Bulletin 1403 Ethernet Communications Card

Transcription

1 Installation Instructions Bulletin 1403 Ethernet Communications Card (Catalog Number 1403-NENET) 1

2 Bulletin 1403 Ethernet Communications Card Important User Information Because of the variety of uses for the products described in this publication, those responsible for the application and use of this control equipment must satisfy themselves that all necessary steps have been taken to assure that each application and use meets all performance and safety requirements, including any applicable laws, regulations, codes and standards. The illustrations, charts, sample programs and layout examples shown in this guide are intended solely for purposes of example. Since there are many variables and requirements associated with any particular installation, Allen-Bradley does not assume responsibility or liability (to include intellectual property liability) for actual use based upon the examples shown in this publication. Allen-Bradley publication SGI-1.1, Safety Guidelines for the Application, Installation and Maintenance of Solid-State Control (available from your local Allen-Bradley office), describes some important differences between solid-state equipment and electromechanical devices that should be taken into consideration when applying products such as those described in this publication. Reproduction of the contents of this copyrighted publication, in whole or part, without written permission of Rockwell Automation, is prohibited. Throughout this manual we use notes to make you aware of safety considerations: ATTENTION! Identifies information about practices or circumstances that can lead to personal injury or death, property damage or economic loss Attention statements help you to: identify a hazard avoid a hazard recognize the consequences IMPORTANT Identifies information that is critical for successful application and understanding of the product. PLC and PLC-5 are registered trademarks of Rockwell Automation. RSView32, RSLinx, and SLC 500 are trademarkes of Rockwell Automation. Ethernet is a registered trademark of Digital Equipment corporation, Intel Corporation, and Xerox Corporation.

3 Table of Contents Product Description Chapter Objectives Terms and Conventions Abbreviations and Terms Introduction Features Installation Field Service Considerations General Operation Communication Parameters LED Indicators Configuration Items Communication Configuration Items NENET Web Access Overview Catalog Number Explanation Ethernet Communication Card Data Tables Appendix A Communications Cards A-1 Appendix B Data Table List B-1 Device Configuration Data Table - Write and Read (File N11)... B-2 Configurable Snapshot Parameter List (selection list for Table B.2, parameters 1.19, 1.20 and 1.21) B-5 Communications Configuration Table - Write and Read (File N12) B-6 Command Data Table Write (File N13) B-7 Bit Fields for Command Data Table -(Command Word 1) B-8 Bit Fields for Command Data Table - (Command Word 2)..... B-8 Voltage/Current Data - Read (File F14) B-9 Real-Time Power Data - Read (File F15) B-10 Cumulative Power Data - Read (File N16) B-11 Demand Data - Read (File F17) B-12 Event Log - Read (File N18) B-13 Snapshot 46 Parameter Record Table Read (File F19) B-14 Snapshot 16 Parameter Record Table Read (File F19) B-15 Snapshot 8 Parameter Record Table Read (File F19) B-16 Snapshot 4 Parameter Record Table Read (File F19) B-17 Snapshot 3 and 7 Parameter Record Table Read (File F19)..... B-18 Snapshot 1 Parameter Record Table Read (File F19) B-19 Power Snapshot Log Data Table (File F20) B-20 Min_Max Log - Read (File N21) B-22 Log Selection Command Table Write (File N22) B-23 Available Min/Max Log Parameters (Identifiers for parameter 12.4) B-24 Even Harmonic Distortion Table - Channel 1 to 7 Read (File F23) B-25 i

4 Table of Contents ii Odd Harmonic Distortion Table - Channels 1 to 7 Read (File F24) B-26 Even Harmonic Magnitude Data Table Channel 1 to 7 Read (File F25) B-28 Odd Harmonic Magnitude Data Table (File F26) B-29 Even Harmonic Phase Angle Data Table Channels 1 to 7 Read (File F27) B-31 Odd Harmonic Phase Angle Data Table (File F28) B-32 Waveform Capture Data - Read (File N29) B-34 Diagnostic Data Table (Self-test Results) Read (File N30) B-37 Setpoint Setup Data Table - Write/Read (File N31) B-39 Setpoint Type B-40 Setpoint Action B-41 Relay/Setpoint Status Table Read (File N32) B-41 Status Inputs Bitfield Definitions B-43 Alarm Word Bitfield Definitions B-43 Setpoint Status Bitfield Definitions B-43 Combined Real-Time Data Table Read (File F40) B-44 Sample Ladder Listing Technical Specifications Appendix C Ladder Program Description C-1 Data Files C-2 MSG Read Data Table Locations C-3 MSG Write Table Locations C-4 Sample Ladder Listing C-6 Appendix D Product Approvals D-1 Revenue Meter Compliance D-1 Compliance to European Union Directives D-1

5 Product Description Product Description Chapter Objectives Terms and Conventions After completing this chapter, you should be able to identify the product features and system applications. In this instruction sheet, the following terms and conventions are used: Table 1 Abbreviations and Terms Abbreviation MSG IP Gateway Subnet Mask UTP AUI BOOTP Hub ESD Term Message Internet Protocol An internet or intranet routing device Subdivides the host portion an IP address into subnet and host Unshielded Twisted Pair Attachment Unit Interface Bootstrap Protocol; provides dynamic assignment of IP addresses A central wiring termination device Electrostatic Discharge Introduction The Catalog Number 1403-NENET Ethernet Card is a microprocessor-controlled, dual-port communication plug-in accessory to the Powermonitor II Master Module. This accessory provides the Powermonitor II with three communication ports. Two of these ports are the 10BaseT and 10Base5 Ethernet ports, while the third is an RS-232 local configuration port. Required configuration parameters (IP Address, Gateway, Subnet Mask, Physical Ethernet Port, etc.) are provided by configuring the Master Module. (There are no hardware jumpers to configure when the card is installed.) 1

6 2 Product Description Features The Ethernet Communication Card features include: Connect to Allen-Bradley PLC-5 Ethernet processors Connect to Allen-Bradley SLC 5/05 Ethernet processor Built-in internet web page support Compatible with RSEnergy, RSView32 and RSPower32 software Ethernet communication rate: 10Mbps Compatible with commercially available network bridges and routers Fully software configurable Supports RSLinx and WINtelligent Linx (emulates SLC 500 ) Figure 1 Catalog Number 1403-NENET Communications Module Finger Hold Internal RS-232 Connector Captive Fastening Screw 10BT Connector Internal 10B5 Connector Ready (RDY) LED Link (LK) LED Receive (RX) LED Transmit (TX) LED Installation ATTENTION! Please follow appropriate ESD procedures before removal and/or installation of the Ethernet Communications Card. Failure to follow these procedures can result in physical damage to both the Ethernet Communications Card and the Master Module. 1. Remove Master Module control power. 2. Remove the blank plate by unscrewing the two corner retaining screws as shown i nfigure 2. Save these two screws for assembly.

7 Product Description 3 Figure 2 Blank Plate Removal 3. If you plan to remove the communications card at a later date, retain the blank plate. Otherwise, dispose of properly. 4. Remove the communications card from the static protection shipping bag. 5. Grasp the card with the components side up and the four LEDs on the bottom. Place the right index finger in the top notch and the thumb in the bottom notch. 6. With the Master Module labels right side up, place the card into opening on the left side, as shown in Figure 3. The card to Master Module connector should align properly when the top right and bottom left guide pins of the Master Module mate with holes in the card. With your left thumb, press just above the card to Master Module connector to attach the connector. Tighten the four corner screws on the communication card. Figure 3 Installing Communication Card 7. Place the closure plate over the opening. Connect the closure plate ribbon connectors to the communication card connectors. Secure it with the two screws from the original blank plate as shown in Figure 4.

8 4 Product Description IMPORTANT Make sure cables do not twist. Figure 4 Installing Closure Plate NOTE Refer to Appendix D on page D-1, for screw torque requirements and wire sizes. 8. Apply Master Module control power. Field Service Considerations General Operation If the Ethernet Communications Card requires service, please contact your nearest Rockwell Automation Sales Office. To minimize your inconvenience, the initial installation should be performed in a manner which makes removal easy. Communications Card Set-Up All Ethernet card configuration items (Table 4 on page 6) can be changed via the Display Module or via the RS-232 setup port on the Ethernet card. If using a Display Module for Ethernet card configuration, all of the communication configuration items can be found in the Display Module menu/parameter structure under: Program Configuration Communication. (Refer to 1403 Powermonitor II Instruction Sheet, Publication 1403-IN001A-US-P for general information on Display Module operation.) The serial port on the 1403-NENET may be used to set communications options as well. Follow these steps: 1. Connect to a PC using a standard RS-232 null modem cable. 2. Run a communication application (such as Hyper Terminal) on the PC. 3. Set the communications parameters. Se etable 2 for communications parameter settings.

9 Product Description 5 Table 2 Communication Parameters Parameter Value Baud Rate 38,400 Parity None Data Bits 8 Stop Bits 1 Flow Control None 4. Apply control power to the Master Module. 5. Press Enter (or Return) on the PC. 6. Follow the on-screen instructions to modify and save the options. Connections There are two communication connection types for the 1403-NENET. UTP (10BaseT) - use a standard straight through RJ45 cable to connect to an Ethernet hub. AUI - attach an Ethernet transceiver to the DB15 connector. NOTE The final installation should contain wiring to one port only.

10 6 Product Description Indicators Four LED indicators provide information about the operating status of the card. Table 3 LED Indicators Label Name LED Color LED State and Communications Condition RDY Ready Red ON = Control power applied ON/OFF Flashing = Self-test initialization LK Link Green ON = UTP (10BaseT) cable properly connected RX Receive Green ON/OFF Flashing = Receiving Data TX Transmit Green ON/OFF Flashing = Transmitting Data Configuration Items Communication Table 4 Communication Configuration Items Communication Parameter Description Range Default IP Address Byte a IP address of this Powermonitor. (Normally in the form 0 to IP Address Byte b ) 1 IP Address Byte c 1 IP Address Byte d Device ID# Subnet Mask Byte a Specifies the subnet mask to apply to the IP address. 0 to Subnet Mask Byte b Network ID and Host are specified by address class. Zero bits in the mask indicate bit positions of the host number; 255 Subnet Mask Byte c one bits are for subnet ID. (Normally in the form ) Subnet Mask Byte d 0 Physical Ethernet Port Selects the Ethernet media (0=UTP/10BaseT, 1=AUI/ 0 = UTP, 1 =AUI 0 = UTP 10Base5) Keep Alive Time The maximum allowable time any socket is dedicated to a 5 to 3600 seconds 30 connection that is not responding. Inactivity Time The maximum allowable time the entire Ethernet communication card waits with no network activity before rebooting. Set parameter to zero to disable inactivity time. 0 to 1440 minutes 0 = Disabled 30 NOTE BOOTP, the dynamic acquisition of an IP address, is enabled when all four address bytes of the programmed IP address are set to zero. ( )

11 Product Description NENET Web Access Overview The HTTP (Web) interface is accessed from a web browser by entering the IP address of the Powermonitor II in the address combo box (example: A menu of all the available tables is presented with each table name shown as a hyperlink. Clicking on the link brings up a tabular display of the values in that table and the value descriptions.

12 8 Product Description

13 Appendix A Catalog Number Explanation Communications Cards NENET Bulletin Number Type of Device 1403 = Powermonitor II Family of products. NENET = Plug-in Communication Card for Bulletin 1403-MM and 1403-LM Devices (TCP/IP Ethernet). 1

14 A-2 Catalog Number Explanation

15 Appendix B Ethernet Communication Card Data Tables Table B.1 Data Table List Table Name Number of Parameters File/ Number of Elements Type of Table Device Configuration Data Table - Write and Read 37 N11/44 Read/Write B-2 (File N11) Communications Configuration Table - Write and 21 N12/30 Read/Write B-6 Read (File N12) Command Data Table Write (File N13) 12 N13/22 Write B-7 Voltage/Current Data - Read (File F14) 24 F14/29 Read B-9 Real-Time Power Data - Read (File F15) 25 F15/33 Read B-10 Cumulative Power Data - Read (File N16) 7 N16/45 Read B-11 Demand Data - Read (File F17) 18 F17/23 Read B-12 Event Log - Read (File N18) 12 N18/23 Read B-13 Snapshot 46 Parameter Record Table Read (File 29 F19/32 Read B-14 F19) Power Snapshot Log Data Table (File F20) 30 F20/34 Read B-20 Min_Max Log - Read (File N21) 8 N21/24 Read B-22 Log Selection Command Table Write (File N22) 4 N22/9 Write B-23 Even Harmonic Distortion Table - Channel 1 to 7 29 F23/32 Read (Channels 1 to 7) B-25 Read (File F23) Odd Harmonic Distortion Table - Channels 1 to 7 29 F24/32 Read (Channels 1 to 7) B-26 Read (File F24) Even Harmonic Magnitude Data Table Channel 1 29 F25/31 Read (Channel 1 to 7) B-28 to 7 Read (File F25) Odd Harmonic Magnitude Data Table (File F26) 29 F26/30 Read (Channel 1 to 7) B-29 Even Harmonic Phase Angle Data Table Channels 29 F27/30 Read (Channel 1 to 7) B-31 1 to 7 Read (File F27) Odd Harmonic Phase Angle Data Table (File F28) 29 F28/29 Read (Channel 1 to 7) B-32 Waveform Capture Data - Read (File N29) 54 N29/63 Read B-34 Diagnostic Data Table (Self-test Results) Read 33 N30/39 Read B-37 (File N30) Setpoint Setup Data Table - Write/Read (File N31) 9 N31/20 Read/Write B-39 Relay/Setpoint Status Table Read (File N32) 29 N32/38 Read B-41 Combined Real-Time Data Table Read (File F40) 81 F40/94 Read B-44 Page 1

16 B-2 Ethernet Communication Card Data Tables Table B.2 Device Configuration Data Table - Write and Read (File N11) Parameter No. Parameter Name Master Module Range Default Element Range Setting 1.1 Voltage Mode 0 = Demo 1 = Single 2 = Open Delta 3 = 3-Wire Delta 4 = 4-Wire Wye 5 = Direct Delta (1) to Present Unit Password -1 is always returned on a Read 0 to 9999 is required for a Write 1.3 New Password -1 does not change the password 0 to 9999 is new password value to to Voltage Scale 1.0 to 10,000, to 9999 PT Primary 5 0 to Voltage Scale 1 to to 999 PT Secondary 1.6 Current Scale (For I1, 1.0 to 10,000, or 5 (2) 7 0 to 9999 I2, I3) CT Primary 8 0 to Current Scale (For I1, 1 to or 5 (2) 9 1 to 999 I2, I3) CT Secondary 1.8 Analog Input Scale 1.0 to 10,000, to 9999 PT Primary 11 0 to Analog Input Scale 1 to to 999 PT Secondary 1.10 Neutral Current Scale 1.0 to 10,000, or 5 (2) 13 0 to 9999 (For I4) CT Primary 14 0 to Neutral Current Scale 1 to or 5 (2) 15 1 to 999 (For I4) CT Secondary 1.12 Demand Period Length -99 to to Number of Demand Periods 1 to to Snapshot Log Type (3) 0 = 46 param record to 5 1 = 16 param record 2 = 8 param record 3 = 4 param record 4 = 3 and 7 param record 5 = 1 param record

17 Ethernet Communication Card Data Tables B-3 Table B.2 Device Configuration Data Table - Write and Read (File N11) Parameter No. Parameter Name Master Module Range Default Setting 1.15 Snapshot Interval to 32,767 Hours 1.16 Snapshot Interval to 32,767 Minutes 1.17 Snapshot Interval to 32,767 Seconds 1.18 Snapshot Buffer Type 0 = Fill and Stop to 1 1 = Circular 1.19 Snapshot Param #1 (3) See Table B to Snapshot Param #2 (3) See Table B to Snapshot Param #3 (3) See Table B to Oscillograph Type (3) 0 = V2.10 or earlier compatible mode 1 = 10.8 khz, 1 capture 2 = 10.8 khz, 2 captures 3 = 5.4 khz, 1 capture 4 = 5.4 khz, 2 captures 5 = 2.7 khz, 1 capture 6 = 2.7 khz, 2 captures to Oscillograph Overwrite Timeout (3) 1 to 4320 minutes to Output Pulse Relay No Output Pulse Parameter 0 = None 1 = Relay 1 2 = Relay 2 0 = kwh Forward 1 = kwh Reverse 2 = kvarh Forward 3 = kvarh Reverse to to Output Pulse 1 to to Increment 1.27 Output Pulse Width (ms) (4) 0, 40 to to Ch A 12 Cycle Oscillogram (5) 1.29 Ch B 12 Cycle Oscillogram (5) 1 = Phase 1 Voltage 2 = Phase 1 Current 3 = Phase 2 Voltage 4 = Phase 2 Current 5 = Phase 3 Voltage 6 = Phase 3 Current 7 = Phase 4 Current 1 = Phase 1 Voltage 2 = Phase 1 Current 3 = Phase 2 Voltage 4 = Phase 2 Current 5 = Phase 3 Voltage 6 = Phase 3 Current 7 = Phase 4 Current Element Range to to 7

18 B-4 Ethernet Communication Card Data Tables Table B.2 Device Configuration Data Table - Write and Read (File N11) Parameter No. Parameter Name Master Module Range Default Setting 1.30 Oscillograph Buffer Type (5) 1.31 Number of Pretrigger Cycles for the 12 Cycle Oscillogram (5) 0 = Hold 1 = Overwrite -1 = No Pretrig 0 to +8 = Cycles to to to 10,000, to IEEE 519 Max. Short Circuit Current (5) 37 0 to IEEE 519 Max. 0.0 to 10,000, to 9999 Demand/Load Current (5) 39 0 to Save Status Changes to Event Log 0 = No 1 = Yes 1.35 Vaux Voltage Mode 0 = AC 1 = DC 1.36 Filter Mode(1403-MM) Enable THD (1403-LM) 1 to 3 (1403-MM) 0 to 1 (1403-LM) to to 1 2 (1403-MM) 0 (1403-LM) 42 1 to 3 (1403-MM) 0 to 1 (1403-LM) 1.37 Enable Min_Max Log 0 = No to 1 1 = Yes Reserved 44 (1) Available on 1403-MM firmware V2.0 or later and 1403-LM firmware V1.01 or later. (2) This value is 1 for 1-Amp Master Module (Cat. No MM01X) or 5 for a 5-Amp Master Module (Cat. No MM05X). (3) Available on firmware V3.00 or later (reserved in previous versions). (4) For transitional KYZ pulse enter 0. (5) 1403-MM only, not available on 1403-LM version. Element Range

19 Ethernet Communication Card Data Tables B-5 Table B.3 Configurable Snapshot Parameter List (selection list for Table B.2, parameters 1.19, 1.20 and 1.21) Parameter Number Parameter Name Parameter Number Parameter Name 0 L1 Current 33 Total Apparent Power 1 L2 Current 34 L1 True PF 2 L3 Current 35 L2 True PF 3 Avg Current 36 L3 True PF 4 L4 Current 37 Total True PF 5 L1-N Voltage 38 L1 Displacement PF 6 L2-N Voltage 39 L2 Displacement PF 7 L3-N Voltage 40 L3 Displacement PF 8 Avg L-N Voltage 41 Total Displacement PF 9 L1-L2 Voltage 42 L1 Distortion PF 10 L2-L3 Voltage 43 L2 Distortion PF 11 L3-L1 Voltage 44 L3 Distortion PF 12 Avg L-L Voltage 45 Total Distortion PF 13 Frequency 46 Demand I 14 Pos Seq Current 47 Demand W 15 Neg Seq Current 48 Demand VAR 16 Current Unbalance 49 Demand VA 17 Pos Seq Voltage 50 Proj #1 Demand I 18 Neg Seq Voltage 51 Proj #1 Demand W 19 Voltage Unbalance 52 Proj #1 Demand VAR 20 Aux Voltage 53 Proj #1 Demand VA 21 Aux Frequency 54 Proj #2 Demand I 22 L1 Real Power 55 Proj #2 Demand W 23 L2 Real Power 56 Proj #2 Demand VAR 24 L3 Real Power 57 Proj #2 Demand VA 25 Total Real Power 58 Proj #3 Demand I 26 L1 Reactive Power 59 Proj #3 Demand W 27 L2 Reactive Power 60 Proj #3 Demand VAR 28 L3 Reactive Power 61 Proj #3 Demand VA 29 Total Reactive Power 62 KWh net 30 L1 Apparent Power 63 KVARh net 31 L2 Apparent Power 64 KVAh net 32 L3 Apparent Power

20 B-6 Ethernet Communication Card Data Tables NOTE The device does not respond to a broadcast of this table. IP addresses are stored as a.b.c.d (e.g ; a=128). Table B.4 Communications Configuration Table - Write and Read (File N12) Parameter Parameter Name Master Module Range Default Element Range No. 2.1 IP Address Byte a 0 to to IP Address Byte b 0 to to IP Address Byte c 0 to to IP Address Byte d 0 to 255 Unit ID 4 0 to Reserved Reserved Reserved Reserved Subnet Mask Byte a 0 to to Subnet Mask Byte b 0 to to Subnet Mask Byte c 0 to to Subnet Mask Byte d 0 to to Physical Ethernet Port 0 = UTP, 1 = AUI to Keep Alive Time 5 to 3600 Seconds to Inactivity Time 0 to 1440 Minutes to Reserved Reserved Reserved Reserved Reserved Present Unit Password -1 is always returned for a Read 0 to 9999 is required for a Write -1 (Read) 21-1 to Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved

21 Ethernet Communication Card Data Tables B-7 Table B.5 Command Data Table Write (File N13) Parameter No. Parameter Name Master Module Range Element Range 3.1 Command Word 1 (Bit Fields) See Table B to 32, Command Word 2 (Bit Fields) See Table B to Harmonic Analysis (1) 1 = L1 Voltage 3 1 to 7 2 = L1 Current 3 = L2 Voltage 4 = L2 Current 5 = L3 Voltage 6 = L3 Current 7 = L4 Current 3.4 Oscillograph Channel Request (Not 1 = Capture #1 V1 2 = Capture #1 I1 3 = Capture #1 V2 4 = Capture #1 I2 5 = Capture #1 V3 6 = Capture #1 I3 7 = Capture #1 I4 8 = Ch-A 12 Cycle 9 = Ch-B 12 Cycle 10 = Reserved 11 = Capture #2 V1 (2) 12 = Capture #2 I1 (2) 13 = Capture #2 V2 (2) 14 = Capture #2 I2 (2) 15 = Capture #2 V3 (2) 16 = Capture #2 I3 (2) 17 = Capture #2 I4 (2) 4 1 to W Hour Data for Set Command -9999x10 8 to +9999x to ±0 to VAR Hour Data for Set Command -9999x10 8 to +9999x to ±0 to Reserved Time for Set Command Year to 2097 Month, Day 12 8-bit, 8-bit Hour, Minutes 13 8-bit, 8-bit Seconds, Hundredths 14 8-bit, 8-bit 3.9 Force Specifics Relay 1 1 = Energize 2 = De-energize 4 = Remove Force 15 1, 2, Force Specifics Relay 2 1 = Energize 2 = De-energize 4 = Remove Force 16 1, 2, Setpoint Number 1 to to 20

22 B-8 Ethernet Communication Card Data Tables Table B.5 Command Data Table Write (File N13) Parameter No. Parameter Name Master Module Range Element Range 3.12 Present Unit Password 0 to to 9999 Reserved 19 Reserved 20 Reserved 21 Reserved 22 (1) See Table B.6 o n pageb-8 for specific command bits to enable these features. (2) Available on firmware V3.00 or later. Table B.6 Bit Fields for Command Data Table -(Command Word 1) Command Bit Location and Value Clear Snapshot Log b0 = 1 Clear Min_Max Log b1 = 1 Restore Factory Default Configuration b2 = 1 Clear Hold of Oscillograph Capture #1 (Reserved on 1403-LM) b3 = 1 Initiate Oscillograph Capture #1 (Reserved on 1403-LM) b4 = 1 Force Self Test b5 = 1 Clear Status Input Counter 1 b6 = 1 Clear Status Input Counter 2 b7 = 1 Clear Status Input Counter 3 b8 = 1 Clear Status Input Counter 4 b9 = 1 Clear Battery Usage Timer b10 = 1 Reserved b11 = 1 Synchronize Demand Interval b12 = 1 Clear Hold of Oscillograph Capture #2 (Reserved on 1403-LM) b13 = 1 Initiate Oscillograph Capture #2 (Reserved on 1403-LM) b14 = 1 Table B.7 Bit Fields for Command Data Table - (Command Word 2) Command Bit Location and Value Set Analysis Channel Request (DV1) b0 = 1 Set Oscillogram Channel Request (DV2) b1 = 1 (Not Set W Hours (DV3) b2 = 1 Set VAR Hours (DV4) b3 = 1

23 Ethernet Communication Card Data Tables B-9 Table B.7 Bit Fields for Command Data Table - (Command Word 2) Command Bit Location and Value Reserved b4 = not used Set Time (DV6) b5 = 1 Relay 1 (DV7) b6 = 1 Relay 2 (DV8) b7 = 1 Select Setpoint Number (DV9) b8 = 1 Table B.8 Voltage/Current Data - Read (File F14) Parameter No. Parameter Name Master Module Range Element Range 4.1 Time Stamp Year 1 32-bit Float Month, Date 2 32-bit Float Hour, Minute 3 32-bit Float Seconds, Hundredths 4 32-bit Float 4.2 L1 Current 0 to 9999x10 21 amps 5 0 to 9999x L2 Current 0 to 9999x10 21 amps 6 0 to 9999x L3 Current 0 to 9999x10 21 amps 7 0 to 9999x L4 (Neutral) Current 0 to 9999x10 21 amps 8 0 to 9999x Phase Average Current 0 to 9999x10 21 amps 9 0 to 9999x Positive Sequence Current 0 to 9999x10 21 amps 10 0 to 9999x Negative Sequence Current 0 to 9999x10 21 amps 11 0 to 9999x Percent Current Unbalance 0.0 to to L1 to L2 Voltage 0 to 9999x10 21 amps 13 0 to 9999x L2 to L3 Voltage 0 to 9999x10 21 volts 14 0 to 9999x L3 to L1 Voltage 0 to 9999x10 21 amps 15 0 to 9999x AUX Voltage 0 to 9999x10 21 volts 16 0 to 9999x Phase Average Voltage (L-L) 0 to 9999x10 21 amps 17 0 to 9999x Positive Sequence Voltage 0 to 9999x10 21 volts 18 0 to 9999x Negative Sequence Voltage 0 to 9999x10 21 volts 19 0 to 9999x Percent Voltage Unbalance 0.0 to to L1-N Voltage 0 to 9999x10 21 volts 21 0 to 9999x L2-N Voltage 0 to 9999x10 21 volts 22 0 to 9999x L3-N Voltage 0 to 9999x10 21 volts 23 0 to 9999x Phase Average Voltage (L-N) 0 to 9999x10 21 volts 24 0 to 9999x10 21

24 B-10 Ethernet Communication Card Data Tables Table B.8 Voltage/Current Data - Read (File F14) Parameter No. Parameter Name Master Module Range Element Range 4.22 Reserved Word Last Cycle Frequency 20.0 to to Phase Rotation 0 = No Rotation 1 = ABC 2 = ACB 27 0 to 2 Reserved Word 28 Reserved Word 29 Table B.9 Real-Time Power Data - Read (File F15) Parameter No. Parameter Name Master Module Range Element Range 5.1 Time Stamp Year 1 32-bit Float Month, Date 2 32-bit Float Hour, Minute 3 32-bit Float Seconds, Hundredths 4 32-bit Float 5.2 L1 Real Power 0 to 9999x10 21 W 5 0 to 9999x L2 Real Power 0 to 9999x10 21 W 6 0 to 9999x L3 Real Power 0 to 9999x10 21 W 7 0 to 9999x Total Real Power 0 to 9999x10 21 W 8 0 to 9999x L1 Reactive Power 0 to 9999x10 21 VAR 9 0 to 9999x L2 Reactive Power 0 to 9999x10 21 VAR 10 0 to 9999x L3 Reactive Power 0 to 9999x10 21 VAR 11 0 to 9999x Total Reactive Power 0 to 9999x10 21 VAR 12 0 to 9999x L1 Apparent Power 0 to 9999x10 21 VA 13 0 to 9999x L2 Apparent Power 0 to 9999x10 21 VA 14 0 to 9999x L3 Apparent Power 0 to 9999x10 21 VA 15 0 to 9999x Total Apparent Power 0 to 9999x10 21 VA 16 0 to 9999x L1 True PF to to L2 True PF to to L3 True PF to to Total True PF to to L1 Displacement PF (1) to to L2 Displacement PF (1) to to L3 Displacement PF (1) to to Total Displacement PF (1) to to

25 Ethernet Communication Card Data Tables B-11 Table B.9 Real-Time Power Data - Read (File F15) Parameter No. Parameter Name Master Module Range Element Range 5.22 L1 Distortion PF (1) to to L2 Distortion PF (1) to to L3 Distortion PF (1) to to Total Distortion PF (1) to to Reserved Word 29 (1) This value has the same update rate as harmonic analysis. Table B.10 Cumulative Power Data - Read (File N16) Parameter No. Parameter Name Master Module Element Range Modulus Range 6.1 Time Stamp Year 1 N/A Month, Date 2 N/A Hour, Minute 3 N/A Seconds, 4 N/A Hundredths 6.2 kw Hours Forward 0 to 1.0x to to to to to kw Hours Reverse -1.0x10 12 to to to to to to kw Hours Net -1.0x10 12 to 1.0x ±0 to ±0 to ±0 to ±0 to ±0 to

26 B-12 Ethernet Communication Card Data Tables Table B.10 Cumulative Power Data - Read (File N16) Parameter No. Parameter Name Master Module Range 6.5 kvar Hours Forward 0 to 1.0x to to to to to kvar Hours Reverse -1.0x10 12 to to to to to to kvar Hours Net -1.0x10 12 to 1.0x ±0 to ±0 to Reserved Word 35 Reserved Word 36 Reserved Word 37 Reserved Word 38 Reserved Word 39 Reserved Word 40 Reserved Word 41 Reserved Word 42 Reserved Word 43 Reserved Word 44 Reserved Word 45 Element Range Modulus 32 ±0 to ±0 to ±0 to Table B.11 Demand Data - Read (File F17) Parameter No. Parameter Name Master Module Range Element Range 7.1 Time Stamp Year 1 32-bit Float Month, Date 2 32-bit Float Hour, Minute 3 32-bit Float Seconds, Hundredths 4 32-bit Float 7.2 Demand Current 0 to 9999x10 21 amps 5 0 to 9999x10 21

27 Ethernet Communication Card Data Tables B-13 Table B.11 Demand Data - Read (File F17) Parameter No. Parameter Name Master Module Range Element Range 7.3 Demand Power 0 to 9999x10 21 W 6 0 to 9999x Demand Reactive Power 0 to 9999x10 21 VAR 7 0 to 9999x Demand Apparent Power 0 to 9999x10 21 VA 8 0 to 9999x Projected No. 1 Demand Current 0 to 9999x10 21 amps 9 0 to 9999x Projected No. 1 Demand Power 0 to 9999x10 21 W 10 0 to 9999x Projected No. 1 Demand Reactive Power 0 to 9999x10 21 VAR 11 0 to 9999x Projected No. 1 Demand Apparent Power 0 to 9999x10 21 VA 12 0 to 9999x Projected No. 2 Demand Current 0 to 9999x10 21 amps 13 0 to 9999x Projected No. 2 Demand Power 0 to 9999x10 21 W 14 0 to 9999x Projected No. 2 Demand Reactive Power 0 to 9999x10 21 VAR 15 0 to 9999x Projected No. 2 Demand Apparent Power 0 to 9999x10 21 VA 16 0 to 9999x Projected No. 3 Demand Current 0 to 9999x10 21 amps 17 0 to 9999x Projected No. 3 Demand Power 0 to 9999x10 21 W 18 0 to 9999x Projected No. 3 Demand Reactive Power 0 to 9999x10 21 VAR 19 0 to 9999x Projected No. 3 Demand Apparent Power 0 to 9999x10 21 VA 20 0 to 9999x Elapsed Time 0 to 9999x to 9999x10 21 Reserved Word 22 Reserved Word 23 Table B.12 Event Log - Read (File N18) (1) Parameter No. Parameter Name Master Module Range Element Range 8.1 Event Time Log Stamp Year 1 16 Bit Integer Month, Date 2 8-bit, 8-bit Hour, Minute 3 8-bit, 8-bit Seconds, Hundredths 4 8-bit, 8-bit 8.2 Event Type Value 0 to to Event Code Value 0 to to Setpoint Type 0 to to Setpoint Evaluation Condition 0 to to Setpoint Level ±9999x ±0 to ±0 to Setpoint Action/Release Delay 0 to to Setpoint Action 0 to to Number of Event Logs Requested 1 to to Number of Event Log Received (Counter) 1 to to 100

28 B-14 Ethernet Communication Card Data Tables Table B.12 Event Log - Read (File N18) (1) Parameter No. Parameter Name Master Module Range Element Range 8.11 Number of Event Log Being Returned 1 to to Internal Identifier to to Reserved Word 17 Reserved Word 18 Reserved Word 19 Reserved Word 20 Reserved Word 21 Reserved Word 22 Reserved Word 23 (1) ID=23 for log selection command. Table B.13 Snapshot 46 Parameter Record Table Read (File F19) (1) Parameter No. Parameter Name Master Module Element Range Parameter Range 9.1 Timestamp of Snapshot Record Year 1 32-bit Float Month, Date 2 32-bit Float Hour, Minute 3 32-bit Float Seconds, Hundredths 4 32-bit Float 9.2 Reserved L1 Current 0 to 9999x10 21 amps 6 0 to 9999x L2 Current 0 to 9999x10 21 amps 7 0 to 9999x L3 Current 0 to 9999x10 21 amps 8 0 to 9999x L4 (Neutral) Current 0 to 9999x10 21 amps 9 0 to 9999x Phase Average Current 0 to 9999x10 21 amps 10 0 to 9999x Positive Sequence Current 0 to 9999x10 21 amps 11 0 to 9999x Negative Sequence Current 0 to 9999x10 21 amps 12 0 to 9999x Percent Current Unbalance 0.0 to to L1-L2 Voltage 0 to 9999x10 21 volts 14 0 to 9999x L2-L3 Voltage 0 to 9999x10 21 volts 15 0 to 9999x L3-L1 Voltage 0 to 9999x10 21 volts 16 0 to 9999x AUX Voltage 0 to 9999x10 21 volts 17 0 to 9999x Phase Average Voltage (L-L) 0 to 9999x10 21 volts 18 0 to 9999x Positive Sequence Voltage 0 to 9999x10 21 volts 19 0 to 9999x Negative Sequence Voltage 0 to 9999x10 21 volts 20 0 to 9999x Percent Voltage Unbalance 0.0 to to L1-N Voltage 0 to 9999x10 21 volts 22 0 to 9999x L2-N Voltage 0 to 9999x10 21 volts 23 0 to 9999x10 21

29 Ethernet Communication Card Data Tables B-15 Table B.13 Snapshot 46 Parameter Record Table Read (File F19) (1) Parameter No. Parameter Name Master Module Parameter Range 9.21 L3-N Voltage 0 to 9999x10 21 volts 24 0 to 9999x Phase Average Voltage (L-N) 0 to 9999x10 21 volts 25 0 to 9999x Reserved Last Cycle Frequency 20.0 to to Phase Rotation 0 = No Rotation 1 = ABC 2 = ACB 28 0 to Number of Snapshot Logs Requested 1 to to No. of Snapshot Log Received (Counter) 1 to to Number of Snapshot Log Being Returned 1 to to Internal Identifier to to (1) ID=54 for log selection command. Table B.14 Snapshot 16 Parameter Record Table Read (File F19) Element Range Parameter No. Parameter Name Master Module Parameter Range Element 9a.1 Timestamp; Year 1998 to Timestamp; Month, Date 257 to 3103 Month = Value/256 Date = Remainder of Value/256 2 Timestamp; Hour, Minute 0 to 5947 Hour = Value/256 Minute = Remainder of Value/256 Timestamp; Seconds, Hundreths 0 to Seconds = Value/256 hseconds = Remainder of Value/256 9a.2 Reserved 0 5 9a.3 L1-L2 Voltage (in Delta modes) or 0 to 9999x10 21 Volts 6 L1-N Voltage (in non-delta modes) 9a.4 L2-L3 Voltage (in Delta modes) or 0 to 9999x10 21 Volts 7 L2-N Voltage (in non-delta modes) 9a.5 L3-L1 Voltage (in Delta modes) or 0 to 9999x10 21 Volts 8 L3-N Voltage (in non-delta modes) 9a.6 L1 Current 0 to 9999x10 21 Amps 9 9a.7 L2 Current 0 to 9999x10 21 Amps 10 9a.8 L3 Current 0 to 9999x10 21 Amps 11 9a.9 L4 Current 0 to 9999x10 21 Amps 12 9a.10 Voltage Unbalance 0 to 100% 13 9a.11 Current Unbalance 0 to 100% 14 9a.12 Total Real Power 0 to 9999x10 21 kw 15 9a.13 Total Reactive Power 0 to 9999x10 21 kvar 16 9a.14 Demand kw 0 to 9999x10 21 kw

30 B-16 Ethernet Communication Card Data Tables Table B.14 Snapshot 16 Parameter Record Table Read (File F19) Parameter No. Parameter Name Master Module Parameter Range Element 9a.15 Demand kvar 0 to 9999x10 21 kvar 18 9a.16 Total True PF -100 to a.17 kwh net -9999x10 21 to +9999x10 21 kwh 20 9a.18 kvarh net -9999x10 21 to +9999x10 21 kvarh 21 9a.19 Number of Records Requested 1 to a.20 Number of Records Read so far 1 to a.21 Record Number Returned 1 to a.22 Internal Identifier 0 to a.23 Reserved a.24 Reserved a.25 Reserved a.26 Reserved a.27 Reserved a.28 Reserved a.29 Reserved 0 32 Table B.15 Snapshot 8 Parameter Record Table Read (File F19) Parameter No. Parameter Name Master Module Parameter Range Element 9b.1 Timestamp; Year 1998 to Timestamp; Month, Date 257 to 3103 Month = Value/256 Date = Remainder of Value/256 2 Timestamp; Hour, Minute 0 to 5947 Hour = Value/256 Minute = Remainder of Value/256 Timestamp; Seconds, Hundreths 0 to Seconds = Value/256 hseconds = Remainder of Value/256 9b.2 Reserved 0 5 9b.3 Avg L-L Voltage (in Delta modes) or Avg L-N 0 to 9999x10 21 Volts 6 Voltage (in non-delta modes) 9b.4 Average Current 0 to 9999x10 21 Amps 7 9b.5 Total True PF -100 to b.6 Total Real Power 0 to 9999x10 21 kw 9 9b.7 Frequency 0 to 75 Hz 10 9b.8 Voltage Unbalance 0 to 100% 11 9b.9 Current Unbalance 0 to 100% 12 9b.10 Total Reactive Power 0 to 9999x10 21 kvar 13 9b.11 Number of Records Requested 1 to b.12 Number of Records Read so far 1 to b.13 Record Number Returned 1 to b.14 Internal Identifier 0 to

31 Ethernet Communication Card Data Tables B-17 Table B.15 Snapshot 8 Parameter Record Table Read (File F19) Parameter No. Parameter Name Master Module Parameter Range Element 9b.15 Reserved b.16 Reserved b.17 Reserved b.18 Reserved b.19 Reserved b.20 Reserved b.21 Reserved b.22 Reserved b.23 Reserved b.24 Reserved b.25 Reserved b.26 Reserved b.27 Reserved b.28 Reserved b.29 Reserved 0 32 Table B.16 Snapshot 4 Parameter Record Table Read (File F19) Parameter No. Parameter Name Master Module Parameter Range Element 9c.1 Timestamp; Year 1998 to Timestamp; Month, Date 257 to 3103 Month = Value/256 Date = Remainder of Value/256 2 Timestamp; Hour, Minute 0 to 5947 Hour = Value/256 Minute = Remainder of Value/256 Timestamp; Seconds, Hundreths 0 to Seconds = Value/256 hseconds = Remainder of Value/256 9c.2 Reserved 0 5 9c.3 Avg L-L Voltage (in Dealt modes) or Avg L-N 0 to 9999x10 21 Volts 6 Voltage (in non-delta modes) 9c.4 Average Current 0 to 9999x10 21 Amps 7 9c.5 Total True PF -100 to c.6 Total Real Power 0 to 9999x10 21 kw 9 9c.7 Number of Records Requested 1 to c.8 Number of Records Read so far 1 to c.9 Record Number Returned 1 to c.10 Internal Identifier 0 to c.11 Reserved c.12 Reserved c.13 Reserved c.14 Reserved c.15 Reserved

32 B-18 Ethernet Communication Card Data Tables Table B.16 Snapshot 4 Parameter Record Table Read (File F19) Parameter No. Parameter Name Master Module Parameter Range Element 9c.16 Reserved c.17 Reserved c.18 Reserved c.19 Reserved c.20 Reserved c.21 Reserved c.22 Reserved c.23 Reserved c.24 Reserved c.25 Reserved c.26 Reserved c.27 Reserved c.28 Reserved c.29 Reserved 0 32 Table B.17 Snapshot 3 and 7 Parameter Record Table Read (File F19) Parameter No. Parameter Name Master Module Parameter Range Element 9d.1 Timestamp; Year 1998 to Timestamp; Month, Date 257 to 3103 Month = Value/256 Date = Remainder of Value/256 2 Timestamp; Hour, Minute 0 to 5947 Hour = Value/256 Minute = Remainder of Value/256 Timestamp; Seconds, Hundreths 0 to Seconds = Value/256 hseconds = Remainder of Value/256 9d.2 Reserved 0 5 9d.3 The value of user selected parameter #1 0 to 9999x (See Table B.2, parameter 1.19) 9d.4 The value of user selected parameter #2 0 to 9999x (See Table B.2, parameter 1.20) 9d.5 The value of user selected parameter #3 0 to 9999x (See Table B.2, parameter 1.21) 9d.6 Avg L-L Voltage (in Dealt modes) or Avg L-N 0 to 9999x10 21 Volts 9 Voltage (in non-delta modes) 9d.7 Average Current 0 to 9999x10 21 Amps 10 9d.8 Voltage Unbalance 0 to 100% 11 9d.9 Current Unbalance 0 to 100% 12 9d.10 Total Real Power 0 to 9999x10 21 kw 13 9d.11 Demand VAR 0 to 9999x10 21 kvar 14 9d.12 Total True PF -100 to d.13 Number of Records Requested 1 to

33 Ethernet Communication Card Data Tables B-19 Table B.17 Snapshot 3 and 7 Parameter Record Table Read (File F19) Parameter No. Parameter Name Master Module Parameter Range Element 9d.14 Number of Records Read so far 1 to d.15 Record Number Returned 1 to d.16 Internal Identifier 0 to d.17 Reserved d.18 Reserved d.19 Reserved d.20 Reserved d.21 Reserved d.22 Reserved d.23 Reserved d.24 Reserved d.25 Reserved d.26 Reserved d.27 Reserved d.28 Reserved d.29 Reserved 0 32 Table B.18 Snapshot 1 Parameter Record Table Read (File F19) Parameter No. Parameter Name Master Module Parameter Range Element 9e.1 Timestamp; Year 1998 to Timestamp; Month, Date 257 to 3103 Month = Value/256 Date = Remainder of Value/256 2 Timestamp; Hour, Minute 0 to 5947 Hour = Value/256 Minute = Remainder of Value/256 Timestamp; Seconds, Hundreths 0 to Seconds = Value/256 hseconds = Remainder of Value/256 9e.2 Reserved 0 5 9e.3 The value of user selected parameter #1 0 to 9999x (See Table B.2, parameter 1.19) 9e.4 Number of Records Requested 1 to e.5 Number of Records Read so far 1 to e.6 Record Number Returned 1 to e.7 Internal Identifier 0 to e.8 Reserved e.9 Reserved e.10 Reserved e.11 Reserved e.12 Reserved e.13 Reserved e.14 Reserved

34 B-20 Ethernet Communication Card Data Tables Table B.18 Snapshot 1 Parameter Record Table Read (File F19) Parameter No. Parameter Name Master Module Parameter Range Element 9e.15 Reserved e.16 Reserved e.17 Reserved e.18 Reserved e.19 Reserved e.20 Reserved e.21 Reserved e.22 Reserved e.23 Reserved e.24 Reserved e.25 Reserved e.26 Reserved e.27 Reserved e.28 Reserved e.29 Reserved 0 32 Table B.19 Power Snapshot Log Data Table (File F20) (1) Parameter No. Parameter Name Master Module Element Range Parameter Range 10.1 Snapshot Log Time Stamp Year 1 32-bit Float Month, Date 2 16-bit, 16-bit Hour, Minute 3 16-bit, 16-bit Seconds, Hundredths 4 16-bit, 16-bit 10.2 Reserved Word L1 Real Power 0 to 9999x10 21 W 6 0 to 9999x L2 Real Power 0 to 9999x10 21 W 7 0 to 9999x L3 Real Power 0 to 9999x10 21 W 8 0 to 9999x Total Real Power 0 to 9999x10 21 W 9 0 to 9999x L1 Reactive Power 0 to 9999x10 21 VAR 10 0 to 9999x L2 Reactive Power 0 to 9999x10 21 VAR 11 0 to 9999x L3 Reactive Power 0 to 9999x10 21 VAR 12 0 to 9999x Total Reactive Power 0 to 9999x10 21 VAR 13 0 to 9999x L1 Apparent Power 0 to 9999x10 21 VA 14 0 to 9999x L2 Apparent Power 0 to 9999x10 21 VA 15 0 to 9999x L3 Apparent Power 0 to 9999x10 21 VA 16 0 to 9999x Total Apparent Power 0 to 9999x10 21 VA 17 0 to 9999x L1 True PF to to L2 True PF to to

35 Ethernet Communication Card Data Tables B-21 Table B.19 Power Snapshot Log Data Table (File F20) (1) Parameter No. Parameter Name Master Module Parameter Range L3 True PF to to Total True PF to to L1 Displacement PF to to L2 Displacement PF to to L3 Displacement PF to to Total Displacement PF to to L1 Distortion PF to to L2 Distortion PF to to L3 Distortion PF to to Total Distortion PF to to Number of Snapshot Logs Requested 1 to to Number of snapshot Log Received 1 to to 50 (Counter) Number of Snapshot Log Being Returned 1 to to Internal Identifier to to Reserved Word 34 (1) ID = 59 for log selection command. Element Range

36 B-22 Ethernet Communication Card Data Tables Table B.20 Min_Max Log - Read (File N21) (1) Parameter No. Parameter Name Master Module Element Range Parameter Range 11.1 Time Stamp of last Min/Max Log Reset Year 1 16-bit Integer Month, Date 2 8-bit, 8-bit Hour, Minute 3 8-bit, 8-bit Seconds, Hundredths 4 8-bit, 8-bit 11.2 Time Stamp of MIN for Parameter Year 5 16-bit Integer Month, Date 6 8-bit, 8-bit Hour, Minute 7 8-bit, 8-bit Seconds, Hundredths 8 8-bit, 8-bit 11.3 MIN Value for Parameter 0 to 9999x to ±0 to Time Stamp of MAX for Parameter Year bit Integer Month, Date 12 8-bit, 8-bit Hour, Minute 13 8-bit, 8-bit Seconds, Hundredths 14 8-bit, 8-bit 11.5 MAX Value for Parameter 0 to 9999x to ±0 to Number of Min_Max Logs Requested 1 to to Number of Min_Max Log Received 1 to to 84 (Counter) 11.8 Number of Min_Max Log Being Returned 1 to to 84 Reserved Word 20 Reserved Word 21 Reserved Word 22 Reserved Word 23 Reserved Word 24 (1) ID=24 for log selection command

37 Ethernet Communication Card Data Tables B-23 Table B.21 Log Selection Command Table Write (File N22) Param. No. Parameter Name Master Module Range Element Range 12.1 Selected Log 23 = Event Log 24 = Min/Max Log 54 = Snapshot V/I Log, or 16, 8, 3 and 7, 1 parameter records 59 = Snapshot Power Log 1 23, 24, 54, Maximum Number of Data Sets 1 to 100 for Event Log 1 to 84 for Min/Max Log 1 to 50 for Snapshot V/I Log 1 to 50 for Snapshot Power Log 1 to 265 for snapshot 16 parameter log (1) 1 to 489 for snapshot 8 parameter log (1) 1 to 846 for snapshot 4 parameter log (1) 1 to 100 for snapshot 7 parameter log (1) 1 to 845 for snapshot 3 parameter log (1) 1 to 1861 for snapshot 1 parameter log (1) 12.3 Chronology of Returned Data 0 = Reverse 1 = Forward Note: Not used for Min/ Max Log 2 1 to 100 for Event Log 1 to 84 for Min/Max Log 1 to 50 for Snapshot V/I Log 1 to 50 for Snapshot Power Log 1 to 265 for snapshot 16 parameter log (1) 1 to 489 for snapshot 8 parameter log (1) 1 to 846 for snapshot 4 parameter log (1) 1 to 100 for snapshot 7 parameter log (1) 1 to 845 for snapshot 3 parameter log (1) 1 to 1861 for snapshot 1 parameter log (1) 3 0 to First Min/Max Parameter to be Returned 1 to to Snapshot Starting Record Offset (1) 0 to (parameter 12.2 max - 1) (1) Available on firmware V3.00 or later. Reserved Word 6 Reserved Word 7 Reserved Word 8 Reserved Word to (parameter 12.2 max - 1)

38 B-24 Ethernet Communication Card Data Tables Table B.22 Available Min/Max Log Parameters (Identifiers for parameter 12.4) Param # Parameter Description Param # Parameter Description Param # Parameter Description 1 L1 Current 22 L1 Watts 43 L2 Distortion Power Factor Param # Parameter Description 64 L2 Voltage K-factor (1) 2 L2 Current 23 L2 Watts 44 L3 Distortion Power 65 L2 Current IEEE THD Factor 3 L3 Current 24 L3 Watts 45 Total Distortion Power 66 L2 Current IEC THD Factor 4 L4 (Neutral) Current 25 Total Watts 46 Demand Current 67 L2 Current TIF (1) 5 3-Phase Average Current 6 Positive Sequence Current 26 L1 VAR 47 Demand Watts 68 L2 Current Crest Factor (1) 27 L2 VAR 48 Demand VAR 69 L2 Current K-factor (1) 7 Negative Sequence 28 L3 VAR 49 Demand VA 70 L3 Voltage IEEE THD Current 8 Percent Current 29 Total VAR 50 L1 Voltage IEEE THD 71 L3 Voltage IEC THD Unbalance 9 L1-L2 Voltage 30 L1 VA 51 L1 Voltage IEC THD 72 L3 Voltage TIF (1) 10 L2-L3 Voltage 31 L2 VA 52 L1 Voltage TIF (1) 73 L3 Voltage Crest Factor (1) 11 L3-L1 Voltage 32 L3 VA 53 L1 Voltage Crest Factor (1) 74 L3 Voltage K-factor (1) 12 Auxiliary Voltage 33 Total VA 54 L1 Voltage K-factor (1) 75 L3 Current IEEE THD 13 3-Phase Average L-L Voltage 14 Positive Sequence Voltage 15 Negative Sequence Voltage 16 Percent Voltage Unbalance 34 L1 True Power Factor 55 L1 Current IEEE THD 76 L3 Current IEC THD 35 L2 True Power Factor 56 L1 Current IEC THD 77 L3 Current TIF (1) 36 L3 True Power Factor 57 L1 Current TIF (1) 78 L3 Current Crest Factor (1) 37 Total True Power Factor 17 L1-N Voltage 38 L1 Displacement Power Factor 18 L2-N Voltage 39 L2 Displacement Power Factor 19 L3-N Voltage 40 L3 Displacement Power Factor 20 3-Phase Average L-N Voltage 41 Total Displacement Power Factor 21 Frequency 42 L1 Distortion Power Factor (1) Not available on 1403-LM. 58 L1 Current Crest Factor (1) 79 L3 Current K-factor (1) 59 L1 Current K-factor (1) 80 L4 (Neutral) Current IEEE THD 60 L2 Voltage IEEE THD 81 L4 (Neutral) Current IEC THD 61 L2 Voltage IEC THD 82 L4 (Neutral) Current TIF (1) 62 L2 Voltage TIF (1) 83 L4 (Neutral) Current Crest Factor (1) 63 L2 Voltage Crest 84 L4 (Neutral) Current Factor (1) K-factor (1)

39 Ethernet Communication Card Data Tables B-25 Harmonic Distortion Tables - Read Harmonic Distortion Data Tables for Channel 1 through Channel 7 are identical. There are a total of 14 tables for this information. (V1, V2, V3, I1, I2, I3, I4) The table sizes indicate this is Harmonic Distortion Data. The Channel Number designates which one. Table B.23 Even Harmonic Distortion Table - Channel 1 to 7 Read (File F23) Parameter No. Parameter Name Master Module Range Element Range 13.1 IEEE Total Harmonic Distortion 0 to 1000% 1 0 to IEC Total Harmonic Distortion 0 to 1000% 2 0 to Meets IEEE 519 (Not -1 = Unknown 0 = Fail 1 = Pass 3-1 to TIF (Not 0 to 9999x to 9999x Crest Factor (Not 0 to 9999x to 9999x K-Factor (Not 0 to 9999x to 9999x Channel Number 1 = L1 Voltage 2 = L1 Current 3 = L2 Voltage 4 = L2 Current 5 = L3 Voltage 6 = L3 Current 7 = L4 Current 13.8 Harmonic Distortion - Fundamental ( Not 13.9 Harmonic Distortion - Second (Not Harmonic Distortion - Fourth ( Not Harmonic Distortion - Sixth (Not Harmonic Distortion - Eighth ( Not Harmonic Distortion - Tenth (Not Harmonic Distortion - Twelfth (Not Harmonic Distortion - Fourteenth ( Not Harmonic Distortion - Sixteenth ( Not Harmonic Distortion - Eighteenth ( Not Harmonic Distortion - Twentieth (Not 7 1 to 7 0 to 1000% 8 0 to to 1000% 9 0 to to 1000% 10 0 to to 1000% 11 0 to to 1000% 12 0 to to 1000% 13 0 to to 1000% 14 0 to to 1000% 15 0 to to 1000% 16 0 to to 1000% 17 0 to to 1000% 18 0 to 1000

40 B-26 Ethernet Communication Card Data Tables Table B.23 Even Harmonic Distortion Table - Channel 1 to 7 Read (File F23) Parameter No. Parameter Name Master Module Range Element Range Harmonic Distortion - Twenty-second 0 to 1000% 19 0 to 1000 (Not Harmonic Distortion - Twenty-fourth (Not 0 to 1000% 20 0 to Harmonic Distortion - Twenty-sixth (Not 0 to 1000% 21 0 to Harmonic Distortion - Twenty-eighth Not ( 0 to 1000% 22 0 to Harmonic Distortion - Thirtieth 0 to 1000% 23 0 to 1000 (Not Harmonic Distortion - Thirty-second (Not 0 to 1000% 24 0 to Harmonic Distortion - Thirty-fourth ( Not 0 to 1000% 25 0 to Harmonic Distortion - Thirty-sixth ( Not 0 to 1000% 26 0 to Harmonic Distortion - Thirty-eighth (Not 0 to 1000% 27 0 to Harmonic Distortion - Fortieth 0 to 1000% 28 0 to 1000 (Not FFT Chronological Reference Number 0 to to Reserved Word 30 Reserved Word 31 Reserved Word 32 Table B.24 Odd Harmonic Distortion Table - Channels 1 to 7 Read (File F24) Parameter No. Parameter Name Master Module Range Element Range 14.1 IEEE Total Harmonic Distortion 0 to 1000% 1 0 to IEC Total Harmonic Distortion 0 to 1000% 2 0 to Meets IEEE 519 (Not -1 = Unknown 0 = Fail 1 = Pass 3-1 to TIF Value (Not 0 to 9999x to 9999x Crest Factor (Not 0 to 9999x to 9999x K-Factor (Not 0 to 9999x to 9999x Channel Number 1 = L1 Voltage 2 = L1 Current 3 = L2 Voltage 4 = L2 Current 5 = L3 Voltage 6 = L3 Current 7 = L4 Current 14.8 Harmonic Distortion - Fundamental (Not 7 1 to 7 0 to 1000% 8 0 to 1000

41 Ethernet Communication Card Data Tables B-27 Table B.24 Odd Harmonic Distortion Table - Channels 1 to 7 Read (File F24) Parameter No. Parameter Name Master Module Range Element Range 14.9 Harmonic Distortion - Third 0 to 1000% 9 0 to 1000 (Not Harmonic Distortion - Fifth 0 to 1000% 10 0 to 1000 (Not Harmonic Distortion - Seventh 0 to 1000% 11 0 to 1000 (Not Harmonic Distortion - Ninth 0 to 1000% 12 0 to 1000 (Not Harmonic Distortion - Eleventh 0 to 1000% 13 0 to 1000 (Not Harmonic Distortion - Thirteenth ( Not 0 to 1000% 14 0 to Harmonic Distortion - Fifteenth 0 to 1000% 15 0 to 1000 (Not Harmonic Distortion - Seventeenth ( Not 0 to 1000% 16 0 to Harmonic Distortion - Nineteenth ( Not 0 to 1000% 17 0 to Harmonic Distortion - Twenty-first (Not 0 to 1000% 18 0 to Harmonic Distortion - Twenty-third (Not 0 to 1000% 19 0 to Harmonic Distortion - Twenty-fifth Not ( 0 to 1000% 20 0 to Harmonic Distortion - Twenty-seventh 0 to 1000% 21 0 to Harmonic Distortion - Twenty-ninth (Not 0 to 1000% 22 0 to Harmonic Distortion - Thirty-first ( Not 0 to 1000% 23 0 to Harmonic Distortion - Thirty-third ( Not 0 to 1000% 24 0 to Harmonic Distortion - Thirty-fifth ( Not 0 to 1000% 25 0 to Harmonic Distortion - Thirty-seventh Not ( 0 to 1000% 26 0 to Harmonic Distortion - Thirty-ninth ( Not 0 to 1000% 27 0 to Harmonic Distortion - Forty-first ( Not 0 to 1000% 28 0 to FFT Update Reference Number 0 to to Reserved Word 30 Reserved Word 31 Reserved Word 32

42 B-28 Ethernet Communication Card Data Tables Harmonic Magnitude Data Tables for Channel 1 through Channel 7 are identical. There are a total of 14 tables for this information. (V1, V2, V3, I1, I2, I3, I4). Table B.25 Even Harmonic Magnitude Data Table Channel 1 to 7 Read (File F25) Parameter No. Parameter Name Master Module Range Element Range 15.1 IEEE Total Harmonic Distortion 0 to 1000% 1 0 to IEC Total Harmonic Distortion 0 to 1000% 2 0 to Meets IEEE 519 (Not -1 = Unknown 0 = Fail 1 = Pass 3-1 to TIF Value (Not 0 to 9999x to 9999x Crest Factor (Not 0 to 9999x to 9999x K-Factor (Not 0 to 9999x to 9999x Channel Number 1 = L1 Voltage 2 = L1 Current 3 = L2 Voltage 4 = L2 Current 5 = L3 Voltage 6 = L3 Current 7 = L4 Current 15.8 Harmonic Magnitude - Fundamental (Not 15.9 Harmonic Magnitude - Second (Not Harmonic Magnitude - Fourth (Not Harmonic Magnitude - Sixth (Not Harmonic Magnitude - Eighth (Not Harmonic Magnitude - Tenth (Not Harmonic Magnitude - Twelfth (Not Harmonic Magnitude - Fourteenth (Not Harmonic Magnitude - Sixteenth (Not Harmonic Magnitude - Eighteenth (Not Harmonic Magnitude - Twentieth (Not Harmonic Magnitude - Twenty-second (Not Harmonic Magnitude - Twenty-fourth (Not 7 1 to 7 0 to 9999x to 9999x to 9999x to 9999x to 9999x to 9999x to 9999x to 9999x to 9999x to 9999x to 9999x to 9999x to 9999x to 9999x to 9999x to 9999x to 9999x to 9999x to 9999x to 9999x to 9999x to 9999x to 9999x to 9999x to 9999x to 9999x10 21

43 Ethernet Communication Card Data Tables B-29 Table B.25 Even Harmonic Magnitude Data Table Channel 1 to 7 Read (File F25) Parameter No. Parameter Name Master Module Range Element Range Harmonic Magnitude - Twenty-sixth (Not Harmonic Magnitude - Twenty-eighth (Not Harmonic Magnitude - Thirtieth (Not Harmonic Magnitude - Thirty-second (Not Harmonic Magnitude - Thirty-fourth (Not Harmonic Magnitude - Thirty-sixth (Not Harmonic Magnitude - Thirty-eighth (Not Harmonic Magnitude - Fortieth (Not 0 to 9999x to 9999x to 9999x to 9999x to 9999x to 9999x to 9999x to 9999x to 9999x to 9999x to 9999x to 9999x to 9999x to 9999x to 9999x to 9999x FFT Update Reference Number 0 to to Reserved Word 30 Reserved Word 31 Table B.26 Odd Harmonic Magnitude Data Table (File F26) Parameter No. Parameter Name Master Module Range Element Range 16.1 IEEE Total Harmonic Distortion 0 to 1000% 1 0 to IEC Total Harmonic Distortion 0 to 1000% 2 0 to Meets IEEE 519 (Not -1 = Unknown 0 = Fail 1 = Pass 3-1 to TIF Value (Not 0 to 9999x to 9999x Crest Factor (Not 5 0 to 9999x to 9999x K-Factor (Not 0 to 9999x to 9999x Channel Number 1 = L1 Voltage 2 = L1 Current 3 = L2 Voltage 4 = L2 Current 5 = L3 Voltage 6 = L3 Current 7 = L4 Current 16.8 Harmonic Magnitude - Fundamental (Not 16.9 Harmonic Magnitude - Third (Not Harmonic Magnitude - Fifth (Not 7 1 to 7 0 to 9999x to 9999x to 9999x to 9999x to 9999x to 9999x10 21

44 B-30 Ethernet Communication Card Data Tables Table B.26 Odd Harmonic Magnitude Data Table (File F26) Parameter No. Parameter Name Master Module Range Element Range Harmonic Magnitude - Seventh (Not Harmonic Magnitude - Ninth (Not Harmonic Magnitude - Eleventh (Not Harmonic Magnitude - Thirteenth (Not 0 to 9999x to 9999x to 9999x to 9999x to 9999x to 9999x to 9999x to 9999x Harmonic Magnitude - Fifteenth 0 to 9999x to 9999x Harmonic Magnitude - Seventeenth (Not Harmonic Magnitude - Nineteenth (Not Harmonic Magnitude - Twenty-first (Not Harmonic Magnitude - Twenty-third (Not Harmonic Magnitude - Twenty-fifth (Not Harmonic Magnitude - Twenty-seventh (Not Harmonic Magnitude - Twenty-ninth (Not Harmonic Magnitude - Thirty-first (Not Harmonic Magnitude - Thirty-third (Not Harmonic Magnitude - Thirty-fifth (Not Harmonic Magnitude - Thirty-seventh (Not Harmonic Magnitude - Thirty-ninth (Not Harmonic Magnitude - Forty-first (Not 0 to 9999x to 9999x to 9999x to 9999x to 9999x to 9999x to 9999x to 9999x to 9999x to 9999x to 9999x to 9999x to 9999x to 9999x to 9999x to 9999x to 9999x to 9999x to 9999x to 9999x to 9999x to 9999x to 9999x to 9999x to 9999x to 9999x FFT Chronological Reference Number 0 to to Reserved Word 30

45 Ethernet Communication Card Data Tables B-31 Harmonic Phase Angle Data Tables for Channel 1 through Channel 7 are identical. There are a total of 14 tables for this information. (V1, V2, V3, I1, I2, I3, I4) Table B.27 Even Harmonic Phase Angle Data Table Channels 1 to 7 Read (File F27) Parameter No. Parameter Name Master Module Range Element Range 17.1 Reserved Word Reserved Word Reserved Word Reserved Word Reserved Word Reserved Word Channel Number (Not 17.8 Harmonic Phase Angle - Fundamental (Not 17.9 Harmonic Phase Angle - Second (Not Harmonic Phase Angle - Fourth (Not Harmonic Phase Angle - Sixth (Not Harmonic Phase Angle - Eighth (Not Harmonic Phase Angle - Tenth (Not Harmonic Phase Angle - Twelfth (Not Harmonic Phase Angle - Fourteenth (Not Harmonic Phase Angle - Sixteenth (Not Harmonic Phase Angle - Eighteenth (Not Harmonic Phase Angle - Twentieth (Not Harmonic Phase Angle - Twenty-second (Not Harmonic Phase Angle - Twenty-fourth (Not Harmonic Phase Angle - Twenty-sixth (Not 1 = L1 Voltage 2 = L1 Current 3 = L2 Voltage 4 = L2 Current 5 = L3 Voltage 6 = L3 Current 7 = L4 Current 7 1 to 7 0 to 360 degrees 8 0 to to 360 degrees 9 0 to to 360 degrees 10 0 to to 360 degrees 11 0 to to 360 degrees 12 0 to to 360 degrees 13 0 to to 360 degrees 14 0 to to 360 degrees 15 0 to to 360 degrees 16 0 to to 360 degrees 17 0 to to 360 degrees 18 0 to to 360 degrees 19 0 to to 360 degrees 20 0 to to 360 degrees 21 0 to 360

46 B-32 Ethernet Communication Card Data Tables Table B.27 Even Harmonic Phase Angle Data Table Channels 1 to 7 Read (File F27) Parameter No. Parameter Name Master Module Range Element Range Harmonic Phase Angle - Twenty-eighth 0 to 360 degrees 22 0 to 360 (Not Harmonic Phase Angle - Thirtieth (Not 0 to 360 degrees 23 0 to Harmonic Phase Angle - Thirty-second 0 to 360 degrees 24 0 to 360 (Not Harmonic Phase Angle - Thirty-fourth 0 to 360 degrees 25 0 to 360 (Not Harmonic Phase Angle - Thirty-sixth (Not 0 to 360 degrees 26 0 to Harmonic Phase Angle - Thirty-eighth 0 to 360 degrees 27 0 to 360 (Not Harmonic Phase Angle - Fortieth (Not 0 to 360 degrees 28 0 to FFT Chronological Reference Number 0 to to Reserved Word 30 Table B.28 Odd Harmonic Phase Angle Data Table (File F28) Parameter No. Parameter Name Master Module Range Element Range 18.1 Reserved Word Reserved Word Reserved Word Reserved Word Reserved Word Reserved Word Channel Number (Not 18.8 Harmonic Phase Angle - Fundamental (Not 18.9 Harmonic Phase Angle - Third (Not Harmonic Phase Angle - Fifth (Not Harmonic Phase Angle - Seventh (Not Harmonic Phase Angle - Ninth (Not Harmonic Phase Angle - Eleventh (Not Harmonic Phase Angle - Thirteenth (Not 1 = L1 Voltage 2 = L1 Current 3 = L2 Voltage 4 = L2 Current 5 = L3 Voltage 6 = L3 Current 7 = L4 Current 7 1 to 7 0 to 360 degrees 8 0 to to 360 degrees 9 0 to to 360 degrees 10 0 to to 360 degrees 11 0 to to 360 degrees 12 0 to to 360 degrees 13 0 to to 360 degrees 14 0 to 360

47 Ethernet Communication Card Data Tables B-33 Table B.28 Odd Harmonic Phase Angle Data Table (File F28) Parameter No. Parameter Name Master Module Range Element Range Harmonic Phase Angle - Fifteenth (Not 0 to 360 degrees 15 0 to Harmonic Phase Angle - Seventeenth 0 to 360 degrees 16 0 to 360 (Not Harmonic Phase Angle - Nineteenth (Not 0 to 360 degrees 17 0 to Harmonic Phase Angle - Twenty-first (Not 0 to 360 degrees 18 0 to Harmonic Phase Angle - Twenty-third 0 to 360 degrees 19 0 to 360 (Not Harmonic Phase Angle - Twenty-fifth (Not 0 to 360 degrees 20 0 to Harmonic Phase Angle - Twenty-seventh 0 to 360 degrees 21 0 to 360 (Not Harmonic Phase Angle - Twenty-ninth 0 to 360 degrees 22 0 to 360 (Not Harmonic Phase Angle - Thirty-first (Not 0 to 360 degrees 23 0 to Harmonic Phase Angle - Thirty-third (Not 0 to 360 degrees 24 0 to Harmonic Phase Angle - Thirty-fifth (Not 0 to 360 degrees 25 0 to Harmonic Phase Angle - Thirty-seventh 0 to 360 degrees 26 0 to 360 (Not Harmonic Phase Angle - Thirty-ninth (Not 0 to 360 degrees 27 0 to Harmonic Phase Angle - Forty-first (Not 0 to 360 degrees 28 0 to FFT Chronological Reference Number 0 to to 32767

48 B-34 Ethernet Communication Card Data Tables Table B.29 Waveform Capture Data - Read (File N29) Parameter No. Parameter Name Master Module Range Element Range 19.1 Time Stamp of Oscillogram Year 1 16-bit Integer (Not Month, Date 2 8-bit, 8-bit Hour, Minute 3 8-bit, 8-bit Seconds, Hundredths 4 8-bit, 8-bit 19.2 Channel Number (Not 1 = Capture #1 V1 2 = Capture #1 I1 3 = Capture #1 V2 4 = Capture #1 I2 5 = Capture #1 V3 6 = Capture #1 I3 7 = Capture #1 I4 8 = Ch-A 12 Cycle 9 = Ch-B 12 Cycle 10 = Reserved 11 = Capture #2 V1 (1) 12 = Capture #2 I1 (1) 13 = Capture #2 V2 (1) 14 = Capture #2 I2 (1) 15 = Capture #2 V3 (1) 16 = Capture #2 I3 (1) 17 = Capture #2 I4 (1) 5 1 to Channel Data Count (Not Available on 1403-LM) 19.4 Oscillogram Chronological Reference Number (Not 19.5 Oscillogram Block Number (Not 19.6 Actual Channel Number (Not 19.7 Oscillogram Data Point 1 (Not 19.8 Oscillogram Data Point 2 (Not 19.9 Oscillogram Data Point 3 (Not Oscillogram Data Point 4 (Not Oscillogram Data Point 5 (Not Oscillogram Data Point 6 (Not 0, 432, 1518, 2592, or , 1518, 2592, or to to to to 64 1 = L1 Voltage 2 = L1 Current 3 = L2 Voltage 4 = L2 Current 5 = L3 Voltage 6 = L3 Current 7 = L4 Current 9 1 to 7 ± ±5000 ± ±5000 ± ±5000 ± ±5000 ± ±5000 ± ±5000

49 Ethernet Communication Card Data Tables B-35 Table B.29 Waveform Capture Data - Read (File N29) Parameter No. Parameter Name Master Module Range Element Range Oscillogram Data Point 7 ± ±5000 (Not Oscillogram Data Point 8 ± ±5000 (Not Oscillogram Data Point 9 ± ±5000 (Not Oscillogram Data Point 10 ± ±5000 (Not Oscillogram Data Point 11 ± ±5000 (Not Oscillogram Data Point 12 ± ±5000 (Not Oscillogram Data Point 13 ± ±5000 (Not Oscillogram Data Point 14 ± ±5000 (Not Oscillogram Data Point 15 ± ±5000 (Not Oscillogram Data Point 16 ± ±5000 (Not Oscillogram Data Point 17 ± ±5000 (Not Oscillogram Data Point 18 ± ±5000 (Not Oscillogram Data Point 19 ± ±5000 (Not Oscillogram Data Point 20 ± ±5000 (Not Oscillogram Data Point 21 ± ±5000 (Not Oscillogram Data Point 22 ± ±5000 (Not Oscillogram Data Point 23 ± ±5000 (Not Oscillogram Data Point 24 ± ±5000 (Not Oscillogram Data Point 25 ± ±5000 (Not Oscillogram Data Point 26 ± ±5000 (Not Oscillogram Data Point 27 ± ±5000 (Not Oscillogram Data Point 28 ± ±5000 (Not Oscillogram Data Point 29 (Not ± ±5000

50 B-36 Ethernet Communication Card Data Tables Table B.29 Waveform Capture Data - Read (File N29) Parameter No. Parameter Name Master Module Range Element Range Oscillogram Data Point 30 ± ±5000 (Not Oscillogram Data Point 31 ± ±5000 (Not Oscillogram Data Point 32 ± ±5000 (Not Oscillogram Data Point 33 ± ±5000 (Not Oscillogram Data Point 34 ± ±5000 (Not Oscillogram Data Point 35 ± ±5000 (Not Oscillogram Data Point 36 ± ±5000 (Not Oscillogram Data Point 37 ± ±5000 (Not Oscillogram Data Point 38 ± ±5000 (Not Oscillogram Data Point 39 ± ±5000 (Not Oscillogram Data Point 40 ± ±5000 (Not Oscillogram Data Point 41 ± ±5000 (Not Oscillogram Data Point 42 ± ±5000 (Not Oscillogram Data Point 43 ± ±5000 (Not Oscillogram Data Point 44 ± ±5000 (Not Oscillogram Data Point 45 ± ±5000 (Not Oscillogram Data Point 46 ± ±5000 (Not Oscillogram Data Point 47 ± ±5000 (Not Oscillogram Data Point 48 ± ±5000 (Not Reserved Word 58 Reserved Word 59 Reserved Word 60 Reserved Word 61 Reserved Word 62 Reserved Word 63 (1) Available on firmware V3.00 or later.

51 Ethernet Communication Card Data Tables B-37 Waveform Capture Data Equation For PT Secondary Values < 138 Max Voltage = For PT Secondary Values 138 Max Voltage = For xm01a or xm01b Max Current = 1.42 (1403-MM or 1403-LM) For xm05a or xm05b Max Current = 7.10 Max Counts = 4095 ( Max Voltage or Max Current 2) PT or CT Primary Oscillogram Data Point= Voltage or Current Max Counts PT or CT Secondary Table B.30 Diagnostic Data Table (Self-test Results) Read (File N30) Parameter No. Parameter Name Master Module Range Element Range 20.1 Time Stamp of Diagnostic Data Year 1 16-bit Integer Month, Date 2 8-bit, 8-bit Hour, Minute 3 8-bit, 8-bit Seconds, Hundredths 4 8-bit, 8-bit 20.2 Bulletin Number Master Module FRN 0 to to Options Bit Field Bit 0 - High Voltage (A) Bit 1 - Low Voltage (B) Bit 2-1 Amp Device Bit 3-5 Amp Device 7 16-bit Integer 20.5 Summary Status 8 16-bit Integer 20.6 Master Module ROM Status 9 16-bit Integer 20.7 Master Module RAM Status bit Integer 20.8 NV RAM Status bit Integer 20.9 Power Supply Check bit Integer Data Acquisition bit Integer Master Module Watchdog Timer bit Integer Real Time Clock Status bit Integer Reserved Reserved Battery Usage 0 to to Smart Communication Card Status bit Integer Reserved Smart Communication Card Type 0 = none 1 = RIO 2 = Ethernet 21 0 to Smart Communication Card FRN 0 to to Number of Display Modules 0 to to Display Module Status bit Integer Display Module Self Test Results Word bit Integer Display Module Self Test Results Word bit Integer Display Module No. 1 FRN 0 to to 32767

52 B-38 Ethernet Communication Card Data Tables Table B.30 Diagnostic Data Table (Self-test Results) Read (File N30) Parameter No. Parameter Name Master Module Range Element Range Display Module No. 2 FRN 0 to to Display Module No. 3 FRN 0 to to Auxiliary Frequency 0 to 9999x to to Fiber Loop Back Test Results 0 = Fail 32 0 to 1 1 = Pass EEPROM Status bit Integer Device ID 0 to to General Purpose Status Bits bit 0 = oscillograph capture #1 ready to be read bit 1 = snapshot buffer full bit 2 = oscillogram capture #1 triggered by a setpoint bit 3 = oscillograph capture #2 ready to be read bit 4 = oscillograph capture #2 triggered by setpoint (if clear, triggered via comms) (Refer to Note below.) 35 0 to Block Write Error Status Word (Block Size ID) Block Write Error Status Word (Parameter Number) 0 = OK Other value = Error 0 = OK Other value = Error Reserved Word 38 Reserved Word to to NOTE Notes for PC application or PLC programmer Oscillograph triggered via a communication: Trigger oscillograph capture by writing to the command table. Check oscillograph data readiness by reading diagnostic table (should be ready almost immediately since maximum pre-trigger is used for comm port oscillograph requests). Specify oscillograph channel to read by writing to the command table. Get oscillograph data by reading oscillograph data table. Subsequent reads return remaining sets of data for that channel. After the last set of data for that channel, additional reads return data for the next channel. Once you have finished collecting all of the data you desire for that capture, release hold of the capture by writing to the command table. This allows pre-trigger collection of new data and clears the ready indication in the diagnostic table. Oscillograph trigger via setpoint: Trigger oscillograph with a properly configured setpoint. Check oscillograph data readiness by reading diagnostic table (may have to wait up to 1.2 seconds; depends on sample rate, number of captures and pre-trigger settings). Specify oscillograph channel to read by writing to the command table. Get oscillograph data by reading oscillograph data table. Subsequent reads return remaining sets of data for that channel. After the last set of data for that channel, additional reads return data for the next channel. All data for all 7 channels can be retrieved by performing a series of successive reads. Once you have finished collecting all of the data you desire for that capture, release hold of the capture by writing to the command table. This allows pre-trigger collection of new data and clears the ready indication in the diagnostic table.

53 Ethernet Communication Card Data Tables B-39 Table B.31 Setpoint Setup Data Table - Write/Read (File N31) Parameter No. Parameter Name Master Module Range Element Range 21.1 Setpoint Number 1 to to Setpoint Type 0 to 58 (see Table B.26 in 2 0 to 58 Publication ) 21.3 Setpoint Evaluation Condition Over Forward = 0 Over Reverse = 1 Under Forward = 2 Under Reverse = 3 Equal = 4 Not Equal = to Setpoint High Limit 0.0 to 1,000, to to Setpoint Low Limit 0.0 to 1,000, to to Setpoint Action Delay 0 to to Setpoint Release Delay 0 to to Setpoint Action Type 0 to 21 (see Table B.26 in 10 0 to 21 Publication ) 21.9 Present Unit Password 0 to to 9999 Default = 0 Reserved Word 12 Reserved Word 13 Reserved Word 14 Reserved Word 15 Reserved Word 16 Reserved Word 17 Reserved Word 18 Reserved Word 19 Reserved Word 20

54 B-40 Ethernet Communication Card Data Tables Table B.32 Setpoint Type Value Setpoint Type Name Value Setpoint Type Name 0 Not Used (Inactive) 30 Phase Rotation 1 Voltage 31 K-Factor: Voltage (1) 2 Current 32 K-Factor: Current (1) 3 Voltage Unbalance 33 K-Factor: Neutral Current (1) 4 Current Unbalance 34 Crest Factor: Voltage (1) 5 Vaux Voltage 35 Crest Factor: Current (1) 6 Neutral (I4) Current 36 Crest Factor: Neutral Current (1) 7 W 37 TIF: Voltage (1) 8 VAR 38 TIF: Current (1) 9 VA 39 TIF: Neutral Current (1) 10 Total True Power Factor 40 IEEE THD: Voltage 11 Total Displacement Power Factor 41 IEEE THD: Current 12 Total Distortion Power Factor 42 IEEE THD: Neutral Current 13 W Demand 43 IEC THD: Voltage 14 VAR Demand 44 IEC THD: Current 15 VA Demand 45 IEC THD: Neutral Current 16 Current Demand 46 IEEE519: Voltage (1) 17 Type 1 Predictive Demand A 47 IEEE519: Current (1) 18 Type 1 Predictive Demand W 48 IEEE519: Neutral Current (1) 19 Type 1 Predictive Demand VAR 49 Status Input No Type 1 Predictive Demand VA 50 Status Input No Type 2 Predictive Demand A 51 Status Input No Type 2 Predictive Demand W 52 Status Input No Type 2 Predictive Demand VAR 53 Any Status Input 24 Type 2 Predictive Demand VA 54 Battery Usage Timer 25 Type 3 Predictive Demand A 55 True Power Factor Quadrant 1 26 Type 3 Predictive Demand W 56 True Power Factor Quadrant 2 27 Type 3 Predictive Demand VAR 57 True Power Factor Quadrant 3 28 Type 3 Predictive Demand VA 58 True Power Factor Quadrant 4 29 Frequency (1) Not available on 1403-LM.

55 Ethernet Communication Card Data Tables B-41 Table B.33 Setpoint Action Value Setpoint Action 0 No Action 1 Activate Relay No. 1 and Output Flag No. 1 2 Activate Relay No. 2 and Output Flag No. 2 3 Activate Output Flag No. 3 4 Activate Output Flag No. 4 5 Activate Output Flag No. 5 6 Activate Output Flag No. 6 7 Activate Output Flag No. 7 8 Activate Output Flag No. 8 9 Activate Output Flag No Activate Output Flag No Activate Output Flag No Activate Output Flag No Activate Output Flag No Activate Output Flag No Activate Output Flag No Activate Output Flag No Initiate Waveform Capture Buffer #1 (1) 18 Perform Snapshot 19 Clear kw-hr Power Counter 20 Clear kvar-hr Power Counter 21 Initiate Waveform Capture Buffer #2 (2) (1) Not available on 1403-LM. (2) Available on firmware V3.00 or later. Table B.34 Relay/Setpoint Status Table Read (File N32) Parameter No. Parameter Name Master Module Range Element Range 22.1 Time Stamp Year 1 0 to bit Integer Month, Date 2 1 to 12 (8-bit), 1 to 31 (8-bit) Hour, Minute 3 0 to 23 (8-bit), 0 to 59 (8-bit) Seconds, Hundredths 4 0 to 59 (8-bit), 0 to 99 (8-bit)

56 B-42 Ethernet Communication Card Data Tables Table B.34 Relay/Setpoint Status Table Read (File N32) Parameter No. Parameter Name Master Module Range Element Range 22.2 Relay No. 1 Status (Bit Fields) 0 = De-energized 1 = Energized 2 = Forced De-energized 3 = Forced Energized 22.3 Relay No. 2 Status (Bit Fields) 0 = De-energized 1 = Energized 2 = Forced De-energized 3 = Forced Energized 5 0 to to Alarm Word (Bit Fields) See Table B bit Integer 22.5 Status Inputs (Bit Fields) See Table B bit Integer 22.6 Counter Status Input No to to Counter Status Input No to to Counter Status Input No to to Counter Status Input No to to Setpoint No. 1 Status (Bit Fields) See Table B bit Integer Setpoint No. 2 Status (Bit Fields) See Table B bit Integer Setpoint No. 3 Status (Bit Fields) See Table B bit Integer Setpoint No. 4 Status (Bit Fields) See Table B bit Integer 22,14 Setpoint No. 5 Status (Bit Fields) See Table B bit Integer Setpoint No. 6 Status (Bit Fields) See Table B bit Integer Setpoint No. 7 Status (Bit Fields) See Table B bit Integer Setpoint No. 8 Status (Bit Fields) See Table B bit Integer Setpoint No. 9 Status (Bit Fields) See Table B bit Integer Setpoint No. 10 Status (Bit Fields) See Table B bit Integer Setpoint No. 11 Status (Bit Fields) See Table B bit Integer Setpoint No. 12 Status (Bit Fields) See Table B bit Integer Setpoint No. 13 Status (Bit Fields) See Table B bit Integer Setpoint No. 14 Status (Bit Fields) See Table B bit Integer Setpoint No. 15 Status (Bit Fields) See Table B bit Integer Setpoint No. 16 Status (Bit Fields) See Table B bit Integer Setpoint No. 17 Status (Bit Fields) See Table B bit Integer Setpoint No. 18 Status (Bit Fields) See Table B bit Integer Setpoint No. 19 Status (Bit Fields) See Table B bit Integer Setpoint No. 20 Status (Bit Fields) See Table B bit Integer Reserved Word 33 Reserved Word 34 Reserved Word 35 Reserved Word 36 Reserved Word 37 Reserved Word 38

57 Ethernet Communication Card Data Tables B-43 Table B.35 Status Inputs Bitfield Definitions Bit Location and Value b0 = 1 b1 = 1 b2 = 1 b3 = 1 b4 to b15 Description Status Input 1 Active Status Input 2 Active Status Input 3 Active Status Input 4 Active Reserved Table B.36 Alarm Word Bitfield Definitions Bit Location and Value b0 = 1 b1 = 1 b2 = 1 b3 = 1 b4 = 1 b5 = 1 b6 = 1 b7 = 1 b8 = 1 b9 = 1 b10 = 1 b11 = 1 b12 = 1 b13 = 1 b14 = 1 b15 = 1 Description Alarm Input 1 Active Alarm Input 2 Active Alarm Input 3 Active Alarm Input 4 Active Alarm Input 5 Active Alarm Input 6 Active Alarm Input 7 Active Alarm Input 8 Active Alarm Input 9 Active Alarm Input 10 Active Alarm Input 11 Active Alarm Input 12 Active Alarm Input 13 Active Alarm Input 14 Active Alarm Input 15 Active Alarm Input 16 Active Table B.37 Setpoint Status Bitfield Definitions Bit Location and Value b0 to b7 b8 = Not Used b9 = 1 b10 = 1 b11 = 1 b12 = 1 b13 = 1 b14 = 1 b15 = 1 Description Setpoint Assert Counter Reserved Waiting for Release Limit Met for Release Setpoint Asserted Waiting for Assert Limit Met for Assert Setpoint Released Setpoint Active

58 B-44 Ethernet Communication Card Data Tables Table B.38 Combined Real-Time Data Table Read (File F40) Parameter No. Parameter Name Master Module Range Element Range 23.1 Time Stamp Year 1 32-bit Float Month, Date 2 32-bit Float Hour, Minute 3 32-bit Float Seconds, Hundredths 4 32-bit Float 23.2 L1 Current 0 to 9999x10 21 amps 5 0 to 9999x L2 Current 0 to 9999x10 21 amps 6 0 to 9999x L3 Current 0 to 9999x10 21 amps 7 0 to 9999x L4 (Neutral) Current 0 to 9999x10 21 amps 8 0 to 9999x Phase Average Current 0 to 9999x10 21 amps 9 0 to 9999x Positive Sequence Current 0 to 9999x10 21 amps 10 0 to 9999x Negative Sequence Current 0 to 9999x10 21 amps 11 0 to 9999x Percent Current Unbalance 0.0 to to L1 to L2 Voltage 0 to 9999x10 21 amps 13 0 to 9999x L2 to L3 Voltage 0 to 9999x10 21 volts 14 0 to 9999x L3 to L1 Voltage 0 to 9999x10 21 amps 15 0 to 9999x AUX Voltage 0 to 9999x10 21 volts 16 0 to 9999x Phase Average Voltage (L-L) 0 to 9999x10 21 amps 17 0 to 9999x Positive Sequence Voltage 0 to 9999x10 21 volts 18 0 to 9999x Negative Sequence Voltage 0 to 9999x10 21 volts 19 0 to 9999x Percent Voltage Unbalance 0.0 to to L1-N Voltage 0 to 9999x10 21 volts 21 0 to 9999x L2-N Voltage 0 to 9999x10 21 volts 22 0 to 9999x L3-N Voltage 0 to 9999x10 21 volts 23 0 to 9999x Phase Average Voltage (L-N) 0 to 9999x10 21 volts 24 0 to 9999x Reserved Word Last Cycle Frequency 20.0 to to Phase Rotation 0 = No Rotation 1 = ABC 2 = ACB 27 0 to Reserved Word Reserved Word Reserved Word Reserved Word Time Stamp Year bit Float Month, Date bit Float Hour, Minute bit Float Seconds, Hundredths bit Float

59 Ethernet Communication Card Data Tables B-45 Table B.38 Combined Real-Time Data Table Read (File F40) Parameter No. Parameter Name Master Module Range Element Range L1 Real Power 0 to 9999x10 21 W 36 0 to 9999x L2 Real Power 0 to 9999x10 21 W 37 0 to 9999x L3 Real Power 0 to 9999x10 21 W 38 0 to 9999x Total Real Power 0 to 9999x10 21 W 39 0 to 9999x L1 Reactive Power 0 to 9999x10 21 VAR 40 0 to 9999x L2 Reactive Power 0 to 9999x10 21 VAR 41 0 to 9999x L3 Reactive Power 0 to 9999x10 21 VAR 42 0 to 9999x Total Reactive Power 0 to 9999x10 21 VAR 43 0 to 9999x L1 Apparent Power 0 to 9999x10 21 VA 44 0 to 9999x L2 Apparent Power 0 to 9999x10 21 VA 45 0 to 9999x L3 Apparent Power 0 to 9999x10 21 VA 46 0 to 9999x Total Apparent Power 0 to 9999x10 21 VA 47 0 to 9999x L1 True PF to to L2 True PF to to L3 True PF to to Total True PF to to L1 Displacement PF (1) to to L2 Displacement PF (1) to to L3 Displacement PF (1) to to Total Displacement PF (1) to to L1 Distortion PF (1) to to L2 Distortion PF (1) to to L3 Distortion PF (1) to to Total Distortion PF (1) to to Reserved Word Reserved Word Reserved Word Reserved Word Reserved Word Reserved Word Reserved Word Reserved Word Reserved Word Reserved Word 69

60 B-46 Ethernet Communication Card Data Tables Table B.38 Combined Real-Time Data Table Read (File F40) Parameter No. Parameter Name Master Module Range Element Range Time Stamp Year bit Float Month, Date bit Float Hour, Minute bit Float Seconds, Hundredths bit Float Demand Current 0 to 9999x10 21 amps 74 0 to 9999x Demand Power 0 to 9999x10 21 W 75 0 to 9999x Demand Reactive Power 0 to 9999x10 21 VAR 76 0 to 9999x Demand Apparent Power 0 to 9999x10 21 VA 77 0 to 9999x Projected No. 1 Demand Current 0 to 9999x10 21 amps 78 0 to 9999x Projected No. 1 Demand Power 0 to 9999x10 21 W 79 0 to 9999x Projected No. 1 Demand Reactive Power 0 to 9999x10 21 VAR 80 0 to 9999x Projected No. 1 Demand Apparent Power 0 to 9999x10 21 VA 81 0 to 9999x Projected No. 2 Demand Current 0 to 9999x10 21 amps 82 0 to 9999x Projected No. 2 Demand Power 0 to 9999x10 21 W 83 0 to 9999x Projected No. 2 Demand Reactive Power 0 to 9999x10 21 VAR 84 0 to 9999x Projected No. 2 Demand Apparent Power 0 to 9999x10 21 VA 85 0 to 9999x Projected No. 3 Demand Current 0 to 9999x10 21 amps 86 0 to 9999x Projected No. 3 Demand Power 0 to 9999x10 21 W 87 0 to 9999x Projected No. 3 Demand Reactive Power 0 to 9999x10 21 VAR 88 0 to 9999x Projected No. 3 Demand Apparent Power 0 to 9999x10 21 VA 89 0 to 9999x Elapsed Time 0 to 9999x to 9999x10 21 Reserved Word 91 Reserved Word 92 Reserved Word 93 Reserved Word 94 (1) This value has the same update rate as harmonic analysis.

61 Appendix C Sample Ladder Listing Ladder Program Description This appendix contains sample ladder programs that interface to the Powermonitor II for SLC-5/05 Ethernet. Rung-by-rung descriptions follow. SLC 5/05 Ethernet Operation There are three modes of operation: Configuration Setpoint Run Each mode uses a single Sequencer Output Instruction in order to process the required MSG transfers. There are only two MSG transfers required. These two MSG transfers are repeated until each mode is completed successfully. For Run mode, the number of MSG transfers processed by the sequencer is variable. Because there is only one sequencer to be used for three modes, the sequencer s input file must be updated at the beginning of each new mode. The numbers corresponding to the MSG transfers required for each mode are contained in three separate files. The content of each file is moved to the sequencer s input file at the beginning of its corresponding mode. Configuration Mode During initialization of Configuration mode, the sequencer input file is loaded with the two numbers. These numbers correspond to the configuration table MSG Write and the diagnostic table MSG Read. The sequencer length is set to 2. After completion of the configuration data MSG Write, a diagnostic table MSG Read is performed to verify that the MSG Write was successful. If the configuration table MSG Write is successful, the Configuration mode bit is unlatched and the setpoint mode bit is latched. If the MSG Write is not successful, the configuration table MSG Write and diagnostic table MSG Read sequence continues until the problem is corrected. This most likely requires a change in the configuration table data. Setpoint Mode During initialization of Setpoint mode, the sequencer input file is loaded with the two numbers. These numbers correspond to the setpoint data table MSG Write and the diagnostic data table MSG Read. The sequencer length is set to 2. Also, the number of setpoints is written to a counter which is used to 1

62 C-2 Sample Ladder Listing determine the address of the user populated setpoint data tables. After the completion of the setpoint MSG Write, a diagnostic table MSG Read is performed to verify the MSG Write was successful. If it was not successful, further setpoints will not be written until the setpoint data table that caused the error is corrected. If all the setpoints are written correctly, the Setpoint mode bit is unlatched, and the Run mode bit is latched. Run Mode During initialization of Run mode, the sequencer input file is loaded with the numbers corresponding to the MSG transfers to be performed. Once Run mode has begun, the ladder program will remain in this mode. NOTE The speed with which the process performs the MSG transfers may be altered by rearranging or changing the size of the MSG transfer sequence. However, the availability of new data values is controlled by the Powermonitor II table update rate. NOTE Recommended PLC/SLC Ethernet channel settings: Message Connection Timeout - 15 seconds Message Reply Timeout - 10 seconds SLC 500 Data Files Used Table 3.1 Data Files Data File Address Data File Size Description B3 20 B3:0 Configuration mode enable B3:2 Run mode enable B3:1 Setpoint mode enable B3:300 One-shot bit B3:301 One-shot bit B3:302 One-shot bit B3:303 One-shot bit B3:304 One-shot bit

63 Sample Ladder Listing C-3 Table 3.1 Data Files Data File Address Data File Size Description N9 1 N9:0 Sequencer output N10 Variable N10:0 Sequencer Input N11 3 N11:0 Sequencer input data for configuration mode N12 3 N12:0 Sequencer input data for setpoint mode N13 Variable N12:0 Sequencer input data for run mode N20 2 N20:0 Number of setpoints N20:1 Temporary storage for setpoint address N22 21 Setpoint #1 location N23 N Setpoint #2 location Setpoint #20 location R6:0 Sequencer control Table 3.2 MSG Read Data Table Locations Data File Address Data File Size Description (Control/Data) N40/F70 30 Voltage/Current Data N41/F71 34 Real-Time Power N42/N72 46 Cumulative Power N43/N73 45 Device Configuration N44/N74 24 Communication Configuration N45/F75 34 Demand N46/N76 33 Even Harmonic Distortion N47/F77 33 Odd Harmonic Distortion N48/F78 32 Even Harmonic Magnitude N49/F79 31 Odd Harmonic Magnitude N50/F80 31 Even Harmonic Phase N51/F81 30 Odd Harmonic Phase N52/N82 40 Diagnostic N53/N83 39 Relay/setpoint

64 C-4 Sample Ladder Listing Table 3.3 MSG Write Table Locations Data File Address Data File Size Description (Control/Data) N54/N84 23 Command N55/N85 45 Device Configuration N56/N86 21 Setpoint IMPORTANT Device Configuration data must be placed in file N:85 and Setpoint data must be placed in file N:86. Failure to place data in these files results in the ladder failing to sequence through the respective modes. Sequencer input file N10 contains a list of the block transfers required to complete the active mode. The contents of N10 are copied from N11 for Configuration mode, N12 for Setpoint mode and N13 for Run mode during each mode s initialization. The reset word for the sequencer is N10:1. The first word in the rotation of the sequencer N10:1. The value in N10:0 must be the same as that in N10:1. This means N11:0 must equal N11:1, N12:0 must equal N12:1 and N13:0 must equal N13:1. The size of file N10 is equal to the size of the largest sequencer input file. For configuration and setpoint modes, this size will always be 2. In Run mode the size depends on the number of block transfers to be performed. The sequencer length may be expanded or reduced for run mode. It is imperative that the corresponding file that serves as the source of the sequencer s input file, N13, must be modified accordingly. IMPORTANT Failure to modify the length of file N13 for a modification of the run mode sequencer size results in improper operation of the run mode block transfer ladder and possible FAULT of the processor due to invalid indirect offsets. File Data Values Prior to running the sample ladder, each of the three sequencer initialization files need to be loaded with the numbers that correspond to each mode s block transfer sequence. The following is a list of each mode s initialization file and the required/possible numbers to be stored in each. The first value of a block

65 Sample Ladder Listing C-5 transfer sequence must be duplicated in both position 0 and 1 of an initialization file. N11 - Configuration Mode Required numbers are 55, 55, and 52. N12 - Setpoint Mode Required numbers are 56, 56, and 52. N13 - Run Mode Possible numbers are 40, 40, 41, 42, 43, 44, 45, 46, 47, 48, 49, 50, 51, 52, 53, 54, 55, 56 PLC-5 Ethernet Operation The PLC-5/E description, data files and sample ladder logic are the same as the SLC 5/05 description with the following changes: 1. The message instruction should appear as: The One Shot Instructions is ONS. 3. To support Ethernet connectivity, the file type MG must be used for the control file.

66 C-6 Sample Ladder Listing Communication Command PLC-5 Typed Read PLC-5 Typed Write The PLC-5/Data Table Address is the Data Source/Destination within the PLC. Port number should be the Ethernet port of the PLC. Target Device/Data Table Address is the published data table address for the data within the Powermonitor II. Ethernet (IP) Address is the address of the Powermonitor II. Sample Ladder Listing These example ladder programs show a way to configure the block transfers for the Powermonitor II. ATTENTION! Proper operation of the ladder program is the responsibility of the user. No warranty is expressed or implied by using these ladder configurations. Size in elements can be less than, equal to, or greater than the published size of the data table. Less than allows for partial table reads, equal to returns elements in the table, and greater than returns all zeros in the elements beyond the end of the published table size.