Pre-Ver. 2.0 CPU Units

CPU Units Ver. 2.0 (Lot No.: 031105 on)
CJ1M CPU Units, low-end models
CJ1M-CPU11/21 Unit Ver. 2.0 (Lot No.: 031002 on) WS02-CXPC1-EV@ Ver.3.2 Ver.3.3 Ver.4.0

Support Software

CX-Programmer
Function Support by Unit Version
CS1-H CPU Units (CS1@-CPU@@H)
Function Unit version Pre-Ver. 2.0 CPU Units Downloading and Uploading Individual Tasks Improved Read Protection Using Passwords ----CPU Units Ver. 2.0 OK OK OK OK OK OK OK for up to 64 groups OK --OK OK OK OK OK OK OK OK OK ---
Write Protection from FINS Commands Sent to CPU Units via Net- --works Online Network Connections without I/O Tables --Communications through a Maximum of 8 Network Levels Connecting Online to PLCs via NS-series PTs Setting First Slot Words Automatic Transfers at Power ON without a Parameter File --OK from lot number 030201 OK for up to 8 groups ---
Automatic Detection of I/O Allocation Method for Automatic Transfer --at Power ON Operation Start/End Times --New ApplicaMILH, MILR, MILC tion Instructions =DT, <>DT, <DT, <=DT, >DT, >=DT BCMP2 GRY TPO DSW, TKY, HKY, MTR, 7SEG EXPLT, EGATR, ESATR, ECHRD, ECHWR ------OK from lot number 030201 -------
Reading/Writing CPU Bus Units with IORD/IOWR OK from lot number 030418 PRV2 ---
Function CS1D CPU Units for Duplex-CPU Systems (CS1D-CPU@@H) CS1D CPU Units for Single-CPU Systems (CS1D-CPU@@S) CPU Unit Ver. 2.0 --OK OK OK OK OK OK OK OK OK OK OK for up to 64 groups OK --OK OK OK OK OK OK OK OK OK ---
Pre-Ver. 1.1 CPU Units Functions unique to CS1D CPU Units Duplex CPU Units Online Unit Replacement Duplex Power Supply Units Duplex Controller Link Units OK OK OK OK -------------
CPU Unit Ver. 1.1 OK OK OK OK OK ------------------OK -------------------
Duplex Ethernet Units Downloading and Uploading Individual Tasks Improved Read Protection Using Passwords Write Protection from FINS Commands Sent to CPU Units via Networks Online Network Connections without I/O Tables Communications through a Maximum of 8 Network Levels
Connecting Online to PLCs via NS-series PTs --Setting First Slot Words --Automatic Transfers at Power ON without a Parameter File Automatic Detection of I/O Allocation Method for Automatic Transfer at Power ON Operation Start/End Times New Applica- MILH, MILR, MILC tion Instruc=DT, <>DT, <DT, <=DT, >DT, tions >=DT BCMP2 GRY TPO DSW, TKY, HKY, MTR, 7SEG EXPLT, EGATR, ESATR, ECHRD, ECHWR Reading/Writing CPU Bus Units with IORD/IOWR PRV2 -------------------------

CJ1-H/CJ1M CPU Units

Function CJ1-H CPU Units (CJ1@-CPU@@H) CJ1M CPU Units, except low-end models (CJ1M-CPU@@) CJ1M CPU Units, low-end models (CJ1M-CPU11/ 21) CPU Units Ver. CPU Units Ver. 2.0 2.0 OK OK OK OK OK OK

CS1G-CPU@@H

Series CS Series
Device type setting on CX-Programmer Ver. 4.0 or higher CS1G-H CS1H-H CS1D-H (or CS1H-H) CS1D-S CJ1G-H CJ1H-H CJ1M

CS1H-CPU@@H CS1D-CPU@@H

CS1D-CPU@@S CJ1G-CPU@@H

CJ1H-CPU@@H CJ1M-CPU@@

Troubleshooting Problems with Unit Versions on the CX-Programmer
Problem Cause An attempt was made using CXProgrammer version 4.0 or higher to download a program containing instructions supported only by CPU Units Ver. 2.0 or later to a Pre-Ver. 2.0 CPU Units. Solution Check the program or change the CPU Unit being downloaded to a CPU Unit Ver. 2.0 or later.
After the above message is displayed, a compiling error will be displayed on the Compile Tab Page in the Output Window.
???? is displayed in a program transferred from the PLC to the CX-Programmer.
An attempt was made using CXProgrammer version 4.0 or higher to download a PLC Setup containing settings supported only by CPU Units Ver. 2.0 or later (i.e., not set to their default values) to a Pre-Ver. 2.0 CPU Units. CX-Programmer version 3.3 or lower was used to upload a program containing instructions supported only by CPU Units Ver. 2.0 or later from a CPU Unit Ver. 2.0 or later.
Check the settings in the PLC Setup or change the CPU Unit being downloaded to a CPU Unit Ver. 2.0 or later.
The new instructions cannot be uploaded using CX-Programmer version 3.3 or lower. Use CX-Programmer version 4.0 or higher.

TABLE OF CONTENTS

PRECAUTIONS. xxiii
5 Intended Audience. General Precautions. Safety Precautions. Operating Environment Precautions. Application Precautions. xxiv xxiv xxiv xxv xxvi

SECTION 1 Installation.

1-1 1-2 1-3 1-4 1-5 1-6 1-7 Applicable Models. Using the Programming Console. Programming Console Functions. Unsupported Functions. Functions and Nomenclature. Programming Console Connection and Installation. Comparison with Previous Models.
SECTION 2 Using the Programming Console.
2-1 2-2 2-3 2-4 2-5 Programming. Connecting the Programming Console. Using the Programming Console for the First Time. Inputting Programs. Checking Program Operation.

SECTION 3 Operation.

3-1 3-2 3-3 3-4 3-5 3-6 3-7 Starting Operation. Changing Operating Modes. Key Functions. Clearing Memory Areas. Buzzer Operation. Selecting Tasks. I/O Table Operations.
SECTION 4 Writing and Editing Programs.
4-1 4-2 4-3 Inputting Instructions. Reading and Searching Programs. Editing Programs.
SECTION 5 Checking and Adjusting Programs.
5-1 5-2 5-3 5-4 5-5 5-6 5-7 5-8 Reading Program Execution Status. Simple I/O Monitor. I/O Multipoint Monitor. Monitor Display Format. Changing Word (16-bit) Present Values. Forcing Bits ON/OFF. Differential Monitor. Online Editing.

103 104

SECTION 6 Maintenance Operations. 115
6-1 6-2 6-3 Clock Read/Change. Cycle Time Read. Reading/Clearing Error Messages. 118

SECTION 7 Memory Card Operations. 123
7-1 7-2 7-3 7-4 7-5 7-6 File Memory Operations. Memory Card Format. File Write. File Read. File Verify. File Delete. 134 137
SECTION 8 PLC Setup Procedure. 141
8-1 PLC Setup Procedure. 142

Appendices

A B C ASCII Coding Sheet. Error Messages. PLC Setup Coding Sheets for Programming Console. 149
Index. 161 Revision History. 165

About this Manual:

This manual describes the installation and operation of the CQM1H-PRO01-E, CQM1-PRO01-E and C200H-PRO27-E Programming Consoles for use with CS-series and CJ-series Programmable Controllers and includes the sections described below. The CS Series and CJ Series are subdivided as shown in the following table.
Unit CPU Units CS Series CS1-H CPU Units: CS1H-CPU@@H CS1G-CPU@@H CS1 CPU Units: CS1H-CPU@@-EV1 CS1G-CPU@@-EV1 CJ Series CJ1-H CPU Units: CJ1H-CPU@@H CJ1G-CPU@@H CJ1 CPU Units: CJ1G-CPU@@-EV1 CJ1M CPU Units: CJ1M-CPU@@
CS1D CPU Units: CS1D CPU Units for Duplex-CPU Systems: CS1D-CPU@@H CS1D CPU Units for Single-CPU Systems: CS1D-CPU@@S CS1D Process CPU Units: CS1D-CPU@@P Basic I/O Units Special I/O Units CPU Bus Units Power Supply Units CS-series Basic I/O Units CS-series Special I/O Units CS-series CPU Bus Units CS-series Power Supply Units Note: Use the special CS1D Power Supply Units for CS1D PLCs. CJ-series Basic I/O Units CJ-series Special I/O Units CJ-series CPU Bus Units CJ-series Power Supply Units
Please read this manual and all related manuals listed in the table on the next page carefully and be sure you understand the information provided before attempting to use the CQM1H-PRO01-E, CQM1PRO01-E, or C200H-PRO27-E Programming Console to program, set up, or operate a PLC System. Section 1 gives a brief overview of the functions performed by the Programming Console, as well as Programming Console specifications and connection procedures. It also lists the differences between the operation of the Programming Consoles for CS/CJ-series PLCs and previous Programming Consoles. Section 2 provides information on how to set up the Programming Console for operation. It also describes how to write a simple program from the Programming Console. Section 3 describes the basic operations of the Programming Console, including initializing memory and creating I/O tables. The three input modes available on the Programming Console are also described. Section 4 describes how to create and edit programs from the Programming Console. Section 5 describes how to monitor programs in different display modes to check and modify the user programs. Change values from various displays is also described. Section 6 includes information on reading and setting the clock, reading the cycle time, and reading/ clearing error messages. Section 7 provides information on how to format Memory Cards before use, and procedures for transferring data between Memory Cards and the CPU Unit. Section 8 lists the settings in the PLC Setup. Appendix A provides a ASCII coding list, Appendix B provides a list of operating error messages, and Appendix C provides a PLC Setup Setting Sheets.

Buzzer volume minimum

Buzzer volume maximum C200H-PRO27-E Programming Console
Refer to 3-5 Buzzer Operation for further information on adjusting the buzzer volume.
The Mode Switch and Operating Modes
The relation between the operating mode of the CPU Unit and the mode switch is as follows:

Key operation

MONITOR RUN PROGRAM
Operating mode PROGRAM mode
Function The CPU Unit is stopped. Programming operations, such as writing or changing programs, clearing memory, and checking the program, can be performed.

MONITOR mode

The CPU Unit is operating and I/O processing is being performed. In this mode, CPU Unit operation can be monitored and functions such as forcing bits ON/OFF, changing timer/ counter SV/PC, changing word data PVs, and online editing can be used. This mode is often used for making program adjustments and for trial system operations. Used for normal operation of the CPU Unit. The operating status of the CPU Unit can be monitored in this mode, but functions such as forcing bits ON/OFF and changing PVs and SVs cannot be performed.

RUN mode

Startup Operating Mode
The operating mode of the CPU Unit when the power is turned ON depends on the status of address 81 in the PLC Setup (Startup Mode) and the connection status of peripheral devices.
Startup Mode setting in Peripheral device Startup operating mode PLC Setup (address 81) PRCN: Mode set on ProNothing connected CS1 CPU Unit: gramming Consoles mode PROGRAM mode switch CJ1/CJ1-H/CS1-H CPU Unit: RUN mode Programming Con- The mode set on the mode switch sole connected on the Programming Console Peripheral device other than Programming Console connected PRG: PROGRAM mode MON: MONITOR mode RUN: RUN mode Not relevant Not relevant Not relevant CS1 CPU Unit: PROGRAM mode CJ1/CJ1-H/CS1-H CPU Unit: RUN mode PROGRAM mode MONITOR mode RUN mode

Key Functions

Each key has three possible inputs: The normal input, a shift input, and a text input. Refer to page 37.
Shift input FUN A Normal input AR HR Normal input L Text input A Shift input Normal input 0 Text input

Text input

Press the SHIFT Key first to use the shift input. Press the SHIFT and then TEXT Keys first to use the text input.
Note Keystrokes for procedures are illustrated using graphics of the buttons on the keypad for each step. The following list provides key names used in the text of this manual.

Name FUN Key

SFT Key
Normal input Function code Select/change task PLC Setup (shift, monitor etc.) SFT

Shift input ---

000202 MOVL SV A #12345678
The display format of constants can be changed by pressing the,IR/TR Key.

,IR TR DISP

000202 MOV SV A #FFFF

+ 000202 MOV () SV A

Signed decimal
000202 MOV SV A &65535

Unsigned decimal

When the signed decimal display is used, the value can be changed between positive and negative using the SET/RESET Keys.

000202 MOV SV A +4660

Positive

RESET SET

000202 MOV SV A -4660

Negative

Note Changes such as those illustrated above cannot be made for BCD data constants such as Timer/Counter set values, JMP/Subroutine numbers etc.
Reading and Searching Programs

SHIFT SET

Section 4-2

000123 CT00 @MOV(021)

000123 CT00 %SET 000000

000123 CT00 !MOV(021)

Note The same key sequence can be used to Symbol: Immediate refresh reset.

000123 CT00 !@MOV(021)

000123 CT00 !%SET 000000
Reading Designated Addresses
This operation is used to read programs from user memory. In RUN and MONITOR modes, the I/O status of the current bit will be displayed. Key Sequence

Program address

In the following example, address 123456 is read. 1. From the initial display, specify the address to be read. In this example, program address 123456 is read.

123456

123456 CT00 LD 000000
The program address is displayed when using either the Instruction Search or Operand Search operation. 2. Using the Up and Down Keys, read the previous and next program addresses.
123457 CT00 AND CT00 LD 000000
When the program is finished, the following display will appear.

123458 CT00 END(001)

If you attempt to read program addresses after the END(001) instruction, (program addresses without instructions) ADR OVER will be displayed. When there is no END(001) instruction, the following display will appear.

123459ADR OVER

Instruction Search
This operation is used to search the program for specified instructions. The program address from which to begin the search can be specified before starting. Key Sequence

000201 DEL END OUT 000100
If the user attempts to delete from an address where there is no instruction or when END(001) instruction is written, ADR OVER will be displayed. When multiple-operand instructions are deleted, the set values (operands) will also be deleted.

Bit Address Change

This operation is used to change bit addresses in operands in the user program. Key Sequence
Program address display Input operand address
In the following instruction block, the operand address at 000200, CIO 000001, will be changed to CIO 000002.
Address : : Instruction : LD AND : Operands : :
The operand address will be changed to CIO 000002.
1. From the initial display, access the address of the instruction containing the bit address to be changed.
2. Specify the new operand, and press the WRITE Key.
000200 CT00 LD CT00 AND 000200
3. Press the Up Key to check the operand has been changed.

000200 CT00 LD 000002

N.O./N.C. Change
This operation is used to change N.O. and N.C. conditions in the user program. Key Sequence

NOT NOT WRITE

In the following instruction block, address 000200 will be changed from LD 000001 to LD NOT 000001.
Changed to LD NOT 000001.
1. From the initial display, access the address containing the instruction to be changed.
000000 CTLD 000200 CT00 LD 000001
2. Press the NOT Key and then the WRITE Key.
000200 CT00 LD N CT00 AND 000200
3. Use the Up Key to check that LD has been changed to LD NOT.

000200 CT00 LD N 000001

Instruction Variation Change
This operation is used to change the variation of an instruction in the user program. Refer to page 110 for further information on key sequences and displays in MONITOR mode. Key Sequence
Program address display Differentiate up

SHIFT SET WRITE

In the following instruction block address, 000200 (LD000001) will be changed to an upwardly differentiated LD instruction.

Changed to LD 000001.

1. From the initial display, access the address of the instruction to be changed.
2. Using the following key sequence, specify the variation and press the WRITE Key.

000200 @LD

000201 CT000 AND 000200
3. Use the Up Key to check that the variation has changed.

000200 CT00 @LD 000001

Timer/Counter SV Changes
Timer/Counter SV Change 1: Constant or Word
This operation is used to change the set value of a timer/counter in the user program. Key Sequence
Designated constant Timer/counter SV display

CHG WRITE

Designated word
The following example describes how to change the set value for TIM 0001. 1. From the initial display, access the timer/counter instruction for which the set values will be changed.

Reading Program Execution Status

Section 5-1

RUN OK OK MONITOR No PROGRAM

I/O Bit Status Monitor

This operation is used to read the program execution status one address at a time. By monitoring the ON/OFF status of bits or timer/counter Completion Flags, the execution status of the program can be read from the Programming Console display. The key sequence is the same as that for reading the program. Key Sequence
Initial display Specify program address
In the following example, the ON/OFF status of the bits in the program are read.
Program example 000001 000100

TIM000 #0010

1. From the initial display, specify the program address to read. In this example, program address 123 is specified.

000123

2. Read the program. The ON/OFF status of bits will be displayed as 0 or 1.

000123 CTLD 000000

The ON/OFF status of bits will be displayed as follows: 0: OFF, 1: ON

Simple I/O Monitor

Section 5-2

000124 CTAND N 000001

When normally closed bits are ON, the I/O status is still displayed as " 1."
000125 CTOUT CTTIM TIM SV #CTLD T0000
3. Press the CLR Key to end the operation. Note When the MON Key is pressed during I/O bit status monitoring, the Programming Console will be switched to the Simple I/O Monitor operation. To switch back to the I/O Bit Status Monitor operation, press the CLR Key once more.
This operation is used to monitor present values in I/O memory one bit or one word at a time. There are two methods for I/O monitoring, as follows: a) Monitoring specified addresses in I/O memory. b) Specifying program addresses and monitoring the operands of the corresponding instructions. Simple I/O Monitor is available in RUN, MONITOR and PROGRAM modes. When monitoring bit status, the ON/OFF status of the bit can be changed. Refer to 5-6 Forcing Bits ON/OFF for details. When monitoring word data (16-bit data), the contents of the word can be changed. Refer to 5-5 Changing Word (16-bit) Present Values for details.
Monitoring Specified Addresses in I/O Memory
Monitoring ON/OFF Status of Specified Bits (Single-bit Data)

Specify area

001A ????
3. Input the new value and return to Simple I/O Monitor or Multipoint I/O Monitor.

SHIFT B

Changing PVs from Signed Decimal Monitor
This operation changes present values for word data using signed decimal (single-word: 32768 to 32767, double-word: 214783648 to 214783647). The 2s complement expression is automatically converted to hexadecimal. This operation can be performed during Simple I/O Monitor or I/O Multipoint Monitor. From I/O Multipoint Monitor, the top value on the display will be changed.
!Caution Always confirm safety before changing data even when working in PROGRAM mode. The CPU Unit will refresh I/O even in PROGRAM mode. If the status of a bit allocated to an Output Unit, Special I/O Unit, or CPU Bus Unit is changed, the load connected to the Unit may operate unexpectedly. Key Sequence
Signed Decimal Monitor display

Signed Decimal Displays

Operation Example 1,2,3. The following example changes the present value of D00200. 1. Access the Simple I/O Monitor or I/O Multipoint Monitor as signed decimal display, and bring up the word for changing.
2. Specify changing the value from the signed decimal display.

-16 -?????

3. Input the new value and return to Signed Decimal Monitor.

-16 +?????

+32767
When inputting positive numbers, press the SET Key; when inputting negative numbers, press the RESET Key. When an error is made inputting, press the CLR Key to return to the previous display, then enter the value correctly.

Double-word Displays

Operation Example 1,2,3. The following example changes the present values of D00201 and D00200. 1. Access the Simple I/O Monitor or I/O Multipoint Monitor as signed decimal display, and bring up the words for changing.

D 00201, D00200

D00200 +65520
2. Specify changing the values from the double-word signed decimal display.

PV? +65520

3. Input the new values and return to Signed Decimal Monitor.

PV? -65520

D00200 -32768
Changing PVs from Unsigned Decimal Monitor
This operation changes present values for word data using unsigned decimal (single-word data: 0 to 65535, double-word: 0 to 4294967295). Conversions to hexadecimal are performed automatically. This operation can be performed during Simple I/O Monitor or I/O Multipoint Monitor. From I/O Multipoint Monitor, the top value on the display will be changed. !Caution Always confirm safety before changing data even when working in PROGRAM mode. The CPU Unit will refresh I/O even in PROGRAM mode. If the status of a bit allocated to an Output Unit, Special I/O Unit, or CPU Bus Unit is changed, the load connected to the Unit may operate unexpectedly. Key Sequence
Unsigned Decimal Monitor display

000201 CTAND 000100

This operation is used when the CPU Unit is in MONITOR mode to delete instructions from the user program. Note Refer to 4-3-3 Instruction Delete for details on deleting instructions in PROGRAM mode. Key Sequence
1. From the initial display, access the program address of the instruction to be deleted.

2. Delete the address.

ONLINE EDIT/DEL? AND 000200
3. To execute, press the Up Key. The next program address will be shifted forwards.
000201 DEL END0 OUT 000100
After pressing the Up Key the second time, the altered program will be executed from the next scan. When a multiple-operand instruction is deleted, the set values (operands) will also be deleted.
This operation is used when the CPU Unit is in MONITOR mode to change bit addresses used as operands in the user program. Note Refer to 4-3-4 Bit Address Change for details on changing bit addresses in PROGRAM mode. Key Sequence
Program address display Input bit address
In the following instruction block, the bit address in the instruction at program address 00200 (LD 000001) will be changed to CIO 000002.
The bit address will be changed to CIO 000002.
1. From the initial display, access the program address containing the bit address to be changed.
2. Specify the new bit address, and press the WRITE Key.
After pressing the WRITE Key the second time, the altered program will be executed from the next scan. 4. Press the Up Key to check that the address of the bit operand has been changed.

000200 CTLD 000002

This operation is used when the CPU Unit is in MONITOR mode to change N.O. and N.C. conditions in the user program. Note Refer to 4-3-5 N.O./N.C. Change for details on changing bit addresses in PROGRAM mode. Key Sequence

NOT WRITE WRITE

In the following instruction block, the instruction at program address 000200 is changed from LD 000001 to LD NOT 000001.

NOT WRITE

ONLINE EDIT? LD N 000001
After pressing the WRITE Key the second time, the altered program will be executed from the next scan. 4. Use the Up Key to check that LD has been changed to LD NOT.

000200 CTLD N 000001

This operation is used when the CPU Unit is in MONITOR mode to change the variation of an instruction in the user program. Note Refer to 4-3-6 Instruction Variation Change for details on changing bit addresses in PROGRAM mode. Key Sequence
Differentiate up Program address display

WRITE SHIFT SET WRITE

In the following instruction block, the instruction at address 000200 (LD 000001) will be changed to an upwardly differentiated LD instruction.
Changed to upwardly differentiated @LD 000001.
2. Specify the variation and press the WRITE Key.

With CS1-series PLCs, Memory Cards and the specified range of EM File Memory can be used as file memory. Regardless of whether its the UM Area, I/O memory or the Parameter Areas (e.g., PLC Setup), all data is saved as files.

CPU Unit Memory area

UM Area File memory CIO HR WR I/O memory AR DM EM Parameter Areas (PLC Setup, I/O tables, etc.) xxxxxxxx.STD EM File Memory xxxxxxxx.IOM xxxxxxxx.OBJ Memory Card
This operation is used to format Memory Cards or EM File Memory. Key Sequence

FUN SHIFT CONT #

Password Fixed: 9713 (Memory Card) 8426 (EM File Memory)
Operation Example 1,2,3. 1. From the initial display, access the Memory Card operations menu.

File Write

Section 7-3
0:XFER 1:VRFY 2:FORMAT 3:DEL

2. Select 2: FORMAT.

FORMAT? ???? **
3. To format a Memory Card, enter the password.

FORMAT'G 9713

Enter the password. (See note.)

FORMAT END 9713

Note 9713 is a password set by the system for I/O Table Create and Memory Card Format. It cannot be changed. 4. To format EM File Memory, enter the password.

FORMAT'G 8426

FORMAT END 8426
Note 8426 is a password set by the system for EM File Memory Format. It cannot be changed.
This operation transfers the UM Area, specified I/O memory area range, or PLC Setup data from the CPU Unit to a Memory Card or EM File Memory. Key Sequence

Transfer start address

Transfer end address

File name

In the following example, CIO 2345 to CIO 2446 in the CIO Area of the CPU Unit are transferred to a Memory Card as the file SAMPLE.IOM. Note For creation (and transfer to a Memory Card) of an AUTOEXEC file (a file that automatically transfers data when the power is turned ON), refer to page 130. 1,2,3. 1. From the initial display, access the Memory Card operations menu.

0:XFER 1:VRFY

2. Select 0:XFER to bring up the Memory Card operations menu.
0:PC~CF_CARD 1:CF_CARD~PC

3. Select 0: PC CF_CARD.

PC~CF_CARD?(OBJ) XFER TYPE UM<
4. Select CIO as the type of data to be transferred.
PC~CF_CARD?(IOM) XFER TYPE CIO< PC~CF_CARD? CIO ST 0000ED 6143
Transfer start address Transfer end address
5. Use the Up and Down Keys to select the type of data to be transferred. UM Area

CIO Area

PC~CF_CARD?(IOM) XFER TYPE CIO<

Holding Bit Area

Work Bit Area
PC~CF_CARD?(IOM) XFER TYPE HR<
PC~CF_CARD?(IOM) XFER TYPE WR<

Auxiliary Bit Area

PC~CF_CARD?(IOM) XFER TYPE AR<

VRFY? (IOM) FILE"0:SAMPLE "
8. Return to normal input mode.
VRFY? (IOM) FILE"0:SAMPLE~ "
9. Execute the verification by pressing the VRFY Key.
OK: Files are the same NG: Files are different.
VRFY? OK (IOM) FILE"0:SAMPLE "

Section 7-6

The operation deletes data from a Memory Card or EM File Memory (UM Area, specified I/O memory areas, PLC Setup). Key Sequence
In the following example, the Memory Card file SAMPLE.IOM is deleted. 1. From the initial display, access the Memory Card operations menu.
2. From the Memory Card operations menu, select 3:DEL.
DEL ? (OBJ) DELETE TYPE UM<
3. Select CIO as the type of data to be deleted.
DEL ? (IOM) DELETE TYPE CIO< DEL ? FILE"0:~ (IOM) "
4. Use the Up and Down Keys to select the type of data to be deleted. UM Area
DEL ? (IOM) DELETE TYPE CIO<
DEL ? (IOM) DELETE TYPE HR<
DEL ? (IOM) DELETE TYPE WR<
DEL ? (IOM) DELETE TYPE AR<
DEL ? (IOM) DELETE TYPE DM<
DEL ? (IOM) DELETE TYPEEM0_<
DEL ? (STD) DELETE TYPE STD<
Note If EM0_ is displayed, input the number of the EM bank from 0 to C. 5. Switch to text input mode to enter the file name.

DEL ? FILE"0:~

6. Enter the file name. (See note.)
DEL ? (IOM! FILE"0:SAMPLE~ "
Press the Up and Down Keys to move the cursor. Change the 0 in the file name to 1 to delete a file from EM File Memory instead of the Memory Card. Note Press the CF/SRCH Key to display the file names on the Memory Card or EM File Memory. If this function is used, steps 5., 6., and 7. are not necessary. File name search:
DEL ? (IOM) FILE"0:SAMPLE "
7. Return to normal input mode.
DEL ? (IOM) FILE"0:SAMPLE~ "
8. Confirm the file to be deleted.
DEL OK? (IOM) FILE"0:SAMPLE "
9. Execute the deletion by pressing the WRITE Key.
DEL END (IOM) FILE"0:SAMPLE "
SECTION 8 PLC Setup Procedure
This section lists the settings in the PLC Setup. 8-1 PLC Setup Procedure. 142

PLC Setup Procedure

Section 8-1
RUN See note MONITOR See note PROGRAM OK
Note When in RUN or MONITOR mode, contents of settings can be read, but setting cannot be performed. This operation is used to read and write data from and to the PLC Setup Area in the CPU Unit. Key Sequence

0 FUN VRFY 1 CHG

Set value

Address

Operation Example 1 1,2,3.
In the following example, the Startup mode setting (+081) is changed. 1. From the initial display, access the PLC Setup display.

FUN VRFY

PC SETUP 0:MODE 1:PC SYS

tasks cyclic tasks, 44 interrupt tasks, 44 Timer/Counter set values, 60 change, 76 constants, 60 indirect DM addresses, 61 indirect EM addresses, 61 words, 60 word PVs changing, 95
selecting tasks, 43 simple I/O monitor, 81 standard special instructions inputting, 62 symbol comparison instructions, 63 bit addresses, 64 constants, 66 indirect DM addresses, 65 indirect EM addresses, 65 instruction variations, 67

Revision History

A manual revision code appears as a suffix to the catalog number on the front cover of the manual.

Cat. No. W341-E-05

Revision code The following table outlines the changes made to the manual during each revision. Page numbers refer to the previous version.
Revision code 03 Date March 1999 May 2001 September 2001 Revised content Original production Information on CJ-series PCs, the CQM1H-PRO01-E Programming Console, and PLC Setup addresses 219 to 222 added. Information on new CPU Units. Page ix: Addition to introduction at top of page and model numbers added to manual names. Page 2: Model numbers added to bottom table and information added after table. Pages 9, 15, 18, 20, 32 to 36, and 42: CS Series changed to CS1 and CJ Series changed to CJ1/CJ1-H/CS1-H. Page 46: Note added toward top of page and section and note added to bottom. Pages 138 to 145: Deleted. Pages 148 to 154: Moved to Appendix C. Pages 148, 150, and 151: Note added. Pages 149 and 152: Information for new addresses added. Page 151: Information for following addresses moved to correct order: 163, 166. The abbreviation for Programmable Logic Controller was changed from PC to PLC throughout the manual. Information on CS1D Duplex-CPU Systems and CPU Units for Duplex-CPU Systems was added, including the following changes. Page ix: Changed introduction at top of page, added model numbers to manual names, and added extra manuals. Page 2: Changed information on applicable CPU Units. Page 8: Changed diagrams to show Key Sheets in English. Pages 145 to 152: Removed + symbol from all addresses, added new address settings, and added notes indicating whether settings are supported in DuplexCPU Systems. Page v: Information on general precautions notation added. Page xix: Information on liability and warranty added.

November 2003

October 2005