COM
-
MECHATROLINK Communication Converter
MY
SRZ Communication Data List
[Z-TIO/Z-DIO/Z-CT modules]
NOV. 2007 IMR02E04-E1
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 shows SRZ data which can be used for communication between the PLC/host computer and
COM-MY. For the installation and various function settings, please read if necessary the following separate
manuals.
• COM-MY Installation Manual (IMR02E01-E) Enclosed with COM-MY
• COM-MY Instruction Manual (IMR02E02-E) Enclosed with COM-MY
• COM-MY Communication Data List (IMR02E03-E) Enclosed with COM-MY
1. Reference to Communication Data List
(1)
No.
1 Measured value (PV) M1 CH1
Name
(2) (4) (5) (6) (8) (9) (3) (7)
Iden-
tifier
Register address
Chan-
nel
·
·
·
CH64
HEX DEC
01FC
023B
508
·
·
·
·
·
·
571
Attri-
Digits
bute
7 RO C Input scale low to Input scale high
Struc-
ture
Data range
Factory
set value
(1) Name: Communication data name
(2) Identifier: Communication identifier of RKC communication
(3) Channel: Channel number of data of one unit
(4) Register address: Register address of Modbus and MECHATROLINK data item specification
(HEX: Hexadecimal DEC: Decimal)
(5) Digits: The number of communication data digits in RKC communication
(6) Attribute: A method of how communication data items are read or written when viewed from
the host computer or PLC is described
RO: Read only data
R/W:
Host computer or PLC
Read and Write data
Host computer or PLC
Data direction
SRZ
Data direction
SRZ
1, 2
(7) Structure: C: Data for each channel
M: Data for each module
U: Data for each SRZ unit
1
On a Z-TIO module (2-channel type), the communication data of the CH3 and CH4
becomes invalid.
2
Parameters only used for heat/cool control or position proportioning control, therefore data
(indicated by ♣ in the name column) for CH2 and CH4 of Z-TIO modules are unused.
[Read is possible (0 is shown), but the result of Write is disregarded.]
Continued on the next page.
IMR02E04-E1
1
(8) Data range: Read or write range of communication data
• ASCII code data (Example: 7 digits)
Most
significant digit
…………
Least
significant digit
• 16-bit data (bit image)
…………….……………………
b15
(9) Factory set value: Factory set value of communication data
Communication includes both “Normal setting data” and “Engineering setting data.”
During RUN (control), the attribute of engineering setting data is RO. To configure
engineering setting data, the RUN/STOP switch must be set to STOP (control stopped).
b0
Z-TIO module: Normal setting data No. 1 to 85,
Engineering setting data No. 86 to 208
Z-DIO module: Normal setting data No. 1 to 13,
Engineering setting data No. 14 to 27
Z-CT module: Normal setting data No. 1 to 28 *
5E1BH) is set to “0: Unlock,” writing data is possible.
The Engineering setting data should be set according to the application before setting any
parameter related to operation. Once the Engineering setting data are set correctly, those
datas are not necessary to be changed for the same application under normal conditions. If
they are changed unnecessarily, it may result in malfunction or failure of the instrument. RKC
will not bear any responsibility for malfunction or failure as a result of improper changes in
the Engineering setting.
* No. 17 to 28: When the set lock (Identifier:LK, Resister address: 5E0CH to
Data mapping function
When using a COM-MY joined to function modules (Z-TIO, Z-DIO, Z-CT modules of SRZ), the
data mapping function cannot be used.
2
IMR02E04-E1
2. Communication Data of Z-TIO Module
For details of Z-TIO module communication data, see SRZ Instruction Manual (IMS01T04-E).
No.
1 Measured value (PV) M1 CH1
2 Comprehensive
3 Operation mode
4 Unused 02BC
5 Manipulated output
Name
event state
state monitor
value (MV) monitor
[heat-side]
♣
Identifier
AJ CH1
L0 CH1
O1 CH1
Register address
Chan-
nel
·
·
·
CH64
·
·
·
CH64
·
·
·
CH64
·
·
·
CH64
HEX DEC
01FC
023B
023C
027B
027C
02BB
02CB
02CC
030B
508
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
571
572
·
·
·
635
636
·
·
·
699
700
·
·
·
715
716
·
·
·
779
Attri-
bute
Struc-
ture
Digits
7 RO C Input scale low to Input scale high
7 RO C • RKC communication
7 RO C • RKC communication
7 RO C PID control or heat/cool PID
Data range
Least significant digit:
Event 1
2nd digit: Event 2
3rd digit: Event 3
4th digit: Event 4
5th digit: Heater break alarm
6th digit: Temperature rise
completion
7th digit: Burnout
Data 0: OFF 1: ON
• Modbus/MECHATROLINK
Bit data
b0: Event 1
b1: Event 2
b2: Event 3
b3: Event 4
b4: Heater break alarm
b5: Temperature rise
completion
b6: Burnout
b7 to b15: Unused
Data 0: OFF 1: ON
[Decimal number: 0 to 127]
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/MECHATROLINK
Bit data
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]
control:
−5.0 to +105.0 %
Position proportioning control with
feedback resistance (FBR) input:
0.0 to 100.0 %
Continued on the next page.
Factory
set value
IMR02E04-E1
3
Continued from the previous page.
Iden-
No.
6 Manipulated output
7 Current transformer
8 Set value (SV)
9 Remote setting (RS)
10 Burnout state monitor B1 CH1
11 Event 1 state monitor AA CH1
12 Event 2 state monitor AB CH1
13 Event 3 state monitor AC CH1
14 Event 4 state monitor AD CH1
15 Heater break alarm
16 Output state monitor Q1 CH1
Name
value (MV) monitor
[cool-side]
♣
(CT) input value
monitor
monitor
input value monitor
(HBA) state monitor
Chan-
tifier
O2 CH1
CH64
M3 CH1
CH64
MS CH1
CH64
S2 CH1
CH64
CH64
CH64
CH64
CH64
CH64
AE CH1
CH64
CH16
Register address
nel
HEX DEC
030C
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
034B
034C
·
·
·
038B
038C
·
·
·
03CB
03CC
·
·
·
040B
040C
·
·
·
044B
044C
·
·
·
048B
048C
·
·
·
04CB
04CC
·
·
·
050B
050C
·
·
·
054B
054C
·
·
·
058B
058C
·
·
·
059B
780
·
·
·
843
844
·
·
·
907
908
·
·
·
971
972
·
·
·
1035
1036
·
·
·
1099
1100
·
·
·
1163
1164
·
·
·
1227
1228
·
·
·
1291
1292
·
·
·
1355
1356
·
·
·
1419
1420
·
·
1435
Attri-
bute
Struc-
ture
0.0 to 30.0 A
CTL-12-S56-10L-N:
0.0 to 100.0 A
Setting limiter (high)
Setting limiter (high)
1: ON
0: OFF
1: ON
If the Event 3 type is temperature
rise completion, check the
temperature rise completion state
in the comprehensive event state
(Identifier: AJ, Register address:
023C to 027B).
(The Event 3 state monitor does
not turn ON.)
1: ON
Least significant digit: OUT1
2nd digit: OUT2
3rd digit: OUT3
4th digit: OUT4
5th digit to Most significant digit:
Unused
Data 0: OFF 1: ON
• Modbus/MECHATROLINK
Bit data
b0: OUT1
b1: OUT2
b2: OUT3
b3: OUT4
b4 to b15: Unused
Data 0: OFF 1: ON
[Decimal number: 0 to 15]
Valid only for time-proportional control
output.
Digits
7 RO C −5.0 to +105.0 %
7 RO C CTL-6-P-N:
7 RO C Setting limiter (low) to
7 RO C Setting limiter (low) to
1 RO C 0: OFF
1 RO C
1 RO C
1 RO C
1 RO C
1 RO C 0: OFF
7 RO M • RKC communication
Data range
Continued on the next page.
Factory
set value
4
IMR02E04-E1
Continued from the previous page.
No.
17 Memory area soak
18 Unused 05DC
19 Holding peak value
20 Unused 062C
21 Logic output
22 Logic output
23 Unused 064C
24 PID/AT transfer G1 CH1
Name
time monitor
ambient temperature
monitor
monitor 1
monitor 2
Identifier
TR CH1
Hp CH1
ED CH1
EE CH1
Register address
Chan-
nel
·
·
·
CH64
·
·
·
CH64
·
·
·
CH16
·
·
·
CH16
·
·
·
CH64
Attri-
bute
Struc-
ture
59 seconds:
RKC communication:
0:00 to 199:59 (min:sec)
Modbus/MECHATROLINK
0 to 11999 seconds
0 hours 00 minutes to 99 hours 59
minutes:
RKC communication:
0:00 to 99:59 (hrs:min)
Modbus/MECHATROLINK
0 to 5999 minutes
Data range of Area soak time can be
selected on the Soak time unit.
(14.0 to 212.0 °F)
Least significant digit:
Logic output 1
2nd digit: Logic output 2
3rd digit: Logic output 3
4th digit: Logic output 4
5th digit to Most significant digit:
Unused
Data 0: OFF 1: ON
• Modbus/MECHATROLINK
Bit data
b0: Logic output 1
b1: Logic output 2
b2: Logic output 3
b3: Logic output 4
b4: Logic output 5
b5: Logic output 6
b6: Logic output 7
b7: Logic output 8
b8 to b15: Unused
Data 0: OFF 1: ON
[Decimal number: 0 to 255]
Logic output 5
2nd digit: Logic output 6
3rd digit: Logic output 7
4th digit: Logic output 8
5th digit to Most significant digit:
Unused
Data 0: OFF 1: ON
1: Autotuning (AT)
1436
·
·
·
1499
1500
·
·
·
1515
1516
·
·
·
1579
1580
·
·
·
1595
1596
·
·
·
1611
1612
·
·
·
2059
2060
·
·
·
2123
Digits
7 RO C 0 minutes 00 seconds to 199 minutes
7 RO C −10.0 to +100.0 °C
7 RO M • RKC communication
1 R/W C 0: PID control
HEX DEC
059C
·
·
·
05DB
·
·
·
05EB
05EC
·
·
·
062B
·
·
·
063B
063C
·
·
·
064B
7 RO M Least significant digit:
·
·
·
080B
080C
·
·
·
084B
Data range
Factory
set value
0
Continued on the next page.
IMR02E04-E1
5
Continued from the previous page.
No.
Name
Identifier
25 Auto/Manual transfer J1 CH1
26 Remote/Local transfer C1 CH1
27 Unused 08CC
28 Memory area transfer ZA CH1
29 Interlock release AR CH1
30 Event 1 set value
A1 CH1
(EV1) ★
31 Event 2 set value
A2 CH1
(EV2) ★
Event 3 set value
32
A3 CH1
(EV3) ★
33
Event 4 set value
A4 CH1
(EV4) ★
34 Control loop break
A5 CH1
alarm (LBA) time ★
35 LBA deadband ★ N1 CH1
36 Set value (SV) ★ S1 CH1
37 Proportional band
P1 CH1
[heat-side]
★ ♣
★: Parameters which can be used in multi-memory area function
Register address
Chan-
nel
·
·
·
CH64
·
·
·
CH64
·
·
·
CH64
·
·
·
CH64
·
·
·
CH64
·
·
·
CH64
·
·
·
CH64
·
·
·
CH64
·
·
·
CH64
·
·
·
CH64
·
·
·
CH64
·
·
·
CH64
HEX DEC
084C
·
·
·
088B
088C
·
·
·
08CB
·
·
·
08DB
08DC
·
·
·
091B
091C
·
·
·
095B
095C
·
·
·
099B
099C
·
·
·
09DB
09DC
·
·
·
0A1B
0A1C
·
·
·
0A5B
0A5C
·
·
·
0A9B
0A9C
·
·
·
0ADB
0ADC
·
·
·
0B1B
0B1C
·
·
·
0B5B
2124
·
·
·
2187
2188
·
·
·
2251
2252
·
·
·
2267
2268
·
·
·
2331
2332
·
·
·
2395
2396
·
·
·
2459
2460
·
·
·
2523
2524
·
·
·
2587
2588
·
·
·
2651
2652
·
·
·
2715
2716
·
·
·
2779
2780
·
·
·
2843
2844
·
·
·
2907
Digits
Attri-
bute
Struc-
ture
Data range
Factory
set value
1 R/W C 0: Auto mode
1: Manual mode
1 R/W C 0: Local mode
1: Remote mode
When performing remote control by
remote setting input and also performing
cascade control and ratio setting,
transfer to the Remote mode.
7 R/W C 1 to 8 1
1 R/W C 0: Normal state
1: Interlock release execution
7 R/W C 50
Deviation action, Deviation action
between channels, Temperature
rise completion range:
−Input span to +Input span
7 R/W C 50
Process action, SV action:
Input scale low to
Input scale high
7 R/W C 50
7 R/W C
MV action:
−5.0 to +105.0 %
If the Event type corresponds to “0:
None,” set to RO (Only reading data is
possible).
If Event 3 corresponds to
“9: Temperature rise completion,” the
Event 3 set value becomes the range for
determining temperature rise
completion.
If Event 4 corresponds to “9: Control
loop break alarm (LBA),” the Event 4
set value becomes RO (Only reading
data is possible).
7 R/W C 0 to 7200 seconds (0: Unused)
If Event 4 is other than “9: Control loop
break alarm (LBA),” set to RO (Only
reading data is possible).
7 R/W C 0 (0.0) to Input span
If Event 4 is other than “9: Control loop
break alarm (LBA),” set to RO (Only
reading data is possible).
7 R/W C Setting limiter (low) to
0 (0.0)
TC/RTD:
Setting limiter (high)
V/I: 0.0
TC/RTD:
30 (30.0)
V/I: 30.0
7 R/W C
TC/RTD inputs:
0 (0.0) to Input span
(Unit: °C [°F])
Varies with the setting of the decimal
point position selection.
Voltage (V)/current (I) inputs:
0.0 to 1000.0 % of input span
0 (0.0): ON/OFF action
(ON/OFF action for both heat and
cool actions in case of a heat/cool
control type.)
Continued on the next page.
0
0
0
50
480
0
6
IMR02E04-E1
Continued from the previous page.
No.
Name
38 Integral time
Identifier
I1 CH1
[heat-side]
★ ♣
39 Derivative time
D1 CH1
[heat-side]
★ ♣
40 Control response
CA CH1
parameter
★ ♣
41 Proportional band
P2 CH1
[cool-side] ★ ♣
42 Integral time
I2 CH1
[cool-side]
★ ♣
43 Derivative time
D2 CH1
[cool-side]
★ ♣
★: Parameters which can be used in multi-memory area function
Register address
Chan-
nel
·
·
·
CH64
·
·
·
CH64
·
·
·
CH64
·
·
·
CH64
·
·
·
CH64
·
·
·
CH64
HEX DEC
0B5C
·
·
·
0B9B
0B9C
·
·
·
0BDB
0BDC
·
·
·
0C1B
0C1C
·
·
·
0C5B
0C5C
·
·
·
0C9B
0C9C
·
·
·
0CDB
2908
·
·
·
2971
2972
·
·
·
3035
3036
·
·
·
3099
3100
·
·
·
3163
3164
·
·
·
3227
3228
·
·
·
3291
Attri-
bute
Struc-
ture
PID control or heat/cool PID
Digits
7 R/W C
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
Varies with the setting of the
integral/derivative time decimal point
position selection.
7 R/W C
0 to 3600 seconds or
0.0 to 1999.9 seconds
(0, 0.0: PI action)
Varies with the setting of the
integral/derivative time decimal point
position selection.
1 R/W C 0: Slow
1: Medium
2: Fast
When the P or PD action is selected, this
setting becomes invalid.
7 R/W C
TC/RTD inputs:
1 (0.1) to Input span
(Unit: °C [°F])
Varies with the setting of the decimal
point position selection.
Voltage (V)/current (I) inputs:
0.1 to 1000.0 % of input span
If control is other than heat/cool PID
control, set to RO (Only reading data is
possible).
7 R/W C
0 to 3600 seconds or
0.0 to 1999.9 seconds
(0, 0.0: PD action)
Varies with the setting of the
integral/derivative time decimal point
position selection.
If control is other than heat/cool PID
control, set to RO (Only reading data is
possible).
7 R/W C
0 to 3600 seconds or
0.0 to 1999.9 seconds
(0, 0.0: PI action)
Varies with the setting of the
integral/derivative time decimal point
position selection.
If control is other than heat/cool PID
control, set to RO (Only reading data is
possible).
Data range
Factory
set value
240
60
PID control,
Position
proportioning
control: 0
Heat/cool PID
control: 2
TC/RTD:
30 (30.0)
V/I: 30.0
240
60
Continued on the next page.
IMR02E04-E1
7
Continued from the previous page.
No.
Name
44 Overlap/Deadband
Identifier
V1 CH1
★ ♣
45 Manual reset ★
MR CH1
46 Setting change rate
HH CH1
limiter (up) ★
47 Setting change rate
HL CH1
limiter (down) ★
48 Area soak time ★ TM CH1
49 Link area number ★ LP CH1
50 Heater break alarm
A7 CH1
(HBA) set value
51 Heater break
NE CH1
determination point
★: Parameters which can be used in multi-memory area function
Note1 RKC communication: 0:00 Modbus/MECHATROLINK: 0
Register address
Chan-
nel
·
·
·
CH64
·
·
·
CH64
·
·
·
CH64
·
·
·
CH64
·
·
·
CH64
·
·
·
CH64
·
·
·
CH64
·
·
·
CH64
HEX DEC
0CDC
0D1B
0D1C
0D5B
0D5C
0D9B
0D9C
0DDB
0DDC
0E1B
0E1C
0E5B
0E5C
0E9B
0E9C
0EDB
3292
·
·
·
·
·
·
3355
3356
·
·
·
·
·
·
3419
3420
·
·
·
·
·
·
3483
3484
·
·
·
·
·
·
3547
3548
·
·
·
·
·
·
3611
3612
·
·
·
·
·
·
3675
3676
·
·
·
·
·
·
3739
3740
·
·
·
·
·
·
3803
Attri-
Digits
Struc-
bute
7 R/W C
ture
TC/RTD inputs:
Data range
−Input span to +Input span
(Unit:°C [°F])
Voltage (V)/current (I) inputs:
−100.0 to +100.0 % of input
span
Minus (−) setting results in overlap.
However, the overlapping range is
within the proportional range.
If control is other than heat/cool PID
control, set to RO (Only reading data is
possible).
7 R/W C
−100.0 to +100.0 %
If the integral function is valid, set to
RO (Only reading data is possible).
When integral action (heating or cooling
side) is zero, manual reset value is
added to the control output.
7 R/W C 0 (0.0) to Input span/unit time *
0 (0.0): Unused
7 R/W C
* Unit time: 60 seconds
(factory set value)
7 R/W C 0 minutes 00 seconds to 199 minutes
59 seconds:
RKC communication:
0:00 to 199:59 (min:sec)
Modbus/MECHATROLINK
0 to 11999 seconds
0 hours 00 minutes to 99 hours 59
minutes:
RKC communication:
0:00 to 99:59 (hrs:min)
Modbus/MECHATROLINK
0 to 5999 minutes
Data range of Area soak time can be
selected on the Soak time unit.
7 R/W C 0 to 8
(0: No link)
7 R/W C
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)
If there is no current transformer (CT)
or CT is assigned to “0: None,” set to
RO (Only reading data is possible).
7 R/W C
0.0 to 100.0 % of HBA set value
(0.0: Heater break determination is
invalid)
If there is no current transformer (CT) or
CT is assigned to “0: None,” set to RO
(Only reading data is possible).
If Heater break alarm (HBA)
corresponds to “0: Type A,” set to RO
(Only reading data is possible).
Continued on the next page.
Factory
set value
0
0.0
0 (0.0)
0 (0.0)
Note1
0
0.0
30.0
8
IMR02E04-E1
Continued from the previous page.
No.
52 Heater melting
53 PV bias PB CH1
54 PV digital filter F1 CH1
55 PV ratio PR CH1
56 PV low input cut-off DP CH1
57 RS bias *
58 RS digital filter *
59 RS ratio *
60 Output distribution
61 Output distribution
62 Output distribution
63 Proportional cycle
64 Minimum ON/OFF
* Data on RS bias, RS ratio and RS digital filter is that in cascade control or ratio setting.
Name
determination point
selection
bias
ratio
time
time of proportioning
cycle
Identifier
NF CH1
RB CH1
F2 CH1
RR CH1
DV CH1
DW CH1
DQ CH1
T0 CH1
VI CH1
Register address
Chan-
nel
·
·
·
CH64
·
·
·
CH64
·
·
·
CH64
·
·
·
CH64
·
·
·
CH64
·
·
·
CH64
·
·
·
CH64
·
·
·
CH64
·
·
·
CH64
·
·
·
CH64
·
·
·
CH64
·
·
·
CH64
·
·
·
CH64
HEX DEC
0EDC
0F1B
0F1C
0F5B
0F5C
0F9B
0F9C
0FDB
0FDC
101B
101C
105B
105C
109B
109C
10DB
10DC
111B
111C
115B
115C
119B
119C
11DB
11DC
121B
3804
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
3867
3868
·
·
·
3931
3932
·
·
·
3995
3996
·
·
·
4059
4060
·
·
·
4123
4124
·
·
·
4187
4188
·
·
·
4251
4252
·
·
·
4315
4316
·
·
·
4379
4380
·
·
·
4443
4444
·
·
·
4507
4508
·
·
·
4571
4572
·
·
·
4635
Attri-
Digits
bute
7 R/W C
7 R/W C −Input span to +Input span 0
7 R/W C 0.0 to 100.0 seconds
7 R/W C 0.500 to 1.500 1.000
7 R/W C
7 R/W C −Input span to +Input span 0
7 R/W C 0.0 to 100.0 seconds
7 R/W C 0.001 to 9.999 1.000
1 R/W C 0: Control output
7 R/W C −100.0 to +100.0 % 0.0
7 R/W C −9.999 to +9.999 1.000
7 R/W C
7 R/W C
Struc-
ture
Data range
0.0 to 100.0 % of HBA set value
(0.0: Heater melting determination
is invalid)
If there is no current transformer (CT) or
CT is assigned to “0: None,” set to RO
(Only reading data is possible).
If Heater break alarm (HBA)
corresponds to “0: Type A,” set to RO
(Only reading data is possible).
(0.0: Unused)
0.00 to 25.00 % of input span
If the Square root extraction
corresponds to “0: Unused,” set to RO
(Only reading data is possible).
(0.0: Unused)
1: Distribution output
0.1 to 100.0 seconds
This item becomes RO (Only reading data
is possible) for the voltage/current output
specification.
This parameter is valid when “0: control
output” has been selected at No.95
“Output assignment.”
0 to 1000 ms
This item becomes RO (Only reading data
is possible) for the voltage/current output
specification.
Continued on the next page.
Factory
set value
30.0
0.0
0.00
0.0
0
Relay contact
output:
20.0
Voltage pulse
output, triac
output and
open collector
output:
2.0
0
IMR02E04-E1
9
Continued from the previous page.
No.
65 Manual manipulated
66 Area soak time stop
67 EDS mode
68 EDS mode
69 EDS value 1
70 EDS value 1
71 EDS value 2
72 EDS value 2
73 EDS transfer time
74 EDS transfer time
75 EDS action time
Name
output value
♣
function
(for disturbance 1)
(for disturbance 2)
(for disturbance 1)
(for disturbance 2)
(for disturbance 1)
(for disturbance 2)
(for disturbance 1)
(for disturbance 2)
(for disturbance 1)
Iden-
Chan-
tifier
nel
ON CH1
RV CH1
NG CH1
NX CH1
NI CH1
NJ CH1
NK CH1
NM CH1
NN CH1
NO CH1
NQ CH1
·
·
·
CH64
·
·
·
CH64
·
·
·
CH64
·
·
·
CH64
·
·
·
CH64
·
·
·
CH64
·
·
·
CH64
·
·
·
CH64
·
·
·
CH64
·
·
·
CH64
·
·
·
CH64
Register address
HEX DEC
121C
125B
125C
129B
129C
12DB
12DC
131B
131C
135B
135C
139B
139C
13DB
13DC
141B
141C
145B
145C
149B
149C
14DB
4636
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
4699
4700
·
·
·
4763
4764
·
·
·
4827
4828
·
·
·
4891
4892
·
·
·
4955
4956
·
·
·
5019
5020
·
·
·
5083
5084
·
·
·
5147
5148
·
·
·
5211
5212
·
·
·
5275
5276
·
·
·
5339
Attri-
bute
Struc-
ture
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:
When there is feedback resistance
(FBR) input and it does not break:
Output limiter (low) to
Output limiter (high)
When there is no feedback
resistance (FBR) input or the
feedback resistance (FBR) input is
disconnected:
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: No function
1: Event 1
2: Event 2
3: Event 3
4: Event 4
0: No function
1: EDS function mode
2: Learning mode
3: Tuning mode
EDS function: External disturbance
suppression function
0.0 to 1999.9 seconds
to
Digits
7 R/W C
1 R/W C
1 R/W C 0
1 R/W C
7 R/W C −100.0 to
7 R/W C 0.0
7 R/W C −100.0 to
7 R/W C 0.0
7 R/W C 0 to 3600 seconds or
7 R/W C 0
7 R/W C 1
Data range
+100.0 % 0.0
+100.0 % 0.0
3600 seconds 600
Continued on the next page.
Factory
set value
0.0
0
0
0
10
IMR02E04-E1
Continued from the previous page.
Iden-
No.
76 EDS action time
77 EDS action wait time
78 EDS action wait time
79 EDS value learning
80 EDS start signal NU CH1
81 Operation mode EI CH1
82 Startup tuning (ST) ST CH1
83 Automatic
84
Name
(for disturbance 2)
(for disturbance 1)
(for disturbance 2)
times
temperature rise
learning
Communication
switch for logic
Chan-
tifier
NL CH1
CH64
NR CH1
CH64
NY CH1
CH64
NT CH1
CH64
CH64
CH64
CH64
Y8 CH1
CH64
EF CH1
CH16
Register address
nel
HEX DEC
14DC
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
151B
151C
·
·
·
155B
155C
·
·
·
159B
159C
·
·
·
15DB
15DC
·
·
·
161B
161C
·
·
·
165B
165C
·
·
·
169B
169C
·
·
·
16DB
16DC
·
·
·
16EB
5340
·
·
·
5403
5404
·
·
·
5467
5468
·
·
·
5531
5532
·
·
·
5595
5596
·
·
·
5659
5660
·
·
·
5723
5724
·
·
·
5787
5788
·
·
·
5851
5852
·
·
·
5867
Attri-
bute
Struc-
ture
to
(0: No learning mode)
0: EDS start signal OFF
1: EDS start signal ON
(for disturbance 1)
2: EDS start signal ON
(for disturbance 2)
0: Unused
1: Monitor
2: Monitor + Event function
3: Control
0: ST unused
1: Execute once *
2: Execute always
* When the startup tuning (ST) is
finished, the setting will automatically
returns to “0: ST unused.”
The startup tuning (ST) function is
activated according to the ST start
condition selected.
If control is position proportioning
control, set to RO (Only reading data is
possible).
0: Unused
1: Learning *
* When the automatic temperature rise
learning is finished, the setting will
automatically returns to “0: Unused.”
Least significant digit:
Communication switch 1
2nd digit:
Communication switch 2
3rd digit:
Communication switch 3
4th digit:
Communication switch 4
5th digit to Most significant digit:
Unused
Data 0: OFF 1: ON
• Modbus/MECHATROLINK
Bit data
b0: Communication switch 1
b1: Communication switch 2
b2: Communication switch 3
b3: Communication switch 4
b4 to b15: Unused
Data 0: OFF 1: ON
[Decimal number: 0 to 15]
Digits
7 R/W C 1
7 R/W C 0.0
7 R/W C 0.0
7 R/W C 0 to 10 times
1 R/W C
1 R/W C
1 R/W C
1 R/W C
7 R/W M • RKC communication
Data range
3600 seconds 600
to
600.0 seconds 0.0
Continued on the next page.
Factory
set value
1
0
3
0
0
0
IMR02E04-E1
11
Continued from the previous page.
No.
85 Unused
86
87
88 Decimal point
Name
Set data No. 86 or later are for engineering setting [Writable in the STOP mode]
Input type XI CH1
Display unit
position
Identifier
16EC
PU CH1
XU CH1
Register address
Chan-
nel
·
·
·
CH64
·
·
·
CH64
·
·
·
CH64
HEX DEC
196B
196C
19AB
19AC
19EB
19EC
1A2B
Attri-
bute
Struc-
ture
C
0: TC input K
1: TC input J
2: TC input R
3: TC input S
4: TC input B
5: TC input E
6: TC input N
7: TC input T
8: TC input W5Re/W26Re
9: TC input PLII
12: RTD input Pt100
13: RTD input JPt100
14: Current input 0 to 20 mA DC
15: Current input 4 to 20 mA DC
16: Voltage (high) input
0 to 10 V DC
17: Voltage (high) input
0 to 5 V DC
18: Voltage (high) input
1 to 5 V DC
19: Voltage (low) input
0 to 1 V DC
20: Voltage (low) input
0 to 100 mV DC
21: Voltage (low) input
0 to 10 mV DC
22: Feedback resistance input
100 to 150 Ω
23: Feedback resistance input
151 Ω to 6 kΩ
If changed to voltage (high) input from
TC/RTD/current/voltage (low)/feedback
resistance input, select the hardware by
the input selector switch at the side of
the module.
See SRZ Instruction Manual
(IMS01T04-E).
0: °C
1: °F
Use to select the temperature unit for
thermocouple (TC) and RTD inputs.
1: One decimal place
2: Two decimal places
3: Three decimal places
4: Four decimal places
TC input
• K, J, T, E:
Only 0 or 1 can be set.
• R, S, B, N, PLII, W5Re/W26Re:
Only 0 can be set.
RTD input:
Only 0 or 1 can be set.
V/I inputs:
From 0 to 4 can be set.
Digits
5868
·
·
·
6507
6508
·
·
·
6571
6572
·
·
·
6635
6636
·
·
·
6699
·
·
·
7 R/W C
·
·
·
7 R/W
·
·
·
7 R/W C 0: No decimal place
·
·
·
Data range
:
Continued on the next page.
Factory
set value
Depends on
model code
When not
specifying: 0
0
Depends on
model code
When not
specifying:
TC/RTD: 1
V/I: 1
12
IMR02E04-E1
Continued from the previous page.
Iden-
No.
89
90
91
92 Input error
93 Burnout direction BS CH1
94 Square root extraction XH CH1
95 Output assignment
96 Energized/
Name
Input scale high XV CH1
Input scale low XW CH1
Input error
determination point
(high)
determination point
(low)
(Logic output
selection function)
De-energized
(Logic output
selection function)
Chan-
tifier
CH64
CH64
AV CH1
CH64
AW CH1
CH64
CH64
CH64
E0 CH1
CH64
NA CH1
CH64
Register address
nel
HEX DEC
1A2C
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
1A6B
1A6C
·
·
·
1AAB
1AAC
·
·
·
1AEB
1AEC
·
·
·
1B2B
1B2C
·
·
·
1B6B
1B6C
·
·
·
1BAB
1BAC
·
·
·
1BEB
1BEC
·
·
·
1C2B
6700
·
·
·
6763
6734
·
·
·
6827
6828
·
·
·
6891
6892
·
·
·
6955
6956
·
·
·
7019
7020
·
·
·
7083
7084
·
·
·
7147
7148
·
·
·
7211
Attri-
bute
Struc-
ture
Input scale low to
Maximum value of the
input range
Voltage (V)/current (I) inputs:
−19999 to +19999
(However, a span is 20000 or
less.)
Varies with the setting of the decimal point
position
TC/RTD inputs:
Minimum value of the selected
input range to Input scale high
Voltage (V)/current (I) inputs:
−19999 to +19999
(However, a span is 20000 or
less.)
Varies with the setting of the decimal point
position
Input error determination point
(low limit) to
(Input range high + 5 % of Input
span)
span) to
Input error determination point
(high limit)
1: Downscale
Valid only when the TC input and voltage
(low) input are selected.
1: Used
1: Logic output result
2: FAIL output
1: De-energized
Digits
7 R/W C TC/RTD inputs:
7 R/W C
7 R/W C
7 R/W C (Input range low − 5 % of Input
1 R/W C 0: Upscale
1 R/W C 0: Unused
1 R/W C 0: Control output
1 R/W C 0: Energized
Data range
Factory
set value
TC/RTD:
value of the
value of the
high + (5 %
of Input span)
of Input span)
Maximum
selected
input range
V/I: 100.0
TC/RTD:
Minimum
selected
input range
V/I: 0.0
Input range
Input range
low − (5 %
0
0
0
0
selected
Continued on the next page.
IMR02E04-E1
13
Continued from the previous page.
No.
Name
97 Event 1 type XA CH1
98 Event 1
channel setting
99 Event 1 hold action WA CH1
100 Event 1 interlock LF CH1
101 Event 1
differential gap
Identifier
FA CH1
HA CH1
Register address
Chan-
nel
·
·
·
CH64
·
·
·
CH64
·
·
·
CH64
·
·
·
CH64
·
·
·
CH64
HEX DEC
1C2C
1C6B
1C6C
1CAB
1CAC
1CEB
1CEC
1D2B
1D2C
1D6B
7212
·
·
·
·
·
·
7275
7276
·
·
·
·
·
·
7339
7340
·
·
·
·
·
·
7403
7404
·
·
·
·
·
·
7467
7468
·
·
·
·
·
·
7531
Attri-
bute
Struc-
ture
Digits
7 R/W C 0: None
1: Deviation high
(Using SV monitor value)
2: Deviation low
(Using SV monitor value)
3: Deviation high/low
(Using SV monitor value)
4: Band
(Using SV monitor value)
5: Process high
6: Process low
7: SV high
8: SV low
9: Unused
10: MV high [heat-side]
11: MV low [heat-side]
12: MV high [cool-side]
13: MV low [cool-side]
14: Deviation high
(Using local SV value)
15: Deviation low
(Using local SV value)
16: Deviation high/low
(Using local SV value)
17: Band (Using local SV value)
18: Deviation between channels
1
high
19: Deviation between channels
1
low
20: Deviation between channels
high/low
21: Deviation between channels
1
band
1
Event hold action is available.
2
If there is feedback resistance (FBR)
input in position proportioning
control, set to the feedback resistance
(FBR) input value.
1 R/W C 1: Channel 1
2: Channel 2
3: Channel 3
4: Channel 4
This function is valid when “deviation
between channels”is selected.
1 R/W C
0: OFF
1: Hold action ON
(When power turned on)
2: Re-hold action ON
(When power turned on and SV
changed)
This function is valid when input value,
deviation or manipulated value action
has been selected.
In case of a deviation action, this
function is not available while in remote
mode and while setting changing rate
limiter is working.
1 R/W C 0: Unused
1: Used
7 R/W C
Deviation, process, set value, or
Deviation action between
channels:
0 to Input span (Unit: °C [°F])
MV: 0.0 to 110.0 %
Data range
1
1
1
set value
Depends on
model code
1
1
1
1
1, 2
1, 2
1
1
1
1
1
1
specifying:
Depends on
model code
specifying:
: TC/RTD:
1
V/I: 0.1
: 0.1
Continued on the next page.
Factory
When not
0
1
When not
0
0
14
IMR02E04-E1
Continued from the previous page.
No.
102 Event 1 delay timer TD CH1
103
Name
Force ON of Event 1
action
Identifier
OA CH1
Register address
Chan-
nel
·
·
·
CH64
·
·
·
CH64
HEX DEC
1D6C
1DAB
1DAC
1DEB
7532
·
·
·
·
·
·
·
·
·
7595
7596
·
·
·
7659
Attri-
bute
Struc-
ture
Least significant digit:
2nd digit:
3rd digit:
4th digit:
5th digit to Most significant digit:
Data 0: Invalid 1: Valid
• Modbus/MECHATROLINK
Bit data
b0: Event output turned on at input
error occurrence
b1: Event output turned on in
manual mode
b2: Event output turned on during
the autotuning (AT) function is
being executed
b3: Event output turned on during
the setting change rate limiter
is being operated
b4 to b15: Unused
Data 0: Invalid 1: Valid
[Decimal number: 0 to 15]
Digits
7 R/W C 0 to 18000 seconds 0
7 R/W C • RKC communication
Data range
Event output turned on at input
error occurrence
Event output turned on in
manual mode
Event output turned on during
the autotuning (AT) function is
being executed
Event output turned on during
the setting change rate limiter is
being operated
Unused
Continued on the next page.
Factory
set value
0
IMR02E04-E1
15
Continued from the previous page.
No.
104
105 Event 2
106 Event 2 hold action
107 Event 2 interlock
108
Name
Event 2 type XB CH1
channel setting
Event 2
differential gap
Iden-
Chan-
tifier
nel
·
·
·
CH64
FB CH1
·
·
·
CH64
WB CH1
·
·
·
CH64
LG CH1
·
·
·
CH64
HB CH1
·
·
·
CH64
Register address
HEX DEC
1DEC
1E2B
1E2C
1E6B
1E6C
1EAB
1EAC
1EEB
1EEC
1F2B
7660
·
·
·
·
·
·
7723
7724
·
·
·
·
·
·
7787
7788
·
·
·
·
·
·
7851
7852
·
·
·
·
·
·
7915
7916
·
·
·
·
·
·
7979
Attri-
bute
Struc-
ture
Digits
7 R/W C 0: None
1: Deviation high
(Using SV monitor value)
2: Deviation low
(Using SV monitor value)
3: Deviation high/low
(Using SV monitor value)
4: Band
(Using SV monitor value)
5: Process high
6: Process low
7: SV high
8: SV low
9: Unused
10: MV high [heat-side]
11: MV low [heat-side]
12: MV high [cool-side]
13: MV low [cool-side]
14: Deviation high
(Using local SV value)
15: Deviation low
(Using local SV value)
16: Deviation high/low
(Using local SV value)
17: Band (Using local SV value)
18: Deviation between channels
1
high
19: Deviation between channels
1
low
20: Deviation between channels
high/low
21: Deviation between channels
1
band
1
Event hold action is available.
2
If there is feedback resistance (FBR)
input in position proportioning
control, set to the feedback resistance
(FBR) input value.
1 R/W C 1: Channel 1
2: Channel 2
3: Channel 3
4: Channel 4
This function is valid when “deviation
between channels”is selected.
1 R/W C
0: OFF
1: Hold action ON
(When power turned on)
2: Re-hold action ON
(When power turned on and SV
changed)
This function is valid when input value,
deviation or manipulated value action
has been selected.
In case of a deviation action, this
function is not available while in remote
mode and while setting changing rate
limiter is working.
1 R/W C 0: Unused
1: Used
7 R/W C
Deviation, process, set value, or
Deviation action between
channels:
0 to Input span (Unit: °C [°F])
MV: 0.0 to 110.0 %
Data range
1
1
1
set value
Depends on
model code
1
1
specifying: 0
1
1
1, 2
1, 2
1
1
1
1
1
1
Depends on
model code
specifying: 0
: TC/RTD:
1
V/I: 0.1
: 0.1
Continued on the next page.
Factory
When not
1
When not
0
16
IMR02E04-E1
Continued from the previous page.
No.
109
110
Name
Event 2 delay timer
Force ON of Event 2
action
Iden-
Chan-
tifier
nel
TG CH1
OB CH1
·
·
·
CH64
·
·
·
CH64
Register address
HEX DEC
1F2C
1F6B
1F6C
1FAB
7980
·
·
·
·
·
·
·
·
·
8043
8044
·
·
·
8107
Attri-
bute
Struc-
ture
• RKC communication
Least significant digit:
2nd digit:
3rd digit:
4th digit:
5th digit to Most significant digit:
Data 0: Invalid 1: Valid
• Modbus/MECHATROLINK
Bit data
b0: Event output turned on at input
error occurrence
b1: Event output turned on in
manual mode
b2: Event output turned on during
the autotuning (AT) function is
being executed
b3: Event output turned on during
the setting change rate limiter
is being operated
b4 to b15: Unused
Data 0: Invalid 1: Valid
[Decimal number: 0 to 15]
Digits
7 R/W C 0 to 18000 seconds 0
7 R/W C
Data range
Event output turned on at input
error occurrence
Event output turned on in
manual mode
Event output turned on during
the autotuning (AT) function is
being executed
Event output turned on during
the setting change rate limiter is
being operated
Unused
Continued on the next page.
Factory
set value
0
IMR02E04-E1
17
Continued from the previous page.
No.
111
Name
Event 3 type XC CH1
112 Event 3
channel setting
113 Event 3 hold action
114
Event 3 interlock
115 Event 3
differential gap
Iden-
Chan-
tifier
nel
·
·
·
CH64
FC CH1
·
·
·
CH64
WC CH1
·
·
·
CH64
LH CH1
·
·
·
CH64
HC CH1
·
·
·
CH64
Register address
HEX DEC
1FAC
1FEB
1FEC
202B
202C
206B
206C
20AB
20AC
20EB
8108
·
·
·
·
·
·
8171
8172
·
·
·
·
·
·
8235
8236
·
·
·
·
·
·
8299
8300
·
·
·
·
·
·
8363
8364
·
·
·
·
·
·
8427
Attri-
bute
Struc-
ture
0: None
Digits
7 R/W C
1: Deviation high
(Using SV monitor value)
2: Deviation low
(Using SV monitor value)
3: Deviation high/low
(Using SV monitor value)
4: Band
(Using SV monitor value)
5: Process high
6: Process low
7: SV high
8: SV low
9: Temperature rise completion
10: MV high [heat-side]
11: MV low [heat-side]
12: MV high [cool-side]
13: MV low [cool-side]
14: Deviation high
(Using local SV value)
15: Deviation low
(Using local SV value)
16: Deviation high/low
(Using local SV value)
17: Band (Using local SV value)
18: Deviation between channels
1
high
19: Deviation between channels
1
low
20: Deviation between channels
high/low
21: Deviation between channels
1
band
1
Event hold action is available.
2
If there is feedback resistance (FBR)
input in position proportioning
control, set to the feedback resistance
(FBR) input value.
1 R/W C 1: Channel 1
2: Channel 2
3: Channel 3
4: Channel 4
This function is valid when “deviation
between channels”is selected.
1 R/W C
0: OFF
1: Hold action ON
(When power turned on)
2: Re-hold action ON
(When power turned on and SV
changed)
This function is valid when input value,
deviation or manipulated value action
has been selected.
In case of a deviation action, this
function is not available while in remote
mode and while setting changing rate
limiter is working.
1 R/W C 0: Unused
1: Used
7 R/W C
Deviation, process, set value,
Deviation action between
channels, or Temperature rise
completion:
0 to Input span (Unit: °C [°F])
MV: 0.0 to 110.0 %
Data range
1
1
1
set value
Depends on
model code
1
1
specifying: 0
1
1
1, 2
1, 2
1
1
1
1
1
1
Depends on
model code
specifying: 0
: TC/RTD:
1
V/I: 0.1
: 0.1
Continued on the next page.
Factory
When not
1
When not
0
18
IMR02E04-E1
Continued from the previous page.
No.
116 Event 3 delay timer
117 Force ON of Event 3
Name
action
Iden-
Chan-
tifier
nel
TE CH1
OC CH1
·
·
·
CH64
·
·
·
CH64
Register address
HEX DEC
20EC
212B
212C
216B
8428
·
·
·
·
·
·
·
·
·
8491
8492
·
·
·
8555
Attri-
bute
Struc-
ture
If Event 3 corresponds to “9:
Temperature rise completion,” the Event
3 delay timer becomes the temperature
rise completion soak time.
Least significant digit:
2nd digit:
3rd digit:
4th digit:
5th digit to Most significant digit:
Data 0: Invalid 1: Valid
• Modbus/MECHATROLINK
Bit data
b0: Event output turned on at input
error occurrence
b1: Event output turned on in
manual mode
b2: Event output turned on during
the autotuning (AT) function is
being executed
b3: Event output turned on during
the setting change rate limiter
is being operated
b4 to b15: Unused
Data 0: Invalid 1: Valid
[Decimal number: 0 to 15]
Digits
7 R/W C 0 to 18000 seconds
7 R/W C • RKC communication
Data range
Event output turned on at input
error occurrence
Event output turned on in
manual mode
Event output turned on during
the autotuning (AT) function is
being executed
Event output turned on during
the setting change rate limiter is
being operated
Unused
Factory
set value
0
0
Continued on the next page.
IMR02E04-E1
19
Continued from the previous page.
No.
118 Event 4 type
119 Event 4
120 Event 4 hold action
121 Event 4 interlock
Name
channel setting
Iden-
Chan-
tifier
nel
XD CH1
·
·
·
CH64
FD CH1
·
·
·
CH64
WD CH1
·
·
·
CH64
LI CH1
·
·
·
CH64
Register address
HEX DEC
216C
21AB
21AC
21EB
21EC
222B
222C
226B
8556
·
·
·
·
·
·
8619
8620
·
·
·
·
·
·
8683
8684
·
·
·
·
·
·
8747
8748
·
·
·
·
·
·
8811
Attri-
bute
Struc-
ture
0: None
Digits
7 R/W C
1: Deviation high
(Using SV monitor value)
2: Deviation low
(Using SV monitor value)
3: Deviation high/low
(Using SV monitor value)
4: Band
(Using SV monitor value)
5: Process high
6: Process low
7: SV high
8: SV low
9: Control loop break alarm
(LBA)
10: MV high [heat-side]
11: MV low [heat-side]
12: MV high [cool-side]
13: MV low [cool-side]
14: Deviation high
(Using local SV value)
15: Deviation low
(Using local SV value)
16: Deviation high/low
(Using local SV value)
17: Band (Using local SV value)
18: Deviation between channels
1
high
19: Deviation between channels
1
low
20: Deviation between channels
high/low
21: Deviation between channels
1
band
1
Event hold action is available.
2
If there is feedback resistance (FBR)
input in position proportioning
control, set to the feedback resistance
(FBR) input value.
1 R/W C 1: Channel 1
2: Channel 2
3: Channel 3
4: Channel 4
This function is valid when “deviation
between channels”is selected.
1 R/W C
0: OFF
1: Hold action ON
(When power turned on)
2: Re-hold action ON
(When power turned on and SV
changed)
This function is valid when input value,
deviation or manipulated value action
has been selected.
In case of a deviation action, this
function is not available while in remote
mode and while setting changing rate
limiter is working.
1 R/W C 0: Unused
1: Used
Data range
1
1
1
set value
Depends on
model code
1
1
specifying: 0
1
1
1, 2
1, 2
1
1
1
1
1
1
Depends on
model code
specifying: 0
Continued on the next page.
Factory
When not
1
When not
0
20
IMR02E04-E1
Continued from the previous page.
Iden-
No.
122 Event 4
123 Event 4 delay timer
124
125 CT ratio XS CH1
126 CT assignment ZF CH1
127
128
Name
differential gap
Force ON of Event 4
action
Heater break alarm
(HBA) type
Number of heater
break alarm (HBA)
delay times
Chan-
tifier
HD CH1
CH64
TF CH1
CH64
OD CH1
CH64
CH64
CH64
ND CH1
CH64
DH CH1
CH64
Register address
nel
HEX DEC
226C
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
22AB
22AC
·
·
·
22EB
22EC
·
·
·
232B
232C
·
·
·
236B
236C
·
·
·
23AB
23AC
·
·
·
23EB
23EC
·
·
·
242B
8812
·
·
·
8875
8876
·
·
·
8939
8940
·
·
·
9003
9004
·
·
·
9067
9068
·
·
·
9131
9132
·
·
·
9195
9196
·
·
·
9259
Attri-
bute
Struc-
ture
Deviation, process, set value, or
MV: 0.0 to 110.0 %
Becomes invalid when the Event 4 type
corresponds to
“9: Control loop break alarm (LBA).”
Least significant digit:
2nd digit:
3rd digit:
4th digit:
5th digit to Most significant digit:
Data 0: Invalid 1: Valid
• Modbus/MECHATROLINK
Bit data
b0: Event output turned on at input
error occurrence
b1: Event output turned on in
manual mode
b2: Event output turned on during
the autotuning (AT) function is
being executed
b3: Event output turned on during
the setting change rate limiter
is being operated
b4 to b15: Unused
Data 0: Invalid 1: Valid
[Decimal number: 0 to 15]
1: OUT1
2: OUT2
3: OUT3
4: OUT4
0: Heater break alarm (HBA)
type A (Time-proportional
control output)
1: Heater break alarm (HBA)
type B (Continuous control
output and time-proportional
control output)
Digits
7 R/W C
7 R/W C 0 to 18000 seconds 0
7 R/W C • RKC communication
7 R/W C 0 to 9999
1 R/W C 0: None
1 R/W C
7 R/W C 0 to 255 times 5
Data range
Deviation action between
channels:
0 to Input span (Unit: °C [°F])
Event output turned on at input
error occurrence
Event output turned on in
manual mode
Event output turned on during
the autotuning (AT) function is
being executed
Event output turned on during
the setting change rate limiter is
being operated
Unused
Continued on the next page.
Factory
set value
: TC/RTD:
1
V/I: 0.1
: 0.1
0
CTL-6-P-N:
800
CTL-12-S56-
10L-N:
1000
1
1
IMR02E04-E1
21
Continued from the previous page.
No.
129
130
131
132
133 Control action
134 Integral/derivative
135 Derivative action
136 Undershoot
137 Derivative gain ♣
138 ON/OFF action
139 ON/OFF action
Name
Hot/Cold start
Start determination
point
SV tracking
MV transfer function
[Action taken when
changed to Manual mode
from Auto mode]
time decimal point
position
♣
♣
suppression factor
♣
differential gap
(upper)
♣
differential gap
(lower)
♣
Iden-
Chan-
tifier
nel
XN CH1
SX CH1
XL CH1
OT CH1
XE CH1
PK CH1
KA CH1
KB CH1
DG CH1
IV CH1
IW CH1
·
·
·
CH64
·
·
·
CH64
·
·
·
CH64
·
·
·
CH64
·
·
·
CH64
·
·
·
CH64
·
·
·
CH64
·
·
·
CH64
·
·
·
CH64
·
·
·
CH64
·
·
·
CH64
Register address
HEX DEC
242C
246B
246C
24AB
24AC
24EB
24EC
252B
252C
256B
256C
25AB
25AC
25EB
25EC
262B
262C
266B
266C
26AB
26AC
26EB
9260
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
9323
9324
·
·
·
9387
9388
·
·
·
9451
9452
·
·
·
9515
9516
·
·
·
9579
9580
·
·
·
9643
9644
·
·
·
9707
9708
·
·
·
9771
9772
·
·
·
9835
9836
·
·
·
9899
9900
·
·
·
9963
Attri-
bute
Struc-
ture
1: Hot start 2
2: Cold start
(The unit is the same as input
value.)
(0: Action depending on the
Hot/Cold start selection)
1: Used
0: MV in Auto mode is used.
1: MV in previous Manual mode is
used.
0: Brilliant II PID control
(Direct action)
1: Brilliant II PID control
(Reverse action)
2: Brilliant II Heat/Cool PID
control [Water cooling type]
3: Brilliant II Heat/Cool PID
control [Air cooling type]
4: Brilliant II Heat/Cool PID
control [Cooling gain linear
type]
5: Position proportioning control
Odd channel: From 0 to 5 can be set.
Even channel: Only 0 or 1 can be set. *
* In heat/cool control and position
0: 1 second setting
(No decimal place)
1: 0.1 seconds setting
(One decimal place)
0: Measured value derivative
1: Deviation derivative
0 to Input span (Unit: °C [°F])
Voltage (V)/current (I) inputs:
0.0 to 100.0 % of input span
Digits
1 R/W C 0: Hot start 1
7 R/W C 0 to Input span
1 R/W C 0: Unused
1 R/W C
1 R/W C
1 R/W C
1 R/W C
7 R/W C 0.000 to 1.000
7 R/W C 0.1 to 10.0 6.0
7 R/W C TC/RTD inputs:
7 R/W C
Data range
[Balanceless-bumpless function]
proportioning control, control action
is not performed. Only PV monitor
and event action is performed.
Continued on the next page.
specification
specifying: 1
Water cooling:
Cooling gain
Factory
set value
0
Depends on
1
0
Depends on
model code
When not
0
0
0.100
Air cooling:
0.250
linear type:
1.000
TC/RTD: 1
V/I: 0.1
TC/RTD: 1
V/I: 0.1
22
IMR02E04-E1
Continued from the previous page.
No.
140 Action (high) at input
141 Action (low) at input
142 Manipulated output
143 Manipulated output
144 Manipulated output
145
146
147 Output limiter (high)
148 Output limiter (low)
149
150
151 Output limiter (high)
152 Output limiter (low)
Name
error ♣
error ♣
value at input error ♣
value at STOP mode
[heat-side] ♣
value at STOP mode
[cool-side] ♣
Output change rate
limiter (up)
[heat-side]
♣
Output change rate
limiter (down)
[heat-side]
♣
[heat-side]
♣
[heat-side]
♣
Output change rate
limiter (up)
[cool-side]
♣
Output change rate
limiter (down)
[cool-side]
♣
[cool-side]
♣
[cool-side]
♣
Iden-
Chan-
tifier
nel
WH CH1
·
·
·
CH64
WL CH1
·
·
·
CH64
OE CH1
·
·
·
CH64
OF CH1
·
·
·
CH64
OG CH1
·
·
·
CH64
PH CH1
·
·
·
CH64
PL CH1
·
·
·
CH64
OH CH1
·
·
·
CH64
OL CH1
·
·
·
CH64
PX CH1
·
·
·
CH64
PY CH1
·
·
·
CH64
OX CH1
·
·
·
CH64
OY CH1
·
·
·
CH64
Register address
HEX DEC
26EC
272B
272C
276B
276C
27AB
27AC
27EB
27EC
282B
282C
286B
286C
28AB
28AC
28EB
28EC
292B
292C
296B
296C
29AB
29AC
29EB
29EC
2A2B
9964
·
·
·
·
·
·
10027
10028
·
·
·
·
·
·
10091
10092
·
·
·
·
·
·
10155
10156
·
·
·
·
·
·
10219
10220
·
·
·
·
·
·
10283
10284
·
·
·
·
·
·
10347
10348
·
·
·
·
·
·
10411
10412
·
·
·
·
·
·
10475
10476
·
·
·
·
·
·
10539
10540
·
·
·
·
·
·
10603
10604
·
·
·
·
·
·
10667
10668
·
·
·
·
·
·
10731
10732
·
·
·
·
·
·
10795
Attri-
Digits
bute
Struc-
ture
Data range
set value
1 R/W C 0: Normal control
1: Manipulated output value at
Input error
1 R/W C
7 R/W C
7 R/W C −5.0
7 R/W C
0
−105.0 to +105.0 %
Actual output values become those
restricted by the output limiter.
Position proportioning control:
If there is no feedback resistance (FBR)
input or the feedback resistance (FBR)
input is disconnected, an action taken
when abnormal is in accordance with
the value action setting during STOP.
−5.0 to +105.0 %
Position proportioning control:
Only when there is feedback resistance
(FBR) input and it does not break, the
manipulated output value [heat-side] at
STOP is output.
7 R/W C 0.0 to 100.0 %/seconds
(0.0: OFF)
Becomes invalid when in position
7 R/W C
7 R/W C
7 R/W C
proportioning control.
Output limiter (low) to 105.0 %
Position proportioning control:
Becomes valid only when there is
feedback resistance (FBR) input and it
does not break.
−5.0 % to Output limiter (high)
Position proportioning control:
Becomes valid only when there is
feedback resistance (FBR) input and it
does not break.
7 R/W C 0.0 to 100.0 %/seconds
(0.0: OFF)
7 R/W C
Becomes invalid when in position
proportioning control.
7 R/W C Output limiter (low) [cool-side] to
105.0 %
7 R/W C −5.0 % to Output limiter (high)
[cool-side]
Continued on the next page.
Factory
0
0.0
−5.0
0.0
0.0
105.0
−5.0
0.0
0.0
105.0
−5.0
IMR02E04-E1
23
Continued from the previous page.
No.
153 AT bias
154 AT cycles
155 Output value with
156 Output value with
157 AT differential gap
158
159
160
161
162
163
Name
♣
♣
AT turned on
♣
AT turned off ♣
time ♣
Proportional band
adjusting factor
[heat-side] ♣
Integral time
adjusting factor
[heat-side]
♣
Derivative time
adjusting factor
[heat-side]
♣
Proportional band
adjusting factor
[cool-side] ♣
Integral time
adjusting factor
[cool-side]
♣
Derivative time
adjusting factor
[cool-side]
♣
Iden-
Chan-
tifier
nel
GB CH1
G3 CH1
OP CH1
OQ CH1
GH CH1
KC CH1
KD CH1
KE CH1
KF CH1
KG CH1
KH CH1
·
·
·
CH64
·
·
·
CH64
·
·
·
CH64
·
·
·
CH64
·
·
·
CH64
·
·
·
CH64
·
·
·
CH64
·
·
·
CH64
·
·
·
CH64
·
·
·
CH64
·
·
·
CH64
Register address
HEX DEC
2A2C
2A6B
2A6C
2AAB
2AAC
2AEB
2AEC
2B2B
2B2C
2B6B
2B6C
2BAB
2BAC
2BEB
2BEC
2C2B
2C2C
2C6B
2C6C
2CAB
2CAC
2CEB
10796
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
10859
10860
·
·
·
10923
10924
·
·
·
10987
10988
·
·
·
11051
11052
·
·
·
11115
11116
·
·
·
11179
11180
·
·
·
11243
11244
·
·
·
11307
11308
·
·
·
11371
11372
·
·
·
11435
11436
·
·
·
11499
Attri-
bute
Struc-
ture
1: 2.0 cycles
2: 2.5 cycles
3: 3.0 cycles
Output value with AT turned off to
+105.0 %
Actual output values become those
restricted by the output limiter.
Position proportioning control:
Becomes valid only when there is
feedback resistance (FBR) input and it
does not break (high limit of feedback
resistance input at AT).
−105.0 % to Output value with AT
turned on
Actual output values become those
restricted by the output limiter.
Position proportioning control:
Becomes valid only when there is
feedback resistance (FBR) input and it
does not break (low limit of feedback
resistance input at AT).
Digits
7 R/W C −Input span to +Input span 0
1 R/W C 0: 1.5 cycles
7 R/W C
7 R/W C
7 R/W C 0.0 to 50.0 seconds 10.0
7 R/W C 0.01 to 10.00 times 1.00
7 R/W C 0.01 to 10.00 times 1.00
7 R/W C 0.01 to 10.00 times 1.00
7 R/W C 0.01 to 10.00 times 1.00
7 R/W C 0.01 to 10.00 times 1.00
7 R/W C 0.01 to 10.00 times 1.00
Data range
set value
Continued on the next page.
Factory
1
105.0
−105.0
24
IMR02E04-E1
Continued from the previous page.
No.
164 Proportional band
165 Proportional band
166 Integral time limiter
167 Integral time limiter
168 Derivative time
169 Derivative time
170 Proportional band
171
172 Integral time limiter
173
174 Derivative time
175 Derivative time
176 Open/Close output
177 Action at feedback
Name
limiter (high)
[heat-side]
♣
limiter (low)
[heat-side]
♣
(high) [heat-side]
♣
(low) [heat-side]
♣
limiter (high)
[heat-side]
♣
limiter (low)
[heat-side]
♣
limiter (high)
[cool-side]
♣
Proportional band
limiter (low)
[cool-side]
♣
(high) [cool-side]
♣
Integral time limiter
(low) [cool-side]
♣
limiter (high)
[cool-side]
♣
limiter (low)
[cool-side]
♣
neutral zone
♣
resistance (FBR) input
error ♣
Iden-
Chan-
tifier
nel
P6 CH1
·
·
·
CH64
P7 CH1
·
·
·
CH64
I6 CH1
·
·
·
CH64
I7 CH1
·
·
·
CH64
D6 CH1
·
·
·
CH64
D7 CH1
·
·
·
CH64
P8 CH1
·
·
·
CH64
P9 CH1
·
·
·
CH64
I8 CH1
·
·
·
CH64
I9 CH1
·
·
·
CH64
D8 CH1
·
·
·
CH64
D9 CH1
·
·
·
CH64
V2 CH1
·
·
·
CH64
SY CH1
·
·
·
CH64
Register address
HEX DEC
2CEC
2D2B
2D2C
2D6B
2D6C
2DAB
2DAC
2DEB
2DEC
2E2B
2E2C
2E6B
2E6C
2EAB
2EAC
2EEB
2EEC
2F2B
2F2C
2F6B
2F6C
2FAB
2FAC
2FEB
2FEC
301C
302C
306B
11500
·
·
·
·
·
·
11563
11564
·
·
·
·
·
·
11627
11628
·
·
·
·
·
·
11691
11692
·
·
·
·
·
·
11755
11756
·
·
·
·
·
·
11819
11820
·
·
·
·
·
·
11883
11884
·
·
·
·
·
·
11947
11948
·
·
·
·
·
·
12011
12012
·
·
·
·
·
·
12075
12076
·
·
·
·
·
·
12139
12140
·
·
·
·
·
·
12203
12204
·
·
·
·
·
·
12267
12268
·
·
·
·
·
·
12331
12332
·
·
·
·
·
·
12395
Attri-
Digits
Struc-
bute
7 R/W C
7 R/W C
ture
Data range
TC/RTD inputs:
0 (0.0) to Input span
(Unit: °C [°F])
Varies with the setting of the decimal
point position selection.
Voltage (V)/current (I) inputs:
0.0 to 1000.0 % of input span
Factory
set value
TC/RTD:
Input span
V/I: 1000.0
TC/RTD:
0 (0.0)
V/I: 0.0
0 (0.0): ON/OFF action
(ON/OFF action for both heat and
cool actions in case of a heat/cool
control type.)
7 R/W C 3600
PID control or heat/cool PID
control:
0 to 3600 seconds or 0.0 to
1999.9 seconds
7 R/W C
Position proportioning control:
1 to 3600 seconds or 0.1 to
1999.9 seconds
Varies with the setting of the
integral/derivative time decimal point
position selection.
7 R/W C 3600
0 to 3600 seconds or
PID control,
Heat/cool PID
control: 0
Position
proportioning
control: 1
0.0 to 1999.9 seconds
7 R/W C
7 R/W C
7 R/W C
7 R/W C 3600
Varies with the setting of the
integral/derivative time decimal point
position selection.
TC/RTD inputs:
1(1.0) to Input span
(Unit: °C [°F])
Varies with the setting of the decimal
point position selection.
Voltage (V)/current (I) inputs:
0.1 to 1000.0 % of input span
0 to 3600 seconds or
TC/RTD:
Input span
V/I: 1000.0
TC/RTD:
1 (0.1)
V/I: 0.1
0.0 to 1999.9 seconds
Varies with the setting of the
7 R/W C
7 R/W C 3600
integral/derivative time decimal point
position selection.
If control is other than heat/cool PID
control, set to RO (Only reading data is
possible).
0 to 3600 seconds or
0.0 to 1999.9 seconds
Varies with the setting of the
7 R/W C
integral/derivative time decimal point
position selection.
If control is other than heat/cool PID
control, set to RO (Only reading data is
possible).
7 R/W C 0.1 to 10.0 % 2.0
1 R/W C 0: Action depending on the valve
action at STOP
1: Control action continued
Continued on the next page.
0
0
0
0
IMR02E04-E1
25
Continued from the previous page.
Iden-
No.
178 Feedback adjustment ♣ FV CH1
179 Control motor time ♣ TN CH1
180 Integrated output
181 Valve action at STOP ♣ VS CH1
182 ST proportional band
183 ST integral time
184 ST derivative time
185 ST start condition
186 Automatic
187 Automatic
188 Automatic
189 EDS transfer time
Name
limiter
♣
adjusting factor
♣
adjusting factor
♣
adjusting factor
♣
♣
temperature rise
group
♣
temperature rise dead
time
♣
temperature rise
gradient data
♣
decimal point position
♣
Chan-
tifier
nel
·
·
·
CH64
·
·
·
CH64
OI CH1
KI CH1
KJ CH1
KK CH1
SU CH1
Y7 CH1
RT CH1
R2 CH1
NS CH1
·
·
·
CH64
·
·
·
CH64
·
·
·
CH64
·
·
·
CH64
·
·
·
CH64
·
·
·
CH64
·
·
·
CH64
·
·
·
CH64
·
·
·
CH64
·
·
·
CH64
Register address
HEX DEC
306C
30AB
30AC
30EB
30EC
312B
312C
316B
316C
31AB
31AC
31EB
31EC
322B
322C
326B
326C
32AB
32AC
32EB
32EC
332B
332C
336B
12396
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
12459
12460
·
·
·
12523
12524
·
·
·
12587
12588
·
·
·
12651
12652
·
·
·
12715
12716
·
·
·
12779
12780
·
·
·
12843
12844
·
·
·
12907
12908
·
·
·
12971
12972
·
·
·
13035
13036
·
·
·
13099
13100
·
·
·
13163
Attri-
bute
Struc-
ture
1: Open-side adjustment start
2: Close-side adjustment start
time
(0.0: OFF)
Becomes invalid when there is feedback
resistance (FBR) input.
Open-side output OFF
1: Close-side output ON,
Open-side output OFF
2: Close-side output OFF,
Open-side output ON
Becomes valid when there is no
feedback resistance (FBR) input or the
feedback resistance (FBR) input is
disconnected.
0: Activate the startup tuning (ST)
1: Activate the startup tuning (ST)
2: Activate the startup tuning (ST)
(0: Automatic temperature rise
function OFF)
0: 1 second setting
(No decimal place)
1: 0.1 seconds setting
(One decimal place)
Digits
1 R/W C 0: Adjustment end
7 R/W C 5 to 1000 seconds 10
7 R/W C 0.0 to 200.0 % of control motor
1 R/W C 0: Close-side output OFF,
7 R/W C 0.01 to 10.00 times 1.00
7 R/W C 0.01 to 10.00 times 1.00
7 R/W C 0.01 to 10.00 times 1.00
1 R/W C
7 R/W C 0 to 16
7 R/W C 0.1 to 1999.9 seconds 10.0
7 R/W C 0.1 to Input span/minutes 1.0
1 R/W C
Data range
function when the power is
turned on; when transferred
from STOP to RUN; or when
the set value (SV) is changed.
function when the power is
turned on; or when transferred
from STOP to RUN.
function when the set value (SV)
is changed.
Continued on the next page.
set value
Factory
150.0
0
0
0
0
26
IMR02E04-E1
Continued from the previous page.
Iden-
No.
190 Output average
191 Responsive action
192 Setting change rate
193 Soak time unit RU CH1
194 Setting limiter (high) SH CH1
195 Setting limiter (low) SL CH1
196 PV transfer function ♣ TS CH1
197
198
199 SV select function KM CH1
Name
processing time for
EDS
♣
trigger point for EDS
♣
limiter unit time
Operation mode
assignment 1
(Logic output
selection function)
Logic output 1 to 4
Operation mode
assignment 2
(Logic output
selection function)
Logic output 5 to 8
Chan-
tifier
nel
NV CH1
NW CH1
HU CH1
EA CH1
EB CH1
·
·
·
CH64
·
·
·
CH64
·
·
·
CH64
·
·
·
CH64
·
·
·
CH64
·
·
·
CH64
·
·
·
CH64
·
·
·
CH64
·
·
·
CH64
·
·
·
CH64
Register address
HEX DEC
336C
33AB
33AC
33EB
33EC
342B
342C
346B
346C
34AB
34AC
34EB
34EC
352B
352C
356B
356C
35AB
35AC
35EB
13164
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
13227
13228
·
·
·
13291
13292
·
·
·
13355
13356
·
·
·
13419
13420
·
·
·
13483
13484
·
·
·
13547
13548
·
·
·
13611
13612
·
·
·
13675
13676
·
·
·
13739
13740
·
·
·
13803
Attri-
bute
Struc-
ture
TC/RTD inputs:
0 (0.0) to Input span
(Unit: °C [°F])
Varies with the setting of the decimal
point position selection.
Voltage (V)/current (I) inputs:
0.0 to Input span (Unit: %)
0: 0:00 to 99:59 (hrs:min)
[0 hours 00 minutes to 99 hours
59 minutes]
1: 0:00 to 199:59 (min:sec)
[0 minutes 00 seconds to 199
minutes 59 seconds]
• Modbus/MECHATROLINK
0: 0 to 5999 minutes
[0 hours 00 minutes to
99 hours 59 minutes]
1: 0 to 11999 seconds
[0 minutes 00 seconds to
199 minutes 59 seconds]
Set the data range of Memory area soak
time monitor and Area soak time.
Input scale high
Setting limiter (high)
1: Used
1: Operation mode
(monitor, control)
2: Operation mode
(monitor, event function, control)
3: Auto/Manual
4: Remote/Local
5: Unused (Don’t set this one)
1: Operation mode
(monitor, control)
2: Operation mode
(monitor, event function, control)
3: Auto/Manual
4: Remote/Local
5: Unused (Don’t set this one)
1: Cascade control function
2: Ratio setting function
3: Cascade control 2 function
Digits
7 R/W C 0.1 to 200.0 seconds 1.0
7 R/W C
7 R/W C 1 to 3600 seconds 60
7 R/W C • RKC communication
7 R/W C Setting limiter (low) to
7 R/W C Input scale low to
1 R/W C 0: Unused
7 R/W C 0: No assignment
7 R/W C 0: No assignment
1 R/W C 0: Remote SV function
Data range
Continued on the next page.
Factory
set value
TC/RTD:
1 (1.0)
V/I: 1.0
1
Input scale
high
Input scale
low
0
0
0
0
IMR02E04-E1
27
Continued from the previous page.
No.
200 Remote SV function
201 Remote SV function
202 Output distribution
203 Output distribution
204 Address of interacting
205 Channel selection of
206 Selection switch of
207 TIO Interval time VG CH1
208 Unused 37BC
Name
master channel
module address
master channel
selection
master channel
module address
master channel
selection
modules
interacting modules
interacting modules
Identifier
MC CH1
MN CH1
DY CH1
DZ CH1
RL CH1
RM CH1
RN CH1
Register address
Chan-
nel
·
·
·
CH64
·
·
·
CH64
·
·
·
CH64
·
·
·
CH64
·
·
·
CH64
·
·
·
CH64
·
·
·
CH64
·
·
·
CH16
HEX DEC
35EC
362B
362C
366B
366C
36AB
36AC
36EB
36EC
372B
372C
376B
376C
37AB
37AC
37BB
386B
13804
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
13867
13868
·
·
·
13931
13932
·
·
·
13995
13996
·
·
·
14059
14060
·
·
·
14123
14124
·
·
·
14187
14188
·
·
·
14251
14252
·
·
·
14267
14268
·
·
·
14443
Attri-
bute
Struc-
ture
−1
(Master channel is selected from itself)
0 to 99
(Master channel is selected from other
modules)
1 to 99
−1
(Master channel is selected from itself)
0 to 99
(Master channel is selected from other
modules)
1 to 99
(Interact with its own module address)
0 to 99
(Interact with the addresses of other
modules)
Becomes valid when the selected
module is “Z-TIO module.”
Least significant digit:
Memory area number
2nd digit: Operation mode
3rd digit: Auto/Manual
4th digit: Remote/Local
5th digit EDS start signal
6th digit Interlock release
Most significant digit:
Suspension of area soak
time
Data 0: No interaction
1: Interact with other
channels
• Modbus/MECHATROLINK
Bit data
b0: Memory area number
b1: Operation mode
b2: Auto/Manual
b3: Remote/Local
b4: EDS start signal
b5: Interlock release
b6: Suspension of area
soak time
b7 to b15: Unused
Data 0: No interaction
1: Interact with other
channels
[Decimal number: 0 to 127]
Digits
7 R/W C
7 R/W C
7 R/W C
7 R/W C
7 R/W C −1
7 R/W C 1 to 99
7 R/W C • RKC communication
7 R/W M 0 to 250 ms 10
Data range
set value
Factory
−1
1
−1
1
−1
1
0
28
IMR02E04-E1
3. Communication Data of Z-DIO Module
For details of Z-DIO module communication data, see SRZ Instruction Manual (IMS01T04-E).
No.
1
2
3 Digital output (DO)
Name
Digital input (DI)
state 1
Digital input (DI)
state 2
state 1
Iden-
tifier
L1 CH1
L6 CH1
Q2 CH1
Register address
Chan-
nel
·
·
·
CH16
·
·
·
CH16
·
·
·
CH16
Attribute
Struc-
ture
15980
·
·
·
15995
15996
·
·
·
16011
Digits
7 RO M • RKC communication
7 RO M • RKC communication
HEX DEC
3E6C
·
·
·
3E7B
7 RO M
3E7C
·
·
·
3E8B
Data range
Least significant digit: DI1
2nd digit: DI2
3rd digit: DI3
4th digit: DI4
5th digit to Most significant digit:
Unused
Data 0: Contact open
1: Contact closed
• Modbus/MECHATROLINK
Bit data
b0: DI1
b1: DI2
b2: DI3
b3: DI4
b4: DI5
b5: DI6
b6: DI7
b7: DI8
b8 to b15: Unused
Data 0: Contact open
1: Contact closed
[Decimal number: 0 to 255]
Least significant digit: DI5
2nd digit: DI6
3rd digit: DI7
4th digit: DI8
5th digit to Most significant digit:
Unused
Data 0: Contact open
1: Contact closed
Least significant digit: DO1
2nd digit: DO2
3rd digit: DO3
4th digit: DO4
5th digit to Most significant digit:
Unused
Data 0: OFF 1: ON
• Modbus/MECHATROLINK
Bit data
b0: DO1
b1: DO2
b2: DO3
b3: DO4
b4: DO5
b5: DO6
b6: DO7
b7: DO8
b8 to b15: Unused
Data 0: OFF 1: ON
[Decimal number: 0 to 255]
Continued on the next page.
Factory
set value
IMR02E04-E1
29
Continued from the previous page.
Iden-
No.
4 Digital output (DO)
5 Unused 3E8C
6 DO manual output 1 Q4 CH1
7 DO manual output 2 Q5 CH1
8 DO output
9 DO output
10 DO output
11 DO proportional cycle
12 DO minimum
Name
state 2
distribution selection
distribution bias
distribution ratio
time
ON/OFF time of
proportioning cycle
Chan-
tifier
nel
Q3 CH1
DO CH1
O8 CH1
O9 CH1
V0 CH1
VJ CH1
·
·
·
CH16
·
·
·
CH16
·
·
·
CH16
·
·
·
CH128
·
·
·
CH128
·
·
·
CH128
·
·
·
CH128
·
·
·
CH128
Register address
HEX DEC
7 RO M Least significant digit: DO5
16012
・
・
・
3FDB
3FDC
・
・
・
3FEB
7 R/W M Least significant digit:
3FEC
·
·
·
406B
406C
·
·
·
40EB
40EC
·
·
·
416B
416C
·
·
·
41EB
41EC
·
·
·
426B
・
・
・
16347
16348
・
・
・
16363
16364
·
·
·
16491
16492
·
·
·
16619
16620
·
·
·
16747
16748
·
·
·
16875
16876
·
·
·
17003
Attribute
Struc-
ture
2nd digit: DO6
3rd digit: DO7
4th digit: DO8
5th digit to Most significant digit:
Unused
Data 0: OFF 1: ON
Least significant digit:
DO1 manual output
2nd digit: DO2 manual output
3rd digit: DO3 manual output
4th digit: DO4 manual output
5th digit to Most significant digit:
Unused
Data 0: OFF 1: ON
• Modbus/MECHATROLINK
Bit data
b0: DO1 manual output
b1: DO2 manual output
b2: DO3 manual output
b3: DO4 manual output
b4: DO5 manual output
b5: DO6 manual output
b6: DO7 manual output
b7: DO8 manual output
b8 to b15: Unused
Data 0: OFF 1: ON
[Decimal number: 0 to 255]
DO5 manual output
2nd digit: DO6 manual output
3rd digit: DO7 manual output
4th digit: DO8 manual output
5th digit to Most significant digit:
Unused
Data 0: OFF 1: ON
1: Distribution output
Digits
7 R/W M • RKC communication
1 R/W C 0: DO output
7 R/W C −100.0 to +100.0 % 0.0
7 R/W C −9.999 to +9.999 1.000
7 R/W C 0.1 to 100.0 seconds
7 R/W C 0 to 1000 ms 0
Data range
Factory
set value
0
0
0
Relay
contact
output: 20.0
Open
collector
output: 2.0
Continued on the next page.
30
IMR02E04-E1
Continued from the previous page.
Iden-
No.
13 Unused 426C
14 DI function
15 Memory area setting
16 DO signal assignment
17 DO signal assignment
18 DO output
19 DO output
20 DO
21 DO output
22 DO output
23 DO manipulated
24 DO output limiter
25 DO output limiter
Name
Set data No. 14 or later are for engineering setting [Writable in the STOP mode]
assignment
signal
module address 1
module address 2
assignment 1
[DO1 to DO4]
assignment 2
[DO5 to DO8]
energized/de-energized
distribution
master channel
module address
distribution
master channel
selection
output value (MV) at
STOP mode
(high)
(low)
Chan-
tifier
nel
H2 CH1
E1 CH1
LQ CH1
LR CH1
LT CH1
LX CH1
NB CH1
DD CH1
DJ CH1
OJ CH1
D3 CH1
D4 CH1
·
·
·
CH16
·
·
·
CH16
·
·
·
CH16
·
·
·
CH16
·
·
·
CH16
·
·
·
CH16
·
·
·
CH128
·
·
·
CH128
·
·
·
CH128
·
·
·
CH128
·
·
·
CH128
·
·
·
CH128
Register address
HEX DEC
17004
・
・
・
433B
433C
·
·
·
434B
434C
·
·
·
435B
435C
·
·
·
436B
436C
·
·
·
437B
437C
·
·
·
438B
438C
·
·
·
439B
439C
·
·
·
441B
441C
·
·
·
449B
449C
·
·
·
451B
451C
·
·
·
459B
459C
·
·
·
461B
461C
·
·
·
469B
・
・
・
17211
17212
·
·
·
17227
17228
·
·
·
17243
17244
·
·
·
17259
17260
·
·
·
17275
17276
·
·
·
17291
17292
·
·
·
17307
17308
·
·
·
17435
17436
·
·
·
17563
17564
·
·
·
17691
17692
·
·
·
17819
17820
·
·
·
17947
17948
·
·
·
18075
Attribute
Struc-
ture
(see P. 33.)
0: Valid
1: Invalid
−1, 0 to 99
When “−1” is selected, all of the signals
of the same type (except temperature
rise completion and DO manual output
value) are OR-operated and produced as
outputs from DO.
−1, 0 to 99
When “−1” is selected, all of the signals
of the same type (except temperature
rise completion and DO manual output
value) are OR-operated and produced as
outputs from DO.
(see P. 34.)
(see P. 34.)
1: De-energized
−1
(Master channel is selected from itself)
0 to 99
(Master channel is selected from other
modules)
Digits
7 R/W M 0 to 29
1 R/W M
7 R/W M
7 R/W M
7 R/W M 0 to 13
7 R/W M 0 to 13
7 R/W C 0: Energized
7 R/W C
7 R/W C 1 to 99 1
7 R/W C −5.0 to +105.0 % −5.0
7 R/W C DO output limiter (low) to 105.0 % 105.0
7 R/W C −5.0 % to DO output limiter (high) −5.0
Data range
Continued on the next page.
Factory
set value
Depends on
model code.
When not
specifying:
Depends on
model code.
When not
specifying:
Depends on
model code.
When not
specifying:
0
1
−1
−1
0
0
0
−1
IMR02E04-E1
31
Continued from the previous page.
No.
26 Z-DIO Interval time VF CH1
27 Unused 46AC
Name
Iden-
tifier
Register address
Chan-
nel
·
·
·
CH16
HEX DEC
469C
46AB
46BB
18076
·
·
·
·
·
·
·
·
·
18091
18092
·
·
·
18107
Attribute
Struc-
ture
Digits
7 R/W M 0 to 250 ms 10
Data range
set value
Factory
32
IMR02E04-E1
Table 1: DI assignment table
Set value DI1 DI2 DI3 DI4 DI5 DI6 DI7 DI8
0 No assignment
1 AUTO/MAN
2 REM/LOC
3 Int erlock r elease ED S start signal 1
4 Soak stop
5 RUN/STOP
6 REM/LOC
7 AUTO/MAN
8 Operation mode
9 RUN/STOP
10 EDS start signal 1
11 REM/LOC
12 RUN/STOP
13 Area set 2 Soak stop
14
15 Soak stop
16 EDS start signal 1
17 REM/LOC
18 Interlock release AUTO/MAN
19 Soak stop
20
21 Soak stop
22 Soak stop
23 AUTO/MAN REM/LOC
24 RUN/STOP
25
26
27 Memory area transfer (1 to 8) 1 Area set
28
29 EDS start signal 1 E DS start signal 2
RUN/STOP: RUN/STOP transfer (Contact closed: RUN)
AUTO/MAN: Auto/Manual transfer (Contact closed: Manual mode)
REM/LOC: Remote/Local transfer (Contact closed: Remote mode)
Interlock release (Interlock release when rising edge is detected)
EDS start signal 1 (EDS start signal ON when rising edge is detected [for disturbance 1])
EDS start signal 2 (EDS start signal ON when rising edge is detected [for disturbance 2])
Soak stop (Contact closed: Soak stop)
1
Memory area transfer
Memory area
transfer (1, 2)
Memory area
transfer (1, 2)
Memory area transfer (1 to 8)
2
Interlock release RUN/STOP 4 AUTO/MAN 4 REM/LOC 4 Operation mode
Area set
1
2
Area set
1
(×:Contact open −: Contact closed)
1
REM/LOC EDS start signal 1
2
Operation mode
Interlock release RUN/STOP 4 AUTO/MAN 4 REM/LOC 4
DI signal will become valid at rising edge after the closed contact is held for 250 ms.
Contact closed
Contact open
Memory area number
3
Soak stop
EDS start signal 1
4
RUN/STOP
EDS start signal 1
EDS start signal 1
3
EDS start signal 1 EDS start signal 2
250 ms or more
(Rising edge)
4
EDS start signal 1
4
Soak stop
4
Soak stop
Soak stop
Operation mode 3
RUN/STOP
RUN/STOP
3
1 2 3 4 5 6 7 8
DI1
DI2
DI3
2
Area set becomes invalid prior to factory shipment.
3
Operation mode transfer
× − × − × − × −
× × − − × × − −
× × × × − − − −
(×:Contact open −: Contact closed)
Operation mode
Unused Monitor Monitor + Event function Control
DI5 (DI7) × − × −
DI6 (DI8) × × − −
4
Actual device states (AUTO/MAN, REM/LOC, RUN/STOP)
DI-switched state Communication-switched state Actual device state
Auto/Manual transfer a
(AUTO/MAN)
Remote → Local
Remote/Local transfer a
(REM/LOC) Remote → Local
STOP → RUN RUN
Manual (Contact closed)
Auto (Contact open)
Remote (Contact closed)
Local (Contact open)
RUN (Contact closed)
RUN/STOP b
a
Device state when AUTO/MAN or REM/LOC assigned to DI is set so that the Z-TIO module and Z-DIO module are linked using the Master-slave mode of
the Z-TIO module.
b
STOP of RUN/STOP switching is given priority regardless of communication or DI switching.
STOP (Contact open) STOP → RUN STOP
Manual → Auto
Auto → Manual
Manual → Auto
Auto → Manual
Local → Remote
Local → Remote
Manual mode
Auto mode
Remote mode
Local mode
RUN → STOP STOP
4
4
4
4
4
4
4
4
4
4
IMR02E04-E1
33
Table 2: DO assignment table
[DO1 to DO4]
Set value DO1 DO2 DO3 DO4
0 No assignment
1
2 Event 1 comprehensive output 1 Event 2 comprehensive output 2 Event 3 comprehensive output 3 Event 4 comprehensive output 4
3 Event 1 (CH1) Event 2 (CH1) Event 3 (CH1) Event 4 (CH1)
4 Event 1 (CH2) Event 2 (CH2) Event 3 (CH2) Event 4 (CH2)
5 Event 1 (CH3) Event 2 (CH3) Event 3 (CH3) Event 4 (CH3)
6 Event 1 (CH4) Event 2 (CH4) Event 3 (CH4) Event 4 (CH4)
7 Event 1 (CH1) Event 1 (CH2) Event 1 (CH3) Event 1 (CH4)
8 Event 2 (CH1) Event 2 (CH2) Event 2 (CH3) Event 2 (CH4)
9 Event 3 (CH1) Event 3 (CH2) Event 3 (CH3) Event 3 (CH4)
10 Event 4 (CH1) Event 4 (CH2) Event 4 (CH3) Event 4 (CH4)
11 HBA (CH1) of Z-TIO module HBA (CH2) of Z-TIO module HBA (CH3) of Z-TIO module HBA (CH4) of Z-TIO module
12 Burnout status (CH1) Burnout status (CH2) Burnout status (CH3) Burnout status (CH4)
13 Temperature rise completion 5 HBA comprehensive output 6 Burnout state comprehensive output 7 DO4 manual output
DO1 manual output DO2 manual output DO3 manual output DO4 manual output
[DO5 to DO8]
Set value DO5 DO6 DO7 DO8
0 No assignment
1
2 Event 1 comprehensive output 1 Event 2 comprehensive output 2 Event 3 comprehensive output 3 Event 4 comprehensive output 4
3 Event 1 (CH1) Event 2 (CH1) Event 3 (CH1) Event 4 (CH1)
4 Event 1 (CH2) Event 2 (CH2) Event 3 (CH2) Event 4 (CH2)
5 Event 1 (CH3) Event 2 (CH3) Event 3 (CH3) Event 4 (CH3)
6 Event 1 (CH4) Event 2 (CH4) Event 3 (CH4) Event 4 (CH4)
7 Event 1 (CH1) Event 1 (CH2) Event 1 (CH3) Event 1 (CH4)
8 Event 2 (CH1) Event 2 (CH2) Event 2 (CH3) Event 2 (CH4)
9 Event 3 (CH1) Event 3 (CH2) Event 3 (CH3) Event 3 (CH4)
10 Event 4 (CH1) Event 4 (CH2) Event 4 (CH3) Event 4 (CH4)
11 HBA (CH1) of Z-TIO module HBA (CH2) of Z-TIO module HBA (CH3) of Z-TIO module HBA (CH4) of Z-TIO module
12 Burnout status (CH1) Burnout status (CH2) Burnout status (CH3) Burnout status (CH4)
13 Temperature rise completion 5 HBA comprehensive output 6 Burnout state comprehensive output 7 DO8 manual output
1
Logical OR of Event 1 (ch1 to ch4)
2
Logical OR of Event 2 (ch1 to ch4)
3
Logical OR of Event 3 (ch1 to ch4)
4
Logical OR of Event 4 (ch1 to ch4)
5
Temperature rise completion status (ON when temperature rise completion occurs for all channels for which event 3 is set to temperature rise
completion.)
6
The following signals are output depending on the setting of the DO signal assignment module address.
DO5 manual output DO6 manual output DO7 manual output DO8 manual output
・Logical OR of HBA (ch1 to ch4) of Z-TIO module
・Logical OR of HBA (ch1 to ch12) of Z-CT module
・Logical OR of HBA (ch1 to ch4) of Z-TIO module and HBA (ch1 to ch12) of Z-CT module
7
Logical OR of burnout state (ch1 to ch4)
34
To output the HBA signal of a Z-CT module from DO, set “13.”
For details of the Z-CT module, see Z-CT Instruction Manual (IMS01T21-E).
IMR02E04-E1
4. Communication Data of Z-CT Module
For details of Z-CT module communication data, see Z-CT Instruction Manual [Detailed version]
(IMS01T21-E).
No. Name
1 Current transformer
(CT) input value
monitor
2 Load factor
conversion
CT monitor
3 Heater break alarm
(HBA) state monitor
4 Heater overcurrent
alarm state monitor
5
Automatic setting
state monitor
6 Unused 49CC
7 Heater break/Heater
overcurrent alarm
automatic setting
selection
8 Automatic setting
transfer
9 Heater break alarm
(HBA) set value
10 Heater break alarm
(HBA) selection
1
This is linked to the solid lighting or blinking state of the automatic setting state indication lamp (SET).
2
Automatic setting is only possible for channels that have been set to other than “0: Automatic setting is disabled” in heater break/heater
overcurrent alarm automatic setting selection.
1
2
Iden-
tifier
M4 CH1
M5 CH1
AF CH1
AG CH1
CJ
BT
BU
A8
BZ
Resister address
Chan-
nel
·
·
·
CH192
·
·
·
CH192
·
·
·
CH192
·
·
·
CH192
CH1
·
·
·
CH16
CH1
·
·
·
CH192
CH1
·
·
·
CH192
CH1
·
·
·
CH192
CH1
·
·
·
CH192
HEX
46BC
·
·
·
477B
477C
·
·
·
483B
483C
·
·
·
48FB
48FC
·
·
·
49BB
49BC
·
·
·
49CB
・
・
・
4FCB
4FCC
·
·
·
508B
508C
·
·
·
514B
514C
·
·
·
520B
520C
·
·
·
52CB
DEC
18108
·
·
·
18299
18300
·
·
·
18491
18492
·
·
·
18683
18684
·
·
·
18875
18876
·
·
·
18891
18892
・
・
・
20427
20428
·
·
·
20619
20620
·
·
·
20811
20812
·
·
·
21003
21004
·
·
·
21195
Attri-
bute
Struc-
ture
CTL-6-P-N: 0.0 to 30.0 A
CTL-12-S56-10L-N: 0.0 to 100.0 A
0: Normal
1: Break
2: Melting
1: Heater overcurrent
0: Normal state
1: Automatic setting execution
2: Automatic setting failure
1: Automatic setting for heater
2: Automatic setting for heater
3: Automatic setting for heater
1: Automatic setting execution
Digits
7 RO C CTL-6-P-Z: 0.0 to 10.0 A
7 RO C 0.0 to 100.0 A
1 RO C
1 RO C 0: Normal
1 RO M
1 R/W C 0: Automatic setting is disabled.
1 R/W C 0: Normal state
normally, this reverts to
“0: Normal state.”
2: Automatic setting failure (RO)
1 R/W C 0.0 to 100.0 A
0.0: Heater break alarm function
1 R/W C 0: Heater break alarm (HBA)
unused
1: Heater break alarm (HBA)
2: Heater break alarm (HBA)
(With alarm interlock function)
Data range
(Alarm set value cannot be
automatically set by the push
button and communication.)
break alarm is enabled.
overcurrent alarm set value is
enabled.
break alarm (HBA) and heater
overcurrent alarm set values are
enabled.
When automatic setting ends
(HBA) OFF
(HBA function OFF: The
current transformer (CT) input
value monitoring is available.)
Continued on the next page.
Factory
set value
1
0
0.0
1
IMR02E04-E1
35
Continued from the previous page.
No. Name
11 Heater overcurrent
Iden-
tifier
A6 CH1
alarm set value
12 Heater overcurrent
BO CH1
alarm selection
13 Heater break alarm
CX CH1
(HBA) interlock
release
14 Heater overcurrent
CY CH1
alarm interlock
release
15 Unused 55CC
16 Set lock LK CH1
17 CT type 1 BV CH1
18 CT ratio 3
XT CH1
(CT number of winds)
19 Number of heater
DI CH1
break alarm (HBA)
delay times
20 Automatic setting
BW CH1
factor for heater break
alarm (HBA)
21 Automatic setting
B9 CH1
factor for heater
overcurrent alarm
22 Determination current
BP CH1
value for automatic
setting
23 Automatic setting
BQ CH1
time
24 Module address
BX CH1
assignments for CT
input
1
When using a non-specified CT, set to “1: CTL-12-S56-10L-N (0.0 to 100.0 A).”
2
When the set lock (Identifier:LK, Resister address: 5E0CH to 5E1BH) is set to “0: Unlock,” writing data is possible.
3
When using a non-specified CT, set the number of winds of the CT.
Resister address
Chan-
nel
·
·
·
CH192
·
·
·
CH192
·
·
·
CH192
·
·
·
CH192
·
·
·
CH16
·
·
·
CH192
·
·
·
CH192
·
·
·
CH192
·
·
·
CH192
·
·
·
CH192
·
·
·
CH192
·
·
·
CH192
·
·
·
CH192
HEX
52CC
·
·
·
538B
538C
·
·
·
544B
544C
·
·
·
550B
550C
·
·
·
55CB
·
·
·
5E0B
5E0C
·
·
·
5E1B
5E1C
·
·
·
5EDB
5EDC
·
·
·
5F9B
5F9C
·
·
·
605B
605C
·
·
·
611B
611C
·
·
·
61DB
61DC
·
·
·
629B
629C
·
·
·
635B
635C
·
·
·
641B
DEC
21196
·
·
·
21387
21388
·
·
·
21579
21580
·
·
·
21771
21772
·
·
·
21963
21964
·
·
·
24075
24076
·
·
·
24091
24092
·
·
·
24283
24284
·
·
·
24475
24476
·
·
·
24667
24668
·
·
·
24859
24860
·
·
·
25051
25052
·
·
·
25243
25244
·
·
·
25435
25436
·
·
·
25627
Attri-
Digits
bute
Struc-
ture
Data range
7 R/W C 0.0 to 105.0 A
0.0: Heater overcurrent alarm
function OFF
1 R/W C 0: Heater overcurrent alarm
unused
1: Heater overcurrent alarm
2: Heater overcurrent alarm
(With alarm interlock function)
1 R/W C 0: Normal state
1: Interlock release execution
After the interlock is released,
this automatically returns to “0.”
1 R/W C 0: Normal state
1: Interlock release execution
After the interlock is released,
this automatically returns to “0.”
1 R/W M 0: Unlock
1: Lock
2
1 R/W
C 0: CTL-6-P-N (0.0 to 30.0 A)
1: CTL-12-S56-10L-N
(0.0 to 100.0 A)
2: CTL-6-P-Z (0.0 to 10.0 A)
2
7 R/W
7 R/W
7 R/W
7 R/W
7 R/W
7 R/W
7 R/W
C 0 to 9999
2
C 0 to 255 times 5
2
C 1 to 100 % 75
2
C 100 to 1000 % 200
2
C 0.0 to 100.0 A 1.0
2
C
10 to 250 seconds
2
C
0 to 99
Factory
set value
0.0
1
0
0
0
Depends on
model code.
When not
specifying:
0
CTL-6-P-N,
CTL-6-P-Z:
800
CTL-12-
S56-10L-N:
1000
60
0
Continued on the next page.
36
IMR02E04-E1
Continued from the previous page.
No. Name
25 Module channel
assignments for CT
input
26 Load factor
conversion method
27 CT Interval time VH CH1
28 Unused 65AC
1
For monitoring using “0: Mean conversion” or “1: Root mean squared value conversion,” the following settings are required:
• Module address assignments for CT input must be set.
• Module channel assignments for CT input must be set.
• The heater break alarm (HBA) value must be set to other than “0.0.”
2
When the set lock (Identifier:LK, Resister address: 5E0CH to 5E1BH) is set to “0: Unlock,” writing data is possible.
Iden-
tifier
1
BY CH1
IC CH1
Resister address
Chan-
nel
·
·
·
CH192
·
·
·
CH192
·
·
·
CH16
HEX
641C
·
·
·
64DB
64DC
·
·
·
659B
659C
·
·
·
65AB
·
·
·
666B
DEC
25628
·
·
·
25819
25820
·
·
·
26011
26012
·
·
·
26027
26028
·
·
·
26219
Attri-
bute
Struc-
ture
2
C 1 to 99 1
2
C 0: Mean conversion
1: Root mean squared value
conversion
2
M 0 to 250 ms 10
Digits
7 R/W
1 R/W
7 R/W
Data range
Factory
set value
0
IMR02E04-E1
37
5. Memory Area Data Address (Z-TIO Module)
The register addresses, 386CH to 3DABH are used for checking and changing each set value belonging to
the memory area.
No.
1 Setting memory area
number
2 Event 1 set value (EV1) CH1
3 Event 2 set value (EV2) CH1
4 Event 3 set value (EV3) CH1
5 Event 4 set value (EV4) CH1
6 Control loop break alarm
(LBA) time
7 LBA deadband CH1
8 Set value (SV) CH1
9 Proportional band
[heat-side]
10 Integral time [heat-side] CH1
11 Derivative time
[heat-side]
12 Control response
parameter
Name
Chan-
nel
CH1
·
·
·
CH64
·
·
·
CH64
·
·
·
CH64
·
·
·
CH64
·
·
·
CH64
CH1
·
·
·
CH64
·
·
·
CH64
·
·
·
CH64
CH1
·
·
·
CH64
·
·
·
CH64
CH1
·
·
·
CH64
CH1
·
·
·
CH64
Register address
HEX DEC
386C
38AB
38AC
38EB
38EC
392B
392C
396B
396C
39AB
39AC
39EB
39EC
3A2B
3A2C
3A6B
3A6C
3AAB
3AAC
3AEB
3AEC
3B2B
3B2C
3B6B
14444
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
·
14507
14508
·
·
·
14571
14572
·
·
·
14635
14636
·
·
·
14699
14700
·
·
·
14763
14764
·
·
·
14827
14828
·
·
·
14791
14892
·
·
·
14955
14956
·
·
·
15019
15020
·
·
·
15083
15084
·
·
·
15147
15148
·
·
·
15211
Attri-
Struc-
bute
ture
R/W C 1 to 8 1
R/W C 50
R/W C 50
R/W C 50
R/W C
R/W C 0 to 7200 seconds
R/W C 0 (0.0) to Input span
R/W C Setting limiter (low) to Setting limiter (high)
R/W C TC/RTD inputs:
R/W C PID control or heat/cool PID control:
R/W C 0 to 3600 seconds or 0.0 to 1999.9 seconds
R/W C 0: Slow
Deviation action,
Deviation action between channels,
Temperatue 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 %
(0: Unused)
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
(ON/OFF action for both heat and cool actions
in case of a heat/cool control type.)
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
(0, 0.0: PI action)
1: Medium
2: Fast
When the P or PD action is selected, this setting
becomes invalid.
Data range
Continued on the next page.
Factory
set value
50
480
0 (0.0)
TC/RTD: 0
V/I: 0.0
TC/RTD:
30 (30.0)
V/I: 30.0
240
60
PID control,
Position
proportioning
control: 0
Heat/cool
PID control: 2
38
IMR02E04-E1
Continued from the previous page.
No.
13 Proportional band
[cool-side]
14 Integral time [cool-side] CH1
15 Derivative time
[cool-side]
16 Overlap/Deadband CH1
17 Manual reset
18 Setting change rate limiter
(up)
19 Setting change rate limiter
(down)
20 Area soak time CH1
21 Link area number CH1
22 Unused 3DAC
Name
Chan-
nel
CH1
·
·
·
CH64
·
·
·
CH64
CH1
·
·
·
CH64
·
·
·
CH64
CH1
·
·
·
CH64
CH1
·
·
·
CH64
CH1
·
·
·
CH64
·
·
·
CH64
·
·
·
CH64
Register address
HEX DEC
3B6C
3BAB
3BAC
3BEB
3BEC
3C2B
3C2C
3C6B
3C6C
3CAB
3CAC
3CEB
3CEC
3D2B
3D2C
3D6B
3D6C
3DAB
3E6B
15212
·
·
·
15275
15276
·
·
·
15339
15340
·
·
·
15403
15404
·
·
·
15467
15468
·
·
·
15531
15532
·
·
·
15595
15596
·
·
·
15659
15660
·
·
·
15723
15724
·
·
·
15787
15788
·
·
·
15979
Attri-
Struc-
bute
ture
R/W C TC/RTD inputs:
·
·
·
R/W C
·
·
·
R/W C
·
·
·
R/W C TC/RTD inputs:
·
·
·
R/W C −100.0 to +100.0 %
·
·
·
R/W C 0 (0.0) to Input span/unit time *
·
·
·
R/W C
·
·
·
R/W C 0 minutes 00 seconds to 199 minutes 59 seconds:
·
·
·
R/W C 0 to 8
·
·
·
·
·
·
1 to Input span or 0.1 to Input span
(Unit: °C [°F])
Voltage (V)/current (I) inputs:
0.1 to 1000.0 % of input span
0 to 3600 seconds or 0.0 to 1999.9 seconds
(0, 0.0: PD action)
0 to 3600 seconds or 0.0 to 1999.9 seconds
(0, 0.0: PI action)
−Input span to +Input span (Unit:°C [°F])
Voltage (V)/current (I) inputs:
−100.0 to +100.0 % of input span
0 (0.0): Unused
* Unit time: 60 seconds (factory set value)
0 to 11999 seconds
0 hours 00 minutes to 99 hours 59 minutes:
0 to 5999 minutes
(0: No link)
Data range
Factory
set value
TC/RTD:
30 (30.0)
V/I: 30.0
240
60
0
0.0
0 (0.0)
0 (0.0)
0
0
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6. How to Use Memory Area Data
Memory area function can store up to 8 individual sets of SVs and parameters. One of the areas is used for
control, and the currently selected area is “Control area.”
Memory area data can be used to check and change settings that belong to memory areas other than the
control area. Reading and writing of memory area data is performed by channel.
Read and write of memory area data
If any memory area number to perform data read and write is specified by the setting memory area number
(386CH to 38ABH), data corresponding to the specified memory area number is called up to the register
addresses from 38ACH to 3DABH. By using these register addresses from 38ACH to 3DABH, it becomes
possible to read and write data in any memory area.
Register address
CH1 CH2
Setting memory area number 386CH 386DH
Event 1 set value (EV1) 38ACH 38ADH
Event 2 set value (EV2) 38ECH 38EDH
Event 3 set value (EV3) 392CH 392DH
Event 4 set value (EV4) 396CH 396DH
Control loop break alarm (LBA) time 39ACH 39ADH
LBA deadband 39ECH 39EDH
Set value (SV) 3A2CH 3A2DH
Proportional band [heat-side] 3A6CH 3A6DH
Integral time [heat-side] 3AACH 3AADH
Derivative time [heat-side] 3AECH 3AEDH
Control response parameter 3B2CH 3B2DH
Proportional band [cool-side] 3B6CH 3B6DH
Integral time [cool-side] 3BACH 3BADH
Derivative time [cool-side] 3BECH 3BEDH
Overlap/Deadband 3C2CH 3C2DH
Manual reset 3C6CH 3C6DH
Setting change rate limiter (up) 3CACH 3CADH
Setting change rate limiter (down) 3CECH 3CEDH
Area soak time 3D2CH 3D2DH
Link area number 3D6CH 3D6DH
For the Memory area data list, see 5. Memory area data address (P. 38).
Memory area 8
Memory area 2
Memory area 1
memory area numbe
which data is read/written
is written to the registe
address, 386CH (for CH1).
CH1
CH64
38ABH Register address to specify memory area
38EBH
392BH
396BH
39ABH
39EBH
3A2BH
3A6BH
3AABH
3AEBH
3B2BH Register address of memory area data
3B6BH
3BABH
3BEBH
3C2BH
3C6BH
3CABH
3CEBH
3D2BH
3D6BH
3DABH
Data corresponding to a specified memory
area number is called up to the CH1 register
addresses.
Event 1 set value (EV1) (38ACH)
Event 2 set value (EV2) (38ECH)
Event 3 set value (EV3) (392CH)
Event 4 set value (EV4) (396CH)
Control loop break alarm (LBA) time (39ACH)
LBA deadband (39ECH)
Set value (SV) (3A2CH)
Proportional band [heat-side] (3A6CH)
Integral time [heat-side] (3AACH)
Derivative time [heat-side] (3AECH)
Control response parameter (3B2CH)
Proportional band [cool-side] (3B6CH)
Integral time [cool-side] (3BACH)
Derivative time [cool-side] (3BECH)
Overlap/Deadband (3C2CH)
Manual reset (3C6CH)
Setting change rate limiter (up) (3CACH)
Setting change rate limiter (down) (3CECH)
Area soak time (3D2CH)
Link area number (3D6CH)
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[Example 1] When data on the Event 1 set value in Memory area 2 of CH1 is read
1. The memory area number, “2” is written to the CH1 setting memory area number (386CH).
Data in Memory area 2 is called up to the CH1 register addresses.
CH1 register addresses
Setting memory area number 386CH 2 Memory area number “2”
Event 1 set value (EV1) 38ACH 50
Event 2 set value (EV2) 38ECH
Event 3 set value (EV3) 392CH
Event 4 set value (EV4) 396CH
Control loop break alarm (LBA) time 39ACH
LBA deadband 39ECH
Set value (SV) 3A2CH
Proportional band [heat-side] 3A6CH
Integral time [heat-side] 3AACH
Derivative time [heat-side] 3AECH The data of memory area 2 is loaded into these register addresses.
Control response parameter 3B2CH
Proportional band [cool-side] 3B6CH
Integral time [cool-side] 3BACH
Derivative time [cool-side] 3BECH
Overlap/Deadband 3C2CH
Manual reset 3C6CH
Setting change rate limiter (up) 3CACH
Setting change rate limiter (down) 3CECH
Area soak time 3D2CH
Link area number 3D6CH
2. Data “50” on Event 1 set value (38ACH) is read.
[Example 2] When the set value (SV) in Memory area 3 of CH1 is changed to 200
1. The memory area number, “3” is written to the CH1 setting memory area number (386CH).
Data in Memory area 3 is called up to the CH1 register addresses.
CH1 register addresses
Setting memory area number 386CH 3 Memory area number “3”
Event 1 set value (EV1) 38ACH
Event 2 set value (EV2) 38ECH
Event 3 set value (EV3) 392CH
Event 4 set value (EV4) 396CH
Control loop break alarm (LBA) time 39ACH
LBA deadband 39ECH
Set value (SV) 3A2CH 150
Proportional band [heat-side] 3A6CH
Integral time [heat-side] 3AACH
Derivative time [heat-side] 3AECH The data of memory area 3 is loaded into these register addresses.
Control response parameter 3B2CH
Proportional band [cool-side] 3B6CH
Integral time [cool-side] 3BACH
Derivative time [cool-side] 3BECH
Overlap/Deadband 3C2CH
Manual reset 3C6CH
Setting change rate limiter (up) 3CACH
Setting change rate limiter (down) 3CECH
Area soak time 3D2CH
Link area number 3D6CH
2. “200” is written to the set value (SV) (3A2CH).
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Control area transfer
Any memory area used for control is specified by the memory area transfer (08DCH to 091BH). The area
(095CH to 0E5BH) now used for control is called “Control area.”
Register address
CH1 CH2
Memory area transfer 08DCH 08DDH
Event 1 set value (EV1) 095CH 095DH
Event 2 set value (EV2) 099CH 099DH
Event 3 set value (EV3) 09DCH 09DDH
Event 4 set value (EV4) 0A1CH 0A1DH
Control loop break alarm (LBA) time 0A5CH 0A5DH
LBA deadband 0A9CH 0A9DH
Set value (SV) 0ADCH 0ADDH
Proportional band [heat-side] 0B1CH 0B1DH
Integral time [heat-side] 0B5CH 0B5DH
Derivative time [heat-side] 0B9CH 0B9DH
Control response parameter 0BDCH 0BDDH
Proportional band [cool-side] 0C1CH 0C1DH
Integral time [cool-side] 0C5CH 0C5DH
Derivative time [cool-side] 0C9CH 0C9DH
Overlap/Deadband 0CDCH 0CDDH
Manual reset 0D1CH 0D1DH
Setting change rate limiter (up) 0D5CH 0D5DH
Setting change rate limiter (down) 0D9CH 0D9DH
Area soak time 0DDCH 0DDDH
Link area number 0E1CH 0E1CH
The memory area number (control area) can be changed at either RUN or STOP.
Memory area 8
Memory area 2
Memory area 1
CH1
ny memory area number used fo
control is written to the registe
address, 08DCH (for CH1).
CH64
091BH Register address to specify control area
099BH
09DBH
0A1BH
0A5BH
049BH
0ADBH
0B1BH
0B5BH
0B9BH
0BDBH Register address of memory area data
0C1BH
0C5BH
0C9BH
0CDBH
0CDCH
0D5BH
0D9BH
0DDBH
0E1BH
0E5BH
Data corresponding to a specified memory
area number is called up to the CH1 register
addresses.
-Control area-
Event 1 set value (EV1) (095CH)
Event 2 set value (EV2) (099CH)
Event 3 set value (EV3) (09DCH)
Event 4 set value (EV4) (0A1CH)
Control loop break alarm (LBA) time (0A5CH)
LBA deadband (0A9CH)
Set value (SV) (0ADCH)
Proportional band [heat-side] (0B1CH)
Integral time [heat-side] (0B5CH)
Derivative time [heat-side] (0B9CH)
Control response parameter (0BDCH)
Proportional band [cool-side] (0C1CH)
Integral time [cool-side] (0C5CH)
Derivative time [cool-side] (0C9CH)
Overlap/Deadband (0CDCH)
Manual reset (0D1CH)
Setting change rate limiter (up) (0D5CH)
Setting change rate limiter (down) (0D9CH)
Area soak time (0DDCH)
Link area number (0E1CH)
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IMR02E04-E1
[Example] When performing control by calling up data in Memory area 3 of CH1
1. The memory area number, “3” is written to the memory area transfer (08DCH).
Data in Memory area 3 is called up to the CH1 register addresses.
CH1 register addresses
Memory area transfer 08DCH 3 Memory area number, “3”
Event 1 set value (EV1) 095CH
Event 2 set value (EV2) 099CH
Event 3 set value (EV3) 09DCH
Event 4 set value (EV4) 0A1CH
Control loop break alarm (LBA) time 0A5CH
LBA deadband 0A9CH
Set value (SV) 0ADCH
Proportional band [heat-side] 0B1CH
Integral time [heat-side] 0B5CH
Derivative time [heat-side] 0B9CH The data of memory area 3 is loaded into these register addresses.
Control response parameter 0BDCH
Proportional band [cool-side] 0C1CH
Integral time [cool-side] 0C5CH
Derivative time [cool-side] 0C9CH
Overlap/Deadband 0CDCH
Manual reset 0D1CH
Setting change rate limiter (up) 0D5CH
Setting change rate limiter (down) 0D9CH
Area soak time 0DDCH
Link area number 0E1CH
2. Control of CH1 is performed by using data in the register addresses.
If the memory area transfer (08DCH to 091BH) and the setting memory area number (386CH to
38ABH) are set to the same memory area number, the respective data can be synchronized.
• Values in the control areas (095CH to 0E5BH) and the setting memory area number
(38ACH to 3DABH) are set to the same memory area number, the respective data can be
synchronized.
• If data in the control area is changed, data in the memory area is also changed.
• If data in the memory area is changed, data in the control area is also changed.
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ll Rights Reserved, Copyright 2007, RKC INSTRUMENT INC.
HEADQUARTERS: 16-6, KUGAHARA 5-CHOME, OHTA-KU TOKYO 146-8515 JAPAN
RKC INSTRUMENT INC.
®
IMR02E04-E1 NOV. 2007
PHONE: 03-3751-9799 (+81 3 3751 9799) E-mail: info@rkcinst.co.jp
FAX: 03-3751-8585 (+81 3 3751 8585)
The first edition: NOV. 2007 [IMQ00]
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