Download Print this page

Eaton EMR-4000 Installation, Operation And Maintenance Manual

Eaton EMR-4000 Installation, Operation And Maintenance Manual

Motor relay

Hide thumbs Also See for EMR-4000:

Installation, operation and maintenance manual (998 pages)

Table Of Contents

page of 960

/ 960
Contents
Table of Contents
Bookmarks

Table of Contents

Advertisement

Quick Links

Download this manual See also: Installation, Operation & Maintenance Manual

EMR-4000 - MOTOR RELAY

Installation, Operation and Maintenance

Software-Version: 3.0.d

IM02602009E

Revision: E

English

Table of Contents

Advertisement

Table of Contents

Need help?

Need help?

Do you have a question about the EMR-4000 and is the answer not in the manual?

Questions and answers

Summary of Contents for Eaton EMR-4000

Page 1 EMR-4000 - MOTOR RELAY Installation, Operation and Maintenance Software-Version: 3.0.d IM02602009E Revision: E English...
Page 2: Emr-4000 Functional Overview
EMR-4000 IM02602009E EMR-4000 Functional Overview EMR-4000 Metering, Statistics and Demand Current and Volt.: unbalance %THD and THD Fund. and RMS min./max./avg. phasors and angles Power: Fund. and RMS MVA, Mwatt, Mvar, Waveform recorder 81 R Fault recorder Event recorder Trend recorder...
Page 3: Table Of Contents
EMR-4000 IM02602009E Table of Contents EMR-4000 Functional Overview..........................2 Table of Contents................................ 3 Comments on the Manual............................9 What Is Included with the Device..........................14 Storage..................................14 Important Information ..............................14 Symbols..................................15 General Conventions..............................17 Load Reference Arrow System............................ 21 Device..................................
Page 4 EMR-4000 IM02602009E Global Parameters of the Energy Counter Module....................152 Direct Commands of the Energy Counter Module ....................152 Signals of the Energy Counter Module (States of the Outputs)..................153 Statistics.................................. 154 Configuration of the Minimum and Maximum Values....................154 Configuration of the Average Value Calculation......................155 Direct Commands..............................
Page 5 EMR-4000 IM02602009E Special Values of the System Module........................239 Communication Protocols............................240 Module: SCADA................................ 240 TCP/IP Parameter..............................241 Modbus®................................... 242 Profibus..................................264 IEC 61850................................. 278 DNP3..................................294 Parameters................................337 Parameter Definitions..............................337 Access Authorizations (access areas)........................359 Passwords – Areas..............................359 How to find out what access areas/levels are unlocked?...................
Page 6 EMR-4000 IM02602009E Thermal Model................................484 Ultimate Trip Current..............................492 Underload Module..............................496 50P - DEFT Overcurrent Protection........................... 500 51P - Overcurrent Protection [51, 51C, 51V]......................510 50R DEFT Calculated Ground Fault Protection Module.................... 525 51R INV Calculated Ground Fault Protection......................534 50X DEFT Measured Ground Fault Protection......................
Page 7 EMR-4000 IM02602009E Failure Simulator (Sequencer)*..........................811 Technical Data................................. 829 Climatic Environmental Conditions..........................829 Degree of Protection EN 60529..........................829 Routine Test................................829 Housing..................................829 Current and Ground Current Measurement....................... 830 Voltage and Residual Voltage Measurement......................832 Frequency Measurement............................832 Voltage Supply................................833 Power Consumption..............................
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...
Page 9: Comments On The Manual
Eaton Corporation does not accept any liability for damage and operational failures caused by operating errors or disregarding the directions of this manual. No part of this manual is allowed to be reproduced or passed on to others in any form, unless Eaton Corporation has issued advanced approval in writing.
Page 10 EMR-4000 IM02602009E WARNING indicates a hazardous situation which, if not avoided, could result in death or serious injury. CAUTION, used with the safety alert symbol, indicates a hazardous situation which, if not avoided, could result in minor or moderate injury.
Page 11 The User alone bears the risk if this device is used for any application for which it was not designed. As to the appropriate use of the device: the technical data specified by Eaton Corporation has to be met. www.eaton.com...
Page 12 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 publication is not found on the web site, please contact Eaton Customer Support to get the latest copy. www.eaton.com...
Page 13 Eaton Corporation reserves the right to update any portion of this publication at any time. Information provided by Eaton Corporation is believed to be correct and reliable. However, no responsibility is assumed by Eaton Corporation unless otherwise expressly undertaken.
Page 14: What Is Included With The Device
PowerPort-E to configure a device off-line. Please make sure the product label, wiring diagram, type code, and materials and description pertain to this device. If you have any doubts, please contact Eaton Corporation's Customer Service Department. Storage The devices must not be stored outdoors.
Page 15: Symbols
EMR-4000 IM02602009E Symbols www.eaton.com...
Page 16 EMR-4000 IM02602009E www.eaton.com...
Page 17: General Conventions
EMR-4000 IM02602009E General Conventions »Parameters are indicated by right and left double arrow heads and written in italic .« »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 .
Page 18 EMR-4000 IM02602009E www.eaton.com...
Page 19 EMR-4000 IM02602009E www.eaton.com...
Page 20 EMR-4000 IM02602009E www.eaton.com...
Page 21: Load Reference Arrow System
EMR-4000 IM02602009E Access Level (Please refer to chapter [Parameter\Access Level]) Read Only-Lv0 Parameters can only be read within this level. Prot-Lv1 This level enables execution of Resets and Acknowledgements This level enables modification of protection settings Prot-Lv2 Control-Lv1 This level enables control functions...
Page 22: Device
The manufacturer does not accept liability for any personal or material damage as a result of incorrect planning. Contact your Eaton Customer Service representative for more information. Beware of the inadvertent deactivating of protective functions/modules. If the User is deactivating modules within the device planning, all parameters of those modules will be set on default.
Page 23: Device Configuration Parameters Of The Device
EMR-4000 IM02602009E Device Configuration Parameters of the Device Parameter Description Options Default Menu path Hardware Variant Optional Hardware Extension »A« 8 Dig Inp | 5 Rel Out 8 Dig Inp | 5 Rel [EMR-4000] | 4 Ana Out | URTD |...
Page 24 There are two mounts available for the EMR-4000-2: a Standard Mount and a Projection Mount. To order the EMR-4000-2 with a Standard Mount, append the device code with a zero (0). To order the EMR-4000-2 with a Projection Mount, append the device code with a one (1). Refer to the table for details of the available device options.
Page 25 IM02602009E Ordering Information Sample Catalog Number The catalog number identification chart defines the electrical characteristics and operation features 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 - 8 Digital Inputs, 5 Output Relays, 4 4-20 mA Analog Output, URTD Interface...
Page 26: Installation And Wiring
EMR-4000 IM02602009E Installation and Wiring Three-Side-View Depending on the connection method of the communication system used, the needed space (depth) differs. If, for instance, a D-Sub-Plug is used, it has to be added to the depth dimension. Even when the auxiliary voltage is switched-off, unsafe voltages remain at the device connections.
Page 27 EMR-4000 IM02602009E DO NOT over-tighten the mounting nuts of the relay (0.164 X32 ). Check the torque by means of a torque wrench (1.7 Nm [15 In- lb]). Over-tightening the mounting nuts could cause personal injury or damage the relay.
Page 28: Overview Of Slots - Assembly Groups
EMR-4000 IM02602009E Overview of Slots - Assembly Groups In line with the customers' requirement, the devices are combined in a modular way (in compliance with the order code). In each of the slots, an assembly/group may be integrated. In the following diagram, the terminal assignment of the individual assembly/groups are shown.
Page 29 EMR-4000 IM02602009E Grounding The housing must be carefully grounded. Connect a ground cable (AWG 12-10 [4 to 6 mm ] / 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).
Page 30: Slot X1: Power Supply Card With Digital Inputs
EMR-4000 IM02602009E Slot X1: Power Supply Card with Digital Inputs slot1 slot2 slot3 slot4 slot5 slot6 X104 X100 X101 X102 X103 Rear side of the device (Slots) The type of power supply card and the number of digital inputs on it used in this slot is dependent on the ordered device type.
Page 31 EMR-4000 IM02602009E DI-8 X - Power Supply and Digital Inputs Make sure that the tightening torque is 5-7 In-lb [0.56-0.79 Nm]. This assembly group comprises: A wide-range power supply unit; Two non-grouped digital inputs; and Six (6) digital inputs, grouped.
Page 32 EMR-4000 IM02602009E Terminal Marking V+ Power Supply N.C. COM1 COM2 COM3 Do not use Do not use Pin Assignment DI-8P X Power Supply N.C. COM1 COM2 COM3 COM3 Do not use Do not use www.eaton.com...
Page 33: Slot X2: Relay Output Card - Zone Interlock
EMR-4000 IM02602009E Slot X2: Relay Output Card - Zone Interlock slot1 slot2 slot3 slot4 slot5 slot6 X104 X100 X101 X102 X103 Rear side of the device (Slots) The type of card in this slot is dependent on the ordered device type. The different variants have a different scope of functions.
Page 34 EMR-4000 IM02602009E RO-ZI X - Relay Outputs and Zone Interlock The Relay Outputs are potential-free contacts. In the Assignment/Relay 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].
Page 35 EMR-4000 IM02602009E Terminal Marking X? . Do not use Do not use Pin Assignment RO-4Z X Do not use Do not use RO1 N.O. RO2 N.O. RO3 N.C. RO3 CMN RO3 N.O. RO4 N.C. RO4 CMN RO4 N.O. www.eaton.com...
Page 36: Slot X3: Current Transformer Measuring Inputs
EMR-4000 IM02602009E Slot X3: Current Transformer Measuring Inputs slot1 slot2 slot3 slot4 slot5 slot6 X104 X100 X101 X102 X103 Rear side of the device (Slots) This slot contains the current transformer measuring inputs. Depending on the order code, this might be a standard current measuring card or a sensitive ground current measuring card.
Page 37 EMR-4000 IM02602009E TI X- Standard Phase and Ground Current Measuring Input Card A current measuring card is provided with four (4) current measuring inputs: three for measuring the phase currents and one for measuring of the ground current. Each of the current measuring inputs has a measuring input for 1 A and 5 A.
Page 38 EMR-4000 IM02602009E Terminal Markings X? . Pin Assignment IA-1A IA-N IA-5A IB-1A IB-N IB-5A IC -1A IC-N IC -5A IX-1A IX-N IX-5A www.eaton.com...
Page 39 EMR-4000 IM02602009E TIS X – Phase and Sensitive Ground Current Measuring Card The sensitive ground current measuring card is provided with four (4) current measuring inputs: three for measuring the phase currents and one for measuring of the sensitive ground current (The sensitive Ground current Input has different technical data.
Page 40 EMR-4000 IM02602009E Terminal Markings X? . Pin Assignment IA-1A IA-N IA-5A IB-1A IB-N IB-5A IC -1A IC-N IC -5A IX-1A IX-N IX-5A www.eaton.com...
Page 41 EMR-4000 IM02602009E Common CT Wiring Configurations Check the installation direction. It is imperative that the secondary sides of measuring transformers be grounded. The current measuring inputs may exclusively be connected to current measuring transformers (with galvanic separation). CT secondary circuits must always to be low-burdened or short-circuited during operation.
Page 42 EMR-4000 IM02602009E 3-phase, 3-wire IG Calculated IR calc = IA + IB + IC = IG Three-phase Current Measurement ; Inom Secondary = 5 A. www.eaton.com...
Page 43 EMR-4000 IM02602009E 3-phase, 3-wire IG Measured Zero Sequence Current Transformer: Measures the ground current (sum of the three phase currents ). Can be used for measuring the ground current in isolated and compensated networks. The shield is to be returned through the zero sequence current transformer .
Page 44 EMR-4000 IM02602009E 4-wire system, 4 CT on Neutral IR calc´ IR calc = IG = IA + IB + IC + IN IX meas=IN 4-wire system, 4th CT on Neutral; In secondary = 5 A. www.eaton.com...
Page 45 EMR-4000 IM02602009E 4-wire System Ground Current CT Involving Neutral IR calc´ IR calc = IA + IB + IC IG = IA + IB + IC + IN IX meas = IG 4-wire system with ground current CT (Toroidal) involving Neutral; In secondary = 5 A.
Page 46: Slot X4: Voltage Transformer Measuring Inputs
EMR-4000 IM02602009E Slot X4: Voltage Transformer Measuring Inputs slot1 slot2 slot3 slot4 slot5 slot6 X104 X100 X101 X102 X103 Rear side of the device (Slots) This slot contains the voltage transformer measuring inputs. www.eaton.com...
Page 47 EMR-4000 IM02602009E Voltage Measuring Inputs The device is provided with 4 voltage measuring inputs. Three for measuring the mains voltages ( »VAB« , »VBC« , »VCA« - in case of Open Delta ) or phase-to-neutral voltages ( »VA«, »VB« , »VC« in case of Wye). The fourth measuring input is to be used for »VX«.
Page 48 EMR-4000 IM02602009E Terminal Marking VA - VB - VC - VX - Pin assignment VA.1 VA.2 VB.1 VB.2 VC.1 VC.2 VX1.1 VX1.2 www.eaton.com...
Page 49 EMR-4000 IM02602009E Common VT Wirings Check the installation direction of the VTs. It is imperative that the secondary sides of measuring transformers be grounded. For current and voltage sensing function, externally wired and appropriate current and voltage transformer must be used, based on the required input measurement ratings.
Page 50 EMR-4000 IM02602009E VT Wye VCA' VA - VAB' VB - VBC' VC - VB' VC' VX - Three-phase voltage measurement - wiring of the measurement inputs : "star-connection" www.eaton.com...
Page 51 EMR-4000 IM02602009E VT Wye with Broken Delta Connection VCA' VA - VAB' VB - VBC' VC - VB' VC' VX - Three-phase voltage measurement - wiring of the measurement inputs : "star-connection" Measurement of the residual voltage VG via auxilliary windings (e-n) "broken delta"...
Page 52 EMR-4000 IM02602009E VT Open Delta VCA' VA - VAB' VB - VBC' VC - VX - Two-phase voltage measurement - wiring of the measuring inputs: "Open Delta" www.eaton.com...
Page 53: Slot X5: Relay Output Card
EMR-4000 IM02602009E Slot X5: Relay Output Card slot1 slot2 slot3 slot4 slot5 slot6 X104 X100 X101 X102 X103 Rear side of the device (Slots) The type of card in this slot is dependent on the ordered device type. The different variants have a different scope of functions.
Page 54 EMR-4000 IM02602009E 4A0 X - Analog Outputs Make sure that the tightening torque is 0.56-0.79 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 modes.
Page 55 EMR-4000 IM02602009E Terminals AN O 4 AnOut 1 AnOut 1 COM AnOut 2 AnOut 2 COM AnOut 3 AnOut 3 COM AnOut 4 AnOut 4 COM HF Shield Do not use Do not use Do not use Do not use...
Page 56: Typical Connection Diagrams
EMR-4000 IM02602009E Typical Connection Diagrams Wye VTs and 1 A CTs in Residual Connection VA - VB - VC - VX - LOAD www.eaton.com...
Page 57 EMR-4000 IM02602009E Wye Input Wiring with Aux VX input connected to the load side of the Breaker and 1A CTs in Residual Connection VA - VB - VC - VX - Ph-Ph VT (A-B, B-C, C-A) Either OR Ph-G VT...
Page 58 EMR-4000 IM02602009E Open Delta VTs Input Wiring and 1 A CTs in Residual Connection VA - VB - VC - VX - LOAD www.eaton.com...
Page 59 EMR-4000 IM02602009E Open Delta VTs Input Wiring with Aux VTs connected to the load side of the breaker and 1A CTs in Residual Connection VA - VB - VC - VX - Ph-Ph VT (A-B, B-C, C-A) Either OR Ph-G VT...
Page 60: Slot X100: Ethernet Interface
EMR-4000 IM02602009E Slot X100: Ethernet Interface slot1 slot2 slot3 slot4 slot5 slot6 X104 X100 X101 X102 X103 Rear side 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.
Page 61 EMR-4000 IM02602009E Ethernet - RJ45 Terminal Marking www.eaton.com...
Page 62: Slot X103: Data Communication
EMR-4000 IM02602009E Slot X103: Data Communication slot1 slot2 slot3 slot4 slot5 slot6 X104 X100 X101 X102 X103 Rear side of the device (Slots) The data communication interface in the X103 slot is dependent on the ordered device type. The scope of functions is dependent on the type of data communication interface.
Page 63 EMR-4000 IM02602009E RS485 - Modbus ® Make sure that the tightening torque is 2-4 In-lb [0.22-0.45 Nm]. Terminal Marking Protective Relay 120Ω Pin Assignment Protective Relay R1 = 560 Ω R2 = 120 Ω The Modbus connection cable must be shielded. The shielding has to be ®...
Page 64 EMR-4000 IM02602009E Wiring Example: Device in the Middle of the Bus Protective Relay R1 = 560 Ω R2 = 120 Ω B(+) B(+)* A(-)* A(-) Wiring Example: Device at the End of the BUS (Using the Integrated Terminal Resistor) Protective Relay R1 = 560 Ω...
Page 65 EMR-4000 IM02602009E Shielding Options (2-wire + Shield) 2.2nF 2.2nF 2.2nF 2.2nF internal (internal) (internal) (internal) Shield at bus master side Shield at bus device side Shield at bus master side Shield at bus device side connected to earth termination connected to earth termination...
Page 66: Slot X104: Irig-B00X And Supervision Contact
EMR-4000 IM02602009E Slot X104: IRIG-B00X and Supervision Contact slot1 slot2 slot3 slot4 slot5 slot6 X104 X100 X101 X102 X103 Rear side of the device (Slots) This comprises the IRIG-B00X and the System contact (Supervision Contact). www.eaton.com...
Page 67 EMR-4000 IM02602009E System Contact and IRIG-B00X Make sure that the tightening torque is 5-7 In-lb [0.56-0.79 Nm]. Terminals Pin Assignment for Device X104 The Supervision Contact (SC) closes after the boot phase of the device if the protection is working. This Supervision Contact (SC) will open if an internal device error has occurred (please refer to the Self Supervision section).
Page 68: Slot X120 - Pc Interface
EMR-4000 IM02602009E Slot X120 - PC Interface USB (Mini-B) • B1, B2 und B3 Housing USB-Interface for Parameter Setting and Evaluation Software - X120 www.eaton.com...
Page 69: Control Wiring Diagram
EMR-4000 IM02602009E Control Wiring Diagram Typical CT Circuits and Motor Control Wiring for the EMR-4000. X3-2 X3-5 X3-8 X3-3 X3-9 X3-11 X3-12 X3-6 X4-1 X4-2 EMR-4000 X4-3 (5 Amp Config.) EMR-4000 X4-4 Relay 1* X4-5 X2-3 X2-4 X4-6 Relay 2...
Page 70 EMR-4000 IM02602009E Typical Schematic for Feeder Breaker for the EMR-4000. P 30A X1-13 X1-2 X2-8 X 2 - 5 B l o c k 50/51/N X 2 - 6 S t a r t X1-9 X1-3 X2-9 P 30A Typical Schematic for Feeder Breaker...
Page 71 EMR-4000 IM02602009E Typical Wiring Diagram for Reduced Voltage for the EMR-4000. X4-1 X4-2 EMR-4000 X4-3 X 4-4 X4-5 X4-6 X2-3 EM R X2-4 X1-14 X1-9 X2-7 EM R X2-8 www.eaton.com...
Page 72: Wiring Diagrams
EMR-4000 IM02602009E Wiring Diagrams Please refer to the file “emr-4000_wiring_diagrams.pdf” on your User manual CD. www.eaton.com...
Page 73: Input, Output And Led Settings
EMR-4000 IM02602009E Input, Output and LED Settings Digital Input Configuration The State of the Digital Inputs can be checked within menu: [Operations/Status Display/Name of the assembly group (e.g. DI-8X)] The Digital Inputs can be configured within menu: [Device Para/Digital Inputs/Name of the assembly group (e.g. DI-8X)/Group X] Set the following parameters for each of the digital inputs: »Nominal voltage«;...
Page 74 EMR-4000 IM02602009E Assignment of Digital Inputs There are two options available in order to determine where a Digital Input should be assigned to. Option Option Device Para/Digital Input Protection Module 1 Protection Module 2 Option 1 - Assigning a Digital Input onto one or mutliple modules.
Page 75 EMR-4000 IM02602009E Option 2 – Connecting a Module Input with a Digital Input Call a module. Within this module assign a Digital Input onto a module input. Example: A protection module should be blocked depending on the state of a Digital Input.. For this assign onto the blocking input within the Global Parameters the Digital Input (e.g.
Page 76: Di-8P X
EMR-4000 IM02602009E DI-8P X Name of the Assembly group: DI-8P X1 Device Parameters of the Digital Inputs on DI-8P X Parameter Description Setting range Default Menu path Nom Voltage Nominal voltage of the digital inputs 24 V dc, 110/120 V dc...
Page 77 EMR-4000 IM02602009E Parameter Description Setting range Default Menu path Debouncing Time 2 A change of the state of a digital input will only be No Debouncing 20 ms [Device Para recognized after the debouncing time has expired Time, /Digital Inputs (become effective).
Page 78 EMR-4000 IM02602009E Parameter Description Setting range Default Menu path Debouncing Time 5 A change of the state of a digital input will only be No Debouncing 20 ms [Device Para recognized after the debouncing time has expired Time, /Digital Inputs (become effective).
Page 79: Wired Inputs (Aliases)
EMR-4000 IM02602009E Digital Inputs Output Signals on DI-8P X Signal Description DI 1 Signal: Digital Input DI 2 Signal: Digital Input DI 3 Signal: Digital Input DI 4 Signal: Digital Input DI 5 Signal: Digital Input DI 6 Signal: Digital Input...
Page 80 EMR-4000 IM02602009E Global Protection Parameter of the Wired Inputs Wired Parameter Description Setting range Default Menu path Bkr Trouble Breaker Trouble 1..n, Dig Inputs [Device Para /Wired Inputs] MainCont Main Contactor 1..n, Dig Inputs [Device Para /Wired Inputs] StartCont Starting Contactor 1..n, Dig Inputs...
Page 81 EMR-4000 IM02602009E Parameter Description Setting range Default Menu path Forward Forward 1..n, Dig Inputs [Device Para /Wired Inputs] Reverse Reverse 1..n, Dig Inputs [Device Para /Wired Inputs] GrpSetSelect Group Setting Select 1..n, Dig Inputs [Device Para /Wired Inputs] Jog Forward JogFow 1..n, Dig Inputs...
Page 82 EMR-4000 IM02602009E States of the Inputs of the Wired Inputs Module Name Description Assignment via Bkr Trouble-I Breaker Trouble [Device Para /Wired Inputs] MainCont-I State of the module input: Main Contactor [Device Para /Wired Inputs] StartCont-I State of the module input: Starting Contactor...
Page 83: Relay Output Configuration
EMR-4000 IM02602009E Relay Output Configuration The State of the Relay Outputs can be checked within menu: [Operations/Status Display/Name of the assembly group (e.g. RO-XX)] The Relay Outputs can be configured within menu: [Device Para/Relay Outputs/Name of the assembly group (e.g. RO-XX)] Set the following parameters for each of the relay output contacts.
Page 84 EMR-4000 IM02602009E www.eaton.com...
Page 85 EMR-4000 IM02602009E If the relay output contacts are configured as » Latched= active«, they will keep their position even if there is a power outage within the power supply of the protective device. If the relay output contacts are configured as »Latched=active«, they will also retain their position even if they are reprogrammed in another way.
Page 86: Ro-4Zi X Settings
EMR-4000 IM02602009E RO-4ZI X Settings RO-4Z X2 Direct Commands of RO-4ZI X Parameter Description Setting range Default Menu path DISARMED This is the second step, after the "DISARMED Ctrl" has Inactive, Inactive [Service been activated, that is required to DISARM the relay...
Page 87 EMR-4000 IM02602009E Parameter Description Setting range Default Menu path Force RO2 By means of this function the normal Relay Output State Normal, Normal [Service can be overwritten (forced). The relay can be set from De-Energized, /Test Mode (Prot normal operation (relay works according to the assigned inhibit) signals) to "force energized"...
Page 88 EMR-4000 IM02602009E Global Protection Parameters of RO-4ZI X Parameter Description Setting range Default Menu path Operating Mode Operating Mode Norm De-energ, Norm Energ [Device Para Norm Energ /Relay Outputs /RO-4Z X2 /RO 1] t-Off Delay Switch Off Delay 0.00 - 300.00s 0.2s...
Page 89 EMR-4000 IM02602009E Parameter Description Setting range Default Menu path Assignment 3 Assignment 1..n, Assignment [Device Para List /Relay Outputs /RO-4Z X2 /RO 1] Inverting 3 Inverting of the state of the assigned signal. Inactive, Inactive [Device Para Active /Relay Outputs...
Page 90 EMR-4000 IM02602009E Parameter Description Setting range Default Menu path Inverting 7 Inverting of the state of the assigned signal. Inactive, Inactive [Device Para Active /Relay Outputs /RO-4Z X2 /RO 1] Operating Mode Operating Mode Norm De-energ, Norm De-energ [Device Para...
Page 91 EMR-4000 IM02602009E Parameter Description Setting range Default Menu path Inverting 2 Inverting of the state of the assigned signal. Inactive, Inactive [Device Para Active /Relay Outputs /RO-4Z X2 /RO 2] Assignment 3 Assignment 1..n, Assignment 49.Alarm Timeout [Device Para List...
Page 92 EMR-4000 IM02602009E Parameter Description Setting range Default Menu path Assignment 7 Assignment 1..n, Assignment [Device Para List /Relay Outputs /RO-4Z X2 /RO 2] Inverting 7 Inverting of the state of the assigned signal. Inactive, Inactive [Device Para Active /Relay Outputs...
Page 93 EMR-4000 IM02602009E Parameter Description Setting range Default Menu path Assignment 2 Assignment 1..n, Assignment MStart.Blo [Device Para List /Relay Outputs /RO-4Z X2 /RO 3] Inverting 2 Inverting of the state of the assigned signal. Inactive, Inactive [Device Para Active /Relay Outputs...
Page 94 EMR-4000 IM02602009E Parameter Description Setting range Default Menu path Inverting 6 Inverting of the state of the assigned signal. Inactive, Inactive [Device Para Active /Relay Outputs /RO-4Z X2 /RO 3] Assignment 7 Assignment 1..n, Assignment [Device Para List /Relay Outputs...
Page 95 EMR-4000 IM02602009E Parameter Description Setting range Default Menu path Inverting 1 Inverting of the state of the assigned signal. Inactive, Inactive [Device Para Active /Relay Outputs /RO-4Z X2 /RO 4] Assignment 2 Assignment 1..n, Assignment [Device Para List /Relay Outputs...
Page 96 EMR-4000 IM02602009E Parameter Description Setting range Default Menu path Assignment 6 Assignment 1..n, Assignment [Device Para List /Relay Outputs /RO-4Z X2 /RO 4] Inverting 6 Inverting of the state of the assigned signal. Inactive, Inactive [Device Para Active /Relay Outputs...
Page 97 EMR-4000 IM02602009E Parameter Description Setting range Default Menu path Force Mode By means of this function the normal Relay Output States Permanent, Permanent [Service can be overwritten (forced) in case that the Relay Output Timeout /Test Mode (Prot is not in a disarmed state. The relays can be set from...
Page 98 EMR-4000 IM02602009E Input States of RO-4ZI X Name Description Assignment via RO1.1 Module Input State: Assignment [Device Para /Relay Outputs /RO-4Z X2 /RO 1] RO1.2 Module Input State: Assignment [Device Para /Relay Outputs /RO-4Z X2 /RO 1] RO1.3 Module Input State: Assignment...
Page 99 EMR-4000 IM02602009E Name Description Assignment via RO2.1 Module Input State: Assignment [Device Para /Relay Outputs /RO-4Z X2 /RO 2] RO2.2 Module Input State: Assignment [Device Para /Relay Outputs /RO-4Z X2 /RO 2] RO2.3 Module Input State: Assignment [Device Para /Relay Outputs...
Page 100 EMR-4000 IM02602009E Name Description Assignment via RO3.2 Module Input State: Assignment [Device Para /Relay Outputs /RO-4Z X2 /RO 3] RO3.3 Module Input State: Assignment [Device Para /Relay Outputs /RO-4Z X2 /RO 3] RO3.4 Module Input State: Assignment [Device Para /Relay Outputs...
Page 101 EMR-4000 IM02602009E Name Description Assignment via RO4.3 Module Input State: Assignment [Device Para /Relay Outputs /RO-4Z X2 /RO 4] RO4.4 Module Input State: Assignment [Device Para /Relay Outputs /RO-4Z X2 /RO 4] RO4.5 Module Input State: Assignment [Device Para /Relay Outputs...
Page 102 EMR-4000 IM02602009E Signals of RO-4ZI X Signal Description ZI OUT Signal: Zone Interlocking OUT RO 1 Signal: Relay Output RO 2 Signal: Relay Output RO 3 Signal: Relay Output RO 4 Signal: Relay Output DISARMED! Signal: CAUTION! RELAYS DISARMED in order to safely perform maintenance while eliminating the risk of taking an entire process off-line.
Page 103: Led Configuration
EMR-4000 IM02602009E LED Configuration The LEDs can be configured within menu: [Device Para/LEDs/Group X] Attention must be paid to ensure that there are no overlapping functions due to double or multiple LED assignment of colors and flashing codes. If LEDs are configured as » Latched= active«, they will keep (return to) their blink code and color even if there is a power outage within the power supply of the protective device.
Page 104 EMR-4000 IM02602009E Acknowledgment Options LEDs can be acknowledged by: The push-button »Ack/Rst« at the operating panel; • A 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 •...
Page 105 EMR-4000 IM02602009E www.eaton.com...
Page 106: The »System Ok (Operational) « Led
EMR-4000 IM02602009E The »System OK (Operational) « LED This LED flashes green while the device is booting. After booting is complete, the 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 ”...
Page 107: Led Settings
EMR-4000 IM02602009E LED Settings LEDs group A ,LEDs group B Device Parameters of the LEDs Parameter Description Setting range Default Menu path Latched Defines whether the LED will be latched when it picks up. Inactive, Active [Device Para Active /LEDs...
Page 108 EMR-4000 IM02602009E Parameter Description Setting range Default Menu path Inverting 2 Inverting of the state of the assigned signal. Inactive, Inactive [Device Para Active /LEDs /LEDs group A /LED 1] Assignment 3 Assignment 1..n, Assignment [Device Para List /LEDs /LEDs group A...
Page 109 EMR-4000 IM02602009E Parameter Description Setting range Default Menu path LED Active Color The LED lights up in this color if the state of the OR- Green, [Device Para assignment of the signals is true. Red, /LEDs Red flash, /LEDs group A...
Page 110 EMR-4000 IM02602009E Parameter Description Setting range Default Menu path Assignment 4 Assignment 1..n, Assignment LEDs group A: [Device Para List RTD.Alarm /LEDs LEDs group B: /LEDs group A 59A[1].TripCmd /LED 2] Inverting 4 Inverting of the state of the assigned signal.
Page 111 EMR-4000 IM02602009E Parameter Description Setting range Default Menu path Assignment 1 Assignment 1..n, Assignment LEDs group A: [Device Para List 49.Trip /LEDs LEDs group B: /LEDs group A 81[1].TripCmd /LED 3] Inverting 1 Inverting of the state of the assigned signal.
Page 112 EMR-4000 IM02602009E Parameter Description Setting range Default Menu path Inverting 5 Inverting of the state of the assigned signal. Inactive, Inactive [Device Para Active /LEDs /LEDs group A /LED 3] Latched Defines whether the LED will be latched when it picks up. Inactive,...
Page 113 EMR-4000 IM02602009E Parameter Description Setting range Default Menu path Inverting 2 Inverting of the state of the assigned signal. Inactive, Inactive [Device Para Active /LEDs /LEDs group A /LED 4] Assignment 3 Assignment 1..n, Assignment [Device Para List /LEDs /LEDs group A...
Page 114 EMR-4000 IM02602009E Parameter Description Setting range Default Menu path LED Active Color The LED lights up in this color if the state of the OR- Green, LEDs group A: [Device Para assignment of the signals is true. Red flash Red,...
Page 115 EMR-4000 IM02602009E Parameter Description Setting range Default Menu path Assignment 4 Assignment 1..n, Assignment [Device Para List /LEDs /LEDs group A /LED 5] Inverting 4 Inverting of the state of the assigned signal. Inactive, Inactive [Device Para Active /LEDs /LEDs group A...
Page 116 EMR-4000 IM02602009E Parameter Description Setting range Default Menu path Assignment 1 Assignment 1..n, Assignment LEDs group A: [Device Para List MStart.Run /LEDs LEDs group B: /LEDs group A RTD.TripCmd /LED 6] Inverting 1 Inverting of the state of the assigned signal.
Page 117 EMR-4000 IM02602009E Parameter Description Setting range Default Menu path Inverting 5 Inverting of the state of the assigned signal. Inactive, Inactive [Device Para Active /LEDs /LEDs group A /LED 6] Latched Defines whether the LED will be latched when it picks up. Inactive,...
Page 118 EMR-4000 IM02602009E Parameter Description Setting range Default Menu path Inverting 2 Inverting of the state of the assigned signal. Inactive, Inactive [Device Para Active /LEDs /LEDs group A /LED 7] Assignment 3 Assignment 1..n, Assignment [Device Para List /LEDs /LEDs group A...
Page 119 EMR-4000 IM02602009E LED Input States Name Description Assignment via LED1.1 Module Input State: LED [Device Para /LEDs /LEDs group A /LED 1] LED1.2 Module Input State: LED [Device Para /LEDs /LEDs group A /LED 1] LED1.3 Module Input State: LED...
Page 120 EMR-4000 IM02602009E Name Description Assignment via LED2.3 Module Input State: LED [Device Para /LEDs /LEDs group A /LED 2] LED2.4 Module Input State: LED [Device Para /LEDs /LEDs group A /LED 2] LED2.5 Module Input State: LED [Device Para /LEDs...
Page 121 EMR-4000 IM02602009E Name Description Assignment via Acknow Sig 3 Module Input State: Acknowledgment Signal (only for automatic [Device Para acknowledgment). /LEDs /LEDs group A /LED 3] LED4.1 Module Input State: LED [Device Para /LEDs /LEDs group A /LED 4] LED4.2...
Page 122 EMR-4000 IM02602009E Name Description Assignment via LED5.3 Module Input State: LED [Device Para /LEDs /LEDs group A /LED 5] LED5.4 Module Input State: LED [Device Para /LEDs /LEDs group A /LED 5] LED5.5 Module Input State: LED [Device Para /LEDs...
Page 123 EMR-4000 IM02602009E Name Description Assignment via Acknow Sig 6 Module Input State: Acknowledgment Signal (only for automatic [Device Para acknowledgment). /LEDs /LEDs group A /LED 6] LED7.1 Module Input State: LED [Device Para /LEDs /LEDs group A /LED 7] LED7.2...
Page 124: Analog Outputs
EMR-4000 IM02602009E Analog Outputs Available Elements: AnOut[1] ,AnOut[2] ,AnOut[3] ,AnOut[4] The E-Series relays can be programmed to output for three different ranges of either 0- 20mA, 4- 20 mA, or 0-10 Volts. These outputs can be configured by the User to represent the status of User programmed parameters that are available from the relay.
Page 125 EMR-4000 IM02602009E Setting Example: Analog Output with Active Power P* *=only available in Devices that offer Power Protection All settings/thresholds within the power module are to be set as per unit thresholds. Per definition S is to be used as scale basis.
Page 126 EMR-4000 IM02602009E Calculating setting for Range min and Range max based on primary side values Active power range is 1 MW to 4 MW. First S is to be calculated: =√3 * VoltageTransformer * CurrentTransformer Pri_Line-to-Line_Rated_Voltage Pri_Rated_Current = 1.73 * 10000 V * 200 A = 3.464 MVA...
Page 127 EMR-4000 IM02602009E Setting Example: Analog Output with Power Factor PF* *=only available in Devices that offer Power Protection Since the sign of Power Factor PF follows the sign of Active Power P, there is no distinguish between capacitive and inductive Reactive Power. Hence, for Analog Output assignment the setting for PF output range uses a Power Factor with a “Sign Convention”:...
Page 128 EMR-4000 IM02602009E Global Protection Parameters of the Analog Outputs Parameter Description Setting range Default Menu path Assignment Assignment 1..n, [Device Para AnalogOutputList /Analog Outputs /AnOut[1]] Range Adjustable range 0...20mA, 0...20mA [Device Para 4...20mA, /Analog Outputs 0...10V /AnOut[1]] Range max Adjustable range maximum.
Page 129 EMR-4000 IM02602009E Direct Commands of the Analog Outputs Parameter Description Setting range Default Menu path Function Permanent activation or deactivation of module/element. Inactive, Inactive [Service Active /Test Mode (Prot inhibit) /WARNING! Cont? /Analog Outputs /AnOut[1]] Force Value By means of this function the Analog Output Value can 0.00 - 100.00%...
Page 130 EMR-4000 IM02602009E List of the Analog Outputs Name Description No assignment VT.f Measured Value: Frequency VT.VAB RMS Measured value: Phase-to-phase voltage (RMS) VT.VBC RMS Measured value: Phase-to-phase voltage (RMS) VT.VCA RMS Measured value: Phase-to-phase voltage (RMS) VT.VA RMS Measured value: Phase-to-neutral voltage (RMS) VT.VB RMS...
Page 131 EMR-4000 IM02602009E Name Description URTD.WD6 Winding 6 URTD.MB1 Motor Bearing 1 URTD.MB2 Motor Bearing 2 URTD.LB1 Load Bearing 1 URTD.LB2 Load Bearing 2 URTD.Aux1 Auxiliary1 URTD.Aux2 Auxiliary2 URTD.RTD Max Maximum temperature of all channels. RTD.Hottest WD Hottest motor winding temperature in degrees C.
Page 132: Front Panel
EMR-4000 IM02602009E Front Panel The following illustration applies to protective devices with a small display: Programmable LEDs LED »System OK« Display Programmable LEDs Protective Device Softkeys OK-key Control INFO Key ACK/RST-key USB Interface (Signals/Messages) Connection) PowerPort-E www.eaton.com...
Page 133 EMR-4000 IM02602009E The following illustration applies to protective devices with a large display: Programmable LEDs LED »System OK« Display Programmable LEDs Protective Device Softkeys USB Interface INFO Key Control ACK/RST-key OK-key Connection) PowerPort-E (Signals/Messages) www.eaton.com...
Page 134 EMR-4000 IM02602009E Item Graphic Name Description Group A: Basically, there are 14 Programmable programmable LEDs (7 on the LEDs left, 7 on the right side)provided for User to configure. The choice for each programmable LED can be any signal from the...
Page 135 EMR-4000 IM02602009E Item Graphic Name Description Group B: Basically, there are 14 Programmable programmable LEDs (7 on the LEDs left, 7 on the right side)provided for User to configure. The choice for each programmable LED can be any signal from the...
Page 136 EMR-4000 IM02602009E Item Graphic Name Description INFO Key Looking through the present (Signals/Messages LED assignment. The Direct Select key can be activated at any time. If the INFO key is actuated again, the User will leave the LED menu. Here only the first assignments of the LEDs will be shown.
Page 137 EMR-4000 IM02602009E Item Graphic Name Description Used to abort changes and to »ACK/RST- Key« acknowledge messages as well as resetting counters. In order to reset, press the Soft- key »Wrench« and enter the password. The User can exit the reset menu by pressing the Softkey »Arrow-left«...
Page 138: Basic Menu Control
EMR-4000 IM02602009E Basic Menu Control The graphic user interface is equivalent to a hierarchical structured menu tree. For access to the individual sub-menus, the »SOFTKEYS«/Navigation Keys are used. The function of the »SOFTKEYS« can be found near the bottom of the display.
Page 139: Powerport-E
EMR-4000 IM02602009E PowerPort-E PowerPort-E is a parameter setting and evaluation software. Please see separate manual (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 assistance...
Page 140: Quality Manager
EMR-4000 IM02602009E Quality Manager Quality Manager is an E-Series waveform and event viewing software. It is installed automatically with PowerPort-E . It can also be used as a standard COMTRADE file viewer. Open and review downloaded waveforms Customize waveform channel layout and views including channel overlapping and zooming...
Page 141: Measuring Values
EMR-4000 IM02602009E Measuring Values Read Out Measured Values In the »Operation/Measured Values« menu, both measured and calculated values can be viewed. The measured values are ordered by »Standard values« and »Special values« (depending on the type of device). Measurement Display Menu [Operation\General Settings] offers options to change the display of measured values within the HMI and Power- Port-E.
Page 142 EMR-4000 IM02602009E Energy Units (applies only for devices with energy measurement) By means of the parameter » Energy Units« the User can determine how measured values are to be displayed within the HMI and PowerPort-E : Energy Auto Scaling kWh, kVArh or kVAh...
Page 143: Current - Measured Values
EMR-4000 IM02602009E Current - Measured Values If the device is not equipped with an voltage measuring card the first measuring input on the first current measuring card (slot with the lowest number) will be used as the reference angle (» IA«).
Page 144 EMR-4000 IM02602009E Value Description Menu path Angle IC Measured Value (Calculated): Angle of Phasor IC [Operation /Measured Values /Current Fund.] Angle IX meas Measured Value (Calculated): Angle of Phasor IX meas [Operation /Measured Values /Current Fund.] Angle IR calc Measured Value (Calculated): Angle of Phasor IR calc...
Page 145 EMR-4000 IM02602009E Value Description Menu path %IB THD Measured Value (Calculated): IB Total Harmonic Distortion [Operation /Measured Values /Current RMS] %IC THD Measured Value (Calculated): IC Total Harmonic Distortion [Operation /Measured Values /Current RMS] IA THD Measured Value (Calculated): IA Total Harmonic Current...
Page 146: Voltage - Measured Values
EMR-4000 IM02602009E Voltage - Measured Values The first measuring input on the first measuring card (slot with the lowest number) is used as the reference angle. E.g. » VA« respectively » VAB« . Value Description Menu path Measured Value: Frequency...
Page 147 EMR-4000 IM02602009E Value Description Menu path V1 Fund. Measured value (calculated): Symmetrical components positive [Operation phase sequence voltage(Fundamental) /Measured Values /Voltage Fund.] V2 Fund. Measured value (calculated): Symmetrical components negative [Operation phase sequence voltage(Fundamental) /Measured Values /Voltage Fund.] VAB RMS...
Page 148 EMR-4000 IM02602009E Value Description Menu path Angle VCA Measured Value (Calculated): Angle of Phasor VCA [Operation /Measured Values /Voltage Fund.] Angle VA Measured Value (Calculated): Angle of Phasor VA [Operation /Measured Values /Voltage Fund.] Angle VB Measured Value (Calculated): Angle of Phasor VB...
Page 149 EMR-4000 IM02602009E Value Description Menu path %VCA THD Measured value (calculated): VCA Total Harmonic Distortion / [Operation fundamental /Measured Values /Voltage RMS] %VA THD Measured value (calculated): VA Total Harmonic Distortion / [Operation fundamental /Measured Values /Voltage RMS] %VB THD...
Page 150: Power - Measured Values
EMR-4000 IM02602009E Power - Measured Values Value Description Menu path Syst VA Fund. Measured VAs (Fundamental) [Operation /Measured Values /Power] Syst W Fund. Measured Watts. Active power (P- = Fed Active Power, P+ = [Operation Consumpted Active Power) (Fundamental) /Measured Values /Power] Syst VAr Fund.
Page 151 EMR-4000 IM02602009E Value Description Menu path Start Date/Time Energy counters run since... (Date and time of last reset) [Operation /Measured Values /Energy] Syst VA RMS Measured VAs (RMS) [Operation /Measured Values /Power] Syst W RMS Measured Watts. Active power (P- = Fed Active Power, P+ =...
Page 152: Energy Counter
EMR-4000 IM02602009E Energy Counter Global Parameters of the Energy Counter Module Parameter Description Setting range Default Menu path Power Units Power Units Power Auto Scaling, Power Auto [Operation Scaling kW/kVAr/kVA, /General Settings] MW/MVAr/MVA, GW/GVAr/GVA Energy Units Energy Units Energy Auto Sca-...
Page 153: Signals Of The Energy Counter Module (States Of The Outputs)
EMR-4000 IM02602009E Signals of the Energy Counter Module (States of the Outputs) Signal Description Cr Oflw VAh Net Signal: Counter Overflow VAh Net Cr Oflw Wh Net Signal: Counter Overflow Wh Net Cr Oflw Wh Fwd Signal: Counter Overflow Wh Fwd...
Page 154: Statistics
EMR-4000 IM02602009E Statistics Statistics In menu »Operation/Statistics« the min., max. and mean values of the measured and calculated measured quantities can be found. Configuration of the Minimum and Maximum Values The calculation of the minimum and maximum values will be started:...
Page 155: Configuration Of The Average Value Calculation
EMR-4000 IM02602009E Configuration of the Average Value Calculation Configuration of the Current Based Average Value Calculation* *=Availability depends on the ordered device code. Current based Average Values and Peak Values Time period for the Reset of the average and Start options...
Page 156 EMR-4000 IM02602009E Configuration of the Voltage Based Average Value Calculation* *=Availability depends on the ordered device code. Voltage based Average Values Time period for the Reset of the average and Start options calculation of the peak values average values Configuration Options...
Page 157: Direct Commands
EMR-4000 IM02602009E Direct Commands Parameter Description Setting range Default Menu path ResFc all Resetting of all Statistic values (Current Demand, Power Inactive, Inactive [Operation Demand, Min, Max) Active /Reset /Flags] ResFc I Demand Resetting of Statistics - Current Demand (avg, peak avg) Inactive,...
Page 158 EMR-4000 IM02602009E Parameter Description Setting range Default Menu path Start I Demand Fc Start of the calculation, if the assigned signal becomes 1..n, Assignment [Device Para true. List /Statistics Only available if: Start I Demand via: = StartFct /Demand /Current Demand] ResFc I Demand Resetting of Statistics - Current Demand (avg, peak avg) 1..n, Assignment...
Page 159 EMR-4000 IM02602009E Parameter Description Setting range Default Menu path Start P Demand Fc Start of the calculation, if the assigned signal becomes 1..n, Assignment [Device Para true. List /Statistics Only available if: Start P Demand via: = StartFct /Demand /Power Demand]...
Page 160: States Of The Inputs Of The Statistics Module
EMR-4000 IM02602009E States of the Inputs of the Statistics Module Name Description Assignment via StartFc I Demand-I State of the module input: Start of Statistics of the Current Demand [Device Para (Update the displayed Demand ) /Statistics /Demand /Current Demand]...
Page 161: Signals Of The Statistics Module
EMR-4000 IM02602009E Signals of the Statistics Module Signal Description ResFc all Signal: Resetting of all Statistic values (Current Demand, Power Demand, Min, Max) ResFc I Demand Signal: Resetting of Statistics - Current Demand (avg, peak avg) ResFc P Demand Signal: Resetting of Statistics - Power Demand (avg, peak avg)
Page 162 EMR-4000 IM02602009E Current - Statistic Values Value Description Menu path I1 max Fund. Maximum value positive phase sequence current (Fundamental) [Operation /Statistics /Max /CT] I1 min Fund. Minimum value positive phase sequence current (Fundamental) [Operation /Statistics /Min /CT] I2 max Fund.
Page 163 EMR-4000 IM02602009E Value Description Menu path IB avg RMS IB average value (RMS) [Operation /Statistics /Demand /Current Demand] IB min RMS IB minimum value (RMS) [Operation /Statistics /Min /CT] IC max RMS IC maximum value (RMS) [Operation /Statistics /Max /CT]...
Page 164 EMR-4000 IM02602009E Value Description Menu path %(I2/I1) max Measured value (calculated): I2/I1 maximum value, phase sequence [Operation will be taken into account automatically /Statistics /Max /CT] %(I2/I1) min Measured value (calculated): I2/I1 minimum value, phase sequence [Operation will be taken into account automatically...
Page 165 EMR-4000 IM02602009E Voltage - Statistic Values Value Description Menu path f max Max. frequency value [Operation /Statistics /Max /Voltage] f min Min. frequency value [Operation /Statistics /Min /Voltage] V1 max Fund. Maximum value: Symmetrical components positive phase sequence [Operation voltage(Fundamental)
Page 166 EMR-4000 IM02602009E Value Description Menu path VBC max RMS VBC maximum value (RMS) [Operation /Statistics /Max /Voltage] VBC min RMS VBC minimum value (RMS) [Operation /Statistics /Min /Voltage] VCA max RMS VCA maximum value (RMS) [Operation /Statistics /Max /Voltage] VCA min RMS...
Page 167 EMR-4000 IM02602009E Value Description Menu path VC min RMS VC minimum value (RMS) [Operation /Statistics /Min /Voltage] VX meas max RMS Measured value: VX maximum value (RMS) [Operation /Statistics /Max /Voltage] VX meas min RMS Measured value: VX minimum value (RMS)
Page 168 EMR-4000 IM02602009E Power - Statistic Values Value Description Menu path Disp PF max Maximum value of the 55D - Displacement Power Factor: Sign [Operation Convention: sign(PF) = sign(Syst W) /Statistics /Max /Power] Disp PF min Minimum value of the 55D - Displacement Power Factor: Sign...
Page 169 EMR-4000 IM02602009E Value Description Menu path Syst VAr max Maximum value of the reactive power [Operation /Statistics /Max /Power] Syst VAr avg Average of the reactive power [Operation /Statistics /Demand /Power Demand] Syst VAr min Minimum value of the reactive power...
Page 170: System Alarms
EMR-4000 IM02602009E System Alarms Available Elements: SysA Within the System Alarms menu [SysA] the User can configure: General Settings (activate/inactivate the Demand Management, optional assign a signal, that will block the Demand Management); Power Protection (please refer to section 32, 32V, 32VA);...
Page 171 EMR-4000 IM02602009E Configuring the Demand Configuring the demand is a two step procedure. Proceed as follows. Step1. Configure the general settings within the [Device Para/Statistics/Demand] menu: Set the trigger source to » Duration« . Select a time base for the » window« .
Page 172 EMR-4000 IM02602009E Window configuration = Sliding Duration t-Delay Average Calculation Pickup Sliding t-Delay Average Calculation Pickup Sliding t-Delay Average Calculation Pickup Window configuration = Fixed Average Calculation Average Calculation Average Calculation Average Calculation Duration Duration Duration Average Calculation Average Calculation...
Page 173: Peak Demand
EMR-4000 IM02602009E Step 2. In addition, the Demand specific settings have to be configured in the [SysA] menu: Determine if the demand should generate an alarm or if it should run in the silent mode (Alarm active/inactive); Set the threshold; and Where applicable, set a delay time for the alarm.
Page 174: Device Planning Parameters Of The Demand Management
EMR-4000 IM02602009E Device Planning Parameters of the Demand Management Parameter Description Options Default Menu path Mode Mode Do not use, [Device Planning] Signals of the Demand Management (States of the Outputs) Signal Description Active Signal: Active ExBlo Signal: External Blocking...
Page 175: Global Protection Parameter Of The Demand Management
EMR-4000 IM02602009E Global Protection Parameter of the Demand Management Parameter Description Setting range Default Menu path Function Permanent activation or deactivation of module/element. Inactive, Inactive [SysA Active /General Settings] ExBlo Fc Activate (allow) or inactivate (disallow) blocking of the 1..n, Assignment [SysA module/element.
Page 176 EMR-4000 IM02602009E Parameter Description Setting range Default Menu path Threshold Threshold (to be entered as primary value) 1 - 40000000kVA 10000kVA [SysA /Power /VA] t-Delay Tripping Delay 0 - 60min 0min [SysA /Power /VA] Alarm Alarm Inactive, Inactive [SysA Active...
Page 177 EMR-4000 IM02602009E Parameter Description Setting range Default Menu path Threshold Threshold (to be entered as primary value) 1 - 40000000kVA 20000kVA [SysA /Demand /Power Demand /VA Demand] t-Delay Tripping Delay 0 - 60min 0min [SysA /Demand /Power Demand /VA Demand]...
Page 178: States Of The Inputs Of The Demand Management
EMR-4000 IM02602009E Parameter Description Setting range Default Menu path t-Delay Tripping Delay 0 - 3600s [SysA /THD /V THD] States of the Inputs of the Demand Management Name Description Assignment via ExBlo-I Module Input State: External Blocking [SysA /General Settings]...
Page 179: Resets
EMR-4000 IM02602009E Resets Collective Acknowledgments for Latched Signals: Collective Acknowledgments LEDs Relay Outputs SCADA Pending LEDs+ Trip Command Relay Outputs+ SCADA+ Pending Trip Command All LEDs at once: All Relay Outputs All SCADA signals All pending trip All at once:...
Page 180 EMR-4000 IM02602009E Options for Individual Acknowledgments for Latched Signals: Individual Acknowledgment LEDs Relay Output Pending Trip Command Via a signal from the Single LED: Relay Output: Pending Trip Command. assignment list (e.g.: a Where? digital Input), a single ... can...
Page 181: Manual Acknowledgment
EMR-4000 IM02602009E Manual Acknowledgment Press the »Ack/Rst« button on the panel. • Select the item to be acknowledged via the softkeys: • Relay Outputs; • LEDs; • SCADA; • A trip command; or • All the above mentioned items at once.
Page 182: Manual Resets
EMR-4000 IM02602009E Manual Resets In the »Operation/Reset« menu, the User can: Reset counters; • Delete records (e.g.: waveform records); and • Reset special things (like statistics, thermal replica, etc.). • The description of the reset commands can be found within the corresponding modules.
Page 183: Status Display
EMR-4000 IM02602009E Status Display In the status display within the »Operation« menu, the present 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/modules.
Page 184: Operating Panel (Hmi)
EMR-4000 IM02602009E Operating Panel (HMI) Special Parameters of the Panel The »Device Parameter/HMI« menu is used to define the contrast of the display, the maximum admissible edit time, and the menu language (after expiration, all unsaved parameter changes will be rejected).
Page 185: Recorders
EMR-4000 IM02602009E Recorders Waveform Recorder Waveform rec Disturbance records can be downloaded (read out) by means of the parameter setting and evaluation software PowerPort-E . The disturbance records can be viewed and analyzed within Quality manager (will be installed with PowerPower-E).
Page 186 EMR-4000 IM02602009E Start: 1 Trigger Start: 2 Trigger Start: 3 Trigger Start: 4 Trigger Recording Start: 5 Trigger Start: 6 Trigger Start: 7 Trigger Start: 8 Trigger Man. Trigger www.eaton.com...
Page 187 EMR-4000 IM02602009E Start 1 = Prot.Pickup Start 2 = -.- Start 3 = -.- Start 4 = -.- Start 5 = -.- Start 6 = -.- Start 7 = -.- Start 8 = -.- Auto overwriting = Active Post-trigger time = 25%...
Page 188 EMR-4000 IM02602009E Start 1 = Prot.Trip Start 2 = -.- Start 3 = -.- Start 4 = -.- Start 5 = -.- Start 6 = -.- Start 7 = -.- Start 8 = -.- t-rec < Max file size Auto overwriting = Active...
Page 189 EMR-4000 IM02602009E Read Out of Waveform Records Within the »Operation/Waveform rec« menu, the User can: Detect the accumulated waveform records. • Within the »Operation/Recorders/Man Trigger« menu, the User can trigger the waveform recorder manually. Deleting Waveform Records Within the »Operation/Waveform rec« menu, the User can: Delete waveform records;...
Page 190 EMR-4000 IM02602009E Direct Commands of the Waveform Recorder Module Parameter Description Setting range Default Menu path Man. Trigger Manual Trigger False, False [Operation True /Recorders /Man. Trigger] Res all rec Reset all records Inactive, Inactive [Operation Active /Reset /Flags] Global Protection Parameters of the Waveform Recorder Module...
Page 191 EMR-4000 IM02602009E Parameter Description Setting range Default Menu path Start: 7 Start recording if the assigned signal is true. 1..n, Assignment [Device Para List /Recorders /Waveform rec] Start: 8 Start recording if the assigned signal is true. 1..n, Assignment [Device Para...
Page 192 EMR-4000 IM02602009E Waveform Recorder Module Input States Name Description Assignment via Start1-I State of the module input:: Trigger event / start recording if: [Device Para /Recorders /Waveform rec] Start2-I State of the module input:: Trigger event / start recording if:...
Page 193: Fault Recorder
EMR-4000 IM02602009E Special Parameters of the Waveform Recorder Value Description Default Size Menu path Rec state Recording state Ready Ready, [Operation Recording, /Status Display Writing file, /Recorders Trigger Blo /Waveform rec] Error code Error code [Operation Write err, /Status Display...
Page 194 EMR-4000 IM02602009E Definitions Time to Trip: Time between First Alarm (Prot.Pickup) and First Trip (Prot.Trip) decision Fault Duration: «) signal up to the falling Time period from the rising edge of the General Pickup (»P ICKUP edge of the General Pickup Signal. Please note that General Pickup is an or-connection (disjunction) of all Pickup signals.
Page 195 EMR-4000 IM02602009E Behavior of the Fault Recorder Who triggers the Fault Recorder? The Fault Recorder will be triggered by the rising edge of the »P « (General Pickup) signal. Please note that ICKUP « (General Pickup) is an or-connection of all Pickup signals. The first Pickup will trigger the Fault recorder.
Page 196 EMR-4000 IM02602009E How to close the overlay/popup? By 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.
Page 197 EMR-4000 IM02602009E Content of a Fault Record A fault record comprises information about: Date/Time Date and Time of the Fault FaultNr The number of the fault will be incremented with each fault (General Alarm or »P «) ICKUP Grid Fault No.
Page 198 EMR-4000 IM02602009E How to set up the Fault Recorder The » Record-Mode« will determine if trips only cause a fault record or if also Alarms without a consecutively trip should cause a fault record. This parameter is to be set within menu [Device Para\Recorders\Fault rec]...
Page 199 EMR-4000 IM02602009E Direct Commands of the Fault Recorder Module Parameter Description Setting range Default Menu path Res all rec Reset all records Inactive, Inactive [Operation Active /Reset /Flags] Global Protection Parameters of the Fault Recorder Module Parameter Description Setting range...
Page 200: Event Recorder
EMR-4000 IM02602009E Event Recorder Event rec The event recorder can register up to 300 events and the last 50 (minimum) saved events are stored in non-volatile memory, and therefore retained when power is lost to the unit. The following information is provided for any of the events.
Page 201: Trend Recorder
EMR-4000 IM02602009E Direct Commands of the Event Recorder Module Parameter Description Setting range Default Menu path Res all rec Reset all records Inactive, Inactive [Operation Active /Reset /Flags] Event Recorder Module Signals Signal Description Res all rec Signal: All records deleted...
Page 202 EMR-4000 IM02602009E Global Protection Parameters of the Trend Recorder Parameter Description Setting range Default Menu path Resolution Resolution (recording frequency) 60 min, 15 min [Device Para 30 min, /Recorders 15 min, /Trend rec] 10 min, 5 min Observed Value1 Observed Value1 1..n, TrendRecList...
Page 203 EMR-4000 IM02602009E Parameter Description Setting range Default Menu path Observed Value10 Observed Value10 1..n, TrendRecList [Device Para /Recorders /Trend rec] Trend Recorder Module Signals (Output States) Signal Description Hand Reset Hand Reset Direct Commands of the Trend Recorder Parameter Description...
Page 204 EMR-4000 IM02602009E Global Values of the Trend Recorder Name Description No assignment VT.VA Fund. Measured value: Phase-to-neutral voltage (Fundamental) VT.VB Fund. Measured value: Phase-to-neutral voltage (Fundamental) VT.VC Fund. Measured value: Phase-to-neutral voltage (Fundamental) VT.VX meas Fund. Measured value (measured): VX measured (Fundamental) VT.VR calc Fund.
Page 205 EMR-4000 IM02602009E Name Description CT.IB RMS Measured value: Phase current (RMS) CT.IC RMS Measured value: Phase current (RMS) CT.IX meas RMS Measured value (measured): IX (RMS) CT.IR calc RMS Measured value (calculated): IR (RMS) CT.I0 Fund. Measured value (calculated): Zero current (Fundamental) CT.I1 Fund.
Page 206 EMR-4000 IM02602009E Name Description URTD.LB1 max Load Bearing1 Maximum Value URTD.LB2 Load Bearing 2 URTD.LB2 max Load Bearing2 Maximum Value URTD.Aux1 Auxiliary1 URTD.Aux1 max Auxiliary1 Maximum Value URTD.Aux2 Auxiliary2 URTD.Aux2 max Auxiliary2 Maximum Value URTD.RTD Max Maximum temperature of all channels.
Page 207: Motor Start Recorder
EMR-4000 IM02602009E Motor Start Recorder Available Elements: Start rec The Motor Start Recorder is accessed using PowerPort-E or via the front panel interface 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;...
Page 208 EMR-4000 IM02602009E Managing Start Records The start recorder data can be downloaded by means of PowerPort-E from the device when the User has selected the “Start Rec” feature. To navigate to this feature, the User must go to the [Operation / Recorders] menu. Here the User will find the »Start Rec«...
Page 209 EMR-4000 IM02602009E Displaying Start Records When a Start Record is called up, a window with the following options pops up. View motor start data graphically in the Quality Manager software. In the Quality Manager software the User can view the RMS value of the phase currents, thermal capacity used, and temperatures measured by the URTD module if a URTD is installed and attached to the relay.
Page 210: Statistic Recorder
EMR-4000 IM02602009E Global Protection Parameters of the Motor Start Recorder Parameter Description Setting range Default Menu path Resolution Resolution (recording frequency) 50ms, 50ms [Device Para 100ms, /Recorders /Start rec] Motor Start Recorder Module Signals (Output States) Signal Description Storing Signal: Data are saved...
Page 211: History Function
EMR-4000 IM02602009E History Function The History function, accessible under the Operations menu, can be utilized as a counter or log of specific occurrences monitored by the device. The types of occurrence that can be recorded include: Operations (OperationsCr); • Alarms (AlarmCr);...
Page 212: Time Synchronization
EMR-4000 IM02602009E Time Synchronization TimeZones The device gives the User the ability to synchronize the device with a central time generator. This provides the following advantages: The time does not drift from the reference time. A continuously accumulating deviation of the reference time thereby will be balanced.
Page 213: Accuracy Of Time Synchronization
EMR-4000 IM02602009E Accuracy of Time Synchronization The accuracy of the device's synchronized system time depends on different factors: 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 time generator used.
Page 214 EMR-4000 IM02602009E Selection of Timezone and Synchronization Protocol The protection relay masters both UTC and local time. This means that the device can be synchronized with UTC time while using local time for user display. Time Synchronization with UTC time (recommended): Time synchronization is usually done using UTC time.
Page 215 EMR-4000 IM02602009E Global Protection Parameters of the Time Synchronization Parameter Description Setting range Default Menu path DST offset Difference to wintertime -180 - 180min 60min [Device Para /Time /Timezone] DST manual Manual setting of the Daylight Saving Time Inactive, Active...
Page 216 EMR-4000 IM02602009E Parameter Description Setting range Default Menu path Summertime w Place of selected day in month (for clock change First, Last [Device Para summertime) Second, /Time Only available if: DST manual = Inactive Third, /Timezone] Fourth, Last Summertime h...
Page 217 EMR-4000 IM02602009E Parameter Description Setting range Default Menu path Wintertime h Hour of clock change wintertime 0 - 23h [Device Para /Time Only available if: DST manual = Inactive /Timezone] Wintertime min Minute of clock change wintertime 0 - 59min...
Page 218 EMR-4000 IM02602009E Parameter Description Setting range Default Menu path Time Zones Time Zones UTC+14 Kiritimati, UTC+0 London [Device Para UTC+13 Rawaki, /Time UTC+12.75 Chat- /Timezone] ham Island, UTC+12 Wellington, UTC+11.5 Kingston, UTC+11 Port Vila, UTC+10.5 Lord Howe Island, UTC+10 Sydney, UTC+9.5 Adelaide,...
Page 219 EMR-4000 IM02602009E Parameter Description Setting range Default Menu path TimeSync Time synchronization [Device Para IRIG-B, /Time SNTP, /TimeSync Modbus, /TimeSync] www.eaton.com...
Page 220: Sntp
EMR-4000 IM02602009E SNTP SNTP Important pre-condition: The device needs to have access to an SNTP server via the connected network. This server preferably should be installed locally. Principle – General Use SNTP is a standard protocol for time synchronization via a network. At minimum, one SNTP server has to be integrated into the network.
Page 221 EMR-4000 IM02602009E Accuracy The accuracy of the SNTP server used and the accuracy of its reference clock influences the accuracy of the protection relay's clock. With each transmitted time information, the SNTP server sends information about its accuracy: Stratum: The stratum gives information on how close the SNTP server within the cluster is to other NTP servers that are connected to an atomic clock.
Page 222 EMR-4000 IM02602009E Fault Analysis If there is no SNTP signal for more than 120 seconds., the SNTP status changes from “active” to “inactive” and an entry in the Event Recorder will be set. The SNTP functionality can be checked in the [Operation/Status Display/Time Sync./Sntp] menu.
Page 223 EMR-4000 IM02602009E Global Protection Parameters of the SNTP Parameter Description Setting range Default Menu path Server1 Server 1 Inactive, Inactive [Device Para Active /Time /TimeSync /SNTP] IP Byte1 IP1.IP2.IP3.IP4 0 - 255 [Device Para /Time /TimeSync /SNTP] IP Byte2 IP1.IP2.IP3.IP4...
Page 224 EMR-4000 IM02602009E Parameter Description Setting range Default Menu path IP Byte3 IP1.IP2.IP3.IP4 0 - 255 [Device Para /Time /TimeSync /SNTP] IP Byte4 IP1.IP2.IP3.IP4 0 - 255 [Device Para /Time /TimeSync /SNTP] Signals of the SNTP Signal Description SNTP active Signal: If there is no valid SNTP signal for 120 sec, SNTP is regarded as inactive.
Page 225 EMR-4000 IM02602009E Value Description Default Size Menu path NoOfBigSyncs Service counter: Total Number of big Time 0 - 9999999999 [Operation Corrections. /Count and RevData /TimeSync /SNTP] NoOfFiltSyncs Service counter: Total Number of filtered Time 0 - 9999999999 [Operation Corrections. /Count and RevData...
Page 226 EMR-4000 IM02602009E SNTP Values Value Description Default Size Menu path Used Server Which Server is used for SNTP synchronization. None Server1, [Operation Server2 , /Status Display None /TimeSync /SNTP] PrecServer1 Precision of Server 1 [Operation 1000.00000ms /Status Display /TimeSync /SNTP]...
Page 227: Irig-B00X
EMR-4000 IM02602009E IRIG-B00X IRIG-B Requirement: An IRIG-B00X time code generator is needed. IRIG-B004 and higher will support/transmit the “year information”. If you are using an IRIG time code that does not support the “year information” (IRIG-B000, IRIG-B001, IRIG-B002, IRIG-B003), you have to set the “year”...
Page 228 EMR-4000 IM02602009E IRIG-B Commissioning Activate the IRIG-B synchronization within menu [Device Para/ Time/ TimeSync]: Select » IRIG-B« in the time synchronization menu. Set the time synchronization in the IRIG-B menu to » Active« . Select the IRIG-B type (choose B000 through B007).
Page 229 EMR-4000 IM02602009E Device Planning Parameters of the IRIG-B00X Parameter Description Options Default Menu path Mode Mode Do not use, Do not use [Device Planning] Direct Commands of the IRIG-B00X Parameter Description Setting range Default Menu path Res IRIG-B Cr Resetting of the Diagnosis Counters: IRIG-B...
Page 230 EMR-4000 IM02602009E Signals of the IRIG-B00X (Output States) Signal Description IRIG-B active Signal: If there is no valid IRIG-B signal for 60 sec, IRIG-B is regarded as inactive. High-Low Invert Signal: The High and Low signals of the IRIG-B are inverted. This does NOT mean that the wiring is faulty.
Page 231 EMR-4000 IM02602009E IRIG-B00X Values Value Description Default Size Menu path NoOfFramesOK Total number valid Frames. 0 - 65535 [Operation /Count and RevData /TimeSync /IRIG-B] NoOfFrameErrors Total Number of Frame Errors. Physically 0 - 65535 [Operation corrupted Frame. /Count and RevData...
Page 232: Device Parameters
EMR-4000 IM02602009E Device Parameters Date and Time In the »Device parameters/Date/Time« menu, the User can set the 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.
Page 233: Tcp/Ip Settings
EMR-4000 IM02602009E TCP/IP Settings Warning: Mixing up IP Addresses (In case there is more than one protective device within the TCP/IP network or establishing an unintentional wrong connection to a protective device based on a wrong entered IP address. Transferring parameters into the wrong protective device might lead to death, personal injury, or damage of electrical equipment.
Page 234: Direct Commands Of The System Module
EMR-4000 IM02602009E Direct Commands of the System Module Parameter Description Setting range Default Menu path Ack RO LED Comm Reset the Relay Outputs, LEDs, Communication, and the Inactive, Inactive [Operation TCmd Trip Command. Active /Reset /Flags] Ack LED All acknowledgeable LEDs will be acknowledged.
Page 235: Global Protection Parameters Of The System
EMR-4000 IM02602009E Parameter Description Setting range Default Menu path MaintMode Arc Flash Reduction Maintenance Switch Mode: Manual Maint Mode inacti- Inactive [Service Manually Activation of the Arc Flash Reduction Mode /MaintMode Activation via Manually] Only available if: Maint Mode = Activation Manually...
Page 236 EMR-4000 IM02602009E Parameter Description Setting range Default Menu path PS2: Activated by This Setting Group will be the active one if: The 1..n, PSS Sys.Maint Mode [Protection Para Parameter Setting Group Switch is set to "Switch via Active /PSet-Switch] Input" and the other three input functions are inactive at the same time.
Page 237: System Module Input States
EMR-4000 IM02602009E Parameter Description Setting range Default Menu path Scaling Display of the measured values as primary, secondary, Per unit values, Primary values [Operation or per unit values Primary values, /General Settings] Secondary values Maint Mode Activation Mode of the Arc Flash Reduction. Switching...
Page 238 EMR-4000 IM02602009E System Module Signals Signal Description Reboot Signal: Rebooting the device: 1=Restart initiated by power supply; 2=Restart initiated by the User; 3=Set on defaults (Super Reset); 4=Restart by the debugger; 5=Restart because of configuration change; 6=General failure; 7=Restart initiated by System Abort (host side); 8=Restart initiated by watchdog timeout (host side);...
Page 239: Special Values Of The System Module
EMR-4000 IM02602009E Special Values of the System Module Value Description Menu 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 Resettable device operation hours counter...
Page 240: Communication Protocols
EMR-4000 IM02602009E Communication Protocols Module: SCADA Comm Device Planning Parameters of the Serial SCADA Interface Parameter Description Options Default Menu path Protocol CAUTION! Changing the protocol will cause a Do not use, Do not use [Device Planning] restart of the device...
Page 241: Tcp/Ip Parameter
EMR-4000 IM02602009E TCP/IP Parameter TcpIp Global TCP/IP Parameters Parameter Description Setting range Default Menu path Keep Alive Time Keep Alive Time is the duration between two keep alive 1 - 7200s 720s [Device Para transmissions in idle condition /TCP/IP /Advanced Settings]...
Page 242: Modbus
EMR-4000 IM02602009E Modbus ® Modbus Modbus Protocol Configuration ® The time-controlled Modbus protocol is based on the master-slave working principle. This means that the substation ® control and protection system sends an inquiry or instruction to a certain device (slave address) that will then be answered or carried out accordingly.
Page 243 EMR-4000 IM02602009E Modbus RTU Part 1: Configuration of the Devices Call up »Device parameter/Modbus« and set the following communication parameters: Slave address, to allow clear identification of the device; and Baud rate. Also, select the RS485 interface-related parameters such as: Number of data bits;...
Page 244 EMR-4000 IM02602009E Modbus TCP Establishing a connection via TCP/IP to the device is only possible if the device is equipped with an Ethernet Interface (RJ45). Contact your IT administrator in order to establish the network connection. Part 1: Setting the TCP/IP Parameters Call up »Device parameter/TCP/IP«...
Page 245 EMR-4000 IM02602009E Direct Commands of the Modbus ® Parameter Description Setting range Default Menu path Res Diagn Cr All Modbus Diagnosis Counters will be reset. Inactive, Inactive [Operation Active /Reset /Counter] Global Protection Parameters of the Modbus ® Parameter Description...
Page 246 EMR-4000 IM02602009E Parameter Description Setting range Default Menu path Physical Settings Digit 1: Number of bits. Digit 2: E=even parity, O=odd 8E1, [Device Para parity, N=no parity. Digit 3: Number of stop bits. More 8O1, /Modbus information on the parity: It is possible that the last data...
Page 247 EMR-4000 IM02602009E Parameter Description Setting range Default Menu path Latched Config Bin Latched Configurable Binary Input Inactive, Inactive [Device Para Inp1 Active /Modbus /Configb Registers /States] Config Bin Inp2 Virtual Digital Input. This corresponds to a virtual binary 1..n, Assignment Prot.Pickup...
Page 248 EMR-4000 IM02602009E Parameter Description Setting range Default Menu path Config Bin Inp6 Virtual Digital Input. This corresponds to a virtual binary 1..n, Assignment [Device Para output of the protective device. List /Modbus /Configb Registers /States] Latched Config Bin Latched Configurable Binary Input...
Page 249 EMR-4000 IM02602009E Parameter Description Setting range Default Menu path Latched Config Bin Latched Configurable Binary Input Inactive, Inactive [Device Para Inp10 Active /Modbus /Configb Registers /States] Config Bin Inp11 Virtual Digital Input. This corresponds to a virtual binary 1..n, Assignment BF.Pickup...
Page 250 EMR-4000 IM02602009E Parameter Description Setting range Default Menu path Config Bin Inp15 Virtual Digital Input. This corresponds to a virtual binary 1..n, Assignment [Device Para output of the protective device. List /Modbus /Configb Registers /States] Latched Config Bin Latched Configurable Binary Input...
Page 251 EMR-4000 IM02602009E Parameter Description Setting range Default Menu path Latched Config Bin Latched Configurable Binary Input Inactive, Inactive [Device Para Inp19 Active /Modbus /Configb Registers /States] Config Bin Inp20 Virtual Digital Input. This corresponds to a virtual binary 1..n, Assignment MStart.Start...
Page 252 EMR-4000 IM02602009E Parameter Description Setting range Default Menu path Config Bin Inp24 Virtual Digital Input. This corresponds to a virtual binary 1..n, Assignment [Device Para output of the protective device. List /Modbus /Configb Registers /States] Latched Config Bin Latched Configurable Binary Input...
Page 253 EMR-4000 IM02602009E Parameter Description Setting range Default Menu path Latched Config Bin Latched Configurable Binary Input Inactive, Inactive [Device Para Inp28 Active /Modbus /Configb Registers /States] Config Bin Inp29 Virtual Digital Input. This corresponds to a virtual binary 1..n, Assignment [Device Para output of the protective device.
Page 254 EMR-4000 IM02602009E Parameter Description Setting range Default Menu path Mapped Meas 1 Mapped Measured Values. They can be used to provide 1..n, TrendRecList [Device Para measured values to the Modbus Master. /Modbus /Configb Registers /Measured Values] Mapped Meas 2 Mapped Measured Values. They can be used to provide 1..n, TrendRecList...
Page 255 EMR-4000 IM02602009E Parameter Description Setting range Default Menu path Mapped Meas 10 Mapped Measured Values. They can be used to provide 1..n, TrendRecList [Device Para measured values to the Modbus Master. /Modbus /Configb Registers /Measured Values] Mapped Meas 11 Mapped Measured Values. They can be used to provide 1..n, TrendRecList...
Page 256 EMR-4000 IM02602009E States of the Module Inputs of the MODBUS Protocol ® Name Description Assignment via Config Bin Inp1-I State of the module input: Config Bin Inp [Device Para /Modbus /Configb Registers /States] Config Bin Inp2-I State of the module input: Config Bin Inp...
Page 257 EMR-4000 IM02602009E Name Description Assignment via Config Bin Inp9-I State of the module input: Config Bin Inp [Device Para /Modbus /Configb Registers /States] Config Bin Inp10-I State of the module input: Config Bin Inp [Device Para /Modbus /Configb Registers /States]...
Page 258 EMR-4000 IM02602009E Name Description Assignment via Config Bin Inp18-I State of the module input: Config Bin Inp [Device Para /Modbus /Configb Registers /States] Config Bin Inp19-I State of the module input: Config Bin Inp [Device Para /Modbus /Configb Registers /States]...
Page 259 EMR-4000 IM02602009E Name Description Assignment via Config Bin Inp27-I State of the module input: Config Bin Inp [Device Para /Modbus /Configb Registers /States] Config Bin Inp28-I State of the module input: Config Bin Inp [Device Para /Modbus /Configb Registers /States]...
Page 260 EMR-4000 IM02602009E Values of the MODBUS Protocol ® Value Description Menu path Mapped Meas 1 Mapped Measured Values. They can be used to provide measured [Operation values to the Modbus Master. /Count and RevData /Modbus] Mapped Meas 2 Mapped Measured Values. They can be used to provide measured [Operation values to the Modbus Master.
Page 261 Description Device Type Device Type: Eaton: EDR-3000 - 2 EDR-5000 - 3 EMR-3000 - 4 EMR-4000 - 5 EMR-5000 - 6 ETR-4000 - 8 ETR-5000 - 9 EGR-5000 - 12 Comm Version Modbus Communication version. This version number changes if something becomes incompatible between different Modbus releases.
Page 262 EMR-4000 IM02602009E Modbus Module Signals (Output States) ® Some signals (that are active for a short time only) have to be acknowledged separately (e.g.: trip signals) by the communication system. Signal Description Transmission Signal: Communication Active Comm Cmd 1 Communication Command...
Page 263 EMR-4000 IM02602009E Modbus Module Values ® Value Description Default Size Menu path NoOfRequestsTotal Total number of requests. Includes requests for 0 - 9999999999 [Operation other slaves. /Count and RevData /Modbus] NoOfRequestsForMe Total Number of requests for this slave. 0 - 9999999999...
Page 264: Profibus
EMR-4000 IM02602009E Profibus Profibus Part 1: Configuration of the Devices Call up »Device parameter/Profibus« and set the following communication parameter: Slave-address, to allow clear identification of the device. In addition to that the Master has to be provided with the GSD-file. The GSD-file can be taken from the Product-CD.
Page 265 EMR-4000 IM02602009E Direct Commands of the Profibus Parameter Description Setting range Default Menu path Reset Comds All Profibus Commands will be reset. Inactive, Inactive [Operation Active /Reset /Counter] Global Protection Parameters of the Profibus Parameter Description Setting range Default Menu path Config Bin Inp 1 Virtual Digital Input.
Page 266 EMR-4000 IM02602009E Parameter Description Setting range Default Menu path Latched 4 Defines whether the Input is latched. Inactive, Inactive [Device Para Active /Profibus Only available if: Latched = Active /Config Bin Inp 1- Config Bin Inp 5 Virtual Digital Input. This corresponds to a virtual binary 1..n, Assignment...
Page 267 EMR-4000 IM02602009E Parameter Description Setting range Default Menu path Latched 9 Defines whether the Input is latched. Inactive, Inactive [Device Para Active /Profibus Only available if: Latched = Active /Config Bin Inp 1- Config Bin Inp 10 Virtual Digital Input. This corresponds to a virtual binary 1..n, Assignment...
Page 268 EMR-4000 IM02602009E Parameter Description Setting range Default Menu path Latched 14 Defines whether the Input is latched. Inactive, Inactive [Device Para Active /Profibus Only available if: Latched = Active /Config Bin Inp 1- Config Bin Inp 15 Virtual Digital Input. This corresponds to a virtual binary 1..n, Assignment...
Page 269 EMR-4000 IM02602009E Parameter Description Setting range Default Menu path Latched 19 Defines whether the Input is latched. Inactive, Inactive [Device Para Active /Profibus Only available if: Latched = Active /Config Bin Inp 17- Config Bin Inp 20 Virtual Digital Input. This corresponds to a virtual binary 1..n, Assignment...
Page 270 EMR-4000 IM02602009E Parameter Description Setting range Default Menu path Latched 24 Defines whether the Input is latched. Inactive, Inactive [Device Para Active /Profibus Only available if: Latched = Active /Config Bin Inp 17- Config Bin Inp 25 Virtual Digital Input. This corresponds to a virtual binary 1..n, Assignment...
Page 271 EMR-4000 IM02602009E Parameter Description Setting range Default Menu path Latched 29 Defines whether the Input is latched. Inactive, Inactive [Device Para Active /Profibus Only available if: Latched = Active /Config Bin Inp 17- Config Bin Inp 30 Virtual Digital Input. This corresponds to a virtual binary 1..n, Assignment...
Page 272 EMR-4000 IM02602009E Inputs of the Profibus Name Description Assignment via Assignment 1-I Module input state: Comm Assignment [Device Para /Profibus /Config Bin Inp 1-16] Assignment 2-I Module input state: Comm Assignment [Device Para /Profibus /Config Bin Inp 1-16] Assignment 3-I...
Page 273 EMR-4000 IM02602009E Name Description Assignment via Assignment 12-I Module input state: Comm Assignment [Device Para /Profibus /Config Bin Inp 1-16] Assignment 13-I Module input state: Comm Assignment [Device Para /Profibus /Config Bin Inp 1-16] Assignment 14-I Module input state: Comm Assignment...
Page 274 EMR-4000 IM02602009E Name Description Assignment via Assignment 24-I Module input state: Comm Assignment [Device Para /Profibus /Config Bin Inp 17-32] Assignment 25-I Module input state: Comm Assignment [Device Para /Profibus /Config Bin Inp 17-32] Assignment 26-I Module input state: Comm Assignment...
Page 275 EMR-4000 IM02602009E Profibus Signals (Output States) Signal Description Data OK Data within the input field are OK (Yes=1) SubModul Err Assignable Signal, Failure in Sub-Module, Communication Failure. Connection active Connection active Comm Cmd 1 Communication Command Comm Cmd 2 Communication Command...
Page 276 EMR-4000 IM02602009E Profibus Values Value Description Default Size Menu path Fr Sync Err Frames, that were sent from the master to the 1 - 99999999 [Operation slave are faulty. /Count and RevData /Profibus] crcErrors Number of CRC errors that the ss manager has...
Page 277 EMR-4000 IM02602009E Value Description Default Size Menu path Slave State Communication State between slave and master. Baud Search Baud Search, [Operation Baud Found, /Status Display PRM OK, /Profibus PRM REQ, /State] PRM Fault, CFG Fault, Clear Data, Data exchange Baud rate...
Page 278: Iec 61850
EMR-4000 IM02602009E IEC 61850 IEC61850 Introduction To understand the functioning and mode of operation of a substation in an IEC 61850 automation environment, it is useful to compare the commissioning steps with those of a conventional substation in a Modbus TCP environment. In a conventional substation, the individual Intelligent Electronic Devices (IEDs) communicate in a vertical direction with the higher level control center via Communication.
Page 279 EMR-4000 IM02602009E Commissioning steps for a conventional substation with Commissioning steps for a substation with IEC 61850 modbus TCP environment: environment: Parameter setting of the IEDs; 1. Parameter setting of the IEDs • Ethernet installation; Ethernet installation • TCP/IP settings for the IEDs; and TCP/IP settings for the IEDs •...
Page 280 Generation/Export of a Device Specific ICD File Each Eaton IEC 61850 capable device includes a description of its own functionality and communications skills in the form of an IED Capability Description (*.ICD) file. This file can be exported as follows and be used for the configuration of the substation.
Page 281 EMR-4000 IM02602009E Import of the *.SCD File into the Device When the substation configuration is completed, the *.SCD file has to be transmitted to all connected devices. This has to be done as follows: 1. Connect the device with your PC/notebook.
Page 282 EMR-4000 IM02602009E Direct Commands of the IEC 61850 Parameter Description Setting range Default Menu path ResetStatistic Reset of all IEC61850 diagnostic counters Inactive, Inactive [Operation Active /Reset /Counter] Global Protection Parameters of the IEC 61850 Parameter Description Setting range Default...
Page 283 EMR-4000 IM02602009E Parameter Description Setting range Default Menu path VirtualOutput5 Virtual Output. This signal can be assigned or visualized 1..n, Assignment [Device Para via the SCD file to other devices within the IEC61850 List /IEC61850] substation. VirtualOutput6 Virtual Output. This signal can be assigned or visualized 1..n, Assignment...
Page 284 EMR-4000 IM02602009E Parameter Description Setting range Default Menu path VirtualOutput15 Virtual Output. This signal can be assigned or visualized 1..n, Assignment [Device Para via the SCD file to other devices within the IEC61850 List /IEC61850] substation. VirtualOutput16 Virtual Output. This signal can be assigned or visualized 1..n, Assignment...
Page 285 EMR-4000 IM02602009E Parameter Description Setting range Default Menu path VirtualOutput25 Virtual Output. This signal can be assigned or visualized 1..n, Assignment [Device Para via the SCD file to other devices within the IEC61850 List /IEC61850] substation. VirtualOutput26 Virtual Output. This signal can be assigned or visualized 1..n, Assignment...
Page 286 EMR-4000 IM02602009E States of the Inputs of the IEC 61850 Name Description Assignment via VirtOut1-I Module input state: Binary state of the Virtual Output (GGIO) [Device Para /IEC61850] VirtOut2-I Module input state: Binary state of the Virtual Output (GGIO) [Device Para...
Page 287 EMR-4000 IM02602009E Name Description Assignment via VirtOut18-I Module input state: Binary state of the Virtual Output (GGIO) [Device Para /IEC61850] VirtOut19-I Module input state: Binary state of the Virtual Output (GGIO) [Device Para /IEC61850] VirtOut20-I Module input state: Binary state of the Virtual Output (GGIO)
Page 288 EMR-4000 IM02602009E IEC 61850 Module Signals (Output States) Signal Description MMS Client connected At least one MMS client is connected to the device All Goose Subscriber active All Goose subscriber in the device are working VirtInp1 Signal: Virtual Input (IEC61850 GGIO Ind)
Page 289 EMR-4000 IM02602009E Signal Description Quality of GGIO In2 Self-Supervision of the GGIO Input Quality of GGIO In3 Self-Supervision of the GGIO Input Quality of GGIO In4 Self-Supervision of the GGIO Input Quality of GGIO In5 Self-Supervision of the GGIO Input...
Page 290 EMR-4000 IM02602009E Signal Description SPCSO4 Status bit that can be set by clients like e.g. the Master Communication System (Single Point Controllable Status Output). SPCSO5 Status bit that can be set by clients like e.g. the Master Communication System (Single Point Controllable Status Output).
Page 291 EMR-4000 IM02602009E Signal Description SPCSO26 Status bit that can be set by clients like e.g. the Master Communication System (Single Point Controllable Status Output). SPCSO27 Status bit that can be set by clients like e.g. the Master Communication System (Single Point Controllable Status Output).
Page 292 EMR-4000 IM02602009E Value Description Default Size Menu path NoOfGooseTxNew Total Number of new GOOSE messages 0 - 9999999999 [Operation (modified content) that have been published by /Count and RevData this device. /IEC61850] NoOfServerRequests Total number of MMS Server requests including...
Page 293 EMR-4000 IM02602009E Values of the IEC 61850 Value Description Default Size Menu path GoosePublisherState State of the GOOSE Publisher (on or off) Off, [Operation /Status Display Error /IEC61850 /State] GooseSubscriberStat State of the GOOSE Subscriber (on or off) Off, [Operation...
Page 294: Dnp3
EMR-4000 IM02602009E DNP3 DNP (Distributed Network Protocol) is for data and information exchange between SCADA (Master) and IEDs (Intelligent Electronic Devices). The DNP protocol has been developed in first releases for serial communication. Due to further development of the DNP protocol, it offers now also TCP and UDP communication options via Ethernet.
Page 295 EMR-4000 IM02602009E Point Mapping Please take into account that the designations of inputs and outputs are set from the Masters perspective. This way of choosing the designations is due to a definition in the DNP standard. That means for example that Binary Inputs that can be set within the Device Parameters of the DNP protocol are the “Binary Inputs”...
Page 296 EMR-4000 IM02602009E Point Mapping Binary Inputs Double Bit Inputs Pulse Signal DNP Master Counters Analog Inputs Protective Relay Please try to avoid gaps that will slow down the performance of the DNP 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).
Page 297 EMR-4000 IM02602009E Application Example Setting a Relay: Binary Output signals of the DNP cannot directly be used in order to switch relays because the DNP Binary Outputs are 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.
Page 298 EMR-4000 IM02602009E Direct Commands of the DNP Parameter Description Setting range Default Menu path Res all Diag Cr Reset all diagnosis counters Inactive, Inactive [Operation Active /Reset /Counter] Slave Id SlaveId defines the DNP3 address of this device 0 - 65519...
Page 299 EMR-4000 IM02602009E Parameter Description Setting range Default Menu path Optical rest position Optical rest position Light off, Light on [Device Para Light on /DNP /Communication] SelfAddress Support of self (automatic) addresses Inactive, Inactive [Device Para Active /DNP /Communication] DataLink confirm Enables or disables the data layer confirmation (ack).
Page 300 EMR-4000 IM02602009E Parameter Description Setting range Default Menu path AppLink num retries The number of times the device will retransmit an 0 - 255 [Device Para Application Layer fragment /DNP /Communication] Unsol Reporting Enables supports unsolicited reporting. This is only for...
Page 301 EMR-4000 IM02602009E Parameter Description Setting range Default Menu path BinaryInput 0 Virtual Digital Input (DNP). This corresponds to a virtual 1..n, Assignment [Device Para binary output of the protective device. List /DNP /Point map /Binary Inputs] BinaryInput 1 Virtual Digital Input (DNP). This corresponds to a virtual 1..n, Assignment...
Page 302 EMR-4000 IM02602009E Parameter Description Setting range Default Menu path BinaryInput 9 Virtual Digital Input (DNP). This corresponds to a virtual 1..n, Assignment [Device Para binary output of the protective device. List /DNP /Point map /Binary Inputs] BinaryInput 10 Virtual Digital Input (DNP). This corresponds to a virtual 1..n, Assignment...
Page 303 EMR-4000 IM02602009E Parameter Description Setting range Default Menu path BinaryInput 18 Virtual Digital Input (DNP). This corresponds to a virtual 1..n, Assignment [Device Para binary output of the protective device. List /DNP /Point map /Binary Inputs] BinaryInput 19 Virtual Digital Input (DNP). This corresponds to a virtual 1..n, Assignment...
Page 304 EMR-4000 IM02602009E Parameter Description Setting range Default Menu path BinaryInput 27 Virtual Digital Input (DNP). This corresponds to a virtual 1..n, Assignment [Device Para binary output of the protective device. List /DNP /Point map /Binary Inputs] BinaryInput 28 Virtual Digital Input (DNP). This corresponds to a virtual 1..n, Assignment...
Page 305 EMR-4000 IM02602009E Parameter Description Setting range Default Menu path BinaryInput 36 Virtual Digital Input (DNP). This corresponds to a virtual 1..n, Assignment [Device Para binary output of the protective device. List /DNP /Point map /Binary Inputs] BinaryInput 37 Virtual Digital Input (DNP). This corresponds to a virtual 1..n, Assignment...
Page 306 EMR-4000 IM02602009E Parameter Description Setting range Default Menu path BinaryInput 45 Virtual Digital Input (DNP). This corresponds to a virtual 1..n, Assignment [Device Para binary output of the protective device. List /DNP /Point map /Binary Inputs] BinaryInput 46 Virtual Digital Input (DNP). This corresponds to a virtual 1..n, Assignment...
Page 307 EMR-4000 IM02602009E Parameter Description Setting range Default Menu path BinaryInput 54 Virtual Digital Input (DNP). This corresponds to a virtual 1..n, Assignment [Device Para binary output of the protective device. List /DNP /Point map /Binary Inputs] BinaryInput 55 Virtual Digital Input (DNP). This corresponds to a virtual 1..n, Assignment...
Page 308 EMR-4000 IM02602009E Parameter Description Setting range Default Menu path BinaryInput 63 Virtual Digital Input (DNP). This corresponds to a virtual 1..n, Assignment [Device Para binary output of the protective device. List /DNP /Point map /Binary Inputs] DoubleBitInput 0 Double Bit Digital Input (DNP). This corresponds to a 1..n, Assignment...
Page 309 EMR-4000 IM02602009E Parameter Description Setting range Default Menu path BinaryCounter 2 Counter can be used to report counter values to the DNP 1..n, Assignment [Device Para master. List /DNP /Point map /BinaryCounter] BinaryCounter 3 Counter can be used to report counter values to the DNP 1..n, Assignment...
Page 310 EMR-4000 IM02602009E Parameter Description Setting range Default Menu path Scale Factor 0 The scale factor is used to convert the measured value in 0.001, [Device Para an integer format 0.01, /DNP 0.1, /Point map /Analog Input] 100, 1000, 10000, 100000,...
Page 311 EMR-4000 IM02602009E Parameter Description Setting range Default Menu path Scale Factor 2 The scale factor is used to convert the measured value in 0.001, [Device Para an integer format 0.01, /DNP 0.1, /Point map /Analog Input] 100, 1000, 10000, 100000,...
Page 312 EMR-4000 IM02602009E Parameter Description Setting range Default Menu path Scale Factor 4 The scale factor is used to convert the measured value in 0.001, [Device Para an integer format 0.01, /DNP 0.1, /Point map /Analog Input] 100, 1000, 10000, 100000,...
Page 313 EMR-4000 IM02602009E Parameter Description Setting range Default Menu path Scale Factor 6 The scale factor is used to convert the measured value in 0.001, [Device Para an integer format 0.01, /DNP 0.1, /Point map /Analog Input] 100, 1000, 10000, 100000,...
Page 314 EMR-4000 IM02602009E Parameter Description Setting range Default Menu path Scale Factor 8 The scale factor is used to convert the measured value in 0.001, [Device Para an integer format 0.01, /DNP 0.1, /Point map /Analog Input] 100, 1000, 10000, 100000,...
Page 315 EMR-4000 IM02602009E Parameter Description Setting range Default Menu path Scale Factor 10 The scale factor is used to convert the measured value in 0.001, [Device Para an integer format 0.01, /DNP 0.1, /Point map /Analog Input] 100, 1000, 10000, 100000,...
Page 316 EMR-4000 IM02602009E Parameter Description Setting range Default Menu path Scale Factor 12 The scale factor is used to convert the measured value in 0.001, [Device Para an integer format 0.01, /DNP 0.1, /Point map /Analog Input] 100, 1000, 10000, 100000,...
Page 317 EMR-4000 IM02602009E Parameter Description Setting range Default Menu path Scale Factor 14 The scale factor is used to convert the measured value in 0.001, [Device Para an integer format 0.01, /DNP 0.1, /Point map /Analog Input] 100, 1000, 10000, 100000,...
Page 318 EMR-4000 IM02602009E Parameter Description Setting range Default Menu path Scale Factor 16 The scale factor is used to convert the measured value in 0.001, [Device Para an integer format 0.01, /DNP 0.1, /Point map /Analog Input] 100, 1000, 10000, 100000,...
Page 319 EMR-4000 IM02602009E Parameter Description Setting range Default Menu path Scale Factor 18 The scale factor is used to convert the measured value in 0.001, [Device Para an integer format 0.01, /DNP 0.1, /Point map /Analog Input] 100, 1000, 10000, 100000,...
Page 320 EMR-4000 IM02602009E Parameter Description Setting range Default Menu path Scale Factor 20 The scale factor is used to convert the measured value in 0.001, [Device Para an integer format 0.01, /DNP 0.1, /Point map /Analog Input] 100, 1000, 10000, 100000,...
Page 321 EMR-4000 IM02602009E Parameter Description Setting range Default Menu path Scale Factor 22 The scale factor is used to convert the measured value in 0.001, [Device Para an integer format 0.01, /DNP 0.1, /Point map /Analog Input] 100, 1000, 10000, 100000,...
Page 322 EMR-4000 IM02602009E Parameter Description Setting range Default Menu path Scale Factor 24 The scale factor is used to convert the measured value in 0.001, [Device Para an integer format 0.01, /DNP 0.1, /Point map /Analog Input] 100, 1000, 10000, 100000,...
Page 323 EMR-4000 IM02602009E Parameter Description Setting range Default Menu path Scale Factor 26 The scale factor is used to convert the measured value in 0.001, [Device Para an integer format 0.01, /DNP 0.1, /Point map /Analog Input] 100, 1000, 10000, 100000,...
Page 324 EMR-4000 IM02602009E Parameter Description Setting range Default Menu path Scale Factor 28 The scale factor is used to convert the measured value in 0.001, [Device Para an integer format 0.01, /DNP 0.1, /Point map /Analog Input] 100, 1000, 10000, 100000,...
Page 325 EMR-4000 IM02602009E Parameter Description Setting range Default Menu path Scale Factor 30 The scale factor is used to convert the measured value in 0.001, [Device Para an integer format 0.01, /DNP 0.1, /Point map /Analog Input] 100, 1000, 10000, 100000,...
Page 326 EMR-4000 IM02602009E Inputs of the DNP Name Description Assignment via BinaryInput0-I Virtual Digital Input (DNP). This corresponds to a virtual binary [Device Para output of the protective device. /DNP /Point map /Binary Inputs] BinaryInput1-I Virtual Digital Input (DNP). This corresponds to a virtual binary [Device Para output of the protective device.
Page 327 EMR-4000 IM02602009E Name Description Assignment via BinaryInput8-I Virtual Digital Input (DNP). This corresponds to a virtual binary [Device Para output of the protective device. /DNP /Point map /Binary Inputs] BinaryInput9-I Virtual Digital Input (DNP). This corresponds to a virtual binary [Device Para output of the protective device.
Page 328 EMR-4000 IM02602009E Name Description Assignment via BinaryInput17-I Virtual Digital Input (DNP). This corresponds to a virtual binary [Device Para output of the protective device. /DNP /Point map /Binary Inputs] BinaryInput18-I Virtual Digital Input (DNP). This corresponds to a virtual binary [Device Para output of the protective device.
Page 329 EMR-4000 IM02602009E Name Description Assignment via BinaryInput26-I Virtual Digital Input (DNP). This corresponds to a virtual binary [Device Para output of the protective device. /DNP /Point map /Binary Inputs] BinaryInput27-I Virtual Digital Input (DNP). This corresponds to a virtual binary [Device Para output of the protective device.
Page 330 EMR-4000 IM02602009E Name Description Assignment via BinaryInput35-I Virtual Digital Input (DNP). This corresponds to a virtual binary [Device Para output of the protective device. /DNP /Point map /Binary Inputs] BinaryInput36-I Virtual Digital Input (DNP). This corresponds to a virtual binary [Device Para output of the protective device.
Page 331 EMR-4000 IM02602009E Name Description Assignment via BinaryInput44-I Virtual Digital Input (DNP). This corresponds to a virtual binary [Device Para output of the protective device. /DNP /Point map /Binary Inputs] BinaryInput45-I Virtual Digital Input (DNP). This corresponds to a virtual binary [Device Para output of the protective device.
Page 332 EMR-4000 IM02602009E Name Description Assignment via BinaryInput53-I Virtual Digital Input (DNP). This corresponds to a virtual binary [Device Para output of the protective device. /DNP /Point map /Binary Inputs] BinaryInput54-I Virtual Digital Input (DNP). This corresponds to a virtual binary [Device Para output of the protective device.
Page 333 EMR-4000 IM02602009E Name Description Assignment via BinaryInput62-I Virtual Digital Input (DNP). This corresponds to a virtual binary [Device Para output of the protective device. /DNP /Point map /Binary Inputs] BinaryInput63-I Virtual Digital Input (DNP). This corresponds to a virtual binary [Device Para output of the protective device.
Page 334 EMR-4000 IM02602009E Options of the DNP Name Description No assignment Prot.FaultNo Waveform No. Prot.No of GridFaults Number of grid faults: A grid fault, e.g. a short circuit, might cause several faults with trip and autoreclosing, each fault being identified by an increased fault number. In this case, the grid fault number remains the same.
Page 335 EMR-4000 IM02602009E DNP Signals (Output States) Some signals (that are for a short time active only) have to be acknowledged separately (e.g. Trip signals) by the Communication System. Signal Description busy This message is set if the protocol is started. It will be reset if the protocol is shut down.
Page 336 EMR-4000 IM02602009E Signal Description BinaryOutput29 Virtual Digital Output (DNP). This corresponds to a virtual binary input of the protective device. BinaryOutput30 Virtual Digital Output (DNP). This corresponds to a virtual binary input of the protective device. BinaryOutput31 Virtual Digital Output (DNP). This corresponds to a virtual binary input of the protective device.
Page 337: Parameters
EMR-4000 IM02602009E Parameters Parameter setting and planning can be done: Directly at the device; or By way of the PowerPort-E software application. Parameter Definitions Device Parameters By modifying the Device Parameters, the User may (depending on the type of device): Configure digital inputs, Assign LEDs;...
Page 338 The manufacturer does not accept liability for any personal or material 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 Protection Parameters »Global Prot Para« : Here the User can find all protection parameters that are universally valid.
Page 339 EMR-4000 IM02602009E Device Planning Parameters Improving the Usability (Clarity): All protection modules that are currently unused can be hidden (switched to invisible) through Device Planning. In the Device Planning menu, the User can adapt the scope of functionality of the protective device exactly as needed. The User can improve the usability by hiding all modules that are not currently needed.
Page 340 EMR-4000 IM02602009E Adaptive Parameter Sets www.eaton.com...
Page 341 EMR-4000 IM02602009E Adaptive Parameter Sets are part of the “Device Parameter tree”. By means of Adaptive Parameter Sets , the User can temporarily modify single parameters within the Parameter Setting groups. Adaptive Parameters drop-out automatically if the acknowledged signal that has activated them has dropped-out.
Page 342 EMR-4000 IM02602009E Adaptive Parameter Set Activation Signals Name Description No assignment 27M[1].Pickup Signal: Pickup Voltage Element 27M[2].Pickup Signal: Pickup Voltage Element 59M[1].Pickup Signal: Pickup Voltage Element 59M[2].Pickup Signal: Pickup Voltage Element 47[1].Pickup Signal: Pickup Voltage Asymmetry 47[2].Pickup Signal: Pickup Voltage Asymmetry ExP[1].Alarm...
Page 343 EMR-4000 IM02602009E Name Description Modbus.Comm Cmd 15 Communication Command Modbus.Comm Cmd 16 Communication Command IEC61850.VirtInp1 Signal: Virtual Input (IEC61850 GGIO Ind) IEC61850.VirtInp2 Signal: Virtual Input (IEC61850 GGIO Ind) IEC61850.VirtInp3 Signal: Virtual Input (IEC61850 GGIO Ind) IEC61850.VirtInp4 Signal: Virtual Input (IEC61850 GGIO Ind) IEC61850.VirtInp5...
Page 344 EMR-4000 IM02602009E Name Description IEC61850.SPCSO3 Status bit that can be set by clients like e.g. the Master Communication System (Single Point Controllable Status Output). IEC61850.SPCSO4 Status bit that can be set by clients like e.g. the Master Communication System (Single Point Controllable Status Output).
Page 345 EMR-4000 IM02602009E Name Description Profibus.Comm Cmd 15 Communication Command Profibus.Comm Cmd 16 Communication Command 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 Latched Output (Q NOT) Logic.LE2.Gate Out...
Page 346 EMR-4000 IM02602009E Name Description Logic.LE9.Out inverted Signal: Negated Latched Output (Q NOT) Logic.LE10.Gate Out Signal: Output of the logic gate Logic.LE10.Timer Out Signal: Timer Output Logic.LE10.Out Signal: Latched Output (Q) Logic.LE10.Out inverted Signal: Negated Latched Output (Q NOT) Logic.LE11.Gate Out Signal: Output of the logic gate Logic.LE11.Timer Out...
Page 347 EMR-4000 IM02602009E Name Description Logic.LE19.Gate Out Signal: Output of the logic gate Logic.LE19.Timer Out Signal: Timer Output Logic.LE19.Out Signal: Latched Output (Q) Logic.LE19.Out inverted Signal: Negated Latched Output (Q NOT) Logic.LE20.Gate Out Signal: Output of the logic gate Logic.LE20.Timer Out Signal: Timer Output Logic.LE20.Out...
Page 348 EMR-4000 IM02602009E Name Description 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 Signal: Output of the logic gate Logic.LE29.Timer Out Signal: Timer Output Logic.LE29.Out Signal: Latched Output (Q) Logic.LE29.Out inverted...
Page 349 EMR-4000 IM02602009E Name Description 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.Timer Out Signal: Timer Output Logic.LE38.Out Signal: Latched Output (Q) Logic.LE38.Out inverted Signal: Negated Latched Output (Q NOT) Logic.LE39.Gate Out...
Page 350 EMR-4000 IM02602009E Name Description 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.Out Signal: Latched Output (Q) Logic.LE47.Out inverted Signal: Negated Latched Output (Q NOT) Logic.LE48.Gate Out Signal: Output of the logic gate Logic.LE48.Timer Out...
Page 351 EMR-4000 IM02602009E Name Description 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 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...
Page 352 EMR-4000 IM02602009E Name Description Logic.LE58.Timer Out Signal: Timer Output Logic.LE58.Out Signal: Latched Output (Q) Logic.LE58.Out inverted Signal: Negated Latched Output (Q NOT) Logic.LE59.Gate Out Signal: Output of the logic gate Logic.LE59.Timer Out Signal: Timer Output Logic.LE59.Out Signal: Latched Output (Q) Logic.LE59.Out inverted...
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...
Page 354 EMR-4000 IM02602009E Name Description 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: Negated Latched Output (Q NOT) Logic.LE69.Gate Out Signal: Output of the logic gate Logic.LE69.Timer Out Signal: Timer Output Logic.LE69.Out...
Page 355 EMR-4000 IM02602009E Name Description Logic.LE77.Timer Out Signal: Timer Output Logic.LE77.Out Signal: Latched Output (Q) Logic.LE77.Out inverted Signal: Negated Latched Output (Q NOT) Logic.LE78.Gate 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...
Page 356 EMR-4000 IM02602009E Adaptive Parameters via HMI The use of Adaptive Parameters via the HMI (panel) differs a bit to the use via PowerPort-E. Adaptive Parameters can be also used via the HMI (instead of using the recommended PowerPort-E ). The principle method of using them via the HMI is as follows.
Page 357 EMR-4000 IM02602009E Application Example During a “Switch-OnTo-Fault” condition, the User is usually requested to make the embedded protective function tripping of the faulted line faster, instantaneous, or sometimes non-directional. Such a “Switch-OnTo-Fault” application can easily be realized using the Adaptive Parameter features mentioned previously.
Page 358 EMR-4000 IM02602009E The screen shot above shows the adaptive setting configurations following applications based on only one simple overcurrent protection element: Standard Set: Default settings; Adaptive Set 1: SOTF application (Switch-OnTo-Fault); Adaptive Set 2: CLPU application (Cold Load Pickup); Application Examples The output signal of the Switch OnTo Fault module can be used to activate an Adaptive Parameter Set that sensitizes the overcurrent protection.
Page 359: Access Authorizations (Access Areas)
EMR-4000 IM02602009E Access Authorizations (access areas) Passwords – Areas The following table shows the access areas and the authorization passwords that they require in order to access them. Area Symbol Authorization Password Access to: Read Only-Lv0 Level 0 provides Read Only access to all settings and parameters of the device.
Page 360 EMR-4000 IM02602009E If the device was not active within the parameter setting mode for a longer time (can be set between 20 – 3600 seconds) it changes into »Read Only- Lv0« mode automatically. This parameter (t-max-Edit) can be modified within menu [Device Para\HMI].
Page 361 EMR-4000 IM02602009E During setting parameters the Ack/Rst-Button will be used for the cancelling of parameter changes. Because of that it is not possible, to acknowledge (LEDs, Output Relays...) as long as there are non saved (cached only) parameters. The acknowledgement menu cannot be accessed as long as the parameter modifications are not overtaken by the device (indicated by a star symbol in the upper left corner).
Page 362: How To Find Out What Access Areas/Levels Are Unlocked
EMR-4000 IM02602009E Available Levels/Access Authorizations The access authorizations are designed in form of two hierachic strings. The supervisor (administrator) password provides access to all parameters and settings. Access Level for Protection Settings Access Level for Control Settings Supervisor-Lv3 Device Configuration...
Page 363: Unlocking Access Areas
EMR-4000 IM02602009E Unlocking Access Areas Within the menu [Device Para\Access level] access areas can be unlocked or locked (at the HMI). Changing Passwords Passwords can be changed at the device in menu [Device Para/Passwords] or by means of the Power-Port-E s oftware.
Page 364: Password Entry At The Panel
EMR-4000 IM02602009E Password Entry at the Panel Passwords can be entered by way of the Softkeys. Example: 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 All Passwords?«...
Page 365: Parameter Setting At The Hmi
EMR-4000 IM02602009E Parameter Setting at the HMI Every parameter belongs to an access area. Editing and changing of a parameter requires a sufficient access authorization. The User can obtain the required access authorizations by unlocking access areas in advance of parameter changes or context-dependent.
Page 366 EMR-4000 IM02602009E To change additional parameters and save afterwards, move to other parameters and change them A star symbol in front of the changed parameters indicates that the modifications have only been saved temporarily, they are not yet finally stored and adopted by the device.
Page 367 EMR-4000 IM02602009E Plausibility check: In order to prevent obvious wrong settings the device monitors constantly all temporary saved parameter changes. If the device detects an implausibility, this is indicated by a question mark in front of the respective parameter. In order to make things easier to follow up, especially where complex...
Page 368 EMR-4000 IM02602009E Option 2: Context-dependent Access Authorization Navigate to the parameter, that is to be changed. If the parameter is selected, the lower right corner of the display shows a » Key« -Symbol. This symbol indicates, that the device is still within the »Read Only Lv0« -Level, or that the current level does not provide sufficient access rights to allow editing of this parameter.
Page 369 EMR-4000 IM02602009E Plausibility check: In order to prevent obvious wrong settings the device monitors constantly all temporary saved parameter changes. If the device detects an implausibility, this is indicated by a question mark in front of the respective parameter. In order to make things easier to follow up, especially where complex...
Page 370: Setting Groups
EMR-4000 IM02602009E Setting Groups Setting Group Switch Within the »Protection Para/P-Set Switch« menu, the User has the following possibilities: To manually set one of the four setting groups active; To assign a signal to each setting group that sets this group to active; and Scada switches the setting groups.
Page 371 EMR-4000 IM02602009E Signals that can be used for PSS Name Description No assignment CTS.Pickup Signal: Pickup Current Transformer Measuring Circuit Supervision LOP.Pickup Signal: Pickup Loss of Potential 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...
Page 372 EMR-4000 IM02602009E Name Description Logic.LE7.Gate Out Signal: Output of the logic gate Logic.LE7.Timer Out Signal: Timer Output Logic.LE7.Out Signal: Latched Output (Q) Logic.LE7.Out inverted Signal: Negated Latched Output (Q NOT) Logic.LE8.Gate Out Signal: Output of the logic gate Logic.LE8.Timer Out Signal: Timer Output Logic.LE8.Out...
Page 373 EMR-4000 IM02602009E Name Description Logic.LE16.Timer Out Signal: Timer Output Logic.LE16.Out Signal: Latched Output (Q) Logic.LE16.Out inverted Signal: Negated Latched Output (Q NOT) Logic.LE17.Gate Out Signal: Output of the logic gate Logic.LE17.Timer Out Signal: Timer Output Logic.LE17.Out Signal: Latched Output (Q) Logic.LE17.Out inverted...
Page 374 EMR-4000 IM02602009E Name Description Logic.LE25.Out Signal: Latched Output (Q) Logic.LE25.Out inverted Signal: Negated Latched Output (Q NOT) Logic.LE26.Gate Out Signal: Output of the logic gate Logic.LE26.Timer Out Signal: Timer Output Logic.LE26.Out Signal: Latched Output (Q) Logic.LE26.Out inverted Signal: Negated Latched Output (Q NOT) Logic.LE27.Gate Out...
Page 375 EMR-4000 IM02602009E Name Description Logic.LE34.Out inverted Signal: Negated Latched Output (Q NOT) Logic.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.LE36.Gate Out Signal: Output of the logic gate Logic.LE36.Timer Out...
Page 376 EMR-4000 IM02602009E Name Description Logic.LE44.Gate Out Signal: Output of the logic gate Logic.LE44.Timer Out Signal: Timer Output Logic.LE44.Out Signal: Latched Output (Q) Logic.LE44.Out inverted Signal: Negated Latched Output (Q NOT) Logic.LE45.Gate Out Signal: Output of the logic gate Logic.LE45.Timer Out Signal: Timer Output Logic.LE45.Out...
Page 377 EMR-4000 IM02602009E Name Description Logic.LE53.Timer Out Signal: Timer Output Logic.LE53.Out Signal: Latched Output (Q) Logic.LE53.Out inverted Signal: Negated Latched Output (Q NOT) Logic.LE54.Gate Out Signal: Output of the logic gate Logic.LE54.Timer Out Signal: Timer Output Logic.LE54.Out Signal: Latched Output (Q) Logic.LE54.Out inverted...
Page 378 EMR-4000 IM02602009E Name Description 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.Timer Out Signal: Timer Output Logic.LE63.Out Signal: Latched Output (Q) Logic.LE63.Out inverted Signal: Negated Latched Output (Q NOT) Logic.LE64.Gate Out...
Page 379 EMR-4000 IM02602009E Name Description Logic.LE71.Out inverted Signal: Negated Latched Output (Q NOT) Logic.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.LE73.Gate Out Signal: Output of the logic gate Logic.LE73.Timer Out...
Page 380: Program Mode
EMR-4000 IM02602009E Name Description Sys.Maint Mode Active Signal: Arc Flash Reduction Maintenance Active Sys.Maint Mode Inactive Signal: Arc Flash Reduction Maintenance Inactive Program Mode By means of the Program Mode , parameter settings can be locked against any changes as long as one or all of the breaker(s) are in the »...
Page 381: System Parameters
EMR-4000 IM02602009E System Parameters System Para Within the system parameters, the User can set all parameters that are relevant for the primary side and the mains operational method like frequency, primary and secondary values, and the star point treatment. General System Parameters...
Page 382: System Parameters - Current Related
EMR-4000 IM02602009E System Parameters – Current Related Parameter Description Setting range Default Menu path CT con Current transformer connection 3-wire, 3-wire [System Para] 4th CT IN, 4th CT IG CT pri Nominal current of the primary side of the current...
Page 383: System Parameters - Voltage Related
EMR-4000 IM02602009E System Parameters – Voltage Related Parameter Description Setting range Default Menu path Main VT pri Enter the primary phase to phase voltage of the VTs 60 - 500000V 12000V [System Para] Main VT sec Enter the secondary phase to phase voltage of the VTs 60.00 - 600.00V...
Page 384: Blocking
EMR-4000 IM02602009E Blocking The device provides a function for temporary blocking of the complete protection functionality or of single protections. Make absolutely sure that no illogical or even life-threatening blockings are allocated. Make sure not to carelessly deactivate protection functions that have to be available according to the protection concept.
Page 385: Temporary Blocking
EMR-4000 IM02602009E Temporary Blocking To Block the Complete Protection of the Device Temporarily by a Signal In the »Prot« module, the complete protection of the device can be blocked temporarily by a signal. On the condition that a module-external blocking is permitted ( »ExBlo Fc=active«) . In addition to this, a related blocking signal from the »Assignment list«...
Page 386: To Activate Or Deactivate The Tripping Command Of A Protection Module
EMR-4000 IM02602009E To Activate or Deactivate the Tripping Command of a Protection Module www.eaton.com...
Page 387: Activate, Deactivate Respectively To Block Temporary Protection Functions
EMR-4000 IM02602009E Activate, Deactivate Respectively to Block Temporary Protection Functions www.eaton.com...
Page 388 EMR-4000 IM02602009E Current protective functions cannot only be blocked permanently (»F unction = Inactive« ) or temporarily by any blocking signal from the »Assignment list«, but also by »Reverse Interlocking« . All other protection functions can be activated, deactivated, or blocked in the same manner.
Page 389: Protection (Prot) Module
EMR-4000 IM02602009E Protection (Prot) Module Prot The »Protection« module serves as the outer frame for all other protection modules (i.e.: they are all enclosed by the »Protection« Module). In the case where the »Protection« module is blocked, the complete protective function of the device is disabled.
Page 390 EMR-4000 IM02602009E www.eaton.com...
Page 391 EMR-4000 IM02602009E Each protection element generates its own pickup and trip signals, which are automatically passed onto the »Prot« module where the phase based and general (collective) pickup and trip signals are generated. The »Prot« module serves as a top level and a common place to group all pickups and trips from each individual protection element.
Page 392 EMR-4000 IM02602009E www.eaton.com...
Page 393 EMR-4000 IM02602009E www.eaton.com...
Page 394 EMR-4000 IM02602009E *=Depending on the type of device www.eaton.com...
Page 395 EMR-4000 IM02602009E *=Depending on the type of device www.eaton.com...
Page 396: Direct Commands Of The Protection Module
EMR-4000 IM02602009E Direct Commands of the Protection Module Parameter Description Setting range Default Menu path Res FaultNo a Resetting of fault number and grid fault number. Inactive, Inactive [Operation GridFaultNo Active /Reset /Counter] Global Protection Parameters of the Protection Module...
Page 397: Protection Module Input States
EMR-4000 IM02602009E Protection Module Input States Name Description Assignment via ExBlo1-I Module Input State: External Blocking1 [Protection Para /Global Prot Para /Prot] ExBlo2-I Module Input State: External Blocking2 [Protection Para /Global Prot Para /Prot] Protection Module Signals (Output States) Signal...
Page 398: Switchgear/Breaker - Manager
EMR-4000 IM02602009E Switchgear/Breaker – Manager WARNING Misconfiguration of switchgear could result in death or serious injury. This e. g. is the case when opening a disconnector under load or when switching a ground connector to live parts of a system.
Page 399: Single Line Diagram
EMR-4000 IM02602009E Single Line Diagram The single line diagram includes the graphically description of the breaker and its designation (name) as well as its features (short circuit proof or not ...). For displaying in the devices software, the switchgear' designations (e. g. QA1, QA2, instead of SG[x]) will be taken from the single line diagram (configuration file).
Page 400 EMR-4000 IM02602009E Assignment of Position Indications The position indication is needed by the device to get (evaluate) the information about the current status /position of the breaker. The switchgear position indications are shown in the devices display. Each position change of a switchgear results in a change of the corresponding switchgear symbol.
Page 401 EMR-4000 IM02602009E Supervision of the CLOSE command When an CLOSE command is initiated, the » t-Move CLOSE« timer will be started. While the timer is running, the »POS « State will become true. If the command is executed and properly fed back from the switchgear before the NDETERM timer has run down, »POS CLOSE«...
Page 402 EMR-4000 IM02602009E Single Position Indication Aux CLOSE or Aux OPEN If the single pole indication is used, the »SI S « will become true. INGLE ONTACT The moving time supervision works only in one direction. If the Aux OPEN signal is connected to the device, only the “OPEN command”...
Page 403 EMR-4000 IM02602009E Single Position Indication – Aux OPEN If only the Aux OPEN signal is used for the monitoring of the “OPEN command”, the switch command will start the moving timer. The Position Indication will indicate an INTERMEDIATE position. When the switchgear reaches its end position before the moving timer elapses, »CES succesf«...
Page 404 EMR-4000 IM02602009E Trip command Interlockings assigned and configured within the Trip manager www.eaton.com...
Page 405 EMR-4000 IM02602009E Trip Manager – Assignment of commands The trip commands of the protection elements have to be assigned to those switchgear, that are make/break capable (Breaker). For every make/break capable switchgear a Trip Manager is provided. In the Trip Manger all tripping commands are combined by an “OR” logic. The actual tripping command to the switchgear is exclusively given by the Trip Manager.
Page 406 EMR-4000 IM02602009E www.eaton.com...
Page 407 EMR-4000 IM02602009E Ex CLOSE/OPEN If the switchgear should be opened or closed by an external signal, the User can assign one signal that will trigger the CLOSE and one signal that will trigger the OPEN command (e.g. digital inputs or output signals of the Logics). An OPEN command has priority.
Page 408 EMR-4000 IM02602009E Signal Breaker CLOSE Breaker OPEN Command Signal Breaker OPEN Breaker CLOSE Command Signal Breaker Ready Trip Command Trigger [x] CLOSE Request Trigger [x] Position Indication: OPEN, CLOSE, Synchronizm Indeterminated, Disturbed SCADA Autoreclosure CLOSE Ready to CLOSE Breaker CLOSE Initiative www.eaton.com...
Page 409 EMR-4000 IM02602009E Switching Authority For the Switching Authority [Control\General Settings], the following general settings are possible: NONE: No control function; LOCAL: Control only via push buttons at the panel; REMOTE: Control only via SCADA, digital inputs, or internal signals; and LOCAL&REMOTE:...
Page 410 EMR-4000 IM02602009E Switch Direction Control Switching commands are validated before execution. When the switchgear is already in the desired position, the switch command will not be issued again. An opened breaker cannot be opened again. This also applies for switching command at the HMI or via SCADA.
Page 411 EMR-4000 IM02602009E Global Protection Parameters of the Control Parameter Description Setting range Default Menu path CinBkr-52a The breaker is in CLOSE-position if the state of the 1..n, Dig Inputs [Control assigned signal is true (52a). /Bkr /Pos Indicatrs Wirng] CinBkr-52b The breaker is in OPEN-position if the state of the 1..n, Dig Inputs...
Page 412 EMR-4000 IM02602009E Parameter Description Setting range Default Menu path SC CLOSE Switching CLOSE Command, e.g. the state of the Logics 1..n, DI-LogicList [Control or the state of the digital input /Bkr /Ex OPEN/CLOSE Cmd] SC OPEN Switching OPEN Command, e.g. the state of the Logics 1..n, DI-LogicList...
Page 413 EMR-4000 IM02602009E Parameter Description Setting range Default Menu path Trigger6 Open Command to the Breaker if the state of the 1..n, Trip Cmds 51P[3].TripCmd [Control assigned signal becomes true. /Bkr /Trip Manager] Trigger7 Open Command to the Breaker if the state of the 1..n, Trip Cmds...
Page 414 EMR-4000 IM02602009E Parameter Description Setting range Default Menu path Trigger17 Open Command to the Breaker if the state of the 1..n, Trip Cmds 59M[1].TripCmd [Control assigned signal becomes true. /Bkr /Trip Manager] Trigger18 Open Command to the Breaker if the state of the 1..n, Trip Cmds...
Page 415 EMR-4000 IM02602009E Parameter Description Setting range Default Menu path Trigger28 Open Command to the Breaker if the state of the 1..n, Trip Cmds 47[2].TripCmd [Control assigned signal becomes true. /Bkr /Trip Manager] Trigger29 Open Command to the Breaker if the state of the 1..n, Trip Cmds...
Page 416 EMR-4000 IM02602009E Parameter Description Setting range Default Menu path Trigger39 Open Command to the Breaker if the state of the 1..n, Trip Cmds 81[5].TripCmd [Control assigned signal becomes true. /Bkr /Trip Manager] Trigger40 Open Command to the Breaker if the state of the 1..n, Trip Cmds...
Page 417 EMR-4000 IM02602009E Parameter Description Setting range Default Menu path Trigger50 Open Command to the Breaker if the state of the 1..n, Trip Cmds 81[6].TripCmd [Control assigned signal becomes true. /Bkr /Trip Manager] Trigger51 Open Command to the Breaker if the state of the 1..n, Trip Cmds...
Page 418 EMR-4000 IM02602009E Switchgear/Breaker Input States Name Description Assignment via CinBkr-52a-I Module Input State: Feed-back signal of the Bkr (52a) [Control /Bkr /Pos Indicatrs Wirng] CinBkr-52b-I Module Input State: Feed-back signal of the Bkr. (52b) [Control /Bkr /Pos Indicatrs Wirng] Ready-I...
Page 419 EMR-4000 IM02602009E Name Description Assignment via SC OPEN-I State of the module input: Switching OPEN Command, e.g. the [Control state of the Logics or the state of the digital input /Bkr /Ex OPEN/CLOSE Cmd] Switchgear/Breaker Signals (Outputs States) Signal Description SI SingleContactInd Signal: The Position of the Switchgear is detected by one auxiliary contact (pole) only.
Page 420 EMR-4000 IM02602009E Signal Description OPEN Cmd Signal: OPEN command issued to the switchgear. Depending on the setting the signal may include the OPEN command of the Prot module. CLOSE Cmd manual Signal: CLOSE Cmd manual OPEN Cmd manual Signal: OPEN Cmd manual Optional External Switching Signals The following list of signals can be used as signals for external switching.
Page 421 EMR-4000 IM02602009E Name Description Logic.LE5.Timer Out Signal: Timer Output Logic.LE5.Out Signal: Latched Output (Q) Logic.LE5.Out inverted Signal: Negated Latched Output (Q NOT) Logic.LE6.Gate Out Signal: Output of the logic gate Logic.LE6.Timer Out Signal: Timer Output Logic.LE6.Out Signal: Latched Output (Q) Logic.LE6.Out inverted...
Page 422 EMR-4000 IM02602009E Name Description Logic.LE14.Out Signal: Latched Output (Q) Logic.LE14.Out inverted Signal: Negated Latched Output (Q NOT) Logic.LE15.Gate Out Signal: Output of the logic gate Logic.LE15.Timer Out Signal: Timer Output Logic.LE15.Out Signal: Latched Output (Q) Logic.LE15.Out inverted Signal: Negated Latched Output (Q NOT) Logic.LE16.Gate Out...
Page 423 EMR-4000 IM02602009E Name Description Logic.LE23.Out inverted Signal: Negated Latched Output (Q NOT) www.eaton.com...
Page 424 EMR-4000 IM02602009E Name Description Logic.LE24.Gate Out Signal: Output of the logic gate Logic.LE24.Timer Out Signal: Timer Output Logic.LE24.Out Signal: Latched Output (Q) Logic.LE24.Out inverted 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...
Page 425 EMR-4000 IM02602009E Name Description Logic.LE33.Timer Out Signal: Timer Output Logic.LE33.Out Signal: Latched Output (Q) Logic.LE33.Out inverted Signal: Negated Latched Output (Q NOT) Logic.LE34.Gate 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...
Page 426 EMR-4000 IM02602009E Name Description Logic.LE42.Out Signal: Latched Output (Q) Logic.LE42.Out inverted Signal: Negated Latched Output (Q NOT) Logic.LE43.Gate Out Signal: Output of the logic gate Logic.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...
Page 427 EMR-4000 IM02602009E Name Description Logic.LE51.Out inverted Signal: Negated Latched Output (Q NOT) Logic.LE52.Gate Out Signal: Output of the logic gate Logic.LE52.Timer Out Signal: Timer Output Logic.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...
Page 428 EMR-4000 IM02602009E Name Description Logic.LE61.Gate Out Signal: Output of the logic gate Logic.LE61.Timer Out Signal: Timer Output Logic.LE61.Out Signal: Latched Output (Q) Logic.LE61.Out inverted 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...
Page 429 EMR-4000 IM02602009E Name Description Logic.LE70.Timer Out Signal: Timer Output Logic.LE70.Out Signal: Latched Output (Q) Logic.LE70.Out inverted Signal: Negated Latched Output (Q NOT) Logic.LE71.Gate 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...
Page 430: Switchgear Wear
EMR-4000 IM02602009E Name Description Logic.LE79.Out Signal: Latched Output (Q) Logic.LE79.Out inverted Signal: Negated Latched Output (Q NOT) Logic.LE80.Gate Out Signal: Output of the logic gate Logic.LE80.Timer Out Signal: Timer Output Logic.LE80.Out Signal: Latched Output (Q) Logic.LE80.Out inverted Signal: Negated Latched Output (Q NOT)
Page 431 EMR-4000 IM02602009E Switchgear Wear Curve In order to keep the switchgear in good working condition, the switchgear needs to be monitored. The switchgear health (operation life) depends above all on: The number of CLOSE/OPEN cycles. The amplitudes of the interrupting currents.
Page 432 EMR-4000 IM02602009E Global Protection Parameters of the Breaker Wear Module Parameter Description Setting range Default Menu path Operations Alarm Service Alarm, too many Operations 1 - 100000 9999 [Control /Bkr /Bwear] Isum Intr Alarm Alarm, the Sum (Limit) of interrupting currents has been 0.00 - 2000.00kA...
Page 433 EMR-4000 IM02602009E Parameter Description Setting range Default Menu path Count2 Open Counts Allowed #2 1 - 32000 10000 [Control /Bkr Only available if:Bwear Curve Fc = Active /Bwear] Current3 Interrupted Current Level #3 0.00 - 2000.00kA 1.15kA [Control /Bkr Only available if:Bwear Curve Fc = Active...
Page 434 EMR-4000 IM02602009E Parameter Description Setting range Default Menu path Current8 Interrupted Current Level #8 0.00 - 2000.00kA 16.00kA [Control /Bkr Only available if:Bwear Curve Fc = Active /Bwear] Count8 Open Counts Allowed #8 1 - 32000 [Control /Bkr Only available if:Bwear Curve Fc = Active...
Page 435 EMR-4000 IM02602009E Direct Commands of the Breaker Wear Module Parameter Description Setting range Default Menu path Res TripCmdCr Resetting of the Counter: total number of trip commands Inactive, Inactive [Operation Active /Reset /Counter] Res Isum trip Reset summation of the tripping currents...
Page 436: Control Parameters
EMR-4000 IM02602009E Control Parameters Direct commands of the Control Module Parameter Description Setting range Default Menu path Switching Authority Switching Authority None, Local [Control Local, /General Settings] Remote, Local and Remote Signals of the Control Module Signal Description Local Switching Authority: Local...
Page 437 EMR-4000 IM02602009E Synchronization inputs Assignable Trip Commands (Trip Manager) Name Description No assignment MStart.TripCmd Signal: Trip Command 50P[1].TripCmd Signal: Trip Command 50P[2].TripCmd Signal: Trip Command 50P[3].TripCmd Signal: Trip Command 51P[1].TripCmd Signal: Trip Command 51P[2].TripCmd Signal: Trip Command 51P[3].TripCmd Signal: Trip Command 50X[1].TripCmd...
Page 438 EMR-4000 IM02602009E Name Description 47[2].TripCmd Signal: Trip Command 81[1].TripCmd Signal: Trip Command 81[2].TripCmd Signal: Trip Command 81[3].TripCmd Signal: Trip Command 81[4].TripCmd Signal: Trip Command 81[5].TripCmd Signal: Trip Command 81[6].TripCmd Signal: Trip Command 32[1].TripCmd Signal: Trip Command 32[2].TripCmd Signal: Trip Command 32[3].TripCmd...
Page 439: Control - Example: Switching Of A Breaker
EMR-4000 IM02602009E Control - Example: Switching of a Breaker Ctrl The following example shows how to switch a breaker via the HMI at the device. Change into the menu »Control« by pushing the »right arrow« softkey. Change to the control page by pushing the »right arrow« softkey.
Page 440 EMR-4000 IM02602009E Pushing the softkey »Mode« leads to the menu »General Settings«. In this menu the switching authority can be changed. Select between »Local« 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.
Page 441 EMR-4000 IM02602009E The switching command will be given to the breaker. The display shows the intermediate position of the switchgear. 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.
Page 442: Protective Elements
EMR-4000 IM02602009E Protective Elements IOC Function Elements: IOC Function Functional Description The instantaneous overcurrent function (IOC) or 50P[x] is intended to protect in the event of a high-current fault. The example IOC setting used in the Motor Protection Curve (see the Motor Protection Curve Examples in the Ultimate Trip Current Section) is 12 times (1,200%) of FLA.
Page 443: Load Shedding
EMR-4000 IM02602009E Load Shedding Available elements: Functional Description In some applications, the protective device can forestall a JAM alarm or trip, or a thermal trip, by sending a signal to the process to reduce loading. The load shedding function, if enabled, closes or opens a relay contact to shed process load when the motor load current goes above the Load Shed Drop threshold, for a time exceeding the Drop Delay t.
Page 444 EMR-4000 IM02602009E Device Planning Parameters of the Load Shedding Parameter Description Options Default Menu path Mode Mode Do not use, [Device Planning] Global Protection Parameters of the Load Shedding Parameter Description Setting range Default Menu path ExBlo1 External blocking of the module, if blocking is activated 1..n, Assignment...
Page 445 EMR-4000 IM02602009E Setting Group Parameters of the Load Shedding Parameter Description Setting range Default Menu path Function Permanent activation or deactivation of module/element. Inactive, Inactive [Protection Para Active /<1..4> /MLS] ExBlo Fc Activate (allow) or inactivate (disallow) blocking of the...
Page 446 EMR-4000 IM02602009E Load Shedding Input States Name Description Assignment via ExBlo1-I Module Input State: 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...
Page 447: Jam
EMR-4000 IM02602009E Elements 50J[1] ,50J[2] Functional Description When the motor is running, a current increase above normal load may 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 JAM Trip Function” curve example). In this curve example, the JAM trip is set at 150% of FLA.
Page 448 EMR-4000 IM02602009E The protective device can be configured for a JAM alarm and/or a JAM trip. There are two JAM elements: JAM1 50J[1]; and • JAM2 50J[2]. • They are located under the >>Protection Parma<< menu, under each setting group (Set 1 for example). It is suggested to use 50J[1] for JAM trip, and 50J[2] for JAM alarm.
Page 449 EMR-4000 IM02602009E Device Planning Parameters for JAM Protection Parameter Description Options Default Menu path Mode Mode Do not use, [Device Planning] Global Protection Parameters for JAM Protection Parameter Description Setting range Default Menu path ExBlo1 External blocking of the module, if blocking is activated 1..n, Assignment...
Page 450 EMR-4000 IM02602009E Setting Group Parameters for JAM Protection Parameter Description Setting range Default Menu path Function Permanent activation or deactivation of module/element. Inactive, Inactive [Protection Para Active /<1..4> /JAM-Prot /50J[1]] ExBlo Fc Activate (allow) or inactivate (disallow) blocking of the...
Page 451 EMR-4000 IM02602009E JAM Protection Module Input States Name Description Assignment via ExBlo1-I Module Input State: External Blocking1 [Protection Para /Global Prot Para /JAM-Prot /50J[1]] ExBlo2-I Module Input State: External Blocking2 [Protection Para /Global Prot Para /JAM-Prot /50J[1]] ExBlo TripCmd-I Module Input State: External Blocking of the Trip Command...
Page 452 EMR-4000 IM02602009E JAM Protection Values Value Description Default Size Menu path nPickups Number of alarms since last reset. 0 - 9999999999 [Operation /History /PickupCr] nTripCmds Number of trip commands since last reset. 0 - 9999999999 [Operation /History /TripCmdCr] Commissioning Test Description Set the JAM Start delay timer to one second.
Page 453: Locked Rotor Protection
Settings for the LRC (Locked Rotor Current) can be found under the System Parameters. The LRC value is a multiplier of the Full Load amps (FLA) setting and ranges from 300 to 1200 % of FLA. The value of K = 6.01 should be used to mimic the thermal model of Eaton's MP3000 and MP4000 motor relays. www.eaton.com...
Page 454: Motor Starting And Control Module
EMR-4000 IM02602009E Motor Starting and Control Module Available elements: MStart General – Principle Use The motor start control logic is the core control and protective function for a protective device. The logic includes the motor operation state monitoring, motor state transition control, starts limit monitoring, state transition trip, and emergency override.
Page 455 EMR-4000 IM02602009E Motor Start Blocked A Motor Start can be blocked by certain events, if any of the following conditions are noted - motor starts limit, starting frequency, thermal and mechanical constraints. The User may choose to use the states to block the motor from starting or use it as an alarm or indication.
Page 456 EMR-4000 IM02602009E Motor Start / Transition Trips The Motor will be tripped during the start phase, in case that: The Start Control 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 started.
Page 457 EMR-4000 IM02602009E www.eaton.com...
Page 458 EMR-4000 IM02602009E Motor State Transition Start Control Module The Start Control Module drawing shows an example of how the protective device reacts to a normal operating-cycle current profile. Initially, the motor is stopped and the current is zero. As long as the protective device is not in a trip state, it permits contactor energization by closing its trip contact in series with the contactor.
Page 459 Note that the generic start delays are not tied to anything, and they can be used to block anything at the User’s choice. Eaton E-Series Motor Relays that have the ability to measure Voltage also have the following additional start delay...
Page 460 EMR-4000 IM02602009E Start Limits Because motor starting consumes a considerable amount of thermal energy compared to its normal load conditions, the number of starts in a given time period must be monitored and controlled. The protective device has three functions that contribute to the start limits monitoring.
Page 461 EMR-4000 IM02602009E Thermal Block Besides the previously mentioned start monitoring and controlling means, the motor can be blocked if the thermal capacity used exceeds the alarm level. It is the User’s choice to turn on or off this feature and set an appropriate alarm level in the thermal model module.
Page 462 EMR-4000 IM02602009E Zero Speed Switch (ZSS ON or OFF) ZSS enables the function that verifies if the motor begins to physically spin after a start. It requires a zero-speed switch on the motor, which is closed at rest and opens as the rotor reaches (5%-10%) its normal speed. Connect the zero- speed switch contact to one of the protective device Discrete Inputs.
Page 463 EMR-4000 IM02602009E Turn OFF LAT unless the application specifically demands it. Use a zero speed switch with LAT. Using an LAT 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.
Page 464 EMR-4000 IM02602009E Incomplete Sequence Report Back Time (INSQ) The incomplete sequence function requires an input from the report back contact from the process that the motor is running. Shortly after the motor starts, the report back contact provides an indication that the process has started to operate as expected.
Page 465 EMR-4000 IM02602009E Emergency Override If enabled, an emergency override can be executed by pushing the Emrg Override button behind the front panel security door. In any case, an emergency override can be performed by a remote contact connected to any one of the discrete inputs programmed as EMG OVR, or via front panel under Operations\Reset menu.
Page 466 EMR-4000 IM02602009E Global Protection Parameters of the Motor Start Module Parameter Description Setting range Default Menu path Reversing Reversing or non reversing starter. This option will affect Inactive, Inactive [System Para] the sequence current calculations. Active Full load current (amperes). Set to maximum stator...
Page 467 EMR-4000 IM02602009E Parameter Description Setting range Default Menu path RemStartBlo Fc RemStartBlo Fc Inactive, Inactive [Protection Para Active /Global Prot Para /MStart /Start Control] ThermBlo Fc ThermBlo Fc Inactive, Inactive [Protection Para Active /Global Prot Para /MStart /Start Control] TRN Criteria...
Page 468 EMR-4000 IM02602009E Parameter Description Setting range Default Menu path 1 - 10 [Protection Para /Global Prot Para Only available if: SPH Fc = Active /MStart /Start Control] INSQReportFrom INcomplete SeQuence report time starting point Inactive, Inactive [Protection Para InSq Start2Run,...
Page 469 EMR-4000 IM02602009E Parameter Description Setting range Default Menu path Zero Speed Switch Inactive, Inactive [Protection Para Active /Global Prot Para /MStart /Start Control] EmgOvr Emergency override options. Signal has to be active in Inactive, Inactive [Protection Para order to release the thermal capacity of the motor. Please...
Page 470 EMR-4000 IM02602009E Parameter Description Setting range Default Menu path t-Blo-GOC Ground Instantaneous Overcurrent Start Delay. 50X[x], 0.03 - 1.00s 0.08s [Protection Para 50R[x] and 50G[x] elements are blocked for the time /Global Prot Para programmed under this parameter, while the motor is...
Page 471 EMR-4000 IM02602009E Parameter Description Setting range Default Menu path t-Blo-Frequency Frequency Start Delay. These elements are blocked for 0 - 1200s [Protection Para the time programmed under this parameter, while the /Global Prot Para motor is starting /MStart /Start Delay Timer]...
Page 472 EMR-4000 IM02602009E Global Protection Parameters of the Motor Start Module Parameter Description Setting range Default Menu path Blo TripCmd Permanent blocking of the Trip Command of the Inactive, Inactive [Protection Para module/element. Active /<1..4> /MStart /Start Control] ExBlo TripCmd Fc...
Page 473 EMR-4000 IM02602009E Motor Start Module Input States Name Description Assignment via ExBlo TripCmd-I Module Input State: External Blocking of the Trip Command [Protection Para /Global Prot Para /MStart /Start Control] RemStartBlock-I State of the module input: Remote Motor Start Blocking...
Page 474 EMR-4000 IM02602009E Motor Start Module Signals (Output States) Signal Description Active Signal: Active Blo TripCmd Signal: Trip Command blocked Trip Signal: Trip TripCmd Signal: Trip Command Start Signal: Motor is in start mode Signal: Motor is in run mode Stop...
Page 475 EMR-4000 IM02602009E Signal Description Blo-Generic2 Generic Start Delay. This value can be used to block any protective element.2 Blo-Generic3 Generic Start Delay. This value can be used to block any protective element.3 Blo-Generic4 Generic Start Delay. This value can be used to block any protective element.4 Blo-Generic5 Generic Start Delay.
Page 476 EMR-4000 IM02602009E Motor Start Module Counter Values Value Description Default Size Menu path WaitTimeStarts Wait time between starts remained 0 - 9999999999s [Operation /Measured Values /Motor Values] ColdStartPermit Number of cold starts remaining 0 - 9999999999 [Operation /Measured Values /Motor Values]...
Page 477 EMR-4000 IM02602009E Value Description Default Size Menu path HighestStartI Highest starting phase current. The time stamp 0 - 99999999A [Operation indicates the point in time when the maximum /History current has occured. Resettable with "Sys. Res Operations Cr" or "All".
Page 478 EMR-4000 IM02602009E Motor Start Module Values Value Description Menu path I3 PRMS avg Average RMS current of all 3 phases [Operation /Measured Values /Current RMS] RunTime Motor Operation time since last reset. Resettable with "Sys. Res [Operation Operations Cr" or "All".
Page 479 EMR-4000 IM02602009E Value Description Menu path IB avg FLA IB average value multiples of FLA [Operation /Statistics /Demand /Current Demand] IB min FLA IB minimum value multiples of FLA [Operation /Statistics /Min /CT] IC max FLA IC maximum value multiples of FLA...
Page 480: Motor Wellness
EMR-4000 IM02602009E Motor Wellness Available elements: Motor Diagnosis Broken Rotor Bar Detection If there are enough broken rotor bars within a motor, the motor may not be able to develop sufficient accelerating torque to start. The presence of broken rotor bars precipitates deterioration in other components that can result in the need for time-consuming and expensive repairs.
Page 481 EMR-4000 IM02602009E Additional values give more detailed information about the signal condition: “GREEN” (No fault), “YELLOW” (Unclear), or “RED” (broken rotor bar detected) statuses are displayed in real time. Under a Yellow signal condition, any one of the following signal conditions may be display for clarity: “INVALID_FREQUENCY”;...
Page 482 EMR-4000 IM02602009E Global Protection Parameters of the Motor Wellness Parameter Description Setting range Default Menu path Horse Power 1 - 500000 [Protection Para /Global Prot Para /Motor Diagnosis /BRB Detection] Num Pole Pairs Number of pole pairs of the motor...
Page 483 EMR-4000 IM02602009E Direct Commands of the Motor Wellness Parameter Description Setting range Default Menu path Trigger BRB Manual trigger for a broken rotor bar detection Inactive, Inactive [Operation evaluation evaluation. Active /Count and RevData /Motor Diagnosis] Motor Wellness Signals (Output States)
Page 484: Thermal Model
General – Principle Use Thermal Protection and Alarm This protective device provides a thermal model that is similar to Eaton’s MP-3000 motor relay to approximate the thermal capacity used. The thermal model can work with or without the URTD. The RTD-based direct temperature trips and alarms are independent of the thermal model.
Page 485 EMR-4000 IM02602009E In addition, at least one of these winding temperatures must be valid. Knowing the maximum steady stator temperature qS (°C), the thermal capacity used can be estimated by the following formula. ∗50 %= ITH ∗FLA when  ...
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...
Page 487 EMR-4000 IM02602009E In the Thermal Replica Model Trip Curves with and without RTD, the unmarked lines are the thermal limit curves and the marked lines are the trip curves. From the curve without RTD, it can be seen that one can change the thermal current threshold to shift the upper portion of the trip curve right to allow the motor to run at a higher overload condition than is specified with the service factor.
Page 488 EMR-4000 IM02602009E Global Protection Parameters of the Thermal Model Parameter Description Setting range Default Menu path ExBlo1 External blocking of the module, if blocking is activated 1..n, Assignment [Protection Para (allowed) within a parameter set and if the state of the...
Page 489 EMR-4000 IM02602009E Setting Group Parameters of the Thermal Model Parameter Description Setting range Default Menu path Function Permanent activation or deactivation of module/element. Inactive, Active [Protection Para Active /<1..4> /49] ExBlo Fc Activate (allow) or inactivate (disallow) blocking of the...
Page 490 EMR-4000 IM02602009E Parameter Description Setting range Default Menu path Alarm Delay Thermal capacity used alarm delay 1 - 360min 1min [Protection Para /<1..4> Only available if: Alarm Function = Active /49] Thermal Model Module Input States Name Description Assignment via...
Page 491 EMR-4000 IM02602009E Direct Commands of the Thermal Model Module Parameter Description Setting range Default Menu path Res I2T Used Reset thermal capacity used. Inactive, Inactive [Operation Active /Reset /Flags] Thermal Model Module Counter Values Value Description Default Size Menu path I2T Used Thermal capacity used.
Page 492: Ultimate Trip Current
EMR-4000 IM02602009E Ultimate Trip Current Elements: Ultimate Trip Current Functional Description The Ultimate Trip Current (UTC) sets the current level at which a trip eventually occurs and is settable to a value as a percentage of Full Load Amps (FLA). This value represents the vertical line on the upper portion of the non-RTD as shown in the protection trip curve labeled Motor Protection Curve Example 2 ( with out RTD).
Page 493 EMR-4000 IM02602009E Motor Protection Curves Motor Protection Curve (Example 1) www.eaton.com...
Page 494 EMR-4000 IM02602009E Motor Protection Curve (Example 2 - without RTDs) www.eaton.com...
Page 495 EMR-4000 IM02602009E Motor Protection Curve (Example 3 - with RTDs) www.eaton.com...
Page 496: Underload Module
EMR-4000 IM02602009E Underload Module Elements 37[1] ,37[2] ,37[3] Functional Description When the motor is running, a current reduction might indicate a malfunction in the load. Underload protection recognizes mechanical problems, such as a blocked flow or loss of back pressure in a pump, or a broken drive belt or drive shaft.
Page 497 EMR-4000 IM02602009E These would be represented by two such vertical lines, both below the normal load current. Be sure to set the alarm level above the trip level. Both trips and alarms are held off by the start delay. Each has its own run or pickup delay.
Page 498 EMR-4000 IM02602009E Setting Group Parameters of the Underload Module Parameter Description Setting range Default Menu path Function Permanent activation or deactivation of module/element. Inactive, Inactive [Protection Para Active /<1..4> /Underload-Prot /37[1]] ExBlo Fc Activate (allow) or inactivate (disallow) blocking of the...
Page 499 EMR-4000 IM02602009E Parameter Description Setting range Default Menu path CTS Blo Measuring Circuit Supervision Current Inactive, Inactive [Protection Para Active /<1..4> /Underload-Prot /37[1]] Underload Module Input States Name Description Assignment via ExBlo1-I Module Input State: External Blocking1 [Protection Para /Global Prot Para...
Page 500: 50P - Deft Overcurrent Protection
EMR-4000 IM02602009E Underload Module Counter Values Value Description Default Size Menu path nPickups Number of alarms since last reset. 0 - 9999999999 [Operation /History /PickupCr] nTripCmds Number of trip commands since last reset. 0 - 9999999999 [Operation /History /TripCmdCr] 50P - DEFT Overcurrent Protection...
Page 501 EMR-4000 IM02602009E *=Applies only to devices that offer Inrush Protection www.eaton.com...
Page 502 EMR-4000 IM02602009E Device Planning Parameters of the 50P Module Parameter Description Options Default Menu path Mode Mode 50P[1]: Non-directional Non-directional [Device Planning] 50P[2]: Non-directional 50P[3]: Do not use, Non-directional Global Protection Parameters of the 50P Module Parameter Description Setting range...
Page 503 EMR-4000 IM02602009E Parameter Description Setting range Default Menu path ExBlo3 External blocking of the module, if blocking is activated -.-, MStart.IOCStartBl [Protection Para (allowed) within a parameter set and if the state of the MStart.GOCStart- /Global Prot Para assigned signal is true.
Page 504 EMR-4000 IM02602009E Parameter Description Setting range Default Menu path Rvs Blo Reverse Blocking, if Reverse Blocking is activated 1..n, Assignment [Protection Para (allowed) within a parameter set and if the state of the List /Global Prot Para assigned signal is true.
Page 505 EMR-4000 IM02602009E Setting Group Parameters of the 50P Module Parameter Description Setting range Default Menu path Function Permanent activation or deactivation of module/element. Inactive, 50P[1]: Active [Protection Para Active 50P[2]: Active /<1..4> 50P[3]: Inactive /I-Prot /50P[1]] ExBlo Fc Activate (allow) or inactivate (disallow) blocking of the...
Page 506 EMR-4000 IM02602009E Parameter Description Setting range Default Menu path Tripping delay 0.00 - 300.00s 50P[1]: 0s [Protection Para 50P[2]: 0.25s /<1..4> Only available if: Characteristic = DEFT 50P[3]: 0.25s /I-Prot /50P[1]] www.eaton.com...
Page 507 EMR-4000 IM02602009E 50P Module Input States Name Description Assignment via ExBlo1-I Module Input State: External Blocking1 [Protection Para /Global Prot Para /I-Prot /50P[1]] ExBlo2-I Module Input State: External Blocking2 [Protection Para /Global Prot Para /I-Prot /50P[1]] ExBlo TripCmd-I Module Input State: External Blocking of the Trip Command...
Page 508 EMR-4000 IM02602009E 50P Module Signals (Output States) Signal Description Active Signal: Active ExBlo Signal: External Blocking Rvs Blo Signal: Reverse Blocking Blo TripCmd Signal: Trip Command blocked ExBlo TripCmd Signal: External Blocking of the Trip Command Pickup IA Signal: Pickup IA...
Page 509 3 x single-phase and 1 x three-phase. Eaton recommends measuring the total tripping time instead of the tripping delay. The tripping delay should be specified by the User. The total tripping time is measured at the position signaling contact of the breaker (not at the relay output contacts!).
Page 510: Overcurrent Protection [51, 51C, 51V]
EMR-4000 IM02602009E 51P - Overcurrent Protection [51, 51C, 51V] Available stages: 51P[1] ,51P[2] ,51P[3] If you are using inrush blockings the tripping delay of the current protection functions must be at least 30ms or more in order to prevent faulty trippings.
Page 511 EMR-4000 IM02602009E Criterion - Measuring Mode For all protection elements it can be determined, whether the measurement is done on basis of the » Fundamental« or if » TrueRMS« measurement is used. Voltage restraint overcurrent protection 51V When the Parameter » VRestraint« is set to active the overcurrent protection element works voltage restraint. That means, the overcurrent pickup threshold will be lowered during voltage drops.
Page 512 EMR-4000 IM02602009E 51P – Phase Overcurrent *=Applies only to devices that offer Inrush Protection Application ANSI 51P www.eaton.com...
Page 513 EMR-4000 IM02602009E 51V - Voltage Restraint Overcurrent 51V[1]...[n] Name = 51V[1]...[n] Name.IH2 Blo* Please Refer to Diagram: Blockings** Name.Pickup IA (Element is not deactivated and no active blocking signals .) Name.Pickup IB Please Refer to Diagram: Direction Decision Phase overcurrent*** Name.Pickup IC...
Page 514 EMR-4000 IM02602009E For activating this function, the parameter » VRestraint« has to be set to active in the parameter set of the corresponding overcurrent element I[x]. The 51V protection function restrains operation which reduces pickup levels. This allows the User to lower the pickup value of the 51V protection function with the corresponding phase input voltage (phase-to-phase or phase-to-ground, depending on the setting of »...
Page 515 EMR-4000 IM02602009E Definition of Vn: Vn is dependent on the »Measuring Channel« setting in the current protection modules. In case that this parameter is set to "Phase to Phase": Vn=MainVT sec In case that this parameter is set to "Phase to Neutral": Main VT sec √...
Page 516 EMR-4000 IM02602009E Global Protection Parameters of the 51P Module Parameter Description Setting range Default Menu path ExBlo1 External blocking of the module, if blocking is activated 1..n, Assignment [Protection Para (allowed) within a parameter set and if the state of the...
Page 517 EMR-4000 IM02602009E Setting Group Parameters of the 51P Module Parameter Description Setting range Default Menu path Function Permanent activation or deactivation of module/element. Inactive, 51P[1]: Active [Protection Para Active 51P[2]: Active /<1..4> 51P[3]: Inactive /I-Prot /51P[1]] ExBlo Fc Activate (allow) or inactivate (disallow) blocking of the...
Page 518 EMR-4000 IM02602009E Parameter Description Setting range Default Menu path Curve Shape Characteristic IEC NINV, ANSI MINV [Protection Para IEC VINV, /<1..4> IEC EINV, /I-Prot IEC LINV, /51P[1]] ANSI MINV, ANSI VINV, ANSI EINV, Therm Flat, I2T, t-multiplier Time multiplier/tripping characteristic factor. The setting 0.02 - 20.00...
Page 519 EMR-4000 IM02602009E Parameter Description Setting range Default Menu path VRestraint max Maximum voltage restraint level. Definition of Vn: Vn is 0.04 - 1.30Vn 1.00Vn [Protection Para dependent on the System Parameter setting of "Main VT /<1..4> con". When the System Parameters "Main VT con" is set to "Open-Delta"...
Page 520 EMR-4000 IM02602009E 51P Module Input States Name Description Assignment via ExBlo1-I Module Input State: External Blocking1 [Protection Para /Global Prot Para /I-Prot /51P[1]] ExBlo2-I Module Input State: External Blocking2 [Protection Para /Global Prot Para /I-Prot /51P[1]] ExBlo TripCmd-I Module Input State: External Blocking of the Trip Command...
Page 521 EMR-4000 IM02602009E 51P Module Signals (Output States) Signal Description Active Signal: Active ExBlo Signal: External Blocking Rvs Blo Signal: Reverse Blocking Blo TripCmd Signal: Trip Command blocked ExBlo TripCmd Signal: External Blocking of the Trip Command Pickup IA Signal: Pickup IA...
Page 522 EMR-4000 IM02602009E Commissioning: Overcurrent Protection, non-directional [50, 51] Object to be tested Signals to be measured for each current protection element, the threshold values, total tripping time (recommended), or alternatively tripping delays and the dropout ratios; each time 3 x single-phase and 1 x three-phase.
Page 523 EMR-4000 IM02602009E Commissioning: Overcurrent Protection, Non-directional [ANSI 51V] Object to be tested: Signals to be measured for Voltage Restraint protection function: the threshold values, total tripping time (recommended), or alternatively tripping delays and the dropout ratios; each time 3 x single-phase and 1 x three-phase.
Page 524 EMR-4000 IM02602009E Voltage Controlled Overcurrent Protection [51C] When a sort circuit is near the generator, the voltage might drop down. By means of Adaptive Parameters (Please refer to chapter Parameter) the tripping times or tripping characteristics can be modified by the output signal of a voltage element (depending on a threshold).
Page 525: 50R Deft Calculated Ground Fault Protection Module
EMR-4000 IM02602009E 50R DEFT Calculated Ground Fault Protection Module Elements 50R[1] ,50R[2] If using inrush blockings, the tripping delay of the ground current protection functions must be at least 30 ms or more in order to prevent faulty trippings. All ground current elements are identically structured.
Page 526 EMR-4000 IM02602009E *=Applies only to devices that offer Inrush Protection www.eaton.com...
Page 527 EMR-4000 IM02602009E Device Planning Parameters of the 50R Ground Fault Protection Parameter Description Options Default Menu path Mode Mode Non-directional Non-directional [Device Planning] Global Protection Parameters of the 50R Ground Fault Protection Parameter Description Setting range Default Menu path ExBlo1 External blocking of the module, if blocking is activated 1..n, Assignment...
Page 528 EMR-4000 IM02602009E Parameter Description Setting range Default Menu path ExBlo3 External blocking of the module, if blocking is activated -.-, MStart.GOCStart [Protection Para (allowed) within a parameter set and if the state of the Block MStart.GOCStart- /Global Prot Para assigned signal is true.
Page 529 EMR-4000 IM02602009E Parameter Description Setting range Default Menu path Rvs Blo Reverse Blocking, if Reverse Blocking is activated 1..n, Assignment [Protection Para (allowed) within a parameter set and if the state of the List /Global Prot Para assigned signal is true.
Page 530 EMR-4000 IM02602009E Setting Group Parameters of the 50R Ground Fault Protection Parameter Description Setting range Default Menu path Function Permanent activation or deactivation of module/element. Inactive, Active [Protection Para Active /<1..4> /I-Prot /50R[1]] ExBlo Fc Activate (allow) or inactivate (disallow) blocking of the...
Page 531 EMR-4000 IM02602009E Parameter Description Setting range Default Menu path Tripping delay 0.00 - 300.00s 0.5s [Protection Para /<1..4> Only available if: Characteristic = DEFT /I-Prot /50R[1]] www.eaton.com...
Page 532 EMR-4000 IM02602009E 50R Ground Fault Protection Input States Name Description Assignment via ExBlo1-I Module Input State: External Blocking1 [Protection Para /Global Prot Para /I-Prot /50R[1]] ExBlo2-I Module Input State: External Blocking2 [Protection Para /Global Prot Para /I-Prot /50R[1]] ExBlo TripCmd-I...
Page 533 EMR-4000 IM02602009E 50R Ground Fault Protection Signals (Output States) Signal Description Active Signal: Active ExBlo Signal: External Blocking Rvs Blo Signal: Reverse Blocking Blo TripCmd Signal: Trip Command blocked ExBlo TripCmd Signal: External Blocking of the Trip Command Pickup Signal: Pickup IX or IR...
Page 534: 51R Inv Calculated Ground Fault Protection
EMR-4000 IM02602009E 51R INV Calculated Ground Fault Protection Elements 51R[1] ,51R[2] All ground current elements are identically structured. For each element the following characteristics are available: NINV (IEC/XInv); • VINV (IEC/XInv); • LINV (IEC/XInv); • EINV (IEC/XInv); • MINV (ANSI/XInv);...
Page 535 EMR-4000 IM02602009E *=Applies only to devices that offer Inrush Protection www.eaton.com...
Page 536 EMR-4000 IM02602009E Device Planning Parameters of the 51R Ground Fault Protection Parameter Description Options Default Menu path Mode Mode 51R[1]: Non-directional Non-directional [Device Planning] 51R[2]: Do not use, Non-directional Global Protection Parameters of the 51R Ground Fault Protection Parameter Description...
Page 537 EMR-4000 IM02602009E Parameter Description Setting 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 /Global Prot Para /I-Prot /51R[1]] www.eaton.com...
Page 538 EMR-4000 IM02602009E Setting Group Parameters of the 51R Ground Fault Protection Parameter Description Setting range Default Menu path Function Permanent activation or deactivation of module/element. Inactive, Active [Protection Para Active /<1..4> /I-Prot /51R[1]] ExBlo Fc Activate (allow) or inactivate (disallow) blocking of the...
Page 539 EMR-4000 IM02602009E Parameter Description Setting range Default Menu path Curve Shape Characteristic IEC NINV, ANSI MINV [Protection Para IEC VINV, /<1..4> IEC EINV, /I-Prot IEC LINV, /51R[1]] ANSI MINV, ANSI VINV, ANSI EINV, Therm Flat, I2T, t-multiplier Time multiplier/tripping characteristic factor. The setting 0.02 - 20.00...
Page 540 EMR-4000 IM02602009E 51R Ground Fault Protection Input States Name Description Assignment via ExBlo1-I Module Input State: External Blocking1 [Protection Para /Global Prot Para /I-Prot /51R[1]] ExBlo2-I Module Input State: External Blocking2 [Protection Para /Global Prot Para /I-Prot /51R[1]] ExBlo TripCmd-I...
Page 541 EMR-4000 IM02602009E 51R Ground Fault Protection Signals (Output States) Signal Description Active Signal: Active ExBlo Signal: External Blocking Rvs Blo Signal: Reverse Blocking Blo TripCmd Signal: Trip Command blocked ExBlo TripCmd Signal: External Blocking of the Trip Command Pickup Signal: Pickup IX or IR...
Page 542: 50X Deft Measured Ground Fault Protection
EMR-4000 IM02602009E 50X DEFT Measured Ground Fault Protection Elements 50X[1] ,50X[2] If using inrush blockings, the tripping delay of the ground current protection functions must be at least 30 ms or more in order to prevent faulty trippings. All ground current elements are identically structured.
Page 543 EMR-4000 IM02602009E *=Applies only to devices that offer Inrush Protection www.eaton.com...
Page 544 EMR-4000 IM02602009E Device Planning Parameters of the 50X Ground Fault Protection Parameter Description Options Default Menu path Mode Mode Non-directional Non-directional [Device Planning] Global Protection Parameters of the 50X Ground Fault Protection Parameter Description Setting range Default Menu path ExBlo1 External blocking of the module, if blocking is activated 1..n, Assignment...
Page 545 EMR-4000 IM02602009E Parameter Description Setting range Default Menu path ExBlo3 External blocking of the module, if blocking is activated -.-, MStart.GOCStart [Protection Para (allowed) within a parameter set and if the state of the Block MStart.GOCStart- /Global Prot Para assigned signal is true.
Page 546 EMR-4000 IM02602009E Parameter Description Setting range Default Menu path Rvs Blo Reverse Blocking, if Reverse Blocking is activated 1..n, Assignment [Protection Para (allowed) within a parameter set and if the state of the List /Global Prot Para assigned signal is true.
Page 547 EMR-4000 IM02602009E Setting Group Parameters of the 50X Ground Fault Protection Parameter Description Setting range Default Menu path Function Permanent activation or deactivation of module/element. Inactive, Active [Protection Para Active /<1..4> /I-Prot /50X[1]] ExBlo Fc Activate (allow) or inactivate (disallow) blocking of the...
Page 548 EMR-4000 IM02602009E Parameter Description Setting range Default Menu path Pickup (sensitive) If the pickup value is exceeded, the module/element will 0.002 - 2.000In 0.02In [Protection Para be started. /<1..4> /I-Prot /50X[1]] Tripping delay 0.00 - 300.00s 0.5s [Protection Para /<1..4>...
Page 549 EMR-4000 IM02602009E 50X Ground Fault Protection Input States Name Description Assignment via ExBlo1-I Module Input State: External Blocking1 [Protection Para /Global Prot Para /I-Prot /50X[1]] ExBlo2-I Module Input State: External Blocking2 [Protection Para /Global Prot Para /I-Prot /50X[1]] ExBlo TripCmd-I...
Page 550 EMR-4000 IM02602009E 50X Ground Fault Protection Signals (Output States) Signal Description Active Signal: Active ExBlo Signal: External Blocking Rvs Blo Signal: Reverse Blocking Blo TripCmd Signal: Trip Command blocked ExBlo TripCmd Signal: External Blocking of the Trip Command Pickup Signal: Pickup IX or IR...
Page 551: 51X Inv Measured Ground Fault Protection
EMR-4000 IM02602009E 51X INV Measured Ground Fault Protection Elements 51X[1] ,51X[2] All ground current elements are identically structured. For each element the following characteristics are available: NINV (IEC/XInv); • VINV (IEC/XInv); • LINV (IEC/XInv); • EINV (IEC/XInv); • MINV (ANSI/XInv);...
Page 552 EMR-4000 IM02602009E *=Applies only to devices that offer Inrush Protection www.eaton.com...
Page 553 EMR-4000 IM02602009E Device Planning Parameters of the 51X Ground Fault Protection Parameter Description Options Default Menu path Mode Mode 51X[1]: Non-directional Non-directional [Device Planning] 51X[2]: Do not use, Non-directional Global Protection Parameters of the 51X Ground Fault Protection Parameter Description...
Page 554 EMR-4000 IM02602009E Parameter Description Setting 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 /Global Prot Para /I-Prot /51X[1]] www.eaton.com...
Page 555 EMR-4000 IM02602009E Setting Group Parameters of the 51X Ground Fault Protection Parameter Description Setting range Default Menu path Function Permanent activation or deactivation of module/element. Inactive, Active [Protection Para Active /<1..4> /I-Prot /51X[1]] ExBlo Fc Activate (allow) or inactivate (disallow) blocking of the...
Page 556 EMR-4000 IM02602009E Parameter Description Setting range Default Menu path Pickup (sensitive) If the pickup value is exceeded, the module/element will 0.002 - 2.000In 0.02In [Protection Para be started. /<1..4> /I-Prot /51X[1]] Curve Shape Characteristic IEC NINV, ANSI MINV [Protection Para IEC VINV, /<1..4>...
Page 557 EMR-4000 IM02602009E 51X Ground Fault Protection Input States Name Description Assignment via ExBlo1-I Module Input State: External Blocking1 [Protection Para /Global Prot Para /I-Prot /51X[1]] ExBlo2-I Module Input State: External Blocking2 [Protection Para /Global Prot Para /I-Prot /51X[1]] ExBlo TripCmd-I...
Page 558 EMR-4000 IM02602009E 51X Ground Fault Protection Signals (Output States) Signal Description Active Signal: Active ExBlo Signal: External Blocking Rvs Blo Signal: Reverse Blocking Blo TripCmd Signal: Trip Command blocked ExBlo TripCmd Signal: External Blocking of the Trip Command Pickup Signal: Pickup IX or IR...
Page 559: Ground Fault Protection
EMR-4000 IM02602009E Ground Fault Protection Elements: Ground Fault Protection Functional Description This CT has a large primary window through which all three-phase conductors can pass. The most common ground fault CTs have a ratio of 50:5 or 50:1. The protective device is recognized to UL 1053, Ground Fault Protective Device standard. This may eliminate the need for a separate ground fault protector in many applications that formerly required one.
Page 560: Zi - Zone Interlocking
EMR-4000 IM02602009E ZI - Zone Interlocking Elements Principle – General Use The purpose of zone interlocking is to speed up tripping for some faults without sacrificing the coordination of the system and interjecting nuisance trips into the system. Zone interlocking devices can communicate across distribution zones to determine whether or not a device sees a fault condition.
Page 561 EMR-4000 IM02602009E Description of the Functions and Features Configurable protection functions to initiate the zone interlocking OUTPUT signal (start functions). Remove zone interlocking OUTPUT signal immediately after detection of a breaker failure. Reset time (about ten cycles - settable) to interrupt OUTPUT signal for durable trip signal.
Page 562 EMR-4000 IM02602009E Global Protection Parameters of the Zone Interlocking In the global parameter menu for zone interlocking, two external blocking inputs (» Ex Block1/Ex Block2«), as with other protection modules, can be assigned to the input of the zone interlocking function so that the zone interlock function can be blocked by an assigned function.
Page 563 EMR-4000 IM02602009E Setting Group Parameters of the Zone Interlocking The zone interlocking Setting Group Parameters consists of three groups of setting to configure the zone interlocking module to adapt to various application philosophies accordingly: General: This group comprises the settings used to control the general usage of the zone interlocking module.
Page 564 EMR-4000 IM02602009E The following menu and tables show the detailed information about the settings. Parameter Description Setting range Default Menu path Function Permanent activation or deactivation of module/stage. Inactive, Inactive [Protection Para The elements, that are associated with Zone Interlocking Active /<1..4>...
Page 565 EMR-4000 IM02602009E Parameter Description Setting range Default Menu path Trip Signal: Zone Interlocking Trip Inactive, Active [Protection Para Active /<1..4> /Zone Trip] Fault Type Fault Type Phase, Both [Protection Para Ground, /<1..4> Both /Zone Trip] Zone Interlocking Output Logic [X2] The following current protective function elements serve as the Phase Zone Interlock OUTPUT start functions: 51P[1];...
Page 566 EMR-4000 IM02602009E Zone Interlocking OUTPUT Logic Timing 51P[1].Pickup 51P[1].Trip Reset Timer 10 Cycles ZI.Bkr Blo ZI.OUT STATE STANDBY STARTED TRIPPED RESET STANDBY TRANSFER www.eaton.com...
Page 567 EMR-4000 IM02602009E www.eaton.com...
Page 568 EMR-4000 IM02602009E Zone Interlocking Trip Logic [X2] The following 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: 51X[1]; 50X[1]; 50X[2]; 51R[1]; 50R[1], and 50R[2].
Page 569 EMR-4000 IM02602009E Zone Interlocking TRIP Logic Timing 51P[1].Pickup ZI.IN Trip Delay Timer 3 Cycles ZI.Pickup ZI.Trip STANDBY STARTED TRIPPED STANDBY INTERLOCKED STANDBY STATE TRANSFER www.eaton.com...
Page 570 EMR-4000 IM02602009E www.eaton.com...
Page 571 EMR-4000 IM02602009E Zone Interlocking Input States Name Description Assignment via ExBlo1-I Module Input State: External Blocking1 [Protection Para /Global Prot Para /ZI] ExBlo2-I Module Input State: External Blocking2 [Protection Para /Global Prot Para /ZI] ExBlo TripCmd-I Module Input State: External Blocking of the Trip Command...
Page 572 EMR-4000 IM02602009E Zone Interlocking Wiring The ZI Outputs are for use with connection to electronic 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-3000 or a combination of both) for connection to upstream zone interlocked relays.
Page 573 EMR-4000 IM02602009E Zone 1 FP-X000 Zone 2 EDR-X000 FP-X000 Shield Shield Zone 3 DT-3000 EDR-X000 FP-X000 Ground Shield Phase Shield www.eaton.com...
Page 574 IM02602009E Hardware Terminals for Zone Interlocking By means of the zone interlocking terminals, the device can be connected to other Eaton protective devices 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 parallel.
Page 575 EMR-4000 IM02602009E Terminal Marking X2 for Device: EDR-3000 IRIG-B+ IRIG-B- Terminal Marking X2 for Device: EDR-4000, EDR-5000, EMR-4000, EMR-5000, EGR-4000 and EGR-5000 Do not use Do not use www.eaton.com...
Page 576: 46 - Current Unbalance Protection
EMR-4000 IM02602009E 46 - Current Unbalance Protection Elements: 46[1] ,46[2] This is the 46 device Current Unbalance setting, which works similar to the 47 device Voltage Unbalance setting. The positive and negative sequence currents are calculated from the 3-phase currents. The Threshold setting defines a minimum operating current magnitude of either I1 or I2 for the 46 function to operate, which ensures that the relay has a solid basis for initiating a current unbalance trip.
Page 577 EMR-4000 IM02602009E www.eaton.com...
Page 578 EMR-4000 IM02602009E Device Planning Parameters of the Current Unbalance Module Parameter Description Options Default Menu path Mode Mode Do not use, [Device Planning] Global Protection Parameters of the Current Unbalance Module Parameter Description Setting range Default Menu path ExBlo1 External blocking of the module, if blocking is activated 1..n, Assignment...
Page 579 EMR-4000 IM02602009E Setting Group Parameters of the Current Unbalance Module Parameter Description Setting range Default Menu path Function Permanent activation or deactivation of module/element. Inactive, Inactive [Protection Para Active /<1..4> /Unbalance-Prot /46[1]] ExBlo Fc Activate (allow) or inactivate (disallow) blocking of the...
Page 580 EMR-4000 IM02602009E Current Unbalance Module Input States Name Description Assignment via ExBlo1-I Module Input State: External Blocking1 [Protection Para /Global Prot Para /Unbalance-Prot /46[1]] ExBlo2-I Module Input State: External Blocking2 [Protection Para /Global Prot Para /Unbalance-Prot /46[1]] ExBlo TripCmd-I Module Input State: External Blocking of the Trip Command...
Page 581 EMR-4000 IM02602009E Commissioning: Current Unbalance Module Object to be tested: Test of the unbalanced load protection function. Necessary means: Three-phase current source with adjustable current unbalance; and Timer. Procedure: Check the phase sequence: Ensure that the phase sequence is the same as that set in the field parameters.
Page 582 EMR-4000 IM02602009E Testing the trip delay: Apply a balanced three-phase current system (nominal currents). Switch off IA (the threshold value » Threshold« for » I2 Fund.« must be below 33%). Measure the tripping time. The present current unbalance » I2 Fund.« corresponds with 1/3 of the existing phase current displayed.
Page 583 EMR-4000 IM02602009E Testing the dropout ratio of %(I2/I1) Having tripped the relay in the 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 the permitted deviations/tolerances, specified under Technical Data.
Page 584: 27M - Undervoltage Protection
EMR-4000 IM02602009E 27M - Undervoltage Protection Available elements: 27M[1] ,27M[2] M is for “Main” referring to protection metered by the Main Voltage transformer in the System Configuration. All undervoltage elements are identically structured. Definition of Vn: Vn is dependent on the System Parameter setting of "Main VT con".
Page 585 EMR-4000 IM02602009E If the VT measurement location is not at the bus bar side but at the output side, the following has to be taken into account. When disconnecting the line, it has to be ensured by an »External Blocking« that undervoltage tripping cannot happen.
Page 586 EMR-4000 IM02602009E www.eaton.com...
Page 587 EMR-4000 IM02602009E Device Planning Parameters of the Undervoltage Protection Module Parameter Description Options Default Menu path Mode Mode Do not use, [Device Planning] Global Protection Parameters of the Undervoltage Protection Module Parameter Description Setting range Default Menu path ExBlo1 External blocking of the module, if blocking is activated 1..n, Assignment...
Page 588 EMR-4000 IM02602009E Setting Group Parameters of the Undervoltage Protection Module Parameter Description Setting range Default Menu path Function Permanent activation or deactivation of module/element. Inactive, Inactive [Protection Para Active /<1..4> /Main-V-Prot /27M[1]] ExBlo Fc Activate (allow) or inactivate (disallow) blocking of the...
Page 589 EMR-4000 IM02602009E Parameter Description Setting range Default Menu path V< Drop Out Drop Out (is in percent of setting) 101 - 110% 103% [Protection Para /<1..4> Only available if: Device Planning: V.Mode = V< /Main-V-Prot /27M[1]] Tripping delay 0.00 - 3000.00s 0.00s...
Page 590 EMR-4000 IM02602009E Undervoltage Protection Module Input States Name Description Assignment via ExBlo1-I Module Input State: External Blocking1 [Protection Para /Global Prot Para /Main-V-Prot /27M[1]] ExBlo2-I Module Input State: External Blocking2 [Protection Para /Global Prot Para /Main-V-Prot /27M[1]] ExBlo TripCmd-I Module Input State: External Blocking of the Trip Command...
Page 591 EMR-4000 IM02602009E Values of the Undervoltage Protection Module Value Description Default Size Menu path nPickups Number of alarms since last reset. 0 - 9999999999 [Operation /History /PickupCr] nTripCmds Number of trip commands since last reset. 0 - 9999999999 [Operation /History...
Page 592: 59M - Overvoltage Protection
EMR-4000 IM02602009E 59M - Overvoltage Protection Available elements: 59M[1] ,59M[2] M is for “Main” referring to protection metered by the Main Voltage transformer in the System Configuration. All elements are identically structured. Definition of Vn: Vn is dependent on the System Parameter setting of "Main VT con".
Page 593 EMR-4000 IM02602009E If phase voltages are applied to the measuring inputs of the device 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: A«...
Page 594 EMR-4000 IM02602009E www.eaton.com...
Page 595 EMR-4000 IM02602009E Device Planning Parameters of the Overvoltage Protection Module Parameter Description Options Default Menu path Mode Mode Do not use, [Device Planning] Global Protection Parameters of the Overvoltage Protection Module Parameter Description Setting range Default Menu path ExBlo1 External blocking of the module, if blocking is activated 1..n, Assignment...
Page 596 EMR-4000 IM02602009E Setting Group Parameters of the Overvoltage Protection Module Parameter Description Setting range Default Menu path Function Permanent activation or deactivation of module/element. Inactive, Inactive [Protection Para Active /<1..4> /Main-V-Prot /59M[1]] ExBlo Fc Activate (allow) or inactivate (disallow) blocking of the...
Page 597 EMR-4000 IM02602009E Parameter Description Setting range Default Menu path V> Drop Out Drop Out (is in percent of setting) 80 - 99% [Protection Para /<1..4> /Main-V-Prot /59M[1]] Tripping delay 0.00 - 3000.00s 0.00s [Protection Para /<1..4> /Main-V-Prot /59M[1]] www.eaton.com...
Page 598 EMR-4000 IM02602009E Overvoltage Protection Module Input States Name Description Assignment via ExBlo1-I Module Input State: External Blocking1 [Protection Para /Global Prot Para /Main-V-Prot /59M[1]] ExBlo2-I Module Input State: External Blocking2 [Protection Para /Global Prot Para /Main-V-Prot /59M[1]] ExBlo TripCmd-I Module Input State: External Blocking of the Trip Command...
Page 599 EMR-4000 IM02602009E Values of the Overvoltage Protection Module Value Description Default Size Menu path nPickups Number of alarms since last reset. 0 - 9999999999 [Operation /History /PickupCr] nTripCmds Number of trip commands since last reset. 0 - 9999999999 [Operation /History...
Page 600: 27A - Auxiliary Undervoltage Protection
EMR-4000 IM02602009E 27A - Auxiliary Undervoltage Protection Available elements: 27A[1] ,27A[2] All elements are identically structured. This is the 27A device Undervoltage 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 period a LOP must occur before the device initiates a »LOP B...
Page 601 EMR-4000 IM02602009E www.eaton.com...
Page 602 EMR-4000 IM02602009E Device Planning Parameters of the Aux. Undervoltage Module Parameter Description Options Default Menu path Mode Mode Do not use, [Device Planning] Global Protection Parameters of the Aux. Undervoltage Module Parameter Description Setting range Default Menu path ExBlo1 External blocking of the module, if blocking is activated 1..n, Assignment...
Page 603 EMR-4000 IM02602009E Setting Group Parameters of the Aux. Undervoltage Module Parameter Description Setting range Default Menu path Function Permanent activation or deactivation of module/element. Inactive, Inactive [Protection Para Active /<1..4> /Aux-V-Prot /27A[1]] ExBlo Fc Activate (allow) or inactivate (disallow) blocking of the...
Page 604 EMR-4000 IM02602009E Aux. Undervoltage Module Input States Name Description Assignment via ExBlo1-I Module Input State: External Blocking1 [Protection Para /Global Prot Para /Aux-V-Prot /27A[1]] ExBlo2-I Module Input State: External Blocking2 [Protection Para /Global Prot Para /Aux-V-Prot /27A[1]] ExBlo TripCmd-I Module Input State: External Blocking of the Trip Command...
Page 605 EMR-4000 IM02602009E Commissioning: Aux. Undervoltage Object to be tested: Aux. undervoltage protection elements. Necessary components: One-phase AC voltage source; Timer for measuring of the tripping time; and Voltmeter. Procedure (for each element): Testing the threshold values For testing the threshold and dropout values, the test voltage at the measuring input for the residual voltage has to be decreased until the relay is activated.
Page 606: 59A - Auxiliary Overvoltage Protection
EMR-4000 IM02602009E 59A - Auxiliary Overvoltage Protection Available elements: 59A[1] ,59A[2] All 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 operating from the Auxiliary VT input (this element works based on True RMS).
Page 607 EMR-4000 IM02602009E www.eaton.com...
Page 608 EMR-4000 IM02602009E Device Planning Parameters of the Aux. Overvoltage Module Parameter Description Options Default Menu path Mode Mode Do not use, [Device Planning] Global Protection Parameters of the Aux. Overvoltage Module Parameter Description Setting range Default Menu path ExBlo1 External blocking of the module, if blocking is activated 1..n, Assignment...
Page 609 EMR-4000 IM02602009E Setting Group Parameters of the Aux. Overvoltage Module Parameter Description Setting range Default Menu path Function Permanent activation or deactivation of module/element. Inactive, Inactive [Protection Para Active /<1..4> /Aux-V-Prot /59A[1]] ExBlo Fc Activate (allow) or inactivate (disallow) blocking of the...
Page 610 EMR-4000 IM02602009E Aux. Overvoltage Module Input States Name Description Assignment via ExBlo1-I Module Input State: External Blocking1 [Protection Para /Global Prot Para /Aux-V-Prot /59A[1]] ExBlo2-I Module Input State: External Blocking2 [Protection Para /Global Prot Para /Aux-V-Prot /59A[1]] ExBlo TripCmd-I Module Input State: External Blocking of the Trip Command...
Page 611 EMR-4000 IM02602009E Commissioning: Aux. Overvoltage Object to be tested: Aux. Overvoltage protection elements. Necessary components: One-phase AC voltage source; Timer for measuring of the tripping time; and Voltmeter. Procedure (for each element): Testing the threshold values For testing the threshold and dropout values, the test voltage at the measuring input for the voltage has to be increased until the relay is activated.
Page 612: 47 - Voltage Unbalance Protection
EMR-4000 IM02602009E 47 - Voltage Unbalance Protection Available elements: 47[1] ,47[2] This is the 47 device Voltage Unbalance setting, which consists of the Threshold, %(V2/V1), and Delay settings. The voltage unbalance function is based on the Main VT system 3-phase voltages.
Page 613 EMR-4000 IM02602009E www.eaton.com...
Page 614 EMR-4000 IM02602009E Device Planning Parameters of the Voltage Unbalance Module Parameter Description Options Default Menu path Mode Unbalance Protection: Supervision of the Voltage Do not use, [Device Planning] System Global Protection Parameters of the Voltage Unbalance Module Parameter Description Setting range...
Page 615 EMR-4000 IM02602009E Parameter Set Parameters of the Voltage Unbalance Module Parameter Description Setting range Default Menu path Function Permanent activation or deactivation of module/element. Inactive, Inactive [Protection Para Active /<1..4> /Unbalance-Prot /47[1]] ExBlo Fc Activate (allow) or inactivate (disallow) blocking of the...
Page 616 EMR-4000 IM02602009E Parameter Description Setting range Default Menu path LOP Blo Activates the use of the measuring circuit supervision. In Inactive, Inactive [Protection Para this case the module will be blocked if a measuring circuit Active /<1..4> supervision module (e.g. LOP, VTS) signals a disturbed measuring circuit (e.g.
Page 617 EMR-4000 IM02602009E Signals of the Voltage Unbalance Module (States of the Outputs) Signal Description Active Signal: Active ExBlo Signal: External Blocking Blo TripCmd Signal: Trip Command blocked ExBlo TripCmd Signal: External Blocking of the Trip Command Pickup Signal: Pickup Voltage Asymmetry...
Page 618 EMR-4000 IM02602009E Commissioning: Voltage Unbalance Module Object to be tested: Test of the unbalanced load protection function. Necessary means: Three-phase AC voltage source with adjustable voltage unbalance; and Timer. Procedure: Check the phase sequence: Ensure that the phase sequence is the same as that set in the field parameters.
Page 619 EMR-4000 IM02602009E Testing the trip delay: Apply a balanced three-phase voltage system (nominal voltages). Switch off VA (the threshold value » Threshold« for » V2 Fund.« must be below 33% of the nominal voltage Vn). Measure the tripping time. The present voltage unbalance » V2 Fund.« corresponds with 1/3 of the existing phase voltage displayed.
Page 620 EMR-4000 IM02602009E Testing the dropout ratio of %(V2/V1) Having tripped the relay in the 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 the permitted deviations/tolerances, specified under Technical Data.
Page 621: 81O/U, 81R, 78V - Frequency Protection
EMR-4000 IM02602009E 81O/U, 81R, 78V - Frequency Protection Available elements: 81[1] ,81[2] ,81[3] ,81[4] ,81[5] ,81[6] All frequency protective elements are identically structured. Frequency - Measuring Principle The frequency is calculated as the average of the measured values of the three phase frequencies.
Page 622 EMR-4000 IM02602009E Frequency Functions Due to its various frequency functions, the device is very flexible. That makes it suitable for a wide range of applications where frequency supervision is an important criterion. In the Device Planning menu, the User can decide how to use each of the six frequency elements.
Page 623 EMR-4000 IM02602009E www.eaton.com...
Page 624 EMR-4000 IM02602009E 81R Rate of Change of Frequency (df/dt) Electrical generators running in parallel with the mains (e. g.: industrial internal power supply plants) should be separated from the mains when failure in the intra-system occurs for the following reasons: Damage to electrical generators must be prevented when mains voltage is recovering asynchronously (e.
Page 625 EMR-4000 IM02602009E www.eaton.com...
Page 626 EMR-4000 IM02602009E 81UR – Underfrequency and Rate of Change of Frequency (df/dt) With this setting, the frequency element supervises if the frequency falls below a set pickup threshold and if the frequency gradient exceeds a set threshold at the same time.
Page 627 EMR-4000 IM02602009E www.eaton.com...
Page 628 EMR-4000 IM02602009E 81U Δ R – Underfrequency and DF/DT With this setting, the frequency element supervises the frequency and the absolute frequency difference during a definite time interval. In the selected frequency parameter set 81[X], an underfrequency pickup threshold f<, a threshold for the absolute frequency difference (frequency decrease) DF and supervision interval DT can be set.
Page 629 EMR-4000 IM02602009E www.eaton.com...
Page 630 EMR-4000 IM02602009E www.eaton.com...
Page 631 EMR-4000 IM02602009E 78V Vector Surge The vector surge supervision protects synchronous generators in mains parallel operation due to very fast decoupling in case of mains failure. Very dangerous are mains auto reclosings for synchronous generators. The mains voltage returning typically after 300 ms can hit the generator in asynchronous position. A very fast decoupling is also necessary in case of long time mains failures.
Page 632 EMR-4000 IM02602009E Measuring Principle of Vector Surge Supervision Equivalent circuit at synchronous generator in parallel with the mains. V = I * j Xd Grid Voltage vectors at mains parallel operation. V = I * j Xd Grid/Load Generator The rotor displacement angle between stator and rotor is dependent on the mechanical moving torque of the generator shaft.
Page 633 EMR-4000 IM02602009E Equivalent circuit at mains failure. V´ = I´ * j Xd V´ Grid In case of mains failure 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').
Page 634 EMR-4000 IM02602009E Voltage vector surge. Voltage Vector Surge V(t) V(t) V(t)` Trip 78V vector surge As shown in the voltage/time diagram, the instantaneous value of the voltage jumps to another value and the phase position changes. This is called phase or vector surge.
Page 635 EMR-4000 IM02602009E www.eaton.com...
Page 636 EMR-4000 IM02602009E Device Planning Parameters of the Frequency Protection Module Parameter Description Options Default Menu path Mode Mode Do not use, 81[1]: 81O-Over [Device Planning] 81U-Under, 81[2]: 81O-Over 81O-Over, 81[3]: 81U-Under 81UR- Under & df/dt, 81[4]: 81U-Under 81OR- Over & df/dt, 81[5]: 81U-Under 81UDR- Under &...
Page 637 EMR-4000 IM02602009E Setting Group Parameters of the Frequency Protection Module Parameter Description Setting range Default Menu path Function Permanent activation or deactivation of module/element. Inactive, Inactive [Protection Para Active /<1..4> /Freq-Prot /81[1]] ExBlo Fc Activate (allow) or inactivate (disallow) blocking of the...
Page 638 EMR-4000 IM02602009E Parameter Description Setting range Default Menu path 81R-Rate of Measured value (calculated): Rate-of-frequency-change. 0.100 - 10.000Hz/s 1.000Hz/s [Protection Para Change /<1..4> Only available if: Device Planning: 81.Mode = 81R-Rate of Change Or 81UR- Under & df/dt Or 81OR- Over &...
Page 639 EMR-4000 IM02602009E Frequency Protection Module Input States Name Description Assignment via ExBlo1-I Module Input State: External Blocking1 [Protection Para /Global Prot Para /Freq-Prot /81[1]] ExBlo2-I Module Input State: External Blocking2 [Protection Para /Global Prot Para /Freq-Prot /81[1]] ExBlo TripCmd-I Module Input State: External Blocking of the Trip Command...
Page 640 EMR-4000 IM02602009E Values of the Frequency Protection Module Value Description Default Size Menu path nPickups Number of alarms since last reset. 0 - 9999999999 [Operation /History /PickupCr] nTripCmds Number of trip commands since last reset. 0 - 9999999999 [Operation /History...
Page 641 EMR-4000 IM02602009E Commissioning: Underfrequency [ANSI 81U] For all configured underfrequency elements, this test can be carried out similar to the test for overfrequency protection (by using the related underfrequency values). Please consider the following deviations: For testing the threshold values, the frequency has to be decreased until the protection element is activated.
Page 642 EMR-4000 IM02602009E Commissioning: 81U and Rate of Change (f< and -df/dt) Object to be tested: All frequency protection stages that are projected as f< and -df/dt. Necessary means: Three-phase voltage source and Frequency generator that can generate and measure a linear, defined rate of change of frequency.
Page 643 EMR-4000 IM02602009E Commissioning: 81UΔR – Underfrequency and DF/DT Object to be tested: All frequency protection stages that are projected as f< and Df/Dt. Necessary means: Three-phase voltage source and Frequency generator that can generate and measure a defined frequency change.
Page 644 EMR-4000 IM02602009E Commissioning: Vector Surge 78V Object to be tested: All frequency protection stages that are projected as vector surge (78V). Necessary means: Three-phase voltage source that can generate a definite step (sudden change) of the voltage pointers (phase shift).
Page 645: 32 - Power Protection
EMR-4000 IM02602009E 32 - Power Protection Available Elements: 32[1] ,32[2] ,32[3] This is the 32 device Power Protection setting. Each element can be set to one of five settings: Do Not Use; Over Forward Power (P>); Under Forward Power (P<);...
Page 646 EMR-4000 IM02602009E 32 - Forward Power - Over and Under No Trip Trip Region Pickup P> Trip Region No Trip Pickup P< www.eaton.com...
Page 647 EMR-4000 IM02602009E 32 - Reverse Power - Over and Under No Trip Trip Region Pickup Pr> No Trip Trip Region Pickup Pr< www.eaton.com...
Page 648 EMR-4000 IM02602009E www.eaton.com...
Page 649 EMR-4000 IM02602009E Device Planning Parameters of the Power Protection Module Parameter Description Options Default Menu path Mode Mode Do not use, 32[1]: Over [Device Planning] forward Over forward, 32[2]: Under Over reverse, forward Under forward, 32[3]: Over reverse Under reverse...
Page 650 EMR-4000 IM02602009E Parameter Set Parameters of the Power Protection Module Parameter Description Setting range Default Menu path Function Permanent activation or deactivation of module/element. Inactive, Inactive [Protection Para Active /<1..4> /Power-Prot /32[1]] ExBlo Fc Activate (allow) or inactivate (disallow) blocking of the...
Page 651 EMR-4000 IM02602009E Parameter Description Setting range Default Menu path Pickup P< Under(load) Active Power Pickup Value (e.g.: caused by 0.003 - 10.000VAn 0.80VAn [Protection Para idling motors). Definition for Sn is as follows: Sn = 1.7321 /<1..4> * VT rating * CT rating. The voltage is the line-to-line voltage.
Page 652 EMR-4000 IM02602009E Signals of the Power Protection module (states of the outputs) Signal Description Active Signal: Active ExBlo Signal: External Blocking Blo TripCmd Signal: Trip Command blocked ExBlo TripCmd Signal: External Blocking of the Trip Command Pickup Signal: Pickup Power Protection...
Page 653 EMR-4000 IM02602009E Commissioning Examples for the Power Protection Module Object to be tested: Testing the projected Power Protection Modules: P>; P<; Pr>; and Pr<. Necessary means: 3-phase AC voltage source; 3-phase AC current source; and Timer. Procedure – Testing the wiring: Feed rated voltage and rated current to the measuring inputs of the relay.
Page 654 EMR-4000 IM02602009E P> Testing the threshold values (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 sign.
Page 655 EMR-4000 IM02602009E P< Testing the threshold values (Example, 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 EMR-4000 IM02602009E Pr> Testing the threshold values (Example, Threshold 1.1 Pn) Feed rated voltage and 0.9 times rated current with 180 degree phase angle between voltage and current pointers to the measuring inputs of the relay. The measured values for the active power "P" must show a negative algebraic sign.
Page 657 EMR-4000 IM02602009E Pr< Testing the threshold values (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 the active power "P" must show a negative algebraic sign.
Page 658: 32V - Reactive Power Protection
EMR-4000 IM02602009E 32V - Reactive Power Protection Available Elements: 32V[1] ,32V[2] ,32V[3] This is the 32V device Reactive Power Protection setting. Each element can be set to one of five settings: Do Not Use; Over Forward Reactive Power (Q>); Under Forward Reactive Power (Q<);...
Page 659 EMR-4000 IM02602009E 32V Forward Reactive Power - Over and Under Trip Region Pickup Q> No Trip No Trip Pickup Q< Trip Region www.eaton.com...
Page 660 EMR-4000 IM02602009E 32V Reverse Reactive Power - Over and Under No Trip Pickup Qr> Trip Region Trip Region Pickup Qr< No Trip www.eaton.com...
Page 661 EMR-4000 IM02602009E www.eaton.com...
Page 662 EMR-4000 IM02602009E Device Planning Parameters of the Reactive Power Protection Module Parameter Description Options Default Menu path Mode Mode Do not use, 32V[1]: Over [Device Planning] forward Over forward, 32V[2]: Under Over reverse, forward Under forward, 32V[3]: Over reverse Under reverse...
Page 663 EMR-4000 IM02602009E Parameter Set Parameters of the Reactive Power Protection Module Parameter Description Setting range Default Menu path Function Permanent activation or deactivation of module/element. Inactive, Inactive [Protection Para Active /<1..4> /Power-Prot /32V[1]] ExBlo Fc Activate (allow) or inactivate (disallow) blocking of the...
Page 664 EMR-4000 IM02602009E Parameter Description Setting range Default Menu path Pickup Q< Under(load) Reactive Power Pickup Value. Monitoring 0.003 - 10.000VAn 0.80VAn [Protection Para the minimum value of the reactive power. If it falls below /<1..4> the set value, a condensator bank could be switched on.
Page 665 EMR-4000 IM02602009E Signals of the Reactive Power Protection Module (States of the Outputs) Signal Description Active Signal: Active ExBlo Signal: External Blocking Blo TripCmd Signal: Trip Command blocked ExBlo TripCmd Signal: External Blocking of the Trip Command Pickup Signal: Pickup Power Protection...
Page 666 EMR-4000 IM02602009E Commissioning Examples for the Reactive Power Protection Module Object to be tested: Testing the projected Power Protection Modules. Q>; Q<; Qr>; and Qr<. Necessary means: 3-phase AC voltage source; 3-phase AC current source; and Timer. Procedure – Testing the wiring: Feed rated voltage and rated current to the measuring inputs of the relay.
Page 667 EMR-4000 IM02602009E Q> Testing the threshold values (Example, Threshold 1,1 Qn) Feed rated voltage and 0.9 times rated current (90 degrees phase shift) to the measuring inputs of the relay (PF=0). The measured values for the active power "Q" must show a positive algebraic sign.
Page 668 EMR-4000 IM02602009E Q< Testing the threshold values (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 positive algebraic sign.
Page 669 EMR-4000 IM02602009E Qr> Testing the threshold values (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 the active power "Q" must show a negative algebraic sign.
Page 670 EMR-4000 IM02602009E Qr< Testing the threshold values (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 the active power "Q" must show a negative algebraic sign.
Page 671: 55A And 55D - Pf Protection
EMR-4000 IM02602009E 55A and 55D - PF Protection* Available elements: PF-55D[1] ,PF-55D[2] ,PF-55A[1] ,PF-55A[2] *=Please Note: Some devices, depending on the ordered device, offer 55-Measurement. Some devices, depending on the ordered device, offer 55-Measurement and Protection. Definition Apparent Power Factor 55A (RMS - Includes Harmonics): The Apparent Power Factor is computed by dividing real power (watts) by volt-amperes.
Page 672 EMR-4000 IM02602009E "Reverse" current lags voltage current leads voltage Quadrant2 Quadrant1 +P (Watts) -P (Watts) -Q (Vars) -Q (Vars) Active Power flows into the source Active Power flows into the load -P (Watts) +P (Watts) +Q (Vars) +Q (Vars) Quadrant3 Quadrant4 "Reverse"...
Page 673 EMR-4000 IM02602009E Reset-PF Trigger-PF www.eaton.com...
Page 674 EMR-4000 IM02602009E Apparent Power Factor 55A www.eaton.com...
Page 675 EMR-4000 IM02602009E Displacement Power Factor 55D www.eaton.com...
Page 676 EMR-4000 IM02602009E Device Planning Parameters of the Power Factor Module Parameter Description Options Default Menu path Mode Mode Do not use, [Device Planning] Global Protection Parameter of the Power Factor Module Parameter Description Setting range Default Menu path ExBlo1 External blocking of the module, if blocking is activated 1..n, Assignment...
Page 677 EMR-4000 IM02602009E Set Parameters of the Power Factor Module Parameter Description Setting range Default Menu path Function Permanent activation or deactivation of module/element. Inactive, Inactive [Protection Para Active /<1..4> /Power Factor-Prot /PF-55D[1]] ExBlo Fc Activate (allow) or inactivate (disallow) blocking of the...
Page 678 EMR-4000 IM02602009E Parameter Description Setting range Default Menu path Reset-PF This setting is the power factor, at which the relay will 0.5 - 0.99 [Protection Para reset the power factor trip. It is like setting a hysteresis /<1..4> for the Trigger setting.
Page 679 EMR-4000 IM02602009E Signals of the Power Factor Module (States of the Outputs) Signal Description Active Signal: Active ExBlo Signal: External Blocking Blo TripCmd Signal: Trip Command blocked ExBlo TripCmd Signal: External Blocking of the Trip Command Pickup Signal: Pickup Power Factor...
Page 680 EMR-4000 IM02602009E Commissioning: Power Factor Object to be tested: Testing the projected Power Factor Modules. • Necessary means: Three-phase AC voltage source; • Three-phase AC current source; and • Timer. • Procedure – Testing the wiring: Feed the rated voltage and rated current to the measuring inputs of the relay.
Page 681: Rt - Remote Trip
EMR-4000 IM02602009E Testing the trip delay (PF Trigger: Example = 0.86 lagging): Feed the rated voltage and rated current in phase to the measuring inputs of the relay (PF=1). • Adjust the angle between voltage and current (current pointer lagging) with an abrupt change to •...
Page 682 EMR-4000 IM02602009E www.eaton.com...
Page 683 EMR-4000 IM02602009E Device Planning Parameters of the Remote Trip Module Parameter Description Options Default Menu path Mode Mode Do not use, [Device Planning] Global Protection Parameters of the Remote Trip Module Parameter Description Setting range Default Menu path ExBlo1 External blocking of the module, if blocking is activated 1..n, Assignment...
Page 684 EMR-4000 IM02602009E Setting Group Parameters of the Remote Trip Module Parameter Description Setting range Default Menu path Function Permanent activation or deactivation of module/element. Inactive, Inactive [Protection Para Active /<1..4> /Remote Trip] ExBlo Fc Activate (allow) or inactivate (disallow) blocking of the...
Page 685 EMR-4000 IM02602009E Remote Trip Module Input States Name Description Assignment via ExBlo1-I Module Input State: External Blocking1 [Protection Para /Global Prot Para /Remote Trip] ExBlo2-I Module Input State: External Blocking2 [Protection Para /Global Prot Para /Remote Trip] ExBlo TripCmd-I Module Input State: External Blocking of the Trip Command...
Page 686: Exp - External Protection
EMR-4000 IM02602009E Values of the Remote Trip Module Value Description Default Size Menu path nPickups Number of alarms since last reset. 0 - 9999999999 [Operation /History /PickupCr] nTripCmds Number of trip commands since last reset. 0 - 9999999999 [Operation /History...
Page 687 EMR-4000 IM02602009E www.eaton.com...
Page 688 EMR-4000 IM02602009E Device Planning Parameters of the External Protection Module Parameter Description Options Default Menu path Mode Mode Do not use, Do not use [Device Planning] Global Protection Parameters of the External Protection Module Parameter Description Setting range Default Menu path...
Page 689 EMR-4000 IM02602009E Setting Group Parameters of the External Protection Module Parameter Description Setting range Default Menu path Function Permanent activation or deactivation of module/element. Inactive, Inactive [Protection Para Active /<1..4> /ExP /ExP[1]] ExBlo Fc Activate (allow) or inactivate (disallow) blocking of the...
Page 690 EMR-4000 IM02602009E External Protection Module Input States Name Description Assignment via ExBlo1-I Module Input State: External Blocking1 [Protection Para /Global Prot Para /ExP /ExP[1]] ExBlo2-I Module Input State: External Blocking2 [Protection Para /Global Prot Para /ExP /ExP[1]] ExBlo TripCmd-I Module Input State: External Blocking of the Trip Command...
Page 691: Ex87 - External Differential Protection
EMR-4000 IM02602009E Counter Values of the External Protection Value Description Default Size Menu path nPickups Number of alarms since last reset. 0 - 9999999999 [Operation /History /PickupCr] nTripCmds Number of trip commands since last reset. 0 - 9999999999 [Operation /History...
Page 692 EMR-4000 IM02602009E www.eaton.com...
Page 693 EMR-4000 IM02602009E Device Planning Parameters of the External Differential Protection Parameter Description Options Default Menu path Mode Mode Do not use, [Device Planning] Global Protection Parameters of the External Differential Protection Parameter Description Setting range Default Menu path ExBlo1 External blocking of the module, if blocking is activated 1..n, Assignment...
Page 694 EMR-4000 IM02602009E Setting Group Parameters of the External Differential Protection Module Parameter Description Setting range Default Menu path Function Permanent activation or deactivation of module/element. Inactive, Inactive [Protection Para Active /<1..4> /Ex87] ExBlo Fc Activate (allow) or inactivate (disallow) blocking of the...
Page 695 EMR-4000 IM02602009E External Differential Protection Module Input States Name Description Assignment via ExBlo1-I Module Input State: External Blocking1 [Protection Para /Global Prot Para /Ex87] ExBlo2-I Module Input State: External Blocking2 [Protection Para /Global Prot Para /Ex87] ExBlo TripCmd-I Module Input State: External Blocking of the Trip Command...
Page 696 EMR-4000 IM02602009E Values of the External Differential Value Description Default Size Menu path nPickups Number of alarms since last reset. 0 - 9999999999 [Operation /History /PickupCr] nTripCmds Number of trip commands since last reset. 0 - 9999999999 [Operation /History /TripCmdCr]...
Page 697: Rtd Protection Module
The protective device provides tripping and alarming functions based on the direct temperature measurements read from Eaton’s (URTD) 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 function with a delay.
Page 698 EMR-4000 IM02602009E Voting Additionally, RTD voting schemes are available and User programmable. The Voting feature must be activated and configured within the following menu, [Protection Para\Set[x]\Temp-Prot/ RTD\Vote[x]]. Here, the setting » Function« has to be set to » Active« .
Page 699 EMR-4000 IM02602009E Alarm, Timeout Alarm and Trip Principle for each RTD Sensor The following diagram shows the general working principle (delayed alarm, undelayed trip) of each of the RTD sensors. www.eaton.com...
Page 700 EMR-4000 IM02602009E Collective Alarm, Timeout Alarm and Trip Signals The RTD sensors are assigned to four groups (depending on the ordered device). These four groups are OR- connected to the ”AnyGroup“. The AnyGroup generates an alarm, an timeout alarm and a trip signal if any of the sensors mounted into this issues the corresponding signal.
Page 701 EMR-4000 IM02602009E Trips of the Voting Groups In order to use voting groups the user has to determine the sensors 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.
Page 702 EMR-4000 IM02602009E Collective Timeout Alarm Signal All RTD sensor timeout alarms and all group timeouts are OR-connected. www.eaton.com...
Page 703 EMR-4000 IM02602009E Collective Trip Signal By means of the trip command selection » TripCmdSelection« the user determines if the RTD element should use for the final trip signal the OR-connected default RTD trips or if the RTD element should use the OR-connected voting trips.
Page 704 EMR-4000 IM02602009E Device Planning Parameters of the RTD Temperature Protection Module Parameter Description Options Default Menu path Mode Mode Do not use, [Device Planning] Global Protection Parameters of the RTD Temperature Protection Module Parameter Description Setting range Default Menu path...
Page 705 EMR-4000 IM02602009E Setting Group Parameters of the RTD Temperature Protection Module Parameter Description Setting range Default Menu path Function Permanent activation or deactivation of module/element. Inactive, Inactive [Protection Para Active /<1..4> /Temp-Prot /RTD /General Settings] ExBlo Fc Activate (allow) or inactivate (disallow) blocking of the...
Page 706 EMR-4000 IM02602009E Parameter Description Setting range Default Menu path WD 1 Alarm Winding 1 Threshold for Temperature Alarm 0 - 200°C 80°C [Protection Para /<1..4> Only available if: Device Planning: Alarm Function = Use /Temp-Prot /RTD /WD 1] WD 1 t-Delay...
Page 707 EMR-4000 IM02602009E Parameter Description Setting range Default Menu path WD 2 Trip Winding 2 Threshold for Temperature Trip 0 - 200°C 100°C [Protection Para /<1..4> Only available if: Device Planning: Trip Function = Use /Temp-Prot /RTD /WD 2] WD 3 Alarm...
Page 708 EMR-4000 IM02602009E Parameter Description Setting range Default Menu path WD 4 Trip Function Winding 4 Trip Function Inactive, Active [Protection Para Active /<1..4> /Temp-Prot /RTD /WD 4] WD 4 Alarm Winding 4 Threshold for Temperature Alarm 0 - 200°C 80°C [Protection Para /<1..4>...
Page 709 EMR-4000 IM02602009E Parameter Description Setting range Default Menu path WD 5 t-Delay Winding 5 If this time is expired a Temperature Alarm will 0 - 360min 1min [Protection Para be generated. /<1..4> Only available if: Device Planning: Alarm Function = Use...
Page 710 EMR-4000 IM02602009E Parameter Description Setting range Default Menu path MB 1 Alarm Motor Bearing 1 Alarm Function Inactive, Active [Protection Para Function Active /<1..4> /Temp-Prot /RTD /MB 1] MB 1 Trip Function Motor Bearing 1 Trip Function Inactive, Active [Protection Para Active /<1..4>...
Page 711 EMR-4000 IM02602009E Parameter Description Setting range Default Menu path MB 2 Alarm Motor Bearing 2 Threshold for Temperature Alarm 0 - 200°C 80°C [Protection Para /<1..4> Only available if: Device Planning: Alarm Function = Use /Temp-Prot /RTD /MB 2] MB 2 t-Delay...
Page 712 EMR-4000 IM02602009E Parameter Description Setting range Default Menu path LB 1 Trip Load Bearing 1 Threshold for Temperature Trip 0 - 200°C 80°C [Protection Para /<1..4> Only available if: Device Planning: Trip Function = Use /Temp-Prot /RTD /LB 1] LB 2 Alarm Function Load Bearing 2 Alarm Function...
Page 713 EMR-4000 IM02602009E Parameter Description Setting range Default Menu path Aux1 Trip Function Auxiliary 1 Trip Function Inactive, Active [Protection Para Active /<1..4> /Temp-Prot /RTD /Aux1] Aux1 Alarm Auxiliary 1 Threshold for Temperature Alarm 0 - 200°C 80°C [Protection Para /<1..4>...
Page 714 EMR-4000 IM02602009E Parameter Description Setting range Default Menu path Aux2 t-Delay Auxiliary 2 If this time is expired a Temperature Alarm will 0 - 360min 1min [Protection Para be generated. /<1..4> Only available if: Device Planning: Alarm Function2 = /Temp-Prot...
Page 715 EMR-4000 IM02602009E Parameter Description Setting range Default Menu path MB Alarm Function Motor Bearing Alarm Function Inactive, Inactive [Protection Para Active /<1..4> /Temp-Prot /RTD /MB Group] MB Trip Function Motor Bearing Trip Function Inactive, Inactive [Protection Para Active /<1..4> /Temp-Prot...
Page 716 EMR-4000 IM02602009E Parameter Description Setting range Default Menu path LB Alarm Load Bearing Threshold for Temperature Alarm 0 - 200°C 80°C [Protection Para /<1..4> Only available if: Device Planning: Alarm Function = Use /Temp-Prot /RTD /LB Group] LB t-Delay Load Bearing If this time is expired a Temperature Alarm...
Page 717 EMR-4000 IM02602009E Parameter Description Setting range Default Menu path Aux Trip Auxiliary Threshold for Temperature Trip 0 - 200°C 100°C [Protection Para /<1..4> Only available if: Device Planning: Aux = Use /Temp-Prot /RTD /Aux Group] Function Permanent activation or deactivation of module/element. Inactive,...
Page 718 EMR-4000 IM02602009E Parameter Description Setting range Default Menu path WD 5 Winding 5 [Protection Para /<1..4> /Temp-Prot /RTD /Voting1] WD 6 Winding 6 [Protection Para /<1..4> /Temp-Prot /RTD /Voting1] MB 1 Motor Bearing 1 [Protection Para /<1..4> /Temp-Prot /RTD /Voting1]...
Page 719 EMR-4000 IM02602009E Parameter Description Setting range Default Menu path Aux2 Auxiliary2 [Protection Para /<1..4> /Temp-Prot /RTD /Voting1] Function Permanent activation or deactivation of module/element. Inactive, Inactive [Protection Para Active /<1..4> /Temp-Prot /RTD /Voting2] Voting 2 Voting: This parameter defines how many of the selected...
Page 720 EMR-4000 IM02602009E Parameter Description Setting range Default Menu path WD 5 Winding 5 [Protection Para /<1..4> /Temp-Prot /RTD /Voting2] WD 6 Winding 6 [Protection Para /<1..4> /Temp-Prot /RTD /Voting2] MB 1 Motor Bearing 1 [Protection Para /<1..4> /Temp-Prot /RTD /Voting2]...
Page 721 EMR-4000 IM02602009E Parameter Description Setting range Default Menu path Aux2 Auxiliary2 [Protection Para /<1..4> /Temp-Prot /RTD /Voting2] RTD Temperature Protection Module Input States Name Description Assignment via ExBlo1-I Module Input State: External Blocking1 [Protection Para /Global Prot Para /Temp-Prot /RTD]...
Page 722 EMR-4000 IM02602009E RTD Temperature Protection Module Signals (Output States) Signal Description Active Signal: Active ExBlo Signal: External Blocking Blo TripCmd Signal: Trip Command blocked ExBlo TripCmd Signal: External Blocking of the Trip Command Alarm Alarm RTD Temperature Protection Trip Signal: Trip...
Page 723 EMR-4000 IM02602009E Signal Description MB 1 Trip Motor Bearing 1 Signal: Trip MB 1 Alarm Motor Bearing 1 Alarm RTD Temperature Protection MB 1 Timeout Alarm Motor Bearing 1 Timeout Alarm MB 1 Invalid Motor Bearing 1 Signal: Invalid Temperature Measurement Value (e.g caused by an defective or...
Page 724 EMR-4000 IM02602009E Signal Description Trip LB Group Trip all Load Bearings Alarm LB Group Alarm all Load Bearings TimeoutAlmLBGrp Timeout Alarm all Load Bearings LB Group Invalid Load Bearing Group Signal: Invalid Temperature Measurement Value (e.g caused by an defective...
Page 725 EMR-4000 IM02602009E RTD Temperature Protection Module Counter Values Value Description Default Size Menu path Hottest WD Hottest motor winding temperature in degrees C. 0°C 0 - 200°C [Operation /Measured Values /URTD] Hottest MB Hottest motor bearing temperature in degrees C.
Page 726 EMR-4000 IM02602009E Value Description Default Size Menu path nLbAlarms Number of load bearing temperature alarms since 0 - 65535 [Operation last reset. Resettable with "Sys Res Alarm" or /History "All". /PickupCr] nAuxAlarms Number of auxilary temperature alarms since last 0 - 65535 [Operation reset.
Page 727: Urtdii Module Interface
12 RTDs embedded in the motor, generator, transformer, or cable connector and driven equipment (see Eaton I.L. IL02602013E). The temperature data will be shown as measured values and statistics in the Operating Data menu. In addition, each channel will be monitored. The measured data provided by the URTDII Module can also be used for temperature protection (please refer to the Temperature Protection section).
Page 728 EMR-4000 IM02602009E URTDII Module Fiber Optic Connection to the Protective Device UNIVERSAL RTD MODULE Connect to Terminal X102 OpticalFiberfor URTD Communications t o Protective Device (PreferredMethod) The figure above shows the fiber optic connections between the URTDII Module and the protective device. The protective device supports the optical fiber connection.
Page 729 EMR-4000 IM02602009E Preassembled plastic optical fibers with connectors can be ordered from Eaton, or from any distributor of Agilent Technologies ® optical fiber products. In addition, these same distributors offer long rolls of cable with connectors that can be installed in the field. Some distributors will make custom lengths to order.
Page 730 EMR-4000 IM02602009E Wiring RTDs to the URTDII Module RTD Control URTDII Connection Terminals Transformer Temperature Monitoring Name Point RTD1: J2-1, J2-2 W1-A – Transformer Winding 1, Alarm Functional Phase A RTD Temperature. Trip Functional W1-A Alarm W1-A t-Delay W1-A Trip...
Page 731 EMR-4000 IM02602009E RTD Control URTDII Connection Terminals Transformer Temperature Monitoring Name Point RTD8: J10B-15, J10B-16 AMB2 - Transformer Ambient RTD Alarm Functional Temperature (2). Trip Functional Amb2 Alarm Amb2 t-Delay Amb2 Trip RTD9: J10B-12, J10B-13 AUX1 – User Defined RTD Alarm Functional Temperature.
Page 732 EMR-4000 IM02602009E Consult the URTDII Module Instruction Leaflet (I.L. IL02602013E) for complete instructions. Three URTD terminals are provided for each RTD input. The three terminals for any unused RTD input channel should be wired together. For example, if MW5 and MW6 are unused, MW5 terminals J2-15, J2-16, and J2-17 should be wired together and MW6 terminals J2-19, J2-20, J2- 21 should be separately wired together.
Page 733 EMR-4000 IM02602009E Direct Commands of the URTD Module Parameter Description Setting range Default Menu path Function Permanent activation or deactivation of module/element. Inactive, Inactive [Service Active /Test Mode (Prot inhibit) /WARNING! Cont? /URTD] Force WD1 Force Winding 1 0 - 392...
Page 734 EMR-4000 IM02602009E Parameter Description Setting range Default Menu path Force MB1 Force Motor Bearing 1 0 - 392 [Service /Test Mode (Prot inhibit) /WARNING! Cont? /URTD] Force MB2 Force Motor Bearing 2 0 - 392 [Service /Test Mode (Prot inhibit)
Page 735 EMR-4000 IM02602009E Global Protection Parameters of the URTD Module Parameter Description Setting range Default Menu path Force Mode By means of this function the normal Relay Output States Permanent, Permanent [Service can be overwritten (forced) in case that the Relay Output...
Page 736 EMR-4000 IM02602009E URTD Module Statistics Value Description Menu path WD1 max Winding1 Maximum Value [Operation /Statistics /Max /URTD] WD2 max Winding2 Maximum Value [Operation /Statistics /Max /URTD] WD3 max Winding3 Maximum Value [Operation /Statistics /Max /URTD] WD4 max Winding4 Maximum Value...
Page 737 EMR-4000 IM02602009E Value Description Menu path LB1 max Load Bearing1 Maximum Value [Operation /Statistics /Max /URTD] LB2 max Load Bearing2 Maximum Value [Operation /Statistics /Max /URTD] Aux1 max Auxiliary1 Maximum Value [Operation /Statistics /Max /URTD] Aux2 max Auxiliary2 Maximum Value...
Page 738 EMR-4000 IM02602009E Value Description Menu path Winding 6 [Operation /Measured Values /URTD] Motor Bearing 1 [Operation /Measured Values /URTD] Motor Bearing 2 [Operation /Measured Values /URTD] Load Bearing 1 [Operation /Measured Values /URTD] Load Bearing 2 [Operation /Measured Values /URTD]...
Page 739: Supervision
EMR-4000 IM02602009E Supervision BF- Breaker Failure [50BF*/62BF] *=only available in protective relays that offer current measurement. Available elements: Principle – General Use The breaker failure (BF) protection is used to provide backup protection in the event that a breaker fails to operate prop- erly during fault clearing.
Page 740 EMR-4000 IM02602009E Locking A locking signal will be issued simultaneously with the BF -Signal (Trip). The locking signal is permanent. This signal has to be acknowledged at the HMI. Note on devices that offer Wide Frequency Range measurement: The supervision scheme 50BF will be blocked as soon as the frequency differs more than 5% from the nominal frequency.
Page 741 EMR-4000 IM02602009E Trigger Modes There are three trigger modes for the BF module available. In addition to that, there are three assignable trigger inputs available that might trigger the BF module even if they are not assigned within the breaker manager onto the breaker that is to be monitored.
Page 742 EMR-4000 IM02602009E Tabular Summary Supervision Schemes Where? Within [Protection Para\Global Prot Para\Supervision\BF] CB Pos 50BF CBPos und 50BF Which breaker is to be Selection ot the breaker Selection of the breaker Selection of the breaker monitored? that is to be monitored.
Page 743 EMR-4000 IM02602009E It is recommended to set the I< threshold to a value that is slightly below the fault current that is expectable. By means of that it is possible to shorten the BF supervision timer and hence reduce thermal and mechanical damage of the electrical equipment in case of a Breaker Failure.
Page 744 EMR-4000 IM02602009E Breaker Failure Protection for devices that offer current measurement www.eaton.com...
Page 745 EMR-4000 IM02602009E Breaker Failure Protection for devices that offer voltage measurement only www.eaton.com...
Page 746 EMR-4000 IM02602009E Device Planning Parameters of the BF Parameter Description Options Default Menu path Mode Mode [Device Planning] Global Protection Parameters of the BF Parameter Description Setting range Default Menu path Scheme Scheme 50BF, 50BF [Protection Para CB Pos, /Global Prot Para...
Page 747 EMR-4000 IM02602009E Parameter Description Setting range Default Menu path 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 Lockout...
Page 748 EMR-4000 IM02602009E Setting Group Parameters of the BF In order to prevent a faulty activation of the BF Module, the pickup (alarm) time must be greater than the sum of: Operating time of the protective relay +The close-open time of the breaker (please refer to the technical data of the manufacturer of the breaker);...
Page 749 EMR-4000 IM02602009E BF Input States Name Description Assignment via ExBlo1-I Module Input State: External Blocking1 [Protection Para /Global Prot Para /Supervision /BF] ExBlo2-I Module Input State: External Blocking2 [Protection Para /Global Prot Para /Supervision /BF] Trigger1-I Module Input: Trigger that will start the BF...
Page 750 EMR-4000 IM02602009E Trigger signals of the Breaker Failure These trips will start the module if » have been selected as the trigger event. All trips« Name Description No assignment MStart.TripCmd Signal: Trip Command 50P[1].TripCmd Signal: Trip Command 50P[2].TripCmd Signal: Trip Command 50P[3].TripCmd...
Page 751 EMR-4000 IM02602009E Name Description 81[1].TripCmd Signal: Trip Command 81[2].TripCmd Signal: Trip Command 81[3].TripCmd Signal: Trip Command 81[4].TripCmd Signal: Trip Command 81[5].TripCmd Signal: Trip Command 81[6].TripCmd Signal: Trip Command 32[1].TripCmd Signal: Trip Command 32[2].TripCmd Signal: Trip Command 32[3].TripCmd Signal: Trip Command 32V[1].TripCmd...
Page 752 EMR-4000 IM02602009E Name Description 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 Logic.LE3.Timer Out Signal: Timer Output Logic.LE3.Out Signal: Latched Output (Q) Logic.LE3.Out inverted...
Page 753 EMR-4000 IM02602009E Name Description Logic.LE11.Out Signal: Latched Output (Q) Logic.LE11.Out inverted Signal: Negated Latched Output (Q NOT) Logic.LE12.Gate Out Signal: Output of the logic gate Logic.LE12.Timer Out Signal: Timer Output Logic.LE12.Out Signal: Latched Output (Q) Logic.LE12.Out inverted Signal: Negated Latched Output (Q NOT) Logic.LE13.Gate Out...
Page 754 EMR-4000 IM02602009E Name Description Logic.LE20.Out inverted Signal: Negated Latched Output (Q NOT) Logic.LE21.Gate Out Signal: Output of the logic gate Logic.LE21.Timer Out Signal: Timer Output Logic.LE21.Out Signal: Latched Output (Q) Logic.LE21.Out inverted Signal: Negated Latched Output (Q NOT) Logic.LE22.Gate Out Signal: Output of the logic gate Logic.LE22.Timer Out...
Page 755 EMR-4000 IM02602009E Name Description Logic.LE30.Gate Out Signal: Output of the logic gate Logic.LE30.Timer Out Signal: Timer Output Logic.LE30.Out Signal: Latched Output (Q) Logic.LE30.Out inverted Signal: Negated Latched Output (Q NOT) Logic.LE31.Gate Out Signal: Output of the logic gate Logic.LE31.Timer Out Signal: Timer Output Logic.LE31.Out...
Page 756 EMR-4000 IM02602009E Name Description 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.LE40.Gate Out Signal: Output of the logic gate Logic.LE40.Timer Out Signal: Timer Output Logic.LE40.Out Signal: Latched Output (Q) Logic.LE40.Out inverted...
Page 757 EMR-4000 IM02602009E Name Description Logic.LE48.Out Signal: Latched Output (Q) Logic.LE48.Out inverted Signal: Negated Latched Output (Q NOT) Logic.LE49.Gate Out Signal: Output of the logic gate Logic.LE49.Timer Out Signal: Timer Output Logic.LE49.Out Signal: Latched Output (Q) Logic.LE49.Out inverted Signal: Negated Latched Output (Q NOT) Logic.LE50.Gate Out...
Page 758 EMR-4000 IM02602009E Name Description Logic.LE57.Out inverted Signal: Negated Latched Output (Q NOT) Logic.LE58.Gate Out Signal: Output of the logic gate Logic.LE58.Timer Out Signal: Timer Output Logic.LE58.Out Signal: Latched Output (Q) Logic.LE58.Out inverted Signal: Negated Latched Output (Q NOT) Logic.LE59.Gate Out Signal: Output of the logic gate Logic.LE59.Timer Out...
Page 759 EMR-4000 IM02602009E Name Description Logic.LE67.Gate Out Signal: Output of the logic gate Logic.LE67.Timer Out Signal: Timer Output Logic.LE67.Out Signal: Latched Output (Q) Logic.LE67.Out inverted Signal: Negated Latched Output (Q NOT) Logic.LE68.Gate Out Signal: Output of the logic gate Logic.LE68.Timer Out Signal: Timer Output Logic.LE68.Out...
Page 760 EMR-4000 IM02602009E Name Description 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.LE77.Gate Out Signal: Output of the logic gate Logic.LE77.Timer Out Signal: Timer Output Logic.LE77.Out Signal: Latched Output (Q) Logic.LE77.Out inverted...
Page 761 EMR-4000 IM02602009E These trips will start the BF module if »All current« functions have been selected as the trigger event. Name Description No assignment 50P[1].TripCmd Signal: Trip Command 50P[2].TripCmd Signal: Trip Command 50P[3].TripCmd Signal: Trip Command 51P[1].TripCmd Signal: Trip Command 51P[2].TripCmd...
Page 762 EMR-4000 IM02602009E Commissioning Example: Supervision Scheme 50BF Object to Be Tested: Test of the Breaker Failure protection (Supervision Scheme 50BF). Necessary Means: Current source; Ammeter; and Timer. When testing, the applied test current must always be higher than the tripping threshold »I-BF« . If the test current falls below the threshold while the breaker is in the “Off”...
Page 763: Cts - Current Transformer Supervision
EMR-4000 IM02602009E CTS - Current Transformer Supervision Most functions of metering, protection, and control in the relay rely on correct current measurements. It is important to make sure the CT connections and their operations are correct. The failures (including CT secondary wire broken, insulation broken down, broken wiring between CT and relay, and mismatched polarities) will cause the incorrect current measurements.
Page 764 EMR-4000 IM02602009E 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 deactivated. www.eaton.com...
Page 765 EMR-4000 IM02602009E www.eaton.com...
Page 766 EMR-4000 IM02602009E Device Planning Parameters of the Current Transformer Supervision Parameter Description Options Default Menu path Mode Mode Do not use, Do not use [Device Planning] Global Protection Parameter of the Current Transformer Supervision Parameter Description Setting range Default Menu path...
Page 767 EMR-4000 IM02602009E Setting Group Parameters of the Current Transformer Supervision Parameter Description Setting range Default Menu path Function Permanent activation or deactivation of module/element. Inactive, Inactive [Protection Para Active /<1..4> /Supervision /CTS] ExBlo Fc Activate (allow) or inactivate (disallow) blocking of the...
Page 768 EMR-4000 IM02602009E Current Transformer Supervision Input States Name Description Assignment via ExBlo1-I Module Input State: External Blocking1 [Protection 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)
Page 769 EMR-4000 IM02602009E Commissioning: Current Transformer Failure Supervision Preconditions: 1.Measurement of all three-phase currents (are applied to the measuring inputs of the device). 2.The ground current is detected via a zero sequence transformer (not in residual connection). Object to Be Tested: Check of the CT Supervision (by comparing the calculated with the measured ground current) .
Page 770: Lop - Loss Of Potential
EMR-4000 IM02602009E LOP - Loss of Potential Available elements: Ensure that the LOP has enough time to block faulty tripping of modules that use LOP. That means, the delay time of the LOP should to be shorter than the tripping delay of modules that use LOP.
Page 771 EMR-4000 IM02602009E www.eaton.com...
Page 772 EMR-4000 IM02602009E Device Planning Parameters of the LOP Module Parameter Description Options Default Menu path Mode Mode Do not use, [Device Planning] Global Protection Parameters of the LOP Module Parameter Description Setting range Default Menu path ExBlo1 External blocking of the module, if blocking is activated 1..n, Assignment...
Page 773 EMR-4000 IM02602009E Setting Group Parameters of the LOP Module Parameter Description Setting range Default Menu path Function Permanent activation or deactivation of module/element. Inactive, Inactive [Protection Para Active /<1..4> /Supervision /LOP] ExBlo Fc Activate (allow) or inactivate (disallow) blocking of the...
Page 774 EMR-4000 IM02602009E LOP Module Input States Name Description Assignment via ExBlo1-I Module Input State: External Blocking1 [Protection Para /Global Prot Para /Supervision /LOP] ExBlo2-I Module Input State: External Blocking2 [Protection Para /Global Prot Para /Supervision /LOP] LOP Module Signals (Output States)
Page 775 EMR-4000 IM02602009E Commissioning: Loss of Potential Object to be tested: Testing the LOP. Necessary means: Three-phase current source and Three-phase voltage source. Procedure part 1: Examine if the output signals »LOP B « (200ms delay) and »LOP« only become true if: Any of the three-phase voltages becomes less 0.01*Vn Volt...
Page 776: 74Tc - Trip Circuit Monitoring
EMR-4000 IM02602009E 74TC - Trip Circuit Monitoring The trip circuit monitoring is used for monitoring if the trip circuit is ready for opening operations. The monitoring can be fulfilled by two ways. The first assumes only 52a is used in the trip circuit. The second assumes that, in addition to 52a, 52b is also used for the circuit monitoring.
Page 777 EMR-4000 IM02602009E One Breaker Application Examples Trip Circuit Monitoring for one Breaker: Auxiliary Contacts (52a and 52b) in trip circuit. Relay Control Voltage Breaker 1 (Bkr[1]) Control Voltage - DC COM1 Trip COM2 W1-52a W1-52b 52a and 52b in Trip Circuit...
Page 778 EMR-4000 IM02602009E Trip Circuit Monitoring for One Breaker: Auxiliary Contacts (52a Only) in Trip Circuit. Relay Control Voltage Breaker 1 (Bkr[1]) Control Voltage - DC COM1 Trip W1-52a W1-52b 52a only in Trip Circuit DI-Threshold t-TCM TCM.Pickup Bkr.Pos CLOSE www.eaton.com...
Page 779: Device Planning Parameters Of The Trip Circuit Monitoring Module
EMR-4000 IM02602009E Device Planning Parameters of the Trip Circuit Monitoring Module Parameter Description Options Default Menu path Mode Mode Do not use, [Device Planning] Global Protection Parameters of the Trip Circuit Monitoring Module Parameter Description Setting range Default Menu path...
Page 780 EMR-4000 IM02602009E Setting Group Parameters of the Trip Circuit Monitoring Module Parameter Description Setting range Default Menu path Function Permanent activation or deactivation of module/element. Inactive, Inactive [Protection Para Active /<1..4> /Supervision /TCM] ExBlo Fc Activate (allow) or inactivate (disallow) blocking of the...
Page 781 EMR-4000 IM02602009E Trip Circuit Monitoring Module Input States Name Description Assignment via CinBkr-52a-I Module Input State: Feed-back signal of the Bkr (52a) [Protection Para /Global Prot Para /Supervision /TCM] CinBkr-52b-I Module Input State: Feed-back signal of the Bkr. (52b) [Protection Para...
Page 782 EMR-4000 IM02602009E Commissioning: Trip Circuit Monitoring for Breakers For breakers that trip by means of little energy (e.g.: via an optocoupler), it has to be ensured that the current applied by the digital inputs will not cause false tripping of the breaker.
Page 783: Self Supervision
EMR-4000 IM02602009E Self Supervision The protection devices are supervised by various check routines during normal operation and during the start-up phase on faulty operation. The protection devices are carrying out various self supervision tests. Self Supervision within the devices Supervision of...
Page 784 EMR-4000 IM02602009E Self Supervision within the devices Parameter Setting (Device) Protecting the parameter setting by Implausibilities within the parameter plausibility checks. configuration can be detected by means of plausibility checks. Detected implausibilities are highlighted by a question mark symbol. Please refer to chapter parameter setting for detailed information.
Page 785 EMR-4000 IM02602009E Device Start (Reboot) The device starts up if: it is connected to the supply voltage, • the User initiates (intentionally) a restart of the device, • the device is set back to factory defaults, • the internal self-supervision of the device detects a fatal error.
Page 786 Service Staff. These offer further failure analysis and diagnosis opportunities to the Service Staff. In such a case please contact the Eaton Service Staff and provide them the error code. For further information on trouble shooting please refer to the separately provided “Trouble Shooting Guide“.
Page 787 EMR-4000 IM02602009E Direct Commands of the Self Supvervision Parameter Description Setting range Default Menu path Ack System LED Ack System LED (red/green flashing LED) False, False [Operation True /Reset /Flags] Signals (Output States) of the Self Supvervision Signal Description System Error...
Page 788: Programmable Logic
EMR-4000 IM02602009E Programmable Logic Available Elements (Equations): Logic General Description The protective device includes programmable logic equations for programming inputs, outputs, blocking of protective functions, and custom logic functions in the relay. The logic provides control of the output relays based on the state of the inputs that can be chosen from the assignment list (protective function pickups, protective function states, breaker states, system alarms, and module inputs).
Page 789 EMR-4000 IM02602009E If no signal is assigned to a logic gate (All inputs 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"...
Page 790 EMR-4000 IM02602009E Detailed Overview – Overall Logic Diagram. www.eaton.com...
Page 791 EMR-4000 IM02602009E Available Gates (Operators) Within the Logic Equation, the following Gates can be used. Gate NAND Input Signals The User can assign up to four Input signals (from the assignment list) to the inputs of the gate. As an option, each of the four input signals can be inverted (negated).
Page 792 EMR-4000 IM02602009E Cascading Logical Outputs The device will evaluate output states of the logic equations starting from “Logic Equation 1” up to the logic equation with the highest number. This evaluation cycle will be continuously repeated. Cascading Logic Equations in an ascending sequence.
Page 793 EMR-4000 IM02602009E Cascading in Ascending Order LE1.IN1 Update within the same evaluation cycle LE1.IN2 Output of Logic Equation 1 Logic Equation1 LE1.IN3 LE2.IN2 LE1.IN4 Output of Logic Equation 2 Logic Equation2 LE2.IN3 LE2.IN4 LE1.IN1 Update within the same evaluation cycle LE1.IN2...
Page 794: Programmable Logic At The Panel
EMR-4000 IM02602009E Programmable Logic at the Panel WARNING improper use of logic equations might result in personal injury or damage the electrical equipment. Do not use logic equations unless the User can ensure the safe functionality. How to configure a logic equation? Within the Device Planning, set the number of required Logic Equations.
Page 795 EMR-4000 IM02602009E Device Planning Parameters of the Programmable Logic Parameter Description Options Default Menu path No of Equations: Number of required Logic Equations: [Device Planning] Global Protection Parameter of the Programmable Logic Parameter Description Setting range Default Menu path LE1.Gate...
Page 796 EMR-4000 IM02602009E Parameter Description Setting range Default Menu path LE1.Inverting3 Inverting the input signals. Inactive, Inactive [Logic Active /LE 1] Only available if an input signal has been assigned. LE1.IN4 Assignment of the Input Signal 1..n, Assignment Logic.LE5.Gate [Logic List /LE 1] LE1.Inverting4...
Page 797 EMR-4000 IM02602009E Programmable Logic Inputs Name Description Assignment via LE1.Gate In1-I State of the module input: Assignment of the Input Signal [Logic /LE 1] LE1.Gate In2-I State of the module input: Assignment of the Input Signal [Logic /LE 1] LE1.Gate In3-I...
Page 798: Commissioning
EMR-4000 IM02602009E Commissioning Before starting work on an open switchboard, it is required that the switchboard is de-energized and the following five safety regulations have been met. Safety precautions: Disconnect the power supply; Secure against reconnection; Verify that the equipment is de-energized;...
Page 799: Commissioning/Protection Test
EMR-4000 IM02602009E Commissioning/Protection Test Commissioning/protection test must be carried out by authorized and qualified personnel. Before the device is put into operation, the related documentation MUST be read and understood. With any test of the protection functions, the following has to be checked:...
Page 800: Decommissioning - Removing The Plug From The Relay
EMR-4000 IM02602009E Decommissioning – Removing the Plug from the Relay Dismounting the relay will lead to a loss of the protection functionality. Ensure that there is a back-up protection. If you are not aware of the consequences of decommissioning the device – STOP! DO NOT start.
Page 801: Service And Commissioning Support
EMR-4000 IM02602009E Service 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 device. www.eaton.com...
Page 802: Maintenance Mode
EMR-4000 IM02602009E Maintenance Mode Principle – General Use The Maintenance Mode can be used to reduce arc flash levels. Refer to Std. NFPA70E. DO NOT attempt to install or perform maintenance on equipment while it is energized. Severe personal injury or death can result from contact with energized equipment.
Page 803: Before Use
EMR-4000 IM02602009E Before Use The sensitivity settings for the Maintenance Mode have to be calculated and programmed into the device (according to Std. NFPA70E). They are not part of the device by default. When the Maintenance Mode is enabled and fault current causes its operation, the fault clearing time of the associated breaker has to be very fast.
Page 804 EMR-4000 IM02602009E www.eaton.com...
Page 805: Forcing The Relay Output Contacts
EMR-4000 IM02602009E Forcing the Relay Output Contacts The parameters, their defaults, and setting ranges have to be taken from Relay Output Contacts section. Principle – General Use The User MUST ENSURE that the relay output contacts operate normally after maintenance is completed. If the relay output contacts do not operate normally, the protective device WILL NOT provide protection.
Page 806: Disarming The Relay Output Contacts
EMR-4000 IM02602009E Disarming the Relay Output Contacts The parameters, their defaults, and setting ranges have to be taken from the Relay Output Contacts section. Principle – General Use Within this mode [Service/Test Mode (Prot inhibit)/WARNING! Cont?/DISARMED], entire groups of relay output contacts can be disabled.
Page 807 EMR-4000 IM02602009E A relay output contact WILL NOT be disarmed as long as: A relay output contact WILL NOT be disarmed if it is latched (and not yet reset). A relay output contact WILL NOT be disarmed as long as a running t-OFF-delay timer is not yet expired (hold time of a relay output contact).
Page 808: Forcing Rtds
EMR-4000 IM02602009E Forcing RTDs* * = Availability depends on ordered device. The parameters, their defaults, and setting ranges have to be taken from RTD/UTRD section. Principle – General Use The User MUST ENSURE that the RTDs operate normally after maintenance is completed.
Page 809: Forcing Analog Outputs
EMR-4000 IM02602009E Forcing Analog Outputs* * = Availability depends on ordered device. The parameters, their defaults, and setting ranges have to be taken from Analog Output section. Principle – General Use The User MUST ENSURE that the Analog Outputs operate normally after maintenance is completed.
Page 810: Forcing Analog Inputs
EMR-4000 IM02602009E Forcing Analog Inputs* * = Availability depends on ordered device. The parameters, their defaults, and setting ranges have to be taken from Analog Inputs section. Principle – General Use The User MUST ENSURE that the Analog Inputs operate normally after maintenance is completed.
Page 811: Failure Simulator (Sequencer)
EMR-4000 IM02602009E Failure Simulator (Sequencer)* Available Elements: Sgen * = Availability depends on ordered device. This applies especially to the availability of voltage and current. Voltage simulation is only available in voltage relays, current simulation is only available in current relays.
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...
Page 813 EMR-4000 IM02602009E Application Options of the Fault Simulator**: Stop Options Cold Simulation (Option 1) Hot Simulation (Option 2) Do not stop Simulation without tripping the Simulation is authorized to trip breaker: the breaker: The TripCmd of all protection How To?: Run complete: functions will be blocked.
Page 814 EMR-4000 IM02602009E Device Planning Parameters of the Failure Simulator Parameter Description Options Default Menu path Mode Mode Do not use, [Device Planning] Global Protection Parameter of the Failure Simulator Parameter Description Setting range Default Menu path PreFault Pre Fault Duration 0.00 - 300.00s...
Page 815 EMR-4000 IM02602009E Parameter Description Setting range Default Menu path Ex Start Simulation External Start of Fault Simulation (Using the test 1..n, Assignment [Service parameters) List /Test Mode (Prot inhibit) /WARNING! Cont? /Sgen /Process] ExBlo External blocking of the module, if blocking is activated 1..n, Assignment...
Page 816 EMR-4000 IM02602009E Parameter Description Setting range Default Menu path VC Fund. Voltage Fundamental Magnitude in Pre State: Phase C 0.00 - 1.30Vn 0.57Vn [Service /Test Mode (Prot inhibit) /WARNING! Cont? /Sgen /Configuration /PreFault /VT] VX Fund. Voltage Fundamental Magnitude in Pre State: VX 0.00 - 1.30Vn...
Page 817 EMR-4000 IM02602009E Parameter Description Setting range Default Menu path Angle VC Fund. Start Position respectively Start Angle of the Voltage -360 - 360° 120° [Service Phasor during Pre Phase:Phase C /Test Mode (Prot inhibit) /WARNING! Cont? /Sgen /Configuration /PreFault /VT]...
Page 818 EMR-4000 IM02602009E Parameter Description Setting range Default Menu path VC Fund. Voltage Fundamental Magnitude in Fault State: Phase C 0.00 - 1.30Vn 0.29Vn [Service /Test Mode (Prot inhibit) /WARNING! Cont? /Sgen /Configuration /FaultSimulation /VT] VX Fund. Voltage Fundamental Magnitude in Fault State: Phase 0.00 - 1.30Vn...
Page 819 EMR-4000 IM02602009E Parameter Description Setting range Default Menu path Angle VC Fund. Start Position respectively Start Angle of the Voltage -360 - 360° 120° [Service Phasor during Fault Phase:Phase C /Test Mode (Prot inhibit) /WARNING! Cont? /Sgen /Configuration /FaultSimulation /VT]...
Page 820 EMR-4000 IM02602009E Parameter Description Setting range Default Menu path VC Fund. Voltage Fundamental Magnitude during Post phase: 0.00 - 1.30Vn 0.57Vn [Service Phase C /Test Mode (Prot inhibit) /WARNING! Cont? /Sgen /Configuration /PostFault /VT] VX Fund. Voltage Fundamental Magnitude during Post phase: 0.00 - 1.30Vn...
Page 821 EMR-4000 IM02602009E Parameter Description Setting range Default Menu path Angle VC Fund. Start Position respectively Start Angle of the Voltage -360 - 360° 120° [Service Phasor during Post phase: Phase C /Test Mode (Prot inhibit) /WARNING! Cont? /Sgen /Configuration /PostFault...
Page 822 EMR-4000 IM02602009E Parameter Description Setting range Default Menu path IC Fund. Current Fundamental Magnitude in Pre State: Phase C 0.00 - 40.00In 0.0In [Service /Test Mode (Prot inhibit) /WARNING! Cont? /Sgen /Configuration /PreFault /CT] IX meas Fund. Current Fundamental Magnitude in Pre State: IX 0.00 - 25.00In...
Page 823 EMR-4000 IM02602009E Parameter Description Setting range Default Menu path Angle IC Fund. Start Position respectively Start Angle of the Current -360 - 360° 120° [Service Phasor during Pre Phase:Phase C /Test Mode (Prot inhibit) /WARNING! Cont? /Sgen /Configuration /PreFault /CT]...
Page 824 EMR-4000 IM02602009E Parameter Description Setting range Default Menu path IC Fund. Current Fundamental Magnitude in Fault State: Phase C 0.00 - 40.00In 0.0In [Service /Test Mode (Prot inhibit) /WARNING! Cont? /Sgen /Configuration /FaultSimulation /CT] IX meas Fund. Current Fundamental Magnitude in Fault State: IX 0.00 - 25.00In...
Page 825 EMR-4000 IM02602009E Parameter Description Setting range Default Menu path Angle IC Fund. Start Position respectively Start Angle of the Current -360 - 360° 120° [Service Phasor during Fault Phase:Phase C /Test Mode (Prot inhibit) /WARNING! Cont? /Sgen /Configuration /FaultSimulation /CT]...
Page 826 EMR-4000 IM02602009E Parameter Description Setting range Default Menu path IC Fund. Current Fundamental Magnitude during Post phase: 0.00 - 40.00In 0.0In [Service Phase C /Test Mode (Prot inhibit) /WARNING! Cont? /Sgen /Configuration /PostFault /CT] IX meas Fund. Current Fundamental Magnitude during Post phase: IX 0.00 - 25.00In...
Page 827 EMR-4000 IM02602009E Parameter Description Setting range Default Menu path Angle IC Fund. Start Position respectively Start Angle of the Current -360 - 360° 120° [Service Phasor during Post phase: Phase C /Test Mode (Prot inhibit) /WARNING! Cont? /Sgen /Configuration /PostFault...
Page 828 EMR-4000 IM02602009E Signals of the Failure Simulator (States of the Outputs) Signal Description Running Signal: Measuring value simulation is running State Signal: Wave generation states: 0=Off, 1=PreFault, 2=Fault, 3=PostFault, 4=InitReset Direct Commands of the Failure Simulator Parameter Description Setting range...
Page 829: Technical Data
EMR-4000 IM02602009E Technical Data Use Copper conductors only, 75°C (167°F). Conductor size AWG 14 [2.5 mm]. Climatic Environmental Conditions Storage Temperature: -30°C to +70°C (-22°F to 158°F) Operating Temperature: -20°C to +60°C (-4°F to 140°F) Permissible Humidity at Ann. Average: <75% rel.
Page 830: Current And Ground Current Measurement
EMR-4000 IM02602009E Current and Ground Current Measurement Plug-in Connector with Integrated Short-Circuiter (Conventional Current Inputs) Phase and Ground Current Inputs: Nominal Currents: 1 A / 5 A Max. Measuring Range: Up to 40 x In (phase currents) Up to 25 x In (ground current standard)
Page 831 EMR-4000 IM02602009E Phase and Ground Current Inputs: Screws M4, captive type acc. to VDEW Connection Cross Sections: 1 x or 2 x 2.5 mm² (2 x AWG 14) with wire end ferrule 1 x or 2 x 4.0 mm² (2 x AWG 12) with ring cable sleeve or cable sleeve 1 x or 2 x 6 mm²...
Page 832: Voltage And Residual Voltage Measurement
EMR-4000 IM02602009E Voltage and Residual Voltage Measurement Nominal Voltages: 60 - 520 V (can be configured) 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...
Page 833: Voltage Supply
EMR-4000 IM02602009E Voltage Supply Aux. Voltage: ≂ 24 - 270 Vdc / 48 - 230 Vac (-20/+10%) Buffer Time in Case of Supply Failure: >= 50 ms at minimal aux. voltage Interrupted communication is permitted. Max. Permissible Making Current: 18 A peak value for <0.25 ms 12 A peak value for <1 ms...
Page 834: Display
EMR-4000 IM02602009E Display Display Type: LCD with LED background illumination Resolution - Graphics Display: 128 x 64 pixel LED - Type: Two colored: red / green Number of LEDs, Housing B2: Front Interface USB Type: Mini B Real Time Clock Running Reserve of the Real Time 1 year min.
Page 835: Digital Inputs
EMR-4000 IM02602009E Digital Inputs Max. Input Voltage: 300 Vdc / 259 Vac Input Current: DC <4 mA AC <16 mA Reaction Time: <20 ms Fallback Time: Shorted inputs <30 ms Open inputs <90 ms Open inputs Shorted inputs (Safe State of the Digital Inputs)
Page 836: Relay Outputs
EMR-4000 IM02602009E Relay Outputs Continuous Current: 5 A ac / dc Max. Make Current: 25 A ac / 25 A dc for 4 s 48W (VA) at L/R = 40ms 30 A / 230Vac according to ANSI IEEE Std C37.90-2005 30 A / 250Vdc according to ANSI IEEE Std C37.90-2005...
Page 837: Zone Interlocking
EMR-4000 IM02602009E Zone Interlocking Only for Zone Interlock Tripping Outputs (Zone Interlock, semiconductor output): 5 Vdc, <2mA for connection to electronic inputs only. Zone Out: Output voltage (High) 4.75 to 5.25 Vdc Output voltage (Low) 0.0 to +0.5 Vdc Zone In:...
Page 838: Rs485
EMR-4000 IM02602009E RS485* Master/Slave: Slave Connection: 6 screw-clamping terminals RM 3.5 mm (138 MIL) (terminating resistors internal) The RS485 interface is realized via terminals. The communication cable has to be shielded. The shielding has to be fixed at the screw that is marked with the ground symbol (rear side of the device).
Page 839: Analog Outputs
EMR-4000 IM02602009E Analog Outputs The following technical data only apply to devices, which are equipped with analog outputs. Please refer to the order code of your device. The mode of each output can be individually selected between current or voltage output. Shielded cable for the analog outputs is recommended.
Page 840: Standards
EMR-4000 IM02602009E Standards Approvals UL-listed file: E154862 Design Standards Generic Standard EN 61000-6-2 , 2005 EN 61000-6-3 , 2006 Product Standard EC 60255-1; 2009 IEC 60255-27, 2013 EN 50178, 1998 UL 508 (Industrial Control Equipment), 2005 CSA C22.2 No. 14-95 (Industrial Control Equipment),1995 ANSI C37.90, 2005...
Page 841: Emc Immunity Tests
EMR-4000 IM02602009E EMC Immunity Tests Fast Transient Disturbance Immunity Test (Burst) IEC 60255-22-4 Power supply, mains inputs ±4 kV, 2.5 kHz IEC 61000-4-4 ANSI C37.90.1 Other in- and outputs ±2 kV, 5 kHz (coupling network) class 4 ±4 kV, 2.5 kHz (coupling clamp)
Page 842: Emc Emission Tests
EMR-4000 IM02602009E Electrical Discharge Immunity Test (ESD) IEC 60255-22-2 Air discharge 8 kV IEC 61000-4-2 class 3 Contact discharge 6 kV Radiated Radio Frequency Electromagnetic Field Immunity Test IEC 60255-22-3 26 MHz – 80 MHz 10 V/m IEC 61000-4-3 80 MHz – 1 GHz 35 V/m 1 GHz –...
Page 843: Environmental Tests
EMR-4000 IM02602009E Environmental Tests Classification: IEC 60068-1 Climatic 20/060/56 Classification Classification of ambient conditions (Sto- IEC 60721-3-1 1K5/1B1/1C1L/1S1/1M2 rage) but min. -30°C (-22°F) IEC 60721-3-2 Classification of ambient conditions 2K2/2B1/2C1/2S1/2M2 (Transportation) but min. -30°C (-22°F) IEC 60721-3-3 Classification of ambient conditions...
Page 844 EMR-4000 IM02602009E Test Nb:Temperature Change IEC 60255 (6.12.3.5) Temperature 60°C/-20°C IEC 60068-2-14 cycle test duration 1°C/5min Test BD: Dry Heat Transport and storage test IEC 60255 (6.12.3.3) Temperature 70°C IEC 60068-2-2 test duration 16 h Test AB: Cold Transport and storage test IEC 60255-1 (6.12.3.4)
Page 845: Mechanical Tests
EMR-4000 IM02602009E Mechanical Tests Test Fc: Vibration Response Test IEC 60068-2-6 (10 Hz – 59 Hz) 0.0014 in. (0.035 mm) IEC 60255-21-1 Displacement class 1 (59Hz – 150Hz) 0.5 gn Acceleration Number of cycles in each axis Test Fc: Vibration Endurance Test IEC 60068-2-6 (10 Hz –...
Page 846: Specifications
EMR-4000 IM02602009E Specifications Specifications of the Real Time Clock Resolution: 1 ms Tolerance: <1 minute / month (+20°C [68°F]) <±1ms if synchronized via IRIG-B Time Synchronization Tolerances The different protocols for time synchronization vary in their accuracy: Used Protocol Time drift over one month...
Page 847: Specifications Of The Measured Value Acquisition
EMR-4000 IM02602009E Specifications of the Measured Value Acquisition Phase and Ground Current Measuring Frequency Range: 50 Hz / 60 Hz ± 10% Accuracy: Class 0.5 Amplitude Error if I < In: ±0.5% of the rated current Amplitude Error if I > In: ±0.5% of the measured current...
Page 848 EMR-4000 IM02602009E Energy measurement* Energy counter error 1.5% of measured energy or 1.5% Sn*1h Power Measurement* VA, W, VAr: <±1% of the measured 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...
Page 849: Protection Elements Accuracy
EMR-4000 IM02602009E Protection Elements Accuracy The tripping delay relates to the time between alarm and trip. The accuracy of the operating time relates to the time between fault entry and the time when the protection element is picked-up. Reference conditions for all Protection Elements: sine wave, at rated frequency, total harmonic distortion < 1%...
Page 850 EMR-4000 IM02602009E *3) For earth current sensitive the precision does not depend on the nominal value but is referenced to 100 mA (with In =1 A) respectively 500 mA (with In = 5 A) Motor Protection: Accuracy 66 [x] Stop Declaration <50 ms...
Page 851 EMR-4000 IM02602009E Mechanical Load Shedding: Accuracy Pickup Threshold ±1.5% of the setting value or 1% In Pickup Delay DEFT ±1% or ±10 ms Dropout Threshold ±1.5% of the setting value or 1% In Dropout Delay DEFT ±1% or ±10 ms...
Page 852 EMR-4000 IM02602009E Undervoltage and Overvoltage Accuracy (Phase and Auxiliary) 27M[x] / 59M[x] / 27A[x] / 59A[x] Pickup ±1.5% of the setting value or 1% Vn Dropout Ratio 97% or 0.5% Vn for 59[x] 103% or 0.5% Vn for 27[x] DEFT ±1% or ±10 ms...
Page 853 EMR-4000 IM02602009E Undervoltage-blocking Frequency: Accuracy Blocking below 15% Vn for phase-voltage frequency Vn: 0.57 * rated Main VT, for Wye connection Vn: 1.0 * rated Main VT, for Open-Delta connection. V Block f ±1.5% of the setting value or 1% Vn Dropout ratio 120% or 0.5% Vn...
Page 854 EMR-4000 IM02602009E PQ-protection: Accuracy 32[x]/32V[x] Threshold ±3% or ±0.1% VAn Dropout Ratio 97% or 1 VA for Over-protection 103% or 1 VA for Under-protection for setting values ≤ 0.1 Sn: 60% or 0.5 VA for Over-protection 140% or 0.5 VA for Under-protection for setting values ≤...
Page 855: Appendix
EMR-4000 IM02602009E Appendix The following terms, abbreviations, and acronyms are used in this manual. Please refer to this section for their meanings / definitions. Ampere(s), Amp(s) Alternating current Analog to digital Ack. Acknowledge Ampere(s), Amp(s) Logical gate (The output becomes true if all Input signals are true.)
Page 856 EMR-4000 IM02602009E COMP Compensated, comparison CONN Connection CONT Continuous, contact Central processing unit Counter(s) CRT, CRNT Current Canadian Standards Association Control transformer Ctrl. Control Current transformer supervision Digital to analog D-Sub-Plug Communication interface DC, dc Direct current DEFT Definite time characteristic (Tripping time does not depend on the height of the current.)
Page 857 EMR-4000 IM02602009E External ExBlo External blocking(s) External protection Extension, external °F Degrees Fahrenheit Field Function (Enable or disable functionality = allow or disallow.) FIFO First in first out FIFO Principal First in first out Full load current Fiber optic File transfer protocol...
Page 858 EMR-4000 IM02602009E I-BF Tripping threshold Phase C current IC's Manufacturer internal product designation Phase C minus A current Identification International Electrotechnical Commission Intelligent electronic device IEEE Institute of Electrical and Electronics Engineers Ground current (not residual) Fault current Differential ground current...
Page 859 EMR-4000 IM02602009E Kiloampere Kilogram Kilohertz Kilovolt(s) kVdc or kVDC Kilovolt(s) direct current Phase A Phase B Phase C l/ln Ratio of current to nominal current. Light emitting diode lb-in Pound-inch LINV Long time inverse tripping characteristic Low voltage Meter Machine...
Page 860 EMR-4000 IM02602009E Mega volt-ampere (total 3-phase) MVA A Mega volt-ampere (phase A) MVA B Mega volt-ampere (phase B) MVA C Mega volt-ampere (phase C) MVAR Mega Var (total 3-phase) MVAR A Mega Var (phase A) MVAR B Mega Var (phase B)
Page 861 EMR-4000 IM02602009E Protected Earth p.u. per unit (per-unit system) Power factor (total 3-phase) PF A Power factor (phase A) PF B Power factor (phase B) PF C Power factor (phase C) Phase Positive PRESS Pressure PRI, pri Primary PROT, Prot...
Page 862 EMR-4000 IM02602009E Relay Output Reset Resistance-temperature detector RX (Rx) Receive, receiver Second Sensitive CT saturation Supervision contact SCADA SCADA Communication module, supervisory control and data acquistion Second(s) SEC, sec Secondary SENS Sensitive Sequence Sig. Signal SNTP Simple network time protocol...
Page 863 EMR-4000 IM02602009E Manufacturer internal product designation code Time overcurrent Time overvoltage TRANS Transient TripCmd Trip command TX (Tx) Transmit, transmitter Text Undercurrent Underwriters Laboratories DEFT (definite time tripping characteristic) URTD Universal resistance-temperature detector Universal serial bus Volts Zero sequence voltage...
Page 864 EMR-4000 IM02602009E Voltage transformer Voltage transformer supervision Watt(s) Watch dog contact (supervision contact) Winding Watthour World wide web Reactance current measuring input (ground or neutral current) XInv Inverse characteristic Impedance, zone www.eaton.com...
Page 865: Instantaneous Current Curves (Phase)
EMR-4000 IM02602009E Instantaneous Current Curves (Phase) Explanation: t = Tripping delay I = Fault current Pickup = If the pickup value is exceeded, the module /element starts to time out to trip . DEFT Pickup 0.0 1 0.0 1 40 40...
Page 866: Time Current Curves (Phase)
EMR-4000 IM02602009E Time Current Curves (Phase) The following characteristics are available: NINV (IEC/XInv); VINV (IEC/XInv); LINV (IEC/XInv); EINV (IEC/XInv); MINV (ANSI/XInv); VINV (ANSI/XInv); EINV (ANSI/XInv); Thermal Flat; Therm Flat IT; Therm Flat I2T; and Therm Flat I4T. Explanation: t = Tripping delay t-multiplier = Time multiplier/tripping characteristic factor .
Page 867 EMR-4000 IM02602009E IEC NINV Notice! Various Reset Modes are available . Resetting via characteristic, delayed, and instantaneous . Reset Trip 0.14 0.14 *t-multiplier [s] *t-multiplier [s] 0.02 Pickup Pickup t [s] t-multiplier x * Pickup (Multiples of Pickup) www.eaton.com...
Page 868 EMR-4000 IM02602009E IEC VINV Notice! Various Reset Modes are available . Resetting via characteristic, delayed , and instantaneous . Reset Trip 13.5 13.5 *t-multiplier [s] *t-multiplier [s] Pickup Pickup t [s] t-multiplier x * Pickup (Multiples of Pickup) www.eaton.com...
Page 869 EMR-4000 IM02602009E IEC LINV Notice! Various Reset Modes are available . Resetting via characteristic, delayed, and instantaneous . Reset Trip *t-multiplier [s] *t-multiplier [s] Pickup Pickup t [s] t-multiplier x * Pickup (Multiples of Pickup) www.eaton.com...
Page 870 EMR-4000 IM02602009E IEC EINV Notice! Various Reset Modes are available . Resetting via characteristic, delayed, and instantaneous . Reset Trip *t-multiplier [s] *t-multiplier [s] Pickup Pickup t [s] t-multiplier x * Pickup (Multiples of Pickup) www.eaton.com...
Page 871 EMR-4000 IM02602009E ANSI MINV Notice! Various Reset Modes are available . Resetting via characteristic, delayed, and instantaneous . Reset Trip 4.85 0.0515 *t-multiplier [s] + 0.1140 *t-multiplier [s] 0.02 Pickup Pickup t [s] t-multiplier x * Pickup (Multiples of Pickup)
Page 872 EMR-4000 IM02602009E ANSI VINV Notice! Various Reset Modes are available . Resetting via characteristic, delayed , and instantaneous . Reset Trip 21.6 19.61 *t-multiplier [s] *t-multiplier [s] + 0.491 Pickup Pickup t [s] t-multiplier x * Pickup (Multiples of Pickup)
Page 873 EMR-4000 IM02602009E ANSI EINV Notice! Various Reset Modes are available . Resetting via characteristic, delayed, and instantaneous . Reset Trip 29.1 28.2 *t-multiplier [s] *t-multiplier [s] + 0.1217 Pickup Pickup t [s] t-multiplier x * Pickup (Multiples of Pickup) www.eaton.com...
Page 874 EMR-4000 IM02602009E Therm Flat Notice! Various Reset Modes are available . Resetting via characteristic, delayed , and instantaneous . Reset Trip *t-multiplier [s] *t-multiplier [s] t = 45 *t-multiplier [s] × 1 10 × 1 10 TM[s]= t [s] t-multiplier 0.05...
Page 875 EMR-4000 IM02602009E Notice! Various Reset Modes are available . Resetting via characteristic, delayed, and instantaneous . Reset Trip *t-multiplier [s] *t-multiplier [s] × 1 10 × 1 10 TM[s]= t [s] t-multiplier 0.05 0.01 0.01 x * In (Multiples of the Nominal Current)
Page 876 EMR-4000 IM02602009E Notice! Various Reset Modes are available . Resetting via characteristic, delayed , and instantaneous . Reset Trip *t-multiplier [s] *t-multiplier [s] × 1 10 × 1 10 t [s] t-multiplier TM[s]= 0.05 0.01 0.01 x * In (Multiples of the Nominal Current)
Page 877 EMR-4000 IM02602009E Notice! Various Reset Modes are available . Resetting via characteristic, delayed, and instantaneous . Reset Trip *t-multiplier [s] *t-multiplier [s] × 1 10 × 1 10 t [s] t-multiplier TM[s]= 0.05 0.01 0.01 x * In (Multiples of the Nominal Current)
Page 878: Instantaneous Current Curves (Ground Current Calculated)
EMR-4000 IM02602009E Instantaneous Current Curves (Ground Current Calculated) The following characteristics is available: DEFT (definite time). Explanation: t = Tripping delay IG = Fault current Pickup = If the pickup value is exceeded, the module /element starts to time out to trip .
Page 879 EMR-4000 IM02602009E DEFT IR calc Pickup I/I> 0.01 0.01 40 20 t [s] 300 s 300 s 0.0 s 0.0 s 0.01 0.01 IR calc Pickup www.eaton.com...
Page 880: Instantaneous Current Curves (Ground Current Measured)
EMR-4000 IM02602009E Instantaneous Current Curves (Ground Current Measured) The following characteristics is available: DEFT (definite time). Explanation: t = Tripping delay IX = Fault current Pickup = If the pickup value is exceeded, the module /element starts to time out to trip .
Page 881 EMR-4000 IM02602009E DEFT Pickup I/I> 0.01 0.01 40 20 t [s] 300 s 300 s 0.0 s 0.0 s 0.01 0.01 Pickup www.eaton.com...
Page 882: Time Current Curves (Ground Current)
EMR-4000 IM02602009E Time Current Curves (Ground Current) The following characteristics are available: NINV (IEC/XInv); VINV (IEC/XInv); LINV (IEC/XInv); EINV (IEC/XInv); MINV (ANSI/XInv); VINV (ANSI/XInv); EINV (ANSI/XInv); Thermal Flat; Therm Flat IT; Therm Flat I2T; and Therm Flat I4T. Explanation: t = Tripping delay t-multiplier = Time multiplier/tripping characteristic factor .
Page 883 EMR-4000 IM02602009E IEC NINV Notice! Various Reset Modes are available . Resetting via characteristic, delayed, and instantaneous . Reset Trip 0.14 0.14 *t-multiplier [s] *t-multiplier [s] 0.02 Pickup Pickup t [s] t-multiplier x * Pickup (Multiples of Pickup) www.eaton.com...
Page 884 EMR-4000 IM02602009E IEC VINV Notice! Various Reset Modes are available . Resetting via characteristic, delayed, and instantaneous . Reset Trip 13.5 13.5 *t-multiplier [s] *t-multiplier [s] Pickup Pickup t [s] t-multiplier x * Pickup (Multiples of Pickup) www.eaton.com...
Page 885 EMR-4000 IM02602009E IEC LINV Notice! Various Reset Modes are available . Resetting via characteristic, delayed, and instantaneous . Reset Trip *t-multiplier [s] *t-multiplier [s] Pickup Pickup t-multiplier t [s] x * Pickup (Multiples of Pickup) www.eaton.com...
Page 886 EMR-4000 IM02602009E IEC EINV Notice! Various Reset Modes are available . Resetting via characteristic, delayed, and instantaneous . Reset Trip *t-multiplier [s] *t-multiplier [s] Pickup Pickup t [s] t-multiplier x * Pickup (Multiples of Pickup) www.eaton.com...
Page 887 EMR-4000 IM02602009E ANSI MINV Notice! Various Reset Modes are available . Resetting via characteristic, delayed , and instantaneous . Reset Trip 0.0515 4.85 + 0.1140 *t-multiplier [s] *t-multiplier [s] 0.02 Pickup Pickup t [s] t-multiplier x * Pickup (Multiples of Pickup)
Page 888 EMR-4000 IM02602009E ANSI VINV Notice! Various Reset Modes are available . Resetting via characteristic, delayed, and instantaneous . Reset Trip 21.6 19.61 *t-multiplier [s] *t-multiplier [s] + 0.491 Pickup Pickup t [s] t-multiplier x * Pickup (Multiples of Pickup) www.eaton.com...
Page 889 EMR-4000 IM02602009E ANSI EINV Notice! Various Reset Modes are available . Resetting via characteristic, delayed, and instantaneous . Reset Trip 29.1 28.2 *t-multiplier [s] *t-multiplier [s] + 0.1217 Pickup Pickup t [s] t-multiplier x * Pickup (Multiples of Pickup) www.eaton.com...
Page 890 EMR-4000 IM02602009E Therm Flat Notice! Various Reset Modes are available . Resetting via characteristic, delayed , and instantaneous . Reset Trip *t-multiplier [s] *t-multiplier [s] IGnom IGnom t = 5 *t-multiplier [s] × 1 10 × 1 10 TM[s]= t [s] t-multiplier 0.05...
Page 891 EMR-4000 IM02602009E Notice! Various Reset Modes are available . Resetting via characteristic, delayed, and instantaneous . Reset Trip *t-multiplier [s] *t-multiplier [s] IGnom IGnom × 1 10 × 1 10 t [s] t-multiplier TM[s]= 0.05 0.01 0.01 x * In (Multiples of the Nominal Current)
Page 892 EMR-4000 IM02602009E Notice! Various Reset Modes are available . Resetting via characteristic, delayed, and instantaneous . Reset Trip *t-multiplier [s] *t-multiplier [s] IGnom IGnom × 1 10 × 1 10 t [s] t-multiplier TM[s]= 0.05 0.01 0.01 x * In (Multiples of the Nominal Current)
Page 893 EMR-4000 IM02602009E Notice! Various Reset Modes are available . Resetting via characteristic, delayed, and instantaneous . Reset Trip *t-multiplier [s] *t-multiplier [s] IGnom IGnom × 1 10 × 1 10 t [s] t-multiplier TM[s]= 0.05 0.01 0.01 x * In (Multiples of the Nominal Current)
Page 894: Assignment List
EMR-4000 IM02602009E Assignment List The » « below summarizes all module outputs (signals) and inputs (e.g.: states of the assignments). ASSIGNMENT LIST Name Description No assignment Prot.Available Signal: Protection is available. Prot.Active Signal: Active Prot.ExBlo Signal: External Blocking Prot.Pickup Phase A Signal: General Pickup Phase A Prot.Pickup Phase B...
Page 895 EMR-4000 IM02602009E Name Description Bkr.CES Fail TripCmd Signal: Command Execution Supervision: Command execution failed because trip command is pending. Bkr.CES SwitchgDir Signal: Command Execution Supervision respectivly Switching Direction Control: This signal becomes true, if a switch command is issued even though the switchgear is already in the requested position. Example: A switchgear that is already OPEN should be switched OPEN again (doubly).
Page 896 EMR-4000 IM02602009E Name Description Bkr.Res Isum trip Signal: Reset summation of the tripping currents Bkr.WearLevel Alarm Signal: Breaker Wear curve Alarm Bkr.WearLevel Lockout Signal: Breaker Wear Curve Lockout Level Bkr.Res Bwear Curve Signal: Reset of the Breaker Wear maintenance curve.
Page 897 EMR-4000 IM02602009E Name Description MStart.JamStartBlock Signal: JAM Start Delay. JAM(Instantaneous Overcurrent) elements are blocked for the time programmed under this parameter MStart.UnbalStartBlock Signal: Motor start block current unbalance signal MStart.Blo-Generic1 Generic Start Delay. This value can be used to block any protective element.1 MStart.Blo-Generic2...
Page 898 EMR-4000 IM02602009E Name Description 50P[1].Pickup Signal: Pickup 50P[1].Trip Signal: Trip 50P[1].TripCmd Signal: Trip Command 50P[1].DefaultSet Signal: Default Parameter Set 50P[1].AdaptSet 1 Signal: Adaptive Parameter 1 50P[1].AdaptSet 2 Signal: Adaptive Parameter 2 50P[1].AdaptSet 3 Signal: Adaptive Parameter 3 50P[1].AdaptSet 4 Signal: Adaptive Parameter 4 50P[1].ExBlo1-I...
Page 899 EMR-4000 IM02602009E Name Description 50P[2].AdaptSet2-I Module Input State: Adaptive Parameter2 50P[2].AdaptSet3-I Module Input State: Adaptive Parameter3 50P[2].AdaptSet4-I Module Input State: Adaptive Parameter4 50P[3].Active Signal: Active 50P[3].ExBlo Signal: External Blocking 50P[3].Rvs Blo Signal: Reverse Blocking 50P[3].Blo TripCmd Signal: Trip Command blocked 50P[3].ExBlo TripCmd...
Page 900 EMR-4000 IM02602009E Name Description 51P[1].TripCmd Signal: Trip Command 51P[1].DefaultSet Signal: Default Parameter Set 51P[1].AdaptSet 1 Signal: Adaptive Parameter 1 51P[1].AdaptSet 2 Signal: Adaptive Parameter 2 51P[1].AdaptSet 3 Signal: Adaptive Parameter 3 51P[1].AdaptSet 4 Signal: Adaptive Parameter 4 51P[1].ExBlo1-I Module Input State: External Blocking1 51P[1].ExBlo2-I...
Page 901 EMR-4000 IM02602009E Name Description 51P[2].AdaptSet4-I Module Input State: Adaptive Parameter4 51P[3].Active Signal: Active 51P[3].ExBlo Signal: External Blocking 51P[3].Rvs Blo Signal: Reverse Blocking 51P[3].Blo TripCmd Signal: Trip Command blocked 51P[3].ExBlo TripCmd Signal: External Blocking of the Trip Command 51P[3].Pickup IA Signal: Pickup IA 51P[3].Pickup IB...
Page 902 EMR-4000 IM02602009E Name Description 50X[1].AdaptSet 4 Signal: Adaptive Parameter 4 50X[1].ExBlo1-I Module Input State: External Blocking1 50X[1].ExBlo2-I Module Input State: External Blocking2 50X[1].ExBlo TripCmd-I Module Input State: External Blocking of the Trip Command 50X[1].Rvs Blo-I Module Input State: Reverse Blocking 50X[1].AdaptSet1-I...
Page 903 EMR-4000 IM02602009E Name Description 51X[1].TripCmd Signal: Trip Command 51X[1].DefaultSet Signal: Default Parameter Set 51X[1].AdaptSet 1 Signal: Adaptive Parameter 1 51X[1].AdaptSet 2 Signal: Adaptive Parameter 2 51X[1].AdaptSet 3 Signal: Adaptive Parameter 3 51X[1].AdaptSet 4 Signal: Adaptive Parameter 4 51X[1].ExBlo1-I Module Input State: External Blocking1 51X[1].ExBlo2-I...
Page 904 EMR-4000 IM02602009E Name Description 50R[1].Rvs Blo Signal: Reverse Blocking 50R[1].Blo TripCmd Signal: Trip Command blocked 50R[1].ExBlo TripCmd Signal: External Blocking of the Trip Command 50R[1].Pickup Signal: Pickup IX or IR 50R[1].Trip Signal: Trip 50R[1].TripCmd Signal: Trip Command 50R[1].DefaultSet Signal: Default Parameter Set 50R[1].AdaptSet 1...
Page 905 EMR-4000 IM02602009E Name Description 50R[2].AdaptSet2-I Module Input State: Adaptive Parameter2 50R[2].AdaptSet3-I Module Input State: Adaptive Parameter3 50R[2].AdaptSet4-I Module Input State: Adaptive Parameter4 51R[1].Active Signal: Active 51R[1].ExBlo Signal: External Blocking 51R[1].Rvs Blo Signal: Reverse Blocking 51R[1].Blo TripCmd Signal: Trip Command blocked 51R[1].ExBlo TripCmd...
Page 906 EMR-4000 IM02602009E Name Description 51R[2].ExBlo1-I Module Input State: External Blocking1 51R[2].ExBlo2-I Module Input State: External Blocking2 51R[2].ExBlo TripCmd-I Module Input State: External Blocking of the Trip Command 51R[2].Rvs Blo-I Module Input State: Reverse Blocking 51R[2].AdaptSet1-I Module Input State: Adaptive Parameter1 51R[2].AdaptSet2-I...
Page 907 EMR-4000 IM02602009E Name Description 50J[2].Trip Signal: Trip 50J[2].TripCmd Signal: Trip Command 50J[2].ExBlo1-I Module Input State: External Blocking1 50J[2].ExBlo2-I Module Input State: External Blocking2 50J[2].ExBlo TripCmd-I Module Input State: External Blocking of the Trip Command 37[1].Active Signal: Active 37[1].ExBlo Signal: External Blocking 37[1].Blo TripCmd...
Page 908 EMR-4000 IM02602009E Name Description MLS.Pickup Signal: Pickup MLS.Trip Signal: Trip MLS.ExBlo1-I Module Input State: External Blocking1 MLS.ExBlo2-I Module Input State: External Blocking2 27M[1].Active Signal: Active 27M[1].ExBlo Signal: External Blocking 27M[1].Blo TripCmd Signal: Trip Command blocked 27M[1].ExBlo TripCmd Signal: External Blocking of the Trip Command 27M[1].Pickup Phase A...
Page 909 EMR-4000 IM02602009E Name Description 59M[1].Pickup Signal: Pickup Voltage Element 59M[1].Trip Signal: Trip 59M[1].TripCmd Signal: Trip Command 59M[1].ExBlo1-I Module Input State: External Blocking1 59M[1].ExBlo2-I Module Input State: External Blocking2 59M[1].ExBlo TripCmd-I Module Input State: External Blocking of the Trip Command 59M[2].Active Signal: Active 59M[2].ExBlo...
Page 910 EMR-4000 IM02602009E Name Description 27A[2].ExBlo2-I Module Input State: External Blocking2 27A[2].ExBlo TripCmd-I Module Input State: External Blocking of the Trip Command 59A[1].Active Signal: Active 59A[1].ExBlo Signal: External Blocking 59A[1].Blo TripCmd Signal: Trip Command blocked 59A[1].ExBlo TripCmd Signal: External Blocking of the Trip Command 59A[1].Pickup...
Page 911 EMR-4000 IM02602009E Name Description 46[2].Trip Signal: Trip 46[2].TripCmd Signal: Trip Command 46[2].ExBlo1-I Module Input State: External Blocking1 46[2].ExBlo2-I Module Input State: External Blocking2 46[2].ExBlo TripCmd-I Module Input State: External Blocking of the Trip Command 47[1].Active Signal: Active 47[1].ExBlo Signal: External Blocking 47[1].Blo TripCmd...
Page 912 EMR-4000 IM02602009E Name Description 81[1].Trip Signal: Trip Frequency Protection (collective signal) 81[1].TripCmd Signal: Trip Command 81[1].ExBlo1-I Module Input State: External Blocking1 81[1].ExBlo2-I Module Input State: External Blocking2 81[1].ExBlo TripCmd-I Module Input State: External Blocking of the Trip Command 81[2].Active Signal: Active 81[2].ExBlo...
Page 913 EMR-4000 IM02602009E Name Description 81[3].ExBlo2-I Module Input State: External Blocking2 81[3].ExBlo TripCmd-I Module Input State: External Blocking of the Trip Command 81[4].Active Signal: Active 81[4].ExBlo Signal: External Blocking 81[4].Blo by V< Signal: Module is blocked by undervoltage. 81[4].Blo TripCmd Signal: Trip Command blocked 81[4].ExBlo TripCmd...
Page 914 EMR-4000 IM02602009E Name Description 81[6].ExBlo Signal: External Blocking 81[6].Blo by V< Signal: Module is blocked by undervoltage. 81[6].Blo TripCmd Signal: Trip Command blocked 81[6].ExBlo TripCmd Signal: External Blocking of the Trip Command 81[6].Pickup 81 Signal: Pickup Frequency Protection 81[6].Pickup df/dt | DF/DT Pickup instantaneous or average value of the rate-of-frequency-change 81[6].Pickup Vector Surge...
Page 915 EMR-4000 IM02602009E Name Description 32[3].ExBlo Signal: External Blocking 32[3].Blo TripCmd Signal: Trip Command blocked 32[3].ExBlo TripCmd Signal: External Blocking of the Trip Command 32[3].Pickup Signal: Pickup Power Protection 32[3].Trip Signal: Trip Power Protection 32[3].TripCmd Signal: Trip Command 32[3].ExBlo1-I Module Input State: External Blocking 32[3].ExBlo2-I...
Page 916 EMR-4000 IM02602009E Name Description 32V[3].ExBlo2-I Module Input State: External Blocking 32V[3].ExBlo TripCmd-I Module Input State: External Blocking of the Trip Command PF-55D[1].Active Signal: Active PF-55D[1].ExBlo Signal: External Blocking PF-55D[1].Blo TripCmd Signal: Trip Command blocked PF-55D[1].ExBlo TripCmd Signal: External Blocking of the Trip Command PF-55D[1].Pickup...
Page 917 EMR-4000 IM02602009E Name Description PF-55A[1].ExBlo TripCmd-I Module Input State: External Blocking of the Trip Command PF-55A[2].Active Signal: Active PF-55A[2].ExBlo Signal: External Blocking PF-55A[2].Blo TripCmd Signal: Trip Command blocked PF-55A[2].ExBlo TripCmd Signal: External Blocking of the Trip Command PF-55A[2].Pickup Signal: Pickup Power Factor PF-55A[2].Trip...
Page 918 EMR-4000 IM02602009E Name Description ExP[1].ExBlo TripCmd Signal: External Blocking of the Trip Command ExP[1].Alarm Signal: Alarm ExP[1].Trip Signal: Trip ExP[1].TripCmd Signal: Trip Command ExP[1].ExBlo1-I Module Input State: External Blocking1 ExP[1].ExBlo2-I Module Input State: External Blocking2 ExP[1].ExBlo TripCmd-I Module Input State: External Blocking of the Trip Command ExP[1].Alarm-I...
Page 919 EMR-4000 IM02602009E Name Description ExP[4].Alarm Signal: Alarm ExP[4].Trip Signal: Trip ExP[4].TripCmd Signal: Trip Command ExP[4].ExBlo1-I Module Input State: External Blocking1 ExP[4].ExBlo2-I Module Input State: External Blocking2 ExP[4].ExBlo TripCmd-I Module Input State: External Blocking of the Trip Command ExP[4].Alarm-I Module Input State: Alarm ExP[4].Trip-I...
Page 920 EMR-4000 IM02602009E Name Description URTD.WD6 Superv Signal: Supervision Channel WD6 URTD.MB1 Superv Signal: Supervision Channel MB1 URTD.MB2 Superv Signal: Supervision Channel MB2 URTD.LB1 Superv Signal: Supervision Channel LB1 URTD.LB2 Superv Signal: Supervision Channel LB2 URTD.Aux1 Superv Signal: Supervision Channel Aux1 URTD.Aux2 Superv...
Page 921 EMR-4000 IM02602009E Name Description RTD.WD 5 Alarm Winding 5 Alarm RTD Temperature Protection RTD.WD 5 Timeout Alarm Winding 5 Timeout Alarm RTD.WD 5 Invalid Winding 5 Signal: Invalid Temperature Measurement Value (e.g caused by an defective or interrupted RTD Measurement) RTD.WD 6 Trip...
Page 922 EMR-4000 IM02602009E Name Description RTD.Alarm WD Group Alarm all Windings RTD.TimeoutAlmWDGrp Timeout Alarm all Windings RTD.WD Group Invalid Winding Group Signal: Invalid Temperature Measurement Value (e.g caused by an defective or interrupted RTD Measurement) RTD.Trip MB Group Trip all Motor Bearings RTD.Alarm MB Group...
Page 923 EMR-4000 IM02602009E Name Description BF.Trigger3-I Module Input: Trigger that will start the BF TCM.Active Signal: Active TCM.ExBlo Signal: External Blocking TCM.Pickup Signal: Pickup Trip Circuit Supervision TCM.Not Possible Not possible because no state indicator assigned to the breaker. TCM.CinBkr-52a-I Module Input State: Feed-back signal of the Bkr (52a) TCM.CinBkr-52b-I...
Page 924 EMR-4000 IM02602009E Name Description ECr.Cr OflwW Wh Fwd Signal: Counter Wh Fwd will overflow soon ECr.Cr OflwW Wh Rev Signal: Counter Wh Rev will overflow soon ECr.Cr OflwW VArh Net Signal: Counter VArh Net will overflow soon ECr.Cr OflwW VArh Lag Signal: Counter VArh Lag will overflow soon ECr.Cr OflwW VArh Lead...
Page 925 EMR-4000 IM02602009E Name Description Wired Inputs.Reverse-I State of the module input: Reverse Wired Inputs.GrpSetSelect-I State of the module input: Group Setting Select Wired Inputs.Jog Forward-I State of the module input: JogFow Wired Inputs.Jog reverse-I State of the module input: JogRev Wired Inputs.speed1-I...
Page 926 EMR-4000 IM02602009E Name Description Waveform rec.Start1-I State of the module input:: Trigger event / start recording if: Waveform rec.Start2-I State of the module input:: Trigger event / start recording if: Waveform rec.Start3-I State of the module input:: Trigger event / start recording if: Waveform rec.Start4-I...
Page 927 EMR-4000 IM02602009E Name Description DNP.BinaryOutput19 Virtual Digital Output (DNP). This corresponds to a virtual binary input of the protective device. DNP.BinaryOutput20 Virtual Digital Output (DNP). This corresponds to a virtual binary input of the protective device. DNP.BinaryOutput21 Virtual Digital Output (DNP). This corresponds to a virtual binary input of the protective device.
Page 928 EMR-4000 IM02602009E Name Description DNP.BinaryInput24-I Virtual Digital Input (DNP). This corresponds to a virtual binary output of the protective device. DNP.BinaryInput25-I Virtual Digital Input (DNP). This corresponds to a virtual binary output of the protective device. DNP.BinaryInput26-I Virtual Digital Input (DNP). This corresponds to a virtual binary output of the protective device.
Page 929 EMR-4000 IM02602009E Name Description DNP.BinaryInput61-I Virtual Digital Input (DNP). This corresponds to a virtual binary output of the protective device. DNP.BinaryInput62-I Virtual Digital Input (DNP). This corresponds to a virtual binary output of the protective device. DNP.BinaryInput63-I Virtual Digital Input (DNP). This corresponds to a virtual binary output of the protective device.
Page 930 EMR-4000 IM02602009E Name Description Modbus.Config Bin Inp18-I State of the module input: Config Bin Inp Modbus.Config Bin Inp19-I State of the module input: Config Bin Inp Modbus.Config Bin Inp20-I State of the module input: Config Bin Inp Modbus.Config Bin Inp21-I State of the module input: Config Bin Inp Modbus.Config Bin Inp22-I...
Page 931 EMR-4000 IM02602009E Name Description IEC61850.VirtInp20 Signal: Virtual Input (IEC61850 GGIO Ind) IEC61850.VirtInp21 Signal: Virtual Input (IEC61850 GGIO Ind) IEC61850.VirtInp22 Signal: Virtual Input (IEC61850 GGIO Ind) IEC61850.VirtInp23 Signal: Virtual Input (IEC61850 GGIO Ind) IEC61850.VirtInp24 Signal: Virtual Input (IEC61850 GGIO Ind) IEC61850.VirtInp25 Signal: Virtual Input (IEC61850 GGIO Ind) IEC61850.VirtInp26...
Page 932 EMR-4000 IM02602009E Name Description IEC61850.Quality of GGIO In25 Self-Supervision of the GGIO Input IEC61850.Quality of GGIO In26 Self-Supervision of the GGIO Input IEC61850.Quality of GGIO In27 Self-Supervision of the GGIO Input IEC61850.Quality of GGIO In28 Self-Supervision of the GGIO Input IEC61850.Quality of GGIO In29 Self-Supervision of the GGIO Input...
Page 933 EMR-4000 IM02602009E Name Description IEC61850.SPCSO18 Status bit that can be set by clients like e.g. the Master Communication System (Single Point Controllable Status Output). IEC61850.SPCSO19 Status bit that can be set by clients like e.g. the Master Communication System (Single Point Controllable Status Output).
Page 934 EMR-4000 IM02602009E Name Description IEC61850.VirtOut13-I Module input state: Binary state of the Virtual Output (GGIO) IEC61850.VirtOut14-I Module input state: Binary state of the Virtual Output (GGIO) IEC61850.VirtOut15-I Module input state: Binary state of the Virtual Output (GGIO) IEC61850.VirtOut16-I Module input state: Binary state of the Virtual Output (GGIO) IEC61850.VirtOut17-I...
Page 935 EMR-4000 IM02602009E Name Description Profibus.Comm Cmd 15 Communication Command Profibus.Comm Cmd 16 Communication Command IRIG-B.IRIG-B active Signal: If there is no valid IRIG-B signal for 60 sec, IRIG-B is regarded as inactive. IRIG-B.High-Low Invert Signal: The High and Low signals of the IRIG-B are inverted. This does NOT mean that the wiring is faulty. If the wiring is faulty no IRIG-B signal will be detected.
Page 936 EMR-4000 IM02602009E Name Description Statistics.ResFc I Demand Signal: Resetting of Statistics - Current Demand (avg, peak avg) Statistics.ResFc P Demand Signal: Resetting of Statistics - Power Demand (avg, peak avg) Statistics.ResFc Max Signal: Resetting of all Maximum values Statistics.ResFc Min Signal: Resetting of all Minimum values Statistics.StartFc I Demand-I...
Page 937 EMR-4000 IM02602009E Name Description Logic.LE4.Gate In1-I State of the module input: Assignment of the Input Signal Logic.LE4.Gate In2-I State of the module input: Assignment of the Input Signal Logic.LE4.Gate In3-I State of the module input: Assignment of the Input Signal Logic.LE4.Gate In4-I...
Page 938 EMR-4000 IM02602009E Name Description Logic.LE8.Gate In2-I State of the module input: Assignment of the Input Signal Logic.LE8.Gate In3-I State of the module input: Assignment of the Input Signal Logic.LE8.Gate In4-I State of the module input: Assignment of the Input Signal Logic.LE8.Reset Latch-I...
Page 939 EMR-4000 IM02602009E Name Description Logic.LE12.Gate In3-I State of the module input: Assignment of the Input Signal Logic.LE12.Gate In4-I State of the module input: Assignment of the Input Signal Logic.LE12.Reset Latch-I State of the module input: Reset Signal for the Latching Logic.LE13.Gate Out...
Page 940 EMR-4000 IM02602009E Name Description Logic.LE16.Gate In4-I State of the module input: Assignment of the Input Signal Logic.LE16.Reset Latch-I State of the module input: Reset Signal for the Latching Logic.LE17.Gate Out Signal: Output of the logic gate Logic.LE17.Timer Out Signal: Timer Output Logic.LE17.Out...
Page 941 EMR-4000 IM02602009E Name Description Logic.LE20.Reset Latch-I State of the module input: Reset Signal for the Latching Logic.LE21.Gate Out Signal: Output of the logic gate Logic.LE21.Timer Out Signal: Timer Output Logic.LE21.Out Signal: Latched Output (Q) Logic.LE21.Out inverted Signal: Negated Latched Output (Q NOT) Logic.LE21.Gate In1-I...
Page 942 EMR-4000 IM02602009E Name Description 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 Signal: Negated Latched Output (Q NOT) Logic.LE25.Gate In1-I State of the module input: Assignment of the Input Signal Logic.LE25.Gate In2-I...
Page 943 EMR-4000 IM02602009E Name Description Logic.LE29.Timer Out Signal: Timer Output Logic.LE29.Out Signal: Latched Output (Q) Logic.LE29.Out inverted Signal: Negated Latched Output (Q NOT) Logic.LE29.Gate In1-I State of the module input: Assignment of the Input Signal Logic.LE29.Gate In2-I State of the module input: Assignment of the Input Signal Logic.LE29.Gate In3-I...
Page 944 EMR-4000 IM02602009E Name Description Logic.LE33.Out Signal: Latched Output (Q) Logic.LE33.Out inverted Signal: Negated Latched Output (Q NOT) Logic.LE33.Gate In1-I State of the module input: Assignment of the Input Signal Logic.LE33.Gate In2-I State of the module input: Assignment of the Input Signal Logic.LE33.Gate In3-I...
Page 945 EMR-4000 IM02602009E Name Description Logic.LE37.Out inverted Signal: Negated Latched Output (Q NOT) Logic.LE37.Gate In1-I State of the module input: Assignment of the Input Signal Logic.LE37.Gate In2-I State of the module input: Assignment of the Input Signal Logic.LE37.Gate In3-I State of the module input: Assignment of the Input Signal Logic.LE37.Gate In4-I...
Page 946 EMR-4000 IM02602009E Name Description Logic.LE41.Gate In1-I State of the module input: Assignment of the Input Signal Logic.LE41.Gate In2-I State of the module input: Assignment of the Input Signal Logic.LE41.Gate In3-I State of the module input: Assignment of the Input Signal Logic.LE41.Gate In4-I...
Page 947 EMR-4000 IM02602009E Name Description Logic.LE45.Gate In2-I State of the module input: Assignment of the Input Signal Logic.LE45.Gate In3-I State of the module input: Assignment of the Input Signal Logic.LE45.Gate In4-I State of the module input: Assignment of the Input Signal Logic.LE45.Reset Latch-I...
Page 948 EMR-4000 IM02602009E Name Description Logic.LE49.Gate In3-I State of the module input: Assignment of the Input Signal Logic.LE49.Gate In4-I State of the module input: Assignment of the Input Signal Logic.LE49.Reset Latch-I State of the module input: Reset Signal for the Latching Logic.LE50.Gate Out...
Page 949 EMR-4000 IM02602009E Name Description Logic.LE53.Gate In4-I State of the module input: Assignment of the Input Signal Logic.LE53.Reset Latch-I State of the module input: Reset Signal for the Latching Logic.LE54.Gate Out Signal: Output of the logic gate Logic.LE54.Timer Out Signal: Timer Output Logic.LE54.Out...
Page 950 EMR-4000 IM02602009E Name Description Logic.LE57.Reset Latch-I State of the module input: Reset Signal for the Latching Logic.LE58.Gate Out Signal: Output of the logic gate Logic.LE58.Timer Out Signal: Timer Output Logic.LE58.Out Signal: Latched Output (Q) Logic.LE58.Out inverted Signal: Negated Latched Output (Q NOT) Logic.LE58.Gate In1-I...
Page 951 EMR-4000 IM02602009E Name Description 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 Signal: Negated Latched Output (Q NOT) Logic.LE62.Gate In1-I State of the module input: Assignment of the Input Signal Logic.LE62.Gate In2-I...
Page 952 EMR-4000 IM02602009E Name Description Logic.LE66.Timer Out Signal: Timer Output Logic.LE66.Out Signal: Latched Output (Q) Logic.LE66.Out inverted Signal: Negated Latched Output (Q NOT) Logic.LE66.Gate In1-I State of the module input: Assignment of the Input Signal Logic.LE66.Gate In2-I State of the module input: Assignment of the Input Signal Logic.LE66.Gate In3-I...
Page 953 EMR-4000 IM02602009E Name Description Logic.LE70.Out Signal: Latched Output (Q) Logic.LE70.Out inverted Signal: Negated Latched Output (Q NOT) Logic.LE70.Gate In1-I State of the module input: Assignment of the Input Signal Logic.LE70.Gate In2-I State of the module input: Assignment of the Input Signal Logic.LE70.Gate In3-I...
Page 954 EMR-4000 IM02602009E Name Description Logic.LE74.Out inverted Signal: Negated Latched Output (Q NOT) Logic.LE74.Gate In1-I State of the module input: Assignment of the Input Signal Logic.LE74.Gate In2-I State of the module input: Assignment of the Input Signal Logic.LE74.Gate In3-I State of the module input: Assignment of the Input Signal Logic.LE74.Gate In4-I...
Page 955 EMR-4000 IM02602009E Name Description Logic.LE78.Gate In1-I State of the module input: Assignment of the Input Signal Logic.LE78.Gate In2-I State of the module input: Assignment of the Input Signal Logic.LE78.Gate In3-I State of the module input: Assignment of the Input Signal Logic.LE78.Gate In4-I...
Page 956 EMR-4000 IM02602009E Name Description Sys.Maint Mode Active Signal: Arc Flash Reduction Maintenance Active Sys.Maint Mode Inactive Signal: Arc Flash Reduction Maintenance Inactive Sys.MaintMode Manually Signal: Arc Flash Reduction Maintenance Manual Mode Sys.Maint Mode Comm Signal: Arc Flash Reduction Maintenance Comm Mode Sys.Maint Mode DI...
Page 957 EMR-4000 IM02602009E List of the Digital Inputs The following list comprises all Digital Inputs. This list is used in various Protective Elements (e.g. TCS...). The availability and the number of entries depends on the type of device. Name Description No assignment DI-8P X1.DI 1...
Page 958: List Of Ansi Codes
EMR-4000 IM02602009E List of ANSI Codes EEE C 37.2:2008 ANSI Functions Underspeed Overexcitation Protection (Volts per Hertz) Synchronizing or Synchronizm-check via 4 measuring channel of voltage measurement card Temperature Protection Undervoltage Protection 27(t) Undervoltage (time dependent) Protection Undervoltage Protection (Auxiliar) via 4...
Page 959 EMR-4000 IM02602009E ANSI Functions 60FL Voltage Transformer Supervision Current Transformer Supervision Rotor Earth Fault Protection 64REF Restricted Ground Fault Protection Starts per h (Start Inhibit) Directional Overcurrent Directional Neutral Overcurrent 67Ns Sensitive Directional Neutral Overcurrent 74TC Trip Circuit Supervision Vector Surge Protection...
Page 960 The sole source governing the rights and remedies of any purchaser of this equipment is the contract between the purchaser and Eaton. NO WARRANTIES, EXPRESSED OR IMPLIED, INCLUDING...