RKC INSTRUMENT SR Mini HG SYSTEM H-PCP-J Instruction Manual

SR Mini HG SYSTEM

Power Supply/CPU Module

PLC Communication

H-PCP-J

Instruction Manual

[For LG PLC]

RKC INSTRUMENT INC.

®

IMS01J06-E1

 Modbus is a registered trademark of Schneider Electric.
 The name of each programmable controller (PLC) means the products of each manufacturer.
 Company names and product names used in this manual are the trademarks or registered trademarks of

the respective companies.

All Rights Reserved, Copyright  2004, RKC INSTRUMENT INC.

Thank you for purchasing this RKC instrument. 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.

SYMBOLS

WARNING

CAUTION

!

 An external protection device must be installed if failure of this instrument

could result in damage to the instrument, equipment or injury to personnel.

: This mark indicates precautions that must be taken if there is danger of electric
shock, fire, etc., which could result in loss of life or injury.

: This mark indicates that if these precautions and operating procedures are not
taken, damage to the instrument may result.

: This mark indicates that all precautions should be taken for safe usage.

: This mark indicates important information on installation, handling and operating
procedures.

: This mark indicates supplemental information on installation, handling and
operating procedures.

: This mark indicates where additional information may be located.

WARNING

!

 All wiring must be completed before power is turned on to prevent electric

shock, fire or damage to instrument and equipment.

 This instrument must be used in accordance with the specifications to

prevent fire or damage to instrument and equipment.

 This instrument is not intended for use in locations subject to flammable or

explosive gases.

 Do not touch high-voltage connections such as power supply terminals, etc.

to avoid electric shock.

 RKC is not responsible if this instrument is repaired, modified or

disassembled by other than factory-approved personnel. Malfunction can
occur and warranty is void under these conditions.

IMS01J06-E1

i-1

CAUTION

 This is a Class A instrument. In a domestic environment, this instrument may cause radio

interference, in which case the user may be required to take adequate measures.

 This instrument is protected from electric shock by reinforced insulation. Provide

reinforced insulation between the wire for the input signal and the wires for instrument
power supply, source of power and loads.

 Be sure to provide an appropriate surge control circuit respectively for the following:

- If input/output or signal lines within the building are longer than 30 meters.

- If input/output or signal lines leave the building, regardless the length.



This instrument is designed for installation in an enclosed instrumentation panel. All

high-voltage connections such as power supply terminals must be enclosed in the
instrumentation panel to avoid electric shock by operating personnel.

All precautions described in this manual should be taken to avoid damage to the



instrument or equipment.

 All wiring must be in accordance with local codes and regulations.
 All wiring must be completed before power is turned on to prevent electric shock,

instrument failure, or incorrect action.
The power must be turned off before repairing work for input break and output failure
including replacement of sensor, contactor or SSR, and all wiring must be completed
before power is turned on again.

To prevent instrument damage or failure, protect the power line and the input/output lines



from high currents with a protection device such as fuse, circuit breaker, etc.

 Prevent metal fragments or lead wire scraps from falling inside instrument case to avoid

electric shock, fire or malfunction.

 Tighten each terminal screw to the specified torque found in the manual to avoid electric

shock, fire or malfunction.

 For proper operation of this instrument, provide adequate ventilation for heat dispensation.
 Do not connect wires to unused terminals as this will interfere with proper operation of the

instrument.

 Turn off the power supply before cleaning the instrument.
 Do not use a volatile solvent such as paint thinner to clean the instrument. Deformation or

discoloration will occur. Use a soft, dry cloth to remove stains from the instrument.

 To avoid damage to instrument display, do not rub with an abrasive material or push front

panel with a hard object.

 Do not connect modular connectors to telephone line.

NOTICE

 This manual assumes that the reader has a fundamental knowledge of the principles of electricity,

process control, computer technology and communications.

 The figures, diagrams and numeric values used in this manual are only for purpose of illustration.
 RKC is not responsible for any damage or injury that is caused as a result of using this instrument,

instrument failure or indirect damage.

 RKC is not responsible for any damage and/or injury resulting from the use of instruments made by

imitating this instrument.

 Periodic maintenance is required for safe and proper operation of this instrument. Some

components have a limited service life, or characteristics that change over time.

 Every effort has been made to ensure accuracy of all information contained herein. RKC makes no

warranty expressed or implied, with respect to the accuracy of the information. The information in
this manual is subject to change without prior notice.

 No portion of this document may be reprinted, modified, copied, transmitted, digitized, stored,

processed or retrieved through any mechanical, electronic, optical or other means without prior
written approval from RKC.

i-2

IMS01J06-E1

CONTENTS

1. OUTLINE............................................................................... 1

2. COMMUNICATION SPECIFICATIONS ................................ 3

3. CONNECTIONS .................................................................... 4

4. SETTING ON THE H-PCP-J MODULE SIDE ....................... 6

4.1 PLC Register Address Setting .........................................................................6

Page

4.2 Protocol Selection and Communication Setting...............................................8

4.3 PLC Scanning Time Setting.............................................................................9

5. SETTING ON THE PLC SIDE............................................. 10

6. COMMUNICATION DATA .................................................. 11

6.1 Request Command and Data Transfer..........................................................11

6.2 Data Processing Precautions ........................................................................15

6.3 Communication Data List...............................................................................17

7. DATA MAP.......................................................................... 24

7.1 Reference to Data Map .................................................................................24

7.2 Data Map List ................................................................................................25

7.2.1 GROFA-GM series............................................................................................. 25

7.2.2 MASTER-K series .............................................................................................. 31

IMS01J06-E1 i-3

MEMO

i-4 IMS01J06-E1

r

1. OUTLINE

This manual describes the communication function of the SR Mini HG SYSTEM and the LG
Industrial Systems programmable controller (hereafter called PLC).

This manual is attached when the model code of H-PCP-J module is H-PCP-J--D∗
-05E.

For details of the H-PCP-J module, see the Power Supply/CPU Module H-PCP-J
Instruction Manual (IMS01J02-E).

The SR Mini HG SYSTEM can be connected to the LG Industrial Systems GLOFA-GM/MASTER-K
series link unit without using any program.
The SR Mini HG SYSTEM occupies the fixed area in the PLC data memory for each unit address.
The control unit for SR Mini HG SYSTEM consists of the H-PCP-J module and temperature control
function modules.

LG Industrial Systems

GLOFA-GM/MASTER-K

PLC

series

RS-422A

o

RS-232C

SR Mini HG SYSTEM

control unit

Converter

RS-422A

RS-422A

SR Mini HG SYSTEM

control unit

SR Mini HG SYSTEM

control unit

RS-422A

SR Mini HG SYSTEM

control unit

(Up to 4 units)

IMS01J06-E1 1

1. OUTLINE

 Usable modules

(LG Industrial Systems GLOFA-GM series and MASTER-K series)

Name Type

Cnet I/F module G3L-CUEA (GLOFA-GM series and MASTER-K series)

G4L-CUEA (GLOFA-GM series and MASTER-K series)
G6L-CUEC (GLOFA-GM series and MASTER-K series)
G7L-CUEC (GLOFA-GM series and MASTER-K series)
etc.

 Usable modules (SR Mini HG SYSTEM)

The following function module data can be used in PLC communication (see “Data map” on page 24).
In addition, data on other modules connected (TI, AI, AO, etc.) can be used on one more
communication port (RKC communication or Modbus).

Function module Type

Temperature control module H-TIO-A H-TIO-B H-TIO-C H-TIO-D H-TIO-E

H-TIO-F H-TIO-G H-TIO-H H-TIO-J H-TIO-P
H-TIO-R

Position proportioning control

H-TIO-K

module *

Speed control module * H-SIO-A

Cascade control module * H-CIO-A

Current transformer input

H-CT-A (Up to 20 points/control unit are available)

module

* There is restriction on usable data. Only data described in 6.3 Communication Data List (P. 17)

can be used.

For the function modules, see the Hardware Instruction Manual (IMSRM15-E).

2

IMS01J06-E1

2. COMMUNICATION SPECIFICATIONS

Interface: Based on RS-422A, EIA standard

Connection method: RS-422A: 4-wire system, multi-drop connection

Synchronous method: Start/stop synchronous type

Communication speed: 9600 bps, 19200 bps, 38400 bps

Communication speed can be selected with switch

Data bit configuration: Start bit: 1
Data bit: 8
Parity bit: Without
Stop bit: 1

Protocol: Dedicated communication (LG Industrial Systems special protocol)

Station address 00

Usable command: WSB: Write continuous device
RSB: Read continuous device

Specification mode: Mode 1 (Dedicated)

Maximum connections: 4 control units per communication port of PLC

IMS01J06-E1 3

3. CONNECTIONS

 RS-422A

 Pin layout of modular connector (RS-422A)

COM.PORT1

R (A)

1

R (B)

2

SG

3

T (B)

4

T (A)

5

SG

6

H-PCP-J module

 Connector pin number and signal details (RS-422A)

Pin No. Signal name Symbol

1 Receive data R (A)

2 Receive data R (B)

3 Signal ground SG

4 Send data T (B)

5 Send data T (A)

6 Signal ground SG

4 IMS01J06-E1

k

 Diagram of RS-422A wiring

H-PCP-J

Pair wire

3. CONNECTIONS

PLC

LG Industrial Systems

RS-422 Port

T (A)

T (B)

SG

R (A)

R (B)

SG

5

4

3

1

2

6

SDB

SDA

SG

RDB

RDA

Shielded twisted pair wire

The 6-pin type modular connector should be used for the connection to the H-PCP-J module.
Recommended model: TM4P-66P (Manufactured by HIROSE ELECTRIC CO., LTD.,)

Customer is requested to prepare a communication cable fit for the control unit to be
connected by the PLC. Connection cable W-BF-01 * (RKC product) can use to connect
PLC.

* Shields of the cable are connected to SG (No. 6 pin) of the H-PCP-J connector.

A wiring example when using our W-BF-01 connection cable is shown in the following.

Cable type: W-BF-01-3000 (RKC product, Sold separately) [Standard cable length: 3 m]

PLC

LG Industrial Systems

RS-422 Port

H-PCP-J

W-BF-01

Connect to the
[COM. PORT1]

Blac

Blue

Orange

White

Red

T (B)

T (A)

R (B)

R (A)

SG

The details of the connectable connector for the PLC please also read the instruction manual

SDA

SDB

RDA

RDB

SG

for the used PLC.

IMS01J06-E1

5

4.

SETTING ON THE H-PCP-J MODULE SIDE

4.1 PLC Register Address Setting

Set the file register address of each control unit using the unit address setting switch at the front of the
H-PCP-J module. For this setting, use a small blade screwdriver.

Unit address setting switch

0

1

2

F

3

E

4

D

5

C

6

B

7

A

9

8

Setting range:
0 to 15 (0 to F: hexadecimal)

H-PCP-J module

Up to 4 SR Mini HG SYSTEMs can be connected to a PLC communication port. Therefore the file
register address uses the 4 SR Mini HG SYSTEMs as a group. The SR Mini HG SYSTEMs connected
to the same PLC communication port sets the address in the same group.

Set unit address of each group including 0, 4, 8 and C by all means. 0, 4, 8 and C work

as a master of communication transfer.

Set unit address within address range of PLC (CPU unit) to use.

Group Unit address

setting switch

Group 1

Group 2

Group 3

Group 4

0

1

2

3

4

5

6

7

8

9

A

B

C

D

E

F

PLC register address

for the GLOFA-GM series

PLC register address

for the MASTER-K series

MW0000 to MW0499 DW0000 to DW0499

MW0500 to MW0999 DW0500 to DW0999

MW1000 to MW1499 DW1000 to DW1499

MW1500 to MW1999 DW1500 to DW1999

MW2000 to MW2499 DW2000 to DW2499

MW2500 to MW2999 DW2500 to DW2999

MW3000 to MW3499 DW3000 to DW3499

MW3500 to MW3999 DW3500 to DW3999

MW4000 to MW4499 DW4000 to DW4499

MW4500 to MW4999 DW4500 to DW4999

MW5000 to MW5499 DW5000 to DW5499

MW5500 to MW5999 DW5500 to DW5999

MW6000 to MW6499 DW6000 to DW6499

MW6500 to MW6999 DW6500 to DW6999

MW7000 to MW7499 DW7000 to DW7499

MW7500 to MW7999 DW7500 to DW7999

6 IMS01J06-E1

4. SETTING ON THE H-PCP-J MODULE SIDE

A

Setting example: When group 2 is used (for the GLOFA-GM series)

PLC

SR Mini HG SYSTEM

control unit

Unit address 4

Register address:

MW2000 to MW2499

SR Mini HG SYSTEM

control unit

Unit address 5

Register address:

MW2500 to MW2999

SR Mini HG SYSTEM

control unit

Unit address 6

Register address:

MW3000 to MW3499

SR Mini HG SYSTEM

control unit

Unit address 7

Register address:

MW3500 to MW3999

ddress in the
same group is
set

IMS01J06-E1

7

4. SETTING ON THE H-PCP-J MODULE SIDE

4.2 Protocol Selection and Communication Setting

Match the setting of data bit configuration, communication speed and communication protocol with
the PLC communication specification by COM.PORT1/COM.PORT2 setting switch (SW2).
Setting example to recommend is shown in the following.

COM.PORT1/COM.PORT2

setting switch (SW2)

For the

GLOFA-GM

18765 43 2

series

ON

Data bit configuration

Communication speed
(Set the same as PLC.)

Right side view

For the

 Data bit configuration

SW2

Data bit configuration

1 2

OFF OFF Data 8-bit, Non parity, Stop 1-bit

 Communication speed Set the same as PLC.

SW2

Communication speed

3 4

OFF OFF 9600 bps

Or

MASTER-K

1 8 76 5 4 32

Communication protocol

Factory set value: All OFF

series

ON

Data bit configuration

Communication speed
(Set the same as PLC.)

Communication protocol

Factory set value: All OFF

8

ON OFF 19200 bps

OFF ON 38400 bps

ON ON Don't set this one

Continued on the next page.

IMS01J06-E1

4. SETTING ON THE H-PCP-J MODULE SIDE

Continued from the previous page.

 Using register selection Select register corresponding to PLC.

SW2

Using register selection

5 6 7 8

OFF ON OFF ON

ON ON OFF ON

M register
for the LG Industrial Systems GLOFA-GM series

D register
for the LG Industrial Systems MASTER-K series

4.3 PLC Scanning Time Setting

Set the PLC scanning time (time of waiting for a response from the PLC) so as to adapt to the
environment used. The PLC scanning time is set via host communication (RKC communication
or Modbus).

PLC scanning time setting Setting range: 0 to 3000 ms (Factory set value: 10 ms)

[Setting example]

Set PLC scanning time to any value more than twice as long as the maximum scanning time of PLC.

If PLC scanning time is extremely short (When at a factory set value of 10 ms as an

example), the SR Mini HG SYSTEM may detect the time-out not conducting normal

communication processing.

The maximum scanning time of PLC differs depending on the CPU processing speed, I/O
unit configuration and the user program capacity of the PLC.

For the PLC scanning time setting (Identifier ST), see the Power Supply/CPU Module
H-PCP-J Instruction Manual (IMS01J02-E).

IMS01J06-E1

9

5. SETTING ON THE PLC SIDE

Set the PLC as follows. (Recommend setting example)

Item Description

Mode 1

Channel RS422 side

Station 00

Type RS422

Data bit 8

Parity bit Without

Stop bit 1

Transmission speed 38400 bps

Termination resistor Termination resistor is inserted

The setting item varies depending on the PLC. The details of the setting procedure for the
PLC please also read the instruction manual for the used PLC.

10 IMS01J06-E1

6. COMMUNICATION DATA

6.1 Request Command and Data Transfer

Data transfer between PLC and SR Mini HG SYSTEM are executed by request command.

 Request command “0: Monitor (PLC ← SR Mini HG SYSTEM)”

Command which requests the SR Mini HG SYSTEM to write data such as temperature measured
values, etc. (attribute: RO) to the PLC side.
The SR Mini HG SYSTEM always repeats data writing until “1: Setting” or “2: Set value monitor”
is set to the request command.
The PCP communication status is set to “1: Writing on monitor data” during data transfer.

 Request command “1: Setting (PLC → SR Mini HG SYSTEM)”

Command which requests the SR Mini HG SYSTEM to read data such as temperature set values,
etc. (attribute: RW or WO) from the PLC side. Just when “1: Setting” is set to the request
command, the SR Mini HG SYSTEM starts reading the data from the PLC side.
The PCP communication status is set to “2: Reading out setting data” during data transfer. After the
data is transferred, the request command and PCP communication status returns to “0: Monitor”
and “1: Writing on monitor data,” respectively.

 Request command “2: Set value monitor (PLC ← SR Mini HG SYSTEM)”

Command which requests the SR Mini HG SYSTEM to write data such as temperature set values,
etc. (attribute: RW) to the PLC side. Just when “2: Set value monitor” is set to the request
command, the SR Mini HG SYSTEM starts writing the data to the PLC side.
The PCP communication status is set to “3: Writing on setting data” during data transfer. After the
data is transferred, the request command and PCP communication status returns to “0: Monitor”
and “1: Writing on monitor data,” respectively.

IMS01J06-E1 11

6. COMMUNICATION DATA

p

p

R

t

t

R

 Data transfer procedures

Change each set value of SR Mini HG SYSTEM from the PLC after the initial settings

are made.

If each set value of SR Mini HG SYSTEM is changed from the PLC without setting the
initial values, it is re-written to 0 with each set value of the PLC at that time set to 0.

 Initial Setting (When transmit data of temperature setting values from SR Mini HG

SYSTEM to PLC)

Set “2” to the request
command

NO

PCP communication

NO

PCP communication

Start

Turn on power of

each instrument

state = 3 ?

YES

Wait time

state = 1 ?

YES

End

When 2 (Set value monitor) is set to request command,
the

SR Mini HG SYSTEM starts writing the data items

such as temperature set value, etc. (attribute: R/W) to
the PLC side.

If 3 (Writing on setting data) is set to PCP
communication state in the PLC, this indicates that

Mini HG SYSTEM data items such as temperature se

value, etc. (attribute: R/W) are being written into the
PLC.

Reserve data write time as wait time. In addition,

rocess data in each item as indefinite during this
eriod.

Waiting time (for 38400 bps):

1 second/control unit

If 1 (Writing on monitor data) is set to PCP
communication state in the PLC, this indicates tha
SRV data items such as temperature set value, etc.
(attribute: R/W) have been written to start writing

Mini HG SYSTEM data items such as temperature

measured values (PV), etc. (attribute: RO) into the
PLC.

S

S

12

IMS01J06-E1

6. COMMUNICATION DATA

R

t

t

t

t

p

p

 Data setting (When transmit data of temperature setting values from PLC to SR Mini

HG SYSTEM)

Start

Set temperature set value
(SV) and other setting data
to each register (memory)
in the PLC.

Set “1” to the request
command

[Data setting]

When 1 (Setting) is set to request command, the

Mini HG SYSTEM starts reading the temperature se

value data set to the register (memory) on the PLC
side.

NO

PCP communication

state = 2 ?

YES

If 2 (Reading out setting data) is set to PCP
communication state in the PLC, this indicates tha
temperature set values data are being read from the
PLC.

Wait time

Reserve data read time as wait time. In addition,

rocess data in each item as indefinite during this
eriod.

Waiting time (for 38400 bps):

2 seconds/control unit

NO

PCP communication

state = 1 ?

YES

If 1 (Writing on monitor data) is set to PCP
communication state in the PLC, this indicates tha
temperature set value data have been read to star
writing SR Mini HG SYSTEM data items such as
temperature measured values (PV) etc. (attribute: RO)
into the PLC.

A

Continued on the next page.

S

IMS01J06-E1

13

6. COMMUNICATION DATA

R

t

t

p

p

Continued from the previous page.

A

Set “2” to the request
command

NO

PCP communication

state = 3 ?

YES

Wait time

NO

PCP communication

state = 1 ?

YES

End

[Confirmation of setting data]

When 2 (Set value monitor) is set to request command,

SR Mini HG SYSTEM starts writing the temperature

the
set value data set to the PLC side.

If 3 (Writing on setting data) is set to PCP
communication state in the PLC, this indicates that

Mini HG SYSTEM temperature set value data are being

written into the PLC.

Reserve data write time as wait time. In addition,

rocess data in each item as indefinite during this
eriod.

Waiting time (for 38400 bps):

1 second/control unit

If 1 (Writing on monitor data) is set to PCP
communication state in the PLC, this indicates tha
temperature set values have been written to star
writing SR Mini HG SYSTEM data items such as
temperature measured values (PV), etc. (attribute: RO)
into the PLC.

S

14

IMS01J06-E1

6. COMMUNICATION DATA

6.2 Data Processing Precautions

 With PLC communication, the maximum number of channels per unit address is 20.

 Read data of unused channel and undefined address is 0.

 The data type is treated as binary data with a sign and without a decimal point. For this reason,

carefully express and set the data. (excluding the TIO status)

[Example] Heat-side proportional band

Initial value of internal data: 3.0
Communication data: 30

 If the data range error occurs during data setting, “Setting error” (bit 8 in the TIO status) is set to

ON in the channel where the error occurs. The SR Mini HG SYSTEM continues operation at the
present set value without updating the data.

Any attempt to write to an unused channel is not processed as an error.

 The autotuning (AT) function starts its execution with PID/AT transfer and the request command

set to “1: AT operation” and “1: Setting,” respectively. After the autotuning function finishes its
execution, PID/AT transfer returns to “0: PID control operation” and thus the PID constants are
updated.

 When the PLC communication status is selected by selecting the H-PCP-J module DO type

(Identifier VU), the digital output (DO) is turned on or off according to the status of
communication between the H-PCP-J module and PLC.

Communication error

When the communication is error
after the power ON immediately

When the communication is error
during operation

PLC communication status

(H-PCP-J module DO)

OFF “1: Monitor”

OFF

Operation mode

Same as mode before the

communication error

If communication between the H-PCP-J module and PLC is ready, the PLC communication status
(H-PCP-J module DO) is turned on to enable operation to continue.

The H-PCP-J module DO type selection (Identifier VU) is set by host communication. For
the host communication, see the Power Supply/CPU Module H-PCP-J Instruction

Manual (IMS01J02-E).

IMS01J06-E1

15

6. COMMUNICATION DATA

 Some communication data may become invalid depending on the module selection or the

configuration of the SR Mini HG System control unit.
If any one of the conditions listed below occurs and data items written are within the setting range,
read data becomes 0. Under these conditions, no error response message will occur.

− When heat/cool control, manual output value and auto/manual transfer are invalid.

− When heat control, cool-side manipulated output, cool-side proportional band, overlap/deadband

and cool-side proportioning cycle time are invalid.

− When ON/OFF control, cool-side manipulated output, heat-side and cool-side proportional band,
integral time, derivative time, overlap/deadband and cool-side proportioning cycle time are
invalid.

− When the H-CT-A module is not provided, current transformer input measured value 2, heater
break alarm set value 2 and CT channel setting are invalid.

16

IMS01J06-E1

6.3 Communication Data List

• Name

: Item stored in the memory area.
[ ]: The functional module name that data becomes valid is written.

• Attributes
RO: At the time of request command “0: Monitor,” SR Mini HG SYSTEM writes in data.

(SR Mini HG SYSTEM → PLC)

R/W: At the time of request command “1: Setting,” SR Mini HG SYSTEM read out data.

At the time of request command “2: Set value monitor,” SR Mini HG SYSTEM
writes in data. (SR Mini HG SYSTEM ↔ PLC)

WO: At the time of request command “1: Setting,” SR Mini HG SYSTEM read out data.

(SR Mini HG SYSTEM ← PLC)

• Structure
C: Data for each channel U: Data for each unit address

Name

Attri-

bute

Struc-

ture

Data range

6. COMMUNICATION DATA

Factory

set value

Temperature set value
(SV) 
[H-TIO-, H-CIO-A]

R/W C

TC/RTD input:

Within input range (Within setting limiter)

Current/voltage input:

Within display scale range
(Within setting limiter)

Motor speed set value 
[H-SIO-A]

Alarm 1 set value 
[H-TIO-, H-CIO-A,
H-SIO-A]

Alarm 2 set value 

R/W C

R/W C

Within display scale range

(Within setting limiter)

TC/RTD input:

Within input range or span range

Current/voltage input, H-SIO-A:
Within display scale range or span range

[H-TIO-, H-CIO-A,
H-SIO-A]

* Factory set value table of Alarm 1/Alarm 2 set value

Input type Alarm type Alarm 1 set value Alarm 2 set value

TC/RTD input

Current/voltage input

Process low alarm 0.0 % 0.0 %
Deviation high alarm, Deviation

Deviation low alarm

No alarm function 100.0 % 0.0 %

Process high alarm Input range (high limit) Input range (high limit)
Process low alarm Input range (low limit) Input range (low limit)
Deviation high alarm, Deviation

high/low alarm, Band alarm
Deviation low alarm

No alarm function Input range (high limit) Input range (low limit)
Process high alarm 100.0 % 100.0 %

high/low alarm, Band alarm

50 °C 50 °C

−50 °C −50 °C

50 % 50 %

−50 % −50 %

Continued on the next page.

0

The position
of the decimal
point differs
depending on
the input
range.

See Factory

set value
table of
Alarm 1/
Alarm 2
set value *

IMS01J06-E1

17

6. COMMUNICATION DATA

Continued from the previous page.

Name

Attri-

bute

Struc-

ture

Data range

Factory

set value

Heater break alarm
set value
[H-CT-A]

Operation mode transfer
[H-TIO-, H-CIO-A,
H-SIO-A]

R/W C

R/W C

0.0 to 100.0 A or 0.0 to 30.0 A

For the current transformer (CT) input of the
H-CT-A module.

Allocates the channels for H-TIO- module
to the input channels of H-CT-A module by
CT channel setting.
For the CT channel setting, see the Power

Supply/CPU Module H-PCP-J Instruction
Manual (IMS01J02-E).

0: Unused

If set to “Unused,” no control, monitor or
alarm monitor is performed.

1: Monitor

If set to “Monitor,” only the monitor is
performed. No control or alarm monitor is
performed.

2: Alarm

If set to “Alarm,” monitor or alarm
monitor is performed. No control is
performed.

3: Normal

Selected to normal mode to perform
control, monitor or alarm monitor.

0.0

3

Auto/Manual transfer
[H-TIO-, H-CIO-A]

Manual output value
[H-TIO-, H-CIO-A]

Overlap/deadband 
[H-TIO-, H-CIO-A]

Heat-side proportional
band 
[H-TIO-, H-CIO-A,
H-SIO-A]

Cool-side proportional
band 
[H-TIO-, H-CIO-A]

R/W C

0: Auto

0

1: Manual

Setting will be invalid in ON/OFF control
and heat/cool control.

R/W C

−5.0 to +105.0 %

0.0

Setting will be invalid in ON/OFF control
and heat/cool control.

R/W C −10.0 to +10.0 % of span 0.0

R/W C 0.1 to 1000.0 % of span

H-TIO-,
H-CIO-A:

3.0
H-SIO-A:

300.0

R/W C 0.1 to 1000.0 % of span 3.0

Continued on the next page.

18

IMS01J06-E1

Continued from the previous page.

Name

Attri-

bute

Struc-

ture

Data range

6. COMMUNICATION DATA

Factory

set value

Integral time 
[H-TIO-, H-CIO-A,
H-SIO-A]

R/W C 1 to 3600 seconds

H-TIO-,
H-CIO-A:
240
H-SIO-A:
2

Derivative time 
[H-TIO-, H-CIO-A,
H-SIO-A]

R/W C 0 to 3600 seconds (0: PI action)

H-TIO-,
H-CIO-A:
60
H-SIO-A:
0

PID/AT transfer *
[H-TIO-, H-CIO-A,
H-SIO-A]

R/W C

0: PID control operation
1: AT (Autotuning) operation

The autotuning (AT) function starts its

0

execution with PID/AT transfer and the
request command set to “1: AT operation”
and “1: Setting,” respectively. After the
autotuning function finishes its execution,
PID/AT transfer returns to “0: PID control
operation.”

* Autotuning (AT) is the function which automatically measures, calculates and sets the optimum PID

constants according to the set temperature.

Caution for using the Autotuning (AT)
When a temperature change (UP and/or Down) is 1C or less per minute during
Autotuning, Autotuning may be cancelled before calculating PID values. In that case,
adjust the PID values manually. It is possible to happen when the set value is around
the ambient temperature or is close to the maximum temperature achieved by the load.

The following is the conditions necessary to carry out autotuning and the conditions which will cause
the autotuning to stop.

Conditions necessary for autotuning:
The autotuning should be executed after satisfying all of the following conditions:

• Operation mode conditions:

− Auto/Manual transfer → Auto mode

− PID/AT transfer → PID control mode

− Control RUN/STOP transfer → Control RUN mode

• The measured value (PV) is without input error range [Input error determination point (high) >
Measured value (PV) > Input error determination point (low)].

• The output limiter high limit should be more than 0.1 % and the output limiter low limit should be

less than 99.9 %.

• When operation mode is set to “Normal (Can be controlled ).”

When the autotuning is finished, the display of each channel automatically returns to “0: PID control
operation.”

Continued on the next page.

IMS01J06-E1

19

6. COMMUNICATION DATA

Continued from the previous page.

Conditions which will cause the autotuning to stop:

• When the temperature set value (SV) is changed.

• When the memory area is changed.

• When the PV bias value is changed.

• When the AT bias value is changed.

• When transfer to Manual mode using the Auto/Manual transfer.

• When the measured value (PV) goes to input error range [Measured value (PV) ≥ Input error
determination point (high) or Input error determination point (low) ≥ Measured value (PV)].

• When the power is cut off.

• When FAIL occurs in the module whose channel is under the autotuning. Otherwise, when FAIL

occurs in the H-PCP-J module.

• When transfer to the PID control mode by the PID/AT transfer.

• When operation mode is set to “Unused,” “Monitor” or “Alarm.”

• When the Control RUN/STOP function is changed to the “Control STOP” function.

When the above-mentioned conditions to stop the autotuning occurs, the autotuning is
immediately stopped and switch over to the PID control mode. The PID constants
return to the values at the start of the autotuning.

20

Continued on the next page.

IMS01J06-E1

Continued from the previous page.

Name

Attri-

bute

Struc-

ture

Data range

6. COMMUNICATION DATA

Factory

set value

Temperature measured
value (PV)
[H-TIO-, H-CIO-A]

Motor speed measured
value
[H-SIO-A]

Heat-side manipulated
output value
[H-TIO-, H-CIO-A]

Cool-side manipulated
output value
[H-TIO-, H-CIO-A]

Current transformer
input measured value
[H-CT-A]

TIO status
[H-TIO-, H-CIO-A,
H-SIO-A]

Set value monitor
[H-TIO-, H-CIO-A,
H-SIO-A]

RO C

TC/RTD input:

Current/voltage input:

RO C

RO C

RO C

Within display scale range

−0.5 to +105.0 %

−0.5 to +105.0 %

0.0 to 100.0 A or 0.0 to 30.0 A
Current transformer (CT) input measured

value of the H-CT-A module.
Allocates the channels for H-TIO- module
to the input channels of H-CT-A module by
CT channel setting.
For the CT channel setting, see the Power

Supply/CPU Module H-PCP-J Instruction
Manual (IMS01J02-E).

RO C

Each operation status is assigned as a bit
image in binary numbers.

Bit data

Data 0: OFF 1: ON

Bit image: 0000000000000000
[Decimal number: 0 to 509]

RO C

TC/RTD input:

Current/voltage input:



Within input range

Within display scale range











bit 0: Heat-side manipulated output status
bit 1: Unused
bit 2: Alarm 1 status
bit 3: Alarm 2 status
bit 4: Burnout status
bit 5: Heater break alarm status
bit 6: Control loop break alarm (LBA) status
bit 7: Temperature rise completion status
bit 8: Setting error
bit 9 to 15: Unused

bit 15·························· bit 0



Within input range

Within display scale range

Continued on the next page.

IMS01J06-E1

21

6. COMMUNICATION DATA

Continued from the previous page.

Name

Attri-

bute

Struc-

ture

Data range

Factory

set value

Request command
[H-PCP-J]

R/W U

0: Monitor

Command which requests the SR Mini HG
SYSTEM to write data such as temperature
measured values, etc. (attribute: RO) to the
PLC side.
The SR Mini HG SYSTEM always repeats
data writing until “1: Setting” or “2: Set
value monitor” is set to the request
command. The PCP communication status
is set to “1: Writing on monitor data”
during data transfer.

1: Setting

Command which requests the SR Mini HG
SYSTEM to read data such as temperature
set values, etc. (attribute: RW or WO)
from the PLC side. Just when “1: Setting”
is set to the request command, the SR Mini
HG SYSTEM starts reading the data from
the PLC side.
The PCP communication status is set to
“2: Reading out setting data” during data
transfer. After the data is transferred, the
request command and PCP communication
status returns to “0: Monitor” and
“1: Writing on monitor data,” respectively.

2: Set value monitor

Command which requests the SR Mini HG
SYSTEM to write data such as temperature
set values, etc. (attribute: RW) to the PLC
side. Just when “2: Set value monitor” is
set to the request command, the SR Mini
HG SYSTEM starts writing the data to the
PLC side.
The PCP communication status is set to
“3: Writing on setting data” during data
transfer. After the data is transferred, the
request command and PCP communication
status returns to “0: Monitor” and
“1: Writing on monitor data,” respectively.

0

PCP communication
status
[H-PCP-J]

22

RO U

1: Writing on monitor data

2: Reading out setting data

3: Writing on setting data



During monitor data of attribute RO is
written to PLC

During setting data of attribute R/W or
WO is read from PLC

During setting data of attribute R/W is
written to PLC

Continued on the next page.

IMS01J06-E1

Continued from the previous page.

Name

Attri-

bute

PCP normal
communication flag
[H-PCP-J]

Memory area number
[H-TIO-, H-CIO-A,
H-SIO-A]

Control RUN/STOP
transfer *
[H-PCP-J]

PV bias
[H-TIO-, H-CIO-A,
H-SIO-A]

RO

Struc-

ture

U

The numbers 0 and then 1 are repeated in

Data range

every communication period.

The SR Mini HG SYSTEM rewrites 0 and 1
in this area alternately like 0 → 1 → 0 in
every communication period. It is possible to
determine whether or not the SR Mini HG
SYSTEM makes communication by
monitoring this area periodically using the
PLC program.

WO U

1 to 8
Data reading is always made from the PLC

regardless of the request command. Any
numeric value other than 1 to 8 becomes
invalid.
Changing the memory area automatically
writes each set value to the PLC.

WO U

0: Control STOP
1: Control RUN

R/W C −5.00 to +5.00 % of span

ZK-1103 specification:

−Input span to +Input span

6. COMMUNICATION DATA

Factory

set value







0.00

ZK-1103:

a

0

Setting change rate

R/W C 0.0 to 100.0 % of span/minute 0.0

limiter 
[H-TIO-, H-CIO-A,
H-SIO-A]

When the control RUN/STOP holding setting is set to “Not hold” or “Hold”:

*

The control RUN/STOP transfer setting is always read from the PLC regardless of the request
command. Any numeric value other than 0 and 1 becomes invalid.

When the control RUN/STOP holding setting is set to “Start-up from control RUN status”:

As the control RUN/STOP transfer setting is always set to “1: Control RUN,” any value set to the
control RUN/STOP transfer becomes invalid.

The Control RUN/STOP holding (Identifier X1) is set by host communication. For the host
communication, see the Power Supply/CPU Module H-PCP-J Instruction Manual
(IMS01J02-E).

a

Unit (°C, °F, etc.) and decimal point position (No decimal place, One decimal place, Two decimal
places or Three decimal places) depends on input range type.

IMS01J06-E1

23

7. DATA MAP

7.1 Reference to Data Map

This data map summarizes the data (M register and D register) addresses, channels and names that can
be used with PLC. For details on each data range, see the 6.3 Communication Data List (P. 17).

(a)

(c)

Unit

address

0

MW0000 to
MW0019
MW0020 to
MW0039

Unit

address

1

MW0500 to
MW0519
MW0520 to
MW0539

Unit

address

2

MW1000 to
MW1019
MW1020 to
MW1039

(a) Unit address: Unit address of SR Mini HG SYSTEM

(b) Name: Data names

(c) Address: Data (M register and D register) addresses

Register address is expressed in decimal number
M register: GLOFA-GM series
D register: MASTER-K series

Unit

address

3

MW1500 to
MW1519
MW1520 to
MW1539

Temperature set value (SV)
CH1 to CH20
Alarm 1 set value
CH1 to CH20

(b)

Name

24 IMS01J06-E1

7.2 Data Map List

7.2.1 GLOFA-GM series

 Unit address 0 to 3 (Group 1)

Unit

address

0

MW0000 to
MW0019
MW0020 to
MW0039
MW0040 to
MW0059
MW0060 to
MW0079

MW0080 to
MW0099
MW0100 to
MW0119
MW0120 to
MW0139
MW0140 to
MW0159
MW0160 to
MW0179
MW0180 to
MW0199
MW0200 to
MW0219
MW0220 to
MW0239
MW0240 to
MW0259
MW0260 to
MW0279
MW0280 to
MW0299
MW0300 to
MW0319
MW0320 to
MW0339

MW0340 to
MW0359
MW0360 to
MW0379

MW0380 MW0880 MW1380 MW1880 Request command

MW0381 MW0881 MW1381 MW1881 PCP communication status

Unit

address

1

MW0500 to
MW0519
MW0520 to
MW0539
MW0540 to
MW0559
MW0560 to
MW0579

MW0580 to
MW0599
MW0600 to
MW0619
MW0620 to
MW0639
MW0640 to
MW0659
MW0660 to
MW0679
MW0680 to
MW0699
MW0700 to
MW0719
MW0720 to
MW0739
MW0740 to
MW0759
MW0760 to
MW0779
MW0780 to
MW0799
MW0800 to
MW0819
MW0820 to
MW0839

MW0840 to
MW0859
MW0860 to
MW0879

Unit

address

2

MW1000 to
MW1019
MW1020 to
MW1039
MW1040 to
MW1059
MW1060 to
MW1079

MW1080 to
MW1099
MW1100 to
MW1119
MW1120 to
MW1139
MW1140 to
MW1159
MW1160 to
MW1179
MW1180 to
MW1199
MW1200 to
MW1219
MW1220 to
MW1239
MW1240 to
MW1259
MW1260 to
MW1279
MW1280 to
MW1299
MW1300 to
MW1319
MW1320 to
MW1339

MW1340 to
MW1359
MW1360 to
MW1379

Unit

address

3

MW1500 to
MW1519
MW1520 to
MW1539
MW1540 to
MW1559
MW1560 to
MW1579

MW1580 to
MW1599
MW1600 to
MW1619
MW1620 to
MW1639
MW1640 to
MW1659
MW1660 to
MW1679
MW1680 to
MW1699
MW1700 to
MW1719
MW1720 to
MW1739
MW1740 to
MW1759
MW1760 to
MW1779
MW1780 to
MW1799
MW1800 to
MW1819
MW1820 to
MW1839

MW1840 to
MW1859
MW1860 to
MW1879

Name

Temperature set value (SV) CH1 to CH20

Alarm 1 set value CH1 to CH20

Alarm 2 set value CH1 to CH20

Heater break alarm set value
(H-CT-A module) CH1 to CH20

Operation mode transfer CH1 to CH20

Auto/Manual transfer CH1 to CH20

Manual output value CH1 to CH20

Overlap/deadband CH1 to CH20

Heat-side proportional band CH1 to CH20

Cool-side proportional band CH1 to CH20

Integral time CH1 to CH20

Derivative time CH1 to CH20

PID/AT transfer CH1 to CH20

Temperature measured value (PV)
CH1 to CH20
Heat-side manipulated output value
CH1 to CH20
Cool-side manipulated output value
CH1 to CH20
Current transformer input measured value
(H-CT-A module) CH1 to CH20

TIO status CH1 to CH20

Set value monitor CH1 to CH20

Continued on the next page.

7. DATA MAP

IMS01J06-E1 25

7. DATA MAP

Continued from the previous page.

Unit

address

0

Unit

address

1

Unit

address

2

Unit

address

3

Name

MW0382 MW0882 MW1382 MW1882 PCP normal communication flag

MW0383 to
MW0389

MW0883 to
MW0889

MW1383 to
MW1389

MW1883 to
MW1889

Do not use this address range

MW0390 MW0890 MW1390 MW1890 Memory area number

MW0391 MW0891 MW1391 MW1891 Control RUN/STOP transfer

MW0392 to
MW0399
MW0400 to
MW0419
MW0420 to
MW0439
MW0440 to
MW0499

MW0892 to
MW0899
MW0900 to
MW0919
MW0920 to
MW0939
MW0940 to
MW0999

MW1392 to
MW1399
MW1400 to
MW1419
MW1420 to
MW1439
MW1440 to
MW1499

MW1892 to
MW1899
MW1900 to
MW1919
MW1920 to
MW1939
MW1940 to
MW1999

Do not use this address range

PV bias CH1 to CH20

Setting change rate limiter CH1 to CH20

Do not use this address range

 Unit address 4 to 7 (Group 2)

Unit

address

4

MW2000 to
MW2019
MW2020 to
MW2039
MW2040 to
MW2059
MW2060 to
MW2079

MW2080 to
MW2099
MW2100 to
MW2119
MW2120 to
MW2139
MW2140 to
MW2159
MW2160 to
MW2179
MW2180 to
MW2199
MW2200 to
MW2219

Unit

address

5

MW2500 to
MW2519
MW2520 to
MW2539
MW2540 to
MW2559
MW2560 to
MW2579

MW2580 to
MW2599
MW2600 to
MW2619
MW2620 to
MW2639
MW2640 to
MW2659
MW2660 to
MW2679
MW2680 to
MW2699
MW2700 to
MW2719

Unit

address

6

MW3000 to
MW3019
MW3020 to
MW3039
MW3040 to
MW3059
MW3060 to
MW3079

MW3080 to
MW3099
MW3100 to
MW3119
MW3120 to
MW3139
MW3140 to
MW3159
MW3160 to
MW3179
MW3180 to
MW3199
MW3200 to
MW3219

Unit

address

7

MW3500 to
MW3519
MW3520 to
MW3539
MW3540 to
MW3559
MW3560 to
MW3579

MW3580 to
MW3599
MW3600 to
MW3619
MW3620 to
MW3639
MW3640 to
MW3659
MW3660 to
MW3679
MW3680 to
MW3699
MW3700 to
MW3719

Name

Temperature set value (SV) CH1 to CH20

Alarm 1 set value CH1 to CH20

Alarm 2 set value CH1 to CH20

Heater break alarm set value
(H-CT-A module) CH1 to CH20

Operation mode transfer CH1 to CH20

Auto/Manual transfer CH1 to CH20

Manual output value CH1 to CH20

Overlap/deadband CH1 to CH20

Heat-side proportional band CH1 to CH20

Cool-side proportional band CH1 to CH20

Integral time CH1 to CH20

Continued on the next page.

26

IMS01J06-E1

Continued from the previous page.

Unit

address

4

MW2220 to
MW2239
MW2240 to
MW2259
MW2260 to
MW2279
MW2280 to
MW2299
MW2300 to
MW2319
MW2320 to
MW2339

MW2340 to
MW2359
MW2360 to
MW2379

Unit

address

5

MW2720 to
MW2739
MW2740 to
MW2759
MW2760 to
MW2779
MW2780 to
MW2799
MW2800 to
MW2819
MW2820 to
MW2839

MW2840 to
MW2859
MW2860 to
MW2879

Unit

address

6

MW3220 to
MW3239
MW3240 to
MW3259
MW3260 to
MW34279
MW3280 to
MW3299
MW3300 to
MW3319
MW3320 to
MW3339

MW3340 to
MW3359
MW3360 to
MW3379

Unit

address

7

MW3720 to
MW3739
MW3740 to
MW3759
MW3760 to
MW3779
MW3780 to
MW3799
MW3800 to
MW3819
MW3820 to
MW3839

MW3840 to
MW3859
MW3860 to
MW3879

Name

Derivative time CH1 to CH20

PID/AT transfer CH1 to CH20

Temperature measured value (PV)
CH1 to CH20
Heat-side manipulated output value
CH1 to CH20
Cool-side manipulated output value
CH1 to CH20
Current transformer input measured value
(H-CT-A module) CH1 to CH20

TIO status CH1 to CH20

Set value monitor CH1 to CH20

MW2380 MW2880 MW3380 MW3880 Request command

MW2381 MW2881 MW3381 MW3881 PCP communication status

MW2382 MW2882 MW3382 MW3882 PCP normal communication flag

MW2383 to
MW2389

MW2883 to
MW2889

MW3383 to
MW3389

MW3883 to
MW3889

Do not use this address range

MW2390 MW2890 MW3390 MW3890 Memory area number

MW2391 MW2891 MW3391 MW3891 Control RUN/STOP transfer

MW2392 to
MW2399
MW2400 to
MW2419
MW2420 to
MW2439
MW2440 to
MW2499

MW2892 to
MW2899
MW2900 to
MW2919
MW2920 to
MW2939
MW2940 to
MW2999

MW3392 to
MW3399
MW3400 to
MW3419
MW3420 to
MW3439
MW3440 to
MW3499

MW3892 to
MW3899
MW3900 to
MW3919
MW3920 to
MW3939
MW3940 to
MW3999

Do not use this address range

PV bias CH1 to CH20

Setting change rate limiter CH1 to CH20

Do not use this address range

7. DATA MAP

IMS01J06-E1

27

7. DATA MAP

 Unit address 8 to B (Group 3)

Unit

address

8

MW4000 to
MW4019
MW4020 to
MW4039
MW4040 to
MW4059
MW4060 to
MW4079

MW4080 to
MW4099
MW4100 to
MW4119
MW4120 to
MW4139
MW4140 to
MW4159
MW4160 to
MW4179
MW4180 to
MW4199
MW4200 to
MW4219
MW4220 to
MW4239
MW4240 to
MW4259
MW4260 to
MW4279
MW4280 to
MW4299
MW4300 to
MW4319
MW4320 to
MW4339

MW4340 to
MW4359
MW4360 to
MW4379

MW4380 MW4880 MW5380 MW5880 Request command

MW4381 MW4881 MW5381 MW5881 PCP communication status

MW4382 MW4882 MW5382 MW5882 PCP normal communication flag

MW4383 to
MW4389

Unit

address

9

MW4500 to
MW4519
MW4520 to
MW4539
MW4540 to
MW4559
MW4560 to
MW4579

MW4580 to
MW4599
MW4600 to
MW4619
MW4620 to
MW4639
MW4640 to
MW4659
MW4660 to
MW4679
MW4680 to
MW4699
MW4700 to
MW4719
MW4720 to
MW4739
MW4740 to
MW4759
MW4760 to
MW4779
MW4780 to
MW4799
MW4800 to
MW4819
MW4820 to
MW4839

MW4840 to
MW4859
MW4860 to
MW4879

MW4883 to
MW4889

Unit

address

A

MW5000 to
MW5019
MW5020 to
MW5039
MW5040 to
MW5059
MW5060 to
MW5079

MW5080 to
MW5099
MW5100 to
MW5119
MW5120 to
MW5139
MW5140 to
MW5159
MW5160 to
MW5179
MW5180 to
MW5199
MW5200 to
MW5219
MW5220 to
MW5239
MW5240 to
MW5259
MW5260 to
MW5279
MW5280 to
MW5299
MW5300 to
MW5319
MW5320 to
MW5339

MW5340 to
MW5359
MW5360 to
MW5379

MW5383 to
MW5389

Unit

address

B

MW5500 to
MW5519
MW5520 to
MW5539
MW5540 to
MW5559
MW5560 to
MW5579

MW5580 to
MW5599
MW5600 to
MW5619
MW5620 to
MW5639
MW5640 to
MW5659
MW5660 to
MW5679
MW5680 to
MW5699
MW5700 to
MW5719
MW5720 to
MW5739
MW5740 to
MW5759
MW5760 to
MW5779
MW5780 to
MW5799
MW5800 to
MW5819
MW5820 to
MW5839

MW5840 to
MW5859
MW5860 to
MW5879

MW5883 to
MW5889

Name

Temperature set value (SV) CH1 to CH20

Alarm 1 set value CH1 to CH20

Alarm 2 set value CH1 to CH20

Heater break alarm set value
(H-CT-A module) CH1 to CH20

Operation mode transfer CH1 to CH20

Auto/Manual transfer CH1 to CH20

Manual output value CH1 to CH20

Overlap/deadband CH1 to CH20

Heat-side proportional band CH1 to CH20

Cool-side proportional band CH1 to CH20

Integral time CH1 to CH20

Derivative time CH1 to CH20

PID/AT transfer CH1 to CH20

Temperature measured value (PV)
CH1 to CH20
Heat-side manipulated output value
CH1 to CH20
Cool-side manipulated output value
CH1 to CH20
Current transformer input measured value
(H-CT-A module) CH1 to CH20

TIO status CH1 to CH20

Set value monitor CH1 to CH20

Do not use this address range

Continued on the next page.

28

IMS01J06-E1

Continued from the previous page.

Unit

address

8

Unit

address

9

Unit

address

A

Unit

address

B

Name

MW4390 MW4890 MW5390 MW5890 Memory area number

MW4391 MW4891 MW5391 MW5891 Control RUN/STOP transfer

MW4392 to
MW4399
MW4400 to
MW4419
MW4420 to
MW4439
MW4440 to
MW4499

MW4892 to
MW4899
MW4900 to
MW4919
MW4920 to
MW4939
MW4940 to
MW4999

MW5392 to
MW5399
MW5400 to
MW5419
MW5420 to
MW5439
MW5440 to
MW5499

MW5892 to
MW5899
MW5900 to
MW5919
MW5920 to
MW5939
MW5940 to
MW5999

Do not use this address range

PV bias CH1 to CH20

Setting change rate limiter CH1 to CH20

Do not use this address range

 Unit address C to F (Group 4)

Unit

address

C

MW6000 to
MW6019
MW6020 to
MW6039
MW6040 to
MW6059
MW6060 to
MW6079

MW6080 to
MW6099
MW6100 to
MW6119
MW6120 to
MW6139
MW6140 to
MW6159
MW6160 to
MW6179
MW6180 to
MW6199
MW6200 to
MW6219
MW6220 to
MW6239
MW6240 to
MW6259

Unit

address

D

MW6500 to
MW6519
MW6520 to
MW6539
MW6540 to
MW6559
MW6560 to
MW6579

MW6580 to
MW6599
MW6600 to
MW6619
MW6620 to
MW6639
MW6640 to
MW6659
MW6660 to
MW6679
MW6680 to
MW6699
MW6700 to
MW6719
MW6720 to
MW6739
MW6740 to
MW6759

Unit

address

E

MW7000 to
MW7019
MW7020 to
MW7039
MW7040 to
MW7059
MW7060 to
MW7079

MW7080 to
MW7099
MW7100 to
MW7119
MW7120 to
MW7139
MW7140 to
MW7159
MW7160 to
MW7179
MW7180 to
MW7199
MW7200 to
MW7219
MW7220 to
MW7239
MW7240 to
MW7259

Unit

address

F

MW7500 to
MW7519
MW7520 to
MW7539
MW7540 to
MW7559
MW7560 to
MW7579

MW7580 to
MW7599
MW7600 to
MW7619
MW7620 to
MW7639
MW7640 to
MW7659
MW7660 to
MW7679
MW7680 to
MW7699
MW7700 to
MW7719
MW7720 to
MW7739
MW7740 to
MW7759

Name

Temperature set value (SV) CH1 to CH20

Alarm 1 set value CH1 to CH20

Alarm 2 set value CH1 to CH20

Heater break alarm set value
(H-CT-A module) CH1 to CH20

Operation mode transfer CH1 to CH20

Auto/Manual transfer CH1 to CH20

Manual output value CH1 to CH20

Overlap/deadband CH1 to CH20

Heat-side proportional band CH1 to CH20

Cool-side proportional band CH1 to CH20

Integral time CH1 to CH20

Derivative time CH1 to CH20

PID/AT transfer CH1 to CH20

Continued on the next page.

7. DATA MAP

IMS01J06-E1

29

7. DATA MAP

Continued from the previous page.

Unit

address

C

MW6260 to
MW6279
MW6280 to
MW6299
MW6300 to
MW6319
MW6320 to
MW6339

MW6340 to
MW6359
MW6360 to
MW6379

Unit

address

D

MW6760 to
MW6779
MW6780 to
MW6799
MW6800 to
MW6819
MW6820 to
MW6839

MW6840 to
MW6859
MW6860 to
MW6879

Unit

address

E

MW7260 to
MW7279
MW7280 to
MW7299
MW7300 to
MW7319
MW7320 to
MW7339

MW7340 to
MW7359
MW7360 to
MW7379

Unit

address

F

MW7760 to
MW7779
MW7780 to
MW7799
MW7800 to
MW7819
MW7820 to
MW7839

MW7840 to
MW7859
MW7860 to
MW7879

Name

Temperature measured value (PV)
CH1 to CH20
Heat-side manipulated output value
CH1 to CH20
Cool-side manipulated output value
CH1 to CH20
Current transformer input measured value
(H-CT-A module) CH1 to CH20

TIO status CH1 to CH20

Set value monitor CH1 to CH20

MW6380 MW6880 MW7380 MW7880 Request command

MW6381 MW6881 MW7381 MW7881 PCP communication status

MW6382 MW6882 MW7382 MW7882 PCP normal communication flag

MW6383 to
MW6389

MW6883 to
MW6889

MW7383 to
MW7389

MW7883 to
MW7889

Do not use this address range

MW6390 MW6890 MW7390 MW7890 Memory area number

MW6391 MW6891 MW7391 MW7891 Control RUN/STOP transfer

MW6392 to
MW6399
MW6400 to
MW6419
MW6420 to
MW6439
MW6440 to
MW6499

MW6892 to
MW6899
MW6900 to
MW6919
MW6920 to
MW6939
MW6940 to
MW6999

MW7392 to
MW7399
MW7400 to
MW7419
MW7420 to
MW7439
MW7440 to
MW7499

MW7892 to
MW7899
MW7900 to
MW7919
MW7920 to
MW7939
MW7940 to
MW7999

Do not use this address range

PV bias CH1 to CH20

Setting change rate limiter CH1 to CH20

Do not use this address range

30

IMS01J06-E1

7.2.2 MASTER-K series

 Unit address 0 to 3 (Group 1)

Unit

address

0

DW0000 to
DW0019
DW0020 to
DW0039
DW0040 to
DW0059
DW0060 to
DW0079

DW0080 to
DW0099
DW0100 to
DW0119
DW0120 to
DW0139
DW0140 to
DW0159
DW0160 to
DW0179
DW0180 to
DW0199
DW0200 to
DW0219
DW0220 to
DW0239
DW0240 to
DW0259
DW0260 to
DW0279
DW0280 to
DW0299
DW0300 to
DW0319
DW0320 to
DW0339

DW0340 to
DW0359
DW0360 to
DW0379

DW0380 DW0880 DW1380 DW1880 Request command

DW0381 DW0881 DW1381 DW1881 PCP communication status

DW0382 DW0882 DW1382 DW1882 PCP normal communication flag

DW0383 to
DW0389

Unit

address

1

DW0500 to
DW0519
DW0520 to
DW0539
DW0540 to
DW0559
DW0560 to
DW0579

DW0580 to
DW0599
DW0600 to
DW0619
DW0620 to
DW0639
DW0640 to
DW0659
DW0660 to
DW0679
DW0680 to
DW0699
DW0700 to
DW0719
DW0720 to
DW0739
DW0740 to
DW0759
DW0760 to
DW0779
DW0780 to
DW0799
DW0800 to
DW0819
DW0820 to
DW0839

DW0840 to
DW0859
DW0860 to
DW0879

DW0883 to
DW0889

Unit

address

2

DW1000 to
DW1019
DW1020 to
DW1039
DW1040 to
DW1059
DW1060 to
DW1079

DW1080 to
DW1099
DW1100 to
DW1119
DW1120 to
DW1139
DW1140 to
DW1159
DW1160 to
DW1179
DW1180 to
DW1199
DW1200 to
DW1219
DW1220 to
DW1239
DW1240 to
DW1259
DW1260 to
DW1279
DW1280 to
DW1299
DW1300 to
DW1319
DW1320 to
DW1339

DW1340 to
DW1359
DW1360 to
DW1379

DW1383 to
DW1389

Unit

address

3

DW1500 to
DW1519
DW1520 to
DW1539
DW1540 to
DW1559
DW1560 to
DW1579

DW1580 to
DW1599
DW1600 to
DW1619
DW1620 to
DW1639
DW1640 to
DW1659
DW1660 to
DW1679
DW1680 to
DW1699
DW1700 to
DW1719
DW1720 to
DW1739
DW1740 to
DW1759
DW1760 to
DW1779
DW1780 to
DW1799
DW1800 to
DW1819
DW1820 to
DW1839

DW1840 to
DW1859
DW1860 to
DW1879

DW1883 to
DW1889

Name

Temperature set value (SV) CH1 to CH20

Alarm 1 set value CH1 to CH20

Alarm 2 set value CH1 to CH20

Heater break alarm set value
(H-CT-A module) CH1 to CH20

Operation mode transfer CH1 to CH20

Auto/Manual transfer CH1 to CH20

Manual output value CH1 to CH20

Overlap/deadband CH1 to CH20

Heat-side proportional band CH1 to CH20

Cool-side proportional band CH1 to CH20

Integral time CH1 to CH20

Derivative time CH1 to CH20

PID/AT transfer CH1 to CH20

Temperature measured value (PV)
CH1 to CH20
Heat-side manipulated output value
CH1 to CH20
Cool-side manipulated output value
CH1 to CH20
Current transformer input measured value
(H-CT-A module) CH1 to CH20

TIO status CH1 to CH20

Set value monitor CH1 to CH20

Do not use this address range

Continued on the next page.

7. DATA MAP

IMS01J06-E1

31

7. DATA MAP

Continued from the previous page.

Unit

address

0

Unit

address

1

Unit

address

2

Unit

address

3

Name

DW0390 DW0890 DW1390 DW1890 Memory area number

DW0391 DW0891 DW1391 DW1891 Control RUN/STOP transfer

DW0392 to
DW0399
DW0400 to
DW0419
DW0420 to
DW0439
DW0440 to
DW0499

DW0892 to
DW0899
DW0900 to
DW0919
DW0920 to
DW0939
DW0940 to
DW0999

DW1392 to
DW1399
DW1400 to
DW1419
DW1420 to
DW1439
DW1440 to
DW1499

DW1892 to
DW1899
DW1900 to
DW1919
DW1920 to
DW1939
DW1940 to
DW1999

Do not use this address range

PV bias CH1 to CH20

Setting change rate limiter CH1 to CH20

Do not use this address range

 Unit address 4 to 7 (Group 2)

Unit

address

4

DW2000 to
DW2019
DW2020 to
DW2039
DW2040 to
DW2059
DW2060 to
DW2079

DW2080 to
DW2099
DW2100 to
DW2119
DW2120 to
DW2139
DW2140 to
DW2159
DW2160 to
DW2179
DW2180 to
DW2199
DW2200 to
DW2219
DW2220 to
DW2239
DW2240 to
DW2259

Unit

address

5

DW2500 to
DW2519
DW2520 to
DW2539
DW2540 to
DW2559
DW2560 to
DW2579

DW2580 to
DW2599
DW2600 to
DW2619
DW2620 to
DW2639
DW2640 to
DW2659
DW2660 to
DW2679
DW2680 to
DW2699
DW2700 to
DW2719
DW2720 to
DW2739
DW2740 to
DW2759

Unit

address

6

DW3000 to
DW3019
DW3020 to
DW3039
DW3040 to
DW3059
DW3060 to
DW3079

DW3080 to
DW3099
DW3100 to
DW3119
DW3120 to
DW3139
DW3140 to
DW3159
DW3160 to
DW3179
DW3180 to
DW3199
DW3200 to
DW3219
DW3220 to
DW3239
DW3240 to
DW3259

Unit

address

7

DW3500 to
DW3519
DW3520 to
DW3539
DW3540 to
DW3559
DW3560 to
DW3579

DW3580 to
DW3599
DW3600 to
DW3619
DW3620 to
DW3639
DW3640 to
DW3659
DW3660 to
DW3679
DW3680 to
DW3699
DW3700 to
DW3719
DW3720 to
DW3739
DW3740 to
DW3759

Name

Temperature set value (SV) CH1 to CH20

Alarm 1 set value CH1 to CH20

Alarm 2 set value CH1 to CH20

Heater break alarm set value
(H-CT-A module) CH1 to CH20

Operation mode transfer CH1 to CH20

Auto/Manual transfer CH1 to CH20

Manual output value CH1 to CH20

Overlap/deadband CH1 to CH20

Heat-side proportional band CH1 to CH20

Cool-side proportional band CH1 to CH20

Integral time CH1 to CH20

Derivative time CH1 to CH20

PID/AT transfer CH1 to CH20

Continued on the next page.

32

IMS01J06-E1

Continued from the previous page.

Unit

address

4

DW2260 to
DW2279
DW2280 to
DW2299
DW2300 to
DW2319
DW2320 to
DW2339

DW2340 to
DW2359
DW2360 to
DW2379

Unit

address

5

DW2760 to
DW2779
DW2780 to
DW2799
DW2800 to
DW2819
DW2820 to
DW2839

DW2840 to
DW2859
DW2860 to
DW2879

Unit

address

6

DW3260 to
DW34279
DW3280 to
DW3299
DW3300 to
DW3319
DW3320 to
DW3339

DW3340 to
DW3359
DW3360 to
DW3379

Unit

address

7

DW3760 to
DW3779
DW3780 to
DW3799
DW3800 to
DW3819
DW3820 to
DW3839

DW3840 to
DW3859
DW3860 to
DW3879

Name

Temperature measured value (PV)
CH1 to CH20
Heat-side manipulated output value
CH1 to CH20
Cool-side manipulated output value
CH1 to CH20
Current transformer input measured value
(H-CT-A module) CH1 to CH20

TIO status CH1 to CH20

Set value monitor CH1 to CH20

DW2380 DW2880 DW3380 DW3880 Request command

DW2381 DW2881 DW3381 DW3881 PCP communication status

DW2382 DW2882 DW3382 DW3882 PCP normal communication flag

DW2383 to
DW2389

DW2883 to
DW2889

DW3383 to
DW3389

DW3883 to
DW3889

Do not use this address range

DW2390 DW2890 DW3390 DW3890 Memory area number

DW2391 DW2891 DW3391 DW3891 Control RUN/STOP transfer

DW2392 to
DW2399
DW2400 to
DW2419
DW2420 to
DW2439
DW2440 to
DW2499

DW2892 to
DW2899
DW2900 to
DW2919
DW2920 to
DW2939
DW2940 to
DW2999

DW3392 to
DW3399
DW3400 to
DW3419
DW3420 to
DW3439
DW3440 to
DW3499

DW3892 to
DW3899
DW3900 to
DW3919
DW3920 to
DW3939
DW3940 to
DW3999

Do not use this address range

PV bias CH1 to CH20

Setting change rate limiter CH1 to CH20

Do not use this address range

7. DATA MAP

IMS01J06-E1

33

7. DATA MAP

 Unit address 8 to B (Group 3)

Unit

address

8

DW4000 to
DW4019
DW4020 to
DW4039
DW4040 to
DW4059
DW4060 to
DW4079

DW4080 to
DW4099
DW4100 to
DW4119
DW4120 to
DW4139
DW4140 to
DW4159
DW4160 to
DW4179
DW4180 to
DW4199
DW4200 to
DW4219
DW4220 to
DW4239
DW4240 to
DW4259
DW4260 to
DW4279
DW4280 to
DW4299
DW4300 to
DW4319
DW4320 to
DW4339

DW4340 to
DW4359
DW4360 to
DW4379

DW4380 DW4880 DW5380 DW5880 Request command

DW4381 DW4881 DW5381 DW5881 PCP communication status

DW4382 DW4882 DW5382 DW5882 PCP normal communication flag

DW4383 to
DW4389

Unit

address

9

DW4500 to
DW4519
DW4520 to
DW4539
DW4540 to
DW4559
DW4560 to
DW4579

DW4580 to
DW4599
DW4600 to
DW4619
DW4620 to
DW4639
DW4640 to
DW4659
DW4660 to
DW4679
DW4680 to
DW4699
DW4700 to
DW4719
DW4720 to
DW4739
DW4740 to
DW4759
DW4760 to
DW4779
DW4780 to
DW4799
DW4800 to
DW4819
DW4820 to
DW4839

DW4840 to
DW4859
DW4860 to
DW4879

DW4883 to
DW4889

Unit

address

A

DW5000 to
DW5019
DW5020 to
DW5039
DW5040 to
DW5059
DW5060 to
DW5079

DW5080 to
DW5099
DW5100 to
DW5119
DW5120 to
DW5139
DW5140 to
DW5159
DW5160 to
DW5179
DW5180 to
DW5199
DW5200 to
DW5219
DW5220 to
DW5239
DW5240 to
DW5259
DW5260 to
DW5279
DW5280 to
DW5299
DW5300 to
DW5319
DW5320 to
DW5339

DW5340 to
DW5359
DW5360 to
DW5379

DW5383 to
DW5389

Unit

address

B

DW5500 to
DW5519
DW5520 to
DW5539
DW5540 to
DW5559
DW5560 to
DW5579

DW5580 to
DW5599
DW5600 to
DW5619
DW5620 to
DW5639
DW5640 to
DW5659
DW5660 to
DW5679
DW5680 to
DW5699
DW5700 to
DW5719
DW5720 to
DW5739
DW5740 to
DW5759
DW5760 to
DW5779
DW5780 to
DW5799
DW5800 to
DW5819
DW5820 to
DW5839

DW5840 to
DW5859
DW5860 to
DW5879

DW5883 to
DW5889

Name

Temperature set value (SV) CH1 to CH20

Alarm 1 set value CH1 to CH20

Alarm 2 set value CH1 to CH20

Heater break alarm set value
(H-CT-A module) CH1 to CH20

Operation mode transfer CH1 to CH20

Auto/Manual transfer CH1 to CH20

Manual output value CH1 to CH20

Overlap/deadband CH1 to CH20

Heat-side proportional band CH1 to CH20

Cool-side proportional band CH1 to CH20

Integral time CH1 to CH20

Derivative time CH1 to CH20

PID/AT transfer CH1 to CH20

Temperature measured value (PV)
CH1 to CH20
Heat-side manipulated output value
CH1 to CH20
Cool-side manipulated output value
CH1 to CH20
Current transformer input measured value
(H-CT-A module) CH1 to CH20

TIO status CH1 to CH20

Set value monitor CH1 to CH20

Do not use this address range

Continued on the next page.

34

IMS01J06-E1

Continued from the previous page.

Unit

address

8

Unit

address

9

Unit

address

A

Unit

address

B

Name

DW4390 DW4890 DW5390 DW5890 Memory area number

DW4391 DW4891 DW5391 DW5891 Control RUN/STOP transfer

DW4392 to
DW4399
DW4400 to
DW4419
DW4420 to
DW4439
DW4440 to
DW4499

DW4892 to
DW4899
DW4900 to
DW4919
DW4920 to
DW4939
DW4940 to
DW4999

DW5392 to
DW5399
DW5400 to
DW5419
DW5420 to
DW5439
DW5440 to
DW5499

DW5892 to
DW5899
DW5900 to
DW5919
DW5920 to
DW5939
DW5940 to
DW5999

Do not use this address range

PV bias CH1 to CH20

Setting change rate limiter CH1 to CH20

Do not use this address range

 Unit address C to F (Group 4)

Unit

address

C

DW6000 to
DW6019
DW6020 to
DW6039
DW6040 to
DW6059
DW6060 to
DW6079

DW6080 to
DW6099
DW6100 to
DW6119
DW6120 to
DW6139
DW6140 to
DW6159
DW6160 to
DW6179
DW6180 to
DW6199
DW6200 to
DW6219
DW6220 to
DW6239
DW6240 to
DW6259

Unit

address

D

DW6500 to
DW6519
DW6520 to
DW6539
DW6540 to
DW6559
DW6560 to
DW6579

DW6580 to
DW6599
DW6600 to
DW6619
DW6620 to
DW6639
DW6640 to
DW6659
DW6660 to
DW6679
DW6680 to
DW6699
DW6700 to
DW6719
DW6720 to
DW6739
DW6740 to
DW6759

Unit

address

E

DW7000 to
DW7019
DW7020 to
DW7039
DW7040 to
DW7059
DW7060 to
DW7079

DW7080 to
DW7099
DW7100 to
DW7119
DW7120 to
DW7139
DW7140 to
DW7159
DW7160 to
DW7179
DW7180 to
DW7199
DW7200 to
DW7219
DW7220 to
DW7239
DW7240 to
DW7259

Unit

address

F

DW7500 to
DW7519
DW7520 to
DW7539
DW7540 to
DW7559
DW7560 to
DW7579

DW7580 to
DW7599
DW7600 to
DW7619
DW7620 to
DW7639
DW7640 to
DW7659
DW7660 to
DW7679
DW7680 to
DW7699
DW7700 to
DW7719
DW7720 to
DW7739
DW7740 to
DW7759

Name

Temperature set value (SV) CH1 to CH20

Alarm 1 set value CH1 to CH20

Alarm 2 set value CH1 to CH20

Heater break alarm set value
(H-CT-A module) CH1 to CH20

Operation mode transfer CH1 to CH20

Auto/Manual transfer CH1 to CH20

Manual output value CH1 to CH20

Overlap/deadband CH1 to CH20

Heat-side proportional band CH1 to CH20

Cool-side proportional band CH1 to CH20

Integral time CH1 to CH20

Derivative time CH1 to CH20

PID/AT transfer CH1 to CH20

Continued on the next page.

7. DATA MAP

IMS01J06-E1

35

7. DATA MAP

Continued from the previous page.

Unit

address

C

DW6260 to
DW6279
DW6280 to
DW6299
DW6300 to
DW6319
DW6320 to
DW6339

DW6340 to
DW6359
DW6360 to
DW6379

Unit

address

D

DW6760 to
DW6779
DW6780 to
DW6799
DW6800 to
DW6819
DW6820 to
DW6839

DW6840 to
DW6859
DW6860 to
DW6879

Unit

address

E

DW7260 to
DW7279
DW7280 to
DW7299
DW7300 to
DW7319
DW7320 to
DW7339

DW7340 to
DW7359
DW7360 to
DW7379

Unit

address

F

DW7760 to
DW7779
DW7780 to
DW7799
DW7800 to
DW7819
DW7820 to
DW7839

DW7840 to
DW7859
DW7860 to
DW7879

Name

Temperature measured value (PV)
CH1 to CH20
Heat-side manipulated output value
CH1 to CH20
Cool-side manipulated output value
CH1 to CH20
Current transformer input measured value
(H-CT-A module) CH1 to CH20

TIO status CH1 to CH20

Set value monitor CH1 to CH20

DW6380 DW6880 DW7380 DW7880 Request command

DW6381 DW6881 DW7381 DW7881 PCP communication status

DW6382 DW6882 DW7382 DW7882 PCP normal communication flag

DW6383 to
DW6389

DW6883 to
DW6889

DW7383 to
DW7389

DW7883 to
DW7889

Do not use this address range

DW6390 DW6890 DW7390 DW7890 Memory area number

DW6391 DW6891 DW7391 DW7891 Control RUN/STOP transfer

DW6392 to
DW6399
DW6400 to
DW6419
DW6420 to
DW6439
DW6440 to
DW6499

DW6892 to
DW6899
DW6900 to
DW6919
DW6920 to
DW6939
DW6940 to
DW6999

DW7392 to
DW7399
DW7400 to
DW7419
DW7420 to
DW7439
DW7440 to
DW7499

DW7892 to
DW7899
DW7900 to
DW7919
DW7920 to
DW7939
DW7940 to
DW7999

Do not use this address range

PV bias CH1 to CH20

Setting change rate limiter CH1 to CH20

Do not use this address range

36

IMS01J06-E1

The first edition: SEP. 2004 [IMQ00]

The fifth edition: OCT. 2003 [IMQ00]

RKC INSTRUMENT INC.

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

PHONE: 03-3751-9799 (+81 3 3751 9799)

E-mail: info@rkcinst.co.jp

FAX: 03-3751-8585 (+81 3 3751 8585)

IMS01J06-E1 SEP. 2004