AccuEnergy AcuRev 2000 User Manual

AccuEnergy AcuRev 2000 User Manual

Smart metering system
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AcuRev 2000
Smart Metering System
User's Manual

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Summary of Contents for AccuEnergy AcuRev 2000

  • Page 1 AcuRev 2000 Smart Metering System User's Manual...
  • Page 3 CopyRight © 2014 V2.10 This manual may not be altered or reproduced in whole or in part by any means without the expressed written consent of Accuenergy. [Document #2010E2210 Revision Date: Jan., 2014]...
  • Page 4 Accuenergy shall not be responsible or liable for any damages or injuries caused by improper meter installation and/or operation.
  • Page 5: Table Of Contents

    Contents Chapter 1 Introduction-------------------------------------------------------------------------------1 1.1 Meter Overview----------------------------------------------------------------------2 1.2 Area of Application----------------------------------------------------------------------4 1.3 AcuRev 2000 Series Features-----------------------------------------------------------4 Chapter 2 Installtion--------------------------------------------------------------------7 2.1 Appearance and Dimensions----------------------------------------------------------------9 2.2 Installation Methods--------------------------------------------------------------14 2.3 Wiring-----------------------------------------------------------------------------------20 Chapter 3 Meter Display and Operationn-------------------------------------------------33 3.1 Display Panel and Keys---------------------------------------------------------------34 3.2 Energy Display and Operation--------------------------------------------------------37 3.3 Demand Display and Operation--------------------------------------------------------40...
  • Page 6 4.2 I/O Functions-----------------------------------------------------------------------------81 4.3 Demand------------------------------------------------------------------------------------------84 4.4 Energy------------------------------------------------------------------------------------86 4.5 Sequence of Event----------------------------------------------------------------------------------92 4.6 Over/Under Limit Alarming------------------------------------------------------------------------93 4.7 System Event-------------------------------------------------------------------------------------------96 4.8 Trending Record---------------------------------------------------------------------------------------97 4.9 Seal Function---------------------------------------------------------------------------------------101 4.10 Device Information------------------------------------------------------------------------------112 Chapter 5 Communication-----------------------------------------------------------------------113 5.1 Modbus Protocol Introduction-------------------------------------------------------------------114 5.2 Modbus Communication Format----------------------------------------------------------------117 5.3 Ethernet communication--------------------------------------------------------------------123 5.4 Application Details and Parameter Address Table-------------------------------------------159 Appendix--------------------------------------------------------------------------------------------245 Appendix A Techincal Data and Specifications---------------------------------------------------246...
  • Page 7 Please note the following chapter descriptions in order to utilize the power meter properly. Chapter 1 Introduces the basic AcRev 2000 features and application areas. Chapter 2 Introduces AcuRev 2000 installation and wiring methods in detail. Chapter3 Walks through how to operate AcRev 2000 via the display panel, display measurement data and parameter settings.
  • Page 9: Chapter 1 Introduction

    Chapter 1 Introduction 1.1 Meter Overview 1.2 Areas of Application 1.3 AcuRev 2000 features...
  • Page 10: Meter Overview

    AcuRev 2000 series performs real-time metering, measures energy consumption and monitors power quality for up to 18 single phase circuits(or 6 three phase circuits)in one unit. It is an advanced intelligent power meter that Accuenergy developed and manufuctured for the next generation smart grids. The main features include multi- tenants submetering, cyclic display, tamper proof, which make it highly suitable for large commercial facilities, residential apartments and industrial environments.
  • Page 11 (RO) react upon alarming conditions. Data Logging and Load Trending With 8MB of onboard memory, AcuRev 2000 series can log real-time metering parameters, I/O status, and energy measurement. This information can be used for historical trending and system analysis.
  • Page 12: Acurev 2000 Series Features

    1.3 AcuRev 2000 series Features Multifunction, Multi-Tenants AcuRev 2000 multi-tenants intelligent power meter utilizes powerful data acquisition and processing functions, which implements real-time metering and monitoring for up to 18 single phase circuits (or 6 three phase circuits) in one unit. It will also record system events, over/under limit alarming and data logging functions.
  • Page 13 Model Selection AcuRev 2000 series has two models: AcuRev 2010(Basic Measurement) and AcuRev 2020(Multifunction). The function comparison is listed below: Standard; Optional; Blank means Not Available Function Parameter AcuRev 2010 AcuRev 2020 Real Energy Energy Reactive Energy Apparent Energy 4 Tariffs, 14 Schedules...
  • Page 14 Individual Harmonic 2nd-31st Current K Factor Crest Factor Power Quality Voltage Unbalance U_unbl Current Unbalance I_unbl Voltage telephone THFF interference factor Year Month Day Hour Clock Minute Second Over/Under Limit Alarming Alarm Data Logging Up to 8M Infrared Modbus-RTU RS485 Communication DL/T645 Modbus-TCP, HTTP,...
  • Page 15: Chapter 2 Installtion

    Chapter 2 Installation 2.1 Appearance and Dimensions 2.2 Installation Methods 2.3 Wiring...
  • Page 16 Before Installtion  The installation must be perfomred by qualified, competent accredited professionals who have received formal training and have experience with high voltage and current devices. Appropriate safety wear (gloves, glasses, arc flush suit, etc.) is mandatory to ensure safe installation. ...
  • Page 17 L×W×H 153×105.4×77.7mm Display Module L×W×H 72×72×26.5mm Table 2-1 AcuRev 2000 Appearance Meter Base If a Display Module is specified, an RJ45 jack is equipped in the Meter Base, where the attached cable should be pluged in to connect the Display Module to the Meter Base. See Figure 2-1.
  • Page 18 Figure 2-2 Meter Base with embedded Display Module Dimensions Unit: mm 77.7 Front View Side View Figure 2-3 Meter Base dimensions...
  • Page 19 Display Module The Display Module can also be panel mounted. Appearance Figure 2-4 Display Module Dimensions Unit: mm 71.5 15.5 Cut Out Front View Cut Out Side View Figure 2-5 Display Module dimensions...
  • Page 20 External CT Module(EM) Appearance Figure 2-6 EM module appearance Dimensions Unit: mm 77.7 Front View Side View Figure 2-7 EM module dimensions...
  • Page 21 Internal CT Module (DM: Direct Module) Appearance Figure 2-8 DM module appearance Dimensions Unit: mm 77.7 Front View Side View Figure 2-9 DM module dimensions...
  • Page 22 AcuRev 2000 storage temperature range is -40~85°C. 2. Humidity 5% to 95% non-condensing. 3. Location AcuRev 2000 series meter should be installed in a dry and dust free environment. Avoid exposing meter to excessive heat, radiation and high electrical noise sources.
  • Page 23 Installation of Meter Base and Modules Below are examples of the assembled meter and modules. Figure 2-10 Meter Base connected with an EM module (9 channels) Figure 2-11 Meter Base connected with two EM modules(18 channels)
  • Page 24 Figure 2-12 Meter Base connected with a DM module (9 channels) Figure 2-13 Meter Base connected with two DM modules (18 channels)
  • Page 25 Installation Steps: This meter is DIN rail mounted, which fits 35 mm standard rails. 1. Insert the meter groove all the way into the rail, and flip the meter case as Figure below shows, making the meter mounted into the rail. Installation Rail Figure 2-14 Step A 2.
  • Page 26 Display Module Installtion The Display Module is factory installed on the meter base. Users can use the meter base and display module combination directly. The following steps show how Display Module is installed. 1)Firstly, make a standard panel Cut Out as the Figure 2-16 shows. Unit: mm. +0.5 -0.0 Panel...
  • Page 27 3)Install the Display Module into the Cut Out. The module front panel will appear at the front of the Cut Out, the Meter Base case and wiring terminals will appear at the back of the Cut Out.Then, put on two installation clips following the grooves at the back of Display Module, and push forward to tighten the clips.Make sure the clip and the panel are joined tightly.
  • Page 28: Wiring

    2.3 Wiring Terminals Meter Base Terminals Upper row: Power Supply, Pulse Output, Communication, NET Lower row: Digital Input, Relay Output. Figure 2-20 Meter Base Terminals External CT Module(EM)Terminals The upper row has voltage input terminals, the lower row has current input terminals.9 channel inputs correspond to I1-I9, it only requires one EM1 module.18 inputs correspond to I1-I18, it requires two modules: EM1 and EM2.The following figure shows 18 channel inputs.
  • Page 29 Figure 2-21 External CT Module terminals Internal CT Module(DM)Terminals The upper level has voltage input terminals, the lower level has voltage output terminals. 9 channel inputs corresponds to V1-V3, it only requires one DM1 module.18 channel inputs corresponds to V1-V6, it requires two modules: EM1 and EM2. Figure 2-22 DM module terminals...
  • Page 30 Figure 2-23 Power Supply wiring Power Supply wiring is AWG22~16 or 0.6~1.5mm A fuse or small size circuit breaker is mandotary for AcuRev 2000 Power Supply. The fuse recommendation is 1A/250Vac, time delay.If a circuit breaker is utilized, it must be CE certified and comply with IEC 947 standard.
  • Page 31 0.333V Voltage Transformer. Vn Connection Vn is the voltage reference point of AcuRev 2000, a low resistance to Vn connection contributes to a better measurement accuracy.Vn connection is related to the system wiring. Please refer to "Wiring Methods" for details.
  • Page 32 Load Tenent 1 Tenent 2 Tenent 3 Tenent 4 Tenent 5 Tenent 6 Tenent 7 Tenent 8 Tenent 9 Tenent 10 Tenent 11 Tenent 12 Tenent 13 Tenent 14 Tenent 15 Tenent 16 Tenent 17 Tenent 18 FIigure 2-25 Single Phase Out EM...
  • Page 33 Tenent 9 Tenent 8 Tenent 7 Tenent 6 Tenent 5 Tenent 4 Tenent 3 Tenent 2 Tenent 1 Load Tenent 18 Tenent 17 Tenent 16 Tenent 15 Tenent 14 Tenent 13 Tenent 12 Tenent 11 Tenent 10 Load Figure 2-26 Single Phase Out DM 2.
  • Page 34 Load Teant 1 Phase A Teant 2 Phase A Teant 3 Phase A Teant 1 Phase B Teant 2 Phase B Teant 3 Phase B Teant 1 Phase C Teant 2 Phase C Teant 3 Phase C Teant 4 Phase A Teant 5 Phase A Teant 6...
  • Page 35 Teant 3 Phase C Teant 2 Phase C Teant 1 Phase C Teant 3 Phase B Teant 2 Phase B Teant 1 Phase B Teant 3 Phase A Teant 2 Phase A Teant 1 Phase A Load Teant 6 Phase C Teant 5 Phase C Teant 4...
  • Page 36 3. Single phase 3 out(2LN) Load Teant 1 Phase A Teant 2 Phase A Teant 3 Phase A Teant 1 Phase B Teant 2 Phase B Teant 3 Phase B Teant 4 Phase A Teant 5 Phase A Teant 6 Phase A Teant 4 Phase B...
  • Page 37 Load Teant 3 Phase B Teant 2 Phase B Teant 1 Phase B Teant 3 Phase A Teant 2 Phase A Teant 1 Phase A Teant 6 Phase B Teant 5 Phase B Teant 4 Phase B Teant 6 Phase A Teant 5 Phase A Teant 4...
  • Page 38 Communication AcuRev 2000 communication utilizes RS485 port, via Modbus-RTU protocol. The wiring terminals are A, B, S(1, 2, 3). "A" is called differential signal " ", "B" is called differential signal"-", "S" is connected to the shielding of shielded twisted pair cable. The maximum distance of Shielded Twisted Pair cable is 1200 m.
  • Page 39 7. A infrared port is also available in the Display Module, which supports meter reading. AcuRev 2000 also supports 10/100M Ethernet (optional), its protocol is ModBus TCP, SMTP, HTTP, SNMP, SNTP.
  • Page 41: Chapter 3 Meter Display And Operationn

    Chapter 3 Meter Display and Operation 3.1 Display Panel and Keys 3.2 Energy Display and Operation 3.3 Demand Display and Operation 3.4 I/O Display and Operation 3.5 Parameter Settings 3.6 Shortcut Code 3.7 Real-time Parameters 3.8 Device Information 3.9 Network Settings 3.10 Meter information and key operation...
  • Page 42 Chapter 2.1 shows the dimensions of Display Module. It consists of one LCD screen and five keys. AcuRev 2000 innovative Display Module can be integrated into the meter base or the display module can also be mounted on the panel.
  • Page 43 (3LN) display. Display Mode Display company name “ACCUENERGY” in LCD screen when powered up, after 2 seconds entering the main menu screen automatically. Arrow keys to move the cursor position, "OK" button to confirm and enter the corresponding menu. If you enter "M" quick code screen, the left and right keys to move the cursor, up and down keys to change the value, the "OK"...
  • Page 44: Device Information

    In the main menu screen, move the cursor to the setting icon, press “OK” to enter the settings mode. After the password screen, it will display language setting screen. Press “OK” to activate the cursor. When the cursor is inactive, arrow keys to scroll the screens. When the cursor is active, the cursor blinks, “Up”...
  • Page 45 Main menu second screen(AcuRev 2020) Menu Display Function Harmonic Basic Settings Network Settings INFO Device Information Table 3-4 Main menu second screen(AcuRev 2020) Main menu screen is shown in Table 3-2, the arrow keys to switch between menus. 2010 E D IO MUL M SET NET INFO 2020 E D IO MUL M...
  • Page 46 Parameter Screen Real-time energy This Month Total Energy M TnS This Month Tariff 1 Energy M T1S This Month Tariff 2 Energy M T2S This Month Tariff 3 Energy M T3S This Month Tariff 4 Energy M T4S Prior Month Total Energy U TnS Prior Month Tariff 1 Energy U T1S...
  • Page 47 2. Three Phase 4 Out (3LN) Figure 3-3 Three Phase 4 Out energy display 3. Single Phase 3 Out (2LN) Figure 3-4 Single Phase 3 Out energy display...
  • Page 48 3.3 Demand Display and Operation On the first page of the main menu, press "D", then press the “OK”, the meter displays demands. “Left” and “Right” keys to select a different user or Inline. “Up” and “Down” keys to select the current user's different screen, press "OK" button to return to the main menu. For AcuRev 2010, only displays the active power demand.
  • Page 49 2. Three Phase 4 Out (3LN) Figure 3-6 Three Phase 4 Out demand display 3. Single Phase 3 Out (2LN) Figure 3-7 Single Phase 3 Out demand display...
  • Page 50 3.4 IO Display and Operations On the first page of the main menu, press "left" and "right" to choose "IO" then press the center key, the meter displays IO data. “Up” and “Down” to select a different screen, the "OK" key to return to the main menu.
  • Page 51 1st screen, DI status, 8-channel DI Figure 3-9 DI Display  indicates this channel DI status "OFF" or Pulse Input  indicates DI status"ON" 2nd screen, RO status, 4-channel RO  indicates this channel RO status "OFF"  indicates this RO status "ON" Figure 3-10 RO Display...
  • Page 52 3rd screen, DI pulse input number and its parameter, press "Left" and "Right" to select different channel 1-8. PULS CONT x x PCS x.xx yy Figure 3-11 DI Pulse Input Display CONT X indicates DI channel number PCS indicates pulse number yy indicates number, such as 6.15 m3 represents 6.15 m3 3.5 Real-time display and key operation On the first screen of the main menu, select "MUL"...
  • Page 53 Phase voltage average Uavg Line voltage MUL-Line U Line voltage average Ulavg Different wiring, Real-time display is not the same. Details are as follows (AcuRev 2010 meter does not show the screen of yellow background): 1. Single Phase Out(1LN) E D IO MUL Tom 001 MUL - P Tom 001...
  • Page 54 3. Single Phase 3 Out (2LN) E D IO Tom 001 MUL - Sum Tom001 MUL-Sum Tom 001 MUL - P Tom001 MUL - Q Tom 001 MUL - S PF Load Type Tom 001 MUL - I Tom001 MUL - PF Figure 3-14 Single Phase 3 Out real-time display 4.
  • Page 55 E D IO MUL M 10101 Figure 3-16 Press "Left" and "Right" to move the cursor to choose different digit. Press "Up" and "Down" key to change the digit value, after the input of Shortcut Code, press the center key to enter the corresponding pages.
  • Page 56 Tip "SCREEN WRONG" setting screen instructions when the number exceeds the limit or chose not to support the screen Different connection types are also different codes, detailed shortcut code corresponding to the screen, please follow this swift code table: 1. Single Phase Out(1LN) Note "*"...
  • Page 57 Reactive Power Demand 20301~20318 prediction, Reactive Power Demand Peak and happening time Apparent Power Demand 20401~20418 prediction, Apparent Power Demand 1~18 Demand Peak and happening time 20501~20518 Current demand Current Demand prediction, 20601~20618 Current Demand Peak and happening time Digital 30101~30108 DI Status Input and...
  • Page 58 Note:  Acurev2010 only include active power demand; *: The instrument is Acurev2010, enter an asterisk zone function code when prompted SCREEN WRONG 2. Three Phase 4 Out(3LN) Description: 3LN number of screens begin to run from 21 to distinguish 1LN, 2LN Note "*"...
  • Page 59 Phase A this month tariff 3 12801~12818 energy, Phase A this month tariff 4 energy. Phase A prior month total energy, Phase A prior month 12901~12918 tariff 1energy, Phase A prior month tariff 2 energy. Phase A prior month tariff 3 13001~13018 energy, Phase A prior month tariff 4 energy...
  • Page 60 Phase C prior month total energy, Phase C prior month 13701~13718 tariff 1energy, Phase C prior month tariff2 energy. Energy (No Phase C prior month tariff 3 Time of Use, 13801~13818 energy, Phase C prior month 1~18 only real- tariff 4 energy time energy) 13901~13918 Total reactive energy...
  • Page 61 Phase A Reactive Power Demand prediction, Phase A 22701~22718 Reactive Power Demand Peak and happening time Phase B Reactive Power Demand prediction, Phase B 22801~22818 Reactive Power Demand Peak and happening time Phase C Reactive Power Demand prediction, Phase C 22901~22918 Reactive Power Demand Peak and happening time...
  • Page 62 Phase B Current Demand prediction, Phase B Current 23601~23618 Demand Peak and happening time Demand 1~18 Phase C Current Demand prediction, Phase C Current 23701~23718 Demand Peak and happening time 30101~30108 DI Status Digital Input and Digital Channel 30201~30208 RO Status Output 30301~30308 DI Pulse Input related...
  • Page 63 Harmonic of Phase A 52601~52618 Current(2nd ~7th) Harmonic of Phase A Current 52701~52718 (8th~13th) Harmonic of Phase A Current 52801~52818 (14th~19th) Harmonic of Phase A Current 52901~52918 (20th~25th) Harmonic of Phase A 53001~53018 Current(26th~31st) Harmonic of Phase B Current 53101~53118 (2nd ~7th) Harmonic of Phase B 53201~53218...
  • Page 64 Note:  Acurev 2010 only include active power demand;  Acurev 2010 only include active power *: The instrument is Acurev2010, enter an asterisk zone function code when prompted SCREEN WRONG 3. Single Phase 3 Out(2LN) Description: 2LN number of screens begin to run from 61 to distinguish 1LN, 3LN Note '*' to indicate that only Acurev2020 meter has feature Note the "#"...
  • Page 65 Phase A this month total energy, Phase A this month 16701~16718 tariff 1energy, Phase A this month tariff 2 energy. Phase A this month tariff 3 16801~16818 energy, Phase A this month tariff 4 energy. Phase A prior month total energy, Phase A prior month 16901~16918 tariff 1energy, Phase A prior...
  • Page 66 System active power demand, 26101~26118 System reactive power demand,  System apparent power demand 26201~26218 Phase A,B, active power demand Phase A Real Power Demand prediction, Phase A Real Power 26301~26318 Demand Peak and happening time Phase B Real Power Demand prediction, Phase B Real Power 26401~26418 Demand Peak and happening...
  • Page 67 27101~27118 Phase A,B, Current demand Phase A Current Demand prediction, Phase A Current 27201~27218 Demand Peak and happening Demand 1~18 time Phase B Current Demand prediction, Phase B Current 27301~27318 Demand Peak and happening time 30101~30108 DI Status Digital Input and Digital Channel 30201~30208...
  • Page 68 Harmonic of Phase A Current 56601~56618 (8th~13th) Harmonic of Phase A Current 56701~56718 (14th~19th) Harmonic of Phase A Current 56801~56818 (20th~25th) Harmonic of Phase A 56901~56918 Current(26th~31st) Harmonic of Phase B Current Power Quality 1~18 57001~57018 (2nd ~7th) Harmonic of Phase B 57101~57118 Current(8th~13th) Harmonic of Phase B Current...
  • Page 69 Screen Function Users Code Content Note Number 10100 System active energy 10200 Phase A,B C active energy System this month total energy. System this month 10300 tariff 1energy, System this month tariff 2 energy. System this month tariff 3 10400 energy, System this month tariff 4 energy.
  • Page 70 Phase B this month total energy. Phase B this month 11100 tariff 1energy, Phase B this month tariff 2 energy. Phase B this month tariff 3 11200 energy, Phase B this month tariff 4 energy. Phase B prior month total energy, Phase B prior month 11300 tariff 1energy, Phase B prior...
  • Page 71 System active power demand, System reactive power demand, 20100 System apparent power demand  (Acurev2010 only has active power demand) Phase A, B, C active power 20200 demand Phase A Real Power Demand prediction, Phase A Real Power 20300 Demand Peak and happening time Phase B Real Power Demand prediction, Phase B Real Power...
  • Page 72 Phase A,B,C Apparent power 21000 demand Phase A Apparent Power Demand prediction, Phase A 21100 Apparent Power Demand Peak and happening time Phase B Apparent Power Demand prediction, Phase B 21200 Apparent Power Demand Peak and happening time Phase C Apparent Power Demand prediction, Phase C 21300 Apparent Power Demand Peak...
  • Page 73 40300 Phase A, B, C, Active Power 40400 Phase A, B, C, Reactive Power 40500 Phase A, B, C, Apparent Power 40600 Phase A, B, C, Power Factor 40700 Phase A, B, C, Current Real-time Inline 40800 Phase A, B, C phase voltage 40900 Phase A, B, C average of phase voltage 41000...
  • Page 74 Harmonic of Phase A 51200 Current(26th~31st) Harmonic of Phase B Current 51300 (2nd ~7th) Harmonic of Phase B 51400 Current(8th~13th) Harmonic of Phase B Current 51500 (14th~19th) Harmonic of Phase B 51600 Current(20th~25th) Harmonic of Phase B Current 51700 (26th~31st) Harmonic of Phase C Current 51800 (2nd ~7th)
  • Page 75 3.7 Power quality display and key operation For AcuRev 2010, no power quality menu. In the second page of the main menu, select "PQ" (quality), press the "OK" button to begin the display of power quality data. “Left “and “right” keys to select a different user or into the line, “up”...
  • Page 76 PQ SET NET INFO User 01 HARMONIC I User 01 HARMONIC I User 01 THD I User 01 K Factor 2nd-7th harmonic 8th - 13th harmonic SUM ODD EVEN ratio ratio User 01 HARMONIC I User 01 HARMONIC I User 01 HARMONIC I 26th - 31st harmonic 20th - 25th harmonic 14th - 19th harmonic...
  • Page 77 3. Single phase 3 Out(2LN) PQ SET NET INFO User 01 THD Ia User 01 THD Ib User 01 K Factor User 01 UNBL I SUM ODD EVEN SUM ODD EVEN User 01 HARMONIC Ia User 01 HARMONIC Ia User 01 HARMONIC Ia User 01 HARMONIC Ia User 01 HARMONIC Ia 26th - 31st harmonic...
  • Page 78 3.8. Basic settings and key operation In the second page of the main menu, select “SET”, press the “OK” button, the password inquiry is passed, display language setting interface, the "OK" key to activate the cursor, the cursor is activated, the cursor blinks. When the cursor is not activated, the arrow keys to scroll;...
  • Page 79 PQ SET NET INFO Password P04 Extended P02 communication P03 RS485 Baud P05 Energy pulse P01 language serial baud rate address Rate and checksum constant setting and parity bit P10 DI channel P09 Demand period P08 Demand P07 DO pulse P06 Pulse width triggering Second cycle...
  • Page 80 Select the channel number: For each user corresponding physical channel mapping, mapping relationship in the following table. Parameter Corresponding physical channel Setting Channel 1 Channel 1 Channel 1 Channel 2 Channel 2 Channel 2 Channel 3 Channel 3 Channel 3 Channel 4 Channel 4 Channel 4...
  • Page 81: Network Settings

    Channel 10 Channel 13 Channel 10 Channel 13 Channel 16 Channel 11 Channel 14 Channel 11 Channel 14 Channel 17 Channel 12 Channel 15 Channel 12 Channel 15 Channel 18 3.9 Network Settings In the second page of the main menu, select “NET”, press ”OK” button to enter the password screen, the password authentication is passed into the network settings screen.
  • Page 82: Meter Information And Key Operation

    Network module. Network settings only apply to network module, after setting each network module needs to be reset before work. 3.10 Meter information and key operation In the second page of the main menu, select "INFO" (message), press the "OK" button to start the meter information display.
  • Page 83: Chapter 4 Functions And Software

    Chapter 4 Functions and Software 4.1 Basic Parameter Functions 4.2 IO Functions 4.3 Demand 4.4 Energy 4.5 Sequence of Events(SOE) 4.6 Over/Under Limit Alarming 4.7 System Event 4.8 Trending Record 4.9 Seal Function 4.10 Device Information...
  • Page 84 This chapeter introduces AcuRev 2000 Utility Software. Figure 4-1 AcuRev 2000 Utility Software interface General Setting, users and CTsetting must be configured properly in order to have AcuRev 2000 operate normally. Figure 4-2 General Settings in the software...
  • Page 85 Energy pulse output setting: energy pulse settings include Pulse Constant and Pulse Width. Pulse Constant's range is 500-20000, Pulse Width range is 20-100ms. In practical applications, Pulse Constant and Pulse Width should be set according to the system's real power, otherwise it will influence the system's energy accuracy. Pulse Period = 3600000 /(Real Power x Pulse Constant) Pulse Period >...
  • Page 86 Figure 4-3 User and CT Settings display About user name and the corresponding channel are described below: a) The user name can be customized ,supports up to six (only supports letters and numbers) b) correspondence between the 101-118 refers to the physical channel 1-18 road 301/201- 306/206 phase refers to the user's physical channel corresponding...
  • Page 87: Basic Parameter Functions

    All the other setting operations should follow this as well. 4.1 Basic Parameter Functions The basic parameters measured in the AcuRev 2000 are voltage, current, power, etc. Th e base module only displays power, including sytem power, inline A, B, C power, and each tenant's power.
  • Page 88 Figure 4-4 AcuRev 2020 Basic Measurment Parameter Display Note: the“user”above is optional, select the user name to be displayed,The user divides the screen into two parts: the upper part is the inline power, the lower part is the user power. When wiring is set differently, gray data is invalid.
  • Page 89: Io Functions

    4.2 IO Functions Figure 4-5 DI/RO As Figure 4-5 shows, AcuRev 2000 has 4 Relay Outputs (RO), 8 Digital Inputs (DO). Please refer to Figure 4-6 for DI/RO related settings. Each channel RO can be configured as Relay Control or Alarm Output.
  • Page 90 4. Energy Clear 5. Running Hour Clear 6. Battery Runtime Clear 7. System Parameter Change 8. Initialized Energy Set 9. TOU Energy Change 10. System Clock Change 11. Reversed Power Direction 12. DI Pulse Counter Clear These 12 events can enable the output of Relay 1 to Relay 4 for alarming. The time delay for alarming signal is 1-60000 s (the Relay Output status will latch for that amount of time).
  • Page 91 (Category multiplied with the count number). The display panel displays the number corresponding to the pulse, as well as the calculated value. For instance, if set 10 pulses = one count, one count represents 5 kWh. When 100 pulses are input, the display panel will display Number = 100/10=10, 10*5=50 kWh. Figure 4-6 DI/RO and System Event alarming setup...
  • Page 92: Demand

    DO Function AcuRev 2000 has 4 DO output 2-channel energy pulse output, the two channel can be used to send out independant energy pulses (see Appendix B), Pulse Constant, Pulse Width can be set. Tenant Number, Pulse Constant and Pulse Width settings can be implemented as Figure 4-2 shows.
  • Page 93 Figure 4-7 Demand...
  • Page 94: Energy

    Display Demand, Max Demand, Max Demand Time, Demand Prediction (update per second) of the real power. The users is selective. The users divides the software window into two parts, the upper part indicates the demand related parameters, the lower part indicates the demand of each individual tenant.
  • Page 95 Figure 4-8 Energy Displays real-time energy, this month TOU energy, prior month TOU energy, individual tenant real-time energy, this month individual tenant TOU energy, prior month individual tenant energy, Critial-peak, On-peak, Mid-peak, Off-peak energy reading. If TOU energy...
  • Page 96 measurement is not enabled, it displays real-time energy only. The user divides the screen into two parts, the upper part indicates inline energy parameters, the lower part indicates the individual tenant energy parameters. Figure 4-9 Time of Use setting...
  • Page 97 TOU energy settings are in Figure 4-9. Season: the maximum season number is 14.If the season number is smaller than the programmed season number, the energy meter only utilizes the first seasons (for instance, if the season number is 2, it only runs the first 2 seasons). Schedule: the maximum schedule number is 8.If the schedule number is set as 3, the 4th to the 14th schedules will be unavailable.
  • Page 98 Daylight saving time (DST): Daylight saving time can be enabled in one of two formats: The fixed date option, or a fixed day of one of the weeks in the month (also named as the non- fixed date option). if you choose a fixed date option, you set the format according to a fixed date, for the daylight saving time switch: the format month / day / hour / minute / adjust time (in minutes).
  • Page 99 Holiday Settings (10 year)", then a holiday table for the next decade will be generated. Holiday Auto Switch: When Ten-year Holiday is enabled, if the current year of the meter falls into the Ten-year Holiday setting, it automatically loads the Ten year Holiday settings into the current TOU settings.
  • Page 100: Sequence Of Event

    4.5 Sequence of Events(SOE) Figure 4-12 SOE in software When DI is used as remote signal detection, it will record SOE. SOE is when DI circuits detect the change of the signal voltage level, it records the channel , the event and the event's timestamp.
  • Page 101: Over/Under Limit Alarming

    4.6 Over/Under Limit Alarming Figure 4-13 Alarming in software...
  • Page 102 Alarming records alarming timestamp, alarming parameter, over/under limit value, alarming status and alarming condition. Users can setup alarming conditions in "Alarm Setup". The maximum alarming record is 20. Note: The alarming threshold value is not a real measured value, it is the percetage of real measured value over rated value.
  • Page 103 Set up alarming rule, including alarming parameter, alarming condition, alarming target, delay time (ms) and alarming output. Energy and alarm switch can be set at the same time. Current rating and voltage rating are the load's current and voltage ratings. (Current rating relates to transformer type, such as CT-20 transformer current rating is 5A) The maximum alarming condition can be set as 10.
  • Page 104: System Event

    4.7 System Event Log Figure 4-15 System Event Log...
  • Page 105: Trending Record

    In order to have the user understand meter's history, the meter provides trending record function, which is logging a group of data with a preset time interval. AcuRev 2000 has 8 MB of memory, which is used for logging the historic trending. The meter has a system clock therefore, all of the trending records have a timestamp when they are created.
  • Page 106 Figure 4-16 Trending Log #1 Configuration Different contents can be added into 3 logs to meet users' requirements. For example, log #1 can be configured as basic parameter measurement (such as Power), log #2 can be configured as energy measurement, log # 3 can be configured as demand measurement.
  • Page 107 1. Real-Time Metering(Incoming), 2. Real-Time Metering(User), 3. Demand(Incoming), 4. Demand(User), 5. Energy(Real-Time Incoming), 6. Energy(Current Month TOU-Incoming), 7. Energy(Prior Month TOU-Incoming), 8. Energy(Real Time-User) Inline real-time parameters: Users can set different parameters from the 8 categories. Generally, one trending record needs the following settings: 1)8 categories;...
  • Page 108 4)Log sector size setup: The log sector size can be selected between 0 and 100. Make sure the total sector number of the 3 logs does not exceed 100. 5)Select the corresponding trend recording mode. Note: • If logging Timer mode is selected as Mode 2, when the memory is full, no more records will be logged.
  • Page 109: Seal Function

    deviation number from the first record. Window Record Number is 246 / Record Size, users can retrieve no larger than this number of records by pressing "Read One Window" button. In automatic retrieve mode, the software retrieves all the Used Records in the memory automatically.
  • Page 110 Address Parameter Description 8AFH Sealed Nonstandard Bit0: RS485 communication parameters and Parameters Selection infrared communication parameters Bit1: network parameters Bit2: Clear Meter Run Time Bit3: DI pulse counting Bit4: TOU Bit5: RO 1: valid of corresponding selection 0: invalid of corresponding selection 8B0H Seals status 0x0A: Seal sealed;...
  • Page 111 80EH DI Triggering Condition √ √ 835H Reactive Power √ √ 836H VAR/PF Convention √ √ 837H-Bit0 Clear energy data √ √ 837H-Bit1 Clear demand data √ √ 842H user01 Mappings √ √ 846H user02 Mappings √ √ 84AH user03 Mappings √...
  • Page 112 88DH Channel 5 CT Specifications √ √ 88EH Channel 6 CT Specifications √ √ 88FH Channel 7 CT Specifications √ √ 890H Channel 8 CT Specifications √ √ 891H Channel 9 CT Specifications √ √ 892H Channel 10 CT Specifications √...
  • Page 113 250AH-250BH Channel 2 real-time energy √ 250CH-250DH Channel 3 real-time energy √ 250EH-250FH Channel 4 real-time energy √ 2510H-2511H Channel 5 real-time energy √ 2512H-2513H Channel 6 real-time energy √ 2514H-2515H Channel 7 real-time energy √ 2516H-2517H Channel 8 real-time energy √...
  • Page 114 2B02H-2B03H Eqin-B inline Phase B Reactive Power √ Energy 2B04H-2B05H Eqin-C inline Phase C Reactive Power √ Energy 2B06H-2B07H Eqin-S inline system Reactive Energy √ 2B08H-2B2BH Tenant 1-18 real-time Reactive Power √ Energy 2B2CH-2B2DH Tenant 1 real-time system Reactive Power √...
  • Page 115 2) When bit 1 of address 8AFH is valid, parameters about Network parameters should be blocked. Address Parameter Keys Communication Reset and restore the default values √ √ 102H DHCP setting √ √ 103H √ √ IP address 1st byte (high) IP address 2nd byte (low) 104H IP address 3rd byte (high)
  • Page 116 Address Parameter Keys Communication 837H-Bit6 Battery run time clear √ √ 837H-Bit5 Meter run time clear √ √ 4) When bit 3 of address 8AFH is valid, parameters below should be blocked. Address Parameter Keys Communication 80FH DI Working Mode √...
  • Page 117 10B0H-10D9H √ 10DAH-1229H √ 122AH-1283H √ Current TOU energy 2600H-2627H In-line Current TOU energy √ 2628H-2717H Each channel Current TOU energy √ DST setting 4000H DST enable √ 4001H DST format √ 4002H DST Start Mon √ 4003H DST Start Day √...
  • Page 118 4017H DST Ending Adjust time (Unit: Min) √ Ten years holiday setting 4100H Holiday setting enable √ 4101H Start year holiday setting √ 4102H End year holiday setting √ The 1st year holiday setting 4103H-415EH Holiday Parameter setting √ The 2nd year Holiday setting 415FH-41BA Holiday Parameter setting √...
  • Page 119 829H Relay Control Mode √ √ 82AH Relay Control Momentary Time √ √ 82BH Alarming Feature √ √ 82CH 1-10 Alarming Channel √ Each event alarm is sent to RO feature √ 82DH bit. 2 bytes represent 16 events sent to RO feature RO alarming, each one of the first 8 √...
  • Page 120: Device Information

    4.10 Device Information Figure 4-18 Device Information...
  • Page 121: Chapter 5 Communication

    Chapter 5 Communication 5.1 Modbus Protocol Introduction 5.2 Modbus Communication Format 5.3 Ethernet communication 5.4 Application Details and Parameter Address Table...
  • Page 122 AcuRev 2000 supports Modbus communication protocols. The infrared port supports field meter reading; The meter supports 10/100 M Ethernet port, protocols are Modbus TCP, SMTP, HTTP, SNMP, SNTP 5.1 Modbus Protocol Introduction 1.Transmission mode The mode of transmission defines the data structure within a frame and the rules used to transmit data.
  • Page 123 Frame Format Address Function Data Check 8-Bits 8-Bits N×8-Bits 16-Bits Table 5-1 Data Frame Format Address Field The address field is at the start of the frame. It is composed of 1 byte (8 bits), its decimal value range is 0-247. A master addresses a slave by placing the slave address in the address field of the message.
  • Page 124 Data Field Data field contains the data that terminals need to complete the request and the data that terminals respond to the request. This data may be a numerical value, address or setting. For example, Function Code tells the terminal to read one register, Data Field needs to specify reading from which register and how many registers to read.
  • Page 125 contents. The result is shifted towards the least signifcant bit (LSB), with a zero filled into the most signifcant bit (MSB) position. The LSB is extracted and examined, if the LSB equals to 1, the register is exclusive ORed with a preset, fixed value; if the LSB equals to 0, no action will be taken.
  • Page 126 1. Read Relay Output status(Function Code 01) Query The master device sends query frame to the salve deivce. Function Code 01 allows users to acquire the relay output status (1=ON, 0=OFF) of the slave device with the specified address. On top of slave device address and function code, query frame must contain the relay register starting address and the number of registers to be read.
  • Page 127 2. Read the status of DI (Function Code 02) Query On top of slave device address and function code, query frame must contain the digital input register starting address and the number of registers to be read. DI register address starts from 0000H(DI1=0000H, DI2=0001H, DI3=0002H, DI4=0003H).
  • Page 128 , Inline C real-time energy (these parameters are dword data type, each parameter uses 2 addresses, each address uses 2 bytes). AcuRev 2000 Inline A real-time energy address is 2500H, 2501H; Inline B real-time energy address is 2502H, 2503H; Inline C real-time energy is 2504H, 2505H.
  • Page 129 4. Control Relay Output (Function Code 05) Query This query frame forces the relay status to ON or OFF. Data FF00H sets the relay as ON, and data 0000H sets the relay as OFF. The relay will not be influenced by any other data input The following is to query slave device 17 to set relay status as ON.
  • Page 130 The example below is a request to preset device address of 17's channel #1's real-time energy as 12345.6 kWh. AcuRev 2000 energy is raw data multiplied by 0.1 kWh, therefore, the value written into the register should be 123456, hex format is 01E240H.
  • Page 131: Ethernet Communication

    5.3 Ethernet communication 5.3.1 Introduction to Ethernet Ethernet was originally developed by Xerox and then developed further by Xerox, DEC, and Intel. Ethernet uses a Carrier Sense Multiple Access with Collision Detection (CSMA/CD) protocol, and provides transmission speeds up to 10 Mbps. Now Ethernet stands for LAN with CSMA/CD protocol.
  • Page 132 5.3.3 Definition of RJ45 Interface The Ethernet module uses a standard RJ45 connector to access the Ethernet network. The mechanical and electrical characteristics of the connectors comply with the requirements of IEC 603-7. Figure 5-1 Script Content Tranceive Data+ Tranceive Data- Receive Data+ Not connected Not connected...
  • Page 133 LED_L (yellow): displays speed status. LED on indicates 100Mbps, while LED off indicates 10Mbps. LED_R (green): displays link and activity status combined. LED on indicates link status, while flashing LED indicates activity status. 5.3.4 Cable Shielded twisted-pair cable (standard 568A or standard 568B) is usually recommended as reference to the EIA/TIA standard.
  • Page 134 1. Pressing “” key and “” key simultaneously on the meter will go to the menu selecting mode. Cursor “E” flashes in this mode. E D IO MUL M Figure 5-2 2. Press “” key or “  ” key to move the cursor to “NET”. Press “OK” key to go to the Ethernet module setting mode.
  • Page 135 4. Set IP Address in the second setting page, such as 192.168.1.21 as shown below. Press the “OK” key to go to the IP setting page. The cursor starts at the first digit. After setting the IP address, press the “OK” key to accept. Press the “” key again to go to the third setting page for Subnet Mask.
  • Page 136 to go to the setting page. The cursor starts at the first digit. After setting the DNS Primary Server, press the “OK” key to accept. Press the “” key to go to the sixth setting page for DNS Secondary Server. Note: the DNS parameters must be set correctly to use the SMTP functions.
  • Page 137 Modbus TCP/IP Port 0502 Figure 5-8 10. Set HTTP port in the eighth setting page, such as 80. Press the “OK” key to go to the setting page. The cursor starts at the first digit. After setting the HTTP port, press the “OK” key to accept.
  • Page 138 5.3.7 Searching IP Address of Ethernet Module The utility software of AcuRev 2000 series meter supports a meter search function.Users can use this function to obtain IP and MAC addresses of Ethernet Modules.
  • Page 139 Figure 5-11 3) Utility software pop-ups “Search Device(s)” window, and the window displays IP address and MAC address of module.
  • Page 140 Figure 5-12 Note:This function is used only in LAN, not used in WAN or direct connect to computer. 5.3.8 Description of Modbus-TCP protocol The Modbus-TCP protocol is used for communication in Ethernet modules. The protocol sets up master/slave link in Ethernet. First, master device (client) sets up TCP link with slave device (server).
  • Page 141 Request Indication Modbus Client Modbus Server Confirmation Response Figure 5-13 1. Protocol a. Data Frame Format Table 5-15 MBAP Header Function Data 7x8-Bits 8-Bits Nx8-Bits b. Modbus Application Header (MBAP Header) Field The Modbus application header field is the start of the data frame and consists of seven bytes.
  • Page 142 Table 5-17 Code Meaning Action Read Relay Output Status Obtain current status of Relay Output Read Digital Input(DI) Status Obtain current status of Digital Input Read Data Obtain current binary value in one or more registers Control Single Relay Output Force Relay to a state of on or off Place specific value into a series of consecutive Write Multiple-registers...
  • Page 143 Data #of regs lo: number of register low byte a. Read Status Relay (Function Code 01) Function Code 01 This function code is used to read relay status in AcuRev 2000 series meter. 1=On 0=Off There are 8 Relays in the meter, and the starting address is 0000H.
  • Page 144 Data #of regs lo Response The AcuRev 2000 series meter response includes MBAP Header, function code, quantity of data byte and the data. For example response to read the status of Relay 1 and Relay 2 is shown as Table 5-6. The status of Relay 1 and Relay 2 is responding to the last 2 bit of the data.
  • Page 145 The data value FF00H will set the Relay on and the value 0000H will turn it off; all other values are invalid and will not affect that relay. The example below is a request to AcuRev 2000 series meter address 1 to turn on Relay 1. Table 5-22 Control Relay Query Message...
  • Page 146 Function code 16 allows the user to modify the contents of a Multi-Register. The example below is a request to an AcuRev 2000 series meter address 1 to Preset CT1 (500) and CT2 (5). CT1 data address is 1008H, and CT2 data address is 1009H.
  • Page 147 Data #of regs hi Data #of regs lo Users may refer to the sixth chapter “Communication” and get the details of AcuRev 2000 series meter. When using Modbus/TCP function, it is best to set the Scan interval of the software to under 1000 ms.
  • Page 148 Figure 5-14 2. Module Status Webpage By selecting the "Module Status" link, users can view the status and change the settings of the Ethernet module. Figure 5-15...
  • Page 149 3. Settings Webpage By selecting the "Settings" link, users can access "Network Settings", "Mail Settings", "Webpage Settings", "Load Default" and "Password Setting". When accessing the "Settings" link, users will be prompted to enter a password. The default password is 12345678. a.
  • Page 150 The default value of Modbus-TCP port is 502, and the user defined range is 2000~5999. The default value of HTTP port is 80, and the user defined range is 6000~9999. In SNTP setting section, there are four contents:  SNTP Enable, enable SNTP function. ...
  • Page 151 Note: Mail Server part includes "SMTP Server", "User Name" and "Password". For the "SMTP Server" users can input either domain name such as "mail.accuenergy.com" or an IP address such as "222.128.6.73" which is from "mail.accuenergy.com" resolved. A user name and...
  • Page 152 Figure 5-18...
  • Page 153 Figure 5-19 e. “Management" webpage Figure 5-20: "Management" webpage. Users can easily update the software online by selecting the updated file, which can be got from Accuenergy Corporation. The "Reboot NET module" option resets the module itself. IP Address:192.168.1.254 Subnet Mask:255.255.255.0 Gateway:192.168.1.1...
  • Page 154 MODBUS Port: 502 HTTP Port: 80 Figure 5-20 f. “Password Setting” Webpage Figure 5-21: “Password Setting” webpage.To change the password, users need to input the current password first. Figure 5-21...
  • Page 155 Volts AN, I A, Watt A of inline and each user. "Demand" webpage includes the demand data for Acurev 2000 series meter, such as real- time value, predictive value, maximum value and the maximum value timestamp of inline and each user.
  • Page 156 Figure 5-22 5.3.10 Email Function The Ethernet module supports SMTP protocol, which provides email capabilities. Before sending emails, users must set their own DNS Server. Please refer to "Network settings"which includes DNS Server setting. Please note, as per 3.c of Section 5.3.9, there are three modes users can select. The first is "Trigged Sending", which means once new events happen, users can receive email notifications immediately.
  • Page 157 MG-SOFT Corporation. We will not supply MG-SOFT MIB Browser Professional with our meters. 1. Compile MIB After installed MG-SOFT MIB Browser Professional, you can load Acurev 2000.mib file by MIB Compiler, which is one part of MG-SOFT MIB Browser Professional.
  • Page 158 Figure 5-23...
  • Page 159 Using F7 on keyboard to compile this MIB,then select ACCUENERGY-MIB,select Save. Figure 5-24 After successfully adding Acurev 2000 MIB,there should show ACCUENERGY-MIB in MIB Modules, which OID is 1.3.6.1.4.1.39604.
  • Page 160 Figure 5-25 2. Load ACCUENERGY-MIB Opening MIB Browser, which is part of MG-SOFT,select MIB Table, then load ACCUENERGY- MIB from MIB Modules,unload unnecessary MIBs from Loaded MIB modules.
  • Page 161 Figure 5-26 3. Contact SNMP Agent Change to Quer y Label,input IP address under Remote SNMP agent,such as 192.168.1.249,select Contact button , if the SNMP agent works on this IP, it will return like this,...
  • Page 162 Remote address: 192.168.1.249 port: 161 transport: IP/UDP Local address: 192.168.1.126 port: 3592 transport: IP/UDP Protocol version: SNMPv1 1: [Loaded: RFC-1215] sysUpTime.0 (timeticks) 0 days 20h:11m:50s.23th (7271023) Figure 5-27...
  • Page 163 4. Walk the MIB Right Click on the tree root, then expand MIB,find Acurev 2000 OID, right click to select walk , then query whole acurev 2000 MIB. Figure 5-28...
  • Page 164 QUERY returns like these, ***** SNMP QUERY STARTED ***** 1: phaseVoltageA.0 (integer) 0 2: phaseVoltageB.0 (integer) 0 3: phaseVoltageC.0 (integer) 0 4: averagePhaseVoltage.0 (integer) 0 5: lineVoltageAB.0 (integer) 30540 ……………. 582: user16MappingRelationships.0 (integer) 272 583: user17Name.0 (octet string) user17 [75.73.65.72.31.37 (hex)] 584: user17MappingRelationships.0 (integer) 273 585: user18Name.0 (octet string) user18 [75.73.65.72.31.38 (hex)] 586: user18MappingRelationships.0 (integer) 277...
  • Page 165 Request binding: 1: phaseVoltageA.0 (null) null Response binding: 1: phaseVoltageA.0 (integer) 0 Figure 5-29...
  • Page 166 5.3.12 SNTP Function Ethernet communication supports SNTP (Simple Network Time Protocol) protocol, so meters can get update time to Coordinated Universal Time (UTC). Please find the SNTP Settings – Network Settings by Internet Explorer, Figure 5-30...
  • Page 167: Application Details And Parameter Address Table

    5.4 Application Details and Parameter Address Table 1. Data Type "Bit"is binary value; "Word" is 16-bit unsigned integer, using one register address, 2 bytes. The data range is 0-65535. "int"is 16-bit signed integer, using one register address, 2 bytes. The data range is -32768- 32767.
  • Page 168 Parameter Relationship Unit System Parameter, Status, The communication value No Unit Parameter equals the real value Meter and Battery runtime T=Rx/100 Hour The communication value Real-time Clock, Timestamp Time Unit equals the real value Ep: kWh Energy E=Rx/10(A decimal) Eq: kvarh Es: kVAh Dp: kW The communication value...
  • Page 169 3. Parameter Address Table System Settings Users should thoroughly understand the system settings as they contribute to the meter operation mode. The details on system settings can be found in Chapter 4. Function Code 10H: Write, 03H: Read Date Address Parameter Property Range...
  • Page 170 DO1 Energy 808H Pulse Output See Appendix B word setting DO1 Energy 809H Pulse Output Same as above word setting 0: Sliding Window Demand 1: Rolling Window 80AH word calculation 2: Fixed Window 3: Thermal Primary 80BH Demand 1-30 minutes word Window Secondary...
  • Page 171 1: t(ton) 2: m3(cubic meter) 820H-827H DI Unit, x8 3: kWh word 4: (RMB) 5: $(US Dollar) bit0-bit3 correspond to RO1- Relay Output 828H word Working Mode 0: Relay Control 1: Alarming bit0-bit3 correspond to RO1- Relay Control 829H word Mode 0: Latching 1: Momentary...
  • Page 172 2 Bytes. Every 2 bit RO alarming, correspond to each one of the one event, the RO number is: 82EH first 8 events 00 RO1 word corresponds to 01 RO2 RO settings 10 RO3 11 RO4 2 Bytes. Every 2 bits correspond to one event, the RO number is: Same as above,...
  • Page 173 VAR/PF 0: IEC 836H word Convention 1: IEEE Clear all data 837H digits to clear all See Appendix word records bit0-bit7 correspond to DI1- DI Pulse Counter 838H DI8, 1 means clearing the word clear counter 839H-83EH 645 Address word user01 user 83FH-841H User name(6 ASCII)
  • Page 174 High byte: 0: The display module does not display the user 1: The display module displays the user Low byte: 846H Mappings 0x0102 Word 0: Disable 1-18: The corresponding physical channel 19-24: corresponding channel 1-6 three-phase users user03 user 847H-849H user name (6 ASCII) user03 Word name...
  • Page 175 High byte: 0: The display module does not display the user 1: The display module displays the user Low byte: 84EH Mappings 0x0104 Word 0: Disable 1-18: The corresponding physical channel 19-24: corresponding channel 1-6 three-phase users user05 user 84FH-851H user name (6 ASCII) user05 Word name...
  • Page 176 High byte: 0: The display module does not display the user 1: The display module displays the user Low byte: 856H Mappings 0x0106 Word 0: Disable 1-18: The corresponding physical channel 19-24: corresponding channel 1-6 three-phase users user07 user 857H-859H user name (6 ASCII) user07 Word name...
  • Page 177 High byte: 0: The display module does not display the user 1: The display module displays the user Low byte: 85EH Mappings 0x0108 Word 0: Disable 1-18: The corresponding physical channel 19-24: corresponding channel 1-6 three-phase users user09 user 85FH-861H user name (6 ASCII) user09 Word name...
  • Page 178 High byte: 0: The display module does not display the user 1: The display module displays the user Low byte: 866H Mappings 0x010a Word 0: Disable 1-18: The corresponding physical channel 19-24: corresponding channel 1-6 three-phase users user11 user 867H-869H user name (6 ASCII) user11 Word name...
  • Page 179 High byte: 0: The display module does not display the user 1: The display module displays the user Low byte: 86EH Mappings 0x010c Word 0: Disable 1-18: The corresponding physical channel 19-24: corresponding channel 1-6 three-phase users user13 user 86FH-871H user name (6 ASCII) user13 Word name...
  • Page 180 High byte: 0: The display module does not display the user 1: The display module displays the user Low byte: 876H Mappings 0x010e Word 0: Disable 1-18: The corresponding physical channel 19-24: corresponding channel 1-6 three-phase users user15 user 877H-879H user name (6 ASCII) user15 Word name...
  • Page 181 High byte: 0: The display module does not display the user 1: The display module displays the user Low byte: 87EH Mappings 0x0110 Word 0: Disable 1-18: The corresponding physical channel 19-24: corresponding channel 1-6 three-phase users user17 user 87FH-881H user17 Word name High byte:...
  • Page 182 High byte: 0: The display module does not display the user 1: The display module displays the user Low byte: 886H Mappings 0x0112 Word 0: Disable 1-18: The corresponding physical channel 19-24: corresponding channel 1-6 three-phase users Load voltage 887H Default 220V Word rating setting...
  • Page 183 Channel 5 CT 88DH Same as above Word Specifications Channel 6 CT 88EH Same as above Word Specifications Channel 7CT 88FH Same as above Word Specifications Channel 8 CT 890H Same as above Word Specifications Channel 9 CT 891H Same as above Word Specifications Channel 10 CT...
  • Page 184 89BH-8ACH Reserved Restore the default 0: no action parameters 0xAA: Restore factory settings 8ADH (User name Note: The recovery zone for the Word and mappings, user name, CT specifications, and CT wiring three-phase wiring specifications) A decade setting 8AEH 1: Enable active Word load enable Bit0: RS485 communication...
  • Page 185 Reserve Clear Clear Clear Clear Clear SOE Clear Clear this battery meter event alarm records demand month and runtime runtime records records historical energy Meter and Battery Runtime Function Code 03: Read. Data Type: Word Address Parameter Property Range Default Data Type Meter 1050H-1051H...
  • Page 186 Code 03: Read. Function Code 16: Write. Address Parameter Property Range Default Data Group 1: 105BH Parameter 0~352 Integer Number 1: larger than Group 1: 105CH 2: equal to Integer Comparison 3: smaller than Group 1: Set 105DH Related percentage Integer Value Group 1:...
  • Page 187 Group 10 1088H-108CH The same as Group 1 Integer setup Time of Use Parameter Setup Before time of address 109F is the basic parameters for the setting, then the time zone, time tables and holidays specific settings. Up to 14 time zones, eight times tables, 14 hours, 30 holidays. Two error status word is used to indicate that when parameter setting wrong Function Code 03: Read, Function Code 10: Write Data...
  • Page 188 TOU Energy 1: special day 109AH monthly settle Word 0: end of month TOU Energy 109BH Special Day 1~28 Word settle up: Day TOU Energy 109CH Special Day 0~23 Word settle up: Time TOU Energy 109DH Word Enable TOU Energy reset 109EH Word to factory...
  • Page 189 Season 7(month, 10C2H- Day, Schedule Word 10C4H Table Number) Season 8(month, 10C5H-10C7H Day, Schedule Word Table Number) Season 9(month, 10C8H-10CAH Day, Schedule Word Table Number) Season 10(month, 10CBH-10CDH Day, Schedule Word Table Number) Season 11(month, 10CEH-10D0H Day, Schedule Word Table Number) Season 12(month, 10D1H-10D3H Day, Schedule...
  • Page 190 Schedule Table 1, 3rd schedule 10E0H-10E2H Word (Hour, Minute, Tariff Number) Schedule Table 1, 4th schedule 10E3H-10E5H Word (Hour, Minute, Tariff Number) Schedule Table 1, 5th schedule 10E6H-10E8H Word (Hour, Minute, Tariff Number) Schedule Table 1, 6th schedule 10E9H-10EBH Word (Hour, Minute, Tariff Number) Schedule Table...
  • Page 191 Schedule Table 1, 11th schedule 10F8H-10FAH Word (Hour, Minute, Tariff Number) Schedule Table 1, 12th schedule 10FBH-10FDH Word (Hour, Minute, Tariff Number) Schedule Table 1, 13th schedule 10FEH-1100H Word (Hour, Minute, Tariff Number) Schedule Table 1, 14th schedule 1101H-1103H Word (Hour, Minute, Tariff Number) Schedule Table 2,...
  • Page 192 Schedule Table 6, 1st-14th schedule The same as Schedule Table 11ACH-11D5H Word (Hour, Minute, Tariff Number) Schedule Table 7, 1st-14th schedule The same as Schedule Table 11D6H-11FFH Word (Hour, Minute, Tariff Number) Schedule Table 8, 1st-14th schedule The same as Schedule Table 1200H-1229H Word (Hour, Minute,...
  • Page 193 The 6th Holiday(Month, 1239H-123BH Word Day, Schedule Number) The 7th Holiday(Month, 123CH-123EH Word Day, Schedule Number) The 8th Holiday(Month, 123FH-1241H Word Day, Schedule Number) The 9th Holiday(Month, 1242H-1244H Word Day, Schedule Number) The 10th Holiday(Month, 1245H-1247H Word Day, Schedule Number) The 11th Holiday(Month, 1248H-124AH...
  • Page 194 The 14th Holiday(Month, 1251H-1253H Word Day, Schedule Number) The 15th Holiday(Month, 1254H-1256H Word Day, Schedule Number) The 16th Holiday(Month, 1257H-1259H Word Day, Schedule Number) The 17th Holiday(Month, 125AH-125CH Word Day, Schedule Number) The 18th Holiday(Month, 125DH-125FH Word Day, Schedule Number) The 19th Holiday(Month, 1260H-1262H...
  • Page 195 The 22nd Holiday(Month, 1269H-126BH Word Day, Schedule Number) The 23rd Holiday(Month, 126CH-126EH Word Day, Schedule Number) The 24th Holiday(Month, 126FH-1271H Word Day, Schedule Number) The 25th Holiday(Month, 1272H-1274H Word Day, Schedule Number) The 26th Holiday(Month, 1275H-1277H Word Day, Schedule Number) The 27th Holiday(Month, 1278H-127AH...
  • Page 196 The 30th Holiday(Month, 1281H-1283H Word Day, Schedule Number) Weekend Bit7 Bit6 Bit5 Bit4 Bit3 Bit2 Bit1 Bit0 1: Work 0: Rest Reserved Saturday Friday Thursday Wednesday Tuesday Monday Sunday Tariff parameter error word 1(basic parameter) Bit7 Bit6 Bit5 Bit4 Bit3 Bit2 Bit1 Bit0...
  • Page 197 Log1 register 1302H~1376H #1-#117 0-65535 Word identifier High 4 bit: data Log1 register type 1377H~13B1H #1-#117 Byte Low 4 bit: data descriptors length 0: Mode 1 log mode 13B2H 1: Mode 2 Word selection 2: Mode 3 Starting Year/ 13B3H Word Month Starting Day/...
  • Page 198 For example, register 4102H and 4103H are configured as a specific record, the corresponding descriptor is 2, the software can display content as "Frequency” Trending log setting includes: Log1 Setting, Log2 Setting, Log3 Setting. 1300H-13BFH (Log1) 13C0H-147FH (Log2) 1480H-153FH (Log3) Range: each record uses 192 registers (384 bytes) Trending record setting: 1300H –...
  • Page 199 Logging Interval: the time interval between two records. the unit is minute. The range is 0-1440. (when it is set as 0, logging will be disabled) 2. Parameter Address Register: 1302H-1376H Size: One parameter uses one, two or three Modbus register addresses, in total there are 117 addresses.
  • Page 200 or 2 or 3. For example: If the first descriptor is 2, the second descriptor is 1, then the first two Modbus addresses belong to the first ,the third Modbus address belong to the second descriptor . Note: From the above example can be seen between the register list and the descriptor is not one to one, a record register property may correspond to two recording parameter register address.
  • Page 201 Byte Parameter Year Month Hour Minute Second Trending Log Status Trending Log Status describes the current status of each record. Data Address Parameter Property Range Type Logging 1 Max 3C00H~3C01H 0-468100 dword record Logging 1 Used 3C02H~3C03H 0-468100 dword Record Logging 1 Record 3C04H 14-246...
  • Page 202 Logging 3 Used 3E00H~3E01H 0-468100 dword Record Logging 3 Record 3E02H~3E03H 0-468100 dword Size 3E04H Reserved 14-246 word Logging 3 First 3E05H Record Time Logging 3 Last 3E06H~3E08H word Record Time Logging 3 Used 3E09H~3E0bH word Record Max Record: the maximum number of records the log can record based on the given Record Size and Sector Number.
  • Page 203 Status: Window Status indicates the data status of the current window. It may exceed the time delay 1 second when AcuRev 2000 is preparing for a one window size data. This byte represents the data effectiveness, if the window records are not effective, the data will be ignored.
  • Page 204 bH Window Status effective FFH Window Status not effective aaH Data Log erasing in operation bbH Data Log erasing not in operation Offset: this parameter is configurable. In order to read all the records of one log, users can just modify this offset value. When the data is retrieved, the first data is locked, so offset 0 is always pointed at the first data.
  • Page 205 For example, log 1 uses 3 sectors, each sector saves 448 records, in total there will be 1344 records. When the user retrieves the data when 1340 records are used, the first sector of log 1 will be erased without being retrieved. Data Retrieve Example •...
  • Page 206 2. Set the max record number and Offset to the meter. Initially the Offset is 0. In this example, set 0x0A0B and 0x0000 to 0x3B01 and 0x3B02. 3. Read the Window Status from 0x3B01, if the status says 0xFF, then go to step 2 to set max record number and Offset again.
  • Page 207 IL3(Phase C inline 2016H-2017H float current) Iavg(Average 2018H-2019H float Current) Pin-s inline system 201AH-201BH float real power Qin-s inline system 201CH-201DH float reactive power Sin-s inline system 201EH-201FH float apparent power PFin-s inline system 2020H-2021H float power factor Inline System Load 2022H-2023H float Nature...
  • Page 208: Reactive Power

    PFin-A inline A 2036H-2037H float power factor PFin-B inline B power 2038H-2039H float factor PFin-C inline C power 203AH-203BH float factor 203CH-203DH A inline load nature float 203EH-203FH B inline load nature float 2040H-2041H C inline load nature float 2100H-2101H I1(Channel 1 Current) float P1(Channel 1 Real 2102H-2103H...
  • Page 209 Channel 7 The same as Channel 2148H-2153H float Measurement 1 59-63 Channel 8 The same as Channel 2154H-215FH float Measurement 1 64-68 Channel 9 The same as Channel 2160H-216BH float Measurement 1 69-73 Channel 10 The same as Channel 216CH-2177H float Measurement 1 74-78...
  • Page 210 Ss1(Channel 1 3-phase 4-line/single-phase 21DCH-21DDH float 3-line total apparent power) PFs1(Channel 1 3-phase 4-line/single- 21DEH-21DFH float phase 3-line total power factor) Nature of the load (Channel 1 3-phase 21E0H-21E1H 4-line/single-phase float 3-line nature of the load) Same as to Channel Channel 2 1 3-phase 4-line / 21E2H-21EBH...
  • Page 211 Energy The decimal place for energy is 1, the real value is communication value divided by 10.The unit is kWh. Real-time energy and this month TOU energy is editable, but the prior month TOU energy cannot be edited. The data type is double word, each parameter uses two register address, 4 bytes.
  • Page 212 Channel 3 real- 250CH-250DH dword time energy Channel 4 real- 250EH-250FH dword time energy Channel 5 real- 2510H-2511H dword time energy Channel 6 real- 2512H-2513H dword time energy Channel 7 real- 2514H-2515H dword time energy Channel 8 real- 2516H-2517H dword time energy Channel 9 real- 2518H-2519H...
  • Page 213 Channel 1 3-phase 4-line / single- 252CH-252DH phase 3-line real- dwod time system active power energy Channel 2 3-phase 4-line / single- 252EH-252FH phase 3-line real- dwod time system active power energy Channel3 3-phase 4-line / single- 2530H-2531H phase 3-line real- dwod time system active power energy...
  • Page 214: Pin-A Inline Phase A

    Data Address Parameter Property Range Default Type Inline this month TOU energy 2600H- Epin-S inline system dwod 2601H this month TOU energy Epin-S inline system 2602H- this month TOU energy dwod 2603H (tariff 1) Epin-S inline system 2604H- this month TOU energy dwod 2605H (tariff 2)
  • Page 215: Pin-B Inline Phase B

    Epin-B inline Phase 2614H- B this month TOU dwod 2615H enery(total) Epin-B inline Phase B 2616H- this month TOU enery dwod 2617H (tariff 1) Epin-B inline Phase B 2618H- this month TOU enery dwod 2619H (tariff 2) Epin-B inline Phase B 261AH- this month TOU enery dwod...
  • Page 216 2628H- Channel 1 this month dwod 2629H TOU energy (total) 262AH- Channel 1 this month dwod 262BH TOU energy (Tariff 1) 262CH- Channel 1 this month dwod 262DH TOU energy (Tariff 2) 262EH- Channel1 this month dwod 262FH TOU energy (Tariff 3) 2630H- Channel1 this month dwod...
  • Page 217 Channel 9 this month 2678H- TOU energy –The same dwod 2681H as Channel 2 Channel 10 this month 2682H- TOU energy –The same dwod 268BH as Channel 1 Channel 11 this month 268CH- TOU energy –The same dwod 2695H as Channel Channel 12 this month 2696H- TOU energy –The same...
  • Page 218 Channel 1 3-phase 4-line 26DCH- / single-phase 3-line dwod 26DDH system this month TOU energy(total) Channel 1 3-phase 4-line 26DEH- / single-phase 3-line dwod 26DFH system this month TOU energy(tariff 1) Channel 1 3-phase 4-line 26E0H- / single-phase 3-line dwod 26E1H system this month TOU energy(tariff 2)
  • Page 219 Channel 4 3-phase 4-line/ single-phase 3-line data- 26FAH- The same as to Channel dwod 2703H 1 3-phase 4-line / single- phase 3-line data Channel 5 3-phase 4-line/ single-phase 3-line data- 2704H- The same as to Channel dwod 270DH 1 3-phase 4-line / single- phase 3-line data Channel 6 3-phase 4-line/ single-phase 3-line data-...
  • Page 220 Epin-S inline system prior 2906H-2907H dwod month TOU energy (tariff 3) Epin-S inline system prior 2908H-2909H dwod month TOU energy (tariff 4) Epin-A inline Phase 290AH-290BH A prior month TOU dwod energy (total) Epin-A inline Phase 290CH-290DH A prior month TOU dwod energy (tariff 1) Epin-A inline Phase...
  • Page 221 Epin-B inline Phase 291AH-291BH B prior month TOU dwod energy (tariff 3) Epin-B inline Phase 291CH-291DH B prior month TOU dwod energy (tariff 4) Epin-C inline Phase 291EH-291FH C prior month TOU dwod energy (total) Epin-C inline Phase 2920H-2921H C prior month TOU dwod energy (tariff 1) Epin-C inline Phase...
  • Page 222 Channel 1 prior 292EH-292FH month TOU energy dwod (Tariff 3) Channel 1 prior 2930H-2931H month TOU energy dwod (Tariff 4) Channel 2 prior month TOU energy 2932H-293BH dwod –The same as Channel 1 Channel 3 prior month TOU energy 293CH-2945H dwod –The same as Channel 1...
  • Page 223 Channel 8 prior month TOU energy 296EH-2977H dwod –The same as Channel 1 Channel 9 prior month TOU energy 2978H-2981H dwod –The same as Channel 1 Channel 10 prior month TOU energy 2982H-298BH dwod –The same as Channel 1 Channel 11 prior month TOU energy 298CH-2995H dwod...
  • Page 224 Channel 16 prior month TOU energy 29BEH-29C7H dwod –The same as Channel 1 Channel 17 prior month TOU energy 29C8H-29D1H dwod –The same as Channel 1 Channel 18 prior month TOU energy 29D2H-29DBH dwod –The same as Channel 1 Channel 1 3-phase 4-line/single- 29DCH-29DDH phase 3-line prior...
  • Page 225 Channel 1 3-phase 4-line/single- 29E4H-29E5H phase 3-line prior dwod month system TOU energy(Tariff 4) Channel 2 3-phase 4-line/single-phase 3-line data-The 29E6H-29EFH same as to Channel dwod 1 3-phase 4-line / single-phase 3-line data Channel 3 3-phase 4-line/single-phase 3-line data-The 29F0H-29F9H same as to Channel dwod 1 3-phase 4-line /...
  • Page 226 Channel 6 3-phase 4-line/single-phase 3-line data-The 2A0EH-2A17H same as to Channel dwod 1 3-phase 4-line / single-phase 3-line data Reactive Energy Data Address Parameter Property Range Default Type Inline Reactive Power Energy Eqin-A inline Phase 2B00H- A Reactive Power dwod 2B01H Energy Eqin-B inline Phase...
  • Page 227 2B2EH- Tenant 2-6 Reactive 2B37H Power Energy data Apparent Energy Data Address Parameter Property Range Default Type Inline Apparent Energy 2B38H- Eqin-A inline Phase A dwod 2B39H Apparent Energy 2B3AH- Esin-B inline Phase B dwod 2B3BH Apparent Energy 2B3CH- Esin-C inline Phase C dwod 2B3DH Apparent Energy...
  • Page 228 2D00H- Pin-s-dema inline float 2D01H system demand PinS inline system 2D02H- power demand float 2D03H prediction Pin-s-dema-max 2D04H- inline system float 2D05H demand peak Pin-s-time inline Year, Month, 2D06H- system demand Day, Hour, word 2D08H peak times Minute, Second Qin-s-dema inline 2D09H- system reactive float...
  • Page 229 Sin-s-dema-max 2D16H- inline system float 2D17H apparent demand peak Sin-s-time inline Year, Month, 2D18H- system apparent Day, Hour, word 2D1AH demand peak times Minute, Second IL1-dema(Phase 2D1BH- A inline current float 2D1CH demand) Phase A inline 2D1DH- current demand Float 2D1EH prediction IL1-dema-...
  • Page 230: Qina Inline Phase A Reactive Power R

    Qin-A-dema inline 2D2DH- phase A reactive float 2D2EH power demand QinA inline phase 2D2FH- A reactive power float 2D30H demand prediction Qin-A-dema- 2D31H- max inline phase float 2D32H A reactive power demand peak Qin-A-time inline Year, Month, 2D33H- phase A reactive Day, Hour, word 2D35H...
  • Page 231 2D87H- Channel 1 demand Same as phase A 2DAAH data demand 173-180 2DABH- Channel 2 demand Same as phase A 2DCEH data demand 181-188 2DCFH- Channel 3 demand Same as phase A 2DF2H data demand 189-196 2DF3H- Channel 4 demand Same as phase A 2E16H data...
  • Page 232 2FC7H- Channel 17 demand Same as phase A 2FEAH data demand 301-308 2FEBH- Channel 18 demand Same as phase A 300EH data demand 309-316 The same as to inline system Channel 1 3-phase demand(active 300FH- 4-line/single-phase demand, reactive 3029H 3-line total demand power demand, apparent demand) 317-322...
  • Page 233 The Power Quality parameters include Unbalance Factor, Total Harmonic Distortion, Crest- Factor Current K-Crest, Telephone interference factor and 2nd-31st harmonic data. 2010 does not measure power quality parameters. The power quality parameter data type is Integer. Each parameter uses 4 bytes (high bytes followed by low bytes). Function Code 03: read.
  • Page 234 3203H U3 or U31 THD-U3 word 3204H Voltage THD average word U1 or U12 2nd 3205H word harmonic U1 or U12 3rd 3206H word harmonic …… …… word U1 or U12 31st 3222H word harmonic U2 or U23 2nd 3223H word harmonic U2 or U23 3rd...
  • Page 235 U1 Telephone 3263H Word harmonic form factor U2 Odd harmonic 3264H Word distortion U2 Even harmonic 3265H Word distortion 3266H U2 crest factor Word U2 Telephone harmonic 3267H Word form factor U3 Odd harmonic 3268H Word distortion U3 Even harmonic 3269H Word distortion...
  • Page 236 Channel 3 Current Even 32A7H Word harmonic distortion Channel 3 Current 32A8H Word K-Factor Channel 4 Current Odd 32A9H Word harmonic distortion Channel 4 Current Even 32AAH Word harmonic distortion Channel 4 Current 32ABH Word K-Factor Channel 5 Current Odd 32ACH Word harmonic distortion...
  • Page 237 Channel 8 Current 32B7H Word K-Factor Channel 9 Current Odd 32B8H Word harmonic distortion Channel 9 Current Even 32B9H Word harmonic distortion Channel 9 Current 32BAH Word K-Factor Channel 10 Current 32BBH Odd harmonic Word distortion Channel 10 Current 32BCH Even harmonic Word distortion...
  • Page 238 Channel 13 Current 32C4H Odd harmonic Word distortion Channel 13 Current 32C5H Even harmonic Word distortion Channel 13 Current 32C6H Word K-Factor Channel 14 Current 32C7H Odd harmonic Word distortion Channel 14 Current 32C8H Even harmonic Word distortion Channel 14 Current 32C9H Word K-Factor...
  • Page 239 Channel 17 Current 32D0H Odd harmonic Word distortion Channel 17 Current 32D1H Even harmonic Word distortion Channel 17 Current 32D2H Word K-Factor Channel 18 Current 32D3H Odd harmonic Word distortion Channel 18 Current 32D4H Even harmonic Word distortion Channel 18 Current 32D5H Word K-Factor...
  • Page 240 339BH- Channel 6 current Same as Channel 1 word 33B9H harmonic data 33BAH- Channel 7 current Same as Channel 1 word 33D8H harmonic data 33D9H- Channel 8 current Same as Channel 1 word 33F7H harmonic data 33F8H- Channel 9 current Same as Channel 1 word 3416H...
  • Page 241 Channel 2 3-phase 4-line/single – 352FH word phase 3-line current unbalance Channel 3 3-phase 4-line/single – 3530H word phase 3-line current unbalance Channel 4 3-phase 4-line/single – 3531H word phase 3-line current unbalance Channel 5 3-phase 4-line/single – 3532H word phase 3-line current unbalance Channel 6 3-phase...
  • Page 242 High byte: Alarm Channel 1-10 Group 1: Alarm Bit0 3700H word State 1: Alarm happening 0: Alarm recovery Group 1: 3701H Parameter 0-352 word Number Group 1: 3702H Over limit or word restoration value 3703H- Group 1: Year, Month, Day, Hour, word 3709H Happening Time...
  • Page 243 Event number 3808H currently being 1-100 word read SOE Record When an event happens, SOE records the DI state and its time of occurrence. Each time only one SOE record can be read, via current SOE record setting, it can save up to 20 SOE records.
  • Page 244 Newest SOE record 3909H 1-20, 0 means null word number SOE record number 390AH 1-20 word being read DI Pulse Counter and Value DI can query the number of counts 1-8, pulse count value, pulse count value is the number of the set pulse count value obtained by multiplying the pulse counting dimension, plus get the value of units.
  • Page 245 3A0EH- DI8 Pulse Counter dword 3A0FH 3A10H- DI1 Pulse Counter float 3A11H 3A12H- DI2 Pulse Counter float 3A13H 3A14H- DI3 Pulse Counter float 3A15H 3A16H- DI4 Pulse Counter float 3A17H 3A18H- DI5 Pulse Counter float 3A19H 3A1AH- DI6 Pulse Counter float 3A1BH 3A1CH-...
  • Page 246 0001 1: ON, 0: OFF 0002 1: ON, 0: OFF 0003 1: ON, 0: OFF Daylight saving time setting Function Code 03 to read; function code 10 to write. Address Parameter Property Range Default Data type 0: disable 4000H DST enable word 1: enable 0: format 1...
  • Page 247 DST Ending 400BH Adjust time 1-120 word (Unit: Min) DST Start 400CH 1-12 word 0: Sunday DST Start 400DH 1~6 Monday word week Saturday DST Start 400EH First few word weeks DST Start 400FH 0-23 word Hour 4010H DST Start Min 0-59 word DST Start...
  • Page 248 DST Ending 4016H 0-59 word DST Ending 4017H Adjust time 1-120 word (Unit: Min) Ten Years Holiday Setting Function Code 03 to read; function code 10 to write. Data Address Parameter Property Range Default Type 0: disable 4100H Holiday setting enable 1: enable word 0-99...
  • Page 249 The 5th 410FH- Holiday(Month, Day, 00:00 0 4111H Schedule Number) The 6th 4112H- Holiday(Month, Day, 00:00 0 4114H Schedule Number) The 7th 4115H- Holiday(Month, Day, 00:00 0 4117H Schedule Number) The 8th 4118H- Holiday(Month, Day, 00:00 0 411AH Schedule Number) The 9th 411BH- Holiday(Month, Day,...
  • Page 250 The 15th 412DH- Holiday(Month, Day, 00:00 0 412FH Schedule Number) The 16th 4130H- Holiday(Month, Day, 00:00 0 4132H Schedule Number) The 17th 4133H- Holiday(Month, Day, 00:00 0 4135H Schedule Number) The 18th 4136H- Holiday(Month, Day, 00:00 0 4138H Schedule Number) The 19th 4139H- Holiday(Month, Day,...
  • Page 251 The 25th 414BH- Holiday(Month, Day, 00:00 0 414DH Schedule Number) The 26th 414EH- Holiday(Month, Day, 00:00 0 4150H Schedule Number) The 27th 4151H- Holiday(Month, Day, 00:00 0 4153H Schedule Number) The 28th 4154H- Holiday(Month, Day, 00:00 0 4156H Schedule Number) The 29th 4157H- Holiday(Month, Day,...
  • Page 252 4273H- The same as to first 42CEH year The 6th year Holiday setting 42CFH- The same as to first 432AH year The 7th year Holiday setting 432BH- The same as to first 4386H year The 8th year Holiday setting 4387H- The same as to first 43E2H year...
  • Page 253: Appendix

    Appendix Appendix A Technical Data and Specification Appendix B Pulse Output Settings Appendix C Ordering Information Appendix D TP900 meter reader Instructions Appendix E Version Information...
  • Page 254 Appdenxi A Technical Data and Specifications 1. Input Voltage Input Voltage Rating 400Vac L-N, 690Vac L-L CAT III Overload 1500Vac Continuously; 2500Vac, 50/60Hz 1 minute Input Impedance 2MΩ / phase Frequency Range 45Hz-65Hz PT Burden <0.2VA Current Input (Direct Input or Via CT) Via CT Solid Core CT, 20A, 80A, 150A, 200A Direct Input...
  • Page 255 2.Measurement Parameter Accuracy ±(%rdg) Resolution Range Real Energy 0.01kWh 0~999999.9kwh Voltage 0.5% 0.1V 10~400V Current 0.5% 0.001A 5mA~10000A Real Power 0.1var 4000.0kW Reactive Power 0.1VA 4000.0kvar Apparent Power 0.1VA 4000.0kVA Power Factor 0.001 -1.000~1.000 Frequency 0.2% 0.01Hz 45~65Hz Power Demand 0.1W 4000.0kW Current Demand...
  • Page 256 DI Power Supply (24V) Voltage 24 Vdc Power Relay Output(RO) Voltage 250 Vac, 30 Vdc Load Current Set Time 10 ms(Max) Contact Resistance 100 mΩ(Max) Isolation Voltage 2500 V Mechanical Life 1.5×10 4.Power Supply Power Supply 100-415Vac, 50/60Hz; 100-300Vdc Burden 5.Environment Operation Temperature -25°C-70°C...
  • Page 257: Appendix B Pulse Output Setup

    Appendix B Pulse Output Setup Set Value Output(Active energy pulse output circuit) No Output Channel1 single-phase Channel 2 single-phase Channel 3 single-phase Channel 4 single-phase Channel 5 single-phase Channel 6single-phase Channel 7 single-phase Channel 8 single-phase Channel 9 single-phase Channel 10 single-phase Channel 11 single-phase Channel 12 single-phase Channel 13 single-phase...
  • Page 258 Channel 6 3-phase 4-line user/ Single-phase 3-line user total Inline total Inline A phase Inline B phase Inline C phase...
  • Page 259: Appendix C Ordering Information

    Appendix C Ordering Information AcuRev 2000 D: Embedded display Display E: External Display Protocol MODBUS: Modbus-RTU DLT645 protocol Ethernet NC: None NET : with Ethernet port 0RO: No RO 4RO: 4 Relay Output 0DI: No DI 8DI: 8DI(including 15V DI power supply) 1EM: 1 EM module, 9 single phase input max.
  • Page 260 Current Transformer Solid Core CCT- CCT-20 : Full Range 20A CCT-80 : Full Range 80A Type CCT-150 : Full Range 150A CCT-200 : Full Range 200A SCT- SCT-20 : Full Range 20A SCT-80 : Full Range 80A Type SCT-150 : Full Range 150A SCT-200 : Full Range 200A SCT-250 : Full Range 250A SCT-1000 : Full Range 1000A...
  • Page 261 CCT-20/CCT-80 Type Φ Height(mm) Length(mm) Width(mm) Dimensions CCT-20 Figure-a CCT-80 Figure-b...
  • Page 262 CCT-150/CCT-200 Type Φ Height(mm) Length(mm) Width(mm) Dimensions CCT-150 63.5 Figure-c CCT-200 63.5...
  • Page 263 SCT-20/SCT-80/SCT-150/SCT-200 Front View Type Height ( mm) Length (mm) Width (mm) Dimensions Φ SCT-20 SCT-80 Figure-c SCT-150 SCT-200...
  • Page 264 SCT-250/SCT-1000 Type Φ Height(mm) Length(mm) Width(mm) Dimensions SCT-250 Figure-d SCT-1000...
  • Page 265: Appendix D Tp900 Meter Reader Instructions

    Appendix D TP900 meter reader Instructions AcuRev 2000 series meters support on-site infrared meter reader, meter reading before, meter reader and meter needs for simply setup, and then use the TP900 meter reader reads the brightest active energy values. 1. TP900 meter reader settings Boot into the main menu, as shown in Figure 1.
  • Page 266 6. File Manager 7. Exec Program 8. Power Off 9. Help Figure 4 2, on-site infrared meter reading AcuRev 2000 infrared meter reader default baud rate is 1200bps,open the TP900 meter reader, enter the interface, as shown in Figure 5...
  • Page 267 ACCUENERGY Input user number: (RANGE 1~28) Figure 5 After the” Input user number:” input user number, the value range from 1 to 28, 1 to 28 are read values in Table 1 have the following meanings. User Energy Channel 1 single-phase active energy value...
  • Page 268 Channel 6 three phase/single –three phase total active energy value Inline total active energy value Inline Phase A active energy value Inline Phase B active energy value Inline Phase C active energy value AcuRev 2000 user number:5 energy::5.0kWh address:012345678999 Figure 6 After input user number, press "ENTER"...
  • Page 269: Appendix E Revision History

    Appendix E Revision History Version Date Description V1.01 2012.04.20 edition V1.02 2012.08.08 P95:Add the range of measured values V2.01 2013.08.02 1. Add the network module content 2. Redefining wiring, the user name 3. CT mix to increase user functionality 4. Improve Measurement Accuracy of Meter 5.
  • Page 270 Your Power and Automation Partner! Accuenergy Corporation Toronto - Los Angeles - Beijing North American Toll Free: 1-877-721-8908 Email: support@accuenergy.com Web: www.accuenergy.com...

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