GE EPM 9650/9800 manual

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Table of contents for the manual

  • Page 1

    NORTH AMERICA 215 Anderson Avenue, Markham, Ontario L6E 1B3 Canada Internet: http: www.Ge industrial.com/multilin EPM 9650/9800 Meters HIGH PERFORMANCE SCADA MONITORS g GE Multilin Modbus Protocol & Register Map for EPM 9650/9800 Meters July 24, 2006 Doc # GE K-113017[...]

  • Page 2

    [...]

  • Page 3

    EPM 9650/9800 Meters Modbus Protocol & Register Map Published by: GE Multilin 215 Anderson A venue Markham, Ontario L6E 1B3 Canada All rights reserved. No part of this publication may be reproduced or transmitted in any form or by any means, electronic or mechanical, including photocopying, recording, or information storage or retrieval systems[...]

  • Page 4

    ii Customer Service and Support Customer service and support is available 24 hours a day , 7 days a week. Please have the model, serial number and a detailed problem description available. If the problem concerns a particular reading, please have all meter readings available. For customer or technical assistance, call:1-888-GE4SER VICE (1-888-434-7[...]

  • Page 5

    iii Table of Contents Chapter 1: Modbus Protocol Overview 1.1: Introduction . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-1 1.2: Communication Packets . . . . . . . . . . . . . . . . . . . . . . . . . . 1-1 1.3: Slave Address and Broadcast Request . . . . . . . . . . . . . . . . . . . . 1-1 1.4: Function Codes . . . . . . . . . . [...]

  • Page 6

    iv T ime of Use Frozen Register 5 Block . . . . . . . . . . . . . . . . . . . . . . 2-68 T ime of Use Frozen Register 6 Block . . . . . . . . . . . . . . . . . . . . . . 2-68 T ime of Use Frozen Register 7 Block . . . . . . . . . . . . . . . . . . . . . . 2-69 T ime of Use Frozen Register 8 Block . . . . . . . . . . . . . . . . . . . . . . 2-69 T i[...]

  • Page 7

    Short T erm Flicker Block . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-94 Long T erm Flicker Block . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-95 Additional Energy Block . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-95 Energy and Pulses in the Interval . . . . . . . . . . . . . . . . . . . . . . . 2-96 Flicker Count[...]

  • Page 8

    W indow Index Block . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-132 W indow Mode Block . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-132 W indow Block . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-133 Auto Increment W indow Block . . . . . . . . . . . . . . . . . . . . . . . . 2-134 Alarm Block . . . . . [...]

  • Page 9

    External Digital Input Module Labels Block . . . . . . . . . . . . . . . . . . 2-172 External Digital Output Module Labels Block . . . . . . . . . . . . . . . . . 2-175 Internal Modem Card Settings Block . . . . . . . . . . . . . . . . . . . . . 2-177 Customizable Modbus Map Settings Block . . . . . . . . . . . . . . . . . . . 2-177 Network Setting[...]

  • Page 10

    3.20: T ype F20 Energy Counter (Binary / Primary) . . . . . . . . . . . . . . . 3-16 3.21: T ype F21 Y ear . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-17 3.22: T ype F22 TOU Profile per Day . . . . . . . . . . . . . . . . . . . . . 3-17 3.23: T ype F23 TOU Profile Status . . . . . . . . . . . . . . . . . . . . . . 3-18 3.24: T ype F[...]

  • Page 11

    Chapter 4: Modbus Register Map Notes 4.1: Modbus Register Map Notes . . . . . . . . . . . . . . . . . . . . . . . 4-1 Chapter 5: Logs, Port Control and Updating Programmable Settings 5.1: Downloading Logs—Overview . . . . . . . . . . . . . . . . . . . . . . 5-1 5.1.1: Steps for Downloading a Log . . . . . . . . . . . . . . . . . . . . . 5-3 5.1.2[...]

  • Page 12

    7.14: Exception Profile Block (45953-45968) . . . . . . . . . . . . . . . . . . . 7-8 7.15: Device Label Settings Block (45969-45992) . . . . . . . . . . . . . . . . . 7-9 7.16: Network Settings Block (45993-46016) . . . . . . . . . . . . . . . . . . . 7-9 7.17: Block W indow A verage External Synchronization Block (46017) . . . . . . . 7-1 1 7.18:[...]

  • Page 13

    8.9: Maximum T ime Stamp Block (000498-00737) . . . . . . . . . . . . . . . . 8-3 8.10: Minimum T ime Stamp Block (00738-00977) . . . . . . . . . . . . . . . . 8-3 8.1 1: Energy Block (Secondary) (00978-01021) . . . . . . . . . . . . . . . . . . 8-3 8.12: Harmonic Magnitude Block (01022-01789) . . . . . . . . . . . . . . . . . 8-4 8.13: Harmonic Ph[...]

  • Page 14

    8.58: Log Index Block (06647-06664) . . . . . . . . . . . . . . . . . . . . . 8-1 1 8.59: Uncompensated & Q Block (06665-06670) . . . . . . . . . . . . . . . . 8-1 1 8.60: Scaled Energy Block (06908-07829) . . . . . . . . . . . . . . . . . . . 8-11 8.61: T otal A verage Power Factor Block (07830-07859) . . . . . . . . . . . . . . 8-1 1 8.62: Re[...]

  • Page 15

    8.107: Dynamic Configuration Block (65345-65349) . . . . . . . . . . . . . . . 8-36 8.108: Hardware Options Block (65361-65368) . . . . . . . . . . . . . . . . . 8-36 8.109: Flash Control Block (65409-65498) . . . . . . . . . . . . . . . . . . . 8-39 8.1 10: Enhanced Serial Number (65533-65534) . . . . . . . . . . . . . . . . . 8-43 8.1 1 1: Serial[...]

  • Page 16

    xiv[...]

  • Page 17

    1-1 Chapt er 1 Modbus Protocol Overview 1.1: Introduction Q EPM Monitors can communicate with other devices using the R TU transmission mode of the AEG Modicon Modbus protocol. Communication is available through RS232 or RS485 standards. • RS232 communication supports a single connection between one EPM Meter and one other device, available on th[...]

  • Page 18

    1-2 1.4: Function Codes A packet’ s Function Code tells the addressed Slave what action to perform. EPM devices support the following Modbus Function Codes: 1.4.1: F unction Code 03—Read Holding Registers Q This function allows a Master station to read one or more parameter values (data registers) from an EPM Slave. The data registers are 16-bi[...]

  • Page 19

    1-3 1.4.2: Function Code 06 —Preset Single Register Q This function allows a Master station to modify a single register in an EPM Slave. The data registers are 16-bit (two byte) values transmitted high-ordered byte first, low-ordered byte second. Q In the following example, a Master device stores the value 0001H at Register 57346 in an EPM Slave [...]

  • Page 20

    1-4 1.5: CRC (Error Checksum) Algorithm Q The Cyclic Redundancy Check (CRC) field is an error checksum calculation that enables a Slave device to determine if a request packet has been corrupted during transmission. Q Every request packet transmitted from Master to Slave includes a special 16-bit value derived from a CRC-16 algorithm performed on t[...]

  • Page 21

    1-5 T able 1.5: Exception Response (Error Codes) 02 03 06 Illegal Data Address Illegal Data V alue Busy , Rejected Packet The Slave does not recognize the address in the data field of the transmitted request packet. The value referenced in the transmitted request packet is not supported by the register on the EPM Slave. The Slave is busy performing[...]

  • Page 22

    1-6 Q In the following example, a Master Device requests an EPM Slave at address 01H to transmit the value at Register 00256. The Slave replies with an error , indicating that it is busy . Meaning Hex Meaning Hex Address 01H Address 01H Function Code 03H Function Code 83H Data S tarting Address-Hi 01H Error Code 06H Data S tarting Address-Lo 00H CR[...]

  • Page 23

    1-7 1.8.1: Function Code 23H - Read Holding Registers Multiple Times This function allows a Master station to read the binary contents of holding registers (4X references) in the slave multiple times. Broadcast is not supported. The Master device sends a packet defining the starting register , quantity of registers to be read and the repeat count. [...]

  • Page 24

    1-8 Here is an example of a response to the query given earlier: Field Name Example (Hex) Slave Address 1 1 Function Code 23 Byte Count Hi 00 Byte Count Lo 0C Data Hi (Register 40108, First Read) 02 Data Lo (Register 40108, First Read) 2B Data Hi (Register 40109, First Read) 00 Data Lo (Register 40109, First Read) 00 Data Hi (Register 401 10, First[...]

  • Page 25

    1-9 While the DNP over TCP Connections may be closed at the decision of the Network Card, as would be conveyed by the New Association bit with the next received connection, the Main device might also determine that the current DNP over TCP Connection should be closed. The request to close the current DNP over TCP Connection will have to be held in [...]

  • Page 26

    1-10 In the request or response PDU, Link Status bit 0 indicates TCP (0) or UDP (1). In the request PDU, Link Status bit 1 indicates a continuation of the Current Association (0) or the start of a New Association (1). Here is an example of a pair of requests where a DNP over TCP connection was established with a client at IP Address 1.2.3.4, port 2[...]

  • Page 27

    1-11 Request PDU Field Name (Hex) DNP Field Name Address 0x001 Function 0x042 S tatus 0x000 IP Add Quad 1 0x001 IP Add Quad 3 0x002 IP Add Quad 3 0x003 IP Add Quad 4 0x004 Client Port Hi 0x04E Client Port Lo 0x020 Byte Count Hi 0x000 Byte Count Lo 0x005 DNP octet 0x000 Source Hi DNP octet 0x0E0 CRC Lo DNP octet 0x08C CRC Hi DNP octet 0x005 S tart D[...]

  • Page 28

    1-12[...]

  • Page 29

    2-0 Chapt er 2 EPM Modbus Register Map Q The EPM Modbus Register Map begins on the following page. One Second Readings use the One Second Block, Registers 00176-00235, described in Section 8.5. Resetting Maximums, Minimums, Energy Readings and/or Logs use the Action Block, Registers 57345-57393, described in Section 8.71. T ime may be set in the de[...]

  • Page 30

    [...]

  • Page 31

    Address Line Pt DNP Ob j Description Range Units Type R/W 00001-00008 0 0 Device Name F1 R 00009-00016 1 0 Firmware Variation String 1 F1 R 00017-00024 1 1 Firmware Variation String 2 F1 R 00025-00032 1 2 Firmware Variation String 3 F1 R 00033-00040 1 3 Firmware Variation String 4 F1 R 00041-00048 1 4 Firmware Variation String 5 F1 R 00049-00056 1 [...]

  • Page 32

    Address Line Pt DNP Ob j Description Range Units Type R/W 00119-00122 17 0 50 Tenth second Block Time Stamp 12/31/9999 23:59:59.99 10 msec F3 R 00123-00124 18 0 30 Tenth second Phase A-N Voltage +32767 V / 0 V 1/ 65536 V sec F7 R 00125-00126 18 1 30 Tenth second Phase B-N Voltage +32767 V / 0 V 1/ 65536 V sec F7 R 00127-00128 18 2 30 Tenth second P[...]

  • Page 33

    Address Line Pt DNP Ob j Description Range Units Type R/W 00180-00181 34 0 30 One second Phase A-N Voltage + 32767 V / 0 V 1/ 65536 V sec F7 R 00182-00183 34 1 30 One second Phase B-N Voltage + 32767 V / 0 V 1/ 65536 V sec F7 R 00184-00185 34 2 30 One second Phase C-N Voltage + 32767 V / 0 V 1/ 65536 V sec F7 R 00186-00187 35 0 30 One second Auxili[...]

  • Page 34

    Address Line Pt DNP Ob j Description Range Units Type R/W 00240-00241 51 0 30 Thermal Average Phase A-N Voltage + 32767 V / 0 V 1/ 65536 V sec F7 R 00242-00243 51 1 30 Thermal Average Phase B-N Voltage + 32767 V / 0 V 1/ 65536 V sec F7 R 00244-00245 51 2 30 Thermal Average Phase C-N Voltage + 32767 V / 0 V 1/ 65536 V sec F7 R 00246-00247 52 0 30 Th[...]

  • Page 35

    Address Line Pt DNP Ob j Description Range Units Type R/W 00300-00301 68 0 30 Maximum Thermal Average Phase A-N Voltage + 32767 V / 0 V 1/ 65536 V sec F7 R 00302-00303 68 1 30 Maximum Thermal Average Phase B-N Voltage + 32767 V / 0 V 1/ 65536 V sec F7 R 00304-00305 68 2 30 Maximum Thermal Average Phase C-N Voltage + 32767 V / 0 V 1/ 65536 V sec F7 [...]

  • Page 36

    Address Line Pt DNP Ob j Description Range Units Type R/W 00366 85 0 30 Maximum Thermal Average Phase A Power Factor Quadrant 1 0.999 / 0 0.001 PF F8 R 00367 85 1 30 Maximum Thermal Average Phase B Power Factor Quadrant 1 0.999 / 0 0.001 PF F8 R 00368 85 2 30 Maximum Thermal Average Phase C Power Factor Quadrant 1 0.999 / 0 0.001 PF F8 R 00369 86 0[...]

  • Page 37

    Address Line Pt DNP Ob j Description Range Units Type R/W 00405-00406 99 2 30 Minimum Thermal Average Phase C-N Voltage + 32767 V / 0 V 1/ 65536 V sec F7 R 00407-00408 100 0 30 Minimum Thermal Average Auxiliary Voltage + 32767 V / 0 V 1/ 65536 V sec F7 R 00409-00410 101 0 30 Minimum Thermal Average Phase A Current + 32767 A / 0 A 1/ 65536 A sec F7 [...]

  • Page 38

    Address Line Pt DNP Ob j Description Range Units Type R/W 00469 116 2 30 Minimum Thermal Average Phase C Power Factor Quadrant 1 0.999 / 0 0.001 PF F8 R 00470 117 0 30 Minimum Thermal Average Power Factor Quadrant 1 0.999 / 0 0.001 PF F8 R 00471 118 0 30 Minimum Thermal Average Phase A Power Factor Quadrant 2 1.999 / /1.000 0.001 PF F8 R 00472 118 [...]

  • Page 39

    Address Line Pt DNP Ob j Description Range Units Type R/W 00518-00521 129 5 50 Maximum Thermal Average Phase B Current Time Stamp 12/31/9999 23:59:59.99 10 msec F3 R 00522-00525 129 6 50 Maximum Thermal Average Phase C Current Time Stamp 12/31/9999 23:59:59.99 10 msec F3 R 00526-00529 129 7 50 Maximum Thermal Average Measured Neutral Current Time S[...]

  • Page 40

    Address Line Pt DNP Ob j Description Range Units Type R/W 00650-00653 129 38 50 Maximum Thermal Average Phase B Power Factor Quadrant 2 Time Stamp 12/31/9999 23:59:59.99 10 msec F3 R 00654-00657 129 39 50 Maximum Thermal Average Phase C Power Factor Quadrant 2 Time Stamp 12/31/9999 23:59:59.99 10 msec F3 R 00658-00661 129 40 50 Maximum Thermal Aver[...]

  • Page 41

    Address Line Pt DNP Ob j Description Range Units Type R/W 00778-00781 130 10 50 Minimum Thermal Average Phase B-C Voltage Time Stamp 12/31/9999 23:59:59.99 10 msec F3 R 00782-00785 130 11 50 Minimum Thermal Average Phase C-A Voltage Time Stamp 12/31/9999 23:59:59.99 10 msec F3 R 00786-00789 130 12 50 Minimum Thermal Average Phase A VA Time Stamp 12[...]

  • Page 42

    Address Line Pt DNP Ob j Description Range Units Type R/W 00910-00913 130 43 50 Minimum Thermal Average Phase C Power Factor Quadrant 3 Time Stamp 12/31/9999 23:59:59.99 10 msec F3 R 00914-00917 130 44 50 Minimum Thermal Average Power Factor Quadrant 3 Time Stamp 12/31/9999 23:59:59.99 10 msec F3 R 00918-00921 130 45 50 Minimum Thermal Average Phas[...]

  • Page 43

    Address Line Pt DNP Ob j Description Range Units Type R/W 01025 134 3 30 Phase A-N / Phase A-B Voltage 3 rd Harmonic Magnitude +327.67% / -327.68% 0.01% F10 R 01026 134 4 30 Phase A-N / Phase A-B Voltage 4 th Harmonic Magnitude +327.67% / -327.68% 0.01% F10 R 01027 134 5 30 Phase A-N / Phase A-B Voltage 5 th Harmonic Magnitude +327.67% / -327.68% 0[...]

  • Page 44

    Address Line Pt DNP Ob j Description Range Units Type R/W 01058 137 4 30 Phase A-N / Phase A-B Voltage 36 th Harmonic Magnitude +327.67% / -327.68% 0.01% F10 R 01059 137 5 30 Phase A-N / Phase A-B Voltage 37 th Harmonic Magnitude +327.67% / -327.68% 0.01% F10 R 01060 137 6 30 Phase A-N / Phase A-B Voltage 38 th Harmonic Magnitude +327.67% / -327.68[...]

  • Page 45

    Address Line Pt DNP Ob j Description Range Units Type R/W 01091 138 5 30 Phase A-N / Phase A-B Voltage 69 th Harmonic Magnitude +327.67% / -327.68% 0.01% F10 R 01092 138 6 30 Phase A-N / Phase A-B Voltage 70 th Harmonic Magnitude +327.67% / -327.68% 0.01% F10 R 01093 138 7 30 Phase A-N / Phase A-B Voltage 71 st Harmonic Magnitude +327.67% / -327.68[...]

  • Page 46

    Address Line Pt DNP Ob j Description Range Units Type R/W 01124 138 38 30 Phase A-N / Phase A-B Voltage 102 nd Harmonic Magnitude +327.67% / -327.68% 0.01% F10 R 01125 138 39 30 Phase A-N / Phase A-B Voltage 103 rd Harmonic Magnitude +327.67% / -327.68% 0.01% F10 R 01126 138 40 30 Phase A-N / Phase A-B Voltage 104 th Harmonic Magnitude +327.67% / -[...]

  • Page 47

    Address Line Pt DNP Ob j Description Range Units Type R/W 01157 139 7 30 Phase B-N / Phase B-C Voltage 7 th Harmonic Magnitude +327.67% / -327.68% 0.01% F10 R 01158 140 0 30 Phase B-N / Phase B-C Voltage 8 th Harmonic Magnitude +327.67% / -327.68% 0.01% F10 R 01159 140 1 30 Phase B-N / Phase B-C Voltage 9 th Harmonic Magnitude +327.67% / -327.68% 0[...]

  • Page 48

    Address Line Pt DNP Ob j Description Range Units Type R/W 01190 142 8 30 Phase B-N / Phase B-C Voltage 40 th Harmonic Magnitude +327.67% / -327.68% 0.01% F10 R 01191 142 9 30 Phase B-N / Phase B-C Voltage 41 st Harmonic Magnitude +327.67% / -327.68% 0.01% F10 R 01192 142 10 30 Phase B-N / Phase B-C Voltage 42 nd Harmonic Magnitude +327.67% / -327.6[...]

  • Page 49

    Address Line Pt DNP Ob j Description Range Units Type R/W 01223 143 9 30 Phase B-N / Phase B-C Voltage 73 rd Harmonic Magnitude +327.67% / -327.68% 0.01% F10 R 01224 143 10 30 Phase B-N / Phase B-C Voltage 74 th Harmonic Magnitude +327.67% / -327.68% 0.01% F10 R 01225 143 11 30 Phase B-N / Phase B-C Voltage 75 th Harmonic Magnitude +327.67% / -327.[...]

  • Page 50

    Address Line Pt DNP Ob j Description Range Units Type R/W 01256 143 42 30 Phase B-N / Phase B-C Voltage 106 th Harmonic Magnitude +327.67% / -327.68% 0.01% F10 R 01257 143 43 30 Phase B-N / Phase B-C Voltage 107 th Harmonic Magnitude +327.67% / -327.68% 0.01% F10 R 01258 143 44 30 Phase B-N / Phase B-C Voltage 108 th Harmonic Magnitude +327.67% / -[...]

  • Page 51

    Address Line Pt DNP Ob j Description Range Units Type R/W 01289 145 3 30 Phase C-N / Phase C-A Voltage 11 th Harmonic Magnitude +327.67% / -327.68% 0.01% F10 R 01290 145 4 30 Phase C-N / Phase C-A Voltage 12 th Harmonic Magnitude +327.67% / -327.68% 0.01% F10 R 01291 145 5 30 Phase C-N / Phase C-A Voltage 13 th Harmonic Magnitude +327.67% / -327.68[...]

  • Page 52

    Address Line Pt DNP Ob j Description Range Units Type R/W 01322 147 12 30 Phase C-N / Phase C-A Voltage 44 th Harmonic Magnitude +327.67% / -327.68% 0.01% F10 R 01323 147 13 30 Phase C-N / Phase C-A Voltage 45 th Harmonic Magnitude +327.67% / -327.68% 0.01% F10 R 01324 147 14 30 Phase C-N / Phase C-A Voltage 46 th Harmonic Magnitude +327.67% / -327[...]

  • Page 53

    Address Line Pt DNP Ob j Description Range Units Type R/W 01355 148 13 30 Phase C-N / Phase C-A Voltage 77 th Harmonic Magnitude +327.67% / -327.68% 0.01% F10 R 01356 148 14 30 Phase C-N / Phase C-A Voltage 78 th Harmonic Magnitude +327.67% / -327.68% 0.01% F10 R 01357 148 15 30 Phase C-N / Phase C-A Voltage 79 th Harmonic Magnitude +327.67% / -327[...]

  • Page 54

    Address Line Pt DNP Ob j Description Range Units Type R/W 01388 148 46 30 Phase C-N / Phase C-A Voltage 110 th Harmonic Magnitude +327.67% / -327.68% 0.01% F10 R 01389 148 47 30 Phase C-N / Phase C-A Voltage 111 th Harmonic Magnitude +327.67% / -327.68% 0.01% F10 R 01390 148 48 30 Phase C-N / Phase C-A Voltage 112 th Harmonic Magnitude +327.67% / -[...]

  • Page 55

    Address Line Pt DNP Ob j Description Range Units Type R/W 01421 150 7 30 Phase A Current 15 th Harmonic Magnitude +327.67% / -327.68% 0.01% F10 R 01422 151 0 30 Phase A Current 16 th Harmonic Magnitude +327.67% / -327.68% 0.01% F10 R 01423 151 1 30 Phase A Current 17 th Harmonic Magnitude +327.67% / -327.68% 0.01% F10 R 01424 151 2 30 Phase A Curre[...]

  • Page 56

    Address Line Pt DNP Ob j Description Range Units Type R/W 01454 152 16 30 Phase A Current 48 th Harmonic Magnitude +327.67% / -327.68% 0.01% F10 R 01455 152 17 30 Phase A Current 49 th Harmonic Magnitude +327.67% / -327.68% 0.01% F10 R 01456 152 18 30 Phase A Current 50 th Harmonic Magnitude +327.67% / -327.68% 0.01% F10 R 01457 152 19 30 Phase A C[...]

  • Page 57

    Address Line Pt DNP Ob j Description Range Units Type R/W 01487 153 17 30 Phase A Current 81 st Harmonic Magnitude +327.67% / -327.68% 0.01% F10 R 01488 153 18 30 Phase A Current 82 nd Harmonic Magnitude +327.67% / -327.68% 0.01% F10 R 01489 153 19 30 Phase A Current 83 rd Harmonic Magnitude +327.67% / -327.68% 0.01% F10 R 01490 153 20 30 Phase A C[...]

  • Page 58

    Address Line Pt DNP Ob j Description Range Units Type R/W 01520 153 50 30 Phase A Current 114 th Harmonic Magnitude +327.67% / -327.68% 0.01% F10 R 01521 153 51 30 Phase A Current 115 th Harmonic Magnitude +327.67% / -327.68% 0.01% F10 R 01522 153 52 30 Phase A Current 116 th Harmonic Magnitude +327.67% / -327.68% 0.01% F10 R 01523 153 53 30 Phase [...]

  • Page 59

    Address Line Pt DNP Ob j Description Range Units Type R/W 01553 156 3 30 Phase B Current 19 th Harmonic Magnitude +327.67% / -327.68% 0.01% F10 R 01554 156 4 30 Phase B Current 20 th Harmonic Magnitude +327.67% / -327.68% 0.01% F10 R 01555 156 5 30 Phase B Current 21 st Harmonic Magnitude +327.67% / -327.68% 0.01% F10 R 01556 156 6 30 Phase B Curre[...]

  • Page 60

    Address Line Pt DNP Ob j Description Range Units Type R/W 01586 157 20 30 Phase B Current 52 nd Harmonic Magnitude +327.67% / -327.68% 0.01% F10 R 01587 157 21 30 Phase B Current 53 rd Harmonic Magnitude +327.67% / -327.68% 0.01% F10 R 01588 157 22 30 Phase B Current 54 th Harmonic Magnitude +327.67% / -327.68% 0.01% F10 R 01589 157 23 30 Phase B C[...]

  • Page 61

    Address Line Pt DNP Ob j Description Range Units Type R/W 01619 158 21 30 Phase B Current 85 th Harmonic Magnitude +327.67% / -327.68% 0.01% F10 R 01620 158 22 30 Phase B Current 86 th Harmonic Magnitude +327.67% / -327.68% 0.01% F10 R 01621 158 23 30 Phase B Current 87 th Harmonic Magnitude +327.67% / -327.68% 0.01% F10 R 01622 158 24 30 Phase B C[...]

  • Page 62

    Address Line Pt DNP Ob j Description Range Units Type R/W 01652 158 54 30 Phase B Current 118 th Harmonic Magnitude +327.67% / -327.68% 0.01% F10 R 01653 158 55 30 Phase B Current 119 th Harmonic Magnitude +327.67% / -327.68% 0.01% F10 R 01654 158 56 30 Phase B Current 120 th Harmonic Magnitude +327.67% / -327.68% 0.01% F10 R 01655 158 57 30 Phase [...]

  • Page 63

    Address Line Pt DNP Ob j Description Range Units Type R/W 01685 161 7 30 Phase C Current 23 rd Harmonic Magnitude +327.67% / -327.68% 0.01% F10 R 01686 161 8 30 Phase C Current 24 th Harmonic Magnitude +327.67% / -327.68% 0.01% F10 R 01687 161 9 30 Phase C Current 25 th Harmonic Magnitude +327.67% / -327.68% 0.01% F10 R 01688 161 10 30 Phase C Curr[...]

  • Page 64

    Address Line Pt DNP Ob j Description Range Units Type R/W 01718 162 24 30 Phase C Current 56 th Harmonic Magnitude +327.67% / -327.68% 0.01% F10 R 01719 162 25 30 Phase C Current 57 th Harmonic Magnitude +327.67% / -327.68% 0.01% F10 R 01720 162 26 30 Phase C Current 58 th Harmonic Magnitude +327.67% / -327.68% 0.01% F10 R 01721 162 27 30 Phase C C[...]

  • Page 65

    Address Line Pt DNP Ob j Description Range Units Type R/W 01751 163 25 30 Phase C Current 89 th Harmonic Magnitude +327.67% / -327.68% 0.01% F10 R 01752 163 26 30 Phase C Current 90 th Harmonic Magnitude +327.67% / -327.68% 0.01% F10 R 01753 163 27 30 Phase C Current 91 st Harmonic Magnitude +327.67% / -327.68% 0.01% F10 R 01754 163 28 30 Phase C C[...]

  • Page 66

    Address Line Pt DNP Ob j Description Range Units Type R/W 01784 163 58 30 Phase C Current 122 nd Harmonic Magnitude +327.67% / -327.68% 0.01% F10 R 01785 163 59 30 Phase C Current 123 rd Harmonic Magnitude +327.67% / -327.68% 0.01% F10 R 01786 163 60 30 Phase C Current 124 th Harmonic Magnitude +327.67% / -327.68% 0.01% F10 R 01787 163 61 30 Phase [...]

  • Page 67

    Address Line Pt DNP Ob j Description Range Units Type R/W 01816 166 10 30 Phase A-N / Phase A-B Voltage 26 th Harmonic Phase +180 degree / -180 degree 0.01 degree F9 R 01817 166 11 30 Phase A-N / Phase A-B Voltage 27 th Harmonic Phase +180 degree / -180 degree 0.01 degree F9 R 01818 166 12 30 Phase A-N / Phase A-B Voltage 28 th Harmonic Phase +180 [...]

  • Page 68

    Address Line Pt DNP Ob j Description Range Units Type R/W 01849 167 27 30 Phase A-N / Phase A-B Voltage 59 th Harmonic Phase +180 degree / -180 degree 0.01 degree F9 R 01850 167 28 30 Phase A-N / Phase A-B Voltage 60 th Harmonic Phase +180 degree / -180 degree 0.01 degree F9 R 01851 167 29 30 Phase A-N / Phase A-B Voltage 61 st Harmonic Phase +180 [...]

  • Page 69

    Address Line Pt DNP Ob j Description Range Units Type R/W 01882 168 28 30 Phase A-N / Phase A-B Voltage 92 nd Harmonic Phase +180 degree / -180 degree 0.01 degree F9 R 01883 168 29 30 Phase A-N / Phase A-B Voltage 93 rd Harmonic Phase +180 degree / -180 degree 0.01 degree F9 R 01884 168 30 30 Phase A-N / Phase A-B Voltage 94 th Harmonic Phase +180 [...]

  • Page 70

    Address Line Pt DNP Ob j Description Range Units Type R/W 01915 168 61 30 Phase A-N / Phase A-B Voltage 125 th Harmonic Phase +180 degree / -180 degree 0.01 degree F9 R 01916 168 62 30 Phase A-N / Phase A-B Voltage 126 th Harmonic Phase +180 degree / -180 degree 0.01 degree F9 R 01917 168 63 30 Phase A-N / Phase A-B Voltage 127 th Harmonic Phase +1[...]

  • Page 71

    Address Line Pt DNP Ob j Description Range Units Type R/W 01948 171 14 30 Phase B-N / Phase B-C Voltage 30 th Harmonic Phase +180 degree / -180 degree 0.01 degree F9 R 01949 171 15 30 Phase B-N / Phase B-C Voltage 31 st Harmonic Phase +180 degree / -180 degree 0.01 degree F9 R 01950 172 0 30 Phase B-N / Phase B-C Voltage 32 nd Harmonic Phase +180 d[...]

  • Page 72

    Address Line Pt DNP Ob j Description Range Units Type R/W 01981 172 31 30 Phase B-N / Phase B-C Voltage 63 rd Harmonic Phase +180 degree / -180 degree 0.01 degree F9 R 01982 173 0 30 Phase B-N / Phase B-C Voltage 64 th Harmonic Phase +180 degree / -180 degree 0.01 degree F9 R 01983 173 1 30 Phase B-N / Phase B-C Voltage 65 th Harmonic Phase +180 de[...]

  • Page 73

    Address Line Pt DNP Ob j Description Range Units Type R/W 02014 173 32 30 Phase B-N / Phase B-C Voltage 96 th Harmonic Phase +180 degree / -180 degree 0.01 degree F9 R 02015 173 33 30 Phase B-N / Phase B-C Voltage 97 th Harmonic Phase +180 degree / -180 degree 0.01 degree F9 R 02016 173 34 30 Phase B-N / Phase B-C Voltage 98 th Harmonic Phase +180 [...]

  • Page 74

    Address Line Pt DNP Ob j Description Range Units Type R/W 02047 174 1 30 Phase C-N / Phase C-A Voltage 1 st Harmonic Phase +180 degree / -180 degree 0.01 degree F9 R 02048 174 2 30 Phase C-N / Phase C-A Voltage 2 nd Harmonic Phase +180 degree / -180 degree 0.01 degree F9 R 02049 174 3 30 Phase C-N / Phase C-A Voltage 3 rd Harmonic Phase +180 degree[...]

  • Page 75

    Address Line Pt DNP Ob j Description Range Units Type R/W 02080 177 2 30 Phase C-N / Phase C-A Voltage 34 th Harmonic Phase +180 degree / -180 degree 0.01 degree F9 R 02081 177 3 30 Phase C-N / Phase C-A Voltage 35 th Harmonic Phase +180 degree / -180 degree 0.01 degree F9 R 02082 177 4 30 Phase C-N / Phase C-A Voltage 36 th Harmonic Phase +180 deg[...]

  • Page 76

    Address Line Pt DNP Ob j Description Range Units Type R/W 02113 178 3 30 Phase C-N / Phase C-A Voltage 67 th Harmonic Phase +180 degree / -180 degree 0.01 degree F9 R 02114 178 4 30 Phase C-N / Phase C-A Voltage 68 th Harmonic Phase +180 degree / -180 degree 0.01 degree F9 R 02115 178 5 30 Phase C-N / Phase C-A Voltage 69 th Harmonic Phase +180 deg[...]

  • Page 77

    Address Line Pt DNP Ob j Description Range Units Type R/W 02146 178 36 30 Phase C-N / Phase C-A Voltage 100 th Harmonic Phase +180 degree / -180 degree 0.01 degree F9 R 02147 178 37 30 Phase C-N / Phase C-A Voltage 101 st Harmonic Phase +180 degree / -180 degree 0.01 degree F9 R 02148 178 38 30 Phase C-N / Phase C-A Voltage 102 nd Harmonic Phase +1[...]

  • Page 78

    Address Line Pt DNP Ob j Description Range Units Type R/W 02179 179 5 30 Phase A Current 5 th Harmonic Phase +180 degree / -180 degree 0.01 degree F9 R 02180 179 6 30 Phase A Current 6 th Harmonic Phase +180 degree / -180 degree 0.01 degree F9 R 02181 179 7 30 Phase A Current 7 th Harmonic Phase +180 degree / -180 degree 0.01 degree F9 R 02182 180 [...]

  • Page 79

    Address Line Pt DNP Ob j Description Range Units Type R/W 02212 182 6 30 Phase A Current 38 th Harmonic Phase +180 degree / -180 degree 0.01 degree F9 R 02213 182 7 30 Phase A Current 39 th Harmonic Phase +180 degree / -180 degree 0.01 degree F9 R 02214 182 8 30 Phase A Current 40 th Harmonic Phase +180 degree / -180 degree 0.01 degree F9 R 02215 1[...]

  • Page 80

    Address Line Pt DNP Ob j Description Range Units Type R/W 02245 183 7 30 Phase A Current 71 st Harmonic Phase +180 degree / -180 degree 0.01 degree F9 R 02246 183 8 30 Phase A Current 72 nd Harmonic Phase +180 degree / -180 degree 0.01 degree F9 R 02247 183 9 30 Phase A Current 73 rd Harmonic Phase +180 degree / -180 degree 0.01 degree F9 R 02248 1[...]

  • Page 81

    Address Line Pt DNP Ob j Description Range Units Type R/W 02278 183 40 30 Phase A Current 104 th Harmonic Phase +180 degree / -180 degree 0.01 degree F9 R 02279 183 41 30 Phase A Current 105 th Harmonic Phase +180 degree / -180 degree 0.01 degree F9 R 02280 183 42 30 Phase A Current 106 th Harmonic Phase +180 degree / -180 degree 0.01 degree F9 R 0[...]

  • Page 82

    Address Line Pt DNP Ob j Description Range Units Type R/W 02311 185 1 30 Phase B Current 9 th Harmonic Phase +180 degree / -180 degree 0.01 degree F9 R 02312 185 2 30 Phase B Current 10 th Harmonic Phase +180 degree / -180 degree 0.01 degree F9 R 02313 185 3 30 Phase B Current 11 th Harmonic Phase +180 degree / -180 degree 0.01 degree F9 R 02314 18[...]

  • Page 83

    Address Line Pt DNP Ob j Description Range Units Type R/W 02344 187 10 30 Phase B Current 42 nd Harmonic Phase +180 degree / -180 degree 0.01 degree F9 R 02345 187 11 30 Phase B Current43 rd Harmonic Phase +180 degree / -180 degree 0.01 degree F9 R 02346 187 12 30 Phase B Current 44 th Harmonic Phase +180 degree / -180 degree 0.01 degree F9 R 02347[...]

  • Page 84

    Address Line Pt DNP Ob j Description Range Units Type R/W 02377 188 11 30 Phase B Current 75 th Harmonic Phase +180 degree / -180 degree 0.01 degree F9 R 02378 188 12 30 Phase B Current 76 th Harmonic Phase +180 degree / -180 degree 0.01 degree F9 R 02379 188 13 30 Phase B Current 77 th Harmonic Phase +180 degree / -180 degree 0.01 degree F9 R 0238[...]

  • Page 85

    Address Line Pt DNP Ob j Description Range Units Type R/W 02410 188 44 30 Phase B Current 108 th Harmonic Phase +180 degree / -180 degree 0.01 degree F9 R 02411 188 45 30 Phase B Current 109 th Harmonic Phase +180 degree / -180 degree 0.01 degree F9 R 02412 188 46 30 Phase B Current 110 th Harmonic Phase +180 degree / -180 degree 0.01 degree F9 R 0[...]

  • Page 86

    Address Line Pt DNP Ob j Description Range Units Type R/W 02443 190 5 30 Phase C Current 13 th Harmonic Phase +180 degree / -180 degree 0.01 degree F9 R 02444 190 6 30 Phase C Current 14 th Harmonic Phase +180 degree / -180 degree 0.01 degree F9 R 02445 190 7 30 Phase C Current 15 th Harmonic Phase +180 degree / -180 degree 0.01 degree F9 R 02446 1[...]

  • Page 87

    Address Line Pt DNP Ob j Description Range Units Type R/W 02476 192 14 30 Phase C Current 46 th Harmonic Phase +180 degree / -180 degree 0.01 degree F9 R 02477 192 15 30 Phase C Current 47 th Harmonic Phase +180 degree / -180 degree 0.01 degree F9 R 02478 192 16 30 Phase C Current 48 th Harmonic Phase +180 degree / -180 degree 0.01 degree F9 R 0247[...]

  • Page 88

    Address Line Pt DNP Ob j Description Range Units Type R/W 02509 193 15 30 Phase C Current 79 th Harmonic Phase +180 degree / -180 degree 0.01 degree F9 R 02510 193 16 30 Phase C Current 80 th Harmonic Phase +180 degree / -180 degree 0.01 degree F9 R 02511 193 17 30 Phase C Current 81 st Harmonic Phase +180 degree / -180 degree 0.01 degree F9 R 0251[...]

  • Page 89

    Address Line Pt DNP Ob j Description Range Units Type R/W 02542 193 48 30 Phase C Current 112 th Harmonic Phase +180 degree / -180 degree 0.01 degree F9 R 02543 193 49 30 Phase C Current 113 th Harmonic Phase +180 degree / -180 degree 0.01 degree F9 R 02544 193 50 30 Phase C Current 114 th Harmonic Phase +180 degree / -180 degree 0.01 degree F9 R 0[...]

  • Page 90

    Address Line Pt DNP Ob j Description Range Units Type R/W 02591-02594 209 0 50 Phase Angle Block Time Stamp 12/31/9999 23:59:59.99 10 msec F3 R 02595 210 0 30 Phase Angle Phase A-N Voltage +180 degree / -180 degree 0.01 degree F9 R 02596 210 1 30 Phase Angle Phase B-N Voltage +180 degree / -180 degree 0.01 degree F9 R 02597 210 2 30 Phase Angle Pha[...]

  • Page 91

    Address Line Pt DNP Ob j Description Range Units Type R/W 02648-02651 220 1 50 Maximum Block Window Average Positive VAR Time Stamp 12/31/9999 23:59:59.99 10 msec F3 R 02652-02655 220 2 50 Maximum Block Window Average Negative VAR Time Stamp 12/31/9999 23:59:59.99 10 msec F3 R 02656-02659 220 3 50 Maximum Block Window Average Positive Watt Time Sta[...]

  • Page 92

    Address Line Pt DNP Ob j Description Range Units Type R/W 02733-02736 229 1 50 Maximum Rolling Window Average Positive VAR Time Stamp 12/31/9999 23:59:59.99 10 msec F3 R 02737-02740 229 2 50 Maximum Rolling Window Average Negative VAR Time Stamp 12/31/9999 23:59:59.99 10 msec F3 R 02741-02744 229 3 50 Maximum Rolling Window Average Positive Watt Ti[...]

  • Page 93

    Address Line Pt DNP Ob j Description Range Units Type R/W 02806-02807 237 7 20 Digital Input Accumulation 8, Module 2 4,294,967,295 / 0 F18 R 02808 238 0-7 1 Digital Input States, Module 3 F17 R 02809-02810 239 0 20 Digital Input Accumulation 1, Module 3 4,294,967,295 / 0 F18 R 02811-02812 239 1 20 Digital Input Accumulation 2, Module 3 4,294,967,2[...]

  • Page 94

    Address Line Pt DNP Ob j Description Range Units Type R/W 02894-02897 244 2 20 VARhour (Quadrant 1) +9,999,999,999,999,999 VAh / 0 VAh 1 VA H F20 R 02898-02901 244 3 20 Vahour (Quadrant 4) +9,999,999,999,999,999 VAh / 0 VAh 1 VA H F20 R 02902-02905 244 4 20 VARhour (Quadrant 4) 0 VARh / -9,999,999,999,999,999 VARh 1 VAR H F20 R 02906-02909 244 5 20[...]

  • Page 95

    Address Line Pt DNP Ob j Description Range Units Type R/W 03011-03012 250 1 30 Time of Use Frozen CT Ratio Denominator 03013-03014 250 2 30 Time of Use Frozen PT Ratio Numerator 03015-03016 250 3 30 Time of Use Frozen PT Ratio Denominator 03017-03018 250 4 30 Time of Use Prior Month CT Ratio Numerator 03019-03020 250 5 30 Time of Use Prior Month CT[...]

  • Page 96

    Address Line Pt DNP Ob j Description Range Units Type R/W 03097-03100 254 1 50 TOU Frozen Reg 1 Peak Demand Watt (Q 2 + 3) Time Stamp 12/31/9999 23:59:59.99 10 msec F3 R 03101-03104 254 2 50 TOU Frozen Reg 1 Peak Demand VAR (Q 1 + 2) Time Stamp 12/31/9999 23:59:59.99 10 msec F3 R 03105-03108 254 3 50 TOU Frozen Reg 1 Peak Demand VAR (Q 3 + 4) Time [...]

  • Page 97

    Address Line Pt DNP Ob j Description Range Units Type R/W 03209-03212 259 8 20 obsolete-TOU Frozen Reg 3 VAhour (Quadrant 3) +9,999,999,999,999,999 VAh / 0 VAh 1 VA H F20 R 03213-03216 259 9 20 obsolete-TOU Frozen Reg 3 VARhour (Quadrant 3) 0 VARh / -9,999,999,999,999,999 VARh 1 VAR H F20 R 03217-03218 260 0 30 TOU Frozen Reg 3 Peak Demand Watt (Qu[...]

  • Page 98

    Address Line Pt DNP Ob j Description Range Units Type R/W 03313-03316 267 0 20 obsolete-TOU Frozen Reg 5 Watthour (Quadrant 1 + 4) +9,999,999,999,999,999 Wh / 0 Wh 1 W H F20 R 03317-03320 267 1 20 obsolete-TOU Frozen Reg 5 VAhour (Quadrant 1) +9,999,999,999,999,999 VAh / 0 VAh 1 VA H F20 R 03321-03324 267 2 20 obsolete-TOU Frozen Reg 5 VARhour (Qua[...]

  • Page 99

    Address Line Pt DNP Ob j Description Range Units Type R/W 03423-03424 272 1 30 TOU Frozen Reg 6 Peak Demand Watt (Quadrant 2 + 3) 0 Watt / -32768 Watt 1/ 65536 W sec F7 R 03425-03426 272 2 30 TOU Frozen Reg 6 Peak Demand VAR (Quadrant 1 + 2) +32767 VAR / 0 VAR 1/ 65536 VAR sec F7 R 03427-03428 272 3 30 TOU Frozen Reg 6 Peak Demand VAR (Quadrant 3 +[...]

  • Page 100

    Address Line Pt DNP Ob j Description Range Units Type R/W 03525-03528 279 2 20 obsolete-TOU Frozen Reg 8 VARhour (Quadrant 1) +9,999,999,999,999,999 VARh / 0 VARh 1 VAR H F20 R 03529-03532 279 3 20 obsolete-TOU Frozen Reg 8 VAhour (Quadrant 4) +9,999,999,999,999,999 VAh / 0 VAh 1 VA H F20 R 03533-03536 279 4 20 obsolete-TOU Frozen Reg 8 VARhour (Qu[...]

  • Page 101

    Address Line Pt DNP Ob j Description Range Units Type R/W 03633-03634 285 0 30 TOU Frozen Total Coin. Dmd. VAR to Peak Dmd. Watt (Quadrant 1 + 4) +32767 VAR/ -32768 VAR 1/ 65536 VAR sec F7 R 03635-03636 285 1 30 TOU Frozen Total Coin. Dmd. VAR to Peak Dmd. Watt (Quadarnt 2 + 3) +32767 VAR / -32768 VAR 1/ 65536 VAR sec F7 R 03637-03640 286 0 50 TOU [...]

  • Page 102

    Address Line Pt DNP Ob j Description Range Units Type R/W 03741-03744 291 5 20 obsolete-TOU Prior Month Reg 2 Watthour (Quadrant 2 + 3) 0 Wh / -9,999,999,999,999,999 Wh 1 W H F20 R 03745-03748 291 6 20 obsolete-TOU Prior Month Reg 2 VAhour (Quadrant 2) +9,999,999,999,999,999 VAh / 0 VAh 1 VA H F20 R 03749-03752 291 7 20 obsolete-TOU Prior Month Reg[...]

  • Page 103

    Address Line Pt DNP Ob j Description Range Units Type R/W 03845-03848 298 1 50 TOU Prior Month Reg 3 Peak Demand Watt (Q 2 + 3) Time Stamp 12/31/9999 23:59:59.99 10 msec F3 R 03849-03852 298 2 50 TOU Prior Month Reg 3 Peak Demand VAR (Q 1 + 2) Time Stamp 12/31/9999 23:59:59.99 10 msec F3 R 03853-03856 298 3 50 TOU Prior Month Reg 3 Peak Demand VAR [...]

  • Page 104

    Address Line Pt DNP Ob j Description Range Units Type R/W 03957-03960 303 8 20 obsolete-TOU Prior Month Reg 5 VAhour (Quadrant 3) +9,999,999,999,999,999 VAh / 0 VAh 1 VA H F20 R 03961-03964 303 9 20 obsolete-TOU Prior Month Reg 5 VARhour (Quadrant 3) 0 VARh / -9,999,999,999,999,999 VARh 1 VAR H F20 R 03965-03966 304 0 30 TOU Prior Month Reg 5 Peak [...]

  • Page 105

    Address Line Pt DNP Ob j Description Range Units Type R/W 04061-04064 311 0 20 obsolete-TOU Prior Month Reg 7 Watthour (Quadrant 1 + 4) +9,999,999,999,999,999 Wh / 0 Wh 1 W H F20 R 04065-04068 311 1 20 obsolete-TOU Prior Month Reg 7 VAhour (Quadrant 1) +9,999,999,999,999,999 VAh / 0 VAh 1 VA H F20 R 04069-04072 311 2 20 obsolete-TOU Prior Month Reg[...]

  • Page 106

    Address Line Pt DNP Ob j Description Range Units Type R/W 04171-04172 316 1 30 TOU Prior Month Reg 8 Peak Demand Watt (Quadrant 2 + 3) 0 Watt / -32768 Watt 1/ 65536 W sec F7 R 04173-04174 316 2 30 TOU Prior Month Reg 8 Peak Demand VAR (Quadrant 1 + 2) +32767 VAR / 0 VAR 1/ 65536 VAR sec F7 R 04175-04176 316 3 30 TOU Prior Month Reg 8 Peak Demand VA[...]

  • Page 107

    Address Line Pt DNP Ob j Description Range Units Type R/W 04273-04276 323 2 20 obsolete-TOU Active Reg 1 VARhour (Quadrant 1) +9,999,999,999,999,999 VARh / 0 VARh 1 VAR H F20 R 04277-04280 323 3 20 obsolete-TOU Active Reg 1 VAhour (Quadrant 4) +9,999,999,999,999,999 VAh / 0 VAh 1 VA H F20 R 04281-04284 323 4 20 obsolete-TOU Active Reg 1 VARhour (Qu[...]

  • Page 108

    Address Line Pt DNP Ob j Description Range Units Type R/W 04381-04382 329 0 30 TOU Active Reg 2 Coin. Dmd. VAR to Peak Dmd. Watt (Quadrant 1 +4) +32767 VAR/ -32768 VAR 1/ 65536 VAR sec F7 R 04383-04384 329 1 30 TOU Active Reg 2 Coin. Dmd. VAR to Peak Dmd. Watt (Quadrant 2 + 3) +32767 VAR / -32768 VAR 1/ 65536 VAR sec F7 R 04385-04388 330 0 50 TOU A[...]

  • Page 109

    Address Line Pt DNP Ob j Description Range Units Type R/W 04489-04492 335 5 20 obsolete-TOU Active Reg 4 Watthour (Quadrant 2 + 3) 0 Wh / -9,999,999,999,999,999 Wh 1 W H F20 R 04493-04496 335 6 20 obsolete-TOU Active Reg 4 VAhour (Quadrant 2) +9,999,999,999,999,999 VAh / 0 VAh 1 VA H F20 R 04497-04500 335 7 20 obsolete-TOU Active Reg 4 VARhour (Qua[...]

  • Page 110

    Address Line Pt DNP Ob j Description Range Units Type R/W 04593-04596 342 1 50 TOU Active Reg 5 Peak Demand Watt (Q 2 + 3) Time Stamp 12/31/9999 23:59:59.99 10 msec F3 R 04597-04600 342 2 50 TOU Active Reg 5 Peak Demand VAR (Q 1 + 2) Time Stamp 12/31/9999 23:59:59.99 10 msec F3 R 04601-04604 342 3 50 TOU Active Reg 5 Peak Demand VAR (Q 3 + 4) Time [...]

  • Page 111

    Address Line Pt DNP Ob j Description Range Units Type R/W 04705-04708 347 8 20 obsolete-TOU Active Reg 7 VAhour (Quadrant 3) +9,999,999,999,999,999 VAh / 0 VAh 1 VA H F20 R 04709-04712 347 9 20 obsolete-TOU Active Reg 7 VARhour (Quadrant 3) 0 VARh / -9,999,999,999,999,999 VARh 1 VAR H F20 R 04713-04714 348 0 30 TOU Active Reg 7 Peak Demand Watt (Qu[...]

  • Page 112

    Address Line Pt DNP Ob j Description Range Units Type R/W 04809-04812 355 0 20 obsolete-TOU Active Total Watthour (Quadrant 1 + 4) +9,999,999,999,999,999 Wh / 0 Wh 1 W H F20 R 04813-04816 355 1 20 obsolete-TOU Active Total VAhour (Quadrant 1) +9,999,999,999,999,999 VAh / 0 VAh 1 VA H F20 R 04817-04820 355 2 20 obsolete-TOU Active Total VARhour (Qua[...]

  • Page 113

    Address Line Pt DNP Ob j Description Range Units Type R/W 04919-04920 360 1 30 TOU Current Month Reg 1 Peak Demand Watt (Quadrant 2 + 3) 0 Watt / -32768 Watt 1/ 65536 W sec F7 R 04921-04922 360 2 30 TOU Current Month Reg 1 Peak Demand VAR (Quadrant 1 + 2) +32767 VAR / 0 VAR 1/ 65536 VAR sec F7 R 04923-04924 360 3 30 TOU Current Month Reg 1 Peak Dem[...]

  • Page 114

    Address Line Pt DNP Ob j Description Range Units Type R/W 05021-05024 367 2 20 obsolete-TOU Current Month Reg 3 VARhour (Quadrant 1) +9,999,999,999,999,999 VARh / 0 VARh 1 VAR H F20 R 05025-05028 367 3 20 obsolete-TOU Current Month Reg 3 VAhour (Quadrant 4) +9,999,999,999,999,999 VAh / 0 VAh 1 VA H F20 R 05029-05032 367 4 20 obsolete-TOU Current Mo[...]

  • Page 115

    Address Line Pt DNP Ob j Description Range Units Type R/W 05129-05130 373 0 30 TOU Current Month Reg 4 Coin. Dmd. VAR to Peak Dmd. Watt (Q 1 + 4) +32767 VAR/ -32768 VAR 1/ 65536 VAR sec F7 R 05131-05132 373 1 30 TOU Current Month Reg 4 Coin. Dmd. VAR to Peak Dmd. Watt (Q 2 + 3) +32767 VAR / -32768 VAR 1/ 65536 VAR sec F7 R 05133-05136 374 0 50 TOU [...]

  • Page 116

    Address Line Pt DNP Ob j Description Range Units Type R/W 05237-05240 379 5 20 obsolete-TOU Current Month Reg 6 Watthour (Quadrant 2 + 3) 0 Wh / -9,999,999,999,999,999 Wh 1 W H F20 R 05241-05244 379 6 20 obsolete-TOU Current Month Reg 6 VAhour (Quadrant 2) +9,999,999,999,999,999 VAh / 0 VAh 1 VA H F20 R 052445-05248 379 7 20 obsolete-TOU Current Mo[...]

  • Page 117

    Address Line Pt DNP Ob j Description Range Units Type R/W 05341-05344 386 1 50 TOU Current Month Reg 7 Peak Demand Watt (Q 2 + 3) Time Stamp 12/31/9999 23:59:59.99 10 msec F3 R 05345-05348 386 2 50 TOU Current Month Reg 7 Peak Demand VAR (Q 1 + 2) Time Stamp 12/31/9999 23:59:59.99 10 msec F3 R 05349-05352 386 3 50 TOU Current Month Reg 7 Peak Deman[...]

  • Page 118

    Address Line Pt DNP Ob j Description Range Units Type R/W 05453-05456 391 8 20 obsolete-TOU Current Month Total VAhour (Quadrant 3) +9,999,999,999,999,999 VAh / 0 VAh 1 VA H F20 R 05457-05460 391 9 20 obsolete-TOU Current Month Total VARhour (Quadrant 3) 0 VARh / -9,999,999,999,999,999 VARh 1 VAR H F20 R 05461-05462 392 0 30 TOU Current Month Total[...]

  • Page 119

    Address Line Pt DNP Ob j Description Range Units Type R/W 05633-05640 397 2 TOU Active Reg 3 Label F2 R 05641-05648 397 3 TOU Active Reg 4 Label F2 R 05649-05656 397 4 TOU Active Reg 5 Label F2 R 05657-05664 397 5 TOU Active Reg 6 Label F2 R 05665-05672 397 6 TOU Active Reg 7 Label F2 R 05673-05680 397 7 TOU Active Reg 8 Label F2 R 05681-05688 398 [...]

  • Page 120

    Address Line Pt DNP Ob j Description Range Units Type R/W 05806-05809 404 1 20 Block Window Average Internal Input 2 +/- 9,223,372,036,854,776,808 1 Unit F62 R 05810-05813 404 2 20 Block Window Average Internal Input 3 +/- 9,223,372,036,854,776,808 1 Unit F62 R 05814-05817 404 3 20 Block Window Average Internal Input 4 +/- 9,223,372,036,854,776,808[...]

  • Page 121

    Address Line Pt DNP Ob j Description Range Units Type R/W 05938-05941 409 2 50 Maximum Block Window Average Aggregation 3 Time Stamp 12/31/9999 23:59:59.99 10 msec F3 R 05942-05945 409 3 50 Maximum Block Window Average Aggregation 4 Time Stamp 12/31/9999 23:59:59.99 10 msec F3 R 05946 410 0 30 EPM Internal Temperature +3276.7 C / -3276.8 C 0.1 degr[...]

  • Page 122

    Address Line Pt DNP Ob j Description Range Units Type R/W 05975 414 4 30 Analog Input 5, Module 4 +327.67% / -327.68% 0.01% F10 R 05976 414 5 30 Analog Input 6, Module 4 +327.67% / -327.68% 0.01% F10 R 05977 414 6 30 Analog Input 7, Module 4 +327.67% / -327.68% 0.01% F10 R 05978 414 7 30 Analog Input 8, Module 4 +327.67% / -327.68% 0.01% F10 R 0597[...]

  • Page 123

    Address Line Pt DNP Ob j Description Range Units Type R/W 06009 434 0-15 1 Relays Pending Updates, Relays 1-16 F37 R 06010 435 0-15 1 Shadowed Relay States, Relays 1-16 F38 R 06011 436 0-15 10 Confirmed Polled Relay States, Relays 1-16 F39 R 06012 437 0-15 1 Valid Flags for Confirmed Relay States, Relays 1-16 F40 R 06013 438 0-15 1 Locked Relays, R[...]

  • Page 124

    Address Line Pt DNP Ob j Description Range Units Type R/W 06097-06100 447 0 50 KYZ Output Accumulation Block Time Stamp 12/31/9999 23:59:59.99 F3 06101-06102 448 0 20 KYZ Output Accumulation, Relay 1 4,294,967,295 / 0 F18 R 06103-06104 448 1 20 KYZ Output Accumulation, Relay 2 4,294,967,295 / 0 F18 R 06105-06106 448 2 20 KYZ Output Accumulation, Re[...]

  • Page 125

    Address Line Pt DNP Ob j Description Range Units Type R/W 06171-06174 461 2 50 Maximum Short Term Flicker V CN Time Stamp 12/31/9999 23:59:59.99 F3 06175-06178 462 0 50 Minimum Short Term Flicker V AN Time Stamp 12/31/9999 23:59:59.99 F3 06179-06182 462 1 50 Minimum Short Term Flicker V BN Time Stamp 12/31/9999 23:59:59.99 F3 06183-06186 462 2 50 M[...]

  • Page 126

    Address Line Pt DNP Ob j Description Range Units Type R/W 06277-06280 472 5 Quadrant 2 VARhour, Secondary +9,999,999,999,999,999 VARh / 0 VARh 1 VAR H F19 R 06281-06284 472 6 Quadrant 3 Vahour, Secondary +9,999,999,999,999,999 VAh / 0 VAh 1 VA H F19 R 06285-06288 472 7 Quadrant 3 VARhour, Secondary 0 VARh /-9,999,999,999,999,999 VARh 1 VAR H F19 R [...]

  • Page 127

    Address Line Pt DNP Ob j Description Range Units Type R/W 06399 480 2 30 Negative VARhour (Quadrants 3+4) in the Interval, Secondary 65,535 / 0 1 VAR H F57 R 06400 480 3 30 Positive Watthour (Quadrants 1+4) in the Interval, Secondary 65,535 / 0 1 W H F57 R 06401 480 4 30 Negative Watthour (Quadrants 2+3) in the Interval, Secondary 65,535 / 0 1 W H [...]

  • Page 128

    Address Line Pt DNP Ob j Description Range Units Type R/W 06460 485 2 30 Quadrant 2 Watthour in the Interval, Secondary 65,535 / 0 1 W H F57 R 06461 485 3 30 Quadrant 3 Watthour in the Interval, Secondary 65,535 / 0 1 W H F57 R 06462 486 0 30 Quadrant 1 Vahour in the Interval, Secondary 65,535 / 0 1 VA H F57 R 06463 486 1 30 Quadrant 1 VARhour in t[...]

  • Page 129

    Address Line Pt DNP Ob j Description Range Units Type R/W 06505-06506 494 1 30 TOU Active Reg1 Cumulative Demand Q2 + Q3 Watt 4,294,967,295 / 0 F18 R 06507-06508 494 2 30 TOU Active Reg2 Cumulative Demand Q1 + Q4 Watt 4,294,967,295 / 0 F18 R 06509-06510 494 3 30 TOU Active Reg2 Cumulative Demand Q2 + Q3 Watt 4,294,967,295 / 0 F18 R 06511-06512 494 [...]

  • Page 130

    Address Line Pt DNP Ob j Description Range Units Type R/W 06569-06570 495 15 30 TOU Current Month Reg8 Cumulative Demand Q2 + Q3 Watt 4,294,967,295 / 0 F18 R 06571-06572 495 16 30 TOU Current Month Total Cumulative Demand Q1 + Q4 Watt 4,294,967,295 / 0 F18 R 06573-06574 495 17 30 TOU Current Month Total Cumulative Demand Q2 + Q3 Watt 4,294,967,295 [...]

  • Page 131

    Address Line Pt DNP Ob j Description Range Units Type R/W 06631-06632 497 10 30 TOU Current Month Reg6 Continuous Cumulative Demand Q1 + Q4 Watt 4,294,967,295 / 0 F18 R 06633-06634 497 11 30 TOU Current Month Reg6 Continuous Cumulative Demand Q2 + Q3 Watt 4,294,967,295 / 0 F18 R 06635-06636 497 12 30 TOU Current Month Reg7 Continuous Cumulative Dem[...]

  • Page 132

    Address Line Pt DNP Ob j Description Range Units Type R/W 06687-06688 505 0 30 Uncompensated One second W +32767 W / - 32768 W 1/65536 W sec F7 06689-06692 506 0 20 Uncompensated VAh, secondary BCD 9,999,999,999,999,999 VAh / 0 VAh 1 VAh F11 06693-06700 506 1-2 20 Uncompensated +/- VARh, secondary BCD 9,999,999,999,999,999 VARh / 0 VARh 1 VARh F11 [...]

  • Page 133

    Address Line Pt DNP Ob j Description Range Units Type R/W 06908-06911 535 0 50 Scaled Energy Block Timestamp 12/31/9999 23:59:59.99 F3 06912-06913 536 0 20 Total VAh (Quadrant 1+2+3+4) Scaled Primary variable (9999 through 999999999 / 0) variable 10 6 - 10 -7 F64 06914-06915 536 1 20 Positive VARh (Quadrant 1+2) Scaled Primary variable (9999 throug[...]

  • Page 134

    Address Line Pt DNP Ob j Description Range Units Type R/W 06982-06983 542 5 20 Test Mode Negative Wh (Quadrant 2+3) Scaled Secondary variable (9999 through 999999999 / 0) variable 10 6 - 10 -7 F64 06984-06985 542 6 20 Test Mode Quadrant 2 VAh Scaled Secondary variable (9999 through 999999999 / 0) variable 10 6 - 10 -7 F64 06986-06987 542 7 20 Test [...]

  • Page 135

    Address Line Pt DNP Ob j Description Range Units Type R/W 07754-07755 584 1 30 Quadrant 1 VAh in the Interval, Scaled Primary variable (9999 through 999999999 / 0) variable 10 6 - 10 -7 F64 07756-07757 584 2 30 Quadrant 1 VARh in the Interval, Scaled Primary variable (9999 through 999999999 / 0) variable 10 6 - 10 -7 F64 07758-07759 584 3 30 Quadra[...]

  • Page 136

    Address Line Pt DNP Ob j Description Range Units Type R/W 07840-07843 595 0 50 Maximum Total Average Power Factor Q14 Timestamp 12/31/9999 23:59:59.99 F3 R 07844-07847 595 1 50 Maximum Total Average Power Factor Q23 Timestamp 12/31/9999 23:59:59.99 F3 R 07848-07851 596 0 50 Minimum Total Average Power Factor Q14 Timestamp 12/31/9999 23:59:59.99 F3 [...]

  • Page 137

    Address Line Pt DNP Ob j Description Range Units Type R/W 34847-34850 TOU Calendar Year 7 Modification Time Stamp 12/31/9999 23:59:59.99 10 msec F3 R 34851 TOU Calendar Year 7 Calendar Year 9999 1 year F21 R 34852-34855 TOU Calendar Year 8 Modification Time Stamp 12/31/9999 23:59:59.99 10 msec F3 R 34856 TOU Calendar Year 8 Calendar Year 9999 1 yea[...]

  • Page 138

    Address Line Pt DNP Ob j Description Range Units Type R/W 34923 TOU Calendar Year 1 Calendar Year 9999 1 year F21 R 34924 TOU Calendar Year 1 Jan 1 / Jan 2 Profile 15-15 / 0-0 F22 R 34925 TOU Calendar Year 1 Jan 3 / Jan 4 Profile 15-15 / 0-0 F22 R 34926 TOU Calendar Year 1 Jan 5 / Jan 6 Profile 15-15 / 0-0 F22 R 34927 TOU Calendar Year 1 Jan 7 / Ja[...]

  • Page 139

    Address Line Pt DNP Ob j Description Range Units Type R/W 34956 TOU Calendar Year 1 Mar 6 (Mar 5) / Mar 7 (Mar 6) Profile 15-15 / 0-0 F22 R 34957 TOU Calendar Year 1 Mar 8 (Mar 7) / Mar 9 (Mar 8) Profile 15-15 / 0-0 F22 R 34958 TOU Calendar Year 1 Mar 10 (Mar 9) / Mar 11 (Mar 10) Profile 15-15 / 0-0 F22 R 34959 TOU Calendar Year 1 Mar 13 (Mar 11) /[...]

  • Page 140

    Address Line Pt DNP Ob j Description Range Units Type R/W 34989 TOU Calendar Year 1 May 11 (May 10) / May 12 (May 11) Profile 15-15 / 0-0 F22 R 34990 TOU Calendar Year 1 May 13 (May 12) / May 14 (May 13) Profile 15-15 / 0-0 F22 R 34991 TOU Calendar Year 1 May 15 (May 14) / May 16 (May 15) Profile 15-15 / 0-0 F22 R 34992 TOU Calendar Year 1 May 17 ([...]

  • Page 141

    Address Line Pt DNP Ob j Description Range Units Type R/W 35022 TOU Calendar Year 1 Jul 16 (Jul 15) / Jul 17 (Jul 16) Profile 15-15 / 0-0 F22 R 35023 TOU Calendar Year 1 Jul 18 (Jul 17) / Jul 19 (Jul 18) Profile 15-15 / 0-0 F22 R 35024 TOU Calendar Year 1 Jul 20 (Jul 19) / Jul 21 (Jul 20) Profile 15-15 / 0-0 F22 R 35025 TOU Calendar Year 1 Jul 22 ([...]

  • Page 142

    Address Line Pt DNP Ob j Description Range Units Type R/W 35054 TOU Calendar Year 1 Sep 18 (Sep 17) / Sep 19 (Sep 18) Profile 15-15 / 0-0 F22 R 35055 TOU Calendar Year 1 Sep 20 (Sep 19) / Sep 21 (Sep 20) Profile 15-15 / 0-0 F22 R 35056 TOU Calendar Year 1 Sep 22 (Sep 21) / Sep 23 (Sep 22) Profile 15-15 / 0-0 F22 R 35057 TOU Calendar Year 1 Sep 24 ([...]

  • Page 143

    Address Line Pt DNP Ob j Description Range Units Type R/W 35087 TOU Calendar Year 1 Nov 23 (Nov 22) / Nov 24 (Nov 23) Profile 15-15 / 0-0 F22 R 35088 TOU Calendar Year 1 Nov 25 (Nov 24) / Nov 26 (Nov 25) Profile 15-15 / 0-0 F22 R 35089 TOU Calendar Year 1 Nov 27 (Nov 26) / Nov 28 (Nov 27) Profile 15-15 / 0-0 F22 R 35090 TOU Calendar Year 1 Nov 29 ([...]

  • Page 144

    Address Line Pt DNP Ob j Description Range Units Type R/W 35120 TOU Calendar Year 1 Profile 1 Register for 12:00, 12:15, 12:30 & 12:45 7-7-7-7 / 0-0-0-0 F24 R 35121 TOU Calendar Year 1 Profile 1 Register for 13:00, 13:15, 13:30 & 13:45 7-7-7-7 / 0-0-0-0 F24 R 35122 TOU Calendar Year 1 Profile 1 Register for 14:00, 14:15, 14:30 & 14:45 7[...]

  • Page 145

    Address Line Pt DNP Ob j Description Range Units Type R/W 35153 TOU Calendar Year 1 Profile 2 Register for 20:00, 20:15, 20:30 & 20:45 7-7-7-7 / 0-0-0-0 F24 R 35154 TOU Calendar Year 1 Profile 2 Register for 21:00, 21:15, 21:30 & 21:45 7-7-7-7 / 0-0-0-0 F24 R 35155 TOU Calendar Year 1 Profile 2 Register for 22:00, 22:15, 22:30 & 22:45 7[...]

  • Page 146

    Address Line Pt DNP Ob j Description Range Units Type R/W 35185 TOU Calendar Year 1 Profile 4 Register for 02:00, 02:15, 02:30 & 02:45 7-7-7-7 / 0-0-0-0 F24 R 35186 TOU Calendar Year 1 Profile 4 Register for 03:00, 03:15, 03:30 & 03:45 7-7-7-7 / 0-0-0-0 F24 R 35187 TOU Calendar Year 1 Profile 4 Register for 04:00, 04:15, 04:30 & 04:45 7[...]

  • Page 147

    Address Line Pt DNP Ob j Description Range Units Type R/W 35218 TOU Calendar Year 1 Profile 5 Register for 10:00, 10:15, 10:30 & 10:45 7-7-7-7 / 0-0-0-0 F24 R 35219 TOU Calendar Year 1 Profile 5 Register for 11:00, 11:15, 11:30 & 11:45 7-7-7-7 / 0-0-0-0 F24 R 35220 TOU Calendar Year 1 Profile 5 Register for 12:00, 12:15, 12:30 & 12:45 7[...]

  • Page 148

    Address Line Pt DNP Ob j Description Range Units Type R/W 35251 TOU Calendar Year 1 Profile 6 Register for 18:00, 18:15, 18:30 & 18:45 7-7-7-7 / 0-0-0-0 F24 R 35252 TOU Calendar Year 1 Profile 6 Register for 19:00, 19:15, 19:30 & 19:45 7-7-7-7 / 0-0-0-0 F24 R 35253 TOU Calendar Year 1 Profile 6 Register for 20:00, 20:15, 20:30 & 20:45 7[...]

  • Page 149

    Address Line Pt DNP Ob j Description Range Units Type R/W 35284 TOU Calendar Year 1 Profile 8 Register for 01:00, 01:15, 01:30 & 01:45 7-7-7-7 / 0-0-0-0 F24 R 35285 TOU Calendar Year 1 Profile 8 Register for 02:00, 02:15, 02:30 & 02:45 7-7-7-7 / 0-0-0-0 F24 R 35286 TOU Calendar Year 1 Profile 8 Register for 03:00, 03:15, 03:30 & 03:45 7[...]

  • Page 150

    Address Line Pt DNP Ob j Description Range Units Type R/W 35316 TOU Calendar Year 1 Profile 9 Register for 08:00, 08:15, 08:30 & 08:45 7-7-7-7 / 0-0-0-0 F24 R 35317 TOU Calendar Year 1 Profile 9 Register for 09:00, 09:15, 09:30 & 09:45 7-7-7-7 / 0-0-0-0 F24 R 35318 TOU Calendar Year 1 Profile 9 Register for 10:00, 10:15, 10:30 & 10:45 7[...]

  • Page 151

    Address Line Pt DNP Ob j Description Range Units Type R/W 35349 TOU Calendar Year 1 Profile 10 Register for 16:00, 16:15, 16:30 & 16:45 7-7-7-7 / 0-0-0-0 F24 R 35350 TOU Calendar Year 1 Profile 10 Register for 17:00, 17:15, 17:30 & 17:45 7-7-7-7 / 0-0-0-0 F24 R 35351 TOU Calendar Year 1 Profile 10 Register for 18:00, 18:15, 18:30 & 18:4[...]

  • Page 152

    Address Line Pt DNP Ob j Description Range Units Type R/W 35382 TOU Calendar Year 1 Profile 12 Status F23 R 35383 TOU Calendar Year 1 Profile 12 Register for 00:00, 00:15, 00:30 & 00:45 7-7-7-7 / 0-0-0-0 F24 R 35384 TOU Calendar Year 1 Profile 12 Register for 01:00, 01:15, 01:30 & 01:45 7-7-7-7 / 0-0-0-0 F24 R 35385 TOU Calendar Year 1 Prof[...]

  • Page 153

    Address Line Pt DNP Ob j Description Range Units Type R/W 35415 TOU Calendar Year 1 Profile 13 Register for 07:00, 07:15, 07:30 & 07:45 7-7-7-7 / 0-0-0-0 F24 R 35416 TOU Calendar Year 1 Profile 13 Register for 08:00, 08:15, 08:30 & 08:45 7-7-7-7 / 0-0-0-0 F24 R 35417 TOU Calendar Year 1 Profile 13 Register for 09:00, 09:15, 09:30 & 09:4[...]

  • Page 154

    Address Line Pt DNP Ob j Description Range Units Type R/W 35447 TOU Calendar Year 1 Profile 14 Register for 14:00, 14:15, 14:30 & 14:45 7-7-7-7 / 0-0-0-0 F24 R 35448 TOU Calendar Year 1 Profile 14 Register for 15:00, 15:15, 15:30 & 15:45 7-7-7-7 / 0-0-0-0 F24 R 35449 TOU Calendar Year 1 Profile 14 Register for 16:00, 16:15, 16:30 & 16:4[...]

  • Page 155

    Address Line Pt DNP Ob j Description Range Units Type R/W 35480 TOU Calendar Year 1 Profile 15 Register for 22:00, 22:15, 22:30 & 22:45 7-7-7-7 / 0-0-0-0 F24 R 35481 TOU Calendar Year 1 Profile 15 Register for 23:00, 23:15, 23:30 & 23:45 7-7-7-7 / 0-0-0-0 F24 R 35482 TOU Calendar Year 1 Profile 16 Status F23 R 35483 TOU Calendar Year 1 Prof[...]

  • Page 156

    Address Line Pt DNP Ob j Description Range Units Type R/W 35513-35520 TOU Calendar Year 1 Profile 1 Label F1 R 35521-35528 TOU Calendar Year 1 Profile 2 Label F1 R 35529-35536 TOU Calendar Year 1 Profile 3 Label F1 R 35537-35544 TOU Calendar Year 1 Profile 4 Label F1 R 35545-35548 TOU Calendar Year 1 Profile 5 Label (Partial) F1 R 35549-35552 TOU C[...]

  • Page 157

    Address Line Pt DNP Ob j Description Range Units Type R/W 35725-35728 TOU Calendar Year 1 End Date Daylight Savings Time 12/31/9999 23:59:59.99 10 msec F3 R 35729 TOU Calendar Year 1 DST Enable / Average Selection F26 R 35730 Clear on New Period/ Freeze Period Selection 35731 Weekly Freeze Day of Week/ Freeze Hour 35732-35800 TOU Calendar Year 1 Un[...]

  • Page 158

    Address Line Pt DNP Ob j Description Range Units Type R/W 36997 Limit Trigger Log Last Index record 65535 / record 0 1 record R 36998-37001 Limit Trigger Log First Time Stamp 12/31/9999 23:59:59.99 10 msec R 37002-37005 Limit Trigger Log Last Time Stamp 12/31/9999 23:59:59.99 10 msec R 37006-37009 Limit Trigger Log Valid Bitmap R 37010 Limit Trigge[...]

  • Page 159

    Address Line Pt DNP Ob j Description Range Units Type R/W 37249-37250 Digital Output Log Memory Size 4,294,967,295 bytes / 0 bytes 1 byte R 37251 Digital Output Log Record Size 65535 bytes / 0 bytes 1 byte R 37252 Digital Output Log First Index record 65535 / record 0 1 record R 37253 Digital Output Log Last Index record 65535 / record 0 1 record R[...]

  • Page 160

    Address Line Pt DNP Ob j Description Range Units Type R/W 37454-37457 Waveform Trigger Log Valid Bitmap R 37458 Waveform Trigger Log Max Records 65535 records / 0 records 1 record R 37505-37506 System Event Log Memory Size 4,294,967,295 bytes / 0 bytes 1 byte R 37507 System Event Log Record Size 65535 bytes / 0 bytes 1 byte R 37508 System Event Log[...]

  • Page 161

    Address Line Pt DNP Ob j Description Range Units Type R/W 37701 Reset Log Last Index record 65535 / record 0 1 record R 37702-37705 Reset Log First Time Stamp 12/31/9999 23:59:59.99 10 msec R 37706-37709 Reset Log Last Time Stamp 12/31/9999 23:59:59.99 10 msec R 37710-37713 Reset Log Valid Bitmap R 37714 Reset Log Max Records 65535 records / 0 reco[...]

  • Page 162

    Address Line Pt DNP Ob j Description Range Units Type R/W 37953-37954 Direct Memory Access Memory Size 4,294,967,295 bytes / 0 bytes 1 byte R 37955 Direct Memory Access Record Size 65535 bytes / 0 bytes 1 byte R 37956 Direct Memory Access First Index record 65535 / record 0 1 record R 37957 Direct Memory Access Last Index record 65535 / record 0 1 [...]

  • Page 163

    Address Line Pt DNP Ob j Description Range Units Type R/W 38214 Window Mode for Digital Input Snapshot Log R/W 38215 Window Mode for Digital Output Log R/W 38216 Window Mode for Digital Output Snapshot Log R/W 38217 Window Mode for Flicker Log R/W 38218 Window Mode for Waveform Trigger Log R/W 38219 Window Mode for System Event Log R/W 38220 Window[...]

  • Page 164

    Address Line Pt DNP Ob j Description Range Units Type R/W 39424 Auto Increment Window Index R 39425-39488 Auto Increment Log Window R 40961 Last Alarm R 40977-41104 Last Alarm Snapshot R 41105 Latched Exception Flag 65535 exceptions / 0 exceptions 1 exception R 41729 Port Control Command W 41730-41732 Port Control Lock States R 41733 Port Control P[...]

  • Page 165

    Address Line Pt DNP Ob j Description Range Units Type R/W 44549 Preset Energy Selection / Status R/W 45057 Address, Port 4 (I/O) R 45058 Protocol & Baud Rate, Port 4 (I/O) R 45059 Parity & Stop Bits, Port 4 (I/O) R 45060 Data Bits & Response Delay, Port 4(I/O) R 45061 Address, Port 3 R 45062 Protocol & Baud Rate, Port 3 R 45063 Pari[...]

  • Page 166

    Address Line Pt DNP Ob j Description Range Units Type R/W 45087 Value 1, Limit 3 R 45088 Value 2, Limit 3 R 45089 Line Number, Limit 4 R 45090 Point Number and SAB, Limit 4 R 45091 Value 1, Limit 4 R 45092 Value 2, Limit 4 R 45093 Line Number, Limit 5 R 45094 Point Number and SAB, Limit 5 R 45095 Value 1, Limit 5 R 45096 Value 2, Limit 5 R 45097 Li[...]

  • Page 167

    Address Line Pt DNP Ob j Description Range Units Type R/W 45120 Value 2, Limit 11 R 45121 Line Number, Limit 12 R 45122 Point Number and SAB, Limit 12 R 45123 Value 1, Limit 12 R 45124 Value 2, Limit 12 R 45125 Line Number, Limit 13 R 45126 Point Number and SAB, Limit 13 R 45127 Value 1, Limit 13 R 45128 Value 2, Limit 13 R 45129 Line Number, Limit[...]

  • Page 168

    Address Line Pt DNP Ob j Description Range Units Type R/W 45153 Line Number, Limit 20 R 45154 Point Number and SAB, Limit 20 R 45155 Value 1, Limit 20 R 45156 Value 2, Limit 20 R 45157 Line Number, Limit 21 R 45158 Point Number and SAB, Limit 21 R 45159 Value 1, Limit 21 R 45160 Value 2, Limit 21 R 45161 Line Number, Limit 22 R 45162 Point Number a[...]

  • Page 169

    Address Line Pt DNP Ob j Description Range Units Type R/W 45186 Point Number and SAB, Limit 28 R 45187 Value 1, Limit 28 R 45188 Value 2, Limit 28 R 45189 Line Number, Limit 29 R 45190 Point Number and SAB, Limit 29 R 45191 Value 1, Limit 29 R 45192 Value 2, Limit 29 R 45193 Line Number, Limit 30 R 45194 Point Number and SAB, Limit 30 R 45195 Value[...]

  • Page 170

    Address Line Pt DNP Ob j Description Range Units Type R/W 45218 Point Number, Historical Log 1, Parameter 7 R 45219 Line Number, Historical Log 1, Parameter 8 R 45220 Point Number, Historical Log 1, Parameter 8 R 45221 Line Number, Historical Log 1, Parameter 9 R 45222 Point Number, Historical Log 1, Parameter 9 R 45223 Line Number, Historical Log [...]

  • Page 171

    Address Line Pt DNP Ob j Description Range Units Type R/W 45251 Line Number, Historical Log 1, Parameter 24 R 45252 Point Number, Historical Log 1, Parameter 24 R 45253 Line Number, Historical Log 1, Parameter 25 R 45254 Point Number, Historical Log 1, Parameter 25 R 45255 Line Number, Historical Log 1, Parameter 26 R 45256 Point Number, Historical[...]

  • Page 172

    Address Line Pt DNP Ob j Description Range Units Type R/W 45284 Point Number, Historical Log 1, Parameter 40 R 45285 Line Number, Historical Log 1, Parameter 41 R 45286 Point Number, Historical Log 1, Parameter 41 R 45287 Line Number, Historical Log 1, Parameter 42 R 45288 Point Number, Historical Log 1, Parameter 42 R 45289 Line Number, Historical[...]

  • Page 173

    Address Line Pt DNP Ob j Description Range Units Type R/W 45317 Line Number, Historical Log 1, Parameter 57 R 45318 Point Number, Historical Log 1, Parameter 57 R 45319 Line Number, Historical Log 1, Parameter 58 R 45320 Point Number, Historical Log 1, Parameter 58 R 45321 Line Number, Historical Log 1, Parameter 59 R 45322 Point Number, Historical[...]

  • Page 174

    Address Line Pt DNP Ob j Description Range Units Type R/W 45350 Point Number, Historical Log 2, Parameter 9 R 45351 Line Number, Historical Log 2, Parameter 10 R 45352 Point Number, Historical Log 2, Parameter 10 R 45353 Line Number, Historical Log 2, Parameter 11 R 45354 Point Number, Historical Log 2, Parameter 11 R 45355 Line Number, Historical [...]

  • Page 175

    Address Line Pt DNP Ob j Description Range Units Type R/W 45383 Line Number, Historical Log 2, Parameter 26 R 45384 Point Number, Historical Log 2, Parameter 26 R 45385 Line Number, Historical Log 2, Parameter 27 R 45386 Point Number, Historical Log 2, Parameter 27 R 45387 Line Number, Historical Log 2, Parameter 28 R 45388 Point Number, Historical[...]

  • Page 176

    Address Line Pt DNP Ob j Description Range Units Type R/W 45416 Point Number, Historical Log 2, Parameter 42 R 45417 Line Number, Historical Log 2, Parameter 43 R 45418 Point Number, Historical Log 2, Parameter 43 R 45419 Line Number, Historical Log 2, Parameter 44 R 45420 Point Number, Historical Log 2, Parameter 44 R 45421 Line Number, Historical[...]

  • Page 177

    Address Line Pt DNP Ob j Description Range Units Type R/W 45449 Line Number, Historical Log 2, Parameter 59 R 45450 Point Number, Historical Log 2, Parameter 59 R 45451 Line Number, Historical Log 2, Parameter 60 R 45452 Point Number, Historical Log 2, Parameter 60 R 45453 Line Number, Historical Log 2, Parameter 61 R 45454 Point Number, Historical[...]

  • Page 178

    Address Line Pt DNP Ob j Description Range Units Type R/W 45481 Calculated Neutral Current Above Setpoint +327.67% / -327.68% 0.01% R 45482 Calculated Neutral Current Below Setpoint +327.67% / -327.68% 0.01% R 45483 Phase A-B Voltage Above Setpoint +327.67% / -327.68% 0.01% R 45484 Phase A-B Voltage Below Setpoint +327.67% / -327.68% 0.01% R 45485 [...]

  • Page 179

    Address Line Pt DNP Ob j Description Range Units Type R/W 45584 Reserved 45585-45592 Input 4 Name R 45593-45600 Input 4 Open Label R 45601-45608 Input 4 Close Label R 45609-45610 Input 4 Value R 45611 Input 4 Mode R 45612 Reserved 45613-45620 Input 5 Name R 45621-45628 Input 5 Open Label R 45629-45636 Input 5 Close Label R 45637-45638 Input 5 Value[...]

  • Page 180

    Address Line Pt DNP Ob j Description Range Units Type R/W 45726 External Digital Input Module 2 Address R 45727 External Digital Input Module 3 Address R 45728 External Digital Input Module 4 Address R 45729 Address, External Digital Output Module 1 R 45730-45732 Reserved 45733 Line Number, Relay 1, External Digital Output Module 1 R 45734 Point Nu[...]

  • Page 181

    Address Line Pt DNP Ob j Description Range Units Type R/W 45762 Point Number, Relay 5, External Digtial Output Module 2 R 45763 Line Number, Relay 6, External Digital Output Module 2 R 45764 Point Number, Relay 6, External Digtial Output Module 2 R 45765 Line Number, Relay 7, External Digital Output Module 2 R 45766 Point Number, Relay 7, External [...]

  • Page 182

    Address Line Pt DNP Ob j Description Range Units Type R/W 45799 Line Number, Relay 4, External Digital Output Module 4 R 45800 Point Number, Relay 4, External Digtial Output Module 4 R 45801 Line Number, Relay 5, External Digital Output Module 4 R 45802 Point Number, Relay 5, External Digtial Output Module 4 R 45803 Line Number, Relay 6, External D[...]

  • Page 183

    Address Line Pt DNP Ob j Description Range Units Type R/W 45832 Point Number, Relay 8, External Digtial Output Module 1 R 45833 Address, External Analog Output Module 2 R 45834-45836 Reserved 45837 Line Number, Relay 1, External Analog Output Module 2 R 45870 Point Number, Relay 1, External Digtial Output Module 2 R 45839 Line Number, Relay 2, Exte[...]

  • Page 184

    Address Line Pt DNP Ob j Description Range Units Type R/W 45869 Line Number, Relay 7, External Analog Output Module 3 R 45870 Point Number, Relay 7, External Digtial Output Module 3 R 45871 Line Number, Relay 8, External Analog Output Module 3 R 45872 Point Number, Relay 8, External Digtial Output Module 3 R 45873 Address, External Analog Output Mo[...]

  • Page 185

    Address Line Pt DNP Ob j Description Range Units Type R/W 45903 Energy Assignement, Relay 3-4, External KYZ Output Module 3 R 45904 Reserved 45905 Address, External KYZ Output Module 4 R 45906 Energy Assignement, Relay 1-2, External KYZ Output Module 4 R 45907 Energy Assignement, Relay 3-4, External KYZ Output Module 4 R 45908 Reserved 45909-45910 [...]

  • Page 186

    Address Line Pt DNP Ob j Description Range Units Type R/W 45953-45960 Limits R 45961-45962 External Inputs R 45963 Reserved 45964 Digital Inputs R 45965-45966 Device Internal Change R 45967-45968 External Digital Input Mode R 45969-45976 Meter Designation R 45977-45984 Auxiliary Voltage Label (1250 only) R 45985-45992 Measured Neutral Current Label[...]

  • Page 187

    Address Line Pt DNP Ob j Description Range Units Type R/W 46025-46026 Full Scale Phase-to-Neutral Voltage 65535 / 0 1 / 65536 R 46027-46028 Full Scale Auxiliary Voltage 65535 / 0 1 / 65536 R 46029-46030 Full Scale Phase-To-Phase Voltage 65535 / 0 1 / 65536 R 46031-46032 Full Scale Phase Power 65535 / 0 1 / 65536 R 46033-46034 Full Scale Total Power[...]

  • Page 188

    Address Line Pt DNP Ob j Description Range Units Type R/W 46141-46148 External Module 10 Label R 46149-46156 External Module 11 Label R 46157-46164 External Module 12 Label R 46165-46172 External Module 13 Label R 46173-46180 External Module 14 Label R 46181-46188 External Module 15 Label R 46189-46196 External Module 16 Label R 46197 Digital Input[...]

  • Page 189

    Address Line Pt DNP Ob j Description Range Units Type R/W 46228 Internal Input 7 & 8 Pulse Accumulation Aggregator Assignment R 46229-46236 Internal Input 1 Pulse Accumulation Label R 46237-46244 Internal Input 2 Pulse Accumulation Label R 46245-46252 Internal Input 3 Pulse Accumulation Label R 46253-46260 Internal Input 4 Pulse Accumulation La[...]

  • Page 190

    Address Line Pt DNP Ob j Description Range Units Type R/W 46350 Flicker Base Frequency R 46351-46372 Reserved R 46373-46376 Internal Input 1 Pulse Accumulation Unit Label R 46377-46380 Internal Input 2 Pulse Accumulation Unit Label R 46381-46384 Internal Input 3 Pulse Accumulation Unit Label R 46385-46388 Internal Input 4 Pulse Accumulation Unit La[...]

  • Page 191

    Address Line Pt DNP Ob j Description Range Units Type R/W 46451-46452 Relay 2 Combination Tree Input Line 4, Point 4 R 46453-46454 Relay 2 Combination Tree Input Line 5, Point 5 R 46455-46456 Relay 2 Combination Tree Input Line 6, Point 6 R 46457-46458 Relay 2 Combination Tree Input Line 7, Point 7 R 46459-46460 Relay 2 Combination Tree Input Line [...]

  • Page 192

    Address Line Pt DNP Ob j Description Range Units Type R/W 46509 Relay 4 Combination Logic (Combination A/ Combination B) R 46510 Relay 4 Combination Logic (Combination C/ Combination D) R 46511 Relay 4 Combination Logic (Combination E/ Combination F) R 46512 Relay 4 Combination Logic (Combination G/ Reserved) R 46513 Relay 4 Set Delay/ Reset Delay [...]

  • Page 193

    Address Line Pt DNP Ob j Description Range Units Type R/W 46562-46564 Reserved R 46565-46566 Relay 7 Combination Tree Input Line 1, Point 1 R 46567-46568 Relay 7 Combination Tree Input Line 2, Point 2 R 46569-46570 Relay 7 Combination Tree Input Line 3, Point 3 R 46571-46572 Relay 7 Combination Tree Input Line 4, Point 4 R 46573-46574 Relay 7 Combi[...]

  • Page 194

    Address Line Pt DNP Ob j Description Range Units Type R/W 46621-46622 Relay 9 Combination Tree Input Line 5, Point 5 R 46623-46624 Relay 9 Combination Tree Input Line 6, Point 6 R 46625-46626 Relay 9 Combination Tree Input Line 7, Point 7 R 46627-46628 Relay 9 Combination Tree Input Line 8, Point 8 R 46629 Relay 9 Combination Logic (Combination A/ [...]

  • Page 195

    Address Line Pt DNP Ob j Description Range Units Type R/W 46678 Relay 11 Combination Logic (Combination C/ Combination D) R 46679 Relay 11 Combination Logic (Combination E/ Combination F) R 46680 Relay 11 Combination Logic (Combination G/ Reserved) R 46681 Relay 11 Set Delay/ Reset Delay R 46682-46684 Reserved R 46685-46686 Relay 12 Combination Tre[...]

  • Page 196

    Address Line Pt DNP Ob j Description Range Units Type R/W 46733-46734 Relay 14 Combination Tree Input Line 1, Point 1 R 46735-46736 Relay 14 Combination Tree Input Line 2, Point 2 R 46737-46738 Relay 14 Combination Tree Input Line 3, Point 3 R 46739-46740 Relay 14 Combination Tree Input Line 4, Point 4 R 46741-46742 Relay 14 Combination Tree Input [...]

  • Page 197

    Address Line Pt DNP Ob j Description Range Units Type R/W 46791-46792 Relay 16 Combination Tree Input Line 6, Point 6 R 46793-46794 Relay 16 Combination Tree Input Line 7, Point 7 R 46795-46796 Relay 16 Combination Tree Input Line 8, Point 8 R 46797 Relay 16 Combination Logic (Combination A/ Combination B) R 46798 Relay 16 Combination Logic (Combin[...]

  • Page 198

    Address Line Pt DNP Ob j Description Range Units Type R/W 46989-46996 Limit 24 Label R 46997-47004 Limit 25 Label R 47005-47012 Limit 26 Label R 47213-47020 Limit 27 Label R 47021-47028 Limit 28 Label R 47029-47036 Limit 29 Label R 47037-47044 Limit 30 Label R 47045-47052 Limit 31 Label R 47053-47060 Limit 32 Label R 47061 Module 1/ Module 2 R 4706[...]

  • Page 199

    Address Line Pt DNP Ob j Description Range Units Type R/W 47369-47424 Point 1 - Point 8 47425 Point 0-7, Line Number R 47426 Point 0-7, Point Number/ Class assignments R 47427-47428 Point 0-7, reserved 47429-47456 Point 8-15 - Point 57-64 47457 Enable/Disable Relays (1 - 16) R 47458 Enable/Disable Resets (17 - 24) / reserved 47459 Choice of Variaio[...]

  • Page 200

    Address Line Pt DNP Ob j Description Range Units Type R/W 48673-48674 Module 2 Channel 1 High 32767 / -32768 1/65536 R 48675-48676 Module 2 Channel 2 High 32767 / -32768 1/65536 R 48677-48678 Module 2 Channel 3 High 32767 / -32768 1/65536 R 48679-48680 Module 2 Channel 4 High 32767 / -32768 1/65536 R 48681-48682 Module 2 Channel 5 High 32767 / -327[...]

  • Page 201

    Address Line Pt DNP Ob j Description Range Units Type R/W 48739-48740 Module 4 Channel 2 High 32767 / -32768 1/65536 R 48741-48742 Module 4 Channel 3 High 32767 / -32768 1/65536 R 48743-48744 Module 4 Channel 4 High 32767 / -32768 1/65536 R 48745-48746 Module 4 Channel 5 High 32767 / -32768 1/65536 R 48747-48748 Module 4 Channel 6 High 32767 / -327[...]

  • Page 202

    Address Line Pt DNP Ob j Description Range Units Type R/W 48905-48912 Module 3 Channel Label 2 R 48913-48920 Module 3 Channel Label 3 R 48921-48928 Module 3 Channel Label 4 R 48929-48936 Module 3 Channel Label 5 R 48937-48944 Module 3 Channel Label 6 R 48945-48952 Module 3 Channel Label 7 R 48953-48960 Module 3 Channel Label 8 R 48961-48968 Module [...]

  • Page 203

    Address Line Pt DNP Ob j Description Range Units Type R/W 49161-49168 Module 3 Channel Label 2 R 49169-49176 Module 3 Channel Label 3 R 49177-49184 Module 3 Channel Label 4 R 49185-49192 Module 3 Channel Label 5 R 49193-49200 Module 3 Channel Label 6 R 49201-49208 Module 3 Channel Label 7 R 49209-49216 Module 3 Channel Label 8 R 49217-49224 Module [...]

  • Page 204

    Address Line Pt DNP Ob j Description Range Units Type R/W 49425-49432 Module 3 Open Label 3 R 49433-49440 Module 3 Open Label 4 R 49441-49448 Module 3 Open Label 5 R 49449-49456 Module 3 Open Label 6 R 49457-49464 Module 3 Open Label 7 R 49465-49472 Module 3 Open Label 8 R 49473-49480 Module 4 Open Label 1 R 49481-49488 Module 4 Open Label 2 R 4948[...]

  • Page 205

    Address Line Pt DNP Ob j Description Range Units Type R/W 49689-49696 Module 3 Closed Label 4 R 49697-49704 Module 3 Closed Label 5 R 49705-49712 Module 3 Closed Label 6 R 49713-49720 Module 3 Closed Label 7 R 49721-49728 Module 3 Closed Label 8 R 49729-49736 Module 4 Closed Label 1 R 49737-49744 Module 4 Closed Label 2 R 49745-49752 Module 4 Close[...]

  • Page 206

    Address Line Pt DNP Ob j Description Range Units Type R/W 49945-49952 Module 1 Relay Common Shorted to Normally Closed Label 4 R 49953-49960 Module 2 Relay Common Shorted to Normally Closed Label 1 R 49961-49968 Module 2 Relay Common Shorted to Normally Closed Label 2 R 49969-49976 Module 2 Relay Common Shorted to Normally Closed Label 3 R 49977-49[...]

  • Page 207

    Address Line Pt DNP Ob j Description Range Units Type R/W 50181 Call Delay Timer Limit 50182 Activity Timeout Limit/ Call Fail Reset Limit 50183 Violation Lockout Time/ Violation Limit 50184 Log Full Limit Threshold 50185-50200 Modem ID (32 bytes) 50201-50205 Modem Password (10 bytes) 50206-50208 Numeric Pager ID (7 bytes) 50209 Numeric Pager ID/ B[...]

  • Page 208

    Address Line Pt DNP Ob j Description Range Units Type R/W 50795 Email Mode 50796 FTP Download 50797-50860 Download Filename (128 Bytes) 50861-50892 Email Server IP Addres / Name (64 bytes) 50893-50924 GE Comm Email Processing Service IP Address / Name (64 bytes) 50925-50956 Return / Reply Address (64 bytes) 50957-50988 Email Subject Text (64 Bytes)[...]

  • Page 209

    Address Line Pt DNP Ob j Description Range Units Type R/W 51175-51176 Valid IP Subnet Mask 4 51177-51180 TCP Starting Valid Client Ports 51181-51184 TCP Ending Valid Client Ports 51185-51188 UDP Starting Valid Client Ports 51189-51192 UDP Ending Valid Client Ports 51193-51194 Multicast Group Address 51195 UDP Respond Port 51196-51200 Reserved 51201[...]

  • Page 210

    Address Line Pt DNP Ob j Description Range Units Type R/W 51733 Pulse Accumulation, Input 1/ Pulse Accumulation Input 2 F65 51734 Pulse Accumulation, Input 3/ Pulse Accumulation Input 4 F65 51735 Pulse Accumulation, Input 5/ Pulse Accumulation Input 6 F65 51736 Pulse Accumulation, Input 7/ Pulse Accumulation Input 8 F65 51737 Pulse Aggregation 1/ P[...]

  • Page 211

    Address Line Pt DNP Ob j Description Range Units Type R/W 53259 Phase B Watt + 1500 W / - 1500 W 1500 / 2048 W sec F59 R 53260 Phase C Watt + 1500 W / - 1500 W 1500 / 2048 W sec F59 R 53261 Phase A VAR + 1500 VAR / - 1500 VAR 1500 / 2048 F59 R 53262 Phase B VAR + 1500 VAR / - 1500 VAR 1500 / 2048 F59 R 53263 Phase C VAR + 1500 VAR / - 1500 VAR 1500[...]

  • Page 212

    Address Line Pt DNP Ob j Description Range Units Type R/W 57363 Calibrate +1 Aux Phase R/W 57364 Calibrate -1 Aux Phase R/W 57365 Start Calibration Mode R/W 57366 Calibrate Manual Gain Adjustment R/W 57367 Activate first time CTPT Compensation R/W 57368 Calibrate Manual Phase Adjustment R/W 57369 Calibrate Multiplier 1x R/W 57370 Calibrate Multipli[...]

  • Page 213

    Address Line Pt DNP Ob j Description Range Units Type R/W 57399 Reset Historical Log 2 W 57400 Reset Sequence of Events Log W 57401 Reset Digital Input Log W 57402 Reset Digital Output Log W 57403 Reset Flicker Log W 57404 Reset Waveform Log W 57405 Reset PQ Log W 57406 Reset System Event Log W 57407 Reset Total Average Power Factor W 57408 Reset T[...]

  • Page 214

    Address Line Pt DNP Ob j Description Range Units Type R/W 61004-61008 Phase Compensation for Phase C R 61009-61025 Unused R 61026 Calibration Checksum R 61027-61030 CTPT Compensation Calibration Block Timestamp R 61031-61034 CTPT Compensation Calibration Timestamp R 61035-61036 Gain factor for Van R 61037-61042 Gain factors for Vbn, Vcn, Vxn R 6104[...]

  • Page 215

    Address Line Pt DNP Ob j Description Range Units Type R/W 61202-61203 Gain Factor for Ia 500 mA R/W 61204-61205 Gain Factor for Ia 1 A R/W 61206-61207 Gain Factor for Ia 2.5 A R/W 61208-61209 Gain Factor for Ia 5 A R/W 61210-61221 Gain factors for Ib R/W 61222-61245 Gain factors for Ic, Ix R/W 61246 Unused R/W 61247 Phase Compensation for Phase A 5[...]

  • Page 216

    Address Line Pt DNP Ob j Description Range Units Type R/W 65040 Operational Data Bits & Response Delay, Port 1 (232/485) R 65041-65042 Data Valid Bits R 65088 196 Xilinx Version / 320 Xilinx Version R 65089-65096 EPM Comm Boot Firmware Variation String 1 F1 R 65097-65104 EPM Comm Boot Firmware Variation String 2 F1 R 65105-65112 EPM Comm Boot F[...]

  • Page 217

    Address Line Pt DNP Ob j Description Range Units Type R/W 65321 Password State Enumeration R 65322 Sealing Switch State Enumeration R 65326 Password Lock Enumeration R/W 65327 Password Sequence / Status Enumeration R 65328 Password Command Enumeration R/W 65332-65336 New Password A Fixed Length String W 65340-65344 New Password B Fixed Length Strin[...]

  • Page 218

    Address Line Pt DNP Ob j Description Range Units Type R/W 65419 Port To Port Communications Port 2 R/W 65420 Port To Port Communications Port 1 (232/485) R/W 65421 Port To Port Communications Port 5 (DIAG) R/W 65425-65434 EPM Comm FLASH Code Hex Line W 65441-65450 EPM Comm FLASH Extended Code Hex Line W 65457-65466 EPM Comm FLASH Product History He[...]

  • Page 219

    3-1 Chapt er 3 Communication Data Formats Q This chapter expands upon information listed in the EPM Modbus Register Map (Chapter 2). Section Headings (F1, F2, etc) refer to the value in the Register Map’ s “T ype” column. 3.1: Type F1 Null Terminated ASCII String Q Length: Depends on the reading. Q Each register contains two bytes. Each byte [...]

  • Page 220

    3-2 3.3: Type F3 Time Stamp Q Length: 4 Registers (8 bytes) Q Each register contains two bytes. Each byte contains a binary number representing up to two digits in a part of date and time. The units for each byte are century , year , month, date, hour , minute, second and 10 millisecond. Hour is in 24-hour form, 00H = 0 = 12 AM, 01H = 1 = 1 AM, …[...]

  • Page 221

    3-3 3.5: Type F5 Secondary 1 Cycle RMS Voltage or Current Q Length: 2 Registers (4 bytes) Q Range: +1,048,576 V 2 / 0 V 2 or +65536 I 2 / 0 I 2 Q Unit: 1/4906 V 2 secondary or 1/65536 A 2 secondary Q These registers together are a four -byte unsigned integer . Conversion into secondary voltage or current involves multiplying by the appropriate scal[...]

  • Page 222

    3-4 Example: Registers 00094-00095, 1 cycle Phase A-N V oltage, might contain the following data: Example: Registers 00102-00103, 1 cycle Phase A Current, might contain the following data: Address V alue 4-byte unsigned integer (Hex) 4-byte unsigned integer (Decimal) V 2 secondary V secondary 00095 AC18H 931834904 00094 378AH 378AAC18H 227498.75585[...]

  • Page 223

    3-5 3.6: Type F6 High Speed Input Delta and Current State Q Length: 1 Register (2 bytes) Q This register has two bytes. Each byte has eight bits. The bits in each byte are associated with the 8 High Speed Inputs, the least significant bit with Input 1, through to the most significant bit with Input 8. Q The most significant byte contains Delta info[...]

  • Page 224

    3-6 3.7: Type F7 Secondary Voltage, Current, VA, VAR, Watts, Hz or Flicker Q Length: 2 Registers (4 bytes) Q Range: +32767 / -32768 Q Unit: 1/65536 V , A, V A, V AR, W or Hz Q The registers together contain a four-byte signed (2's compliment) integer . Positive values have the most significant bit clear , and have the same magnitude as an unsi[...]

  • Page 225

    3-7 3.8: Type F8 Power Factor Q Length: 1 Register (2 bytes) Q Range: 3.999 / 0.000 Q Unit: 0.001 PF Q This register contains a 16 bit unsigned number . This number varies from 0000H – 0F9FH, or 0 to 3999 in decimal. This representation allows for expressing Power Factor from 0 to 1 in the four quadrants, as follows: Q Application of sign and lea[...]

  • Page 226

    3-8 3.9: Type F9 Angle Q Length: 1 Register (2 byte) Q Range: +180 / -180 Q Unit: 0.01 degree Q This register contains a 16-bit signed (2's compliment) number . Positive values have the most significant bit clear , and have the same magnitude as an unsigned integer . Negative values have the most significant bit set. The magnitude of a negativ[...]

  • Page 227

    3-9 3.10: Type F10 Percentage Q Length: 1 Register (2 bytes) Q Range: +327.67% / - 327.68% Q Unit: 0.01% Q This register contains a 16-bit signed (2's compliment) number . Positive values have the most significant bit clear , and have the same magnitude as an unsigned integer . Negative values have the most significant bit set. The magnitude o[...]

  • Page 228

    3-10 3.11: Type F11 Energy Counter (Packed BCD / Secondary) Q Length: 4 Registers (8 bytes) Q Range: 9,999,999,999,999,999 / 0 V Ah, V ARh or Wh secondary Q Unit: 1 V Ah, V ARh or Wh secondary Q These registers contain 8 bytes of Packed BCD. Each register contains 2 bytes. Each byte contains 2 nibbles. Each nibble represents a decimal digit from 0-[...]

  • Page 229

    3-11 3.13: Type F13 Phase Sequence Q Length: 1 Register (2 bytes) Q This register contains a 16-bit unsigned integer , associated with the Phase Sequence as follows: 3.14: Type F14 Average Status Q Length: 1 Register (2 bytes) Q This register contains a 16-bit unsigned integer , associated with the A verage Status as follows: Address V alue 8-byte [...]

  • Page 230

    3-12 In Modbus, a value will be returned based on the type of reading. Negative Maximums and Positive Minimums return: 7FFFFFFFH or 2,147,483,647. Positive Maximums and Negative Minimums return: 80000000H or +/- 2,147,483,647. No T imestamp will be assigned to the reading. 3.15: Type F15 Limit States Q Length: 1 Register (2 bytes) Q This register h[...]

  • Page 231

    3-13 3.16: Type F16 Low Speed Input States Q Length: 1 Register (2 bytes) Q This register has two bytes. Each byte has eight bits. The bits in the most significant byte are associated with the eight Status Inputs, the most significant bit with input 8, through to the least significant bit with Input 1. The least significant byte is undefined. Q A b[...]

  • Page 232

    3-14 3.17: Type F17 External Digital Input States Q Length: 1 Register (2 bytes) Q This register has two bytes. Each byte has eight bits. The bits in the Least significant byte are associated with the eight External Digital Inputs in an External Digital Input Module, the most significant bit with input 8, through to the least significant bit with I[...]

  • Page 233

    3-15 3.18: Type F18 External Input Accumulations Q Length: 2 Registers (4 bytes) Q Range: 4,294,967,295/0 Q Unit: Accumulated Transitions Q These registers contain a 4-byte unsigned integer . Example: Register 02775-02776, Input Accumulations, Module 1, might contain the following data: Address V alue 4-byte unsigned integer Decimal Accumulated T r[...]

  • Page 234

    3-16 Address 02850 02851 02852 02853 V alue Bytes 0000H 0001H 0534H 1284H 00H 00H 00H 01H 05H Nibbles 34H 12H 84H 0H 0H 0H 0H 0H 0H 0H 1H 0H 5H 3H 4H 1H 2H 8H 4H Digit 0000000105341284 Unit PT G M k VA h 105,341,284 V Ah primary 3.20: Type F20 Energy Counter (Binary / Primary) Q Length: 4 Registers (8 bytes) Q Range: 9,999,999,999,999,999/0 V Ah, V[...]

  • Page 235

    3-17 3.21: Type F21 Year Q Length: 1 Register (2 bytes) Q Each byte contains a binary number representing up to two digits in a part of a year . The units for each byte are century and year . Example: Register 34821, T OU Calendar Y ear 1 Calendar Y ear, might contain the following data: Address V alue Bytes Decimal Unit Date 13H 63H 19 99 Century [...]

  • Page 236

    3-18 3.23: Type F23 TOU Profile Status Q Length: 1 Register (2 bytes) Q This register contains an enumeration indicating the Status of the Profile. The enumeration is as follows: Address V alue Bytes Decimal Meaning Day Day (Leap Y ear) Meaning Meaning (Leap Y ear) Profile 3 on Mar 1 Profile 5 on Mar 2 Profile 5 on Mar 3 Profile 3 on Mar 2 Mar 1 Ma[...]

  • Page 237

    3-19 3.24: Type F24 TOU Daily Profile Register Assignment Q Length: 1 Register (2 bytes) Q Each register contains 2 bytes. Each byte contains 2 nibbles. Each nibble contains an enumeration indicating which T OU Register is to be used during the indicated 15-minute period. The enumerations are as follows: Address V alue Bytes Nibbles Decimal Period [...]

  • Page 238

    3-20 3.25: Type F25 TOU Profile Monthly End Day Q Length: 1 Register (2 bytes) Q Each byte stands for a different month of the year . Each byte contains a binary number indicating what the last day of the monthly billing cycle should be for that month. Billing periods are up to and including the end day . Example: Register 35507, T OU Calendar Y ea[...]

  • Page 239

    3-21 Q The second byte contains an enumeration indicating which form of average is to be used for Peak and Coincident Demand functions. The enumeration is as follows: Address V alue Bytes Decimal Purpose Meaning DST Disabled for TOU DST Enabled 0 00H Rolling Window A verages for TOU Peak & Coincident Demand Average Selection 1 01H 0001H 35729 3[...]

  • Page 240

    3-22 Address V alue Bytes Decimal Purpose Meaning Meaning Sequence #66 Sequence 66 42H 02H 2 S tatus Unfinished Sequence #66 is Unfinished 4202H 36608 3.28: Type F28 TOU Upload Calendar Window ID Q Length: 1 Register (2 bytes) Q Range: 1 - 14 Q This register contains an enumeration indicating which T OU Calendar W indow is being uploaded through th[...]

  • Page 241

    3-23 3.30: Type F30 TOU Upload Calendar Window Checksum Q Length: 1 Register (2 bytes) Q This register contains an unsigned integer which is the checksum for the rest of the TOU Upload Calendar W indow . Example: Register 36736, T OU Upload Calendar W indow Checksum, might contain the following data: Address V alue Decimal Meaning 36736 3245H 12869[...]

  • Page 242

    3-24 3.33: Type F33 Temperature Q Length: 1 Register (2 bytes) Q Range: +327.67 C / - 327.68 C Q Unit: 0.01 degree C Q This register contains a 16-bit signed (2’ s compliment) number . Positive values have the most significant bit clear and have the same magnitude as an unsigned integer . Negative values have the most significant bit set. The mag[...]

  • Page 243

    3-25 3.34: Type F34 Limit and Relay Logic States Q Length: 1 Register (2 bytes) Q This register has two bytes. Each byte has eight bits. The bits in these bytes are associated with the 16 Limits or Relays, the most significant bit of the most significant byte with Limit 1 (or 17, or Relay 1), through to the least significant bit of the least signif[...]

  • Page 244

    3-26 Address V alue Bytes Interpret ation Relay 1 has 4 seconds of delay remaining, Relay 2 has no delay remaining. 00H 04H 0400H 06000 3.36: Type F36 Desired Relay States Q Length: 1 Register (1 bytes) Q This register has two bytes. Each byte has eight bits. The bits in these bytes are associated with the 16 Relays, the most significant bit of the[...]

  • Page 245

    3-27 A bit value of 1 means the physical relay needs to be updated, a bit value of 0 means the physical relay does not need to be updated. Example: Register 06009, Relays Pending Updates 1-16, might contain the following data: Address V alue Bytes Bit s 06010 0440H 3.38: Type F38 Shadowed Relay States Q Length: 1 Register (2 bytes) Q This register [...]

  • Page 246

    3-28 3.39: Type F39 Confirmed Polled Relay States Q Length: 1 Register (2 bytes) Q This register has two bytes. Each byte has eight bits. The bits in these bytes are associated with the 16 Relays, the most significant byte with Relay 1 through to the least significant bit of the least significant byte with Relay 16. A bit value of 1 means the relay[...]

  • Page 247

    3-29 Bytes FFFOH 06012 Address V alue FOH Bit s FFH Point Relay V alid? Interpret ation 61 4 11111100 11111100 012345 789 1 0 1 1 1 2 1 3 1 5 123456789 1 0 1 1 1 2 1 3 1 4 1 5 1 6 Y es Y es Y es Y es Y es Y es Y es Y es Y es Y es Y es Y es Y es Y es Y es Y es Confirmed states for Relays 13-16 have not yet been polled and are not yet valid. 3.41: Ty[...]

  • Page 248

    3-30 Address 06014 V alue 0461H Bytes Bit s Relay Point NO/NC Interpret ation Relays 6, 10, 1 1 and 16 are energized; all others are de-energized, if they are locked. 04H 61H 00 1 11 1 000 000 0000 0123456789 1 0 1 1 1 2 1 3 1 4 1 5 123456789 1 0 1 1 1 2 1 3 1 4 1 5 1 6 NC NC NC NC NC NO NC NC NC NO NO NC NC NC NC NO 3.42: Type F42 Locked Relay Sta[...]

  • Page 249

    3-31 3 3 . . 4 4 3 3 : : T T y y p p e e F F 4 4 3 3 M M i i s s c c e e l l l l a a n n e e o o u u s s F F l l a a g g s s Q Length: 1 Register (2 bytes) Q This register has 2 bytes. Each byte has eight bits. The bits in these bytes are associated with various miscellaneous functions as follows: Q NVRAM Battery Status: For an EPM 9800 using Mark [...]

  • Page 250

    3-32 3 3 . . 4 4 4 4 : : T T y y p p e e F F 4 4 4 4 D D i i g g i i t t a a l l I I n n p p u u t t M M o o d d u u l l e e D D a a t t a a S S t t a a t t u u s s Q Length: 1 Register (2 bytes) Q This register has two bytes. Each byte has eight bits. The bits in these bytes are associated with the status of the data received from the Digital Inpu[...]

  • Page 251

    3-33 3 3 . . 4 4 5 5 : : T T y y p p e e F F 4 4 5 5 A A n n a a l l o o g g I I n n p p u u t t M M o o d d u u l l e e s s D D a a t t a a S S t t a a t t u u s s Q Length: 2 Registers (4 bytes) Q This register has two bytes. Each byte has eight bits. The bits in these bytes are associated with the status of the data received from the Analog Inpu[...]

  • Page 252

    3-34 3 3 . . 4 4 6 6 : : T T y y p p e e F F 4 4 6 6 H H i i g g h h B B y y t t e e o o f f M M o o d d b b u u s s R R e e g g i i s s t t e e r r ( ( S S i i g g n n e e d d ) ) Q Length: 1 byte Q High Byte of Modbus Register , Signed Q Range: +127 / -128 Q Unit: 1 3 3 . . 4 4 7 7 : : T T y y p p e e F F 4 4 7 7 H H i i g g h h B B y y t t e e o[...]

  • Page 253

    3-35 3 3 . . 5 5 0 0 : : T T y y p p e e F F 5 5 0 0 T T w w o o -B B y y t t e e ( ( S S i i g g n n e e d d ) ) Q Length: 2 bytes Q T wo-Byte, Signed Q Range: +32,767 / -32,768 Q Unit: 1 3 3 . . 5 5 1 1 : : T T y y p p e e F F 5 5 1 1 T T w w o o -B B y y t t e e ( ( U U n n s s i i g g n n e e d d ) ) Q Length: 2 bytes Q T wo-Byte, Unsigned Q Ra[...]

  • Page 254

    3-36 3 3 . . 5 5 4 4 : : T T y y p p e e F F 5 5 4 4 E E i i g g h h t t -B B y y t t e e ( ( S S i i g g n n e e d d ) ) Q Length: 8 bytes Q Eight-Byte, Signed Q Range: +9,223,372,036,854,775,807 / -9,223,372,036,854,775,808 Q Unit: 1 3 3 . . 5 5 5 5 : : T T y y p p e e F F 5 5 5 5 E E i i g g h h t t -B B y y t t e e ( ( U U n n s s i i g g n n e[...]

  • Page 255

    3-37 3 3 . . 5 5 6 6 : : T T y y p p e e F F 5 5 6 6 F F l l i i c c k k e e r r C C o o u u n n t t d d o o w w n n s s Q Length: 1 Register (2 bytes) Q Range: 65,535 / 0 seconds Q Unit: 1 second Q This register contains an unsigned integer which is count-down in seconds until the end of a Flicker interval, Short T erm or Long T erm. Example: Regi[...]

  • Page 256

    3-38 3 3 . . 5 5 9 9 : : T T y y p p e e F F 5 5 9 9 1 1 2 2 -b b i i t t R R T T U U C C u u r r r r e e n n t t , , V V o o l l t t a a g g e e , , W W , , V V A A R R Q Length: 1 Register (2 bytes) Q Range: +5A / 0 A, + 150V / 0 V , +1500 W , V AR / -1500 W , V AR Q Unit: 5 / 2048 A, 150/2048 V , 1500 / 2048 W , V AR Q Each register contains a 1[...]

  • Page 257

    3-39 3 3 . . 6 6 0 0 : : T T y y p p e e F F 6 6 0 0 E E n n e e r r g g y y C C o o u u n n t t e e r r Q Length: 2 Registers (4 bytes) Q Range: +99,999,999 / 0 or 0 / -99,999,999 kWh, kV ARh Q Unit: 1 kWh, kV ARh Q Each pair of registers represents an Energy Counter in primary . Each register contains a value from 0 to 9,999 (0x00000 - 0x0270F), [...]

  • Page 258

    3-40 3 3 . . 6 6 2 2 : : T T y y p p e e F F 6 6 2 2 S S c c a a l l e e d d P P u u l l s s e e A A c c c c u u m m u u l l a a t t i i o o n n , , A A g g g g r r e e g g a a t t i i o o n n o o r r A A v v e e r r a a g g e e Q Length: 4 Registers (8 bytes) Q Range: +9,223,372,036,854,776,807 / -9,223,372,036,854,776,808 Q Unit: 1 Unit Q This re[...]

  • Page 259

    3-41 3 3 . . 6 6 3 3 : : T T y y p p e e F F 6 6 3 3 L L o o g g I I n n d d e e x x Q Length: 1 Register (2 bytes) Q Range: 65,535 / 0 Q Unit: 1 Unit Q This register contains a 2-byte MSB unsigned integer , which represents the First or Last Index for a given Log. First Indexes represent the Index of the First (Oldest) record in a log. Last Indexe[...]

  • Page 260

    3-42 3 3 . . 6 6 5 5 : : T T y y p p e e F F 6 6 5 5 S S c c a a l l e e d d E E n n e e r r g g y y S S e e t t t t i i n n g g Q Length: 1/2 a Register (1 byte) Q Each register contains 2 bytes. Each byte contains settings for a base quantity . The format of a byte is as follows: Bit Meaning 76543210 Digits Unit Decimal Places Digits is a 3-bit f[...]

  • Page 261

    3-43 3 3 . . 6 6 6 6 : : T T y y p p e e 6 6 6 6 T T O O U U U U p p l l o o a a d d C C a a l l e e n n d d a a r r W W i i n n d d o o w w L L o o c c k k e e d d t t o o P P o o r r t t Q Length: 1 Register (2 bytes) Q When read, this register contains an enumeration indicating to which port the TOU Upload Calendar W indow is locked. The enumera[...]

  • Page 262

    3-44 Example: Register 00390, Maximum K-Factor Phase A Current, might contain the following data: Register 0185H, Maximum K-Factor Phase A Current, might contain the following data: Address 00390 V alue 08BBH Most significant bit 0 Decimal +2235 K-Factor +22.35 Address 00390 V alue F745H Most significan bit 1 Complement 08BAH Increment 08BBH Decima[...]

  • Page 263

    4-1 Chapt er 4 Modbus Register Map Notes 4 4 . . 1 1 : : M M o o d d b b u u s s R R e e g g i i s s t t e e r r M M a a p p N N o o t t e e s s Q The information in this chapter refers to the Register Map’ s “Notes” column. 1) T ime information can be supplied from one of two different sources, an internal Real Time Clock or an external GPS [...]

  • Page 264

    4-2 9) V A, V AR and W atts are in secondary . T o convert this value into primary V A, V AR or W atts, multiply by the Phase V oltage PT Ratio, composed of the Phase V oltage PT Ratio Numerator and Denominator (Registers 45916 - 45917 and 45918 - 45919) and by the Phase Current CT Ratio, composed of the Phase Current CT Ratio Numerator and Denomin[...]

  • Page 265

    5-1 Chapt er 5 Logs, Port Control and Updating Programmable Settings 5 5 . . 1 1 : : D D o o w w n n l l o o a a d d i i n n g g L L o o g g s s - O O v v e e r r v v i i e e w w Q A Modbus Master uses a Log W indow consisting of 64 Registers to retrieve logs from an EPM Slave. A log is divided into numbered sections called Indexes, which are trans[...]

  • Page 266

    5-2 — Max Records: an unsigned integer representing the total number of records the log is capable of holding. In order to maintain a one-for -one relationship in parallel logs (Sequence of Events State and Sequence of Events Snapshot logs, for example), the maximum number of records that a log can store is defined by the log that holds the fewes[...]

  • Page 267

    5-3 action should be performed only under the following two circumstances: —When the programmable settings are modified, such that data already in the logs is invalidated. For example, any modifications involving the record size or or ganization of the contents of a snapshot would require the logs to be cleared of any previous data. —When the R[...]

  • Page 268

    5-4 15. Read W indow from the beginning up to (but not including) the ending of fset. 16. Un-pause the log by writing FFFFH to the Log W indow Index Register . 5 5 . . 1 1 . . 2 2 : : D D o o w w n n l l o o a a d d i i n n g g T T i i m m e e S S t t a a m m p p s s w w i i t t h h E E x x a a m m p p l l e e s s Q The following steps detail the p[...]

  • Page 269

    5-5 Example: Ending W indow Index = Int([8 x {500 + 1}]/128 = Int(31.3125) = 31 Ending W indow Offset = (8 x [500 + 1]) % 128 = 40 7. Set the W indow Mode to Download Mode by writing the Download Mode code (0000H) to the Log W indow Mode Register . Example: W rite the value 0000H to the W indow Mode for Historical Log 1, Register 38209. 8. Set the [...]

  • Page 270

    5-6 Example: W rite the value 0 (0000H) to the W indow Index Historical Log 1, Register 38145. 15. Read W indow from the beginning up to (but not including) the Ending Of fset. Ending Offset = First Register of W indow + (Ending W indow Offset/2). Example: (Index = 31). 38273 +40/2 = 38293. Read from 38273 up to (but not including) 38293; therefore[...]

  • Page 271

    5-7 Largest W indow Offset = (Record Size x Max Records) % 128. Example: Largest W indow Index = Int([64 x 28928]/128) = Int(14464) = 14464. Largest W indow Offset = (64 x 28928) % 128 = 0. 6. Determine the ending W indow Index and the ending W indow offset using these formulas: Ending W indow Index = Int([Record Size x {Last Index + 1}]/128). Endi[...]

  • Page 272

    5-8 13. Read W indow from beginning up to (but not including) the Lar gest Offset. Largest Of fset = First Register of W indow + (Lar gest W indow Offset/2). Example: (Index = 14464). 38273 + (0/2) = 38273. Read from 38273 up to 38273; therefore, read nothing. 14. Set W indow Index to 0. Go to step 12. Example: W rite the value 0 (0000H) to the W i[...]

  • Page 273

    5-9 0x00B W aveform Sample Log 0x00C PQ Log 0x00D Reset Log 0x00E-0x0FF Undefined The most significant byte defines the following modes, Paused Download Mode (0x000), and Running Download Mode (0x001). In Paused Download mode (0x000), the log being accessed is paused - new records are not added to the log while it is paused. In Running Download mod[...]

  • Page 274

    5-10 0x0FFFF to Register 0x099FF). 4. Software should store the Historical Log 1 Header Information. 5. Software should read the Auto Increment W indow Index and Auto Increment Log W indow (Registers 0x099FF-0x09A3F) 6. Software should verify the expected value for the Auto Increment W indow Index. 7. Software should store the first 128 bytes of th[...]

  • Page 275

    5-11 5 5 . . 2 2 . . 1 1 : : S S e e q q u u e e n n c c e e f f o o r r P P o o r r t t L L o o c c k k i i n n g g Q T o lock a port, follow the steps below: 1. Determine the port to which the Modbus Master is currently attached: Register 6541 1. 2. Determine that the desired port is currently unlocked: Registers 41730 – 41732. 3. Write to lock[...]

  • Page 276

    5-12 5 5 . . 3 3 : : U U p p d d a a t t i i n n g g P P r r o o g g r r a a m m m m a a b b l l e e S S e e t t t t i i n n g g s s - O O v v e e r r v v i i e e w w Q Programmable settings in the EPM meter are stored in FLASH. With FLASH, bytes are not rewritable; the entire sector must be erased and rewritten. 5 5 . . 3 3 . . 1 1 : : S S e e q q[...]

  • Page 277

    5-13 FLASH Programmable Settings Checksum (Register 65413). 17. Upgrade software transmits the Reset to Normal Operation Command (writes 0100H to Register 65410). 18. Upgrade software polls EPM Comm Operation Indicator (Register 65409) until it returns that the unit is in Normal Operation. Note: Register 00001 in our mapping is equivalent to 40001 [...]

  • Page 278

    5-14 0x002 Daily 0x003 Hourly 0x004-0x0FF Undefined, behaves as Seasonal Seasonal operation freezes the Active registers at the selected hour of the day four times a year . The hour to freeze at is entered as the Freeze Hour , described below , while the four days to freeze at are the previously defined Season Start T imes. W eekly operation freeze[...]

  • Page 279

    5-15 5 5 . . 5 5 : : C C a a l l i i b b r r a a t t i i o o n n I I n n t t e e r r f f a a c c e e Q Manual Adjustment Interface Decimal Hex Dual Port Address Name Modbus Register Address 57349 0x0E004 0x00083 Select V oltage 120V Gain (240V if 300V Option) 57350 0x0E005 0x00084 Select Current 150mA Gain (30mA if Class 2 Option) 57351 0x0E006 0x0[...]

  • Page 280

    5-16 In the dual port, activation of a function is performed by the communication processor writing the value 0x0AA to a given location. When acknowledged, the location is cleared to the value 0x055. By communication, activation of a function is performed by issuing a write (the value is unimportant) to a given Modbus register . When acknowledged, [...]

  • Page 281

    5-17 Q Direct Adjustment Interface Calibration data can be read and modified using the above registers. Factory Calibration and CT/PT Compensation Calibration are available in the above blocks. The Block T imestamp indicates when the data you are reading was last refreshed for viewing. The Calibration T imestamp indicates when calibration informati[...]

  • Page 282

    5-18 Q T o increase/decrease a voltage reading by y percent, multiply the gain factor by (100 + y)/100 . Q Current Gain Factors: 4-byte signed LSB values with 16 bits of fraction that are used as a divisive factor . Q T o increase/decrease a current reading by y percent, multiply the gain factor by 100 (100 + y) . Q Phase Compensation Factors : 2 -[...]

  • Page 283

    6-1 Chapt er 6 EPM Log Formats 6.1: Log Formats Overview Q Historical Log 1 : Historical Log 1 will fill to the total allocated memory . The number of records possible in Historical Log 1 is the total memory allocated divided by the record size (size of a Historical Log 1 snapshot). Q Historical Log 2 : Historical Log 2 will fill to the total alloc[...]

  • Page 284

    6-2 Q Digital Input Snapshot Log : The Digital Input Log will fill to the total allocated memory . The number of records possible in the Digital Input Log is the total memory allocated divided by the record size (size of a Digital Input Snapshot). Q Digital Output Log : The Digital Output Snapshot Log stores records in order to document the stages [...]

  • Page 285

    6-3 points for the line are ignored. Q Record Format: A Record contains as many bytes as specified by the Historical Log 1 Record Size Field in the Programmable Settings Block (45463). The first eight bytes in each record is the T ime Stamp. The format of the T ime Stamp is: Byte Format Range Description 0 binary 0 – 99 century 1 binary 0 – 99 [...]

  • Page 286

    6-4 Q Historical Log 2 Record Size: (45464) This Register is an enumeration for the size of a record in the Historical Log. The valid values are: 0x00000 = 32 byte records 0x00001 = 64 byte records 0x00002 = 128 byte records 0x00003 = 256 byte records 0x00004 = 16 byte records Q Historical Log 2 Data Pointers: (45333-45460) These Registers indicate[...]

  • Page 287

    6-5 If the historical record was recorded after powering up or the log was reset, the record does not contain information covering a full interval and the most significant bit of the second’ s byte will be set. If the historical record was recorded after time was adjusted, the record might contain more or less than a full interval’ s worth of d[...]

  • Page 288

    6-6 32 nd Limit's V alue 1 Comparison. A bit value of 1 means that the Comparison is exceeded: less than or equal to V alue 1 for a below limit, greater than V alue 1 for an above limit. A bit value of 0 means that the Comparison is not exceeded: greater than V alue 1 for a below limit, less than or equal to V alue 1 for an above limit. • Th[...]

  • Page 289

    6-7 A Point Number is an index into the Communication T able. Example: Point Number 1 is for the second entry in a Line. Line Number 1 1, Point Number 1 is the second in the twelfth line, 0.1 second V BN . Data Pointers with Point Numbers greater than the number of points for the line are ignored. Q Record Format: A Record contains 16, 32, 64, 128 [...]

  • Page 290

    6-8 6.6: Waveform Trigger Log Format Q The W aveform T rigger Log stores records in response to High Speed Limit Triggers. It records descriptive information about records in the W aveform Samples Log. Q Record Format: A Record contains 256 Bytes. • The first eight bytes in each record is the T rigger T ime Stamp, representing the time of the las[...]

  • Page 291

    6-9 If the unit is an EPM 9650 with regular hardware, RMS values are in units of squared secondary , with two bytes of fraction. That is, each count is 1/65536 of a squared volt. If the unit is an EPM 9650 with 300 V hardware, RMS values are in units of squared secondary , with 14 bits of fraction. That is, each count is 1/16384 of a squared volt. [...]

  • Page 292

    6-10 • The next four bytes are a bitmap of the S tates of the High Speed Limits after a triggering cycle. These bits represent the true states of all the limits, regardless of trigger enable settings. The first two bytes are for the Above Limits, in the following order: The other two bytes are for the below limits, and are in the same order as ab[...]

  • Page 293

    6-11 occurred between the two captures. • The next byte is a counter for Consecutive Captures. If programmed to record 4 captures per event, the four captures will have values of 0x000, 0x001, 0x002 and 0x003, respectively , for this byte. • The next 8 bytes are a T ime Stamp of the format above. It is the T iming Point T ime Stamp. Since captu[...]

  • Page 294

    6-12 The formula to use for EPM 9650s with regular hardware or EPM 9800s is: Sample Gained Factor Gain x Sample Ungained _ 65536 _ 16384 _ = Example for EPM 9650 with regular hardware or EPM 9800: Ungained V oltage Sample = 0x01234 = 4660 Gain Factor = 421.905579 = 0x001A5E7D4 = 27650004 000000 . 120 65536 27650004 16384 4660 = x • The next 22 by[...]

  • Page 295

    6-13 Q Graphically , the three segmentations could be represented as the following: 6.7: Waveform Samples Log Format Q The W aveform Samples Log responds to High Speed Limit T riggers. It records samples from the requested channels at the requested sample rate. Q A Record contains 16,384 bytes. Depending on the number of requested channels, a recor[...]

  • Page 296

    6-14 Q Each analog sample uses 2 bytes to represent a 15-bit sample. There are three different forms that the two bytes might occupy , one form for voltage samples and two forms for current samples. • For all three forms, the first byte is the least significnt byte and contains the lower order bits, 7-0. • For voltage samples, the second byte c[...]

  • Page 297

    6-15 0x080 +2.500000 +2.499924 0x07FFF 0x0FF 0x07F 0x080 +2.500000 +2.499847 +2.499847 0x07FFE 0x0FF 0x07F 0x080 +2.500000 +2.499847 +2.499771 0x07FFD 0x0FE 0x07F 0x080 +2.500000 +2.499696 +2.499696 0x07FFC 0x0FE 0x07F 0x080 +2.500000 +2.499696 0x07FFB 0x0FD 0x07F 0x080 +2.500000 +2.499542 +2.490234 0x07F80 0x07F 0x080 +2.500000 +2.490234 0x07F7F 0[...]

  • Page 298

    6-16 • For current samples, there are two forms for the second byte. The two forms are signaled by the most significan bit of the second byte. If the byte is clear , the second byte represents a course representation and contains information on bits 14 – 8 in modified two’ s complement format. If the bit is set, the second byte represents a f[...]

  • Page 299

    6-17 0x01FF 0x040 +2.500000 +2.499847 +2.499924 0x07FFF 0x0FF 0x03F 0x01FF 0x040 +2.500000 +2.499847 +2.499847 0x07FFE 0x0FF 0x03F 0x01FF 0x040 +2.500000 +2.499847 +2.499771 0x07FFD 0x0FE 0x03F 0x01FF 0x040 +2.500000 +2.499695 +2.480621 0x07F02 0x03F 0x01FC 0x040 +2.500000 +2.480621 +2.480545 0x07F01 0x03F 0x01FC 0x040 +2.500000 +2.480469 +2.480469[...]

  • Page 300

    6-18 0x01EF 0x03E +2.421875 +2.421722 +2.421722 0x07BFE 0x0FF 0x03D 0x01EF 0x03E +2.421875 +2.421772 +2.421646 0x07BFD 0x0FE 0x03D 0x01EF 0x03E +2.421875 +2.421570 +0.312653 0x01002 0x001 0x008 0x0040 0x008 +0.312500 +0.312653 +0.312576 0x01001 0x000 0x008 0x0040 0x008 +0.312500 +0.312500 +0.312500 0x01000 0x000 0x008 0x0040 0x008 +0.312500 +0.3125[...]

  • Page 301

    6-19 +0.302810 0x00F81 0x007 0x003E 0x0BE +0.302734 +0.302734 +0.302734 0x00F80 0x007 0x003E 0x0BE +0.302734 +0.302734 +0.302658 0x00F7F 0x0BF 0x007 0x003D 0x0BE +0.302734 +0.302582 +0.302582 0x00F7E 0x0BF 0x007 0x003D 0x0BE +0.302734 +0.302582 +0.302505 0x00F7D 0x0BE 0x007 0x003D 0x0BE +0.302734 +0.302429 +0.002441 0x00020 0x010 0x000 0x0000 0x081[...]

  • Page 302

    6-20 Q High Speed Digital Input States contain the states of the 8 High Speed Digital Inputs in the following format: A bit value of 1 means the input is open. A bit value of 0 means the input in closed. Q When sampling at 15,360 samples/second, RMS is calculated within the meter on every other sample, always starting with the first sample of a cyc[...]

  • Page 303

    6-21 6.8: Power Quality (CBEMA) Log Format Q PQ (CBEMA) Log Format: The PQ (CBEMA) Log records in response to surges and sags of programmed High Speed Limit T riggers on enabled High Speed channels. The information it provides allows the calculation of duration and magnitude of the sur ges and sags, as well as information for locating the start and[...]

  • Page 304

    6-22 • The next four bytes are a bitmap of the Latched Delta states of the High Speed Limits. For the first cycle that a limit changes state, the change of state is recognized as a Delta. If waveform capture parameters require multiple captures for a given change, subsequent captures would be recognized as having no new Deltas. Therefore, every t[...]

  • Page 305

    6-23 If the unit has regular hardware, RMS values are in units of squared secondary , with two bytes of fraction. That is, each count is 1/65536 of a squared volt. If the unit is supplied with 300V hard- ware, RMS values are in units of squared secondary , with 14 bits of fraction. That is, each count is 1/16384 of a squared volt. Units that have 3[...]

  • Page 306

    6-24 • The next byte indicates whether this PQ record is continuous in monitoring with the previous record. If the byte is non-zero, then this is the first record recorded after a power -down, reset or download, and all unfinished durations prior to this record are lost. If the byte is zero, then monitoring was continuous between the last record [...]

  • Page 307

    6-25 then this is the first record recorded after a power -down, reset or download, and it is possible that some transitions were not recorded. If the bit is zero, then monitoring was continuous between the last record and this one. • The next byte contains the States of the Internal Digital Inputs in the following format: A bit value of 1 means [...]

  • Page 308

    6-26 6.10: Digital Input Snapshot Log Format Q Digital Input Snapshot Log : The Digital Input Snapshot Log will fill to the total allocated memory . The number of records possible in the Digital Input Log is the total memory allocated divided by the record size (size of a Digital Input Snapshot). Q Profile Information is in the Pr ogrammable Settin[...]

  • Page 309

    6-27 5 binary 0 – 59 minute 6 binary 0 – 59 second 7 binary 0 – 100 centisecond Note: This log does not record records during T est Mode. Q The remaining bytes are the values requested by the Digital Input Snapshot Data Pointers (45205- 45332). If the first Data Pointer is requesting V BN a 4 byte value, then the next 4 bytes in the Record ar[...]

  • Page 310

    6-28 6.11: Digital Output Log Format Q Digital Output Log Format: The Digital Output Log stores records in order to document the stages used when changing states of Digital Outputs. Records are stored for four reasons - When the delay at the end of a Relay Logic T ree is finished, indicating that a relay needs to change state, when a communication [...]

  • Page 311

    6-29 A bit value of 0 indicates that information for this relay is not yet valid; a bit value of 1 indicates that information for this relay is valid. · The next 16 bytes represent the inputs to the Relay Logic Trees arranged as follows: · Each bit represents the state of an input into a Relay Logic Tree. A bit value of 0 indicates a false input [...]

  • Page 312

    6-30 Each bit represents the state of a gate output in a Relay Logic Tree. A bit value of 0 indicates a false output value; a bit value of 1 indicates a true output value. · The next 2 bytes indicate whether a relay is locked or unlocked. The bits are in the following order: A bit value of 0 indicates the relay is not locked; a bit value of 1 indi[...]

  • Page 313

    6-31 · The next 2 bytes indicate the desired state of the relay , in the same order as above. If the relay is locked, as indicated in the previous 2 bytes, then the relay should be locked to this relay . If the relay is unlocked, then this is the state in which the relay should be as indicated by the Relay Logic T ree for this relay . A bit value [...]

  • Page 314

    6-32 6.12: Digital Output Snapshot Log Format Q Digital Output Snapshot Log: The Digital Output Snapshot Log will fill to the total allocated memory . The number of records possible in the Digital Output Log is the total memory allocated divided by the record size (size of a Digital Output Snapshot). Profile Information is in the Pr ogrammable Sett[...]

  • Page 315

    6-33 · The first eight bytes in each record is the T ime Stamp. The format of the T ime Stamp is: Byte Format Range Description 0 binary 0 – 99 century 1 binary 0 – 99 year 2 binary 1 – 12 month 3 binary 1 – 31 day 4 binary 0 – 23 hour 5 binary 0 – 59 minute 6 binary 0 – 59 second 7 binary 0 – 100 centisecond Note: This log does no[...]

  • Page 316

    6-34 6 6 . . 1 1 3 3 : : F F l l i i c c k k e e r r L L o o g g F F o o r r m m a a t t Q Flicker Log Format: The Flicker Log stores records in order to document Short T erm and Long T erm Flicker . Q Record Format: A Record contains 32 Bytes. The first eight bytes in each record is the T ime Stamp, representing the time when the record was record[...]

  • Page 317

    6-35 6 binary 0-59 second 7 binary 0-100 centisecond The source or meaning of the timestamp depends on the type of record being recorded. If this record was recorded while the meter was in T est Mode, then the most significant bit of the centisecond byte will be set. The next byte is a code to indicate the type of record: 0x000 Power 0x001 Password[...]

  • Page 318

    6-36 The second byte of the sub-fields indicates what port was used for the action: 0x000 Port 4 0x001 Port 3 0x002 Port 2 0x003 Port 1 0x004-0x0FF Undefined The remaining 5 bytes of the sub-fields are undefined. Q Change Programmable Settings The 7 bytes of the sub-fields are undefined. Q Change Firmware The first byte of the sub-fields indicates [...]

  • Page 319

    6-37 Q T est Mode The first byte of the sub-fields indicates which T est Mode action occurred. TLC TLC & CTPT Uncompensated CTPT T est Mode Ended 0x000 0x000 0x000 0x000 Wh T est (Del & Rcv) 0x001 0x009 0x01 1 0x019 V ARh T est (Q1 & Q2) 0x002 0x00A 0x012 0x01A V ARh T est (Q3 & Q4) 0x003 0x00B 0x013 0x01B V Ah T est (Q1 & Q4) 0[...]

  • Page 320

    6-38 The third byte of the sub-fields indicates what port was used to download the log: 0x000 Port 4 0x001 Port 3 0x002 Port 2 0x003 Port 1 0x004-0x0FF Undefined The remaining 4 bytes of the sub-fields are undefined. Q Feature Reset The first byte indicates what feature was being reset: 0x000 All Logs Reset 0x001 Maximum Reset 0x002 Minimum Reset 0[...]

  • Page 321

    7-1 Chapt er 7 EPM Programmable Settings Blocks Q The EPM Modbus Register Map can be found in Chapter 2. This chapter gives a detailed description of each of the Programmable Settings Blocks. 7.1: Communication Settings Block (45057-45074) • Device Address - 2 bytes, unsigned integer , ranging from 0000H to FFFFH • Protocol - 1 byte, unsigned i[...]

  • Page 322

    7-2 Q Channel identification is performed by referencing the internal data table of the EPM device, by specifying the Line Number and Point Number for a particular value. For example: to monitor 1 second V AN values, use Line 34, Point 0; 1 second V BN , use Line 34, Point 1; 1 second I A , use Line 36, Point 0; Thermal A verage V AN , use Line 51,[...]

  • Page 323

    7-3 Q Hysteresis combination uses comparison 1 to set the combination, and comparison 2 to clear the combination. If both inputs are asserted, comparison 1 has priority . The usual arrangement would be to program comparison 1 to above a large value and comparison 2 to below a small value. When the monitored value goes above comparison 1, the combin[...]

  • Page 324

    7-4 7.4: W aveform/CBEMA Settings Block (45465-45500). Set Points 1 register , 2 bytes signed integers. The value is ranged from +327.67 to -327.68. The unit is 0.01%. These are the percentage of the Full Scale values. W aveform & PQ enable 1 register , 2 bytes bitmaps. Each Set Point can be enabled or disabled by these bit settings. W aveform [...]

  • Page 325

    7-5 256 Samples/Cycle Channel Selection and 512 Samples/Cycle Channel Selection (45500) When the Sample Rate is 256 or 512, not all voltage and currents can be sampled. There will be choices which can be sampled under 256 or 512 sample rate. 7.5: High Speed Inputs Settings Block (45501-45723). • Input Name - 8 registers, 16 bytes, 16 characters f[...]

  • Page 326

    7-6 7.8: External Analog Input Module Settings Block (45809-45812). • Up to 4 External Analog Input Modules can be addressed in this block. • Address - 2 bytes, unsigned integers. • A value of 0x0FFFF for an address indicates that this device is unused. 7.9: External Analog Output Module Settings Block (45813-45892). • Up to 4 External Anal[...]

  • Page 327

    7-7 7.11: CT & PT Ratio Settings Block (45909-45924). • Address - 2 registers, 4 bytes, unsigned integers. • Primary numbers and secondary numbers are in these blocks for the proper ratios. 7.12: Hookup and Time Settings Block (45925-45944). • Hookup - 1 register , 2 bytes. High byte - Configuration Bits. V oltage selection. When bit 0 is[...]

  • Page 328

    7-8 • T ransformer Loss Compensation (TLC) Enable - 1 byte, unsigned integer . • Internal KYZ Form - 1 byte bit map. Refer to the Internal KYZ Settings Block (46330) for more detail. A bit value of 0 = Form C = Pulse of the relay . A bit value of 1 = Form A = T ransition of the relay . • Daylight Savings T ime Start/End. Address - 4 registers[...]

  • Page 329

    7-9 7.15: Device Label Settings Block (45969-45992). • Meter Designation - 8 registers, 16 bytes ASCII. • Auxiliary V oltage Label - 8 registers, 16 bytes ASCII. • Measured Neutral Current Label - 8 registers, 16 bytes ASCII. 7.16: Network Settings Block (45993-46016). • IP Address - 2 registers, 4 bytes. Each byte has unsigned integer valu[...]

  • Page 330

    7-10 Mode 2 - Network Mode 2. 1 byte. Bit 7: IP Address Resolution A bit value of 1 means use DHCP server . A bit value of 0 means use static IP address programmed into the meter . Bits 0-6: Reserved • DNS Server 1 IP Address - 2 registers, 4 bytes. Each byte has unsigned integer values. • DNS Server 2 IP Address - 2 registers, 4 bytes. Each by[...]

  • Page 331

    7-1 1 7.17: Block Window Average External Synchronization Block (46017). • BW A Synch Enable - 1 byte. Instead of using the time interval, the EPM can calculate the Thermal and Block average when the pulse is detected on one of the High Speed Inputs. • BW A Synch Mask - 1 byte. Only one input can be selected at a time. That means only one of th[...]

  • Page 332

    7-12 • Power Factor Labeling - 1 register , Low Byte only . 7.20: T est Mode Configuration Block (46020). • T est Mode Exit Delay T ime - 1 registers, 2 bytes - 2-byte unsigned integer . • Range: 5 minutes to 60 minutes. This is the time in which Communicator Ext will exit T est Mode, if there is no activity . 7.21: Full Scale Block (46021-46[...]

  • Page 333

    7-13 7.23: External Module Port Assignment Block (46197-46206). • Port Assignment bytes are enumerated as in the following table: Assignment s V alue 0x000 Port 4 0x001 Port 3 0x002 Port 2 0x003 Port 1 (232/485) 0x004 Diagnostic Port (currently not in use) External Module Port Assignments 7.24: Manual Control Relay Block (46207-46208). • Manual[...]

  • Page 334

    7-14 7.25: Internal Input Pulse Accumulation Scale Factor Block (46209-46325). • Scale Factors - 2 registers, 4 bytes unsigned integers. • Aggregator Assignments - 1 byte unsigned integerss. • Pulse Accumulation Labels - 8 registers, 16 bytes ASCII. • EPM W att hour Selection - 1 byte unsigned integer . • Aggregation Assignment - 1 byte u[...]

  • Page 335

    7-15 • Internal KYZ Enable - 1 byte. A bit value of 1 = KYZ is enabled. A bit value of 0 = KYZ is disabled. • End of Interval Pulse - The EPM 9800 can generate a pulse upon completion of a block window interva1. This pulse is generated on one of the relays and the pulse width is selectable. Channel Assignment V alue Internal KYZ Channel Assignm[...]

  • Page 336

    7-16 7.28: Internal Input Pulse Accumulation Unit Label Block (46373-46420). • 4 registers, 8 bytes. These labels are used to describe the units a pulse represents. Units are usually one word and are 8 characters or less. Examples of Units: Gallons, BTUs, Liters, Wh, kWh, V Ah, etc. V alue Relay 0 Internal Relay 1 1 Internal Relay 2 2 Internal Re[...]

  • Page 337

    7-17 7.29: ElectroLogic Block (46421-46804) An EPM device will support 16 Relay structures. Q Ε ach Relay Structure will combine up to 8 Limit Comparisons or Combinations using a three-level binary tree of AND, OR, NAND, NOR, XOR or Hysteresis combinations. All trees will be reevaluated once per second. The final result of the tree, subject to del[...]

  • Page 338

    7-18 Q The structure for the Direction and Combination byte: Bits 7-5 Unused, set to 0 Bit 4 Negate combination (AND -> NAND, etc.) Bits 3-2 00 = AND combination 01 = OR combination 10 = XOR combination 1 1 = Hysteresis combination Bit 1 0 = second input is not inverted 1 = second input is inverted Bit 0 0 = first input is not inverted 1 = first[...]

  • Page 339

    7-19 7.32: Miscellaneous DNP Settings Block (47063-47104) Scale for Analog Output of A verage Pulse Accumulation - 1 byte unsigned integer . Pulse accumulation values are 8-byte. But the Analog Output Module can accept 4-byte quantity . Therefore, only 4 bytes out of 8 bytes will be sent to Analog Output Module. This register decides which 4 bytes [...]

  • Page 340

    7-20 • Bitmap Bit 13: Choice of Class 0 poll between Object 20 and Object 21 Bit 12: Enable DNP Freeze Schedule • DNP Freeze Date & T ime - 4 registers, 8 bytes. • DNP Freeze Interval - 1 register , 2 bytes. Register V alue Description 40766 (Bit 13) 1 Object 21 0 Object 20 Register V alue Description 40766 (Bit 12) 1 Enabled 0 Disabled R[...]

  • Page 341

    7-21 7.33: Custom DNP Definition Block for Analog Input (Object 30) (47105-47360) • Line number: 2-byte unsigned integer Line number and Point number will indicate the Analog Input value to be used for one of the point in Object 30. • Point number: 1-byte unsigned integer • Reserved: 1 byte. Reserved for future use. • DeadBand: 2-byte signe[...]

  • Page 342

    7-22 The meter has an 8-byte Binary Counter V alue while DNP can only give a 4-byte value. By using this scaling, the user can get the proper range of data. The scaling value represents the power of 10. • Delta V alues: 4-byte unsigned integer If the Current Binary Counter value is different from the Previous value more than Delta values, the Cou[...]

  • Page 343

    7-23 7.35: Custom DNP Definition Block for Binary Input (Object 1) (47425-47456) • Line number: 2-byte unsigned integer Line number and Point number indicate the Binary Input value used for 8 points in Object 1. • Point number: 1-byte unsigned integer • Class Assignments: 8-bit bitmap (1 byte). Bit 7, 6 and 5 will assign the Binary Input Chan[...]

  • Page 344

    7-24 7.37: Custom DNP Definition Block for Global V alues (47459-47463) When the master requests data by the object, it can specify the variation in the request so the master can get the data formatted for its use. When the master asks for V ariation 0, the slave meter can respond with any variation(s). This Programmable Setting holds the variation[...]

  • Page 345

    7-25 7.42: Internal Modem Card Settings Block (50177-50268) • Ring number - 1 byte. The EPM device will answer after this number of rings (1 to 9). • Baud Rate - 1 byte. This will program the baud rate of the gateway . • Port Configuration - 1 byte. Pass Through Port Configuration. Bit 3: A value of 0 means 8-data bits. A value of 1 means 7-d[...]

  • Page 346

    7-26 • Call Fail Reset Limit - 1 byte. User-set value for the number of hours the modem will lock out incoming calls if the Incoming Connection Failure Limit is reached (1-50 hours). • V iolation Lockout T ime - 1 byte. Use-set time limit for the number of hours (1-32) modem will be inaccessible. The V iolation Lockout provides a level of secur[...]

  • Page 347

    7-27 • Primary Retry Delay - 1 register , 2 bytes. The number of minutes (0-1000) between retries. • Primary Phone Number (48 bytes) - 24 registers, 48 bytes. The first phone number (up to 48 characters) called for automated callout. • Time Limit - Reserved for future use. • Event Mask - 1 register , 2 bytes. These are the conditions that E[...]

  • Page 348

    7-28 • Device Addresses at Gateway (Device 5, Device 6) - The address has one byte unsigned integer . The device address can be any number except 1. The number 1 is always reserved for the Primary Device. • Device Addresses at Gateway (Device 7, Device 8) - The address has one byte unsigned integer . The device address can be any number except [...]

  • Page 349

    7-29 7 7 . . 4 4 4 4 : : A A u u t t o o T T F F T T P P D D o o w w n n l l o o a a d d S S e e t t t t i i n n g g s s B B l l o o c c k k ( ( N N e e t t w w o o r r k k S S e e t t t t i i n n g g s s 1 1 0 0 / / 1 1 0 0 0 0 C C a a r r d d ) ) ( ( 5 5 0 0 7 7 8 8 5 5 -5 5 0 0 8 8 6 6 0 0 ) ) • Enable / Disable - 1 Register . Bit 15: 1 = Enab[...]

  • Page 350

    7-30 7 7 . . 4 4 6 6 : : F F T T P P C C l l i i e e n n t t ( ( N N e e t t w w o o r r k k S S e e t t t t i i n n g g s s 1 1 0 0 / / 1 1 0 0 0 0 C C a a r r d d ) ) ( ( 5 5 1 1 0 0 2 2 1 1 -5 5 1 1 1 1 4 4 8 8 ) ) • FTP Username (32 bytes) - 16 registers, 32 bytes. Each byte is ASCII. • FTP Password (32 bytes) - 16 registers, 32 bytes. Each[...]

  • Page 351

    7-31 • Bitmap Set - 8-bit bitmap. Bit 7: TCP Enable A value of 0 means DNP over TCP listening point disabled. A value of 1 means DNP over TCP listening point enabled. Bit 6: UDP Enable A value of 0 means DNP over UDP end point disabled. A value of 1 means DNP over UDP end point enabled. Bit 5: V alidate Client Point A value of 0 means No validati[...]

  • Page 352

    7-32 • TCP Ending V alid Client Ports - Four 2 byte unsigned integers. These are Ending Client port for validating TCP connections. • UDP S tarting V alid Client Ports - Four 2 byte unsigned integers. These are Starting Client ports for validating UDP datagrams. • UDP Ending V alid Client Ports - Four 2 byte unsigned integers. These are Endin[...]

  • Page 353

    7-33 Examples: For the following, the Q1234 V Ah has a current value of 123,456,789.0123 V Ah. 7 7 . . 5 5 1 1 : : U U p p d d a a t t e e S S e e t t t t i i n n g g s s B B l l o o c c k k ( ( 5 5 2 2 9 9 7 7 5 5 -5 5 3 3 2 2 4 4 8 8 ) ) Q User Memo Field (256 bytes)- 128 registers, 256 bytes. User can write any notes up to 255 charac- ters in th[...]

  • Page 354

    7-34[...]

  • Page 355

    8-1 Chapt er 8 Register Block Titles Q This chapter expands upon information listed in the EPM Modbus Register Map (Chapter 2). Register Block T itles refer to a Register or Group of Registers in the Register Map that serve a particular purpose or function. Refer to the T able of Contents to find additional details and descriptions of the EPM Modbu[...]

  • Page 356

    8-2 Q Example: Resetting the T ime on a meter . For May 20, Century is 20 (14H). Y ear is 02. Month is 05. Day is 20 (14H). Hour is 15 (0FH). Minute is 45 (2DH). Second is 00. Centisecond is 00. Day is 0002H. The following data is sent to the EPM meter address 1. Registers 00085 through 00089 are written sequentially in one request. Register 00089,[...]

  • Page 357

    8-3 Phase A-B, B-C, C-A V oltage, Phase A, B, C V A, V A, Phase A, B, C V AR, Three Phase V AR, Phase A, B, C W atts, Three Phase W atts, Frequency , Phase A, B, C Power Factor , Three Phase Power Factor , V oltage Imbalance, Current Imbalance. (See 3.3, 3.7, 3.8, 3.10.) 8.6: Thermal Average Block (00236-00295) Q Description: Thermal A verage Regis[...]

  • Page 358

    8-4 8.12: Harmonic Magnitude Block (01022-01789) Q Description: Harmonic Magnitude Registers included in this block: Phase A-N/A-B, B-N/B-C, C-N/C-A V oltage for 0 th through 127 th Harmonic Magnitude, Phase A, B, C Current for 0 th through 127 th Harmonic Magnitude. (See 3.10.) 8.13: Harmonic Phase Block (01790-02557) Q Description: Harmonic Phase[...]

  • Page 359

    8-5 8.20: Digital Input Block (02774-02841) Q Description: Digital Input Registers included in this block: Input S tates, Module 1, Accum 1-8 (Module 1), Input States, Module 2, Accum 1-8 (Module 2), Input States, Module 3, Accum 1-8 (Module 3), Input States, Module 4, Accum 1-8 (Module 4). (See 3.17, 3.18.) 8.21: Primary Accumulation Block (02842-[...]

  • Page 360

    8-6 8.25: Time of Use Prior Month Register Block (03653-04196) Q Description: T ime of Use Prior Month Registers included in all blocks: Received W atthour (Q1+4), V Ahour (Q1), V ARhour (Q1), V Ahour (Q4), V ARhour (Q4), Delivered W atthour (Q2+3), V Ahour (Q2), V ARhour (Q2), V Ahour (Q3), V ARhour (Q3), Peak Demand Rec W att (Q1+4), Del W att (Q[...]

  • Page 361

    8-7 V Ahour (Q2), V ARhour (Q2), V Ahour (Q3), V ARhour (Q3), Peak Demand Rec W att (Q1+4), Del W att (Q2+3), Rec V AR (Q1+2), Del V AR (Q3+4), Coin. Demand V AR to Peak Demand Rec W att, Del W att, Peak Demand Rec W att (Q1+4) T ime Stamp, Del W att (Q2+3) T ime Stamp, Peak Demand Rec V AR (Q1+2) T ime Stamp, Del V AR (Q3+4) T ime Stamp. (See 3.3,[...]

  • Page 362

    8-8 8.38: Analog Input Block (05947-05978) Q Description: Analog Input Registers in this block: Analog Inputs 1-8, Modules 1-4. (See 3.10.) 8.39: Limit Combination Block (05979-05980) Q Description: Limit Combination Registers included in this block: Limit S tates, Combinations 1-16, 17-32. (See 3.34.) 8.40: Relay Logic Block (05981-06014) Q Descri[...]

  • Page 363

    8-9 8.43: T est Mode Block (06040-06096) Q Description: These Registers are not for the normal mode of the unit. When in T est Mode, these Registers have the proper values for the intended tests. (See 3.3, 3.7, 3.12. 3.14.) 8.44: K YZ Output Accumulation Block (06097-06110) Q Description: KYZ Output Accumulation Registers included in this block: KY[...]

  • Page 364

    8-10 3+4), Positive V ARhour (Quadrants 1+2) Primary , Negative V ARhour (Quadrants 3+4) Primary , Negative V ARhour Primary , Quadrant 1, 4, 2, 3 W atthour Secondary , Quadrant 1 V ahour , V ARhour Secondary , Quadrant 4 V ahour , V ARhour Secondary , Quadrant 2 V ahour , V ARhour Secondary , Quadrant 3 V ahour , V ARhour Secondary , Quadrants 1, [...]

  • Page 365

    8-1 1 TOU Current Month Register 0-7 Cumulative Demand Q1 + Q4 W att and Q2 + Q3 W att, T OU Current Month T otals Cumulative Demand Q1 + Q4 and Q2 + Q3 W att. (See 3.18.) 8.56: TOU Active Continuous Cumulative Demand Block (06575-06610) Q Description: T ime of Use Active Continuous Cumulative Demand Registers included in this block: TOU Active Reg[...]

  • Page 366

    8-12 calculated using W att, V AR and V A. T otal A verage Power Factor values will be calculated by Wh, V ARh and V Ah. 8.62: Reset Active Time of Use T ime Stamp (07860-07863) Q Description: This register holds the T ime Stamp when Active TOU T ime is reset. The format follows the T ime Stamp F3, section 3.3. 8.63: Negative Maximum Pulse Aggregat[...]

  • Page 367

    8-13 8.70: Time of Use Calendar Block (34919-35800) Q Description: T ime of Use Calendar Registers included in all blocks: Modification T ime Stamp, Calendar Y ear , Profile for 2-Day Segments for the Whole Calendar Y ear (Jan1/Jan2 Profile), Profile Status, Profile Register for 8.71: Time of Use Upload Calendar Block (36607-36736) Q Description: T[...]

  • Page 368

    8-14 V alid Bitmap These Registers hold the bit flags indicating whether the EPM device recognizes the lines in the Historical Log Settings Block (the block at Register 45205). The first bit represents the validity of the Data Pointer in the Historical Log Settings. A value of 1 means the Data Pointer is acceptable and can be stored. A value of 0 m[...]

  • Page 369

    8-15 8 8 . . 8 8 0 0 : : F F l l i i c c k k e e r r L L o o g g H H e e a a d d e e r r ( ( 3 3 7 7 3 3 7 7 7 7 -3 3 7 7 3 3 9 9 4 4 ) )  Description: Currently not used. 8 8 . . 8 8 1 1 : : W W a a v v e e f f o o r r m m T T r r i i g g g g e e r r L L o o g g H H e e a a d d e e r r ( ( 3 3 7 7 4 4 4 4 1 1 -3 3 7 7 4 4 5 5 8 8 ) )  Descri[...]

  • Page 370

    8-16 8 8 . . 8 8 3 3 : : W W a a v v e e f f o o r r m m S S a a m m p p l l e e s s L L o o g g H H e e a a d d e e r r ( ( 3 3 7 7 5 5 6 6 9 9 -3 3 7 7 5 5 8 8 6 6 ) )  Description: W aveform Samples Log Registers included in this block: See Registers 36865-36882. 8 8 . . 8 8 4 4 : : P P Q Q ( ( C C B B E E M M A A ) ) L L o o g g H H e e a a [...]

  • Page 371

    8-17 in bytes, allocated to External Device Programming Blocks. This memory is allocated from RAM, not NVRAM. Record Size: This Register is an unsigned integer representing the size, in bytes, of an External Device Programming Block. First Index: An unsigned integer representing the Index of the First External Device Programming Block. Last Index: [...]

  • Page 372

    8-18 When a value other than 0x0FFFF is written to this Register , the index is updated. If the W indow Mode for this log indicates a Paused Mode (0x00000 or 0x00001 in Register 38209), Historical Log 1 is paused, preventing the addition of new records while the log is being accessed. A 30-second timer is initiated on these writes. Should the timer[...]

  • Page 373

    8-19 Register 38155 is not currently used. W aveform Samples Log (38156): When read, this Register returns the Index used by the W aveform Samples Log W indow to access W aveform Samples Log on this port. Functionality follows the Historical Log 1 W indow Index (38145). PQ Log (38157): When read, this Register returns the Index used by the PQ Log W[...]

  • Page 374

    8-20 The designation “first 128 bytes of the log” is a physical description based on the absolute address- es of the memory allocated to the log. The first (oldest) record in the log may not be located at the beginning of the log. In T ime S tamp Modes (0x00001 and 0x00003) , the Historical Log 1 W indow accesses the T ime Stamps of the records[...]

  • Page 375

    8-21 Functionality follows Historical Log 1 W indow Mode (38209). Flicker Log (38217): When read, this Register returns the Mode in use by the Flicker Log W indow to access Flicker Log on this port. Functionality follows the Historical Log 1 W indow Mode (38209). W aveform T rigger Log (38218): When read, this Register returns the Mode in use by th[...]

  • Page 376

    8-22 Digital Input Log (38529-38592): These Registers are a 128-byte window into the Digital Input Log. Depending on the Digital Input Log W indow Index, a different 128-byte area of Digital Input Log can be accessed. Digital Input Snapshot Log (38593-38656): These Registers are a 128-byte window into the Digital Input Snapshot Log. Depending on th[...]

  • Page 377

    8-23 8 8 . . 9 9 3 3 : : A A u u t t o o I I n n c c r r e e m m e e n n t t W W i i n n d d o o w w B B l l o o c c k k ( ( 3 3 9 9 4 4 2 2 3 3 -3 3 9 9 4 4 8 8 8 8 ) )  Auto Increment Configuration - 1 Register , 2 bytes. When read, this register returns the configuration in use by the Auto Increment Log W indow , below , to access logs on thi[...]

  • Page 378

    8-24 timer is initiated on these reads. Should the timer run out (the index is not incremented/read in 30 seconds), the appropriate log will be allowed to continue logging. When a value of 0x0FFFF is written to this register , this signifies that the port is finished accessing the appropriate log, and the 30-second timer is canceled and the appropr[...]

  • Page 379

    8-25 An additional piece of information is contained in the centisecond byte. The most significant bit indicates whether Limit T rigger monitoring was continuous between the last record and this record. If the bit is 1, then this is the first record recorded after a power -down, reset or download and all unfinished durations prior to this record ar[...]

  • Page 380

    8-26 Limit Data Pointers (45077-45204) : These Registers indicate which values are being monitored by Limits. Each Data Pointer has the following 8-byte structure: A Line Number is an index into the Communication T able. Example: Line Number 1 1 is for the 12th Line in the Communication T able, 0.1 Second Phase-to-Neutral V oltages. Data Pointers w[...]

  • Page 381

    8-27 8.95: Port Control Block (41729-44544) Q Description: Port Control Registers included in this block (see Chapter 5): Port Control Command (41729): When written, this Register receives commands meant to control the ports. V alid commands are: 0x00100 = Lock Port 4 (I/O) for my use 0x00101 = Lock Port 3 for my use 0x00102 = Lock Port 2 for my us[...]

  • Page 382

    8-28 ReceiveIn indexes the location where the next received character will be placed in the Receive Buffer by the interrupt routine. ReceiveOut indexes the location where the next character should be removed from the Receive Buffer by the parsing routine. T ransmitIn indexes the location where the next character to be transmitted should be placed b[...]

  • Page 383

    8-29 8.96: Energy Preset Block (44545-44549) Q Description: This block is for EPM 9800 Only . Energy readings can be preset by GE Communicator EXT 3.0 software. Preset Energy V alue: 4 Registers, 8 bytes. These registers hold the energy readings that will be used by the software for certain Energy Applications. Preset Energy Selection / S tatus: 1 [...]

  • Page 384

    8-30 8.98: Action Block - Resetting EPM Registers (57345-57393) Most of the Registers in the Action Block are used to perform an action, reset an EPM Register . Unless otherwise stated, the action is performed when a value, any value, is written to that Register . Example: In order to Reset Maximum V alue in Meter Address 1, any value, such as ‘1[...]

  • Page 385

    8-31 the signal should be as follows: When read, this Register returns the state of the V oltage Calibration. A value of 0x00000 means that V oltage Calibration is not taking place. Any other value indicates that V oltage Calibration is taking place. The 120 V Input should be maintained until this Register reads 0x00000, which should take up to 20 [...]

  • Page 386

    8-32 Refresh External I/O Header Information (57390): This Register , when written, causes all External Devices to be polled for their Information Blocks. Refresh External I/O Pr ogramming Information (57391): This Register , when written, causes all External Devices to be polled for their Programming Blocks. Relay Locking Relay Selection (57392): [...]

  • Page 387

    8-33 8.102: Operational Communication Settings Block (65025-65040) These Registers keep the valid Communication Settings for all four ports. The Communication Settings Block (45057) in the Programmable Settings Block might have the wrong values if they were interrupted while the meter was being updated. Q Description: Operational Communication Sett[...]

  • Page 388

    8-34 Firmware V ariation S trings (65089-65280) Eight Registers each and Null T erminated ASCII Strings (T erminating Null (ASCII 00H) at the end of the string). (See 3.1.) 8.105: DSP Diagnostic Block (65281-65312) Q Description: DSP Diagnostic Registers are for internal use only . These Registers are not for customer use. These Registers are READ [...]

  • Page 389

    8-35 Password Lock (65326) : This Register is used to report the Locked Port and change the Locked Port for Password Modification. W riting a value of 0x00000 to this Register requests locking Password Updates to this port and locking out Password Updates to other ports. W riting a value other than 0x00000 rescinds the Lock on this port. Reading th[...]

  • Page 390

    8-36 8.107: Dynamic Configuration Block (65345-65349) Q Description: Dynamic Configuration Registers included in this block: NVRAM Configuration (65345): 2bytes, unsigned integer . This Register (see above) indicates the memory option of the EPM unit. IRIG-B S tate (65346): This Register indicates whether the IRIG-B signal is received at the unit o[...]

  • Page 391

    8-37 will be used with a single Hookup and the continued use of a Programmable Setting would allow a user to select a Hookup that the meter is not capable of monitoring. The following codes are used to indicate the Form in use: 4 KYZ (65361 Low): An option of the Glass Socket (9800) EPM is 4 Internal Dry-contact Relays for Pulse Output, either as K[...]

  • Page 392

    8-38 0x000 Not Present 0x001 Present 0x002-0x0FF Undefined, treated as Not Present Com Port (65362-65363): In both the 9650 and the 9800, there are options which attach devices to the Communication Ports, internal to the case. Externally Connected devices use communication settings that need to be user programmable. Internally connected options req[...]

  • Page 393

    8-39 range from nominally 150V to 300V . W ithout identifiying this modification, it is necessary to add a compensating Programmable Setting in to produce correct Secondary V oltage and Power . As a Programmable Setting, however , end users could incorrectly enable or disable this feature. W ith this setting, it is possible to have the adjustment a[...]

  • Page 394

    8-40 Bits 1, 4 and 5 indicate that all ports are set to the Default Communication Settings of Address 1, Modbus R TU, 9600 Baud, 8 Data Bits, No Parity , 1 Stop Bit and No Delay . Bit 2 indicates that one or more ports are set to an Illegal setting or combination of settings. In all protocols, Baud Rate, Stop Bits and Parity must be in the allowed [...]

  • Page 395

    8-41 FLASH Locked Port (6541 1) This port contains two bytes. The first byte contains a code indicating which port is in use: 0x00000 = Port A,I/O 0x00100 = Port B 0x00200 = Port C 0x00300 = Port D, 232 or 485 0x00400 = Diagnostic Port The second byte contains a code indicating which port is locked for FLASH Routines. Initially , this byte reads as[...]

  • Page 396

    8-42 EPM DSP FLASH Sequence & S tatus / FLASH Command (65415): This Register is similar to Register 65409, except that it effects the DSP Microcontroller Normal FLASH. V alid commands are: 0x00001 = Erase the Code Blocks (Normal FLASH, Blocks 4-7) 0x00002 = Calculate the Code Checksum (Normal FLASH, Blocks 4-7) 0x00100 = Reset to Normal Operati[...]

  • Page 397

    8-43 W rites to the Registers can only be performed by the Locked Port. W riting the 10th Register (65434) initiates the writing of the line to the FLASH. (It is recommended that the full ten registers, padded by 0x0FF’ s be written to write a HEX line.) Offset V alues of 0x00000 - 0x0FFFF write to the FLASH, Addresses 0x00000 - 0x0FFFF (Blocks 0[...]

  • Page 398

    8-44[...]

  • Page 399

    Glossary-1 Glos sary 0.1 Second V alues: These values are the RMS values of the indicated quantity as calculated after approximately 50 milliseconds (3 cycles) of sampling. 1 Second V alues: These values are the RMS values of the indicated quantity as calculated after one second (60 cycles) of sampling. Alarm: An event or condition in a meter that [...]

  • Page 400

    Glossary-2 Byte: A group of 8 binary digits processed as a unit by a computer (or device) and used especially to represent an alphanumeric character . CBEMA Curve: A voltage quality curve established originally by the Computer Business Equipment Manufacturers Association. The CBEMA Curve defines voltage disturbances that could cause malfunction or [...]

  • Page 401

    Glossary-3 and 100BaseT as defined in IEEE 802.3 standards. However , several other versions of Ethernet are also available. Exception Response: Error Code (Modbus communication) transmitted in a packet from the Slave to the Master if the Slave has encountered an invalid command or other problem. Flicker: Flicker is the sensation that is experience[...]

  • Page 402

    Glossary-4 Master Device: In Modbus communication, a Master Device initiates and controls all information transfer in the form of a Request Packet to a Slave Device. The Slave reponds to each request. Maximum Demand: The largest demand calculated during any interval over a billing period. Modbus ASCII: Alternate version of the Modbus protocol that [...]

  • Page 403

    Glossary-5 Quadrant: W att and V AR flow is typically represented usng an X-Y coordinate system. (Programmable The four corners of the X-Y plane are referred to as quadrants. Most power V alues and Factors applications label the right hand corner as the first quadrant and number the on the EPM9450, remaining quadrants in a counter-clockwise rotatio[...]

  • Page 404

    Glossary-6 communication. Swell: A voltage quality event during which the RMS voltage is higher than normal for a period of time, typically from 1/2 cycle to 1 minute. THD: T otal Harmonic Distortion is the combined ef fect of all harmonics measured in a voltage or current. The THD number is expressed as a percent of the fundamental. For example, a[...]