USER’S MANUAL

74
FEH365a USER’S MANUAL <UG 20 SERIES Temperature Control Network> FUJI UG 20-SERIES PROGRAMMABLE OPERATION DISPLAY

Transcript of USER’S MANUAL

FEH365a

USER’S MANUAL

<UG 20 SERIES Temperature Control Network>

FUJI UG 20-SERIES PROGRAMMABLE OPERATION DISPLAY

Preface

Thank you very much for purchasing the FUJI UG Series POD (Programmable Operation Display).

This manual describes how to use the UG520/420/320/221/220 Series POD (hereinafter called UG

20 or POD) of Temperature control network type.

We suggest, however, the reader who has not experienced this software yet go through all the

chapters in order.

This manual is an English version based on the Japanese user’s manual (No. FH365)

[Reference]

In addition to this manual, the following manuals on the UG 20 Series are available. Please ask

your nearest dealer for the appropriate manuals and read them as required.

Notes

(1) No part of this manual may be reproduced in any form without prior permission of the publisher.(2) The contents of this manual, including the specifications, are subject to change for improvement without

notice.(3) This manual was prepared with utmost care. However, if you find any ambiguity, errors, etc., please

contact any of our sales offices that are listed at the end of this manual. In so ding, please tell the manualnumber shown on the cover of this manual.

UG Series

Name Manual No. Contents

UG 20 Series Manual FEH350 Describes how to operate screen editor<Tutorial> (UG00S-CW) for the UG Series.

UG 20 Series Manual FEH351 Describes the functions of the UG 20<Reference> Series.

UG 20 Series Manual FEH352 Describes the UG520/420/320/221/220 Series<Hardware> hardware.

Safety Precautions

Before mounting, wiring, operation, maintenance and inspection of the device, be sure to read the operatinginstructions carefully to ensure operation. The operating instructions should be furnished to the maintenancesupervisors of final users.• Here, the safety precaution items are classified into “Warning” and “Caution”

Warning :Incorrect handling of the device may result in death or injury.

Caution :Incorrect handling of the device may result in minor injury or physical damage.

Even some items indicated by “Caution” may also result in a serious accident.The general safety precautions are described below. Individual precautions are given where necessary, withthe above symbols.

Safety Precautions

Warning

• Turn OFF the power before mounting, dismounting, wiring, maintaining or checking, otherwise, electric shock,erratic operation or troubles might occur.

• Place the emergency stop circuit, interlock circuit or the like for safety outside the PLC. A failure of PLC mightbreak or cause problems to the machine.

• Never touch any part of charged circuits as terminals and exposed metal portion while the power is turned ON. Itmay result in an electric shock to the operator.

Caution

• Do not use one found damaged or deformed when unpacked, otherwise, failure or erratic operation might be caused.

• Do not shock the product by dropping or tipping it over, otherwise, it might be damaged or troubled.

• Operate (keep) in the environment specified in the operating instructions and manual. High temperature, highhumidity condensation, dust, corrosive gases, oil, organic solvents, excessive vibration or shook might causeelectric shock, fire, erratic operation or failure.

• Do not place magnetized items near to such things as floppy disks. There is a risk of failure.

• Insert items such as floppy disks and connectors in the proper direction. There is a risk of failure.

• Carry out the transfer of screen data during system operation only after checking that everything is safe, as there is arisk of damage to the set or of an accident owing to operational error.

• Do not cut off the power during program loading (during access to the hard disk or floppy disk, or duringcommunication with the POD). There is a risk of erasure of data, product failure, malfunction, mechanical damageor failure.

• Use in the software operation environment stipulated in the manual. There is a risk of failure or malfunction.

• Follow the instructions in the manual regarding the software version. There is a risk of failure or malfunction.

• Mount and lock the connectors for communication cables securely. There is a risk of failure or malfunction.

• Do not touch the surface of the floppy disk. There is a risk of failure or malfunction.

• Carry out regular disk checks. When the hard disk or a floppy disk is used in a damaged state, there is a risk offailure or malfunction of the data generation system.

• Follow the regulations of industrial wastes when the device is to be discarded.

Symbols in This Manual

In this manual, the following symbols are used to explain important operation information:

Symbols at headings

Indicates an important article.

Indicates reference information or supplementary information.

ContentsChapter1 Outline of Temperature Control Network ----------------------------- 1

Chapter2 Connection Cables ----------------------------------------------------- 3

Chapter3 Setting the Termination Resistor ---------------------------------------- 5

Chapter4 Setting Temperature Control Communication------------------------ 6

Chapter5 Processing Cycle ------------------------------------------------------- 9

Chapter6 Directly Specifying Temperature Controller Memory ---------------- 106-1. Setting Temperature Controller Memory ------------------------------------------------------10

Chapter7 Using a “Temp. Network Table” --------------------------------------- 137-1. Editing a “Temp. Network Table” ----------------------------------------------------------------13

7-2. Periodic Reading of Temperature Controller Data ----------------------------------------17

7-3. Sampling of Temperature Controller Data ---------------------------------------------------18

7-4. Transferring Data ---------------------------------------------------------------------------------------20

Chapter8 Indirect Designation Memory ------------------------------------------ 22

Chapter9 Control of Temperature Controller------------------------------------- 23

Chapter10 Station No. Table -------------------------------------------------------- 24

Chapter11 Note on Screen Transfer ------------------------------------------------ 27

Chapter12 System Memory--------------------------------------------------------- 30

Chapter13 Error Display ------------------------------------------------------------- 34

AppendixA-1List of Temperature Controllers --------------------------------------------------------------------------A-1

YOKOGAWA ---------------------------------------------------------------------------------------------------A-2

YAMATAKE------------------------------------------------------------------------------------------------------A-3

OMRON -------------------------------------------------------------------------------------------------------A-4

RKC -------------------------------------------------------------------------------------------------------A-9

FUJI -------------------------------------------------------------------------------------------------------A-10

CHINO -------------------------------------------------------------------------------------------------------A-14

MITSUBISHI -------------------------------------------------------------------------------------------------------A-16

NIKKI DENSO ---------------------------------------------------------------------------------------------------A-19

OHKURA -------------------------------------------------------------------------------------------------------A-20

SHINKO TECHNOS --------------------------------------------------------------------------------------------A-25

SANMEI -------------------------------------------------------------------------------------------------------A-26

TOSHIBA -------------------------------------------------------------------------------------------------------A-28

San Rex -------------------------------------------------------------------------------------------------------A-29

A&D -------------------------------------------------------------------------------------------------------A-30

Modbus Free --------------------------------------------------------------------------------------------------A-31

1

Temperature Control Network

1. Outline of Temperature Control Network

The “Temperature Control Network” makes it possible to connecttemperature controllers made by various companies to the UG 20. A

maximum of 31 temperature controllers can be connected to one UG

20. For details on the temperature controllers that can be connected,

refer to the following page.

On the UG 20, it is possible to monitor data and make settings forthe temperature controllers connected to the UG 20.

Periodic reading/sampling of temperature controller dataWhen using the “Temp. Network Table” (see p.13), it is possible to

periodically read temperature controller data to PLC memory or UG

20 internal memory. In addition, data that is read can be saved

(sampled) in the UG 20 internal buffer or on a memory card.

Data transferIt is possible to use a macro command to transfer the entire contents of

PLC memory, UG 20 internal memory, or memory card memory to

the temperature controller. In addition, it is possible to transfer all

temperature controller data to PLC memory, UG 20 internal memory,

or to the memory card.

. . .

. . .

. . .

. . .

. . .

. . .

. . .

. . .

. . .

. . .

. . .

. . .

. . .

. . .

. . .

. . .

run

s t o p

<Temperature Controller>

<POD>

<PLC>

[Example of Connection Using RS-485]

A/MSET/ENT

PV

SP

SP2 3 4

AL1 2 3 MAN

100

90

PV

SP2

AL1

SET/ENT

2OUT

155150

PV

SP2

AL1

SET/ENT

2OUT

155150

Dedicated cableUG00C-H03 (for RS-485)

RS-485

Up to 31 Temperature Controllers

Maximum length: 500 m

2

Temperature Control Network

Notes

1 Compatible models (Hardware version)

Model Version (Serial No.) UG520H-V **4***** UG520H-S **3***** UG420H-V **5***** UG420H-T **5***** UG420H-S **4***** UG320H-S **7***** UG221H All UG220H All

POD

Type

Ser.

Fuji Electric Co., Ltd. Japan

UG420H-TC1

9 500000

MFD 1999 10

2 UG00S-3WE (screen editing software) Ver. 2.2.0.0 is compatible with

the “Temperature Control Network.”

3 The UG 20 program Ver. 1.130 is compatible with the “Temperature

Control Network.”

The “Temperature Control Network” and “Multi-Link 2”

cannot be used at the same time.

4 For compatible models of temperature controllers, refer to the [List of

temperature controllers] of [Appendix].

3

Temperature Control Network

2. Connection Cables

Use our UG00C-H03/UG00C-B temperature controller connection cable to

connect the UG 20 and the temperature controller. Use our UG00C-R (3

m) temperature control connection cable only when using the RKC control-

ler unit SR-Mini (for RS-422). For details on connecting the temperature

controller, refer to the instruction manual for the applicable temperature

controller.

UG00C-H03/UG00C-B

UG00C-H03 (RS-485)

UG00C-B (RS-232C)

The UG00C-B has four electrical wires. The wires used

vary depending on whether an

RS-485 or RS-232C connection

is used (see diagram below). Be

sure to insulate the wires that

are not used by covering them

with tape.

SG

Orange:RXD

Yellow:TXD

Red:SG

To the temperature controller terminal

To UG 20MJ1/2

* The UG00C-B shield FG is connected to the UG 20.

-

SG

+

Black : +SD/RD

Green : -SD/RD

Red : SG

To the temperature controller terminal

To UG 20MJ1/2

* The UG00C-H03 shield FG is connected to the UG 20.

Red : 0V SG

Orange : RXD

Yellow : TXD

Brown :+5V

4

Temperature Control Network

UG00C-R

To SR-MiniCOM.PORT

To terminal SR-MiniCOM.PORT

(Long)

(Short)

To UG 20MJ1/2

* The UG00C-R shield FG is connected to the UG 20.

CO

M.P

OR

T1

CO

M.P

OR

T2

TIO TIO TIO

CO

M.P

OR

T1

CO

M.P

OR

T2

TIO TIO TIO

CO

M.P

OR

T1

CO

M.P

OR

T2

TIO TIO TIO

MJ1MJ2

UG00C-R (Long)

RKC cable

SR-MiniSR-Mini

CO

M.P

OR

T1

CO

M.P

OR

T2

CO

M.P

OR

T1

CO

M.P

OR

T2

CO

M.P

OR

T1

CO

M.P

OR

T2

UG00C-R (Short)

SR-Mini

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Temperature Control Network

3. Setting the Termination Resistor

The UG 20 RS-485 termination resistor is set with the dip switches on

the back of the UG 20.

When MJ1 is used : Turn DIPSW6 on.

When MJ2 is used : Turn DIPSW8 on.

For the PODs whose hardware version is equal to or older than the

following, the termination resistor is always turned on, independent of

the setting of DIPSW8.

For hardware version, check the value of the third digit from the left on

the “Ser. No.” label that is stuck on the rear side of your POD.

UG520 / 420: N

UG320 : C

UG221 : 9

UG220 : All

For details on other dip switches, refer to the “Hardware Specifications

(FEH352).”

ON

1 2 3 4 5 6 7 8

MJ1 termination resistorMJ2 termination resistor

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Temperature Control Network

4. Setting Temperature Control Communication

This describes how to set the parameters for the temperature controller

used in [Temp. Control Comm. Setting]. Be sure to set the parameters

when connecting a temperature controller to the UG 20.

Select [System Setting] from the [Item] menu and click on [Temp. Control

Comm. Setting]. The [Temp. Control Comm. Setting] dialog is displayed.

Check [ Use Temp. Control Network]. Select the modular jack (1 or 2)

used for connecting the temperature controller connection cable.

If “ Modular Jack 1” is selected, set the RS-485 termi-

nation resistor with the UG 20 dip switches (see p.5).

Click the [Setting] button.

The temperature controller [Temp. Type] dialog is displayed.

Select the temperature controller that will be used.

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Temperature Control Network

Baud Rate

Set the speed used for communication with the temperature controller.

4800/9600/19200/38400/57600/115000 bps

Parity

Set the parity used for communication with the temperature controller.

None/Odd/Even

Data Length

Set the data length used for communication with the temperature

controller.

7 bit/8 bit

Stop Bit

Set the stop bit used for communication with the temperature control-

ler.

1 bit/2 bits

Signal Level

Set the signal level used for communication with the temperature

controller.

RS-485/RS-232C

Be sure that the settings above correspond to the com-

munication settings on the temperature controller. In

addition, because the UG 20 is set as “Sumcheck:

Provided(fixed)”, set the temperature controller to

“Sumcheck: Provided” as well.

Retrials

Set the number of times to perform retry if a communication error

occurs.

Time-Out Time (* 100 msec)

Set the time for receiving a response signal from the temperature

controller. If a response is not received within the set time, retry is

performed.

Send Delay Time (* msec)

When data is received from the temperature controller, set the send

delay time to send a reply to the temperature controller.

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Temperature Control Network

Return Time (* 10 sec)

If the power for a connected temperature controller is turned off,

reading of data from that temperature controller is temporarily prohib-

ited. A return check is performed as specified by the time set for return

time.

Default

When this is clicked, the settings for each temperature controller will

revert to the default settings.

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Temperature Control Network

5. Processing Cycle

This describes the UG 20 processing cycle when a “Temperature

Control Network Table” is used.

In diagram (a) where a “Temp. Network Table” is not used, PLC data is not

read while temperature controller data is being read.

In diagram (b) where a “Temp. Network Table” is used, PLC data and

temperature controller data are read simultaneously.

Because of this, communication with the temperature controller is possible

without a reduction in the processing capacity between the UG 20 and

the PLC.

(a) When a "Temp. Network Table" is not used :

PLC data1 PLC data 2 PLC data 3 PLC data n

1 cycle

(b) When a "Temp. Network Table" is used :

PLC data1 PLC data 2 PLC data 3 PLC data n

One screen data reading cycle

Temperaturecontroller

data 1

One temperature controller data reading cycle

Temperaturecontroller

data 2

Temperaturecontroller

data n

Temperaturecontroller

data 1

Temperaturecontroller

data n

<When a “Temp. Network Table” is used>

If periodic reading of temperature controller data is performed

while the temperature controller is being accessed by a macro

command, the completion of execution of the macro command

may be delayed. In such case, system memory “$s762”

can be used to halt the periodic reading of temperature

controller data. For more information, see page 33 of

this manual.

10

Temperature Control Network

6. Directly Specifying Temperature Controller Memory

The following operations are possible during screen creation when placing

parts allocated in temperature controller memory:

• Monitoring the temperature controller current temperature and setting

value on the data display.

• Using the lamp/relay mode to show the upper/lower limits of the alarm

display.

• Using the entry mode to change temperature controller settings.

If [Temp.Control Comm.Setting] is notset (see p.6),[Temp. Control]cannot beselected.

1. Open the [Memory Input] dialog for parts to allocate temperature

controller memory to it.

6-1. Setting Temperature Controller Memory

2. Select [ Temp. Control] for [Type], and set the temperature controller

station number and memory.

[Refer] function

A name is assigned to each [Temp. Control] memory. When the [Refer]

function is used, it is possible to refer to a comment list for each

temperature controller while setting memory.

(1) Click the [Refer>>] button. The comment list is displayed.

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Temperature Control Network

* If the comment list for other temperature controller is displayed, click

the [Reference...] button, select the list file for the applicable tempera-

ture controller and then click [Open].

(2) Select comment list memory and double click, or click the [<<Select]

button to set memory.

On the UG 20, all [Temp. Control] memory is treated as

DEC type memory. When setting [Temp. Control] in the

numerical display, select [DEC] for [Input Type]. In

addition, when using a macro to transfer temperature

controller data to the PLC, use a [CVP] command (*) to

change the PLC data type if necessary.

However, when setting [Temp. Control] memory on a bar

graph, etc., even if is [BCD] is selected for [Code] in

[Detail] of the [Comm. Parameter] dialog, data will auto-

matically be read as DEC type data.

(*For details, refer to the “Reference Manual.”)

12

Temperature Control Network

Memory without a comment is not displayed on the list.

The comment list can be maintained by the user.

Method

Go to Windows Accessories and activate the Notepad.

Open the temperature controller list file (extension [.Lst]) in the UGW folder.

<Ex. YOKOGAWA UT350/320

List file name: UT350.Lst>

//YOKOGAWA UT350/UT320

TempType=5,6

DeviceTypeStr=”D,I”

DeviceType=0

AddressType=DEC

Address,SymbolName

W1,ADERROR

W2,ERROR

W3,PV

W4,CSP

:

END

DeviceType=0

AddressType=DEC

Address,SymbolName

W0001-00,ADERR

W0002-00,PV ADC

W0002-01,PV BO

:

END

DeviceType=1

AddressType=DEC

Address,SymbolName

B1,ADERROR

B18,PV,BO

B19,RJC ERR

:

END

* When performing maintenance, only change the underlined data. If any other data is changed, reading will not be performed normally.

Add a comment here.B: bit device

Add a comment here.W: word device

Add a comment here.W: word device

13

Temperature Control Network

7. Using a “Temp. Network Table”

When a “Temp. Network Table” is used, the following operations are

possible:

Periodic Reading of Temperature Control Data … P17

Temperature Control Data Sampling …………… P18

Temperature Control Data Transfer ……………… P20

If [Temp.Control Comm.Setting] is notset (see p.6), the[Temp. ControlNetwork Table]menu cannot beselected.

7-1. Editing a “Temp. Network Table”

Activate

Select [System Setting] from the [Item] menu and click on [Temp. Control

Network Table].

Set the Temp. Control Network Table No. (0 to 31),

and click [OK].

The Temp. Network Table [0] Edit window is opened.

There are a total of 32 Temp. Network Table (0 to 31). 128 pieces of

Temp. CTRL Mem. can be set on each table.

14

Temperature Control Network

Close

Go to the menu and click [Close], or click the close button on the upper

right of the window.

Or

Setting Comments

There are a total of 32 Temp. Network Table. A comment can be set for

each table.

Select [Comment] from the [Edit] menu.

The [Comment Setting] dialog is displayed.

Enter a comment and click [OK]. The comment is displayed as shown

below.

15

Temperature Control Network

Setting Method

When you click on a number, the selected line turns blue.

Double click to display the default values for [Temp. CTRL Mem.], Data

Type, etc.

Click on 1 to display the [Memory Input] dialog.

Set the memory that is read from the temperature controller.

Click on 2 to set the [Temp. CTRL Mem.] data type.

• Word

• Double Word

• Bit

• Dummy Word

• Dummy Double

Click

1 2 3

16

Temperature Control Network

Word The data in a temperature controller is treated as one-word

numerical data. The data type of a temperature controller is

automatically converted to DEC type, and it is transferred to

the store target PLC (internal) memory.

Double Word The data in a temperature controller is treated as double-word

numerical data. The data type of a temperature controller is

automatically converted to DEC type, and it is transferred to

the store target PLC (internal) memory.

< Note on transferring to the PLC memory >

• Temperature controller memory : Double words

• Data type on Temp. Network Table : Double words

• Target PLC memory : Double words

In case of transferring under the above conditions, the data is

stored as follows.

Bit

The data in a temperature controller is treated as one-word bit

data. It is transferred to the store target memory without

converting the data type.

Dummy Word / Dummy Double The data in a temperature controller is registered sequentially

at the top of memory set for the store target PLC (internal)

memory.

If there is memory in the store target memory that you wish to

skip, create a dummy word by leaving [Temp. CTRL Mem.]

blank. In this case, “0” is saved for the store target memory.

Temp.CTRL Mem.0000 High-order word Low-order word

0161531

PLC Memory

0000

0001

0 Low-order word

0161531

High-order word0

transfer

17

Temperature Control Network

Double click on 3 to display the [Temp. Table Setting] dialog.

Use Periodical Reading

Check ( ) to execute the operation as below.

• Temperature controller data periodical reading

• Temperature controller data sampling

Read Cycle (sec)

Set the cycle for temperature controller data to be read.

Store Target PLC Memory

Check ( ) and set memory to save temperature control data that is

read in PLC memory.

Store Target Internal Memory

Check ( ) and set memory to save temperature control data that is

read in UG 20 internal memory.

Temp. Control Comm. Setting

When this button is clicked, it is possible to check the contents of the

[Temp. Control Comm. Setting] dialog.

7-2. Periodic Reading of Temperature Controller Data

It is possible to periodically read temperature controller data in PLC

memory or UG 20 internal memory by setting the [Temp. Network Table].

Setting Items

Items that must be set to perform periodic reading:

[Temp. Network Table] (see p.13)

18

Temperature Control Network

7-3. Sampling of Temperature Controller Data

It is possible to sample temperature controller data by linking the [Temp.

Network Table] and buffering area.

Setting Items

Items that must be set to perform sampling:

• Temp. Network Table (see p.13)

• Buffering area settings

• Memory card settings (when the memory card is set as the store target

in buffering area settings)

Setting the Buffering Area

Select [System Setting] from the [Item] menu, and click on [Buffering Area

Setting] to display the [Buffering Area Setting] dialog.

Sampling Method

Temp. Control Net

No. of Table

Set the [Temp. Network Table] number where sampling is performed.

No. of Samples

Set the number of samples to be performed.

Store Target

Select the sampling data store target.

• Internal Buffer

• Memory Card

[SamplingMethod:Temp.Control Net]means samplingat the specifiedintervals. Ifsampling at theedge of 0 ->1 ofbits, select [BitSynchronize].

19

Temperature Control Network

Full Processing

Select the processing when the store target becomes full.

• Continuous: When the [No. of Samples] is exceeded, data is

deleted, beginning with the oldest data.

• Stop: When the [No. of Samples] is exceeded, stop sampling.

Use Start Bit

This bit enables the user to control the start, stop and restart of

sampling. For more information, refer to the “UG 20 Series Manual

<Reference>” (FEH351).

Calculating Buffering Area Capacity

The maximum capacity is 32K words.

If [Temp. Control Net] is set for the [Sampling Method], the calculation

method is as shown below.

1 sample = [No. of Words]* + 2 words

Buffer size = [No. of Samples] 1 sample

* [No. of Words] are the number of the words used for memory in the

[Temp. Network Table] set in [No.of Table].

Setting the Memory Card

If [Memory Card] is selected for [Store Target] in [Buffering Area Setting], it

is necessary to set the [Memory Card] dialog.

* The memory card capacity can be calculated in the same way as the

buffering area capacity.

1 Select [System Setting] from the [Item] menu, and click on [Memory

Card Setting] to open the [Memory Card] dialog.

2 Select [Buffering File] for [Type].

20

Temperature Control Network

These numbers

should be the

same.

7-4. Transferring Data

It is possible to use the [Temp. Network Table] to transfer all temperature

controller data to PLC memory, UG 20 internal memory, or the memory

card. In addition, it is possible to transfer all PLC memory data, UG 20

internal memory data, or memory card data to temperature controller

memory. A macro command (TEMP_READ/TEMP_WRITE) is used for this.

Setting Items

Items that must be set to transfer data:

• Temp. Network Table

• Macro

• Memory card settings (when a memory card is used)

Temp. Network Table

Create a [Temp. Network Table] to perform reading or writing (see p.13). It

is not necessary to make settings in the [Temp. Table Setting] dialog (p.17).

Macro

[TEMP_READ]

Transfers temperature controller data starting with F0 memory on the

[Temp. Network Table] specified in F1.

Indirect Specification

F0

F1

Usable Devices

TEMP_READ F0 <- TABLE : F1TEMP_READ : Read the [Temp. Network Table].

PLC Memory Internal Memory Constant Temp. Network Table No. Memory Card

3 Be sure that the [Output File] set in [Buffering Area Setting] and the file number set in

[Memory Card Setting] are the same.

21

Temperature Control Network

[TEMP_WRITE]

Transfers the data starting with F1 memory to the [Temp. Network

Table] memory specified in F0.

Memory Card Setting

1 Select [System Setting] from the [Item] menu, and click on [Memory

Card Setting] to open the [Memory Card] dialog.

2 Select [Data File] for [Type].

Be sure that [ Use Temp. Control Net] is checked.

3 To set [No. of Data], click the [Table No.] switch and set the table

number. The data number will be set automatically.

All memory card data is DEC type data.

TEMP_WRITE TABLE : F0 <- F1TEMP_WRITE : Write data to the [Temp. Network Table].

Indirect Specification

Usable Devices

PLC Memory Internal Memory Constant Temp. Network Table No. Memory Card

F0

F1

22

Temperature Control Network

8. Indirect Designation Memory

It is possible to access [Temp. Control] memory to use indirect designation

memory in macro commands.

This section explains the way to use indirect designation memory for

[Temp. Control] memory. About the way to use it for PLC or internal

memory, refer to “Reference Manual.”

The internal designation memory ($u) should be used for indirect designa-

tion memory.

Indirect Designation Memory

Temp. Control Memory

Models

03 : Temp. control memory (within 16 bits)

83 : Temp. control memory (16 to 32 bits)

Memory Type

Memory type varies depending on which temperature controller type

you use.

Set the available memory type number for each temperature controller,

by referring to [ Available Memory] of “Appendix.”

Station No.

Set the each station number of a temperature controller.

Model Memory Type

Memory Number (address)

Bit designation

Station No.

n+0

n+1

n+2

n+3

15 8 7 0

Model Memory Type

Memory nunber (address) high

Memory number (address) low

Bit designation

Station No.

n+0

n+1

n+2

n+3

n+4

15 8 7 0

<with in 16 bits> <16-32 bits>

00

00 00

00

23

Temperature Control Network

9. Control of Temperature Controller

It is possible to control a temperature controller by using a macro com-

mand, [Temp_CTL].

The available actions to control are different according to the used tem-

perature controller.

For more information about the contents of control, refer to the

[ TEMP_CTL] command of each temperature controller on “Appendix.”

Macro

[TEMP_CTL]

Controls the operations contained in the number of words specified by

F1 memory starting with F0 memory.

All data read from the temperature controller is treated

as DEC type data.

All data is written to the temperature controller after

being converted to the data type for the temperature

controller.

F0

F1

TEMP_CTL : Control function of temperature controller

Indirect Specification

Usable Devices

PLC Memory Internal Memory Constant Temp. Network Table No. Memory Card

TEMP_CTL F0 F1

24

Temperature Control Network

10. Station No. Table

As of Feb., 2002, the available temperature controller for

Station No. Table is MPC04P made by FUJI only.

The “Temperature Control Network” can connect a UG 20 to maxi-

mum of 31 temperature controllers. And some temperature controllers

can set the station number from 0 to 255. In this case, it is possible to

communicate with temperature controllers which have the station

number from 32 to 255 by using [Station No. Table].

It is easy to specify the station number applied to each network in the

working site by making the screen for setting the station number in the

screen data file.

Setting Method of [Station No. Table]

1. Select [System Setting] from the [Item] menu and click [Temp. Control

Comm. Setting].

2. Click [Station No. Table].

3. The [Station Number Table Setting] dialog is displayed. Set up the

station number of temperature controllers.

25

Temperature Control Network

Rewrite Station No. Table by Macro

To rewrite the Station No. Table on UG 20, use the [FROM_WR] macro

command.

[FROM_WR]

The words specified by F1 starting with F0 memory are written to the

FROM.

• It is necessary to secure the memory 32 words. Set the station no.

from 0 to 32 in each memory.

The memory which is not used table no., set the [-1].

• Set the [32] in F1. If set the F1 except for [32], error is occured.

(Refer to the following paragraph “System Memory”.)

< Note >

1 It will be possible to write to the FP-ROM one hundred thousand

times. (One execution of [FROM_WR] is counted as one time,

irrespective of the specified number of words.)

2 Do not execute [FROM_WR] in every cycle using cycle macro, ete.

3 About 3 to 5 seconds will be necessary for writing to the FP-ROM.

4 After rewriting the Station No. Table by [FROM_WR], be sure to

execute the [RESTART] command (refer to the next page).

System Memory

The result of the execution of the [FROM_WR] macro is stored in $s728.

[0] : normal

[1] : abnormal

PLC Memory Internal Memory Constan Memory Card Indirect Memory

F0

F1

Usable Devices

FROM_WR F0 F1FROM_WR : Writing to FPROM

26

Temperature Control Network

Reconnection of Network by Macro

Reconnect the network by the [RESTART] macro command.

[(RESTART) F1]

Reconnects the temperature control network after the time specified by

F1 memory.

Range of F1 : 0 to 60 (sec)

After rewriting the Station No. Table by [FROM_WR], be

sure to execute the [RESTART] command (refer to the

next page).

PLC Memory Internal Memory Constant Memory Card Indirect Specification

F0

F1

Usable Devices

(RESTART) F1RESTART : Reconnecting Temp. Control Network

Command

$u00000=00$u00001=50$u00002=51

:$u00031=81

Set the station number from $u0 to 31 at the screen.

Execute reconnection of networkby the [RESTART] macro.

[Macro]$u0050=5RESTART $u50

Write the Station No. Table to UG 20 by the [FROM_WR] macro.

[Macro]FROM_WR $u0000 32

WR

Station No. Station No. Station No.

reconnection

check

Finished

Station No.

About 5 seconds(because of $u0050=5)

< Example of procedure of rewriting [Station No. Table] >

27

Temperature Control Network

11. Note on Screen Transfer

Temp. Control Program

When a “Temperature Control Network” is used, you must transfer the

[Temp. control] program to the UG 20.

If [Temp. Control Comm. Setting] is already set, the “Temperature Control

Network” program and screen data will be transferred together.

Or, when [ Temp. control program] is selected in the [Transfer] dialog, it is

possible to transfer only the [Temp. Control] program to the UG 20.

UG00S-CW

PC Screen dataI/F driverTemp. control program

Transfer

UG 20

28

Temperature Control Network

If the [Main Menu] screen is displayed after transfer of screen data, the

[Extension Program Info.] button appears.

If the above button doesn’t appear, transfer the font data.

When this switch is pressed, the following [Extension Program Info.]

screen is displayed, and it is possible to check the settings for [Temp.

Control Drv] and [Temp. Control Comm. Parameter].

Editor:MJ1

Main menuExtension Program Info.

Temp. Control Drv Ver. 1.100 YOKOGAWA GREEN

Temp. Control Comm. Parameter

Signal Lebel : RS485Baud Rate : 9600Data Length : 8Stop Bit : 1Parity : Even

Retry Time : 3Time-out :100msecSend Delay : 0msecReturn Time :10msec

1998-5 -5 07:23:30

SYSTEM PROG. VER. 1.200

FONT

VER.1.100/1.050/1.000

JAPANESE 32

I/F DRV VER.0.500

MELSEC AnA/N/U

PLC Type : MITUBISHI AnA/N/U seriesComment :

Error : stopTime-out : 0.50 sec

Retry : 3

Editor:MJ1

Ethernet VER.1.000Trans. Speed : 10BASE-TStat. No. : 192.168.1.50PORT : 10000MAC : 00000001 ERR : XXX

ExtensionProgram Info.

Main Menu

Screen DataInformation

Size : 2883584

Connection : 1:1Signal Lebel : RS232C

PLC Stat. No. : 0

Baud Rate : 19200Data Length : 7

Stop Bit : 1Parity : Even

Send Delay : 0msec

Memory-Card I/O Test

UG420H-TC1M1

29

Temperature Control Network

Station Number Table

To use Station Number Table, transfer the [Station Number Table] data to

the UG 20.

In the following case, transfer the [Station Number Table] to the UG 20.

•When UG 20 has no data of [Station Number Table]

•When [Stat. No. Table] is selected in the [Transfer] dialog

If the changed screen data is transferred to UG 20

which has already [Station Number Table] data, the

screen data is renewed, but [Station Number Table] is not

renewed. In this case, transfer only the [Station Number

Table] from [Transfer] dialog again.

When a Temperature Control Network is used, the screen data

capacity decreases by 128kbytes.

Check the remaining capacity in [Memory Use] of the [Tool]

menu when creating a screen.

<Ex.>

UG220 (Font : ENGLISH)

Temperature Control Network not used : 1,437,696 bytes

Temperature Control Network used : 1,306,624 bytes

Temperature Control Network and

Station number Table used : 1,175,552 bytes

30

Temperature Control Network

12. System Memory

The temperature controller status is output in UG 20 system memory ($s).

This section describes the temperature controller status output range ($s730

- 761).

For details on other output ranges, refer to the “Reference Manual.”

System Memory List

Address Contents

$s730 Temperature controller Station No. 00 status

731 Temperature controller Station No. 01 status

732 Temperature controller Station No. 02 status

733 Temperature controller Station No. 03 status

734 Temperature controller Station No. 04 status

735 Temperature controller Station No. 05 status

736 Temperature controller Station No. 06 status

737 Temperature controller Station No. 07 status

738 Temperature controller Station No. 08 status

739 Temperature controller Station No. 09 status

740 Temperature controller Station No. 10 status

741 Temperature controller Station No. 11 status

742 Temperature controller Station No. 12 status

743 Temperature controller Station No. 13 status

744 Temperature controller Station No. 14 status

745 Temperature controller Station No. 15 status

746 Temperature controller Station No. 16 status

747 Temperature controller Station No. 17 status

748 Temperature controller Station No. 18 status

749 Temperature controller Station No. 19 status

750 Temperature controller Station No. 20 status

751 Temperature controller Station No. 21 status

752 Temperature controller Station No. 22 status

753 Temperature controller Station No. 23 status

754 Temperature controller Station No. 24 status

755 Temperature controller Station No. 25 status

756 Temperature controller Station No. 26 status

757 Temperature controller Station No. 27 status

758 Temperature controller Station No. 28 status

759 Temperature controller Station No. 29 status

760 Temperature controller Station No. 30 status

761 Temperature controller Station No. 31 status

762 Other than 0: Halt periodic reading

31

Temperature Control Network

Status Code

$s730-761

The temperature controller status codes stored in system memory are

shown below.

Code Contents

0000H Normal

FFFFH Time out

8001H Check code error

8002H Data error

800BH Received an abnormal code from temperature controller

Errors other than the ones above are shown below.

15 14 13 12 11 10 9 8 7 6 5 4 3 2 1 00 0 0 0 0 0 0 0 0 0

MSB LSB

Brake detectFraming error

Overrun errorParity error

Buffer full error

Error 0 : All bits from 0 to 14 are "0." 1 : Bits from 0 to 14 are something other than "0."

32

Temperature Control Network

Countermeasures

1 Check the temperature controller parameter settings and [Temp.

Control Comm. Setting] of the editor .

2 Check the cable wiring.

3 Data may be abnormal due to noise. Take measures to prevent noise.

* If the problem cannot be solved even after performing the above

countermeasures, contact the technical assistance department.

Error

Time out

Check code

Data error

Abnormal codereceived

Buffer full

Parity

Overrun

Framing

Brake detect

Detail

Although a transfer request issent to the temperature controller,an answer is not received withinthe specified time.

The check code for the tempera-ture controller response isincorrect.

The code received is differentfrom the specified code.

An error occurs on the tempera-ture controller.

The UG 20 buffer is full.

An error occurs during paritycheck.

After 1 character is received, thenext character is received beforeinternal processing is finished.

Although the stop bit must be “1,”“0” is detected.

The temperature controller SD(TXD) is at low level.

Countermeasure

Check 1 , 2 , and 3 below.

Check 1 and 3 below.

Check 1 , 2 , and 3 below.

Refer to the temperaturecontroller manual.

Contact the technical assistancedepartment.

Check 2 and 3 below.

Check 1 and 3 below.

Check 1 , 2 , and 3 below.

Check the SD (TXD) connectingcable on the temperature control-ler and the RD (RXD) connectingcable on the UG 20.

33

Temperature Control Network

$s762

This memory is used to halt “periodic reading” that is set in a “Temp.

Network Table”.

• 0 (zero) : Continue to execute periodic reading

• Other than 0 (zero) : Halt periodic reading

If periodic reading of Temp. Network Table is performed while the

temperature controller is being accessed by a macro command, the

completion of execution of the macro command may be delayed (see

(a) in the following figure). To avoid this, $s762 can be used to halt

periodic reading (see (b) in the following figure).

Execution of macro command a Execution of macro command a

TEMP_CTL $u100 2TEMP_CTL $u110 2TEMP_CTL $u120 2

TEMP_CTL $u300 2

T

t

TEMP_CTL $u100 2TEMP_CTL $u110 2TEMP_CTL $u120 2

TEMP_CTL $u300 2

Periodic reading of Temp. Network Table

T+t

Execution of macro command b Execution of macro command b

T T

Periodic reading of Temp. Network Table

$s762=1TEMP_CTL $u100 2TEMP_CTL $u110 2TEMP_CTL $u120 2

TEMP_CTL $u300 2$s762=0

$s762=1TEMP_CTL $u100 2TEMP_CTL $u110 2TEMP_CTL $u120 2

TEMP_CTL $u300 2$s762=0

Periodic reading of Temp.

Network Table

Periodic reading of Temp.

Network Table

V6 communica-tion cycle

POD communica-tion cycle

t

• TEMP_READ• TEMP_WRITE• TEMP_CTL• When temperature controller memory is used by MOV, BMOV, BSET, BCLR, BINV or other command

(a)

(b)

POD communica-tion cycle

34

Temperature Control Network

13. Error Display

If a screen data error occurs, an error occurs on the UG 20.

This section describes Temperature Control Network errors.

For details on other errors, refer to the “Reference Manual.”

Check

Error No. (refer to the chart below)

Data has some error.Error:141 (17 : 0)

Check Data has some errorError:143 (2 : 0)

Error No. Item No.

Countermeasures

Check that the UG 20 SYSTEMPROG. VER. is a version that iscompatible with the TemperatureControl Network.

The Temperature Control Networkand Multi-Link 2 cannot be usedsimultaneously.

Transfer the [Temp. Control].

Check the [Temp. Network Table]settings.

Check the modular settings in[Temp. Control Comm. Setting].

Check [Table No.] in [Buffering AreaSettings] and confirm that there isno overlap.

After checking extension information(P.28) on the local main screen,transfer screen data or a [Temp.Control].

Check the [Station No. Table]setting and transfer it.

Uncheck the check box and transferscreen data.

Check the [Station No. Table]setting.

Error No.

140

141

142

143

144

145

147

155

156

157

Contents

The extension program is notcompatible with the UG 20program.

There is a Multi-Link 2 setting.(Communication parameter)

There is no [Temp. Control].

The [Temp. Network Table] is notset.

The modular is not set.

[Temp. Network Table] areoverlapping.

The temperature controller modeldoes not correspond to theTemperature Control Driver.

The data of FROM is not regis-tered.

In the [P3] menu of the [Others...]dialog, [ Use Internal Flash

ROM...] is checked.

The station number is overlapped.

35

Temperature Control Network

Note:

The following error may be given in addition to the

above. However, this error does not normally occur.

If this error is displayed, contact your nearest distributor

of our company.

* 146: Abnormal table memory setting

Appendix

List of Temperature Controllers A-1

YOKOGAWA A-2

YAMATAKE A-3

OMRON A-4

RKC A-9

FUJI A-10

CHINO A-14

MITSUBISHI A-16

NIKKI DENSO A-19

OHKURA A-20

SHINKO TECHNOS A-25

SANMEI A-26

TOSHIBA A-28

San Rex A-29

A&D A-30

Modbus Free A-31

A-1

Temperature Control Network

List of Temperature Controllers

The temperature controllers which support only 4-wire connec-

tion with RS-422 connection cannot be used.

The following tables show temperature controller models that can be used with Ver.

2.5.0.0 of UG00S-CW.

YOKOGAWA

YAMATAKE

OMRON

RKC

FUJI

CHINO

SHINKO TECHNOS

Temperature C

ontroller

OHKURA

A&D

UT100 / 130 / 150 / 152 / 155

UT750 / 550 / 520 / 350 / 320

UP350 / 550 / 750

UM330 / 350

SDC10 / 20 / 21 / 30 / 31 / 40A / 40G

DMC10

E5AK / E5AK-T

E5CK / E5CK-T

E5EK / E5EK-T

E5ZE

E5ZD

E5AN / E5EN / E5CN / E5GN

E5ZN

SR-Mini (Modbus)

CB100 / 400 / 500 / 700 / 900 (Modbus)

PYX (Modbus)

PYH

PXR (Modbus)

DZ1000 / 2000

KP1000

LT400 series

EC5500S / 5800

EC5600S / 5900A

C Series

FC series

GC-300

AD-4402 (Modbus)

A-2

A-3

A-4

A-5

A-6

A-7

A-8

A-9

A-11

A-10

A-10

A-14

A-15

A-14

A-25

A-20

A-22

A-30

A-11

A-29

A-31Modbus Free

TOSHIBA

FUJI

MITSUBISHI

SANMEI

San Rex

A-28

NIKKI DENSO

1ø2W / 3ø3W / 3ø4W

FVR-E11S

FVR-C11S

FRENIC 5000G11S/P11S

FRENIC 5000VG7S

FR-*500

SQB-6432B

Cuty Axis

VF-S7

VF-S9

DC AUTO (Type HKD)

A-16

A-12

A-13

Inverter, etc.

A-19

A-26

A-2

Temperature Control Network

YOKOGAWA

List of Models

Set [Personal Computer Link Communication] on a temperature

controller. If not so, the communication with UG 20 is impos-

sible.

For details on other setting the temperature controller, refer to

the instruction manual for the applicable temperature controller.

Available Memory

TEMP_CTLUnavailable

Indirect Designation MemoryRefer to page 22.

Memory Type Remarks

D (register) 0

I (relay) 1

B (register) 2 only in UP550 or UP750

UT100 / 130 / 150 / 152 / 155

UT750

UT550 / 520

UT320 / 350

UP350

UP550

UP750

UM330/350

UT100

UT750

UT550

UT350

UP350

UP550_E

UP750_E

UM350

GreenS

Lst file Tem fileTemperature controller

A-3

Temperature Control Network

YAMATAKE

SDC10

SDC20 / 21

SDC30/31

SDC40A

SDC40G

DMC10

SDC10_E

SDC20_E

SDC30_E

SDC40A_E

SDC40G_E

DMC10_E

Digitro

Lst file Tem fileTemperature controller

List of Models

Available Memory

TEMP_CTLUnavailable

Indirect Designation MemoryRefer to page 22.

To change the parameter of SDC20/21 on communication

frequently, set 1(enabled) to [RAM Write Enable Bit Word Address

(312W)] before writing.

If [RAM Write Enable Bit Word Address(312W)] is 0(prohibited), it

is possible to write only to EEPROM Memory. In this cace,she

times of writing is guaranteed up to ten thousand times.

For details on setteing the temperature controller, refer to the

instruction manual for the applicable temperature controller.

Memory Type Remarks

- - - - - - 0

A-4

Temperature Control Network

OMRON

List of Models

E5AK / E5AK-T / E5CK / E5CK-T / E5EK / E5EK-T

Available Memory

TEMP_CTLUnavailable

Indirect Designation MemoryRefer to page 22.

Memory Type Remarks

D (Parameter) 0

S (Special command) 1

P (Program parameter) 2 Available only for E5 K-T models

E5AK / E5AK-T

E5CK / E5CK-T

E5EK / E5EK-T

E5ZE

E5ZD

E5AN / E5EN / E5CN / E5GN

E5ZN

E5AK_E / E5AKT_E

E5CK_E / E5CKT_E

E5EK_E / E5EKT_E

E5ZE_E

E5ZD_E

E5AN_E

E5ZN_E

Thermac

Lst file Tem fileTemperature controller

E5AN

E5ZE

A-5

Temperature Control Network

E5ZE

Available Memory

TEMP_CTL

Indirect Designation Memory

Model

83 : Set the 16 to 32 bit.

F0 (=$u n)

n n+1 n+2 No. of words

F1

3

5

n+3 n+4

3

3

4

3

Auto-tuning

Ramp Value Write

UnitNo.

Command0

Command1

0-7 : control point10 : simultaneous auto-tuning

of control points11 : sequential auto-tuning of

all controll points12 : stop

UnitNo.

Ramp Value Read

Setting Data

Control

Manual Operation

Bank / Control point

0 : save1 : initial

0 : start1 : stop

Control point

Bank / Control point

Ramp valueTime0 : Second1 : Minute2 : Hour

UnitNo.

Command2

Ramp value

Time0 : Second1 : Minute2 : Hour

Command3

Command4

Command5

UnitNo.

UnitNo.

UnitNo.

Control point

Response : Temperature controller send the data to POD.

Model Memory Type

Memory number(low)

00

00

00

Channel No.

Memory number(high)

Bit designation

Station No.

n+0

n+1

n+2

n+3

n+4

15 8 7 0

Memory Type Remarks

- - - - - - 0

A-6

Temperature Control Network

E5ZD

Available Memory

TEMP_CTL

Indirect Designation MemoryRefer to E5ZE(page A-5).

Temp. Control Comm. SettingSelect [System Setting] from the [Item] menu and click [Temp. Control Comm.

Setting]. The [Temp. Control Comm. Setting] dialog is displayed.

F0 (=$u n)

n n+1 n+2 No. of words

F1

3

4Control point

n+3 n+4

3

Autotuning

Setting Data

UnitNo.

Command0

Command3

0-7 : Control point12 : Stop

UnitNo.

Controlling Operation

0 : Save1 : initial

0 : Start1 : Stop

UnitNo.

Command4

Memory Type Remarks

- - - - - - 0

Click the[Set Unit...] button. The dialog is

displayed.

Set each station unit No.

A-7

Temperature Control Network

E5AN / E5EN / E5CN / E5GN

Available Memory

TEMP_CTL

Indirect Designation MemoryRefer to page 22.

Read controller

status

Operation

instructions

Unit No. Command : 0x06

Command : 0x30

status

0x0000 : Communication writing OFF(disabled)

0x0001 : Communication writing ON(enabled)

0x0100 : Run

0x0101 : Stop

0x0200 : Multi-SP (Set point 0)

0x0201 : Multi-SP (Set point 1)

0x0202 : Multi-SP (Set point 2)

0x0203 : Multi-SP (Set point 3)

0x0300 : AT cancel

0x0301 : AT execute

0x0400 : Write mode (Backup)

0x0401 : Write mode (RAM)

0x0500 : Save RAM data

0x0600 : Software reset

0x0700 : Move to set area 1

0x0800 : Move to protect level

F0 (=$u n)

n n+1 n+2 No. of words

F1

2

Unit No.3

Response code : data stored from temperature controller to POD.

Memory Type Remarks

C0 (set up area 0) 0

C1 (set up area 0) 1

C3 (set up area 1) 2

A-8

Temperature Control Network

E5ZN

Available Memory

TEMP_CTL

Indirect Designation MemoryRefer to page 22.

Memory Type Remarks

C0 (set up area 0) 0

C1 (set up area 0) 1

C3 (set up area 1) 2

Read controller

status

Operation

instructions

Unit No. Command : 0x06

Command : 0x30

status

0x0000 : Communication writing OFF(disabled)

0x0001 : Communication writing ON(enabled)

0x0100 : Run

0x0101 : Stop

0x0200 : Multi-SP (Set point 0)

0x0201 : Multi-SP (Set point 1)

0x0202 : Multi-SP (Set point 2)

0x0203 : Multi-SP (Set point 3)

0x0300 : AT cancel

0x0301 : AT execute

0x0400 : Write mode (Backup)

0x0401 : Write mode (RAM)

0x0500 : Save RAM data

0x0600 : Software reset

0x0700 : Move to set area 1

0x0800 : Move to protect level

0x0900 : Channel 1 Auto

0x0901 : Channel 1 Manual

0x0910 : Channel 2 Auto

0x0911 : Channel 2 Manual

0x0A00 : PV hold

0x0B00 : Initialize

F0 (=$u n)

n n+1 n+2 No. of words

F1

2

Unit No.3

Response code : data stored from temperature controller to POD.

A-9

Temperature Control Network

RKC

List of Models

SR-Mini (Modbus)

CB100 / 400 / 500 / 700 / 900

(Modbus)

SR-Mini_E

CB100_E RKC

Lst file Tem fileTemperature controller

Available Memory

TEMP_CTLUnavailable

Indirect Designation MemoryRefer to page 22.

Memory Type Remarks

- - - - - - 0

Use the temperature controller which has the model name [Z-

1021](Modbus Protocol) at the end name.

UG 20 cannot communicate with the temperature controller

which supports the other protocol except for Modbus protocol.

A-10

Temperature Control Network

FUJI

List of Models

PYX (Modbus)

PYH

PXR (Modbus)

1 2W (F-MPC04P)

3 3W (F-MPC04P)

3 4W (F-MPC04P)

FVR-E11S

FVR-C11S

FRENIC 5000G11S/P11S

FRENIC 5000VG7S

PYX

PYH_E

PXR_E

FVR-E11S_E

FVR-C11S_E

F-G11S_E

F-VG7S_E

FujiTC

FujiPYH

FujiTC

Lst file Tem fileTemperature controller

F-MPC04P_E MPC04P

FujiFVR

PYX / PXR

Available Memory

TEMP_CTLUnavailable

Indirect Designation MemoryRefer to page 22.

Memory Type Remarks

0 0

1 1 Read only

4 2

3 3 Read only

A-11

Temperature Control Network

Control message Station number Command : 0

F0 (=$u n)n n+1 No. of words

F1

2

If any number other than "0" is set for n+1 memory, an error will be output to system memory.(For details on system memory, refer to page 25.)

PYH

Available Memory

TEMP_CTL

Indirect Designation MemoryRefer to page 22.

1ø2W / 3ø3W / 3ø4W [ (F-MPC04P)]

Available Memory

TEMP_CTLUnavailable

Indirect Designation MemoryRefer to page 22.

Memory Type Remarks

- - - - - - 0

If UG 20 is connected to the controller which station number

is 32 or more, use the Station Number Table.

For more information, refer to page 24.

Memory Type Remarks

J00 (SCC file) 0

J03 (Secondary module file) 1 Read only

J04 (Secondary module parameter file) 2

J08 (Constant terminal board file) 3 Read only

J12 (System table) 4

A-12

Temperature Control Network

FVR-E11S [Transistor inverter] / FRENIC5000G11S /

P11S [Low-noise, high-performance, multifunctional inverter]

Available Memory

TEMP_CTL

Indirect Designation MemoryRefer to page 22.

FVR-C11S [Low-noise compact inverter]

Available Memory

TEMP_CTLFVR-E11S / FRENIC5000G11S / P11S

See above.

Indirect Designation MemoryRefer to page 22.

Memory Type Remarks

S (Command data) 0

M (Monitor data) 1

F (Basic functions) 2

E (Terminal functions) 3

C (Control functions) 4

P (Motor 1) 5

H (High-level functions) 6

A (Motor 2) 7

O (Optional functions) 8

Reset command Station number Command : 0

F0 (=$u n)n n+1 No. of words

F1

2

Memory Type Remarks

S (Command data) 0

M (Monitor data) 1

F (Basic functions) 2

E (Terminal functions) 3

C (Control functions) 4

P (Motor 1) 5

H (High-level functions) 6

O (Optional functions) 8

A-13

Temperature Control Network

FRENIC5000VG7S [High-performance vector control type inverter]

Available Memory

TEMP_CTLFVR-E11S / FRENIC5000G11S / P11S

Refer to page A-12.

Indirect Designation MemoryRefer to page 22.

Memory Type Remarks

S (Command data) 0

M (Monitor data) 1

F (Basic functions) 2

E (Terminal functions) 3

C (Control functions) 4

P (Motor 1) 5

H (High-level functions) 6

A (Motor 2) 7

O (Optional functions) 8

L (Functions for lifter) 9

U (User functions) 10

A-14

Temperature Control Network

CHINO

List of Models

DZ1000 / DZ2000 / LT400 Series

Available Memory

TEMP_CTLUnavailable

Indirect Designation MemoryRefer to page 22.

Memory Type Remarks

4 (Analog parameter) 0

3 (Analog input data) 1 Read only

0 (Digital parameter) 2

1 (Digital input data) 3 Read only

DZ1000

DZ2000

KP1000

LT400 Series

DZ1000_E

DZ2000_E

KP1000_E

LT400_E

ChinoDZ

ChinoKP

ChinoDZ

Lst file Tem fileTemperature controller

A-15

Temperature Control Network

KP1000

Available Memory

TEMP_CTL

Indirect Designation Memory

When indirectly designating a memory, do not access an address

that is not defined in the memory map.

Macro command BMOV cannot be used.

Memory Type

0

1

2

Remarks

D (data)

DN (specific data)

PG (program)

Expression of address

XXYYZZ

AddressParameter 1

Parameter 2* When there is only one parameter, it must be set as “Parameter 1”.

Alarm reset

Pattern select

Step repeat

Pattern copy

Pattern clear

Command: 0

Command: 1

Command: 2

Command: 3

Command: 4

Pattern No.

Pattern No.

Pattern No.(00 : ALL)

F0 (=$u n)

n n+1 n+2 No. of words

F1

2

3

6

4

3

Starting step End step Repeat times

n+3 n+4 n+5

Sta

tion

No.

Source pattern No.

Destination pattern No.

0x83 Memory Typen+0

n+1

n+2

n+3

n+4

15 8 7 0

Memory number (high)

Memory number (low)

Bit designationStation No.

Extension code

A-16

Temperature Control Network

MITSUBISHI

List of Models

FR-A500 / FR-E500

FR-F500 / FR-S500FR-E500_E FR_E500

Lst file Tem fileInverter

Available Memory

Memory Type Remarks

P (parameter) 0Refer to the parameter table for thecorresponding inverter.

D (parameter) 1 Refer to the following table.

Address

0

1

2

3

4

5

6

7

8

9

Operation mode

Output frequency

Output current

Output voltage

Error information

Error information

Error information

Error information

Inverter status monitor

Changeover to second parameter

Name

Memory D (Parameter)

A-17

Temperature Control Network

Temp. Control Comm. SettingSelect [System Setting] from the [Item] menu and click [Temp. Control Comm.

Setting]. The [Temp. Control Comm. Setting] dialog is displayed.

Click the [Format] button. The dialog is displayed.

Running frequencywrite (EEPROM)

Running frequency

write (inverter RAM)

StationNo.

command0xEE

command0xED

Running frequency

F0(=$u n)

n n+1 n+2 No. of words

F1

3

StationNo. 2inverter reset

Running frequency

0x0: Stop0x2: Normal rotation0x4: Reverse rotation

Communi-cation

Pr.

StationNo.

Operation command command0xFA

StationNo.

command0xFD

3

3

All perameter clearcommand

0xFC

CalibrationOther

Pr.

0xEC0xF30xFF

StationNo.

Pr.

Data

0x9696

0x9966

0x5A5A

0x55AA

3

TEMP_CTL

Indirect Designation MemoryRefer to page 22.

A-18

Temperature Control Network

Set the [CR/LF] of each station number.

Note on Setting Memory

When using [Refer] function, it is possible to see the list file of

[FR-E500].

If using the inverter of FR-A500, F500 or S500, refer to each

manual to set up memory.

A-19

Temperature Control Network

NIKKI DENSO

List of Models

Available Memory

TEMP_CTLUnavailable

Indirect Designation MemoryRefer to page 22.

SQB-6432B SQB-6432 MelAnA

Lst file Tem fileServo controller

Memory Type

0

6

Remarks

D (digital register)

M (auxiliary relay)

A-20

Temperature Control Network

OHKURA

List of Models

EC5500S / EC5800

Available Memory

EC5500S

EC5800

EC5600S

EC5900A

Lst file Tem fileDigital indicating controller

EC5EC5300_E

EC5600_E

D0

D1

Memory Type

0

1

Remarks

Input multiple numbers to CPU No.

Address

Local / Remote

Name

Memory D0

Data

0: No alarm occurred1: Waiting due to alarm2: In alarm condition

0: Local1: Remote

0: SP remote1: SP local

0: Auto1: Manual

0: Auto-tuning1: Self-tuning2: None

0: Ramping RUN1: Ramping STOP

0: Control RUN1: Control STOP

0: Not used1: Used

Status of alarm 1

Status of alarm 2

Status of alarm 3

Status of alarm 4

Execution SP No.

0010

0011

0012

0013

0020

0021 SP remote / local

Auto / Manual0022

Auto- / Self-tuning0023

Ramping RUN / STOP0024

Control RUN / STOP0025

SP in abnormality0026

PV indication0030

PV error0: Normal1: PV error: upper limit over2: PV error: lower limit over

Execution SP

SP in abnormality

Second output proportional band

Dead band

Remote SP bias

Ramping rate of increase

Ramping rate of decrease

Output upper limit

Output lower limit

First output

Second output

0040

0050

0060

0070

0080

0090

00A0

00B0

00C0

00D0

00E0

0031

Address

0000

0010

0020

0030

0040

0050

0060

0070

0080

0090

00A0

00B0

00C0

Multi-SP

Proportional band

Integral time

Manual reset

Derivative time

Alarm

Heater resistance (Ω)

Heater current (A)

Resistance upper limit alarm

Resistance ultimate limit alarm

Temperature upper limit alarm

Set temperature

Name

Memory D1

0000

Resistance rate of change upper limit alarm

A-21

Temperature Control Network

TEMP_CTL

Indirect Designation MemoryRefer to page 22.

Temp. Control Comm. SettingSelect [System Setting] from the [Item] menu and

click [Temp. Control Comm. Setting]. The [Temp.

Control Comm. Setting] dialog is displayed.

Click the [Divisions Group] key to display the

[Divisions Group] dialog.

From this dialog window, set a divisions group for

each station number.

0: Type I (TC, mV, V, mA)

1: Type II (Pt100, JPt100)

2: Type III (TC, mV, V, mA)

Local / Remote changeover

Manual / Auto changeover

Station No.Command

0

Command1

A: Auto

F0 (=$u n)

n n+1 n+2No. of words

F1

2

Station No. 3Multi-SP No. changeover Multi-SP No.

Station No.

Command3

3

Output RUN / STOP changeover Command4

Station No.

3

Auto- / Self-tuning START /

STOPCommand

2

A: Auto-tuningS: Self-tuningN: Stop

Station No. 3

SP Remote / Local changeover

Anti-overshoot Enable / Disable

PV start Enable / Disable

Reset All

Station No.

Station No.

Station No.

Station No.

Command5

Command6

Command7

Command8

R: Output RUNS: Output STOP

R: SP remoteL: SP local

0: Enable1: Disable

0: Enable1: Disable

3

3

2

3

A-22

Temperature Control Network

EC5600S / EC5900A

Available Memory

D0

D1

Memory Type

0

1

Remarks

Input multiple numbers to CPU No.

Address

A alarm hysteresis width

B alarm hysteresis width

C alarm hysteresis width

D alarm hysteresis width

A alarm waiting Enable / Disable

B alarm waiting Enable / Disable

C alarm waiting Enable / Disable

D alarm waiting Enable / Disable

PV error H

PV error L

Scaling decimal point position

Scaling unit

Scaling upper limit

Scaling lower limit

Fixed SP

Second output P (proportional band)

Dead band

A alarm set value

B alarm set value

C alarm set value

D alarm set value

Sensor correction

Execution pattern No.

Execution step No.

Name

Memory D0

Data

0: Enable1: Disable

Address

0000

0010

0020

0030

0040

0050

0060

0070

0080

0090

00A0

Cycle time

Output hysteresis width

P (proportional band)

I (integral time)

D (derivative time)

Manual reset

Output value

Output upper limit

Output lower limit

Reference point

Pattern link

Name

Memory D1

0000

0010

0020

0030

0040

0050

0060

0070

0080

0090

00A0

00A1

00A2

00A3

00B0

00C0

00D0

00E0

00F0

0100

0110

0120

0130

0131

Execution SP

Time remained

Current DO

Remaining DI

Remaining repeat times

0: RUN1: STOP

0: Exist1: None

0138

0137 Existence of link

0133

0134

0135

0136

0132 RUN/STOP

Input range

PV

Execution P

Execution I

Execution D

Execution output upper limit

Execution output lower limit

Execution manual reset

Alarm status (A)

Alarm status (B)

Alarm status (C)

Alarm status (D)

MAN/AUTO0: MAN1: AUTO

0: Remote1: Local

Communication Remote / Local

0160

0170

0180

0190

01A0

01B0

01C0

01D0

01E0

01E1

01E2

01E3

0150

0140

0: Alarm occurred1: Waiting due to alarm2: Other than above

A-23

Temperature Control Network

TEMP_CTL

Local / Remote changeover Command 0

0: Manual Auto1: Auto Manual

0: RUN1: STOP2: RESET4: ADVANCE

Pattern No.

0: Execute program tuning1: Execute point 12: Execute point 23: Execute point 34: Consecutively execute points 1, 2 and 35: Immediately execute6: Stop tuning

Pattern No.

Pattern No.

Pattern No.

Pattern No.

F0 (=$u n)

n n+1 n+2

Refer to Table a

Refer to Table b

Refer to Table c

Refer to Table d

n+3 to No. of words

F1

2

Command 5

Command 6

Command 7

Command 8

Command 4

Command 3

Command 2

Command 1

Program

Manual / Auto changeover

Execution pattern No. changeover

Read program (step data)

Write program (step data)

Read repeat times

Write repeat times

Tuning

3

3

3

3

4

12

3

6

Sta

tion

No.

<Table b> Write Program (Step Data)

Return data: Data stored in POD from temperature controller

<Table a> Read Program (Step Data)

n

n+1

n+2

n+3

n+4

n+5

n+6

n+7

Station No.

Command: 5

Pattern No.

Step No.

Target SP

Time

DO

DI

0: Next step1: END step

0: GS exist1: GS not exist

PID No.

Output limit No.

Station No.

Command: 6

Pattern No.

Step No.

Target SP

Time

DO

DI

0: Next step1: END step

0: GS exist1: GS not exist

PID No.

Output limit No.

No. of words (F1)

4

F0 (=$u n)

<Table c> Read Repeat Times

<Table d> Write Repeat Times

n

n+1

n+2

n+3

n+4

n+5

Station No.

Command: 7

Pattern No.

Repeat times

Starting step No.

End step No.

No. of words (F1)

3

F0 (=$u n)

n

n+1

n+2

n+3

n+4

n+5

n+6

n+7

No. of words (F1)

12

F0 (=$u n)

n+8

n+9

n+10

n+11

n+8

n+9

n+10

n+11

n

n+1

n+2

n+3

n+4

n+5

Station No.

Command: 8

Pattern No.

Repeat times

Starting step No.

End step No.

No. of words (F1)

6

F0 (=$u n)

A-24

Temperature Control Network

Indirect Designation MemoryRefer to page 22.

Temp. Control Comm. SettingRefer to page A-21.

A-25

Temperature Control Network

SHINKO TECHNOS

List of Models

Available Memory

C Series

FC Series

(FCD-13A,FCD-15A

FCR-13A, FCR-15A)

GCS-300

S-C_E

S-FC_E

S-GC_E

Shinko

Lst file Tem fileTemperature controller

Memory Type Remarks

- - - 0

TEMP_CTLUnavailable

Indirect Designation MemoryRefer to page 22.

In the comment list, all the channel numbers are set to 00.

Set the used channel number by HEX.

XXXXYY

YY : channel number

XXXX : data item

A-26

Temperature Control Network

SANMEI

List of Models

Available Memory

CutyAxis SanQT_E

Lst file Tem fileFull-digital position control servo driver

CutyAxis

Memory Type

0

1

2

3

4

5

6

7

Remarks

PRM (parameter)

TBL (point table) *2

OPE (basic operation)

MON (numeric monitor)

IO (I/O monitor)

ALM (alarm status)

S (servo status)

W (internal monitor)

*1 Devices are all of double word type.

*2 Expression of address for TBL (point table)

XXYY

Point No.

Address

A-27

Temperature Control Network

TEMP_CTL

Indirect Designation MemoryRefer to page 22.

<Table c> Internal monitor

n

n+1

n+2,3

n+4,5

n+6,7

n+8,9

n+10,11

n+12,13

n+14,15

n+16,17

n+18,19

n+20,21

n+22,23

n+24,25

n+26,27

n+28,29

n+30,31

n+32,33

n+34,35

n+36,37

n+38,39

n+40,41

Station No.

3

System data

System data

System data

System data

System data

System data

System data

System data

Speed [rpm]

Torque [%]

Torque (+-), peak [%]

Current position [pulse]

Position command [pulse]

Positional deviation [pulse]

Servo status

I/O status

System data

System data

System data

Currently executed point

F0 (=$u n)

All axes write *

Teaching

T wave monitor sampling

Get servo status

Internal monitor

Station

No.

Device No.

0

1

2

3

Address

Data (low-order)

Control code

See Table b

See Table c

F0 (=$u n)

n n+1 n+2

Data (high-order)

Data (high-order)

Trigger position

Data (low-order)

Servo status bit

n+3 n+4 n+5 to

0x7F

No. of words

F1

5

2

5

2

2

Return data: Data stored in POD from temperature controller

See Table a

<Table a> T wave monitor sampling

n

n+1

n+2

n+3

n+4

n+5

n+6

n+7

n+8

n+51

n+52

Station No.

1

Control code

Trigger position

Servo status bit

Servo status

Torque

Speed

Servo status

Torque

Speed

No. of words (F1)

2

No. of words (F1)

2

No. of words (F1)

2

F0 (=$u n)

<Table b> Get servo status

n

n+1

n+2,3

n+4,5

n+6,7

n+8,9

n+10,11

n+12,13

n+14,15

n+16,17

Station No.

2

Servo status

Command point

Motor type

ROM version

System data

System data

System data

System data

F0 (=$u n)

* When “point table” is specified for “device No.” (n+1) for “All axes write”, the data for 8 double-words is stored in the area following (n+4)th word. Here, “No. of words” (F1) becomes 20 (words). Address (n+2) is specified by “00YY” (YY: point No.)

A-28

Temperature Control Network

TOSHIBA

List of Models

VF-S7

VF-S9

VFS7_E

VFS9_ETOSVERT

Lst file Tem fileInverter

Available Memory

TEMP_CTLUnavailable

Indirect Designation MemoryRefer to page 22.

Memory Type Remarks

- - - 0

It is possible to set up the [Target Memory] in the [Memory Input]

dialog.

•RAM : store in RAM

•EEPROM : store in RAM+EEPROM

A-29

Temperature Control Network

San Rex

List of Models

Available Memory

TEMP_CTLUnavailable

Indirect Designation MemoryRefer to page 22.

DC AUTO HKD Series

Lst file Tem fileRectifier

HKD_E HKD

Select “RS-232C” from the [Temp. Control Comm. Setting] dialog,

and connect to the rectifier using the RS-232C-to-RS-422 con-

verter.

Memory Type

0

1

2

3

Remarks

M (monitor data)

MD (monitor data), 4 bytes

S (set data)

1SD (set data), 4 bytes

Memory: M (monitor data)

Read only

Read only

Address

0

1

2

3

4

5

6

8

9

10

11

12

13

14

15

16

17

18

(Reserved for system)

System status

Error status

DC output current

DC output voltage

Cumulative current

Activation time

Read data type

Read memory No.

Pulse ON time

Pulse OFF time

Output set value 1

Output set value 2

Preset value

Unit for current

Unit for voltage

Rated output current

Rated output voltage

Name

Memory: S (set data)

Address

0

1

2

3

4

5

6

7

8

9

10

11

12

13

14

16

17

18

Data setting mode

Memory No. 1

Memory No. 2

Pulse ON time

Pulse OFF time

Output set value 1

Output set value 2

Preset value

System control

Unit, operation mode

Low-voltage starting time

Starting low voltage (ratio)

Starting low-voltage current

Software starting time

Software stop time

Ratio of detected output error

Ratio of detected output high error

Ratio of detected output low error

Name

Memory: MD (monitor data)

Address

7 Total cumulative current

Name

Memory: SD (set data)

Address

15 Total preset value

Name

A-30

Temperature Control Network

A&D

List of Models

Available Memory

TEMP_CTLUnavailable

Indirect Designation MemoryRefer to page 22.

AD-4402MODBUS

Lst file Tem fileTemperature controller

AD4402_E Modbus

Memory Type

0

1

2

3

Remarks

0 (output coil)

1 (input relay)

4 (holding register)

3 (input register)

A-31

Temperature Control Network

Modbus Free

ModelsIt is possible to connect not only temperature controllers but also other device applied

to Modbus protocol to UG 20.

Available Memory

TEMP_CTLUnavailable

Indirect Designation MemoryRefer to page 22.

Temp. Control Comm. SettingSelect [System Setting] from the [Item] menu and click

[Temp. Control Comm. Setting]. The [Temp. Control

Comm. Setting] dialog is displayed.

Click the [Format] button.

The [Format Setting] dialog is

displayed.

Set the format of each station

number.

At first, set the Local No., and

then, set the format.

[Format Setting] means not onlysetting the words of data read-ing/writing at one time but alsosetting Function Code of ModbusProtocol. The available FunctionCodes are different according toeach controllers. When settingthis dialog, refer to each manualof controller and the table shownright.

For example, to use the controllers which supports Function Code[10H], set [2word] or more in [Writing Holding Register] at the side ofUG00S-CW. If setting [1word], it is recognized [06H] and error ocurrs.

Memory Type Remarks

0 (output coil) 0

1 (input relay) 1

4 (holding register) 2

3 (input register) 3

ModbusFunction Code

UG00S-CW Format Setting

1bit

16bit or more

Reading Coil

Writing Coil

Reading Input Relay

Reading Holding Register

Writing Holding

Register

Reading Input Register

1H

5H

FH

2H

3H

6H

10H

4H

1word

2word or more

Fuji Electric Co., Ltd.ED & C • EDrive Systems CompanyGate City Ohsaki, East Tower11-2, Osaki 1-chome, Shinagawa-ku, Tokyo, 141-0032, JapanPhone: +81-3-5435-7135~8Fax: +81-3-5435-7456~9

URL http://www.fujielectric.co.jp/kiki/Printed on recycled paper

Information in this manual is subject to change without notice. Printed in Japan 2001-8(H01/H01) F 3 FIS