Fuji Electric PXG-9, PXG-5, PXG-4 Communication Instruction Manual

– 1 –

Introduction

Thank you for purchasing the Fuji Digital Temperature Controller.
This document describes how to connect the Micro controller PXG Series (referred to below as "Micro controller") to the personal
computer or programmable controller. It also describes communication specifications for controlling and monitoring the
communications with the micro controller, MODBUS protocol, and address map for the micro controller.
In addition to this document, please make sure to read the Instruction Manual (which comes with the product) and the Operations
Manual (packaged separately).

NOTE

■

Exclusions

The contents of this document may change without prior notice.
Although great care has been taken in the accuracy of this document, Fuji Electric takes no responsibility for loss or indirect
damages caused by mistakes, missing information, or use of information in this document.

– 2 –

Contents

1. Communication Functions

Overview................................................................................ 4

Connecting to a programmable controller.......................... 5

Connecting to a personal computer ................................... 5

2. Specifications

Communication Specifications .............................................. 8

RS-485............................................................................... 8

PC Loader Interface........................................................... 8

3. Connection

Communication Terminal Configuration............................... 10

Wiring .................................................................................. 11

4. Setting Communication Parameters

List of Setting Parameters ................................................... 16

Parameter Setting Procedure .............................................. 17

5. MODBUS Communication Protocol

Overview.............................................................................. 20

Message Composition......................................................... 21

Station No. ....................................................................... 21

Function Code.................................................................. 21

Data Part.......................................................................... 21

Error Check Code ............................................................ 21

Slave Response............................................................... 22

Function Code.................................................................. 23

Calculating Error Check Code (CRC-16)............................. 24

Tr ansmission Control Steps................................................. 25

Master Communication Method ....................................... 25

Explanation ...................................................................... 25

6.

Command and Transmission Frame Details

Reading Data ...................................................................... 28

Reading Read-Only Bit Data (Function Code: 02H) ........ 28

Reading Word Data (Function Code: 03H) ...................... 30

Reading Read-Only Word Data (Function Code: 04H) ....32

Writing Data......................................................................... 34

Writing Word Data (1 word, function code: 06H).............. 34

Writing Continuous Word Data (Function code: 10H) ......36

7. Address Map and Data Format

Data Format......................................................................... 40

Sent Data Format............................................................. 40

Internal Calculation Value and Engineering Unit .............. 40

Managing the Decimal Point ............................................40

Data during Input Error..................................................... 41

Written Data .....................................................................41

Addresses Not Written .....................................................41

Internal Calculation Value Data Address Map .....................42

Bit Data (read only): function code [02 (H)]...................... 42

Word Data (read/write): function code

[03 (H), 06 (H), 10 (H)] .....................................................43

Word Data (read only): function code [04 (H)].................. 63

Engineering Unit Data Address Map ...................................66

Bit Data (read only): function code [02 (H)]...................... 66

8. Sample Program

Sample Program.................................................................. 68

9. Troubleshooting

Troubleshooting ...................................................................78

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1

Chapter

Chapter 1

Communication Functions

Overview – 4

– 4 –

1

Chapter

Overview

•

The micro controller is equipped with communication functions from the RS-485 interface and PC loader interface, which
enables the transmission and reception of data between such devices as the personal computer, programmable controller,
and graphic panel.

•

The communication system is composed of a master and slave relationship. Up to thirty-one slaves (micro controllers) may
be connected to one master (such as a personal computer) based on a “single master/multiple slave” method.

•

However, the master can only communicate with one slave at a time. Therefore, each slave is specified by the "Station No."
setting.With PC loader communication, only one slave can be connected to one master.

•

In order to have proper communication between master and slave, the transmission data must be in the same format. This
document explains how to transmit data using the MODBUS protocol format.

•

When using equipment with an RS-232C interface, such as a personal computer, as the master, make sure to use an RS­232C to RS-485 converter.

•

When using PC loader communication, you can use RS-232C communication with the personal computer by connecting the
PC loader interface on the bottom of this unit with the PC loader communication cable (RS-232C, model:
ZZPPXH1

*

TK4H4563) sold separately.

[RS-232C to RS-485 converter] (Recommended)

Caution

• Systems constructed with the micro controller as slaves do not respond to messages issued by the master
with broadcast queries where the station number is "0".

• PC loader communication is not compatible with the multiple slave method.

Model number/Type

Contact URL

KS3C-10 (insulating type) Made by Omron Corporation http://www.omron.co.jp

RC-77 (insulating type) Made by RA Systems Corporation http://www.ras.co.jp

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1

Chapter

Connecting to a programmable controller

Connecting to a personal computer

Caution

When using the RS-232C to RS-485 converter, check to make sure that the cable is properly connected between the
converter and master. Communication will not work properly if the connection is incorrect.
Also be sure to correctly set the communication settings (such as communication speed and parity) on the RS-232C
to RS-485 converter. Communication will not work properly if the settings are incorrect.

Programmable
controller

RS-485

PXG Series

Personal
computer

RS-232C

PC loader communication cable

RS-232C to RS-485 converter

RS-232C

RS-485

PXG Series

– 6 –

MEMO

1

Chapter

– 7 –

2

Chapter

Chapter 2

Specifications

Communication Specifications – 8

– 8 –

2

Chapter

Communication Specifications

RS-485

PC Loader Interface

Item

Specifications

Electrical specifications EIA RS-485 compliant

Communication method Two wire system, half double-bit serial

Synchronous method Asynchronous

Connection status 1:N

Max. no. of connections 31 units

Communication distance Max 500m (total length)

Communication speed 9600bps, 19200 bps

Data format Data length 8 bits

Stop bit 1 bit

Parity None/Even/Odd (Selectable)

Tr ansmission code HEX value (MODBUS RTU mode)

Error detection CRC-16

Insulation Functional insulation for the transmission area and

other areas (withstanding AC 500V)

Item Specifications

Electrical specifications EIA RS232 C

Communication method 3wire system, half double-bit serial

Synchronous method Asynchronous

Connection status 1:1

Communication speed 9600 bps

Data format Data length 8 bits

Stop bit 1 bit

Parity none

Tr ansmission code HEX value (MODBUS RTU mode)

Error detection CRC-16

Insulation Non-insulated internal circuit

– 9 –

3

Chapter

Chapter 3

Connection

Communication Terminal Configuration – 10

●

Wiring – 11

– 10 –

3

Chapter

Warning

Do not turn on power until all of the wiring is completely finished.
There is a risk of electrical shock or damage.

Communication Terminal Configuration

■ RS-485 (rear terminal)

PXG4

PXG5, PXG9

Te r minal

Number

Signal Name

7 RS-485 +

8 RS-485 -

Te r minal

Number

Signal Name

1 RS-485 +

2 RS-485 -

1

2

3

4

5

6

7

8

9

10

11

12

13

14

15

16

17

18

1

2

3

4

5

6

7

8

9

10

11

12

25

26

27

28

29

30

31

32

33

34

35

36

■ PC Loader Interface

(Bottom, φ2.5, three prong miniature jack)

PXG4

PXG5

PXG9

PC Loader Interface

PC Loader Interface

PC Loader Interface

– 11 –

3

Chapter

Wiring

■

RS-485

•

Please use a shielded twist pair cable. (Recommended cable: KPEV-SB (made by The Furukawa Electric Co., Ltd.))

•

The maximum cable length should be 500m. One master and up to thirty-one micro controllers (slaves) can be connected per
circuit.

•

Te r minate both ends of the circuit with a terminating resistance of 100Ω (1/2W or more).

•

Ground the shielded cable once towards the master side.

•

SG does not have to be connected, but it can be used as an effective countermeasure against communication errors due to
noise.

Master

SG

Slave

+

–

+

–

Shielded twist pair cable

Te r minating resistance
100W (1/2W)

Te r minating resistance
100W (1/2W)

PXG Series

PXG Series

PXG Series

RS-485 interface

or

RS-485 side of

RS-232C to RS-485 converter

+

–

+

–

– 12 –

3

Chapter

•

When using the micro controller in an area where the imposed noise level is expected to exceed 1000V, we recommend using
a noise filter on the master side as seen in the figure below.
[Noise filter] (recommended): ZRAC2203-11 (made by TDK Corporation)

•

If there are problems with EMC during communication, the noise level can be reduced by using a communication cable with a
ferrite core.
Ferrite core (recommended): ZCAT series (made by TDK Corporation)

MSFC series (made by Morimiya Electric Co., Ltd.)

Noise filter

Programmable controller

or

Personal computer

+ RS-232C to RS-485 converter

RS-485

PXG Series

– 13 –

3

Chapter

■

PC Loader Interface

•

Use the PC loader communication cable (RS-232C) sold separately.

PXG4

PXG5

PXG9

PC loader communication cable (RS-232C)

Master side

RS-232C

D-Sub 9 pin

PXG4 Bottom view

Personal
computer
etc.

ZZPPXH1*TK4H4563

Master side

RS-232C

D-Sub 9 pin

PXG5 Bottom view

Personal
computer
etc.

PC loader communication cable (RS-232C)

ZZPPXH1

*

TK4H4563

Master side

RS-232C

D-Sub 9 pin

PXG9 Bottom view

Personal
computer
etc.

PC loader communication cable (RS-232C)

ZZPPXH1*TK4H4563

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MEMO

3

Chapter

– 15 –

4

Chapter

Chapter 4

Setting Communication Parameters

List of Setting Parameters – 16

●

Parameter Setting Procedure – 17

– 16 –

4

Chapter

The following settings are required for proper communication between the master and micro controller units.

• The communication parameters for the master and all of the units must be set the same.

• During RS-485 communication, all of the micro controllers on a circuit must be set with different "Station No. (STno)" other

than "0 (zero)". (Multiple micro controllers must not have the same "Station No.".)

• When using the PC loader interface, settings are not necessary on the main unit (the micro controller).

The setting parameters are shown in the chart shown below. Change the settings using the keys on the front of the micro
controller.

■ RS-485 (main unit side)

■ Loader interface (main unit side)

The parameters do not need to be set. Set the loader software (master) with the following settings.

• Communication speed: 9600 bps

• Parity: none

List of Setting Parameters

Parameter

channel

Parameter

display symbol

Parameter name

Initial
value

Setting range Remarks

"CC

CCooooMMMM CCCChhhh9999

"

(CoM Ch9)

"SS

SSTTTTnnnnoooo

" (STno) Station No. 1 0 to 255 Unit does not respond to communication when 0

is set.

"CC

CCooooMMMM

" (CoM) Parity settings 96od 96od (9600 bps/odd)

96Ev (9600 bps/even)
96no (9600 bps/none)
19od (19200 bps/odd)
19Ev (19200 bps/even)
19no (19200 bps/none)

This is the procedure to specify communications
speed and parity check.
Set the master and all of the slaves with the
same settings.

"SS

SSCCCCCCCC

" (SCC) Communication

permissions

rW r (read only)

rW (read and writable)

– Data length 8 bits Fixed (cannot be changed) Set the master and all of the slaves with the

same settings.

– Stop bit 1 bit Fixed (cannot be changed)

– 17 –

4

Chapter

Parameter Setting Procedure

The following steps explain how to change the settings to station number "3", parity setting "9600bps/none", and communication
permissions "read and writable" as an example.

(Note) If your micro controller does not have a communication function, "CCCCooooMMMM CCCChhhh 9999" will not be displayed. Please check with your
model.

1

Press and hold the key to display "MMMMvvvv1111".

The MV1 of the monitoring screen is displayed.

2

Press and hold the key to display the setup mode operation
menu
("ooooPPPPEEEE CCCChhhh 1111"), then use the keys to display "CCCCooooMMMM CCCChhhh 9999".

The communication menu is displayed.

3

Press and hold the key, the use the keys to display
"SSSSTTTTnnnnoooo."

The station number is displayed.

4

Press the key, then use the keys to set station
number to "3" when the bottom part of the display begins to blink.

This sets the parameter to "3".

5

Press the key to confirm the setting.

6

Use the keys to select the parity setting ("CCCCooooMMMM").

7

Press the key, then use the keys to set the parity
setting to "96no" when the bottom part of the display begins to
blink.

The parity setting is set to "9600 bps/none".

8

Press the key to confirm the setting.

9

Use the keys to select the communication permissions
("SSSSCCCCCCCC").

10

Press the key, then use the keys to set the protocol to
"rW" when the bottom part of the display begins to blink.

"read/write" is selected.

11

Press the key to confirm the setting.

– 18 –

4

Chapter

12

Press the key to return to the operation mode PV/SV display.

13

Turn the power to the micro controller off and on again.

The changes to the communication parameters become effective after
the power turns off and on again.

– 19 –

5

Chapter

Chapter 5

MODBUS Communication Protocol

Overview – 20

●

Message Composition – 21

●

Calculating Error Check Code (CRC-16) – 24

●

Transmission Control Steps – 25

– 20 –

5

Chapter

Overview

The communication system with the MODBUS protocol always operates using a method where the master first sends a command
message and the applicable slave replys with a response message.
The following describes the communication steps.

● When the station number in the command message is the same as the unit’s station number

● When the station number in the command message is not the same as the unit’s station number

The master can communicate with an individual slave when multiple slaves are connected on the same circuit by the station
number specified in the master’s command message.

Master sends the command
message for the slave.

The slave checks whether the station
number in the received message is
the same as its own station number.

The slave runs the command and
sends a response message.

The slave throws out the received
message and waits for the next
command message. (No reply.)

When it’s the same When it’s not the same

Master Slave

Command Message

Response Message

Station number is the same

Master Slave

Command Message

Station number is not the same

– 21 –

5

Chapter

Message Composition

The command message and response message are composed of four parts: the station number, function code, data part, and
error check code. These four parts are sent in that order.

The following describes each part of the message.

Station No.

This is the number specifying the slave. Commands can only be processed by slaves that have the same value set in the "STno"
parameter.

Function Code

This code specifies the function for the slave to perform.

Data Part

This data is required to run the function code. The composition of the data part is different depending on the function code.

The data in the micro controller is assigned a coil number or resistor number. This coil number or resistor number is specified
when the data is read or written through communication.
The coil number or resistor number used by the message employs a relative address.
The relative address is calculated using the following formula.

Relative address = (last four digits of the coil number or resistor number) – 1

(Ex.) When a function code specifies resistor number "40003"

Relative address= (the last four digits of 40003) – 1

= 0002

is used in the message.

Error Check Code

This code detects whether there are errors (changes in the bits) during the signal transmission processes. MODBUS protocol
(RTU mode) uses CRC-16 (Cyclic Redundancy Check).

Field name No. of bytes

Station No. 1 byte

Function Code 1 byte

Data Part 2 to 125 bytes

Error Check Code (CRC-16) 2 bytes

Refer to

For more about setting the "STno" parameter, see "Chapter 4,
Setting Communication Parameters" (p. 15).

Refer to

For more about function codes, see "Function Code" (p. 23).

Refer to

See "Chapter 6, Message Details" (p. 27).

Refer to

For more about calculating CRC, see Section 5,
"Calculating Error Check Code (CRC-16)" (p. 24).

– 22 –

5

Chapter

Slave Response

■ Normal Slave Response
The slave creates and replies with a response message for each command message. The response message has the same
format as the command message.
The contents of the data part are different depending on the function code.

■ Irregular Slave Response
If there are problems (such as specification of a nonexistent function code) with the contents of the command message other than
transmission error, the slave creates and replies with an error response message without following the command.
The composition of the error response message uses the value of the function code in the command message plus 80

H, as seen

below.

The error code is shown as follows.

■ No Response
In the following situations, the slave will ignore the command message and not send a response message.

• The station number specified by the command message is not the same as the slave’s specified station number.

• The error check code does not correspond, or a transmission error (such as parity error) is detected.

• The interval between the data comprising the message is empty for more than 24 bit time.

• The slave station number is set to "0".

Refer to

See "Chapter 6, Message Details".

Field name No. of bytes

Station No. 1 byte

Function Code

+80

H

1 byte

Error Code 1 byte

Error Check Code (CRC-16) 2 bytes

Error Code Contents Explanation

01

H

Faulty function code A nonexistent function code was specified. Please check the function code.

02

H

Faulty address for coil or resistor The specified relative address for the coil number or resistor number cannot be

used by the specified function code.

03

H

Faulty coil or resistor number The specified number is too large and specifies a range that does not contain

coil numbers or resistor numbers.

Refer to

See Section 5 "Transmission Control Steps" (p. 25).

– 23 –

5

Chapter

Function Code

For MODBUS protocol, coil numbers or resistor numbers are assigned by the function code, and each function code
only works for the assigned coil number or resistor number.
The correspondence between the function code and the coil number or resistor number is as follows.

The message length for each function is as follows.

[unit: byte]

*

1: "Assignable Data Number" above is limited by the data number that the micro controller assigned to the coil number or

address number.
(Excluding function code 06

H

).

Function Code

Coil Number, Resistor Number

Code Function Target Number Contents

02

H

Read (continuous) Input relay 1xxxx Read bit data

03

H

Read (continuous) Hold resistor 3xxxx Read word data

04

H

Read (continuous) Input resistor

4xxxx Read/write word data06

H

Write Hold resistor

10

H

Write (continuous) Retention resistor

Code Contents

Assignable

Data Number

Command Message Response Message

Minimum Maximum Minimum Maximum

02

H

Read bit data (read-only) 8 bit

*

1

8866

03

H

Read word data 60 words

*

1

887125

04

H

Read word data (read-only) 37 words

*

1

88779

06

H

Write word data 1 word 8888

10

H

Continuously write word data 60 words

*

1

11 129 8 8

– 24 –

5

Chapter

Calculating Error Check Code (CRC-16)

CRC-16 is a 2-byte (16-bit) error check code. The calculation range extends from the start of the message (station number) to the
end of the data part.
The slave calculates the CRC of the received message and ignores the message if this value is not the same as the received
CRC code.
CRC-16 is calculated as follows.

YES

YES

NO

NO

YES

* Description of Variables

CR : CRC error check data (2 byte)
J:Command message calculation

character digit

K:No. of times to check CR calculation

Start

Set J = 1

Set K = 1

Add 1 to K

Complete

Add 1 to J

Set CR to FFFF

H (hexadecimal)

Exclusive-or (XOR) runs on each character of J (one byte) for CR
and the specified message, and sets that result to CR.

After CR has been adjusted one bit to the right, A001

H and XOR

run and set that result to CR.

Is the right-hand

bit for CR 1?

NO

Adjust CR one bit
to the right.

Has calculation

finished 8 times ?

J > 8

Has every character

been calculated ?

J > Number of characters

(Calculations occur in the order
command message station number,
function code, and data.)

The CR calculation result is added
onto the end of the command
message in LOW or HIGH order.

– 25 –

5

Chapter

Transmission Control Steps

Master Communication Method

Start communication from the master while following the rules below.

1. The command message, must be sent after an empty space of at least 48 bit time.

2. The interval between each byte in a command message should be less than 24 bit time.

3. After sending a command message, for less than 24 bit time the master will enter receiving standby.

4. After receiving the response message, the next command message must be sent after at least 48 bit time. (Similar to #1.)

5. For safety reasons, create a framework where the master checks the response message, and if there is no response or an
error occurs, retry at least three times.

Explanation

■

Frame Detection

This communication system uses a two-wire RS-485 interface, and the circuit can therefore enter one of the following two states.

•

Empty state (no data on the circuit)

•

Communication state (data running on the circuit)

The units connected on the circuit start in receiving state and monitor the circuit. When a blank state appears on the circuit for at least
24 bit time, the unit detects the end of the previous frame, and within the next 24 bit time, enters receiving standby. When data
appears on the circuit, the unit begins receiving data, and once another blank state of at least 24 bit time is detected, that frame is
ended. In other words, the data on the circuit from the first time that a 24 bit time blank state appears to the second time one appears
is loaded as one frame (a bundle of data). Therefore, one frame (command message) must be sent while following the rules below.

•

Before sending the command message, leave an empty space of at least 48 bit time.

•

The interval between each byte in a command message should be less than 24 bit time.

■

Micro controller Response
After the micro controller detects the frame (detects blank states at least 24 bit time long), that frame is used to send a command
message. When a command message is sent locally, the response message is returned, but the processing time is about 1 to 30
ms. (The time may change depending on the contents of the command message. ) Therefore, one frame (command message)
must be sent while following the rules below.

•

After sending a command message, for less than 24 seconds the master will enter receiving standby.

Caution

The definitions written above are for the minimum required value. For safety reasons, we recommend creating a
master side program that keeps margins two to three times as large. For a concrete example, with 9600 bps, we
recommend programming a blank state (#1 above) of at least 10ms, and the interval between bytes (#2 above) and
switching time from sending to receiving (#3 above) within 1 ms.

Master

POL1

POL1 response data

POL2 response data

Slave

POL2

1 to 30ms

1 to 30ms

Interval of at least 5ms required
(at least 10ms recommended)

– 26 –

MEMO

5

Chapter

– 27 –

6

Chapter

Chapter 6

Command and Transmission Frame

Details

Reading Data – 28

●

Writing Data – 34

– 28 –

6

Chapter

Reading Data

Reading Read-Only Bit Data (Function Code: 02H)

The unit reads bit data continuously for the specified number of bits from the first number to start reading from.
The slaves systematically send the read data in 8-bit units.

Message Composition

Caution

When the number of bits to be read is not a multiple of eight, unrelated bits (on the MSB side) all become "0".

Function Code 02H

Max. No. of Bits to Read in One Message 8 bits

Relative Address 0000H to 000CH

Coil Number 10001H to 10013H

Master Slave

Command Message (bytes)

Station No.

Function Code

Number to Start Reading
(Relative Address)

Upper number

Lower number

No. of Bits to Read

00H

Lower number

CRC Data

Upper number

Lower number

Reply Message Composition (bytes)

Station No.

Function Code

No. of Bytes to Read (01H)

State of first 8 bits

CRC Data

Upper number

Lower number

■

Bit Data to Read List

MSB LSB

State of first 1 bit

State of last 1 bit

00000000

– 29 –

6

Chapter

Example of Transmitting a Message

This following example explains how to read ALM1 and ALM2 on station number 31.

• ALM1 detection data bit Relative address: 0000H Data number: 2H

• ALM2 detection data bit Relative address: 0001H

Master Slave

Command Message (bytes)

Station No. 1FH

Function Code 02H

No. to Start Reading
(Relative Address)

Upper number 00H

Lower number 00H

No. of Bits to Read Upper number 00H

Lower number 02H

CRC Data Upper number FAH

Lower number 75H

Response Message (bytes)

Station No. 1FH

Function Code 02H

No. of Bytes to Read 01H

State of first 8 bits 01H

CRC Data Upper number 66H

Lower number 60H

■

Meaning of Read Data

MSB LSB

ALM1 ON state

ALM2 OFF state

00000001

– 30 –

6

Chapter

Reading Word Data (Function Code: 03H)

The unit reads word data continuously for the specified number of words from the first number to start reading from.
The slave forwards the read word data from the upper number of bytes to the lower number.

Message Composition

Function Code 03H

Max. No. of Words to Read in One Message 60 words

Relative Address 0000H to 0276H 03E8H to 065EH

Resistor Number 40001 to 40628 41001 to 41628

Contents

Internal Calculation
Value

Engineering Unit

Master Slave

Command Message Composition

(bytes)

Station No.

Function Code

No. to Start Reading
(Relative Address)

Upper number

Lower number

No. of Words to Read
(1 to 60 words)

Upper number

Lower number

CRC Data

Upper number

Lower number

Reply Message Composition (bytes)

Station No.

Function Code

No. of Bytes to Read
(No. of Words to Read x 2)

First Word Data
Contents

Upper number

Lower number

Next Word Data
Contents

Upper number

Lower number

Last Word Data
Contents

Upper number

Lower number

CRC Data

Upper number

Lower number

■

Meaning of Read Word Data

MSB LSB

First Word Data upper byte

First Word Data lower byte

Next Word Data upper byte

Next Word Data lower byte

Last Word Data upper byte

Last Word Data lower byte

– 31 –

6

Chapter

Example of Transmitting a Message (For Engineering Unit)

The message is composed as follows when reading the PV input lower limit and PV input upper limit from station number 2.

• PV Lower Limit Relative Address: 03F9H

■

Meaning of Read Data

PV Input Lower Limit 00 00H = 0
PV Input Upper Limit 01 90H = 400

If Decimal Point Position = 0, then the PV input upper limit and lower limit are as follows.
PV Lower Limit = 0°C
PV Upper Limit = 400°C

Refer to

For more about the internal calculation value, engineering unit,
and decimal point see
"Chapter 7, Address Map and Data Configuration" (p. 39).

Master Slave

Command Message (bytes)

Station No. 02H

Function Code 03H

No. to Start Reading
(Relative Address)

Upper number 03H

Lower number F9H

No. of Words to Read

Upper number 00H

Lower number 02H

CRC Data

Upper number 14H

Lower number 4DH

Response Message (bytes)

Station No. 02H

Function Code 03H

No. of Bytes to Read 04H

First Word Data
Contents

Upper number 00H

Lower number 00H

Next Word
Data Contents

Upper number 01H

Lower number 90H

CRC Data

Upper number C8H

Lower number CFH

– 32 –

6

Chapter

Reading Read-Only Word Data (Function Code: 04H)

The unit reads word data continuously for the specified number of words from the first number to start reading from.
The slave forwards the read word data from the upper number of bytes to the lower number.

Message Composition

Function Code 04H

Max. No. of Words to Read in One Message 37 bytes

Relative Address 0000H to 0064H 03E8H to 044CH

Resistor Number 30001 to 30100 31001 to 31100

Contents Internal Calculation Value Engineering Unit

Master Slave

Command Message Composition

(bytes)

Station No.

Function Code

No. to Start Reading
(Relative Address)

Upper number

Lower number

No. of Words to Read
(1 to 15 words)

Upper number

Lower number

CRC Data

Upper number

Lower number

Reply Message Composition (bytes)

Station No.

Function Code

No. of Bytes to Read
(No. of Words to Read x 2)

First Word Data
Contents

Upper number

Lower number

Next Word Data
Contents

Upper number

Lower number

Last Word Data
Contents

Upper number

Lower number

CRC Data

Upper number

Lower number

■ Meaning of Read Word Data

MSB LSB

First Word Data upper byte

First Word Data lower byte

Next Word Data upper byte

Next Word Data lower byte

Last Word Data upper byte

Last Word Data lower byte

– 33 –

6

Chapter

Example of Transmitting a Message (Internal Calculation Data)

The message is composed as follows when reading the PV input value from station number 1.

• PV value relative address: 0000H Data number: 01H

■ Meaning of Read Data

Word Data Contents 03 46H = 838 (8.38% FS)
When the input range is 0 to 400°C
PV = 33.5°C (= 8.38FS x 400 (input range width))

Example of Transmitting a Message (For Engineering Unit)

The message is composed as follows when reading the PV value from station number 1.

• PV value relative address: 03E8H Data number: 01H

■ Meaning of Read Data

Word Data Contents 01 4FH = 335
When the decimal point position = 1
PV = 33.5°C

Refer to

For more about the internal calculation value, engineering unit,
and decimal point see
"Chapter 7, Address Map and Data Configuration" (p. 39).

Refer to

For more about the internal calculation value, engineering unit,
and decimal point see
"Chapter 7, Address Map and Data Configuration" (p. 39).

Master Slave

Command Message (bytes)

Station No. 01H

Function Code 04H

No. to Start Reading
(Relative Address)

Upper number 00H

Lower number 00H

No. of Bits to Read

Upper number 00H

Lower number 01H

CRC Data

Upper number 31H

Lower number CAH

Response Message (bytes)

Station No. 01H

Function Code 04H

No. of Bytes to Read 02H

First Word Data
Contents

Upper number 03H

Lower number 46H

CRC Data

Upper number 38H

Lower number 32H

Master Slave

Command Message (bytes)

Station No. 01H

Function Code 04H

No. to Start Reading
(Relative Address)

Upper number 03H

Lower number E8H

No. of Words to Read

Upper number 00H

Lower number 01H

CRC Data

Upper number B1H

Lower number BAH

Response Message (bytes)

Station No. 01H

Function Code 04H

No. of Bytes to Read 02H

First Word Data
Contents

Upper number 01H

Lower number 4FH

CRC Data

Upper number F9H

Lower number 54H

– 34 –

6

Chapter

Writing Data

Writing Word Data (1 word, function code: 06H)

This writes the specified data to the specified number for word data. The master sends the data to be written from the upper
number of bytes to the lower number.

Message Composition

Function Code 06H

Max. No. of Bits to Read in One Message 1 words

Relative Address 0001H to 0274H 03E9H to 065CH

Resistor Number 40002 to 40628 41002 to 41628

Contents Internal Calculation

Value

Engineering Unit

Master Slave

Command Message Composition
(bytes)

Station No.

Function Code

Specified Write Number
(Relative Address)

Upper number

Lower number

Word Data to Write

Upper number

Lower number

CRC Data

Upper number

Lower number

Response Message Composition
(bytes)

Station No.

Function Code

Specified Write
Number
(Relative Address)

Upper number

Lower number

Word Data to
Write

Upper number

Lower number

CRC Data

Upper number

Lower number

– 35 –

6

Chapter

Example of Transmitting a Message

This example explains how to set PID parameter "P" to 100.0 (1000D = 03E8H) on station number 1.
Parameter "P" relative address: 0005H (internal calculation value table)

03EDH (initial value table)

Point

For more about the internal calculation value, engineering unit, and decimal point see "Transmission Data
Format" (p. 40).

Master Slave

Command Message (bytes)

Station No. 01H

Function Code 06H

Specified Write
Number
(Relative Address)

Upper number 00H

Lower number 05H

Word Data to Write

Upper number 03H

Lower number E8H

CRC Data

Upper number 99H

Lower number 75H

Response Message (bytes)

Station No. 01H

Function Code 06H

Specified Write
Number
(Relative Address)

Upper number 00H

Lower number 05H

Write Specification
State

Upper number 03H

Lower number E8H

CRC Data

Upper number 99H

Lower number 75H

– 36 –

6

Chapter

Writing Continuous Word Data (Function code: 10H)

This writes continuous word information for a number of written words from the first number for writing.
The master sends the data to be written from the upper number of bytes to the lower number.

Message Composition

Function Code 10H

Max. No. of Bits to Read in One Message 60 words

Relative Address 0000H to 0077H 03E8H to 045FH

Resistor Number 40001 to 40120 41001 to 41120

Contents Internal Calculation

Value

Engineering Unit

Master Slave

Command Message Composition (bytes)

Station No.

Function Code

Specified Write

Number (Relative

Address)

Upper number

Lower number

No. of Words to Write Upper number

Lower number

No. of Bytes to Write

First Word Data to

Write

Upper number

Lower number

Next Word Data to

Write

Upper number

Lower number

Last Word Data to

Write

Upper number

Lower number

CRC Data Upper number

Lower number

Reply Message Composition (bytes)

Station No.

Function Code

Specified Write
Number (Relative
Address)

Upper number

Lower number

No. of Words to
Write

Upper number

Lower number

CRC Data Upper number

Lower number

■ Meaning of Read Word Data

MSB LSB

First Word Data upper byte

First Word Data lower byte

Next Word Data upper byte

Next Word Data lower byte

Last Word Data upper byte

Last Word Data lower byte

}

1 to 60

} No. of Words

to Write x 2

– 37 –

6

Chapter

Example of Transmitting a Message (Internal Calculation Data)

The message is composed as follows when writing the following PID parameters to station number 1.

P = 100.0 (= 1000D = 03E8H)
I = 10 (= 100D = 0064)
D = 5.0 (= 50D = 0032H)

•Parameter “PPPP” relative address: 0005H, Data number: 03H

Point

The decimal point cannot be included in the sent data, so data such as “100.0” above is sent as “1000”.

Refer to

For each type of send data format, see “Chapter 7, Address
Map and Data Configuration” (p. 39).

Master Slave

Command Message (bytes)

Station No. 01H

Function Code 10H

Specified Write
Number (Relative
Address)

Upper number 00H

Lower number 05H

No. of Words to
Write

Upper number 00H

Lower number 03H

No. of Bytes to Write 06H

First Word Data to
Write

Upper number 03H

Lower number E8H

Next Word Data to
Write

Upper number 00H

Lower number 64H

Last Word Data to
Write

Upper number 00H

Lower number 32H

CRC Data Upper number 56H

Lower number BEH

Response Message (bytes)

Station No. 01H

Function Code 10H

Specified Write
Number
(Relative Address)

Upper number 00H

Lower number 05H

Write Specification
State

Upper number 00H

Lower number 03H

CRC Data

Upper number 90H

Lower number 09H

– 38 –

MEMO

6

Chapter

– 39 –

7

Chapter

Chapter 7

Address Map and Data Format

Data Format – 40

●

Internal Calculation Value Data Address Map – 42

●

Engineering Unit Data Address Map – 66

– 40 –

7

Chapter

Data Format

Sent Data Format

The MODBUS protocol used by this equipment employs RTU (Remote Terminal Unit) mode. The data is sent as "numerical
value", not as ASCII code.

Internal Calculation Value and Engineering Unit

In this unit, parameter data and data dependent on an input range can handle the following two types of data.
Internal Calculation Value: Values listed as percentages of the input range (0.00 to 100.00, without decimal point)
Engineering Unit: Values subjected to scaling to actual values depending on the input range

"Engineering Unit" data is handled as the address (resister number) of 1000 added to the address (resister number) for "Internal
Calculation Value".

(Ex.) The value is calculated as follows when the full scale is 400°C and the PV value is "150".

The PV value is received as follows.

37.50 (%) x 400 (full scale °C) = 150 °C

Data not dependent on an input range the same data in both addresses.
Also, bit data cannot be handled in this manner. (Not effective for addresses with 1,000 added.)

(Ex.) When changing the input range from 0 to 400 to 0.0 to 400.0

■ Operating the keys on the front of the equipment

Change the position of the decimal point ("PPPPvvvvdddd") in the setup menu ("SSSSEEEETTTT CCCChhhh 6666").
"PPPPvvvvdddd" = 0 → 1 (or 2)

■ Changing by communication

Set the decimal position parameter ("PPPPvvvvdddd"), as well as the corresponding values for PF input lower limit ("PPPPvvvvbbbb") and PV input
upper limit ("PPPPvvvvFFFF").
"PPPPvvvvdddd" = 0 → 1
"PPPPvvvvbbbb" = 0 → 0
"PPPPvvvvFFFF" = 400 → 400

Managing the Decimal Point

Some of the internally stored data may contain may digits lower than the decimal point on the front display. Also, the decimal point
is not added to sent data.
Carry out processes for the decimal point position (erasing the decimal point when sending data and adding the decimal point
when receiving data).
Attention must be paid to the position of the decimal point for data where the parameters are dependent on a range in "Chapter 7
Address Map and Data Format". Refer to Address Map.

Class Resistor Number Data (HEX) Data

Internal Calculation Value 30001 0EA6 (H)

→

3750 (37.5%)

Engineering unit 31001 0096 (H) 150

Refer to

For more about data dependent on an input range, see
"Chapter 7 Address Map and Data Format" (page xx).

Caution

Pay attention to the position of the decimal point when changing the input range by writing with communication. When
changing the position of the decimal point by writing with communication, change the lower limit and upper limit of the
input range at the same time.

– 41 –

7

Chapter

Data during Input Error

For situations such as overrange, underrange, and input breaks where "UUUUUUUUUUUUUUUU" or "LLLLLLLLLLLLLLLL" display on the front, read PV value
becomes 105% or -5% of the input range.
Input errors can be detected via communication using "resistor number 30008 (or 31008): Input/Unit Error Status".

Written Data

When writing data to each parameter, set that written data within the range for the data. PXG can accept written data outside of
the range, but do so with care as correct operations are not guaranteed.

Addresses Not Written

Do not write to addresses that are not public. Doing so may cause damage.

– 42 –

7

Chapter

Internal Calculation Value Data Address Map

Handles data dependent on an input range as an internal value before scaling (0.00 to 100.00%).

See "Operation Manual" for more details about individual parameter functions and settings ranges.

Bit Data (read only): function code [02 (H)]

Relative

address

Coil

Number

Type

Memory

contents

Read data

Dependent

on range

Remarks/

related

parameters

0000H 10001 bit ALM1 ON/OFF 0: Alarm OFF

1: Alarm ON

00001H 10002 bit ALM2 ON/OFF 0: Alarm OFF

1: Alarm ON

00002H 10003 bit ALM3 ON/OFF 0: Alarm OFF

1: Alarm ON

00003H 10004 bit ALM4 ON/OFF 0: Alarm OFF

1: Alarm ON

00004H 10005 bit ALM5 ON/OFF 0: Alarm OFF

1: Alarm ON

00008H 10009 bit D01 ON/OFF 0: DO OFF

1: DO ON

00009H 10010 bit D02 ON/OFF 0: DO OFF

1: DO ON

0000AH 10011 bit D03 ON/OFF 0: DO OFF

1: DO ON

0000BH 10012 bit D04 ON/OFF 0: DO OFF

1: DO ON

0000C

H 10013 bit D05 ON/OFF 0: DO OFF

1: DO ON

– 43 –

7

Chapter

Word Data (read/write): function code [03 (H), 06 (H), 10 (H)]

Operation (Ch1)

Parameter

display

Parameter

name

Contents

Relative
address

Resistor Number

Type Read data

Written data

range

Factory
Setting

Dependent
on range

Internal

Engineering

unit

"

MMMMaaaann

nn

"

MAn Switches to manual mode 0088

H

40121 41121 Word 0: oFF (during auto)

1: on (during manual)

0: oFF (auto)

1: on (manual)

oFF

"

SSSSTTTTbbbbYY

YY

"

STbY Switches between RUN

and standby

0003

H

40004 41004 Word 0: oFF (during RUN)

1: on (during standby)

oFF

"

rrrrEEEEMM

MM

"

rEM Switches to remote mode 0084

H

40117 41117 Word

0: LoCL (during Local)
1: rEM (during Remote)

0: LoCL (Local)

1: rEM (Remote)

LoCL

"

PPPPrrrrGG

GG

"

PrG Ramp/soak controls

Command

0061

H

40082 41082 Word 0: oFF (during stop)

1: rUn (during run)
2: hLd (during hold)

0: oFF (stop)
1: rUn (run)
2: hLd (hold)

oFF

"

AAAAtt

tt

"

AT Auto-tuning

run command

0004

H

40005 41005 Word 0: oFF

1: rUn
2: Low

oFF

"

LLLLAAAACCCChh

hh

"

LACh Cancels the DO output

latch Command

00B0

H

40161 41161 Word 0: oFF

1: rST (latch reset)

oFF

"

SSSSvvvvnn

nn

"

Svn

Selectable SV numbers

00F2

H

40221 41221 Word 0: Sv0 (Local SV)

1: Sv1 (SV = SV-1)
2: Sv2 (SV = SV-2)
3: Sv3 (SV = SV-3)
4: Sv4 (SV = SV-4)
5: Sv5 (SV = SV-5)
6: Sv6 (SV = SV-6)
7: Sv7 (SV = SV-7)
8: di : SV = choose Di

Sv0

"

PPPPLLLLnnnn11

11

"

PLn1

Currently selected PID No.

00F3

H

40222 41222 Word 0: PID0 (PID group local)

1: PID1 (PID group No. 1)
2: PID2 (PID group No. 2)
3: PID3 (PID group No. 3)
4: PID4 (PID group No. 4)
5: PID5 (PID group No. 5)
6: PID6 (PID group No. 6)
7: PID7 (PID group No. 7)
8: di (PID group Di selection)

PID0

"

AAAALLLL11

11

"

AL1 ALM1 set value or A1-L 003B

H

40044 41044 Word 0% to 100% FS 10°C

"

AAAALLLL1111LL

LL

"

AL1L AL1L set value 00B2

H

40163 41163 Word 0% to 100% FS (absolute alarm)

-100% to 100 % FS (deviation alarm)

"

AAAALLLL1111hh

hh

"

AL1h AL1h set value 00B3

H

40164 41164 Word 0% to 100% FS (absolute alarm)

-100% to 100 % FS (deviation alarm)

"

AAAALLLL22

22

"

AL2 ALM2 set value or A2-L 003C

H

40045 41045 Word 0% to 100% FS 10°C

"

AAAALLLL2222LL

LL

"

AL2L AL2L set value 00B9

H

40170 41170 Word 0% to 100% FS (absolute alarm)

-100% to 100 % FS (deviation alarm)

"

AAAALLLL2222hh

hh

"

AL2h AL2h set value 00BA

H

40171 41171 Word 0% to 100% FS (absolute alarm)

-100% to 100 % FS (deviation alarm)

"

AAAALLLL33

33

"

AL3 ALM3 set value or A3-L 003D

H

40046 41046 Word 0% to 100% FS 10°C

"

AAAALLLL3333LL

LL

"

AL3L AL3L set value 00C0

H

40177 41177 Word 0% to 100% FS (absolute alarm)

-100% to 100 % FS (deviation alarm)

"

AAAALLLL3333hh

hh

"

AL3h AL3h set value 00C1

H

40178 41178 Word 0% to 100% FS (absolute alarm)

-100% to 100 % FS (deviation alarm)

"

AAAALLLL44

44

"

AL4 ALM4 set value or A4-L 00C7

H

40184 41184 Word 0% to 100% FS 10°C

"

AAAALLLL4444LL

LL

"

AL4L AL4L set value 00C7

H

40184 41184 Word 0% to 100% FS (absolute alarm)

-100% to 100 % FS (deviation alarm)

– 44 –

7

Chapter

PID (Ch2)

"

AAAALLLL44

44

h

"

AL4h AL4h set value 00C8

H

40185 41185 Word 0% to 100% FS (absolute alarm)

-100% to 100 % FS (deviation alarm)

"

AAAALLLL55

55

"

AL5 ALM5 set value or A5-L 00CE

H

40191 41191 Word 0% to 100% FS 10°C

"

AAAALLLL5555LL

LL

"

AL5L AL5L set value 00CE

H

40191 41191 Word 0% to 100% FS (absolute alarm)

-100% to 100 % FS (deviation alarm)

"

AAAALLLL5555hh

hh

"

AL5h AL5h set value 00CF

H

40192 41192 Word 0% to 100% FS (absolute alarm)

-100% to 100 % FS (deviation alarm)

"

LLLLooooCC

CC

"

LoC Key lock 0037

H

40040 41040 Word 0 : no lock

1 : all lock
2 : All but SV locked

Parameter

display

Parameter

name

Contents

Relative
address

Resistor Number

Type

Read data

Written data

range

Factory Setting

Dependent
on range

Internal

Engineering

unit

"

PP

PP

"

P Proportional band 0005

H

40006 41006 Word 0 to 9999 (0.0% to 999.9%) 5.0%

"

II

II

"

I Integration time 0006

H

40007 41007 Word 0 to 32000 (0 to 3200 sec) 240 sec

"

dd

dd

"

D Derivation time 0007

H

40008 41008 Word 0 to 9999 (0.0 to 999.9sec) 60.0 sec

"

hhhhYYYYSS

SS

"

hYS

ON/OFF control hysteresis

0008

H

40009 41009 Word 0% to 50% FS 1°C

"

CCCCooooLL

LL

"

CoL Cooling proportional

band coefficient

0009

H

40010 41010 Word 0.0 to 100.0 1.0

"

ddddbb

bb

"

db Dead band 000A

H

40011 41011 Word -50 to 50% 0%

"

bbbbAAAALL

LL

"

bAL

Output convergence value

000C

H

40013 41013 Word -100 to 100%

0/50 (single/dual)

"

AAAArr

rr

"

Ar Anti-reset windup 000B

H

40012 41012 Word 0% to 100% FS 100%

"

rrrrEEEEvv

vv

"

rEv Sets normal/reverse

operations

0067

H

40088 41088 Word 0: rv-- (heat (reverse)

/ cool (none))

1: no-- (heat (normal)

/ cool (none))

2: rvno (heat (reverse)

/ cool (normal))

3: norv (heat (normal)

/ cool (reverse))

4: rvrv (heat (reverse)

/ cool (reverse))

5: nono (heat (normal)

/ cool (normal))

rv--/rvno (single/ dual)

"

SSSSvvvvLL

LL

"

SvL SV limit (lower) 002E

H

40031 41031 Word 0% to 100% FS 0% FS

"

SSSSvvvvhh

hh

"

Svh SV limit (upper) 002F

H

40032 41032 Word 0% to 100% FS 100% FS

"

TTTTCCCC11

11

"

TC1 OUT1 proportion cycle 0068

H

40089 41089 Word 1 sec to 150 sec 30 or 2 sec

"

TTTTCCCC22

22

"

TC2 OUT2 proportion cycle 0069

H

40090 41090 Word 1 sec to 150 sec 30 or 3 sec

"

PPPPLLLLCCCC11

11

"

PLC1 OUT1 lower limit 0028

H

40025 41025 Word -3.00 to 103.00% -3.0%

"

PPPPhhhhCCCC11

11

"

PhC1 OUT1 upper limit 0029

H

40026 41026 Word -3.00 to 103.00% 103.0%

"

PPPPLLLLCCCC22

22

"

PLC2 OUT2 lower limit 002A

H

40027 41027 Word -3.00 to 103.00% -3.0%

"

PPPPhhhhCCCC22

22

"

PhC2 OUT2 upper limit 002B

H

40028 41028 Word -3.00 to 103.00% 103.0%

"

PPPPCCCCUUUUTT

TT

"

PCUT

Selects the output limiter type

0027

H

40024 41024 Word 0 to 15 0

Parameter

display

Parameter

name

Contents

Relative
address

Resistor Number

Type

Read data

Written data

range

Factory
Setting

Dependent
on range

Internal

Engineering

unit

– 45 –

7

Chapter

PID Palette (Ch3)

Parameter

display

Parameter

name

Contents

Relative
address

Resistor Number

Type

Read data

Written data

range

Factory

Setting

Dependent
on range

Internal

Engineering

unit

"

SSSSvvvv11

11

"

Sv1 SV set value 1 0106

H

40241 41241 Word 0% to 100% FS 0% FS

"

PPPP11

11

"

P1 Proportional band 1 0107

H

40242 41242 Word 0.0 to 999.9% 5.0%

"

iiii11

11

"

I1 Integration time 1 0108

H

40243 41243 Word 0 sec to 3200 sec 240 sec

"

dddd11

11

"

D1 Derivation time 1 0109

H

40244 41244 Word 0.0 sec to 999.9 sec 60.0sec

"

hhhhYYYYSSSS11

11

"

hYS1 ON/OFF Control

hysteresis 1

010A

H

40245 41245 Word 0% to 50% FS 1°C

"

CCCCooooLLLL11

11

"

CoL1

Cooling proportional band 1

010B

H

40246 41246 Word 0.0 to 100.0 1.0

"

ddddbbbb11

11

"

db1 Dead band 1 010C

H

40247 41247 Word -50.0 to 50.0% 0%

"

bbbbAAAALLLL11

11

"

bAL1

Output convergence value 1

010D

H

40248 41248 Word -100.0 to 100.0% 0/50

(sigle/dual)

"

AAAArrrr11

11

"

Ar1 Anti-reset windup 1 010E

H

40249 41249 Word 0% to 100% FS 100% FS

"

rrrrEEEEvvvv11

11

"

rEv1 Normal/Reverse setting 1 010F

H

40250 41250 Word 0: rv-- (heat (reverse)

/ cool (none))

1: no-- (heat (normal)

/ cool (none))

2: rvno (heat (reverse)

/ cool (normal))

3: norv (heat (normal)

/ cool (reverse))

4: rvrv (heat (reverse)

/ cool (reverse))

5: nono (heat (normal)

/ cool (normal))

rv--/rvno
(single/dual)

"

SSSSvvvv22

22

"

Sv2 SV set value 2 0110

H

40251 41251 Word 0% to 100% FS 0% FS

"

PPPP22

22

"

P2 Proportional band 2 0111

H

40252 41252 Word 0.0 to 999.9% 5.0%

"

iiii22

22

"

I2 Integration time 2 0112

H

40253 41253 Word 0 sec to 3200 sec 240 sec

"

dddd22

22

"

D2 Derivation time 0113

H

40254 41254 Word 0.0 sec to 999.9 sec 60.0sec

"

hhhhYYYYSSSS22

22

"

hYS2 ON/OFF control

hysteresis 2

0114

H

40255 41255 Word 0% to 50% FS 1°C

"

CCCCooooLLLL22

22

"

CoL2 Cooling proportional

band 2

0115

H

40256 41256 Word 0.0 to 100.0 1.0

"

ddddbbbb22

22

"

db2 Dead band 2 0116

H

40257 41257 Word -50.0 to 50.0% 0%

"

BBBBaaaaLLLL22

22

"

bAL2 Output convergence

value 2

0117

H

40258 41258 Word -100.0 to 100.0% 0/50

(sigle/dual)

"

AAAArrrr22

22

"

Ar2 Anti-reset windup 2 0118

H

40259 41259 Word 0% to 100% FS 100% FS

"

rrrrEEEEvvvv22

22

"

rEv2 Normal/Reverse setting 2 0119

H

40260 41260 Word 0: rv-- (heat (reverse)

/ cool (none))

1: no-- (heat (normal)

/ cool (none))

2: rvno (heat (reverse)

/ cool (normal))

3: norv (heat (normal)

/ cool (reverse))

4: rvrv (heat (reverse)

/ cool (reverse))

5: nono (heat (normal)

/ cool (normal))

rv--/rvno
(single/dual)

"

SSSSVVVV33

33

"

Sv3 SV set value 3 011A

H

40261 41261 Word 0% to 100% FS 0% FS

"

PPPP33

33

"

P3 Proportional band 3 011B

H

40262 41262 Word 0.0 to 999.9% 5.0%

"

iiii44

44

"

I3 Integration time 3 011C

H

40263 41263 Word 0 sec to 3200 sec 240 sec

– 46 –

7

Chapter

"

dddd33

33

"

D3 Derivation time 3 011D

H

40264 41264 Word 0.0 sec to 999.9 sec 60.0 sec

"

hhhhYYYYSSSS33

33

"

hYS3

ON/OFF control hysteresis 3

011E

H

40265 41265 Word 0% to 50% FS 1°C

"

CCCCooooLLLL33

33

"

CoL3

Cooling proportional band 3

011F

H

40266 41266 Word 0.0 to 100.0 1.0

"

ddddbbbb33

33

"

db3 Dead band 3 0120

H

40267 41267 Word -50.0 to 50.0% 0%

"

bbbbAAAALLLL33

33

"

bAL3 Output convergence

value 3

0121

H

40268 41268 Word -100.0 to 100.0% 0/50

(sigle/dual)

"

AAAArrrr33

33

"

Ar3 Anti-reset windup 3 0122

H

40269 41269 Word 0% to 100% FS 100% FS

"

rrrrEEEEvvvv33

33

"

rEv3 Normal/Reverse setting 3 0123

H

40270 41270 Word 0: rv-- (heat (reverse)

/ cool (none))

1: no-- (heat (normal)

/ cool (none))

2: rvno (heat (reverse)

/ cool (normal))

3: norv (heat (normal)

/ cool (reverse))

4: rvrv (heat (reverse)

/ cool (reverse))

5: nono (heat (normal)

/ cool (normal))

rv--/rvno
(single/dual)

"

SSSSvvvv44

44

"

Sv4 SV set value 4 0124

H

40271 41271 Word 0% to 100% FS 0% FS

"

PPPP44

44

"

P4 Proportional band 4 0125

H

40272 41272 Word 0.0 to 999.9% 5.0%

"

iiii44

44

"

I4 Integration time 4 0126

H

40273 41273 Word 0 sec to 3200 sec 240 sec

"

dddd44

44

"

d4 Derivation time 4 0127

H

40274 41274 Word 0.0 sec to 999.9 sec 60.0sec

"

hhhhYYYYSSSS44

44

"

hYS4

ON/OFF control hysteresis 4

0128

H

40275 41275 Word 0% to 50% FS 1°C

"

CCCCooooLLLL44

44

"

CoL4

Cooling proportional band 4

0129

H

40276 41276 Word 0.0 to 100.0 1.0

"

ddddbbbb44

44

"

db4 Dead band 4 012A

H

40277 41277 Word -50.0 to 50.0% 0%

"

bbbbAAAALLLL44

44

"

bAL4 Output convergence

value 4

012B

H

40278 41278 Word -100.0 to 100.0% 0/50

(sigle/dual)

"

AAAArrrr44

44

"

Ar4 Anti-reset windup 4 012C

H

40279 41279 Word 0% to 100% FS 100% FS

"

rrrrEEEEvvvv44

44

"

rEv4 Normal/Reverse setting 4 012D

H

40280 41280 Word 0: rv-- (heat (reverse)

/ cool (none))

1: no-- (heat (normal)

/ cool (none))

2: rvno (heat (reverse)

/ cool (normal))

3: norv (heat (normal)

/ cool (reverse))

4: rvrv (heat (reverse)

/ cool (reverse))

5: nono (heat (normal)

/ cool (normal))

rv--/rvno
(single/dual)

"

SSSSvvvv55

55

"

Sv5 SV set value 5 012E

H

40281 41281 Word 0% to 100% FS 0% FS

"

PPPP55

55

"

P5 Proportional band 5 012F

H

40282 41282 Word 0.0 to 999.9% 5.0%

"

iiii55

55

"

I5 Integration time 5 0130

H

40283 41283 Word 0 sec to 3200 sec 240 sec

"

dddd55

55

"

d5 Derivation time 5 0131

H

40284 41284 Word 0.0 sec to 999.9 sec 60.0sec

"

hhhhYYYYSSSS55

55

"

hYS5

ON/OFF control hysteresis 5

0132

H

40285 41285 Word 0% to 50% FS 1°C

"

CCCCooooLLLL55

55

"

CoL5

Cooling proportional band 5

0133

H

40286 41286 Word 0.0 to 100.0 1.0

"

ddddbbbb55

55

"

db5 Dead band 5 0134

H

40287 41287 Word -50.0 to 50.0% 0%

"

bbbbAAAALLLL55

55

"

bAL5 Output convergence

value 5

0135

H

40288 41288 Word -100.0 to 100.0% 0/50

(sigle/dual)

"

AAAArrrr55

55

"

Ar5 Anti-reset windup 5 0136

H

40289 41289 Word

0% to 100% FS

100% FS

Parameter

display

Parameter

name

Contents

Relative
address

Resistor Number

Type

Read data

Written data

range

Factory

Setting

Dependent
on range

Internal

Engineering

unit

– 47 –

7

Chapter

"

rrrrEEEEvvvv55

55

"

rEv5 Normal/Reverse setting 5 0137

H

40290 41290 Word 0: rv-- (heat (reverse)

/ cool (none))

1: no-- (heat (normal)

/ cool (none))

2: rvno (heat (reverse)

/ cool (normal))

3: norv (heat (normal)

/ cool (reverse))

4: rvrv (heat (reverse)

/ cool (reverse))

5: nono (heat (normal)

/ cool (normal))

rv--/rvno
(single/dual)

"

SSSSvvvv66

66

"

Sv6 SV set value 6 0138

H

40291 41291 Word 0% to 100% FS 0% FS

"

PPPP66

66

"

P6 Proportional band 6 0139

H

40292 41292 Word 0.0 to 999.9% 5.0%

"

iiii66

66

"

I6 Integration time 6 013A

H

40293 41293 Word 0 sec to 3200 sec 240 sec

"

dddd66

66

"

D6 Derivation time 6 013B

H

40294 41294 Word 0.0 sec to 999.9 sec 60.0sec

"

hhhhYYYYSSSS66

66

"

hYS6

ON/OFF control hysteresis 6

013C

H

40295 41295 Word 0% to 50% FS 1°C

"

CCCCooooLLLL66

66

"

CoL6 Cooling proportional

band 6

013D

H

40296 41296 Word 0.0 to 100.0 1.0

"

ddddbbbb66

66

"

db6 Dead band 6 013E

H

40297 41297 Word -50.0 to 50.0% 0%

"

bbbbAAAALLLL66

66

"

bAL6 Output convergence

value 6

013F

H

40298 41298 Word -100.0 to 100.0% 0/50

(single/
dual)

"

AAAArrrr66

66

"

Ar6 Anti-reset windup 6 0140

H

40299 41299 Word 0% to 100% FS 100% FS

"

rrrrEEEEvvvv66

66

"

rEv6 Normal/Reverse setting 6 0141

H

40300 41300 Word 0: rv-- (heat (reverse)

/ cool (none))

1: no-- (heat (normal)

/ cool (none))

2: rvno (heat (reverse)

/ cool (normal))

3: norv (heat (normal)

/ cool (reverse))

4: rvrv (heat (reverse)

/ cool (reverse))

5: nono (heat (normal)

/ cool (normal))

rv--/rvno
(single/dual)

"

SSSSvvvv77

77

"

Sv7 SV set value 7 0142

H

40301 41301 Word 0% to 100% FS 0% FS

"

PPPP77

77

"

P7 Proportional band 7 0143

H

40302 41302 Word 0.0 to 999.9% 5.0%

"

iiii77

77

"

I7 Integration time 7 0144

H

40303 41303 Word 0 sec to 3200 sec 240 sec

"

dddd77

77

"

d7 Derivation time 7 0145

H

40304 41304 Word 0.0 sec to 999.9 sec 60.0sec

"

hhhhYYYYSSSS77

77

"

hYS7

ON/OFF control hysteresis7

0146

H

40305 41305 Word 0% to 50% FS 1°C

"

CCCCooooLL

LL

"

CoL7 Cooling proportional

band 7

0147

H

40306 41306 Word 0.0 to 100.0 1.0

"

ddddbbbb77

77

"

db7 Dead band 7 0148

H

40307 41307 Word -50.0 to 50.0% 0%

"

bbbbAAAALLLL77

77

"

bAL7 Output convergence

value 7

0149

H

40308 41308 Word -100.0 to 100.0% 0/50

(sigle/dual)

"

AAAArrrr77

77

"

Ar7 Anti-reset windup 7 014A

H

40309 41309 Word 0% to 100% FS 100% FS

Parameter

display

Parameter

name

Contents

Relative
address

Resistor Number

Type

Read data

Written data

range

Factory

Setting

Dependent
on range

Internal

Engineering

unit

– 48 –

7

Chapter

"

rrrrEEEEvvvv77

77

"

rEv7 Normal/Reverse setting 7 014B

H

40310 41310 Word 0: rv-- (heat (reverse)

/ cool (none))

1: no-- (heat (normal)

/ cool (none))

2: rvno (heat (reverse)

/ cool (normal))

3: norv (heat (normal)

/ cool (reverse))

4: rvrv (heat (reverse)

/ cool (reverse))

5: nono (heat (normal)

/ cool (normal))

rv--/rvno
(single/dual)

"

SSSSvvvvMMMMXX

XX

"

SvMX

Selectable SV numbers

00F5

H

40224 41224 Word 0: Sv0 (Local SV)

1: Sv1 (SV = SV-1)
2: Sv2 (SV = SV-2)
3: Sv3 (SV = SV-3)
4: Sv4 (SV = SV-4)
5: Sv5 (SV = SV-5)
6: Sv6 (SV = SV-6)
7: Sv7 (SV = SV-7)
8: di : SV = choose Di

Sv7

"

PPPPLLLL1111MM

MM

"

PL1M Currently selected PID

No.

00F6

H

40225 41225 Word 0: PID0 (PID group local)

1: PID1 (PID group No. 1)
2: PID2 (PID group No. 2)
3: PID3 (PID group No. 3)
4: PID4 (PID group No. 4)
5: PID5 (PID group No. 5)
6: PID6 (PID group No. 6)
7: PID7 (PID group No. 7)
8: di (PID group Di
selection)

PID7

Parameter

display

Parameter

name

Contents

Relative
address

Resistor Number

Type

Read data

Written data

range

Factory

Setting

Dependent
on range

Internal

Engineering

unit

– 49 –

7

Chapter

Ramp/Soak (Ch4)

Parameter

display

Paramete

r

name

Contents

Relative
address

Resistor Number

Type

Read data

Written data

range

Factory Setting

Dependent
on range

Internal

Engineering

unit

"

PPPPTTTTnn

nn

"

PTn Ramp/Soak Activation

Pattern

0231

H

40561 41561 Word 0 (uses steps 1 to 4)

1 (uses steps 5 to 8)
2 (uses steps 1 to 8)
3 (uses steps 9 to 12)
4 (uses steps 13 to 16)
5 (uses steps 9 to 16)
6 (uses steps 1 to 16)

6

"

TTTTiiiiMMMMUU

UU

"

TIMU Ramp/soak time units 029D

H

40562 41562 Word 0 : hh.MM ( hour: min)

1 : MM.SS (min: sec)

hh.MM

"

SSSSvvvv----11

11

"

SV-1 Ramp/Soak

1 seg/SV Set Value

02B6

H

40581 41581 Word 0% to 100% FS 0% FS

"

TTTTMMMM1111rr

rr

"

TM1R Ramp/Soak

1 seg ramp time

02B7

H

40582 41582 Word 00.00-99.59

(hour:min/min: sec)

00.00
(hour:min)

"

TTTTMMMM1111SS

SS

"

TM1S Ramp/Soak

1 seg soak time

02B8

H

40583 41583 Word 00.00-99.59

(hour:min/min: sec)

00.00
(hour:min)

"

SSSSvvvv----22

22

"

SV-2 Ramp/Soak

2 seg/SV Set Value

02B9

H

40584 41584 Word 0% to 100% FS 0% FS

"

TTTTMMMM2222rr

rr

"

TM2R Ramp/Soak

2 seg ramp time

02BA

H

40585 41585 Word 00.00-99.59

(hour:min/min: sec)

00.00
(hour:min)

"

TTTTMMMM2222SS

SS

"

TM2S Ramp/Soak

2 seg soak time

02BB

H

40586 41586 Word 00.00-99.59

(hour:min/min: sec)

00.00
(hour:min)

"

SSSSvvvv----33

33

"

SV-3 Ramp/Soak

3 seg/SV Set Value

02BC

H

40587 41587 Word 0% to 100% FS 0% FS

"

TTTTMMMM3333rr

rr

"

TM3R Ramp/Soak

3 seg ramp time

02BD

H

40588 41588 Word 00.00-99.59

(hour:min/min: sec)

00.00
(hour:min)

"

TTTTMMMM3333SS

SS

"

TM3S Ramp/Soak

3 seg soak time

02BE

H

40589 41589 Word 00.00-99.59

(hour:min/min: sec)

00.00
(hour:min)

"

SSSSvvvv----44

44

"

SV-4 Ramp/Soak

4 seg/SV Set Value

02BF

H

40590 41590 Word 0% to 100% FS 0% FS

"

TTTTMMMM4444rr

rr

"

TM4R Ramp/Soak

4 seg ramp time

02C0

H

40591 41591 Word 00.00-99.59

(hour:min/min: sec)

00.00
(hour:min)

"

TTTTMMMM4444SS

SS

"

TM4S Ramp/Soak

4 seg soak time

02C1

H

40592 41592 Word 00.00-99.59

(hour:min/min: sec)

00.00
(hour:min)

"

SSSSvvvv----55

55

"

SV-5 Ramp/Soak

5 seg/SV Set Value

02C2

H

40593 41593 Word 0% to 100% FS 0% FS

"

TTTTMMMM5555rr

rr

"

TM5R Ramp/Soak

5 seg ramp time

02C3

H

40594 41594 Word 00.00-99.59

(hour:min/min: sec)

00.00
(hour:min)

"

TTTTMMMM5555SS

SS

"

TM5S Ramp/Soak

5 seg soak time

02C4

H

40595 41595 Word 00.00-99.59

(hour:min/min: sec)

00.00
(hour:min)

"

SSSSvvvv----66

66

"

SV-6 Ramp/Soak

6 seg/SV Set Value

02C5

H

40596 41596 Word 0% to 100% FS 0% FS

"

TTTTMMMM6666rr

rr

"

TM6R Ramp/Soak

6 seg ramp time

02C6

H

40597 41597 Word 00.00-99.59

(hour:min/min: sec)

00.00
(hour:min)

"

TTTTMMMM6666SS

SS

"

TM6S Ramp/Soak

6 seg soak time

02C7

H

40598 41598 Word 00.00-99.59

(hour:min/min: sec)

00.00
(hour:min)

"

SSSSvvvv----77

77

"

SV-7 Ramp/Soak

7 seg/SV Set Value

02C8

H

40599 41599 Word 0% to 100% FS 0% FS

"

TTTTMMMM7777rr

rr

"

TM7R Ramp/Soak

7 seg ramp time

02C9

H

40600 41600 Word 00.00-99.59

(hour:min/min: sec)

00.00
(hour:min)

"

TTTTMMMM7777SS

SS

"

TM7S Ramp/Soak

7 seg soak time

02CA

H

40601 41601 Word 00.00-99.59

(hour:min/min: sec)

00.00
(hour:min)

– 50 –

7

Chapter

"

SSSSvvvv----88

88

"

SV-8 Ramp/Soak

8 seg/SV Set Value

02CB

H

40602 41602 Word 0% to 100% FS 0% FS

"

TTTTMMMM8888rr

rr

"

TM8R Ramp/Soak

8 seg ramp time

02CC

H

40603 41603 Word 00.00-99.59

(hour:min/min: sec)

00.00
(hour:min)

"

TTTTMMMM8888SS

SS

"

TM8S Ramp/Soak

8 seg soak time

02CD

H

40604 41604 Word 00.00-99.59

(hour:min/min: sec)

00.00
(hour:min)

"

SSSSvvvv----99

99

"

SV-9 Ramp/Soak

9 seg/SV Set Value

02CE

H

40605 41605 Word 0% to 100% FS 0% FS

"

TTTTMMMM9999rr

rr

"

TM9R Ramp/Soak

9 seg ramp time

02CF

H

40606 41606 Word 00.00-99.59

(hour:min/min: sec)

00.00
(hour:min)

"

TTTTMMMM9999SS

SS

"

TM9S Ramp/Soak

9 seg soak time

02D0

H

40607 41607 Word 00.00-99.59

(hour:min/min: sec)

00.00
(hour:min)

"

SSSSvvvv111100

00

"

SV10 Ramp/Soak

10 seg/SV Set Value

02D1

H

40608 41608 Word 0% to 100% FS 0% FS

"

TTTT11110000rr

rr

"

T10R Ramp/Soak

10 seg ramp time

02D2

H

40609 41609 Word 00.00-99.59

(hour:min/min: sec)

00.00
(hour:min)

"

TTTTMMMM11110000SS

SS

"

T10S Ramp/Soak

10 seg soak time

02D3

H

40610 41610 Word 00.00-99.59

(hour:min/min: sec)

00.00
(hour:min)

"

SSSSvvvv111111

11

"

SV11 Ramp/Soak

11 seg/SV Set Value

02D4

H

40611 41611 Word 0% to 100% FS 0% FS

"

TTTT11111111rr

rr

"

T11R Ramp/Soak

11 seg ramp time

02D5

H

40612 41612 Word 00.00-99.59

(hour:min/min: sec)

00.00
(hour:min)

"

TTTT11111111SS

SS

"

T11S Ramp/Soak

11 seg soak time

02D6

H

40613 41613 Word 00.00-99.59

(hour:min/min: sec)

00.00
(hour:min)

"

SSSSvvvv111122

22

"

SV12 Ramp/Soak

12 seg/SV Set Value

02D7

H

40614 41614 Word 0% to 100% FS 0% FS

"

TTTT11112222rr

rr

"

T12R Ramp/Soak

12 seg ramp time

02D8

H

40615 41615 Word 00.00-99.59

(hour:min/min: sec)

00.00
(hour:min)

"

TTTT11112222SS

SS

"

T12S Ramp/Soak

12 seg soak time

02D9

H

40616 41616 Word 00.00-99.59

(hour:min/min: sec)

00.00
(hour:min)

"

SSSSvvvv111133

33

"

SV13 Ramp/Soak

13 seg/SV Set Value

02DA

H

40617 41617 Word 0% to 100% FS 0% FS

"

TTTT11113333rr

rr

"

T13R Ramp/Soak

13 seg ramp time

02DB

H

40618 41618 Word 00.00-99.59

(hour:min/min: sec)

00.00
(hour:min)

"

TTTT11113333SS

SS

"

T13S Ramp/Soak

13 seg soak time

02DC

H

40619 41619 Word 00.00-99.59

(hour:min/min: sec)

00.00
(hour:min)

"

SSSSvvvv111144

44

"

SV14 Ramp/Soak

14 seg/SV Set Value

02DD

H

40620 41620 Word 0% to 100% FS 0% FS

"

TTTT11114444rr

rr

"

T14R Ramp/Soak

14 seg ramp time

02DE

H

40621 41621 Word 00.00-99.59

(hour:min/min: sec)

00.00
(hour:min)

"

TTTT11114444SS

SS

"

T14S Ramp/Soak

14 seg soak time

02DF

H

40622 41622 Word 00.00-99.59

(hour:min/min: sec)

00.00
(hour:min)

"

SSSSvvvv111155

55

"

SV15 (Ramp/Soak

15 seg/SV Set Value)

02E0

H

40623 41623 Word 0% to 100% FS 0% FS

"

TTTT11115555rr

rr

"

T15R Ramp/Soak

15 seg ramp time

02E1

H

40624 41624 Word 00.00-99.59

(hour:min/min: sec)

00.00
(hour:min)

"

TTTT11115555SS

SS

"

T15S Ramp/Soak

15 seg soak time

02E2

H

40625 41625 Word 00.00-99.59

(hour:min/min: sec)

00.00
(hour:min)

"

SSSSvvvv111166

66

"

SV16 Ramp/Soak

16 seg/SV Set Value

02E3

H

40626 41626 Word 0% to 100% FS 0% FS

"

TTTT11116666rr

rr

"

T16R Ramp/Soak

16 seg ramp time

02E4

H

40627 41627 Word 00.00-99.59

(hour:min/min: sec)

00.00
(hour:min)

Parameter

display

Paramete

r

name

Contents

Relative
address

Resistor Number

Type

Read data

Written data

range

Factory Setting

Dependent
on range

Internal

Engineering

unit

– 51 –

7

Chapter

Monitor (Ch5)

"

TTTT11116666SS

SS

"

T16S Ramp/Soak

16 seg soak time

02E5

H

40628 41628 Word 00.00-99.59

(hour:min/min: sec)

00.00
(hour:min)

"

MMMMoooodd

dd

"

Mod Ramp/soak mode 0060

H

40081 41081 Word 0 to 15 0

"

GGGGSSSSooooKK

KK

"

GSoK Guaranty soak ON/OFF 02A6

H

40571 41571 Word 0:oFF (guaranty soak off)

1:on (guaranty soak on)

oFF

"

GGGGSSSS----LL

LL

"

GS-L Guaranty soak (lower

limit)

02A7

H

40572 41572 Word 0% to 50% FS 5°C

"

GGGGSSSS----hh

hh

"

GS-h Guaranty soak (upper

limit)

02A8

H

40573 41573 Word 0% to 50% FS 5°C

"

PPPPTTTTnnnnMM

MM

"

PTnM Sets the max pattern

selection

029F

H

40564 41564 Word 0 to 6 6

Parameter

display

Parameter

name

Contents

Relative
address

Resistor Number

Type

Read data

Written data

range

Factory Setting

Dependent
on range

Internal

Engineering

unit

"

SSSSTTTTAAAATT

TT

"

STAT Ramp/soak progress 029C

H

40561 41561 Word 0: oFF

1: 1-rP
2: 1-Sk
3: 2-rP
4: 2-Sk

31: 16rP
32: 16Sk
33: End

Parameter

display

Paramete

r

name

Contents

Relative
address

Resistor Number

Type

Read data

Written data

range

Factory Setting

Dependent
on range

Internal

Engineering

unit

...

– 52 –

7

Chapter

Setup (Ch6)

Parameter

display

Parameter

name

Contents

Relative
address

Resistor Number

Type

Read data

Written data

range

Factory Setting

Dependent
on range

Internal

Engineering

unit

"

PPPPvvvvTT

TT

"

PvT PV input type 000F

H

40016 41016 Word 0 (JPT 100'3f)

1 (PT 100'3f)
2 (J)
3 (K)
4 (R)
5 (B)
6 (S)
7 (T)
8 (E)
9 (no function)
10 (no function)
11 (no function)
12 (N)
13 (PL- 2)
14 (no function)
15 (0V to 5V / 0mA to 20mA
16 (1V to 5V/4mA to 20mA)
17 (0mV to 10V)
18 (2V to 10V)
19 (0mV to 100mV)

3 (K)

"

PPPPvvvvbb

bb

"

Pvb PV input lower limit 0021

H

40018 41018 Word -1999-9999 0°C

"

PPPPvvvvFF

FF

"

PvF PV input upper limit 0022

H

40019 41019 Word -1999-9999 400°C

"

PPPPvvvvdd

dd

"

Pvd Decimal position 0023

H

40020 41020 Word 0 (no decimal point)

1 (one decimal place)
2 (two decimal places)

0

"

PPPPvvvvUU

UU

" PvU Unit display 016E

H

40345 41345 Word 0: °C

1: °F

0

"

PPPPVVVVooooFF

FF

"

PvoF PV input shift 000D

H

40014 41014 Word -10% to 10% FS 0% FS

"

SSSSvvvvooooFF

FF

"SvoF Sv shift 000E

H

40015 41015 Word -5000 to 5000

(-50.00% to 50.00% FS)

"

TTTTFF

FF

"

TF PV input filter 0025

H

40022 41022 Word 0 to 1200 (0.0 to 120.0 sec) 5 sec

"

AAAAddddJJJJ00

00

" ADJ0

PV display zero adjustment

0072

H

40099 41099 Word -50% to 50% FS

"

AAAAddddJJJJSS

SS

" ADJS

PV display Splan adjustment

0073

H

40100 41100 Word -50% to 50% FS

"

rrrrCCCCJJ

JJ

" RCJ Cold Junction

Compensation

0026

H

40023 41023 Word 0: oFF (off)

1: on (on)

on

"

rrrrEEEEMMMM00

00

"

rEM0 RSV zero adjustment 0085

H

40118 41118 Word -50% to 50% FS 0%FS

"

rrrrEEEEMMMMSS

SS

"

rEMS RSV span adjustment 0086

H

40119 41119 Word -50% to 50% FS 0%

"

rrrrEEEEMMMMrr

rr

"

rEMr RSV Input Range 0181

H

40358 41358 Word 0: 0-5v (0V to 5V)

1: 1-5v (1V to 5V)

1-5

"

rrrrTTTTFF

FF

"

rTF RSV input filter 0182

H

40359 41359 Word 0.0 sec to 120.0 sec 0.0 sec

"

CCCC1111rr

rr

"

C1r OUT1 range 0198

H

40381 41381 Word 0: 0-5v (0V to 5V)

1: 1-5v (1V to 5V)
2: 0 to 10 (0V to 10V)
3: 2 to 10 (2V to 10V)
4: 0 to 20 (0mA to 20mA)
5: 4 to 20 (4mA to 20mA)

0 to 10
(voltage)
4 to 20
(current)

"

CCCC2222rr

rr

"

C2r OUT2 range 0199

H

40382 41382 Word 0: 0-5v (0V to 5V)

1: 1-5v (1V to 5V)
2: 0 to 10 (0V to 10V)
3: 2 to 10 (2V to 10V)
4: 0 to 20 (0mA to 20mA)
5: 4 to 20 (4mA to 20mA)

0 to 10
(voltage)
4 to 20
(current)

– 53 –

7

Chapter

System (Ch7)

"

FFFFLLLLoooo11

11

"

FLo1 Output 1 set value during

FALT

01A1

H

40390 41390 Word -300 to 10300

(-3.00 to 103.00%)

"

FFFFLLLLoooo22

22

"

FLo2 Output 2 set value during

FALT

01A2

H

40391 41391 Word -300 to 10300

(-3.00 to 103.00%)

"

SSSSffffoooo11

11

"

Sfo1 Soft start OUT1

set value

01A3

H

40392 41392 Word -300 to 10300

(-3.00 to 103.00%)

"

SSSSFFFFTTTTMM

MM

"

SFTM Soft start set time 01A5

H

40394 41394 Word 00:00 to 99:59 (hour:min) 00:00 (hour:min)

"

SSSSbbbboooo11

11

"

Sbo1 During standby, OUT1

set value

01A9

H

40398 41398 Word -300 to 10300

(-3.00 to 103.00%)

"

SSSSbbbboooo22

22

"

Sbo2 During standby, OUT2

set value

01AA

H

40399 41399 Word -300 to 10300

(-3.00 to 103.00%)

"

SSSSbbbbMMMMdd

dd

"

SBMD Standby mode setting 01AB

H

40400 41400 Word 0 to 3 0

"

AAAAooooTT

TT

"

AOTTypes of AO output 01AC

H

40401 41401 Word 0: PV

1: SV
2: MV
3: DV
4: PFB

PV

"

AAAAooooLL

LL

"

AoL AO lower limit scaling 0082

H

40115 41115 Word -100% to 100%FS 0%

"

AAAAoooohh

hh

"

Aoh AO upper limit scaling 0083

H

40116 41116 Word -100% to 100%FS 100%

Parameter

display

Parameter

name

Contents

Relative
address

Resistor Number

Type

Read data

Written data

range

Factory Setting

Dependent
on range

Internal

Engineering

unit

"

UUUUKKKKEEEEYY

YY

"

UKEY USER key

assignment settings

009C

H

40141 41141 Word 0 (no function)

1 (Switches between STBY ON/OFF)
2 (Switches between Auto/Manual)
3 (Switches between Local/Remote)

4 (Switches EXMV)
5 (Starts AT (standard))
6 (Starts AT (low PV))
7 (no function)
8 (Ramp SV HOLD)
9 (Ramp/soak RUN/OFF)
10

(Ramp/soak RUN/HOLD)

11 (no function)
12 (Latch cancel (all))
13 (Latch cancel (DO1))
14 (Latch cancel (DO2))
15 (Latch cancel (DO3))
16 (Latch cancel (DO4))
17 (Latch cancel (DO5))
18 (Start timer (DO1))
19 (Start timer (DO2))
20 (Start timer (DO3))
21 (Start timer (DO4))
22 (Start timer (DO5))
23 (SV No. + 1 (send))
24 (PID No. + 1 (send))
25 (no function)
26

(Pattern No. + 1 (send))

27 (SV No. + 1, PID No. + 1 (send))

2

Parameter

display

Parameter

name

Contents

Relative
address

Resistor Number

Type

Read data

Written data

range

Factory Setting

Dependent
on range

Internal

Engineering

unit

– 54 –

7

Chapter

"

ddddiiii11

11

"

di1 DI-1 function select 009E

H

40143 41143 Word

0 (no function)
1 (Switches between STBY ON/OFF)
2 (Switches between Auto/Manual)
3 (Switches between Local/Remote)
4 (Switches EXMV1)
5 (no function)
6 (Starts AT (standard))
7 (Starts AT (low PV))
8 (no function)
9 (no function)
10 (no function)
11 (Ramp SV HOLD)
12 (Ramp/soak OFF)
13 (Ramp/soak RUN/HOLD)
14 (no function)
15 (Latch cancel (all))
16 (Latch cancel (DO1))
17 (Latch cancel (DO2))
18 (Latch cancel (DO3))
19 (Latch cancel (DO4))
20 (Latch cancel (DO5))
21 (Start timer (DO1))
22 (Start timer (DO2))
23 (Start timer (DO3))
24 (Start timer (DO4))
25 (Start timer (DO5))
26 (SV No. 1)
27 (SV No. 2)
28 (SV No. + 4)
29 (PID No. 1 +1)
30 (PID No. 1 +2)
31 (PID No. 1 + 4)
32 (no function)
33 (no function)
34 (no function)
35 (SV No.+1, PID No. 1+1)
36 (SV No.+2, PID No. 1+2)
37 (SV No.+4, PID No. 1+4)

0

"

ddddiiii22

22

"

di2 DI-2 function select 009F

H

40144 41144 Word Same as above 0

"

ddddiiii33

33

"

di3 DI-3 function select

00A0

H

40145 41145 Word Same as above 0

"

ddddiiii44

44

"

di4 DI-4 function select 00A1

H

40146 41146 Word Same as above 0

"

ddddiiii111155

55

"

di5 DI-5 function select 00A2

H

40147 41147 Word Same as above 0

"

ddddoooo1111TT

TT

"

do1T

DO1 output event type setting

0038

H

40041 41041 Word 0-102 0

"

ddddooooPPPP11

11

"

doP1 Sets DO1 option function 00B5

H

40166 41166 Word 0000 to 1111 0

"

ddddoooo2222TT

TT

"

do2T

DO2 output event type setting

0039

H

40042 41042 Word 0 to 102 0

"

ddddooooPPPP22

22

"

doP2

DO5 option function setting

00BC

H

40173 41173 Word 0000 to 1111 0

"

ddddoooo3333TT

TT

"

do3T DO3 output event type

setting

003A

H

40043 41043 Word 0 to 102 0

"

ddddooooPPPP33

33

"

doP3

DO3 option function setting

00C3

H

40180 41180 Word 0000 to 1111 0

"

ddddoooo4444TT

TT

"

do4T

DO4 output event type setting

00C6

H

40183 41183 Word 0 to 102 0

"

ddddooooPPPP44

44

"

doP4

DO4 option function setting

00CA

H

40187 41187 Word 0000 to 1111 0

"

ddddoooo5555TT

TT

"

do5T DO5 output event type

setting

00CD

H

40190 41190 Word 0 to 102 0

"

ddddooooPPPP55

55

"

doP5

DO5 option function setting

00D1

H

40194 41194 Word 0000 to 1111 0

"

rrrrMMMMPPPPLL

LL

"

rMPL Ramp SV - Decline 01C9

H

40430 41430 Word 0% to 100% FS/°C 0°C

"

rrrrMMMMPPPPhh

hh

"

rMPh Ramp SV ñ Incline 01CA

H

40431 41431 Word 0% to 100% FS/°C 0°C

Parameter

display

Parameter

name

Contents

Relative
address

Resistor Number

Type

Read data

Written data

range

Factory Setting

Dependent
on range

Internal

Engineering

unit

– 55 –

7

Chapter

Alarm (Ch8)

"

rrrrMMMMPPPPUU

UU

"

rMPU Ramp SV slope time unit 01CB

H

40432 41432 Word

0: hour (slope temperature/hour)
1: Min (slope temperature/min)

hoUr

"

SSSSvvvvTT

TT

"

SvT Ramp SV - SV display

mode selection

01CC

H

40433 41433 Word 0: rMP (Ramp SV HOLD)

1: TrG (target SV)

rMP

"

CCCCTTTTrrrrLL

LL

"

CTrL Control methods 0001

H

40002 41002 Word 0: PiD (PID control)

1: FUZY (Fuzzy Pid control)
2: SELF (Self-tuning control)
3: PiD2 (Pid2 control)

"

PPPPrrrrCCCCSS

SS

"

PrCS Control target 01C3

H

40424 41424 Word 0: SRV1 (Servo control 1)

1: SRV2 (Servo control 2)

2: PFb (Position feedback control)

PFB/Srv1
(PFB on/PFB off)

"

SSSSTTTTMMMMdd

dd

"

STMd Startup mode

01CD

H

40434 41434 Word

0: Auto (starts up in auto mode)

1: MAn (starts up in manual mode)

Auto

Parameter

display

Parameter

name

Contents

Relative
address

Resistor Number

Type

Read data

Written data

range

Factory Setting

Dependent
on range

Internal

Engineering

unit

"

AAAA1111hhhhYY

YY

"

A1hY ALM1 hysteresis 0041

H

40050 41050 Word 0% to 50% FS 1°C

"

ddddLLLLYYYY11

11

"

dLY1 ALM1 delay 0044

H

40053 41053 Word 0-9999 [sec/min] 0

"

ddddLLLL1111UU

UU

"

dL1U ALM1 delay time units 00B7

H

40168 41168 Word 0: sec

1: Min

"

AAAA2222hhhhYY

YY

"

A2hY ALM2 hysteresis 0042

H

40051 41051 Word 0% to 50% FS 1°C

"

ddddLLLLYYYY22

22

"

dLY2 ALM2 delay 0045

H

40054 41054 Word 0 to 9999 [sec/min] 0

"

ddddLLLL2222UU

UU

"

dL2U ALM1 delay time units 00BE

H

40175 41175 Word 0: sec

1: Min

"

AAAA3333hhhhYY

YY

"

A3hY ALM3 hysteresis 0043

H

40052 41052 Word 0% to 50% FS 1°C

"

ddddLLLLYYYY33

33

"

dLY3 ALM3 delay 0046

H

40055 41055 Word 0 to 9999 [sec/min] 0

"

ddddLLLL3333UU

UU

"

dL3U ALM3 delay time units 00C5

H

40182 41182 Word 0: sec

1: Min

"

AAAA4444hhhhYY

YY

"

A4hY ALM4 hysteresis 00C9

H

40186 41186 Word 0% to 50% FS 1°C

"

ddddLLLLYYYY44

44

"

dLY4 ALM4 delay 00CB

H

40188 41188 Word 0 to 9999 [sec/min] 0

"

ddddLLLL4444UU

UU

"

dL4U ALM4 delay time units

00CC

H

40189 41189 Word 0: sec

1: Min

"

AAAA5555hhhhYY

YY

"

A5hY ALM5 hysteresis 00D0

H

40193 41193 Word 0% to 50% FS 1°C

"

ddddLLLLYYYY55

55

"

dLY5 ALM5 delay 00D2

H

40195 41195 Word 0 to 9999 [sec/min] 0

"

ddddLLLL5555UU

UU

"

dL5U ALM1 delay time units 00D3

H

40196 41196 Word 0: sec

1: Min

"

hhhhbbbb11

11

"

hb1 CT HB Alarm Set Value 0036

H

40039 41039 Word 0.0 to 50.0 (A)

"

hhhhbbbb11

11

h

"

hb1h

CT HB alarm hysteresis

00D5

H

40198 41198 Word 0.0 to 50.0 (A)

"

LLLLbbbbTTTTMM

MM

"

LbTM

Loop break detection time 00DC

H

40205 41205 Word 0 sec to 9999 sec 0 sec

"

LLLLbbbbAAAAbb

bb

"

LbAb Loop break detection

range

00DD

H

40206 41206 Word 0 to 9999

(0% to 100% FS)

0 sec

Parameter

display

Parameter

name

Contents

Relative
address

Resistor Number

Type

Read data

Written data

range

Factory Setting

Dependent
on range

Internal

Engineering

unit

– 56 –

7

Chapter

PFB (Ch10)

Password Setup (Ch11)

Display (Ch12)

Parameter

display

Parameter

name

Contents

Relative
address

Resistor Number

Type

Read data

Written data

range

Factory Setting

Dependent
on range

Internal

Engineering

unit

"

PPPPGGGGAAAAPP

PP

"

PGAP PFB dead band 01C4

H

40425 41425 Word 0.0 to 100.0% 5%

"

TTTTrrrrvvvvLL

LL

"

Tr vL Valve Stroke Time 01C5

H

40426 41426 Word 5 sec to 180 sec 30 sec

"

CCCCAAAALL

LL

"

CAL PFB Input Adjustment

Command

01C7

H

40428 41428 Word 0 (none/

forcible
termination)
1 (zero
adjustment)
2 (span
adjustment)
3 (automatic
adjustment)

0 (none/
forcible
termination)
1 (zero
adjustment)
2 (span
adjustment)
3 (automatic
adjustment)

-

Parameter

display

Parameter

name

Contents

Relative
address

Resistor Number

Type

Read data

Written data

range

Factory Setting

Dependent
on range

Internal

Engineering

unit

"

PPPPAAAASSSS11

11

"

PAS1 Password1 setup 0225

H

40522 41522 Word

-32768 to 32767 (8000 to 7FFF)

0

"

PPPPAAAASSSS22

22

"

PAS2 Password2 setup 0226

H

40523 41523 Word

-32768 to 32767 (8000 to 7FFF)

0

"

PPPPAAAASSSS33

33

"

PAS3 Password3 setup 0227

H

40524 41524 Word

-32768 to 32767 (8000 to 7FFF)

0

Parameter

display

Parameter

name

Contents

Relative
address

Resistor Number

Type

Read data

Written data

range

Factory Setting

Dependent
on range

Internal

Engineering

unit

"

ddddPPPP000011

11

"

DP01 Parameter display mask 01DE

H

40451 41451 Word -32768 to 32767

(8000 to 7FFF)

Different depending
on model.

"

ddddPPPP000022

22

"

DP02 Parameter display mask 01DF

H

40452 41452 Word -32768 to 32767

(8000 to 7FFF)

Different depending
on model.

"

ddddPPPP000033

33

"

DP03 Parameter display mask 01E0

H

40453 41453 Word -32768 to 32767

(8000 to 7FFF)

Different depending
on model.

"

ddddPPPP000044

44

"

DP04 Parameter display mask 01E1

H

40454 41454 Word -32768 to 32767

(8000 to 7FFF)

Different depending
on model.

"

ddddPPPP000055

55

"

DP05 Parameter display mask 01E2

H

40455 41455 Word -32768 to 32767

(8000 to 7FFF)

Different depending
on model.

"

ddddPPPP000066

66

"

DP06 Parameter display mask 01E3

H

40456 41456 Word -32768 to 32767

(8000 to 7FFF)

Different depending
on model.

"

ddddPPPP000077

77

"

DP07 Parameter display mask 01E4

H

40457 41457 Word -32768 to 32767

(8000 to 7FFF)

Different depending
on model.

"

ddddPPPP000088

88

"

DP08 Parameter display mask 01E5

H

40458 41458 Word -32768 to 32767

(8000 to 7FFF)

Different depending
on model.

"

ddddPPPP000099

99

"

DP09 Parameter display mask 01E6

H

40459 41459 Word -32768 to 32767

(8000 to 7FFF)

Different depending
on model.

– 57 –

7

Chapter

"

ddddPPPP111100

00

"

DP10 Parameter display mask 01E7

H

40460 41460 Word -32768 to 32767

(8000 to 7FFF)

Different depending
on model.

"

ddddPPPP111111

11

"

DP11 Parameter display mask 01E8

H

40461 41461 Word -32768 to 32767

(8000 to 7FFF)

Different depending
on model.

"

ddddPPPP111122

22

"

DP12 Parameter display mask 01E9

H

40462 41462 Word -32768 to 32767

(8000 to 7FFF)

Different depending
on model.

"

ddddPPPP111133

33

"

DP13 Parameter display mask 01EA

H

40463 41463 Word -32768 to 32767

(8000 to 7FFF)

Different depending
on model.

"

ddddPPPP111144

44

"

DP14 Parameter display mask 01EB

H

40464 41464 Word -32768 to 32767

(8000 to 7FFF)

Different depending
on model.

"

ddddPPPP111155

55

"

DP15 Parameter display mask 01EC

H

40465 41465 Word -32768 to 32767

(8000 to 7FFF)

Different depending
on model.

"

ddddPPPP111166

66

"

DP16 Parameter display mask 01ED

H

40466 41466 Word -32768 to 32767

(8000 to 7FFF)

Different depending
on model.

"

ddddPPPP111177

77

"

DP17 Parameter display mask 01EE

H

40467 41467 Word -32768 to 32767

(8000 to 7FFF)

Different depending
on model.

"

ddddPPPP111188

88

"

DP18 Parameter display mask 01EF

H

40468 41468 Word -32768 to 32767

(8000 to 7FFF)

Different depending
on model.

"

ddddPPPP111199

99

"

DP19 Parameter display mask 01F0

H

40469 41469 Word -32768 to 32767

(8000 to 7FFF)

Different depending
on model.

"

ddddPPPP222200

00

"

DP20 Parameter display mask 01F1

H

40470 41470 Word -32768 to 32767

(8000 to 7FFF)

Different depending
on model.

"

ddddPPPP222211

11

"

DP21 Parameter display mask 01F2

H

40471 41471 Word -32768 to 32767

(8000 to 7FFF)

Different depending
on model.

"

ddddPPPP222222

22

"

DP22 Parameter display mask 01F3

H

40472 41472 Word -32768 to 32767

(8000 to 7FFF)

Different depending
on model.

"

ddddPPPP222233

33

"

DP23 Parameter display mask 01F4

H

40473 41473 Word -32768 to 32767

(8000 to 7FFF)

Different depending
on model.

"

ddddPPPP222244

44

"

DP24 Parameter display mask 01F5

H

40474 41474 Word -32768 to 32767

(8000 to 7FFF)

Different depending
on model.

"

ddddPPPP222255

55

"

DP25 Parameter display mask 01F6

H

40475 41475 Word -32768 to 32767

(8000 to 7FFF)

Different depending
on model.

"

ddddPPPP222266

66

"

DP26 Parameter display mask 01F7

H

40476 41476 Word -32768 to 32767

(8000 to 7FFF)

Different depending
on model.

"

ddddPPPP222277

77

"

DP27 Parameter display mask 01F8

H

40477 41477 Word -32768 to 32767

(8000 to 7FFF)

Different depending
on model.

"

ddddPPPP222288

88

"

DP28 Parameter display mask 01F9

H

40478 41478 Word -32768 to 32767

(8000 to 7FFF)

Different depending
on model.

"

ddddPPPP222299

99

"

DP29 Parameter display mask 01FA

H

40479 41479 Word -32768 to 32767

(8000 to 7FFF)

Different depending
on model.

"

ddddPPPP333300

00

"

DP30 Parameter display mask 01FB

H

40480 41480 Word -32768 to 32767

(8000 to 7FFF)

Different depending
on model.

Parameter

display

Parameter

name

Contents

Relative
address

Resistor Number

Type

Read data

Written data

range

Factory Setting

Dependent
on range

Internal

Engineering

unit

– 58 –

7

Chapter

Other

Parameter

display

Parameter

name

Contents

Relative
address

Resistor Number

Type

Read data

Written data

range

Factory Setting

Dependent
on range

Internal

Engineering

unit

SV

Front
SV set
value

Front SV set value 0002

H

40003 41003 Word 0 to 10000

(in the 0% to 100% FS set
value limit)

0092

H

40131 41131 Word

MV

Front
MV set
value

Front MV set value 0089

H

40122 41122 Word -300 to 10300

(-3.0 to 103.0%)

0093

H

40132 41132 Word

Relative
address

Resistor Number

Parameter contents

Internal

Engineering

unit

0000

H

40001 41001 -

– 59 –

7

Chapter

0001

H

40002 41002 CTrL (control method)

0002

H

40003 41003 Front SV set value

0003

H

40004 41004

STbY (Switches between RUN and standby)

0004

H

40005 41005

AT (Auto-tuning run command)

0005

H

40006 41006 P (Propor tional band)

0006

H

40007 41007 I (Integration time)

0007

H

40008 41008 D (Derivation time)

0008

H

40009 41009 hYS (ON/OFF control hysteresis)

0009

H

40010 41010

CoL (Cooling proportional band coefficient)

000A

H

40011 41011 db (Dead band)

000B

H

40012 41012 Ar (Anti-reset windup)

000C

H

40013 41013 bAL (output convergence value)

000D

H

40014 41014 PvoF (PV input shift)

000E

H

40015 41015 SvoF (SV input shift)

000F

H

40016 41016 PvT (PV input types)

0020

H

40017 41017 P-F (Unit display)

0021

H

40018 41018 Pvb (PV input lower limit)

0022

H

40019 41019 Pvb (PV input upper limit)

0023

H

40020 41020 Pvd (decimal position)

0024

H

40021 41021 -

0025

H

40022 41022 TF (PV input filter)

0026

H

40023 41023 rCJ (Cold junction compensation)

0027

H

40024 41024 PCUT (Selects the output limiter type)

0028

H

40025 41025 PLC1 (OUT1 lower limit)

0029

H

40026 41026 PHC1 (OUT1 upper limit)

002A

H

40027 41027 PLC2 (OUT2 lower limit)

002B

H

40028 41028 PHC2 (OUT2 upper limit)

002E

H

40031 41031 SvL (SV limit (lower))

002F

H

40032 41032 SvH (SV limit (upper))

0036

H

40039 41039 Hb1 (CT HB alarm set value)

0037

H

40040 41040 LoC (Key lock)

0038

H

40041 41041 do1T (DO1 output event type)

0039

H

40042 41042 do2T (DO2 output event type)

003A

H

40043 41043 do3T (DO3 output event type)

003B

H

40044 41044 AL1 (ALM1 set value) or A1-L

003C

H

40045 41045 AL2 (ALM2 set value) or A2-L

003D

H

40046 41046 AL3 (ALM3 set value) or A3-L

003E

H

40047 41047 A1-H (Alarm 1 upper limit set value)

003F

H

40048 41048 A2-H (Alarm 2 upper limit set value)

0040

H

40049 41049 A3-H (Alarm 3 upper limit set value)

0041

H

40050 41050 A1hY (ALM1 hysteresis)

0042

H

40051 41051 A2hY (ALM2 hysteresis)

0043

H

40052 41052 A3hY (ALM3 hysteresis)

0044

H

40053 41053 dLY1 (ALM1 delay)

0045

H

40054 41054 dLY2 (ALM2 delay)

0046

H

40055 41055 dLY3 (ALM3 delay)

Relative
address

Resistor Number

Parameter contents

Internal

Engineering

unit

0048

H

40057 41057 Sv-1 (Ramp/soak 1 seg/SV set value)

0049

H

40058 41058 Sv-2 (Ramp/soak 2 seg/SV set value)

004A

H

40059 41059 Sv-3 (Ramp/soak 3 seg/SV set value)

004B

H

40060 41060 Sv-4 (Ramp/soak 4 seg/SV set value)

004C

H

40061 41061 Sv-5 (Ramp/soak 5 seg/SV set value)

004D

H

40062 41062 Sv-6 (Ramp/soak 6 seg/SV set value)

004E

H

40063 41063 Sv-7 (Ramp/soak 7 seg/SV set value)

004F

H

40064 41064 Sv-8 (Ramp/soak 8 seg/SV set value)

0050

H

40065 41065

TM1r (Ramp/soak 1 seg ramp time)

0051

H

40066 41066

TM1S (Ramp/soak 1 seg soak time)

0052

H

40067 41067

TM2r (Ramp/soak 2 seg ramp time)

0053

H

40068 41068

TM2S (Ramp/soak 2 seg soak time)

0054

H

40069 41069

TM3r (Ramp/soak 3 seg ramp time)

0055

H

40070 41070

TM3S (Ramp/soak 3 seg soak time)

0056

H

40071 41071

TM4r (Ramp/soak 4 seg ramp time)

0057

H

40072 41072

TM4S (Ramp/soak 4 seg soak time)

0058

H

40073 41073

TM5r (Ramp/soak 5 seg ramp time)

0059

H

40074 41074

TM5S (Ramp/soak 5 seg soak time)

005A

H

40075 41075

TM6r (Ramp/soak 6 seg ramp time)

005B

H

40076 41076

TM6S (Ramp/soak 6 seg soak time)

005C

H

40077 41077

TM7r (Ramp/soak 7 seg ramp time)

005D

H

40078 41078

TM7S (Ramp/soak 7 seg soak time)

005E

H

40079 41079

TM8r (Ramp/soak 8 seg ramp time)

005F

H

40080 41080

TM8S (Ramp/soak 8 seg soak time)

0060

H

40081 41081 Mod (Ramp/soak mode)

0061

H

40082 41082

PrG (PROG) (Ramp/soak control command)

0062

H

40083 41083 PTn (Ramp/soak activation pattern)

0064

H

40085 41085

SLFb (Pv stable width during self-tuning)

0066

H

40087 41087 Communication DI

0067

H

40088 41088 rEv (Sets normal/reverse operations)

0068

H

40089 41089 TC1 (OUT1 propor tion cycle)

0069

H

40090 41090 TC2 (OUT2 propor tion cycle)

006B

H

40092 41092 A10P (Alarm 1 option function)

006C

H

40093 41093 A20P (Alarm 2 option function)

006D

H

40094 41094 A30P (Alarm 3 option function)

006E

H

40095 41095 DI-1 operation setting

006F

H

40096 41096 DI-2 operation setting

0070

H

40097 41097 ONOF (Hysteresis mode setting)

0072

H

40099 41099 AdJ0 (PV display zero adjustment)

0073

H

40100 41100 AdJS (PV display Splan adjustment)

0081

H

40114 41114 AoT (AO output type)

0082

H

40115 41115 AoL (AO lower limit scaling)

0083

H

40116 41116 AoH (AO upper limit scaling)

0084

H

40117 41117 rEM (CMOD) (switching remote mode)

0085

H

40118 41118 rEM0 (RSV zero adjustment)

0086

H

40119 41119 rEMS (RSV span adjustment)

Relative

address

Resistor Number

Parameter contents

Internal

Engineering

unit

Resistor Number Order Read/Write Parameter List

– 60 –

7

Chapter

0087

H

40120 41120 rTF (RSV input filter)

0088

H

40121 41121 Man (switching manual mode)

0089

H

40122 41122 Front MV set value

0092

H

40131 41131 Front SV set value

0093

H

40132 41132 Front MV set value

0094

H

40133 41133 Man (switching manual mode)

0095

H 40134 41134

STbY (Switches between RUN and standby)

0096H 40135 41135

AT (Auto-tuning run command)

0097H 40136 41136 rEM (switching remote mode)

009C

H 40141 41141 UKEY (USER key allocation settings)

009E

H 40143 41143 di-1 (DI-1 function selection)

009FH 40144 41144 di-2 (DI-2 function selection)

00A0H 40145 41145 di-3 (DI-3 function selection)

00A1H 40146 41146 di-4 (DI-4 function selection)

00A2H 40147 41147 di-5 (DI-5 function selection)

00B0H 40161 41161

LACh (DO output latch cancel command)

00B1H 40162 41162 do1T (DO1 output event type)

00B2H 40163 41163 AL1L (AL1 set value)

00B3H 40164 41164 AL1h (AL1h set value)

00B4

H 40165 41165 A1hY (ALM1 hysteresis)

00B5H 40166 41166 doP1 (Sets DO1 option function)

00B6H 40167 41167 dLY1 (ALM1 delay)

00B7H 40168 41168 dL1U (ALM1 delay time units)

00B8H 40169 41169 do2T (DO2 output event type)

00B9H 40170 41170 AL2L (AL2 set value)

00BAH 40171 41171 AL2H (AL2h set value)

00BBH 40172 41172 A2hY (ALM2 hysteresis)

00BCH 40173 41173 doP2 (DO2 option function setting)

00BDH 40174 41174 dLY2 (ALM2 delay)

00BEH 40175 41175 dL2U (ALM2 delay time units)

00BFH 40176 41176 do3T (DO3 output event type)

00C0H 40177 41177 AL3L (AL3 set value)

00C1H 40178 41178 AL3H (AL3h set value)

00C2H 40179 41179 A3hY (ALM3 hysteresis)

00C3H 40180 41180 doP3 (DO3 option function setting)

00C4H 40181 41181 dLY3 (ALM3 delay)

00C5H 40182 41182 dL3U (ALM3 delay time units)

00C6H 40183 41183 do4T (DO4 output event type)

00C7H 40184 41184 AL4L (AL4 set value)

00C8H 40185 41185 AL4H (AL4h set value)

00C9H 40186 41186 A4hY (ALM4 hysteresis)

00CAH 40187 41187 do4P (DO4 option function setting)

00CBH 40188 41188 dLY4 (ALM4 delay)

00CCH 40189 41189 dL4U (ALM4 delay time units)

00CDH 40190 41190 do5T (DO5 output event type)

00CEH 40191 41191 AL5L (AL5 set value)

Relative
address

Resistor Number

Parameter contents

Internal

Engineering

unit

00CFH 40192 41192 AL5h (AL5h set value)

00D0H 40193 41193 A5hY (ALM5 hysteresis)

00D1H 40194 41194 doP5 (Sets DO5 option function)

00D2H 40195 41195 dLY5 (ALM5 delay)

00D3H 40196 41196 dL5U (ALM5 delay time units)

00D4H 40197 41197 Hb1 (CT HB alarm set value)

00DCH 40205 41205 LbTM

00DDH 40206 41206 LbAb

00F2H 40221 41221 SvN (Selectable SV numbers)

00F3

H 40222 41222 PLn1 (Currently selected PID No.)

00F5

H 40224 41224 SvMX (Selectable SV numbers)

00F6H 40225 41225 PL1M (Currently selected PID No.)

00FCH 40231 41231 Front SV set value

00FDH 40232 41232 P (Propor tional band)

00FEH 40233 41233 I (Integration time)

00FFH 40234 41234 d (Derivation time)

0100H 40235 41235 hYS (ON/OFF control hysteresis)

0101H 40236 41236

CoL (Cooling proportional band coefficient)

0102H 40237 41237 db (Dead band)

0103

H 40238 41238 bAL (output convergence value)

0104H 40239 41239 Ar (Anti-reset windup)

0105H 40240 41240 rEv (Sets normal/reverse operations)

0106H 40241 41241 Sv1 (SV set value 1)

0107H 40242 41242 P1 (Proportional band 1)

0108H 40243 41243 I1 (Integration time 1)

0109H 40244 41244 d1 (Derivation time 1)

010AH 40245 41245 hYS1 (ON/OFF control hysteresis 1)

010BH 40246 41246 CoL1 (Cooling propor tional band 1)

010CH 40247 41247 db1 (Dead band)

010DH 40248 41248 bAL1 (output convergence value1)

010EH 40249 41249

Ar1 (Anti-reset windup 1)

010FH 40250 41250

rEv1 (Sets normal/reverse operations 1)

0110H 40251 41251 Sv2 (SV set value 2)

0111H 40252 41252 P2 (Proportional band 2)

0112H 40253 41253 I2 (Integration time 2)

0113H 40254 41254 d2 (derivation time 2)

0114H 40255 41255 hYS2 (ON/OFF control hysteresis)

0115H 40256 41256 CoL2 (Cooling proportional band 2)

0116H 40257 41257 db2 (Dead band 2)

0117H 40258 41258 bAL2 (output convergence value 2)

0118H 40259 41259

Ar2 (Anti-reset windup 2)

0119H 40260 41260

rEv2 (Sets normal/reverse operations 2)

011AH 40261 41261 Sv3 (SV set value 3)

011BH 40262 41262 P3 (Propor tional band 3)

011CH 40263 41263 I3 (Integration time 3)

011DH 40264 41264 d3 (derivation time 3)

Relative

address

Resistor Number

Parameter contents

Internal

Engineering

unit

– 61 –

7

Chapter

011EH 40265 41265 hYS3 (ON/OFF control hysteresis)

011FH 40266 41266 CoL3 (Cooling proportional band 3)

0120H 40267 41267 db3 (Dead band 3)

0121H 40268 41268 bAL3 (output convergence value 3)

0122H 40269 41269

Ar3 (Anti-reset windup 3)

0123H 40270 41270

rEv3 (Sets normal/reverse operations 3)

0124H 40271 41271 Sv4 (SV set value 4)

0125H 40272 41272 P4 (Proportional band 4)

0126H 40273 41273 I4 (Integration time 4)

0127

H 40274 41274 d4 (derivation time 4)

0128

H 40275 41275 hYS4 (ON/OFF control hysteresis)

0129H 40276 41276 CoL4 (Cooling proportional band 4)

012AH 40277 41277 db4 (Dead band 4)

012BH 40278 41278 bAL4 (output convergence value 4)

012CH 40279 41279

Ar4 (Anti-reset windup 4)

012DH 40280 41280

rEv4 (Sets normal/reverse operations 4)

012EH 40281 41281 Sv5 (SV set value 5)

012FH 40282 41282 P5 (Proportional band 5)

0130H 40283 41283 I5 (Integration time 5)

0131

H 40284 41284 D5 (derivation time 5)

0132H 40285 41285 hYS5 (ON/OFF control hysteresis)

0133H 40286 41286 CoL5 (Cooling proportional band 5)

0134H 40287 41287 db5 (Dead band 5)

0135H 40288 41288 bAL5 (output convergence value 5)

0136H 40289 41289

Ar5 (Anti-reset windup 5)

0137H 40290 41290

rEv5 (Sets normal/reverse operations 5)

0138H 40291 41291 Sv6 (SV set value 6)

0139H 40292 41292 P6 (Proportional band 6)

013AH 40293 41293 I6 (Integration time 6)

013BH 40294 41294 D6 (Derivation time 6)

013CH 40295 41295 hYS6 (ON/OFF control hysteresis)

013DH 40296 41296 CoL6 (Cooling proportional band 6)

013EH 40297 41297 db6 (Dead band 6)

013FH 40298 41298 bAL6 (output convergence value 6)

0140H 40299 41299

Ar6 (Anti-reset windup 6)

0141H 40300 41300

rEv6 (Sets normal/reverse operations 6)

0142H 40301 41301 Sv7 (SV set value 7)

0143H 40302 41302 P7 (Proportional band 7)

0144H 40303 41303 I7 (Integration time 7)

0145H 40304 41304 d7 (Derivation time 7)

0146H 40305 41305 hYS7 (ON/OFF control hysteresis)

0147H 40306 41306 CoL7 (Cooling proportional band 7)

0148H 40307 41307 db7 (Dead band 7)

0149H 40308 41308 bAL7 (output convergence value 7)

014AH 40309 41309

Ar7 (Anti-reset windup 7)

014BH 40310 41310

rEv7 (Sets normal/reverse operations 7)

Relative
address

Resistor Number

Parameter contents

Internal

Engineering

unit

016AH 40341 41341 PvT (PV input types)

016BH 40342 41342 PvB (PV input lower limit)

016CH 40343 41343 PvF (PV input upper limit)

016DH 40344 41344 Pvd (decimal position)

016EH 40345 41345 PvU (Unit display)

0170H 40347 41347 PvOF (PV input shift)

0171H 40348 41348 SVOF (SV input shift)

0172H 40349 41349 SVL (SV limit (lower))

0173H 40350 41350 SVH (SV limit (upper))

0174

H 40351 41351 TF (PV input filter)

0175

H 40352 41352 ADJ0 (PV display zero adjustment)

0176H 40353 41353 ADJS (PV display Splan adjustment)

0177H 40354 41354 rCJ (Cold junction compensation)

0178H 40355 41355 reM (Switching remote SV operation)

0179H 40356 41356 rEM0 (RSV zero adjustment)

0180H 40357 41357 rEMS (RSV span adjustment)

0181H 40358 41358 rEMR (RSV Input Range)

0182H 40359 41359 rTF (RSV input filter)

0183H 40360 41360 -

0198

H 40381 41381 C1r (OUT1 range)

0199H 40382 41382 C2r (OUT2 range)

019AH 40383 41383 TC1 (OUT1 propor tion cycle)

019BH 40384 41384 TC2 (OUT2 propor tion cycle)

019CH 40385 41385 PLC1 (OUT1 lower limit)

019DH 40386 41386 PHC1 (OUT1 upper limit)

019EH 40387 41387 PLC2 (OUT2 lower limit)

019FH 40388 41388 PHC2 (OUT2 upper limit)

01A0H 40389 41389 PCUT (Selects the output limiter type)

01A1H 40390 41390 FLo1

01A2H 40391 41391 FLo2

01A3H 40392 41392 SFo1

01A5H 40394 41394 SFTM (Soft star t set time)

01A9H 40398 41398 SBo1

01AAH 40399 41399 SBo2

01ABH 40400 41400 SBMD (Standby mode settings)

01ACH 40401 41401 AoT (AO output type)

01ADH 40402 41402 AoL (AO lower limit scaling)

01AEH 40403 41403 AoH (AO upper limit scaling)

01C0H 40421 41421 CTRL (control method)

01C1H 40422 41422 ONOF (ON/OFF control hysteresis)

01C2H 40423 41423

SLFB (Pv stable width during self-tuning)

01C3H 40424 41424 PrCS (Control target)

01C4H 40425 41425 PGAP (PFB Dead Band)

01C5H 40426 41426 TrVL (Valve stroke time)

01C7H 40428 41428 CAL (PFB input adjustment command)

01C9H 40430 41430 rMPL (Ramp SV - decline)

Relative

address

Resistor Number

Parameter contents

Internal

Engineering

unit

– 62 –

7

Chapter

01CAH 40431 41431 rMPH (Ramp SV - incline)

01CBH 40432 41432 rMPU (Ramp SV slope time unit)

01CCH 40433 41433

SvT (Ramp SV - SV display mode selection)

01CDH 40434 41434 STMd (Startup mode)

01DEH 40451 41451 dP01 (Parameter display mask)

01DFH 40452 41452 dP02 (Parameter display mask)

01E0H 40453 41453 dP03 (Parameter display mask)

01E1H 40454 41454 dP04 (Parameter display mask)

01E2H 40455 41455 dP05 (Parameter display mask)

01E3

H 40456 41456 dP06 (Parameter display mask)

01E4

H 40457 41457 dP07 (Parameter display mask)

01E5H 40458 41458 dP08 (Parameter display mask)

01E6H 40459 41459 dP09 (Parameter display mask)

01E7H 40460 41460 dP10 (Parameter display mask)

01E8H 40461 41461 dP11 (Parameter display mask)

01E9H 40462 41462 dP12 (Parameter display mask)

01EAH 40463 41463 dP13 (Parameter display mask)

01EBH 40464 41464 dP14 (Parameter display mask)

01ECH 40465 41465 dP15 (Parameter display mask)

01ED

H 40466 41466 dP16 (Parameter display mask)

01EEH 40467 41467 dP17 (Parameter display mask)

01EFH 40468 41468 dP18 (Parameter display mask)

01F0H 40469 41469 dP19 (Parameter display mask)

01F1H 40470 41470 dP20 (Parameter display mask)

01F2H 40471 41471 dP21 (Parameter display mask)

01F3H 40472 41472 dP22 (Parameter display mask)

01F4H 40473 41473 dP23 (Parameter display mask)

01F5H 40474 41474 dP24 (Parameter display mask)

01F6H 40475 41475 dP25 (Parameter display mask)

01F7H 40476 41476 dP26 (Parameter display mask)

01F8H 40477 41477 dP27 (Parameter display mask)

01F9H 40478 41478 dP28 (Parameter display mask)

01FAH 40479 41479 dP29 (Parameter display mask)

01FBH 40480 41480 dP30 (Parameter display mask)

0224H 40521 41521 PASS (Password input)

0225H 40522 41522 PAS1 (Password 1 setup)

0226H 40523 41523 PAS2 (Password 2 setup)

0227H 40524 41524 PAS3 (Password 3 setup)

022EH 40531 41531 ToUT (Display timeout setting)

0230H 40533 41533 r-Fk (During remote selection setting,

SV display blinking settings)

0231H 40534 41534 SoFk (During soft start selection,

SV display blinking settings)

0232H 40535 41535 ALMF (During ALM, DO lamp

blink settings)

0233H 40536 41536 rST (Reset main unit)

0239H 40542 41542 L-C2 (LED lamp allocation (C2))

Relative
address

Resistor Number

Parameter contents

Internal

Engineering

unit

029CH 40561 41561 PTN (Ramp/soak progress)

029DH 40562 41562 TiMU (Ramp/soak time units)

029EH 40563 41563 Mod (Ramp/soak mode)

029FH 40564 41564 PTnM (Sets the max pattern selection)

02A6H 40571 41571

Gsok (Guaranty soak ON/OFF)

02A7H 40572 41572

GS-L (Guaranty soak (lower limit))

02A8H 40573 41573

GS-H (Guaranty soak (upper limit))

02B6H 40581 41581

Sv-1 (Ramp/soak 1 seg/SV set value)

02B7H 40582 41582

TM1r (Ramp/soak 1 seg ramp time)

02B8H 40583 41583

TM1S (Ramp/soak 1 seg soak time)

02B9H 40584 41584

SV-2 (Ramp/soak 2 seg/SV set value)

02BAH 40585 41585

TM2r (Ramp/soak 2 seg ramp time)

02BBH 40586 41586

TM2S (Ramp/soak 2 seg soak time)

02BCH 40587 41587

Sv-3 (Ramp/soak 3 seg/SV set value)

02BDH 40588 41588

TM3r (Ramp/soak 3 seg ramp time)

02BEH 40589 41589

TM3S (Ramp/soak 3 seg soak time)

02BFH 40590 41590

Sv-4 (Ramp/soak 4 seg/SV set value)

02C0H 40591 41591

TM4r (Ramp/soak 4 seg ramp time)

02C1H 40592 41592

TM4S (Ramp/soak 4 seg soak time)

02C2H 40593 41593 Sv-5 (Ramp/soak 5 seg/SV set value)

02C3H 40594 41594

TM5r (Ramp/soak 5 seg ramp time)

02C4H 40595 41595

TM5S (Ramp/soak 5 seg soak time)

02C5H 40596 41596

Sv-6 (Ramp/soak 6 seg/SV set value)

02C6H 40597 41597

TM6r (Ramp/soak 6 seg ramp time)

02C7H 40598 41598

TM6S (Ramp/soak 6 seg soak time)

02C8H 40599 41599

Sv-7 (Ramp/soak 7 seg/SV set value)

02C9H 40600 41600

TM7r (Ramp/soak 7 seg ramp time)

02CAH 40601 41601

TM7S (Ramp/soak 7 seg soak time)

02CBH 40602 41602

Sv-8 (Ramp/soak 8 seg/SV set value)

02CCH 40603 41603

TM8r (Ramp/soak 8 seg ramp time)

02CDH 40604 41604

TM8S (Ramp/soak 8 seg soak time)

02CEH 40605 41605 Sv-9 (Ramp/soak 9 seg/SV set value)

02CFH 40606 41606

TM9r (Ramp/soak 9 seg ramp time)

02D0H 40607 41607

TM9S (Ramp/soak 9 seg soak time)

02D1H 40608 41608

Sv10 (Ramp/soak 10 seg/SV set value)

02D2H 40609 41609

T10r (Ramp/soak 10 seg ramp time)

02D3H 40610 41610

T10S (Ramp/soak 10 seg soak time)

02D4H 40611 41611

Sv11 (Ramp/soak 11 seg/SV set value)

02D5H 40612 41612

T11r (Ramp/soak 11 seg ramp time)

02D6H 40613 41613

T11S (Ramp/soak 11 seg soak time)

02D7H 40614 41614

Sv12 (Ramp/soak 12 seg/SV set value)

02D8H 40615 41615

T12r (Ramp/soak 12 seg ramp time)

02D9H 40616 41616

T12S (Ramp/soak 12 seg soak time)

02DAH 40617 41617

Sv13 (Ramp/soak 13 seg/SV set value)

02DBH 40618 41618

T13R (Ramp/soak 13 seg ramp time)

02DCH 40619 41619

T13S (Ramp/soak 13 seg soak time)

Relative

address

Resistor Number

Parameter contents

Internal

Engineering

unit

– 63 –

7

Chapter

Word Data (read only): function code [04 (H)]

Monitor (Ch5)

02DDH 40620 41620

Sv14 (Ramp/soak 14 seg/SV set value)

02DEH 40621 41621

T14r (Ramp/soak 14 seg ramp time)

02DFH 40622 41622

T14S (Ramp/soak 14 seg soak time)

02E0H 40623 41623

Sv15 (Ramp/soak 15 seg/SV set value)

02E1H 40624 41624

T15r (Ramp/soak 15 seg ramp time)

02E2H 40625 41625

T15S (Ramp/soak 15 seg soak time)

02E3H 40626 41626

Sv16 (Ramp/soak 16 seg/SV set value)

02E4H 40627 41627

T16r (Ramp/soak 16 seg ramp time)

02E5H 40628 41628

T16S (Ramp/soak 16 seg soak time)

Parameter

display

Parameter

name

Contents

Relative
address

Resistor Number

Type Read data

Dependent

on range

Internal

Engineering

unit

"

SSSSTTTTAAAATT

TT

"

STAT Ramp/soak progress 0028

H

30041 31041 Word oFF (ramp/soak is stopped)

1rP (Step 1 Ramp)
1Sk (soak is in step 1)

16rP (Step 16 Ramp)
16Sk (soak is in step 16)
End (ramp/soak is finished)

"

MMMMvvvv11

11

"

Mv1 Control output 1 0029

H

30042 31042 Word -300 to 10300 (-3.00 to 103.00%FS)

"

MMMMvvvv22

22

"

Mv2 Control output 2 002A

H

30043 31043 Word -300 to 10300 (-3.00 to 103.00%FS)

"

PPPPFFFFbb

bb

"

PFb PFB Input Value Display 002B

H

30044 31044 Word -300 to 10300 (-3.00 to 103.00%FS)

"

rrrrSSSSvv

vv

"

rSv RSV input value display 002C

H

30045 31045 Word -500 to 10500 (-5.00 to 105.00%FS)

"

CCCCTTTT11

11

"

CT1 Heater current 1 002D

H

30046 31046 Word 0, 0.4 to 50.0A

"

TTTTMMMM11

11

"

TM1

Remaining time on timer 1

0031

H

30050 31050 Word 0 sec to 9999 sec / 0 min to 9999 min

"

TTTTMMMM22

22

"

TM2

Remaining time on timer 2

0032

H

30051 31051 Word 0 sec to 9999 sec / 0 min to 9999 min

"

TTTTMMMM33

33

"

TM3

Remaining time on timer 3

0033

H

30052 31052 Word 0 sec to 9999 sec / 0 min to 9999 min

"

TTTTMMMM44

44

"

TM4

Remaining time on timer 4

0034

H

30053 31053 Word 0 sec to 9999 sec / 0 min to 9999 min

"

TTTTMMMM55

55

"

TM5

Remaining time on timer 5

0035

H

30054 31054 Word 0 sec to 9999 sec / 0 min to 9999 min

"

FFFFAAAALLLLTT

TT

"

FALT Error source display 0036

H

30055 31055 Word 0000 to 1100

Relative
address

Resistor Number

Parameter contents

Internal

Engineering

unit

...

– 64 –

7

Chapter

Other

Parameter

display

Parameter

name

Contents

Relative
address

Resistor Number

Type

Read data

Dependent
on range

Internal

Engineering

unit

Display PV
value

Pv (measurement) 0000

H

30001 31001 Word 0 to 10000 (0.00 to 100.00%FS)

Display SV
Value

Sv (Currently used
set value)

0001

H

30002 31002 Word 0 to 10000 (0.00 to 100.01%FS)

DV (Currently used
deviation)

0002

H

30003 31003 Word -10000 to 10000

(-100.00 to 100.00%FS)

"

OOOOUUUUTTTT11

11

"

MV1 Output 1 0003

H

30004 31004 Word -300 to 10300 (-3.00 to 103.00%FS)

"

OOOOUUUUTTTT22

22

"

MV2 Output 2 0004

H

30005 31005 Word -300 to 10300 (-3.00 to 103.00%FS)

"

SSSSTTTTNNNNoo

oo

"

STNo STATION No. 0005

H

30006 31006 Word 0 to 255

ALM STATUS 0006

H

30007 31007 Word

"

FFFFAAAALLLLTT

TT

"

FALT FALT STATUS 0007

H

30008 31008 Word 0000 to 1100

"

SSSSTTTTAAAATT

TT

"

STAT Ramp/Soak

progress

0008

H

30009 31009 Word

"

HHHHBB

BB

"

HB 0009

H

30010 31010 Word 0 to 500 (0.0 to 50.0A)

"

TTTTMMMM11

11

"

TM1 Remaining time

on timer 1

000A

H

30011 31011 Word 0 sec to 9999 sec / 0 min to 9999 min

"

TTTTMMMM22

22

"

TM2 Remaining time

on timer 2

000B

H

30012 31012 Word 0 sec to 9999 sec / 0 min to 9999 min

"

TTTTMMMM33

33

"

TM3 Remaining time

on timer 3

000C

H

30013 31013 Word 0 sec to 9999 sec / 0 min to 9999 min

"

CCCCmmmmddddii

ii

" DI 000E

H

30015 31015 Word

RJC (Cold junction
compensation)

000F

H

30016 31016 Word FF (off)

on (on)

"

rrrrSSSSvv

vv

" rSV

RSV input value
display

0024

H

30037 31037 Word

ALM STATUS 003B

H

30060 31060 Word

DI STATUS 003C

H

30061 31061 Word

STAT 003D

H

30062 31062 Word

– 65 –

7

Chapter

Resistor Number Order Read Parameter List

Relative
address

Resistor Number

Type

Memory contents

Internal

Engineering

unit

0000

H

30001 31001 Word PV (measurement)

0001

H

30002 31002 Word SV (Currently used set value)

0002

H

30003 31003 Word DV (Currently used deviation)

0003

H

30004 31004 Word Mv1 (output 1)

0004

H

30005 31005 Word Mv2 (output 2)

0005

H

30006 31006 Word STATION No.

0006

H

30007 31007 Word ALM STATUS

0007

H

30008 31008 Word FALT STATUS

0008

H

30009 31009 Word STAT (Ramp/soak progress)

0009

H

30010 31010 Word HB INPUT

000A

H

30011 31011 Word TM1 (Remaining time on timer 1)

000B

H

30012 31012 Word TM2 (Remaining time on timer 2)

000C

H

30013 31013 Word TM3 (Remaining time on timer 3)

000E

H

30015 31015 Word DI STATUS

000F

H

30016 31016 Word rJC (Cold junction compensation)

0024

H

30037 31037 Word rEM (Remote switching status)

0028

H

30041 31041 Word STAT (Ramp/soak progress)

0029

H

30042 31042 Word Mv1 (output 1)

002A

H

30043 31043 Word Mv2 (output 2)

002B

H

30044 31044 Word PFb input value display

002C

H

30045 31045 Word rSv input value display

002D

H

30046 31046 Word CT1 (Heater current 1)

0031

H

30050 31050 Word TM1 (Remaining time on timer 1)

0032

H

30051 31051 Word TM2 (Remaining time on timer 2)

0033

H

30052 31052 Word TM3 (Remaining time on timer 3)

0034

H

30053 31053 Word TM4 (Remaining time on timer 4)

0035

H

30054 31054 Word TM5 (Remaining time on timer 5)

0036

H

30055 31055 Word FALT STATUS

003B

H

30060 31060 Word ALM STATUS

003C

H

30061 31061 Word DI STATUS

003D

H

30062 31062 Word STAT

– 66 –

7

Chapter

Engineering Unit Data Address Map

Handles data dependent on an input range as a scaled value (engineering unit).

See "Operation Manual" for more details about individual parameter functions and settings ranges.

Bit Data (read only): function code [02 (H)]

Relative

address

Coil

Number

Type

Memory

contents

Read data

Dependent

on range

Remarks/

related

parameters

0000

H

10001 bit ALM1 ON/OFF 0: Alarm OFF

1: Alarm ON

00001

H

10002 bit ALM2 ON/OFF 0: Alarm OFF

1: Alarm ON

00002

H

10003 bit ALM3 ON/OFF 0: Alarm OFF

1: Alarm ON

00003

H

10004 bit ALM4 ON/OFF 0: Alarm OFF

1: Alarm ON

00004

H

10005 bit ALM5 ON/OFF 0: Alarm OFF

1: Alarm ON

00005

H

10006 Not used

00006

H

10007 Not used

00007

H

10008 Not used

00008

H

10009 bit D01 ON/OFF 0: DO OFF

1: DO ON

00009

H

10010 bit D02 ON/OFF 0: DO OFF

1: DO ON

0000A

H

10011 bit D03 ON/OFF 0: DO OFF

1: DO ON

0000B

H

10012 bit D04 ON/OFF 0: DO OFF

1: DO ON

0000C

H

10013 bit D05 ON/OFF 0: DO OFF

1: DO ON

– 67 –

8

Chapter

Chapter 8

Sample Program

Sample Program – 68

– 68 –

8

Chapter

Sample Program

This chapter shows a sample program that runs in Microsoft Visual Basic 6.0 (SP6) for reading and writing data.
The program shown here is meant to be used as a reference for your own program creation, and therefore all its actions are not
guaranteed.

Before running the program, check the following summary of points for communication conditions.

•Parity, communication speed to be set in this program. Please match these values with the conditions of the micro controller.

Warning when using an RS-232C to RS-485 converter

The sent data is sometimes added to the response data from the slave before it is received. In this case, when receiving the data,
process the response data only after first getting rid of the number of bytes from the sent data.

Compatible OS

Windows 2000 Professional
Windows XP Professional Edition

Fuji Electric Systems Co., Ltd. assumes no responsibility for damages or infringement upon third party rights as a result of using
this sample program.
Use this program while conforming to the contents of the agreement listed within.

■

Example of data reading

• Operation: Reads and displays 2 word data of the set address at once.

• Function code to be used: 03H, 04H

• Number of read words: 2

' Variable Declaration ***********************************************************************
Dim idx As Integer

Dim Ansdat() As Byte ' Response data stack
Dim Rxbuff As Variant ' Received data buffer
Dim PauseTime ' Sets the communication wait time.

' The necessary wait time changes depending on the

transmission speed and transmission frame length.

Dim Stno As Byte ' Communication number

Private Sub Form_Load()

' Initializing the Variable ******************************************************************

Stno = 1
Main.Visible = True

End Sub

'-----------------------------------------­'Read continuous words sample program
'Function code : 03H, 04H
'Number of words : 2
'------------------------------------------

Private Sub TX1_Click()

TX1.Enabled = False

Caution

• Windows

®

is a registered trademark of the Microsoft Corporation.

• Visual Basic

®

is a registered trademark of the Microsoft Corporation.

– 69 –

8

Chapter

' Communication Port Settings ****************************************************************

If Com5.Value = True Then
Comm_port = 5 ' COM5
ElseIf Com4.Value = True Then
Comm_port = 4 ' COM4
ElseIf Com3.Value = True Then
Comm_port = 3 ' COM3
ElseIf Com2.Value = True Then
Comm_port = 2 ' COM2
Else
Comm_port = 1 ' COM1
End If

If SPD192.Value = True Then
Comm_speed = "19200," ' 19200bps
ElseIf SPD96.Value = True Then
Comm_speed = "9600," ' 9600bps
Else
Comm_speed = "38400," ' 38400bps
End If

If Even1.Value = True Then
Comm_parity = "E," ' Even parity
ElseIf Odd1.Value = True Then
Comm_parity = "O," ' Odd parity
Else
Comm_parity = "N," ' Parity none
End If

PauseTime = 0.2 ' Sets the wait time. (0.2 sec)

idx = 0

' Opening the Communication Port *************************************************************

MSComm1.CommPort = Comm_port ' COM port settings
MSComm1.Settings = Comm_speed & Comm_parity & "8,1"' Speed / Party / 8bit_Data / Stop_1bit
MSComm1.PortOpen = True ' Port open

' Setting the Communication Number for the Other Party ***************************************

St = Val(Stno1(idx).Text)
Stno = St Mod 256
Stno1(idx).Text = Str(Stno)

' Processing the Address *********************************************************************

AD$ = Str(Val(Address(idx).Text) - 1)
AD$ = Right$(("00000" & AD$), 5)
Area = Val(Left$(AD$, 1))
Adrsh = Int(Val(Right$(AD$, 4)) / 256)
Adrsl = Val(Right$(AD$, 4)) Mod 256

– 70 –

8

Chapter

' Creating the Send Command ******************************************************************

Select Case Area
Case 3
ReDim Txdat(7) As Byte ' Secured 8-byte array
Txdat(0) = Stno ' Station No.
Txdat(1) = &H4 ' Command
Txdat(2) = Adrsh ' High address
Txdat(3) = Adrsl ' Low address
Txdat(4) = &H0 ' Read no. words (High)
Txdat(5) = &H2 ' Read no. of words (Low)
Txsu = 5 ' No. of sent data

Case 4
ReDim Txdat(7) As Byte ' Secured 8-byte array
Txdat(0) = Stno ' Station No.
Txdat(1) = &H3 ' Command
Txdat(2) = Adrsh ' High address
Txdat(3) = Adrsl ' Low address
Txdat(4) = &H0 ' Read no. of words (High)
Txdat(5) = &H2 ' Read no. of words (Low)
Txsu = 5 ' No. of sent data

Case Else ' For other values
MSComm1.PortOpen = False ' COM port close
TX1.Enabled = True
Exit Sub
End Select

' Sending the command.************************************************************************

' Creating CRC for Send Data
GoSub 10000 ' CRC computation
Txdat(Txsu + 1) = CRC1 '
Txdat(Txsu + 2) = CRC2 '

' Send the created command.
MSComm1.Output = Txdat' Send one byte

' Wait until all of the response data is sent.
Start = Timer ' Saves the waiting start time.
Do While Timer < Start + PauseTime ' Has the set time passed?

DoEvents ' Passes control to other processes.
If ((Start + PauseTime) - Timer) > PauseTime Then
Start = Timer
End If

Loop

– 71 –

8

Chapter

' Import the response data into a byte array.
MSComm1.InputMode = comInputModeBinary ' Set binary mode
length = MSComm1.InBufferCount ' Retrieve the no. of sent data bytes
MSComm1.InputLen = 0 ' Set retrieval of all data
Rxbuff = MSComm1.Input ' Import received data into the received buffer
Ansdat = Rxbuff ' Assign received data into the byte array

' Calculating CRC for Received Data
Ansu = length - 3 ' Received data length
GoSub 20000 ' CRC computation

' Error check
If (length = 0) Then ' No answer

Noans = Noans + 1: Rx_data.Caption = "Noans": GoTo 150'

ElseIf ((Ansdat(length - 2) <> CRC1) + (Ansdat(length - 1) <> CRC2)) Then ' CRC error

CRCErr = CRCErr + 1: Rx_data.Caption = "CRCErr": GoTo 150

ElseIf Ansdat(1) >= &H80 Then ' Command error

CMDErr = CMDErr + 1: Rx_data.Caption = "CMDErr": GoTo 150

End If

' Processing correctly received data

wrk1 = Ansdat(3)
wrk2 = Ansdat(4)
wrk3 = Ansdat(5)
wrk4 = Ansdat(6)
If Ansdat(5) > 128 Then ' Received data minus time

Rx_data.Caption = Str(((wrk3 * (2 ^ 24)) + (wrk4 * (2 ^ 16)) + (wrk1 * (2 ^ 8)) + wrk2) - (2 ^ 32))
Else
Rx_data.Caption = Str(((wrk3 * (2 ^ 24)) + (wrk4 * (2 ^ 16)) + (wrk1 * (2 ^ 8)) + wrk2))
End If

150

MSComm1.PortOpen = False ' COM port close

TX1.Enabled = True

Exit Sub

– 72 –

8

Chapter

' ********************************************************************************************

10000 ' CRC calculation subroutine IN:Txdat(Txsu) / OUT CRC1,CRC2 ****************************

CRC = &HFFFF
For i = 0 To Txsu Step 1
CRC = CRC Xor Txdat(i)
For J = 1 To 8 Step 1

CT = CRC And &H1
If CRC < 0 Then CH = 1 Else: CH = 0: GoTo 11000
CRC = CRC And &H7FFF

11000 CRC = Int(CRC / 2)

If CH = 1 Then CRC = CRC Or &H4000

If CT = 1 Then CRC = CRC Xor &HA001
Next J
Next i
CRC1 = CRC And &HFF
CRC2 = ((CRC And &HFF00) / 256 And &HFF)
Return

20000 ' CRC calculation subroutine IN:Ansdat(Ansu) / OUT CRC1,CRC2 ***************************

CRC = &HFFFF
For i = 0 To Ansu Step 1
CRC = CRC Xor Ansdat(i)
For J = 1 To 8 Step 1

CT = CRC And &H1
If CRC < 0 Then CH = 1 Else: CH = 0: GoTo 21000
CRC = CRC And &H7FFF

21000 CRC = Int(CRC / 2)

If CH = 1 Then CRC = CRC Or &H4000

If CT = 1 Then CRC = CRC Xor &HA001
Next J
Next i
CRC1 = CRC And &HFF
CRC2 = ((CRC And &HFF00) / 256 And &HFF)
Return

End Sub

– 73 –

8

Chapter

■

Example of data writing

• Operation: Writes 2 word data of the set address.

• Function code to be used: 10H

• Number of write words: 2

----------------------------------­'Write 2 words sample program
'Function code : 10H
'Number of words : 2
'-----------------------------------

Private Sub Write_command_Click()

Write_command.Enabled = False

' Communication Port Settings ****************************************************************
If Com5.Value = True Then

Comm_port = 5 ' COM5

ElseIf Com4.Value = True Then

Comm_port = 4 ' COM4

ElseIf Com3.Value = True Then

Comm_port = 3 ' COM3

ElseIf Com2.Value = True Then

Comm_port = 2 ' COM2

Else

Comm_port = 1 ' COM1

End If

If SPD192.Value = True Then

Comm_speed = "19200," ' 19200bps

ElseIf SPD96.Value = True Then

Comm_speed = "9600," ' 9600bps

Else

Comm_speed = "38400," ' 38400bps

End If

If Even1.Value = True Then

Comm_parity = "E," ' Even parity

ElseIf Odd1.Value = True Then

Comm_parity = "O," ' Odd parity

Else

Comm_parity = "N," ' Parity none

End If

PauseTime = 0.2 ' Sets the wait time. (0.2 sec)
idx = 1
' Opening the Communication Port *************************************************************
MSComm1.CommPort = Comm_port ' Com port
MSComm1.Settings = Comm_speed & Comm_parity & "8,1" ' Speed / Party / 8bit_Data / Stop_1bit
MSComm1.PortOpen = True ' Open com port

– 74 –

8

Chapter

' Setting the Communication Number for the Other Party ***************************************
St = Val(Stno1(idx).Text)
Stno = St Mod 256
Stno1(idx).Text = Str(Stno)

' Processing the Address *********************************************************************
AD$ = Str(Val(Address(idx).Text) - 1)
AD$ = Right$(("00000" & AD$), 5)
Area = Val(Left$(AD$, 1))
Adrsh = Int(Val(Right$(AD$, 4)) / 256)
Adrsl = Val(Right$(AD$, 4)) Mod 256

'Creating the Send Command *******************************************************************

Select Case Area
Case 4

'Normal sending data is processed.

Dim byteData(3) As Byte
Dim sHex As String

sHex = Right("00000000" & Hex(Val(Write_data.Text)), 8) 'Decimal to hexadecimal
byteData(0) = CByte("&H" & Mid(sHex, 1, 2)) 'hh byte
byteData(1) = CByte("&H" & Mid(sHex, 3, 2)) 'hl byte
byteData(2) = CByte("&H" & Mid(sHex, 5, 2)) 'lh byte
byteData(3) = CByte("&H" & Mid(sHex, 7, 2)) 'll byte

ReDim Txdat(12) As Byte ' 13 bytes
Txdat(0) = Stno ' Station No.
Txdat(1) = &H10 ' Command
Txdat(2) = Adrsh ' High address
Txdat(3) = Adrsl ' Low address
Txdat(4) = &H0 ' Write no. of words (High)
Txdat(5) = &H2 ' Write no. of words (Low)
Txdat(6) = &H4 ' Write no. of bytes
Txdat(7) = byteData(2) ' Write data (Lo high)
Txdat(8) = byteData(3) ' Write data (Lo lo)
Txdat(9) = byteData(0) ' Write data (High high)
Txdat(10) = byteData(1) ' Write data (High lo)
Txsu = 10 ' No. of sent data

Case Else ' For other values

MSComm1.PortOpen = False ' COM port close
Write_command.Enabled = True
Exit Sub

End Select

– 75 –

8

Chapter

' Sending the command. ***********************************************************************

' Creating CRC for Send Data
GoSub 10000 ' CRC computation
Txdat(Txsu + 1) = CRC1 '
Txdat(Txsu + 2) = CRC2 '

' Send the created command.
MSComm1.Output = Txdat ' Send one byte

' Wait until all of the response data is sent.
Start = Timer ' Saves the waiting start time.
Do While Timer < Start + PauseTime ' Has the set wait time passed?

DoEvents ' Passes control to other processes.
If ((Start + PauseTime) - Timer) > PauseTime Then
Start = Timer
End If

Loop

MSComm1.PortOpen = False ' COM port close

Write_command.Enabled = True

Exit Sub

' ********************************************************************************************

10000 ' CRC calculation subroutine IN:Txdat(Txsu) / OUT CRC1,CRC2 **************************

CRC = &HFFFF
For i = 0 To Txsu Step 1
CRC = CRC Xor Txdat(i)
For J = 1 To 8 Step 1

CT = CRC And &H1
If CRC < 0 Then CH = 1 Else: CH = 0: GoTo 11000
CRC = CRC And &H7FFF

11000 CRC = Int(CRC / 2)

If CH = 1 Then CRC = CRC Or &H4000

If CT = 1 Then CRC = CRC Xor &HA001
Next J
Next i
CRC1 = CRC And &HFF
CRC2 = ((CRC And &HFF00) / 256 And &HFF)
Return

End Sub

– 76 –

MEMO

8

Chapter

– 77 –

9

Chapter

Chapter 9

Troubleshooting

Troubleshooting – 78

– 78 –

9

Chapter

Troubleshooting

Check the following items when the unit cannot communicate.

Is the power turned on to all of the equipment related to communication?
Are the wire connections correct? (Are the + and – poles matching?)
Are the communication settings the same between the master (the top computer) and the slave (micro controller)?

Communication speed : 9600bps, 19200 bps
Data : 8-bit
Stop bit : 1-bit
Parity : Odd

Even

None
Does the transmission signal timing satisfy "Chapter 5, MODBUS Communication Protocol" (p. 17)?
Is the station number specified as the sending location from the master set at something other than "0"?

The communication function does not work when set to "0".

When using RS-485, is the 7th digit of the model number (PXG ) any of M, V, K, J, U or F?

When using RS-485, are the communication settings the same for the RS-232C to RS-485 converter?