20
selection
0812H Decimal point position selection
0: No decimal place 1: decimal place. (Except for the thermocouple B,S,R type,
all other thermocouple type are valid.)
0813H AT setting OFF: 0 (default), ON : 1
0814H Control RUN/STOP setting 0: STOP, 1: RUN (default)
0815H
STOP setting for PID program
control
0: RUN (default), 1: STOP
0816H
Temporarily STOP for PID program
control
0: RUN (default), 1: Temporarily STOP
2. Communication Transmission Format: Command Code: 02: read bits, 05: write bit, 03: read words, 06: write 1 word
ASCII Mode
Read Command Read Command Response Write Command Write Command Response
STX ’: ’ ’: ’ STX ’: ’ ’: ’ STX ’: ’ ’: ’ STX ’: ’ ’: ’
ADR 1 ‘0’ ‘0’ ADR 1 ‘0’ ‘0’ ADR 1 ‘0’ ‘0’ ADR 1 ‘0’ ‘0’
ADR 0 ‘1’ ‘1’ ADR 0 ‘1’ ‘1’ ADR 0 ‘1’ ‘1’ ADR 0 ‘1’ ‘1’
CMD 1 ‘0’ ‘0’ CMD 1 ‘0’ ‘0’ CMD 1 ‘0’ ‘0’ CMD 1 ‘0’ ‘0’
CMD 0 ‘3’ ‘2’ CMD 0 ‘3’ ‘2’ CMD 0 ‘6’ ‘5’ CMD 0 ‘6’ ‘5’
‘1’ ‘0’ ‘0’ ‘0’ ‘1’ ‘0’ ‘1’ ‘0’
‘0’ ‘8’
Number of data
(count by byte)
‘4’ ‘2’ ‘0’ ‘8’ ‘0’ ‘8’
‘0’ ‘1’ ‘0’ ‘1’ ‘0’ ‘1’ ‘0’ ‘1’
Starting data
address
‘0’ ‘0’ ‘1’ ‘7’
Starting data
address
‘1’ ‘0’
Starting data
address
‘1’ ‘0’
‘0’ ‘0’ ‘F’ ‘0’ ‘0’ ‘F’ ‘0’ ‘F’
‘0’ ‘0’
Start address
data
1000H/081xH
‘4’ ‘1’ ‘3’ ‘F’ ‘3’ ‘F’
‘0’ ‘0’ ‘0’ ‘E’ ‘0’ ‘E’ ‘0’
Number of data
(word/Bit)
‘2’ ‘9’ ‘0’
Data content
‘8’ ‘0’
Data content
‘8’ ‘0’
LRC 1 ‘E’ ‘D’ ‘0’ LRC1 ‘F’ ‘E’ LRC1 ‘F’ ‘E’
LRC 0 ‘A’ ‘C’
Address data
1001H
‘0’ LRC 0 ‘D’ ‘3’ LRC 0 ‘D’ ‘3’
END 1 CR CR LRC 1 ‘0’ ‘E’ END 1 CR CR END 1 CR CR
END 0 LF LF LRC 0 ‘3’ ‘3’ END 0 LF LF END 0 LF LF
END 1 CR CR
END 0 LF LF
LRC checksum:
LRC check is the added sum from “Address” to “Data content”. For example, 01H + 03H + 10+ 00H + 00H + 02H = 16H, then take the
complementary of 2, EAH.
RTU Mode
Read Command Read Command Response Write Command Write Command Response
ADR 01H 01H ADR 01H 01H ADR 01H 01H ADR 01H 01H
CMD 03H 02H CMD 03H 02H CMD 06H 05H CMD 06H 05H
10H 08H 10H 08H 10H 08H
Starting data
address
00H 10H
Number of data
(count by byte)
04H 02H
Starting data
address
01H 10H
Starting data
address
01H 10H
00H 00H 01H 17H 03H FFH 03H FFH
Number of data
(word/Bit)
02H 09H
Start address
data
1000H/081xH
F4H 01H
Data content
20H 00H
Data content
20H 00H
CRC 1 C0H BBH 03H CRC 1 DDH 8FH CRC 1 DDH 8FH
CRC 0 CBH A9H
Address
data1001H
20H CRC 0 E2H 9FH CRC 0 E2H 9FH
CRC 1 BBH 77H
CRC 0 15H 88H
CRC (Cyclical Redundancy Check) is obtained by the following steps.
1. Load in a 16-bit register FFFFH as the CRC register.
2. Do an exclusive OR operation of the first byte of the data and low byte of CRC register, and place the operation result back to
the CRC register.
3. Right shift the bits in the CRC register and fill the high bits with “0”. Check the removed lowest bit.
4. If the removed lowest bit is “0”, repeat step 3. Otherwise, do an exclusive OR operation of the CRC register and the value
A001H and place the operation result back to the CRC register.
5. Repeat step 3 and 4 until the 8 bits (1 byte) are all right shifted.
6. Repeat step 2 and 5 and calcualte all the bits to obtain CRC check.
Please be aware of the high/low byte transmission order in the CRC register.
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