Autonics krn100 series User Manual Download

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Preface

© Copyright Reserved Autonics Co., Ltd.

USER MANUAL

For COMMUNICATION

Summary of Contents for krn100 series

Page 1: ...Preface Copyright Reserved Autonics Co Ltd i USER MANUAL For COMMUNICATION ...

Page 2: ...ii Copyright Reserved Autonics Co Ltd ...

Page 3: ...ics products Please familiarize yourself with the information contained in the Safety Considerations section before using this product This user manual for communication contains information about the product and its proper use and should be kept in a place where it will be easy to access ...

Page 4: ...offer any guarantee concerning matters beyond the scope of this manual This manual may not be edited or reproduced in either part or whole without permission A user manual is not provided as part of the product package Visit our home page www autonics com to download a copy The manual s content may vary depending on changes to the product s software and other unforeseen developments within Autonic...

Page 5: ...mmunication Symbols Symbol Description Supplementary information for a particular feature Failure to follow instructions can result in serious injury or death Failure to follow instructions can lead to a minor injury or product damage An example of the concerned feature s use 1 Annotation mark ...

Page 6: ...ruction may result in electric shock Check the terminal numbers before connecting the power source Failure to follow this instruction may result in fire or product damage by a fire This unit uses lithium battery Do not disassemble or burn up this unit Failure to follow this instruction may result in explosion Do not touch the unit or terminals within 30 sec after turning off the power Failure to f...

Page 7: ...nit Failure to follow this instruction may result in cause malfunction Check the connection diagram of this manual before supplying power Failure to follow this instruction may result in fire Do not touch terminal during dielectric or insulation resistance test Failure to follow this instruction may result in electric shock Use insulation transformer and noise filter power for too much noise from ...

Page 8: ...are upgrade It may not operate as same way with before upgrade operation Use voltage output of transmitter power output card only for transmitter power Failure to follow this instruction may result in output module damage The specifications and dimensions of this manual are subject to change without notice ...

Page 9: ...ing Registers Func03 03H 22 2 4 Read Input Registers Func04 04H 23 2 5 Preset Single Registers Func06 06H 24 2 6 Preset Multiple Registers Func16 10H 25 2 7 Exception process Exception Response Error Code 26 3 Modbus Mapping Table 27 3 1 Read Coil Status Func 01 Force Single Coil Func 05 27 3 2 Read Discrete Input Status Func 02 28 3 3 Read Input Register Func 04 30 3 4 Read Holding Register Func ...

Page 10: ...Table of Contents x Copyright Reserved Autonics Co Ltd ...

Page 11: ...yte 1Byte 1Byte 1Byte 1Byte 1Byte 1Byte The below example is to read the output status ON 1 OFF 0 of 10EA within coil 00001 0000 H to 00010 0009 H on the Slave Address 17 from the Master Query Master Slave Address Function Command Starting Address No of Points Number of data Error Check CRC16 High Low High Low Low High 11 H 01 H 00 H 00 H 00 H 0A H H H The below example is when coil 00008 0007 H t...

Page 12: ...e 1Byte 1Byte 1Byte 1Byte 1Byte The below example is to read the input status ON 1 OFF 0 of 10EA within 10001 0000 H to 10010 0009 H on the Slave Address 17 from the Master Query Master Slave Address Function Command Starting Address No of Points Number of data Error Check CRC16 High Low High Low Low High 11 H 02 H 00 H 00 H 00 H 0A H H H The below example is when 10008 0007 H to 10001 0000 H valu...

Page 13: ...High Low High Low Low High 1Byte 1Byte 1Byte 1Byte 1Byte 1Byte 1Byte 1Byte 1Byte 1Byte 1Byte The below example is to read 2EA value within Holding Register 40001 0000 H to 40002 0001 H on the Slave Address 17 from the Master Query Master Slave Address Function Command Starting Address No of Points Number of data Error Check CRC16 High Low High Low Low High 11 H 03 H 00 H 00 H 00 H 02 H H H The bel...

Page 14: ...Error Check CRC16 Low High 1Byte 1Byte 1Byte 1Byte 1Byte 1Byte 1Byte 1Byte The below is to read 2EA value within Input Register 30001 0000 H to 30002 0001 H on the Slave Address 17 from the Master Query Master Slave Address Function Command Starting Address No of Points Number of data Error Check CRC16 High Low High Low Low High 11 H 04 H 00 H 00 H 00 H 02 H H H The below example is when 30001 000...

Page 15: ...dress Function Command Register Address Preset Data Data Error Check CRC16 High Low High Low Low High 1Byte 1Byte 1Byte 1Byte 1Byte 1Byte 1Byte 1Byte The below example is to write 10 A H at Holding Register 40001 0000 H of Slave Address 17 from the Master Query Master Slave Address Function Command Starting Address Preset Data Data Error Check CRC16 High Low High Low Low High 11 H 06 H 00 H 00 H 0...

Page 16: ...ow example is to write all 10 A H at Holding Register 40001 0000 H to 40002 0001 H of the Slave Address 17 from the Master Query Master Slave Address Function Comma nd Starting Address No of Register Number of register Byte Count Number of data byte Data Data Error Check CRC16 High Low High Low High Low High Low Low High 11 H 10 H 00 H 00 H 00 H 02 H 04 H 00 H 0A H 00 H 0A H H H Response Slave Sla...

Page 17: ...address of the queried data is inconsistent with transmittable data address ILLRGAL DATA VALUE Exception Code 03 H The number of the queried data is inconsistent with the number of transmittable data SLAVE DEVICE FAILURE Exception Code 04 H Not properly completes the queried command The below example is to read the output status ON 1 OFF 0 of non existing coil 01001 03E8 H on the Slave Address 17 ...

Page 18: ...1 Modbus RTU protocol 18 Copyright Reserved Autonics Co Ltd ...

Page 19: ...nsaction identifier Allots from Client Copies and transfers the received value from the Master Protocol Identifier 2 Byte Protocol identifier 0 MODBUS protocol Allots from Client Copies and transfers the received value from the Master Length 2 Byte Next data length Next data length Unit Byte Next data length Unit Byte Unit Identifier 1 Byte Identifier Allots from Client Copies and transfers the re...

Page 20: ... 1Byte 1Byte The below example is to read the output status ON 1 OFF 0 of 10EA within coil 000001 0000 H to 000010 0009 H on the Slave from Master Query Master MBAP Header Function Command Starting Address No of Points Number of data High Low High Low 00 0a 00 00 00 06 01H 01 H 00 H 00 H 00 H 0A H The below example is when coil 000008 0007 H to 000001 0000 H value on the Slave is ON ON OFF OFF ON ...

Page 21: ...e 1Byte 1Byte The below example is to read the input status ON 1 OFF 0 of 10EA within 100001 0000 H to 100010 0009 H on the Slave from the Master Query Master MBAP Header Function Command Starting Address No of Points Number of data High Low High Low 00 07 00 00 00 06 01H 02 H 00 H 00 H 00 H 0A H The below example is when 100008 0007 H to 100001 0000 H value on the Slave is ON ON OFF OFF ON ON OFF...

Page 22: ... Low High Low High Low 7Byte 1Byte 1Byte 1Byte 1Byte 1Byte 1Byte 1Byte 1Byte The below example is to read 2EA value within Holding Register 400001 0000 H to 400002 0001 H on the Slave from the Master Query Master MBAP Header Function Command Starting Address No of Points Number of data High Low High Low 00 0a 00 00 00 06 01H 03 H 00 H 00 H 00 H 02 H The below example is when 400001 0000 H value on...

Page 23: ...ta byte Data Data Data 7Byte 1Byte 1Byte 1Byte 1Byte 1Byte The below example is to read 2EA value within Input Register 300001 0000 H to 300002 0001 H on the Slave from the Master Query Master MBAP Header Function Command Starting Address No of Points Number of data High Low High Low 00 0b 00 00 00 06 01H 04 H 00 H 00 H 00 H 02 H The below example is when 30001 0000 H value on the Slave is 10 A H ...

Page 24: ...e 2 Response Slave MBAP Header Function Command Register Address Preset Data Data High Low High Low 7Byte 1Byte 1Byte 1Byte 1Byte 1Byte The below example is to write 10 A H at Holding Register 400001 0000 H of Slave from the Master Query Master MBAP Header Function Command Starting Address Preset Data Data High Low High Low 00 0c 00 00 00 06 01H 06 H 00 H 00 H 00 H 0A H Response Slave MBAP Header ...

Page 25: ...to write all 10 A H at Holding Register 400001 0000 H to 400002 0001 H of the Slave from the Master Query Master MBAP Header Function Comma nd Starting Address No of Register Number of register Byte Count Number of data byte Data Data High Low High Low High Low High Low 00 0d 00 00 00 0b 01H 10 H 00 H 00 H 00 H 02 H 04 H 00 H 0A H 00 H 0A H Response Slave MBAP Header Function Command Starting Addr...

Page 26: ...ng address of the queried data is inconsistent with transmittable data address ILLRGAL DATA VALUE Exception Code 03 H The number of the queried data is inconsistent with the number of transmittable data SLAVE DEVICE FAILURE Exception Code 04 H Not properly completes the queried command The below example is to read the output status ON 1 OFF 0 of non existing coil 001001 03E8 H on the Slave from th...

Page 27: ... recording Stop recording 0 STOP 1 RUN STOP 000002 0001 01 05 R W Feed Manual feed 0 OFF 1 Feed OFF Operation is Pulse form 000003 0002 01 05 R W List Out Parameter set information output 0 OFF 1 List Out OFF Operation is Pulse form 000004 0003 01 05 R W Digital Memo Digital memo output 0 OFF 1 Digital Memo OFF Operation is Pulse form 000005 to 000050 01 05 R W Reserved In case of Feed List Out Di...

Page 28: ... lamp 0 OFF 1 ON Alarm 16 100019 0012 02 R ALARM 17 S9AO 5 output lamp 0 OFF 1 ON Alarm 17 100020 0013 02 R ALARM 18 S9AO 6 output lamp 0 OFF 1 ON Alarm 18 100021 0014 02 R ALARM 19 SLOT 10 S10AO 1 output lamp 0 OFF 1 ON Alarm 19 100022 0015 02 R ALARM 20 S10AO 2 output lamp 0 OFF 1 ON Alarm 20 100023 0016 02 R ALARM 21 S10AO 3 output lamp 0 OFF 1 ON Alarm 21 100024 0017 02 R ALARM 22 S10AO 4 outp...

Page 29: ...034 02 R KRN UI2 Slot 1 Analog input module installati on KRN UI2 Slot1 installation 0 OFF 1 ON 100054 0035 02 R KRN UI2 Slot 2 Slot2 installation 0 OFF 1 ON 100055 0036 02 R KRN UI2 Slot 3 Slot3 installation 0 OFF 1 ON 100056 0037 02 R KRN UI2 Slot 4 Slot4 installation 0 OFF 1 ON 100057 0038 02 R KRN UI2 Slot 5 Slot5 installation 0 OFF 1 ON 100058 0039 02 R KRN UI2 Slot 6 Slot6 installation 0 OFF...

Page 30: ...0 0077 04 R Input status Start Address Input status start address 0000 300121 0078 04 R Input status Quantity Input status quantity 0 Select set or not by each item 1 300122 0079 04 R Holding Register Start Address Holding register start address 0000 300123 007A 04 R Holding Register Quantity Holding register quantity 0 Select set or not by each item 1 300124 007B 04 R Input Register Start Address...

Page 31: ...CH7 PV display value 2 300232 00E7 300233 00E8 04 R CH7 Unit S4AI 1 CH7 display unit 300209 Refer to address 300234 00E9 04 R CH7 Range Point S4AI 1 CH7 range point 0 0 1 0 0 2 0 00 3 0 000 4 0 0000 0 0 Set decimal point of PV 300235 00EA 04 R CH8 PV S4AI 2 CH8 PV display value 2 300236 00EB 300237 00EC 04 R CH8 Unit S4AI 2 CH8 display unit 300209 Refer to address 300238 00ED 04 R CH8 Range Point ...

Page 32: ...1 CH9 tag name CH 9 300280 0117 300281 0118 300282 0119 04 R CH10 Tag Name S5AI 2 CH10 tag name CH 10 300283 011A 300284 011B 300285 011C 04 R CH11 Tag Name S6AI 1 CH11 tag name CH 11 300286 011D 300287 011E 300288 011F 04 R CH12 Tag Name S6AI 2 CH12 tag name CH 12 300289 0120 300290 0121 300291 0122 04 R Slot7 Insert Option Slot7 module installation 0 None 1 KRN DI6 2 KRN AR4 3 KRN AT6 4 KRN 24V3...

Page 33: ...rature unit No Unit No Unit No Unit No Unit No Unit 1 C 17 32 V 48 64 User0 2 F 18 Wt 33 mV 49 A 65 User1 3 K 19 mass 34 μV 50 kg cm2 66 User2 4 Kcal m3 20 Vol 35 kV 51 Pa 67 User3 5 Kcal 21 ppm 36 Ω 52 kPa 68 User4 6 cal 22 ppb 37 mΩ 53 MPa 69 User5 7 j 23 mol 38 μΩ 54 N m2 70 User6 8 Btu 24 Blank 39 s 55 N mm2 71 User7 9 l 25 lx 40 μs 56 inH2O 72 User8 10 ml 26 cd 41 VA 57 mmH2O 73 User9 11 t 27...

Page 34: ... But for Two Unit available 0 0 1 0 0 2 0 00 400010 0009 03 06 16 R W CH1 Temp Display Unit CH1 temperature unit 300209 Refer to address TC RTD type 0 1 2 K Analog type Supports all 400011 000A 03 06 16 R W CH1 Low Range Low Graph Scale 7 CH1 lower limit input value CH1 lower limit graph scale value Min value of sensor input range to upper limit input value Upper limit graph scale value F S 5 200 ...

Page 35: ...m 3 Maximum Instant 400023 0016 03 06 16 R W CH1 Filter Type CH1 input digital filter 0 None 1 Moving Average None 400024 0017 03 06 16 R W CH1 Filter CH1 the number of digital filter 1 to 128 Num ber 1 400025 0018 03 06 16 R W CH1 Burnout Action CH1 display setting for break 0 OFF 1 UP_SCALE 2 DOWN_SCALE OFF 400026 to 400050 03 06 16 R W Reserved 4 Channel reference table Set value Channel Set va...

Page 36: ...ecimal point and input this Set value Number of decimal point Input type 1 TC RTD 2 60mV 1 200mV 3 2V 3 1to5V 3 5V 2 1to10V 2 0 to 20mA 4 to 20mA 7 In case of analog input you can set Low Range High Range In case of temperature sensor thermocouple RTD you can set Low Graph Scale High Graph Scale In case of TC RTD fixed 1 decimal point If 1310 is set input 13100 In case of 60mV fixed 2 decimal poin...

Page 37: ...ower limit input value CH2 lower limit graph scale value Min value of sensor input range to upper limit input value Upper limit graph scale value F S 5 200 Refer to range decimal point set table 6 400062 003D 03 06 16 R W CH2 High Range High Graph Scale 7 CH2 upper limit input value CH2 higher limit graph scale value Lower limit input value lower limit graph scale value F S 5 to Max sensor input r...

Page 38: ...torage method 0 Instant 1 Average 2 Minimum 3 Maximum Instant 400073 0048 03 06 16 R W CH2 Filter Type CH2 input digital filter 0 None 1 Moving Average None 400074 0049 03 06 16 R W CH2 Filter CH2 the number of digital filter 1 to 128 Num ber 1 400075 004A 03 06 16 R W CH2 Burnout Action CH2 display setting for break 0 OFF 1 UP_SCALE 2 DOWN_SCALE OFF 400076 to 400100 03 06 16 R W Reserved ...

Page 39: ...ower limit input value CH3 lower limit graph scale value Min value of sensor input range to upper limit input value Upper limit graph scale value F S 5 200 Refer to range decimal point set table 6 400112 006F 03 06 16 R W CH3 High Range High Graph Scale 7 CH3 upper limit input value CH3 higher limit graph scale value Lower limit input value lower limit graph scale value F S 5 to Max sensor input r...

Page 40: ...torage method 0 Instant 1 Average 2 Minimum 3 Maximum Instant 400123 007A 03 06 16 R W CH3 Filter Type CH3 input digital filter 0 None 1 Moving Average None 400124 007B 03 06 16 R W CH3 Filter CH3 the number of digital filter 1 to 128 Numb er 1 400125 007C 03 06 16 R W CH3 Burnout Action CH3 display setting for break 0 OFF 1 UP_SCALE 2 DOWN_SCALE OFF 400126 to 400150 03 06 16 R W Reserved ...

Page 41: ...wer limit input value CH4 lower limit graph scale value Min value of sensor input range to upper limit input value Upper limit graph scale value F S 5 200 Refer to range decimal point set table 6 400162 00A1 03 06 16 R W CH4 High Range High Graph Scale 7 CH4 upper limit input value CH4 higher limit graph scale value Lower limit input value lower limit graph scale value F S 5 to Max sensor input ra...

Page 42: ...torage method 0 Instant 1 Average 2 Minimum 3 Maximum Instant 400173 00AC 03 06 16 R W CH4 Filter Type CH4 input digital filter 0 None 1 Moving Average None 400174 00AD 03 06 16 R W CH4 Filter CH4 the number of digital filter 1 to 128 Numb er 1 400175 00AE 03 06 16 R W CH4 Burnout Action CH4 display setting for break 0 OFF 1 UP_SCALE 2 DOWN_SCALE OFF 400176 to 400200 03 06 16 R W Reserved ...

Page 43: ...ower limit input value CH5 lower limit graph scale value Min value of sensor input range to upper limit input value Upper limit graph scale value F S 5 200 Refer to range decimal point set table 6 400212 00D3 03 06 16 R W CH5 High Range High Graph Scale 7 CH5 upper limit input value CH5 higher limit graph scale value Lower limit input value lower limit graph scale value F S 5 to Max sensor input r...

Page 44: ...torage method 0 Instant 1 Average 2 Minimum 3 Maximum Instant 400223 00DE 03 06 16 R W CH5 Filter Type CH5 input digital filter 0 None 1 Moving Average None 400224 00DF 03 06 16 R W CH5 Filter CH5 the number of digital filter 1 to 128 Numb er 1 400225 00E0 03 06 16 R W CH5 Burnout Action CH5 display setting for break 0 OFF 1 UP_SCALE 2 DOWN_SCALE OFF 400226 to 400250 03 06 16 R W Reserved ...

Page 45: ...ower limit input value CH6 lower limit graph scale value Min value of sensor input range to upper limit input value Upper limit graph scale value F S 5 200 Refer to range decimal point set table 6 400262 0105 03 06 16 R W CH6 High Range High Graph Scale 7 CH6 upper limit input value CH6 higher limit graph scale value Lower limit input value lower limit graph scale value F S 5 to Max sensor input r...

Page 46: ...torage method 0 Instant 1 Average 2 Minimum 3 Maximum Instant 400273 0110 03 06 16 R W CH6 Filter Type CH6 input digital filter 0 None 1 Moving Average None 400274 0111 03 06 16 R W CH6 Filter CH6 the number of digital filter 1 to 128 Numb er 1 400275 0112 03 06 16 R W CH6 Burnout Action CH6 display setting for break 0 OFF 1 UP_SCALE 2 DOWN_SCALE OFF 400276 to 400300 03 06 16 R W Reserved ...

Page 47: ...imit input value CH7 lower limit graph scale value Min value of sensor input range to upper limit input value Upper limit graph scale value F S 5 200 Refer to range decimal point set table 6 400312 0137 03 06 16 R W CH7 High Range High Graph Scale 7 CH7 upper limit input value CH7 higher limit graph scale value Lower limit input value lower limit graph scale value F S 5 to Max sensor input range 1...

Page 48: ...H7 Data storage method 0 Instant 1 Average 2 Minimum 3 Maximum Instant 400323 0142 03 06 16 R W CH7 Filter Type CH7 input digital filter 0 None 1 Moving Average None 400324 0143 03 06 16 R W CH7 Filter CH7 the number of digital filter 1 to 128 Numb er 1 400325 0144 03 06 16 R W CH7 Burnout Action CH7 display setting for break 0 OFF 1 UP_SCALE 2 DOWN_SCALE OFF 400326 to 400350 03 06 16 R W Reserved...

Page 49: ...wer limit input value CH8 lower limit graph scale value Min value of sensor input range to upper limit input value Upper limit graph scale value F S 5 200 Refer to range decimal point set table 6 400362 0169 03 06 16 R W CH8 High Range High Graph Scale 7 CH8 upper limit input value CH8 higher limit graph scale value Lower limit input value lower limit graph scale value F S 5 to Max sensor input ra...

Page 50: ...torage method 0 Instant 1 Average 2 Minimum 3 Maximum Instant 400373 0174 03 06 16 R W CH8 Filter Type CH8 input digital filter 0 None 1 Moving Average None 400374 0175 03 06 16 R W CH8 Filter CH8 the number of digital filter 1 to 128 Numb er 1 400375 0176 03 06 16 R W CH8 Burnout Action CH8 display setting for break 0 OFF 1 UP_SCALE 2 DOWN_SCALE OFF 400376 to 400400 03 06 16 R W Reserved ...

Page 51: ...e 7 CH9 lower limit input value CH9 lower limit graph scale value Min value of sensor input range to upper limit input value Upper limit graph scale value F S 5 200 Refer to range decimal point set table 6 400412 019B 03 06 16 R W CH9 High Range High Graph Scale 7 CH9 upper limit input value CH9 higher limit graph scale value Lower limit input value lower limit graph scale value F S 5 to Max senso...

Page 52: ...CH9 Data storage method 0 Instant 1 Average 2 Minimum 3 Maximum Instant 400423 01A6 03 06 16 R W CH9 Filter Type CH9 input digital filter 0 None 1 Moving Average None 400424 01A7 03 06 16 R W CH9 Filter CH9 the number of digital filter 1 to 128 Numb er 1 400425 01A8 03 06 16 R W CH9 Burnout Action CH9 display setting for break 0 OFF 1 UP_SCALE 2 DOWN_SCALE OFF 400426 to 400450 03 06 16 R W Reserve...

Page 53: ...lower limit input value CH10 lower limit graph scale value Min value of sensor input range to upper limit input value Upper limit graph scale value F S 5 200 Refer to range decimal point set table 6 400462 01CD 03 06 16 R W CH10 High Range High Graph Scale 7 CH10 upper limit input value CH10 higher limit graph scale value Lower limit input value lower limit graph scale value F S 5 to Max sensor in...

Page 54: ...rage method 0 Instant 1 Average 2 Minimum 3 Maximum Instant 400473 01D8 03 06 16 R W CH10 Filter Type CH10 input digital filter 0 None 1 Moving Average None 400474 01D9 03 06 16 R W CH10 Filter CH10 the number of digital filter 1 to 128 Numb er 1 400475 01DA 03 06 16 R W CH10 Burnout Action CH10 display setting for break 0 OFF 1 UP_SCALE 2 DOWN_SCALE OFF 400476 to 400500 03 06 16 R W Reserved ...

Page 55: ...lower limit input value CH11 lower limit graph scale value Min value of sensor input range to upper limit input value Upper limit graph scale value F S 5 200 Refer to range decimal point set table 6 400512 01FF 03 06 16 R W CH11 High Range High Graph Scale 7 CH11 upper limit input value CH11 higher limit graph scale value Lower limit input value lower limit graph scale value F S 5 to Max sensor in...

Page 56: ...rage method 0 Instant 1 Average 2 Minimum 3 Maximum Instant 400523 020A 03 06 16 R W CH11 Filter Type CH11 input digital filter 0 None 1 Moving Average None 400524 020B 03 06 16 R W CH11 Filter CH11 the number of digital filter 1 to 128 Numb er 1 400525 020C 03 06 16 R W CH11 Burnout Action CH11 display setting for break 0 OFF 1 UP_SCALE 2 DOWN_SCALE OFF 400526 to 400550 03 06 16 R W Reserved ...

Page 57: ...lower limit input value CH12 lower limit graph scale value Min value of sensor input range to upper limit input value Upper limit graph scale value F S 5 200 Refer to range decimal point set table 6 400562 0231 03 06 16 R W CH12 High Range High Graph Scale 7 CH12 upper limit input value CH12 higher limit graph scale value Lower limit input value lower limit graph scale value F S 5 to Max sensor in...

Page 58: ...rage method 0 Instant 1 Average 2 Minimum 3 Maximum Instant 400573 023C 03 06 16 R W CH12 Filter Type CH12 input digital filter 0 None 1 Moving Average None 400574 023D 03 06 16 R W CH12 Filter CH12 the number of digital filter 1 to 128 Numb er 1 400575 023E 03 06 16 R W CH12 Burnout Action CH12 display setting for break 0 OFF 1 UP_SCALE 2 DOWN_SCALE OFF 400576 to 400600 03 06 16 R W Reserved ...

Page 59: ...3 06 16 R W Alarm2 ON Delay Alarm 2 output ON delay time 0 to 3600 Sec 0 400618 0269 03 06 16 R W Alarm2 OFF Delay Alarm 2 output OFF delay time 0 to 3600 Sec 0 400619 026A 03 06 16 R W Alarm2 Alarm No Alarm 2 output alarm number Refer to channel table 8 None 400620 026B 03 06 16 R W Alarm3 Type Alarm 3 operation mode 0 OFF 1 PV Hi 2 PV Lo 3 DV Hi 4 DV Lo 5 SBA 6 P END OFF 400621 026C 03 06 16 R W...

Page 60: ...Ltd No Address Func R W Parameter Description Set range Unit Default Note 400638 to 400650 03 06 16 R W Reserved 8 Channel reference table Set value Channel Set value Channel 0 None 7 CH7 1 CH1 8 CH8 2 CH2 9 CH9 3 CH3 10 CH10 4 CH4 11 CH11 5 CH5 12 CH12 6 CH6 ...

Page 61: ...output ON delay time 0 to 3600 Sec 0 400668 029B 03 06 16 R W Alarm2 OFF Delay Alarm 2 output OFF delay time 0 to 3600 Sec 0 400669 029C 03 06 16 R W Alarm2 Alarm No Alarm 2 output alarm number Refer to channel table 8 None 400670 029D 03 06 16 R W Alarm3 Type Alarm 3 operation mode 0 OFF 1 PV Hi 2 PV Lo 3 DV Hi 4 DV Lo 5 SBA 6 P END OFF 400671 029E 03 06 16 R W Alarm3 Ref Channel Alarm 3 referenc...

Page 62: ... ON delay time 0 to 3600 Sec 0 400718 02CD 03 06 16 R W Alarm2 OFF Delay Alarm 2 output OFF delay time 0 to 3600 Sec 0 400719 02CE 03 06 16 R W Alarm2 Alarm No Alarm 2 output alarm number Refer to channel table 8 None 400720 02CF 03 06 16 R W Alarm3 Type Alarm 3 operation mode 0 OFF 1 PV Hi 2 PV Lo 3 DV Hi 4 DV Lo 5 SBA 6 P END OFF 400721 02D0 03 06 16 R W Alarm3 Ref Channel Alarm 3 reference chan...

Page 63: ... ON delay time 0 to 3600 Sec 0 400768 02FF 03 06 16 R W Alarm2 OFF Delay Alarm 2 output OFF delay time 0 to 3600 Sec 0 400769 0300 03 06 16 R W Alarm2 Alarm No Alarm 2 output alarm number Refer to channel table 8 None 400770 0301 03 06 16 R W Alarm3 Type Alarm 3 operation mode 0 OFF 1 PV Hi 2 PV Lo 3 DV Hi 4 DV Lo 5 SBA 6 P END OFF 400771 0302 03 06 16 R W Alarm3 Ref Channel Alarm 3 reference chan...

Page 64: ... ON delay time 0 to 3600 Sec 0 400818 0331 03 06 16 R W Alarm2 OFF Delay Alarm 2 output OFF delay time 0 to 3600 Sec 0 400819 0332 03 06 16 R W Alarm2 Alarm No Alarm 2 output alarm number Refer to channel table 8 None 400820 0333 03 06 16 R W Alarm3 Type Alarm 3 operation mode 0 OFF 1 PV Hi 2 PV Lo 3 DV Hi 4 DV Lo 5 SBA 6 P END OFF 400821 0334 03 06 16 R W Alarm3 Ref Channel Alarm 3 reference chan...

Page 65: ...ON delay time 0 to 3600 Sec 0 400868 0363 03 06 16 R W Alarm2 OFF Delay Alarm 2 output OFF delay time 0 to 3600 Sec 0 400869 0364 03 06 16 R W Alarm2 Alarm No Alarm 2 output alarm number Refer to channel table 8 None 400870 0365 03 06 16 R W Alarm3 Type Alarm 3 operation mode 0 OFF 1 PV Hi 2 PV Lo 3 DV Hi 4 DV Lo 5 SBA 6 P END OFF 400871 0366 03 06 16 R W Alarm3 Ref Channel Alarm 3 reference chann...

Page 66: ...N delay time 0 to 3600 Sec 0 400918 0395 03 06 16 R W Alarm2 OFF Delay Alarm 2 output OFF delay time 0 to 3600 Sec 0 400919 0396 03 06 16 R W Alarm2 Alarm No Alarm 2 output alarm number Refer to channel table 8 None 400920 0397 03 06 16 R W Alarm3 Type Alarm 3 operation mode 0 OFF 1 PV Hi 2 PV Lo 3 DV Hi 4 DV Lo 5 SBA 6 P END OFF 400921 0398 03 06 16 R W Alarm3 Ref Channel Alarm 3 reference channe...

Page 67: ... delay time 0 to 3600 Sec 0 400968 03C7 03 06 16 R W Alarm2 OFF Delay Alarm 2 output OFF delay time 0 to 3600 Sec 0 400969 03C8 03 06 16 R W Alarm2 Alarm No Alarm 2 output alarm number Refer to channel table 8 None 400970 03C9 03 06 16 R W Alarm3 Type Alarm 3 operation mode 0 OFF 1 PV Hi 2 PV Lo 3 DV Hi 4 DV Lo 5 SBA 6 P END OFF 400971 03CA 03 06 16 R W Alarm3 Ref Channel Alarm 3 reference channel...

Page 68: ...N delay time 0 to 3600 Sec 0 401018 03F9 03 06 16 R W Alarm2 OFF Delay Alarm 2 output OFF delay time 0 to 3600 Sec 0 401019 03FA 03 06 16 R W Alarm2 Alarm No Alarm 2 output alarm number Refer to channel table 8 None 401020 03FB 03 06 16 R W Alarm3 Type Alarm 3 operation mode 0 OFF 1 PV Hi 2 PV Lo 3 DV Hi 4 DV Lo 5 SBA 6 P END OFF 401021 03FC 03 06 16 R W Alarm3 Ref Channel Alarm 3 reference channe...

Page 69: ...t ON delay time 0 to 3600 Sec 0 401068 042B 03 06 16 R W Alarm2 OFF Delay Alarm 2 output OFF delay time 0 to 3600 Sec 0 401069 042C 03 06 16 R W Alarm2 Alarm No Alarm 2 output alarm number Refer to channel table 8 None 401070 042D 03 06 16 R W Alarm3 Type Alarm 3 operation mode 0 OFF 1 PV Hi 2 PV Lo 3 DV Hi 4 DV Lo 5 SBA 6 P END OFF 401071 042E 03 06 16 R W Alarm3 Ref Channel Alarm 3 reference cha...

Page 70: ...t ON delay time 0 to 3600 Sec 0 401118 045D 03 06 16 R W Alarm2 OFF Delay Alarm 2 output OFF delay time 0 to 3600 Sec 0 401119 045E 03 06 16 R W Alarm2 Alarm No Alarm 2 output alarm number Refer to channel table 8 None 401120 045F 03 06 16 R W Alarm3 Type Alarm 3 operation mode 0 OFF 1 PV Hi 2 PV Lo 3 DV Hi 4 DV Lo 5 SBA 6 P END OFF 401121 0460 03 06 16 R W Alarm3 Ref Channel Alarm 3 reference cha...

Page 71: ...t ON delay time 0 to 3600 Sec 0 401168 048F 03 06 16 R W Alarm2 OFF Delay Alarm 2 output OFF delay time 0 to 3600 Sec 0 401169 0490 03 06 16 R W Alarm2 Alarm No Alarm 2 output alarm number Refer to channel table 8 None 401170 0491 03 06 16 R W Alarm3 Type Alarm 3 operation mode 0 OFF 1 PV Hi 2 PV Lo 3 DV Hi 4 DV Lo 5 SBA 6 P END OFF 401171 0492 03 06 16 R W Alarm3 Ref Channel Alarm 3 reference cha...

Page 72: ...S8 AL5 Status AL5 output method 0 NO 1 NC NO 401212 04BB 03 06 16 R W S8 AL6 Status AL6 output method 0 NO 1 NC NO 401213 04BC 03 06 16 R W S9 AL1 Status AL1 output method 0 NO 1 NC NO 401214 04BD 03 06 16 R W S9 AL2 Status AL2 output method 0 NO 1 NC NO 401215 04BE 03 06 16 R W S9 AL3 Status AL3 output method 0 NO 1 NC NO 401216 04BF 03 06 16 R W S9 AL4 Status AL4 output method 0 NO 1 NC NO 40121...

Page 73: ...status 0 Edge 1 Level Edge 401260 04EB 03 06 16 R W DI 4 Type Select digital input 4 0 None 1 Run 2 Memo 3 ListOut 4 Speed 5 Rly Reset None 401261 04EC 03 06 16 R W DI 4 Reset No DI 4 reset alarm number Refer to the table 10 None 401262 04ED 03 06 16 R W DI 4 Status DI 4 operation status 0 Edge 1 Level Edge 401263 04EE 03 06 16 R W DI 5 Type Select digital input 5 0 None 1 Run 2 Memo 3 ListOut 4 S...

Page 74: ...06 16 R W DI 3 Reset No DI 3 reset alarm number Refer to the table 10 None 401309 051C 03 06 16 R W DI 3 Status DI 3 operation status 0 Edge 1 Level Edge 401310 051D 03 06 16 R W DI 4 Type Select digital input 4 0 None 1 Run 2 Memo 3 ListOut 4 Speed 5 Rly Reset None 401311 051E 03 06 16 R W DI 4 Reset No DI 4 reset alarm number Refer to the table 10 None 401312 051F 03 06 16 R W DI 4 Status DI 4 o...

Page 75: ...06 16 R W DI 3 Reset No DI 3 reset alarm number Refer to the table 10 None 401359 054E 03 06 16 R W DI 3 Status DI 3 operation status 0 Edge 1 Level Edge 401360 054F 03 06 16 R W DI 4 Type Select digital input 4 0 None 1 Run 2 Memo 3 ListOut 4 Speed 5 Rly Reset None 401361 0550 03 06 16 R W DI 4 Reset No DI 4 reset alarm number Refer to the table 10 None 401362 0551 03 06 16 R W DI 4 Status DI 4 o...

Page 76: ...03 06 16 R W DI 3 Reset No DI 3 reset alarm number Refer to the table 10 None 401409 0580 03 06 16 R W DI 3 Status DI 3 operation status 0 Edge 1 Level Edge 401410 0581 03 06 16 R W DI 4 Type Select digital input 4 0 None 1 Run 2 Memo 3 ListOut 4 Speed 5 Rly Reset None 401411 0582 03 06 16 R W DI 4 Reset No DI 4 reset alarm number Refer to the table 10 None 401412 0583 03 06 16 R W DI 4 Status DI ...

Page 77: ... Modbus RTU 401509 05E4 03 R RS485 Com Write RS485 communication write 0 Disable 1 Enable Enable 401510 05E5 03 R Ethernet Port Use Ethernet communication 0 Disable 1 Enable Disable 401511 05E6 03 R IP Address IP address 0 0 0 0 to 255 255 255 255 192 168 1 2 401512 05E7 401513 05E8 401514 05E9 401515 05EA 401516 05EB 401517 05EC 401518 05ED 401519 05EE 03 R Subnet mask Subnet Mask 0 0 0 0 to 255 ...

Page 78: ...1 24hour min Refer to the table of 9 6 1 1 3 Dependi ng on the number of input channel Enables only in Graph mode In Digital mode it is exception process Depending on the number of printed channel min set value is changed 401556 0613 03 06 16 R W Divide Zone Record zone division None 1 2 to 12 Zone None Enables only in Graph mode In Digital mode it is exception process 401557 0614 03 06 16 R W Sta...

Page 79: ...tion Standard 401564 061B 03 06 16 R W Dot line Distance Dot line for zone division 0 No Print 1 0 8mm 2 1 6mm 3 2 4mm 4 3 2mm 5 4 0mm 6 4 8mm 7 5 6mm 8 6 4mm 9 7 2mm 10 8 0mm mm 4 0 401565 061C 03 06 16 R W CH Print Distance Record interval for each channel graph 0 No Print 1 10mm 2 20mm 3 30mm 4 40mm 5 50mm 6 60mm 7 70mm 8 80mm 9 90mm 10 100mm mm 20 0 401566 061D 03 06 16 R W Start Line Print St...

Page 80: ...m 401621 0654 Day 01 to 31 d 401622 0655 Hour 0 to 23 h 401623 0656 03 06 16 R W Reservation Type Reservation record 0 Disable 1 Single 2 Repeat Disable 401624 0657 03 06 16 R W Reservation Period start Reservation record start date Year 2000 to 2099 Start time and end time cannot be same Ex Start time 2000 01 01 00 00 00 End time 2000 01 01 00 00 01 401625 0658 Month 01 to 12 401626 0659 Day 01 t...

Page 81: ...It enables to set not in Password mode and if in Password mode it is available only in Admin mode 12 Be sure that the set as default pms every setting is initialized It enables to set not in Password mode and if in Password mode it is available only in Admin mode 13 Memory Clear Log file delete function is not available as communication function 3 4 8 USER INFORMATION SETUP User information settin...

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