Acrel DTSD1352 Installation And Operation Instruction Manual Download Page 4

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概述

General

DTSD1352

导轨式多功能电能表，是主要针对电力系统，工矿企业，公用设施的电能统

计、管理需求而设计的一款智能仪表，产品具有精度高、体积小、安装方便等优点。集成全
部电力参数测量及全面的电能计量及考核管理，提供上

月的各类电能数据统计。具有

次分次谐波与总谐波含量检测，带有开关量输入和开关量输出可实现“遥信”和“遥控”功
能，并具备报警输出。带有

RS485

通信接口，可选用

MODBUS-RTU

。该电力仪表可广泛应

用于各种控制系统，

SCADA

系统和能源管理系统中。性能指标符合国标 IEC62053-21、

IEC62053-22 对电能表的各项技术要求。

DTSD1352 is a smart meter designed for power supply system, industrial and mining

enterprises and utilities to calculate the electricity consumption and manage the electric demand. It

features the high precision, small size and simple installation. It integrates the measurement of all

electrical parameters with the comprehensive electricity metering and management provides

various data on previous 12 months, checks the 31st harmonic content and the total harmonic

content, realizes the remote communication and the remote control with switching input and relay

output and boasts the alarm output. It is fitted with RS485 communication port and adapted to

MODBUS-RTU. DTSD1352 can be used in all kinds of control systems, SCADA systems and

energy management systems. All meters

meet the related technical requirements of electronic

power meter in the IEC62053-21、IEC62053-22 standards.

型号说明

Type description

DTSD1352

C：RS485
F：

Multi-tariff energy

K：1DI1DO
T：

3 outlay NTC temperature

measurement

H：

Harmonic Measurement

2C：

The second RS485

产品功能

Function description

功能

Function

功能说明

Function description

功能配置

Function provide

电能计量

Measurement of kWh

有功电能计量（正、反向）

Active kWh (positive and negative)

■

无功电能计量（正、反向）

Reactive kWh (positive and negative)

■

、

分相正向有功电能

A, B, C phase positive active kWh

■

电量测量

、

■

Summary of Contents for DTSD1352

Page 1: ...201 DTSD1352 V2 0 Installation and operation instruction V2 0 ACREL Co Ltd...

Page 2: ...cted copied or otherwise reproduced or propagated Otherwise offenders shall take all consequences All rights are reserved Acrel reserves the right to modify the product specifications herein without n...

Page 3: ...ype description 1 3 Function description 1 4 Technical parameter 3 5 Dimension drawings 4 6 Wiring and installing 4 7 Function description 6 8 Operation and display 8 9 Communication description 12 10...

Page 4: ...he remote communication and the remote control with switching input and relay output and boasts the alarm output It is fitted with RS485 communication port and adapted to MODBUS RTU DTSD1352 can be us...

Page 5: ...ti tariff and functions Active switch input Note 3 Switch output Note 2 4 2 14 4 Adapt 4 time zones 2 time interval lists 14 time interval by day and 4 tariff rates Max demanded kWh and time happened...

Page 6: ...e Reference voltage 3 100V 3 380V 3 57 7 100V 3 220 380V 3 230 400V Measurement range 0 8Un 1 15Un Consumption 10VA Single phase Impedance 2M Accuracy class Error 0 2 Current Input current 3 1 6 A 3 1...

Page 7: ...n address Modbus RTU 1 255 Baud rate 1200bps 19200bps Operation temperature 30 60 Storage temperature 30 70 Relative humidity 95 No condensation 5 Dimension drawings 1 mm Fig 1 Outline unit mm 6 Wirin...

Page 8: ...a Ib Ib Ic Ic A B C N 4 Fig 4 Three phase three lines connect via CT L1 L1 L2 L2 L3 L3 A B C N 5 Fig 5 Three phase three lines direct connect 6 2 NTC Switching input output NTC temperature measurement...

Page 9: ...f switching input can not only get and show the state of local switching information but also achieve the communication via RS485 which called remote information function 17 18 21 22 RS485 60 61 62 69...

Page 10: ...can be divided into 8 time periods and 4 tariff F1 F2 F3 F4 The main purpose of multi tariff is promote the energy efficiency and economic benefits 7 4 Demand There are some definitions on demand Dema...

Page 11: ...ment the range of temperature is 40 99 8 Operation and display 8 1 Key function description Key symbol Key name Function Menu Enter quit menu Voltage and current up Check the voltage and current Leftw...

Page 12: ...3 DTSD1352 Note 1 All the display menus above are in the model of DTSD1352 three phases four lines with multi tariff rate function and can be changed by the keys 2 There will not be power or power fac...

Page 13: ...reactive energy 12 34kWh 12 34kWh Current forward active energy 12 34kWh 1 234kW Current power is 1 234kW 1 234kW Current forward active demand is 1 234kW A 123 4V Voltage on A phase is 123 4V A 12 34...

Page 14: ...The customers can understand the meaning refer to the above examples 8 3 Key Menu PASS 0000 0000 SAVE YES no Press at any main menu and get in PASS interface and then press show 0000 and enter the cod...

Page 15: ...EF E Multi tariff rate EF Multi tariff rate E No multi tariff rate CoDE Code setting 1 9999 LED Time of light 1 9999 3 In Transformer settings Pt Voltage transformer 1 9999 Ct Current transformer 1 99...

Page 16: ...d testing Use two color wires in connecting wires and all the A port use the same color No longer than 1200 meters of RS485 bus line 9 1 Address table MODBUS RTU 03H 10H 03H 10H MODBUS RTU protocol ha...

Page 17: ...urrent reversing active total electric energy 4 R 0016H Current reversing active spike electric energy 4 R 0018H Current reversing Active peak electric energy 4 R 001AH Current reversing active flat e...

Page 18: ...R 002CH Current forward reactive spike electric energy 4 R 002EH Current forward reactive flat electric energy 4 R 0030H Current forward reactive valley electric energy 4 R 0032H Current reversing re...

Page 19: ...period of time Parameters setting information 3 8 R W The first time list 0053H 0060H 1 9 1 9period of time Parameters setting information 3 9 R W The second time list 0061H A Voltage of A phase 2 R 0...

Page 20: ...aximum amount 4 R 0081H Maximum forward demand for reactive power 2 R 0082H Time of occurrence for the forward reactive maximum amount 4 R 0083H Maximum reversing demand for reactive power 2 R 0085H T...

Page 21: ...e 2 1 R W 0092H Zero sequence current 2 R 0093H Voltage imbalance 2 R unit 0 1 0094H Current imbalance 2 R 0095H First communication path Testing byte 8 High 8 bytes Stop byte 8 Low 8 bytes 2 R W test...

Page 22: ...00B2H 00BAH 9 14 9 14 period of time Parameters setting information The first time list 00BBH 00C3H 9 14 9 14 period of time Parameters setting information The second time list 00C4H 0163H Reserved 0...

Page 23: ...rent power 4 R 017CH A Power factor of A phase 2 R 017DH B Power factor of B phase 2 R 017EH C Power factor of C phase 2 R 017FH Total power factor 2 R 0180H Maximum forward active demand a day 2 R 01...

Page 24: ...R 018DH Occur time 2 R 018EH 1 Maximum reversing reactive demand last day 2 R 018FH Occur time 2 R 0190H 2 Maximum forward active demand last 2 days 2 R 0191H Occur time 2 R 0192H 2 Maximum reversing...

Page 25: ...cur date 2 R 0202H Occur time 2 R 0203H B Maximum voltage on B phase and occur time 6 R 0206H C Maximum voltage on C phase and occur time 6 R 0209H A Maximum current on A phase and occur time 6 R 020C...

Page 26: ...m apparent power on A phase and occur time 8 R 0236H B Maximum apparent power on B phase and occur time 8 R 023AH C Maximum apparent power on C phase and occur time 8 R 023EH Maximum apparent power an...

Page 27: ...e power on C phase and occur time 8 R 0270H Minimum reactive power and occur time 8 R 0274H A Minimum apparent power on A phase and occur time 8 R 0278H B Minimum apparent power on B phase and occur t...

Page 28: ...onth demand and energy 0000H Frozen time YY MM 1002H 2 Assemblage of last 2 months demand and energy 0001H Frozen time DD hh 0002H Total forward active energy 1030H 48 Assemblage of last 48 months dem...

Page 29: ...active energy 0022H Spike reversing reactive energy 0024H Peak reversing reactive energy 0026H Flat reversing reactive energy 0028H Valley reversing reactive energy 002AH A Active energy on A phase 00...

Page 30: ...arently harmonic active reactive power of each phase apparently fundamental voltage and current of each phase apparently and fundamental active reactive power of each phase apparently Addr Name Length...

Page 31: ...ent on A phase 2 2 Int Keep 2 decimal places 069EH B Fundamental current on B phase 2 069FH C Fundamental current on C phase 2 06A0H A Harmonic current on A phase 2 06A1H B Harmonic current on B phase...

Page 32: ...H A Harmonic reactive power on A phase 2 06B0H B Harmonic reactive power on B phase 2 06B1H C Harmonic reactive power on C phase 2 06B2H Harmonic reactive power 2 9 3 SOE SOE record Address Name Data...

Page 33: ...DO on 0400 UI UI record UI Bit0 A Over voltage on A phase Bit1 B Over voltage on B phase Bit2 C Over voltage on C phase Bit3 A Lose voltage on A phase Bit4 B Lose voltage on B phase Bit5 C Lose volta...

Page 34: ...esent and we send the code 01 03 30 01 00 06 9B 08 to get the last event record and the slave station will give back 01 03 0C 12 01 08 0A 01 01 2018 1 8 10 1 1 01 00 powered 00 00 no details 00 00 res...

Page 35: ...code M H 001423 Print instructions 1 Dimensions 100 150 mm 2 Material Sanshan matte paper four color printing 3 Features Color printing saddle stitching 4 Never print any text on the back of the cover...

Page 36: ...33...

Page 37: ...34 253 86 021 69158300 69158301 69158302 86 021 69158303 800 820 6632 www acrel cn ACREL001 vip 163 com 201801 5 86 0510 86179970 JY ACREL001 vip 163 com 214405...

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