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Ceiec Electric PMC-630 E User Manual

Advanced multifunction ethernet meter
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PMC-630 E
Advanced Multifunction
Ethernet Meter
User Manual
Version: V1.0A
07/03/2013
Ceiec Electric Technology

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Summary of Contents for Ceiec Electric PMC-630 E

  • Page 1 PMC-630 E Advanced Multifunction Ethernet Meter User Manual Version: V1.0A 07/03/2013 Ceiec Electric Technology...
  • Page 2 Ceiec Electric Technology This manual may not be reproduced in whole or in part by any means without the express written permission from Ceiec Electric Technology (CET). The information contained in this Manual is believed to be accurate at the time of publication;...
  • Page 3 Ceiec Electric Technology DANGER Failure to observe the following instructions may result in severe injury or death and/or equipment damage.  Installation, operation and maintenance of the meter should only be performed by qualified, competent personnel that have the appropriate training and experience with high voltage and current devices.
  • Page 4 Limited warranty  Ceiec Electric Technology (CET) offers the customer a minimum of 12-month functional warranty on the meter for faulty parts or workmanship from the date of dispatch from the distributor. This warranty is on a return to factory for repair basis.

  • Page 5: Table Of Contents

    Ceiec Electric Technology Table of Contents Chapter 1 Introduction ..................... 8 1.1 Overview ......................8 1.2 Features ......................8 1.3 PMC-630E’s application in Power and Energy Management Systems ....10 1.4 Getting more information .................. 11 Chapter 2 Installation ..................... 12 2.1 Appearance .......................
  • Page 6 Ceiec Electric Technology 4.2.3 Energy ..................... 34 4.2.4 Demands ....................35 4.2.5 Max/Min per Demand Period ..............35 4.2.6 Peak Demand of This Month and Last Month ........... 36 4.3 Setpoints ......................36 4.4 Logging ......................38 4.4.1 Peak Demand Log ..................38 4.4.2 Max/Min Log ...................
  • Page 7 Ceiec Electric Technology 5.11.1 Peak Demand Data Structure ..............70 5.11.2 Max/Min Data Structure ................ 70 5.11.3 Data Recorder Data Structure ..............71 5.11.4 Energy Log Data Structure ..............71 5.11.5 Waveform Recorder Setup Data Structure ..........71 5.11.6 SOE Log Data Structure ................72 Revision History ......................

  • Page 8: Chapter 1 Introduction

    Ceiec Electric Technology Chapter 1 Introduction This manual explains how to use the PMC-630E Advanced Multifunction Ethernet Meter. This chapter provides an overview of the PMC-630E meter and summarizes many of its key features. 1.1 Overview The PMC-630E Advanced Multifunction Ethernet Meter, based on the highly successful PMC-630 series, is CET’s latest offer for the low, medium and high voltage power/energy metering market.
  • Page 9 Ceiec Electric Technology  kW, kvar, kVA, PF per phase and Total  Frequency  kWh, kvarh Import / Export / Total / Net and kVAh  Bi-directional energy measurements Sliding Window Demands  Voltage, current, power, PF, Frequency, V and I Unbalance, and THD ...

  • Page 10: Pmc-630E's Application In Power And Energy Management Systems

    Ceiec Electric Technology  5A @ 250VAC / 30VDC for RO2 and RO3 Real-time clock  6ppm battery-backed real-time clock (<0.5s per day) Communications Ethernet Port  10/100BaseT Ethernet with RJ45 connection  Modbus RTU over TCP/IP and Modbus TCP protocols ...

  • Page 11: Getting More Information

    Ceiec Electric Technology 1.4 Getting more information Additional information is available from CET via the following sources:  Visit www.ceiec-electric.com  Contact your local representative  Contact CET directly via email or telephone...

  • Page 12: Chapter 2 Installation

    Ceiec Electric Technology Chapter 2 Installation Caution Installation of the PMC-630E should only be performed by qualified, competent personnel that have the appropriate training and experience with high voltage and current devices. The meter must be installed in accordance with all local and national electrical codes.

  • Page 13: Unit Dimensions

    Ceiec Electric Technology 2.2 Unit Dimensions Front View Side View Figure 2-2 Dimensions 2.3 Mounting The PMC-630E should be installed in a dry environment with no dust and kept away from heat, radiation and electrical noise sources. Installation steps: ...

  • Page 14: Wiring Connections

    Ceiec Electric Technology 2.4 Wiring Connections PMC-630E can satisfy almost any three phase power systems. Please read this section carefully before installation and choose the correct wiring method for your power system. The following wiring modes are supported:  3-phase 4-wire Wye Direct Connection ...

  • Page 15: 3-Phase 4-Wire Wye With 3Pts And 4Cts

    Ceiec Electric Technology 2.4.2 3-phase 4-wire Wye with 3PTs and 4CTs Please consult the serial number label to ensure that the rated PT secondary voltage is less than or equal to the meter’s voltage input specification. Set the Wiring Mode to Wye.

  • Page 16: 3-Phase 3-Wire Grounded Wye With 3Pts And 3Cts

    Ceiec Electric Technology 2.4.4 3-phase 3-wire Grounded Wye with 3PTs and 3CTs Please consult the serial number label to ensure that the rated PT secondary voltage is less than or equal to the meter’s voltage input specification. Set the Wiring Mode to Wye.

  • Page 17: 3-Phase 3-Wire Open Delta With 2Pts And 3Cts

    Ceiec Electric Technology 2.4.6 3-phase 3-wire Open Delta with 2PTs and 3CTs Please consult the serial number label to ensure that the rated PT secondary voltage is less than or equal to the meter’s voltage input specification. Set the Wiring Mode to Delta.

  • Page 18: Communications Wiring

    Ceiec Electric Technology 2.5 Communications Wiring 2.5.1 RS485 Port The PMC-630E provides one RS485 port and supports the Modbus RTU and EGATE (Ethernet Serial Gateway) protocol. Up to 32 devices can be connected on a RS485 bus. The overall length of the RS485 cable connecting all devices should not exceed 1200m.

  • Page 19: Digital Output Wiring

    Ceiec Electric Technology 2.7 Digital Output Wiring The following figure illustrates the Digital Output connections on the PMC-630E: Figure 2-13 RO Connections 2.8 Power supply Wiring For AC supply, connect the live wire to the L/+ terminal and the neutral wire to the N/- terminal. For DC supply, connect the positive wire to the L/+ terminal and the negative wire to the N/- terminal.

  • Page 20: Chapter 3 Front Panel

    Ceiec Electric Technology Chapter 3 Front Panel The PMC-630E has a large, easy to read LCD display with backlight and four buttons for data display and meter configuration. This chapter introduces the front panel operations. Figure 3-1 Front Panel DI Status...

  • Page 21: Lcd Display Areas

    Ceiec Electric Technology 3.1.2 LCD Display Areas This section provides a description of the LCD display areas. The PMC-630E LCD display can generally be divided into 5 areas: A: Displays symbols for parameters such as Voltage, Current, Fundamental, Power, THD, TOHD,...
  • Page 22 Ceiec Electric Technology TEHD TOHD to 31 Harmonics Unbalance Demand Maximum Minimum This Month Last Month Reserved DI Open DI Close RO Open RO Close Units for Real, Units for Voltage, Current, %Harmonics Distortion and Reactive and Frequency Apparent Power...

  • Page 23: Peak Demand Display

    Ceiec Electric Technology 3.1.3 Peak Demand Display The following special arrangements have been made for the display of the Peak Demand and its timestamp with the appropriate unit displayed in the Measurement Units area. Peak Demand Indicator – Peak Demand of This Month / Last Month:...
  • Page 24 Ceiec Electric Technology Display 8 V Unbalance Display 9 I Unbalance Display 10 Va Angle Vb Angle Vc Angle Display 11 Ia Angle Ib Angle Ic Angle Display 12 Ia Demand Ib Demand Ic Demand Display 13 I4 Demand Ia Peak...

  • Page 25: Setup Configuration Via The Front Panel

    Ceiec Electric Technology of Last Month kvar Display 12 Peak Demand YYYY.MM.DD HH:MM:SS of Last Month Display 13 Peak Demand YYYY.MM.DD HH:MM:SS of Last Month Display 1 Va THD Vb THD Vc THD VLN avg. THD Display 2 Ia THD...

  • Page 26: Functions Of Buttons

    Ceiec Electric Technology seconds returns to the Data Display mode. 3.2.1 Functions of buttons The four front panel buttons take on different meanings in the Setup Configuration mode and are described below: <Energy>: Pressing this button for more than three seconds toggles between Data Display mode and Setup Configuration mode.

  • Page 27: Setup Menu

    Ceiec Electric Technology 3.2.2 Setup Menu Figure 3-5 Setup Menu...

  • Page 28: Front Panel Setup Parameters

    Ceiec Electric Technology 3.2.3 Front Panel Setup Parameters The Setup Configuration mode provides access to the following setup parameters: Label menu Parameters Description Options/Range Default level level Setup Configuration PROGRAMMING mode PASWORD Password Enter Password “0” PAS SET Change Password...
  • Page 29 Ceiec Electric Technology Parameters Port 1 Address Modbus Address 1-247 Data rate in bits per 1200/2400/4800/ BAUD1 Port 1 Baudrate 9600 second 9600/19200/38400bps Port 1 CONFIG1 Data Format 8N2/8O1/8E1/8N1/8O2/8E2 Configuration Communication Protocol MODBUS/EGATE MODBUS Protocol Configure Ethernet ETH SET YES/NO...
  • Page 30 Ceiec Electric Technology 12.8k (12,800) ENGY SET Energy Values Preset Energy Values YES/NO Preset kWh Import IMP kWh kWh Import 0 to 999,999,999 Value Preset kWh Export EXP kWh kWh Export 0 to 999,999,999 value Preset kvarh Import IMP kvarh...
  • Page 31 Ceiec Electric Technology Notes: 1) For 5A configuration, PT Ratio × CT Ratio must be less than 1,000,000 For 1A configuration, PT Ratio x CT Ratio must be less than 5,000,000 2) P.F. Convention: -IEEE is the same as IEEE but with the opposite sign.
  • Page 32 Ceiec Electric Technology 3) There are two ways to calculate kVA:   kvar Mode V (Vector method): total total total    Mode S (Scalar method): total 4) There are two ways to calculate the individual harmonic distortion:...

  • Page 33: Chapter 4 Applications

    Ceiec Electric Technology Chapter 4 Applications 4.1 Inputs and Outputs 4.1.1 Digital Inputs The PMC-630E comes standard with six self-excited Digital Inputs that are internally wetted at 24 VDC. Digital Inputs on the PMC-630E can be used in the following applications: 1) Digital Inputs are typically used for monitoring external status which can help prevent equipment damage, improve maintenance, and track security breaches.

  • Page 34: Energy Pulse Outputs

    Ceiec Electric Technology control of a Digital Output and may be useful in providing a generic alarm output signal. However, the sharing of a Digital Output is not recommended if the user intends to generate a control signal in response to a specific setpoint condition.

  • Page 35: Demands

    Ceiec Electric Technology The PMC-630E provides the following energy measurements: Active Energy kWh Import kWh Export kWh Net kWh Total Reactive Energy kvarh Import kvarh Export kvarh Net kvarh Total Apparent Energy kVAh Total Table 4-1 Energy Measurements 4.2.4 Demands Demand is defined as the average power consumption over a fixed interval (usually 15 minutes).

  • Page 36: Peak Demand Of This Month And Last Month

    Ceiec Electric Technology 4.2.6 Peak Demand of This Month and Last Month The PMC-630E calculated 3-phase Current, ∑kWh, ∑kvar and ∑kVA peak demand of This Month and Last Month. All Max/Min data can be accessed through communication. 4.3 Setpoints The PMC- PMC-630E comes standard with 9 user programmable setpoints which provide extensive control by allowing a user to initiate an action in response to a specific condition.
  • Page 37 Ceiec Electric Technology Parameter Scale/Unit x100, V x100, V x1000, A x1000, A Freq x100, Hz ∑kW ∑kvar kvar P.F. x1000 1) For Over Setpoint, the Active Limit is DI Close (DI=1), and Inactive Limit is DI Open (DI=0); 2) For Under Setpoint, the Active Limit is DI Open (DI=0), and Inactive Limit is DI Close (DI=1);...

  • Page 38: Logging

    Ceiec Electric Technology 4.4 Logging 4.4.1 Peak Demand Log The PMC-630E stores the peak demand data of This Month and Last Month with timestamp for Ia, Ib, Ic, ∑kW, ∑ kvar, and ∑kVA. All of the peak demand data can be accessed through front panel LCD as well as communications.

  • Page 39: Data Recorder (Dr) Log

    Ceiec Electric Technology The maximum and minimum data of This Month can be reset manually from the front panel or via communications. The PMC-630E provides the following Max/Min parameters: Max/Min Value of This Month Max/Min Value of Last Month Va max...

  • Page 40: Energy Log

    Ceiec Electric Technology Recording Interval: 1 to 3456000 seconds Recording Offset: 1 to 43200 seconds Number of Parameters: 0 to 16 Parameter 1 to 16: 0 to 322 for Standard Data Recorder Please see refer to Appendix A for more information.

  • Page 41: Soe Log

    Ceiec Electric Technology manual trigger command has a higher priority. When Waveform Recorder is already in progress, other Waveform Recorder commands will be ignored until the current recording has completed. The 2 Waveform Recorder Logs have a combined capacity of 6 entries organized in a first-in-first-out basis, with the newest waveform log replacing the oldest one.
  • Page 42 Ceiec Electric Technology % of Fundamental Method: X100% Voltage K Harmonic Distortion = , where U is the Fundamental Voltage Current K Harmonic Distortion = , where I is the Fundamental Current % of RMS Method: X100% Voltage K Harmonic Distortion= ...

  • Page 43: Unbalance

    Ceiec Electric Technology 4.5.2 Unbalance The PMC-630E can measure Voltage and Current Unbalances based on Sequence Components. The calculation method of Voltage and Current Unbalances is listed below:   Voltage Unblance 100%, where V is Positive Sequence Voltage and V is Negative Sequence Voltage ...

  • Page 44: Ethernet Gateway

    Ceiec Electric Technology Figure 4-2 PMC-630E's Web Page 4.7 Ethernet Gateway The PMC-630E's Ethernet port and its RS485 port together can be used as an Ethernet Gateway to allow communications between a Master on an Ethernet network to a network of serial devices connected to the PMC-630E's RS485 port as shown in Figure 4-3 below.

  • Page 45: Chapter 5 Modbus Register Map

    Ceiec Electric Technology Chapter 5 Modbus Register Map This chapter provides a complete description of the Modbus register map (Protocol Versions 1.0 and above) for the PMC-630E Multifunction Ethernet to facilitate the development of 3 party communications driver for accessing information on the PMC-630E.

  • Page 46: Data Register

    Ceiec Electric Technology 5.1 Data Register 5.1.1 Basic Measurements Register Property Description Format Scale/Unit 0000 Float 0002 Float 0004 Float 0006 VLN average Float 0008 Float 0010 Float 0012 Float 0014 VLL average Float 0016 Float 0018 Float 0020 Float...
  • Page 47 Ceiec Electric Technology 0079 Ia Angle UINT16 x 100, ° 0080 Ib Angle UINT16 x 100, ° 0081 Ic Angle UINT16 x 100, ° 0082-0084 Reserved 0085 DI Status UINT16 0086 RO Status UINT16 0087 Alarm UINT32 0089 SOE Pointer...

  • Page 48: Energy Measurements

    Ceiec Electric Technology 64 events in the PMC-630E, an assumption has been made that the SOE Pointer will never roll over. If a CLR SOE is performed from the front panel or via communications, the SOE Pointer will be reset to zero and then immediately incremented by one with a new ”Clear SOE via Front Panel”...

  • Page 49: Pulse Counter

    Ceiec Electric Technology Register Property Description Format Unit 0200 kWh Import UINT32 0202 kWh Export UINT32 0204 kWh Net INT32 0206 kWh Total UINT32 0208 kvarh Import UINT32 kvarh 0210 kvarh Export UINT32 kvarh 0212 kvarh Net INT32 kvarh 0214...
  • Page 50 Ceiec Electric Technology 0467 I4 Measured THD UINT16 ×10000 0468 Va TOHD UINT16 ×10000 0469 Vb TOHD UINT16 ×10000 0470 Vc TOHD UINT16 ×10000 0471 Ia TOHD UINT16 ×10000 0472 Ib TOHD UINT16 ×10000 0473 Ic TOHD UINT16 ×10000 0474...

  • Page 51: Present Demand

    Ceiec Electric Technology 5.1.5 Present Demand Register Property Description Format Scale/Unit 1000 Va Demand INT32 x100, V 1002 Vb Demand INT32 x100, V 1004 Vc Demand INT32 x100, V 1006 VLN average Demand INT32 x100, V 1008 Vab Demand INT32...

  • Page 52: Max/Min Value Per Demand Period

    Ceiec Electric Technology Register 1024 is valid only if the device is equipped with the I4 Current Input. Otherwise, it is reserved. 5.1.6 Max/Min Value per Demand Period Scale/Unit Register Property Description Format x100, V 1400 Va max INT32 1402...

  • Page 53: Peak Demand Log

    Ceiec Electric Technology 1612 Vca min INT32 x100, V 1614 VLL average min INT32 x100, V 1616 Ia min INT32 x1000, A 1618 Ib min INT32 x1000, A 1620 Ic min INT32 x1000, A 1622 I average min INT32 x1000, A...

  • Page 54: Max/Min Log

    Ceiec Electric Technology 1824-1829 Ib Peak Demand of This Month x1000, A 1830-1835 Ic Peak Demand of This Month x1000, A Register Property Description Format Scale/Unit 1850-1855 ∑kW Peak Demand of Last Month 1856-1861 ∑kvar Peak Demand of Last Month 1862-1867 ∑kVA Peak Demand of Last Month...
  • Page 55 Ceiec Electric Technology Note: Registers 2072-2077 are valid only if the device is equipped with the I4 Current Input. Otherwise, they are reserved. 5.1.8.2 Min Log of This Month Register Property Description Format Scale/Unit 2300-2305 Va min x100, V 2306-2311...
  • Page 56 Ceiec Electric Technology 5.1.8.3 Max Log of Last Month Register Property Description Format Scale/Unit 2600-2605 Va max x100, V 2606-2611 Vb max x100, V 2612-2617 Vc max x100, V 2618-2623 VLN average max x100, V 2624-2629 Vab max x100, V...

  • Page 57: Setup Register

    Ceiec Electric Technology 2924-2929 Vab min x100, V 2930-2935 Vbc min x100, V 2936-2941 Vca min x100, V 2942-2947 VLL average min x100, V 2948-2953 Ia min x1000, A 2954-2959 Ib min x1000, A 2960-2965 Ic min x1000, A 2966-2971...
  • Page 58 Ceiec Electric Technology Nominal Frequency 0=50Hz* 6005 UINT16 1=60Hz nominal 0=Modbus* 6006 Port 1 Protocol UINT16 1= EGATE 1 to 247 6007 Port 1 Unit ID UINT16 (Default = 100) 0=1200 1=2400 2=4800 6008 Port 1 Baud rate UINT16 3=9600*...
  • Page 59 Ceiec Electric Technology 6025 DI6 Function UINT16 6026 DI1 Debounce UINT16 6027 DI2 Debounce UINT16 1 to 1000 (ms) 6028 DI3 Debounce UINT16 (Default=20ms) 6029 DI4 Debounce UINT16 6030 DI5 Debounce UINT16 6031 DI6 Debounce UINT16 6032 DI1 Pulse Weight...

  • Page 60: Clear/Reset Register

    Ceiec Electric Technology Self-Read Time is applied to Peak Demand Log and Max/Min Log. There are two types of Self-Read Time. The value 0 indicates that the transfer will happen at 00:00 of the first day of every month. A non-zero value indicates that the transfer will happen at a specific time based on the formula [Hour+Day*100] where 0≤Hour≤23 and...

  • Page 61: Setpoint Setup Parameters

    Ceiec Electric Technology Demand Log of This Month 6426 Clear Counter #1 (DI1) UINT16 Writing “0xFF00” to the 6427 Clear Counter #2 (DI2) UINT16 register clears the …… …… UINT16 respective DI Counter 6430 Clear Counter #5 (DI5) UINT16 register...
  • Page 62 Ceiec Electric Technology Trigger 1 UINT16 0 to 21 (Default=1) Trigger 2 UINT16 0 to 21 (Default=2) * Default Table 5-16 Setpoint Setup Register Structure Notes: 1) “Parameter” specifies the parameter to be monitored. Table 5-17 below provides a list of Setpoint Parameters.

  • Page 63: Data Recorder Log Setup Parameters

    Ceiec Electric Technology DR #11 DR #1 DR #12 DR #2 DR #13 DR #3 DR #14 DR #4 DR #15 DR #5 DR #16 DR #6 WR #1 DR #7 WR #2 Table 5-18 Setpoint Triggers 5.4 Data Recorder Log Setup Parameters 5.4.1 Data Recorder Log Setup Registers...

  • Page 64: Standard Data Recorder Setup Data Structure

    Ceiec Electric Technology 7382 DR #15 Record Size (Bytes) UINT16 7383 DR #16 Record Size (Bytes) UINT16 Table 5-19 Data Recorder Setup Registers Notes: 1) DRx Record Size (Bytes) = Number of Parameters*4+8. DRx Log Size=DRx Recording Depth *DRx Record Size. The Log Size is rounded up to the nearest kB.

  • Page 65: Energy Log

    Ceiec Electric Technology basis using the meter clock (Triggered by Timer). For Triggered by Setpoint, when the Setpoint goes active, the Data Recorder starts to record, and when the Setpoint becomes inactive, the Data Recorder stops. 2) If the “Recording Depth” is set to “0”, the Data Recorder will be disabled.

  • Page 66: Waveform Recorder Log Setup Parameters

    Ceiec Electric Technology 2=kvarh Import 3=kvarh Export 4=kVAh 0=kWh Import 1=kWh Export 7709 Parameter 3 UINT16 2=kvarh Import* 3=kvarh Export 4=kVAh 0=kWh Import 1=kWh Export 7710 Parameter 4 UINT16 2=kvarh Import 3=kvarh Export* 4=kVAh 0=kWh Import 1=kWh Export 7711 Parameter 5...

  • Page 67: Soe Log

    Ceiec Electric Technology 40/20/10/5 7602 Number of Cycles (Default=5) 7603 Pre-fault Cycles 0* to 5 7604 Recording Depth 0* to 6 0= 16 1=32 7605 # of Samples 2=64 WFR Log 2 3*=128 40/20/10/5 7606 Number of Cycles (Default=5) 7607...

  • Page 68: Time

    Ceiec Electric Technology …… 14088 -4095 Event 64 Table 5-23 SOE Log 5.8 Time There sets Time registers supported PMC-630E Year/Month/Day/Hour/Minute/Second (Register # 9000 to 9002) and UNIX Time (Register # 9004). When sending time to the PMC-630E over Modbus communications, care should be taken to only write one of the two Time register sets.

  • Page 69: Meter Information

    Ceiec Electric Technology Register Property Description Format Note 9100 Arm RO1 Close UINT16 Writing “0xFF00” 9101 Execute RO1 Close UINT16 Writing “0xFF00” 9102 Arm RO1 Open UINT16 Writing “0xFF00” 9103 Execute RO1 Open UINT16 Writing “0xFF00” 9104 Arm RO2 Close UINT16 Writing “0xFF00”...

  • Page 70: Data Format

    Ceiec Electric Technology Other bits are reserved. 0=1 (A) 9830 Current configuration UINT16 1=5 (A) 0=120 (V) 9831 Voltage configuration UINT16 1=415 (V) 2=690 (V) Table 5-26 Meter Information Note: 1) The Meter Model appears in registers 9800 to 9819 and contains the ASCII encoding of the string “PMC-630E”...

  • Page 71: Data Recorder Data Structure

    Ceiec Electric Technology High-order Byte: Minute 0 to 59 UINT16 Low-order Byte: Second 0 to 59 Millisecond UINT16 0 to 999 Table 5-29 Max-Min-LOG Data Structure 5.11.3 Data Recorder Data Structure Offset Property Description Format Note Parameter 1 INT32 Parameter 2 INT32 ……...

  • Page 72: Soe Log Data Structure

    Ceiec Electric Technology 1=Manual 2=Setpoint 3=Transient High-order Byte: Year 0-99 (Year-2000) UINT16 Low-order Byte: Month 1 to 12 High-order Byte: Day 1 to 31 UINT16 Low-order Byte: Hour 0 to 23 High-order Byte: Minute 0 to 59 UINT16 Low-order Byte: Second...

  • Page 73: Appendix A - Data Recorder Parameter

    Ceiec Electric Technology Appendix A - Data Recorder Parameter Parameters Scale/Unit Parameters Scale/Unit x100, V x100, V x100, V VLN average x100, V x100, V x100, V x100, V VLL average x100, V x1000, A x1000, A x1000, A I average...
  • Page 74 Ceiec Electric Technology Vc 9 Harmonic x10000 Va 10 Harmonic x10000 Vb 10 Harmonic x10000 Vc 10 Harmonic x10000 Va 11 Harmonic x10000 Vb 11 Harmonic x10000 Vc 11 Harmonic x10000 Va 12 Harmonic x10000 Vb 12 Harmonic x10000 Vc 12...
  • Page 75 Ceiec Electric Technology Ib 14 Harmonic x10000 Ic 14 Harmonic x10000 Ia 15 Harmonic x10000 Ib 15 Harmonic x10000 Ic 15 Harmonic x10000 Ia 16 Harmonic x10000 Ib 16 Harmonic x10000 Ic 16 Harmonic x10000 Ia 17 Harmonic x10000 Ib 17...
  • Page 76 Ceiec Electric Technology per Demand Period per Demand Period VLL avg. max Ia max x100, V x1000, A per Demand Period per Demand Period Ib max Ic max x1000, A x1000, A per Demand Period per Demand Period I avg. max...
  • Page 77 Ceiec Electric Technology I avg. min I4 min x1000, A x1000, A per Demand Period per Demand Period kWa min kWb min per Demand Period per Demand Period kWc min ∑kW min per Demand Period per Demand Period kvara min...

  • Page 78: Appendix B - Event Classification

    Ceiec Electric Technology Appendix B - Event Classification Event Sub- Event Value Description Classification Classification Scale/Option DI1 Close/DI1 Open DI2 Close/DI2 Open DI3 Close/DI3 Open DI4 Close/DI4 Open DI5 Close/DI5 Open DI6 Close/DI6 Open RO1 Operated/Released by Remote Control RO2 Operated/Released by Remote Control...
  • Page 79 Ceiec Electric Technology (x100) Trigger Value Over Voltage TEHD Setpoint Active (x100) Trigger Value Over Current THD Setpoint Active (x100) Trigger Value Over Current TOHD Setpoint Active (x100) Trigger Value Over Current TEHD Setpoint Active (x100) Trigger Value Over Voltage Unbalance Setpoint Active...
  • Page 80 Ceiec Electric Technology Return Value Over Voltage TOHD Setpoint Return (x100) Return Value Over Voltage TEHD Setpoint Return (x100) Return Value Over Current THD Setpoint Return (x100) Return Value Over Current TOHD Setpoint Return (x100) Reserved Reserved Reserved Reserved Reserved...
  • Page 81 Ceiec Electric Technology (x100) Trigger Value Under Current THD Setpoint Active (x100) Trigger Value Under Current TOHD Setpoint Active (x100) Trigger Value Under Current TEHD Setpoint Active (x100) Trigger Value Under Voltage Unbalance Setpoint Active (x10) Trigger Value Under Current Unbalance Setpoint Active...
  • Page 82 Ceiec Electric Technology Return Value Under Voltage THD Setpoint Return (x100) Return Value Under Voltage TOHD Setpoint Return (x100) Return Value Under Voltage TEHD Setpoint Return (x100) Return Value Under Current THD Setpoint Return (x100) Return Value Under Current TOHD Setpoint Return...
  • Page 83 Ceiec Electric Technology Clear SOE via Communications Clear Max/Min Log of Last Month via Communications Clear Energy via Communications Clear Data Recorder Log via Communications Clear Waveform Recorder Log via Communications Clear Energy Log via Communications Clear Max/Min Log of This Month via...

  • Page 84: Appendix C - Technical Specifications

    Ceiec Electric Technology Appendix C - Technical Specifications Voltage Inputs (V1, V2, V3, VN) Standard (Un) 240VLN/415VLL Optional (Un) 69VLN/120VLL, 400VLN/690VLL Range 10% to 120% Un PT Ratio 1-10000 Overload 1.2xUn continuous, 2xUn for 10s Burden <0.5VA @ 240V Frequency...
  • Page 85 Ceiec Electric Technology Accuracy Parameters Accuracy Resolution Voltage ±0.2% reading 0.01V Current ±0.2% reading + 0.05%FS 0.001A I4 Measured ±0.2% reading + 0.05% F.S. 0.001A I4 Calculated 0.5% F.S. 0.001A kW, kVA IEC 62053-22 Class 0.5S 0.001k kWh, kVAh IEC 62053-22 Class 0.5S 0.01kXh...

  • Page 86: Appendix D - Standards Compliance

    Ceiec Electric Technology Appendix D - Standards Compliance Safety Requirements LVD Directive 2006 / 95 / EC EN61010-1-1-2001 Insulation IEC 60255-5-2000 Dielectric test 2kV @ 1 minute Insulation resistance >100MΩ Impulse voltage 5kV, 1.2/50µs Electromagnetic Compatibility EMC Directive 2004 / 108 / EC (EN 61326: 2006)

  • Page 87: Appendix E - Ordering Guide

    Ceiec Electric Technology Appendix E - Ordering Guide Contact us Ceiec Electric Technology Headquarters 8/F, Westside, Building 201, Terra Industrial & Tradepark, Che Gong Miao, Shenzhen, Guangdong, P.R.China 518040 Tel: +86.755.8341.5187 Fax: +86.755.8341.0291 Email: support.international@ceiec-electric.com Web: www.ceiec-electric.com...

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