Acrel ADL400 Installation And Operation Instruction Manual
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Summary of Contents for Acrel ADL400
- Page 1 ADL400 Installation and operation instruction V1.6 ACREL Co.,Ltd...
- Page 2 Declaration 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 Manual revision record Data Change 2019.11.13 V1.0 1.First version 2020.04.30 V1.0 V1.1 2.Heading 6.2 changed 2020.08.24 V1.1 V1.2 3.Figure 4 Figure 6 changed 2021.04.08 V1.2 V1.3 4.Correction of key setting flow chart 2022.01.14 V1.3 V1.4 5. Correcte mistakes in data settings 6.
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Page 5: 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 ............. -
Page 6: General
48 months, checks the 31st harmonic content and the total harmonic content. It is fitted with RS485 communication port and adapted to MODBUS-RTU .ADL400 can be used in all kinds of control systems, SCADA systems and energy management systems. The meter meet the related technical requirements of electricity meter in the IEC62053-21standards. -
Page 7: Technical Parameter
Adapt 4 time zones, 2 time interval lists, 14 time interval by day and 4 □ tariff rates Multi-tariff and Max demand and occurrence time □ functions Frozen data on last 48 months, last □ 90days Date, time □ Communication interface: RS485, Communicatio Communication protocol: ■... -
Page 8: Wiring And Installing
5 Dimension drawings Fig 1 direct connect Fig 2 connect via CT Note: The torque of direct connect should not be greater than 3-4N·m, and the torque of connect via CT should not be greater than 1.5-2N·m。 6 Wiring and installing 6.1 Wiring sample of voltage and current - 3 -... - Page 9 Fig 3 Three phase four lines connect via CT Fig 4 Three phase four lines direct connect Fig 5 Three phase three lines connect via CT - 4 -...
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Page 10: Function Description
Fig 6 Three phase three lines direct connect 6.2 Wiring diagram of communication and pulse terminals Fig 7 Communication, pulse connection 7 Function description 7.1 Measurement It can measure the electrical parameter,include U、I、P、Q、S、PF、F、1~31th harmonic。 If:U = 220.1V,f = 49.98Hz, I = 1.99A,P = 0.439kW Such as:U = 220.1V,f = 49.98Hz, I = 1.99A,P = 0.439kW 7.2 Calculating Can measure the active energy、forward active energy、reversing active energy、forward... -
Page 11: Operation And Display
A recurrence method to measure the demand from any time point during a period shorter than the demand period. The demand Slip time measured by this means is called sliding demand. The recurrence time is sliding window time. Demand The time period between two same average value of demand. cycle The default demand cycle is 15 minutes, slip time is 1 minute. - Page 12 Harmonic content of three phase Harmonic content of three phase Voltage Current Phase angle Time Check bit, baud rate, table address, software version number, full display detection; Three phase active power Total active power Three phase reactive power Total reactive power - 7 -...
- Page 13 Three phase apparent power Total apparent power Three phase power factor Total power factor T3 represents the normal period, ① represents the first time table (Current value is1616.89kWh) Current total active energy Current spike active energy Current peak active energy Current flat active energy Current valley active energy Current forward active total energy...
- Page 14 Current reversing active total energy Current total reactive energy Current reactive spike energy Current reactive peak energy Current reactive flat energy Current reactive valley energy Current forward reactive total energy Current reversing reactive total energy Current forward active energy Current forward active energy on A phase on B phase - 9 -...
- Page 15 Current forward active energy on C phase Note: 1 All the display menus above are in the model of ADL400 three phases four lines with multi-tariff rate function and can be changed by the keys. 2 There will not be power or power factor on each phase and will only show total power and power factor (Active, reactive, apparent) under the three phase three lines.
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Page 16: Communication Description
8.4 Date settings Second menu Symbol Mean Range Communicate’s ADDR ADDR 1-254 settings 1200、2400、4800、9600、 Baud Baud choose 19200、38400 Pari Parity choose None、Odd、Even 0-255minutes,more than Backlight time 000 stay light-on 3P4L:3 phase 4 wires Wiring sample 3P3L:3 phase 3 wires no-Forward direction of current yes-Reverse Apparent power... - Page 17 which is benefit for error checking and testing; 3、Use two color wires in connecting wires and all the A port use the same color. 4、No longer than 1200 meters of RS485 bus line. 9.1 ADDR List MODBUS-RTU protocol has 03H and 10H command to read and write registers respectively. The following chart is registers’...
- Page 18 003DH Time:hour、day 003EH Time:month、year baud: 0:1200 First communication path: 1:2400 003FH Address(high 8 bit) 2:4800 Baud(low 8 bit) 3:9600 4:19200 5:38400 0040H pulse constant First time zone address 0041H First time zone start data:day First time zone start data:month 0042H Second time zone address Second time zone start data:day 0043H...
- Page 19 0075H Power factor of C phase 0076H Total power factor 0077H frequency Resolution:0.01Hz 0078H Voltage between A-B 0079H Voltage between C-B Resolution:0.1V 007AH Voltage between A-C 007BH Forward active maximum demand Time of occurrence for the forward 007CH active maximum amount:minute、hour Time of occurrence for the forward 007DH active maximum amount:day、month...
- Page 20 parity bit: 0:None First communication path: 1:Odd 0095H Parity bit(high 8 bit) 2:Even Stop bit(low 8 bit) stop bit: 0:one stop bit 1:two stop bit 0096H-0098H Reserve 009FH-00A3H reserve 00A4H-00A5H Current total apparent Energy Resolution:0.01kVAh 00A6H Code 1-9999 00A7H-00C9H reserve 00CAH The back light time 00CBH-0120H...
- Page 21 power on the day 0187H Time of occurrence: minute、hour Maximum demand for forward active 0188H power last day 0189H Time of occurrence: minute、hour Maximum demand for reverse active 018AH power last day 018BH Time of occurrence: minute、hour Maximum demand for forward 018CH reactive power last day 018DH...
- Page 22 occurrence time 0212H Maximum active power on A phase 0214H Date of occurrence:month、day 0215H Time of occurrence:hour、minute Maximum active power on B phase 0216H and occurrence time Maximum active power on C phase 021AH and occurrence time Maximum total active power and 021EH occurrence time Maximum reactive power on A phase...
- Page 23 and occurrence time Minimum total active power and 0260H occurrence time Minimum reactive power on A phase 0264H and occurrence time Minimum reactive power on B phase 0268H and occurrence time Minimum reactive power on C phase 026CH and occurrence time Minimum total reactive power and 0270H occurrence time...
- Page 24 531EH Reactive power of C phase 5320H Total reactive power 5322H Apparent power of A phase 5324H Apparent power of B phase 5326H Apparent power of C phase 5328H Total apparent power 532AH Power factor of A phase 532CH Power factor of B phase 532EH Power factor of C phase 5330H...
- Page 25 087AH Current reversing reactive flat energy 087CH Current reversing reactive valley energy 9.3 History energy frozen time and history energy energy date ADL400’s registers on frozen by day and by month. Table 9 Frozen time communicate address Address Name Note...
- Page 26 ADL400 can achieve the history energy statistic in last 48 months and last 90days. (Each tariff rate of energy can be recorded.)The history energy record can only be read by assemblage and the length of whole part is 120 byte (60 registers), and list below is the registers’ name:...
- Page 27 fundamental active/reactive power of each phase apparently. Table 11 Harmonics data address Address Name Length(Bit) Note 05DDH THDUa 05DEH THDUb Total distortion rate of voltage 05DFH THDUc and current on each phase 05E0H THDIa Keep 3 decimal places 05E1H THDIb 05E2H THDIc 05E3H...
- Page 28 Fundamental reactive power 06A7H on A phase Fundamental reactive power 06A8H on B phase Fundamental reactive power 06A9H on C phase Total fundamental reactive 06AAH power Harmonic active power on A 06ABH phase Harmonic active power on B 06ACH phase Harmonic active power on C 06ADH phase...
- Page 29 a period 0006 Clear out 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: Lose-voltage on B phase Bit5: Lose-voltage on C phase Bit6: Reversing on A phase Bit7: 0400 UI record...
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