AccuEnergy AcuRev 1310 Series User Manual Download Page 12 | Manualshive

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www.accuenergy.com

V: 1.0 Revised: Jan. 2018

AcuRev 1310

10

DIN-Rail Power Meter

Before Installation

The installation must be performed by qualified, competent accredited professionals who has
received formal training and has experience with high voltage and current devices. Appropriate
safety wear (gloves, glasses, arc flush suit, etc.) is mandatory to ensure safe installation.

During normal meter operation, caution should be used when handling the following as high volt

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age may be present:

•

Terminal Blocks

•

Current/Potential Transformer leads and the related circuits

•

All primary and secondary circuits may contain lethal current and voltage.

•

Contact with current channels must be avoided.

✓

The power meter and I/O modules cannot be installed on the primary side of transformers or
where VA has limitations. The power meter can be only installed on the secondary side. Avoid
contact with meter terminals after the completion of installation.

✓

Do not supply input voltage above the rated maximum limit of the power meter and devices
connected to it. Before energizing the meter, please refer to the meters label and specifica

-

tions.

✓

Do not perform high voltage test or insulation experiments to output, input or communication

terminals.

✓

The use of shorting blocks and fuses are recommended. Current transformers need to be
grounded (5A/1A).

✓

Use dry cloth to wipe the meter.

This chapter mainly describes the installation process of the AcuRev 1310 series meter, which is a
very important step in using the meter correctly. This chapter provides information and diagrams
about how to install the meter. Before installing the meter, please read through this section first.

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Summary of Contents for AcuRev 1310 Series

Page 1: ...AcuRev 1310 DIN Rail Power Meter User s Manual ...

Page 2: ...Copyright 2017 V1 00 This manual may not be altered or reproduced in whole or in part by any means without the expressed written consent of Accuenergy ...

Page 3: ...de warning of danger or risk during the installation and operation of the meters Electric Shock Symbol Carries information about procedures which must be followed to reduce the risk of electric shock and danger to personal health Safety Alert Symbol Carries information about circumstances which if not considered may result in injury or death Prior to maintenance and repair the equipment must be de...

Page 4: ... Chapter 3 Operation and Application 26 3 1 Display Panel and Keys 27 3 2 Display Mode and Key Operations 28 3 2 1 Important parameter display mode 28 3 2 2 All parameter display mode 28 3 2 Parameter Display and Key Operations 29 3 4 Settings and Operations 32 3 4 1 Settings Mode 32 3 5 Meter Configuration 35 3 5 1 Initial Setup 35 Chapter 4 Functions Functions and Software 39 4 1 Introduction to...

Page 5: ...m 60 4 6 2 Reading the Alarm 60 4 7 Incorrect Connection Detection 61 4 8 Sealing Function 62 4 9 Device Information 65 Chapter 5 Communication 66 5 1 Modbus Protocol Information 67 5 1 1 Transmission Mode 67 5 1 2 Frame 67 5 2 Communication Format 68 5 3 Application Details 70 5 3 1 Data Types 70 5 3 2 Relationship between Communication value and Real value 70 5 3 3 Parameter Address Table 71 App...

Page 6: ...ter 2 introduces the AcuRev 1310 installation and wiring methods in detail Chapter 3 walks through how to operate the AcuRev 1310 via the display panel display measurement data and parameter settings Chapter 4 introduces main functions with the included software Chapter 5 introduces communication related information including communication pro tocol format and parameter address table Appendix prov...

Page 7: ...AcuRev 1310 DIN Rail Power Meter Chapter 1 Introduction 1 1 Meter Overview 1 2 Areas of Application 1 3 Product Features ...

Page 8: ...ring input power output power Measurement Function The AcuRev 1310 series meters provides real time RMS measurement of the instantaneous Voltage Current Power Frequency and Power Factor All measurements can be viewed through the meter display as well as the AcuRev 1310 Utility Software Demand This product provides demand measurement of Current Active Power Reactive Power and Apparent Power It also...

Page 9: ...installation The appearance and dimension of the AcuRev 1310 series meter is designed in accor dance with the IEC 35mm DIN standard Clear Display The AcuRev 1310 series features a clear display to provide visibility in all environments All measurement parameters can be found and easily accessed through the display The LCD display has backlight support that can aid users in weak lighting environmen...

Page 10: ...tems as well as both three phase three wire systems and three phase four wire systems Users can choose the appropriate wiring configuration for the AcuRev 1310 series meter The AcuRev 1310 series meter can be used for single phase systems as well Wiring Check The AcuRev 1310 series meter has a connection error feature that helps to reduce wiring errors ...

Page 11: ...AcuRev 1310 DIN Rail Power Meter Chapter 2 Installation 2 1 Appearance and Dimensions 2 2 Installation Methods 2 3 Wiring ...

Page 12: ...be installed on the primary side of transformers or where VA has limitations The power meter can be only installed on the secondary side Avoid contact with meter terminals after the completion of installation Do not supply input voltage above the rated maximum limit of the power meter and devices connected to it Before energizing the meter please refer to the meters label and specifica tions Do no...

Page 13: ...ised Jan 2018 Chapter 2 Installation 11 108 0 90 0 35 5 45 4 62 5 7 0 17 5 15 0 Front View Side View Unit mm Figure 2 1 AcuRev 1310 Front Display Figure 2 2 AcuRev 1310 meter Front and Side Dimensions 2 1 Appearance and Dimensions ...

Page 14: ... the meter operates in extremely high or extremely low tem peratures AcuRev 1310 storage temperature range is 40 85 C Humidity 5 to 95 non condensing Location AcuRev 1310 series meter should be installed in a dry and dust free environment Avoid expos ing the meter to excessive heat radiation and high electrical noise sources Installation Steps This product is DIN railed mounted and fits on a stand...

Page 15: ...mplete installation Figure 2 4 Step B 2 3 Wiring The terminals of the AcuRev 1310 series can be accessed by first removing the terminal covers on the meter 1 To open the terminal cover remove the seal if applicable and then unscrew the sealing screws and lift the cover upwards to remove Figure 2 5 Removing terminal cover ...

Page 16: ...to the groove first and then press down onto the right side see Figure 2 6 When in stalled correctly you will hear a clicking sound To attach the top cover place the right side of the cover down into the groove and press down onto the left side Figure 2 6 Attaching terminal cover onto meter 3 3 After inserting the cover tighten the sealing screws and place the seal Figure 2 7 ...

Page 17: ...V1 V2 V3 VN Current Inputs I11 I12 I21 I22 I31 I32 I41 I42 Relay Output R1 R2 2 3 2 Auxiliary Power Supply The AcuRev 1310 series meter requires a power supply of 100 415 Vac at 50 60 Hz For use of other power supply voltage selections please contact the manufacturer The meter typically has small power consumption less than 1W so the power supply can be an independent power supply or can also be o...

Page 18: ... Please make sure to select an appropriate PT to maintain the measurement accuracy of the AcuRev 1310 series meter When connecting using the WYE configuration wiring method the PT s rated input or primary side rated voltage should be equal to or close to the phase voltage of the system to utilize the full range of the PT being used When connecting using the Delta configuration wiring method the PT...

Page 19: ...of the CT loop should be connected to the ground when 5A 1A output CTs When using mV RCT and mA CT s the secondary leads must not be grounded Vn Connection Vn is the reference point of the AcuRev 1310 series meter voltage input Low wire resistance helps improve the measurement accuracy Different system wiring modes require different Vn connection methods Please refer to the wiring diagram section ...

Page 20: ...V LN 208V LL 240V LN 415V LL Figure 2 10a AcuRev 1314 3LN wiring diagram using 5A 1A CTs Note AcuRev 1314 RCT current input does not support neutral current measurement Figure 2 10b Acurev 1311 1312 1313 3LN wiring diagram using 5A 1A CTs A B C N LINE 1A FUSE I11 I12 I21 I22 I31 I32 I41 I42 VN V3 V2 V1 AcuRev 1310 LOAD Terminal Block A B C N LINE 1A FUSE I11 I12 I21 I22 I31 I32 I41 I42 VN V3 V2 V1...

Page 21: ...re required if the system voltage is higher than 690V LL Instead of connecting the voltage lines directly to the meter the voltage lines are connected to the meter using PTs The PTs should be connected as shown below Note Only two PTs are needed for this connection A B C N LINE 1A FUSE I11 I12 I21 I22 I31 I32 VN V3 V2 V1 AcuRev 1310 LOAD Terminal Block 1 2 3 4 5 6 10 9 8 7 Terminal Block A B C LIN...

Page 22: ...d Rogowski Coil CTs Direct Connection without PT s Terminal Block A B C LINE 1A FUSE I11 I12 I21 I22 I31 I32 I41 I42 VN V3 V2 V1 AcuRev 1310 LOAD A B C LINE 1A FUSE I11 I12 I21 I22 I31 I32 I41 I42 VN V3 V2 V1 AcuRev 1310 LOAD Terminal Block Figure 2 11c 3LN 3 phase delta no neutral wiring diagram using 5A 1A CTs ...

Page 23: ... phase with 2 lines and a neutral The wiring mode is set to 1LL Two CT s needed for this connection Common Voltage 120V LN 240V LL A B C LINE 1A FUSE I11 I12 I21 I22 I31 I32 VN V3 V2 V1 AcuRev 1310 LOAD Terminal Block 1 2 3 4 5 6 10 9 8 7 Figure 2 12a 1LL wiring diagram using 5A 1A and CT s A N B LINE 1A FUSE I11 I12 I21 I22 I31 I32 I41 I42 VN V3 V2 V1 AcuRev 1310 LOAD Terminal Block ...

Page 24: ... phase with one line and a neutral The wiring mode is set to 1LN One CT needed for this connection Common Voltage for this connection 120V Figure 2 13a AcuRev 1314 Model 1LN using 5A 1A CT A N LINE 1A FUSE I11 I12 I21 I22 I31 I32 I41 I42 VN V3 V2 V1 AcuRev 1310 LOAD Terminal Block A N B LINE 1A FUSE I11 I12 I21 I22 I31 I32 I41 I42 VN V3 V2 V1 AcuRev 1310 LOAD ...

Page 25: ...E I11 I12 I21 I22 I31 I32 I41 I42 VN V3 V2 V1 AcuRev 1310 LOAD Terminal Block A N LINE 1A FUSE I11 I12 I21 I22 I31 I32 VN V3 V2 V1 AcuRev 1310 LOAD Terminal Block 10 9 8 7 Figure 2 13b AcuRev 1311 1312 1313 Model 1LN using 5A 1A CT Figure 2 13c 1LN using 333mV mA and Rogowski Coil CT ...

Page 26: ...ccuenergy com V 1 0 Revised Jan 2018 AcuRev 1310 24 DIN Rail Power Meter 2 3 5 Relay Output Wiring Diagram Figure 2 14 Relay Output Wiring Diagram R1 R2 Relay Output V L Auxiliary Power Supply G N com 220Vac ...

Page 27: ...ve communication quality use the following A High quality Shielded Twisted Pair cable is very important AWG22 0 6mm2 or lower is recommended Pay attention to single point earthing This means that there is only one side for the shield to be connected to the ground in a communication link Every A should be connected to A B to B or it will influence the network even damage the communication interface...

Page 28: ...wer Meter Chapter 3 Operation and Application 3 1 Display Panel and Keys 3 2 Display Mode and Key Operations 3 3 Parameter Display and Key Operations 3 4 Settings and Operations 3 5 Meter Configuration 3 6 Energy Pulse Output ...

Page 29: ...ive power display Indicates the first to fourth quadrant reactive power 7 Import icon right arrow Displays the energy consumed Export icon left arrow displays the energy generated 8 Load type Inductance icon Inductive load Capacitor icon Capacitive load 9 unit Unit of the parameter being displayed 1 2 3 4 5 6 7 8 9 In this chapter users will be introduced to the interface of the AcuRev 1310 meter ...

Page 30: ...will display on the screen for 6 seconds When the SCROLL key is pressed in this display mode it will lock the cur rent page for a minute and the backlight will remain on Pressing the SCROLL key again will turn the next page and lock the display for another minute After one minute of inactivity the display will continue operating normally by cycling through the enabled measurement parame ters 3 2 2...

Page 31: ...dress 4 Hardware Version 5 Software Version 6 Date of Issue 7 Model Number 8 Imported Active Energy 9 Consumed Active Energy Phase A kWh 10 Consumed Active Energy Phase B kWh 11 Consumed Active Energy Phase C kWh 12 Voltage Phase A V 13 Voltage Phase B V 14 Voltage Phase C V 15 Current Phase A A 16 Current Phase B A 17 Current Phase C A 18 Total Current A 19 Total System Active Power 20 Active Pow...

Page 32: ...ate 9 Model 10 Consumed Active Energy kWh 11 Consumed Active Energy Phase A kWh 12 Consumed Active Energy Phase B kWh 13 Consumed Active Energy Phase C kWh 14 Phase A Voltage V 15 Phase B Voltage V 16 Phase C Voltage V 17 Phase A Current A 18 Phase B Current A 19 Phase C Current A 20 Total Current A 21 System Active Power kW 22 Active Power Phase A kW 23 Active Power Phase B kW 24 Active Power Pha...

Page 33: ...te 9 Model 10 Consumed Active Energy kWh 11 Consumed Active Energy Phase A kWh 12 Consumed Active Energy Phase B kWh 13 Consumed Active Energy Phase C kWh 14 Phase A Voltage V 15 Phase B Voltage V 16 Phase C Voltage V 17 Phase A Current A 18 Phase B Current A 19 Phase C Current A 20 Total Current A 21 System Active Power kW 22 Active Power Phase A kW 23 Active Power Phase B kW 24 Active Power Phas...

Page 34: ...y Phase C kWh 14 Phase A Voltage V 15 Phase B Voltage V 16 Phase C Voltage V 17 Phase A Current A 18 Phase B Current A 19 Phase C Current A 20 Total Current A 21 System Active Power kW 22 Active Power Phase A kW 23 Active Power Phase B kW 24 Active Power Phase C kW 25 Frequency Hz 26 Temperature 27 Meter run time 28 Load run time End 3 4 Settings and Operations 3 4 1 Settings Mode The settings mod...

Page 35: ...y is pressed and held the meter will also be redirected out of the settings mode Note The default password of the meter is 0000 Note The SET key is located under the meters terminal cover In the settings mode the following operations apply for the keys The SET key is used to enter edit mode of the setting and to confirm the setting change The SCROLL key is used to move to the next setting page and...

Page 36: ...0mA 100mA 200mA mA Current Input 10 CT1 1 50 000 11 PT2 50 400 12 PT1 50 1000000 13 Pulse Constant 1 60000 14 Pulse Width 20 100ms 15 Energy Decimal places 0 3 16 Custom data display Add 17 Custom data display Remove 18 Wiring check enable On Off Table 3 8 Setting Display for AcuRev 1313 Page Parameter Range 1 Device Address 1 247 2 Baud Rate 1200 2400 4800 9600 19200 38400 3 Parity Even Odd None2...

Page 37: ...e fault value of 0000 if no password was previously configured If a password was config ured use the SCROLL and SET keys to enter in the password The next screen that will appear is the S 0 1 Addr Press the SCROLL key until you get to the S 08 Lt screen S 04 if AcuRev 1311 Select the correct voltage wiring mode This will be based on your voltage connection For exam ple if your voltage connection i...

Page 38: ... it is being used Press the SET key to enter edit mode and to move to the next digit Press the SCROLL key to change the value of the digit Press the SET key to confirm the setting and move to the next page Once all of the initial meter configurations are set the meter should now begin to read data cor rectly 3 6 Energy Pulse Output The AcuRev 1310 series supports the transmission of energy pulses ...

Page 39: ...resent the number pulses Pulse Constant the meter will output per kWh kvarh This will be based on the required specification Press the SET key to modify the first digit will begin to flash Press the SET key to move to the next flashing digit Press the SCROLL key to change the flashing digit s number Press the SET key on the last digit to confirm all the changes after they have been made The follow...

Page 40: ...V DC supply is required to power the circuit and should be connected to the P2 termi nal of the meter A 1 kilo ohm resistor is suggested to be used in series to limit the current to the P2 terminal refer to Figure 3 2 above The P1 terminal is connected to the positive terminal of the pulse counter The negative terminal of the 24V DC supply is connected to the negative of the pulse count er With th...

Page 41: ...nctions and Software 4 1 Introduction to AcuRev 1310 Utility Software 4 2 Parameter Settings 4 3 Real Time Metering 4 4 Measurement Function 4 5 Event Logging 4 6 Alarm Function 4 7 Incorrect Connection Detection 4 8 Sealing Function 4 9 Device Information ...

Page 42: ... under Downloads or using the following link https accuener gy com page support download manuals datasheets software firmware The software can be used to read the meters measurements or to configure the meters settings To connect to the software a USB RS485 converter must be used Note The AcuRev 1310 Utility Software is a Windows based software The following details the steps to connect the meter ...

Page 43: ... o Ports COM LPT from the dropdown list 5 Locate the USB Serial Port COMx information where the x is the port number to use For example COM3 Once the COM Port is found make note of it as it is used to connect to the software Once the software has been opened users will be prompted to enter the correct COM port of the computer baud rate parity the device address of the meter and the device type Acu...

Page 44: ...oftware The figure below shows the General Settings Figure 4 3 General Settings in the AcuRev 1310 Utility Software Note To ensure that any modifications in the General Settings takes place you must click on Update Device on the bottom of the General Settings page 4 2 1 Wiring Method CT PT Settings Users will need to select the correct Wiring Method refer to section 2 3 for details Users will also...

Page 45: ...ngs 4 2 2 Reactive Power Calculation Real Reactive Q S 2 P 2 D 2 Generally Reactive Q S 2 P 2 4 2 3 Modbus Communication Options At the very top of the General Settings page users can configure the meters address baud rate and parity for communication with the meter through Modbus The red box in Figure 4 5 shows how it is displayed in the AcuRev 1310 Utility Software Figure 4 5 Meter address baud ...

Page 46: ... configuration for the Energy Pulse Output Figure 4 6 the Energy Pulse Output in the General Settings The user will also have to enter the requirements for the pulse in the Pulse Constant and Pulse Width fields The Pulse Constant is the number of pulses the user needs one pulse to repre sent in kWh kvarh The user can enter a value from 1 60000 for the pulse constant The Pulse Width of the pulse is...

Page 47: ...ck Method Set 1 30min as a demand calculation cycle and 1 slip time The demand cycle must be integer multiples of the slip time It calculates 1 cycle s demand at the end of the slip time The de mand update time is equal to the slip time Thermal Demand Method Set 1 30min as a calculation cycle In the whole cycle the demand is calculated just once This means that the demand update time is equal to t...

Page 48: ...ure 4 9 Demand Parameters Display 4 2 6 Sealing Option Choosing the Device Clock TOU related the corresponding content Device Clock TOU parameters Daylight saving time parameters can be sealed Choosing Run time and Load time the content of the run and load time will be sealed Choosing Communication the content of communication time will be sealed Note To change the corresponding time it must occur...

Page 49: ...low permission or high permission Low Permission The important operations disabled These operations include clear demand event record programming event record open cover event record meter energy data and initial energy data High Permission This setting supports all functions Note In the low permission you can update to high permission through updating the commu nication permission After 30 minute...

Page 50: ...al Settings of the AcuRev 1310 Utility Software 4 2 8 Display Parameters The user can add more parameters through the AcuRev 1310 Utility Software Depending on the parameters chosen you will be able to view these parameters on the display by pressing the SCROLL key The figure below shows the Display Scan Parameters in the red box Figure 4 12 the Display Scan Parameters in the General Settings ...

Page 51: ...al application You can see in the following figure the setting for the energy decimal place and RO output in the red box Figure 4 13 RO and Energy Decimal places in General Settings 4 3 Real time Metering Once connected successfully to the software users will see the data readings appear in blue font beside each measurement parameter as shown in figure 4 14 All metering parameters can be found by ...

Page 52: ...5 and 4 16 for assistance Figure 4 15 Navigating to Energy Readings Figure 4 16 Energy Readings Page Users will see all the energy that the meter has accumulated since the life of the meter or since the last time the energy readings were reset or cleared The lower half of the Energy1 page displays the consumed active energy readings that have been accumulated under the Time of Use TOU function of ...

Page 53: ...e General Settings page 4 4 Measurement Function AcuRev 1310 series provides measurement of bi directional energy accumulation Real time energy can be initialized by changing the permission and sealing condition The energy parame ters supported Consumed Active Energy Generated Active Energy Total Active Energy Net Active Energy Consumed Apparent Energy Generated Apparent Energy Four quadrant React...

Page 54: ...nd TOU settings The following figure shows the Time of Use Setting Display Page Figure 4 19 Time of Use Settings Page TOU schedules can be configured up to 14 time segments where each season can have its own TOU schedule The user can customize the TOU calendar including its tariffs seasons sched ules and segments according to different applications To make sure that the TOU calendar is setup corre...

Page 55: ...y number 1 4 respectively 1 sharp 2 peak 3 valley 4 nor mal If the parameter is set as 2 then only the first 2 tariffs sharp and peak will be available e Weekend Settings In this section you can set up the schedule number according to week ends to assign a weekend schedule Refer to Figure 4 20 Figure 4 20 Weekend Setting in TOU configurations page f Holiday Setting You can set up to a maximum of 3...

Page 56: ...format MM DD ID MM stands for month DD stands for date ID represents the TOU schedule 1 4 Note The dates of the Holiday schedules do not need to be organized in chronological order TOU Schedules Each TOU schedule is represented by a 24 hour cycle Fill in the appropriate slots in the TOU schedule based on the number in the Schedule Settings If the Schedule Setting is set as 8 then all of the TOU Sc...

Page 57: ... of the week with the format as month which day which week hour minute ad just time in minutes Setting the DST will cause the meter to automatically switch to and from daylight savings time When the clock starts to run on daylight saving time the meter will automatically adjust its clock to a time period in advance While the clock is running to the end of daylight saving the meter will adjust its ...

Page 58: ...e AcuRev 1310 Utility Software Figure 4 22 Event Log Page The events that are logged include Event of Program This event records the programming time and programming event When a programming event occurs several times within 5 minutes the meter only records the first time Programming Flag Programming Event 01 Meter address programming event 02 RS485 communication programming event 03 Reserved 04 R...

Page 59: ...vent 101 TOU parameter programming event 102 Daylight saving time programming event 103 Trend record programming event Figure 4 23 Event of Program in AcuRev 1310 Utility Software Event of Clear Demand The meter will record when the Demand parameters are cleared It records up to 3 groups of Clear Demand Events Figure 4 25 Event of Opening Meter Cover in AcuRev 1310 Utility Software ...

Page 60: ...monitor specific parameters and when these parameters exceed a certain preset time limit the event alarm will be triggered and stored in the AcuRev 1310 Utility Software There can be a maximum of 20 records stored in the alarm log To access the Alarm Settings click on Settings from the toolbar menu and then select Alarm Settings To set up the alarms users must first select an alarming parameter a ...

Page 61: ...www accuenergy com V 1 0 Revised Jan 2018 Chapter 4 Functions and Software 59 Figure 4 27 Alarm Settings Page on AcuRev 1310 Utility Software ...

Page 62: ...an equal to or less than Enter the set point where the set point is expressed by a percentage of the rated value Enter in the desired Delay ms before alarm is triggered Select the Output Enabled box if using a RO channel to be triggered when an alarm event occurs Note Make sure to click on Update Device after making any changes in order to save the set tings to the meter 4 6 2 Reading the Alarm To...

Page 63: ...tage C Missing Reserve Phase Volt age A Wrong Connection Phase Volt age B Wrong Connection Phase Volt age C Wrong Connection Bit7 Bit6 Bit5 Bit4 Bit3 Bit2 Bit1 Bit0 Reserve Phase Current A Wrong Direction Phase Current B Wrong Direction Phase Current C Wrong Direction Reserve Phase Current A Wrong Connection Phase Current B Wrong Connection Phase Current C Wrong Connection The very first screen in...

Page 64: ...tatus is present Address 209H corresponds to parameters blocked by the seal which can be configured by users through communication These settings will be valid only when the seal is in sealed status From 101H we can check if the sealing state is opened or closed When the seal status is open the address displays open sealing state When the seal status is closed the address displays closed sealing s...

Page 65: ...t Active Energy Tariff 4 X 914H 915H Import Active Energy X 916H 917H Import Active Energy Tariff 1 X 918H 919H Import Active Energy Tariff 2 X 91AH 91BH Import Active Energy Tariff 3 X 91CH 91DH Import Active Energy Tariff 4 X 91EH 91FH Export Active Energy X 920H 921H Export Active Energy Tariff 1 X 922H 923H Export Active Energy Tariff 2 X 924H 925H Export Active Energy Tariff 3 X 926H 927H Exp...

Page 66: ...4FH Export Reactive Energy Tariff 4 X 950H 951H Apparent Energy X Sealed Nonstandard Parameters Table 4 5 Address Parameter Communication Key 300H Clock Year X X 301H Clock Month X X 302H Clock Date X X 303H Clock Hour X X 304H Clock Minute X X 305H Clock Second X X 306H Clock Week X X Note When the seal is closed standard time is valid within plus or minus 5 minutes it will be invalid if not in t...

Page 67: ... Figure 4 29 Device Information Page Device Information such as hardware and software version of the meter can be found on this page The Serial number and the seal status can also be located here It is important to note that when the Seal Status is set to Closed the user will be unable to make any configurations to the meter Users can also configure the device clock of the meter from this page to ...

Page 68: ...AcuRev 1310 DIN Rail Power Meter Chapter 5 Communication 5 1 Modbus Protocol Information 5 2 Communication Format 5 3 Application Details ...

Page 69: ...Rev 1310 series meter slave device the meter removes the data frame s header and reads the data If there is no error then the meter will implement the data s task Once the task is completed the meter will put its own data with the acquired header and send back the frame to the master device that queried the meter The response data frame contains the address function data and CRC check An error wil...

Page 70: ...the slave device to read one register however the data field specifies readings from which regis ter and how many registers to read Error Check Field This field allows for error checks to be performed by both master and slave devices Sources of errors such as electrical noise and other interferences can cause the data to be changed while it is being transmitted from one device to another The error...

Page 71: ...ly Query Table 5 4 Query frame of Reading Energy Addr Fun Data start register hi Data start register lo of regis ters hi of regis ters lo CRC16 Hi CRC16 Lo 11H 03H 00H 00H 00H 21H 84H 65H Response The AcuRev 1310 series responds back to the master s query by responding with its slave device function code data and CRC check Below is the response from the AcuRev 1310 series meter for returning the t...

Page 72: ...ings Bit binary value Word 16 bit unsigned integer using one register that contains 2 bytes The data range is 0 65535 Int16 16 bit signed integer using one register that contains 4 bytes in total The high bytes follow the low bytes in this data type The data range is 0 4294897295 Int32 32 bit signed integer using two registers that contains 4 bytes in total The data range is from 327698 32767 Floa...

Page 73: ...ommunication 10 Meter run time Load time Real Communication 10 Hours 5 3 3 Parameter Address Table Model 2 3 4 represents AcuRev1312 AcuRev 1313 and AcuRev 1314 respectively Read only block 03H read command Table 5 8 Meter Running State Display MODBUS Address Parameter Description Data Type Access Property Range Default Model Register Number Hex Decimal 100H 256 The Result of Wiring Check Word R R...

Page 74: ...es 15 2 4 1 206H 518 Demand Calcu lation Slipping Time Word R W 1 30 minutes 1 2 4 1 207H 519 Reactive Power Calculation Method Word R W 0 True sinusoidal 1 Generalized harmonics pres ent 0 2 4 1 208H 520 VAR PF Word R W 0 IEC 1 IEEE 0 2 4 1 209H 521 Sealed Parame ters Selection Word R W Bit0 TOU set is Sealed or Not 1 valid of corresponding Selection 0 invalid of corresponding selec tion 0 2 4 1 ...

Page 75: ... 1 210H 528 Parameter Mea surement Side Word R W 0 Primary Side 1 Secondary Side 0 2 4 1 211H 529 Wiring Mode Word R W 0 3LN 1 2LL 2 1LL 3 1LN 0 2 4 1 212H 530 CT2 Value Word R W 1 5 100 200 333 Accord ing to the order 2 4 1 213H 531 CT1 Value Word R W 1 50000 5 50000 5 2 4 1 214H 532 CTN Value Word R W 1 50000 5 50000 5 4 1 215H 533 PT2 Value Word R W 50 0 400 0 Communication val ue is 10 times o...

Page 76: ...8219 Total Active Power float R 2 201CH 201DH 8220 8221 Phase A Active Power float R 2 201EH 201FH 8222 8223 Phase B Active Power float R 2 2020H 2021H 8224 8225 Phase C Active Power float R 2 2022H 2023H 8226 8227 Total Apparent Power float R 2 2024H 2025H 8228 8229 Phase A Apparent Power float R 2 2026H 2027H 8230 8231 Phase B Apparent Power float R 2 2028H 2029H 8232 8233 Phase C Apparent Power...

Page 77: ...rent De mand Float R 2 Energy Function Code 03H to Read 10H to Write Table 5 11 Real Time Energy Parameters MODBUS Address Parameter Data Type Property Range Default of registers Hex Decimal 2046H 2047H 8262 8263 Total Active Energy Exported Dword R W 0 9999999999kWh 2 2048H 2049H 8264 8265 Total Active Energy Exported Phase A Dword R W 0 9999999999kWh 2 204AH 204BH 8266 8267 Total Active Energy E...

Page 78: ...d R W 0 9999999999kWh 2 206AH 206BH 8298 8299 Total Reactive Imported Q1 Phase B Dword R W 0 9999999999kWh 2 206CH 206DH 8300 8301 Total Reactive Imported Q1 Phase C Dword R W 0 9999999999kWh 2 206EH 206FH 8302 8303 Total Reactive Imported Q2 Dword R W 0 9999999999kWh 2 2070H 2071H 8304 8305 Total Reactive Imported Q2 Phase A Dword R W 0 9999999999kWh 2 2072H 2073H 8306 8307 Total Reactive Importe...

Page 79: ...999 Com munication value is 100 times of the real value 2 4 2 312H 313H 786 787 Load_time Uint32 0 999999999 Com munication value is 100 times of the real value 2 4 2 Daylight Saving Time Setting 03H Read 10H Write Table 5 13 Daylight saving time address table MODBUS Address Parameter Description Data Type R W Data Range Default Model Register Number Hex Decimal Daylight Saving Time Setting 350H 8...

Page 80: ...CH 860 DST Start Month Word R W 1 12 1 2 4 1 35DH 861 DST Start Day Word R W 0 6 0 2 4 1 35EH 862 DST Start Week Word R W 1 5 1 2 4 1 35FH 863 DST Start Hour Word R W 0 23 0 2 4 1 360H 864 DST Start Minute Word R W 0 59 0 2 4 1 361H 865 DST Start Adjust Time Unit Min ute Word R W 1 120 60 2 4 1 362H 866 DST Ending Month Word R W 1 12 1 2 4 1 363H 867 DST Ending Day Word R W 0 6 0 Sunday 1 6 Monday...

Page 81: ... segments per schedule Word R W 1 14 2 2 4 1 405H 1029 Tariff number of tariffs to configure Word R W 1 4 4 2 4 1 406H 1030 Weekend Setting Word R W Bit0 Bit6 1 Weekdays 0 Weekends 0 2 4 1 407H 1031 Weekend Sched ule Word R W 1 8 1 2 4 1 408H 1032 Number of Holi days Word R W 0 30 0 2 4 1 409H 1033 TOU auto reset fixed date day default is 1 Word R W 1 28 1 2 4 1 40AH 1034 TOU auto reset fixed date...

Page 82: ...tarting Month Day Schedule Table number R W 00 00 00 2 4 3 42FH 431H 1071 1073 Time Zone 6 starting Month Day Schedule Table number R W 00 00 00 2 4 3 432H 434H 1074 1076 Time Zone 7 starting Month Day Schedule Table number R W 00 00 00 2 4 3 435H 437H 1077 1079 Time Zone 8 starting Month Day Schedule Table number R W 00 00 00 2 4 3 438H 43AH 1080 1082 Time Zone 9 starting Month Day Schedule Table...

Page 83: ...H 455H 1107 1109 Schedule Table 1 4th segment Hour Minute Tariff Number R W 00 00 00 2 4 3 456H 458H 1110 1112 Schedule Table 1 5th segment Hour Minute Tariff Number R W 00 00 00 2 4 3 459H 45BH 1113 1115 Schedule Table 6th segment Hour Minute Tariff Number R W 00 00 00 2 4 3 45CH 45EH 1116 1118 Schedule Table 1 7th segment Hour Minute Tariff Number R W 00 00 00 2 4 3 45FH 461H 1119 1121 Schedule ...

Page 84: ...te Tariff Number R W 00 00 00 2 4 42 49EH 4C7H 1182 1223 Schedule Table 3 1st 14th segment Hour Minute Tariff Number R W 00 00 00 2 4 42 4C8H 4F1H 1224 1265 Schedule Table 4 1st 14th segment Hour Minute Tariff Number R W 00 00 00 2 4 42 4F2H 51BH 1308 1349 Schedule Table 6 1st 14th segment Hour Minute Tariff Number R W 00 00 00 2 4 42 546H 56FH 1350 1391 Schedule Table 7 1st 14th segment Hour Minu...

Page 85: ... Day Schedule Table Number R W 00 00 00 2 4 3 5A9H 5ABH 1449 1451 The 6th special day Month Day Schedule Table Number R W 00 00 00 2 4 3 5ACH 5AEH 1452 1454 The 7th special day Month Day Schedule Table Number R W 00 00 00 2 4 3 5AFH 5B1H 1455 1457 The 8th special day Month Day Schedule Table Number R W 00 00 00 2 4 3 5B2H 5B4H 1458 1460 The 9th special day Month Day Schedule Table Number R W 00 00...

Page 86: ... 2 4 3 180FH 1810H 6156 6157 Imported Active Power Demand 3 Peak Float R Xx xxxx kw 2 4 2 1811H 1813H 6158 6159 Imported Active Power Demand 3 Peak Time Dword R YY MM DD hh mm ss Second always is 0 2 4 3 1814H 1815H 6160 6161 Imported Active Power Demand 4 Peak Fl1802H 1804Hoat R Xx xxxx kw 2 4 2 1816H 1818H 6162 6163 Imported Active Power Demand 4 Peak Time Dword R YY MM DD hh mm ss Second always...

Page 87: ...ted Reactive Power Demand 1 Peak Time Dword R YY MM DD hh mm ss Second always is 0 2 4 3 183BH 183CH 6192 6193 Imported Reactive Power Demand 2 Peak Float R Xx xxxx kw 2 4 2 183DH 183FH 6194 6195 Imported Reactive Power Demand 2 Peak Time Dword R YY MM DD hh mm ss Second always is 0 2 4 3 1840H 1841H 6196 6197 Imported Reactive Power Demand 3 Peak Float R Xx xxxx kw 2 4 2 1842H 1844H 6198 6199 Imp...

Page 88: ...oat R Xx xxxx kw 2 4 2 1861H 1863H 6222 6223 Exported Reactive Power Demand 4 Peak H Time Dword R YY MM DD hh mm ss Second always is 0 2 4 3 1864H 1865H 6224 6225 Total Apparent Power Demand Peak Float R Xx xxxx kw 2 4 2 1866H 1868H 6226 6227 Total Apparent Power Demand Peak Time Dword R YY MM DD hh mm ss Second always is 0 2 4 3 1869H 186AH 6228 6229 Phase A Current Demand Peak R Xx xxxx A 2 4 2 ...

Page 89: ...03H 32515 Season 1 The schedule Table number of Monday word R W 0 2 4 1 7F04H 32516 Season 1 The schedule Table number of Tuesday word R W 0 2 4 1 7F05H 32517 Season 1 The schedule Ta ble number of Wednesday word R W 2 4 1 7F06H 32518 Season 1 The schedule Table number of Thurs day word R W 2 4 7F07H 32519 Season 1 The schedule Table number of Friday word R W 2 4 7F08H 32520 Season 1 The schedule ...

Page 90: ... 7F69H 7F70H 32617 32618 Season 14 of Week end Alternative word R W 2 4 Rate parameter error information word 1 basic parameter Table 5 17 Rate parameter error information word 1 Bit7 Bit6 Bit5 Bit4 Bit3 Bit2 Bit1 Bit0 1 1 1 1 1 1 1 1 Time segment table 8 error Time segment table 7 error Time segment table 6 error Time segment table 5 error Time segment table 4 error Time segment table 3 error Tim...

Page 91: ...d R W Bit0 Bit11 Alarm Channel 0 11 1 Enable 0 Disable 0 2 4 1 703 1795 Alarm Output Mode Word R W 0 level 1 pulse 0 2 4 1 704H 1796 Pulse Output Time Word R W 50 3000ms valid with Pulse Output Mode 1000 2 4 1 Alarm Parameter Setting for the 1st group 705H 1797 Parameter Num ber Word R W 0 28 Please see appendix Alarm Pa rameter comparison table 0 2 4 1 706H 1798 Comparing Method Word R W 0 larger...

Page 92: ...String R Manufacturer specific value 32 characters H 1 10 S 1 01 2 4 8 1034H 1043H 4148 4163 Serial Number String R Manufacturer specific value 32 characters 2 4 16 1044H 4164 Device Address Uint16 R W Modbus device address 2 4 1 1045H 4165 ID Uint16 R Meter Single Phase single phase AN or AB meter 201 Split single phase ABN meter 202 wye con nect three phase ABCN meter 203 Delta connect three pha...

Page 93: ...ge SunSpec Line Average Voltage AcuRev 1310 Int16 R 0 9999 V 2 4 1 1051H 4177 Phase Voltage AB SunSpec Line AB Voltage AcuRev1310 Int16 R 0 9999 V 2 4 1 1052H 4178 Phase Voltage BC SunSpec Line BC Voltage AcuRev 1310 Int16 R 0 9999 V 2 4 1 1053H 4179 Phase Voltage CA SunSpec Line CA Voltage AcuRev 1310 Int16 R 0 9999 V 2 4 1 1054H 4180 Voltage scale factor SunSpec Sunssf R 2 2 2 4 1 1055H 4181 Fre...

Page 94: ... Apparent Power AcuRev 1310 Int16 R 0 9999 VA 2 4 1 105EH 4190 VA Phase B SunSpec Phase B Apparent Power AcuRev 1310 Int16 R 0 9999 VA 2 4 1 105FH 4191 VA Phase C Sun Spec Phase C Apparent Power AcuRev 1310 Int16 R 0 9999 VA 2 4 1 1060H 4192 Apparent Power scale factor SunSpec Sunssf R 0 4 2 4 1 1061H 4193 Reactive Power VAR SunSpec Total Reactive Power AcuRev 1310 Int16 R 0 9999 VAR 2 4 1 1062H 4...

Page 95: ...cc32 R W 0 999999999 kWh 2 4 2 106DH 106EH 4205 4206 Total Watt hours Exported in phase A Sun Spec Total Active En ergy Exported in Phase A AcuRev 1310 Acc32 R W 0 999999999 kWh 2 4 2 106FH 1070H 4207 4208 Total Watt hours Exported in phase B Sun Spec Total Active Energy Exported in Phase B AcuRev 1300 Acc32 R W 0 999999999 kWh 2 4 2 1071H 1072H 4209 4210 Total Watt hours Exported in Phase C Sun S...

Page 96: ...ev 1310 Sunssf R 3 0 2 4 1 107CH 107DH 4220 4221 Total VA hours Exported SunSpec Total Apparent Power Exported AcuRev 1310 Acc32 R W 0 999999999 kVAh 3 4 2 107EH 17FH 4222 4223 Total VA hours Exported Phase A SunSpec Total Apparent Power Exported in Phase A AcuRev 1310 Acc32 R W 0 999999999 kVAh 3 4 2 1080H 1081H 4224 4225 Total VA hours Exported Phase B SunSpec Total Apparent Power Exported in Ph...

Page 97: ...CH 4236 Total VAh_SF SunSpec CT ratio X PT ra tio AcuRev 1310 Sunssf R 3 0 2 4 1 108DH 108EH 4237 4238 Total VAR hours Imported Q1 SunSpec Acc32 R W 0 999999999 kvarh 2 4 2 108FH 1090H 4239 4240 Total VAR hours Imported Q1 Phase 1A Acc32 R W 0 999999999 kvarh 2 4 2 1091H 1092H 4241 4242 Total VAR hours Imported Q1 Phase B Acc32 R W 0 999999999 kvarh 2 4 2 1093H 1094H 4243 4244 Total VAR hors Impor...

Page 98: ...Q3 Phase C Acc32 R W 0 999999999 kvarh 2 4 2 10A5H 10A6H 4261 4262 Total VAR hours Exported Q4 Acc32 R W 0 999999999 kvarh 2 4 2 10A7H 10A8H 4263 4264 Total VAR hours Exported Q4 Phase A Acc32 R W 0 999999999 kvarh 2 4 2 10A9H 10AAH 4265 4266 Total VAR hours Exported Q4 Phase B Acc32 R W 0 999999999 kvarh 2 4 2 10ABH 10ACH 4267 4268 Total VAR hours Exported Q4 Phase C Acc32 R W 0 999999999 kvarh 2...

Page 99: ...Dword R xx xxxx kW YYMMD Dhhmmss 3 4 2 3 161EH 161FH 1620H 1622H 5662 5663 5664 5666 Output active power max demand 1 and occur time Float DWORD R xx xxxx kW YYMMD Dhhmmss 3 4 2 3 1623H 1624H 1625H 1627H 5667 5668 5669 5671 Output active power max demand 2 and occur time Float Dword R xx xxxx kW YYMMDDhhmmss 3 4 2 3 1628H 1629H 162AH 162C 5672 5673 5674 5676 Output active power max demand 3 and oc...

Page 100: ...nd oc cur time Float Dword R xx xxxx kVA YYMMD Dhhmmss 3 4 2 3 1669H 166AH 166BH 166DH 5736 5737 5738 5740 Phase A current max demand and occur time Float Dword R xx xxxx A YYMMD Dhhmmss 3 4 2 3 166EH 166FH 1670H 1672H 5741 5742 5743 5744 Phase B current max demand and occur time Float Dword R xx xxxx A YYMMD Dhhmmss 3 4 2 3 1673H 1674H 1675H 1677H 5745 5746 5747 5748 Phase C current max demand an...

Page 101: ...arameter Setting calculation method demand period slipping time 05 Reactive power calculation method 06 VAR PF Convention 07 Date and Time Setting 08 Measure side change 09 Wiring Mode 10 CT or PT change 11 Pulse Constant and Pulse Width 12 Decimal Digits 13 RO Output Mode 14 Alarm Setting Parameter 100 Energy Value Base 101 TOU Parameter Setting 102 Daylight Saving Time 103 Trend Record 104 Alarm...

Page 102: ...hmmss 2 4 3 1C05H 1C07H 7173 7175 End time Word R 2 4 3 Last 2nd 3rd time 1C08H 1C13H 7176 7187 2 4 12 Event Clearance Table 5 26 Event Clearance Address Modbus Address Parameter Description Data Type R W Range Default Model Register Number Hex Decimal 1D00H 1D01H 7424 7425 Total event clearance time Word R 2 4 2 Last time open cover record 1D02H 1D04H 7426 7428 Occur Time Word R YYMMDDhhmmss 2 4 ...

Page 103: ...d 1E02H 1E04H 7682 7684 Occur time Word R YYMMDDhhmmss 2 4 3 Last 2nd 3rd time 1E05H 1E0AH 7685 7690 2 4 6 RO Control Function 01H read 05H write RO state read 01H Table 5 28 RO Control Function 01H Read Modbus Address HEX Parameter Description Data Type R W Data Range Default Model Register Number 0000H RO state Word R 1 ON 0 OFF 1 RO control 05H Table 5 29 RO Control function 05H Write Modbus Ad...

Page 104: ...10 DIN Rail Power Meter Appendix Appendix A Functions List Appendix B Technical Data and Specification Appendix C Revision History Appendix D Alarm Parameters Comparison Table Appendix E Meter Event Flags 32 bit ...

Page 105: ... Peak Power Demand Predictive Demand Current Demand Peak Current Demand Voltage Current Neutral Current Calculated Calculated Calculated Residual Current Calculated Active Power Reactive Power Apparent Power Apparent Power Power Factor Frequency Clock Running Time Energy Pulse Output Alarm Output Alarm Event Relay Output Θ Θ Θ RS 485 Modbus RTU Wiring Check Temperature Fixed function Θ Optional fu...

Page 106: ...1W 80 80kW Reactive Power 0 5 0 1var 80 80kvar Apparent Power 0 5 0 1VA 80 80kVA Power Factor 0 5 0 001 1 000 1 000 Frequency 0 2 0 01Hz 50 60 Power Demand 0 5 0 1W var VA 80kW kvar kVA Current Demand 0 5 0 001A 80A Power Supply Working Power Supply 100 415Vac 50 60Hz 100 300Vdc Power Consumption 2W or 10VA Pulse Output Isolation Voltage 2500Vac Load Voltage 0 25Vac Load Current 10mA max Relay Out...

Page 107: ... Corresponding Parameter Set Value Corresponding Parameter 0 Total Current 1 Phase current A 2 Phase Current B 3 Phase Current C 4 Phase Average Volt age 5 Phase Voltage A 6 Phase Voltage B 7 Phase Voltage C 8 Line Average Volt age 9 Line AB Voltage 10 Line BC Voltage 11 Line CA Voltage 12 Frequency 13 Total Active Power 14 Phase A Active Pow er 15 Phase B Active Power 16 Phase C Active Pow er 17 ...

Page 108: ...it23 Bit22 Bit21 Bit20 Bit19 Bit18 Bit17 Bit16 Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Bit15 Bit14 Bit13 Bit12 Bit11 Bit10 Bit9 Bit8 Reserved Reserved Reserved Reserved Reserved Reserved Reserved Reserved Bit7 Bit6 Bit5 Bit4 Bit3 Bit2 Bit1 Bit0 M_EVENT_ Missing_ Sensor M_ EVENT_ Over_ Volt age M_ EVENT_ Over_ Cur rent M_ EVENT_ Low_ PF M_ EVENT_ Under_ Voltage M_ EV...

Page 109: ... 8908 INT 1 416 497 4100 FAX 1 416 497 4130 E marketing accuenergy com ACCUENERGY CANADA INC 2 Lansing Square Suite 700 Toronto ON M2J 4P8 Canada Revision Date Aug 2017 Document 2300E2100 MAKE ENERGY USAGE SMARTER ...

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