Acrel ADW310 Installation And Instruction Manual Download Page 9 | Manualshive

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Acrel ADW310 Installation And Instruction Manual Download Page 9

9

Matching transformer size chart

4.2 RS485 communication terminal, pulse output terminal

Communication interface pulse port

4.3 Switch input/output terminals

The switch input is the switch signal input method, the instrument is equipped with +12V working power

supply, no external power supply is required. When the external connection is turned on or off, the on or off
information is collected through the instrument switch input module and displayed locally by the instrument.
The switch input can not only collect and display the local switch information, but also realize the remote
transmission function through the RS485 of the instrument, that is, the "remote signal" function.

Switch output is relay output, which can realize "remote control" and alarm output.

Switch input and output

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Summary of Contents for ADW310

Page 1: ...1 350 ADW3 1 0 Wireless Meter Installation and Instruction Manual V 1 0 Ankerui Electric Co Ltd ...

Page 2: ...d or reproduced or transmitted in any form otherwise all consequences shall be borne by the offender The company reserves all legal rights The company reserves the right to modify the product specifications described in the manual without prior notice Before ordering please consult your local distributor for current specifications of this product ...

Page 3: ...3 Manual revision record date old version new version Remark 202 2 8 8 _ _ _ _ V1 0 1 The first edition of the manual ...

Page 4: ...4 ...

Page 5: ... advantages of small size high precision rich functions etc and has many optional communication methods which can support RS485 communication and Lora 4G and other wireless communication methods increasing the The current sampling mode of the external transformer is convenient for users to install and use in different occasions It can be flexibly installed in the distribution box to meet the needs...

Page 6: ...wer apparent power Harmonic function Total harmonic content sub harmonic content 2 to 31 times Pulse output Active pulse output Temperature measurement function Two way temperature measurement optional T DI DO 1 DI 1 DO optional K LED indication Pulse light indication External transformer External open type transformer Electric parameter alarm Undervoltage overvoltage undercurrent overcurrent unde...

Page 7: ...umption 2W Measuring performance Standards compliant GB T17215 322 200 8 GB T17215 321 200 8 Active energy accuracy Level 1 temperature accuracy 2 pulse Pulse Width 80 20ms Pulse constant 1600 imp kWh communication wireless 470MHz wireless transmission transmission distance in open space 1km 4G interface RS485 A B medium shielded twisted pair protocol MODBUS RTU DL T 645 07 3 2 Environmental condi...

Page 8: ... 1 ADW3 1 0 effect size chart 2 Dimensions of supporting transformers Table 5 Specifications and Dimensions of Supporting Transformers Specification Dimensions mm Perforation size mm Tolerance mm W H D M N Φ1 Φ2 AKH 0 66 K 10N 27 44 32 25 36 10 9 1 AKH 0 66 K 16N 31 50 36 27 42 16 17 ...

Page 9: ...ly is required When the external connection is turned on or off the on or off information is collected through the instrument switch input module and displayed locally by the instrument The switch input can not only collect and display the local switch information but also realize the remote transmission function through the RS485 of the instrument that is the remote signal function Switch output ...

Page 10: ...e angle Φ between voltage and current frequency F 31st harmonic parity Total harmonic content and total harmonic content Among them the voltage U has 1 decimal place the frequency F has 2 decimal places the current I has 3 decimal places the power P has 4 decimal places and the phase angle Φ has 2 decimal places Such as U 220 1V f 49 98HZ I 1 999A P 0 2199KW Φ 60 00 Support 2 way temperature measu...

Page 11: ...mand according to the time less than the demand period the measured demand is called slip demand The recursion time is called slip time demand cycle Continuous measurement of average power at equal time intervals also called window time The default demand period is 15 minutes and the slip time is 1 minute It can measure 8 kinds of maximum demands namely A B C three phase current forward active pow...

Page 12: ...he function code of the write data command is 10H The specific register address table is as follows initial address hexadecimal data item name length bytes read write Remark 1 000H contact address 2 R W 1 247 1 001H baud rate 2 R W 1 1200bps 2 2 400bps 3 4800bps 4 9600bps 5 192 00bps 6 384 00bps 1002H Check Digit 1 2 R W low byte 0 no verification 1 odd parity 2 Even parity high byte 0 1 stop bit ...

Page 13: ...ble number Second time zone start month second time zone day Third time zone timetable number 3rd time zone start month 3rd time zone day Fourth time zone timetable number 4th time zone start month 4th time zone day Fifth time zone timetable number Fifth time zone start month fifth time zone day Sixth time zone timetable number 6th time zone start month 6th time zone day Seventh time zone timetabl...

Page 14: ...s Rate start time start minute respectively R W Same as the first set of timetables 1098H Voltage ratio 4 R W plastic 109AH Current transformation ratio 4 R W plastic 109CH 109FH reserved 2000H Voltage 4 R Integer Keep 1 decimal place the unit is V If the value is U 2200 PT 1 U U P T 2200 0 1 1 220 0 V 2001H 200BH reserved 200CH current 4 R Integer unit A 2 decimal places If the value is I 200 CT ...

Page 15: ... 0 1 3000H Secondary value of total active energy 4 R W Two decimal places Kwh 3002H Secondary value of forward active energy 4 R W Two decimal places Kwh 3004H Secondary value of reverse active energy 4 R W Two decimal places Kwh 3006H Secondary value of total reactive energy 4 R W Two decimal places Kvarh 3008H Secondary value of forward reactive energy 4 R W Two decimal places Kvarh 300AH Secon...

Page 16: ... Forward active energy peak secondary value 4 R W Integer unit kWh 2 decimal places If the value is 120201 P T 10 CT 10 Then value value P T CT 120201 0 01 10 10 12020 3018H Forward active energy peak secondary value 4 R W Integer unit kWh 2 decimal places If the value is 120201 P T 10 CT 10 Then value value P T CT 120201 0 01 10 10 12020 301AH Forward active energy level quadratic value 4 R W Int...

Page 17: ...en value value P T CT 120201 0 01 10 10 12020 3024H Forward reactive energy peak secondary value 4 R W Integer unit kWh 2 decimal places If the value is 120201 P T 10 CT 10 Then value value P T CT 120201 0 01 10 10 12020 3026H Forward reactive energy peak secondary value 4 R W Integer unit kWh 2 decimal places If the value is 120201 P T 10 CT 10 Then value value P T CT 120201 0 01 10 10 12020 3028...

Page 18: ...lue P T CT 120201 0 01 10 10 12020 3032H reserved 4006H Total active power real time demand 4 R Integer unit kW 3 decimal places 400CH Total forward active power real time demand 4 R Integer unit kW 3 decimal places 400EH Total reverse active power real time demand 4 R Integer unit kW 3 decimal places 4010H Total forward reactive power real time demand 4 R Integer unit kW 3 decimal places 4012H To...

Page 19: ...O1 alarm output bit7 Whether DO2 alarm output Bit8 Bit9 Bit10 Bit11 Bit12 Bit13 Bit14 Bit1 5 Power off report 01DOH 464 Alarm 1 enable bit 2 R W Bit0 Overvoltage alarm enable bit Bit1 Undervoltage alarm enable bit Bit2 Overcurrent alarm enable bit Bit3 Undercurrent alarm enable bit Bit4 Over power alarm enable bit Bit5 Under power alarm enable bit Bit6 Whether DO1 alarm output bit7 Whether DO2 ala...

Page 20: ...rm delay 2 R W Integer Unit 0 01S 01D9H _ 473 Over power alarm threshold 2 R W Integer Unit 0 001kw 01DA H 474 Over power alarm delay 2 R W Integer Unit 0 01S 01DB H 475 Under power alarm threshold 2 R W Integer Unit 0 001kw 01DC H 476 Under power alarm delay 2 R W Integer Unit 0 01S 01DD H 477 DI1 initial state 2 R W 0 Normally open 1 Normally closed 01DE H 478 DI1 programming 2 R W 0 Do not asso...

Page 21: ...it6 bit7 The second channel over temperature alarm enable bit Bit8 Bit9 Bit10 Bit11 Bit12 Bit13 Bit14 Bit1 5 0268H 616 Alarm 2 Alarm status 2 R Corresponding to alarm 2 enable bit 0217H 535 Alarm 3 enable bit 2 R W Bit0 Current positive active power demand is too high alarm enable bit Bit1 Current reverse active power demand high alarm enable bit Bit2 Current high reactive power demand alarm enabl...

Page 22: ...mand is too high alarm threshold 4 R W Integer unit kW 3 decimal places 023DH 573 Current reverse active power demand is too high alarm delay 2 R W Integer Unit 0 01S 023EH 574 The current forward reactive power demand is too high alarm threshold 4 R W Integer unit Kvar 3 decimal places 0240H 576 The current forward reactive power demand is too high alarm delay 2 R W Integer Unit 0 01S 0241H 577 T...

Page 23: ...the meter are the same as the wireless configuration of the upper master station channel and spreading factor if different please modify The wireless parameters of the meter are consistent with the master station and then re test if they are the same it may be that the meter and the master station are too far away or the on site interference is serious At this time you can try to use an external s...

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