GE EPM 6000 Multi-function Power Metering System Class 0 Data Object 60, Variation

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CHAPTER 5: COMMUNICATIONS

Frequency (point 14): This point is formatted as a two's complement fraction. It represents the frequency as measured on phase A voltage in units of cHz (centiHertz, 1/100 Hz). Inputs below 45.00 Hz are pinned at 0 (0000h), while inputs above 75.00 Hz are pinned at 9999 (270Fh).

Maximum Demands of Total Power (points 15 to 19): These points are formatted as two's complement fractions. They represent a fraction of 4500 W secondary in normal operation or 3000 W secondary in open delta operation. Inputs above/below ±4500 or ±3000 W secondary will be pinned at ±4500 or ±3000 W secondary, respectively.

Phase Angles (points 20 to 25): These points are formatted as two's complement integers. They represent angles from –180.00 (0F8F8h) to +180.00 (00708h).

CT and PT Ratios (points 26 to 31): These points are formatted as two's complement integers. They can be used to convert from units in terms of the secondary of a CT or PT into units in terms of the primary of a CT or PT. The ratio of numerator divided by denominator is the ratio of primary to secondary. The EPM 6000 typically uses full scales relating primary current to 5 A and primary voltage to 120 V. However, these full scales can range from mAs to thousands of kAs, or mVs to thousands of kVs. Example settings are as follows:

CT example settings:

200 A: Set the Ct-nvalue for “200” and the Ct-Svalue for “1”.

800 A: Set the Ct-nvalue for “800” and the Ct-Svalue for “1”.

2000 A: Set the Ct-nvalue for “2000” and the Ct-Svalue for “1”.

10000 A: Set the Ct-nvalue for “1000” and the Ct-Svalue for “10”. PT example settings:

120 V (reads 14400 V):

Set the Pt-nvalue to “1440”, Pt-dto “120”, and Pt-Sto “10”.

69 V (reads 138000 V):

Set the Pt-nvalue to “1380”, Pt-dto “69”, and Pt-Sto “100”.

115 V (reads 345000 V):

Set the Pt-nvalue to “3450”, Pt-dto “115”, and Pt-Sto “100”.

5.4.6Class 0 Data (Object 60, Variation 1)

The Class 0 Data object supports the Read (function 1) function. A request for Class 0 Data from an EPM 6000 returns three object headers. Specifically, it returns 16-Bit Analog Input Without Flags (object 30, variation 5) points 0 to 31, followed by 32-Bit Counters Without Flags (object 20, variation 4) points 0 to 4, followed by Binary Output Status (object 10, variation 2), points 0 to 1. There is NO Object 1.

A request for Object 60, Variation 0 will be treated as a request for Class 0 Data.

5.4.7Internal Indications (Object 80, Variation 1)

The Internal Indications object support the Write function (function 2). Internal Indications may be indexed by Qualifier Code 0.

The Device Restart (point 0) bit is set whenever the meter has reset. The polling device may clear this bit by writing (function 2) to Object 80, Point 0.

EPM 6000 MULTI-FUNCTION POWER METERING SYSTEM – USER GUIDE

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Contents Chapter Page Table of Contents Using the Meter Miscellaneous TOC-4 Introduction DescriptionHighlights EPM 6000 Highlights Utility Peak Demand FeaturesUniversal Voltage Inputs Current InputsEPM 6000 Measured Values Measured ValuesOrdering Order CodesEPM 6000 Order Codes Specifications Inputs/OutputsMetering Environmental CommunicationsMechanical Parameters Approvals Type TestingThree-Phase Power Measurement Wye Connection Three-Phase System ConfigurationsVcn Common Phase Voltages on Wye ServicesDelta Connection Three-Phase Delta Winding RelationshipThree-Phase, Four-Wire Delta Phasors Blondells Theorem and Three-Phase MeasurementPhase B Phase C Node n Phase a Electrical Background Power, Energy, and Demand PowerEnergy Power Use Over Time Demand Power and Energy Relationship Over TimeEnergy Use and Demand Intervals Real, Reactive, and Apparent Power Reactive Energy and Power FactorApparent power Power FactorHarmonics of a Non-Sinusoidal Waveform Harmonic DistortionVoltage and Current Monitoring Inductive and Capacitive ImpedanceWaveform Capture Typical Power Quality Problems Power QualityElectrical Background Dimensions Mechanical InstallationAnsi and DIN Mounting Panel Cutouts Ansi Installation StepsAnsi Mounting Procedure DIN Installation StepsDIN Mounting Procedure Installation Considerations Electrical InstallationCT Leads Pass-Through No Meter Termination CT Leads Terminated to MeterQuick Connect Crimp CT Terminations Voltage and Power Supply ConnectionsVoltage Connection Ground ConnectionsWiring Diagrams 4-Wire Wye with no PTs and 3 CTs, 3 Element 2 Wye, 4-Wire with no PTs and 3 CTs, 3 Element10 4-Wire Wye with no PTs and 3 CTs, 2.5 Element 3 Wye, 4-Wire with no PTs and 3 CTs, 2.5 Element11 4-Wire Wye with 3 PTs and 3 CTs, 3 Element 4 Wye, 4-Wire with 3 PTs and 3 CTs, 3 Element12 4-Wire Wye with 2 PTs and 3 CTs, 2.5 Element 5 Wye, 4-Wire with 2 PTs and 3 CTs, 2.5 Element13 3-Wire Delta with no PTs and 2 CTs Delta, 3-Wire with no PTs and 2 CTs14 3-Wire Delta with 2 PTs and 2 CTs Delta, 3-Wire with 2 PTs and 2 CTsCurrent-Only Measurement Three-Phase Current-Only Measurement Dual-Phase Current-Only Measurement Single-Phase Communications Setup IrDA COM1 Port3 RS485 COM2 Port 16 RS485 Communications Installation Faceplate Elements Front Panel InterfaceFaceplate Buttons Using the Meter% of Load Bar Segments Percentage of Load BarEPM 6000 Accuracy Test Constants Watt-Hour Accuracy Testing VerificationConfiguring the Meter via the Front Panel OverviewStart Up Main Menu Reset Mode and Password EntryUsing the Meter Using the Meter Configuring the Scroll Feature Changing Settings in Configuration ModeProgramming the Configuration Mode Screens Configuring the CT Setting Value for amps is a product of the Ct-nand the Ct-Svalues Configuring the PT SettingConfiguring the Connection Setting Configuring the Communication Port Setting Address Using the Meter Operating Mode Parameter Readings Operating ModeUsing the Meter Modbus Communications Memory Map DescriptionMemory Map HEX Range Units or Comments THD Block7 Description 1 Format Range 7532 PT denominator Secondary Readings Section Modbus Memory Map NotesCommunications Modbus Memory Map Data Formats DNP Point Mapping DNP Point MapsDNP Point Mapping Sheet 1 DNP Point Mapping Sheet 2 DNP Point Map Notes DNP Implementation Data Link LayerTransport Layer Following function codes are implemented on the EPM Application LayerDNP Objects and Variations Binary Output Status Object 10, VariationControl Relay Output Object 12, Variation 5 16-Bit Analog Input Without Flag Object 30, Variation 4 32-Bit Binary Counter Without Flag Object 20, VariationInternal Indications Object 80, Variation Class 0 Data Object 60, VariationCommunications Introduction Navigation MapsMain Menu Navigation Main Menu ScreensOperating Mode Navigation Operating Mode ScreensReset Mode Navigation Reset Mode ScreensConfiguration Mode Screens Revision History Release DatesChanges to the Manual Major Updates for 1601-0215-A2 GE Multilin Warranty WarrantyIndex Irda Power Supply Wiring