RKC INSTRUMENT Z-TIO Host Communication User manual
Module Type Controller SRZ
IMS01T02-E3
Thank you for purchasing this RKC product. In order to achieve maximum performance and
ensure proper operation of your new instrument, carefully read all the instructions in this
manual. Please place this manual in a convenient location for easy reference.
This manual describes the host communication, module address setting of the Z-TIO
module. For the address setting of any other module, refer to the Instruction Manual for the
respective module. For detailed handling procedures and various function settings, please
refer to separate SRZ Instruction Manual (IMS01T04 -E).
The above manuals can be downloaded from our website:
URL: http://www.rkcinst.com/english/manual_load.htm
1. COMMUNICATION SETTING
Set communication setting before mounting and wiring of the Z-TIO.
Do not separate the module mainframe from the base with the power turned on. If so,
instrument failure may result.
1.1 Module Address Setting
Set an address for the module using a small blade screwdriver.
Address setting switch
Setting range: 0 to F [0 to 15: Decimal]
Factory set value: 0
• For Modbus, the value obtained by adding “1” to the set address
corresponds to the address used for the actual program.
• To avoid problems or malfunction, do not duplicate an address on the
same communication line.
1.2 Protocol Selections and Communication Speed Setting
Use the DIP switch on the right side of module to select communication speed, data bit
configuration and protocol. The data changes become valid when the power is turned on
again or when changed to RUN/STOP.
DIP switch
Module
mainframe
Right side view
ONOFF
12345678
ON
(The above figure is for the terminal type. However, the switch positions are the same for the connector type.)
1 2 Communication speed
OFF OFF 4800 bps
ON OFF 9600 bps
OFF ON 19200 bps
ON ON 38400 bps
Factory set value: 19200 bps
3 4 5 Data bit configuration
OFF OFF OFF Data 7-bit, without parity, Stop 1-bit *
ON OFF OFF Don't set this one
OFF ON OFF Data 7-bit, Even parity, Stop 1-bit *
ON ON OFF Data 7-bit, Odd parity, Stop 1-bit *
OFF OFF ON Data 8-bit, without parity, Stop 1-bit
ON OFF ON Don't set this one
OFF ON ON Data 8-bit, Even parity, Stop 1-bit
ON ON ON Data 8-bit, Odd parity, Stop 1-bit
* When the Modbus communication protocol is selected, this setting becomes invalid.
Factory set value: Data 8-bit, without parity, Stop 1-bit
6 Protocol
OFF RKC communication
ON Modbus
Factory set value: RKC communication
• Switch No. 7 and 8 must be always OFF. Do not set to ON.
• When two or more modules are connected on the same communication
line, the DIP switch settings of all modules must be the same.
2. CONNECTION TO HOST COMPUTER
Connect a termination resistor between the communication terminals (No.3
and No. 4) of the module at the end of the communication line from the host
computer.
The cable must be provided by the customer.
The Z-TIO has RS-485 communication terminals for RKC communication or Modbus/RTU
communication protocol. Communication terminals are on the base side.
Connection to the RS-485 port of the host computer (master)
Host computer (Master)
RS-485
Pair wire
Shielded twisted
pair wire
Module type controller SRZ
R
SG
T/R (B)
T/R (A)
Connected by
the internal
communication line
Z-TIO module
(Slave)
SG 5
T/R (A) 3
4
T/R (B)
Up to 16 Z-TIO modules can be connected.
The maximum number of SRZ modules (including other function modules) on the same communication line is 31.
R: Termination resistor (Example: 120 Ω1/2 W)
SG 5
T/R (A) 3
4
T/R (B)
R
(−)
(+)
(−)
(+)
(−)
(+)
Z-TIO module
(Slave)
Connection to the RS-232C port of the host computer (master)
Host computer (Master)
RS-485
Pair wire
Shielded twisted
pair wire R
SG
T/R (B)
T/R (A)
Connected by
the internal
communication line
Module type controller SRZ
SG 5
R
T/R (A) 3
4
T/R (B)
RS-232C/RS-485 converter *
RS-232C
*When the host computer (master) uses
Windows95/98/Me/NT/2000/XP, use a
RS-232C/RS-485 converter with an
automatic send/receive transfer function.
Recommended RS-232C/RS-485 converter:
CD485, CD485/Vmanufactured by Data Link,
Inc. or equivalent
Up to 16 Z-TIO modules can be connected.
The maximum number of SRZ modules (including other function modules) on the same communication line is 31.
R: Termination resistor
(Example: 120 Ω1/2 W)
SG 5
T/R (A) 3
4
T/R (B)
(−)
(+)
(−)
(+)
Z-TIO module
(Slave)
Z-TIO module
(Slave)
Connection to the USB of the host computer (master)
Host computer (Master)
RS-485 Pair wire
Shielded twisted
pair wire
Module type controller SRZ
Connected by
the internal
communication line
SG 5
T/R (A) 3
4
T/R (B)
USB communication
converter COM-K *
Connected to USB port
of a personal computer
USB cable
(COM-K
accessory)
Connected to
USB connector
5
1SG
3T/R(B)
2T/R (A)
4Unused
Up to 16 Z-TIO modules can be connected.
The maximum number of SRZ modules (including other function modules) on the same communication line is 31.
R: Termination resistor
(Example: 120 Ω1/2 W)
* The termination resistor is built-in to
the COM-K.
SG 5
T/R (A) 3
4
T/R (B)
R
(−)
(+)
(−)
(+)
Z-TIO module
(Slave)
Z-TIO module
(Slave)
3. COMMUNICATION REQUIREMENTS
Processing times during data send/receive
When the host computer is using either the polling or selecting procedure for communication,
the following processing times are required for controller to send data:
- Response wait time after controller sends BCC in polling procedure
- Response wait time after controller sends ACK or NAK in selecting procedure
RKC communication (Polling procedure)
Procedure details Time
Response send time after controller receives ENQ 50 ms max.
Response send time after controller receives ACK 50 ms max.
Response send time after controller receives NAK 50 ms max.
Response send time after controller sends BCC 2 ms max.
RKC communication (Selecting procedure)
Procedure details Time
Response send time after controller receives BCC 50 ms max.
Response wait time after controller sends ACK 2 ms max.
Response wait time after controller sends NAK 2 ms max.
Modbus
Procedure details Time
Read holding registers [03H]
Response send time after the slave receives the query message
50 ms max.
Preset single register [06H]
Response send time after the slave receives the query message
30 ms max.
Diagnostics (loopback test) [08H]
Response send time after the slave receives the query message
30 ms max.
Preset multiple registers [10H]
Response send time after the slave receives the query message
100 ms max.
RS-485 (2-wire system) send/receive timing
RS-485 communication is conducted through two wires, therefore the transmission and
reception of data requires precise timing.
Polling procedure
a: Response send time after the controller receives [ENQ] + Interval time
b: Response send time after the controller sends BCC
c: Response send time after the controller receives [ACK] + Interval time or
Response send time after the controller receives [NAK] + Interval time
- - - - - or
Host
computer
bca
- - - - -
N
A
K
A
C
K
E
N
Q
S
T
X
B
C
C
E
O
T
SRZ
Send data
(Possible/Impossible)
Possible
Impossible
Sending status
Send data
(Possible/Impossible)
Possible
Impossible
Sending status
Selecting procedure
a: Response send time after the controller receives BCC + Interval time
b: Response wait time after the controller sends ACK or Response wait time after the controller sends NAK
b
a
- - - - -
S
T
X
B
C
C
or N
A
K
A
C
K
Host
computer
SRZ
Send data
(Possible/Impossible)
Possible
Impossible
Sending status
Send data
(Possible/Impossible)
Possible
Impossible
Sending status
To switch the host computer from transmission to reception, send data must be on
line.
The following processing times are requires for the controller to process data.
- In Polling procedure, Response wait time after the controller sends BCC
- In Selecting procedure, Response wait time after the controller sends ACK or NAK
Fail-safe
A transmission error may occur with the transmission line disconnected, shorted or set to the
high-impedance state. In order to prevent the above error, it is recommended that the
fail-safe function be provided on the receiver side of the host computer. The fail-safe function
can prevent a framing error from its occurrence by making the receiver output stable to the
MARK (1) when the transmission line is in the high-impedance state.
Modbus data processing precautions
• Data with decimal point is treated as data without decimal point on the Modbus protocol.
• With Modbus protocol, the maximum number of channels per slave address is 4.
• Do not write data to any address which is not described in a list of data maps.
• If data range or address error occurs during data writing, the data written before error is in
effect.
• When communication data is sent to the controller that does not correctly match the
connected module or selected functions on the modules, the data will be invalid. If the
data is within a setting range, no error message is sent from the controller. The read data
is “0”.
• Send the next command message at time intervals of 24 bits after the master receives the
response message.
4. HOST COMMUNICATION DATA MAP
Explanation of items shown in the communication data maps are as follows.
• Modbus register address (HEX: Hexadecimal DEC: Decimal)
For a 4CH type, follow the chart exactly. For the 2CH type, the register
addresses for Channel 3 and 4 are unused. For communication parameters for
heat/cool control, the register addresses for Channel 2 and 4 are unused.
Example: The register addresses of 0092 (HEX) to 0095 (HEX)
CH# Address
・
・
・
CH1 0092
CH2 0093 (This address is unused with heat/cool control.)
CH3 0094 (This address is unused with 2CH type.)
CH4 0095 (This address is unused with heat/cool control or 2CH type.)
・
・
・
• Digits
The number of communication data digits in RKC communication
• Attribute
RO: Read only data (Host computer The controller)
R/W: Read and Write data (Host computer The controller)
• Data
Most significant
digit
Least significant
digit
…… b15 b0
…………….……………………
RKC communication
ASCII code data (Example: 7 digits)
Modbus
16-bit data
Symbols used in MAP
♣: Parameters only used for heat/cool control or position proportioning control,
therefore data for CH2 and CH4 are unused.
: Parameters which can be used in multi-memory area function.
♦: Data for each module ♠: Data for each channel
For details on the data, see the SRZ Instruction Manual (IMS01T04-E).
Communication data (RKC communication/Modbus)
Modbus
register address
Name
RKC
Iden-
tifier HEX DEC
Digits Attri-
bute Data range Factory
set value
Model code ♦ID 32 RO Model code (character)
ROM version ♦VR 8 RO ROM version
Measured value
(PV)
♠
M1 0000
・
・
・
0003
0
・
・
・
3
7 RO Input scale low to
Input scale high
Comprehensive
event state
♠
AJ 0004
・
・
・
0007
4
・
・
・
7
7 RO RKC communication
Least significant digit to 4th digit:
Event 1 state
to Event 4 state
5th digit: Heater break alarm
state
6th digit: Temperature rise
completion
7th digit: Burnout
Data 0: OFF 1: ON
Modbus
b0 to b3: Event 1 state
to Event 4 state
b4: Heater break alarm
state
b5: Temperature rise
completion
b6: Burnout
b7 to b15: Unused
Data 0: OFF 1: ON
[Decimal number: 0 to 127]
Operation mode
state monitor
♠
L0 0008
・
・
・
000B
8
・
・
・
11
7 RO RKC communication
Least significant digit:
Control STOP
2nd digit: Control RUN
3rd digit: Manual mode
4th digit: Remote mode
5th digit to Most significant digit:
Unused
Data 0: OFF 1: ON
Modbus
b0: Control STOP
b1: Control RUN
b2: Manual mode
b3: Remote mode
b4 to b15: Unused
Data 0: OFF 1: ON
[Decimal number: 0 to 15]
Error code
♦
ER 000C 12 7 RO RKC communication
1: Adjustment data error
2: Data back-up error
4: A/D conversion error
32: Logic output data error
Modbus
b0: Adjustment data error
b1: Data back-up error
b2: A/D conversion error
b3: Unused
b4: Unused
b5: Logic output data error
b6 to b15: Unused
Data 0: OFF 1: ON
[Decimal number: 0 to 63]
(Continued on the next page )
345
(Base) Communication terminals (RS-485)
3
4
5
Terminal No.
Send data/Receive data
Send data/Receive data
Signal ground
Signal name
T/R (A)
T/R (B)
SG
Symbol
CAUTION
To prevent electric shock or instrument failure, turn off the
power before connecting or disconnecting the instrument and
peripheral equipment.
!WARNING
A
ll Rights Reserved, Copyright 2006, RKC INSTRUMENT INC.
Z
-
TI
O
Host Communication
Quick Instruction
Manual
Temperature Control Module
[for Host Communication]
The first edition: MAR. 2006 [IMQ00]
The third edition: SEP. 2007 [IMQ00]
®
RKC INSTRUMENT INC.
HEADQUARTERS: 16-6, KUGAHARA 5-CHOME, OHTA-KU TOKYO 146-8515 JAPAN
FAX: 03-3751-8585 (+81 3 3751 8585) SEP. 2007
Modbus is a registered trademark of Schneider Electric.
Company names and product names used in this manual are the trademarks or registered
trademarks of the respective companies.
Modbus
register address
Name
RKC
Iden-
tifier HEX DEC
Digits Attri-
bute Data range Factory
set value
Manipulated
output value
(MV) monitor
[heat-side] ♣
O1 000D
・
・
・
0010
13
・
・
・
16
7 RO PID control or heat/cool PID
control: −5.0 to +105.0 %
Position proportioning control
(FBR input): 0.0 to 100.0 %
Manipulated
output value
(MV) monitor
[cool-side] ♣
O2 0011
・
・
・
0014
17
・
・
・
20
7 RO −5.0 to +105.0 %
Current
transformer (CT)
input value
monitor ♠
M3 0015
・
・
・
0018
21
・
・
・
24
7 RO
CTL-6-P-N: 0.0 to 30.0 A
CTL-12-S56-10L-N:
0.0 to 100.0 A
Set value (SV)
monitor ♠
MS 0019
・
・
・
001C
25
・
・
・
28
7 RO
Setting limiter (low) to
Setting limiter (high)
Remote setting
(RS) input value
monitor ♠
S2 001D
・
・
・
0020
29
・
・
・
32
7 RO
Setting limiter (low) to
Setting limiter (high)
Burnout state
monitor ♠
B1 0021
・
・
・
0024
33
・
・
・
36
1 RO
0: OFF
1: ON
Event 1 state
monitor ♠
AA 0025
・
・
・
0028
37
・
・
・
40
1 RO
0: OFF
1: ON
Event 2 state
monitor ♠
AB 0029
・
・
・
002C
41
・
・
・
44
1 RO
Event 3 state
monitor ♠
AC 002D
・
・
・
0030
45
・
・
・
48
1 RO
Event 4 state
monitor ♠
AD 0031
・
・
・
0034
49
・
・
・
52
1 RO
Heater break
alarm (HBA)
state monitor ♠
AE 0035
・
・
・
0038
53
・
・
・
56
1 RO
0: OFF
1: ON
Output state
monitor
♦
Q1 0039 57 7
RO RKC communication
Least significant digit to 4th digit:
OUT1 to OUT4
5th digit to Most significant digit:
Unused
Data 0: OFF 1: ON
Modbus
b0 to b3: OUT1 to OUT4
b4 to b15: Unused
Data 0: OFF 1: ON
[Decimal number: 0 to 15]
Memory area
soak time
monitor ♠
TR 003A
・
・
・
003D
58
・
・
・
61
7 RO
0 minutes 00 seconds to
199 minutes 59 seconds:
RKC communication:
0:00 to 199:59 (min:sec)
Modbus: 0 to 11999 seconds
0 hours 00 minutes to
99 hours 59 minutes:
RKC communication:
0:00 to 99:59 (hrs:min)
Modbus: 0 to 5999 minutes
Integrated
operating time
monitor ♦
UT 003E 62 7 RO
0 to 19999 hours
Holding peak
value ambient
temperature
monitor ♠
Hp 003F
・
・
・
0042
63
・
・
・
66
7 RO
−10.0 to +100.0 °C or
14 to 212 °F
Backup memory
state monitor ♦
EM 0043 67 1 RO
0: The content of the backup
memory does not coincide with
that of the RAM.
1: The content of the backup
memory coincides with that of
the RAM.
Logic output
monitor 1
♦
ED 7 RO
RKC communication
Least significant digit to 4th digit:
Logic output 1 to 4
5th digit to Most significant digit:
Unused
Data 0: OFF 1: ON
Logic output
monitor 2
♦
EE 7 RO
RKC communication
Least significant digit to 4th digit:
Logic output 5 to 8
5th digit to Most significant digit:
Unused
Data 0: OFF 1: ON
Logic output
monitor
♦
0044 68 RO
Modbus
b0 to b7: Logic output 1 to 8
b8 to b15: Unused
Data 0: OFF 1: ON
[Decimal number: 0 to 255]
Unused 0045
・
・
・
0060
69
・
・
・
96
PID/AT transfer
♠
G1 0061
・
・
・
0064
97
・
・
・
100
1 R/W
0: PID control
1: Autotuning (AT)
0
Auto/Manual
transfer ♠
J1 0065
・
・
・
0068
101
・
・
・
104
1 R/W
0: Auto mode
1: Manual mode
0
Remote/Local
transfer ♠
C1 0069
・
・
・
006C
105
・
・
・
108
1 R/W
0: Local mode
1: Remote mode
0
RUN/STOP
transfer ♦
SR 006D 109 1 R/W
0: STOP (Control stop)
1: RUN (Control start)
0
Memory area
transfer ♠
ZA 006E
・
・
・
0071
110
・
・
・
113
7 R/W
1 to 8 1
Interlock release
♠
AR 0072
・
・
・
0075
114
・
・
・
117
7 R/W
0: Normal state
1: Interlock release execution
0
Event 1 set value
(EV1) ♠A1 0076
・
・
・
0079
118
・
・
・
121
7 R/W 50
Event 2 set value
(EV2) ♠A2 007A
・
・
・
007D
122
・
・
・
125
7 R/W 50
Event 3 set value
(EV3) ♠
A3 007E
・
・
・
0081
126
・
・
・
129
7 R/W 50
Event 4 set value
(EV4) ♠A4 0082
・
・
・
0085
130
・
・
・
133
7 R/W
Deviation action, Deviation action
between channels, Temperature
rise completion range*:
−Input span to +Input span
Process action, SV action:
Input scale low to
Input scale high
MV action:
−5.0 to +105.0 %
*When temperature rise completion is
selected at Event 3 action type.
50
Modbus
register address
Name
RKC
Iden-
tifier HEX DEC
Digits Attri-
bute Data range Factory
set value
Control loop
break alarm
(LBA) time ♠
A5 0086
・
・
・
0089
134
・
・
・
137
7 R/W 0 to 7200 seconds
(0: Unused)
480
LBA deadband
♠
N1 008A
・
・
・
008D
138
・
・
・
141
7 R/W 0 (0.0) to Input span 0 (0.0)
Set value (SV)
♠
S1 008E
・
・
・
0091
142
・
・
・
145
7 R/W Setting limiter (low) to
Setting limiter (high)
TC/RTD: 0
V/I: 0.0
Proportional
band [heat-side]
♣♠
P1 0092
・
・
・
0095
146
・
・
・
149
7 R/W
TC/RTD inputs:
0 (0.0) to Input span
(Unit: °C [°F])
Voltage (V)/current (I) inputs:
0.0 to 1000.0 % of Input span
0 (0.0): ON/OFF action
TC/RTD:
30 (30.0)
V/I: 30.0
Integral time
[heat-side]
♣♠
I1 0096
・
・
・
0099
150
・
・
・
153
7 R/W
PID control or heat/cool PID
control:
0 to 3600 seconds or 0.0 to
1999.9 seconds
(0, 0.0: PD action)
Position proportioning control:
1 to 3600 seconds or 0.1 to
1999.9 seconds
240
Derivative time
[heat-side]
♣♠
D1 009A
・
・
・
009D
154
・
・
・
157
7 R/W
0 to 3600 seconds or 0.0 to
1999.9 seconds
(0, 0.0: PI action)
60
Control response
parameter
♣♠
CA 009E
・
・
・
00A1
158
・
・
・
161
1 R/W 0: Slow
1: Medium
2: Fast
When the P or PD action is
selected, this setting becomes
invalid.
PID control,
Position
proportioning
control: 0
Heat/cool
PID control:
2
Proportional
band [cool-side]
♣♠
P2 00A2
・
・
・
00A5
162
・
・
・
165
7 R/W
TC/RTD inputs:
1 (0.1) to Input span
(Unit: °C [°F])
Voltage (V)/current (I) inputs:
0.1 to 1000.0 % of Input span
TC/RTD:
30 (30.0)
V/I: 30.0
Integral time
[cool-side]
♣♠
I2 00A6
・
・
・
00A9
166
・
・
・
169
7 R/W
0 to 3600 seconds or
0.0 to 1999.9 seconds
(0, 0.0: PD action)
240
Derivative time
[cool-side]
♣♠
D2 00AA
・
・
・
00AD
170
・
・
・
173
7 R/W
0 to 3600 seconds or
0.0 to 1999.9 seconds
(0, 0.0: PI action)
60
Overlap/
Deadband
♣♠
V1 00AE
・
・
・
00B1
174
・
・
・
177
7 R/W
TC/RTD inputs:
−Input span to +Input span
(Unit:°C [°F])
Voltage (V)/current (I) inputs:
−100.0 to +100.0 % of Input span
0
Manual reset
♠
MR 00B2
・
・
・
00B5
178
・
・
・
181
7 R/W −100.0 to +100.0 % 0.0
Setting change
rate limiter (up)
♠
HH 00B6
・
・
・
00B9
182
・
・
・
185
7 R/W 0 (0.0) to Input span/unit time
0 (0.0): Unused
0 (0.0)
Setting change
rate limiter
(down) ♠
HL 00BA
・
・
・
00BD
186
・
・
・
189
7 R/W Unit time: 60 seconds
(factory set value)
0 (0.0)
Area soak time
♠
TM 00BE
・
・
・
00C1
190
・
・
・
193
7 R/W
0 minutes 00 seconds to
199 minutes 59 seconds:
RKC communication:
0:00 to 199:59 (min:sec)
Modbus: 0 to 11999 seconds
0 hours 00 minutes to
99 hours 59 minutes:
RKC communication:
0:00 to 99:59 (hrs:min)
Modbus: 0 to 5999 minutes
RKC
communication
:
0:00
Modbus:
0
Link area number
♠
LP 00C2
・
・
・
00C5
194
・
・
・
197
7 R/W 0 to 8
(0: No link)
0
Heater break
alarm (HBA) set
value ♠
A7 00C6
・
・
・
00C9
198
・
・
・
201
7 R/W
When CT is CTL-6-P-N:
0.0 to 30.0 A (0.0: Not used)
When CT is CTL-12-S56-10L-N:
0.0 to 100.0 A (0.0: Not used)
0.0
Heater break
determination
point ♠
NE 00CA
・
・
・
00CD
202
・
・
・
205
7 R/W 0.0 to 100.0 % of HBA set value
(0.0: Heater break determination
is invalid)
30.0
Heater melting
determination
point ♠
NF 00CE
・
・
・
00D1
206
・
・
・
209
7 R/W 0.0 to 100.0 % of HBA set value
(0.0: Heater melting
determination is invalid)
30.0
PV bias
♠
PB 00D2
・
・
・
00D5
210
・
・
・
213
7 R/W −Input span to +Input span 0
PV digital filter
♠
F1 00D6
・
・
・
00D9
214
・
・
・
217
7 R/W 0.0 to 100.0 seconds
(0.0: Unused)
0.0
PV ratio
♠
PR 00DA
・
・
・
00DD
218
・
・
・
221
7 R/W 0.500 to 1.500 1.000
PV low input
cut-off
♠
DP 00DE
・
・
・
00E1
222
・
・
・
225
7 R/W 0.00 to 25.00 % of input span 0.00
RS bias *
♠
RB 00E2
・
・
・
00E5
226
・
・
・
229
7 R/W −Input span to +Input span 0
RS digital filter *
♠
F2 00E6
・
・
・
00E9
230
・
・
・
233
7 R/W 0.0 to 100.0 seconds
(0.0: Unused)
0.0
RS ratio *
♠
RR 00EA
・
・
・
00ED
234
・
・
・
237
7 R/W 0.001 to 9.999 1.000
Output
distribution
selection ♠
DV 00EE
・
・
・
00F1
238
・
・
・
241
1 R/W 0: Control output
1: Distribution output
0
* Data on RS bias, RS ratio and RS digital filter is that in cascade control or ratio setting.
Modbus
register address
Name
RKC
Iden-
tifier HEX DEC
Digits Attri-
bute Data range Factory
set value
Output
distribution
bias ♠
DW 00F2
・
・
・
00F5
242
・
・
・
245
7 R/W −100.0 to +100.0 % 0.0
Output
distribution
ratio ♠
DQ 00F6
・
・
・
00F9
246
・
・
・
249
7 R/W −9.999 to +9.999 1.000
Proportional
cycle time
♠
T0 00FA
・
・
・
00FD
250
・
・
・
253
7 R/W 0.1 to 100.0 seconds
M: Relay contact output
V: Voltage pulse output
T: Triac output
D: Open collector output
M output:
20.0
V, T, D
output: 2.0
Minimum
ON/OFF time of
proportioning
cycle ♠
VI 00FE
・
・
・
0101
254
・
・
・
257
7 R/W 0 to 1000 ms 0
Manual
manipulated
output value
♣♠
ON 0102
・
・
・
0105
258
・
・
・
261
7 R/W PID control:
Output limiter (low) to
Output limiter (high)
Heat/cool PID control:
−Cool-side output limiter (high) to
+Heat-side output limiter (high)
Position proportioning control
(with FBR input):
Output limiter (low) to
Output limiter (high)
Position proportioning control
(without FBR input):
0: Close-side output OFF,
Open-side output OFF
1: Close-side output ON,
Open-side output OFF
2: Close-side output OFF,
Open-side output ON
0.0
Area soak time
stop function
♠
RV 0106
・
・
・
0109
262
・
・
・
265
1 R/W 0: No function 3: Event 3
1: Event 1 4: Event 4
2: Event 2
0
EDS mode
(for disturbance 1)
♠
NG 010A
・
・
・
010D
266
・
・
・
269
1 R/W 0
EDS mode
(for disturbance 2)
♠
NX 010E
・
・
・
0111
270
・
・
・
273
1 R/W
0: No function
1: EDS function mode
2: Learning mode
3: Tuning mode
EDS function: External disturbance
suppression function
0
EDS value 1
(for disturbance 1)
♠
NI 0112
・
・
・
0115
274
・
・
・
277
7 R/W −100.0 to +100.0 % 0.0
EDS value 1
(for disturbance 2)
♠
NJ 0116
・
・
・
0119
278
・
・
・
281
7 R/W 0.0
EDS value 2
(for disturbance 1)
♠
NK 011A
・
・
・
011D
282
・
・
・
285
7 R/W 0.0
EDS value 2
(for disturbance 2)
♠
NM 011E
・
・
・
0121
286
・
・
・
289
7 R/W 0.0
EDS transfer time
(for disturbance 1)
♠
NN 0122
・
・
・
0125
290
・
・
・
293
7 R/W 0 to 3600 seconds or
0.0 to 1999.9 seconds
0
EDS transfer time
(for disturbance 2)
♠
NO 0126
・
・
・
0129
294
・
・
・
297
7 R/W 0
EDS action time
(for disturbance 1)
♠
NQ 012A
・
・
・
012D
298
・
・
・
301
7 R/W 1 to 3600 seconds 600
EDS action time
(for disturbance 2)
♠
NL 012E
・
・
・
0131
302
・
・
・
305
7 R/W 600
EDS action wait
time ♠
(for disturbance 1)
NR 0132
・
・
・
0135
306
・
・
・
309
7 R/W 0.0 to 600.0 seconds 0.0
EDS action wait
time ♠
(for disturbance 2)
NY 0136
・
・
・
0139
310
・
・
・
313
7 R/W 0.0
EDS value
learning times
♠
NT 013A
・
・
・
013D
314
・
・
・
317
7 R/W 0 to 10 times
(0: No learning mode)
1
EDS start signal
♠
NU 013E
・
・
・
0141
318
・
・
・
321
1 R/W 0: EDS start signal OFF
1: EDS start signal ON
(for disturbance 1)
2: EDS start signal ON
(for disturbance 2)
0
Operation mode
♠
EI 0142
・
・
・
0145
322
・
・
・
325
1 R/W 0: Unused
1: Monitor
2: Monitor +Event function
3: Control
3
Startup tuning
(ST) ♠
ST 0146
・
・
・
0149
326
・
・
・
329
1 R/W 0: ST unused
1: Execute once
2: Execute always
0
Automatic
temperature rise
learning ♠
Y8 014A
・
・
・
014D
330
・
・
・
333
1 R/W 0: Unused
1: Learning
0
Communication
switch (for logic)
♦
EF 014E 334 7 R/W RKC communication
Least significant digit to 4th digit:
Communication switch
1 to 4
5th digit to Most significant digit:
Unused
Data 0: OFF 1: ON
0
Modbus
b0 to b3: Communication switch
1 to 4
b4 to b15: Unused
Data 0: OFF 1: ON
[Decimal number: 0 to 15]
0
Unused 014F
・
・
・
0175
335
・
・
・
373
For communication data (Engineering setting), refer to the SRZ Instruction Manual (IMS01T04-E).
Communication data for multi-memory area data
(only for Modbus)
Use the register addresses of 0500H to 0553H to confirm or change set values of
parameters in multi-memory areas which are not selected. For example, when memory area
1 is selected, set values of parameters in memory-area 2 to 7 can be changed by these
register addresses. [For RKC communication, communication parameter is used to do the
same operation. Refer to SRZ Instruction Manual (IMS01T04-E).]
Modbus
register address
Name
HEX DEC
Attri-
bute Data range Factory
set value
Setting memory area
number
0500
・
・
・
0503
1280
・
・
・
1283
R/W 1 to 8 1
Event 1 set value (EV1) 0504
・
・
・
0507
1284
・
・
・
1287
R/W 50
Event 2 set value (EV2) 0508
・
・
・
050B
1288
・
・
・
1291
R/W 50
Event 3 set value (EV3) 050C
・
・
・
050F
1292
・
・
・
1295
R/W 50
Event 4 set value (EV4) 0510
・
・
・
0513
1296
・
・
・
1299
R/W
Deviation action,
Deviation action between channels,
Temperature rise completion range:
−Input span to +Input span
Process action, SV action:
Input scale low to Input scale high
MV action:
−5.0 to +105.0 % 50
Control loop break alarm
(LBA) time
0514
・
・
・
0517
1300
・
・
・
1303
R/W 0 to 7200 seconds
(0: Unused)
480
LBA deadband 0518
・
・
・
051B
1304
・
・
・
1307
R/W 0 (0.0) to Input span 0 (0.0)
Set value (SV) 051C
・
・
・
051F
1308
・
・
・
1311
R/W Setting limiter (low) to
Setting limiter (high)
TC/RTD: 0
V/I: 0.0
Proportional band
[heat-side]
0520
・
・
・
0523
1312
・
・
・
1315
R/W TC/RTD inputs:
0 (0.0) to Input span (Unit: °C [°F])
Voltage (V)/current (I) inputs:
0.0 to 1000.0 % of Input span
0 (0.0): ON/OFF action
TC/RTD:
30 (30.0)
V/I: 30.0
Integral time [heat-side] 0524
・
・
・
0527
1316
・
・
・
1319
R/W PID control or heat/cool PID control:
0 to 3600 seconds or
0.0 to 1999.9 seconds
(0, 0.0: PD action)
Position proportioning control:
1 to 3600 seconds or
0.1 to 1999.9 seconds
240
Derivative time [heat-side] 0528
・
・
・
052B
1320
・
・
・
1323
R/W 0 to 3600 seconds or
0.0 to 1999.9 seconds
(0, 0.0: PI action)
60
Control response
parameter
052C
・
・
・
052F
1324
・
・
・
1327
R/W 0: Slow
1: Medium
2: Fast
When the P or PD action is selected,
this setting becomes invalid.
PID control,
Position
proportioning
control: 0
Heat/cool
PID control:
2
Proportional band
[cool-side]
0530
・
・
・
0533
1328
・
・
・
1331
R/W TC/RTD inputs:
1 (0.1) to Input span (Unit: °C [°F])
Voltage (V)/current (I) inputs:
0.1 to 1000.0 % of Input span
TC/RTD:
30 (30.0)
V/I: 30.0
Integral time [cool-side] 0534
・
・
・
0537
1332
・
・
・
1335
R/W 0 to 3600 seconds or
0.0 to 1999.9 seconds
(0, 0.0: PD action)
240
Derivative time [cool-side] 0538
・
・
・
053B
1336
・
・
・
1339
R/W 0 to 3600 seconds or
0.0 to 1999.9 seconds
(0, 0.0: PI action)
60
Overlap/Deadband 053C
・
・
・
053F
1340
・
・
・
1343
R/W TC/RTD inputs:
−Input span to +Input span
(Unit:°C [°F])
Voltage (V)/current (I) inputs:
−100.0 to +100.0 % of Input span
0
Manual reset 0540
・
・
・
0543
1344
・
・
・
1347
R/W −100.0 to +100.0 % 0.0
Setting change rate limiter
(up)
0544
・
・
・
0547
1348
・
・
・
1351
R/W 0 (0.0) to Input span/unit time
0 (0.0): Unused
0 (0.0)
Setting change rate limiter
(down)
0548
・
・
・
054B
1352
・
・
・
1355
R/W Unit time: 60 seconds
(factory set value)
0 (0.0)
Area soak time 054C
・
・
・
054F
1356
・
・
・
1359
R/W 0 to 11999 seconds or 0 to 5999
minutes
0
Link area number 0550
・
・
・
0553
1360
・
・
・
1363
R/W 0 to 8
(0: No link)
0
For the Modbus data mapping function, see the SRZ Instruction Manual
(IMS01T04--E).
This manual suits for next models
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