1 General
ADL3000-E 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. ADL3000-E can be used in all kinds of control systems, SCADA systems and energy management systems. All meters meet the related technical requirements of electricity power meter in the IEC62053-21,IEC62053-22 standards.
2. Function description
Function |
Function description |
Function provide |
Measurement of kWh |
Active kWh (positive and negative) |
√ |
Reactive kWh (positive and negative) |
√ |
A, B, C phase positive active kWh |
√ |
Measurement of electrical parameters |
U,IP,Q,S,PF,F |
√ |
√ |
Measurement of |
2~31ST Voltage and current harmonic |
√ |
LCD Display |
8 bits section LCD display, background light |
√ |
Key programming |
4 keys to communication and set parameters |
√ |
Pulse output |
Active pulse output |
√ |
Reactive pulse output |
Note 1 |
Clock pulse output |
Note 1 |
Multi-tariff and functions |
Active switch input |
Note2 |
Switch output |
Note 2 |
Adapt 14 time zones, 8 time interval lists, 14 time interval by day and 8 tariff rates |
|
Max demanded kWh and time happened |
|
Frozen data on last 48 months, last 90days |
|
Date, time |
|
Communication |
Infrared communication |
√ |
The first communication path: Communication interface: RS485, Communication protocol: MODBUS-RTU |
|
The second communication path: Communication interface: RS485, Communication protocol: MODBUS-RTU |
Note 2 |
Temperature measurement |
Support 3 outlay NTC temperature |
Note 3 |
Specification |
3 phase 3 wires, 3 phase 4 wires |
Voltage |
Reference voltage |
3×100V, 3×380V,3×57.7/100V, 3×220/380V, 3×240/415V |
Consumption |
<10VA(Single phase) |
Impedance |
>2MΩ |
Accuracy class |
Error±0.2% |
Current |
Input current |
3×1(6)A,3×1(6)A(Outlay transformer),3×10(80)A,3×10(100)A(Outlay transformer) |
Consumption |
<1VA(Single phase rated current) |
Accuracy class |
Error±0.2% |
Power |
Active, reactive, apparent power, error±0.5℅ |
Frequency |
45~65Hz, Error±0.2% |
Temperature |
-40ºC~99ºC |
Energy |
Active energy(Accuracy class:0.5, 1), reactive energy(Accuracy class 2) |
Clock |
≤0.5s/d |
Energy pulse output |
1 active optocoupler output, 1 reactive optocoupler output |
Switching output |
1 Switching output, Maximum allowed voltage: DC/AC 220V |
Switching input |
1 optocoupler input,Maximum allowed voltage: DC/AC 220V |
Width of pulse |
80±20ms |
Pulse constant |
6400imp/kWh,400imp/kWh(Correspond with the basic current) |
Interface and communication |
RS485:Modbus RTU |
Range of communication address |
Modbus RTU:1~ 247; |
Baud rate |
1200bps~19200bps |
Relative temperature |
-25ºC~+55ºC |
Relative humidity |
≤95℅(No condensation) |
3.Wiring instructions
The ADL3000-E-CT uses three-phase four-wire transcurrent transformer access, three-phase three-wire transcurrent transformer access, three-phase four-wire via voltage and current transformer access, and three-phase three-wire transcurrent voltage transformer access. When using three-phase and three-wire access, the instrument needs to be modified by pressing the button or the corresponding debugging software.
Remark:
1.ADL3000-E-CT external transformer is red and white two wires, red instrument IA*, IB*, IC*, white instrument IA, IB, ;
2. The ADL3000-E-CT uses its own mA class transformer, and it is strictly forbidden to access ordinary 5A or 1A output transformers, otherwise it will cause damage to the instrument;
3. ADL3000-E-CT When wiring, the transformer terminals are prohibited from shorting and grounding, otherwise it will lead to inaccurate metering or instrument damage;
4. When the ADL3000-E-CT is used to measure the secondary line of the field transformer, the instrument's own transformer should be kept at a distance (greater than 30cm) from the field primary side transformer to avoid interference.
![Acrel Dtsd1352-C (ADL3000-E) Three Phase Four Wire Energy Meter Use with Sungrow Sunways Inverter](//www.micstatic.com/athena/img/transparent.png)
![Acrel Dtsd1352-C (ADL3000-E) Three Phase Four Wire Energy Meter Use with Sungrow Sunways Inverter](//www.micstatic.com/athena/img/transparent.png)
![Acrel Dtsd1352-C (ADL3000-E) Three Phase Four Wire Energy Meter Use with Sungrow Sunways Inverter](//www.micstatic.com/athena/img/transparent.png)
![Acrel Dtsd1352-C (ADL3000-E) Three Phase Four Wire Energy Meter Use with Sungrow Sunways Inverter](//www.micstatic.com/athena/img/transparent.png)
![Acrel Dtsd1352-C (ADL3000-E) Three Phase Four Wire Energy Meter Use with Sungrow Sunways Inverter](//www.micstatic.com/athena/img/transparent.png)
![Acrel Dtsd1352-C (ADL3000-E) Three Phase Four Wire Energy Meter Use with Sungrow Sunways Inverter](//www.micstatic.com/athena/img/transparent.png)
![Acrel Dtsd1352-C (ADL3000-E) Three Phase Four Wire Energy Meter Use with Sungrow Sunways Inverter](//www.micstatic.com/athena/img/transparent.png)