact cannot be disarmed YOU MUST ENSURE that the relays are A...

Page 103: ...chapter is valid The only difference between Group A and Group B is within the menu paths Via the INFO push button it is always possible to display the current pickups and alarm texts that are assign...

Page 104: ...signal from the LED Reset list e g digital inputs or communication signals If Latched active The Ex Acknowledge module all LEDs can be acknowledged at once if the signal for external acknowledgment be...

Page 105: ...signment 1 Inverting 1 Assignment 2 Inverting 2 Assignment 3 Inverting 3 Assignment 4 Inverting 4 Assignment 5 Inverting 5 LE D Active Color LED Inactive Color OR OR AND Acknowledge HMI Acknowledge 1...

Page 106: ...LED for System OK Operational lights up in green signaling that the protection function is activated Please refer to chapter Self Supervision and to the external document Troulbe Shooting Guide to fi...

Page 107: ...LEDs LEDs group A LED 1 LED Active Color The LED lights up in this color if the state of the OR assignment of the signals is true Green Red Red flash Green flash Red Device Para LEDs LEDs group A LED...

Page 108: ...state of the assigned signal Inactive Active Inactive Device Para LEDs LEDs group A LED 1 Assignment 5 Assignment 1 n Assignment List Device Para LEDs LEDs group A LED 1 Inverting 5 Inverting of the s...

Page 109: ...m LEDs group B 27M 1 TripCmd Device Para LEDs LEDs group A LED 2 Inverting 1 Inverting of the state of the assigned signal Inactive Active Inactive Device Para LEDs LEDs group A LED 2 Assignment 2 Ass...

Page 110: ...Latched Defines whether the LED will be latched when it picks up Inactive Active Active Device Para LEDs LEDs group A LED 3 Ack signal Acknowledgment signal for the LED If latching is set to active th...

Page 111: ...ng 2 Inverting of the state of the assigned signal Inactive Active Inactive Device Para LEDs LEDs group A LED 3 Assignment 3 Assignment 1 n Assignment List LEDs group A LEDs group B 81 5 TripCmd Devic...

Page 112: ...s group A LED 4 LED Active Color The LED lights up in this color if the state of the OR assignment of the signals is true Green Red Red flash Green flash Red Device Para LEDs LEDs group A LED 4 LED In...

Page 113: ...gned signal Inactive Active Inactive Device Para LEDs LEDs group A LED 4 Assignment 5 Assignment 1 n Assignment List Device Para LEDs LEDs group A LED 4 Inverting 5 Inverting of the state of the assig...

Page 114: ...Assignment 1 Assignment 1 n Assignment List LEDs group A MStart Start LEDs group B ZI TripCmd Device Para LEDs LEDs group A LED 5 Inverting 1 Inverting of the state of the assigned signal Inactive Ac...

Page 115: ...Inactive Active LEDs group A Inactive LEDs group B Active Device Para LEDs LEDs group A LED 6 Ack signal Acknowledgment signal for the LED If latching is set to active the LED can only be acknowledged...

Page 116: ...ing 2 Inverting of the state of the assigned signal Inactive Active Inactive Device Para LEDs LEDs group A LED 6 Assignment 3 Assignment 1 n Assignment List Device Para LEDs LEDs group A LED 6 Inverti...

Page 117: ...ent List Device Para LEDs LEDs group A LED 7 LED Active Color The LED lights up in this color if the state of the OR assignment of the signals is true Green Red Red flash Green flash LEDs group A Gree...

Page 118: ...tate of the assigned signal Inactive Active Inactive Device Para LEDs LEDs group A LED 7 Assignment 4 Assignment 1 n Assignment List Device Para LEDs LEDs group A LED 7 Inverting 4 Inverting of the st...

Page 119: ...e Para LEDs LEDs group A LED 1 LED1 4 Module Input State LED Device Para LEDs LEDs group A LED 1 LED1 5 Module Input State LED Device Para LEDs LEDs group A LED 1 Acknow Sig 1 Module Input State Ackno...

Page 120: ...2 Module Input State Acknowledgment Signal only for automatic acknowledgment Device Para LEDs LEDs group A LED 2 LED3 1 Module Input State LED Device Para LEDs LEDs group A LED 3 LED3 2 Module Input...

Page 121: ...LEDs group A LED 4 LED4 3 Module Input State LED Device Para LEDs LEDs group A LED 4 LED4 4 Module Input State LED Device Para LEDs LEDs group A LED 4 LED4 5 Module Input State LED Device Para LEDs LE...

Page 122: ...5 Module Input State Acknowledgment Signal only for automatic acknowledgment Device Para LEDs LEDs group A LED 5 LED6 1 Module Input State LED Device Para LEDs LEDs group A LED 6 LED6 2 Module Input...

Page 123: ...LEDs group A LED 7 LED7 2 Module Input State LED Device Para LEDs LEDs group A LED 7 LED7 3 Module Input State LED Device Para LEDs LEDs group A LED 7 LED7 4 Module Input State LED Device Para LEDs LE...

Page 124: ...ll select the Analog Outputs option under the main menu item Device PARA Then select the wrench icon which will allow the assignment of the output to a parameter monitored by the relay The available s...

Page 125: ...lds should base on primary side values Sn 3 VoltageTransformerPri_Line to Line_Rated_Voltage CurrentTransformerPri_Rated_Current If thresholds should base on secondary side values Sn 3 VoltageTransfor...

Page 126: ...tings based to Sn Range min 0 1 MW 3 464 MVA 0 29 Sn Range max 100 4 MW 3 464 MVA 1 15 Sn Calculate the Analog Output percentage for specific value AnalogOutput InputValue 100 Range max Range min Inpu...

Page 127: ...and Current lags the voltage for a inductive load PF with sign convention uses a positive sign This is important to set the right range settings for Analog Ouput Use case for analog instrument with 4...

Page 128: ...Device Para Analog Outputs AnOut 1 Force Mode For commissioning purposes or for maintanance Analog Outputs can be set by force By means of this function the normal Analog Outputs can be overwritten fo...

Page 129: ...ING Cont Analog Outputs AnOut 1 Force Value By means of this function the Analog Output Value can be overwritten forced 0 00 100 00 0 Service Test Mode Prot inhibit WARNING Cont Analog Outputs AnOut 1...

Page 130: ...Harmonic Distortion VT VC THD Measured value calculated VC Total Harmonic Distortion CT IA RMS Measured value Phase current RMS CT IB RMS Measured value Phase current RMS CT IC RMS Measured value Phas...

Page 131: ...wer P Fed Active Power P Consumpted Active Power RMS ECr Syst VAr Fund Measured VARs Reactive power Q Fed Reactive Power Q Consumpted Reactive Power Fundamental ECr Disp PF Measured Value Calculated 5...

Page 132: ...plies to protective devices with a small display www eaton com 132 1 2 3 5 7 6 8 10 USB Interface PowerPort E Connection ACK RST key INFO Key Signals Messages Control Softkeys Display LED System OK Pr...

Page 133: ...to protective devices with a large display www eaton com 133 1 2 3 5 6 8 7 10 Control Softkeys Display LED System OK Programmable LEDs 9 OK key 4 Programmable LEDs Protective Device INFO Key Signals M...

Page 134: ...ates of each function activated Based on the application need up to 14 but not necessarily all programmable LEDs can be activated By properly configuring some or all 14 LEDs the User will be able to v...

Page 135: ...application need up to 14 but not necessarily all programmable LEDs can be activated By properly configuring some or all 14 LEDs the User will be able to view the relay s overall operation and some cr...

Page 136: ...e seconds the SOFTKEYs will be shown flashing If there is more than one signal assigned to an LED indicated by three dots the User can check the state of the multiple assignments by proceeding as foll...

Page 137: ...The User can exit the reset menu by pressing the Softkey Arrow left 8 USB Interface PowerPort E Connection Connection to the computer software PowerPort E is done via the USB interface 9 OK Key When u...

Page 138: ...Via SOFTKEY Top of List the User will be taken directly to the top of a list Via SOFTKEY Bottom of List the User will be taken directly to the end of a list Via SOFTKEY the related digit will be incre...

Page 139: ...nual MN026001EN Menu controlled parameter setting incl validity checks Offline configuration of all relay types Reading and evaluating of statistical data and measuring values Setting into operation a...

Page 140: ...tomize waveform channel layout and views including channel overlapping and zooming Analyze sample by sample data points and line up the displayed analog waveform channels along with the recorded inter...

Page 141: ...of measured values within the HMI and Power Port E Scaling of Measured values By means of the parameter Scaling the user can determine how measured values are to be displayed within the HMI and Power...

Page 142: ...unter will start counting again at zero A corresponding signal will indicate the counter overflow Counter overflow at Energy Auto Scaling Depends on the settings for the current and voltage transforme...

Page 143: ...ent Fund IX meas Fund Measured value measured IX Fundamental Operation Measured Values Current Fund IR calc Fund Measured value calculated IR Fundamental Operation Measured Values Current Fund I0 Fund...

Page 144: ...of Positive Sequence System Operation Measured Values Current Fund Angle I2 Measured value calculated Angle of Negative Sequence System Operation Measured Values Current Fund IA RMS Measured value Ph...

Page 145: ...RMS IA THD Measured Value Calculated IA Total Harmonic Current Operation Measured Values Current RMS IB THD Measured Value Calculated IB Total Harmonic Current Operation Measured Values Current RMS IC...

Page 146: ...ase to phase voltage Fundamental Operation Measured Values Voltage Fund VA Fund Measured value Phase to neutral voltage Fundamental Operation Measured Values Voltage Fund VB Fund Measured value Phase...

Page 147: ...d value Phase to phase voltage RMS Operation Measured Values Voltage RMS VA RMS Measured value Phase to neutral voltage RMS Operation Measured Values Voltage RMS VB RMS Measured value Phase to neutral...

Page 148: ...le of Phasor VR calc Operation Measured Values Voltage Fund Angle V0 Measured Value calculated Angle of Zero Sequence System Operation Measured Values Voltage Fund Angle V1 Measured Value calculated A...

Page 149: ...sured value calculated VAB Total Harmonic Distortion Operation Measured Values Voltage RMS VBC THD Measured value calculated VBC Total Harmonic Distortion Operation Measured Values Voltage RMS VCA THD...

Page 150: ...e Calculated 55D Displacement Power Factor Sign Convention sign PF sign Syst W Operation Measured Values Power Wh Fwd Positive Active Power is consumed active energy Operation Measured Values Energy W...

Page 151: ...Active Power RMS Operation Measured Values Power Apt PF Measured Value Calculated 55A Apparent Power Factor Sign Convention sign PF sign Syst W Operation Measured Values Power Syst W 1 Measured Watts...

Page 152: ...A GW GVAr GVA Power Auto Scaling Operation General Settings Energy Units Energy Units Energy Auto Sca ling kWh kVArh kVAh MWh MVArh MVAh GWh GVArh GVAh MWh MVArh MVA h Operation General Settings Direc...

Page 153: ...unter Wh Fwd Res Cr Signal Wh Fwd Reset Counter Wh Rev Res Cr Signal Wh Rev Reset Counter VArh Net Res Cr Signal VArh Net Reset Counter VArh Lag Res Cr Signal VArh Lag Reset Counter VArh Lead Res Cr S...

Page 154: ...ation Minimum and Maximum Values Peak Values Pointers Time interval for the calculation of the minimum and maximum values Reset Configuration Options Where to configure Within menu Device Para Statist...

Page 155: ...e calculation based on sliding period fixed fixed Average calculation is reset by the end of the period that means with the next starting period duration fixed or sliding period Start Fct The average...

Page 156: ...ion Statistics Vavg Configuration of the Power Based Average Value Calculation Availability depends on the ordered device code Power based Average Values Demand and Peak Values Time period for the cal...

Page 157: ...eration Reset Flags ResFc Min Resetting of all Minimum values Inactive Active Inactive Operation Reset Flags ResFc Max Resetting of all Maximum values Inactive Active Inactive Operation Reset Flags Gl...

Page 158: ...1 n Assignment List Device Para Statistics Demand Current Demand Duration I Demand Recording time Only available if Start I Demand via Duration 2 s 5 s 10 s 15 s 30 s 1 min 5 min 10 min 15 min 30 min...

Page 159: ...P Demand Resetting of Statistics Power Demand avg peak avg 1 n Assignment List Device Para Statistics Demand Power Demand Duration P Demand Recording time Only available if Start P Demand via Duratio...

Page 160: ...emand Device Para Statistics Demand Power Demand ResFc I Demand I State of the module input Resetting of Statistics Current Demand avg peak avg Device Para Statistics Demand Current Demand ResFc P Dem...

Page 161: ...le Statistics Value Description Menu path Res Cr I Demand Number of resets since last booting The timestamp shows date and time of the last reset Operation Statistics Demand Current Demand Res Cr P De...

Page 162: ...s Min CT I2 max Fund Maximum value unbalanced load current Fundamental Operation Statistics Max CT I2 min Fund Minimum value unbalanced load current Fundamental Operation Statistics Min CT IA max RMS...

Page 163: ...ue RMS Operation Statistics Demand Current Demand IC min RMS IC minimum value RMS Operation Statistics Min CT IX meas max RMS Measured value IX maximum value RMS Operation Statistics Max CT IX meas mi...

Page 164: ...in Measured value calculated I2 I1 minimum value phase sequence will be taken into account automatically Operation Statistics Min CT IA Peak demand IA Peak value RMS value Operation Statistics Demand...

Page 165: ...Fund Minimum value Symmetrical components positive phase sequence voltage Fundamental Operation Statistics Min Voltage V2 max Fund Maximum value Symmetrical components negative phase sequence voltage...

Page 166: ...tistics Max Voltage VCA min RMS VCA minimum value RMS Operation Statistics Min Voltage VA max RMS VA maximum value RMS Operation Statistics Max Voltage VA min RMS VA minimum value RMS Operation Statis...

Page 167: ...d value calculated VR minimum value RMS Operation Statistics Min Voltage V2 V1 max Measured value calculated V2 V1 maximum value phase sequence will be taken into account automatically Operation Stati...

Page 168: ...Statistics Min Power Syst VA max Maximum value of the apparent power Operation Statistics Max Power Syst VA avg Average of the apparent power Operation Statistics Demand Power Demand Syst VA min Minim...

Page 169: ...Maximum value of the 55A Apparent Power Factor Sign Convention sign PF sign Syst W Operation Statistics Max Power Apt PF min Minimum value of the 55A Apparent Power Factor Sign Convention sign PF sign...

Page 170: ...by contract with the energy supplier If the contractual target values are exceeded extra charges are to be paid to the energy supplier Therefore demand management helps the User detect and avoid aver...

Page 171: ...ow can be set to fixed or sliding Example for a fixed window If the range is set for 15 minutes the protective device calculates the average current or power over the past 15 minutes and updates the v...

Page 172: ...4 Window configuration Sliding Window configuration Fixed Sliding Sliding t Delay 0 Duration Average Calculation Pickup t Delay 0 Average Calculation Pickup t Delay 0 Average Calculation Pickup t Dela...

Page 173: ...mum min and maximum max values can be seen Minimum values since last reset The minimum values are continuously compared to the last minimum value for that measuring value If the new value is less than...

Page 174: ...gnal Alarm VARs demand value Alarm VA Demand Signal Alarm VAs demand value Alm Current Demd Signal Alarm Current demand value Alarm I THD Signal Alarm Total Harmonic Distortion Current Alarm V THD Sig...

Page 175: ...n parameter If the signal becomes true those modules elements are blocked that are parameterized ExBlo Fc active 1 n Assignment List SysA General Settings Alarm Alarm Inactive Active Inactive SysA Pow...

Page 176: ...o be entered as primary value 1 40000000kW 10000kW SysA Demand Power Demand Watt Demand t Delay Tripping Delay 0 60min 0min SysA Demand Power Demand Watt Demand Alarm Alarm Inactive Active Inactive Sy...

Page 177: ...urrent Demand Threshold Threshold to be entered as primary value 10 500000A 500A SysA Demand Current Demand t Delay Tripping Delay 0 60min 0min SysA Demand Current Demand Alarm Alarm Inactive Active I...

Page 178: ...Setting range Default Menu path t Delay Tripping Delay 0 3600s 0s SysA THD V THD States of the Inputs of the Demand Management Name Description Assignment via ExBlo I Module Input State External Block...

Page 179: ...mmands at once Where Operation Acknowledge All at once Where Operation Acknowledge External Acknowledg ment Via a signal from the assignment list e g a digital Input all can be acknowledged All LEDs a...

Page 180: ...nu of this single LED Relay Output Where Within the Configuration menu of this single Relay Output Pending Trip Command Where Within the module BkrManager If the User is within the parameter setting m...

Page 181: ...ledgments Within the Device Para Ex Acknowledge menu the User can assign a signal e g the state of a digital input from the assignment list that Acknowledges all acknowledgeable LEDs at once Acknowled...

Page 182: ...Factory Defaults This Function will reset the device to the factory defaults All records will be deleted and and the measured values and counters will be reset The operation hours counter will be kept...

Page 183: ...state of all signals can be viewed This means the User is able to see if the individual signals are active or inactive at that moment The User can see all signals sorted by protective elements module...

Page 184: ...range Default Menu path Contrast Contrast 0 100 50 Device Para HMI Global Protection Parameters of the Panel Parameter Description Setting range Default Menu path t max Edit Access If no other key s i...

Page 185: ...r and post trigger time To trigger the waveform recorder up to eight signals can be selected from the Assignment list The trigger events are OR linked If a waveform record is written a new waveform re...

Page 186: ...EMR 4000 IM02602009E www eaton com 186 Start 1 Trigger Start 2 Trigger Start 3 Trigger Start 4 Trigger Start 5 Trigger Start 6 Trigger Start 7 Trigger Start 8 Trigger Man Trigger Recording OR OR...

Page 187: ...trigger time t 0 1 500 ms Post trigger time t 0 1 2000 ms t rec t 0 1 2000 ms Max file size Start 1 Prot Pickup Start 2 Start 3 Start 4 Start 5 Start 6 Start 7 Start 8 Post trigger time 25 Pre trigger...

Page 188: ...trigger time t 0 1 500 ms Post trigger time t 0 1 1000 ms t rec t rec Max file size t 0 1 2000 ms Max file size Start 1 Prot Trip Start 2 Start 3 Start 4 Start 5 Start 6 Start 7 Start 8 Post trigger...

Page 189: ...form Records Within the Operation Waveform rec menu the User can Delete waveform records Choose the waveform record that is to be deleted via SOFTKEY up and SOFTKEY down Call up the detailed view of t...

Page 190: ...1 n Assignment List Prot Pickup Device Para Recorders Waveform rec Start 2 Start recording if the assigned signal is true 1 n Assignment List Prot Trip Device Para Recorders Waveform rec Start 3 Star...

Page 191: ...m rec Post trigger time The post trigger time is settable up to a maximum of 50 of the Maximum file size setting The post trigger will be the remaining time of the Max file size but at maximum Post tr...

Page 192: ...orm rec Start5 I State of the module input Trigger event start recording if Device Para Recorders Waveform rec Start6 I State of the module input Trigger event start recording if Device Para Recorders...

Page 193: ...The Fault Recorder provides compressed information about faults e g Trip Causes The compressed information can be read out also at the HMI This might be helpful for fast fault analysis already at the...

Page 194: ...falling edge of the General Pickup Signal Please note that General Pickup is an or connection disjunction of all Pickup signals General Trip is an OR connection of all Trips www eaton com 194 Prot Pic...

Page 195: ...en does the overlay popup appears on the display of the HMI A popup will appear on the HMI display when the General Pickup Prot Pickup disappears No time to trip will be shown if the pickup signal tha...

Page 196: ...using Softkey OK How to find out fast if a fault has lead to a trip or not Faults that lead to a trip will be indicated by a flash icon right side within the overview menu of the fault recorder Which...

Page 197: ...n that will be displayed depends on which protection module has tripped That means e g that the thresholds are shown In case that the trip was initiated by the MotorStart applies to motor protection r...

Page 198: ...ut the Fault Recorder In order to read out a fault record there are two options available Option 1 A Fault has popped up on the HMI because an trip or pickup has occurred Option 2 Call up manually the...

Page 199: ...the Fault Recorder Module Parameter Description Setting range Default Menu path Record Mode Recorder Mode Set the behaviour of the recorder Pickups and Trips Trips only Trips only Device Para Recorde...

Page 200: ...t Pickup A grid fault No can have several Fault Nos This counter will be incremented by each General Pickup Exception AR this applies only to devices that offer auto reclosing Time stamp What has chan...

Page 201: ...er Module Signals Signal Description Res all rec Signal All records deleted Trend Recorder Available Elements Trend rec Configuring the Trend Recorder The Trend Recorder is to be configured within Dev...

Page 202: ...Observed Value3 1 n TrendRecList CT IC RMS Device Para Recorders Trend rec Observed Value4 Observed Value4 1 n TrendRecList CT IX meas RMS Device Para Recorders Trend rec Observed Value5 Observed Valu...

Page 203: ...iption Hand Reset Hand Reset Direct Commands of the Trend Recorder Parameter Description Setting range Default Menu path Reset Delete all entries Inactive Active Inactive Operation Reset Flags Counter...

Page 204: ...VT Volts Hertz Ratio Volts Hertz in relation to nominal values VT V0 Fund Measured value calculated Symmetrical components Zero voltage Fundamental VT V1 Fund Measured value calculated Symmetrical com...

Page 205: ...red Value Calculated IA Total Harmonic Current CT IB THD Measured Value Calculated IB Total Harmonic Current CT IC THD Measured Value Calculated IC Total Harmonic Current MStart IA FLA Measured value...

Page 206: ...ctive Power Fundamental ECr Syst VAr Fund Measured VARs Reactive power Q Fed Reactive Power Q Consumpted Reactive Power Fundamental ECr Syst W 1 Measured Watts Active power in positive sequence system...

Page 207: ...face of the relay This feature provides information recorded at the time of each start of the motor such as Date of the motor start event Record number And the summary data Maximum RMS phase current o...

Page 208: ...rt Recorder button on the start recorder It is possible to delete individual records that are stored on the protective device First select Receive Start Recorder and then select the record to be delet...

Page 209: ...the displayed setting groups The Starting Profile Plot offers two User Scenarios 1 Adapting the protection settings to the recorded start curve The User will see the impact of parameter changes in th...

Page 210: ...StatisticRec Delete all statistic recorder records start trending Inactive Active Inactive Operation Reset Flags Statistic Recorder The Statistic Recorder shows motor specific statistical data on a mo...

Page 211: ...to select History then press the softkey under the right arrow to access the History functions 4 Scroll to the type of occurrence to be viewed or reset then press the right arrow softkey 5 Scroll to t...

Page 212: ...nchronized via the following protocols IRIG B SNTP Communications Protocol Modbus RTU or TCP and or These protocols use different hardware interfaces and are different in accuracy Further information...

Page 213: ...actors Accuracy of the connected time generator Synchronization protocol that is used and At Modbus TCP and SNTP Network load and data package transmission times Please consider the accuracy of the ti...

Page 214: ...ezone menu 2 There also configure the switching of daylight savings time 3 Select the used time synchronization protocol in the TimeSync menu e g IRIG B 4 Set the parameters of the synchronization pro...

Page 215: ...ertime Daylight Saving Time Only available if DST manual Active Inactive Active Inactive Device Para Time Timezone Summertime m Month of clock change summertime Only available if DST manual Inactive J...

Page 216: ...T manual Inactive 0 59min 0min Device Para Time Timezone Wintertime m Month of clock change wintertime Only available if DST manual Inactive January February March April May June July August September...

Page 217: ...u path Wintertime h Hour of clock change wintertime Only available if DST manual Inactive 0 23h 3h Device Para Time Timezone Wintertime min Minute of clock change wintertime Only available if DST manu...

Page 218: ...C 9 5 Adelaide UTC 9 Tokyo UTC 8 Hong Kong UTC 7 Bangkok UTC 6 5 Rangoon UTC 6 Colombo UTC 5 75 Kath mandu UTC 5 5 New Delhi UTC 5 Islamabad UTC 4 5 Kabul UTC 4 Abu Dhabi UTC 3 5 Tehran UTC 3 Moscow U...

Page 219: ...EMR 4000 IM02602009E Parameter Description Setting range Default Menu path TimeSync Time synchronization IRIG B SNTP Modbus DNP Device Para Time TimeSync TimeSync www eaton com 219...

Page 220: ...or two connected SNTP servers The device s system time will be synchronized by the connected SNTP server 1 to 4 times per minute In turn the SNTP server synchronizes its time via NTP with other NTP s...

Page 221: ...used because this could cause fluctuations of the time synchronization The network quality gives information about the network s load and data package transmission time The quality should be GOOD or...

Page 222: ...nected Check if a valid IP address is set in the device Device Para TCP IP Check if the Ethernet connection is active Device Para TCP IP Link Up Check if the SNTP server as well as the protection devi...

Page 223: ...a Time TimeSync SNTP IP Byte2 IP1 IP2 IP3 IP4 0 255 0 Device Para Time TimeSync SNTP IP Byte3 IP1 IP2 IP3 IP4 0 255 0 Device Para Time TimeSync SNTP IP Byte4 IP1 IP2 IP3 IP4 0 255 0 Device Para Time T...

Page 224: ...Value Description Default Size Menu path NoOfSyncs Total Number of Synchronizations 0 0 9999999999 Operation Count and RevData TimeSync SNTP NoOfConnectLost Total Number of lost SNTP Connections no sy...

Page 225: ...ce counter Total Number of slow Transfers 0 0 9999999999 Operation Count and RevData TimeSync SNTP NoOfHighOffs Service counter Total Number of high Offsets 0 0 9999999999 Operation Count and RevData...

Page 226: ...rver 1 0ms 0 1000 00000ms Operation Status Display TimeSync SNTP PrecServer2 Precision of Server 2 0ms 0 1000 00000ms Operation Status Display TimeSync SNTP ServerQlty Quality of Server used for Synch...

Page 227: ...ion device supports IRIG B according to the IRIG STANDARD 200 04 This means that all time synchronization formats IRIG B00X IRIG B000 B001 B002 B003 B004 B005 B006 B007 are supported It is recommended...

Page 228: ...as being active please proceed as follows To begin with check the IRIG B wiring Check if the correct IRIG B00X type is configured IRIG B Control Commands In addition to the date and time information...

Page 229: ...eration Reset Counter Global Protection Parameters of the IRIG B00X Parameter Description Setting range Default Menu path Function Permanent activation or deactivation of module element Inactive Activ...

Page 230: ...y can be used for further control procedures inside the device e g logic funtions Control Signal9 Signal IRIG B Control Signal The external IRIG B generator can set these signals They can be used for...

Page 231: ...nd RevData TimeSync IRIG B NoOfFrameErrors Total Number of Frame Errors Physically corrupted Frame 0 0 65535 Operation Count and RevData TimeSync IRIG B Edges Edges Total number of rising and falling...

Page 232: ...date and time The User cannot set time and date manually manual changes will be ignored if the clock of the protective device is synchronized automatically e g via IRIG B or SNTP Version Within the D...

Page 233: ...ished That means the User MUST first read out the IP address at the HMI of the device within menu Device para TCP IP then compare the IP address with the list If the addresses are identical establish...

Page 234: ...mm Communication will be acknowledged Inactive Active Inactive Operation Reset Flags Res OperationsCr Reset all counters in history group operations Inactive Active Inactive Operation Reset History Re...

Page 235: ...arameters of the System Parameter Description Setting range Default Menu path PSet Switch Switching Parameter Set PS1 PS2 PS3 PS4 PSS via Inp fct PSS via Comm PSS via Inp fct Protection Para PSet Swit...

Page 236: ...on Para PSet Switch PS4 Activated by This Setting Group will be the active one if The Parameter Setting Group Switch is set to Switch via Input and the other three input functions are inactive at the...

Page 237: ...on Assignment via Ack LED I Module Input State LEDs Acknowledgment by Digital Input Device Para Ex Acknowledge Ack RO I Module Input State Acknowledgment of the Relay Outputs Device Para Ex Acknowledg...

Page 238: ...ed Program Mode Bypass Signal Short period bypass of the Program Mode Maint Mode Active Signal Arc Flash Reduction Maintenance Active Maint Mode Inactive Signal Arc Flash Reduction Maintenance Inactiv...

Page 239: ...enu path Build Build Device Para Version Version Version Device Para Version Operating hours Cr Operating hours counter of the protective device Operation Count and RevData Sys Hours Counter Resettabl...

Page 240: ...hanging the protocol will cause a restart of the device Do not use Modbus RTU Modbus TCP DNP RTU DNP TCP DNP UDP IEC61850 Profibus Do not use Device Planning Signals Output States of the SCADA Interfa...

Page 241: ...IP Advanced Settings Keep Alive Interval Keep Alive Interval is the duration between two successive keep alive retransmissions if the acknowledgement to the previous keepalive transmission was not re...

Page 242: ...ce such as Type of unit version Measuring values statistical measured values Switch operating position in preparation State of device Time and date State of the device s digital inputs and Protection...

Page 243: ...e defining the period within which an inquiry from the master has to be answered Part 2 Hardware Connection For hardware connection to the control system there is an RS485 interface at the rear side o...

Page 244: ...Setting a unit identifier is only necessary if a TCP network should be coupled to a RTU network If a different port than the default port 502 should be used please proceed as follows Choose Private wi...

Page 245: ...P network should be coupled 1 255 255 Device Para Modbus Communication TCP Port Config TCP Port Configuration This parameter is to be set only if the default Modubs TCP Port should not be used Default...

Page 246: ...0s Device Para Modbus Communication Comm CmdBlo Activating allowing Deactivating disallowing the blocking of the Communication Commands Inactive Active Inactive Device Para Modbus Communication Disabl...

Page 247: ...ce 1 n Assignment List Prot Trip Device Para Modbus Configb Registers States Latched Config Bin Inp3 Latched Configurable Binary Input Inactive Active Active Device Para Modbus Configb Registers State...

Page 248: ...bus Configb Registers States Config Bin Inp8 Virtual Digital Input This corresponds to a virtual binary output of the protective device 1 n Assignment List Device Para Modbus Configb Registers States...

Page 249: ...Assignment List BF Trip Device Para Modbus Configb Registers States Latched Config Bin Inp12 Latched Configurable Binary Input Inactive Active Inactive Device Para Modbus Configb Registers States Conf...

Page 250: ...b Registers States Config Bin Inp17 Virtual Digital Input This corresponds to a virtual binary output of the protective device 1 n Assignment List Sgen Running Device Para Modbus Configb Registers Sta...

Page 251: ...e 1 n Assignment List MStart Run Device Para Modbus Configb Registers States Latched Config Bin Inp21 Latched Configurable Binary Input Inactive Active Inactive Device Para Modbus Configb Registers St...

Page 252: ...evice Para Modbus Configb Registers States Config Bin Inp26 Virtual Digital Input This corresponds to a virtual binary output of the protective device 1 n Assignment List Device Para Modbus Configb Re...

Page 253: ...1 n Assignment List Device Para Modbus Configb Registers States Latched Config Bin Inp30 Latched Configurable Binary Input Inactive Active Inactive Device Para Modbus Configb Registers States Config...

Page 254: ...a Modbus Configb Registers Measured Values Mapped Meas 5 Mapped Measured Values They can be used to provide measured values to the Modbus Master 1 n TrendRecList Device Para Modbus Configb Registers M...

Page 255: ...Modbus Configb Registers Measured Values Mapped Meas 13 Mapped Measured Values They can be used to provide measured values to the Modbus Master 1 n TrendRecList Device Para Modbus Configb Registers M...

Page 256: ...ce Para Modbus Configb Registers States Config Bin Inp4 I State of the module input Config Bin Inp Device Para Modbus Configb Registers States Config Bin Inp5 I State of the module input Config Bin In...

Page 257: ...input Config Bin Inp Device Para Modbus Configb Registers States Config Bin Inp13 I State of the module input Config Bin Inp Device Para Modbus Configb Registers States Config Bin Inp14 I State of the...

Page 258: ...input Config Bin Inp Device Para Modbus Configb Registers States Config Bin Inp22 I State of the module input Config Bin Inp Device Para Modbus Configb Registers States Config Bin Inp23 I State of th...

Page 259: ...isters States Config Bin Inp29 I State of the module input Config Bin Inp Device Para Modbus Configb Registers States Config Bin Inp30 I State of the module input Config Bin Inp Device Para Modbus Con...

Page 260: ...Meas 5 Mapped Measured Values They can be used to provide measured values to the Modbus Master Operation Count and RevData Modbus Mapped Meas 6 Mapped Measured Values They can be used to provide measu...

Page 261: ...ey can be used to provide measured values to the Modbus Master Operation Count and RevData Modbus Mapped Meas 15 Mapped Measured Values They can be used to provide measured values to the Modbus Master...

Page 262: ...ation Command Comm Cmd 3 Communication Command Comm Cmd 4 Communication Command Comm Cmd 5 Communication Command Comm Cmd 6 Communication Command Comm Cmd 7 Communication Command Comm Cmd 8 Communicat...

Page 263: ...RevData Modbus NoOfOverrunErros Total Number of Overrun Failures Physically corrupted Frame 0 0 9999999999 Operation Count and RevData Modbus NoOfParityErrors Total number of parity errors Physically...

Page 264: ...tem there is optional an D SUB interface at the rear side of the device Connect bus and device wiring Up to 123 slaves can be connected Terminate the Bus by means of an Terminate Resistor Error Handli...

Page 265: ...Config Bin Inp 2 Virtual Digital Input This corresponds to a virtual binary output of the protective device 1 n Assignment List Device Para Profibus Config Bin Inp 1 16 Latched 2 Defines whether the...

Page 266: ...Input is latched Only available if Latched Active Inactive Active Inactive Device Para Profibus Config Bin Inp 1 16 Config Bin Inp 7 Virtual Digital Input This corresponds to a virtual binary output...

Page 267: ...Input is latched Only available if Latched Active Inactive Active Inactive Device Para Profibus Config Bin Inp 1 16 Config Bin Inp 12 Virtual Digital Input This corresponds to a virtual binary output...

Page 268: ...nput is latched Only available if Latched Active Inactive Active Inactive Device Para Profibus Config Bin Inp 1 16 Config Bin Inp 17 Virtual Digital Input This corresponds to a virtual binary output o...

Page 269: ...Input is latched Only available if Latched Active Inactive Active Inactive Device Para Profibus Config Bin Inp 17 32 Config Bin Inp 22 Virtual Digital Input This corresponds to a virtual binary output...

Page 270: ...Input is latched Only available if Latched Active Inactive Active Inactive Device Para Profibus Config Bin Inp 17 32 Config Bin Inp 27 Virtual Digital Input This corresponds to a virtual binary output...

Page 271: ...nput This corresponds to a virtual binary output of the protective device 1 n Assignment List Device Para Profibus Config Bin Inp 17 32 Latched 31 Defines whether the Input is latched Only available i...

Page 272: ...nt 5 I Module input state Comm Assignment Device Para Profibus Config Bin Inp 1 16 Assignment 6 I Module input state Comm Assignment Device Para Profibus Config Bin Inp 1 16 Assignment 7 I Module inpu...

Page 273: ...s Config Bin Inp 1 16 Assignment 17 I Module input state Comm Assignment Device Para Profibus Config Bin Inp 17 32 Assignment 18 I Module input state Comm Assignment Device Para Profibus Config Bin In...

Page 274: ...input state Comm Assignment Device Para Profibus Config Bin Inp 17 32 Assignment 28 I Module input state Comm Assignment Device Para Profibus Config Bin Inp 17 32 Assignment 29 I Module input state C...

Page 275: ...mand Comm Cmd 3 Communication Command Comm Cmd 4 Communication Command Comm Cmd 5 Communication Command Comm Cmd 6 Communication Command Comm Cmd 7 Communication Command Comm Cmd 8 Communication Comma...

Page 276: ...ation Count and RevData Profibus ssCrcErrors Number of CRC errors that the subsystem has recognized in received trigger frames from host 1 1 99999999 Operation Count and RevData Profibus ssResets Numb...

Page 277: ...hange Operation Status Display Profibus State Baud rate The baud rate that has been detected lastly will still be shown after a connection issue 12 Mb s 6 Mb s 3 Mb s 1 5 Mb s 0 5 Mb s 187500 baud 937...

Page 278: ...out events is submitted between each IED Therefore each IED has to know about the functional capability of all other connected IEDs Each IEC 61850 capable device includes a description of its own func...

Page 279: ...s and Wiring according to wiring scheme Commissioning steps for a substation with IEC 61850 environment 1 Parameter setting of the IEDs Ethernet installation TCP IP settings for the IEDs 2 IEC 61850 c...

Page 280: ...1 Connect the device with your PC Notebook 2 Start Power Port E 3 Click on Receive data from Device in the menu Device 4 Click on IEC61850 in the menu Device Para 5 Click on the SCD icon in the IEC61...

Page 281: ...IEC Communication and submit the changed parameter set into the device 10 Repeat Steps 1 through 9 for all devices connected to this IEC 61850 environment 11 If no error message occurs the configurati...

Page 282: ...ing range Default Menu path VirtualOutput1 Virtual Output This signal can be assigned or visualized via the SCD file to other devices within the IEC61850 substation 1 n Assignment List Device Para IEC...

Page 283: ...igned or visualized via the SCD file to other devices within the IEC61850 substation 1 n Assignment List Device Para IEC61850 VirtualOutput10 Virtual Output This signal can be assigned or visualized v...

Page 284: ...assigned or visualized via the SCD file to other devices within the IEC61850 substation 1 n Assignment List Device Para IEC61850 VirtualOutput20 Virtual Output This signal can be assigned or visualize...

Page 285: ...assigned or visualized via the SCD file to other devices within the IEC61850 substation 1 n Assignment List Device Para IEC61850 VirtualOutput29 Virtual Output This signal can be assigned or visualize...

Page 286: ...Out8 I Module input state Binary state of the Virtual Output GGIO Device Para IEC61850 VirtOut9 I Module input state Binary state of the Virtual Output GGIO Device Para IEC61850 VirtOut10 I Module inp...

Page 287: ...nput state Binary state of the Virtual Output GGIO Device Para IEC61850 VirtOut25 I Module input state Binary state of the Virtual Output GGIO Device Para IEC61850 VirtOut26 I Module input state Binar...

Page 288: ...Input IEC61850 GGIO Ind VirtInp14 Signal Virtual Input IEC61850 GGIO Ind VirtInp15 Signal Virtual Input IEC61850 GGIO Ind VirtInp16 Signal Virtual Input IEC61850 GGIO Ind VirtInp17 Signal Virtual Inp...

Page 289: ...t Quality of GGIO In19 Self Supervision of the GGIO Input Quality of GGIO In20 Self Supervision of the GGIO Input Quality of GGIO In21 Self Supervision of the GGIO Input Quality of GGIO In22 Self Supe...

Page 290: ...that can be set by clients like e g the Master Communication System Single Point Controllable Status Output SPCSO15 Status bit that can be set by clients like e g the Master Communication System Singl...

Page 291: ...e Status Output SPCSO32 Status bit that can be set by clients like e g the Master Communication System Single Point Controllable Status Output IEC 61850 Module Values Value Description Default Size Me...

Page 292: ...NoOfDataReadCorre ct Total Number of correctly read values from this device 0 0 9999999999 Operation Count and RevData IEC61850 NoOfDataWrittenAll Total Number of values written by this device includi...

Page 293: ...OOSE Publisher on or off Off Off On Error Operation Status Display IEC61850 State GooseSubscriberStat e State of the GOOSE Subscriber on or off Off Off On Error Operation Status Display IEC61850 State...

Page 294: ...al Port DNP3 TCP via Ethernet DNP3 UDP via Ethernet DNP Protocol General Settings Please note that unsolicited reporting is not available for serial communication if more than one slave is connected t...

Page 295: ...he general settings of the DNP protocol are done the point mapping is to be done as a next step Binary Inputs States to be send to the master Double Bit Inputs Breaker states to be send to the master...

Page 296: ...NP communication That means do not leave unused inputs outputs in between used inputs outputs e g Do not use Binary Output 1 and 3 when 2 is unused www eaton com 296 DNP Master Protective Relay Point...

Page 297: ...re pulse signals by DNP definition not steady state Steady states can be created by means of Logic functions The Logic Functions can be assigned onto the Relay Inputs Please note You can use a Set Res...

Page 298: ...DA 0 65519 65500 Device Para DNP Communication Global Protection Parameters of the DNP Parameter Description Setting range Default Menu path Function Permanent activation or deactivation of module ele...

Page 299: ...ink packet sending after failing 0 255 3 Device Para DNP Communication Direction Bit Enables Direction Bit functionality The Direction Bit is 0 for SlaveStation and 1 for MasterStation Inactive Active...

Page 300: ...n back from the master 0 255 2 Device Para DNP Communication TestSeqNo Test if sequence number of request is incremented If it is not correctly incremented the request will be ignored It is recommende...

Page 301: ...ist Device Para DNP Point map Binary Inputs BinaryInput 4 Virtual Digital Input DNP This corresponds to a virtual binary output of the protective device 1 n Assignment List Device Para DNP Point map B...

Page 302: ...st Device Para DNP Point map Binary Inputs BinaryInput 13 Virtual Digital Input DNP This corresponds to a virtual binary output of the protective device 1 n Assignment List Device Para DNP Point map B...

Page 303: ...ist Device Para DNP Point map Binary Inputs BinaryInput 22 Virtual Digital Input DNP This corresponds to a virtual binary output of the protective device 1 n Assignment List Device Para DNP Point map...

Page 304: ...ist Device Para DNP Point map Binary Inputs BinaryInput 31 Virtual Digital Input DNP This corresponds to a virtual binary output of the protective device 1 n Assignment List Device Para DNP Point map...

Page 305: ...ist Device Para DNP Point map Binary Inputs BinaryInput 40 Virtual Digital Input DNP This corresponds to a virtual binary output of the protective device 1 n Assignment List Device Para DNP Point map...

Page 306: ...ist Device Para DNP Point map Binary Inputs BinaryInput 49 Virtual Digital Input DNP This corresponds to a virtual binary output of the protective device 1 n Assignment List Device Para DNP Point map...

Page 307: ...ist Device Para DNP Point map Binary Inputs BinaryInput 58 Virtual Digital Input DNP This corresponds to a virtual binary output of the protective device 1 n Assignment List Device Para DNP Point map...

Page 308: ...ive device 1 n Assignment List Device Para DNP Point map Double Bit Inputs DoubleBitInput 3 Double Bit Digital Input DNP This corresponds to a double bit binary output of the protective device 1 n Ass...

Page 309: ...er 1 n Assignment List Device Para DNP Point map BinaryCounter BinaryCounter 5 Counter can be used to report counter values to the DNP master 1 n Assignment List Device Para DNP Point map BinaryCounte...

Page 310: ...alog value 1 Analog value can be used to report values to the master DNP 1 n TrendRecList Device Para DNP Point map Analog Input Scale Factor 1 The scale factor is used to convert the measured value i...

Page 311: ...alog value 3 Analog value can be used to report values to the master DNP 1 n TrendRecList Device Para DNP Point map Analog Input Scale Factor 3 The scale factor is used to convert the measured value i...

Page 312: ...alog value 5 Analog value can be used to report values to the master DNP 1 n TrendRecList Device Para DNP Point map Analog Input Scale Factor 5 The scale factor is used to convert the measured value i...

Page 313: ...alog value 7 Analog value can be used to report values to the master DNP 1 n TrendRecList Device Para DNP Point map Analog Input Scale Factor 7 The scale factor is used to convert the measured value i...

Page 314: ...log value 9 Analog value can be used to report values to the master DNP 1 n TrendRecList Device Para DNP Point map Analog Input Scale Factor 9 The scale factor is used to convert the measured value in...

Page 315: ...log value 11 Analog value can be used to report values to the master DNP 1 n TrendRecList Device Para DNP Point map Analog Input Scale Factor 11 The scale factor is used to convert the measured value...

Page 316: ...log value 13 Analog value can be used to report values to the master DNP 1 n TrendRecList Device Para DNP Point map Analog Input Scale Factor 13 The scale factor is used to convert the measured value...

Page 317: ...log value 15 Analog value can be used to report values to the master DNP 1 n TrendRecList Device Para DNP Point map Analog Input Scale Factor 15 The scale factor is used to convert the measured value...

Page 318: ...log value 17 Analog value can be used to report values to the master DNP 1 n TrendRecList Device Para DNP Point map Analog Input Scale Factor 17 The scale factor is used to convert the measured value...

Page 319: ...log value 19 Analog value can be used to report values to the master DNP 1 n TrendRecList Device Para DNP Point map Analog Input Scale Factor 19 The scale factor is used to convert the measured value...

Page 320: ...log value 21 Analog value can be used to report values to the master DNP 1 n TrendRecList Device Para DNP Point map Analog Input Scale Factor 21 The scale factor is used to convert the measured value...

Page 321: ...log value 23 Analog value can be used to report values to the master DNP 1 n TrendRecList Device Para DNP Point map Analog Input Scale Factor 23 The scale factor is used to convert the measured value...

Page 322: ...log value 25 Analog value can be used to report values to the master DNP 1 n TrendRecList Device Para DNP Point map Analog Input Scale Factor 25 The scale factor is used to convert the measured value...

Page 323: ...log value 27 Analog value can be used to report values to the master DNP 1 n TrendRecList Device Para DNP Point map Analog Input Scale Factor 27 The scale factor is used to convert the measured value...

Page 324: ...log value 29 Analog value can be used to report values to the master DNP 1 n TrendRecList Device Para DNP Point map Analog Input Scale Factor 29 The scale factor is used to convert the measured value...

Page 325: ...he master 0 01 100 00 1 Device Para DNP Point map Analog Input Analog value 31 Analog value can be used to report values to the master DNP 1 n TrendRecList Device Para DNP Point map Analog Input Scale...

Page 326: ...Digital Input DNP This corresponds to a virtual binary output of the protective device Device Para DNP Point map Binary Inputs BinaryInput4 I Virtual Digital Input DNP This corresponds to a virtual bi...

Page 327: ...Device Para DNP Point map Binary Inputs BinaryInput12 I Virtual Digital Input DNP This corresponds to a virtual binary output of the protective device Device Para DNP Point map Binary Inputs BinaryIn...

Page 328: ...e Device Para DNP Point map Binary Inputs BinaryInput21 I Virtual Digital Input DNP This corresponds to a virtual binary output of the protective device Device Para DNP Point map Binary Inputs BinaryI...

Page 329: ...e Device Para DNP Point map Binary Inputs BinaryInput30 I Virtual Digital Input DNP This corresponds to a virtual binary output of the protective device Device Para DNP Point map Binary Inputs BinaryI...

Page 330: ...e Device Para DNP Point map Binary Inputs BinaryInput39 I Virtual Digital Input DNP This corresponds to a virtual binary output of the protective device Device Para DNP Point map Binary Inputs BinaryI...

Page 331: ...e Device Para DNP Point map Binary Inputs BinaryInput48 I Virtual Digital Input DNP This corresponds to a virtual binary output of the protective device Device Para DNP Point map Binary Inputs BinaryI...

Page 332: ...e Device Para DNP Point map Binary Inputs BinaryInput57 I Virtual Digital Input DNP This corresponds to a virtual binary output of the protective device Device Para DNP Point map Binary Inputs BinaryI...

Page 333: ...sponds to a double bit binary output of the protective device Device Para DNP Point map Double Bit Inputs DoubleBitInput2 I Double Bit Digital Input DNP This corresponds to a double bit binary output...

Page 334: ...n time time since last reset Resettable with Sys Res TotalCr or All MStart TOCS Total Motor Operation count since last reset Resettable with Sys Res TotalCr or All MStart nTRNTrips Number of transitio...

Page 335: ...nary input of the protective device BinaryOutput12 Virtual Digital Output DNP This corresponds to a virtual binary input of the protective device BinaryOutput13 Virtual Digital Output DNP This corresp...

Page 336: ...ta DNP NSent Diagnostic counter Number of sent characters 0 0 9999999999 Operation Count and RevData DNP NBadFramings Diagnostic counter Number of bad framings A large number indicates a disturbed ser...

Page 337: ...ameters By modifying the Device Parameters the User may depending on the type of device Configure digital inputs Assign LEDs Configure Relay Outputs Assign acknowledgment signals Configure statistics...

Page 338: ...erial damage as a result of incorrect planning Contact your Eaton Customer Service representative for more information The protection parameters include the following protection parameter trees Global...

Page 339: ...Resetting of a Counter State of the Module Inputs Module Inputs are part of the Device Parameter tree The State of the Module Input is context dependent By means of the Module Inputs information can b...

Page 340: ...0 s Active Inactive Active Inactive 0 In 1 n 0 s 0 05 n 1 n 0 s Active Inactive Active Inactive 0 In 1 n 0 s 0 05 n 1 n 0 s Active Inactive Active Inactive 0 In 1 n 0 s 0 05 n 1 n 0 s Active Inactive...

Page 341: ...so be used to realize various special protective functions or to expand the existing function modules in a simple way without costly redesign the existing hardware or software platform The Adaptive Pa...

Page 342: ...I 2 Signal Digital Input DI 8P X1 DI 3 Signal Digital Input DI 8P X1 DI 4 Signal Digital Input DI 8P X1 DI 5 Signal Digital Input DI 8P X1 DI 6 Signal Digital Input DI 8P X1 DI 7 Signal Digital Input...

Page 343: ...50 GGIO Ind IEC61850 VirtInp17 Signal Virtual Input IEC61850 GGIO Ind IEC61850 VirtInp18 Signal Virtual Input IEC61850 GGIO Ind IEC61850 VirtInp19 Signal Virtual Input IEC61850 GGIO Ind IEC61850 VirtI...

Page 344: ...like e g the Master Communication System Single Point Controllable Status Output IEC61850 SPCSO12 Status bit that can be set by clients like e g the Master Communication System Single Point Controlla...

Page 345: ...4 Out Signal Latched Output Q Logic LE4 Out inverted Signal Negated Latched Output Q NOT Logic LE5 Gate Out Signal Output of the logic gate Logic LE5 Timer Out Signal Timer Output Logic LE5 Out Signal...

Page 346: ...nverted Signal Negated Latched Output Q NOT Logic LE14 Gate Out Signal Output of the logic gate Logic LE14 Timer Out Signal Timer Output Logic LE14 Out Signal Latched Output Q Logic LE14 Out inverted...

Page 347: ...ate Out Signal Output of the logic gate Logic LE23 Timer Out Signal Timer Output Logic LE23 Out Signal Latched Output Q Logic LE23 Out inverted Signal Negated Latched Output Q NOT Logic LE24 Gate Out...

Page 348: ...LE32 Timer Out Signal Timer Output Logic LE32 Out Signal Latched Output Q Logic LE32 Out inverted Signal Negated Latched Output Q NOT Logic LE33 Gate Out Signal Output of the logic gate Logic LE33 Tim...

Page 349: ...LE41 Out Signal Latched Output Q Logic LE41 Out inverted Signal Negated Latched Output Q NOT Logic LE42 Gate Out Signal Output of the logic gate Logic LE42 Timer Out Signal Timer Output Logic LE42 Ou...

Page 350: ...nverted Signal Negated Latched Output Q NOT Logic LE51 Gate Out Signal Output of the logic gate Logic LE51 Timer Out Signal Timer Output Logic LE51 Out Signal Latched Output Q Logic LE51 Out inverted...

Page 351: ...Signal Latched Output Q Logic LE56 Out inverted Signal Negated Latched Output Q NOT Logic LE57 Gate Out Signal Output of the logic gate Logic LE57 Timer Out Signal Timer Output Logic LE57 Out Signal L...

Page 352: ...LE62 Timer Out Signal Timer Output Logic LE62 Out Signal Latched Output Q Logic LE62 Out inverted Signal Negated Latched Output Q NOT Logic LE63 Gate Out Signal Output of the logic gate Logic LE63 Tim...

Page 353: ...EMR 4000 IM02602009E Name Description Logic LE67 Out Signal Latched Output Q Logic LE67 Out inverted Signal Negated Latched Output Q NOT www eaton com 353...

Page 354: ...ate Out Signal Output of the logic gate Logic LE72 Timer Out Signal Timer Output Logic LE72 Out Signal Latched Output Q Logic LE72 Out inverted Signal Negated Latched Output Q NOT Logic LE73 Gate Out...

Page 355: ...Output Q NOT Logic LE79 Gate Out Signal Output of the logic gate Logic LE79 Timer Out Signal Timer Output Logic LE79 Out Signal Latched Output Q Logic LE79 Out inverted Signal Negated Latched Output...

Page 356: ...he corresponding Adaptive Set 5 Set the modified parameter for the selected Adaptive Set Application Example The tripping time t for the 50 1 element of Parameter Set 1 should be desensitized reduced...

Page 357: ...on can easily be realized using the Adaptive Parameter features mentioned previously The standard time overcurrent protection element e g 51P should trip instantaneously in case of SOTF condition If t...

Page 358: ...that desensitizes the overcurrent protection By means of Adaptive Parameter Sets an Adaptive Auto Reclosure can be realized After a reclosure attempt the tripping thresholds or tripping curves of the...

Page 359: ...2 This password provides access to the reset and acknowledge options In addition to that it permits changing of protection settings and the configuration of the trip manager Control Lv1 This password...

Page 360: ...e passwords have to be kept as a secret and to be known only by the authorized persons A lock symbol indicates in the upper right corner of the display if there are any access authorizations active at...

Page 361: ...difications are not overtaken by the device indicated by a star symbol in the upper left corner The passwords are part of the device fixed assignments That means passwords will not be overwritten if a...

Page 362: ...urrently unlocked As soon as there is an unlocked access area authorization above Read Only Lv0 this will be indicated by an unlocked lock symbol within the upper right corner of the device display ww...

Page 363: ...Passwords during Commissioning It is possible optionally to deactivate passwords during commissioning It is not allowed to use this feature for other purposes than commissioning In order to deactivat...

Page 364: ...xample For password 3244 press successively Softkey 3 Softkey 2 Softkey 4 Softkey 4 Password Forgotten By pressing the Ack Rst key during cold booting a reset menu will be called up By selecting Reset...

Page 365: ...e obtained In order to do the parameter changes please proceed as follows Move to the parameter you want to change by using the Softkeys If the parameter is selected the lower right corner of the disp...

Page 366: ...l at any time where parameter changes have been made and have not been saved finally In addition to the star trace to the temporary saved parameter changes a general parameter changing symbol is faded...

Page 367: ...by the question mark plausibility trace This makes it possible to control or follow from the main menu level at any time where implausibilities are intended to be saved In addition to the question ma...

Page 368: ...hanges by pressing the Yes Softkey or dismiss by pressing No To change additional parameters and save afterwards move to other parameters and change them A star symbol in front of the changed paramete...

Page 369: ...by the question mark plausibility trace This makes it possible to control or follow from the main menu level at any time where implausibilities are intended to be saved In addition to the question mar...

Page 370: ...That means if there is more or less than one request signal active no switch over will be executed Example DI3 is assigned onto Parameter set 1 DI3 is active 1 DI4 is assigned onto Parameter set 2 DI...

Page 371: ...ic gate Logic LE2 Timer Out Signal Timer Output Logic LE2 Out Signal Latched Output Q Logic LE2 Out inverted Signal Negated Latched Output Q NOT Logic LE3 Gate Out Signal Output of the logic gate Logi...

Page 372: ...t Signal Output of the logic gate Logic LE11 Timer Out Signal Timer Output Logic LE11 Out Signal Latched Output Q Logic LE11 Out inverted Signal Negated Latched Output Q NOT Logic LE12 Gate Out Signal...

Page 373: ...LE20 Timer Out Signal Timer Output Logic LE20 Out Signal Latched Output Q Logic LE20 Out inverted Signal Negated Latched Output Q NOT Logic LE21 Gate Out Signal Output of the logic gate Logic LE21 Tim...

Page 374: ...LE29 Out Signal Latched Output Q Logic LE29 Out inverted Signal Negated Latched Output Q NOT Logic LE30 Gate Out Signal Output of the logic gate Logic LE30 Timer Out Signal Timer Output Logic LE30 Ou...

Page 375: ...nverted Signal Negated Latched Output Q NOT Logic LE39 Gate Out Signal Output of the logic gate Logic LE39 Timer Out Signal Timer Output Logic LE39 Out Signal Latched Output Q Logic LE39 Out inverted...

Page 376: ...ate Out Signal Output of the logic gate Logic LE48 Timer Out Signal Timer Output Logic LE48 Out Signal Latched Output Q Logic LE48 Out inverted Signal Negated Latched Output Q NOT Logic LE49 Gate Out...

Page 377: ...LE57 Timer Out Signal Timer Output Logic LE57 Out Signal Latched Output Q Logic LE57 Out inverted Signal Negated Latched Output Q NOT Logic LE58 Gate Out Signal Output of the logic gate Logic LE58 Tim...

Page 378: ...LE66 Out Signal Latched Output Q Logic LE66 Out inverted Signal Negated Latched Output Q NOT Logic LE67 Gate Out Signal Output of the logic gate Logic LE67 Timer Out Signal Timer Output Logic LE67 Ou...

Page 379: ...nverted Signal Negated Latched Output Q NOT Logic LE76 Gate Out Signal Output of the logic gate Logic LE76 Timer Out Signal Timer Output Logic LE76 Out Signal Latched Output Q Logic LE76 Out inverted...

Page 380: ...rameter changes do not require the breaker to be in the OPEN state Unlike if the Program Mode is used for Motor Protection devices the user has the following options Motor Stop Lock parameter changes...

Page 381: ...the primary side and the mains operational method like frequency primary and secondary values and the star point treatment General System Parameters Parameter Description Setting range Default Menu p...

Page 382: ...er defines the primary nominal current of the connected ground current transformer If the ground current is measured via the Residual connection the primary value of the phase current transformer must...

Page 383: ...T con Main VTs connection Wye Phase to Phase Open Delta Wye System Para Aux VT pri Primary voltage of Aux VTs 60 500000V 12000V System Para Aux VT sec Secondary voltage of Aux VTs 35 00 600 00V 120V S...

Page 384: ...Off Set the Function parameter to Active or Inactive in the Prot module Protection is activated only if in the Prot module the parameter Function is Active i e with Function Inactive no protection fun...

Page 385: ...general protection parameters a signal has to be additionally chosen from the Assignment list The blocking only becomes active when the assigned signal is active To Block the Tripping Command of a Pro...

Page 386: ...of a Protection Module www eaton com 386 Inactive Active Name Blo TripCmd Inactive Active Name ExBlo TripCmd Fc 1 n Assignment List Name ExBlo TripCmd Name ExBlo TripCmd Trip Blockings Name All Module...

Page 387: ...ked Name ExBlo1 I 1 n Assignment List Name ExBlo 2 Name ExBlo2 I Name A ll Modules That A re Blockable 1 2 Please Refer to Diagram Prot OR AND All protective elements will be blocked that are using fu...

Page 388: ...t Name ExBlo 1 1 n Assignment List Name Rvs Blo Name ExBlo Name Rvs Blo Blockings Th e G en eral Protection module is no t deact ivate d or blocke d Name I 1 n IG 1 n Name ExBlo1 I Name Rvs Blo I 1 n...

Page 389: ...In such a case the protective function is Inactive Protection Active If the master Protection module was activated and a blockade for this module was not activated respectively the assigned blocking s...

Page 390: ...1 Prot ExBlo Prot Active 1 n Assignment List Prot ExBlo 2 Prot ExBlo1 I Prot ExBlo2 I AND Prot Available Measured Values OK At the moment no parameter is being changed except parameter set parameters...

Page 391: ...signal OR ed from all protection elements Prot Trip is the collective Trip signal OR ed from all protection elements and etc The Tripping commands of the protection elements have to be fed to the Bkr...

Page 392: ...EMR 4000 IM02602009E www eaton com 392 Prot Trip Name Trip Name Each trip of an active trip authorized protection module will lead to a general trip Name Trip Prot Trip Name n Trip 15 15 15 OR...

Page 393: ...9E www eaton com 393 Prot Pickup Prot Pickup Name Pickup Name Pickup Name Pickup Name Each pickup of a module except from supervision modules but including BF will lead to a general pickup collective...

Page 394: ...e will lead to a phase selective general trip 19c 19d 23 OR Prot Trip Phase A 50P 1 n Trip Phase A 51P 1 n Trip Phase A V n Trip Phase A 16a 16b 20 OR Prot Trip Phase B 50P 1 n Trip Phase B 51P 1 n Tr...

Page 395: ...o a phase selective general pickup collective pickup 27c 27d 31 OR Prot Pickup Phase B 50P 1 n Pickup IB V n Pickup Phase B 25a 29 OR 51P 1 n Pickup IB 25b Prot Pickup Phase C 50P 1 n Pickup IC V n Pi...

Page 396: ...global protection functionality of the device Inactive Active Inactive Protection Para Global Prot Para Prot ExBlo1 If external blocking of this module is activated allowed the global protection funct...

Page 397: ...kup Signal General Pickup Trip Phase A Signal General Trip Phase A Trip Phase B Signal General Trip Phase B Trip Phase C Signal General Trip Phase C Trip IX or IR Signal General Trip Ground Fault Trip...

Page 398: ...to live parts of a system Beside protection functions protective relays more and more will take care about controlling switchgear like breakers load break switches disconnectors and ground connectors...

Page 399: ...ile Switchgear Configuration Wiring At first the switchgear positioning indicators have to be connected to the digital inputs of the protection device One of the position indicators either the Aux CLO...

Page 400: ...feedback indication of the switchgear is also possible by one Aux contact In the menu Control Bkr Bkr x the assignments for the position indications have to be set Detection of switchgear position wit...

Page 401: ...ome true If the command is executed and properly fed back before the timer has run down POS OPEN will become true Otherwise if the timer has expired POS DISTURB will become true The following table sh...

Page 402: ...gnal Pos Indeterm disappears If the moving time elapsed before the switchgear has reached the end position the switching operation was not successful and the Position Indication will change to POS Dis...

Page 403: ...ositions Aux CLOSE I Aux OPEN I POS CLOSE POS OPEN POS Indeterm POS Disturb POS State Not wired 0 0 0 1 while t Move OPEN is running 0 while t Move OPEN is running 0 Intermediate Not wired 1 0 1 0 0 1...

Page 404: ...Manual Switch Command Auto reclosure issues the following commands Automatic Switch Command Protection issues Trip Command e g 50P Interlockings AND Trip command assigned and configured within the Tr...

Page 405: ...assigned in the Trip Manager lead to an operation of the switchgear In addition to that the User can set the minimum hold time of the tripping command within this module and define whether the trippi...

Page 406: ...ctive Bkr Latched R TripCmd Cr Bkr Res TripCmdCr Name TripCmd Name TripCmd Name TripCmd Name TripCmd Acknowledge HMI Acknowledge 1 n Assignment List Acknowledge Comm Name Each trip of an active trip a...

Page 407: ...ronizm defines which signal indicates synchronizm If the synchronizm condition shall be evaluated by the internal Synch Check module the signal Sync Ready to Close release by synch check module has to...

Page 408: ...Signal Breaker Ready Trigger x Trigger x Synchronizm B r e a k e r BreakerOPEN Command BreakerCLOSE Command Trip Command CLOSE Request Position Indication OPEN CLOSE Indeterminated Disturbed HMI Auto...

Page 409: ...ngle command Permanent Non interlocked switching for a certain time Non interlocked switching activated by an assigned signal The set time for non interlocked switching applies also for the single Ope...

Page 410: ...ADA Anti Pumping By pressing the CLOSE command softkey only a single switching CLOSE impulse will be issued independent how long the softkey is actuated The switchgear will close only once per close c...

Page 411: ...y are available within the device like Auto Reclosure AR e g as a trigger signal 1 n Dig Inputs Control Bkr Pos Indicatrs Wirng Interl CLOSE1 Interlocking of the CLOSE command 1 n Assignment List Wire...

Page 412: ...anager Ack TripCmd Ack TripCmd 1 n Assignment List Control Bkr Trip Manager Trigger1 Open Command to the Breaker if the state of the assigned signal becomes true 1 n Trip Cmds 50P 1 TripCmd Control Bk...

Page 413: ...rue 1 n Trip Cmds 51X 2 TripCmd Control Bkr Trip Manager Trigger11 Open Command to the Breaker if the state of the assigned signal becomes true 1 n Trip Cmds 50R 1 TripCmd Control Bkr Trip Manager Tri...

Page 414: ...signal becomes true 1 n Trip Cmds 59A 1 TripCmd Control Bkr Trip Manager Trigger22 Open Command to the Breaker if the state of the assigned signal becomes true 1 n Trip Cmds 59A 2 TripCmd Control Bkr...

Page 415: ...n Trip Cmds 32 2 TripCmd Control Bkr Trip Manager Trigger33 Open Command to the Breaker if the state of the assigned signal becomes true 1 n Trip Cmds 32V 1 TripCmd Control Bkr Trip Manager Trigger34...

Page 416: ...es true 1 n Trip Cmds 37 2 TripCmd Control Bkr Trip Manager Trigger44 Open Command to the Breaker if the state of the assigned signal becomes true 1 n Trip Cmds 81 2 TripCmd Control Bkr Trip Manager T...

Page 417: ...ecomes true 1 n Trip Cmds Control Bkr Trip Manager Trigger53 Open Command to the Breaker if the state of the assigned signal becomes true 1 n Trip Cmds Control Bkr Trip Manager Trigger54 Open Command...

Page 418: ...nterlocking of the CLOSE command Control Bkr Interlockings Interl CLOSE2 I State of the module input Interlocking of the CLOSE command Control Bkr Interlockings Interl CLOSE3 I State of the module inp...

Page 419: ...nd executed successfully CES Disturbed Signal Command Execution Supervision Switching Command unsuccessful Switchgear in disturbed position CES Fail TripCmd Signal Command Execution Supervision Comman...

Page 420: ...X1 DI 8 Signal Digital Input Logic LE1 Gate Out Signal Output of the logic gate Logic LE1 Timer Out Signal Timer Output Logic LE1 Out Signal Latched Output Q Logic LE1 Out inverted Signal Negated Lat...

Page 421: ...er Out Signal Timer Output Logic LE9 Out Signal Latched Output Q Logic LE9 Out inverted Signal Negated Latched Output Q NOT Logic LE10 Gate Out Signal Output of the logic gate Logic LE10 Timer Out Sig...

Page 422: ...LE18 Out Signal Latched Output Q Logic LE18 Out inverted Signal Negated Latched Output Q NOT Logic LE19 Gate Out Signal Output of the logic gate Logic LE19 Timer Out Signal Timer Output Logic LE19 Ou...

Page 423: ...EMR 4000 IM02602009E Name Description Logic LE23 Out inverted Signal Negated Latched Output Q NOT www eaton com 423...

Page 424: ...ate Out Signal Output of the logic gate Logic LE28 Timer Out Signal Timer Output Logic LE28 Out Signal Latched Output Q Logic LE28 Out inverted Signal Negated Latched Output Q NOT Logic LE29 Gate Out...

Page 425: ...LE37 Timer Out Signal Timer Output Logic LE37 Out Signal Latched Output Q Logic LE37 Out inverted Signal Negated Latched Output Q NOT Logic LE38 Gate Out Signal Output of the logic gate Logic LE38 Tim...

Page 426: ...LE46 Out Signal Latched Output Q Logic LE46 Out inverted Signal Negated Latched Output Q NOT Logic LE47 Gate Out Signal Output of the logic gate Logic LE47 Timer Out Signal Timer Output Logic LE47 Ou...

Page 427: ...nverted Signal Negated Latched Output Q NOT Logic LE56 Gate Out Signal Output of the logic gate Logic LE56 Timer Out Signal Timer Output Logic LE56 Out Signal Latched Output Q Logic LE56 Out inverted...

Page 428: ...ate Out Signal Output of the logic gate Logic LE65 Timer Out Signal Timer Output Logic LE65 Out Signal Latched Output Q Logic LE65 Out inverted Signal Negated Latched Output Q NOT Logic LE66 Gate Out...

Page 429: ...LE74 Timer Out Signal Timer Output Logic LE74 Out Signal Latched Output Q Logic LE74 Out inverted Signal Negated Latched Output Q NOT Logic LE75 Gate Out Signal Output of the logic gate Logic LE75 Tim...

Page 430: ...the SG OPEN Capacity continuously 100 means that switchgear maintenance is mandatory now The protective relay will make a alarm decision based on the curve that the user provides The relay will monit...

Page 431: ...nts that the user can replicate the switchgear wear curve within menu Control SG SG x SGW Each point has two settings the interrupt current in kilo amperes and the allowed operation counts No matter h...

Page 432: ...an alarm will be issued The breaker maintenance curve is to be taken from the technical data sheet of the breaker manufactor By means of the available points this curve is to be replicated Inactive Ac...

Page 433: ...Only available if Bwear Curve Fc Active 1 32000 1900 Control Bkr Bwear Current5 Interrupted Current Level 5 Only available if Bwear Curve Fc Active 0 00 2000 00kA 5 00kA Control Bkr Bwear Count5 Open...

Page 434: ...ervice Alarm too many Operations Isum Intr trip IA Signal Maximum permissible Summation of the interrupting tripping currents exceeded IA Isum Intr trip IB Signal Maximum permissible Summation of the...

Page 435: ...Operation Reset Counter Res Isum trip Reset summation of the tripping currents Inactive Active Inactive Operation Reset Counter Res Isum Intr per hour Sum per hour of interrupting currents Inactive A...

Page 436: ...thority Local Remote Switching Authority Remote SG Indeterm Minimum one Switchgear is moving Position cannot be determined SG Disturb Minimum one Switchgear is disturbed Counters of the Control Module...

Page 437: ...nal Trip Command 50R 2 TripCmd Signal Trip Command 51R 1 TripCmd Signal Trip Command 51R 2 TripCmd Signal Trip Command 49 TripCmd Signal Trip Command 50J 1 TripCmd Signal Trip Command 50J 2 TripCmd Si...

Page 438: ...mand 32V 1 TripCmd Signal Trip Command 32V 2 TripCmd Signal Trip Command 32V 3 TripCmd Signal Trip Command PF 55D 1 TripCmd Signal Trip Command PF 55D 2 TripCmd Signal Trip Command PF 55A 1 TripCmd Si...

Page 439: ...itching authority and interlockings can be set By means of the softkey SG it can be switched to the menu SG In this menu specific settings for the switch gear can be done This page can be directly cal...

Page 440: ...l or Local and Remote Now it is possible to execute switching commands at the HMI Push the right arrow softkey to get to the control page The breaker is opened therefore it can be closed only After pu...

Page 441: ...chgear It will be shown on the display when the switchgear reaches the new end position Further possible switching operations OPEN will be displayed by softkeys Notice For the case the switchgear does...

Page 442: ...re if needed to block IOC tripping on magnetizing inrush when the motor is first energized An additional IOC time delay setting is set at a default of zero seconds IOC Trip Level The IOC sets the inst...

Page 443: ...fortably below the JAM trip level It may be useful to set it below the Ultimate Trip Current particularly if RTDs are not used The load shed function provides a contact output signal that the User con...

Page 444: ...range Default Menu path ExBlo1 External blocking of the module if blocking is activated allowed within a parameter set and if the state of the assigned signal is true 1 n Assignment List Protection Pa...

Page 445: ...orresponding global protection parameter If the signal becomes true those modules elements are blocked that are parameterized ExBlo Fc active Inactive Active Inactive Protection Para 1 4 MLS Pickup Th...

Page 446: ...te External Blocking1 Protection Para Global Prot Para MLS ExBlo2 I Module Input State External Blocking2 Protection Para Global Prot Para MLS Load Shedding Signals Output States Signal Description Ac...

Page 447: ...be an indication of a malfunction in the load JAM protection recognizes mechanical problems such as broken drive gears Refer to the JAM protection limit the right vertical line in the Underload and JA...

Page 448: ...urve also applies to JAM setting configured as an alarm Be sure to set the alarm level below the trip level Both trips and alarms are held off by the JAM Start Delay located under the Global Prot Para...

Page 449: ...the assigned signal is true 1 n Assignment List Protection Para Global Prot Para JAM Prot 50J 1 ExBlo2 External blocking of the module if blocking is activated allowed within a parameter set and if t...

Page 450: ...otection Para 1 4 JAM Prot 50J 1 Blo TripCmd Permanent blocking of the Trip Command of the module element Inactive Active 50J 1 Inactive 50J 2 Active Protection Para 1 4 JAM Prot 50J 1 ExBlo TripCmd F...

Page 451: ...Global Prot Para JAM Prot 50J 1 ExBlo TripCmd I Module Input State External Blocking of the Trip Command Protection Para Global Prot Para JAM Prot 50J 1 JAM Protection Signals Output States Signal De...

Page 452: ...ands since last reset 0 0 9999999999 Operation History TripCmdCr Commissioning Test Description Set the JAM Start delay timer to one second Set the JAM function to Active and Threshold to 2 X FLA Set...

Page 453: ...his period of time both the negative and positive sequence currents are used in the equation that approximates the heat generated in a locked rotor condition The heat can be approximated by the equati...

Page 454: ...or operations should go through stop start run and stop cycles that are referred to as a complete operation sequence while under certain abnormal conditions the motor could go from start to stop or st...

Page 455: ...k M Start Bl o StartPerH our 0 Acti ve Inactive SPH Fc Acti ve Inactive TBS F c Acti ve Inactive ABK Fc Acti ve Inactive Therm Blo F c Acti ve Inactive Rem Star tBlo F c R ea s on for S tar t B lo ck...

Page 456: ...ontrol detects an unsuccessful Start Please see section Start Control Module There is an Incomplete Start Sequence The device detects via an digital input that the external process is not properly sta...

Page 457: ...vated or blocked LRTC 2 1 t Start ZSS I Start IA FLA IB FLA IC FLA TRNC t 0 TRNT TRN I TRN T and I TRN Criteria R Reversing TripPhaseReverse Trip during Motor Start Reason Motor Start Phase Supervisio...

Page 458: ...eds 30 of the FLA setting Meanwhile the transition timer TRNT begins to run The protective device also monitors the large starting current noting when the current falls below the transition level TRNC...

Page 459: ...oid a transition trip Start Delays When the protective device declares a START all start timers of the enabled functions begin to time Each of these timers blocks the respective function until the set...

Page 460: ...ck flag is still set the cold start sequence will be terminated and the NOCS block will be released Meanwhile the SPH will start to count at the last start in the complete cold start sequence Stop Cyc...

Page 461: ...applications a Forced Starting flag will be set when the motor is started with the blocked conditions This flag can only be reset manually though PowerPort E or from the front panel Trips and Trip Byp...

Page 462: ...lly begins to spin Connect the zero speed switch contact to one of the protective device Discrete Inputs The Zero Speed Switch function must be enabled ZSS ON The protective device requires the zero s...

Page 463: ...AT setting greater than locked rotor time without a zero speed switch temporarily defeats thermal protection and damages the motor if the rotor actually is locked If LAT is used check the settings of...

Page 464: ...back timing Connect the report back contact to one of the protective device Discrete Inputs If this input is not energized before the set time expires the relay will trip on an Incomplete Sequence Not...

Page 465: ...trip of a running motor The emergency override action is counted in the history record and noted with its time tag in the logbook record The emergency override function clears and restarts all protect...

Page 466: ...onds for a cold start Use motor nameplate or manufacturers data 1 120s 1s System Para UTC Ultimate trip threshold Sets the current level above which a trip will eventually occur when no RTD stator tem...

Page 467: ...TRN TIME 0 1200s 10s Protection Para Global Prot Para MStart Start Control TRNC Motor start transitions current level in FLA Only available if TRN Criteria TRN T and I Or TRN Criteria TRN I 0 10 3 00...

Page 468: ...ing then the relay will not trip on the normal locked rotor time allowing the motor to start Only available if LAT Fc Active 1 1200s 1200s Protection Para Global Prot Para MStart Start Control ABK Fc...

Page 469: ...ermal capacity of the motor Please notice that by doing this you run the risk of damaging the motor EMGOVR has to be set to DI or DI or UI for this input to take effect 1 n Dig Inputs Protection Para...

Page 470: ...Prot Para MStart Start Delay Timer t Blo VUnbalance Voltage Unbalance Start Delay These elements are blocked for the time programmed under this parameter while the motor is starting 0 1200s 1s Protec...

Page 471: ...t Blo Generic1 0 1200s 0s Protection Para Global Prot Para MStart Start Delay Timer t Blo Generic2 t Blo Generic2 0 1200s 0s Protection Para Global Prot Para MStart Start Delay Timer t Blo Generic3 t...

Page 472: ...Protection Para 1 4 MStart Start Control ExBlo TripCmd Fc Activate allow or inactivate disallow blocking of the module element This parameter is only effective if a signal is assigned to the correspo...

Page 473: ...of the motor Please notice that by doing this you run the risk of damaging the motor EMGOVR has to be set to DI or DI or UI for this input to take effect Protection Para Global Prot Para MStart Motor...

Page 474: ...StartSeq Signal Motor cold start sequence flag ForcedStart Signal Motor being forced to start TripPhaseReverse Signal Relay tripped because of phase reverse detection EmergOverrideDI Signal Emergency...

Page 475: ...VStartBlock Signal Undervoltage Start Delay Undervoltage elements are blocked for the time programmed under this parameter OverVStartBlock Signal Overvoltage Start Delay Overvoltage elements are block...

Page 476: ...ill increment the SPH counter again 0min 0 9999999999min Operation Measured Values Motor Values AntiBackSpin Anti BackspinTimer 0s 0 9999999999s Operation Measured Values Motor Values IA FLA Measured...

Page 477: ...with Sys Res TripCr or All 0 0 65535 Operation History TripCmdCr nSPHBlocks Number of start per hour blocks since last reset Resettable with Sys Res Operations Cr or All 0 0 65535 Operation History Tr...

Page 478: ...load has occured Resettable with Sys Res Operations Cr or All Operation History OperationsCr TRunTime Motor Operation Motor run time time since last reset Resettable with Sys Res TotalCr or All Opera...

Page 479: ...Min CT IC max FLA IC maximum value multiples of FLA Operation Statistics Max CT IC avg FLA IC average value multiples of FLA Operation Statistics Demand Current Demand IC min FLA IC minimum value mul...

Page 480: ...unit In the predictor equations the ratios between the slip and the fundamental are the main input parameters Other parameters are Motor s horse power Number of the rotor bars Number of pairs of poles...

Page 481: ...ENCY The frequency with 0 1 of the nominated frequency is required INVALID_DATA Such as two consecutive zeros UNSTABLED_SIGNAL The stability of the signal is required UNSTABLED_FREQUENCY The stability...

Page 482: ...Bars Number of Rotor Bars 10 5000 55 Protection Para Global Prot Para Motor Diagnosis BRB Detection Rotor Diameter Diameter of the Rotor 0 1 10 0 0 6 Protection Para Global Prot Para Motor Diagnosis...

Page 483: ...utput States Signal Description BRBAlarm Signal BRBAlarm BRBReliable Signal Indicates if signal is valid for a broken bar detection Special Parameters of the Motor Wellness Value Description Default S...

Page 484: ...ermal trip and alarm curves relative to the thermal limit curve Setting 5 is used for cooling or damping Mathematically the thermal limit curve can be expressed as the following TripTime I LR 2 T LR I...

Page 485: ...graph it is seen that the lower the stator temperature the higher the effective current threshold Without stator temperature given the current threshold of 1 0 FLA and 2 0 FLA of the stator phase curr...

Page 486: ...EMR 4000 IM02602009E Thermal Replica Model Limit and Trip Curves without RTD Thermal Replica Model Limit and Trip Curves with RTD www eaton com 486...

Page 487: ...n that the stator RTD pushes the effective thermal current threshold to 2 55 FLA on the thermal limit curve unmarked line The marked line is the trip curve with 80 thermal capacity trip threshold so a...

Page 488: ...obal Prot Para 49 ExBlo TripCmd External blocking of the Trip Command of the module the element if blocking is activated allowed within a parameter set and if the state of the assigned signal is true...

Page 489: ...ective if a signal is assigned to the corresponding global protection parameter If the signal becomes true those modules elements are blocked that are parameterized ExBlo TripCmd Fc active Inactive Ac...

Page 490: ...cking Protection Para Global Prot Para 49 ExBlo TripCmd Module Input State External Blocking of the Trip Command Protection Para Global Prot Para 49 Thermal Model Module Signals Output States Signal D...

Page 491: ...ermal Model Module Counter Values Value Description Default Size Menu path I2T Used Thermal capacity used 0 0 1000 Operation Measured Values Thermal Capacity I2T Remained Thermal capacity remained 0 0...

Page 492: ...time depends on a variety of setting and operating factors including the motor nameplate data contained in other setting values Use a conservative value In this case a lower value of UTC than that di...

Page 493: ...EMR 4000 IM02602009E Motor Protection Curves Motor Protection Curve Example 1 www eaton com 493...

Page 494: ...EMR 4000 IM02602009E Motor Protection Curve Example 2 without RTDs www eaton com 494...

Page 495: ...EMR 4000 IM02602009E Motor Protection Curve Example 3 with RTDs www eaton com 495...

Page 496: ...loss of back pressure in a pump or a broken drive belt or drive shaft Refer to the underload protection limit the left vertical line in the Underload and Jam Trip Function example In the example the u...

Page 497: ...r convenience Device Planning Parameters of the Underload Module Parameter Description Options Default Menu path Mode Mode Do not use Use 37 1 Use 37 2 Use 37 3 Do not use Device Planning Global Prote...

Page 498: ...ip Command of the module element Inactive Active 37 1 Inactive 37 2 Active 37 3 Inactive Protection Para 1 4 Underload Prot 37 1 ExBlo TripCmd Fc Activate allow or inactivate disallow blocking of the...

Page 499: ...load Prot 37 1 ExBlo2 I Module Input State External Blocking2 Protection Para Global Prot Para Underload Prot 37 1 ExBlo TripCmd I Module Input State External Blocking of the Trip Command Protection P...

Page 500: ...30 ms or more in order to prevent faulty trippings applies only to devices which are equipped with Inrush protection All overcurrent protective elements are identically structured For each element th...

Page 501: ...am Trip Blockings Inactive Active Name IH2 Blo Element is not deactivated and no active blocking signals AND AND AND Name IH2 Blo Tripping com mand deactivated or blocked 5 6 7 4 3 Please Refer to Dia...

Page 502: ...eter Description Setting range Default Menu path ExBlo1 External blocking of the module if blocking is activated allowed within a parameter set and if the state of the assigned signal is true 1 n Assi...

Page 503: ...ric2 MStart Blo Gene ric3 MStart Blo Gene ric4 MStart Blo Gene ric5 MStart VUnbalStart Block MStart UnderVStart Block MStart OverVStart Block MStart PowerStart Block MStart PFacStart Block MStart Frq...

Page 504: ...ara Global Prot Para I Prot 50P 1 AdaptSet 1 Assignment Adaptive Parameter 1 AdaptSet Protection Para Global Prot Para I Prot 50P 1 AdaptSet 2 Assignment Adaptive Parameter 2 AdaptSet Protection Para...

Page 505: ...lo Fc active Inactive Active Inactive Protection Para 1 4 I Prot 50P 1 Blo TripCmd Permanent blocking of the Trip Command of the module element Inactive Active 50P 1 Inactive 50P 2 Active 50P 3 Inacti...

Page 506: ...602009E Parameter Description Setting range Default Menu path t Tripping delay Only available if Characteristic DEFT 0 00 300 00s 50P 1 0s 50P 2 0 25s 50P 3 0 25s Protection Para 1 4 I Prot 50P 1 www...

Page 507: ...ection Para Global Prot Para I Prot 50P 1 Rvs Blo I Module Input State Reverse Blocking Protection Para Global Prot Para I Prot 50P 1 AdaptSet1 I Module Input State Adaptive Parameter1 Protection Para...

Page 508: ...ickup Trip Signal Trip TripCmd Signal Trip Command Active AdaptSet Active Adaptive Parameter DefaultSet Signal Default Parameter Set AdaptSet 1 Signal Adaptive Parameter 1 AdaptSet 2 Signal Adaptive P...

Page 509: ...e relevant documentation provided by the breaker manufacturer Necessary means Current source Current meters and Timer Procedures Testing the threshold values 3 x single phase and 1 x three phase For e...

Page 510: ...istory voltage memory then the module will depending on the parameter setting either trip non directional or it will be blocked All overcurrent protective elements are identically structured This modu...

Page 511: ...anned as non directional or optionally as directional elements This means all 6 elements can be planned user defined in forward reverse or non directional For each element the following characteristic...

Page 512: ...ame IH2 Blo Element is not deactivated and no active blocking signals AND AND AND Name IH2 Blo Imax Tripping command deactivated or blocked 5 6 7 4 3 Please Refer to Diagram IH2 Please Refer to Diagra...

Page 513: ...5 6 7 4 3 Please Refer to Diagram IH2 Please Refer to Diagram IH2 Please Refer to Diagram IH2 15a 24b 25b 26b 14 OR OR AND AND AND AND AND INV Imax Name t reset Name t multiplier Name Curve Shape Name...

Page 514: ...vercurrent protection may achieve adequate sensitivity and better coordination The device uses a simple linear model to determine the effective pickup by characterizing the relationship between the vo...

Page 515: ...t to Phase to Neutral Vn MainVT sec 3 If the parameter VT con within the field parameters is set to Phase to Phase the setting Phase to Neutral in the current modules is effectless Device Planning Par...

Page 516: ...odule the element if blocking is activated allowed within a parameter set and if the state of the assigned signal is true 1 n Assignment List Protection Para Global Prot Para I Prot 51P 1 Rvs Blo Reve...

Page 517: ...ent are blocked that are parameterized Rvs Blo Fc active Inactive Active Inactive Protection Para 1 4 I Prot 51P 1 Blo TripCmd Permanent blocking of the Trip Command of the module element Inactive Act...

Page 518: ...he setting range depends on the selected tripping curve 0 02 20 00 51P 1 1 51P 2 2 51P 3 3 Protection Para 1 4 I Prot 51P 1 Reset Mode Reset Mode Instantaneous t delay Calculated Calculated Protection...

Page 519: ...stem Parameters Main VT con is set to Wye Vn Main VT sec SQRT 3 Only available if VRestraint Active 0 04 1 30Vn 1 00Vn Protection Para 1 4 I Prot 51P 1 LOP Blo Activates the use of the measuring circu...

Page 520: ...ection Para Global Prot Para I Prot 51P 1 Rvs Blo I Module Input State Reverse Blocking Protection Para Global Prot Para I Prot 51P 1 AdaptSet1 I Module Input State Adaptive Parameter1 Protection Para...

Page 521: ...l Pickup Trip Signal Trip TripCmd Signal Trip Command Active AdaptSet Active Adaptive Parameter DefaultSet Signal Default Parameter Set AdaptSet 1 Signal Adaptive Parameter 1 AdaptSet 2 Signal Adaptiv...

Page 522: ...e protection stages breaker operating time about 50 ms Please take the breaker operating times from the technical data specified in the relevant documentation provided by the breaker manufacturer Nece...

Page 523: ...acturer Necessary means Current source Voltage Source Current and Voltage meters and Timer Procedure Testing the threshold values 3 x single phase and 1 x three phase Feed Pickup voltage For each test...

Page 524: ...Please proceed as follows Read and understand the section Adaptive Parameters within the chapter Parameter Do the device planning and set all required parameters for the Undervoltage element Do the d...

Page 525: ...tructured For each element the following characteristics are available DEFT definite time For tripping curves please refer to Instantaneous Current Curves Ground Current Calculated located in the Appe...

Page 526: ...ipping command deactivated or blocked IH2 Blo IG Inactive Active Name IGH2 Blo AND Name Pickup Name IGH2 Blo 8 4 3 Please Refer to Diagram IH2 14 27c 19c AND AND AND Fund RMS Name Criterion 50R 1 n Na...

Page 527: ...ion Setting range Default Menu path ExBlo1 External blocking of the module if blocking is activated allowed within a parameter set and if the state of the assigned signal is true 1 n Assignment List P...

Page 528: ...ric2 MStart Blo Gene ric3 MStart Blo Gene ric4 MStart Blo Gene ric5 MStart VUnbalStart Block MStart UnderVStart Block MStart OverVStart Block MStart PowerStart Block MStart PFacStart Block MStart Frq...

Page 529: ...ara Global Prot Para I Prot 50R 1 AdaptSet 1 Assignment Adaptive Parameter 1 AdaptSet Protection Para Global Prot Para I Prot 50R 1 AdaptSet 2 Assignment Adaptive Parameter 2 AdaptSet Protection Para...

Page 530: ...ter If the signal becomes true those modules element are blocked that are parameterized Rvs Blo Fc active Inactive Active Inactive Protection Para 1 4 I Prot 50R 1 Blo TripCmd Permanent blocking of th...

Page 531: ...EMR 4000 IM02602009E Parameter Description Setting range Default Menu path t Tripping delay Only available if Characteristic DEFT 0 00 300 00s 0 5s Protection Para 1 4 I Prot 50R 1 www eaton com 531...

Page 532: ...mand Protection Para Global Prot Para I Prot 50R 1 Rvs Blo I Module Input State Reverse Blocking Protection Para Global Prot Para I Prot 50R 1 AdaptSet1 I Module Input State Adaptive Parameter1 Protec...

Page 533: ...t AdaptSet 1 Signal Adaptive Parameter 1 AdaptSet 2 Signal Adaptive Parameter 2 AdaptSet 3 Signal Adaptive Parameter 3 AdaptSet 4 Signal Adaptive Parameter 4 50R Ground Fault Protection Module Counter...

Page 534: ...MINV ANSI XInv VINV ANSI XInv EINV ANSI XInv Thermal Flat IT I2T and I4T For tripping curves please refer to Time Current Curves Ground Current located in the Appendix The ground current can be measur...

Page 535: ...ctivated or blocked IH2 Blo IG Inactive Active Name IGH2 Blo AND Name Pickup Name IGH2 Blo 8 4 3 Please Refer to Diagram IH2 14 27d 19d AND AND AND Fund RMS Name Criterion INV Name t reset Name t mult...

Page 536: ...ated allowed within a parameter set and if the state of the assigned signal is true 1 n Assignment List Protection Para Global Prot Para I Prot 51R 1 ExBlo TripCmd External blocking of the Trip Comman...

Page 537: ...etting range Default Menu path AdaptSet 3 Assignment Adaptive Parameter 3 AdaptSet Protection Para Global Prot Para I Prot 51R 1 AdaptSet 4 Assignment Adaptive Parameter 4 AdaptSet Protection Para Glo...

Page 538: ...r If the signal becomes true those modules element are blocked that are parameterized Rvs Blo Fc active Inactive Active Inactive Protection Para 1 4 I Prot 51R 1 Blo TripCmd Permanent blocking of the...

Page 539: ...Time multiplier tripping characteristic factor The setting range depends on the selected tripping curve 0 02 20 00 51R 1 1 51R 2 2 Protection Para 1 4 I Prot 51R 1 Reset Mode Reset Mode Instantaneous...

Page 540: ...mand Protection Para Global Prot Para I Prot 51R 1 Rvs Blo I Module Input State Reverse Blocking Protection Para Global Prot Para I Prot 51R 1 AdaptSet1 I Module Input State Adaptive Parameter1 Protec...

Page 541: ...meter Set AdaptSet 1 Signal Adaptive Parameter 1 AdaptSet 2 Signal Adaptive Parameter 2 AdaptSet 3 Signal Adaptive Parameter 3 AdaptSet 4 Signal Adaptive Parameter 4 51R Ground Fault Protection Counte...

Page 542: ...ctured For each element the following characteristics are available DEFT definite time For tripping curves please refer to Instantaneous Current Curves Ground Current Measured located in the Appendix...

Page 543: ...tive blocking signals Tripping command deactivated or blocked IH2 Blo IG Inactive Active Name IGH2 Blo AND Name Pickup Name IGH2 Blo 8 4 3 Please Refer to Diagram IH2 14 27a 19a AND AND AND DEFT Name...

Page 544: ...ion Setting range Default Menu path ExBlo1 External blocking of the module if blocking is activated allowed within a parameter set and if the state of the assigned signal is true 1 n Assignment List P...

Page 545: ...ric2 MStart Blo Gene ric3 MStart Blo Gene ric4 MStart Blo Gene ric5 MStart VUnbalStart Block MStart UnderVStart Block MStart OverVStart Block MStart PowerStart Block MStart PFacStart Block MStart Frq...

Page 546: ...ara Global Prot Para I Prot 50X 1 AdaptSet 1 Assignment Adaptive Parameter 1 AdaptSet Protection Para Global Prot Para I Prot 50X 1 AdaptSet 2 Assignment Adaptive Parameter 2 AdaptSet Protection Para...

Page 547: ...ter If the signal becomes true those modules element are blocked that are parameterized Rvs Blo Fc active Inactive Active Inactive Protection Para 1 4 I Prot 50X 1 Blo TripCmd Permanent blocking of th...

Page 548: ...u path Pickup sensitive If the pickup value is exceeded the module element will be started 0 002 2 000In 0 02In Protection Para 1 4 I Prot 50X 1 t Tripping delay Only available if Characteristic DEFT...

Page 549: ...mand Protection Para Global Prot Para I Prot 50X 1 Rvs Blo I Module Input State Reverse Blocking Protection Para Global Prot Para I Prot 50X 1 AdaptSet1 I Module Input State Adaptive Parameter1 Protec...

Page 550: ...meter Set AdaptSet 1 Signal Adaptive Parameter 1 AdaptSet 2 Signal Adaptive Parameter 2 AdaptSet 3 Signal Adaptive Parameter 3 AdaptSet 4 Signal Adaptive Parameter 4 50X Ground Fault Protection Counte...

Page 551: ...INV ANSI XInv VINV ANSI XInv EINV ANSI XInv Thermal Flat IT I2T and I4T For tripping curves please refer to Time Current Curves Ground Current located in the Appendix The ground current can be measure...

Page 552: ...activated or blocked IH2 Blo IG Inactive Active Name IGH2 Blo AND Name Pickup Name IGH2 Blo 8 4 3 Please Refer to Diagram IH2 14 27b 19b AND AND AND IX Measured Fund RMS Name Criterion 51X 1 n Name 51...

Page 553: ...ated allowed within a parameter set and if the state of the assigned signal is true 1 n Assignment List Protection Para Global Prot Para I Prot 51X 1 ExBlo TripCmd External blocking of the Trip Comman...

Page 554: ...etting range Default Menu path AdaptSet 3 Assignment Adaptive Parameter 3 AdaptSet Protection Para Global Prot Para I Prot 51X 1 AdaptSet 4 Assignment Adaptive Parameter 4 AdaptSet Protection Para Glo...

Page 555: ...parameter If the signal becomes true those modules element are blocked that are parameterized Rvs Blo Fc active Inactive Active Inactive Protection Para 1 4 I Prot 51X 1 Blo TripCmd Permanent blockin...

Page 556: ...at IT I2T I4T ANSI MINV Protection Para 1 4 I Prot 51X 1 t multiplier Time multiplier tripping characteristic factor The setting range depends on the selected tripping curve 0 02 20 00 51X 1 1 51X 2 2...

Page 557: ...mand Protection Para Global Prot Para I Prot 51X 1 Rvs Blo I Module Input State Reverse Blocking Protection Para Global Prot Para I Prot 51X 1 AdaptSet1 I Module Input State Adaptive Parameter1 Protec...

Page 558: ...meter Set AdaptSet 1 Signal Adaptive Parameter 1 AdaptSet 2 Signal Adaptive Parameter 2 AdaptSet 3 Signal Adaptive Parameter 3 AdaptSet 4 Signal Adaptive Parameter 4 51X Ground Fault Protection Counte...

Page 559: ...heaviest leads possible between the ground CT and the relay The relay itself has very low burden usually much lower than the connecting wiring Calculate the current magnitude that saturates the ground...

Page 560: ...back up protection to the downstream breaker and 2 protection of the conductors between the upstream and downstream breakers For faults which occur on the conductors between the upstream and downstrea...

Page 561: ...ycles settable to wait for downstream devices interlocking signals Zone interlocking trip signal only possible by absence of zone interlocking INPUT signals Configurable zone interlocking trip functio...

Page 562: ...sent to the upstream device if a breaker failure on downstream device is detected Parameter Description Setting range Default Menu path ExBlo1 External blocking of the module if blocking is activated...

Page 563: ...ication is only used for an upstream device main breaker or Zone 1 the setting ZoneInterlockOut within the OUTPUT group should be disabled TRIP Activate the Zone Trip The TRIP group comprises the sett...

Page 564: ...ding global protection parameter If the signal becomes true those modules elements are blocked that are parameterized ExBlo Fc active Inactive Active Inactive Protection Para 1 4 ZI General Settings B...

Page 565: ...Type Phase Ground Both Both Protection Para 1 4 ZI Zone Trip Zone Interlocking Output Logic X2 The following current protective function elements serve as the Phase Zone Interlock OUTPUT start functio...

Page 566: ...2602009E www eaton com 566 ZI OUT Zone Interlocking OUTPUT Logic Timing STARTED STANDBY TRIPPED RESET STANDBY STATE TRANSFER 51P 1 Trip 51P 1 Pickup ZI Bkr Blo t t 0 1 0 1 t 0 1 t 0 1 t 0 1 Reset Time...

Page 567: ...ripCmd 50X 1 Pickup 51X 1 Pickup 50X 2 Pickup 50R 1 Pickup 51R 1 Pickup 50R 2 Pickup 50X 1 TripCmd 51X 1 TripCmd 50X 2 TripCmd 50R 1 TripCmd 51R 1 TripCmd 50R 2 TripCmd Active ZI OUT Fc Inactive BF Tr...

Page 568: ...llowing overcurrent protection elements trigger Phase Zone Interlock trip functions 1 5 51P 1 50P 1 and 50P 2 The following overcurrent protection elements trigger Ground Zone Interlock trip functions...

Page 569: ...09E www eaton com 569 Zone Interlocking TRIP Logic Timing STARTED STANDBY TRIPPED STANDBY INTERLOCKED STANDBY ZI Trip STATE TRANSFER 51P 1 Pickup ZI Pickup t t 0 1 0 1 t 0 1 t 0 1 t 0 1 Trip Delay Tim...

Page 570: ...kup 50R 1 Pickup 51R 1 Pickup 50R 2 Pickup Active Trip Inactive ZI Ground Pickup ZI Phase Pickup ZI Phase Trip ZI Ground Trip ZI Trip ZI IN ZI Zone Trip Please Refer to Diagram Blockings 2 Element is...

Page 571: ...External Blocking Blo TripCmd Signal Trip Command blocked ExBlo TripCmd Signal External Blocking of the Trip Command Bkr Blo Signal Blocked by Breaker Failure Phase Pickup Signal Zone Interlocking Pha...

Page 572: ...onic inputs only The zone interlocking connection between relays is done by means of a twisted shielded cable Downstream zone interlock outputs may be paralleled from up to ten devices FP 5000 or DT 3...

Page 573: ...4 2 Out In Com X2 13 14 15 Shield Out Com Zone 2 16 17 18 Shield In Com EDR X000 Zone 3 J3 FP X000 1 4 2 Out In Com DT 3000 13 14 15 Out In Out 16 18 In Com Ground Phase J3 FP X000 1 4 2 Out In Com X...

Page 574: ...such as an FP5000 DT3000 etc As an upstream device the terminals Phase Ground IN should be connected to the OUT terminals of up to ten downstream device s by means of a dedicated cable wired in paral...

Page 575: ...2 for Device EDR 4000 EDR 5000 EMR 4000 EMR 5000 EGR 4000 and EGR 5000 www eaton com 575 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 RO3 X Do not use Do not use COM OUT IN COM RO4 RO1 RO2 1 2 3 4 5 6...

Page 576: ...rip pickup setting It is defined by the ratio of negative sequence current to positive sequence current I2 I1 for ABC rotation and I1 I2 for ACB rotation The device will automatically select the corre...

Page 577: ...agram Blockings IA Name Pickup Please Refer to Diagram Trip Blockings 46 1 n Element is not deactivated and no active blocking signals Tripping command deactivated or blocked IC IB Name 46 1 n 2 3 15a...

Page 578: ...ate of the assigned signal is true 1 n Assignment List Protection Para Global Prot Para Unbalance Prot 46 1 ExBlo2 External blocking of the module if blocking is activated allowed within a parameter s...

Page 579: ...only effective if a signal is assigned to the corresponding global protection parameter If the signal becomes true those modules elements are blocked that are parameterized ExBlo TripCmd Fc active Ina...

Page 580: ...nbalance Prot 46 1 Current Unbalance Module Signals Output States Signal Description Active Signal Active ExBlo Signal External Blocking Blo TripCmd Signal Trip Command blocked ExBlo TripCmd Signal Ex...

Page 581: ...de for I2 Fund is the same as that for the balanced nominal currents fed to the relay it implies that the phase sequence of the currents seen by the relay is reversed Now turn off phase A Again check...

Page 582: ...I1 100 so the first condition I2 I1 2 is always fulfilled Now increase the phase A current until the relay is activated Testing the dropout ratio of the threshold values Having tripped the relay in th...

Page 583: ...e previous test now decrease the phase A current The dropout of I2 I1 has to be 1 below the I2 I1 setting Successful test result The measured trip delays threshold values and dropout ratios are within...

Page 584: ...lay setting is the time period an undervoltage must occur before the device initiates a trip Depending on the settings within the System Parameters the element works based on phase to phase Open Delta...

Page 585: ...and field parameter Main VT Con is set to Wye the messages issued by the voltage protection module in case of actuation or trip should be interpreted as follows 27M 1 PICKUP A or 27M 1 TRIP A pickup o...

Page 586: ...am Blockings Please Refer to Diagram Trip Blockings Element is not deactivated and no active blocking signals 27M 1 n Inactive Name LOP Blo Active Name 27M 1 n Tripping com mand deactivated or blocked...

Page 587: ...if the state of the assigned signal is true 1 n Assignment List Protection Para Global Prot Para Main V Prot 27M 1 ExBlo2 External blocking of the module if blocking is activated allowed within a para...

Page 588: ...sallow blocking of the module element This parameter is only effective if a signal is assigned to the corresponding global protection parameter If the signal becomes true those modules elements are bl...

Page 589: ...Main V Prot 27M 1 t Tripping delay 0 00 3000 00s 0 00s Protection Para 1 4 Main V Prot 27M 1 LOP Blo Activates the use of the measuring circuit supervision In this case the module will be blocked if a...

Page 590: ...te External Blocking of the Trip Command Protection Para Global Prot Para Main V Prot 27M 1 Undervoltage Protection Module Signals Output States Signal Description Active Signal Active ExBlo Signal Ex...

Page 591: ...ion 27M This test can be carried out similar to the test for overvoltage protection 59M by using the related undervoltage values Please consider the following deviations For testing the threshold valu...

Page 592: ...wo or all the Overvoltage function operates Depending on the settings within the System Parameters the element works based on phase to phase Open Delta or phase to ground wye voltages This element wil...

Page 593: ...e voltage VC However if line to line voltages are applied to the measuring inputs and field parameter Main VT con is set to Wye then the messages should be interpreted as follows 59M 1 PICKUP A or 59M...

Page 594: ...ickup Phase B Please Refer to Diagram Blockings Please Refer to Diagram Trip Blockings Element is not deactivated and no active blocking signals 59M 1 n AND AND Name 59M 1 n Tripping command deactivat...

Page 595: ...f the state of the assigned signal is true 1 n Assignment List Protection Para Global Prot Para Main V Prot 59M 1 ExBlo2 External blocking of the module if blocking is activated allowed within a param...

Page 596: ...allow or inactivate disallow blocking of the module element This parameter is only effective if a signal is assigned to the corresponding global protection parameter If the signal becomes true those m...

Page 597: ...Description Setting range Default Menu path V Drop Out Drop Out is in percent of setting 80 99 97 Protection Para 1 4 Main V Prot 59M 1 t Tripping delay 0 00 3000 00s 0 00s Protection Para 1 4 Main V...

Page 598: ...te External Blocking of the Trip Command Protection Para Global Prot Para Main V Prot 59M 1 Overvoltage Protection Module Signals Output States Signal Description Active Signal Active ExBlo Signal Ext...

Page 599: ...lues and dropout values the test voltage has to be increased until the relay is activated When comparing the displayed values with those of the voltmeter the deviation must be within the permissible t...

Page 600: ...dervoltage setting for the Auxiliary VT This device setting works exactly the same as the 27M except it is a single phase element only operating from the Auxiliary VT input The Alarm Delay is the time...

Page 601: ...fer to Diagram Blockings Name Pickup Name Trip Name TripCmd V Please Refer to Diagram Trip Blockings Element is not deactivated and no active blocking signals Name 27A 1 n Tripping command deactivated...

Page 602: ...state of the assigned signal is true 1 n Assignment List Protection Para Global Prot Para Aux V Prot 27A 1 ExBlo2 External blocking of the module if blocking is activated allowed within a parameter s...

Page 603: ...1 Blo TripCmd Permanent blocking of the Trip Command of the module element Inactive Active 27A 1 Inactive 27A 2 Active Protection Para 1 4 Aux V Prot 27A 1 ExBlo TripCmd Fc Activate allow or inactiva...

Page 604: ...27A 1 Aux Undervoltage Module Signals Output States Signal Description Active Signal Active ExBlo Signal External Blocking Blo TripCmd Signal Trip Command blocked ExBlo TripCmd Signal External Blockin...

Page 605: ...tmeter the deviation must be within the permissible tolerances Testing the trip delay For testing the trip delay a timer is to be connected to the contact of the associated trip relay The timer is sta...

Page 606: ...ll elements are identically structured This is the 59 device Overvoltage setting for the Auxiliary VT This device setting works exactly the same as the 59M except it is a single phase element only ope...

Page 607: ...Refer to Diagram Blockings Name Pickup Name Trip Name TripCmd V Please Refer to Diagram Trip Blockings Element is not deactivated and no active blocking signals 59A 1 n Name 59A 1 n Tripping comm and...

Page 608: ...state of the assigned signal is true 1 n Assignment List Protection Para Global Prot Para Aux V Prot 59A 1 ExBlo2 External blocking of the module if blocking is activated allowed within a parameter se...

Page 609: ...t 59A 1 Blo TripCmd Permanent blocking of the Trip Command of the module element Inactive Active 59A 1 Inactive 59A 2 Active Protection Para 1 4 Aux V Prot 59A 1 ExBlo TripCmd Fc Activate allow or ina...

Page 610: ...59A 1 Aux Overvoltage Module Signals Output States Signal Description Active Signal Active ExBlo Signal External Blocking Blo TripCmd Signal Trip Command blocked ExBlo TripCmd Signal External Blockin...

Page 611: ...r the deviation must be wi thin the permissible tolerances Testing the trip delay For testing the trip delay a timer is to be connected to the contact of the associated trip relay The timer is started...

Page 612: ...t is defined by the ratio of negative sequence voltage to positive sequence voltage Unbalance V2 V1 or V2 V1 for ABC rotation and V1 V2 for ACB rotation The device will automatically select the correc...

Page 613: ...gs NPS Filter VA Name Pickup Please Refer to Diagram Trip Blockings 47 1 n Element is not deactivated and no active blocking signals Tripping command deactivated or blocked VC VB V2 PPS Filter V1 Name...

Page 614: ...meter set and if the state of the assigned signal is true 1 1 n Assignment List Protection Para Global Prot Para Unbalance Prot 47 1 ExBlo2 External blocking of the module if blocking is activated all...

Page 615: ...assigned to the corresponding global protection parameter If the signal becomes true those modules elements are blocked that are parameterized ExBlo TripCmd Fc active Inactive Active Inactive Protect...

Page 616: ...re Inactive Active Inactive Protection Para 1 4 Unbalance Prot 47 1 States of the Inputs of the Voltage Unbalance Module Name Description Assignment via ExBlo1 I Module Input State External Blocking1...

Page 617: ...Signal External Blocking of the Trip Command Pickup Signal Pickup Voltage Asymmetry Trip Signal Trip TripCmd Signal Trip Command Values of the Voltage Unbalance Module Value Description Default Size...

Page 618: ...s the same as that for the balanced nominal voltages fed to the relay it implies that the phase sequence of the voltages seen by the relay is reversed Now turn off phase A Again check the measuring va...

Page 619: ...in V2 V1 100 so the first condition V2 V1 2 is always fulfilled Now increase the phase A voltage until the relay is activated Testing the dropout ratio of the threshold values Having tripped the relay...

Page 620: ...e previous test now decrease the phase A voltage The dropout of V2 V1 has to be 1 below the V2 V1 setting Successful test result The measured trip delays threshold values and dropout ratios are within...

Page 621: ...no longer measurable this phase will be excluded from the calculation of the average value The measuring principle of the frequency supervision is based in general on the time measurement of complete...

Page 622: ...electrical operating equipment in general against underfrequency 81O Overfrequency This protection element provides a pickup threshold and a tripping delay If the frequency exceeds the set pickup thr...

Page 623: ...gs 81 1 n 81U Under Or 81O Over Element is not deactivated and no active blocking signals Tripping comm and deactivated or blocked VC VB Name 81 1 n Name Blo by V Name f 81O Over 81U Under 81U Under 8...

Page 624: ...of change of frequency df dt may have a negative or positive sign depending on frequency increase positive sign or decrease negative sign In the frequency parameter sets the User can define the kind o...

Page 625: ...kings Please Refer to Diagram Trip Blockings Element is not deactivated and no active blocking signals Tripping command deactivated or blocked Positive df dt Negative df dt Absolute df dt Name Pickup...

Page 626: ...ent df dt and a tripping delay can be set Whereby Positive df dt the frequency element detects an increase in frequency Negative df dt the frequency element detects a decrease in frequency and Absolut...

Page 627: ...Refer to Diagram Blockings Please Refer to Diagram Trip Blockings Element is not deactivated and no active blocking signals Tripping command deactivated or blocked f Positive df dt Negative df dt Abs...

Page 628: ...evaluated phase voltages are compared to the set frequency pickup threshold and the set frequency decrease or increase threshold DF If in any of the phases the frequency exceeds or falls below the se...

Page 629: ...iagram Trip Blockings Tripping command deactivated or blocked Please Refer to Diagram Blockings Elem ent is not deactivated and no active blocking signals 81 1 n 81UDR Under DF DT Or 81ODR Over DF DT...

Page 630: ...EMR 4000 IM02602009E www eaton com 630 fN f 81U Under DT DT Reset DF DF DF Temporarily Blocking t t1 t2 t3 t4 t6 Trip 81 1 n 81UDR Under DF DT Name 81 1 n t5...

Page 631: ...relays detect a fault only when short circuit type currents exist but cannot avoid their development Power relays are able to pickup within 200 ms but they also cannot prevent the power from rising to...

Page 632: ...at mains parallel operation The rotor displacement angle between stator and rotor is dependent on the mechanical moving torque of the generator shaft The mechanical shaft power is balanced with the el...

Page 633: ...or auto reclosing the generator suddenly feeds a very high load The rotor displacement angle is decreased repeatedly and the voltage vector V1 changes its direction V1 Voltage vectors at mains failur...

Page 634: ...n one of the phases the vector surge exceeds the set threshold and if there are no blocking commands for the frequency element an alarm and a trip command is issued instantaneously Tripping of the vec...

Page 635: ...agram Trip Blockings Element is not deactivated and no active blocking signals Tripping command deactivated or blocked Name Pickup Name Trip 78V vector surge Device Planning Name Mode 78V vector surge...

Page 636: ...ath ExBlo1 External blocking of the module if blocking is activated allowed within a parameter set and if the state of the assigned signal is true 1 n Assignment List Protection Para Global Prot Para...

Page 637: ...ve Protection Para 1 4 Freq Prot 81 1 ExBlo TripCmd Fc Activate allow or inactivate disallow blocking of the module element This parameter is only effective if a signal is assigned to the correspondin...

Page 638: ...0 0 10 0Hz 1 00Hz Protection Para 1 4 Freq Prot 81 1 DT Time interval of the maximum admissable rate of frequency change Only available if Device Planning 81 Mode 81UDR Under DF DT Or 81ODR Over DF DT...

Page 639: ...ctive Signal Active ExBlo Signal External Blocking Blo by V Signal Module is blocked by undervoltage Blo TripCmd Signal Trip Command blocked ExBlo TripCmd Signal External Blocking of the Trip Command...

Page 640: ...rocedure Testing the threshold values Keep on increasing the frequency until the respective frequency element is activated Note the frequency value and Disconnect the test voltage Testing the trip del...

Page 641: ...ct to be tested All frequency protection stages that are projected as df dt Necessary means Three phase voltage source and Frequency generator that can generate and measure a linear defined rate of ch...

Page 642: ...test result Permissible deviations tolerances and dropout ratios can be taken from the Technical Data Commissioning 81O and Rate of Change f and df dt Object to be tested All frequency protection stag...

Page 643: ...test result Permissible deviations tolerances and dropout ratios can be taken from the Technical Data Commissioning 81O R Overfrequency and DF DT Object to be tested All frequency protection stages th...

Page 644: ...e source that can generate a definite step sudden change of the voltage pointers phase shift Procedure Testing the threshold values Apply a vector surge sudden change that is 1 5 times the setting val...

Page 645: ...rse Power Pr and Under Reverse Power Pr Each element consists of a Pickup and a Delay setting These elements are based on rated apparent power VAn Definition for VAn is as follows VAn SQRT 3 VT second...

Page 646: ...EMR 4000 IM02602009E 32 Forward Power Over and Under www eaton com 646 Q P Trip Region Pickup P Q P Trip Region Pickup P No Trip No Trip...

Page 647: ...EMR 4000 IM02602009E 32 Reverse Power Over and Under www eaton com 647 Q P Trip Region Pickup Pr Q P Trip Region Pickup Pr No Trip No Trip...

Page 648: ...signals Tripping command deactivated or blocked Name 32 1 n Name Pickup Name Trip 2 3 Name TripCmd 15a 14 Pickup P Pickup P Device Planning Pickup Pr Pickup Pr Name Mode Pickup P Pickup P Pickup Pr P...

Page 649: ...activated allowed within a parameter set and if the state of the assigned signal is true 1 n Assignment List Protection Para Global Prot Para Power Prot 32 1 ExBlo2 External blocking of the module if...

Page 650: ...32 1 ExBlo TripCmd Fc Activate allow or inactivate disallow blocking of the module element This parameter is only effective if a signal is assigned to the corresponding global protection parameter If...

Page 651: ...nning PQS Mode Pickup Pr 0 003 10 000VAn 0 020VAn Protection Para 1 4 Power Prot 32 1 Pickup Pr Under Reverse Definition for Sn is as follows Sn 1 7321 VT rating CT rating The voltage is the line to l...

Page 652: ...External Blocking of the Trip Command Pickup Signal Pickup Power Protection Trip Signal Trip Power Protection TripCmd Signal Trip Command Values of the Power Protection module Value Description Defaul...

Page 653: ...arried out with the tripping values and tripping delays that apply to the User s switchboard If the User is testing greater than thresholds e g P start at 80 of the tripping value and increase the obj...

Page 654: ...y Example Threshold 1 1 Pn Feed rated voltage and 0 9 times rated current in phase to the measuring inputs of the relay PF 1 The measured values for the active power P must show a positive algebraic s...

Page 655: ...xample Threshold 0 3 Pn Feed rated voltage and 0 5 times rated current in phase to the measuring inputs of the relay PF 1 The measured values for the active power P must show a positive algebraic sign...

Page 656: ...ay Example Threshold 1 1 Pn Feed rated voltage and 0 9 times rated current with 180 degree phase shift between voltage and current pointers to the measuring inputs of the relay The measured values for...

Page 657: ...ay Example Threshold 0 3 Pn Feed rated voltage and 0 5 times rated current with 180 degree phase shift between voltage and current pointers to the measuring inputs of the relay The measured values for...

Page 658: ...Q Over Reverse Reactive Power Qr and Under Reverse Reactive Power Qr Each element consists of a Pickup and a Delay setting These elements are based on rated apparent power Van Definition for VAn is a...

Page 659: ...EMR 4000 IM02602009E 32V Forward Reactive Power Over and Under www eaton com 659 Q P P Q Trip Region No Trip Trip Region No Trip Pickup Q Pickup Q...

Page 660: ...EMR 4000 IM02602009E 32V Reverse Reactive Power Over and Under www eaton com 660 Q P Trip Region No Trip Pickup Qr Q P Trip Region No Trip Pickup Qr...

Page 661: ...signals Tripping command deactivated or blocked Name 32V 1 n Name Pickup Name Trip 2 3 Name TripCmd 15a 14 Pickup Q Pickup Q Device Planning Pickup Qr Pickup Qr Name Mode Pickup Q Pickup Q Pickup Qr P...

Page 662: ...ocking is activated allowed within a parameter set and if the state of the assigned signal is true 1 n Assignment List Protection Para Global Prot Para Power Prot 32V 1 ExBlo2 External blocking of the...

Page 663: ...w or inactivate disallow blocking of the module element This parameter is only effective if a signal is assigned to the corresponding global protection parameter If the signal becomes true those modul...

Page 664: ...Device Planning PQS Mode Pickup Qr 0 003 10 000VAn 0 020VAn Protection Para 1 4 Power Prot 32V 1 Pickup Qr Under Reverse Definition for Sn is as follows Sn 1 7321 VT rating CT rating The voltage is th...

Page 665: ...External Blocking of the Trip Command Pickup Signal Pickup Power Protection Trip Signal Trip Power Protection TripCmd Signal Trip Command Values of the Reactive Power Protection module Value Descripti...

Page 666: ...carried out with the tripping values and tripping delays that apply to the User s switchboard If the User is testing greater than thresholds e g Q start at 80 of the tripping value and increase the ob...

Page 667: ...ay Example Threshold 1 1 Qn Feed rated voltage and 0 9 times rated current 90 degree phase shift to the measuring inputs of the relay PF 0 The measured values for the active power Q must show a positi...

Page 668: ...y Example Threshold 0 3 Qn Feed rated voltage and 0 5 times rated current 90 degree phase shift to the measuring inputs of the relay PF 0 The measured values for the active power Q must show a positiv...

Page 669: ...ay Example Threshold 1 1 Qn Feed rated voltage and 0 9 times rated current with 90 degree phase shift between voltage and current pointers to the measuring inputs of the relay The measured values for...

Page 670: ...ay Example Threshold 0 3 Qn Feed rated voltage and 0 5 times rated current with 90 degree phase shift between voltage and current pointers to the measuring inputs of the relay The measured values for...

Page 671: ...Watt VA Definition Displacement Power Factor 55D Fundamental The Displacement Power Factor is computed by dividing the fundamental watts by the fundamental volt amperes as shown below This definition...

Page 672: ...o the source Active Power flows into the source Reactive Power flows into the load Quadrant1 Quadrant2 Quadrant3 Quadrant4 P Watts Q Vars PF P Watts Q Vars PF P Watts Q Vars PF P Watts Q Vars PF Rever...

Page 673: ...V Reset PF 0 9 Res Mode I lags V Trigger PF 0 5 Trig Mode I leads V Reset PF 0 9 Res Mode I leads V Trigger PF 0 5 Trig Mode I lags V Reset PF 0 9 Res Mode I leads V Quadrant2 Quadrant1 Quadrant3 Qua...

Page 674: ...ocking signals Tripping command deactivated or blocked Name PF 1 n Name Pickup 2 3 Name TripCmd 14 20 Vn 0 5 In Imax V PF RMS Name Impossible Name Compensator Pickup Delay And Release Delay PF 1 n OR...

Page 675: ...blocking signals Tripping command deactivated or blocked Name PF 1 n Name Pickup 2 3 Name TripCmd 14 20 Vn 0 5 In Imax V PF Fund Name Impossible Name Compensator Pickup Delay And Release Delay PF 1 n...

Page 676: ...ned signal is true 1 n Assignment List Protection Para Global Prot Para Power Factor Prot PF 55D 1 ExBlo2 External blocking of the module if blocking is activated allowed within a parameter set and if...

Page 677: ...or inactivate disallow blocking of the module element This parameter is only effective if a signal is assigned to the corresponding global protection parameter If the signal becomes true those modules...

Page 678: ...300 00s 5 00s Protection Para 1 4 Power Factor Prot PF 55D 1 t Reset Comp Reset Post trigger time of the Compensation Signal When this timer is elapsed the compensation signal will be deactivated 0 0...

Page 679: ...ckup Signal Pickup Power Factor Trip Signal Trip Power Factor TripCmd Signal Trip Command Compensator Signal Compensation Signal Impossible Signal Pickup Power Factor Impossible Values of the Power Fa...

Page 680: ...braic sign check the wiring In this example the PF Trigger is set to 0 86 30 lagging and the PF Reset is set to 0 86 30 leading Carry out the test with the settings trigger and reset that fit the swit...

Page 681: ...tal tripping delays threshold and reset values correspond with those values specified in the adjust ment list Permissible deviations tolerances can be found the Technical Data section RT Remote Trip A...

Page 682: ...Press Trip Sudden Press Alarm Please Refer to Diagram Blockings Please Refer to Diagram Trip Blockings Element is not deactivated and no active blocking signals Tripping command deactivated or blocked...

Page 683: ...l blocking of the module if blocking is activated allowed within a parameter set and if the state of the assigned signal is true 1 n Assignment List Protection Para Global Prot Para Remote Trip ExBlo...

Page 684: ...comes true those modules elements are blocked that are parameterized ExBlo Fc active Inactive Active Inactive Protection Para 1 4 Remote Trip Blo TripCmd Permanent blocking of the Trip Command of the...

Page 685: ...king of the Trip Command Protection Para Global Prot Para Remote Trip Alarm I Module Input State Alarm Protection Para Global Prot Para Remote Trip Trip I Module Input State Trip Protection Para Globa...

Page 686: ...rip and blockings by de energizing the digital inputs Successful test result All external pickups external trips and external blockings are correctly recognized and processed by the device ExP Externa...

Page 687: ...AND AND Name Trip Name Alarm Please Refer to Diagram Blockings Please Refer to Diagram Trip Blockings Element is not deactivated and no active blocking signals Tripping command deactivated or blocked...

Page 688: ...ExBlo2 External blocking of the module if blocking is activated allowed within a parameter set and if the state of the assigned signal is true 1 n Assignment List Protection Para Global Prot Para ExP...

Page 689: ...nal becomes true those modules elements are blocked that are parameterized ExBlo Fc active Inactive Active Inactive Protection Para 1 4 ExP ExP 1 Blo TripCmd Permanent blocking of the Trip Command of...

Page 690: ...cking of the Trip Command Protection Para Global Prot Para ExP ExP 1 Alarm I Module Input State Alarm Protection Para Global Prot Para ExP ExP 1 Trip I Module Input State Trip Protection Para Global P...

Page 691: ...pickup trip and blockings by de energizing the digital inputs Successful test result All external pickups external trips and external blockings are correctly recognized and processed by the device Ex8...

Page 692: ...Sudden Press Trip Sudden Press Alarm Please Refer to Diagram Blockings Please Refer to Diagram Trip Blockings Element is not deactivated and no active blocking signals Tripping command deactivated or...

Page 693: ...Para Ex87 ExBlo2 External blocking of the module if blocking is activated allowed within a parameter set and if the state of the assigned signal is true 1 n Assignment List Protection Para Global Prot...

Page 694: ...If the signal becomes true those modules elements are blocked that are parameterized ExBlo Fc active Inactive Active Inactive Protection Para 1 4 Ex87 Blo TripCmd Permanent blocking of the Trip Comma...

Page 695: ...Blocking of the Trip Command Protection Para Global Prot Para Ex87 Alarm I Module Input State Alarm Protection Para Global Prot Para Ex87 Trip I Module Input State Trip Protection Para Global Prot Par...

Page 696: ...istory TripCmdCr Commissioning External Differential Protection Object to be tested Test of the External Protection Module Necessary means Dependent on the application Procedure Simulate the functiona...

Page 697: ...D device that has 11 temperature sensor channels or Eaton s URTDII device that has 11 or 12 temperature sensor channels Each channel will have one trip function without an intended delay and one alarm...

Page 698: ...g trip Each individual channel must be selected or deselected by setting to either Yes or No When selecting Yes the channel will be used in the voting process Note that in order to be selected each ch...

Page 699: ...D sensors www eaton com 699 RTD Each Channel RTD W1 A W1 B W1 C W2 A W2 B W2 C Amb1 Amb2 Aux1 Aux2 Aux3 Inactive Active RTD Alarm Function RTD Alarm RTD Alarm Inactive Active RTD Trip Function RTD Tri...

Page 700: ...he corresponding signal www eaton com 700 RTD Alarm Any Group RTD Alarm WD Group RTD Alarm MB Group RTD Alarm LB Group RTD Alarm Aux Group RTD TimeoutAlmAnyGrp RTD TimeoutAlmWDGrp RTD TimeoutAlmMBGrp...

Page 701: ...rs that should belong to a voting group and how many of them have to trip in order to generate a voting trip of the corresponding group www eaton com 701 RTD Voting Trip Grp 1 RTD WD 1 Trip RTD Aux2 I...

Page 702: ...TD sensor timeout alarms and all group timeouts are OR connected www eaton com 702 RTD Alarm RTD WD 1 Timeout Alarm RTD Aux2 Timeout Alarm RTD TimeoutAlmWDGrp RTD TimeoutAlmAuxGrp RTD Timeout Alarm Al...

Page 703: ...RTD Trip RTD WD 1 Trip RTD Aux2 Trip RTD Trip WD Group RTD Trip Aux Group 1 OR RTD Trip TripCmd All trips are OR connected to a collective trip signal Caution A Block Trip Command blocks the trips of...

Page 704: ...Para Temp Prot RTD ExBlo2 External blocking of the module if blocking is activated allowed within a parameter set and if the state of the assigned signal is true 1 n Assignment List Protection Para Gl...

Page 705: ...on Para 1 4 Temp Prot RTD General Settings Blo TripCmd Permanent blocking of the Trip Command of the module element Inactive Active Inactive Protection Para 1 4 Temp Prot RTD General Settings ExBlo Tr...

Page 706: ...available if Device Planning Trip Function Use 0 200 C 100 C Protection Para 1 4 Temp Prot RTD WD 1 WD 2 Alarm Function Winding 2 Alarm Function Inactive Active Active Protection Para 1 4 Temp Prot R...

Page 707: ...D WD 3 WD 3 Alarm Winding 3 Threshold for Temperature Alarm Only available if Device Planning Alarm Function Use 0 200 C 80 C Protection Para 1 4 Temp Prot RTD WD 3 WD 3 t Delay Winding 3 If this time...

Page 708: ...e if Device Planning Alarm Function Use 0 360min 1min Protection Para 1 4 Temp Prot RTD WD 4 WD 4 Trip Winding 4 Threshold for Temperature Trip Only available if Device Planning Trip Function Use 0 20...

Page 709: ...tive Active Protection Para 1 4 Temp Prot RTD WD 6 WD 6 Trip Function Winding 6 Trip Function Inactive Active Active Protection Para 1 4 Temp Prot RTD WD 6 WD 6 Alarm Winding 6 Threshold for Temperatu...

Page 710: ...on Para 1 4 Temp Prot RTD MB 1 MB 1 t Delay Motor Bearing 1 If this time is expired a Temperature Alarm will be generated Only available if Device Planning Alarm Function Use 0 360min 1min Protection...

Page 711: ...available if Device Planning Trip Function Use 0 200 C 100 C Protection Para 1 4 Temp Prot RTD MB 2 LB 1 Alarm Function Load Bearing 1 Alarm Function Inactive Active Active Protection Para 1 4 Temp Pr...

Page 712: ...LB 2 LB 2 Alarm Load Bearing 2 Threshold for Temperature Alarm Only available if Device Planning Alarm Function Use 0 200 C 80 C Protection Para 1 4 Temp Prot RTD LB 2 LB 2 t Delay Load Bearing 2 If...

Page 713: ...if Device Planning Alarm Function1 Use 0 360min 1min Protection Para 1 4 Temp Prot RTD Aux1 Aux1 Trip Auxiliary 1 Threshold for Temperature Trip Only available if Device Planning Trip Function2 Use 0...

Page 714: ...e Inactive Protection Para 1 4 Temp Prot RTD WD Group WD Trip Function Winding Trip Function Inactive Active Inactive Protection Para 1 4 Temp Prot RTD WD Group WD Alarm Winding Threshold for Temperat...

Page 715: ...Para 1 4 Temp Prot RTD MB Group MB t Delay Motor Bearing If this time is expired a Temperature Alarm will be generated Only available if Device Planning Alarm Function Use 0 360min 1min Protection Par...

Page 716: ...able if Device Planning Trip Function Use 0 200 C 80 C Protection Para 1 4 Temp Prot RTD LB Group Aux Alarm Function Auxiliary Alarm Function Inactive Active Inactive Protection Para 1 4 Temp Prot RTD...

Page 717: ...Protection Para 1 4 Temp Prot RTD Voting1 Voting 1 Voting This parameter defines how many of the selected channels must be over its threshold level for getting a voting trip 1 12 1 Protection Para 1...

Page 718: ...Prot RTD Voting1 MB 1 Motor Bearing 1 No Yes No Protection Para 1 4 Temp Prot RTD Voting1 MB 2 Motor Bearing 2 No Yes No Protection Para 1 4 Temp Prot RTD Voting1 LB 1 Load Bearing 1 No Yes No Protec...

Page 719: ...ng2 Voting 2 Voting This parameter defines how many of the selected channels must be over its threshold level for getting a voting trip 1 12 1 Protection Para 1 4 Temp Prot RTD Voting2 WD 1 Winding 1...

Page 720: ...Prot RTD Voting2 MB 1 Motor Bearing 1 No Yes No Protection Para 1 4 Temp Prot RTD Voting2 MB 2 Motor Bearing 2 No Yes No Protection Para 1 4 Temp Prot RTD Voting2 LB 1 Load Bearing 1 No Yes No Protect...

Page 721: ...le Input States Name Description Assignment via ExBlo1 I Module Input State External Blocking1 Protection Para Global Prot Para Temp Prot RTD ExBlo2 I Module Input State External Blocking2 Protection...

Page 722: ...t WD 3 Trip Winding 3 Signal Trip WD 3 Alarm Winding 3 Alarm RTD Temperature Protection WD 3 Timeout Alarm Winding 3 Timeout Alarm WD 3 Invalid Winding 3 Signal Invalid Temperature Measurement Value e...

Page 723: ...2 Timeout Alarm LB 2 Invalid Load Bearing 2 Signal Invalid Temperature Measurement Value e g caused by an defective or interrupted RTD Measurement Aux1 Trip Auxiliary 1 Signal Trip Aux1 Alarm Auxiliar...

Page 724: ...g caused by an defective or interrupted RTD Measurement Trip Any Group Trip Any Group Alarm Any Group Alarm Any Group TimeoutAlmAnyGrp Timeout Alarm Any Group Voting Trip Grp 1 Voting Trip Group 1 Vot...

Page 725: ...est motor winding temperature in degrees Resettable with Sys Res OperationsCr or All 0 C 0 250 C Operation History OperationsCr HighestMbTemp Highest motor bearing temperature in degrees Resettable wi...

Page 726: ...t Resettable with Sys Res TripCr or All 0 0 65535 Operation History TripCmdCr nMbTrips Number of motor bearing temperature trips since last reset Resettable with Sys Res TripCr or All 0 0 65535 Operat...

Page 727: ...e optical fiber The URTDII may be mounted remotely from the protective device The fiber optic connector is located on the X102 terminal of the protective device Consider the benefit of mounting the UR...

Page 728: ...HBFR ELS001 or HBFRRLS001 16 4 ft 5 m MPFO 5 HBFR ELS005 or HBFRRLS005 32 8 ft 10 m MPFO 10 HBFR ELS010 or HBFRRLS010 82 0 ft 25 m MPFO 25 HBFR ELS025 164 0 ft 50 m MPFO 50 HBFR ELS050 246 1 ft 75 m...

Page 729: ...ot cause a problems Simply coil and tie the excess fiber at a convenient point Avoid high tie pressure Bending radius of the fiber should be greater than 2 in 50 8 mm The fiber termination at the URTD...

Page 730: ...rm W1 C t Delay W1 C Trip MW3 J2 8 J2 9 W1 C Transformer Winding 1 Phase C RTD Temperature RTD4 Alarm Functional Trip Functional W2 A Alarm W2 A t Delay W2 A Trip MW4 J2 12 J2 13 W2 A Transformer Wind...

Page 731: ...ux1 Alarm Aux1 t Delay Aux1 Trip LB1 J10B 12 J10B 13 AUX1 User Defined RTD Temperature RTD10 Alarm Functional Trip Functional Aux2 Alarm Aux2 t Delay Aux2 Trip LB2 J10B 8 J10B 9 AUX2 User Defined RTD...

Page 732: ...Connect the third cable conductor to the remaining RTD lead Connect the shield drain wire to the Shield terminal as shown in the figure The RTD cable shield should be connected only at the URTD end an...

Page 733: ...Service Test Mode Prot inhibit WARNING Cont URTD Force WD2 Force Winding 2 0 392 0 Service Test Mode Prot inhibit WARNING Cont URTD Force WD3 Force Winding 3 0 392 0 Service Test Mode Prot inhibit WAR...

Page 734: ...ice Test Mode Prot inhibit WARNING Cont URTD Force LB1 Force Load Bearing 1 0 392 0 Service Test Mode Prot inhibit WARNING Cont URTD Force LB2 Force Load Bearing 2 0 392 0 Service Test Mode Prot inhib...

Page 735: ...rvice Test Mode Prot inhibit WARNING Cont URTD Temperature Unit Temperature Unit Celsius Fahrenheit Celsius System Para URTD Signals Output States Signal Description WD1 Superv Signal Supervision Chan...

Page 736: ...D3 max Winding3 Maximum Value Operation Statistics Max URTD WD4 max Winding4 Maximum Value Operation Statistics Max URTD WD5 max Winding5 Maximum Value Operation Statistics Max URTD WD6 max Winding6 M...

Page 737: ...Maximum Value Operation Statistics Max URTD Aux2 max Auxiliary2 Maximum Value Operation Statistics Max URTD URTD Measured Values Value Description Menu path WD1 Winding 1 Operation Measured Values UR...

Page 738: ...RTD MB2 Motor Bearing 2 Operation Measured Values URTD LB1 Load Bearing 1 Operation Measured Values URTD LB2 Load Bearing 2 Operation Measured Values URTD Aux1 Auxiliary1 Operation Measured Values URT...

Page 739: ...his trip signal is to be used to trip the upstream breaker backup Stopping the BF The timer will be stopped if the opening of the breaker is detected Depending on the supervision scheme the timer will...

Page 740: ...de tected and a signal will be issued if the evaluation of the position indicators of the Breaker does not indicate that the breaker has been switched off sucessfully while this timer runs down This s...

Page 741: ...User can also select none e g if the User intends to use one of the three additional assignable trigger inputs Those trips can exclusively start the breaker failures that are assigned within the trip...

Page 742: ...the BF module is within the stand by state Who stops the BF Timer Once the timer has been stopped the BF module will switch into the state Rejected The module will switch back into the state Stand by...

Page 743: ...r the threshold the longer the time that is needed to detect that the breaker is in the open position especially if there are transients harmonics Note Tripping delay of the BF module Minimum delay ti...

Page 744: ...ger3 1 n Assignment List BF Trigger2 1 n Assignment List BF Trigger1 BF Name BF Please Refer to Diagram Blockings Element is not deactivated and no active blocking signals 2 11 15 15 IA IB IC BF Locko...

Page 745: ...n Assignment List BF Trigger2 1 n Assignment List BF Trigger1 BF Name BF Please Refer to Diagram Blockings Element is not deactivated and no active blocking signals 2 11 15 BF Lockout Res Lockout BF P...

Page 746: ...signal is true 1 n Assignment List Protection Para Global Prot Para Supervision BF ExBlo2 External blocking of the module if blocking is activated allowed within a parameter set and if the state of t...

Page 747: ...ath Trigger3 Trigger that will start the BF Trigger Protection Para Global Prot Para Supervision BF Direct Commands of the BF Parameter Description Setting range Default Menu path Res Lockout Reset Lo...

Page 748: ...n Para 1 4 Supervision BF ExBlo Fc Activate allow or inactivate disallow blocking of the module element This parameter is only effective if a signal is assigned to the corresponding global protection...

Page 749: ...Para Global Prot Para Supervision BF Trigger2 I Module Input Trigger that will start the BF Protection Para Global Prot Para Supervision BF Trigger3 I Module Input Trigger that will start the BF Prote...

Page 750: ...50R 1 TripCmd Signal Trip Command 50R 2 TripCmd Signal Trip Command 51R 1 TripCmd Signal Trip Command 51R 2 TripCmd Signal Trip Command 49 TripCmd Signal Trip Command 50J 1 TripCmd Signal Trip Command...

Page 751: ...e Interlocking Trip Command ExP 1 TripCmd Signal Trip Command ExP 2 TripCmd Signal Trip Command ExP 3 TripCmd Signal Trip Command ExP 4 TripCmd Signal Trip Command Ex87 TripCmd Signal Trip Command Rem...

Page 752: ...E6 Timer Out Signal Timer Output Logic LE6 Out Signal Latched Output Q Logic LE6 Out inverted Signal Negated Latched Output Q NOT Logic LE7 Gate Out Signal Output of the logic gate Logic LE7 Timer Out...

Page 753: ...LE15 Out Signal Latched Output Q Logic LE15 Out inverted Signal Negated Latched Output Q NOT Logic LE16 Gate Out Signal Output of the logic gate Logic LE16 Timer Out Signal Timer Output Logic LE16 Ou...

Page 754: ...nverted Signal Negated Latched Output Q NOT Logic LE25 Gate Out Signal Output of the logic gate Logic LE25 Timer Out Signal Timer Output Logic LE25 Out Signal Latched Output Q Logic LE25 Out inverted...

Page 755: ...ate Out Signal Output of the logic gate Logic LE34 Timer Out Signal Timer Output Logic LE34 Out Signal Latched Output Q Logic LE34 Out inverted Signal Negated Latched Output Q NOT Logic LE35 Gate Out...

Page 756: ...LE43 Timer Out Signal Timer Output Logic LE43 Out Signal Latched Output Q Logic LE43 Out inverted Signal Negated Latched Output Q NOT Logic LE44 Gate Out Signal Output of the logic gate Logic LE44 Tim...

Page 757: ...LE52 Out Signal Latched Output Q Logic LE52 Out inverted Signal Negated Latched Output Q NOT Logic LE53 Gate Out Signal Output of the logic gate Logic LE53 Timer Out Signal Timer Output Logic LE53 Ou...

Page 758: ...nverted Signal Negated Latched Output Q NOT Logic LE62 Gate Out Signal Output of the logic gate Logic LE62 Timer Out Signal Timer Output Logic LE62 Out Signal Latched Output Q Logic LE62 Out inverted...

Page 759: ...ate Out Signal Output of the logic gate Logic LE71 Timer Out Signal Timer Output Logic LE71 Out Signal Latched Output Q Logic LE71 Out inverted Signal Negated Latched Output Q NOT Logic LE72 Gate Out...

Page 760: ...ate Out Signal Output of the logic gate Logic LE78 Timer Out Signal Timer Output Logic LE78 Out Signal Latched Output Q Logic LE78 Out inverted Signal Negated Latched Output Q NOT Logic LE79 Gate Out...

Page 761: ...nal Trip Command 50R 2 TripCmd Signal Trip Command 51R 1 TripCmd Signal Trip Command 51R 2 TripCmd Signal Trip Command 49 TripCmd Signal Trip Command 50J 1 TripCmd Signal Trip Command 50J 2 TripCmd Si...

Page 762: ...protection a test current has to be higher than the threshold value of one of the current protection modules that are assigned to trigger the BF protection The BF trip delay can be measured from the t...

Page 763: ...circuit calibration errors and other is the dynamic error that is proportional to the measured maximum current due to CT transformation characteristics The CTs are assumed to be used in the wye ground...

Page 764: ...If the current is measured in two phases only for example only IA IB or if there is no separate ground current measuring e g normally via a zero sequence CT the supervision function should be deactiva...

Page 765: ...ww eaton com 765 Please Refer to Diagram Blockings IX Calculated IA CTS Pickup CTS Element is not deactivated and no active blocking signals IC IB IX Kd CTS I 2 AND 40 CTS t t 0 Phase or Ground Curren...

Page 766: ...Setting range Default Menu path ExBlo1 External blocking of the module if blocking is activated allowed within a parameter set and if the state of the assigned signal is true 1 n Assignment List Prot...

Page 767: ...n CTS I In order to prevent faulty tripping of phase selective protection functions that use the current as tripping criterion If the difference of the measured ground current and the calculated value...

Page 768: ...ion Para Global Prot Para Supervision CTS ExBlo2 I Module Input State External Blocking2 Protection Para Global Prot Para Supervision CTS Current Transformer Supervision Signals Outputs States Signal...

Page 769: ...ee phase symmetrical current system approx nominal current to the secondary side Disconnect the current of one phase from one of the measuring inputs the symmetrical feeding at the secondary side has...

Page 770: ...lowing measured values and information to detect an LOP condition Three phase voltages Ratio of negative to positive sequence voltages Zero sequence voltage Three phase currents Residual current I0 On...

Page 771: ...0 9999 s t Pickup 0 LOP LOP Blo LOP Pickup AND AND AND OR OR LOP Name LOP 38a Please Refer to Diagram Blockings Element is not deactivated and no active blocking signals 2 Phase Voltage Transformer F...

Page 772: ...enu path ExBlo1 External blocking of the module if blocking is activated allowed within a parameter set and if the state of the assigned signal is true 1 n Assignment List Protection Para Global Prot...

Page 773: ...nactive Active Inactive Protection Para 1 4 Supervision LOP LOP Blo Enable Activate allow or inactivate disallow blocking by the module LOP Inactive Active Inactive Protection Para 1 4 Supervision LOP...

Page 774: ...obal Prot Para Supervision LOP ExBlo2 I Module Input State External Blocking2 Protection Para Global Prot Para Supervision LOP LOP Module Signals Output States Signal Description Active Signal Active...

Page 775: ...ion I setting and The residual current is less than 0 1 Ipu rated current and The offline detection has not detected a dead busbar No current no voltage measured Successful test result part 1 The outp...

Page 776: ...t be monitored through the other digital inputs Note that the digital inputs used for this purpose must be configured properly based on the trip circuit control voltage and also that the de bouncing t...

Page 777: ...52a and 52b in trip circuit www eaton com 777 Breaker 1 Bkr 1 Control Voltage 1 2 3 4 5 6 7 8 PE 9 10 11 12 COM1 13 14 15 16 17 18 V DI1 COM2 DI2 V X1 TC W1 52a W1 52b DC DC 52a 52b Trip Relay Control...

Page 778: ...a Only in Trip Circuit www eaton com 778 Breaker 1 Bkr 1 Control Voltage 1 2 3 4 5 6 7 8 PE 9 10 11 12 COM1 13 14 15 16 17 18 V DI1 V X1 TC W1 52a W1 52b DC DC 52a 52b Trip Relay Control Voltage AND B...

Page 779: ...the breaker is closed 1 n Dig Inputs DI 8P X1 DI 1 Protection Para Global Prot Para Supervision TCM Input 2 Select the input configured to monitor the trip coil when the breaker is open Only availabl...

Page 780: ...Fc Activate allow or inactivate disallow blocking of the module element This parameter is only effective if a signal is assigned to the corresponding global protection parameter If the signal becomes...

Page 781: ...Global Prot Para Supervision TCM ExBlo1 I Module Input State External Blocking1 Protection Para Global Prot Para Supervision TCM ExBlo2 I Module Input State External Blocking2 Protection Para Global P...

Page 782: ...st of the trip circuit monitoring with 52a and 52b contact Procedure Part 1 Simulate failure of the control voltage in the power circuits Successful Test Result Part 1 After expiration of t TCM the tr...

Page 783: ...he second threshold Monitoring of the communication between Main and Digital Signal Processor DSP The cyclic measured value processing of the DSP is monitored by the main processor The device will be...

Page 784: ...lows the termination of ongoing data writing procedures The module for the supervision of the system utilization will detect repetitive short term sags of the supply voltage Internal data of the devic...

Page 785: ...the Operator Device reboot triggered by the operator via HMI or Smart view 3 Reboot by means of Super Reset Automatic reboot when setting the device back to factory defaults 4 outdated 5 outdated 6 Un...

Page 786: ...lowed by a 6 digit error code e g E01487 In addition to the recorders messages and display information that can be accessed by the user there may exist additional error information accessible by the S...

Page 787: ...gnal Device Failure SelfSuperVision Contact Signal SelfSuperVision Contact Values of the Self Supvervision Value Description Menu path Last Failure Last Failure Operation Self Supervision System Error...

Page 788: ...ctive function pickups protective function states breaker states system alarms and module inputs The User can use the output signals of a logic equation as inputs in higher equations e g the output si...

Page 789: ...are 0 then the output of the gate will be set as follows 0 for an AND gate 1 for a NAND gate 0 for an OR gate 1 for a NOR gate If at least one input signal is assigned to a gate all not assigned input...

Page 790: ...Assignment List LE x IN1 Active Inactive Inverting1 XOR 1 n Assignment List LE x IN2 Active Inactive Inverting2 XOR 1 n Assignment List LE x IN3 Active Inactive Inverting3 XOR 1 n Assignment List LE...

Page 791: ...e output of the gate can be delayed The User has the option to set an On and an Off delay Latching The timer issues two signals an unlatched and a latched signal The latched output can optionally be i...

Page 792: ...utilizes the output signal of Logic Equation n as input of Logic Equation n 1 If the state of Logic Equation n changes the state of the output of Logic Equation n 1 will be updated within the same cyc...

Page 793: ...elay Logic Equation2 LE2 IN2 LE2 IN3 LE2 IN4 Output of Logic Equation 2 Logic Equation1 LE1 IN2 LE1 IN3 LE1 IN4 Output of Logic Equation 1 Logic Equation3 LE3 IN1 LE3 IN2 LE3 IN3 LE3 IN4 Logic Equatio...

Page 794: ...to be set Set the Input Signals where necessary invert them If required configure the timer On delay and Off delay If the latched output signal is used assign a reset signal to the reset input Within...

Page 795: ...ogic LE 1 LE1 IN1 Assignment of the Input Signal 1 n Assignment List Logic LE2 Gate Out Logic LE 1 LE1 Inverting1 Inverting the input signals Only available if an input signal has been assigned Inacti...

Page 796: ...input signals Only available if an input signal has been assigned Inactive Active Inactive Logic LE 1 LE1 t On Delay Switch On Delay 0 00 36000 00s 0 00s Logic LE 1 LE1 t Off Delay Switch Off Delay 0...

Page 797: ...ate of the module input Assignment of the Input Signal Logic LE 1 LE1 Gate In4 I State of the module input Assignment of the Input Signal Logic LE 1 LE1 Reset Latch I State of the module input Reset S...

Page 798: ...omponent connections All locally applicable national and international installation and safety regulations for working at electrical power installations MUST always to be followed Prior to the initial...

Page 799: ...LEDs and relay functions these have to be provided with the relevant pickup alarm and tripping functions of the respective protection functions elements This MUST be tested in practical operation Chec...

Page 800: ...nd that there are no voltages that could lead to injury of personnel Disconnect the terminals at the rear side of the device DO NOT pull any cable pull on the plug If it is stuck use a screw driver Fa...

Page 801: ...ce and Commissioning Support Within the service menu various functions support maintenance and commissioning of the device General Within the Service General menu the User can initiate a reboot of the...

Page 802: ...lt clearing time and lower incident energy levels at energized panels The Maintenance Mode allows the User to switch to more sensitive settings via the HMI panel Communication or via a Digital Input w...

Page 803: ...ensitivity settings either into a setting group or into Adaptive Parameters The Maintenance Mode offers two output signals Maint Mode activated and Maint Mode not activated The Maint Mode ACTIVATED si...

Page 804: ...ctive Sys Maint Mode Mode Activation Manually Activation via Comm Activation via DI Inactive Sys MaintMode Manually Active Comm Cmd Sys Maint Mode Active Sys Maint Mode Inactive Sys MaintMode Manually...

Page 805: ...with a timeout they will keep their Force Position only as long as this timer runs If the timer expires the relay will operate normally If they are set as Permanent they will keep the Force Position c...

Page 806: ...out the risk of taking entire processes off line The User MUST ENSURE that the relay output contacts are ARMED AGAIN after maintenance is complete If they are not armed the protective device WILL NOT...

Page 807: ...a running t OFF delay timer is not yet expired hold time of a relay output contact If the Disarm Control is not set to active If the Direct Command is not applied A relay output contact WILL be disarm...

Page 808: ...t inhibit WARNING Cont URTD RTD temperatures can be set by force Permanent or Via timeout If they are set with a timeout they will keep their Forced Temperature only as long as this timer runs If the...

Page 809: ...ARNING Cont Analog Outputs Analog Outputs can be set by force Permanent or Via timeout If they are set with a timeout they will keep their Forced Value only as long as this timer runs If the timer exp...

Page 810: ...s can be set by force Permanent or Via timeout If they are set with a timeout they will keep their Forced Value only as long as this timer runs If the timer expires the Analog Input will operate norma...

Page 811: ...Prot inhibit WARNING Cont Sine wave gen Configuration sub menu the duration of each phase can be set In addition the measuring quantities to be simulated can be determined e g voltages currents and th...

Page 812: ...EMR 4000 IM02602009E The simulation voltages are always phase to neutral voltages irrespectively of the mains voltage transformers connection method Phase to phase Wey Open Delta www eaton com 812...

Page 813: ...ipCmd Simulation is authorized to trip the breaker How To Call up Service Test Mode Prot inhibit WARNING Cont Sine wave gen Process Trip Cmd Mode With TripCmd Stop by external signal Force Post As soo...

Page 814: ...Fault Duration 0 00 300 00s 0 0s Service Test Mode Prot inhibit WARNING Cont Sgen Configuration Times FaultSimulation Duration of Fault Simulation 0 00 10800 00s 0 0s Service Test Mode Prot inhibit W...

Page 815: ...OSE Service Test Mode Prot inhibit WARNING Cont Sgen Process Ex ForcePost Force Post state Abort simulation 1 n Assignment List Service Test Mode Prot inhibit WARNING Cont Sgen Process Voltage Paramet...

Page 816: ...00 1 30Vn 0 0Vn Service Test Mode Prot inhibit WARNING Cont Sgen Configuration PreFault VT Angle VA Fund Start Position respectively Start Angle of the Voltage Phasor during Pre Phase Phase A 360 360...

Page 817: ...n respectively Start Angle of the Voltage Phasor during Pre Phase VX 360 360 0 Service Test Mode Prot inhibit WARNING Cont Sgen Configuration PreFault VT VA Fund Voltage Fundamental Magnitude in Fault...

Page 818: ...30Vn 0 29Vn Service Test Mode Prot inhibit WARNING Cont Sgen Configuration FaultSimulation VT Angle VA Fund Start Position respectively Start Angle of the Voltage Phasor during Fault Phase Phase A 36...

Page 819: ...tion respectively Start Angle of the Voltage Phasor during Fault Phase VX 360 360 0 Service Test Mode Prot inhibit WARNING Cont Sgen Configuration FaultSimulation VT VA Fund Voltage Fundamental Magnit...

Page 820: ...e VX 0 00 1 30Vn 0 0Vn Service Test Mode Prot inhibit WARNING Cont Sgen Configuration PostFault VT Angle VA Fund Start Position respectively Start Angle of the Voltage Phasor during Post phase Phase A...

Page 821: ...hasor during Post phase Phase VX 360 360 0 Service Test Mode Prot inhibit WARNING Cont Sgen Configuration PostFault VT Current Parameter of the Failure Simulator Parameter Description Setting range De...

Page 822: ...0 00 25 00In 0 0In Service Test Mode Prot inhibit WARNING Cont Sgen Configuration PreFault CT Angle IA Fund Start Position respectively Start Angle of the Current Phasor during Pre Phase Phase A 360...

Page 823: ...n respectively Start Angle of the Current Phasor during Pre Phase IX 360 360 0 Service Test Mode Prot inhibit WARNING Cont Sgen Configuration PreFault CT IA Fund Current Fundamental Magnitude in Fault...

Page 824: ...5 00In 0 0In Service Test Mode Prot inhibit WARNING Cont Sgen Configuration FaultSimulation CT Angle IA Fund Start Position respectively Start Angle of the Current Phasor during Fault Phase Phase A 36...

Page 825: ...tion respectively Start Angle of the Current Phasor during Fault Phase IX 360 360 0 Service Test Mode Prot inhibit WARNING Cont Sgen Configuration FaultSimulation CT IA Fund Current Fundamental Magnit...

Page 826: ...IX 0 00 25 00In 0 0In Service Test Mode Prot inhibit WARNING Cont Sgen Configuration PostFault CT Angle IA Fund Start Position respectively Start Angle of the Current Phasor during Post phase Phase A...

Page 827: ...0 0 Service Test Mode Prot inhibit WARNING Cont Sgen Configuration PostFault CT States of the Inputs of the Failure Simulator Name Description Assignment via Ex Start Simulation I State of the module...

Page 828: ...Start Fault Simulation Using the test parameters Inactive Active Inactive Service Test Mode Prot inhibit WARNING Cont Sgen Process Stop Simulation Stop Fault Simulation Using the test parameters Inact...

Page 829: ...ection EN 60529 HMI Front Panel with Seal IP54 Rear Side Terminals IP20 Routine Test Insulation Test Acc to IEC60255 5 All tests to be carried out against ground and other input and output circuits Au...

Page 830: ...lf wave Power Consumption Phase current inputs At In 1 A S 25 mVA At In 5 A S 90 mVA Ground current input At In 1 A S 25 mVA At In 5 A S 90 mVA Sensitive Ground Current Inputs Nominal Currents 1 A 5 A...

Page 831: ...5 mm 2 x AWG 14 with wire end ferrule 1 x or 2 x 4 0 mm 2 x AWG 12 with ring cable sleeve or cable sleeve 1 x or 2 x 6 mm 2 x AWG 10 with ring cable sleeve or cable sleeve The current measuring board...

Page 832: ...Max Measuring Range 800 Vac Continuous Loading Capacity 800 Vac Power Consumption at Vn 100 V S 22 mVA at Vn 110 V S 25 mVA at Vn 230 V S 110 mVA at Vn 400 V S 330 mVA Frequency Range 50 Hz or 60 Hz...

Page 833: ...value for 1 ms The voltage supply must be protected by a fuse of 2 5 A time lag miniature fuse 5 x 20 mm approx 0 2 x 0 8 in according to IEC 60127 3 5 A time lag miniature fuse 6 3 x 32 mm approx 0 2...

Page 834: ...h LED background illumination Resolution Graphics Display 128 x 64 pixel LED Type Two colored red green Number of LEDs Housing B2 15 Front Interface USB Type Mini B Real Time Clock Running Reserve of...

Page 835: ...Threshold 1 ON Switching Threshold 1 OFF Min 19 2 Vdc Max 9 6 Vdc Un 48 V 60Vdc Switching Threshold 2 ON Switching Threshold 2 OFF Min 42 6 Vdc Max 21 3 Vdc Un 110 120 Vac dc Switching Threshold 3 ON...

Page 836: ...s Max Switching Voltage 250 Vac 250 Vdc Switching Capacity 3 000 VA Contact Type Form C or normally open contact Terminals Screw type terminals Supervision Contact SC Continuous Current 5 A ac dc Max...

Page 837: ...ctronic inputs only Zone Out Output voltage High 4 75 to 5 25 Vdc Output voltage Low 0 0 to 0 5 Vdc Zone In Nominal input voltage 5 Vdc Max input voltage 5 5 Vdc Switching threshold ON min 4 0 Vdc Swi...

Page 838: ...nimum Optical Output Power 19 8 dBm with 50 125 m Fiber 16 0 dBm with 62 5 125 m Fiber 12 5 dBm with 100 145 m Fiber 8 5 dBm with 200 m HCS Fiber Maximum Link Length 2 7 km depending on link attenuati...

Page 839: ...f unshielded twisted pair cables the length must not exceed 10 m All analog outputs have a common potenti al Each output has an own common terminal Current mode Range Max load resistance 0 20 mA 1 k V...

Page 840: ...EC 60255 22 1 IEEE C37 90 1 IEC 61000 4 18 class 3 Within one circuit Circuit to ground Circuit to circuit 1 kV 2 s 2 5 kV 2 s 2 5 kV 2 s Insulation Voltage Test IEC 60255 27 10 5 3 2 IEC 60255 5 EN 5...

Page 841: ...4 ANSI C37 90 1 class 4 Power supply mains inputs Other in and outputs 4 kV 2 5 kHz 2 kV 5 kHz coupling network 4 kV 2 5 kHz coupling clamp Surge Immunity Test Surge IEC 60255 22 5 IEC 61000 4 5 clas...

Page 842: ...V m 35 V m 10 V m Immunity to Conducted Disturbances Induced by Radio Frequency Fields IEC 61000 4 6 class 3 150kHz 80MHz 10 V Power Frequency Magnetic Field Immunity Test IEC 61000 4 8 class 4 contin...

Page 843: ...of ambient conditions Stationary use at weather protected locations 3K6 3B1 3C1 3S1 3M2 but min 20 C 4 F max 60 C 140 F Test Ad Cold IEC 60068 2 1 Temperature Test duration 20 C 4 F 16 h Test Bd Dry H...

Page 844: ...ature cycle test duration 60 C 20 C 5 1 C 5min Test BD Dry Heat Transport and storage test IEC 60255 6 12 3 3 IEC 60068 2 2 Temperature test duration 70 C 16 h Test AB Cold Transport and storage test...

Page 845: ...Test IEC 60068 2 27 IEC 60255 21 2 class 1 Shock response test 5 gn 11 ms 3 impulses in each direction Shock resistance test 15 gn 11 ms 3 impulses in each direction Test Eb Shock Endurance Test IEC...

Page 846: ...tocol Time drift over one month Deviation to time generator Without time synchronization 1 min 20 C Time drifts IRIG B Dependent on the time drift of the time generator 1 ms SNTP Dependent on the time...

Page 847: ...100 mA with In 1 A respectively 500 mA with In 5 A Phase to ground and Residual Voltage Measurement Frequency Range 50 Hz 60 Hz 10 Accuracy for measured values Class 0 5 Amplitude error for V Vn 0 5...

Page 848: ...easured value or 0 1 Sn for fundamental 2 of the measured value or 0 1 Sn for RMS W 1 Var 1 pos sequence 2 of the measured value or 0 2 Sn Power Factor Measurement PF 0 01 of measured power factor or...

Page 849: ...2 times pickup value 36 ms Disengaging Time 55 ms t Multiplier 5 according to selected curve Reset Mode 5 according to selected curve t reset Reset Mode t delay 1 or 10 ms Ground Current Elements 50X...

Page 850: ...t starts per hours timer from oldest start event 1 min Overcurrent Protection Elements 49 Thermal Model Accuracy Trip Threshold 2 Trip Delay 1 or 10 ms Alarm Threshold 2 Alarm Delay 1 or 10 ms Jam Sta...

Page 851: ...Power JAM 35 ms for Underload Undervoltage Overvoltage Frequency Generic 1 5 60 ms Temperature Protection Elements 49 38 x RTD Trip w URTD Accuracy Trip Threshold 1 C 1 8 F Alarm Threshold 1 C 1 8 F...

Page 852: ...n 101 110 Voltage unbalance 47 x Accuracy 1 Threshold 2 of the setting value or 1 Vn V2 V1 1 t DEFT 1 or 10 ms Operating Time 60 ms Disengaging Time 45 ms 1 Negative sequence voltage V2 must be 0 01 x...

Page 853: ...00 ms typically 70 ms Disengaging time 120 ms 1 Accurracy is given for rated frequency fn 10 2 10 additional tolerance per Hz deviation from nominal frequency fn e g at 45Hz tolerance is 0 15Hz s Rate...

Page 854: ...ng time 100 ms 75 ms typically Disengaging time 100 ms 1 Common reference conditions at PF 0 5 symmetrically fed at fn and 0 8 1 3 x Vn Vn 100V Breaker Failure Protection 50BF Accuracy I BF 1 5 of the...

Page 855: ...ate The output becomes true if all Input signals are true ANG Angle ANSI American National Standards Institute AR Automatic reclosure AUX Auxiliary AVG avg Average AWG American wire gauge BF Breaker f...

Page 856: ...nt DEFT Definite time characteristic Tripping time does not depend on the height of the current DFLT Default DGNST Diagnostics DI Digital Input Diagn Diagnosis Diagn Cr Diagnosis counter s DIFF Differ...

Page 857: ...cceleration of the earth in vertical direction 9 81 m s2 GND Ground GPS Global positioning system h Hour HARM Harmonic harmonics HMI Human machine interface Front of the protective relay HTL Manufactu...

Page 858: ...armonic IINV Inverse in Inch incl Include including Info Information Interl Interlocking INV Inverse characteristic The tripping time will be calculated depending on the height of the current I O Inpu...

Page 859: ...pping characteristic LV Low voltage m Meter M Machine mA Milliampere s Milliamp s MAG Magnitude MAN man Manual manually MAX max Maximum meas Measured MIN min Minimum min Minute MINV Moderately Inverse...

Page 860: ...W A Megawatt s phase A MW B Megawatt s phase B MW C Megawatt s phase C MWH Megawatt Hour s N Neutral N A n a Not applicable N C Not connected NEG Negative NINV Normal inverse tripping characteristic N...

Page 861: ...aster Module protection PS1 Parameter set 1 PS2 Parameter set 2 PS3 Parameter set 3 PS4 Parameter set 4 PSet Parameter set PSS Parameter set switch Switching from one parameter set to another pu Per u...

Page 862: ...SEC sec Secondary SENS Sensitive SEQ Sequence Sig Signal SNTP Simple network time protocol SRC Source StartFct Start function STATS Statistics Sum Summation SUPERV Supervision SW Software SYNC Sync c...

Page 863: ...o sequence voltage V1 Positive sequence voltage V2 Negative sequence voltage VA Phase A voltage VAB Phase A to B voltage Vac V ac Volts alternating current VAG Phase A to ground voltage VARH Var hour...

Page 864: ...ge transformer supervision W Watt s WDC Watch dog contact supervision contact WDG Winding WH Watthour www World wide web X Reactance XCT 4th current measuring input ground or neutral current XInv Inve...

Page 865: ...anation www eaton com 865 t Tripping delay I Fault current Pickup If the pickup value is exceeded the module element starts to time out to trip t s Pickup I 1 10 0 01 0 1 1 10 100 1 10 0 01 0 1 1 10 1...

Page 866: ...nv VINV ANSI XInv EINV ANSI XInv Thermal Flat Therm Flat IT Therm Flat I2T and Therm Flat I4T Explanation www eaton com 866 t Tripping delay t multiplier Time multiplier tripping characteristic factor...

Page 867: ...7 t multiplier x Pickup Multiples of Pickup Trip Reset t 0 14 t multiplier s Pickup 1 I 2 t 0 14 t multiplier s Pickup 1 I 0 02 t s Notice Various Reset Modes are available Resetting via characteristi...

Page 868: ...868 t s t multiplier t 13 5 t multiplier s Pickup 1 I t 13 5 t multiplier s Pickup 1 I 2 Trip Reset x Pickup Multiples of Pickup Notice Various Reset Modes are available Resetting via characteristic...

Page 869: ...m 869 t s t multiplier t 120 t multiplier s Pickup 1 I 2 t 120 t multiplier s Pickup 1 I Trip Reset x Pickup Multiples of Pickup Notice Various Reset Modes are available Resetting via characteristic d...

Page 870: ...m 870 t s t multiplier t 80 t multiplier s Pickup 1 I 2 t 80 t multiplier s Pickup 1 I 2 Trip Reset x Pickup Multiples of Pickup Notice Various Reset Modes are available Resetting via characteristic d...

Page 871: ...t multiplier t 4 85 t multiplier s Pickup 1 I 2 t 0 0515 t multiplier s Pickup 1 I 0 02 0 1140 Trip Reset x Pickup Multiples of Pickup Notice Various Reset Modes are available Resetting via character...

Page 872: ...t s t multiplier Trip Reset x Pickup Multiples of Pickup t 19 61 t multiplier s Pickup 1 I 2 0 491 t 21 6 t multiplier s Pickup 1 I 2 Notice Various Reset Modes are available Resetting via characteris...

Page 873: ...t s t multiplier t 29 1 t multiplier s Pickup 1 I 2 Trip Reset x Pickup Multiples of Pickup t 28 2 t multiplier s Pickup 1 I 2 0 1217 Notice Various Reset Modes are available Resetting via characteris...

Page 874: ...al Current Trip Reset t 5 3 t multiplier s 2 In I 0 t 5 1 t multiplier s In I 0 2 Notice Various Reset Modes are available Resetting via characteristic delayed and instantaneous Therm Flat t 45 t mult...

Page 875: ...s of the Nominal Current Trip Reset t 5 3 t multiplier s 2 In I 0 Notice Various Reset Modes are available Resetting via characteristic delayed and instantaneous IT t 5 3 t multiplier s 1 In I 1 0 01...

Page 876: ...100 1 10 3 1 10 4 TM s 10 5 2 1 0 0 5 0 05 t s t multiplier x In Multiples of the Nominal Current Trip Reset t 5 3 t multiplier s 2 In I 0 Notice Various Reset Modes are available Resetting via chara...

Page 877: ...of the Nominal Current Trip Reset t 5 3 t multiplier s 2 In I 0 Notice Various Reset Modes are available Resetting via characteristic delayed and instantaneous I4T t 5 3 t multiplier s In I 4 4 0 01...

Page 878: ...easured either directly via a zero sequence transformer or detected by a residual connection The ground current can alternatively be calculated from the phase currents but this is only possible if the...

Page 879: ...EMR 4000 IM02602009E www eaton com 879 t s 1 10 0 01 0 1 1 10 100 1 10 0 01 0 1 1 10 100 I I t t 40 20 300 s 300 s 0 0 s 0 0 s 0 01 0 01 Pickup IR calc Pickup IR calc DEFT...

Page 880: ...asured either directly via a zero sequence transformer or detected by a residual connection The ground current can alternatively be calculated from the phase currents but this is only possible if the...

Page 881: ...EMR 4000 IM02602009E www eaton com 881 t s 1 10 0 01 0 1 1 10 100 1 10 0 01 0 1 1 10 100 I I t t 40 20 300 s 300 s 0 0 s 0 0 s 0 01 0 01 Pickup IX Pickup IX DEFT...

Page 882: ...be measured either directly via a zero sequence transformer or detected by a residual connection The ground current can alternatively be calculated from the phase currents but this is only possible if...

Page 883: ...t multiplier t 0 14 t multiplier s Pickup 1 IG 0 02 Trip Reset t 0 14 t multiplier s Pickup 1 IG 2 x Pickup Multiples of Pickup t s Notice Various Reset Modes are available Resetting via characterist...

Page 884: ...884 t s t multiplier Trip Reset x Pickup Multiples of Pickup t 13 5 t multiplier s Pickup 1 IG 2 t 13 5 t multiplier s Pickup 1 IG Notice Various Reset Modes are available Resetting via characteristic...

Page 885: ...885 t s t multiplier x Pickup Multiples of Pickup Trip Reset t 120 t multiplier s Pickup 1 IG t 120 t multiplier s 1 IG 2 Pickup Notice Various Reset Modes are available Resetting via characteristic...

Page 886: ...886 t s t multiplier x Pickup Multiples of Pickup Trip Reset t 80 t multiplier s Pickup 1 IG 2 t 80 t multiplier s Pickup 1 IG 2 Notice Various Reset Modes are available Resetting via characteristic...

Page 887: ...t multiplier x Pickup Multiples of Pickup t 0 0515 t multiplier s Pickup 1 IG 0 02 0 1140 t 4 85 t multiplier s 1 IG 2 Pickup Trip Reset Notice Various Reset Modes are available Resetting via characte...

Page 888: ...s t multiplier x Pickup Multiples of Pickup Trip Reset t 21 6 t multiplier s 1 IG 2 Pickup t 19 61 t multiplier s Pickup 1 IG 2 0 491 Notice Various Reset Modes are available Resetting via characteri...

Page 889: ...s t multiplier x Pickup Multiples of Pickup Trip Reset t 28 2 t multiplier s Pickup 1 IG 2 0 1217 t 29 1 t multiplier s 1 IG 2 Pickup Notice Various Reset Modes are available Resetting via characteri...

Page 890: ...s 2 IG 0 IGnom x In Multiples of the Nominal Current Notice Various Reset Modes are available Resetting via characteristic delayed and instantaneous Therm Flat t 5 t multiplier s IGnom IG 0 t 5 t mul...

Page 891: ...tiples of the Nominal Current t 5 1 t multiplier s 2 IG 0 IGnom Notice Various Reset Modes are available Resetting via characteristic delayed and instantaneous IT t 5 1 t multiplier s IGnom IG 1 1 0 0...

Page 892: ...ltiples of the Nominal Current t 5 1 t multiplier s 2 IG 0 IGnom Notice Various Reset Modes are available Resetting via characteristic delayed and instantaneous I2T t 5 1 t multiplier s IGnom IG 2 2 0...

Page 893: ...ltiples of the Nominal Current t Notice Various Reset Modes are available Resetting via characteristic delayed and instantaneous I4T t 5 1 t multiplier s IGnom IG 4 4 5 1 t multiplier s 2 IGnom IG 0 0...

Page 894: ...Authority Local Ctrl Remote Switching Authority Remote Ctrl SG Indeterm Minimum one Switchgear is moving Position cannot be determined Ctrl SG Disturb Minimum one Switchgear is disturbed Bkr SI Single...

Page 895: ...d manual Bkr CinBkr 52a I Module Input State Feed back signal of the Bkr 52a Bkr CinBkr 52b I Module Input State Feed back signal of the Bkr 52b Bkr Ready I Module Input State Breaker Ready Bkr Ack Tr...

Page 896: ...locking through digital input DI MStart TransitionTrip Signal Start transition fail trip MStart ZSSTrip Signal Zero speed trip possible locked rotor MStart INSQSP2STFaill Signal Fail to transit from s...

Page 897: ...tage elements are blocked for the time programmed under this parameter MStart PowerStartBlock Signal Power Start Delay Power elements are blocked for the time programmed under this parameter MStart PF...

Page 898: ...Module Input State Adaptive Parameter4 50P 2 Active Signal Active 50P 2 ExBlo Signal External Blocking 50P 2 Rvs Blo Signal Reverse Blocking 50P 2 Blo TripCmd Signal Trip Command blocked 50P 2 ExBlo...

Page 899: ...2 50P 3 AdaptSet 3 Signal Adaptive Parameter 3 50P 3 AdaptSet 4 Signal Adaptive Parameter 4 50P 3 ExBlo1 I Module Input State External Blocking1 50P 3 ExBlo2 I Module Input State External Blocking2 5...

Page 900: ...nal External Blocking 51P 2 Rvs Blo Signal Reverse Blocking 51P 2 Blo TripCmd Signal Trip Command blocked 51P 2 ExBlo TripCmd Signal External Blocking of the Trip Command 51P 2 Pickup IA Signal Pickup...

Page 901: ...t State External Blocking1 51P 3 ExBlo2 I Module Input State External Blocking2 51P 3 ExBlo TripCmd I Module Input State External Blocking of the Trip Command 51P 3 Rvs Blo I Module Input State Revers...

Page 902: ...ip 50X 2 TripCmd Signal Trip Command 50X 2 DefaultSet Signal Default Parameter Set 50X 2 AdaptSet 1 Signal Adaptive Parameter 1 50X 2 AdaptSet 2 Signal Adaptive Parameter 2 50X 2 AdaptSet 3 Signal Ada...

Page 903: ...cking 51X 2 Rvs Blo Signal Reverse Blocking 51X 2 Blo TripCmd Signal Trip Command blocked 51X 2 ExBlo TripCmd Signal External Blocking of the Trip Command 51X 2 Pickup Signal Pickup IX or IR 51X 2 Tri...

Page 904: ...daptSet2 I Module Input State Adaptive Parameter2 50R 1 AdaptSet3 I Module Input State Adaptive Parameter3 50R 1 AdaptSet4 I Module Input State Adaptive Parameter4 50R 2 Active Signal Active 50R 2 ExB...

Page 905: ...ernal Blocking1 51R 1 ExBlo2 I Module Input State External Blocking2 51R 1 ExBlo TripCmd I Module Input State External Blocking of the Trip Command 51R 1 Rvs Blo I Module Input State Reverse Blocking...

Page 906: ...TripCmd Signal External Blocking of the Trip Command 49 Pickup Signal Pickup 49 Trip Signal Trip 49 TripCmd Signal Trip Command 49 ExBlo1 Module Input State External Blocking 49 ExBlo2 Module Input S...

Page 907: ...al Active 37 2 ExBlo Signal External Blocking 37 2 Blo TripCmd Signal Trip Command blocked 37 2 ExBlo TripCmd Signal External Blocking of the Trip Command 37 2 Pickup Signal Pickup 37 2 Trip Signal Tr...

Page 908: ...al Blocking of the Trip Command 27M 2 Active Signal Active 27M 2 ExBlo Signal External Blocking 27M 2 Blo TripCmd Signal Trip Command blocked 27M 2 ExBlo TripCmd Signal External Blocking of the Trip C...

Page 909: ...59M 2 ExBlo2 I Module Input State External Blocking2 59M 2 ExBlo TripCmd I Module Input State External Blocking of the Trip Command 27A 1 Active Signal Active 27A 1 ExBlo Signal External Blocking 27A...

Page 910: ...the Trip Command 59A 2 Pickup Signal Pickup Residual Voltage Supervision Element 59A 2 Trip Signal Trip 59A 2 TripCmd Signal Trip Command 59A 2 ExBlo1 I Module Input State External Blocking1 59A 2 Ex...

Page 911: ...ip Command blocked 47 2 ExBlo TripCmd Signal External Blocking of the Trip Command 47 2 Pickup Signal Pickup Voltage Asymmetry 47 2 Trip Signal Trip 47 2 TripCmd Signal Trip Command 47 2 ExBlo1 I Modu...

Page 912: ...p Vector Surge Signal Trip delta phi 81 2 Trip Signal Trip Frequency Protection collective signal 81 2 TripCmd Signal Trip Command 81 2 ExBlo1 I Module Input State External Blocking1 81 2 ExBlo2 I Mod...

Page 913: ...Input State External Blocking1 81 4 ExBlo2 I Module Input State External Blocking2 81 4 ExBlo TripCmd I Module Input State External Blocking of the Trip Command 81 5 Active Signal Active 81 5 ExBlo S...

Page 914: ...ExBlo TripCmd I Module Input State External Blocking of the Trip Command 32 1 Active Signal Active 32 1 ExBlo Signal External Blocking 32 1 Blo TripCmd Signal Trip Command blocked 32 1 ExBlo TripCmd S...

Page 915: ...ut State External Blocking 32V 1 ExBlo2 I Module Input State External Blocking 32V 1 ExBlo TripCmd I Module Input State External Blocking of the Trip Command 32V 2 Active Signal Active 32V 2 ExBlo Sig...

Page 916: ...ipCmd Signal Trip Command blocked PF 55D 2 ExBlo TripCmd Signal External Blocking of the Trip Command PF 55D 2 Pickup Signal Pickup Power Factor PF 55D 2 Trip Signal Trip Power Factor PF 55D 2 TripCmd...

Page 917: ...Cmd Signal External Blocking of the Trip Command ZI Bkr Blo Signal Blocked by Breaker Failure ZI Phase Pickup Signal Zone Interlocking Phase Pickup ZI Phase Trip Signal Zone Interlocking Phase Trip ZI...

Page 918: ...External Blocking1 ExP 2 ExBlo2 I Module Input State External Blocking2 ExP 2 ExBlo TripCmd I Module Input State External Blocking of the Trip Command ExP 2 Alarm I Module Input State Alarm ExP 2 Trip...

Page 919: ...put State External Blocking of the Trip Command Ex87 Alarm I Module Input State Alarm Ex87 Trip I Module Input State Trip Remote Trip Active Signal Active Remote Trip ExBlo Signal External Blocking Re...

Page 920: ...Winding 1 Signal Trip RTD WD 1 Alarm Winding 1 Alarm RTD Temperature Protection RTD WD 1 Timeout Alarm Winding 1 Timeout Alarm RTD WD 1 Invalid Winding 1 Signal Invalid Temperature Measurement Value e...

Page 921: ...ement Value e g caused by an defective or interrupted RTD Measurement RTD LB 1 Trip Load Bearing 1 Signal Trip RTD LB 1 Alarm Load Bearing 1 Alarm RTD Temperature Protection RTD LB 1 Timeout Alarm Loa...

Page 922: ...p Any Group RTD Alarm Any Group Alarm Any Group RTD TimeoutAlmAnyGrp Timeout Alarm Any Group RTD Voting Trip Grp 1 Voting Trip Group 1 RTD Voting Trip Grp 2 Voting Trip Group 2 RTD Timeout Alarm Alarm...

Page 923: ...LOP LOP Blo Signal Loss of Potential blocks other elements LOP ExBlo1 I Module Input State External Blocking1 LOP ExBlo2 I Module Input State External Blocking2 ECr Cr Oflw VAh Net Signal Counter Over...

Page 924: ...r Signal Trip VArs peak SysA Trip VA Power Signal Trip VAs peak SysA Trip Watt Demand Signal Trip WATTS demand value SysA Trip VAr Demand Signal Trip VARs demand value SysA Trip VA Demand Signal Trip...

Page 925: ...relays are ARMED AGAIN after maintenance RO 4Z X2 Outs forced Signal The State of at least one Relay Output has been set by force That means that the state of at least one Relay is forced and hence d...

Page 926: ...tive device DNP BinaryOutput3 Virtual Digital Output DNP This corresponds to a virtual binary input of the protective device DNP BinaryOutput4 Virtual Digital Output DNP This corresponds to a virtual...

Page 927: ...irtual binary output of the protective device DNP BinaryInput5 I Virtual Digital Input DNP This corresponds to a virtual binary output of the protective device DNP BinaryInput6 I Virtual Digital Input...

Page 928: ...to a virtual binary output of the protective device DNP BinaryInput42 I Virtual Digital Input DNP This corresponds to a virtual binary output of the protective device DNP BinaryInput43 I Virtual Digi...

Page 929: ...5 Communication Command Modbus Comm Cmd 16 Communication Command Modbus Config Bin Inp1 I State of the module input Config Bin Inp Modbus Config Bin Inp2 I State of the module input Config Bin Inp Mod...

Page 930: ...ent connected At least one MMS client is connected to the device IEC61850 All Goose Subscriber active All Goose subscriber in the device are working IEC61850 VirtInp1 Signal Virtual Input IEC61850 GGI...

Page 931: ...f Supervision of the GGIO Input IEC61850 Quality of GGIO In6 Self Supervision of the GGIO Input IEC61850 Quality of GGIO In7 Self Supervision of the GGIO Input IEC61850 Quality of GGIO In8 Self Superv...

Page 932: ...t Controllable Status Output IEC61850 SPCSO7 Status bit that can be set by clients like e g the Master Communication System Single Point Controllable Status Output IEC61850 SPCSO8 Status bit that can...

Page 933: ...it that can be set by clients like e g the Master Communication System Single Point Controllable Status Output IEC61850 SPCSO29 Status bit that can be set by clients like e g the Master Communication...

Page 934: ...Binary state of the Virtual Output GGIO IEC61850 VirtOut27 I Module input state Binary state of the Virtual Output GGIO IEC61850 VirtOut28 I Module input state Binary state of the Virtual Output GGIO...

Page 935: ...ntions IRIG B Control Signal9 Signal IRIG B Control Signal The external IRIG B generator can set these signals They can be used for further control procedures inside the device e g logic funtions IRIG...

Page 936: ...Out Signal Output of the logic gate Logic LE2 Timer Out Signal Timer Output Logic LE2 Out Signal Latched Output Q Logic LE2 Out inverted Signal Negated Latched Output Q NOT Logic LE2 Gate In1 I State...

Page 937: ...ed Output Q Logic LE6 Out inverted Signal Negated Latched Output Q NOT Logic LE6 Gate In1 I State of the module input Assignment of the Input Signal Logic LE6 Gate In2 I State of the module input Assi...

Page 938: ...In1 I State of the module input Assignment of the Input Signal Logic LE10 Gate In2 I State of the module input Assignment of the Input Signal Logic LE10 Gate In3 I State of the module input Assignmen...

Page 939: ...14 Gate In2 I State of the module input Assignment of the Input Signal Logic LE14 Gate In3 I State of the module input Assignment of the Input Signal Logic LE14 Gate In4 I State of the module input As...

Page 940: ...18 Gate In3 I State of the module input Assignment of the Input Signal Logic LE18 Gate In4 I State of the module input Assignment of the Input Signal Logic LE18 Reset Latch I State of the module input...

Page 941: ...2 Gate In4 I State of the module input Assignment of the Input Signal Logic LE22 Reset Latch I State of the module input Reset Signal for the Latching Logic LE23 Gate Out Signal Output of the logic ga...

Page 942: ...al Logic LE26 Reset Latch I State of the module input Reset Signal for the Latching Logic LE27 Gate Out Signal Output of the logic gate Logic LE27 Timer Out Signal Timer Output Logic LE27 Out Signal L...

Page 943: ...e input Reset Signal for the Latching Logic LE31 Gate Out Signal Output of the logic gate Logic LE31 Timer Out Signal Timer Output Logic LE31 Out Signal Latched Output Q Logic LE31 Out inverted Signal...

Page 944: ...gic LE35 Gate Out Signal Output of the logic gate Logic LE35 Timer Out Signal Timer Output Logic LE35 Out Signal Latched Output Q Logic LE35 Out inverted Signal Negated Latched Output Q NOT Logic LE35...

Page 945: ...Logic LE39 Timer Out Signal Timer Output Logic LE39 Out Signal Latched Output Q Logic LE39 Out inverted Signal Negated Latched Output Q NOT Logic LE39 Gate In1 I State of the module input Assignment o...

Page 946: ...d Output Q Logic LE43 Out inverted Signal Negated Latched Output Q NOT Logic LE43 Gate In1 I State of the module input Assignment of the Input Signal Logic LE43 Gate In2 I State of the module input As...

Page 947: ...47 Gate In1 I State of the module input Assignment of the Input Signal Logic LE47 Gate In2 I State of the module input Assignment of the Input Signal Logic LE47 Gate In3 I State of the module input As...

Page 948: ...51 Gate In2 I State of the module input Assignment of the Input Signal Logic LE51 Gate In3 I State of the module input Assignment of the Input Signal Logic LE51 Gate In4 I State of the module input As...

Page 949: ...55 Gate In3 I State of the module input Assignment of the Input Signal Logic LE55 Gate In4 I State of the module input Assignment of the Input Signal Logic LE55 Reset Latch I State of the module input...

Page 950: ...9 Gate In4 I State of the module input Assignment of the Input Signal Logic LE59 Reset Latch I State of the module input Reset Signal for the Latching Logic LE60 Gate Out Signal Output of the logic ga...

Page 951: ...al Logic LE63 Reset Latch I State of the module input Reset Signal for the Latching Logic LE64 Gate Out Signal Output of the logic gate Logic LE64 Timer Out Signal Timer Output Logic LE64 Out Signal L...

Page 952: ...e input Reset Signal for the Latching Logic LE68 Gate Out Signal Output of the logic gate Logic LE68 Timer Out Signal Timer Output Logic LE68 Out Signal Latched Output Q Logic LE68 Out inverted Signal...

Page 953: ...gic LE72 Gate Out Signal Output of the logic gate Logic LE72 Timer Out Signal Timer Output Logic LE72 Out Signal Latched Output Q Logic LE72 Out inverted Signal Negated Latched Output Q NOT Logic LE72...

Page 954: ...Logic LE76 Timer Out Signal Timer Output Logic LE76 Out Signal Latched Output Q Logic LE76 Out inverted Signal Negated Latched Output Q NOT Logic LE76 Gate In1 I State of the module input Assignment o...

Page 955: ...t Q Logic LE80 Out inverted Signal Negated Latched Output Q NOT Logic LE80 Gate In1 I State of the module input Assignment of the Input Signal Logic LE80 Gate In2 I State of the module input Assignmen...

Page 956: ...knowledgment of the Relay Outputs Communication Sys Ack Counter Comm Signal Reset of all Counters Communication Sys Ack Comm Comm Signal Acknowledge Communication Communication Sys Ack TripCmd Comm Si...

Page 957: ...number of entries depends on the type of device Name Description No assignment DI 8P X1 DI 1 Signal Digital Input DI 8P X1 DI 2 Signal Digital Input DI 8P X1 DI 3 Signal Digital Input DI 8P X1 DI 4 S...

Page 958: ...ced Generator Current Protection 47 Unbalanced Voltage Protection 48 Incomplete Sequence Start up time Supervison 49 Thermal Protection 49M Thermal Motor Protection 49R Thermal Rotor Protection 49S Th...

Page 959: ...t 74TC Trip Circuit Supervision 78V Vector Surge Protection 79 Auto Reclosure 81 Frequency Protection 81U Underfrequency Protection 81O Overfrequency Protection 81R ROCOF df dt 86 Lock Out 87 Differen...

Page 960: ...RANTIES OF FITNESS FOR A PARTICULAR PURPOSE OR MERCHANTABILITY OR WARRANTIES ARISING FROM COURSE OF DEALING OR USAGE OF TRADE ARE MADE REGARDING THE INFORMATION RECOMMENDATIONS AND DESCRIPTIONS CONTAI...

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