Acrel ADL3000-E Installation And Operation Instruction Manual
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Acrel ADL3000-E Installation And Operation Instruction Manual

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201
ADL3000-E
Installation and operation instruction V3.2
ACREL Co,. Ltd.

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Summary of Contents for Acrel ADL3000-E

  • Page 1 ADL3000-E Installation and operation instruction V3.2 ACREL Co,. Ltd.
  • Page 2 Declare The copyright is the property of Acrel. Any information in any paragraph or section cannot be extracted, 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 notification.

  • Page 3: Table Of Contents

    Content 1 General............................1 2 Type description.......................... 1 3 Function description........................1 4 Technical parameter........................2 5 Outline............................3 6 Wiring and installing........................3 7 Function description........................6 8 Operation and display........................ 7 9 Communication description.....................11...

  • Page 4: General

    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.

  • Page 5: Technical Parameter

    Clock pulse output □Note 2 Active switch input □Note 3 Switch output □Note 2 Adapt 4 time zones, 2 time interval lists, 14 Multi-tariff and □ time interval by day and 4 tariff rates functions Max demanded kWh and time happened □...

  • Page 6: Outline

    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 Modbus RTU:1~ 247; address Baud rate 1200bps~19200bps Relative temperature -25℃~+55℃ Relative humidity ≤95℅(No condensation) 5 Dimension drawings Fig1 connect via CT Fig2 direct connect Note:...

  • Page 7: Wiring And Installing

    6 Wiring and installing 6.1 Wiring sample of voltage and current Fig 3 Three phase four lines connect via CT Fig 4 Three phase four lines direct connect Fig 5Three phase three lines connect via CT...
  • Page 8 Fig 6 Three phase three lines direct connect Load Fig 7 Three phase four lines, 3CT Load Fig 8 Three phase three lines, 2CT Fig 9 Outline of transformer Note: The method of wiring is: input downward and output downward. 6.2 Switching input, output, NTC temperature terminals...

  • Page 9: Function Description

    Fig 10 Communication, pulse connection Fig 11 Communication, pulse connection Fig 12 Outlay NTC temperature measurement Switching output is relay output, can achieve the remote-control and alarm output. The switch input adapts the method of on-off signal input and powered by outer power supply. It can be gotten by meter when there is a change of on or off via a switching input module.

  • Page 10: Operation And Display

    7.2 Calculating The meter can calculate the current active energy, forward active energy, reversing active energy, forward reactive energy and reversing reactive energy. 7.3 Timing The meter has 2 time lists, and can be divided into 4 time zones per year. Each time list can be divided into 8 time periods and 4 tariff (F1、F2、F3、F4).
  • Page 11 Check the voltage and current Voltage and current, up Leftward and change flash in programming menu Check the power Power, down Rightward and change the value on flash Check the energy Energy, enter Enter in programming menu 8.2 Display menu The meter will show the forward active energy after powering.
  • Page 12 Current forward reactive energy 12.34kWh Current forward active spike energy 12.34kWh Current total power is 1.234kW Current forward active demand is 1.234kW Voltage on A phase is 123.4V Current on A phase is 12.34A Temperature on T1 is 25.5 cent degree Temperature on T2 is 25.5 cent degree...
  • Page 13 Temperature on T3 is 25.5 cent degree Note: There are parts of the display function, and other menus are familiar with the example above. The customers can understand the meaning refer to the above examples. 8.3 Key Menu Press at any main menu and get in “PASS” interface, and then press show “0000”, and enter the code.

  • Page 14: Communication Description

    transformer Note: Customers can choose None or Even under Modbus protocol. 9 Communication description The meter adapts MODBUS-RTU protocol, and the baud rate can be chosen from 1200bps、 2400 bps、4800 bps、9600bps and 19200 bps. The parity is None. The meter needs shielded twisted pair conductors to connect. Customers should consider the whole network’s parameters such like communication wire’s length, the direction, communication transformer and network cover range, etc.
  • Page 15 Current reversing active spike 0016H energy Current reversing Active peak 0018H energy 001AH Current reversing active flat energy Current reversing Active valley 001CH energy 001EH Current total reactive energy 0020H Current total reactive spike energy 0022H Current total reactive peak energy 0024H Current total reactive flat energy 0026H...
  • Page 16 003EH Time: month, year 003FH First communication path:Address 1~247 high byte 1:9600pbs 003FH 2:4800pbs First communication path: Baud rate low byte 3:2400pbs 4:1200pbs 0040H Pulse constant Time table number of the first time 0041H zone Time zone 1 start date: day Time zone 1 start date: month 0042H Time table number of the second...
  • Page 17 Start of period 6: minute 004FH Start of period 6: hour Rate no. of period 7 0050H Start of period 7: minute Start of period 7: hour 0051H Rate no. of period 8 Start of period 8: minute 0052H Start of period 8: hour Rate no.
  • Page 18 0064H Current of A phase I=data*CT*0.01 0065H Current of B phase Unit:A 0066H Current of C phase 0067H- Reserve 0076H F= data*0.01 0077H Frequency Unit:Hz 0078H Voltage between A-B U=data*PT*0.1 0079H Voltage between C-B Unit:V 007AH Voltage between A-C 007BH Forward active maximum demand 007CH Time of occurrence :minute,hour...
  • Page 19 0089H Forward active energy of B phase 008BH Forward active energy of C phase 008DH Voltage transfer(PT) 008EH Current transfer(CT) State of DIDO, over-voltage, loss- 008FH voltage 0090H Reserve 0091H Running state 1 high byte 0091H Running state 2 low byte 0092H Zero sequence current 0093H...
  • Page 20 Start of period 11: minute Start of period 11: hour 00B6H Rate no. of period 12 Start of period 12: minute 00B7H Start of period 12: hour Rate no. of period 13 00B8H Start of period 13: minute Start of period 13: hour 00B9H Rate no.
  • Page 21 reactive power are 016EH Reactive power of B phase signed data, please set them as signed 0170H Reactive power of C phase variables. 0172H Total reactive power 0174H Apparent power of A phase 0176H Apparent power of b phase 0178H Apparent power of c phase 017AH Total apparent power...
  • Page 22 Maximum reversing active demand 018AH last day 018BH Occur time:minute,hour Maximum forward reactive demand 018CH last day 018DH Occur time:minute,hour Maximum reversing reactive 018EH demand last day 018FH Occur time:minute,hour Maximum forward active demand 0190H last 2 days 0191H Occur time:minute,hour Maximum reversing active demand 0192H last 2 days...
  • Page 23 Maximum voltage on C phase and 0206H occur time Maximum current on A phase and 0209H occur time Maximum current on B phase and 020CH occur time Maximum current on C phase and 020FH occur time 0212H Maximum active power on A phase 0214H Occur time:month,day 0215H...
  • Page 24 0251H Minimum current on C phase and occur time Minimum active power on A phase 0254H and occur time Minimum active power on B phase 0258H and occur time Minimum active power on C phase 025CH and occur time Minimum active power and occur 0260H time Minimum reactive power on A phase...
  • Page 25 Assemblage of last 1 month 1001H 0000H Frozen time: YY-MM demand and energy Assemblage of last 2 months 1002H 0001H Frozen time: DD-hh demand and energy … … 0002H Total forward active energy Assemblage of last 48 months 1030H 0004H Spike forward active energy demand and energy Assemblage of last 1 day demand...
  • Page 26 demand 0034H Occur time: mm-hh 0035H Occur time : DD-MM Maximum forward reactive 0036H demand 0037H Occur time: mm-hh 0038H Occur time : DD-MM Maximum reversing reactive 0039H demand 003AH Occur time: mm-hh 003BH Occur time : DD-MM 9.3 Sub harmonic data ADL3000-EH has function of harmonic.
  • Page 27 06A1H Harmonic current on B phase 06A2H Harmonic current on C phase Fundamental active power on A 06A3H phase Fundamental active power on B 06A4H phase Fundamental active power on C 06A5H phase 06A6H Total fundamental active power Fundamental reactive power on A 06A7H phase Fundamental reactive power on B...
  • Page 28 0003 Clear maximum demand 0004 Clear history energy Clear maximum value on a 0005 period 0006 Clear out 0000 DO off 0300 DO action 0001 DO on Bit0: Over-voltage on A phase Bit1: Over-voltage on B phase Bit2:; Over-voltage on C phase Bit3: Lose-voltage on A phase Bit4:...
  • Page 29 Headquarters: Acrel Co., LTD. Address: No.253 Yulv Road Jiading District, Shanghai,China Mobile/Whatsapp/Wechat: +86 136 1197 6994 Website: www.acrel.sg mail: augustus@acrel.cn Postcode: 201801...

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