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NIPPON
COMMUNICATION MANUAL
DIGITAL PID CONTROLLER
NC-2438
NC-2538
NC-2638
NC-2738
NC-2838
Contents
4.7 Message example of RTU mode ................................................................5
4.7.1 Reading ( Read PV from slave controller 1)..................................5
4.7.2 Setting (Set SV = 10.0 to slave controller 1) .................................5
4.7.3 Setting (Set SV = 10.0 and OUTL=100.0 to slave controller 1)....6
5.7 Message example of ASCII mode..............................................................8
5.7.1 Setting (Set SV = 10.0 to slave controller 1) .................................8
5.7.2 Setting (Set SV = 10.0 and OUTL=100.0 to slave controller 1)....9
6.7 Message example of TAIE Protocol ........................................................ 11
6.7.1 Read ( Read PV from slave controller 1)..................................... 11
6.7.2 Modify ( Modify SV = 10.0 to slave controller 1)....................... 11
6.7.3 Write ( Write SV = 100.0 to slave controller 1) .......................... 11
1 Set up of the controller
Press SET
+
Character
key 3 seconds to configure parameters in Level 3
Name , Functions and Setting range
Protocol Selection
Default
: MODBUS RTU Protocol
: MODBUS ASCII Protocol
: TAIE Protocol
Communication Bits
: Odd parity , Data bits = 8 , Stop Bit = 1
:Odd parity , Data bits = 8 , Stop Bit = 2
: Even parity , Data bits = 8 , Stop Bit = 1
: Even parity , Data bits = 8 , Stop Bit = 2
ID Number
Range : 0 ~ 255
Communication Baud rate
: 2400 bps
: 4800 bps
: 9600 bps
: 19200 bps
: 38400 bps z When parameter
or was changed, always turn on the power again. Otherwise, no communication is performed by using the changed value.
NC-2438/2538/2638/2738/2838 COMMUNICATION MANUAL
2.1 RS485 Communication System
HMI
PLC
(RS-485)
Contoller
IDNO : 2
Controller
IDNO : 3
Figure: 2.1-1
PLC
(RS-485)
Controller
IDNO : 4
Controller
…………
IDNO : 32
Controller
IDNO : 1
Controller
IDNO : 2
Figure: 2.1-2
Controller
IDNO : 3
Controller
…………
IDNO : 32
HOST COMPUTER
(RS-485)
Controller
IDNO : 1
Controller
IDNO : 2
Figure: 2.1-3
PC Communication Converter
Controller
IDNO : 3
Controller
…………
IDNO : 32
(RS-232)
RS232 RS485
Controller
IDNO : 1
Controller
IDNO : 2
Figure: 2.1-4
2.2 RS232 Communication System
PC
Controller
IDNO : 3
Controller
…………
IDNO : 32
(RS-232)
Controller
IDNO : 1
Figure: 2.2-1
3.1 RS485 Communication Wiring
RS485 Converter
Controllers
DX -
Shield Wire
DCE
TxON
RxON
(T+)
(T-)
(R-)
(R+)
MODEL : IC485SN
1
2
3
4
DX +
DX -
DX +
Figure: 3.1-1
RS485 Converter
GND
Vs+
-
+
DC24V
Shield Wire
Controllers
DX -
DX +
DATA-
DATA+
MODEL : EDAM-8520 DX -
DX +
Figure: 3.1-2
Note: 1. The length of shield wire should be less than 1200M.
2. Controllers in RS485 parallel connection should be less than 32 units
3.2 RS232 Communication Wiring
PC Shield Wire
Controller
TXD
RXD
GND
3
2
5
RD
SD
SG
D sub connector (9 Pin)
Note: 1. The length of shield wire should be less than 12M.
2. There is only 1 unit of controller available in RS232 communication..
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ID Number
1 Byte
Function Code
1 Byte
Data
N Byte
CRC
2 Byte
4.2 ID Number (Slave Address)
Range: 1~255.
Master instrument identifies slave controllers by the ID Number of the requested message. ID Number should be configuring in individual slave controller by setting parameter “IDNO” in operation LEVEL 3.
Function Code Contents
03 (03H)
06 (06H)
Reading multiple registers value from slave controller
(Max register count : 8)
Setting 1 register value to slave controller
16 (10H) Setting multiple registers value to slave controller.
(Max register count : 8)
4.4 Data
Data depends on function code.
Request message from Master instrument is include “register address”, “data count” and “setting data”.
Response data from Slave controller is include “byte count”, “data” and “abnormal code”.
4.5 Error Check CRC
CRC16 generation polynomial: X
16 +
X
15 +
X
2 +
X
1
CRC generation step is as below:
. CRC is initialized as FFFFH
. Calculate XOR with 1 st
data and the low byte of CRC. This is assumed as
Y(16bit).
. Shift Y one bit to the right. This assumed as Y.
. If a carry is generated at step 3, then calculate XOR with Y and “A001H”, else jump to step 5.
. Repeat step 3 and 4, until Y is shifting right 8 times.
. Calculate XOR with next data and the low byte of Y. This is assumed as Y.
. Repeat step 3 ~5.
. Repeat step 3~5, until last data is processed.
. Swap the low byte and high byte of Y.
. CRC=Y
Abnormal Code Contents
01 (01H) Illegal function code (Non-existent function code)
02 (02H)
03 (03H)
Illegal register address (Register address is out of range)
Illegal data value (Data value is out of setting range)
4.7.1 Reading ( Read PV from slave controller 1)
Request message from master instrument:
ID Number
(01H)
Function Code
(03H)
Register
Address
(008AH)
Data Count
(0001H)
Response data from slave controller in normal status (Assumed PV=100.0)
CRC
(A5E0H)
ID Number
(01H)
Function Code
(03H)
Byte Count
(02H)
Data
(03E8H)
CRC
(B8FAH)
Response from slave controller in abnormal status (Assumed as illegal data value)
ID Number
(01H)
Function Code
(83H)
Error Code
(03H)
CRC
(0131H)
1 is set to the MSB of function code in abnormal status (83H).
The abnormal code (03H) is returned as contents of error.
4.7.2 Setting (Set SV = 10.0 to slave controller 1)
Request message from master instrument:
ID Number
(01H)
Function Code
(06H)
Register
Address
(0000H)
Setting Data
(0064H)
Response message from slave controller in normal status (When SV = 10.0)
CRC
(8821H)
ID Number
(01H)
Function Code
(06H)
Register
Address
(0000H)
Setting Data
(0064H)
CRC
(8821H)
NC-2438/2538/2638/2738/2838 COMMUNICATION MANUAL
Response from slave controller in abnormal status (Assumed as illegal data value)
ID Number
(01H)
Function Code
(86H)
Error Code
(03H)
CRC
(0261H)
1 is set to the MSB of function code in abnormal status (86H).
The abnormal code (03H) is returned as contents of error.
4.7.3 Setting (Set SV = 10.0 and OUTL=100.0 to slave controller 1)
Request message from master instrument:
ID
Number
(01H)
Function
Code
(10H)
Register
Address
(0000H)
Data
Count
(0002H)
Byte
Count
(04H)
Data1
(0064H)
Data2 CRC
(03E8H) (B2CEH)
Response message from slave controller in normal status (When SV = 10.0 and
OUTL=100.0)
ID Function
Number
(01H)
Code
(10H)
Register
Address
(0000H)
Data
Count
(0002H)
CRC
(41C8H)
Response from slave controller in abnormal status (Assumed as illegal register address)
ID Number
(01H)
Function Code
(90H)
Error Code
(02H)
CRC
(C001H)
1 is set to the MSB of function code in abnormal status (90H).
The abnormal code (02H) is returned as contents of error.
Header
(:)
1 Byte
ID Number
2 Byte
(Function Code)
2 Byte
Data
2N Byte
LRC
2 Byte
Delimiter
(CR+LF)
2 Byte
Range: 1~255
Master instrument identifies slave controllers by the ID Number of the requested message. ID Number should be configuring in individual slave controller by setting parameter “IDNO” in operation LEVEL 3.
Function Code Contents
03 (30H 33H)
06 (30H 36H)
Reading multiple registers value from slave controller
(Max register count : 8)
Setting 1 register value to slave controller
16 (31H 30H) Setting multiple registers value to slave controller.
(Max register count : 8)
5.4 Data
Data depends on function code.
Request message from Master instrument is include “register address”, “data count” and “setting data”.
Response data from Slave controller is include “byte count”, “data” and “abnormal code”.
5.5 Error Check LRC
LRC generation step is as below:
. Convert all the messages to RTU mode (HEX code)。
. Add all the values from “ID Number” to the end of “Data”. This is assumed as
Y(8Bit).
. Calculate 2’s complement with Y.
. Convert Y to ASCII characters (16 bit)
. LRC=Y
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Abnormal Code Contents
01 (30H 31H) Illegal function code (Non-existent function code)
02 (30H 32H)
03 (30H 33H)
Illegal register address (Register address is out of range)
Illegal data value (Data value is out of setting range)
5.7 Message example of ASCII mode z Reading ( Read PV from slave controller 1)
Request message from master instrument:
Header ID Number Function
Code
Register Address Data Count LRC Delimiter
(3AH) (30H 31H) (30H 33H) (30H 30H 38H 41H) (30H 30H 30H 31H) (37H31H) (0DH 0AH)
Response data from slave controller in normal status (Assumed PV=100.0)
Header ID Number Function
Code
Byte Count Data LRC Delimiter
(3AH) (30H 31H) (30H 33H) (30H32H) (30H 33H 45H 38H) (30H 46H) (0DH 0AH)
Response from slave controller in abnormal status (Assumed as illegal data value)
Header ID Number
(3AH) (30H 31H)
Function
Code
(38H 33H)
Error Code
(30H 33H)
LRC
(37H 39H)
Delimiter
(0DH 0AH)
5.7.1 Setting (Set SV = 10.0 to slave controller 1)
Request message from master instrument:
Header ID Number Function
Code
Register Address Data LRC Delimiter
(3AH) (30H 31H) (30H 36H) (30H 30H 30H 30H) (30H 30H 36H 34H) (39H35H) (0DH 0AH)
Response message from slave controller in normal status (When SV = 10.0)
Header ID Number Function
Code
Register Address Data LRC Delimiter
(3AH) (30H 31H) (30H 36H) (30H 30H 30H 30H) (30H 30H 36H 34H) (39H35H) (0DH 0AH)
Response from slave controller in abnormal status (Assumed as illegal data value)
Header ID Number Function Error Code LRC Delimiter
(3AH) (30H 31H)
Code
(38H 36H) (30H 33H) (37H 36H) (0DH 0AH)
1 is set to the MSB of function code in abnormal status (86H).
The abnormal code (03H) is returned as contents of error.
5.7.2 Setting (Set SV = 10.0 and OUTL=100.0 to slave controller 1)
Request message from master instrument:
Header ID Number Function Register Address Data Count BYTE Data1
(3AH)
Code Count
(30H 31H) (31H 30H) (30H 30H 30H 30H) (30H 30H 30H 32H) (30H 34H) (30H 30H 36H 34H)
Data2 LRC Delimiter
(30H 33H 45H 38H) (39H 41H) (0DH 0AH)
Response message from slave controller in normal status (When SV = 10.0 and
OUTL=100.0)
Header ID Number Function
Code
Register Address Data Count LRC Delimiter
(3AH) (30H 31H) (31H 30H) (30H 30H 30H 30H) (30H 30H 30H 32H) (45H 44H) (0DH 0AH)
Response from slave controller in abnormal status (Assumed as illegal register address)
Header ID Number Function Error Code LRC Delimiter
(3AH) (30H 31H)
Code
(39H 30H) (30H 32H) (36H 44H) (0DH 0AH)
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Master Î Slave (7 Bytes):
Command
1 Byte
ID Number
1 Byte
Register
Address
2 Byte
Data
2 Byte
Check Sum
1 Byte
Master Í Slave (8 Bytes)
Header
(07H)
1 Byte
Command
(4DH)
1 Byte
ID Number
1 Byte
Register
Address
2 Byte
Data
2 Byte
6.2 Command
Command
R (52H)
M (4DH)
Contents
Reading 1 register value from slave controller
Modify 1 register value in RAM.
(Data are not maintained after power off)
W (57H) Write 1 register value in both RAM and EEPROM.
(Data are maintained after power off)
Check Sum
1 Byte
Range: 1~255.
Master instrument identifies slave controllers by the ID Number of the requested message. ID Number should be configuring in individual slave controller by setting parameter “IDNO” in operation LEVEL 3.
Register Address is including register address High byte and Low byte.
Totally, there are 2 bytes.
For detail, please check with Register Map(Page:12)
6.5 Data
Data is including setting data High byte and Low byte.
Totally, there are 2 bytes.
Add all the values from “Command” to the end of “Data”.
The result is Check Sum (1 byte).
EX:52H + 01H + 00H +8AH +00H +00H = DDH
6.7 Message example of ASCII Protocol
6.7.1 Read ( Read PV from slave controller 1)
Request message from master instrument:
Command ID Number Register
(52H) (01H)
Address
(008AH)
Response data from slave controller (Assumed PV=100.0)
Data
(0000H)
Header
(07H)
Command
(4DH)
ID Number
(01H)
Register
Address
(008AH)
Data
(03E8H)
6.7.2 Modify ( Modify SV = 10.0 to slave controller 1)
Request message from master instrument:
Command ID Number Register
(4DH) (01H)
Address
(0000H)
Data
(0064H)
6.7.3 Write ( Write SV = 100.0 to slave controller 1)
Request message from master instrument:
Command
(57H)
ID Number
(01H)
Register
Address
(0000H)
Data
(03E8H)
Check Sum
(DDH)
Check Sum
(C3H)
Check Sum
(B2H)
Check Sum
(43H)
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Parameters
SV
Set Point
OUTL
Output Limit
AT
Auto Tuning
AL1
Alarm 1 set value
AL2
Alarm 2 set value
AL3
Alarm 3 set value
PTN
Program Pattern
SEG
Program Segment
Display
TIMR
Program Countdown
Display
SV_1
Set Point of Seg.1
(Pattern 1)
TM_1
Run Time of Seg.1
(Pattern 1)
OUT1
Output Limit of Seg.1
(Pattern 1)
SV_2
Set Point of Seg.2
(Pattern 1)
HEX
Register Address
DECIMAL
MODBUS
Function Code
Setting Range
0000 000 03/06/10H
0000H=NO
0002 002 03/06/10H
0001H=YES
0003 003 03/06/10H
0004 004 03/06/10H
0005 005 03/06/10H
0007H 007
0008 008
03H
03H
0009 009 03/06/10H
000A 010 03/06/10H
000B 011 03/06/10H
000C 012 03/06/10H
Parameters
HEX
Register Address
DECIMAL
MODBUS
Function Code
Setting Range
TM_2
Run Time of Seg.2
(Pattern 1)
OUT2
Output Limit of Seg.2
(Pattern 1)
SV_3
Set Point of Seg.3
(Pattern 1)
TM_3
Run Time of Seg.3
(Pattern 1)
OUT3
Output Limit of Seg.3
(Pattern 1)
SV_4
Set Point of Seg.4
(Pattern 1)
TM_4
Run Time of Seg.4
(Pattern 1)
OUT4
Output Limit of Seg.4
(Pattern 1)
SV_5
Set Point of Seg.5
(Pattern 1)
TM_5
Run Time of Seg.5
(Pattern 1)
OUT5
Output Limit of Seg.5
(Pattern 1)
SV_6
Set Point of Seg.6
(Pattern 1)
000D 013 03/06/10H
000E 014 03/06/10H
000F 015 03/06/10H
0010 016 03/06/10H
0011 017 03/06/10H
0012 018 03/06/10H
0013 019 03/06/10H
0014 020 03/06/10H
0015 021 03/06/10H
0016 022 03/06/10H
0017 023 03/06/10H
0018 024 03/06/10H
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Parameters
TM_6
Run Time of Seg.6
(Pattern 1)
OUT6
Output Limit of Seg.6
(Pattern 1)
SV_7
Set Point of Seg.7
(Pattern 1)
TM_7
Run Time of Seg.7
(Pattern 1)
OUT7
Output Limit of Seg.7
(Pattern 1)
SV_8
Set Point of Seg.8
(Pattern 1)
TM_8
Run Time of Seg.8
(Pattern 1)
OUT8
Output Limit of Seg.8
(Pattern 1)
SV_12
Set Point of Seg.1
(Pattern 2)
TM_12
Run Time of Seg.1
(Pattern 2)
OUT12
Output Limit of Seg.1
(Pattern 2)
SV_22
Set Point of Seg.2
(Pattern 2)
HEX
Register Address
DECIMAL
MODBUS
Function Code
Setting Range
0019 025 03/06/10H
001A 026 03/06/10H
001B 027 03/06/10H
001C 028 03/06/10H
001D 029 03/06/10H
001E 030 03/06/10H
001F 031 03/06/10H
0020 032 03/06/10H
0021 033 03/06/10H
0022 034 03/06/10H
0023 035 03/06/10H
0024 036 03/06/10H
Parameters
HEX
Register Address
DECIMAL
MODBUS
Function Code
Setting Range
TM_22
Run Time of Seg.2
(Pattern 2)
OUT22
Output Limit of Seg.2
(Pattern 2)
SV_32
Set Point of Seg.3
(Pattern 2)
TM_32
Run Time of Seg.3
(Pattern 2)
OUT32
Output Limit of Seg.3
(Pattern 2)
SV_42
Set Point of Seg.4
(Pattern 2)
TM_42
Run Time of Seg.4
(Pattern 2)
OUT42
Output Limit of Seg.4
(Pattern 2)
SV_52
Set Point of Seg.5
(Pattern 2)
TM_52
Run Time of Seg.5
(Pattern 2)
OUT52
Output Limit of Seg.5
(Pattern 2)
SV_62
Set Point of Seg.6
(Pattern 2)
0025 037 03/06/10H
0026 038 03/06/10H
0027 039 03/06/10H
0028 040 03/06/10H
0029 041 03/06/10H
002A 042 03/06/10H
002B 043 03/06/10H
002C 044 03/06/10H
002D 045 03/06/10H
002E 046 03/06/10H
002F 047 03/06/10H
0030 048 03/06/10H
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Parameters
TM_62
Run Time of Seg.6
(Pattern 2)
OUT62
Output Limit of Seg.6
(Pattern 2)
SV_72
Set Point of Seg.7
(Pattern 2)
TM_72
Run Time of Seg.7
(Pattern 2)
OUT72
Output Limit of Seg.7
(Pattern 2)
SV_82
Set Point of Seg.8
(Pattern 2)
TM_82
Run Time of Seg.8
(Pattern 2)
OUT82
Output Limit of Seg.8
(Pattern 2)
P1
OUT1 Proportional Band
I1
OUT1 Integral Time
D1
OUT1 Derivative Time
DB1
Dead-band Time
ATVL
Auto Tuning Offset
CYT1
OUT1 Cycle Time
HEX
Register Address
DECIMAL
MODBUS
Function Code
Setting Range
0031 049 03/06/10H
0032 050 03/06/10H
0033 051 03/06/10H
0034 052 03/06/10H
0035 053 03/06/10H
0036 054 03/06/10H
0037 055 03/06/10H
0038 056 03/06/10H
003D 061 03/06/10H
Parameters
HEX
Register Address
DECIMAL
MODBUS
Function Code
Setting Range
HYS1
OUT1 Hysteresis
P2
OUT2 Proportional Band
I2
OUT2 Integral Time
D2
OUT2 Derivative Time
CYT2
OUT2 Cycle Time
HYS2
OUT2 Hysteresis
GAP1
OUT1 Control Gap
GAP2
OUT2 Control Gap
LCK
Function Lock
0045 069 03/06/10H
0046 070 03/06/10H
INP1
Input Type Selection
0048 072 03/06/10H
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1111H = 1111
0100H = 0100
0110H = 0110
0001H = 0001
0101H = 0101
0000H = K1
0001H = K2
0002H = K3
0003H = K4
0004H = K5
0005H = K6
0006H = J1
0007H = J2
0008H = J3
0009H = J4
000AH = J5
000BH = J6
000CH = R1
000DH = R2
Parameters
INP1
Input Type Selection
Register Address
HEX
0048
DECIMAL
072
MODBUS
Function Code
Setting Range
03/06/10H
001EH = U3
001FH = L1
0020H = L2
0021H = JP1
0022H = JP2
0023H = JP3
0024H = JP4
0025H = JP5
0026H = JP6
0027H = DP1
0028H = DP2
0029H = DP3
002AH = DP4
002BH = DP5
002CH = DP6
002DH = JP.1
002EH = JP.2
002FH = JP.3
0030H = JP.4
0031H = JP.5
000EH = S1
000FH = S2
0010H = B1
0011H = E1
0012H = E2
0013H = N1
0014H = N2
0015H = T1
0016H = T2
0017H = T3
0018H = W1
0019H = W2
001AH = PL1
001BH = PL2
001CH = U1
001DH = U2
INP1
Parameters
Input Type Selection
HEX
Register Address
0048
DECIMAL
072
MODBUS
Function Code
Setting Range
03/06/10H 0032H = JP.6
0033H = AN1
0034H = AN2
0035H = AN3
0036H = AN4
0037H = AN5
ANL1
Linear Input Zero
Calibration
ANH1
Linear Input Span
Calibration
DP
Decimal Point Position
0049 073 03/06/10H
004A 074 03/06/10H
0000H = 0000
0001H = 000.0
004B 075 03/06/10H
0002H = 00.00
0003H = 0.000
LSPL
Lower Set Point Limit
USPL
Upper Set Point Limit
ANL2
Remote Input Zero
Calibration
ANH2
Linear Input Span
Calibration
ALD1
Alarm mode for AL1
ALT1
Alarm time for AL1
ALD2
Alarm mode for AL2
ALT2
Alarm time for AL2
ALD3
Alarm mode for AL3
004C 076 03/06/10H
004D 077 03/06/10H
004E 078 03/06/10H
004F 079 03/06/10H
0051 081 03/06/10H
0053 083 03/06/10H
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Parameters
ALT3
Alarm time for AL3
HYSA
Hysteresis for all Alarms
HEX
Register Address
DECIMAL
MODBUS
Function Code
Setting Range
0055 085 03/06/10H
0001H=0000
0010H=0010
0011H=0011
0100H=0100
0101H=0101
0110H=0110
0111H=0111
1000H=1000
1001H=1001
1010H=1010
1011H=1011
1100H=1100
1101H=1101
1110H=1110
1111H=1111
0057 087 03/06/10H
CLO1
OUT1 Lower Calibration
CHO1
OUT1 Upper Calibration
CLO2
OUT1 Lower Calibration
CHO2
OUT1 Upper Calibration
CLO3
TRS Lower Calibration
CHO3
TRS Upper Calibration
RUCY
Full run time of motor valve
WAIT
Full run time of proportional motor valve
0058 088 03/06/10H
0059 089 03/06/10H
005A 090 03/06/10H
005B 091 03/06/10H
005C 092 03/06/10H
005D 093 03/06/10H
005E 094 03/06/10H
Parameters
HEX
Register Address
DECIMAL
MODBUS
Function Code
Setting Range
SETA
PSL
Protocol Selection
BITS
Communication Bits
IDNO
ID Number
BAUD
Baud rate
SVOS
SV Compensation
PVOS
PV Compensation
UNIT
Unit of PV and SV
005F 095 03/06/10H
0060 096
0061 097
0062 098
0063 099
03H
03H
03H
03H
0064 100 03/06/10H
0065 101 03/06/10H
0066 102 03/06/10H
0000H=C
0001H=F
0002H=A
PVFT
PV Filter
CASC
OUD
Heating / Cooling selection
OPAD
Control Algorithm
HZ
Power Frequency
SET1
Hide/ Display parameter
0068 104 03/06/10H
0000H=HEAT
0069 105 03/06/10H
0001H=COOL
0000H=PID
006A 106 03/06/10H
0001H=FUZZY
0000H=60HZ
006B 107 03/06/10H
0001H=50HZ
0001H=0000
0010H=0010
0011H=0011
0100H=0100
0101H=0101
0110H=0110
0111H=0111
NC-2438/2538/2638/2738/2838 COMMUNICATION MANUAL
Parameters
SET1
Hide/ Display parameter
HEX
Register Address
DECIMAL
109
MODBUS
Function Code
Setting Range
03/06/10H
1001H=1001
1010H=1010
1011H=1011
1100H=1100
1101H=1101
1110H=1110
1111H=1111
Same with SET1
SET2
Hide/ Display parameter
SET3
Hide/ Display parameter
SET4
Hide/ Display parameter
SET5
Hide/ Display parameter
SET6
Hide/ Display parameter
SET7
Hide/ Display parameter
SET8
Hide/ Display parameter
SET9
Hide/ Display parameter
SET0
Hide/ Display parameter
INP2
Hide/ Display parameter
OUTY
Output mode selection
006D
Parameters
VER
Firmware Version
OUT%
Output percentage
OBIT
Controller Information
Bit
CV
CT Current Value
PV
Process Value
HEX
Register Address
DECIMAL
MODBUS
Function Code
Setting Range
0086 134 03H
0087 135
0088 136
0089 137
008A 138
03H
03H 0000 0000 0000 0000
2
15
~ 2
0
2
15
: Message nnn2
2
14
: Message UUU2
2
13
: Message nnn1
2
12
: Message UUU1
2
11
: Message IN2E
2
10
: Message CJCE
2
9
: Message ADCF
2
8
: Message IN1E
2
7
: MAN LED
2
6
: PRO LED
2
5
: AL3 LED
2
4
: AL2 LED
2
3
: AL1 LED
2
2
: AT LED
2
1
: OUT2 LED
2
0
: OUT1 LED
03H
03H
NC-2438/2538/2638/2738/2838 COMMUNICATION MANUAL
NIPPON
NC-2438/2538/2638/2738/2838 COMMUNICATION MANUAL
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