EMR-3000 Modbus Register Maps
IM02602007E EMR-3000 Table of Contents Modbus Parameters... 3 Notes for the SCADA-System... 4 Specific Modbus Function Codes... 5 Setting Date and Time... 9 Supported Modbus - Error Messages... 10 Appendix Register Maps... 11 Signals... 11 Measuring Values... 78 s... 101 Settings... 105 ad06dd90594cf7c67e2f745ed4579a87 dbd087cd01393c3254dac849b30a68b7 RMS Handoff: 0 File: C:\p4_data\deliverEMR-3000\generated\EMR-3000_modbus_registers_eaton_en.odt This manual applies to devices (Modbus RTU and Modbus TCP): Version 1.0.c Build: 11385 2 www.eaton.com
EMR-3000 IM02602007E Modbus Parameters For the Modbus Protocol, several parameters have to be set that are relevant for the communication between the control system (SCADA) and the device. The parameters and their setting possibilities or value ranges are shown in the tables that follow. ATTENTION! The parameters are described within the Appendix of the device manual (Modbus section). www.eaton.com 3
IM02602007E EMR-3000 Notes for the SCADA-System When using Modbus RTU the following times have to be considered by the control system and are fixed within the device : The dwell times (t D ) before start of a frame must at least be set to 3.5 characters. Examples: 3.5 characters 9600 Baud = 4 ms 3.5 characters 19200 Baud = 2 ms 3.6 3.5 characters 38400 Baud = 1 ms Start of a new message is expected when the dwell time (t D ) is > 3.5 characters. The fact that the probability of disruptions during transmission of a message increases with its length has to be taken into consideration and thus a query to the Slave should possibly be such that the message is not much longer than 32 bytes. 4 www.eaton.com
EMR-3000 IM02602007E Specific Modbus Function Codes For reading data from the device or to carry out commands, the services listed in the table, also called»function Codes«, are supported. Table 1.1. Function Codes Function-Code Designation 3 Read Holding There are single or several data words read from a specific data word address. Only status addresses and parameter addresses can be read. 4 Read Input There are single or several data words read from a specific data word address. Only measuring values can be read. 5 Write Single Output (Bit) All other values are illegal and will not affect the output. Via this function code. acknowledgments can be executed as well as counters reset or blockings set. 8 Loopback Test Test function for the communication system. 16 Load Multiple There are single or several data words written from a specific data word address. www.eaton.com 5
IM02602007E EMR-3000 On the following pages, the Modbus functions are described in detail: Function-Code 3/4: Query Slave address 3/4 Register address HI Register address LO Register number HI Register number LO Check-sum HI Check-sum LO Response Slave address 3/4 Byte number Register 0 HI Register 0 LO... Check-sum HI Check-sum LO Register address (HI*256 + LO) The data word address from where-reading should start. Register number (HI*256 + LO) Number of data words to be read. Valid range: 1..125 Byte number Number of subsequent bytes containing data words. Register Data words read out of the device (Highbyte and Lowbyte). 6 www.eaton.com
EMR-3000 IM02602007E Function Code 5: Query Slave address 5 Register address HI Register address LO Register data HI Register data LO Check-sum HI Check-sum LO Response Slave address 5 Register address HI Register address LO Register data HI Register data LO Check-sum HI Check-sum LO Register address (HI*256 + LO) Data word address to be written. Register data Value of the data word to be written (Highbyte and Lowbyte). Permitted value range: FF00 hex request for a single byte to be on: This often means to reset a counter, execute acknowledgments, or set blockings signals. 0000 hex request for a single byte to be off: This often means to deactivate blocking signals or to reset single bytes. Function Code 8: Query Slave address 8 Data Diag Code HI 0x00 Data Diag Code LO 0x00 Test data Test data Check-sum HI Check-sum LO Response Slave address 8 Data Diag Code HI Data Diag Code LO Test data Test data Check-sum HI Check-sum LO Data Diag Code HI (high), Data Diag Code LO ( low) Diagnostic Code (sub-function code of function code 8) for testing the communication system. The Diagnostic Code Return Query Data (0x00, 0x00) is being supported. Test Data By using the Diagnostic Code 0x00 0x00, the transmitted data are sent back to the Master unchanged. www.eaton.com 7
IM02602007E EMR-3000 Function Code 16: Query Slave address 16 Register address HI Register address LO Register number HI Register number LO Byte number Register 0 HI Register 0 LO... Check-sum HI Check-sum LO Response Slave address 16 Register address HI Register address LO Register number HI Register number LO Check-sum HI Check-sum LO Register address (HI*256 + LO) Data word address from where writing should start. Register number (HI*256 + LO) Query: Number of data words to be written. Valid range: 1..123 Response: Number of data words written. Byte number Number of subsequent bytes to contain data words. Register Data words read out of the device (Highbyte and Lowbyte). 8 www.eaton.com
EMR-3000 IM02602007E Setting Date and Time Date and time can be set by means of function code 16 and read with function code 3. If the device address 0 (broadcast address) is selected, the times of all devices connected to this bus are simultaneously reset. The devices do not respond to a broadcast command. www.eaton.com 9
IM02602007E EMR-3000 Supported Modbus - Error Messages Exception messages are described within the general Modbus Application Protocol Specification". An exception response table with examples is shown in that specification. For the EMR-3000, Eaton wants to supply more information. The table below contains just the actually used codes. In case the EMR-3000 has recognized an error, it can react in the following manner. Exception Designation Code 1 Illegal Function The message received includes a function code that is not supported by the Slave. 2 Illegal Data Access was sought on a data word address not included in the data module. 3 Illegal Data Value The received message contains an invalid data structure (e.g.: wrong number of data bytes). 4 Slave Device Failure An unrecoverable error occurred while the Server (or Slave) was attempting to perform the requested action. The response given by the EMR-3000 in a failure case has the following format. Slave 0x80 + Function Code Exception Code Checksum HI Checksum LO In the second byte of the response, the Function Code is sent with the highest byte set to 1. This is equivalent to an addition by 0x80. The third byte holds the Exception Code of the error message. 10 www.eaton.com
EMR-3000 IM02602007E Appendix Register Maps Signals Prot 1 1 3 Struct ExBlo1-I 1 1 3 Bit 0x1 ExBlo2-I 1 1 3 Bit 0x2 Active 1 1 3 Bit 0x4 ExBlo 1 1 3 Bit 0x8 Pickup Phase A 1 1 3 Bit 0x10 Pickup Phase B 1 1 3 Bit 0x20 Pickup Phase C 1 1 3 Bit 0x40 Pickup IX or IR 1 1 3 Bit 0x80 Pickup 1 1 3 Bit 0x100 Trip Phase A (*) 1 1 3 Bit 0x200 (4) (6) (7) (8) (9) (10) 1 2 - Signal: Active - Signal: General Pickup Phase A - Signal: General Pickup Phase B - Signal: General Pickup Phase C - Signal: General Pickup - Ground Fault - Signal: General Pickup - Signal: General Trip Phase A www.eaton.com 11
IM02602007E EMR-3000 Trip Phase B (*) 1 1 3 Bit 0x400 Trip Phase C (*) 1 1 3 Bit 0x800 Trip IX or IR (*) 1 1 3 Bit 0x1000 Trip (*) 1 1 3 Bit 0x2000 TripCmd (*) 1 1 3 Bit 0x4000 50P[1] 3 1 3 Struct ExBlo1-I 3 1 3 Bit 0x1 ExBlo2-I 3 1 3 Bit 0x2 ExBlo TripCmd- I 3 1 3 Bit 0x4 Rvs Blo-I 3 1 3 Bit 0x8 Active 3 1 3 Bit 0x10 ExBlo 3 1 3 Bit 0x20 (11) (12) (13) (14) (15) (4) (6) - Signal: General Trip Phase B - Signal: General Trip Phase C - Signal: General Trip Ground Fault - Signal: General Trip 1 2 of the Trip State: Reverse - Signal: Active 12 www.eaton.com
EMR-3000 IM02602007E Rvs Blo 3 1 3 Bit 0x40 Blo TripCmd 3 1 3 Bit 0x80 ExBlo TripCmd 3 1 3 Bit 0x100 50P[1] 4 1 3 Struct Pickup IA 4 1 3 Bit 0x1 Pickup IB 4 1 3 Bit 0x2 Pickup IC 4 1 3 Bit 0x4 Pickup 4 1 3 Bit 0x8 Trip Phase A (*) 4 1 3 Bit 0x10 Trip Phase B (*) 4 1 3 Bit 0x20 Trip Phase C (*) 4 1 3 Bit 0x40 Trip (*) 4 1 3 Bit 0x80 TripCmd (*) 4 1 3 Bit 0x100 (7) (8) (9) (4) (6) (7) (8) (9) - Signal: Reverse blocked of the Trip - Signal: Pickup IA - Signal: Pickup IB - Signal: Pickup IC - Signal: Pickup - Signal: General Trip Phase A - Signal: General Trip Phase B - Signal: General Trip Phase C www.eaton.com 13
IM02602007E EMR-3000 50P[2] 5 1 3 Struct ExBlo1-I 5 1 3 Bit 0x1 ExBlo2-I 5 1 3 Bit 0x2 ExBlo TripCmd- I 5 1 3 Bit 0x4 Rvs Blo-I 5 1 3 Bit 0x8 Active 5 1 3 Bit 0x10 ExBlo 5 1 3 Bit 0x20 Rvs Blo 5 1 3 Bit 0x40 Blo TripCmd 5 1 3 Bit 0x80 ExBlo TripCmd 5 1 3 Bit 0x100 50P[2] 6 1 3 Struct Pickup IA 6 1 3 Bit 0x1 Pickup IB 6 1 3 Bit 0x2 (4) (6) (7) (8) (9) 1 2 of the Trip State: Reverse - Signal: Active - Signal: Reverse blocked of the Trip - Signal: Pickup IA - Signal: Pickup IB 14 www.eaton.com
EMR-3000 IM02602007E Pickup IC 6 1 3 Bit 0x4 Pickup 6 1 3 Bit 0x8 Trip Phase A (*) 6 1 3 Bit 0x10 Trip Phase B (*) 6 1 3 Bit 0x20 Trip Phase C (*) 6 1 3 Bit 0x40 Trip (*) 6 1 3 Bit 0x80 TripCmd (*) 6 1 3 Bit 0x100 50P[3] 7 1 3 Struct ExBlo1-I 7 1 3 Bit 0x1 ExBlo2-I 7 1 3 Bit 0x2 ExBlo TripCmd- I 7 1 3 Bit 0x4 Rvs Blo-I 7 1 3 Bit 0x8 (4) (6) (7) (8) (9) (4) - Signal: Pickup IC - Signal: Pickup - Signal: General Trip Phase A - Signal: General Trip Phase B - Signal: General Trip Phase C 1 2 of the Trip State: Reverse www.eaton.com 15
IM02602007E EMR-3000 Active 7 1 3 Bit 0x10 ExBlo 7 1 3 Bit 0x20 Rvs Blo 7 1 3 Bit 0x40 Blo TripCmd 7 1 3 Bit 0x80 ExBlo TripCmd 7 1 3 Bit 0x100 50P[3] 8 1 3 Struct Pickup IA 8 1 3 Bit 0x1 Pickup IB 8 1 3 Bit 0x2 Pickup IC 8 1 3 Bit 0x4 Pickup 8 1 3 Bit 0x8 Trip Phase A (*) 8 1 3 Bit 0x10 Trip Phase B (*) 8 1 3 Bit 0x20 Trip Phase C (*) 8 1 3 Bit 0x40 (6) (7) (8) (9) (4) (6) (7) - Signal: Active - Signal: Reverse blocked of the Trip - Signal: Pickup IA - Signal: Pickup IB - Signal: Pickup IC - Signal: Pickup - Signal: General Trip Phase A - Signal: General Trip Phase B - Signal: General Trip Phase C 16 www.eaton.com
EMR-3000 IM02602007E Trip (*) 8 1 3 Bit 0x80 TripCmd (*) 8 1 3 Bit 0x100 51P[1] 9 1 3 Struct ExBlo1-I 9 1 3 Bit 0x1 ExBlo2-I 9 1 3 Bit 0x2 ExBlo TripCmd- I 9 1 3 Bit 0x4 Rvs Blo-I 9 1 3 Bit 0x8 Active 9 1 3 Bit 0x10 ExBlo 9 1 3 Bit 0x20 Rvs Blo 9 1 3 Bit 0x40 Blo TripCmd 9 1 3 Bit 0x80 ExBlo TripCmd 9 1 3 Bit 0x100 51P[1] 10 1 3 Struct (8) (9) (4) (6) (7) (8) (9) 1 2 of the Trip State: Reverse - Signal: Active - Signal: Reverse blocked of the Trip www.eaton.com 17
IM02602007E EMR-3000 Pickup IA 10 1 3 Bit 0x1 Pickup IB 10 1 3 Bit 0x2 Pickup IC 10 1 3 Bit 0x4 Pickup 10 1 3 Bit 0x8 Trip Phase A (*) 10 1 3 Bit 0x10 Trip Phase B (*) 10 1 3 Bit 0x20 Trip Phase C (*) 10 1 3 Bit 0x40 Trip (*) 10 1 3 Bit 0x80 TripCmd (*) 10 1 3 Bit 0x100 51P[2] 11 1 3 Struct ExBlo1-I 11 1 3 Bit 0x1 ExBlo2-I 11 1 3 Bit 0x2 (4) (6) (7) (8) (9) - Signal: Pickup IA - Signal: Pickup IB - Signal: Pickup IC - Signal: Pickup - Signal: General Trip Phase A - Signal: General Trip Phase B - Signal: General Trip Phase C 1 2 18 www.eaton.com
EMR-3000 IM02602007E ExBlo TripCmd- I 11 1 3 Bit 0x4 Rvs Blo-I 11 1 3 Bit 0x8 Active 11 1 3 Bit 0x10 ExBlo 11 1 3 Bit 0x20 Rvs Blo 11 1 3 Bit 0x40 Blo TripCmd 11 1 3 Bit 0x80 ExBlo TripCmd 11 1 3 Bit 0x100 51P[2] 12 1 3 Struct Pickup IA 12 1 3 Bit 0x1 Pickup IB 12 1 3 Bit 0x2 Pickup IC 12 1 3 Bit 0x4 Pickup 12 1 3 Bit 0x8 (4) (6) (7) (8) (9) (4) of the Trip State: Reverse - Signal: Active - Signal: Reverse blocked of the Trip - Signal: Pickup IA - Signal: Pickup IB - Signal: Pickup IC - Signal: Pickup www.eaton.com 19
IM02602007E EMR-3000 Trip Phase A (*) 12 1 3 Bit 0x10 Trip Phase B (*) 12 1 3 Bit 0x20 Trip Phase C (*) 12 1 3 Bit 0x40 Trip (*) 12 1 3 Bit 0x80 TripCmd (*) 12 1 3 Bit 0x100 51P[3] 13 1 3 Struct ExBlo1-I 13 1 3 Bit 0x1 ExBlo2-I 13 1 3 Bit 0x2 ExBlo TripCmd- I 13 1 3 Bit 0x4 Rvs Blo-I 13 1 3 Bit 0x8 Active 13 1 3 Bit 0x10 ExBlo 13 1 3 Bit 0x20 (6) (7) (8) (9) (4) (6) - Signal: General Trip Phase A - Signal: General Trip Phase B - Signal: General Trip Phase C 1 2 of the Trip State: Reverse - Signal: Active 20 www.eaton.com
EMR-3000 IM02602007E Rvs Blo 13 1 3 Bit 0x40 Blo TripCmd 13 1 3 Bit 0x80 ExBlo TripCmd 13 1 3 Bit 0x100 51P[3] 14 1 3 Struct Pickup IA 14 1 3 Bit 0x1 Pickup IB 14 1 3 Bit 0x2 Pickup IC 14 1 3 Bit 0x4 Pickup 14 1 3 Bit 0x8 Trip Phase A (*) 14 1 3 Bit 0x10 Trip Phase B (*) 14 1 3 Bit 0x20 Trip Phase C (*) 14 1 3 Bit 0x40 Trip (*) 14 1 3 Bit 0x80 TripCmd (*) 14 1 3 Bit 0x100 (7) (8) (9) (4) (6) (7) (8) (9) - Signal: Reverse blocked of the Trip - Signal: Pickup IA - Signal: Pickup IB - Signal: Pickup IC - Signal: Pickup - Signal: General Trip Phase A - Signal: General Trip Phase B - Signal: General Trip Phase C www.eaton.com 21
IM02602007E EMR-3000 50X[1] 15 1 3 Struct ExBlo1-I 15 1 3 Bit 0x1 ExBlo2-I 15 1 3 Bit 0x2 ExBlo TripCmd- I 15 1 3 Bit 0x4 Rvs Blo-I 15 1 3 Bit 0x8 Active 15 1 3 Bit 0x10 ExBlo 15 1 3 Bit 0x20 Rvs Blo 15 1 3 Bit 0x40 Blo TripCmd 15 1 3 Bit 0x80 ExBlo TripCmd 15 1 3 Bit 0x100 Pickup 15 1 3 Bit 0x400 Trip (*) 15 1 3 Bit 0x800 (4) (6) (7) (8) (9) (11) (12) 1 2 of the Trip State: Reverse - Signal: Active - Signal: Reverse blocked of the Trip - Signal: Pickup IX or IR 22 www.eaton.com
EMR-3000 IM02602007E TripCmd (*) 15 1 3 Bit 0x1000 50X[2] 16 1 3 Struct ExBlo1-I 16 1 3 Bit 0x1 ExBlo2-I 16 1 3 Bit 0x2 ExBlo TripCmd- I 16 1 3 Bit 0x4 Rvs Blo-I 16 1 3 Bit 0x8 Active 16 1 3 Bit 0x10 ExBlo 16 1 3 Bit 0x20 Rvs Blo 16 1 3 Bit 0x40 Blo TripCmd 16 1 3 Bit 0x80 ExBlo TripCmd 16 1 3 Bit 0x100 Pickup 16 1 3 Bit 0x400 (13) (4) (6) (7) (8) (9) (11) 1 2 of the Trip State: Reverse - Signal: Active - Signal: Reverse blocked of the Trip - Signal: Pickup IX or IR www.eaton.com 23
IM02602007E EMR-3000 Trip (*) 16 1 3 Bit 0x800 TripCmd (*) 16 1 3 Bit 0x1000 51X[1] 17 1 3 Struct ExBlo1-I 17 1 3 Bit 0x1 ExBlo2-I 17 1 3 Bit 0x2 ExBlo TripCmd- I 17 1 3 Bit 0x4 Rvs Blo-I 17 1 3 Bit 0x8 Active 17 1 3 Bit 0x10 ExBlo 17 1 3 Bit 0x20 Rvs Blo 17 1 3 Bit 0x40 Blo TripCmd 17 1 3 Bit 0x80 ExBlo TripCmd 17 1 3 Bit 0x100 (12) (13) (4) (6) (7) (8) (9) 1 2 of the Trip State: Reverse - Signal: Active - Signal: Reverse blocked of the Trip 24 www.eaton.com
EMR-3000 IM02602007E Pickup 17 1 3 Bit 0x400 Trip (*) 17 1 3 Bit 0x800 TripCmd (*) 17 1 3 Bit 0x1000 51X[2] 18 1 3 Struct ExBlo1-I 18 1 3 Bit 0x1 ExBlo2-I 18 1 3 Bit 0x2 ExBlo TripCmd- I 18 1 3 Bit 0x4 Rvs Blo-I 18 1 3 Bit 0x8 Active 18 1 3 Bit 0x10 ExBlo 18 1 3 Bit 0x20 Rvs Blo 18 1 3 Bit 0x40 Blo TripCmd 18 1 3 Bit 0x80 (11) (12) (13) (4) (6) (7) (8) - Signal: Pickup IX or IR 1 2 of the Trip State: Reverse - Signal: Active - Signal: Reverse blocked www.eaton.com 25
IM02602007E EMR-3000 ExBlo TripCmd 18 1 3 Bit 0x100 Pickup 18 1 3 Bit 0x400 Trip (*) 18 1 3 Bit 0x800 TripCmd (*) 18 1 3 Bit 0x1000 ExP[1] 49 1 3 Struct ExBlo1-I 49 1 3 Bit 0x1 ExBlo2-I 49 1 3 Bit 0x2 ExBlo TripCmd- I 49 1 3 Bit 0x4 Alarm-I 49 1 3 Bit 0x8 Trip-I 49 1 3 Bit 0x10 Active 49 1 3 Bit 0x20 ExBlo 49 1 3 Bit 0x40 (9) (11) (12) (13) (4) (6) (7) of the Trip - Signal: Pickup IX or IR 1 2 of the Trip State: Alarm State: Trip - Signal: Active 26 www.eaton.com
EMR-3000 IM02602007E Blo TripCmd 49 1 3 Bit 0x80 ExBlo TripCmd 49 1 3 Bit 0x100 Alarm 49 1 3 Bit 0x200 Trip (*) 49 1 3 Bit 0x400 TripCmd (*) 49 1 3 Bit 0x800 ExP[2] 50 1 3 Struct ExBlo1-I 50 1 3 Bit 0x1 ExBlo2-I 50 1 3 Bit 0x2 ExBlo TripCmd- I 50 1 3 Bit 0x4 Alarm-I 50 1 3 Bit 0x8 Trip-I 50 1 3 Bit 0x10 Active 50 1 3 Bit 0x20 (8) (9) (10) (11) (12) (4) (6) blocked of the Trip - Signal: Alarm 1 2 of the Trip State: Alarm State: Trip - Signal: Active www.eaton.com 27
IM02602007E EMR-3000 ExBlo 50 1 3 Bit 0x40 Blo TripCmd 50 1 3 Bit 0x80 ExBlo TripCmd 50 1 3 Bit 0x100 Alarm 50 1 3 Bit 0x200 Trip (*) 50 1 3 Bit 0x400 TripCmd (*) 50 1 3 Bit 0x800 ExP[3] 51 1 3 Struct ExBlo1-I 51 1 3 Bit 0x1 ExBlo2-I 51 1 3 Bit 0x2 ExBlo TripCmd- I 51 1 3 Bit 0x4 Alarm-I 51 1 3 Bit 0x8 Trip-I 51 1 3 Bit 0x10 (7) (8) (9) (10) (11) (12) (4) blocked of the Trip - Signal: Alarm 1 2 of the Trip State: Alarm State: Trip 28 www.eaton.com
EMR-3000 IM02602007E Active 51 1 3 Bit 0x20 ExBlo 51 1 3 Bit 0x40 Blo TripCmd 51 1 3 Bit 0x80 ExBlo TripCmd 51 1 3 Bit 0x100 Alarm 51 1 3 Bit 0x200 Trip (*) 51 1 3 Bit 0x400 TripCmd (*) 51 1 3 Bit 0x800 ExP[4] 52 1 3 Struct ExBlo1-I 52 1 3 Bit 0x1 ExBlo2-I 52 1 3 Bit 0x2 ExBlo TripCmd- I 52 1 3 Bit 0x4 Alarm-I 52 1 3 Bit 0x8 (6) (7) (8) (9) (10) (11) (12) (4) - Signal: Active blocked of the Trip - Signal: Alarm 1 2 of the Trip State: Alarm www.eaton.com 29
IM02602007E EMR-3000 Trip-I 52 1 3 Bit 0x10 Active 52 1 3 Bit 0x20 ExBlo 52 1 3 Bit 0x40 Blo TripCmd 52 1 3 Bit 0x80 ExBlo TripCmd 52 1 3 Bit 0x100 Alarm 52 1 3 Bit 0x200 Trip (*) 52 1 3 Bit 0x400 TripCmd (*) 52 1 3 Bit 0x800 BF 53 1 3 Struct ExBlo1-I 53 1 3 Bit 0x1 ExBlo2-I 53 1 3 Bit 0x2 Active 53 1 3 Bit 0x4 ExBlo 53 1 3 Bit 0x8 (6) (7) (8) (9) (10) (11) (12) (4) State: Trip - Signal: Active blocked of the Trip - Signal: Alarm 1 2 - Signal: Active 30 www.eaton.com
EMR-3000 IM02602007E Trigger1 53 1 3 Bit 0x10 Trigger2 53 1 3 Bit 0x20 Trigger3 53 1 3 Bit 0x40 Pickup 53 1 3 Bit 0x80 Trip (*) 53 1 3 Bit 0x100 Prot 57 1 3 Struct FaultNo 57 1 3 Bit 0xffff Prot 58 1 3 Struct No of grid faults 58 1 3 Bit 0xffff (6) (7) (8) (9) : Trigger that will start the BF : Trigger that will start the BF : Trigger that will start the BF - Signal: BF- Started (Pickup) - Signal: Breaker Failure Trip - Disturbance No. - 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. www.eaton.com 31
IM02602007E EMR-3000 PSet-Switch 59 1 3 Struct PS 1 59 1 3 Bit 0x1 PS 2 59 1 3 Bit 0x2 PS 3 59 1 3 Bit 0x4 PS 4 59 1 3 Bit 0x8 PSS manual 59 1 3 Bit 0x10 PSS via Comm 59 1 3 Bit 0x20 PSS via Inp fct 59 1 3 Bit 0x40 PS1-I 59 1 3 Bit 0x80 (4) (6) (7) (8) - Signal: Parameter Set 1 - Signal: Parameter Set 2 - Signal: Parameter Set 3 - Signal: Parameter Set 4 - Signal: Manual switch over of a Parameter Set - Signal: Parameter Set Switch via Communication - Signal: Parameter Set Switch via Input Function - State of the module input, respectively of the signal, that should activate this Parameter Setting Group. 32 www.eaton.com
EMR-3000 IM02602007E PS2-I 59 1 3 Bit 0x100 PS3-I 59 1 3 Bit 0x200 PS4-I 59 1 3 Bit 0x400 Min. 1 param changed (*) (9) (10) (11) 59 1 3 Bit 0x800 50R[1] 61 1 3 Struct ExBlo1-I 61 1 3 Bit 0x1 ExBlo2-I 61 1 3 Bit 0x2 ExBlo TripCmd- I 61 1 3 Bit 0x4 (12) - State of the module input, respectively of the signal, that should activate this Parameter Setting Group. - State of the module input, respectively of the signal, that should activate this Parameter Setting Group. - State of the module input, respectively of the signal, that should activate this Parameter Setting Group. - Signal: At least one parameter has been changed 1 2 of the Trip www.eaton.com 33
IM02602007E EMR-3000 Rvs Blo-I 61 1 3 Bit 0x8 Active 61 1 3 Bit 0x10 ExBlo 61 1 3 Bit 0x20 Rvs Blo 61 1 3 Bit 0x40 Blo TripCmd 61 1 3 Bit 0x80 ExBlo TripCmd 61 1 3 Bit 0x100 Pickup 61 1 3 Bit 0x400 Trip (*) 61 1 3 Bit 0x800 TripCmd (*) 61 1 3 Bit 0x1000 50R[2] 62 1 3 Struct ExBlo1-I 62 1 3 Bit 0x1 ExBlo2-I 62 1 3 Bit 0x2 (4) (6) (7) (8) (9) (11) (12) (13) State: Reverse - Signal: Active - Signal: Reverse blocked of the Trip - Signal: Pickup IX or IR 1 2 34 www.eaton.com
EMR-3000 IM02602007E ExBlo TripCmd- I 62 1 3 Bit 0x4 Rvs Blo-I 62 1 3 Bit 0x8 Active 62 1 3 Bit 0x10 ExBlo 62 1 3 Bit 0x20 Rvs Blo 62 1 3 Bit 0x40 Blo TripCmd 62 1 3 Bit 0x80 ExBlo TripCmd 62 1 3 Bit 0x100 Pickup 62 1 3 Bit 0x400 Trip (*) 62 1 3 Bit 0x800 TripCmd (*) 62 1 3 Bit 0x1000 51R[1] 63 1 3 Struct ExBlo1-I 63 1 3 Bit 0x1 (4) (6) (7) (8) (9) (11) (12) (13) of the Trip State: Reverse - Signal: Active - Signal: Reverse blocked of the Trip - Signal: Pickup IX or IR 1 www.eaton.com 35
IM02602007E EMR-3000 ExBlo2-I 63 1 3 Bit 0x2 ExBlo TripCmd- I 63 1 3 Bit 0x4 Rvs Blo-I 63 1 3 Bit 0x8 Active 63 1 3 Bit 0x10 ExBlo 63 1 3 Bit 0x20 Rvs Blo 63 1 3 Bit 0x40 Blo TripCmd 63 1 3 Bit 0x80 ExBlo TripCmd 63 1 3 Bit 0x100 Pickup 63 1 3 Bit 0x400 Trip (*) 63 1 3 Bit 0x800 TripCmd (*) 63 1 3 Bit 0x1000 51R[2] 64 1 3 Struct (4) (6) (7) (8) (9) (11) (12) (13) 2 of the Trip State: Reverse - Signal: Active - Signal: Reverse blocked of the Trip - Signal: Pickup IX or IR 36 www.eaton.com
EMR-3000 IM02602007E ExBlo1-I 64 1 3 Bit 0x1 ExBlo2-I 64 1 3 Bit 0x2 ExBlo TripCmd- I 64 1 3 Bit 0x4 Rvs Blo-I 64 1 3 Bit 0x8 Active 64 1 3 Bit 0x10 ExBlo 64 1 3 Bit 0x20 Rvs Blo 64 1 3 Bit 0x40 Blo TripCmd 64 1 3 Bit 0x80 ExBlo TripCmd 64 1 3 Bit 0x100 Pickup 64 1 3 Bit 0x400 Trip (*) 64 1 3 Bit 0x800 TripCmd (*) 64 1 3 Bit 0x1000 (4) (6) (7) (8) (9) (11) (12) (13) 1 2 of the Trip State: Reverse - Signal: Active - Signal: Reverse blocked of the Trip - Signal: Pickup IX or IR www.eaton.com 37
IM02602007E EMR-3000 46[1] 82 1 3 Struct ExBlo1-I 82 1 3 Bit 0x1 ExBlo2-I 82 1 3 Bit 0x2 ExBlo TripCmd- I 82 1 3 Bit 0x4 Active 82 1 3 Bit 0x8 ExBlo 82 1 3 Bit 0x10 Blo TripCmd 82 1 3 Bit 0x20 ExBlo TripCmd 82 1 3 Bit 0x40 Pickup 82 1 3 Bit 0x80 Trip (*) 82 1 3 Bit 0x100 TripCmd (*) 82 1 3 Bit 0x200 46[2] 83 1 3 Struct (4) (6) (7) (8) (9) (10) 1 2 of the Trip - Signal: Active blocked of the Trip - Signal: Pickup Negative Sequence 38 www.eaton.com
EMR-3000 IM02602007E ExBlo1-I 83 1 3 Bit 0x1 ExBlo2-I 83 1 3 Bit 0x2 ExBlo TripCmd- I 83 1 3 Bit 0x4 Active 83 1 3 Bit 0x8 ExBlo 83 1 3 Bit 0x10 Blo TripCmd 83 1 3 Bit 0x20 ExBlo TripCmd 83 1 3 Bit 0x40 Pickup 83 1 3 Bit 0x80 Trip (*) 83 1 3 Bit 0x100 TripCmd (*) 83 1 3 Bit 0x200 BWear 123 1 3 Struct ExBlo1-I 123 1 3 Bit 0x1 (4) (6) (7) (8) (9) (10) 1 2 of the Trip - Signal: Active blocked of the Trip - Signal: Pickup Negative Sequence 1 www.eaton.com 39
IM02602007E EMR-3000 ExBlo2-I 123 1 3 Bit 0x2 Active 123 1 3 Bit 0x4 ExBlo 123 1 3 Bit 0x8 Isum Intr trip 123 1 3 Bit 0x10 Isum Intr trip: IA Isum Intr trip: IB 123 1 3 Bit 0x20 123 1 3 Bit 0x40 (4) (6) (7) 2 - Signal: Active - Signal: Maximum permissible Summation of the interrupting (tripping) currents exceeded in at least one phase. - Signal: Maximum permissible Summation of the interrupting (tripping) currents exceeded: IA - Signal: Maximum permissible Summation of the interrupting (tripping) currents exceeded: IB 40 www.eaton.com
EMR-3000 IM02602007E Isum Intr trip: IC Operations Alarm 123 1 3 Bit 0x80 123 1 3 Bit 0x100 CTS 137 1 3 Struct ExBlo1-I 137 1 3 Bit 0x1 ExBlo2-I 137 1 3 Bit 0x2 Active 137 1 3 Bit 0x4 ExBlo 137 1 3 Bit 0x8 Pickup 137 1 3 Bit 0x10 RO-ZI X2 139 1 3 Struct Bkr Blo-I 139 1 3 Bit 0x1 (8) (9) (4) - Signal: Maximum permissible Summation of the interrupting (tripping) currents exceeded: IC - Signal: Service Alarm, too many Operations 1 2 - Signal: Active - Signal: Pickup Current Transformer Measuring Circuit Supervision - Signal: Blocked by Breaker Failure www.eaton.com 41
IM02602007E EMR-3000 ExBlo1-I 139 1 3 Bit 0x2 ExBlo2-I 139 1 3 Bit 0x4 ExBlo TripCmd- I 139 1 3 Bit 0x8 Bkr Blo 139 1 3 Bit 0x10 Active 139 1 3 Bit 0x20 ExBlo 139 1 3 Bit 0x40 Blo TripCmd 139 1 3 Bit 0x80 ExBlo TripCmd 139 1 3 Bit 0x100 Ground OUT 139 1 3 Bit 0x200 Ground Pickup 139 1 3 Bit 0x400 Ground Trip (*) 139 1 3 Bit 0x800 (4) (6) (7) (8) (9) (10) (11) (12) 1 2 of the Trip - Signal: Blocked by Breaker Failure - Signal: Active blocked of the Trip - Signal: Zone Interlocking Ground OUT - Signal: Zone Interlocking Ground Pickup - Signal: Zone Interlocking Ground Trip 42 www.eaton.com
EMR-3000 IM02602007E Phase OUT 139 1 3 Bit 0x1000 Phase Pickup 139 1 3 Bit 0x2000 Phase Trip (*) 139 1 3 Bit 0x4000 IN 139 1 3 Bit 0x8000 RO-ZI X2 140 1 3 Struct OUT 140 1 3 Bit 0x1 Pickup 140 1 3 Bit 0x2 Trip (*) 140 1 3 Bit 0x4 TripCmd (*) 140 1 3 Bit 0x8 RTD 143 1 3 Struct ExBlo1-I 143 1 3 Bit 0x1 ExBlo2-I 143 1 3 Bit 0x2 (13) (14) (15) (16) (4) - Signal: Zone Interlocking Phase OUT - Signal: Zone Interlocking Phase Pickup - Signal: Zone Interlocking Phase Trip - Signal: Zone Interlocking IN - Signal: Zone Interlocking OUT - Signal: Pickup Zone Interlocking - Signal: Zone Interlocking Trip - Signal: Zone Interlocking Trip 1 2 www.eaton.com 43
IM02602007E EMR-3000 ExBlo TripCmd- I 143 1 3 Bit 0x4 Active 143 1 3 Bit 0x8 ExBlo 143 1 3 Bit 0x10 Blo TripCmd 143 1 3 Bit 0x20 ExBlo TripCmd 143 1 3 Bit 0x40 Alarm 143 1 3 Bit 0x80 Trip (*) 143 1 3 Bit 0x100 TripCmd (*) 143 1 3 Bit 0x200 RTD 144 1 3 Struct WD 1 Alarm 144 1 3 Bit 0x1 WD 1 Timeout Alarm 144 1 3 Bit 0x2 WD 1 Trip (*) 144 1 3 Bit 0x4 (4) (6) (7) (8) (9) (10) of the Trip - Signal: Active blocked of the Trip - Alarm RTD Temperature Protection - Winding 1 Alarm RTD Temperature Protection - Winding 1 Timeout Alarm - Winding 1 Signal: Trip 44 www.eaton.com
EMR-3000 IM02602007E WD 1 Invalid 144 1 3 Bit 0x8 WD 2 Alarm 144 1 3 Bit 0x10 WD 2 Timeout Alarm 144 1 3 Bit 0x20 WD 2 Trip (*) 144 1 3 Bit 0x40 WD 2 Invalid 144 1 3 Bit 0x80 WD 3 Alarm 144 1 3 Bit 0x100 WD 3 Timeout Alarm 144 1 3 Bit 0x200 WD 3 Trip (*) 144 1 3 Bit 0x400 (4) (6) (7) (8) (9) (10) (11) - Winding 1 Signal: Invalid Temperature Measurement Value (e.g caused by an defective or interrupted RTD Measurement) - Winding 2 Alarm RTD Temperature Protection - Winding 2 Timeout Alarm - Winding 2 Signal: Trip - Winding 2 Signal: Invalid Temperature Measurement Value (e.g caused by an defective or interrupted RTD Measurement) - Winding 3 Alarm RTD Temperature Protection - Winding 3 Timeout Alarm - Winding 3 Signal: Trip www.eaton.com 45
IM02602007E EMR-3000 WD 3 Invalid 144 1 3 Bit 0x800 WD 4 Alarm 144 1 3 Bit 0x1000 WD 4 Timeout Alarm (12) (13) 144 1 3 Bit 0x2000 WD 4 Trip (*) 144 1 3 Bit 0x4000 WD 4 Invalid 144 1 3 Bit 0x8000 RTD 145 1 3 Struct WD 5 Alarm 145 1 3 Bit 0x1 WD 5 Timeout Alarm 145 1 3 Bit 0x2 (14) (15) (16) - Winding 3 Signal: Invalid Temperature Measurement Value (e.g caused by an defective or interrupted RTD Measurement) - Winding 4 Alarm RTD Temperature Protection - Winding 4 Timeout Alarm - Winding 4 Signal: Trip - Winding 4 Signal: Invalid Temperature Measurement Value (e.g caused by an defective or interrupted RTD Measurement) - Winding 5 Alarm RTD Temperature Protection - Winding 5 Timeout Alarm 46 www.eaton.com
EMR-3000 IM02602007E WD 5 Trip (*) 145 1 3 Bit 0x4 WD 5 Invalid 145 1 3 Bit 0x8 WD 6 Alarm 145 1 3 Bit 0x10 WD 6 Timeout Alarm 145 1 3 Bit 0x20 WD 6 Trip (*) 145 1 3 Bit 0x40 WD 6 Invalid 145 1 3 Bit 0x80 MB 1 Alarm 145 1 3 Bit 0x100 MB 1 Timeout Alarm 145 1 3 Bit 0x200 (4) (6) (7) (8) (9) (10) - Winding 5 Signal: Trip - Winding 5 Signal: Invalid Temperature Measurement Value (e.g caused by an defective or interrupted RTD Measurement) - Winding 6 Alarm RTD Temperature Protection - Winding 6 Timeout Alarm - Winding 6 Signal: Trip - Winding 6 Signal: Invalid Temperature Measurement Value (e.g caused by an defective or interrupted RTD Measurement) - Motor Bearing 1 Alarm RTD Temperature Protection - Motor Bearing 1 Timeout Alarm www.eaton.com 47
IM02602007E EMR-3000 MB 1 Trip (*) 145 1 3 Bit 0x400 MB 1 Invalid 145 1 3 Bit 0x800 MB 2 Alarm 145 1 3 Bit 0x1000 MB 2 Timeout Alarm (11) (12) (13) 145 1 3 Bit 0x2000 MB 2 Trip (*) 145 1 3 Bit 0x4000 MB 2 Invalid 145 1 3 Bit 0x8000 RTD 146 1 3 Struct LB 1 Alarm 146 1 3 Bit 0x1 (14) (15) (16) - Motor Bearing 1 Signal: Trip - Motor Bearing 1 Signal: Invalid Temperature Measurement Value (e.g caused by an defective or interrupted RTD Measurement) - MB 2 Alarm RTD Temperature Protection - Motor Bearing 2 Timeout Alarm - Motor Bearing 2 Signal: Trip - Motor Bearing 2 Signal: Invalid Temperature Measurement Value (e.g caused by an defective or interrupted RTD Measurement) - LB 1 Alarm RTD Temperature Protection 48 www.eaton.com
EMR-3000 IM02602007E LB 1 Timeout Alarm 146 1 3 Bit 0x2 LB 1 Trip (*) 146 1 3 Bit 0x4 LB 1 Invalid 146 1 3 Bit 0x8 LB 2 Alarm 146 1 3 Bit 0x10 LB 2 Timeout Alarm 146 1 3 Bit 0x20 LB 2 Trip (*) 146 1 3 Bit 0x40 LB 2 Invalid 146 1 3 Bit 0x80 Aux Alarm 146 1 3 Bit 0x100 (4) (6) (7) (8) (9) - Load Bearing 1 Timeout Alarm - Load Bearing 1 Signal: Trip - Load Bearing 1 Signal: Invalid Temperature Measurement Value (e.g caused by an defective or interrupted RTD Measurement) - LB 2 Alarm RTD Temperature Protection - Load Bearing 2 Timeout Alarm - Load Bearing 2 Signal: Trip - Load Bearing 2 Signal: Invalid Temperature Measurement Value (e.g caused by an defective or interrupted RTD Measurement) - Auxiliary Alarm RTD Temperature Protection www.eaton.com 49
IM02602007E EMR-3000 Aux Timeout Alarm 146 1 3 Bit 0x200 Aux Trip (*) 146 1 3 Bit 0x400 Aux Invalid 146 1 3 Bit 0x800 WD Invalid 146 1 3 Bit 0x1000 MB Invalid 146 1 3 Bit 0x2000 Timeout Alarm (*) (10) (11) (12) (13) (14) 146 1 3 Bit 0x4000 RTD 147 1 3 Struct (15) - Auxiliary Timeout Alarm - Auxiliary Signal: Trip - Auxiliary Signal: Invalid Temperature Measurement Value (e.g caused by an defective or interrupted RTD Measurement) - Winding Signal: Invalid Temperature Measurement Value (e.g caused by an defective or interrupted RTD Measurement) - Motor Bearing Signal: Invalid Temperature Measurement Value (e.g caused by an defective or interrupted RTD Measurement) - Alarm timeout expired 50 www.eaton.com
EMR-3000 IM02602007E LB Invalid 147 1 3 Bit 0x1 Alarm all LB 147 1 3 Bit 0x2 Timeout Alarm all LB 147 1 3 Bit 0x4 Trip all LB (*) 147 1 3 Bit 0x8 Alarm all MB 147 1 3 Bit 0x10 Timeout Alarm all MB 147 1 3 Bit 0x20 Trip all MB (*) 147 1 3 Bit 0x40 Alarm all WD 147 1 3 Bit 0x80 Timeout Alarm all WD 147 1 3 Bit 0x100 Trip all WD (*) 147 1 3 Bit 0x200 (4) (6) (7) (8) (9) (10) - Load Bearing Signal: Invalid Temperature Measurement Value (e.g caused by an defective or interrupted RTD Measurement) - Alarm all Load Bearings - Timeout Alarm all Load Bearings - Trip all Load Bearings - Alarm all Motor Bearings - Timeout Alarm all Motor Bearings - Trip all Motor Bearings - Alarm all Windings - Timeout Alarm all WD - Trip all Windings www.eaton.com 51
IM02602007E EMR-3000 Alarm Any Group TimeoutAlmAny Grp Trip Any Group (*) Voting Trip Grp 1 (*) Voting Trip Grp 2 (*) 147 1 3 Bit 0x400 (11) 147 1 3 Bit 0x800 (12) 147 1 3 Bit 0x1000 (13) 147 1 3 Bit 0x2000 (14) 147 1 3 Bit 0x4000 IRIG-B 148 1 3 Struct Active 148 1 3 Bit 0x1 Inverted 148 1 3 Bit 0x2 Control Signal1 148 1 3 Bit 0x4 Control Signal2 148 1 3 Bit 0x8 Control Signal4 148 1 3 Bit 0x10 Control Signal5 148 1 3 Bit 0x20 Control Signal6 148 1 3 Bit 0x40 (15) (4) (6) (7) - Alarm Any Group - Timeout Alarm Any Group - Trip Any Group - Voting Trip Grp 1 - Voting Trip Grp 2 - Signal: Active - Signal: IRIG-B inverted - Signal: IRIG-B Control Signal - Signal: IRIG-B Control Signal - Signal: IRIG-B Control Signal - Signal: IRIG-B Control Signal - Signal: IRIG-B Control Signal 52 www.eaton.com
EMR-3000 IM02602007E Control Signal7 148 1 3 Bit 0x80 Control Signal8 148 1 3 Bit 0x100 Control Signal9 148 1 3 Bit 0x200 Control Signal10 Control Signal11 Control Signal12 Control Signal13 Control Signal14 Control Signal15 (8) (9) (10) 148 1 3 Bit 0x400 (11) 148 1 3 Bit 0x800 (12) 148 1 3 Bit 0x1000 (13) 148 1 3 Bit 0x2000 (14) 148 1 3 Bit 0x4000 (15) 148 1 3 Bit 0x8000 IRIG-B 149 1 3 Struct Control Signal16 Control Signal17 Control Signal18 149 1 3 Bit 0x1 149 1 3 Bit 0x2 149 1 3 Bit 0x4 TCM 150 1 3 Struct (16) - Signal: IRIG-B Control Signal - Signal: IRIG-B Control Signal - Signal: IRIG-B Control Signal - Signal: IRIG-B Control Signal - Signal: IRIG-B Control Signal - Signal: IRIG-B Control Signal - Signal: IRIG-B Control Signal - Signal: IRIG-B Control Signal - Signal: IRIG-B Control Signal - Signal: IRIG-B Control Signal - Signal: IRIG-B Control Signal - Signal: IRIG-B Control Signal www.eaton.com 53
IM02602007E EMR-3000 ExBlo1-I 150 1 3 Bit 0x1 ExBlo2-I 150 1 3 Bit 0x2 Active 150 1 3 Bit 0x4 ExBlo 150 1 3 Bit 0x8 Pickup 150 1 3 Bit 0x10 Not Possible 150 1 3 Bit 0x20 Bkr Pos Detect-I 150 1 3 Bit 0xc0 CinBkr-52a 150 1 3 Bit 0x100 CinBkr-52b 150 1 3 Bit 0x200 Sys 154 1 3 Struct (4) (6) (7) (9) (10) 1 2 - Signal: Active - Signal: Pickup Trip Circuit Supervision - Not possible because no state indicator assigned to the breaker. State: Criterion by which the Breaker Switch Position is to be detected. - Feed-back signal of the Bkr (52a) State: Feedback signal of the Bkr. (52b) 54 www.eaton.com
EMR-3000 IM02602007E Maint Mode Active Maint Mode Manually 154 1 3 Bit 0x1 154 1 3 Bit 0x2 Maint Mode DI 154 1 3 Bit 0x4 Maint Mode Comm Maint Mode Inactive 154 1 3 Bit 0x8 154 1 3 Bit 0x10 Maint Mode-I 154 1 3 Bit 0x20 RO-ZI X2 155 1 3 Struct (4) (6) - Signal: Arc Flash Reduction Maintenance Active - Signal: Arc Flash Reduction Maintenance Manual Mode - Signal: Arc Flash Reduction Maintenance Digital Input Mode - Signal: Arc Flash Reduction Maintenance Comm Mode - Signal: Arc Flash Reduction Maintenance Inactive State: Arc Flash Reduction Maintenance Switch www.eaton.com 55
IM02602007E EMR-3000 DISARMED! 155 1 3 Bit 0x1 Outs forced 155 1 3 Bit 0x2 - Signal: CAUTION! RELAYS DISARMED in order to safely perform maintenance while eliminating the risk of taking an entire process off-line. (Note: Zone Interlocking and Supervision Contact cannot be disarmed). YOU MUST ENSURE that the relays are ARMED AGAIN after maintenance - Signal: The State of at least one Relay Output has been set by force. That means that the state of at least one Relay is forced and hence does not show the state of the assigned signals. 56 www.eaton.com
EMR-3000 IM02602007E ZI OUT 155 1 3 Bit 0x4 RO 1 155 1 3 Bit 0x8 RO 2 155 1 3 Bit 0x10 RO 3 155 1 3 Bit 0x20 MStart 160 1 3 Struct Blo TripCmd 160 1 3 Bit 0x10 Blo 160 1 3 Bit 0x40 ThermalBlock 160 1 3 Bit 0x80 (4) (6) (7) (8) - Signal: Zone Interlocking OUT - Signal: Relay Output - Signal: Relay Output - Signal: Relay Output blocked - Signal: Motor is blocked for starting or transition to Run mode - Signal: Thermal block www.eaton.com 57
IM02602007E EMR-3000 EmgOvr-I 160 1 3 Bit 0x100 INSQ-I 160 1 3 Bit 0x200 Remote Close-I 160 1 3 Bit 0x400 (9) (10) (11) - State of the module input: Emergency Override. Signal has to be active in order to release the thermal capacity of the motor. Please notice that by doing this you run the risk of damaging the motor. EMGOVR has to be set to DI or DI or UI for this input to take effect - State of the module input: INcomplete SeQuence - State of the module input: Remote Close. User can tie a digital input to this input. You will see this signal in the recorder 58 www.eaton.com
EMR-3000 IM02602007E Remote Open-I 160 1 3 Bit 0x800 RemoteReset-I 160 1 3 Bit 0x1000 Motor Start Signal-I (12) (13) 160 1 3 Bit 0x4000 MStart 161 1 3 Struct StartBlock-I 161 1 3 Bit 0x2 Stop-I 161 1 3 Bit 0x4 ThermSwitch-I 161 1 3 Bit 0x8 (15) (4) - State of the module input: Remote Open. User can tie a digital input to this input. You will see this signals in the recorder - State of the module input: Remote Reset - State of the module input: Motor Start Signal. User can tie a digital input to this Input. If "Start-I" becomes true, "StartMotorCom mand" becomes true for at least 500ms. - State of the module input: Start Motor Signal - State of the module input: Stop Motor Signal - State of the module input: Therm Switch www.eaton.com 59
IM02602007E EMR-3000 ZSS-I 161 1 3 Bit 0x10 Active 161 1 3 Bit 0x80 Trip (*) 161 1 3 Bit 0x400 TripCmd (*) 161 1 3 Bit 0x800 INSQSt2RunFai l INSQSP2STFail l (8) (11) (12) 161 1 3 Bit 0x1000 (13) 161 1 3 Bit 0x2000 LATBlock 161 1 3 Bit 0x4000 TripPhaseRever se (*) (14) (15) 161 1 3 Bit 0x8000 MStart 162 1 3 Struct (16) - State of the module input: Zero Speed Switch - Signal: Active - Signal: Fail to transit from start to run based on reported back time - Signal: Fail to transit from stop to start based on reported back time - Signal: Long acceleration timer enforced - Signal: Relay tripped because of phase reverse detection 60 www.eaton.com
EMR-3000 IM02602007E NOCSBlocked 162 1 3 Bit 0x1 RemBlockStart 162 1 3 Bit 0x2 Run 162 1 3 Bit 0x4 Start 162 1 3 Bit 0x8 SPHBlockAlarm 162 1 3 Bit 0x10 SPHBlocked 162 1 3 Bit 0x20 Stop 162 1 3 Bit 0x40 (4) (6) (7) - Signal: Motor is prohibited to start due to number of cold start limits - Signal: Motor is prohibited to start due to external blocking through digital input DI - Signal: Motor is in run mode - Signal: Motor is in start mode - Signal: Motor is prohibited to start due to starts per hour limits, would come active in the next stop - Signal: Motor is prohibited to start due to starts per hour limits - Signal: Motor is in stop mode www.eaton.com 61
IM02602007E EMR-3000 TBSBlocked 162 1 3 Bit 0x80 TransitionTrip (*) 162 1 3 Bit 0x100 ZSSTrip (*) 162 1 3 Bit 0x200 ABKActive 162 1 3 Bit 0x400 EmergOverride DI (8) (9) (10) (11) 162 1 3 Bit 0x800 (12) - Signal: Motor is prohibited to start due to time between starts limits - Signal: Start transition fail trip - Signal: Zero speed trip (possible locked rotor) - Signal: Antibackspin is active. For certain applications, such as pumping a fluid up a pipe, the motor may be driven backward for a period of time after it stops. The antibackspin timer prevents starting the motor while it is spinning in the reverse direction. - Signal: Emergency override start blocking through digital input DI 62 www.eaton.com
EMR-3000 IM02602007E EmergOverride UI 162 1 3 Bit 0x1000 ForcedStart 162 1 3 Bit 0x2000 GOCStartBlock 162 1 3 Bit 0x4000 IOCStartBlock 162 1 3 Bit 0x8000 MStart 163 1 3 Struct (13) (14) (15) (16) - Signal: Emergency override start blocking through front panel - Signal: Motor being forced to start - Signal: Ground Instantaneous Overcurrent Start Delay. GOC (Instantaneous Overcurrent) elements are blocked for the time programmed under this parameter - Signal: Phase Instantaneous Overcurrent Start Delay. IOC (Instantaneous Overcurrent) elements are blocked for the time programmed under this parameter www.eaton.com 63
IM02602007E EMR-3000 JamStartBlock 163 1 3 Bit 0x1 ULoadStartBloc k 163 1 3 Bit 0x2 UnbalStartBlock 163 1 3 Bit 0x4 ColdStartSeq 163 1 3 Bit 0x8 StartMotorCmd 163 1 3 Bit 0x10 (4) - Signal: JAM Start Delay. JAM(Instantane ous Overcurrent) elements are blocked for the time programmed under this parameter - Signal: Underload Start Delay. Underload(Insta ntaneous Overcurrent) elements are blocked for the time programmed under this parameter - Signal: Motor start block current unbalance signal - Signal: Motor cold start sequence flag - Signal: Start motor command 64 www.eaton.com
EMR-3000 IM02602007E MotorStopBlo 163 1 3 Bit 0x20 Blo-Generic1 163 1 3 Bit 0x40 Blo-Generic2 163 1 3 Bit 0x80 Blo-Generic3 163 1 3 Bit 0x100 Blo-Generic4 163 1 3 Bit 0x200 Blo-Generic5 163 1 3 Bit 0x400 I_Transit 163 1 3 Bit 0x800 (6) (7) (8) (9) (10) (11) (12) - Signal: Motor stop block other protection functions - Generic Start Delay. This value can be used to block any protective element.1 - Generic Start Delay. This value can be used to block any protective element.2 - Generic Start Delay. This value can be used to block any protective element.3 - Generic Start Delay. This value can be used to block any protective element.4 - Generic Start Delay. This value can be used to block any protective element.5 - Signal: Current transition signal www.eaton.com 65
IM02602007E EMR-3000 T_Transit 163 1 3 Bit 0x1000 49 164 1 3 Struct ExBlo1 164 1 3 Bit 0x1 ExBlo2 164 1 3 Bit 0x2 ExBlo TripCmd 164 1 3 Bit 0x4 Active 164 1 3 Bit 0x8 ExBlo 164 1 3 Bit 0x10 Blo TripCmd 164 1 3 Bit 0x20 ExBlo TripCmd 164 1 3 Bit 0x40 Pickup 164 1 3 Bit 0x80 Trip (*) 164 1 3 Bit 0x100 TripCmd (*) 164 1 3 Bit 0x200 (13) (4) (6) (7) (8) (9) (10) - Signal: Time transition signal of the Trip - Signal: Active blocked of the Trip - Signal: Pickup 66 www.eaton.com
EMR-3000 IM02602007E Alarm Pickup 164 1 3 Bit 0x400 Alarm Timeout 164 1 3 Bit 0x800 Load above SF 164 1 3 Bit 0x1000 RTD effective 164 1 3 Bit 0x2000 50J[1] 165 1 3 Struct ExBlo1-I 165 1 3 Bit 0x1 ExBlo2-I 165 1 3 Bit 0x2 ExBlo TripCmd- I 165 1 3 Bit 0x4 Active 165 1 3 Bit 0x10 ExBlo 165 1 3 Bit 0x20 Blo TripCmd 165 1 3 Bit 0x40 ExBlo TripCmd 165 1 3 Bit 0x80 (11) (12) (13) (14) (6) (7) (8) - Signal: Alarm Pickup - Signal: Alarm Timeout - Load above Service Factor - RTD effective 1 2 of the Trip - Signal: Active blocked of the Trip www.eaton.com 67
IM02602007E EMR-3000 Pickup 165 1 3 Bit 0x200 Trip (*) 165 1 3 Bit 0x400 TripCmd (*) 165 1 3 Bit 0x800 50J[2] 166 1 3 Struct ExBlo1-I 166 1 3 Bit 0x1 ExBlo2-I 166 1 3 Bit 0x2 ExBlo TripCmd- I 166 1 3 Bit 0x4 Active 166 1 3 Bit 0x10 ExBlo 166 1 3 Bit 0x20 Blo TripCmd 166 1 3 Bit 0x40 ExBlo TripCmd 166 1 3 Bit 0x80 Pickup 166 1 3 Bit 0x200 (10) (11) (12) (6) (7) (8) (10) - Signal: Pickup 1 2 of the Trip - Signal: Active blocked of the Trip - Signal: Pickup 68 www.eaton.com
EMR-3000 IM02602007E Trip (*) 166 1 3 Bit 0x400 TripCmd (*) 166 1 3 Bit 0x800 37[1] 167 1 3 Struct ExBlo1-I 167 1 3 Bit 0x1 ExBlo2-I 167 1 3 Bit 0x2 ExBlo TripCmd- I 167 1 3 Bit 0x4 Active 167 1 3 Bit 0x10 ExBlo 167 1 3 Bit 0x20 Blo TripCmd 167 1 3 Bit 0x40 ExBlo TripCmd 167 1 3 Bit 0x80 Pickup 167 1 3 Bit 0x200 Trip (*) 167 1 3 Bit 0x400 (11) (12) (6) (7) (8) (10) (11) 1 2 of the Trip - Signal: Active blocked of the Trip - Signal: Pickup www.eaton.com 69
IM02602007E EMR-3000 TripCmd (*) 167 1 3 Bit 0x800 37[2] 168 1 3 Struct ExBlo1-I 168 1 3 Bit 0x1 ExBlo2-I 168 1 3 Bit 0x2 ExBlo TripCmd- I 168 1 3 Bit 0x4 Active 168 1 3 Bit 0x10 ExBlo 168 1 3 Bit 0x20 Blo TripCmd 168 1 3 Bit 0x40 ExBlo TripCmd 168 1 3 Bit 0x80 Pickup 168 1 3 Bit 0x200 Trip (*) 168 1 3 Bit 0x400 TripCmd (*) 168 1 3 Bit 0x800 37[3] 169 1 3 Struct (12) (6) (7) (8) (10) (11) (12) 1 2 of the Trip - Signal: Active blocked of the Trip - Signal: Pickup 70 www.eaton.com
EMR-3000 IM02602007E ExBlo1-I 169 1 3 Bit 0x1 ExBlo2-I 169 1 3 Bit 0x2 ExBlo TripCmd- I 169 1 3 Bit 0x4 Active 169 1 3 Bit 0x10 ExBlo 169 1 3 Bit 0x20 Blo TripCmd 169 1 3 Bit 0x40 ExBlo TripCmd 169 1 3 Bit 0x80 Pickup 169 1 3 Bit 0x200 Trip (*) 169 1 3 Bit 0x400 TripCmd (*) 169 1 3 Bit 0x800 MLS 170 1 3 Struct ExBlo1-I 170 1 3 Bit 0x1 (6) (7) (8) (10) (11) (12) 1 2 of the Trip - Signal: Active blocked of the Trip - Signal: Pickup 1 www.eaton.com 71
IM02602007E EMR-3000 ExBlo2-I 170 1 3 Bit 0x2 Active 170 1 3 Bit 0x4 ExBlo 170 1 3 Bit 0x8 Pickup 170 1 3 Bit 0x10 Trip 170 1 3 Bit 0x20 DI Slot X1 1000 1 3 Struct DI 1 1000 1 3 Bit 0x10 DI 2 1000 1 3 Bit 0x20 DI 3 1000 1 3 Bit 0x40 DI 4 1000 1 3 Bit 0x80 RO-3 X2 1003 1 3 Struct RO 1 1003 1 3 Bit 0x4 RO 2 1003 1 3 Bit 0x8 RO 3 1003 1 3 Bit 0x10 (4) (6) (6) (7) (8) (4) 2 - Signal: Active - Signal: Pickup - Signal: Digital Input - Signal: Digital Input - Signal: Digital Input - Signal: Digital Input - Signal: Relay Output - Signal: Relay Output - Signal: Relay Output 72 www.eaton.com
EMR-3000 IM02602007E DISARMED! 1003 1 3 Bit 0x40 Outs forced 1003 1 3 Bit 0x80 Modbus 1005 1 3 Struct (7) (8) - Signal: CAUTION! RELAYS DISARMED in order to safely perform maintenance while eliminating the risk of taking an entire process off-line. (Note: Zone Interlocking and Supervision Contact cannot be disarmed). YOU MUST ENSURE that the relays are ARMED AGAIN after maintenance - Signal: The State of at least one Relay Output has been set by force. That means that the state of at least one Relay is forced and hence does not show the state of the assigned signals. www.eaton.com 73
IM02602007E EMR-3000 Comm Cmd 1 1005 1 3 Bit 0x1 Comm Cmd 2 1005 1 3 Bit 0x2 Comm Cmd 3 1005 1 3 Bit 0x4 Comm Cmd 4 1005 1 3 Bit 0x8 Comm Cmd 5 1005 1 3 Bit 0x10 Comm Cmd 6 1005 1 3 Bit 0x20 Comm Cmd 7 1005 1 3 Bit 0x40 Comm Cmd 8 1005 1 3 Bit 0x80 Comm Cmd 9 1005 1 3 Bit 0x100 Comm Cmd 10 1005 1 3 Bit 0x200 Comm Cmd 11 1005 1 3 Bit 0x400 Comm Cmd 12 1005 1 3 Bit 0x800 Comm Cmd 13 1005 1 3 Bit 0x1000 (4) (6) (7) (8) (9) (10) (11) (12) (13) - Communication - Communication - Communication - Communication - Communication - Communication - Communication - Communication - Communication - Communication - Communication - Communication - Communication 74 www.eaton.com
EMR-3000 IM02602007E Comm Cmd 14 1005 1 3 Bit 0x2000 Comm Cmd 15 1005 1 3 Bit 0x4000 Comm Cmd 16 1005 1 3 Bit 0x8000 Modbus 1006 1 3 Struct Transmission 1006 1 3 Bit 0x1 Modbus 1007 1 3 Struct WD1 Superv 1007 1 3 Bit 0x1 WD2 Superv 1007 1 3 Bit 0x2 WD3 Superv 1007 1 3 Bit 0x4 WD4 Superv 1007 1 3 Bit 0x8 WD5 Superv 1007 1 3 Bit 0x10 WD6 Superv 1007 1 3 Bit 0x20 MB1 Superv 1007 1 3 Bit 0x40 (14) (15) (16) (4) (6) (7) - Communication - Communication - Communication - Signal: Communication Active - Signal: Supervision Channel WD1 - Signal: Supervision Channel WD2 - Signal: Supervision Channel WD3 - Signal: Supervision Channel WD4 - Signal: Supervision Channel WD5 - Signal: Supervision Channel WD6 - Signal: Supervision Channel MB1 www.eaton.com 75
IM02602007E EMR-3000 MB2 Superv 1007 1 3 Bit 0x80 LB1 Superv 1007 1 3 Bit 0x100 LB2 Superv 1007 1 3 Bit 0x200 Aux Superv 1007 1 3 Bit 0x400 Superv 1007 1 3 Bit 0x800 Bkr 1010 1 3 Struct Ready 1010 1 3 Bit 0x1 State 1010 1 3 Bit 0x6 Pos Indeterm 1010 1 3 Bit 0x8 Pos OPEN 1010 1 3 Bit 0x10 (8) (9) (10) (11) (12) (4) - Signal: Supervision Channel MB2 - Signal: Supervision Channel LB1 - Signal: Supervision Channel LB2 - Signal: Supervision Channel Aux - Signal: URTD Supervision Channel - Signal: Breaker is ready for operation. - Signal: Breaker Position (0 = Indeterminate, 1 = OPEN, 2 = CLOSE, 3 = Disturbed) - Signal: Breaker is in Indeterminate Position - Signal: Breaker is in OPEN- Position 76 www.eaton.com
EMR-3000 IM02602007E Pos CLOSE 1010 1 3 Bit 0x20 Pos Disturb 1010 1 3 Bit 0x40 (6) (7) - Signal: Breaker is in CLOSE- Position - Signal: Breaker Disturbed - Undefined Breaker Position. The feed-back signals (Position Indicators) contradict themselves. After expiring of a supervision timer this signal becomes true. Legend * = These Signals have to be acknowledged by the Scada System. www.eaton.com 77
IM02602007E EMR-3000 Measuring Values Date and Time 20000 6 4 Struct y 20000 6 4 Short Word 0 m 20000 6 4 Short Word 1 d 20000 6 4 Short Word 2 h 20000 6 4 Short Word 3 min 20000 6 4 Short Word 4 ms 20000 6 4 Short Word 5 (17) (33) (49) (65) (81) - Year - Month - Days - Hours - Minute - Milliseconds BWear TripCmd Cr 20006 2 4 Float IEE754 - Counter: Total number of trips of the switchgear (breaker, load break switch ).. Values Build 20008 2 4 Float IEE754 - Build Current I0 Fund. 20114 2 4 Float IEE754 A Measured value (calculated): Zero current (Fundamental) 78 www.eaton.com
EMR-3000 IM02602007E Current I1 Fund. 20116 2 4 Float IEE754 A Measured value (calculated): Positive phase sequence current (Fundamental) Current I2 Fund. 20118 2 4 Float IEE754 A Measured value (calculated): Unbalanced load current (Fundamental) BWear Isum trip IA 20182 2 4 Float IEE754 A Summation of the tripping currents phase1. BWear Isum trip IB 20184 2 4 Float IEE754 A Summation of the tripping currents phase2. BWear Isum trip IC 20186 2 4 Float IEE754 A Summation of the tripping currents phase3. Current %IA THD 20216 2 4 Float IEE754 % Measured Value (Calculated): IA Total Harmonic Distortion Current %IB THD 20218 2 4 Float IEE754 % Measured Value (Calculated): IB Total Harmonic Distortion Current %IC THD 20220 2 4 Float IEE754 % Measured Value (Calculated): IC Total Harmonic Distortion www.eaton.com 79
IM02602007E EMR-3000 IRIG-B Edges 20298 2 4 Float IEE754 - Edges IRIG-B NoOfFrameErro rs 20300 2 4 Float IEE754 - Total Number of Frame Errors. Physically corrupted Frame. IRIG-B NoOfFramesOK 20302 2 4 Float IEE754 - Total number valid Frames. Current IA RMS 20316 2 4 Float IEE754 A Measured value: Phase current (RMS) Current IB RMS 20318 2 4 Float IEE754 A Measured value: Phase current (RMS) Current IC RMS 20320 2 4 Float IEE754 A Measured value: Phase current (RMS) Current IX meas RMS 20322 2 4 Float IEE754 A Measured value (measured): IX (RMS) Current IR calc RMS 20324 2 4 Float IEE754 A Measured value (calculated): IR (RMS) URTD WD1 20330 2 4 Float IEE754 C Winding 1 URTD WD2 20332 2 4 Float IEE754 C Winding 2 URTD WD3 20334 2 4 Float IEE754 C Winding 3 80 www.eaton.com
EMR-3000 IM02602007E URTD WD4 20336 2 4 Float IEE754 C Winding 4 URTD WD5 20338 2 4 Float IEE754 C Winding 5 URTD WD6 20340 2 4 Float IEE754 C Winding 6 URTD MB1 20342 2 4 Float IEE754 C Motor Bearing 1 URTD MB2 20344 2 4 Float IEE754 C Motor Bearing 2 URTD LB1 20346 2 4 Float IEE754 C Load Bearing 1 URTD LB2 20348 2 4 Float IEE754 C LB 2 URTD Aux 20350 2 4 Float IEE754 C Auxiliary Current %(I2/I1) 20376 2 4 Float IEE754 % Measured value (calculated): I2/I1 if ABC, I1/I2 if CBA MStart AntiBackSpin 20466 2 4 Float IEE754 s Anti- BackspinTimer MStart IA FLA 20468 2 4 Float IEE754 FLA Measured value: Phase current as percentage of FLA www.eaton.com 81
IM02602007E EMR-3000 MStart IB FLA 20470 2 4 Float IEE754 FLA Measured value: Phase current as percentage of FLA MStart IC FLA 20472 2 4 Float IEE754 FLA Measured value: Phase current as percentage of FLA MStart ColdStartPermit 20474 2 4 Float IEE754 - Number of cold starts remaining MStart StartPerHour 20476 2 4 Float IEE754 - StartPerHour MStart WaitTimeStarts 20478 2 4 Float IEE754 s Wait time between starts remained 49 I2T Used 20482 2 4 Float IEE754 % Thermal capacity used. 49 I2T Remained 20484 2 4 Float IEE754 % Thermal capacity remained. URTD RTD Max 20486 2 4 Float IEE754 C maximum temperature of all channels_ Current IG H2 calc 20500 2 4 Float IEE754 % Measured value (calculated): Ratio of 2nd harmonic over fundamental of IG (calculated) 82 www.eaton.com
EMR-3000 IM02602007E /PowEnMease Hottest WD 20504 2 4 Float IEE754 C Hottest motor winding temperature in degrees C. /PowEnMease Hottest MB 20506 2 4 Float IEE754 C Hottest motor bearing temperature in degrees C. Resettable with "Sys Res OperationsCr" or "All". /PowEnMease Hottest LB 20508 2 4 Float IEE754 C Hottest load bearing temperature in degrees C. Resettable with "Sys Res OperationsCr" or "All". MStart I3PhaseAvg 20510 2 4 Float IEE754 A Average RMS current of all 3 phases as per unit MStart I3PFla avg 20512 2 4 Float IEE754 FLA Average RMS current of all 3 phases as percentages of FLA Current I1 avg Fund. 21072 2 4 Float IEE754 A Average value positive phase sequence current (Fundamental) www.eaton.com 83
IM02602007E EMR-3000 Current I1 max Fund. 21074 2 4 Float IEE754 A Maximum value positive phase sequence current (Fundamental) Current I1 min Fund. 21076 2 4 Float IEE754 A Minimum value positive phase sequence current (Fundamental) Current I2 avg Fund. 21078 2 4 Float IEE754 A Average value unbalanced load current (Fundamental) Current I2 max Fund. 21080 2 4 Float IEE754 A Maximum value unbalanced load current (Fundamental) Current I2 min Fund. 21082 2 4 Float IEE754 A Minimum value unbalanced load current (Fundamental) Statistics MeasPointNo 21114 2 4 Float IEE754 - Each measuring point that is taken over by the statistics increments this counter. By means of this counter, the User can check whether the statistics are alive and if data are being acquired. 84 www.eaton.com
EMR-3000 IM02602007E Current IA avg RMS 21130 2 4 Float IEE754 A IA average value (RMS) Current IB avg RMS 21132 2 4 Float IEE754 A IB average value (RMS) Current IC avg RMS 21134 2 4 Float IEE754 A IC average value (RMS) Current IA max RMS 21136 2 4 Float IEE754 A IA maximum value (RMS) Current IB max RMS 21138 2 4 Float IEE754 A IB maximum value (RMS) Current IC max RMS 21140 2 4 Float IEE754 A IC maximum value (RMS) Current IA min RMS 21142 2 4 Float IEE754 A IA minimum value (RMS) Current IB min RMS 21144 2 4 Float IEE754 A IB minimum value (RMS) Current IC min RMS 21146 2 4 Float IEE754 A IC minimum value (RMS) URTD WD1 avg 21148 2 4 Float IEE754 C Winding1 Average Value URTD WD2 avg 21150 2 4 Float IEE754 C Winding2 Average Value URTD WD3 avg 21152 2 4 Float IEE754 C Winding3 Average Value URTD WD4 avg 21154 2 4 Float IEE754 C Winding4 Average Value www.eaton.com 85
IM02602007E EMR-3000 URTD WD5 avg 21156 2 4 Float IEE754 C Winding5 Average Value URTD WD6 avg 21158 2 4 Float IEE754 C Winding6 Average Value URTD MB1 avg 21160 2 4 Float IEE754 C Motor Bearing1 Average Value URTD MB2 avg 21162 2 4 Float IEE754 C Motor Bearing2 Average Value URTD LB1 avg 21164 2 4 Float IEE754 C Load Bearing1 Average Value URTD LB2 avg 21166 2 4 Float IEE754 C Load Bearing2 Average Value URTD Aux avg 21168 2 4 Float IEE754 C Auxiliary Average Value URTD WD1 min 21170 2 4 Float IEE754 C Winding1 Minimum Value URTD WD2 min 21172 2 4 Float IEE754 C Winding2 Minimum Value URTD WD3 min 21174 2 4 Float IEE754 C Winding3 Minimum Value URTD WD4 min 21178 2 4 Float IEE754 C Winding4 Minimum Value URTD WD5 min 21180 2 4 Float IEE754 C Winding5 Minimum Value URTD WD6 min 21182 2 4 Float IEE754 C Winding6 Minimum Value 86 www.eaton.com
EMR-3000 IM02602007E URTD MB1 min 21184 2 4 Float IEE754 C Motor Bearing1 Minimum Value URTD MB2 min 21186 2 4 Float IEE754 C Motor Bearing2 Minimum Value URTD LB1 min 21188 2 4 Float IEE754 C Load Bearing1 Minimum Value URTD LB2 min 21190 2 4 Float IEE754 C Load Bearing2 Minimum Value URTD Aux min 21192 2 4 Float IEE754 C Auxiliary Minimum Value URTD WD1 max 21194 2 4 Float IEE754 C Winding1 Maximum Value URTD WD2 max 21196 2 4 Float IEE754 C Winding2 Maximum Value URTD WD3 max 21198 2 4 Float IEE754 C Winding3(blank _k)maximum Value URTD WD4 max 21200 2 4 Float IEE754 C Winding4 Maximum Value URTD WD5 max 21202 2 4 Float IEE754 C Winding5 Maximum Value URTD WD6 max 21204 2 4 Float IEE754 C Winding6 Maximum Value URTD MB1 max 21206 2 4 Float IEE754 C Motor Bearing1 Maximum Value URTD MB2 max 21208 2 4 Float IEE754 C Motor Bearing2 Maximum Value www.eaton.com 87
IM02602007E EMR-3000 URTD LB1 max 21210 2 4 Float IEE754 C Load Bearing1 Maximum Value URTD LB2 max 21212 2 4 Float IEE754 C Load Bearing2 Maximum Value URTD Aux max 21214 2 4 Float IEE754 C Auxiliary Maximum Value Current %IA THD max 21250 2 4 Float IEE754 % IATotal Harmonic Distortion maximum value / fundamental Current %IB THD max 21252 2 4 Float IEE754 % IBTotal Harmonic Distortion maximum value / fundamental Current %IC THD max 21254 2 4 Float IEE754 % ICTotal Harmonic Distortion maximum value / fundamental Current Current IR calc avg RMS IR calc max RMS 21454 2 4 Float IEE754 A Measured value (calculated): IR average value (RMS) 21456 2 4 Float IEE754 A Measured value (calculated): IR maximum value (RMS) 88 www.eaton.com
EMR-3000 IM02602007E Current Current Current Current IR calc min RMS IX meas avg RMS IX meas max RMS IX meas min RMS 21458 2 4 Float IEE754 A Measured value (calculated): IR minimum value (RMS) 21460 2 4 Float IEE754 A Measured value: IX average value (RMS) 21462 2 4 Float IEE754 A Measured value: IX maximum value (RMS) 21464 2 4 Float IEE754 A Measured value: IX minimum value (RMS) Current %(I2/I1) avg 21466 2 4 Float IEE754 % Measured value (calculated): I2/I1 maximum value if ABC, I1/I2 if CBA Current %(I2/I1) max 21468 2 4 Float IEE754 % Measured value (calculated): I2/I1 maximum value if ABC, I1/I2 if CBA Current %(I2/I1) min 21470 2 4 Float IEE754 % %(I2/I1) min 50J[1] ntrips 21580 2 4 Float IEE754 - Number of trips since last reset. 50J[2] ntrips 21582 2 4 Float IEE754 - Number of trips since last reset. www.eaton.com 89
IM02602007E EMR-3000 MStart HighestRunI 21584 2 4 Float IEE754 A Highest running phase current. Resettable with "Sys. Res Operations Cr" or "All". MStart HighestStartI 21586 2 4 Float IEE754 A Highest starting phase current. Resettable with "Sys. Res Operations Cr" or "All". MStart OCNT 21588 2 4 Float IEE754 - Motor Operation count since last reset. Resettable with "Sys Res Operations Cr" or "All". MStart RunTime 21590 2 4 Float IEE754 h Motor Operation time since last reset. Resettable with "Sys. Res Operations Cr" or "All". MStart TOCS 21592 2 4 Float IEE754 - Total Motor Operation count since last reset. Resettable with "Sys. Res TotalCr" or "All". 90 www.eaton.com
EMR-3000 IM02602007E MStart TRunTime 21594 2 4 Float IEE754 h Motor Operation (Motor run time) time since last reset. Resettable with "Sys. Res TotalCr" or "All". MStart nemrgovr 21596 2 4 Float IEE754 - Number of emergency overrides since last reset. Resettable with "Sys. Res Operations Cr" or "All". MStart nisqt 21598 2 4 Float IEE754 - Number of incomplete sequence trips since last reset. Resettable with "Sys. Res TripCr" or "All". MStart ntrntrips 21606 2 4 Float IEE754 - Number of transition trips since last reset. Resettable with "Sys. Res TripCr" or "All". MStart nzswtrips 21608 2 4 Float IEE754 - Number of zero speed switch trips since last reset. Resettable with "Sys. Res TripCr" or "All". www.eaton.com 91
IM02602007E EMR-3000 46[1] nrevtrips 21614 2 4 Float IEE754 - Number of reverse spinning trips since last reset. Resettable with "Sys. Res TripCr" or "All". RTD HighestLbTemp 21618 2 4 Float IEE754 C Highest load bearing temperature in degrees. Resettable with "Sys Res OperationsCr" or "All". RTD RTD HighestMbTem p HighestWdTem p 21620 2 4 Float IEE754 C Highest motor bearing temperature in degrees. Resettable with "Sys Res OperationsCr" or "All". 21622 2 4 Float IEE754 C Highest motor winding temperature in degrees. Resettable with "Sys Res OperationsCr" or "All". 92 www.eaton.com
EMR-3000 IM02602007E RTD nauxalarms 21624 2 4 Float IEE754 - Number of auilary temperature alarms since last reset. Resettable with "Sys Res Alarm" or "All". RTD nauxtrips 21626 2 4 Float IEE754 - Number of auilary temperature trips since last reset. Resettable with "Sys Res TripCr" or "All". RTD nchannelfails 21628 2 4 Float IEE754 - Number of RTD channel failures. RTD nlbalarms 21630 2 4 Float IEE754 - Number of load bearing temperature alarms since last reset. Resettable with "Sys Res Alarm" or "All". RTD nlbtrips 21632 2 4 Float IEE754 - Number of load bearing temperature trips since last reset. Resettable with "Sys Res TripCr" or "All". www.eaton.com 93
IM02602007E EMR-3000 RTD nmbalarms 21634 2 4 Float IEE754 - Number of motor bearing temperature alarms since last reset. Resettable with "Sys Res Alarm" or "All". RTD nmbtrips 21636 2 4 Float IEE754 - Number of motor bearing temperature trips since last reset. Resettable with "Sys Res TripCr" or "All". RTD nwdalarms 21638 2 4 Float IEE754 - Number of winding temperature alarms since last reset. Resettable with "Sys Res Alarm" or "All". RTD nwdtrips 21640 2 4 Float IEE754 - Number of winding temperature trips since last reset. Resettable with "Sys Res TripCr" or "All". 37[1] ntrips 21642 2 4 Float IEE754 - Number of trips since last reset. 37[2] ntrips 21644 2 4 Float IEE754 - Number of trips since last reset. 94 www.eaton.com
EMR-3000 IM02602007E 37[3] ntrips 21646 2 4 Float IEE754 - Number of trips since last reset. 37[1] nalarms 21648 2 4 Float IEE754 - Number of alarms since last reset. 37[2] nalarms 21650 2 4 Float IEE754 - Number of alarms since last reset. 37[3] nalarms 21652 2 4 Float IEE754 - Number of alarms since last reset. MStart nsphblocks 21654 2 4 Float IEE754 - Number of start per hour blocks since last reset. Resettable with "Sys. Res Operations Cr" or "All". MStart ntbsblocks 21656 2 4 Float IEE754 - Number of time between start blocks since last reset. Resettable with "Sys. Res Operations Cr" or "All". 49 nalarms 21658 2 4 Float IEE754 - Number of alarms since last reset. 49 ntrips 21660 2 4 Float IEE754 - Number of trips since last reset. 50J[1] nalarms 21662 2 4 Float IEE754 - Number of alarms since last reset. www.eaton.com 95
IM02602007E EMR-3000 50J[2] nalarms 21664 2 4 Float IEE754 - Number of alarms since last reset. 50P[1] nalarms 21666 2 4 Float IEE754 - Number of alarms since last reset. 50P[1] ntrips 21668 2 4 Float IEE754 - Number of trips since last reset. 50P[2] nalarms 21670 2 4 Float IEE754 - Number of alarms since last reset. 50P[2] ntrips 21672 2 4 Float IEE754 - Number of trips since last reset. 50P[3] nalarms 21674 2 4 Float IEE754 - Number of alarms since last reset. 50P[3] ntrips 21676 2 4 Float IEE754 - Number of trips since last reset. 51P[1] nalarms 21678 2 4 Float IEE754 - Number of alarms since last reset. 51P[1] ntrips 21680 2 4 Float IEE754 - Number of trips since last reset. 51P[2] nalarms 21682 2 4 Float IEE754 - Number of alarms since last reset. 51P[2] ntrips 21684 2 4 Float IEE754 - Number of trips since last reset. 51P[3] nalarms 21686 2 4 Float IEE754 - Number of alarms since last reset. 96 www.eaton.com
EMR-3000 IM02602007E 51P[3] ntrips 21688 2 4 Float IEE754 - Number of trips since last reset. 50X[1] nalarms 21690 2 4 Float IEE754 - Number of alarms since last reset. 50X[1] ntrips 21692 2 4 Float IEE754 - Number of trips since last reset. 50X[2] nalarms 21694 2 4 Float IEE754 - Number of alarms since last reset. 50X[2] ntrips 21696 2 4 Float IEE754 - Number of trips since last reset. 51X[1] nalarms 21698 2 4 Float IEE754 - Number of alarms since last reset. 51X[1] ntrips 21700 2 4 Float IEE754 - Number of trips since last reset. 51X[2] nalarms 21702 2 4 Float IEE754 - Number of alarms since last reset. 51X[2] ntrips 21704 2 4 Float IEE754 - Number of trips since last reset. 50R[1] nalarms 21706 2 4 Float IEE754 - Number of alarms since last reset. 50R[1] ntrips 21708 2 4 Float IEE754 - Number of trips since last reset. 50R[2] nalarms 21710 2 4 Float IEE754 - Number of alarms since last reset. www.eaton.com 97
IM02602007E EMR-3000 50R[2] ntrips 21712 2 4 Float IEE754 - Number of trips since last reset. 51R[1] nalarms 21714 2 4 Float IEE754 - Number of alarms since last reset. 51R[1] ntrips 21716 2 4 Float IEE754 - Number of trips since last reset. 51R[2] nalarms 21718 2 4 Float IEE754 - Number of alarms since last reset. 51R[2] ntrips 21720 2 4 Float IEE754 - Number of trips since last reset. MStart Highest%I2/I1 21722 2 4 Float IEE754 % Highest %I2/I1 value since last reset. Resettable with "Sys. Res Operations Cr" or "All". 46[1] nalarms 21724 2 4 Float IEE754 - Number of alarms since last reset. 46[1] ntrips 21726 2 4 Float IEE754 - Number of trips since last reset. 46[2] nalarms 21730 2 4 Float IEE754 - Number of alarms since last reset. 46[2] ntrips 21732 2 4 Float IEE754 - Number of trips since last reset. 98 www.eaton.com
EMR-3000 IM02602007E MStart I3P Fla Demand 21734 2 4 Float IEE754 FLA RMS current of all 3 phases calculated in a fixed demand window as percentages of FLA MStart IA avg FLA 21736 2 4 Float IEE754 FLA IA average value as percentage of FLA MStart IA max FLA 21738 2 4 Float IEE754 FLA IA maximum value as percentage of FLA MStart IA min FLA 21740 2 4 Float IEE754 FLA IA minimum value as percentage of FLA MStart IB avg FLA 21742 2 4 Float IEE754 FLA IB average value as percentage of FLA MStart IB max FLA 21744 2 4 Float IEE754 FLA IB maximum value as percentage of FLA MStart IC min FLA 21746 2 4 Float IEE754 FLA IB minimum value as percentage of FLA MStart IC avg FLA 21748 2 4 Float IEE754 FLA IC average value as percentage of FLA www.eaton.com 99
IM02602007E EMR-3000 MStart IC max FLA 21750 2 4 Float IEE754 FLA IC maximum value as percentage of FLA MStart IC min FLA 21752 2 4 Float IEE754 FLA IC minimum value as percentage of FLA Current IG H2 calc avg 21772 2 4 Float IEE754 % Measured value (calculated): Average ratio of 2nd harmonic over fundamental of IG (calculated) Current IG H2 calc max 21774 2 4 Float IEE754 % Measured value (calculated): Maximum ratio of 2nd harmonic over fundamental of IG (calculated) Current IG H2 calc min 21776 2 4 Float IEE754 % IG H2 calc min 100 www.eaton.com
EMR-3000 IM02602007E s Acknowledge LEDs 22000 1 5 0xFF00 - LEDs Acknowledge Relay Outputs 22001 1 5 0xFF00 - Relay Outputs Acknowledge Comm 22002 1 5 0xFF00 - Communication Acknowledge Device 22003 1 5 0xFF00 - Device Acknowledge Ack TripCmd 22005 1 5 0xFF00 - Signal: Acknowledge Trip Reset Comm Cmd Comm Cmd Comm Cmd Comm Cmd Modbus diagnosis counter Assbl Comm Cmd 1 Assbl Comm Cmd 2 Assbl Comm Cmd 3 Assbl Comm Cmd 4 22006 1 5 0xFF00 - Modbus diagnosis counter 22020 1 5 0xFF00=On 0x0000=Off 22021 1 5 0xFF00=On 0x0000=Off 22022 1 5 0xFF00=On 0x0000=Off 22023 1 5 0xFF00=On 0x0000=Off - Assignable Communication - Assignable Communication - Assignable Communication - Assignable Communication www.eaton.com 101
IM02602007E EMR-3000 Comm Cmd Assbl Comm Cmd 5 22024 1 5 0xFF00=On 0x0000=Off - Assignable Communication Comm Cmd Assbl Comm Cmd 6 22025 1 5 0xFF00=On 0x0000=Off - Assignable Communication Comm Cmd Assbl Comm Cmd 7 22026 1 5 0xFF00=On 0x0000=Off - Assignable Communication Comm Cmd Assbl Comm Cmd 8 22027 1 5 0xFF00=On 0x0000=Off - Assignable Communication Comm Cmd Assbl Comm Cmd 9 22028 1 5 0xFF00=On 0x0000=Off - Assignable Communication Comm Cmd Assbl Comm Cmd 10 22029 1 5 0xFF00=On 0x0000=Off - Assignable Communication Comm Cmd Assbl Comm Cmd 11 22030 1 5 0xFF00=On 0x0000=Off - Assignable Communication Comm Cmd Assbl Comm Cmd 12 22031 1 5 0xFF00=On 0x0000=Off - Assignable Communication 102 www.eaton.com
EMR-3000 IM02602007E Comm Cmd Comm Cmd Comm Cmd Comm Cmd Assbl Comm Cmd 13 Assbl Comm Cmd 14 Assbl Comm Cmd 15 Assbl Comm Cmd 16 22032 1 5 0xFF00=On 0x0000=Off 22033 1 5 0xFF00=On 0x0000=Off 22034 1 5 0xFF00=On 0x0000=Off 22035 1 5 0xFF00=On 0x0000=Off - Assignable Communication - Assignable Communication - Assignable Communication - Assignable Communication PSet-Switch Comm PS1 22050 1 5 0xFF00 - Communication Setting Group1 PSet-Switch Comm PS2 22051 1 5 0xFF00 - Communication Setting Group2 PSet-Switch Comm PS3 22052 1 5 0xFF00 - Communication Setting Group3 PSet-Switch Comm PS4 22053 1 5 0xFF00 - Communication Setting Group4 Maint Mode Maint Mode Comm 22054 1 5 0xFF00 - Signal: Arc Flash Reduction Maintenance Comm Mode Reset I2T Used Reset I2T Used 22055 1 5 Short - Reset thermal capacity used. www.eaton.com 103
IM02602007E EMR-3000 Res OperationsCr Res OperationsCr 22056 1 5 Short - Reset all counters in history group operations Res AlarmCr Res AlarmCr 22057 1 5 Short - Reset all counters in history group alarms Res TripCr Res TripCr 22058 1 5 Short - Reset all counters in history group trips Res TotalCr Res TotalCr 22059 1 5 Short - Reset all counters in history group total Res All Res All 22060 1 5 Short - Reset of all Counters 104 www.eaton.com
EMR-3000 IM02602007E Settings Date and Time 32500 6 3 16 Struct y 32500 6 3 16 Short Word 0 m 32500 6 3 16 Short Word 1 d 32500 6 3 16 Short Word 2 h 32500 6 3 16 Short Word 3 min 32500 6 3 16 Short Word 4 ms 32500 6 3 16 Short Word 5 (17) (33) (49) (65) (81) - Year - Month - Days - Hours - Minute - Milliseconds www.eaton.com 105
IM02602007E EMR-3000 This instruction leaflet is published solely for information purposes and should not be considered all-inclusive. If further information is required, you should consult an authorized Eaton sales representative. The sale of the product shown in this literature is subject to the terms and conditions outlined in appropriate Eaton selling policies or other contractual agreement between the parties. This literature is not intended to and does not enlarge or add to any such contract. 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 WARRANTIES OF FITNESS FOR A PARTICULAR PURPOSE OR MERCHANTABILITY, OR WARRANTIES ARISING FROM COURSE OF DEALING OR USAGE OF TRADE, ARE MADE REGARDING THE INFORMATION, RECOMMENDATIONS, AND DESCRIPTIONS CONTAINED HEREIN. In no event will Eaton be responsible to the purchaser or user in contract, in tort (including negligence), strict liability or otherwise for any special, indirect, incidental or consequential damage or loss whatsoever, including but not limited to damage or loss of use of equipment, plant or power system, cost of capital, loss of power, additional expenses in the use of existing power facilities, or claims against the purchaser or user by its customers resulting from the use of the information, recommendations and description contained herein. Eaton Corporation Electrical Group 1000 Cherrington Parkway Moon Township, PA 15108 ed States 877-ETN-CARE (877-386-2273) Eaton.com 2009 Eaton Corporation All Rights Reserved Printed in USA Publication No. IL02602007E/ 66A2413 PowerChain Management is a registered trademark of Eaton Corporation. All other trademarks are property of their respective owners. 106 www.eaton.com