Metasys Integrator
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Application Note Issue Date May 25, 2004 APPLICATION NOTE Metasys Integrator® GE Power Application lntroduction 3 Application Details 3 Component Requirements 6 Vendor Contact Information 10 Design Considerations 11 Cable Connections 13 Cable Pinouts 13 Metasys Integrator Unit Setup 15 Point Mapping Tables 19 Epic MicroVersaTrip System 19 GE Power Leader Meter—485 PIM 21 Power Leader MicroVersaTrip—485 PIM 23 Power Leader Electronic Power Meter—485 PIM, Power Leader Modbus Concentrator, Daisy-chained Devices 25 GE Power Leader Meter—Power Leader Modbus Concentrator 27 GE Power Leader Spectra MVT— Power Leader Modbus Concentrator 29 GE Power Leader Enhanced MVT— Power Leader Modbus Concentrator 31 Multilin Power Quality Meter—Daisy-chained Devices 33 GE MDP—Daisy-chained Devices 37 EPM3720 Power Meter—Daisy-chained Devices 40 EPM3710 Power Meter—Daisy-chained Devices 44 EPM5300P Power Meter—Daisy-chained Devices 46 EPM7300 Power Meter—Daisy-chained Devices 47 EPM9650Q Power Meter—Daisy-chained Devices 49 © 2004 Johnson Controls, Inc. Code No. LIT-6295291 1 www.johnsoncontrols.com Metasys Network Setup 50 Mapping to a CS Object 50 Custom Integration 51 2 Metasys Integrator—Metasys Integrator GE Power Application lntroduction This document explains Metasys Integrator® GE power applications, which include: • Epic MicroVersaTrip™ Field Programming Unit (FPU) used on GE switch gear and switch boards • GE Power Leader™ products • GE Power Leader Modbus Concentrator • Multilin™ Power Quality Meter (PQM) • GE MDP • EPM3720 Power Meter • EPM3710 Power Meter • EPM5300P Power Meter • EPM7300 Power Meter • EPM9650Q Power Meter Use this document with the Metasys Integrator unit technical bulletins For information on vendor equipment, see GE documentation (obtainable from a GE representative), or call 1-800-437-3765. Application Details Metasys Integrator unit allows GE® equipment to become an integral part of the Metasys® and Metasys Companion Networks. Once the GE Epic MicroVersaTrip System, GE Power Leader Network, Multilin Power Quality Meter, GE MDP, or EPM3720/3710/5300P/7300/9650Q Power Meter is connected to a Metasys or Companion Network via the Metasys Integrator unit, its data is available to the full complement of Metasys Building Automation System (BAS) features, including Change-of-State (COS) monitoring, alarm notification, trend, and totalization. The Epic MicroVersaTrip System, an early generation GE power monitoring system, consists of one Field Programming Unit (FPU) and up to 30 Breaker Programmers. The FPU acts as an interface between GE trip units and non-GE devices (such as Metasys Integrator unit). Metasys Integrator unit allows status information and commands to be transmitted between the FPU and programmers and the Metasys or Companion Networks. Each Metasys Integrator vendor port can connect to one GE FPU. Metasys Integrator—Metasys Integrator GE Power Application 3 The GE Power Leader Network can be comprised of two methods to integrate their Commnet devices into a Modbus network: • Networks utilizing GE Product Interface Module (PIM) to convert GE Commnet devices (i.e., MicroVersaTrip PM units, Power Leader Meters, etc.) to Modbus • Networks utilizing GE Power Leader Modbus Concentrator • Networks utilizing standard Modbus RTU protocol The GE Power Leader Network consists of the Commnet Network and an interface device. The interface device can be either the 485 Product Interface Module (PIM) or the GE Power Leader Modbus Concentrator. The 485 PIM handles communication between the Metasys Integrator unit and the GE devices. The GE Power Leader Network consists of one 485 PIM and up to nine Commnet Power Leader devices (see Figure 2). The 485 PIM is a non-standard Modbus RTU protocol device and cannot be on the same 485 network as other standard Modbus devices. The GE Power Leader Modbus® Concentrator handles communication between Metasys Integrator unit and the GE Commnet devices. Since Modbus RTU protocol is used for communication to the GE Power Leader Modbus Concentrator, the same Metasys Integrator port can be connected to a 485 Modbus network. This network consists of one or more Power Leader Modbus Concentrator devices, and daisy-chained devices such as the PQM and the EPM3720/3710/5300P/7300/9650Q—as well as other standard Modbus RTU protocol devices—up to a total number of 32 devices. The Multilin Power Quality Meter (PQM), MDP, EPM3720/3710/5300P/7300/9650Q Power Meter, and Power Leader EPM (with Modbus Communication Option) communicate via an RS-485 Port. This requires the use of the Multilin RS-232 to RS-485 Converter to facilitate communication between the RS-232 vendor ports on Metasys Integrator unit and the RS-485 port on the daisy-chained device. Standard Modbus RTU protocol is used. Up to 32 daisy-chained devices can then be connected in a daisy chain configuration. Figure 1 shows GE Epic MicroVersaTrip System and Metasys system integration. Figure 2 shows the GE Power Leader Network and Metasys system Companion integration. Figure 3 shows EPM3720/3710/5300P/7300/9650Q Power Meter and Metasys system integration. All these integrations apply to both Metasys and Metasys Companion systems. 4 Metasys Integrator—Metasys Integrator GE Power Application N1 LAN Breaker Breaker Breaker Programmer Programmer Programmer Standard NCU RS-232 Metasys Integrator GE FPU Epic MicroVersaTrip System UNT N2 Bus GE1 Figure 1: GE and Metasys System Integration Panel Unit M3 Workstation RS-232 RS-232 to RS-485 Converter RS-485 485 PIM (Product Interface Module) Metasys Integrator Commnet Network MicroVersaTrip PM Units UNT Power Leader Meter Electronic Power Meter N2 Bus Note: A PC version and converter may be substituted for the Panel unit. gecomp Figure 2: GE and Metasys Companion Integration Metasys Integrator—Metasys Integrator GE Power Application 5 N1 LAN RS-232 to RS-485 Converter RS-485 485 PIM (Protocol Interface Module) Commnet Network RS-232 Standard NCU Port A PLM Port B Metasys Integrator UNT EPM RS-232 MicroVersaTrip PM Units RS-232 to RS-485 Converter RS-485 PLM N2 Bus EPM 3710 EPM 3720 Power Leader EPM EPM 5300P EPM 7300 EPM 9650Q Power Leader EPM PQM Power Leader MVT EPM3720 GE Concentrator Figure 3: EPM3720/3710/5300P/7300/9650Q Power Meter and Metasys System Integration Component Requirements Epic MicroVersaTrip System To integrate the GE Epic MicroVersaTrip System, you need the following: • properly installed GE FPU and Breaker Programmers • RS-232 cable (for connecting the GE FPU to Metasys Integrator unit) • Metasys Integrator unit • N2 Bus (for connecting Metasys Integrator unit to the Metasys or Companion Network) • portable PC for downloading vendor communication tables (.VCT files) and network setup information, and for running diagnostics • cable for connecting portable PC to Metasys Integrator unit 6 Metasys Integrator—Metasys Integrator GE Power Application • Power Leader System—485 PIM the correct vendor communication table (.VCT file) to download into Metasys Integrator unit (supplied on diskette) To integrate the GE Power Leader Network using the 485 PIM, you need the following: • properly installed GE 485 PIM and 1-9 Power Leader devices - Power Leader Meter - Power Leader Spectra MVT - Power Leader MVT PM Trip Units - Power Leader EPM (with Commnet Communication Option) Note: The GE Operator Interface cannot be used in conjunction with Metasys Integrator unit. Power Leader System— Power Leader Modbus Concentrator • RS-232 to RS-485 Multilin converter, Revision D • RS-232 cable (for connecting the converter to Metasys Integrator unit) • RS-485 cable (for connecting the 485 PIM to the converter) • Metasys Integrator unit • N2 Bus (for connecting Metasys Integrator unit to the Metasys or Companion Network) • portable PC for downloading vendor communication tables (.VCT files) and network setup information, and for running diagnostics • cable for connecting portable PC to Metasys Integrator unit • the correct vendor communication table (.VCT file) to download into Metasys Integrator unit (supplied on diskette) To integrate the Power Leader Network using the Power Leader Modbus Concentrator, you need the following: • properly installed GE Power Leader Modbus Concentrator - Power Leader Meter - Power Leader Spectra MVT - Power Leader Enhanced MVT PM ‘C’ - Power Leader Enhanced MVT PM ‘D’ - Power Leader EPM (with Commnet Communication Option) • RS-232 to RS-485 Multilin converter, Revision D • RS-232 cable (for connecting the converter to Metasys Integrator unit) Metasys Integrator—Metasys Integrator GE Power Application 7 Daisy-chained Devices • RS-485 cable (for connecting the Power Leader Modbus Concentrator to the converter) • Metasys Integrator unit • N2 Bus (for connecting Metasys Integrator unit to the Metasys or Companion Network) • portable PC for downloading vendor communication tables (.VCT files) and network setup information, and for running diagnostics • cable for connecting portable PC to Metasys Integrator unit • the correct vendor communication table (.VCT file) to download into Metasys Integrator unit (supplied on diskette) To integrate daisy-chained devices, you need the following: • properly installed daisy-chained device - Multilin Power Quality Meter - GE MDP (w/ Modbus Communication Option) - EPM3720, EPM3710, EPM5300P, EPM7300, or EPM9650Q Power Meter (set up for Modbus Communication) - Power Leader EPM (w/ Modbus Communication Option) • Multilin RS-232 to RS-485 converter, Revision D • RS-232 cable for connecting the converter to Metasys Integrator unit • RS-485 2-wire, shielded cable (for connecting the converter to daisy-chained devices) • Metasys Integrator unit • N2 Bus (for connecting Metasys Integrator unit to the Metasys or Companion Network) • portable PC for downloading vendor communication tables (.VCT files) and network setup information into Metasys Integrator unit, and for running diagnostics • cable for connecting portable PC to Metasys Integrator unit • the correct vendor communication table (.VCT file) to download into Metasys Integrator unit (supplied on Metasys Integrator unit diskette) This document describes the RS-232 cable and the vendor communication tables. GE documentation describes their equipment. The remaining components are described in the Metasys Integrator unit technical bulletins. 8 Metasys Integrator—Metasys Integrator GE Power Application Metasys Release Requirements Metasys Companion Release Requirements Vendor Component Requirements To integrate the Epic MicroVersaTrip system, GE Power Leader Network, Multilin PQM, GE MDP, or EPM3720/3710/5300P/7300/9650Q Power Meter into the Metasys Network, you need: • Metasys Operator Workstation (OWS) software Release 9.0 or later • Metasys Integrator unit firmware Release 9.0 or later • Metasys Integrator unit software Release 9.3 or later To integrate the Epic MicroVersaTrip system, GE Power Leader Network, Multilin PQM, GE MDP, or EPM3720/3710/5300P/7300/9650Q Power Meter into the Metasys Companion Network, you need: • Metasys Companion Release 6.0 or later • Metasys Integrator unit firmware Release 9.0 or later • Metasys Integrator unit software Release 9.3 or later Integration between Metasys Integrator unit and GE has been tested with the Power Leader system described in Tables 1 and 2, the EPM3720/3710/5300P/7300/9650Q Power Meter described in Table 3, and the Multilin converter described in Table 4 (see the Design Considerations section). The Multilin converter is the only converter approved for use with the Power Leader System and is available from GE Multilin (see the Vendor Contact Information section). Integration has also been tested with: • Epic MicroVersaTrip System Revision 2.3 connected to AKD-8 switch gear (Catalog No. TFPU2) Table 1: Power Leader System Software Revision Numbers-485 PIM Power Leader Product Software Revision Power Leader Power Leader Meter 2.0 Power Leader Spectra MicroVersaTrip PM 5.16 Power Leader MicroVersaTrip PM (4 Button) 1.02 Power Leader Enhanced MicroVersaTrip PM (5 Button) 4.13 Power Leader Electronic Power Meter Power Leader 485 Interface Module (Catalog No. PLPIM485G01) 3.06/2.19 2.00 Metasys Integrator—Metasys Integrator GE Power Application 9 Table 2: Power Leader System Software Revision Numbers— Power Leader Modbus Concentrator GE Product Software Revision Power Leader Meter 2.0 Power Leader Spectra MVT 5.16 Power Leader Enhanced MVT PM ‘C’ 4.13 Power Leader Enhanced MVT PM ‘D’ 4.13 Power Leader EPM (w/ Commnet Communication Option) 1.06 Power Leader Modbus Concentrator (Main Firmware) Power Leader Modbus Concentrator (Segment Firmware) 2.2 2.11/2.12 Table 3: GE Daisy-chained Devices Software Revision Numbers GE Product GE Multilin PQM GE MDP (w/ Modbus Communication Option) Software Revision 3.10 2.0/3.3/3.4 EPM3710 Power Meter (Catalog No. PLPML10CG04-08) 3.0.1.1-B/4.0.0.0-B EPM3720 Power Meter (Catalog No. PLPML20CG01-05) V05B1502 EPM5300P Power Meter EPM7300 Power Meter EPM9560Q Power Meter Power Leader EPM (w/ Modbus Communication Option) 3.6 V277 COM55/DSP18 2.0/3.3 Changes to this equipment or integration of GE products not discussed in this document requires additional software development and testing. For information on integrating other products, refer to the Custom Integration section of this technical bulletin. Vendor Contact Information GE Electrical Distribution Control 41 Woodford Ave. Plainville, CT 06062 Customer Service Phone: (888) 437-3765 (888-GE-RESOLV) GE Multilin 215 Anderson Avenue Markham, Ontario Canada L6E 1B3 Phone: (905) 294-6222 www.geindustrial.com 10 Metasys Integrator—Metasys Integrator GE Power Application Design Considerations When integrating GE equipment, consider the following: • Make sure GE equipment is set up and running properly before integrating with Metasys or Companion. (The GE representative is responsible for operation of GE equipment.) • RS-232 cable distance between Metasys Integrator unit and the GE equipment can be a maximum of 50 feet. • For the Epic MicroVersaTrip, make sure the equipment’s baud rate is set to 9600. (The GE representative is responsible for setting the baud rate.) • For the Power Leader System, make sure the 485 PIM’s baud rate is set at 4800. (The GE representative is responsible for setting the baud rate.) • For the Power Leader system, the Multilin converter DIP switches need to be set for data controller, direct, and 4800 or 19200 baud, as shown in Table 4. • The GE Concentrator and all GE Modbus daisy-chained devices must be configured for 19200 baud. • The EPM3720/3710/5300P/7300/9650Q Power Meter must be set to the Modbus protocol to communicate with the Metasys Integrator unit. • Up to 32 daisy-chained devices per RS-485 network. • The MDP requires an Internal RS-485 communications card. • If you need to monitor energy usage in gigawatt hours, set the EPM3720/3710 PM Modbus register size to 32 bits; otherwise, set it to 16 bits. Configure the Metasys Integrator unit using the appropriate 16 or 32-bit application. • For the EPM3720/3710 Power Meter, invalid objects must be set to YES. • The password must be set to zero (0) for the EPM3720/3710 Power Meter. Metasys Integrator—Metasys Integrator GE Power Application 11 Table 4: Settings for DIP Switches in the Multilin Converter DIP Switches Switch 1 Set to Data Controlled* Switch 2 Set to Direct* Switch 3—485 PIM Set to 4800 Switch 3—Power Leader Modbus Concentrator Set to 19200 * Factory Default 12 Metasys Integrator—Metasys Integrator GE Power Application 1 2 3 4 5 6 on off on off n/a n/a on off on off n/a n/a off off off on off off off off off off off on Cable Connections Cable Pinouts GE FPU Use the following cable pinouts for the RS-232 connection between Metasys Integrator unit and the GE FPU: Vendor Port A or B on Metasys Integrator RS-232 Port on GE FPU DB-9 Female Signal DB-25 Female Pin Pin Signal 2 3 7 TD RD GND RS-232 RD TD GND 2 3 5 (50 ft. maximum) GE2 Figure 4: Cable Pinouts—FPU Multilin Converter (RS-232 to RS-485) Use the following cable pinouts for the RS-232 connection between Metasys Integrator unit and the Multilin Converter: Vendor Port A or B on Metasys Integrator RS-232 Connector on Multilin Converter DB-9 Female Signal DB-9 Male Pin Pin Signal 2 3 7 5 RD TD RTS GND RS-232 RD TD RTS GND 2 3 7 5 (50 ft. maximum) gemulti Figure 5: Metasys Integrator Unit to Multilin Converter Cable Pinouts Metasys Integrator—Metasys Integrator GE Power Application 13 Use the following cable pinouts for the RS-485 connection between the Multilin Converter and the Power Leader or daisy-chained devices. The shield of the Modbus cable should be connected at the PIM end only. Multilin Converter + - RS-485 Power Leader or Daisy-chained Device A+ BSHL GND gepldc Figure 6: Multilin Converter to Power Leader or Daisy-chained Devices Cable Pinouts Power Quality Meter Use the following cable pinouts for the RS-485 connection between the Multilin Converter and the Power Quality Meter: Multilin Converter + - PQM COM 1 (Terminal No.) RS-485 + (48) (47) COM (46) GND multipqm Figure 7: Multilin Converter to PQM Cable Pinouts GE MDP Use the following cable pinouts for the RS-485 connection between the Multilin Converter and the GE MDP: Multilin Converter RS-485 + GND MDP + N/C mdp2 Figure 8: Multilin Converter to GE MDP Cable Pinouts 14 Metasys Integrator—Metasys Integrator GE Power Application Metasys Integrator Unit Setup To set up Metasys Integrator unit, use a portable PC connected to the Metasys Integrator Terminal Port. Metasys Integrator unit setup involves: • downloading the correct vendor communication table (.VCT file) • setting up the ports • setting up the network addressing Tables 5-8 provide information specific to the GE application. For detailed procedures, see the Metasys Integrator unit technical bulletins. Table 5: Metasys Integrator Unit Setup—Epic MicroVersaTrip System Vendor Communication Table (.VCT File) Epic MicroVersaTrip GE_EPIC.VCT Port Setup--Epic MicroVersaTrip System Baud Rate 9600 Word Length 8 Stop Bits 1 Parity None Interface RS-232 Network Setup--Epic MicroVersaTrip System Vendor Address 2 to 5 character alphanumeric breaker address (for example, MAIN) Timeout Value 4000 ms Poll Delay 1000 ms Retry 10 Performance Guide Approximate Scan Time (For a single N2 address) Epic MicroVersaTrip 40 seconds Metasys Integrator—Metasys Integrator GE Power Application 15 Table 6: Metasys Integrator Unit Setup—485 PIM Vendor Communication Table (.VCT File) Power Leader Meter GE_PLM.VCT Power Leader MicroVersaTrip GE_MVT.VCT • Spectra MicroVersaTrip • MicroVersa Trip • Enhanced MicroVersaTrip Power Leader Electronic Power Meter GE_EPM.VCT Port Setup--Power Leader System Baud Rate 4800 Word Length 8 Stop Bits 1 Parity None Interface RS-485 Network Setup--Power Leader System Vendor Address Device address (must be in range 256-502) Timeout Value 4000 ms Poll Delay 100 ms Retry 5 Performance Guide Approximate Scan Time (For a single N2 address) Power Leader Meter Power Leader MicroVersaTrip • Spectra MicroVersaTrip • MicroVersaTrip • Enhanced MicroVersaTrip Power Leader Electronic Power Meter 16 Metasys Integrator—Metasys Integrator GE Power Application 14 seconds 8 seconds 14 seconds Table 7: Metasys Integrator Unit Setup—Power Leader Modbus Concentrator Vendor Communication Table (.VCT File) Power Leader Meter GEC_PLM.VCT Power Leader Spectra MVT GEC_MVT.VCT Power Leader Enhanced MVT GEC_EMVT.VCT Power Leader Electronic Power Meter GEC_EPM.VCT Port Setup—Power Leader System Baud Rate 19200 Word Length 8 Stop Bits 1 Parity None Interface RS-485 Network Setup—Power Leader System Vendor Address Modbus address = (Commnet address - 267) For example, if the Commnet address = 397, enter 130 as the vendor address. Timeout Value 1500 ms Poll Delay 220 ms Retry 3 Performance Guide Approximate Scan Time (For a single N2 address) Power Leader Meter Power Leader Spectra MVT Power Leader Enhanced MVT Power Leader Electronic Power Meter 1 second 1 second 1 second 1 second Metasys Integrator—Metasys Integrator GE Power Application 17 Table 8: Metasys Integrator Unit Setup—Daisy-chained Devices Vendor Communication Table (.VCT File) Multilin Power Quality Meter GE MDP EPM3720 Power Meter EPM3710 Power Meter EPM5300P Power Meter EPM7300 Power Meter EPM9650Q Power Meter Power Leader Electronic Power Meter (w/ Modbus Communication Option) GE_PQM.VCT GE_MDP.VCT P3720M16.VCT P3720M32.VCT P3710M16.VCT P3710M32.VCT GE_5300.VCT GE_7300.VCT GE_9650.VCT GEC_EPM.VCT Port Setup—Multilin Power Quality Meter, GE MDP, EPM3720/3710/5300P/7300/9650Q and Power Leader EPM (w/Modbus Communication Option) Baud Rate 19200 Word Length Stop Bits 8 1 Parity Interface None RS-485 Network Setup—Multilin Power Quality Meter Vendor Address Modbus Communication Address (1-255) Timeout Value Poll Delay Retry 800 ms 55 ms 3 Network Setup—GE MDP Vendor Address 1-32 Timeout Value Poll Delay Retry 2200 ms 220 ms 3 Network Setup-- EPM3720/3710/5300P/7300/9650Q Power Meter Vendor Address 1-247 Timeout Value Poll Delay Retry 2000 ms 110 ms 3 Network Setup—Power Leader EPM (w/ Modbus Communication Option) Vendor Address EPM direct address = 0 through 254 Timeout Value Poll Delay Retry 3000 ms 220 ms 3 Performance Guide Approximate Scan Time (For a single N2 address) Multilin Power Quality Meter GE MDP EPM3720/3710/7300 Power Meter EPM5300P/9650Q Power Meter Power Leader Electronic Power Meter 18 Metasys Integrator—Metasys Integrator GE Power Application 2 seconds 3 seconds 1 second 2 seconds 1 second Point Mapping Tables Epic MicroVersaTrip System To obtain the hardware reference for mapping points to a CS object (via the software model), combine the Network Point Type (NPT) and Network Point Address (NPA). For example, the hardware reference for the RMS Current, Phase A point is AI1. The following tables (one for each application) show the points available for mapping in the GE devices. Table 9: Epic MicroVersaTrip System NPT1 NPA2 Unit Description AI AI AI AI AI AI AI AI AI AI AI AI AI AI AI AI AI 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 Amps Amps Amps Volt Volt Volt Volt Volt Volt kW kVAR kVA kVA kVA # # # RMS Current, Phase A RMS Current, Phase B RMS Current, Phase C RMS Voltage, Phase A to Neutral RMS Voltage, Phase B to Neutral RMS Voltage, Phase C to Neutral RMS Voltage, Phase A to B RMS Voltage, Phase B to C RMS Voltage, Phase C to A Real Power Reactive Power Total Power - a Total Power - b Total Power - c Power Factor - a Power Factor - b Power Factor - c BI BI BI BI BI BI BI BI BI BI 1 2 3 4 5 6 7 8 9 10 1 2 Breaker State Ground Fault Trip Long Time Trip Short Time Trip Long Time Pickup Trip Instantaneous Trip Under Voltage Voltage Unbalance Current Unbalance Power Reversal 0=open, 1=close 0=ok, 1=trip 0=ok, 1=trip 0=ok, 1=trip 0=ok, 1=trip 0=ok, 1=trip 0=ok, 1=alarm 0=ok, 1=alarm 0=ok, 1=alarm 0=ok, 1=alarm Network Point Type Network Point Address Continued on next page . . . Metasys Integrator—Metasys Integrator GE Power Application 19 NPT1 (Cont.) NPA2 Unit Description ADF ADF ADF ADF ADF ADF ADF ADF ADF 1 2 3 4 5 6 7 8 9 kWh kW kW Hz kW % % % kW Energy Reading Demand Reading Peak Demand Reading Frequency Peak Capacity Under Voltage Setpoint Current Unbalance Setpoint Voltage Unbalance Setpoint Power Reversal Setpoint BD BD BD BD BD BD BD BD BD BD 1 2 3 4 5 6 7 8 9 10 1 2 ADC Protection Self Test Fail RAM Protection Self Test Fail ROM Protection Self Test Fail RVM Protection Self Test Fail ADC Metering Self Test Fail RAM Metering Self Test Fail ROM Metering Self Test Fail RVM Metering Self Test Fail INT Metering Self Test Fail IPC Failure Network Point Type Network Point Address 20 Metasys Integrator—Metasys Integrator GE Power Application 0=ok, 0=ok, 0=ok, 0=ok, 0=ok, 0=ok, 0=ok, 0=ok, 0=ok, 0=ok, 1=fail 1=fail 1=fail 1=fail 1=fail 1=fail 1=fail 1=fail 1=fail 1=fail GE Power Leader Meter— 485 PIM To obtain the hardware reference for mapping points to a CS object (via the software model), combine the Network Point Type (NPT) and Network Point Address (NPA). For example, the hardware reference for the Apparent Power, Phase B point is AI17. Table 10: GE Power Leader Meter—485 PIM NPT1 NPA2 Unit Description AI AI AI AI AI AI AI AI AI AI AI AI AI AI AI AI AI AI AI AI AI AI AI AI AI AI AI AI AI AI AI AI AI AI AI AI AI AI AI 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 Amps Amps Amps Volt Volt Volt Volt Volt Volt kW kVAR kW kVAR kW kVAR kVA kVA kVA kVA # # # # kWh MWh kVARh Mvarh Amps Amps Amps Amps Amps Amps kW kW Hz % RMS Current, Phase A RMS Current, Phase B RMS Current, Phase C RMS Voltage, Phase A to Neutral RMS Voltage, Phase B to Neutral RMS Voltage, Phase C to Neutral RMS Voltage, Phase A to B RMS Voltage, Phase B to C RMS Voltage, Phase C to A Real Power, Phase A Reactive Power, Phase A Real Power, Phase B Reactive Power, Phase B Real Power, Phase C Reactive Factor, Phase C Apparent Power, Phase A Apparent Power, Phase B Apparent Power, Phase C Total Apparent Power 1 2 * Power Factor, Phase A* Power Factor, Phase B* A negative value Power Factor, Phase C* indicates lag. Total Power Factor* Energy (KWH) Energy (MWh) Reactive Energy (kVARh) Reactive Energy (Mvarh) Current Demand, Phase A Current Demand, Phase B Current Demand, Phase C Peak RMS Current, Phase A Peak RMS Current, Phase B Peak RMS Current, Phase C Watt Demand Peak Watt Demand Frequency Total Current Harmonic Distortion Potential Transformer Ratio (secondary is 120V) Current Transformer Ratio (secondary is 5A) Network Point Type Network Point Address If the system is in a delta connection, these will be only one power factor value; that value will be shown in point AI23 (Total Power Factor). Continued on next page . . . Metasys Integrator—Metasys Integrator GE Power Application 21 NPT1 (Cont.) NPA2 BO 1 2 3 BO BO ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF BD BD 1 2 3 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 1 2 Unit Description Clear Energy and VAR Hour3 Clear Peak Watt Demand3 Clear Peak Current (A, B, C)3 % Sec % Sec % Sec % Sec % Sec % Sec % Sec % Sec kW Sec kW Sec % Sec Min Code Code 0=n/a, 1=clear 0=n/a, 1=clear 0=n/a, 1=clear Current Unbalance Trip Setpoint Current Unbalance Trip Time Delay Current Unbalance Alarm Setpoint Current Unbalance Alarm Time Delay Voltage Unbalance Trip Setpoint Voltage Unbalance Trip Time Delay Voltage Unbalance Alarm Setpoint Voltage Unbalance Alarm Time Delay Over Voltage Trip Setpoint Over Voltage Trip Time Delay Over Voltage Alarm Setpoint Over Voltage Alarm Time Delay Under Voltage Trip Setpoint Under Voltage Trip Time Delay Under Voltage Alarm Setpoint Under Voltage Alarm Time Delay Power Reversal Trip Setpoint Power Reversal Trip Time Delay Power Reversal Alarm Setpoint Power Reversal Alarm Time Delay Over Current Relay Alarm Setpoint Over Current Relay Alarm Time Delay Demand Time Period Event Type Event Identifier Device Open/Close Hardware Failure 0=ok, 0=ok, 1=close 1=fail Network Point Type Network Point Address Do not map these points to Companion BO points. If you map these points to Metasys system BO objects, disbale Auto Restore in the BO object’s Definition or Focus window. 22 Metasys Integrator—Metasys Integrator GE Power Application Power Leader MicroVersaTrip —485 PIM To obtain the hardware reference for mapping points to a CS object (via the software model), combine the Network Point Type (NPT) and Network Point Address (NPA). For example, the hardware reference for the Frequency point is AI17. Table 11: GE Power Leader MicroVersaTrip—485 PIM NPT1 NPA2 Unit Description AI AI AI AI AI AI AI AI AI AI AI AI AI AI AI AI AI 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 Amps Amps Amps Amps Volt Volt Volt kW kVAR kW kVAR kW kVAR kW kWh MWh Hz RMS Current, Phase A RMS Current, Phase B RMS Current, Phase C RMS Current, Phase N RMS Voltage, Phase A to Neutral RMS Voltage, Phase B to Neutral RMS Voltage, Phase C to Neutral Filtered Real Power, Phase A Filtered Reactive Power, Phase A Filtered Real Power, Phase B Filtered Reactive Power, Phase B Filtered Real Power, Phase C Filtered Reactive Power, Phase C Three Phase Power (Demand) Energy (kWh) Energy (MWh) Frequency BI BI BI BI BI BI BI BI BI BI BI BI BI BI 1 2 3 4 5 6 7 8 9 10 11 12 13 14 1 2 Current Unbalance Trip Under Voltage Trip Voltage Unbalance Trip Power Reversal Trip Instantaneous Trip Short Time Trip Long Time Trip Ground Fault Trip Breaker Position Closed Breaker Short Time Pickup Breaker Long Time Pickup Breaker Ground Fault Pickup Over Voltage Trip Condition Breaker Opened Remotely 0=normal, 1=trip 0=normal, 1=trip 0=normal, 1=trip 0=normal, 1=trip 0=normal, 1=trip 0=normal, 1=trip 0=normal, 1=trip 0=normal, 1=trip 0=open, 1=closed 0=off, 1=on 0=off, 1=on 0=off, 1=on 0=normal, 1=trip 0=not remote, 1=remote Network Point Type Network Point Address Continued on next page . . . Metasys Integrator—Metasys Integrator GE Power Application 23 NPT1 NPA2 Unit Description ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF 1 2 3 4 5 6 7 8 9 10 11 12 13 14 % Sec % Sec % Sec % Sec kW Sec % Sec % Code 15 16 % Code 17 18 % Code Current Unbalance Setpoint Current Unbalance Time Delay Voltage Unbalance Setpoint Voltage Unbalance Time Delay Over Voltage Setpoint Over Voltage Time Delay Under Voltage Setpoint Under Voltage Time Delay Power Reversal Setpoint Power Reversal Time Delay Long Time Pickup Long Time Delay Short Time Pickup Short Time Delay 0=off, 3=in 3, 18=out 2, Ground Fault Pickup Ground Fault Delay 0=off, 3=in 3, 18=out 2, Instantaneous Pickup Fault Phase ID 0=N, ADF ADF ADF ADF BD BD BD BD BD BD BD BD BD BD BD BD BD BD BD 1 2 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 1=in 1, 2=in 2 4=in 4, 17=out 1 19=out 3, 20=out 4 1=in 1, 2=in 2 4=in 4, 17=out 1 19=out 3, 20=out 4 1=A, 2=B,3=C ADC Failure in Ground Unit RAM Failure in Ground Unit ROM Failure in Ground Unit NVM Failure in Ground Unit ADC Failure in Protection Board RAM Failure in Protection Board ROM Failure in Protection Board NVM Failure in Protection Board ADC Failure on Metering Board RAM Failure on Metering Board ROM Failure on Metering Board NVM Failure on Metering Board INT Failure on Metering Board IPC Failure on Metering Board Medium Voltage Grnd Flt Unit Network Point Type Network Point Address 24 Metasys Integrator—Metasys Integrator GE Power Application 0=ok, 1=fail 0=ok, 1=fail 0=ok, 1=fail 0=ok, 1=fail 0=ok, 1=fail 0=ok, 1=fail 0=ok, 1=fail 0=ok, 1=fail 0=ok, 1=fail 0=ok, 1=fail 0=ok, 1=fail 0=ok, 1=fail 0=ok, 1=fail 0=ok, 1=fail 0=disconnected, 1=connected Power Leader Electronic Power Meter— 485 PIM, Power Leader Modbus Concentrator, Daisy-chained Devices To obtain the hardware reference for mapping points to a CS object (via the software model), combine the Network Point Type (NPT) and Network Point Address (NPA). For example, the hardware reference for the Apparent Power, Phase B point is AI20. Table 12: GE Power Leader Electronic Power Meter—485 PIM, Power Leader Modbus Concentrator, and Daisy-chained Devices NPT1 NPA2 Unit Description AI AI AI AI AI AI AI AI AI AI AI AI AI AI AI AI AI AI AI AI AI AI AI AI AI AI AI AI AI AI AI AI AI AI AI AI AI AI 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 Amps Amps Amps Amps Volt Volt Volt Volt Volt Volt kW kW kW kW kVAR kVAR kVAR kVAR kVA kVA kVA kVA # # # # kWh MWh kVARh kVARh kVAH Amps Amps Amps kW kVAR kVAR kVA RMS Current, Phase A RMS Current, Phase B RMS Current, Phase C RMS Current, Phase N Voltage Line, Phase A to Neutral Voltage Line, Phase B to Neutral Voltage Line, Phase C to Neutral Voltage Line, Phase A to B Voltage Line, Phase B to C Voltage Line, Phase C to A Real Power, Phase A Real Power, Phase B Real Power, Phase C Real Power Total of All Phases Reactive Power, Phase A Reactive Power, Phase B Reactive Power, Phase C Reactive Power Total of All Phases (pos=lag, neg=lead) Apparent Power, Phase A Apparent Power, Phase B Apparent Power, Phase C Apparent Power Total of All Phases Power Factor, Phase A Power Factor, Phase B Power Factor, Phase C Power Factor Total of All Phases Energy Total of All Phases (kWh) Energy Total of All Phases (MWh) Reactive Energy Total of All Phases (lag) Reactive Energy Total of All Phases (lead) Apparent Energy Total of All Phases Current Demand, Phase A Current Demand, Phase B Current Demand, Phase C Real Power Demand Total of All Phases Reactive Power Demand Total of All Phases (lag) Reactive Power Demand Total of All Phases (lead) Apparent Power Demand Total of All Phases 1 2 Network Point Type Network Point Address Continued on next page . . . Metasys Integrator—Metasys Integrator GE Power Application 25 NPT1 NPA2 Unit Description AI AI AI AI AI AI AI AI AI AI 39 40 41 42 43 44 45 46 47 48 Amps Amps Amps kW kVAR kVAR kVA Hz Current Maximum, Phase A Current Maximum, Phase B Current Maximum, Phase C Real Power Maximum Total of All Phases Reactive Power Maximum Total of All Phases (lag) Reactive Power Maximum Total of All Phases (lead Apparent Power Maximum Total of All Phases Frequency Phase A Potential Transformer Ratio Current Transformer Ratio ADF ADF ADF 1 2 3 BD BD BD BD BD BD BD BD BD BD BD 1 2 3 4 5 6 7 8 9 10 11 1 2 Code Number of Resets Number of Power Failures Voltage Phase Loss Errors 1=Phase A to N, Voltage Lost 2=Phase B to N, Voltage Lost 3=Phase A to N and B to N, Voltage Lost 4=Phase C to N, Voltage Lost 5=Phase A to N and C to N, Voltage Lost 6=Phase B to N and C to N, Voltage Lost 7=Phase A to N, B to N, and C to N, Voltage Lost Meter Error: All Energy Lost Meter Error: Comm Error Meter Error: Energy Data Lost (up to 12 hrs) Power Factor Lead/Lag Qualifier, Phase A 0=lagging Power Factor Lead/Lag Qualifier, Phase B 1=leading Power Factor Lead/Lag Qualifier, Phase C Power Factor Lead/Lag Qualifier, All Phases Demand Reset Occurred 0=n/a, 1=occurred Energy Reset Occurred 0=n/a, 1=occurred Meter Initialize Occurred 0=n/a, 1=occurred Errors Clear Occurred 0=n/a, 1=occurred Network Point Type Network Point Address 26 Metasys Integrator—Metasys Integrator GE Power Application GE Power Leader Meter— Power Leader Modbus Concentrator To obtain the hardware reference for mapping points to a CS object (via the software model), combine the Network Point Type (NPT) and Network Point Address (NPA). For example, the hardware reference for the RMS Current, Phase A point is AI1. Table 13: GE Power Leader Meter Points—Power Leader Modbus Concentrator NPT1 NPA2 AI AI AI AI AI AI AI AI AI AI AI AI AI AI AI AI AI AI AI AI AI AI AI AI AI AI AI AI AI AI AI AI AI AI AI 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 BO BO BO 1 2 3 1 2 3 Unit Description Amps Amps Amps Amps Amps Amps Amps Amps Amps Volt Volt Volt Volt Volt Volt kW kW kW kW kVAR kVAR kVAR kVAR kVA kVA kVA kVA # kW kW kWh MWh kVARh Hz % RMS Current, Phase A RMS Current, Phase B RMS Current, Phase C Current Maximum Phase A Current Maximum Phase B Current Maximum Phase C Current Phase A Demand Current Phase B Demand Current Phase C Demand RMS Voltage Line-Neutral, Phase A-N RMS Voltage Line-Neutral, Phase B-N RMS Voltage Line-Neutral, Phase C-N RMS Voltage Line-Line, Phase A-B RMS Voltage Line-Line, Phase B-C RMS Voltage Line-Line, Phase C-A KW Phase A kW Phase B kW Phase C kW Total Power kVAR Phase A kVAR Phase B kVAR Phase C kVAR Total Reactive Power kVA Phase A kVA Phase B kVA Phase C kVA Total Apparent Power Total Power Factor Watt Demand Peak Power Demand kWh Energy MWh Energy Reactive Energy Frequency Harmonic Distortion Clear Energy/VAR Hour3 Clear Peak Watt Demand3 Clear Peak Current3 0=n/a 0=n/a 0=n/a 1=clear 1=clear 1=clear Network Point Type Network Point Address Do not map these points to Companion BO points. If you map these points to Metasys system BO objects, disbale Auto Restore in the BO object’s Definition or Focus window. Continued on next page . . . Metasys Integrator—Metasys Integrator GE Power Application 27 NPT1 (Cont.) NPA2 Unit Description ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 % Sec % Sec % Sec % Sec % Sec % Sec % Sec % Sec kW Sec kW Sec % Sec Min Current Unbalance Trip Setpoint Current Unbalance Trip Time Delay Current Unbalance Alarm Setpoint Current Unbalance Alarm Time Delay Voltage Unbalance Trip Setpoint Voltage Unbalance Trip Time Delay Voltage Unbalance Alarm Setpoint Voltage Unbalance Alarm Time Delay Over Voltage Trip Setpoint Over Voltage Trip Time Delay Over Voltage Alarm Setpoint Over Voltage Alarm Time Delay Under Voltage Trip Setpoint Under Voltage Trip Time Delay Under Voltage Alarm Setpoint Under Voltage Alarm Time Delay Power Reversal Trip Setpoint Power Reversal Trip Time Delay Power Reversal Alarm Setpoint Power Reversal Alarm Time Delay Over Current Relay Alarm Over Current Relay Alarm Time Delay Demand Time Period 1 2 Network Point Type Network Point Address 28 Metasys Integrator—Metasys Integrator GE Power Application GE Power Leader Spectra MVT— Power Leader Modbus Concentrator To obtain the hardware reference for mapping points to a CS object (via the software model), combine the Network Point Type (NPT) and Network Point Address (NPA). For example, the hardware reference for the RMS Current, Phase A point is AI1. Table 14: GE Power Leader Spectra MVT—Power Leader Modbus Concentrator NPT1 NPA2 Unit Description AI AI AI AI AI AI AI AI AI AI AI AI AI AI AI AI AI AI AI AI AI AI AI AI AI 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 Amps Amps Amps Volt Volt Volt Volt Volt Volt kW kW kW kW kVAR kVAR kVAR kVAR kVA kVA kVA kVA # Hz kWh MWh RMS Current, Phase A RMS Current, Phase B RMS Current, Phase C RMS Voltage Line-Neutral, Phase A-N RMS Voltage Line-Neutral, Phase B-N RMS Voltage Line-Neutral, RMS Voltage Line-Line, Phase A-B RMS Voltage Line-Line, Phase B-C RMS Voltage Line-Line, Phase C-A Real Power, Phase A Real Power, Phase B Real Power, Phase C Total Real Power Reactive Power, Phase A Reactive Power, Phase B Reactive Power, Phase C Total Reactive Power Apparent Power, Phase A Apparent Power, Phase B Apparent Power, Phase C Total Apparent Power Power Factor Frequency kWh Energy MWh Energy BI BI BI BI BI BI BI BI BI BI BI BI BI BI 1 2 3 4 5 6 7 8 9 10 11 12 13 14 1 2 Current Unbalance Trip Under Voltage Trip Voltage Unbalance Trip Power Reversal Trip Instantaneous Trip Short Time Trip Long Time Trip Ground Fault Trip Breaker Position Closed Breaker Short Time Pickup Breaker Long Time Pickup Breaker Ground Fault Pickup Over Voltage Trip Condition Breaker Opened Remotely 0=normal, 1=trip 0=normal, 1=trip 0=normal, 1=trip 0=normal, 1=trip 0=normal, 1=trip 0=normal, 1=trip 0=normal, 1=trip 0=normal, 1=trip 0=open, 1=closed 0=off, 1=on 0=off, 1=on 0=off, 1=on 0=normal, 1=trip 0=no, 1=yes Network Point Type Network Point Address Continued on next page . . . Metasys Integrator—Metasys Integrator GE Power Application 29 NPT1 NPA2 Unit Description ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF 1 2 3 4 5 6 7 8 9 10 11 12 13 14 % Sec % Sec % Sec % Sec kW Sec % Sec % Code ADF ADF 15 16 % Code ADF ADF 17 18 % Code Current Unbalance Setpoint Current Unbalance Time Delay Voltage Unbalance Setpoint Voltage Unbalance Time Delay Over Voltage Setpoint Over Voltage Time Delay Under Voltage Setpoint Under Voltage Time Delay Power Reversal Setpoint Power Reversal Time Delay Long Time Pickup Long Time Delay Short Time Pickup Short Time Delay 0=off, 3=in 3, 18=out 2, Ground Fault Pickup Ground Fault Delay 0=off, 3=in 3, 18=out 2, Instantaneous Pickup Fault Phase ID 0=N, BD BD BD BD BD BD BD BD BD BD BD BD BD BD BD 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 1 2 1=in 1, 4=in 4, 19=out 3, 2=in 2 17=out 1 20=out 4 1=in 1, 4=in 4, 19=out 3, 2=in 2 17=out 1 20=out 4 1=A, 2=B, ADC Failure in Ground Unit RAM Failure in Ground Unit ROM Failure in Ground Unit NVM Failure in Ground Unit ADC Failure in Protection Board RAM Failure in Protection Board ROM Failure in Protection Board NVM Failure in Protection Board ADC Failure on Metering Board RAM Failure on Metering Board ROM Failure on Metering Board NVM Failure on Metering Board INT Failure on Metering Board IPC Failure on Metering Board Medium Voltage Grnd Flt Unit Network Point Type Network Point Address 30 Metasys Integrator—Metasys Integrator GE Power Application 3=C 0=normal, 1=fail 0=normal, 1=fail 0=normal, 1=fail 0=normal, 1=fail 0=normal, 1=fail 0=normal, 1=fail 0=normal, 1=fail 0=normal, 1=fail 0=normal, 1=fail 0=normal, 1=fail 0=normal, 1=fail 0=normal, 1=fail 0=normal, 1=fail 0=normal, 1=fail 0=disconnected, 1=connected GE Power Leader Enhanced MVT— Power Leader Modbus Concentrator To obtain the hardware reference for mapping points to a CS object (via the software model), combine the Network Point Type (NPT) and Network Point Address (NPA). For example, the hardware reference for the RMS Current, Phase A point is AI1. Table 15: GE Power Leader Enhanced MVT (-C) and (-D) PM Points—Power Leader Modbus Concentrator NPT1 NPA2 Unit Description AI AI AI AI AI AI AI AI AI AI AI AI AI AI AI AI AI AI AI AI AI AI AI AI AI AI AI AI 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 Amps Amps Amps Amps Volt Volt Volt Volt Volt Volt kW kW kW kW kVAR kVAR kVAR kVAR kVA kVA kVA kVA kWh MWh kW kW # Hz RMS Current, Phase A RMS Current, Phase B RMS Current, Phase C RMS Current, Phase N RMS Voltage Line-Neutral, Phase A-N RMS Voltage Line-Neutral, Phase B-N RMS Voltage Line-Neutral, Phase C-N RMS Voltage Line-Line, Phase A-B RMS Voltage Line-Line, Phase B-C RMS Voltage Line-Line, Phase C-A Real Power, Phase A Real Power, Phase B Real Power, Phase C Total Real Power Reactive Power, Phase A Reactive Power, Phase B Reactive Power, Phase C Total Reactive Power Apparent Power, Phase A Apparent Power, Phase B Apparent Power, Phase C Total Apparent Power kWh Energy MWh Energy Power Demand Peak Power Demand Power Factor Frequency BI BI BI BI BI BI BI BI BI BI 1 2 3 4 5 6 7 8 9 10 1 2 Current Unbalance Trip Under Voltage Trip Voltage Unbalance Trip Power Reversal Trip Instantaneous Trip Condition Short Time Trip Condition Long Time Trip Condition Ground Fault Trip Condition Breaker Position Closed Breaker Short Time Pickup 0=normal, 0=normal, 0=normal, 0=normal, 0=normal, 0=normal, 0=normal, 0=normal, 0=open, 0=off, 1=trip 1=trip 1=trip 1=trip 1=trip 1=trip 1=trip 1=trip 1=closed 1=on Network Point Type Network Point Address Continued on next page . . . Metasys Integrator—Metasys Integrator GE Power Application 31 NPT1 NPA2 BI BI BI BI 11 12 13 14 ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF 1 2 3 4 5 6 7 8 9 10 11 12 13 14 % Sec % Sec % Sec % Sec kW Sec % Sec % Code ADF ADF 15 16 % Code ADF 17 % BD BD BD BD BD BD BD BD BD BD BD BD BD BD BD 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 1 2 Unit Description Breaker Long Time Pickup Breaker Ground Fault Pickup Over Voltage Trip Condition Breaker Opened Remotely Current Unbalance Setpoint Current Unbalance Time Delay Voltage Unbalance Setpoint Voltage Unbalance Time Delay Over Voltage Setpoint Over Voltage Time Delay Under Voltage Setpoint Under Voltage Time Delay Power Reversal Setpoint Power Reversal Time Delay Long Time Pickup Long Time Delay Short Time Pickup Short Time Delay 0=off, 3=in 3, 18=out 2, Ground Fault Pickup Ground Fault Delay 0=off, 3=in 3, 18=out 2, Instantaneous Pickup 0=off, 1=on 0=off, 1=on 0=normal, 1=trip 0=not remote, 1=remote 1=in 1, 4=in 4, 19=out 3, 2=in 2 17=out 1 20=out 4 1=in 1, 4=in 4, 19=out 3, 2=in 2 17=out 1 20=out 4 ADC Failure in Ground Unit RAM Failure in Ground Unit ROM Failure in Ground Unit NVM Failure in Ground Unit ADC Failure in Protection Board RAM Failure in Protection Board ROM Failure in Protection Board NVM Failure in Protection Board ADC Failure on Metering Board RAM Failure on Metering Board ROM Failure on Metering Board NVM Failure on Metering Board INT Failure on Metering Board IPC Failure on Metering Board Medium Voltage Grnd Flt Unit Network Point Type Network Point Address 32 Metasys Integrator—Metasys Integrator GE Power Application 0=ok, 1=fail 0=ok, 1=fail 0=ok, 1=fail 0=ok, 1=fail 0=ok, 1=fail 0=ok, 1=fail 0=ok, 1=fail 0=ok, 1=fail 0=ok, 1=fail 0=ok, 1=fail 0=ok, 1=fail 0=ok, 1=fail 0=ok, 1=fail 0=ok, 1=fail 0=disconnected, 1=connected Multilin Power Quality Meter— Daisy-chained Devices To obtain the hardware reference for mapping points to a CS object (via the software model), combine the Network Point Type (NPT) and Network Point Address (NPA). For example, the hardware reference for the RMS Current, Phase A point is AI1. Table 16: Multilin Power Quality Meter—Daisy-chained Devices NPT1 NPA2 AI AI AI AI AI AI AI AI AI AI AI AI AI AI AI AI AI AI AI AI AI AI AI AI 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 BI 1 AO 1 BO BO BO BO BO BO BO 1 2 3 4 5 6 7 ADF ADF ADF ADF ADF 1 2 3 4 5 Unit Description Amps Amps Amps Amps Amps % Volt Hz kW kVAR kVA # kWh kWh kVARh kVARh kVAh Amps Amps Amps Amps kW kVAR kVA Phase A Current Phase B Current Phase C Current Average Current Neutral Current Current Unbalance Average Phase Voltage Frequency 3-Phase Real Power 3-Phase Reactive Power 3-Phase Apparent Power 3-Phase Power Factor* 3-Phase Positive Real Energy Used 3-Phase Negative Real Energy Used 3-Phase Positive Reactive Energy Used 3-Phase Negative Reactive Energy Used 3-Phase Apparent Energy Used Phase A Current Demand Phase B Current Demand Phase C Current Demand Neutral Current Demand 3-Phase Real Power Demand 3-Phase Reactive Power Demand 3-Phase Apparent Power Demand Cents Energy Cost Per kWh Alarm Present Reset Latched Alarms Alarm Relay Operation Alarm Relay Activation Clear Energy Values Clear Max Demand Values Clear Min/Max Power/Frequency Values* Clear Max Current Values Volt Volt Volt Volt Volt 0=normal, 1=alarm (0.01-500.0) 0=n/a, 1=reset 0=non-fs, 1=failsf 0=unlatc, 1=latch 0=n/a, 1=clear 0=n/a, 1=clear 0=n/a, 1=clear 0=n/a, 1=clear Voltage Phase A to Neutral Voltage Phase B to Neutral Voltage Phase C to Neutral Voltage Phase A to B Voltage Phase B to C 1 Network Point Type 2 Network Point Address * A negative power factor indicates lead; a positive power factor indicates lag. ** PQM firmware revisions later than 65C do not clear Min/Max Frequency Values using this point. Continued on next page . . . Metasys Integrator—Metasys Integrator GE Power Application 33 NPA2 NPT1 (Cont.) Unit Description ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 Volt Volt % kW kVAR kVA # kW kVAR kVA # kW kVAR kVA # kW kVAR kVA kWh Cents Cents Hz Hz Amps Amps Amps Amps % % % % % % % % % % # Voltage, Phase C to A Average Line Voltage Voltage Unbalance Phase A Real Power Phase A Reactive Power Phase A Apparent Power Phase A Power Factor* Phase B Real Power Phase B Reactive Power Phase B Apparent Power Phase B Power Factor* Phase C Real Power Phase C Reactive Power Phase C Apparent Power Phase C Power Factor* 3-Phase Real Power—Maximum 3-Phase Reactive Power—Maximum 3-Phase Apparent Power—Maximum 3-Phase Energy Used in Last 24 Hours 3-Phase Energy Cost Since Reset 3-Phase Energy Cost Per Day Frequency Minimum Frequency Maximum Phase A Current—Maximum Phase B Current—Maximum Phase C Current—Maximum Neutral Current—Maximum Phase A Current THD Phase B Current THD Phase C Current THD Neutral Current THD Voltage Phase A to Neutral THD Voltage Phase B to Neutral THD Voltage Phase C to Neutral THD Voltage Phase A to B THD Voltage Phase B to C THD Voltage Phase C to A THD Main Software Version Code ADI ADI 1 2 # # Multilin Product Device Code Hardware Version Code 1 2 * (1=A, 2=B, … , 26=Z) Network Point Type Network Point Address A negative power factor indicates lead; a positive power factor indicates lag. Continued on next page . . . 34 Metasys Integrator—Metasys Integrator GE Power Application NPA2 NPT1 (Cont.) Unit Description Active Alarm Flags BD BD BD BD BD BD BD BD BD BD BD BD BD BD BD BD BD BD BD BD BD BD BD BD BD BD BD BD BD BD BD BD BD BD BD BD BD BD BD BD 1 2 Phase Undercurrent Phase Overcurrent Neutral Overcurrent Current Unbalance Undervoltage Overvoltage Voltage Unbalance Voltage Phase Reversal Underfrequency Overfrequency Power Factor Lead 1 Power Factor Lead 2 Power Factor Lag 1 Power Factor Lag 2 Positive Real Power Negative Real Power Positive Reactive Power Negative Reactive Power Positive Real Power Demand Negative Real Power Demand Positive Reactive Power Demand Negative Reactive Power Demand Apparent Power Demand Phase A Current Demand Phase B Current Demand Phase C Current Demand Neutral Current Demand Current THD Voltage THD Internal Fault Switch A Switch B Switch C Switch D Serial COM1 Failure Serial COM2 Failure Pulse Input 1 Pulse Input 2 Pulse Input 3 Pulse Input 4 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 0=ok, 1=alarm 0=ok, 1=alarm 0=ok, 1=alarm 0=ok, 1=alarm 0=ok, 1=alarm 0=ok, 1=alarm 0=ok, 1=alarm 0=ok, 1=alarm 0=ok, 1=alarm 0=ok, 1=alarm 0=ok, 1=alarm 0=ok, 1=alarm 0=ok, 1=alarm 0=ok, 1=alarm 0=ok, 1=alarm 0=ok, 1=alarm 0=ok, 1=alarm 0=ok, 1=alarm 0=ok, 1=alarm 0=ok, 1=alarm 0=ok, 1=alarm 0=ok, 1=alarm 0=ok, 1=alarm 0=ok, 1=alarm 0=ok, 1=alarm 0=ok, 1=alarm 0=ok, 1=alarm 0=ok, 1=alarm 0=ok, 1=alarm 0=ok, 1=alarm 0=ok, 1=alarm 0=ok, 1=alarm 0=ok, 1=alarm 0=ok, 1=alarm 0=ok, 1=alarm 0=ok, 1=alarm 0=ok, 1=alarm 0=ok, 1=alarm 0=ok, 1=alarm 0=ok, 1=alarm Network Point Type Network Point Address Continued on next page . . . Metasys Integrator—Metasys Integrator GE Power Application 35 NPA2 NPT1 (Cont.) BD BD BD BD BD BD BD BD 1 2 Unit 41 42 43 44 45 46 47 48 Description Totalized Pulse Input Analog Input Main Analog Input Alt Data Log 1 Data Log 2 Parameters Not Set Clock Not Set Time Network Point Type Network Point Address 36 Metasys Integrator—Metasys Integrator GE Power Application 0=ok, 1=alarm 0=ok, 1=alarm 0=ok, 1=alarm 0=ok, 1=alarm 0=ok, 1=alarm 0=ok, 1=alarm 0=ok, 1=alarm 0=ok, 1=alarm GE MDP— Daisy-chained Devices To obtain the hardware reference for mapping points to a CS object (via the software model), combine the Network Point Type (NPT) and Network Point Address (NPA). For example, the hardware reference for the RMS Current, Phase A point is AI1. Table 17: GE MDP Points—Daisy-chained Devices NPT1 NPA2 Unit Description AI AI AI AI AI AI AI AI AI AI 1 2 3 4 5 6 7 8 9 10 Amps Amps Amps Amps Amps Amps Amps Amps Sec Code AI AI AI AI AI AI AI AI AI AI 11 12 13 14 15 16 17 18 19 20 Sec Code Current Phase A Current Phase B Current Phase C Current Ground Trip Current Phase A Trip Current Phase B Trip Current Phase C Trip Current Ground Trip Time Relay Hardware Status 00h=Relay is okay 01h=Relay not responding to read 02h=Relay not responding to write 03h=Relay reports an error in command 04h=Fatal error in Relay Phase A Current in Multiples of Tap Phase B Current in Multiples of Tap Phase C Current in Multiples of Tap Ground Current in Multiples of Tap Phase A Trip Current in Multiples of Tap Phase B Trip Current in Multiples of Tap Phase C Trip Current in Multiples of Tap Ground Trip Current in Multiples of Tap Trip Time (converted from ASCII) Phase Curve Selection 00h=Not used 01h=Long Time Inverse 02h=Very Inverse 03h=Extremely Inverse 04h=Inverse Phase Definite Time Ground Curve Selection 00h=Not used 01h=Long Time Inverse 02h=Very Inverse 03h=Extremely Inverse 04h=Inverse Ground Definite Time Ground Time Dial Ground IOC Delay Ground TOC Pickup Ground IOC Pickup Phase Time Dial Phase IOC Delay Phase TOC Pickup Phase IOC Pickup AI AI AI AI AI AI AI AI AI AI AI 1 2 21 22 Sec 23 24 25 26 27 28 29 30 31 Sec Sec Amps TOCx Sec Sec Amps TOCx Network Point Type Network Point Address Continued on next page . . . Metasys Integrator—Metasys Integrator GE Power Application 37 NPA2 NPT1 (Cont.) BI BI BI BI BI BI BI BI BI BI BI BI BI BI BI BI BI BI BI BI BI BI BI BI BI BI BI BI BI BI BI BI BI BI BI BI BI BI BI BI 1 2 Unit 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 Description LED Status Ready LED Status Ready Phase A LED Status Ready Phase B LED Status Ready Phase C LED Status Ready Ground LED Status TOC Trip LED Status IOC Trip LED Status Pickup HDW Status Breaker HDW Status Ext Input, Block Gnd HDW Status Ext Input, Block IOC HDW Status Settings Status HDW Status Relay Breaker Status Output Selection Ground Time Dial Sw 1 Ground Time Dial Sw 2 Ground Time Dial Sw 3 Ground Time Dial Sw 4 Ground Time Dial Sw 5 Ground IOC Delay Sw 1 Ground IOC Delay Sw 2 Ground IOC Delay Sw 3 Ground IOC Delay Sw 4 Ground IOC Delay Sw 5 Ground TOC Pickup Sw 1 Ground TOC Pickup Sw 2 Ground TOC Pickup Sw 3 Ground TOC Pickup Sw 4 Ground TOC Pickup Sw 5 Ground IOC Pickup Sw 1 Ground IOC Pickup Sw 2 Ground IOC Pickup Sw 3 Ground IOC Pickup Sw 4 Ground IOC Pickup Sw 5 Phase Time Dial Sw 1 Phase Time Dial Sw 2 Phase Time Dial Sw 3 Phase Time Dial Sw 4 Phase Time Dial Sw 5 Network Point Type Network Point Address Continued on next page . . . 38 Metasys Integrator—Metasys Integrator GE Power Application 0=off, 1=on 0=off, 1=on 0=off, 1=on 0=off, 1=on 0=off, 1=on 0=off, 1=on 0=off, 1=on 0=off, 1=on 0=off, 1=on 0=off, 1=on 0=off, 1=on 0=off, 1=on 0=off, 1=on 0=off, 1=on 0=A, 1=B 0=off, 1=on 0=off, 1=on 0=off, 1=on 0=off, 1=on 0=off, 1=on 0=off, 1=on 0=off, 1=on 0=off, 1=on 0=off, 1=on 0=off, 1=on 0=off, 1=on 0=off, 1=on 0=off, 1=on 0=off, 1=on 0=off, 1=on 0=off, 1=on 0=off, 1=on 0=off, 1=on 0=off, 1=on 0=off, 1=on 0=off, 1=on 0=off, 1=on 0=off, 1=on 0=off, 1=on 0=off, 1=on NPA2 NPT1 (Cont.) BI BI BI BI BI BI BI BI BI BI BI BI BI BI BI 1 2 Unit Description Phase IOC Delay Sw 1 Phase IOC Delay Sw 2 Phase IOC Delay Sw 3 Phase IOC Delay Sw 4 Phase IOC Delay Sw 5 Phase TOC Pickup Sw 1 Phase TOC Pickup Sw 2 Phase TOC Pickup Sw 3 Phase TOC Pickup Sw 4 Phase TOC Pickup Sw 5 Phase IOC Pickup Sw 1 Phase IOC Pickup Sw 2 Phase IOC Pickup Sw 3 Phase IOC Pickup Sw 4 Phase IOC Pickup Sw 5 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 0=off, 1=on 0=off, 1=on 0=off, 1=on 0=off, 1=on 0=off, 1=on 0=off, 1=on 0=off, 1=on 0=off, 1=on 0=off, 1=on 0=off, 1=on 0=off, 1=on 0=off, 1=on 0=off, 1=on 0=off, 1=on 0=off, 1=on Network Point Type Network Point Address Metasys Integrator—Metasys Integrator GE Power Application 39 EPM3720 Power Meter— Daisy-chained Devices To get the hardware reference for mapping points to CS object attributes (via the software model), combine the Network Point Type (NPT) and Network Point Address (NPA). For example, the hardware reference for the Average Current is AI1. Table 18: EPM3720 Power Meter Points—Daisy-chained Devices NPT1 NPA2 AI AI AI AI AI AI AI AI AI AI AI AI 1 2 3 4 5 6 7 8 9 10 11 12 BO BO 1 2 ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 1 2 3 Unit Description ARMS kWRMS kVA kVRMS VAux ARMS % % VRMS VRMS % Hz Average Current Total Kilowatts kVA Total kVAR Total Voltage Aux Neutral Current (I4) Voltage Imbalance Current Imbalance Average LN Voltage Voltage LL average Power Factor Total Frequency at Va Reset All Minimum/Maximum Values3 Reset All k/MW, k/Mvar, k/MVA hours3 kWh MWh kWh MWh kWh MWh kWh MWh kVARh Mvarh kVARh Mvarh kVARh Mvarh kVARh Mvarh kVAh MVAh kVAh MVAh 0=n/a 1=reset 0=n/a 1=reset kWh Import MWh Import kWh Export MWh Export kWh Total MWh Total kWh Net MWh Net kVARh Import Mvarh Import kVARh Export Mvarh Export kVARh Total Mvarh Total kVARh Net Mvarh Net kVAh Import MVAh Import kVAh Export MVAh Export Network Point Type Network Point Address Do not map these points to Companion BO points. If you map these points to Metasys system BO objects, disbale Auto Restore in the BO object’s Definition or Focus window. Continued on next page . . . 40 Metasys Integrator—Metasys Integrator GE Power Application NPT1 NPA2 Unit Description ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 kVAh MVAh kVAh MVAh kW kW kW kW kVAR kVAR kVAR kVAR kVAh Total MVAh Total kVAh Net MVAh Net Minimum Kilowatts, Phase A Minimum Kilowatts, Phase B Minimum Kilowatts, Phase C Minimum Kilowatts Total Minimum kVAR Phase A Minimum kVAR Phase B Minimum kVAR Phase C Minimum kVAR Total Minimum Power Factor, Phase A Minimum Power Factor, Phase B Minimum Power Factor, Phase C Minimum Power Factor Total Minimum kVA, Phase A Minimum kVA, Phase B Minimum kVA, Phase C Minimum kVA, Total Minimum Frequency Minimum Phase A Voltage K-Factor Minimum Phase B Voltage K-Factor Minimum Phase C Voltage K-Factor Minimum Auxiliary Voltage K-Factor Minimum Phase A Current K-Factor Minimum Phase B Current K-Factor Minimum Phase C Current K-Factor Minimum Neutral Current K-Factor Minimum Phase A Voltage Total Harmonic Distortion Minimum Phase B Voltage Total Harmonic Distortion Minimum Phase C Voltage Total Harmonic Distortion Minimum Auxiliary Voltage Total Harmonic Distortion Minimum Phase A Current Total Harmonic Distortion Minimum Phase B Current Total Harmonic Distortion Minimum Phase C Current Total Harmonic Distortion Minimum Neutral Current Total Harmonic Distortion Maximum Kilowatts, Phase A Maximum Kilowatts, Phase B Maximum Kilowatts, Phase C 1 2 kVA kVA kVA kVA Hz % % % % % % % % kW kW kW Network Point Type Network Point Address Continued on next page . . . Metasys Integrator—Metasys Integrator GE Power Application 41 NPT1 (Cont.) NPA2 Unit Description ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 76 77 78 79 80 81 82 83 84 85 86 87 88 89 90 91 92 93 94 95 96 97 98 99 kW kVAR kVAR kVAR kVAR Maximum Kilowatts Total Maximum kVAR, Phase A Maximum kVAR, Phase B Maximum kVAR, Phase C Maximum kVAR Total Maximum Power Factor, Phase A Maximum Power Factor, Phase B Maximum Power Factor, Phase C Maximum Power Factor Total Maximum kVA, Phase A Maximum kVA, Phase A Maximum kVA, Phase A Maximum kVA, Phase A Maximum Frequency Maximum Phase A Voltage K Factor Maximum Phase B Voltage K Factor Maximum Phase C Voltage K Factor Maximum Auxiliary Voltage K Factor Maximum Phase A Current K Factor Maximum Phase B Current K Factor Maximum Phase C Current K Factor Maximum Neutral Current K Factor Maximum Phase A Voltage Total Harmonic Distortion Maximum Phase B Voltage Total Harmonic Distortion Maximum Phase C Voltage Total Harmonic Distortion Maximum Auxiliary Voltage Total Harmonic Distortion Maximum Phase A Current Total Harmonic Distortion Maximum Phase B Current Total Harmonic Distortion Maximum Phase C Current Total Harmonic Distortion Maximum Neutral Current Total Harmonic Distortion Voltage at Phase A Voltage at Phase B Voltage at Phase C Voltage at Phase AB Voltage at Phase BC Voltage at Phase CA Current at Phase A Current at Phase B Current at Phase C 1 2 kVA kVA kVA kVA Hz % % % % % % % % VRMS VRMS VRMS VRMS VRMS VRMS ARMS ARMS ARMS Network Point Type Network Point Address Continued on next page . . . 42 Metasys Integrator—Metasys Integrator GE Power Application NPT1 (Cont.) NPA2 Unit Description ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF 100 101 102 103 104 105 106 107 108 109 110 111 112 113 114 115 116 117 118 119 120 121 122 123 124 125 126 127 kWRMS kWRMS kWRMS kVRRMS kVRRMS kVRRMS Kilowatts at Phase A Kilowatts at Phase B Kilowatts at Phase C kVAR at Phase A kVAR at Phase B kVAR at Phase C Power Factor at Phase A Power Factor at Phase B Power Factor at Phase C KVA at Phase A KVA at Phase B KVA at Phase C Phase A Voltage K-Factor Phase B Voltage K-Factor Phase C Voltage K-Factor Aux Voltage K-Factor Phase A Current K-Factor Phase B Current K-Factor Phase C Current K-Factor Neutral Current K-Factor Phase A Voltage Total Harmonic Distortion Phase B Voltage Total Harmonic Distortion Phase C Voltage Total Harmonic Distortion Aux Voltage Total Harmonic Distortion Phase A Current Total Harmonic Distortion Phase B Current Total Harmonic Distortion Phase C Current Total Harmonic Distortion Neutral Current Total Harmonic Distortion 1 2 kVA kVA kVA % % % % % % % % Network Point Type Network Point Address Metasys Integrator—Metasys Integrator GE Power Application 43 EPM3710 Power Meter— Daisy-chained Devices To get the hardware reference for mapping points to CS object attributes (via the software model), combine the Network Point Type (NPT) and Network Point Address (NPA). For example, the hardware reference for the Average Current is AI1. Table 19: EPM3710 Power Meter Points—Daisy-chained Devices NPT1 NPA2 AI AI AI AI AI AI AI AI AI AI AI AI 1 2 3 4 5 6 7 8 9 10 11 12 BO BO BO BO BO 1 2 3 4 5 ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 1 2 3 Unit Description ARMS kW kVA kVAR Volt Amps Volt Volt # Hz kW # Average Current Total Kilowatts kVA Total kVAR Total Voltage Aux Neutral Current (I4) Average LN Voltage Voltage LL Average Power Factor Total Frequency at Va kW Total Demand Real Time Polarity Reset All Minimum/Maximum Values3 Reset Hour Counters3 Relay 1 Relay 2 Relay 3 kWh MWh kWh MWh kWh MWh kVARh Mvarh kVARh Mvarh kVARh Mvarh kW kVAR % kVA 0=n/a 0=n/a 1=reset 1=reset kWh Import MWh Import kWh Export MWh Export kWh Total MWh Total kVARh Import Mvarh Import kVARh Export Mvarh Export kVARh Total Mvarh Total Minimum kW Total Minimum kVAR Total Minimum Power Factor Total Minimum kVA Total Network Point Type Network Point Address Do not map these points to Companion BO points. If you map these points to Metasys system BO objects, disbale Auto Restore in the BO object’s Definition or Focus window. Continued on next page . . . 44 Metasys Integrator—Metasys Integrator GE Power Application NPT1 NPA2 Unit Description ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 Hz kW kVAR # kVA Hz Volt Volt Volt Volt Volt Volt Amps Amps Amps kW kW kW kVAR kVAR kVAR kVA kVA kVA Minimum Frequency Maximum kW Total Maximum kVAR Total Maximum Power Factor Total Maximum kVA Total Maximum Frequency Voltage at Phase A Voltage at Phase B Voltage at Phase C Voltage at Phase AB Voltage at Phase BC Voltage at Phase CA Current at Phase A Current at Phase B Current at Phase C Kilowatts at Phase A Kilowatts at Phase B Kilowatts at Phase C kVAR at Phase A kVAR at Phase B kVAR at Phase C kVA at Phase A kVA at Phase B kVA at Phase C 1 2 Network Point Type Network Point Address Metasys Integrator—Metasys Integrator GE Power Application 45 EPM5300P Power Meter— Daisy-chained Devices To get the hardware reference for mapping points to CS object attributes (via the software model), combine the Network Point Type (NPT) and Network Point Address (NPA). For example, the hardware reference for the Frequency is AI15. Table 20: EPM5300P Power Meter Points—Daisy-chained Devices NPT1 NPA2 AI AI AI AI AI AI AI AI AI AI AI AI AI AI AI AI AI AI AI AI AI AI AI AI AI AI AI AI AI AI AI AI AI 1 2 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 Unit Description Volt Volt Volt Volt Volt Volt Amps Amps Amps Amps Watts Vars VA PF Hz Watts Watts Watts Vars Vars Vars VA VA VA PF PF PF Volt Volt Volt Amps Amps Amps Phase AN Voltage Phase BN Voltage Phase CN Voltage Phase AB Voltage Phase BC Voltage Phase CA Voltage Phase A Current Phase B Current Phase C Current Neutral Current Real Power Reactive Power Apparent Power Power Factor Frequency Real Power Phase A Real Power Phase B Real Power Phase C Reactive Power Phase A Reactive Power Phase B Reactive Power Phase C Apparent Power Phase A Apparent Power Phase B Apparent Power Phase C Power Factor Phase A Power Factor Phase B Power Factor Phase C KF Voltage Phase A KF Voltage Phase B KF Voltage Phase C KF Amps Phase A KF Amps Phase B KF Amps Phase C Network Point Type Network Point Address 46 Metasys Integrator—Metasys Integrator GE Power Application EPM7300 Power Meter— Daisy-chained Devices To get the hardware reference for mapping points to CS object attributes (via the software model), combine the Network Point Type (NPT) and Network Point Address (NPA). For example, the hardware reference for the Frequency is AI6. Table 21: EPM7300 Power Meter Points—Daisy-chained Devices NPT1 NPA2 AI AI AI AI AI AI AI AI AI AI AI AI 1 2 3 4 5 6 7 8 9 10 11 12 BO BO 1 2 ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 1 2 3 Unit Description VRMS VRMS kVA % % Hz Voltage LN Average Voltage LL Average Average Current Voltage Unbalance Current Unbalance Frequency Real Time Polarity kW Total Demand kVAR Total kVA Total Power Factor Signed Average KWh Total kW kVAR kVA % kWh Reset Minimum/Maximum Values3 Energy3 Volt Volt Volt Volt Volt Volt Amps Amps Amps kW kW kW kVAR kVAR kVAR kVA kVA kVA +/-% +/-% +/-% kW kVAR kVA 0 = n/a, 0 = n/a, 1 = reset 1 = reset Voltage at Phase A Voltage at Phase B Voltage at Phase C Voltage at Phase AB Voltage at Phase BC Voltage at Phase CA Current at Phase A Current at Phase B Current at Phase C kW at Phase A kW at Phase B kW at Phase C kVAR at Phase A kVAR at Phase B kVAR at Phase C kVA at Phase A kVA at Phase B kVA at Phase C Power Factor Signed A Power Factor Signed B Power Factor Signed C kW Total to Date kVAR Total to Date kVA Total to Date Network Point Type Network Point Address Do not map these points to Companion BO points. If you map these points to Metasys system BO objects, disable Auto Restore in the BO object’s Definition or Focus window. Continued on next page . . . Metasys Integrator—Metasys Integrator GE Power Application 47 NPT1 NPA2 (Cont.) ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF ADF 1 2 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 Unit Description KW KVAR kVA Volt Amps KW KVAR kVA Hz % % Hz kWh kWh kWh kVARh kVARh kVARh kVARh kVAh kW Total to Date Maximum kVAR Total to Date Maximum kVA Total to Date Maximum Voltage LN Average Frequency Current Average Maximum kW Total Maximum kVAR Total Maximum kVA Total Maximum Frequency Maximum Voltage LN Average Minimum Current Average Minimum Frequency Minimum kWh Import kWh Export kWh Net kVARh Import kVARh Export kVARh Total kVARh Net kVAh Total Network Point Type Network Point Address 48 Metasys Integrator—Metasys Integrator GE Power Application EPM9650Q Power Meter— Daisy-chained Devices To get the hardware reference for mapping points to CS object attributes (via the software model), combine the Network Point Type (NPT) and Network Point Address (NPA). For example, the hardware reference for the Frequency is AI24. Table 22: EPM9650Q Power Meter Points—Daisy-chained Devices NPT1 NPA2 Unit Description AI AI AI AI AI AI AI AI AI AI AI AI AI AI AI AI AI AI AI AI AI AI AI AI AI AI AI AI AI AI AI AI AI AI AI AI AI AI AI AI AI AI AI AI AI AI AI 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 Volt Volt Volt Volt Amps Amps Amps Amps Volt Volt Volt VA VA VA VA VAR VAR VAR VAR Watts Watts Watts Watts Hz PF PF PF PF Volt Volt Volt Volt Pct Pct Pct Pct Pct Pct Volt Volt Volt Amps Amps Amps Volt Volt Volt Phase A-N Voltage Phase B-N Voltage Phase C-N Voltage Auxiliary Voltage Phase A Current Phase B Current Phase C Current Measured Neutral Current Phase A-B Voltage Phase B-C Voltage Phase C-A Voltage Phase A kVA Phase B kVA Phase C kVA Three Phase VA Phase A kVAR Phase B kVAR Phase C kVAR Three Phase VAR Phase A Watts Phase B Watts Phase C Watts Three Phase Watts Frequency Phase A Power Factor Phase B Power Factor Phase C Power Factor Three Phase Power Factor Ph A-N Volts to Aux Volts Ph Angle Phase A-N / Phase A-B Voltage THD Phase B-N / Phase B-C Voltage THD Phase C-N / Phase C-A Voltage THD Phase A Current THD Phase B Current THD Phase C Current THD Phase A Current K-Factor Phase B Current K-Factor Phase C Current K-Factor Phase Angle Phase A-N Voltage Phase Angle Phase B-N Voltage Phase Angle Phase C-N Voltage Phase Angle Phase A Current Phase Angle Phase B Current Phase Angle Phase C Current Phase Angle Phase A-B Voltage Phase Angle Phase B-C Voltage Phase Angle Phase C-A Voltage 1 2 Network Point Type Network Point Address Metasys Integrator—Metasys Integrator GE Power Application 49 Metasys Network Setup Metasys Network Setup is described in the Metasys Integrator unit technical bulletins. This section contains details specific to the GE applications. Mapping to a CS Object Table 23: Software Model and CS Object Details Application Software Model Display Attribute (on Models diskette) (recommended) NT Command Attribute* (recommended) Epic MicroVersaTrip FPU GE_EPIC.DDL BI1 Breaker State ADF6 Under Voltage Setpoint GE PLM GE_PLM.DDL GE MVT GE_MVT.DDL GE EPM GE_EPM.DDL AI24 Energy BI9 Breaker Open/Close AI27 Energy ADF1 Current Setpoint ADF1 Current Setpoint ADF1 Current Setpoint AI1 Current Phase A AI1 Current Phase A AI1 Current Phase A AI1 Current Phase A ADF1 Current Setpoint ADF1 Current Setpoint ADF1 Current Setpoint ADF1 Current Setpoint GE FPU 485 PIM Power Leader Modbus Concentrator GE PLM GEC_PLM.DDL GE Spectra MVT GEC_MVT.DDL GE EMVT -C and -D GEC_EMVT.DDL GE EPM GEC_EPM Daisy-chained Devices AI4 AO1 Average Current Energy Cost Per kWh GE_MDP.DDL AI1 N/A GE MDP Current Phase A AI2 PML_3720.DDL AI1 EPM3720 Total Kilowatts Average Phase Current BO1 PML_3710.DDL AI1 EPM3710 Clear kWh Average Phase Current GE_5300.DDL AI11 AI11 EPM5300P Real Power Real Power GE_7300.DDL AI1 BO2 EPM7300 Average Voltage LN Clear kW Hours GE_9650.DDL AI23 AI23 EPM9650Q Three Phase Watts Three Phase Watts * The NT Command attribute must be defined; it cannot be null. However, since the points are not commandable, you cannot command the attribute. GE PQM GE_PQM.DDL 50 Metasys Integrator—Metasys Integrator GE Power Application Custom Integration For information on integrating products that are not discussed in this document, first refer to the Metasys Compatible Products online list of released connectivity products. If this list does not provide the information you require, consider using the Systems Integration Services (SIS) Request Custom Engineered Solutions process to request a custom contract from the System Integration Team. Access both the Metasys Compatible Products and the Request Custom Engineered Solutions process from The Advisor by performing the following steps: 1. Click on the Products Focus link, located at the top of The Advisor home page. 2. Under Products, click on the Systems Integration Services link. 3. For the searchable database, click on Metasys Compatible Products. 4. Select Metasys Compatible Products Database. 5. Click Online Search Tool. 6. After the search is completed, return to the Systems Integration Services home page as instructed in Steps 1-2. 7. Select Custom Engineered Solutions to view the process used for requesting all types of SIS engineered solutions and services. 8. Select Requesting an Engineered Solution or Service. 9. Click Online Request Page. If you need further assistance, contact the Johnson Controls Field Support Center. Controls Group 507 E. Michigan Street P.O. Box 423 Milwaukee, WI 53201 www.johnsoncontrols.com Software Release 9.3 Published in U.S.A. Metasys Integrator—Metasys Integrator GE Power Application 51
