RKC Z-COM Instruction Manual

A

Module Type Controller SRZ

Communication
Extension Module

ll Rights Reserved, Copyright  2006, RKC INSTRUMENT INC.

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 explains the communication settings using DIP
switches and the communication data when performing host communication while joining the Z-COM
module to the Z-TIO, Z-DIO and Z-CT modules. For the installation, the detail handling procedures and
various function settings, please read if necessary the following separate manuals.

• Z-COM Installation Manual (IMS01T05-E): Enclosed with Z-COM

• Z-COM Host Communication Quick Instruction Manual (IMS01T09-E): Enclosed with Z-COM

• Z-COM PLC Communication Quick Instruction Manual (IMS01T14-E): Enclosed with Z-COM

• Z-COM PLC Communication Data Listl (IMS01T15-E): Enclosed with Z-COM

• Z-COM Instruction Manual (IMS01T22-E): Separate *

• Z-COM Host Communication Instruction Manual (IMS01T23-E): Separate *

• Z-TIO INSTRUCTION MANUAL (IMS01T01-E): Enclosed with Z-TIO

• Z-TIO Host Communication Quick Instruction Manual (IMS01T02-E): Enclosed with Z-TIO

• SRZ Instruction Manual (IMS01T04-E): Separate *

• Z-DIO INSTRUCTION MANUAL (IMS01T03-E): Enclosed with Z-DIO

• Z-CT INSTRUCTION MANUAL (IMS01T16-E): Enclosed with Z-CT

• Z-CT Instruction Manual [Detailed version] (IMS01T21-E) Separate *

* Download or sold separately

The above manuals can be downloaded from our website:

URL: http://www.rkcinst.com/english/manual_load.htm

Z-COM

Host Communication
Quick Instruction
Manual

IMS01T09-E4

 Host communication data of Z-COM module

Name

Model code ♦

(Z-COM module)

Model code ♦

(Functional module *)

ROM version ♦

(Z-COM module)

ROM version ♦

(Functional module *)

Integrated operating
time monitor ♦

(Z-COM module)

Integrated operating
time monitor ♦

(Functional module *)

Error code 

(Z-COM module)

Error code ♦

(Functional module) *

1. COMMUNICATION SETTING OF Z-COM MODULE

Use the DIP switch on the right side of Z-COM module to select communication speed, data bit configuration
and protocol.

The data change become valid the power of the Z-COM module is turned on again or when
control is switched from STOP to RUN.

 Contents of the DIP switch

• Communication 1 (COM. PORT1 and COM. PORT2) setting

Use switches No. 1, No. 2, and No. 3 to set the communication speed, communication protocol and data bit
configuration for Communication 1.

1 2 Communication speed

OFF OFF 4800 bps

ON OFF 9600 bps

OFF ON 19200 bps (Factory set value)

ON ON 38400 bps

3 Communication protocol and Data bit configuration

OFF

ON

* Factory set values when the communication protocol is not specified at the order.

• Communication 2 (COM. PORT3 and COM. PORT4) setting

Use switches No. 4, No. 5, No. 6, and No. 7 to set the communication speed, communication protocol and
data bit configuration for Communication 2.

4 Communication speed

OFF 9600 bps

ON 19200 bps (Factory set value)

5 6 7 Communication protocol and Data bit configuration

OFF OFF OFF

ON OFF OFF

* Factory set values when the communication protocol is not specified at the order.

• DIP switch setting validity/invalidity

Set switch No.8 to “ON” when performing communication by the communication settings set via host
communication or loader communication. When set to “ON,” the DIP switch settings are disabled.

8 DIP switch setting validity/invalidity

OFF Valid (Factory set value)

ON

2. HOST COMMUNICATION DATA MAP

 Symbols used in MAP

Attribute

RO: Read only data (Host computer ← SRZ)
R/W: Read and Write data (Host computer ↔ SRZ)

Symbols

: Data for each SRZ unit ♠: Data for each channel
♦: Data for each module : Parameters which can be used in multi-memory area function
♣: Parameters only used for heat/cool control or position proportioning control, therefore data for

CH2 and CH4 of Z-TIO module are unused.
[Read is possible (0), but the result of Write is disregarded.]

On a Z-TIO module (2-channel type), the communication data of CH3 and CH4 becomes invalid.

Data range and Number of data in the table:
[ ]: Number of data (This is the maximum number per communication data that can be handled by

Z-COM module
mainframe

Right side view

Host communication (RKC communication) (Factory set value *)
Data 8-bit, without parity, Stop 1-bit

Host communication (Modbus)
Data 8-bit, without parity, Stop 1-bit

Host communication (RKC communication)
Data 8-bit, without parity, Stop 1-bit (Factory set value *)
Host communication (Modbus)

Data 8-bit, without parity, Stop 1-bit

Invalid
(According to the settings in Host communication or Loader communication)

DIP switch

1234567

8

ON OFF

NO

one SRZ unit.)

Backup memory
state monitor ♦

(Z-COM module)

Backup memory
state monitor ♦

(Functional module *)

System
communication
state


SRZ normal
communication
flag


PLC
communication
error code


Unit recognition
flag


Unused 

Monitor for the number
of connected modules


RUN/STOP

transfer


RUN/STOP
transfer ♦

Control
RUN/STOP
holding setting ♦

The following items are enabled when the power is turned on again or when control is changed from STOP to RUN.

Communication 1
protocol 

Communication 1
communication
speed 

Communication 1
data bit
configuration 
Communication 1
interval time 

* Functional module: Z-TIO-A/B module, Z-DIO module or Z-CT module

Modbus

RKC

register address

Iden­tifier

HEX DEC

ID   32 RO Mode l code (character)

IE   32 RO Model code (character)

Digits

Attri­bute

Data range and
Number of data

VR   8 RO ROM version 

VQ   8 RO ROM version

UT   7 RO 0 to 19999 hours 

UV   7 RO 0 to 19999 hours

ER 0000 0 7 RO 

EZ

0001

1

･

･

･

･

･

･

0064

100

EM

0065 101

CZ

0066

102

･

･

･

･

･

･

00C9

201

QM

00CA 202

QL

00CB 203

ES

00CC 204

QN

00CD 205

00CE

206

･

･

･

･

･

･

0131

QK

SR

SW

X1

305

0132 306

0133 307

0134

308

･

･

･

･

･

･

0197

407

0198

408

･

･

･

･

･

･

01FB

507

VK 80 00 32768 1 R/W 0: RKC communication

VL 8001 32769 1 R/W 0: 4800 bps 2: 19200 bps

VM 8002 32770 7 R/W 0 to 5

• RKC communication
1: SRAM error

2: Data back-up error 1
4: A/D conversion error
32: Logic output data error
64: Stack overflow

• Modbus
b0: SRAM error

b1: Data back-up error 1

7 RO

b2: A/D conversion error
b3, b4: Unused
b5: Logic output data error
b6: Stack overflow
b7 to b15: Unused

1

The error code of the Z-CT module

is these three types.

2

Only the Z-COM module

Data 0: OFF 1: ON
[Decimal number: 0 to 127]

For the identifier ER, the error
condition is shown by the OR of
each module. When multiple errors
occur, the error No. is the sum value.

0: The content of the backup

1 RO 

1: The content of the backup

1 RO

1 RO Bit data

1 RO 0/1 transfer

7 RO

7 RO Bit data

   

7 RO 0 to 31

1 R/W 0: STOP (Control stop)

1 R/W 0: STOP (Control stop)

1 R/W 0: Not holding ( STOP start)

b0: Data collection condition
b1 to b15: Unused

Data

0: Before data collection is

1: Data collection is completed

[Decimal number: 0, 1] [1]

(For communication checking)
“0” and “1” are repeated for each

communication period. [1]
Bit data

b0: PLC register read/ write error
b1: Slave communicat ion timeout
b2: Unused
b3: Internal communication err or
b4: Master communication

b5 to b15: Unused

Data 0: OFF 1: ON
[Decimal number: 0 to 31] [1]

b0: SRZ unit 1
b1: SRZ unit 2
b2: SRZ unit 3
b3: SRZ unit 4

b4 to b15: Unused
Data 0: No unit exists
1: Unit exists
[Decimal number: 0 to 15] [ 1]

[1]

1: RUN (Control start)

1: RUN (Control start)

1: Holding (RUN/STOP hold)

2

1

error

1

error

[Z-TIO, Z-DIO and Z-CT: 100]

memory does not coincide with
that of the RAM.

memory coincides with that of the
RAM.

[Z-TIO, Z-DIO and Z-CT: 100]

completed

timeout

[1]

1: Modbus [1]

1: 9600 bps 3: 38400 bps

See Table 1 Data bit configuration.

VN 8003 32 771 7 R/W 0 to 250 ms

/Adjustment data

1

2

2

/Adjustment data

1

2

[Z-COM: 1]

[Z-COM: 1]

[100]

[100]

[100]

[100]

[100]

Factory set

[1]

[1]

[1]

value























0

0

1

0

2

0

10

Name

Communication 2
protocol 

Communication 2
communication
speed 

Communication 2
data bit
configuration 

Communication 2
interval time 

Station number  QV 8008 32776 7 R/W 0 to 31

PC number
(CPU No.) 
Register type


Register start
number 
(High-order 4-bit)

Register start
number 
(Low-order 16-bit)

System data
address bias 

COM module link
recognition time

PLC scanning time  VT 80 0F 32783 7 R/W 0 to 3000 ms

PLC
communication
start time 
Method for setting
the number of
connected modules


Slave mapping
method


Number of
connected

2

modules
(Z-TIO module) 
Number of
connected

2

modules
(Z-DIO module) 
Number of
connected

2

modules
(Z-CT module) 
Unused  8016

Number of valid
groups 

Control
RUN/STOP
holding setting 

1

After automatic setting of the number of connected function m odules, the value automatically reverts to 0.

2

When 1 or 2 is set for the communication identifier RY (met hod of setting the number of connected modules), the
maximum number of connected modules is set automatically. When 0 is set, the maximum number of connected
modules is set manually.

Maximum number of connected modules: Maximum address of function modules (address setting switch set
value + 1)

Z-COM uses this set value to calculate the number of channels of communication data (RKC communication only).

Modbus

RKC

register address

Iden­tifier

HEX DEC

VP 8004 32772 1 R/W

VU 8005 32 773 1 R/W 0: 4800 bps 2: 19200 bps

VW 8006 32774 7 R/W 0 to 11

Digits

Attri­bute

Data range and
Number of data

0: RKC communication
1: Modbus
2: MITSUBISHI MELSEC series

special protocol An A/AnUCPU
common command (QR/QW)

3: OMRON SYSMAC serie s

special protocol

4: MITSUBISHI MELSEC series

special protocol ACPU com mon
comman d (WR/WW) [1]

1: 9600 bps 3: 38400 bps

See Table 1 Data bit

configuration.

VX 80 07 32775 7 R/W 0 to 250 ms

QW 8009 32777 7 R/W 0 to 255

QZ 800A 32778 7 R/W

QS 800B 32 779 7 R/W 0 to 15: Q nA compatible,

QX 800C 32780 7 R/W

MITSUBISHI MELSEC series
0: D register
1: R register
2: W register
3: ZR register
4 to 29: U nused

OMRON SYSMAC series
0: DM register
(Data memory)
1 to 9: Unused
10 to 22: EM register
(Extended data memory)
[Specify the bank No.]
[Specify the bank No.+10]
23 to 28: Unused
29: EM register
(Extended data memory)
[Specify the current bank]

3C frame

0 to 9999:

A compatible, 1C frame, ACPU
common command (WR/WW),
OMRON SYSMAC series

0 to 65535:

A compatible 1C frame,
AnA/AnUCPU common command
(QR/QW), QnA compatible
3C frame

QQ 800D 32781 7 R/W 0 to 65535

QT 800E 32782 7 R/W 0 to 255 seconds

R5 8010 32784 7 R/W 1 to 255 sec onds

RY 8011 32785 7 R/W

RK 8012 32 786 7 R/W 0: Bias from the address setting

QY 8013 32787 7 R/W 0 to 16

QU 8014 32788 7 R/W 0 to 16

QO 8015 32789 7 R/W 0 to 16

32790

･

･

･

･

･

･

8019

QA 801A 32 794 7 RO 0 to 128

32793

X2 802B 32795 1

0: No action.
1: Automatically set the maximum

number of connected function
modules only when power is
turned on.

2: Execute autom atic setting of the

maximum number of connected
function modules.

switch
[Register address + (Remainder
of set value of address setting
switch/4) × System data address
bias]

1: Bias disabled [1]

Maximum number of Z-TIO modules
connected to Z-COM. [1]

Maximum number of Z-DIO modules
connected to Z-COM. [1]

Maximum number of Z-CT modules
connected to Z-COM. [1]

1

[1]

   

0: Not holding (STOP start)
1: Holding (RUN/STOP hold)

Factory set

[1]

[1]

[1]

[1]

[1]

[1]

[1]

[1]

[1]

[1]

[1]

[1]

[1]

[1]

value

0

2

0

10

0

255

0

0

1000

2100

10

255

5

1

0









1

Table 1: Data bit configuration

Set

Data

Parity

value

bit

0 8 Without 1 6 8 Without 2
1 8 Even 1 7 8 Even 2
2 8 Odd 1
3 7 Without 1 9 7 Without 2
4 7 Even 1 10 7 Even 2
5 7 Odd 1

Data range: Modbus: 0 to 2 RKC communication: 0 to 5 PLC communication: 0 to 11

Stop

bit

bit

communication

RKC communication
PLC communication

RKC communication
PLC communication

Settable

Modbus

Set

Data

Parity

value

bit

Stop

bit

bit

8 8 Odd 2

11 7 Odd 2

 Host communication data of Z-TIO module

Modbus

Name

Measured value
(PV) ♠

Comprehensive
event state ♠

Operation mode
state monitor ♠

RKC
Iden­tifier

M1 01FC

AJ

L0

Unused  02BC

Manipulated output
value (MV) monitor
[heat-side] ♣ ♠

Manipulated output
value (MV) monitor
[cool-side] ♣ ♠
Current trans­former (CT) input
value monitor ♠

Set value (SV)
monitor ♠

Remote setting
(RS) input value
monitor ♠
Burnout state
monitor ♠

Event 1 state
monitor ♠

Event 2 state
monitor ♠

Event 3 state
monitor ♠

Event 4 state
monitor ♠

Heater break alarm
(HBA) state
monitor ♠

Output state
monitor ♦

Memory area soak
time monitor ♠

O1 02CC

O2 030C

M3 034C

MS 038C

S2 03CC

B1 040C

AA 044C

AB 048C

AC 04CC

AD 050C

AE 054C

Q1 058C

TR 059C

Unused  05DC

Holding peak value
ambient tempera­ture monitor ♠
Unused  062C

Hp 05EC

register address

HEX DEC

508

･
･
･

023B

571

023C

572

･
･
･

027B

635

027C

636

･
･
･

02BB

699

700

･
･
･

02CB

715
716

･
･
･

030B

779

780

･
･
･

034B

843
844

･
･
･

038B

907
908

･
･
･

03CB

971
972

･
･
･

040B

1035
1036

･
･
･

044B

1099
1100

･
･
･

048B

1163
1164

･
･
･

04CB

1227
1228

･
･
･

050B

1291
1292

･
･
･

054B

1355
1356

･
･
･

058B

1419
1420

･
･
･

059B

1435

1436

･
･
･

05DB

1499

1500

･
･
･

05EB

1515
1516

･
･
･

062B

1579
1580

･
･
･

063B

1595

･
･
･

･
･
･

･
･
･

･
･
･

･
･
･

･
･
･

･
･
･

･
･
･

･
･
･

･
･
･

･
･
･

･
･
･

･
･
･

･
･
･

･
･
･

･
･
･

･
･
･

･
･
･

･
･
･

･
･
･

Attri-

Digits

bute

7 RO Input sca le low to

7 RO

7 RO

   

7 RO PID control or heat/cool PID control:

7 RO −5.0 to +105.0 %

7 RO CTL- 6-P-N: 0.0 to 30.0 A

7 RO Setting limiter (low) to

7 RO Setting limiter (low) to

1 RO 0: OFF

1 RO 

1 RO 

1 RO 

1 RO

1 RO 0: OFF

7 RO

7 RO

   

7 RO −10.0 to +100.0 °C or

Data range and
Number of data

Input scale high

• RKC communication
Least significant digit to 4th digit:
Event 1 to Event 4
5th digit: Heater break alarm
6th digit: Temperature rise
completion
7th digit: Burnout
Data 0: OFF 1: ON

• Modbus
b0 to b3: Event 1 to 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] [64]

• 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] [64]

−5.0 to +105.0 %
Position proportioning control (FBR
input): 0.0 to 100.0 % [64]

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.
(The Event 3 state monitor does not
turn ON.)

[Each 64]

1: ON

• 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] [16]
0 minutes 00 seconds to
199 minutes 59 seconds:
RKC communication:
0:00 t o 199:59 (min:sec)
Modbus: 0 to 1199 9 seconds

0 hours 00 minutes to
99 hours 59 minutes:
RKC communication:
0:00 t o 99:59 (hrs:min)
Modbus: 0 t o 5999 minutes [64]

14.0 to 212.0 °F

   

Settable

communication

PLC communication

Factory set

value



[64]









[64]



[64]



[64]



[64]



[64]





[64]







[64]

Name

Logic output
monitor 1 ♦

Logic output
monitor 2 ♦

Unused  064C

PID/AT transfer ♠ G1 080C

Auto/Manual
transfer
♠
Remote/Local
transfer
♠

Unused  08 CC

Memory area
transfer
♠

Interlock release ♠ AR 091C

Event 1 set value
(EV1)
 ♠
Event 2 set value
(EV2)
 ♠
Event 3 set value
(EV3)
 ♠
Event 4 set value
(EV4)
 ♠
Control loop break
alarm (LBA) time
 ♠

LBA deadband
 ♠

Set value (SV)
 ♠

Proportional band
[heat-side]
♣  ♠

Integral time
[heat-side]
♣  ♠

Derivative t ime
[heat-side]
♣  ♠

Control response
parameter
♣  ♠

Proportional band
[cool-side]
♣  ♠

Integral time
[cool-side]
♣  ♠
Derivative t ime
[cool-side]
♣  ♠

Overlap/
Deadband
♣  ♠

Manual reset
 ♠

Setting change
rate limiter (up)
 ♠

Setting change
rate limiter (down)
 ♠

Area soak time
 ♠

Modbus

RKC

register address

Iden­tifier

HEX DEC

ED 063C

･
･
･

064B

EE   7 RO RKC communication

･
･
･

080B

･
･
･

084B

J1 084C

･
･
･

088B

C1 088C

･
･
･

08CB

･
･
･

08DB

ZA 08DC

･
･
･

091B

･
･
･

095B

A1 095C

･
･
･

099B

A2 099C

･
･
･

09DB

A3 09DC

･
･
･

0A1B

A4 0A1C

･
･
･

0A5B

A5 0A5C

･
･
･

0A9B

N1 0A9C

･
･
･

0ADB

S1 0ADC

･
･
･

0B1B

P1 0B1C

･
･
･

0B5B

I1 0B5C

･
･
･

0B9B

D1 0B9C

･
･
･

0BDB

CA 0BDC

･
･
･

0C1B

P2 0C1C

･
･
･

0C5B

I2 0C5C

･
･
･

0C9B

D2 0C9C

･
･
･

0CDB

V1 0CDC

･
･
･

0D1B

MR 0D1C

･
･
･

0D5B

HH 0D5C

･
･
･

0D9B

HL 0D9C

･
･
･

0DDB

TM 0DDC

･
･
･

0E1B

Attri-

Digits

bute

1596

7 RO • RKC communication

･
･
･

1611

1612

   

･
･
･

2059
2060

1 R/W 0: PI D control

･
･
･

2123
2124

1 R/W 0: A uto mode

･
･
･

2187
2188

1 R/W 0: Lo cal mode

･
･
･

2251
2252

   

･
･
･

2267
2268

7 R/W 1 to 8

･
･
･

2331
2332

1 R/W 0: Normal state

･
･
･

2395

7 R/W 50

2396

･
･
･

2459
2460

7 R/W 50

･
･
･

2523
2524

7 R/W 50

･
･
･

2587
2588

7 R/W

･
･
･

2651
2652

7 R/W 0 to 7200 seconds

･
･
･

2715
2716

7 R/W 0 (0.0) to Input span

･
･
･

2779
2780

7 R/W Setting limiter (low) to

･
･
･

2843
2844

7 R/W T C/RTD inputs:

･
･
･

2907

2908

7 R/W PID control or heat /cool PID control:

･
･
･

2971

2972

7 R/W 0 to 3600 seconds or

･
･
･

3035
3036

1 R/W 0: Slow

･
･
･

3099

3100

7 R/W T C/RTD inputs:

･
･
･

3163

3164

7 R/W 0 to 3600 seconds or

･
･
･

3227
3228

7 R/W 0 to 3600 seconds or

･
･
･

3291
3292

7 R/W T C/RTD inputs:

･
･
･

3355

3356

7 R/W −100.0 to +100.0 %

･
･
･

3419
3420

7 R/W 0 (0.0) to Input span/ unit time

･
･
･

3483

3484

7 R/W 0 (0.0) to Input span/ unit time

･
･
･

3547

3548

7 R/W 0 minutes 00 seconds to

･
･
･

3611

Data range and

Number of data

Least significant digit to 4th digit:
Logic output 1 t o 4
5th digit to Most significant digit:
Unused
Data 0: OFF 1: ON

• Modbus
b0 to b7: Log ic output 1 to 8
b8 to b15: Unused
Data 0: OFF 1: ON
[Decimal number: 0 to 255] [16]

Least significant digit to 4th digit:
Logic output 5 t o 8
5th digit to Most significant digit:
Unused
Data 0: OFF 1: ON

1: Autotuning (AT)

1: Manual mode

1: Remote mode

1: Interlock release execution

Deviation action, Deviation action
between channels, Temperature rise
completion range *:

−Input span to +Input span
* When temperature rise completion

is selected at Event 3 action type.
Process action, SV action:
Input scale low to
Input sca le high
MV action:

−5.0 to +105.0 %

(0: Unused)

Setting limiter (high)

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 [64]

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 [64]

0.0 to 1999.9 seconds
(0, 0.0: PI action) [64]

1: Medium
2: Fast

When the P or PD action is selected,
this setting becomes invalid.

1 (0.1) to Input span
(Unit: °C [ °F])
Voltage (V)/current (I) inputs:

0.1 to 1000.0 % of input span

0.0 to 1999.9 seconds
(0, 0.0: PD action) [64]

0.0 to 1999.9 seconds
(0, 0.0: PI action) [64]

−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) [64]

0 (0.0): Unused
Unit time: 60 seconds
(factory set value) [64]

199 minutes 59 seconds:
RKC communication:
0:00 t o 199:59 (min:sec)
Modbus: 0 to 1199 9 seconds

0 hours 00 minutes to
99 hours 59 minutes:
RKC communication:
0:00 t o 99:59 (hrs:min)
Modbus: 0 t o 5999 minutes [64]

[64]

[64]

[64]

[64]

[64]

[Each 64]

[64]

[64]

[64]

[64]

[64]

[64]

[64]

Factory set

value





0

0

0

1

0

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

TC/RTD:
30 (30.0)

V/I: 30.0

240

60

0

0.0

0 (0.0)

0 (0.0)

RKC

communication

0:00

Modbus:

0

Name

Link area number
 ♠

Heater break alarm
(HBA) set value
♠

Heater break
determination point
♠

Heater melting
determination point
♠

PV bias
♠

RKC
Iden­tifier

PV digital filter ♠ F1 0F5C

PV ratio
♠

PV low input
cut-off
♠
RS bias *
♠

RS digital filter * ♠ F2 105C

RS ratio *
♠

Output distribution
selection ♠

Output distribution
bias ♠

Output distribution
ratio ♠

Proportional cycle
time
♠

Minimum ON/OFF
time of
proportioning cycle
♠
Manual
manipulated output
value
♣ ♠

Area soak time
stop function
♠

EDS mode
(for disturbance 1)
♠
EDS mode
(for disturbance 2)
♠

EDS value 1
(for disturbance 1)
♠
EDS value 1
(for disturbance 2)
♠
EDS value 2
(for disturbance 1)
♠
EDS value 2
(for disturbance 2)
♠
EDS transfer time
(for disturbance 1)
♠
EDS transfer time
(for disturbance 2)
♠
EDS action time
(for disturbance 1)
♠
EDS action time
(for disturbance 2)
♠
EDS action wait
time ♠
(for disturbance 1)
EDS action wait
time ♠
(for disturbance 2)
EDS value

:

learning times
♠
EDS start signal ♠ NU 15DC

Modbus

register address

HEX DEC

LP 0E1C

･
･
･

0E5B

A7 0E5C

･
･
･

0E9B

NE 0E9C

･
･
･

0EDB

NF 0EDC

･
･
･

0F1B

PB 0F1C

･
･
･

0F5B

･
･
･

0F9B

PR 0F9C

･
･
･

0FDB

DP 0FDC

･
･
･

101B

RB 101C

･
･
･

105B

･
･
･

109B

RR 109C

･
･
･

10DB

DV 10DC

･
･
･

111B

DW 111C

･
･
･

115B

DQ 115C

･
･
･

119B

T0 119C

･
･
･

11DB

VI 11DC

･
･
･

121B

ON 121C

･
･
･

125B

RV 125C

･
･
･

129B

NG 129C

･
･
･

12DB

NX 12DC

･
･
･

131B

NI 131C

･
･
･

135B

NJ 135C

･
･
･

139B

NK 139C

･
･
･

13DB

NM 13DC

･
･
･

141B

NN 141C

･
･
･

145B

NO 145C

･
･
･

149B

NQ 149C

･
･
･

14DB

NL 14DC

･
･
･

151B

NR 151C

･
･
･

155B

NY 155C

･
･
･

159B

NT 159C

･
･
･

15DB

･
･
･

161B

Attri-

Digits

bute

3612

7 R/W 0 to 8

･
･
･

3675
3676

7 R/W When CT is CTL- 6-P-N:

･

･
･

3739

3740

7 R/W 0.0 to 100.0 % of HBA set value

･
･
･

3803
3804

7 R/W 0.0 to 100.0 % of HBA set value

･
･
･

3867
3868

7 R/W −Input span to +Input span

･
･
･

3931
3932

7 R/W 0.0 to 100.0 seconds

･
･
･

3995
3996

7 R/W 0.500 to 1.500

･
･
･

4059
4060

7 R/W 0.00 to 25.00 % of input span

･
･
･

4123
4124

7 R/W −Input span to +Input span

･
･
･

4187
4188

7 R/W 0.0 to 100.0 seconds

･
･
･

4251
4252

7 R/W 0.001 to 9.999

･
･
･

4315
4316

1 R/W 0: Control output

･
･
･

4379
4380

7 R/W −100.0 to +100.0 %

･
･
･

4443
4444

7 R/W −9.999 to +9.999

･
･
･

4507
4508

7 R/W 0.1 to 100.0 seconds

･
･
･

4571

4572

7 R/W 0 to 1000 ms

･
･
･

4635

4636

7 R/W PI D control:

･
･
･

4699

4700

1 R/W 0: No function 3: Event 3

･
･
･

4763
4764

1 R/W 0

･
･
･

4827
4828

1 R/W

･
･
･

4891

4892

7 R/W −100.0 to +100.0 % 0.0

･
･
･

4955
4956

7 R/W 0.0

･
･
･

5019
5020

7 R/W 0.0

･
･
･

5083
5084

7 R/W

･
･
･

5147
5148

7 R/W 0 to 3600 seconds or

･
･
･

5211
5212

7 R/W

･
･
･

5275
5276

7 R/W 1 to 3600 seconds 600

･
･
･

5339
5340

7 R/W

･
･
･

5403
5404

7 R/W 0.0 to 600.0 seconds 0.0

･
･
･

5467
5468

7 R/W

･
･
･

5531
5532

7 R/W 0 to 10 times

･
･
･

5595
5596

1 R/W 0: EDS start signal OFF

･
･
･

5659

* Data on RS bias, RS ratio and RS digital filter is that in cascade control or ratio setti ng.

Data range and
Number of data

(0: No link)

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 is
invalid) [64]

(0.0: Heater melting determination is
invalid) [64]

(0.0: Unused)

(0.0: Unused)

1: Distribution output

M: Relay contact output
T: Triac output
V: Voltage pulse output
D: Open collector output [64]

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 outp ut OFF,
Open-side output OFF
1: Close-side output ON,
Open-side output OFF
2: Close-side output OFF,
Open-side output ON [64 ]

1: Event 1 4: Event 4
2: Event 2 [64]

0: No function
1: E DS function mode
2: Learning mode
3: Tuning mode

EDS function: External disturbance
suppression function

[64]

[64]

[64]

[64]

[64]

[64]

[64]

[64]

[64]

[64]

[64]

[64]

[64]

[Each 64]

[Each 64]

0.0 to 1999.9 seconds

(0: No learning mode)

1: EDS start signal ON
(for disturbance 1)
2: EDS start signal ON
(for disturbance 2) [ 64]

[Each 64]

[Each 64]

[Each 64]

[64]

Factory set

value

0

0.0

30.0

30.0

0

0.0

1.000

0.00

0

0.0

1.000

0

0.0

1.000

M output:

20.0

V, T, D

output: 2.0

0

0.0

0

0

0.0

0

0

600

0.0

1

0

Name

Operation mode ♠ EI 161C

Startup tuning
(ST)
♠

Automatic
temperature rise
learning ♠

Communication
switch (for logic)
♦

RKC
Iden­tifier

Unused  16EC

For communication data (Engineering setting), refer to the Z-COM Host Communication Instruction Manual
(IMS01T23-E).

Modbus

register address

HEX DEC

･
･
･

165B

ST 165C

･
･
･

169B

Y8 169C

･
･
･

16DB

EF 16DC

･
･
･

16EB

･
･
･

196B

Attri-

Digits

bute

5660

1 R/W 0: Unused

･
･
･

5723

5724

1 R/W 0: ST unused

･
･
･

5787

5788

1 R/W 0: Unused

･
･
･

5851

5852

7 R/W • RKC communication

･
･
･

5867

5868

   

･
･
･

6507

Data range and
Number of data

1: Monitor
2: Monitor + Event function
3: Control [64]

1: Execute once (Returns to “0”
af ter the tuning is finished.)
2: Execute always

1: Learning (Returns to “0” after
the tun ing is finished.)

Least significant digit to 4th digit:
Communication switch
1 to 4
5th digit to Most significant digit:
Unused
Data 0: OFF 1: ON

• Modbus
b0 to b3: Com munication switch
1 to 4
b4 to b15: Unused
Data 0: OFF 1: ON
[Decimal number: 0 to 15] [16]

[64]

[64]

 Host communication data of Z-DIO module

Name

Digital input (DI)
state 1
♦

Digital input (DI)
state 2
♦

Digital output (DO)
state 1
♦

Digital output (DO)
state 2
♦

RKC
Iden­tifier

Unused  3E8C

DO manual
output 1
♦

DO manual
output 2
♦

DO output
distribution
selection ♠

DO output
distribution bias
♠

DO output
distribution ratio
♠
DO proportioning
cycle time
♠

DO minimum
ON/OFF time of
proportioning cycle
♠
Unused  42 6C

For communication data (Engineering setting), refer to the Z-COM Host Communication Instruction Manual
(IMS01T23-E).

Modbus

register address

HEX DEC

･
･
･

3E7B

15980

15995

･
･
･

L1 3E6C

L6   7 RO Least significant digit to 4th digit:

･
･
･

3E8B

15996

16011

･
･
･

Q2 3E7C

Q3   7 RO Least significant digit to 4th digit:

16012

･

･

･

･

･

･

3FDB

16347

･
･
･

3EFB

16348

16353

･
･
･

Q4 3FDC

Q5   7 R/W Least significant digit to 4th digit:

･
･
･

406B

･
･
･

40EB

･
･
･

416B

･
･
･

41EB

･
･
･

426B

･
･
･

433B

16364

16491
16492

16619
16620

16747
16748

16875

16876

17003

17004

17211

･
･
･

･
･
･

･
･
･

･
･
･

･
･
･

･
･
･

DO 3FEC

O8 406C

O9 40EC

V0 416C

VJ 41EC

Attri-

Digits

bute

7 RO • RKC communication

7 RO • RKC communication

   

7 R/W • RKC communication

1 R/W 0: DO output

7 R/W −100.0 to +100.0 %

7 R/W −9.999 to +9.999

7 R/W 0. 1 to 100.0 seconds

7 R/W 0 t o 1000 ms

Data range and
Number of data

Least significant digit to 4th digit:
DI1 to DI4
5th digit to Most significant digit:
Unused
Data 0: Contact open
1: Contact closed

• Modbus
b0 to b7: DI1 t o DI8
b8 to b15: Unused
Data 0: Contact open
1: Contact closed
[Decimal number: 0 to 255] [16]

DI5 to DI8
5th digit to Most significant digit:
Unused
Data 0: Contact open
1: Contact closed

Least significant digit to 4th digit:
DO1 to DO4
5th digit to Most significant digit:
Unused
Data 0: OFF 1: ON

• Modbus
b0 to b7: DO1 t o DO8
b8 to b15: Unused
Data 0: OFF 1: ON
[Decimal number: 0 to 255] [16]

DO5 to DO8
5th digit to Most significant digit:
Unused
Data 0: OFF 1: ON

Least significant digit to 4th digit:
DO1 manual output to
DO4 manual output
5th digit to Most significant digit:
Unused
Data 0: OFF 1: ON

• Modbus
b0 to b7: DO1 m anual output to
DO8 manual output
b8 to b15: Unused
Data 0: OFF 1: ON
[Decimal number: 0 to 255] [16]

DO5 manual output to
DO8 manual output
5th digit to Most significant digit:
Unused
Data 0: OFF 1: ON

1: Distribution output

Relay contact output

M:

Open collector output

D:

   

[128]

[128]

[128]

[128]

[128]

Factory set

value

3

0

0

0

Factory

set value









0

0

0

0.0

1.000

M: 20
D: 2

0

 Host communication data of Z-CT module

Name

Current
transformer (CT)
input value monitor
♠
Load factor
conversion
CT monitor ♠
Heater break alarm
(HBA) state
monitor ♠
Heater overcurrent
alarm state monitor
♠

Automatic setting
state monitor
♦

Unused  49CC

Heater break/
Heater ovecurrent
alarm
automatic setting
selection
♠

Automatic setting
transfer
♠

Heater break alarm
(HBA) set value
♠

Heater break alarm
(HBA) selection
♠

Heater overcurrent
alarm set value
♠
Heater overcurrent
alarm selection
♠

Heater break alarm
(HBA) interlock
release ♠

Heater overcurrent
alarm interlock
release ♠
Unused 

Set lock
♦

CT type
♠

CT ratio
♠

Number of heater
break alarm (HBA)
delay times ♠
Automatic setting
factor for heater
break alarm (HBA)
Automatic setting
factor for heater
overcurrent alarm
Determination
current value for
automatic setting
Automatic setting
time
♠
Module address
assignments for
CT input ♠
Module channel
assignments for
CT input ♠
Load factor
conversion method
♠

CT Interval time ♦ VH 659C

RKC
Iden-

♠

♠

♠

Unused  65AC

* When the set lock (identifier: LK, register address: 5E0 C to 5E1B) is set to “0: Unlock,” writing data is possible.

Modbus is a registered tradema rk of Schneider Electric.
Company names and product names used i n this manual are the trademarks or registered
trademarks of the respective companies.

HEADQUARTERS: 16-6, KUGAHARA 5-CHOME, OHTA-KU TOKYO 146-8515 J APAN

PHONE: 03-3751-9799 (+81 3 3751 9799) E-mail: info@rkc inst.co.jp
FAX: 03-3751-8585 (+ 81 3 3751 8585) AUG. 2008

Modbus

register address

tifier

HEX DEC

M4 46BC

M5 477C

AF 483C

AG 48FC

CJ 49BC

BT 4FCC

BU 508C

A8 514C

BZ 520C

A6 52CC

BO 538C

CX 544C

CY 550C

LK 5E0C

BV 5E1C

XT 5EDC

DI 5F9C

BW 605C

B9 611C

BP 61DC

BQ 629C

BX 635C

BY 641C

IC

18108

･

･

･

･

･

･

477B

18299

18300

･

･

･

･

･

･

483B

18491
18684

･

･

･

･

･

･

48FB

18683
18684

･

･

･

･

･

･

49BB

18875
18876

･

･

･

･

･

･

49CB

18891
18892

･

･

･

･

･

･

4FCB

20427
20428

･

･

･

･

･

･

508B

20619

20620

･

･

･

･

･

･

514B

20811

20812

･

･

･

･

･

･

520B

21003

21004

･

･

･

･

･

･

52CB

21195

21196

･

･

･

･

･

･

538B

21387
21388

･

･

･

･

･

･

544B

21579

21580

･

･

･

･

･

･

550B

21771
21772

･

･

･

･

･

･

55CB

21963

55CC

21964

･

･

･

･

･

･

5E0B

24075
24076

･

･

･

･

･

･

5E1B

24091
24092

･

･

･

･

･

･

5EDB

24283

24284

･

･

･

･

･

･

5F9B

24475

24476

･

･

･

･

･

･

605B

24667
24668

･

･

･

･

･

･

611B

24859
24860

･

･

･

･

･

･

61DB

25051
25052

･

･

･

･

･

･

629B

25243
25244

･

･

･

･

･

･

635B

25435
25436

･

･

･

･

･

･

641B

25627
25628

･

･

･

･

･

･

64DB

25819
25820

64DC

･

･

･

･

･

･

659B

26011
26012

･

･

･

･

･

･

65AB

26027
26028

･

･

･

･

･

･

666B

26219

RKC INSTRUMENT INC.

®

Attri-

Digits

bute

7 RO CTL- 6-P-Z: 0.0 to 10.0 A

7 RO 0.0 to 100. 0 A

1 RO 0: Normal

1 RO 0: Normal

1 RO 0: Norm al state

  Do not use this register address as it

1 R/W 0: Automatic setting is disabled.

1 R/W 0: Normal state

7 R/W 0. 0 to 100.0 A

1 R/W 0: Heater break alarm (HBA) unused

7 R/W 0. 0 to 105.0 A

1 R/W 0: Heater overcurrent alarm unused

1 R/W 0: Normal state

1 R/W 0: Normal state

   

1 R/W 0: Unlock

1 R/W * 0: CTL-6-P-N (0.0 to 30.0 A)

7 R/W * 0 to 9999

7 R/W * 0 to 255 times

7 R/W * 1 to 100 %

7 R/W * 10 0 to 1000 %

7 R/W * 0. 0 to 100.0 A

7 R/W * 10 t o 250 seconds

7 R/W * 0 to 99

7 R/W * 1 to 99

1 R/W * 0: Mean conversion

7 R/W * 0 to 250 ms

   

Data range and
Number of data

CTL-6-P-N: 0.0 to 30.0 A
CTL-12-S56-10L-N: 0.0 to 100.0 A

1: Break

[192]

2: Melting

1: Heater overcurrent

1: Automatic setting execution
2: Automatic setting failure [16]

[192]

[192]

[192]

is used for the internal processing.

(Alarm set value cannot be
automatically set by the push
button and communication.)

1: Automatic setting for heater break

alarm is enabled.

2: Automatic setting for heater

overcurrent alarm set value is
enabled.

3: Automatic setting for heater break

alarm (HBA) and heater
overcurrent alarm set values are
enabled. [192]

1: Automatic setting execution
2: Automatic setting failure (RO)

0.0: Heater break al arm function
(HBA) OFF
(HBA function OFF: The current
transformer (CT) input value
monitoring is available.)

1: Heater break alarm (HBA)
2: Heater break alarm (HBA)

(With alarm interlock function)

0.0: Heater o vercurrent alarm
function OFF [192]

1: Heater overcurrent alarm
2: Heater overcurrent alarm

(With alarm interlock function)

1: Interlock release execution

1: Interlock release execution

1: Lock

1: CTL-12-S56-10L-N

(0.0 to 100.0 A)

2: CTL-6-P-Z (0.0 to 10.0 A) [192]

1: Root mean squared value

conversion [192]

[192]

[192]

[192]

[192]

[192]

[192]

[192]

[192]

[192]

[192]

[192]

[192]

[192]

[192]

[192]

[192]

The first edition: JUN. 2006 [IMQ00]
The second edition: AUG. 2008 [IMQ00]

Depends on
model code.

specifying: 0

CTL-6-P-N,
CTL-6-P-Z:

CTL-12-S56­10L-N: 1000

Factory

set value













1

0

0.0

1

0.0

1

0

0

0

When not

800

5

75

200

1.0

60

0

1

0

10