Toshiba Sprinkler 6F3B0253 User Manual

6F3B0253  
UM-TS01∗∗∗-E031  
PROGRAMMABLE CONTROLLER  
PROSEC T1-16S  
USER’S MANUAL  
Basic Hardware and Function −  
TOSHIBA CORPORATION  
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6F3B0253  
CE Marking  
The Programmable Controller PROSEC T1-16S (hereafter called T1-16S) complies with the  
requirements of the EMC Directive 89/336/EEC and Low Voltage Directive 72/23/EEC under the  
condition of use according to the instructions described in this manual.  
The contents of the conformity are shown below.  
Application of  
EMC : 89/336/EEC (as amended by 91/263/EEC and 92/31/EEC)  
Council Directive  
LVD : 72/23/EEC (as amended by 93/68/EEC)  
Manufactures Name  
:
:
Toshiba Corporation,  
Fuchu Operations-Social Infrastructure Systems  
1, Toshiba-Cho  
Fuchu-shi  
Address  
TOKYO 183-8511  
Japan  
declares, that the product  
Product Name  
:
:
Programmable Controller , T1-16S  
Model Number  
TDR116S6S, TDR116S6C  
TDR116S3S, TDR116S3C  
conforms to the following Product Specifications:  
EMC  
Radiated Interference  
Mains Interference  
Radiated Susceptibility  
Conducted RFI Susceptibility  
Electrostatic Discharge  
Electrical Fast Transient  
:
:
:
:
:
:
EN 55011 Group 1 Class A  
EN 55011 Group 1 Class A  
ENV50140  
ENV50141, IEC100-4-6.  
IEC1000-4-2  
IEC1000-4-4  
LVD  
:
EN61131-2:1995 3.10 Dielectric Properties  
4.  
Mechanical Requirements  
Supplementary information  
:
(1) Included Handy Programmer THP911A*S.  
(2) Included each type of associated input/output unit in a typical configuration.  
(3) Product must be installed in accordance with manufacturers instructions  
Basic Hardware and Function 1  
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6F3B0253  
UL/c-UL Listing  
The Programmable Controller PROSEC T1-16S (hereafter called T1-16S) is UL/c-UL listed as  
shown below.  
UL and c-UL Listing  
File Number :  
E95637  
Product Name :  
Product Covered :  
Programmable Controller , T1-16S  
Main Unit  
TDR116S6S, TDR116S6C,  
TDR116S3S, TDR116S3C  
I/O module  
TDI116M*S, TDD116M*S, TDO116M*S,  
TAD121M*S, TAD131M*S, TDA121M*S, TDA131M*S,  
TFR112M*S  
Peripherals  
TRM102**S, TCU111**S, THP911A*S  
UL and c-UL Listing For Use in Hazardous Locations  
File Number :  
E184034  
Product Name :  
Product Covered :  
Programmable Controller , T1-16S  
Main Unit  
TDR116S6S, TDR116S6C  
Class I, Division 2, Groups A, B, C, D  
Locations Class :  
Important Notice :  
1. THIS EQUIPMENT IS SUITABLE FOR USE IN CLASS I,  
DIVISION 2, GROUPS A, B, C, D OR NON-HAZARDOUS  
LOCATIONS ONLY.  
2. WARNING - EXPLOSION HAZARD - SUBSTITUTION OF  
COMPONENTS MAY IMPAIR SUITABILITY FOR CLASS I,  
DIVISION 2.  
3. WARNING - EXPLOSION HAZARD - DO NOT DISCONNECT  
EQUIPMENT UNLESS POWER HAS BEEN SWITCHED OFF  
OR THE AREA IS KNOWN TO BE NON-HAZARDOUS.  
2 T1-16S User’s Manual  
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6F3B0253  
Safety Precautions  
This manual is prepared for users of Toshiba’s Programmable Controller T1-16S.  
Read this manual thoroughly before using the T1-16S. Also, keep this manual and related  
manuals so that you can read them anytime while the T1-16S is in operation.  
General Information  
1. The T1-16S has been designed and manufactured for use in an industrial  
environment. However, the T1-16S is not intended to be used for systems which may  
endanger human life. Consult Toshiba if you intend to use the T1-16S for a special  
application, such as transportation machines, medical apparatus, aviation and space  
systems, nuclear controls, submarine systems, etc.  
2. The T1-16S has been manufactured under strict quality control. However, to keep  
safety of overall automated system, fail-safe systems should be considered outside  
the T1-16S.  
3. In installation, wiring, operation and maintenance of the T1-16S, it is assumed that the  
users have general knowledge of industrial electric control systems.  
If this product is handled or operated improperly, electrical shock, fire or damage to  
this product could result.  
4. This manual has been written for users who are familiar with Programmable  
Controllers and industrial control equipment. Contact Toshiba if you have any  
questions about this manual.  
5. Sample programs and circuits described in this manual are provided for explaining the  
operations and applications of the T1-16S. You should test completely if you use them  
as a part of your application system.  
Hazard Classifications  
In this manual, the following two hazard classifications are used to explain the safety  
precautions.  
Indicates a potentially hazardous situation which, if not avoided, could  
result in death or serious injury.  
!
!
WARNING  
CAUTION  
Indicates a potentially hazardous situation which, if not avoided, may  
result in minor or moderate injury. It may also be used to alert  
against unsafe practices.  
Even a precaution is classified as CAUTION, it may cause serious results depending on  
the situation. Observe all the safety precautions described on this manual.  
Basic Hardware and Function 3  
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6F3B0253  
Safety Precautions  
Installation:  
!
CAUTION  
1. Excess temperature, humidity, vibration, shocks, or dusty and corrosive gas  
environment can cause electrical shock, fire or malfunction. Install and use the T1-  
16S and related equipment in the environment described in this manual.  
2. Improper installation directions or insufficient installation can cause fire or the units  
to drop. Install the T1-16S and related equipment in accordance with the instructions  
described in this manual.  
3. Turn off power before installing or removing any units, modules, racks, terminal  
blocks or battery. Failure to do so can cause electrical shock or damage to the T1-  
16S and related equipment.  
4. Entering wire scraps or other foreign debris into to the T1-16S and related  
equipment can cause fire or malfunction. Pay attention to prevent entering them into  
the T1-16S and related equipment during installation and wiring.  
5. Turn off power immediately if the T1-16S or related equipment is emitting smoke or  
odor. Operation under such situation can cause fire or electrical shock. Also  
unauthorized repairing will cause fire or serious accidents. Do not attempt to repair.  
Contact Toshiba for repairing.  
Wiring:  
!
CAUTION  
1. Turn off power before wiring to minimize the risk of electrical shock.  
2. Exposed conductive parts of wire can cause electrical shock. Use crimp-style  
terminals with insulating sheath or insulating tape to cover the conductive parts. Also  
close the terminal covers securely on the terminal blocks when wiring has been  
completed.  
3. Operation without grounding may cause electrical shock or malfunction. Connect the  
ground terminal on the T1-16S to the system ground.  
4. Applying excess power voltage to the T1-16S can cause explosion or fire. Apply  
power of the specified ratings described in the manual.  
5. Improper wiring can cause fire, electrical shock or malfunction. Observe local  
regulations on wiring and grounding.  
4 T1-16S User’s Manual  
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Safety Precautions  
Operation:  
!
WARNING  
1. Configure emergency stop and safety interlocking circuits outside the T1-16S.  
Otherwise, malfunction of the T1-16S can cause injury or serious accidents.  
!
CAUTION  
2. Operate the T1-16S and the related modules with closing the terminal covers. Keep  
hands away from terminals while power on, to avoid the risk of electrical shock.  
3. When you attempt to perform force outputs, RUN/HALT controls, etc. during  
operation, carefully check for safety.  
4. Turn on power to the T1-16S before turning on power to the loads. Failure to do so  
may cause unexpected behavior of the loads.  
5. Do not use any modules of the T1-16S for the purpose other than specified. This  
can cause electrical shock or injury.  
6. Do not modify the T1-16S and related equipment in hardware nor software. This can  
cause fire, electrical shock or injury.  
7. Configure the external circuit so that the external 24 Vdc power required for  
transistor output circuits and power to the loads are switched on/off simultaneously.  
Also, turn off power to the loads before turning off power to the T1-16S.  
8. Install fuses appropriate to the load current in the external circuits for the outputs.  
Failure to do so can cause fire in case of load over-current.  
9. Check for proper connections on wires, connectors and modules. Insufficient contact  
can cause malfunction or damage to the T1-16S and related equipment.  
Basic Hardware and Function 5  
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Safety Precautions  
Maintenance:  
!
CAUTION  
1. Turn off power before removing or replacing units, modules, terminal blocks or wires.  
Failure to do so can cause electrical shock or damage to the T1-16S and related  
equipment.  
2. When you remove both input and output terminal blocks with wires for maintenance  
purpose, pay attention to prevent inserting them upside down.  
3. Touch a grounded metal part to discharge the static electricity on your body before  
touching the equipment.  
4. Otherwise, charged static electricity on your body can cause malfunction or failure.  
5. Do not disassemble the T1-16S because there are hazardous voltage parts inside.  
6. Perform daily checks, periodical checks and cleaning to maintain the system in  
normal condition and to prevent unnecessary troubles.  
7. Check by referring “Troubleshooting” section of this manual when operating  
improperly. Contact Toshiba for repairing if the T1-16S or related equipment is failed.  
Toshiba will not guarantee proper operation nor safety for unauthorized repairing.  
8. The contact reliability of the output relays will reduce if the switching exceeds the  
specified life. Replace the unit or module if exceeded.  
9. The battery used in T1-16S may present a risk of fire of chemical burn if mistreated.  
Do not recharge, disassemble, heat above 100ºC (212ºF), or incinerate.  
10.Replace battery with CR2032 only. Use of another battery may present a risk of fire  
or explosion.  
11.Dispose of used battery promptly. Keep away from children. Do not disassemble  
and do not dispose of in fire.  
6 T1-16S User’s Manual  
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Safety Precautions  
Safety Label  
The safety label as shown on the right is  
attached to the power terminal of the  
T1-16S.  
CAUTION  
Do not touch terminals  
while power on.  
!
Remove the mount paper before wiring.  
Hazardous voltage can shock, burn or cause death.  
Do not touch terminals while power on.  
Read related manual thoroughly for safety.  
Stick this seal on unit or near unit.  
Peel off the label from the mount paper  
and stick it near the power terminals  
where it can be readily seen.  
Take off this sheet before wiring.  
Contact Toshiba if the label is damaged.  
Basic Hardware and Function 7  
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6F3B0253  
About This Manual  
About This Manual  
This manual has been prepared for first-time users of Toshibas Programmable Controller  
T1-16S to enable a full understanding of the configuration of the equipment, and to  
enable the user to obtain the maximum benefits of the equipment.  
This manual introduces the T1-16S, and explains the system configuration,  
specifications, installation and wiring for T1-16S’s basic hardware. This manual provides  
the information for designing T1-16S user program, such as the internal operation,  
memory configuration, I/O allocation and programming instructions. Information for  
maintenance and troubleshooting are also provided in this manual.  
The T1-16S’s computer link function and T1-16S’s multi-purpose communication  
functions are covered by the separate manual. Read the T1-16S User’s Manual -  
Communication Function - for details.  
Inside This Manual  
This manual consists of 10 main sections and an appendix.  
Section 1 outlines the T1-16S configuration. To fully understand the T1-16S, it is  
important to read this section carefully. Sections 2, to 4 describe the hardware used in  
designing external circuits and panels. Sections 5 to 7 are mainly concerned with  
software. Section 8 explains the T1-16S’s special I/O functions. Sections 9 and 10  
describe the maintenance procedure for the T1-16S, to ensure safe operation and long  
service life.  
Related Manuals  
The following related manuals are available for T1-16S. Besides this manual, read the  
following manuals for your better understanding.  
T1-16S User’s Manual  
- Basic Hardware and Function - (this manual)  
- I/O Modules -  
- Communication Function -  
UM-TS01∗∗∗-E031  
UM-TS01∗∗∗-E034  
UM-TS01∗∗∗-E033  
UM-TS03∗∗∗-E025  
T-Series Handy Programmer (HP911) Operation Manual  
T-Series Program Development System (T-PDS) User’s Manual UM-TS03∗∗∗-E045  
8 T1-16S User’s Manual  
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6F3B0253  
About This Manual  
Terminology  
The following is a list of abbreviations and acronyms used in this manual.  
µs  
microsecond  
ASCII  
AWG  
BCC  
CCW  
CPU  
CW  
American Standard Code For Information Interchange  
American Wire Gage  
Block Check Code  
Counter-Clockwise  
Central Processing Unit  
Clockwise  
EEPROM Electrically Erasable Programmable Read Only Memory  
H
hexadecimal (when it appears in front of an alphanumeric string)  
I/O  
Input/Output  
LED  
LSB  
ms  
Light Emitting Diode  
Least Significant Bit  
millisecond  
MSB  
PWM  
RAM  
ROM  
Vac  
Vdc  
Most Significant Bit  
Pulse Width Modulation  
Random Access Memory  
Read Only Memory  
AC voltage  
DC voltage  
Basic Hardware and Function 9  
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6F3B0253  
Contents  
Contents  
Safety Precautions  
About This Manual  
..................................................................................  
..................................................................................  
3
8
1.  
System Configuration .................................................................... 13  
Introducing the T1-16S ................................................................ 14  
1.1  
1.2  
1.3  
1.4  
1.5  
1.5.1  
1.5.2  
1.5.3  
1.6  
1.7  
1.8  
Features .............................................................................................. 16  
System configuration .......................................................................... 19  
I/O expansion ...................................................................................... 20  
Components ........................................................................................ 21  
Basic unit ......................................................................................... 21  
I/O modules ...................................................................................... 25  
Options ............................................................................................ 26  
Programmer port function .................................................................. 27  
RS-485 port communication function ................................................. 28  
Real-time data link system ................................................................. 32  
Peripheral tools .................................................................................. 33  
1.9  
2.  
Specifications .................................................................................. 37  
2.1  
2.2  
2.3  
2.4  
General specifications ........................................................................ 38  
Functional specifications .................................................................... 40  
I/O specifications ................................................................................ 42  
External dimensions ........................................................................... 46  
3.  
I/O Application Precautions .......................................................... 47  
3.1  
3.2  
Application precautions for input signals ............................................ 48  
Application precautions for output signals .......................................... 50  
4.  
Installation and Wiring ................................................................... 53  
4.1  
4.2  
4.3  
4.4  
4.5  
4.6  
Environmental conditions ................................................................... 54  
Installing the unit ................................................................................. 55  
Wiring terminals .................................................................................. 57  
Grounding ........................................................................................... 58  
Power supply wiring ............................................................................ 59  
I/O wiring ............................................................................................ 61  
10 T1-16S User’s Manual  
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Contents  
5.  
Operating System Overview ......................................................... 63  
5.1  
5.2  
5.3  
Operation modes ................................................................................ 64  
About the built-in EEPROM ................................................................ 66  
Scanning ............................................................................................. 69  
6.  
Programming Information ............................................................. 73  
6.1  
6.2  
6.3  
6.4  
6.5  
6.6  
6.6.1  
6.6.2  
6.6.3  
6.6.4  
6.6.5  
6.7  
6.8  
6.9  
6.10  
Devices and registers ......................................................................... 74  
Index modification ............................................................................... 86  
Real-time clock/calendar .................................................................... 88  
I/O allocation ....................................................................................... 89  
T1-16S memory mode setting.............................................................. 91  
User program configuration ................................................................ 92  
Main program .................................................................................. 94  
Sub-program #1 .............................................................................. 95  
Timer interrupt program .................................................................. 95  
I/O interrupt programs ..................................................................... 96  
Subroutines .................................................................................... 97  
Programming language ...................................................................... 98  
Program execution sequence ............................................................ 99  
On-line debug support functions ........................................................ 100  
Password protection ........................................................................... 103  
7.  
Instructions ...................................................................................... 105  
7.1  
7.2  
List of instructions .............................................................................. 106  
Instruction specifications .................................................................... 116  
8.  
Special I/O Functions .................................................................... 255  
8.1  
8.2  
8.3  
8.3.1  
8.3.2  
8.3.3  
8.4  
8.5  
8.6  
Special I/O function overview ............................................................. 256  
Variable input filter constant .............................................................. 260  
High speed counter ............................................................................ 261  
Single phase up-counter ................................................................. 262  
Single phase speed-counter ............................................................ 263  
Quadrature bi-pulse counter ............................................................ 265  
Interrupt input function ........................................................................ 268  
Analog setting function ....................................................................... 270  
Pulse output function .......................................................................... 271  
PWM output function .......................................................................... 273  
8.7  
9.  
Maintenance and Checks .............................................................. 275  
9.1  
9.2  
9.3  
9.4  
9.5  
Precautions during operation ............................................................. 276  
Daily checks ........................................................................................ 277  
Periodic checks ................................................................................... 278  
Maintenance parts ............................................................................... 279  
Battery ................................................................................................. 280  
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6F3B0253  
Contents  
10.  
Troubleshooting .............................................................................. 281  
10.1  
10.1.1  
Troubleshooting procedure ................................................................ 282  
Power supply check ......................................................................... 283  
CPU check ....................................................................................... 284  
Program check ................................................................................. 284  
Input check ....................................................................................... 285  
Output check .................................................................................... 286  
Environmental problem .................................................................... 287  
Self-diagnostic items .......................................................................... 288  
10.1.2  
10.1.3  
10.1.4  
10.1.5  
10.1.6  
10.2  
Appendix ......................................................................................................... 293  
A.1  
A.2  
List of models and types ..................................................................... 294  
Instruction index ................................................................................. 295  
12 T1-16S User’s Manual  
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Section 1  
System Configuration  
1.1 Introducing the T1-16S, 14  
1.2 Features, 16  
1.3 System configuration, 19  
1.4 I/O expansion, 20  
1.5 Components, 21  
1.6 Computer link system, 27  
1.7 T1-16S Communication function, 28  
1.8 Real-time data link system, 32  
1.9 Peripheral tools, 33  
Basic Hardware and Function 13  
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1. System Configuration  
1.1 Introducing the T1-16S  
The T1-16 is compact, block style, high-performance programmable controller with a  
range of 16 to 144 input and output points.  
The figure below shows the T1 Series line-up. The T1 Series consists of the total 16  
types.  
T1 Series  
T1  
T1-16  
T1-MDR16  
T1-MAR16  
T1-MDR16D  
T1-28  
T1-40  
T1-MDR28  
T1-MAR28  
T1-MDR28D  
T1-MDR40  
T1-MAR40  
T1-MDR40D  
T1S  
T1-16S  
T1-40S  
T1-MDR16SS  
T1-MDR16SC  
T1-MDR16SSD  
T1-MDR16SCD  
T1-MDR40S  
T1-MAR40S  
T1-MDR40SD  
I/O points:  
The T1 Series are available in five models, T1-16, T1-28, T1-40, T1-40S and T1-  
16S. Each model has the following I/O points.  
T1-16  
T1-16S  
T1-28  
T1-40  
T1-40S  
8 points  
14 points  
24 points  
Input  
8 points  
14 points  
16 points  
Output  
(6 relay plus 2 slid-state)  
(12 relay plus (14 relay plus 2 solid-state)  
2 slid-state)  
No  
Up to 8 I/O  
modules.  
Total up to  
144 points.  
No  
2 option cards plus  
1 expansion rack or unit.  
Total up to 382 points.  
Expansion  
The T1-16S can expand its I/O points by connecting I/O modules. Up to eight I/O  
modules can be connected. If eight 16-point I/O modules are connected to the T1-  
16S, it can control up to 144 points.  
14 T1-16S User’s Manual  
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6F3B0253  
1. System Configuration  
Memory capacity:  
Program memory capacity of the T1 is 2 k steps. And that of the T1S is 8 k steps.  
Whole the program and a part of data registers are stored in built-in EEPROM.  
T1-16/28/40  
T1-40S  
T1-16S  
RAM (for execution) and EEPROM (for back-up)  
Memory  
2 k steps  
8 k steps  
Program  
(4 k mode or 8 k mode)  
capacity  
Auxiliary relay: 1024 points Auxiliary relay: 4096 points  
Data capacity  
Timer:  
Counter:  
64 points  
64 points  
Timer:  
Counter:  
256 points  
256 points  
Data register: 1024 words Data register: 4096 words  
Program and leading 512  
words of Data register  
Program and the user specified range of  
Data register (0 to 2048 words)  
EEPROM  
back-up  
Capacitor: 6 hours or more Capacitor: 168 hours Capacitor: 1 hour  
RAM back-up  
(at 25°C)  
or more  
or more  
(at 77°F)  
Battery: 2 years  
or more  
Control functions:  
In addition to the basic relay ladder functions, the T1/T1S provides functions such as  
data operations, arithmetic operations, various functions, etc. Furthermore, its high-  
speed counter functions, pulse output functions and data communication functions  
allow its application to a wide scope of control systems.  
T1-16/28/40  
Ladder diagram with function block  
Basic: 17 types Basic: 21 types Basic:  
T1-40S  
T1-16S  
Language  
21 types  
Number of  
instructions  
Subroutines  
Function: 76 types  
Function: 99 types Function: 97 types  
16  
256  
(nesting not allowed) (up to 3 levels of nesting)  
Execution speed  
Real-time  
clock/calendar  
Communication  
1.4 µs/contact, 2.3 µs/coil, 4.2 µs/transfer, 6.5 µs/addition  
No  
Yes (year, month, day, week, hours,  
minutes, seconds)  
RS-232C  
(programmer port)  
RS-232C (programmer port),  
RS-485 (multi-purpose)  
Construction:  
The T1-16S is a compact, easy-handling block style programmable controller. The  
T1-16S has all of the features of a block style controller. In addition, the T1-16S has  
modular expandability. The T1-16S provides flexibility into the block style controller.  
Series compatibility:  
Programming instructions are upward compatible in the T-Series programmable  
controllers. The T1/T1S programs can be used for other models of the T-Series, T2,  
T2E, T2N, T3 and T3H. Peripheral tools can also be shared.  
Basic Hardware and Function 15  
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1. System Configuration  
1.2 Features  
I/O module support:  
The T1-16S has an interface for connecting the I/O modules. Up to eight modules  
can be connected to the T1-16S.  
By using the 16 points I/O module, the T1-16S can control up to 144 I/O points.  
Built-in high-speed counter:  
Two single-phase or one quadrature (2-phase) pulses can be counted. The  
acceptable pulse rate is up to 5 kHz. (DC input type only)  
Built-in analog setting adjusters:  
Two analog setting adjusters are provided on the T1-16S. This allows operators to  
adjust time or other control parameters easily using a screwdriver.  
High speed processing:  
Sophisticated machine control applications require high speed data manipulations.  
The T1-16S is designed to meet these requirements.  
1.4 µs per contact  
4.2 µs per 16-bit transfer  
2.3 µs per coil  
6.5 µs per 16-bit addition  
The T1-16S also supports interrupt input function (DC input type only). This allows  
immediate operation independent of program scan.  
High performance software:  
The T1-16S offers 21 basic ladder instructions and 97 function instructions.  
Subroutines, Interrupt functions, Indirect addressing, For/Next loops, Pre-derivative  
real PID, etc. are standard on the T1-16S. These functions allow the T1-16S to be  
applied to the most demanding control applications.  
Battery-less operation:  
The T1-16S has a standard built-in EEPROM, permitting operation without need of a  
battery. Also, the variable data can be written into and/or read from the EEPROM,  
providing completely maintenance-free back-up operation.  
This function is an important feature for OEMs, because it can eliminate the need for  
changing the battery every few years.  
(Optional battery is also available to back-up real-time clock and retentive data)  
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1. System Configuration  
Pulse output / PWM output:  
One point of variable frequency pulses (max. 5 kHz) or variable duty pulses can be  
output. These functions can be used to drive a stepping motor or to simulate an  
analog output. (DC input type only)  
Built-in computer link function:  
The T1-16S’s RS-232C programmer port can accept the computer link protocol (data  
read/write). This results in easy connection to a higher level computer, an operator  
interface unit, etc.  
The parity setting of the programmer port can be selected either odd or none. The  
none parity mode is provided especially for telephone modem connection. Using  
modems, remote programming/monitoring is available.  
Real-time control data link network:  
By connecting the TOSLINE-F10 remote module (FR112M) to the T1 -16S, high-  
speed data link network can be established. In this network, upper T-series PLC  
model (T2/T2E/T2N or T3/T3H) works as master and up to 16 T1-16Ss can be  
connected as remote. Each T1-16S can exchange data with the master through 1  
word input and 1 word output. The transmission speed can be selected either 750  
kbps or 250 kbps.  
Sampling trace function:  
The sampling trace is the function to collect the user specified data every user  
specified timing (minimum every scan), and to display the collected data on the  
programmer screen in time chart and/or trend graph format. This function is useful  
for checking the input signals changing.  
Password protection:  
By registering your passwords, four levels of protection is available according to the  
security levels required for your application.  
Level 4: Reading/writing program and writing data are prohibited  
Level 3: Reading/writing program are prohibited  
Level 2: Writing program is prohibited  
Level 1: No protection (changing passwords is available only in this level)  
Two points of solid-state output:  
Each model of the T1-16S has two points of solid-state output (transistors for DC  
input type and triacs for AC input type). These solid-state outputs are suitable for  
frequent switching application.  
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6F3B0253  
1. System Configuration  
DIN rail mounting:  
The T1-16S is equipped with brackets for mounting on a standard 35 mm DIN rail.  
The T1-16S can be mounted on a DIN rail as well as screw mounting.  
On-line program changes:  
When the T1-16S’s memory mode is set to 4 k steps mode, on-line (in RUN mode)  
program changes are available. Furthermore, program writing into the built-in  
EEPROM is also available in RUN mode. These functions are useful in program  
debugging stage.  
Real-time clock/calendar function: (Enhanced model only)  
The T1-16S has the real-time-clock/calendar function (year, month, day, day of the  
week, hours, minutes, seconds) that can be used for performing scheduled  
operations, data gathering with time stamps, etc. To back-up the real-time  
clock/calendar data, use of the optional battery is recommended.  
RS-485 multi-purpose communication port: (Enhanced model only)  
The T1-16S has an RS-485 multi-purpose communication port. Using this port, one  
of the following communication modes can be selected.  
Computer link mode: T-series computer link protocol can be used in this mode.  
Up to 32 T1-16Ss can be connected to a master computer. By using this mode,  
MMI/SCADA system can be easily configured.  
Data link mode: Two PLCs (any combination of T1S, T2E or T2N) can be  
directly linked together. This direct link is inexpensive, easily configured and  
requires no special programming.  
Free ASCII mode: User defined ASCII messages can be transmitted and  
received through this port. A terminal, printer, bar-code reader, or other serial  
ASCII device can be directly connected.  
Inverter connection mode: This mode is specially provided to communicate with  
Toshiba Inverters (ASDs) VF-A7/G7/S9 series. By using this function, the T1-16S  
can control and monitor the connected Inverters.  
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6F3B0253  
1. System Configuration  
1.3 System configuration  
The following figure shows the T1-16S system configuration.  
IBM-PC compatible  
personal computer  
MMI/SCADA  
system  
Inverter  
Peripheral tool  
IBM-PC compatible  
personal computer  
RS485 (Standard type only)  
T1-16S basic unit  
T1-16S  
T-PDS  
software  
RS232C  
Handy programmer  
HP911A  
I/O modules  
Computer link function  
MMI/SCADA  
system  
8 modules max.  
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6F3B0253  
1. System Configuration  
1.4 I/O expansion  
The T1-16S provides I/O expandability by connecting the I/O modules. Up to eight  
I/O modules can be connected.  
Available I/O modules  
DI116M:  
16 points DC input  
DO116M:  
DD116M:  
RO108M:  
AD121M:  
AD131M:  
DA121M:  
DA131M:  
TC111M:  
FR112M:  
16 points DC output  
8 points DC input + 8 points DC output  
8 points relay output  
1 channel analog input (0 to 5V or 0 to 20mA)  
1 channel analog input (-10 to +10V)  
1 channel analog output (0 to 20mA)  
1 channel analog output (-10 to +10V)  
1 channel thermocouple input (type K, J, E, or ±50mV)  
TOSLINE-F10 remote station  
T1-16S maximum configuration  
T1-16S  
main unit  
Up to 8 I/O modules  
NOTE  
(1) The 5Vdc power to the I/O modules is supplied from the main unit. The main  
unit can supply maximum 1.5A of the 5Vdc power to the I/O modules. Check  
the current consumption of each I/O module used. Refer to section 2.1.  
(2) The connecting order of the I/O modules is not restricted except TOSLINE-  
F10 remote station FR112M. When the FR112M is used, it must be the right  
end module.  
(3) If more than 8 I/O modules are connected, the T1-16S cannot operate  
normally.  
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6F3B0253  
1. System Configuration  
1.5 Components  
1.5.1 Basic unit  
The T1-16S is available in four types as shown in the following table.  
Type  
Link/ Calendar Power supply  
Input  
Output  
T1-MDR16SS  
(Enhanced model)  
T1-MDR16SC  
(Standard model)  
T1-MDR16SSD  
(Enhanced model)  
T1-MDR16SCD  
(Standard model)  
100-240 Vac, 8 points - 24 Vdc 6 points - relay,  
Yes  
No  
50/60 Hz  
24 Vdc  
2 points - transistor  
Yes  
No  
Link terminals  
(Enhanced model only)  
Operation status LEDs  
I/O status LEDs (Low side)  
Mounting hole  
Programmer  
port cover  
Battery holder  
cover  
Expantion  
connector  
I/O status LEDs (High side)  
Power supply and  
input/output terminals  
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6F3B0253  
1. System Configuration  
Behind the programmer port cover  
Programmer port connector  
Analog setting adjusters  
(V0 and V1)  
PRG  
V0  
V1  
H/R  
Mode control switch  
(HALT / RUN)  
Battery holder  
Battery type: CR2032  
(Optional)  
A tab for battery eject  
Power supply terminals:  
Connect the power cable and grounding wire. The terminal screw size is M3.  
See sections 4.4 and 4.5 for wiring.  
Input terminals:  
Connect input signal wires. The terminal screw size is M3. See section 2.4 for  
details.  
Output terminals:  
Connect output signal wires. The terminal screw size is M3. See section 2.4 for  
details.  
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1. System Configuration  
I/O status LEDs:  
Indicates the ON/OFF status of each I/O signal. (color: red)  
SW54 setting  
I/O intending for an indication  
Note  
value  
0 (default)  
1
Basic unit (L: X000-007, H: Y020-027)  
I/O module slot 0  
It indicates these at the  
time of only RUN  
mode.  
2
3
I/O module slot 1  
I/O module slot 2  
4
I/O module slot 3  
5
I/O module slot 4  
6
I/O module slot 5  
7
I/O module slot 6  
8
I/O module slot 7  
9
10  
Others  
TOSLINE-F10 (FR112M), Low 1 word  
TOSLINE-F10 (FR112M), High 1 word  
Basic unit (L: X000-007, H: Y020-027)  
Operation status LEDs:  
Indicates the operation status of the T1-16S.  
FLT  
RUN  
PWR  
PWR  
Lit  
Internal 5 Vdc power is normal.  
(Power) (green)  
Not lit  
Internal 5 Vdc power is not normal.  
RUN mode (in operation)  
RUN  
(green) Lit  
Blinking HOLD mode  
Not lit  
Lit  
HALT mode or ERROR mode  
ERROR mode  
FLT  
(Fault)  
(red)  
Blinking Hardware error (programmer cannot be connected)  
Not lit Normal  
Mode control switch:  
Controls the operation modes of the T1-16S.  
H (HALT)  
R (RUN)  
When the switch is turned to H (HALT) side, the T1-16S stops  
program execution (HALT mode). In this position, RUN/HALT  
command from the programmer is disabled.  
When the switch is turned to R (RUN) side, the T1-16S starts  
program execution. This is the position during normal operation.  
In this position, RUN/HALT command from the programmer is also  
available.  
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6F3B0253  
1. System Configuration  
Analog setting adjusters:  
Two analog setting adjusters are provided. The V0 value is stored in SW30 and the  
V1 value is stored in SW31. The converted value range is 0 to 1000. Refer to section  
8.5 for details of the analog setting function.  
Programmer port connector:  
Used to connect the programmer cable. The interface is RS-232C. This port can also  
be used for the computer link function. Refer to section 1.6 for more information  
about the computer link function.  
Expansion connector:  
Used to connect the I/O module.  
RS-485 port (Enhanced model only):  
Used to connect a computer (SCADA system), operator interface unit, other T1-16S,  
or many kinds of serial ASCII devices including Toshiba’s Inverter through RS-485  
interface. Refer to section 1.7 for more information about the T1-16S’s RS-485 multi-  
purpose communication functions.  
Mounting holes:  
Used to fix the T1-16S on a mounting frame by screws. The mounting holes are  
provided at two opposite corners.  
Use two M4 screws for mounting. See section 4.2 for  
installing the unit.  
T1  
DIN rail bracket:  
The DIN rail bracket is provided at the rear for mounting the T1-16S on a 35 mm DIN  
rail. See section 4.2 for installing the unit.  
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1. System Configuration  
1.5.2 I/O modules  
The T1-16S can connect up to eight I/O modules.  
The following 10 types of the I/O modules are available.  
For specification details of the I/O modules, refer to the separate manual “T1-16S  
User’s Manual I/O Modules “.  
Type  
DI116M  
DO116M  
DD116M  
Description  
16 points input, 24Vdc – 5mA  
16 points output, 24Vdc – 100mA  
8 points input, 24Vdc - 5mA  
Power supply  
Supplied from the  
basic unit (5 Vdc)  
+ 8 points output, 24Vdc – 100mA  
8 points relay output, 24Vdc/240Vac - 1A  
1 channel analog input, 0 to 5V / 0 to 20mA  
1 channel analog input, ±10V  
1 channel analog output, 0 to 20mA  
1 channel analog output, ±10V  
1 channel thermo-couple input  
TOSLINE-F10 remote station,  
1 word input + 1 word output  
RO108M  
AD121M  
AD131M  
DA121M  
DA131M  
TC111M  
FR112M  
FR112M  
Other I/O modules  
Expantion connector  
Expantion connectors  
NOTE  
(1) If more than 8 I/O modules are connected, T1-16S cannot operate normally.  
(2) The TOSLINE-F10 remote station module (FR112M) must be connected at the  
right end. Tow or more FR112Ms cannot be used together.  
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6F3B0253  
1. System Configuration  
1.5.3 Options  
The following optional items are available.  
Item  
Cable for  
programming tool  
Programmer port  
connector  
Type  
Description  
For T-PDS, 5 m length  
CJ105  
PT16S  
For RS-232C computer link, with 2 m cable  
Option card I/O  
connector  
PT15S  
PT15F  
Cable side connector for  
DI116M, DO116M, or DD116M  
Soldering type  
Flat cable type  
Back-up battery  
CR2032 For memory back up. (Available on the market.)  
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1. System Configuration  
1.6 Programmer port function  
The interface of the T1-16S’s programmer port is RS-232C. Normally this port is  
used to connect the programmer. However, this port can also be used for the  
computer link function.  
The computer link is a data communication function between computer or operator  
interface unit and the T1-16S. The data in the T1-16S can be read and written by  
creating simple communication program on the computer. The computer link protocol  
of the T1-16S is published in “T1-16S User’s Manual Communication Function ”.  
Item  
Specifications  
Conforms to RS-232C  
Interface  
Transmission system  
Synchronization  
Transmission speed  
Transmission distance  
Framing  
Half-duplex  
Start-stop system (asynchronous)  
9600 bps (fixed)  
15 m max.  
Start bit:  
Data bits:  
Parity:  
1 bit  
8 bits (fixed)  
Odd or none  
1 bit (fixed)  
Stop bit:  
Protocol  
T-series computer link (ASCII)  
Programmer (binary)  
Transmission delay option 0 to 300 ms  
By using the multi-drop adapter (CU111), multiple T1-16Ss can be connected on an  
RS-485 line. The T-series PLC programming software (T-PDS) can also be used in  
this configuration.  
Master Computer  
Operator Interface  
RS-232C  
RS-485 (1 km max.)  
Max. 32 T1-16Ss  
C
U
C
U
C
U
T1-16S  
T1-16S  
T1-16S  
T1-16S  
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6F3B0253  
1. System Configuration  
1.7 RS-485 port communication function  
The T1-16S enhanced model has an RS-485 multi-purpose communication port.  
This port can work independent of the programmer port.  
By using this communication port, one of the following four communication modes is  
available, computer link mode, data link mode, free ASCII mode, and Inverter  
connection mode.  
For details of these functions, refer to the separate manual “T1-16S User’s Manual −  
Communication Function ”.  
Item  
Computer  
link  
Free ASCII  
Inverter  
connection  
Data link  
Interface  
Conforms to RS-458  
Transmission system Half-duplex  
Synchronization  
Transmission code  
Transmission speed  
Start-stop system (asynchronous)  
ASCII/binary ASCII  
Binary  
Binary  
19200 bps  
(fixed)  
300, 600, 1200, 2400, 4800, 9600, or  
19200 bps  
1 km max.  
Transmission  
distance  
Framing  
Start bit:  
Data bits: 7 or 8 bits  
Parity:  
Stop bit:  
T-series  
computer  
link (ASCII), ASCII  
Programmer messages  
(binary)  
1 bit  
Special  
Special  
Odd, even, or none  
1 or 2 bits  
User  
Protocol  
Inverter VF-  
A7/G7/S9  
binary  
defined  
protocol  
Link configuration  
1-to-N  
N/A  
1-to-N  
1-to-1  
NOTE  
T1-16S standard model does not have the RS-485 interface.  
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1. System Configuration  
Computer link mode  
T-series computer link protocol can be used in this mode. A maximum of 32 T1-16Ss  
can be connected to a master computer.  
By using this mode, all the T1-16S’s data can be accessed by a master computer.  
The T-series PLC programming software (T-PDS) can also be used in this  
configuration.  
Master Computer  
RS-485 (1 km max.)  
Max. 32 T1-16Ss  
T1-16S  
T1-16S  
T1-16S  
T1-16S  
Data link mode  
Two PLCs (any combination of T1-16S, T2E or T2N) can be directly linked together.  
This direct link is inexpensive, easily configured and requires no special  
programming. Data registers D0000 to D0031 are used for the data transfer.  
T1S  
T1-16S  
T1  
RS-485 (1 km max.)  
Station No. 2  
D0000  
Station No. 1  
D0000  
D0015  
D0016  
D0015  
D0016  
D0031  
D0031  
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6F3B0253  
1. System Configuration  
Free ASCII mode  
The free ASCII mode is used to connect between the T1-16S and various serial  
ASCII devices, such as a micro computer, bar code reader, printer, display, etc.  
By using this mode, the T1-16S can work as a communication master. Therefore, the  
T1-16S can communicate with other PLCs using the computer link protocol.  
T1-16S  
RS-485 (1 km max.)  
Bar-code reader  
ID system  
Weigh scale  
Power meter  
Printer  
Others  
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6F3B0253  
1. System Configuration  
Free ASCII mode  
The T1-16S's Inverter connection mode is a special function to monitor/control the  
Toshiba Inverters (ASDs) VF-A7/G7/S9 through the RS-485 line.  
Using this mode, the T1-16S can perform the following functions for the Inverters  
connected on the RS-485 line without any special communication program.  
Monitoring Operating frequency and Terminal status  
Control Run/Stop/Jog, Forward/Reverse, Frequency reference, etc.  
Parameter read/write  
Broadcast command  
T1-16S  
RS-485 (1 km max.)  
RS485 adapter  
888  
888  
888  
888  
888  
888  
VF-A7  
VF-A7  
VF-S9  
VF-S9  
VF-S9  
VF-S9  
(Max. 64 Inverters)  
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6F3B0253  
1. System Configuration  
1.8 Real-time data link system  
TOSLINE-F10  
TOSLINE-F10 is a high speed data transmission system suited for small points I/O  
distribution system. By inserting the TOSLINE-F10 remotemodule (FR112M), the  
T1-16S can work as a remote station of the TOSLINE-F10 network. On this network,  
the T1-16S sends 1 word data to the master station and receives 1 word data from  
the master station.  
Item  
TOSLINE-F10 system specifications  
High speed mode Long distance mode  
Bus (terminated at both ends)  
Topology  
Transmission distance  
(without repeater)  
Transmission speed  
Scan transmission  
capacity  
500 m max. (total)  
1 km max. (total)  
750 kbps  
512 points (32 words) max.  
250 kbps  
Scan cycle  
Error checking  
7 ms/32 words  
CRC check  
12 ms/32 words  
NOTE  
(1) Refer to the separate “T1 User’s Manual Option Card and I/O  
Module “ for details of the TOSLINE-F10 remote card (FR112).  
(2) Refer to the separate TOSLINE-F10 User’s Manual for details of  
overall TOSLINE-F10 system.  
Typical data link configuration  
The figure below shows the typical data link configuration.  
Master  
computer  
T2E  
(master)  
TOSLINE-F10  
T2E  
(remote)  
T1-16S  
T1-16S  
T1-16S  
RI/O  
RI/O  
RI/O: remote I/O  
Operator interface units  
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6F3B0253  
1. System Configuration  
1.9 Peripheral tools  
The following peripheral tools are available for the T1-16S.  
T-Series Program Development System (T-PDS)  
The T-Series Program Development System (T-PDS) is a software which runs on  
any IBM-PC compatible personal computers such as Toshiba’s Notebook computers.  
The same T-PDS software supports on-line/off-line programming, debugging and  
program documentation for all the T-Series programmable controllers T1/T1S,  
T2/T2E/T2N, T3/T3H and S2T.  
User-friendly program editor includes cut & paste, address search & replace,  
program block move/copy, etc.  
Group programming part program development by multiple designers and  
merging them into a complete program enhance the software productivity.  
Powerful monitoring, I/O force and data set functions fully support your program  
debugging.  
Documentation of programs with commentary makes your maintenance work  
easy.  
Remote monitoring/programming via modem (radio/phone) is possible.  
The table below shows the T-PDS versions that support the T1-16S.  
Type  
Part number  
Versions available for  
T1-16/28/40 T1-40S/T1-16S  
*1)  
T-PDS for Windows TMW33E1SS  
T-PDS for MS-DOS TMM33I1SS  
Ver 1.0 or later  
Ver 1.61 or later  
Ver 1.2 or later  
Ver 2.1 or later  
*1)  
*1) The T1-16S can be used with these versions. However, in this case, there are  
the following functional limitations.  
The program size setting is only available as 2 k. It is set to 4 k mode in the  
T1-16S.  
Some of the added instructions (MAVE, DFL, HTOA, ATOH) may not be  
edited/monitored. (depending on the version)  
NOTE  
The connection cable for the T1-16S is different from that for upper T-Series  
PLCs. These cables are supplied separately.  
Connection cable for T1-16S ... Type: CJ105, 5 m length  
Connection cable for T2/T3 . Type: CJ905, 5 m length  
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6F3B0253  
1. System Configuration  
T-Series Handy Programmer (HP911A)  
The HP911A is a hand-held programmer, that can be used to program the T1-16S  
using ladder diagram. Its portability makes it ideal for maintenance use at remote  
locations.  
The HP911A has the following features.  
The HP911A supports ladder diagram programming of T-Series programmable  
controllers T1-16S, T2/T2E/T2N and T3.  
Built-in EEPROM allows program copy between T-Series controllers.  
Two display modes are available,  
- Normal: 5 lines and 12 columns  
- Zoom: Full device description  
On-line data set and I/O force are useful for system checking.  
Backlit LCD display allows operation in dim light.  
There are two types of the Handy Programmer (HP911) depending on the cable  
included with.  
Type  
HP911A  
HP911  
Part number  
THP911AS  
THP911∗∗S  
Cable included with Versions available for T1-16S  
2 m cable for T1-16S Ver 1.1 or later  
2 m cable for the upper Ver 1.1 or later  
T-series PLCs  
The T1-16S can be used with the HP911(A). However, there are the following  
functional limitations.  
The program size setting is only available as 2 k. It is set to 4 k mode in the T1-  
16S.  
Some of the added instructions (MAVE, DFL, HTOA, ATOH) cannot be  
edited/monitored.  
NOTE  
A 2 m connection cable for the T1-16S (Type: CJ102) is supplied with the  
HP911A. The cable for the T2/T3 is available separately. (Type: CJ902, 2 m  
length)  
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6F3B0253  
1. System Configuration  
Program Storage Module (RM102)  
The program storage module (RM102) is an  
external memory for storing the T1-16S  
program. By using the RM102, program saving  
from the T1-16S to the RM102, and program  
loading from the RM102 to the T1-16S can be  
done without need of a programmer.  
Because the RM102 has an EEPROM,  
maintenance-free program storage and quick  
saving/loading are available.  
Multi-drop adapter (CU111)  
The T1-16S’s RS-232C programmer port  
supports the computer link function.  
When two or more T1-16Ss are connected with  
a master computer, the multi-drop adapter  
(CU111) can be used. (One-to-N configuration)  
The CU111 is an RS-232C/RS-485 converter  
specially designed for the T1-16S’s  
programmer port.  
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36 T1-16S User’s Manual  
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Section 2  
Specifications  
2.1 General specifications, 38  
2.2 Functional specifications, 40  
2.3 I/O specifications, 42  
2.4 External dimensions, 46  
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2. Specifications  
2.1 General specifications  
Item  
T1-16S  
100 to 240Vac (+10/-15%), 50/60 Hz  
45VA or less  
Power supply voltage  
Power consumption  
Inrush current  
50A or less (at 240Vac, cold start)  
0.2A (for external devices and/or for input signals)  
Output 24Vdc  
rating  
(24Vdc, ±10%)  
5Vdc  
(Note)  
1.5A (for I/O module)  
24Vdc (+20/-15%)  
Power supply voltage  
Power consumption  
Inrush current  
18W or less  
25A or less (at 24Vdc)  
1.5A (for I/O module)  
5Vdc output rating (Note)  
Retentive power interruption  
Insulation resistance  
10ms or less  
10Mor more  
(between power terminals and ground terminal)  
Withstand voltage  
Ambient temperature  
Ambient humidity  
Noise immunity  
1500Vac - 1 minute  
0 to 55°C (operation), -20 to 75°C (storage)  
5 to 95%RH, no condensation  
1000Vp-p/1µs, Conform to EMC Directive 89/336/EEC  
9.8m/s2 (1g)  
Vibration immunity  
(for 30 minutes per axis, on 3 mutually perpendicular axes)  
Shock immunity  
98m/s2 (10g)  
(3 shocks per axis, on 3 mutually perpendicular axes)  
500g  
Approximate weight  
NOTE  
(1) 24Vdc service power output is not provided on the DC power supply type.  
(2) The maximum output current of the 5Vdc is 1.5A. However there is the following  
restrictions, depending on the conditions.  
(A)  
When HP911 is used:  
1.5  
Redused by 0.2A  
When RS-485 port is used:  
1.0  
Reduced by 0.1A  
When 24Vdc service power is used:  
Refer to the right chart.  
0.1  
0.2 (A)  
24Vdc service power  
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2. Specifications  
NOTE  
(3) The 5Vdc current consumption of each I/O modules is described below.  
Check that the total 5Vdc current consumption is within the limit.  
Model  
Specifications  
5Vdc consumer  
current  
DI116M  
16points, 24Vdc-5mA input.  
50mA  
DO116M 16points, 24Vdc-100mA output.  
DD116M 8points, 24Vdc-5mA input.  
8points, 24Vdc-100mA output.  
RO108M 8 points, 24Vdc/240Vac – 1A relay output  
AD121M 1ch. 12bit analog input.  
(0 to 20mA, 0 to 5V)  
AD131M 1ch. 12bit analog input. (±10V)  
DA121M 1ch. 12bit analog output.  
(0 to 20mA, 0 to 5V)  
50mA  
50mA  
260mA  
260mA  
260mA  
350mA  
DA131M 1ch. 12bit analog output. (±10V)  
TC111M 1ch. 12bit thermo couple input.  
FR112M TOSLINE-F10 remote station.  
240mA  
400mA  
100mA  
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2. Specifications  
2.2 Functional specifications  
Item  
Control method  
Scan system  
I/O update  
T1-16S  
Stored program, cyclic scan system  
Floating scan or constant scan (10 – 200ms, 10ms units)  
Batch I/O refresh  
(direct I/O instruction available at basic units I/O)  
RAM and EEPROM (no back-up battery required)  
8K steps  
Program memory (Note)  
Program capacity  
(4K or 8K mode)  
Programming language  
Instructions  
Ladder diagram with function block  
Basic: 21  
Function: 97  
Execution speed  
Program types  
1.4µs/contact, 2.3µs/coil,  
4.2µs/16-bit transfer, 6.5µs/16-bit addition  
1 main program  
1 sub-program (initial program)  
1 timer interrupt (interval: 5 to 1000ms, 5ms units)  
4 I/O interrupt (high-speed counter and interrupt input)  
256 subroutines (up to 3 levels of nesting)  
512 points/ 32 words (X/XW, Y/YW)  
User data I/O register  
Auxiliary relay 4096 points/ 256 words (R/RW)  
Special relay  
Timer  
1024 points/ 64 words (S/SW)  
256 points (T./T)  
64 at 0.01s, 192 at 0.1s  
256 points (C./C)  
Counter  
Data register  
Index register  
4096 words (D)  
3 words (I, J, K)  
Memory Capacitor  
back-up  
1 hour (at 25°C)  
Battery (option) Max. 2 years.  
Min. 6 months. (Note)  
NOTE  
(1) The user program stored in the EEPROM is transferred to the RAM  
when power is turned on. Therefore, if the program is modified, it is  
necessary to issue the EEPROM Write command from the programming  
tool. Otherwise, the modified program is over-written by original  
EEPROM contents at the next initial load timing.  
(2) The data of RAM and calendar IC are backed up by built-in capacitor  
and optional battery.  
(3) When the optional battery is used, replace the battery periodically with  
referring to the table below.  
Annual average air temperature  
Under 30°C (86°F)  
2 years  
Over 30°C (86°F)  
1 year  
Operation  
time per day  
Over 8 hours  
Under 8 hours  
1 year  
6 months  
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2. Specifications  
Functional specifications (cont’d)  
Item  
T1-16S  
I/O capacity  
16 points (basic)  
+128 points (I/O modules)  
I/O type  
Input  
Output  
24Vdc input (8 points)  
Relay (6 points) + transistor (2 points)  
Fixed  
Yes, ±60 s/month at 25°C  
(Enhanced model only)  
I/O terminal block  
Real-time clock  
/calendar  
Special I/O functions  
(Note)  
High speed counter, 2 single or 1 quadrature  
Interrupt input, 2 points  
Adjustable analog register, 2 points  
Pulse output, CW+CCW or pulse+direction  
PWM output  
Communications  
interface  
1 port RS-232C (programmer port)  
- for Programmer or Computer link connection  
1 port RS-485 (Enhanced model only)  
- Programmer  
- Computer link  
- Data link  
- Free ASCII  
TOSLINE-F10 remote (by I/O module)  
Sampling trace, 8 devices and 3 register - 256 times  
On-line programming  
Debug support  
function  
On-line EEPROM write  
NOTE  
(1) High-speed counter, interrupt input, pulse output and PWM output are  
available in the DC input types.  
(2) High-speed counter and interrupt input cannot be used simultaneously.  
(3) Pulse output and PWM output cannot be used simultaneously.  
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2. Specifications  
2.3 I/O specifications  
Input specifications  
Item  
Input type  
Number of input points 8 points (8 points/common)  
Specifications  
DC input, current source/sink  
Rated input voltage  
Rated input current  
Min. ON voltage  
Max. OFF voltage  
ON delay time  
24Vdc, +10/-15 %  
7mA (at 24Vdc)  
15Vdc  
5Vdc  
0 to 15ms *1  
OFF delay time  
0 to 15ms *1  
Input signal display  
LED display for all points, lit at ON, internal logic  
side  
External connection  
Withstand voltage  
Removable terminal block, M3  
1500Vac, 1 minute  
(between internal and external circuits)  
Internal circuit  
LED  
0
7
C
*1: User can change the input ON/OFF delay time of the DC input.  
The setting range is 0 to 15ms. (Default value = 10ms) Refer to section 8.2.  
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2. Specifications  
Input signal connections  
T1-16S  
DC IN  
L
Vin  
21 23 25 27  
C
1 3 5 7  
N NC  
+ 0 2 4 6 C 20 22 24 26 C  
Service power  
24Vdc  
24Vdc  
24Vdc input  
NOTE  
The 24Vdc service power output is not provided on the DC power supply type.  
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2. Specifications  
Output specifications  
Item  
Specifications  
Relay output  
Relay contact, normally open  
Number of output points 6 points  
(6 pts/common)  
Transistor output  
Transistor output, current sink  
Output type  
2 points  
(2 points/common)  
24Vdc  
20.0 - 28.0Vdc  
Rated load voltage  
240Vac/24Vdc (max.)  
Max. 264Vac/125Vdc  
Range of load voltage  
Maximum load current 2A/point (resistive),  
4A/common  
0.5A/point (resistive)  
ON resistance  
50mor less  
(initial value)  
Voltage drop at ON  
Leakage current at OFF None  
Minimum load  
0.5V or less  
0.1mA or less  
5Vdc, 10mA  
(50mW)  
ON delay time  
10ms or less  
10ms or less  
0.1ms or less  
0.1ms or less  
OFF delay time  
Input signal display  
External connection  
Withstand voltage  
Internal circuit  
LED display for all points, lit at ON, internal logic side  
Removable terminal block, M3  
1500Vac, 1 minute (between internal and external circuits)  
LED  
LED  
Vin  
20  
21  
C
22  
27  
C
Ry  
*1: The switching life of the relay output is as follows.  
20 million times or more (mechanical)  
100 thousand times or more (electrical, at maximum rated voltage and current)  
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2. Specifications  
Output signal connections  
T1-16S  
L
DC OUT  
RELAY OUT  
Vin  
C
1 3 5 7  
21 23 25 27  
N NC  
+ 0 2 4 6 C 20 22 24 26 C  
Service power  
24Vdc  
PS  
240Vac/24Vdc (max.)  
24Vdc +  
PS  
Transister output  
Relay output  
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2. Specifications  
2.4 External dimensions  
T1-16S  
[mm]  
I/O module  
[mm]  
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Section 3  
I/O Application Precautions  
3.1 Application precautions for input signals, 48  
3.2 Application precautions for output signals, 50  
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3. I/O Application Precautions  
3.1 Application precautions for input signals  
Configure emergency stop and safety interlocking circuits outside the  
T1-16S. Otherwise, malfunction of the T1-16S can cause injury or serious  
accidents.  
!
WARNING  
(1) Minimum ON/OFF time of the input signal  
The following conditions guarantee correct reading of the ON/OFF state of the input  
signal:  
Input ON time: ON delay time + the time for one scan  
Input OFF time: OFF delay time + the time for one scan  
The ON and OFF times of the input signals must be longer than these intervals.  
(2) Increasing the contact current  
The reliability of some contacts cannot be guaranteed by the specified input current. In  
this case, install an external bleeder resistor to increase the contact current.  
Bleeder resistor  
V
R =  
I
I1  
T1  
input  
circuit  
I
I
1
R
V
V 2  
R
I2  
Wattage >  
×3  
(3) Connecting transistor output device  
An example of connecting a transistor output device to T1-16S’s input circuit is shown  
below.  
For NPN open collector  
For PNP open collector  
C
T1  
T1  
input  
circuit  
input  
circuit  
C
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3. I/O Application Precautions  
(4) Countermeasures against leakage current  
When a switch with an LED or sensor is used, the input sometimes cannot recognize  
that the switch is off due to the current leakage. In this case, install a bleeder resistor  
to reduce input impedance.  
LE  
Bleeder resistor  
T1  
input  
circuit  
C
Select a bleeder resistor according to the following criteria:  
(a) The voltage between the input terminals must be lower than the OFF voltage  
when the sensor is switched off.  
(b) The current must be within the allowable range when the sensor is switched on.  
(c) Calculate the wattage of the bleeder resistor by multiplying the current when the  
sensor is switched on times three.  
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3. I/O Application Precautions  
3.2 Application precautions for output signals  
Configure emergency stop and safety interlocking circuits outside the  
T1-16S. Otherwise, malfunction of the T1-16S can cause injury or serious  
accidents  
!
!
WARNING  
CAUTION  
1. Turn on power to the T1-16S before turning on power to the loads.  
Failure to do so may cause unexpected behavior of the loads.  
2. Configure the external circuit so that the external 24Vdc power required  
for the transistor output circuits and power to the loads are switched  
on/off simultaneously. Also, turn off power to the loads before turning off  
power to the T1-16S.  
3. Install fuses appropriate to the load current in the external circuits for the  
outputs. Failure to do so can cause fire in case of load over-current.  
(1) 2 points of solid-state output  
The leading 2 points of output (Y020 and Y021) are solid-state outputs, transistors on  
the DC input types.  
These solid-state outputs are suited for frequent switching applications.  
Note that the specifications of the solid-state outputs and other outputs (relays) are  
different.  
(2) Switching life of output relays  
Expected relay life is more than 100,000 electrical cycles at rated maximum voltage  
and current, and more than 20 million mechanical cycles. The expected contact life  
(electrical cycles) is shown on the table below.  
Load  
voltage  
Load Expected life  
current (thousand)  
Load  
voltage  
Load Expected life  
current (thousand)  
AC 110Vac,  
2A  
1A  
0.5A  
2A  
340  
720  
1,600  
150  
DC 24Vdc,  
load L/R = 0 ms  
2A  
1A  
0.5A  
2A  
280  
600  
1,300  
60  
load  
COSφ = 1  
110Vac,  
24Vdc,  
1A  
0.5A  
2A  
1A  
0.5A  
2A  
320  
700  
220  
500  
1,100  
100  
210  
L/R = 15 ms  
1A  
0.5A  
1A  
0.5A  
0.5A  
0.2A  
0.5A  
0.2A  
0.2A  
0.1A  
150  
350  
200  
420  
130  
420  
200  
550  
150  
350  
COSφ = 0.7  
220Vac,  
COSφ = 1  
48Vdc,  
L/R = 0 ms  
48Vdc,  
L/R = 15 ms  
110Vdc,  
L/R = 0 ms  
110Vdc,  
220Vac,  
COSφ = 0.7  
1A  
0.5A  
460  
L/R = 15 ms  
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3. I/O Application Precautions  
(3) Over-current protection  
The output circuit of the T1-16S does not contain protective fuses. Fuses rated for the  
output should be provided by the user.  
Load  
T1  
output  
Load  
PS  
Fuse appropriate to  
the common current  
(4) Output surge protection  
Where an inductive load is connected to the output, a relatively high energy transient  
voltage will be generated when the relay turns OFF. To prevent the problems caused  
by this surge, install a surge absorber in parallel to the inductive load.  
Load  
Surge absorber  
T1  
output  
circuit  
PS  
Surge absorber:  
Flywheel diode (for DC output)  
Inverse withstand voltage: At least three times that of the power supply  
Forward current: Larger than the load current  
Varistor (for AC output)  
The voltage rating is 1.2 times the maximum (peak) voltage of the power supply  
CR snubber (for DC or AC output)  
R: 0.5 to 1per volt coil voltage  
C: 0.5 to 1µF per ampere of coil current (non-polarity capacitor)  
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Section 4  
Installation and Wiring  
4.1 Environmental conditions, 54  
4.2 Installing the unit, 55  
4.3 Wiring terminals, 57  
4.4 Grounding, 58  
4.5 Power supply wiring, 59  
4.6 I/O wiring, 61  
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4. Installation and Wiring  
4.1 Environmental conditions  
Excess temperature, humidity, vibration, shocks, or dusty and corrosive  
!
CAUTION  
gas environment can cause electrical shock, fire or malfunction.  
Install and use the T1-16S and related equipment in the environment  
described in this section.  
Do not install the T1-16S in the following locations:  
Where the ambient temperature drops below 0°C or exceeds 55°C.  
Where the relative humidity drops below 20% or exceeds 90%.  
Where there is condensation due to sudden temperature changes.  
In locations subject to vibration that exceeds tolerance.  
In locations subject to shock that exceeds tolerance.  
Where there are corrosive or flammable gases.  
In locations subject to dust, machining debris or other particles.  
In locations exposed to direct sunlight.  
Observe the following precautions when installing enclosures in which the T1-16S will  
be installed:  
Provide the maximum possible distance from high-voltage or high-power panels.  
This distance must be at least 200mm.  
If installing the enclosures in the vicinity of high-frequency equipment, be sure to  
correctly ground the enclosures.  
When sharing the channel base with other panels, check for leakage current from  
the other panels or equipment.  
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4. Installation and Wiring  
4.2 Installing the unit  
1. Improper installation directions or insufficient installation can cause  
fire or the units to drop. Install the T1-16S and related equipment in  
accordance with the instructions described in this section.  
!
CAUTION  
2. Turn off power before installing or removing any units, modules,  
racks or terminal blocks. Failure to do so can cause electrical shock  
or damage to the T1-16S and related equipment.  
3. Entering wire scraps or other foreign debris into to the T1-16S and  
related equipment can cause fire or malfunction. Pay attention to  
prevent entering them into the T1 and related equipment during  
installation and wiring.  
NOTE  
The T1-16S basic unit and the I/O module come equipped with a bracket at the rear  
for mounting on a 35mm DIN rail.  
Installation precautions:  
Because the T1-16S is not dust-proof, install it in a dust-proof enclosure.  
Do not install the unit directly above equipment that generates a large amount of  
heat, such as a heater, transformer, or large-capacity resistor.  
Do not install the unit within 200mm of high-voltage or high-power cables.  
Allow at least 70mm on all sides of the unit for ventilation.  
For safely during maintenance and operation, install the unit as far as possible from  
high-voltage or power equipment. Alternatively, keep the unit separate using a  
metal plate or similar separator.  
If high-frequency equipment is installed in the enclosure together with the T1-16S,  
special attention is required for grounding. See section 4.4.  
Be sure to install the unit vertically with keeping the power terminals downside. Do  
not install the unit horizontally or upside-down for safety reason.  
Use M4 size screws to mount the T1-16S.  
(Recommended torque: 1.47Nm = 15Kgfcm)  
Upward  
Mount the T1-16S on a vertical panel.  
All other mounting positions are not  
acceptable.  
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4. Installation and Wiring  
Dimensions for screw mounting:  
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4. Installation and Wiring  
4.3 Wiring terminals  
1. Turn off power before wiring to minimize the risk of electrical shock.  
!
CAUTION  
2. Exposed conductive parts of wire can cause electrical shock. Use  
crimp-style terminals with insulating sheath or insulating tape to cover  
the conductive parts. Also close the terminal covers securely on the  
terminal blocks when wiring has been completed.  
3. Turn off power before removing or replacing units, modules, terminal  
blocks or wires. Failure to do so can cause electrical shock or damage  
to the T1-16S and related equipment.  
The terminal screw size of the T1-16S is M3. Use crimp-style terminals of 7mm width  
or less useable for M3. The terminal block is not removable (fixed).  
NOTE  
For input and output signal connections, refer to sections 2.4 and 3.  
T1-MDR16SS .... AC power supply model  
T1-MDR16SSD..DC power supply model  
RS-485 (Enhanced model only)  
RS-485 (Enhanced model only)  
TXA RXA RXB  
TXB TRM SG  
TXA RXA RXB  
TXB TRM SG  
MDR16SS  
MDR16SSD  
DC IN  
DC OUT  
RELAY OUT  
DC IN  
DCOUT  
RELAY OUT  
+
Vin  
Vin  
21 23 25 27  
L
C
1
3
5
7
21 23 25 27  
C
1
3
5
7
NC  
-
N
NC +  
0
2
4
6
C 20 22 24 26  
C
NC NC 0  
2
4
6
C 20 22 24 26  
C
NOTE  
(1) NC stands for ”no connect”. Do not use the NC terminals for wire  
relaying or branching.  
(2) For the connections of the RS-485 communication port (the upper  
terminal block), refer to the separate manual “T1-16S User’s Manual -  
Communication Function -.  
The applicable wire size is 0.3mm2 (22 AWG) to 1.25mm2 (16 AWG). The table below  
shows the recommended wire size.  
Type of signal  
Power  
Grounding  
I/O signals  
Recommended wire size  
1.25mm2 (16 AWG)  
1.25mm2 (16 AWG)  
0.3mm2 (22 AWG) to 0.75mm2 (18 AWG)  
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4. Installation and Wiring  
4.4 Grounding  
1. Turn off power before wiring to minimize the risk of electrical shock.  
!
CAUTION  
2. Operation without grounding may cause electrical shock or malfunction.  
Connect the ground terminal on the T1-16S to the system ground.  
The optimum method for grounding electronic equipment is to ground it separately  
from other high-power systems, and to ground more than one units of electronic  
equipment with a single-point ground.  
Although the T1-16S has noise immunity to be used in industrial operating conditions,  
grounding is important for safety and reliability.  
Check the grounding against the following criteria.  
1. The T1-16S must not become a path for a ground current. A high-frequency current  
is particularly harmful.  
2. Equalize the ground potentials when the expansion rack or unit is connected.  
Ground the T1-16S and the expansion rack or unit at a single point.  
3. Do not connect the ground of the T1-16S to that of high-power systems.  
4. Do not use a ground that has unstable impedance, such as painted screws, or  
ground subject to vibration.  
The grounding marked terminal (see below) is provided on the T1-16S basic unit for  
grounding purpose.  
In case of the expansion rack is connected to the T1-16S, the rack mounting screw is  
used for this purpose.  
T1-16S  
Mounting panel  
System ground  
1.25mm2 (16 AWG) wire should be used to connect the T1-16S and the expansion  
rack/unit with the enclosure grounding bus bar.  
100or less to ground is required.  
58 T1-16S User’s Manual  
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4. Installation and Wiring  
4.5 Power supply wiring  
1. Turn off power before wiring to minimize the risk of electrical shock.  
!
CAUTION  
2. Applying excess power voltage to the T1-16S can cause explosion or  
fire. Apply power of the specified ratings described below.  
Wire the power source to the T1-16S power supply terminals.  
T1-16S  
Insulation  
Line filter  
transformer  
Power source  
Power conditions:  
AC power supply type  
100 to 240Vac, +10/-15%  
50/60Hz, ±5%  
DC power supply type  
24Vdc, +20/-15%  
-
Rated voltage  
Frequency  
Power consumption 45VA or less  
18W or less  
Retentive power  
interruption  
Continuous operation for less than 10ms  
1.25mm2 (16 AWG) twisted-pair cable should be used for the power cable.  
The power cable should be separated from other cables.  
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4. Installation and Wiring  
Connections of the power supply terminals are shown below.  
AC power supply type  
100-240Vac  
L
N
100 to 240Vac  
Grounding  
DC power supply type  
24 Vdc  
+
-
+
24Vdc  
-
Grounding  
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4. Installation and Wiring  
4.6 I/O wiring  
1. Turn off power before wiring to minimize the risk of electrical shock.  
!
CAUTION  
2. Exposed conductive parts of wire can cause electrical shock. Use  
crimp-style terminals with insulating sheath or insulating tape to cover  
the conductive parts. Also close the terminal covers securely on the  
terminal blocks when wiring has been completed.  
3. Turn off power before removing or replacing units, modules, terminal  
blocks or wires. Failure to do so can cause electrical shock or damage  
to the T1-16S and related equipment.  
Refer to sections 2.4 and 3 for instructions on how to properly wire the I/O  
terminals.  
0.75mm2 (18 AWG) to 0.3mm2 (22 AWG) wires are recommended for I/O signals.  
Separate the I/O signal cables from high-power cables by at least 200mm.  
If expansion rack or unit is used, separate the expansion cable from the power and  
I/O signal cables by or unit at least 50mm.  
It is recommended to separate the input signal cables from output signal cables.  
T1-16S  
200mm  
or more  
Output  
signal  
High-power  
cable  
Input  
signal  
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Section 5  
Operating System Overview  
5.1 Operation modes, 64  
5.2 About the built-in EEPROM, 66  
5.3 Scanning, 69  
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5. Operating System Overview  
5.1 Operation modes  
The T1-16S has three basic operation modes, the RUN mode, the HALT mode and  
the ERROR mode. The T1-16S also has the HOLD and RUN-F modes mainly for  
system checking.  
RUN:  
The RUN mode is a normal control-operation mode.  
In this mode, the T1-16S reads external signals, executes the user program  
stored in the RAM, and outputs signals to the external devices according to  
the user program. It is in the RUN mode that the T1-16S performs scans the  
user program logic, which is the basic operation of a PLC.  
Program changes and EEPROM write are possible while the T1-16S is in  
the RUN mode. Refer to section 6.9.  
HALT:  
The HALT mode is a programming mode.  
In this mode, user program execution is stopped and all outputs are  
switched off.  
Program loading into the T1-16S is possible only in the HALT mode.  
For the standard T1, program changes and EEPROM write are possible only  
when the T1 is in the HALT mode.  
ERROR: The ERROR mode is a shutdown mode as a result of self-diagnosis.  
The T1-16S enters the ERROR mode if internal trouble is detected by self-  
diagnosis. In this mode, program execution is stopped and all outputs are  
switched off. The cause of the shutdown can be confirmed by connecting  
the programming tool.  
To exit from the ERROR mode, execute the Error Reset command from the  
programming tool, or cycle power off and then on again.  
HOLD: The HOLD mode is provided mainly for checking the external I/O signals.  
In this mode, user program execution is stopped, with input and output  
updating is executed. It is therefore possible to suspend program execution  
while holding the output state. Moreover, a desired output state can be  
established by setting any data by using the programming tool.  
RUN-F: The RUN-F mode is a forced RUN mode provided for program checking.  
This mode is effective when using the expansion I/Os.  
Deferent from the normal RUN mode, the RUN-F mode allows operation  
even if the registered I/O modules are not actually mounted.  
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5. Operating System Overview  
The operation modes are switched by the mode control switch provided on the T1-16S  
and the mode control commands issued from the programming tool.  
The mode transition conditions are shown below.  
(Power ON)  
RUN  
HALT  
HOLD  
RUN-F  
ERROR  
Mode control switch is in R (RUN) side.  
Mode control switch is in H (HALT) side.  
Mode control switch is turned to H (HALT) side, or HALT command is issued from  
the programming tool.  
Mode control switch is turned to R (RUN) side, or RUN command is issued from  
the programming tool.  
Force RUN (RUN-F) command is issued from the programming tool.  
HOLD command is issued from the programming tool.  
HOLD Cancel command is issued from the programming tool.  
Error Reset command is issued from the programming tool.  
(dotted line) Error is detected by self-diagnosis.  
NOTE  
The commands from the programming tool are available when the mode  
control switch is in R (RUN) side.  
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5. Operating System Overview  
5.2 About the built-in EEPROM  
The T1-16S is equipped with a built-in EEPROM and a RAM as standard features.  
The user program is stored in the EEPROM so that the user program can be  
maintained without the need of a battery. A part of the Data register can also be  
stored in the EEPROM.  
The table below shows the contents stored in the built-in EEPROM.  
T1-16S  
User program  
User data  
Entire program (8 k steps) and System information  
User specified number of Data register starting with address 0.  
It is set by SW55.  
D0000 - Dnnnn  
(up to 2048 words)  
Setting  
SW36 - SW38:  
information  
Programmer port settings  
SW55:  
Number of Data register to be saved in the EEPROM  
SW56 - SW57:  
RS-485 port settings  
Sampling trace setting information  
The user program and the data stored in the EEPROM are transferred to the RAM  
when power is turned on. Subsequent program execution is done based on the RAM  
contents. Program editing is also performed on the RAM contents.  
Therefore, if the program is modified, it is necessary to issue the EEPROM Write  
command from the programming tool. Otherwise, the modified program is over-  
written by original EEPROM contents when the power is turned off and on again.  
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5. Operating System Overview  
EEPROM  
RAM  
User program  
(8 k steps)  
User program  
(8 k steps)  
and System info  
and System info  
Data register  
(D0000 to Dnnnn,  
user setting)  
Data register  
(0 to 2048 words,  
user setting)  
Other data  
Other data  
The rest of Data  
register and  
other registers  
Executed when power is turned on (it is called initial load) or EEPROM Read  
command is issued from the programming tool. The EEPROM Read is possible  
only in the HALT mode.  
Executed when EEPROM Write command is issued from the programming tool.  
It is possible in either HALT or RUN mode. (See Note)  
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5. Operating System Overview  
Special register SW55 is used to specify the number of Data registers to be stored in  
the EEPROM. The allowable setting value is 0 to 2048.  
The table below shows the correspondence between the SW55 value and Data  
registers saved in the EEPROM.  
SW55 setting  
Range of Data registers saved  
in EEPROM  
Remarks  
value  
0
None  
1
2
3
D0000 only  
D0000 to D0001  
D0000 to D0002  
:
:
2047  
2048  
Others  
D0000 to D2046  
D0000 to D2047  
D0000 to D2047  
Default value  
Regarded as 2048  
When the EEPROM Write command is executed, the T1-16S checks the value of  
SW55 and saves the Data registers into the EEPROM depending on the SW55 value.  
The value of SW55 itself is also saved in the EEPROM.  
At the initial load or the EEPROM Read command is executed, the T1-16S checks the  
value for SW55 in the EEPROM and transfers the corresponding number of data to  
the Data registers of the RAM.  
NOTE  
(1) The EEPROM has the life limit for writing. It is 100,000 times. Pay  
attention not to exceed the limit. If the number of execution of  
EEPROM Write command exceeds 100,000 times, EEPROM alarm  
flag (S007) comes ON.  
(2) Even in RUN mode, the EEPROM Write command can be executed.  
However, in this case, only the user program is written into the  
EEPROM. (D register data and setting information are not saved.)  
(3) The data in the EEPROM can also be read or written by using the  
program instruction (FUN236 XFER instruction).  
(4) When the EEPROM writing is executed by the XFER instruction in the  
user program, T1-16S does not update the internal EEPROM write  
counts. Therefore the EEPROM alarm flag (S007) will not correspond  
to this operation. Pay attention to the life limit of the EEPROM.  
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5. Operating System Overview  
5.3 Scanning  
The flowchart below shows the basic internal operations performed by the T1-16S  
from the time power is turned on through program execution. As the diagram shows,  
executing a program consists of continuous scanning operations. One scan is a cycle  
starting with the self-diagnosis and ending with the completion of peripheral support.  
Power ON  
Hardware check  
Power-up  
Initialization  
(approx. 1 s)  
Initial load  
Register/device  
initialization  
Self-diagnosis  
HALT mode  
Mode  
control  
RUN mode  
At the first  
scan  
Register/device  
initialization  
Scan  
At the first  
scan  
Scan cycle  
Program check  
I/O update  
Timer update  
User program  
execution  
Peripheral  
support  
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5. Operating System Overview  
Hardware check:  
Performs checking and initialization of the system ROM, the system RAM and the  
peripheral LSIs.  
Initial load:  
Transfers the user program and user data from the EEPROM to the RAM. (Refer to  
section 5.2)  
Register/device initialization:  
Initializes registers and devices as shown below.  
Register/device  
Initialization  
External input (X/XW)  
Forced inputs are retained. Others are cleared to 0.  
External output (Y/YW) Forced coil devices are retained. Others are cleared to 0.  
Auxiliary device/register User specified retentive registers and forced coil devices  
(R/RW)  
are retained. Others are cleared to 0.  
Special device/register Special setting data are retained. Others are cleared to 0.  
(S/SW)  
Timer device/register  
(T./T)  
User specified retentive registers are retained. Others are  
cleared to 0.  
Counter device/register User specified retentive registers are retained. Others are  
(C./C)  
cleared to 0.  
Data register (D)  
User specified retentive registers are retained. Others are  
cleared to 0.  
Index register (I, J, K)  
Cleared to 0.  
NOTE  
(1) When the data stored in the EEPROM (Data registers) are used, these  
registers should be specified as retentive. Otherwise, these data are  
transferred from EEPROM to RAM, but then cleared to 0 at the  
initialization.  
(2) The data in the retentive registers are stored in RAM and backed up by  
built-in capacitor and by the optional battery if used. The back-up  
period is 1 hours or more at 25 °C. If optional battery (CR2032) is  
used, the back-up period is 1 year or more at 25 °C.  
The T1-16S checks the validity of the retentive data at the power-up  
initialization, and if they are not valid, sets the special device (S00F) to  
ON. Therefore, check the status of S00F in the user program and  
initialize the retentive registers if S00F is ON.  
(3) The retentive registers can be set by the programming tool for RW, T,  
C and D registers. The registers from address 0 to the designated  
address for each type are set as retentive registers. Refer to the  
separate manual for the programming tool for setting the retentive  
registers.  
(4) The input force and the forced coil are functions for program  
debugging. For details, refer to section 6.7.  
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5. Operating System Overview  
Self-diagnosis:  
Checks the proper operation of the T1-16S itself. If an error has detected and cannot  
be recovered by re-tries, the T1-16S moves into ERROR mode. For the self-diagnosis  
items, refer to section 10.2.  
Mode control:  
Checks the mode control switch status and the mode control request commands from  
the programming tool.  
The scan mode floating scan or fixed-time scan is also controlled hear.  
NOTE  
The floating scan:  
When one scan is finished, immediately starts the next scan. The scan time  
is shortest, but may vary depending on the program execution status.  
Scan time  
Scan time  
Scan time  
The fixed-time scan:  
The scan operation is started every user-specified time. The time setting  
range is 10 to 200 ms (10 ms units). If an actual scan needs longer time  
than the setting time, it works as the floating scan.  
Scan time (50 ms fixed) Scan time (50 ms fixed)  
(idling)  
(idling)  
Program check:  
At the beginning of the RUN mode, the user program is compiled and its validity is  
checked.  
I/O update:  
Reads the external input signals into the external input devices/registers (X/XW), and  
sends the data of the external output devices/registers (Y/YW) to the external output  
circuits. Then the outputs (relays, etc.) changes the states and latches until the next  
I/O update timing.  
The states of the forced input devices are not updated by this operation.  
Timer update:  
Updates the timer registers which are activated in the user program, and the timing  
devices (S040 to S047).  
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5. Operating System Overview  
User program execution:  
Executes the programmed instructions from the beginning to the END instruction.  
This is the essential function of the T1-16S.  
In this section, only the main program execution is mentioned. For other program  
types, such as timer interrupt, etc., refer to section 6.5.  
Peripheral support:  
Supports the communications with the programming tool or external devices  
connected by the computer link function. The time for this operation is limited within  
approx. 2 ms in the floating scan mode, and within allowable idling time in the fixed-  
time scan mode.  
If the special relay S158 is set to ON, the peripheral support priority mode is selected.  
In the peripheral support priority mode, the peripheral support time is not limited. As  
the result, the communication response is improved although the scan time becomes  
long at the time.  
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Section 6  
Programming Information  
6.1 Devices and registers, 74  
6.2 Index modification, 86  
6.3 Real-time clock/calendar, 88  
6.4 I/O allocation, 89  
6.5 T1-16S memory mode setting, 91  
6.6 User program configuration, 92  
6.7 Programming language, 98  
6.8 Program execution sequence, 99  
6.9 On-line debug support functions, 100  
6.10 Password protection, 103  
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6. Programming Information  
6.1 Devices and registers  
The T1-16S program consists of bit-based instructions that handle ON/OFF  
information, such as contact and coil instructions, and register-based (16-bit)  
instructions, such as those for data transfer and arithmetic operations.  
Devices are used to store the ON/OFF information of contacts and coils, and registers  
are used to store 16-bit data.  
Devices are divided into six types:  
X
Y
R
S
External input devices  
External output devices  
Auxiliary relay devices  
Special devices  
T. Timer devices  
C. Counter devices  
Registers are divided into eight types:  
XW  
YW  
RW  
SW  
T
External input registers  
External output registers  
Auxiliary relay registers  
Special registers  
Timer registers  
C
Counter registers  
D
Data registers  
I, J, K Index registers  
Device and register numbers  
X devices share the same memory area as XW registers. Device X004, for example,  
represents the number 4 bit in the XW00 register.  
Bit position / Number  
(MSB)  
F
(LSB)  
0
E D C B A  
9
8
7
6
5
4
3
2
1
XW00  
1
X004  
Thus, "X004 is ON" means that bit number 4 of XW00 is 1.  
Y, R, and S devices work in a similar manner.  
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6. Programming Information  
Addressing devices  
A device number of X, Y, R and S devices consist of a register number and bit position  
as follows.  
X 00 4  
Represents bit position 0 to F in the register.  
Decimal number representing the register containing the corresponding  
device.  
Represents the type of device. (X, Y, R, or S)  
As for the timer (T.) and the counter (C.) devices, a device number is expressed as  
follows.  
T. 12  
Corresponding register number. (decimal number)  
Represents the type of device. (T. or C.)  
Dot (.) is used to identify as device.  
Addressing registers  
A register number except the index registers is expressed as follows.  
XW 01  
Register number. (decimal number)  
Represents the type of register. (XW, YW, RW, SW, T, C or D)  
The index registers (I, J and K) do not have the number.  
J
I, J, or K  
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6. Programming Information  
Available address range  
Device/register  
Symbol  
T1-16S  
Number of points  
Total 512 points  
Address range  
X000 - X31F  
External input device  
External output device  
External input register  
External output register  
Auxiliary relay device  
Auxiliary relay register  
Special device  
Special register  
Timer device  
Timer register  
Counter device  
X
Y
XW  
YW  
R
RW  
S
SW  
T.  
T
C.  
C
D
I
J
Y020 - Y31F  
Total 32 words  
XW00 - XW31  
YW02 - YW31  
R000 - R255F  
RW000 - RW255  
S000 - S63F  
SW00 - SW63  
T.000 - T.255  
T000 - T255  
C.000 - C.255  
C000 - C255  
D0000 - D4095  
I (no address)  
J (no address)  
K (no address)  
4096 points  
256 words  
1024 points  
64 words  
256 points  
256 words  
256 points  
256 words  
4096 words  
1 word  
Counter register  
Data register  
Index register  
1 word  
1 word  
K
NOTE  
(1) 1 word = 16 bits  
(2) The available data range in each register is -32768 to 32767 (H8000 to  
H7FFF) except for the timer and the counter registers.  
The data range of the timer register is 0 to 32767. That of the counter  
register is 0 to 65535.  
(3) Double-word (32 bits) data is available in two consecutive registers.  
In this case, lower address register stores the lower 16 bits data.  
(MSB) F -------------0 F ------------ 0 (LSB)  
D0101  
D0100  
Upper 16bits Lower 16bits  
In this manual, a double-word register is expressed by using ‘’.  
For example, D0101D0100.  
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6. Programming Information  
External input devices (X)  
These devices (X) indicate the ON/OFF states of external input signals through the  
input circuits. External input devices can be used many times in a program.  
External output devices (Y)  
The external output devices (Y) store the ON/OFF signals that drive the external  
devices through the output circuits. They can be used for coils in a program.  
External input registers (XW)  
These (XW) are 16-bit registers for storing values, which are received from the input  
circuits.  
External output registers (YW)  
These 16-bit registers (YW) are used for storing values, which are sent to the output  
circuits.  
Auxiliary relay devices and registers (R/RW)  
The auxiliary relay devices (R) are used to store intermediate results of sequences.  
The auxiliary relay registers (RW) are used to store temporary results of function  
instructions. The data in R/RW cannot be output directly to the output circuits. It is  
necessary to move the data to Y/YW.  
It is possible to make these registers retentive so that they retain data in the event of a  
power failure. See section 5.3.  
Timer devices and registers (T./T)  
The timer registers (T) are used for storing the elapsed time of timer instructions, the  
on-delay (TON), off-delay (TOF) and single-shot (SS) timers.  
0.01 s base timers and 0.1 s base timers are provided.  
Time base  
0.01 s  
T1-16S  
T000 to T063  
T064 to T255  
0.1 s  
The timer devices (T.) work as the output of the timer instructions.  
It is possible to specify the T registers as retentive to retain their data in the event of a  
power failure. See section 5.3.  
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6. Programming Information  
Counter devices and registers (C./C)  
The counter registers (C) are used for storing the count value of the counter (CNT)  
and the up-down counter (U/D) instructions.  
The counter devices (C.) work as the output of the counter instructions.  
It is possible to specify the C registers as retentive to retain their data in the event of a  
power failure. See section 5.3.  
Data registers (D)  
Functionally the data registers (D) are the same as auxiliary relay registers (RW)  
except that the D registers cannot be used as devices.  
A part of the data registers are saved in the built-in EEPROM as fixed data and  
transferred into the RAM at the initial load.  
The range of the data registers saved in the EEPROM can be specified by SW55.  
See section 5.2.  
It is possible to specify the D registers as retentive to retain their data in the event of a  
power failure. See section 5.3.  
Index registers (I, J, and K)  
These index registers are used for indirect addressing for a register.  
For example, if the value of I is 100 in the following register expression, it designates  
D0100. For details, refer to section 6.2.  
I
D0000  
D0100 if I=100  
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6. Programming Information  
Special devices and registers (S/SW)  
The special devices (S) and special registers (SW) are used for special purposes. See  
list below.  
Device/  
register  
S000  
S001  
S002  
S003  
S004  
S005  
S006  
S007  
S008  
Name  
Function  
0: Initialization  
1: HALT mode  
2: RUN mode  
3: RUN-F mode  
4: HOLD mode  
6: ERROR mode  
T1/T1S operation mode  
CPU error (down)  
I/O error (down)  
ON at error state (related to SW01)  
ON at error state (related to SW02)  
ON at error state (related to SW03)  
Program error (down)  
EEPROM alarm (alarm)  
Fixed-time scan time-over ON when actual scan time is longer than the setting  
ON when EEPROM write exceeds 100,000 times  
(alarm)  
time as fixed-time scan  
S009  
S00A  
Reserved  
ON when clock/calendar data is illegal  
Clock/calendar error  
(alarm)  
S00B  
S00C  
S00D  
S00E  
S00F  
Reserved  
Reserved  
TL-F10 error (alarm)  
Retentive data invalid  
(alarm)  
ON when TOSLINE-F10 transmission error occurs  
Reserved  
ON when retentive data in RAM are invalid  
NOTE  
(1) These devices are set by the T1-16S operating system. These devices  
are read only for user.  
(2) Devices marked as (down) are set in the ERROR mode. Therefore  
these devices cannot be used in the user program.  
(3) Devices marked as (alarm) are set in the normal operation mode.  
These devices can be used in the user program.  
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6. Programming Information  
Device/  
register  
S010  
Name  
Function  
System ROM error (down) ON at error state  
System RAM error (down) ON at error state  
S011  
S012  
Program memory error  
ON at error state  
(down)  
S013  
S014  
S015  
S016  
S017  
S018  
S019  
S01A  
S01B  
S01C  
S01D  
S01E  
S01F  
EEPROM error (down)  
ON at error state  
Reserved  
Reserved  
Reserved  
Reserved  
Reserved  
Reserved  
Reserved  
Reserved  
Reserved  
Reserved  
Reserved  
ON at error state  
Watchdog timer error  
(down)  
S020  
S021  
S022  
S023  
S024  
S025  
S026  
S027  
S028  
S029  
S02A  
S02B  
S02C  
S02D  
S02E  
S02F  
Reserved  
ON at error state  
Reserved  
Reserved  
Reserved  
Reserved  
Reserved  
Reserved  
Reserved  
Reserved  
Reserved  
Reserved  
Reserved  
Reserved  
Reserved  
Reserved  
I/O mismatch (down)  
NOTE  
(1) These devices are set by the T1-16S operating system. These devices  
are read only for user.  
(2) Devices marked as (down) are set in the ERROR mode. Therefore  
these devices cannot be used in the user program.  
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6. Programming Information  
Device/  
register  
S030  
S031  
S032  
S033  
S034  
S035  
S036  
S037  
S038  
S039  
S03A  
S03B  
S03C  
S03D  
S03E  
S03F  
S040  
S041  
S042  
S043  
S044  
S045  
S046  
S047  
S048  
S049  
S04A  
S04B  
S04C  
S04D  
S04E  
S04F  
Name  
Program error  
Function  
ON at error state (related to SW06)  
ON when the scan time exceeds 200 ms  
Scan time over (down)  
Reserved  
Reserved  
Reserved  
Reserved  
Reserved  
Reserved  
Reserved  
Reserved  
Reserved  
Reserved  
Reserved  
Reserved  
Reserved  
Reserved  
Timing relay 0.1 s  
Timing relay 0.2 s  
Timing relay 0.4 s  
Timing relay 0.8 s  
Timing relay 1.0 s  
Timing relay 2.0 s  
Timing relay 4.0 s  
Timing relay 8.0 s  
OFF 0.05 s / ON 0.05 s (0.1 s interval)  
OFF 0.1 s / ON 0.1 s (0.2 s interval)  
OFF 0.2 s / ON 0.2 s (0.4 s interval)  
OFF 0.4 s / ON 0.4 s (0.8 s interval)  
OFF 0.5 s / ON 0.5 s (1.0 s interval)  
OFF 1.0 s / ON 1.0 s (2.0 s interval)  
OFF 2.0 s / ON 2.0 s (4.0 s interval)  
OFF 4.0 s / ON 4.0 s (8.0 s interval)  
Reserved  
All OFF at the  
beginning of  
RUN mode  
Reserved  
Reserved  
Reserved  
Reserved  
Reserved  
Always OFF  
Always ON  
Always OFF  
Always ON  
NOTE  
(1) These devices are set by the T1-16S operating system. These devices  
are read only for user.  
(2) Devices marked as (down) are set in the ERROR mode. Therefore  
these devices cannot be used in the user program.  
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6. Programming Information  
Device/  
register  
S050  
Name  
CF (carry flag)  
Function  
Used for instructions which manipulate carry  
S051  
ERF (instruction error flag) ON when instruction execution error is occurred  
(related to alarm flags of SW06)  
S052  
S053  
S054  
S055  
S056  
S057  
S058  
S059  
S05A  
S05B  
S05C  
S05D  
S05E  
S05F  
S060  
S061  
S062  
S063  
S064  
Reserved  
Reserved  
Reserved  
Reserved  
Reserved  
Reserved  
Reserved  
Reserved  
Reserved  
Reserved  
Reserved  
Reserved  
Reserved  
Reserved  
ON when illegal instruction is detected  
Reserved  
Illegal instruction (down)  
Reserved  
Reserved  
Boundary error (alarm)  
ON when illegal address is designated by indirect  
addressing (operation continued)  
S065  
S066  
S067  
S068  
Reserved  
Reserved  
Reserved  
Division error (alarm)  
ON when error occurs in division instruction (operation  
continued)  
S069  
S06A  
S06B  
BCD data error (alarm)  
ON when BCD data error has detected in BCD  
operation instructions (operation continued)  
ON when table size error has detected in table  
operation instructions (operation continued) (T1S only)  
Table operation error  
(alarm)  
Encode error (alarm)  
ON when error occurs in encode instruction (operation  
continued)  
Reserved  
Reserved  
Reserved  
Reserved  
S06C  
S06D  
S06E  
S06F  
NOTE  
(1) Devices marked as (down) are set in the ERROR mode. Therefore  
these devices cannot be used in the user program.  
(2) CF, ERF and devices marked as (alarm) can be reset by the user  
program.  
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6. Programming Information  
Device/  
register  
SW07  
Name  
Function  
Clock/calendar (Year)  
Lower 2 digits of the calendar year  
(01, 02, ... )  
SW08  
SW09  
SW10  
SW11  
SW12  
SW13  
Clock/calendar (Month)  
Clock/calendar (Day)  
Clock/calendar (Hour)  
Clock/calendar (Minute)  
Clock/calendar (Second) Second (00, 01, ... 59)  
Clock/calendar (Week)  
Month (01, 02, ... 12)  
Day (01, 02, ... 31)  
Hour (00, 01, ... 59)  
Minute (00, 01, ... 59)  
They are stored in  
the lower 8 bits by  
BCD code  
Day of the week  
(Sun = 00, Mon = 01, ... Sat = 06)  
SW14  
SW15  
SW16  
Reserved  
Peripheral support priority Bit 8 (S158) is used to select peripheral support priority  
Mode of special input  
functions  
Used to select the special input functions  
SW17  
SW18  
SW19  
SW20  
SW21  
SW22  
SW23  
SW24  
Input filter constant  
Preset values for high  
speed counter  
Used to set the input filter constant  
Used to set the preset values for high speed counters  
Count values for high  
speed counter  
High speed counter control Control flags for the high speed counters  
flags  
Present count values of the high speed counters are  
stored  
SW25  
SW26  
Reserved  
Mode of special output  
functions  
Used to select the special output functions  
SW27  
SW28  
Special output control flags Control flags for the pulse/PWM output  
Special output frequency  
setting  
Output frequency setting for the pulse/PWM output  
SW29  
SW30  
SW31  
SW32  
SW33  
SW34  
SW35  
SW36  
PWM output duty setting  
Analog setting value 1  
Analog setting value 2  
Pulse duty setting for the PWM output  
Input value of the analog setting adjuster V0  
Input value of the analog setting adjuster V1  
Reserved  
Reserved  
TL-F10 send data  
TL-F10 receive data  
PRG port station address  
TOSLINE-F10 transmission data (send to master)  
TOSLINE-F10 transmission data (receive from master)  
Used to set the programmer port station address  
(1 to 32)  
SW37  
SW38  
PRG port parity  
Used to set the programmer port parity (0=none,  
1=odd)  
Used to set the programmer port response delay time  
(0 to 30: 0 to 300ms)  
PRG port response delay  
NOTE  
(1) These devices are set by the T1-16S operating system. These devices  
are read only for user.  
(2) Devices marked as (down) are set in the ERROR mode. Therefore  
these devices cannot be used in the user program.  
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6. Programming Information  
Device/  
register  
S390  
Name  
Function  
Timer interrupt execution  
status  
ON during execution  
S391  
S392  
S393  
S394  
I/O interrupt #1 execution ON during execution  
status  
I/O interrupt #2 execution ON during execution  
status  
I/O interrupt #3 execution ON during execution  
status  
I/O interrupt #4 execution ON during execution  
status  
S395  
S396  
S397  
S398  
S399  
S39A  
S39B  
S39C  
S39D  
S39E  
S39F  
S400  
S401  
Reserved  
Reserved  
Reserved  
Reserved  
Reserved  
Reserved  
Reserved  
Reserved  
Reserved  
Reserved  
Reserved  
Reserved  
HOLD device  
ON during HOLD mode (setting by user program is also  
available)  
Reserved  
Reserved  
Reserved  
Reserved  
Reserved  
Reserved  
Reserved  
Reserved  
Reserved  
Reserved  
Reserved  
Reserved  
Reserved  
Reserved  
S402  
S403  
S404  
S405  
S406  
S407  
S408  
S409  
S40A  
S40B  
S40C  
S40D  
S40E  
S40F  
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6. Programming Information  
Device/  
register  
SW41  
Name  
Function  
Sub-program #1 execution Bit 0 (S410) is ON during the sub-program #1 is  
status  
executed  
Reserved  
Reserved  
Reserved  
Reserved  
Reserved  
Reserved  
Reserved  
Reserved  
Reserved  
Reserved  
Reserved  
Reserved  
SW42  
SW43  
SW44  
SW45  
SW46  
SW47  
SW48  
SW49  
SW50  
SW51  
SW52  
SW53  
SW54  
Basic unit I/O LED display Used to display the selected I/O module status  
mode  
(0 = Basic unit, 1 to 8 = I/O module slot 0 to 7,  
9 and 10 = TOSLINE-F10)  
SW55  
SW56  
Number of EEPROM write Used to set the number of data registers to be saved in  
data  
the EEPROM (0 to 2048, initial value is 2048)  
Used to set the RS-485 port operation mode  
(0 = Computer link, 1 = Data link, 2 = Free ASCII,  
3 = Inverter connection)  
RS-485 port operation  
mode  
SW57  
SW58  
RS-485 port response  
delay  
RS-485 port Free ASCII  
Used to set the RS-485 port response delay time  
(0 to 30: 0 to 300ms)  
Used for the RS-485 port Free ASCII function  
flags  
SW59  
SW60  
SW61  
SW62  
SW63  
Reserved  
Reserved  
Reserved  
Reserved  
Reserved  
NOTE  
(1) For details of SW54, refer to section 1.5.1.  
(2) For details of SW55, refer to section 5.2.  
(3) For details of SW56 through SW58, refer to the Communication  
function manual.  
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6. Programming Information  
6.2 Index modification  
When registers are used as operands of instructions, the method of directly  
designating the register address as shown in Example 1) below is called ‘direct  
addressing’.  
As opposed to this, the method of indirectly designating the register by combination  
with the contents of the index register (I, J, or K) as shown in Example 2) below is  
called ‘indirect addressing’. In particular, in this case, since the address is modified  
using an index register, this is called ‘index modification’.  
Example 1)  
[ RW10 MOV D1000 ]  
Data transfer instruction  
Transfer data of RW10 to D1000  
Example 2)  
I
J
[ RW10 MOV D0000 ]  
Data transfer instruction (with index modification)  
Transfer data of RW(10 + I) to D(0000 + J)  
(If I = 3 and J = 200, the data of RW13 is transferred to D0200)  
There are 3 types of index register, I, J and K. Each type processes 16-bit integers  
(-32768 to 32767). There are no particular differences in function between these 3  
types of index register.  
There is no special instruction for substituting values in these index registers. These  
are designated as destination of data transfer instructions, etc.  
[ 00064 MOV I ]  
(substitutes 64 in index register I)  
[ D0035 MOV J ]  
[ RW20 + 00030 K ]  
(substitutes the data of D0035 in index register J)  
(substitutes the result of addition in index register K)  
NOTE  
(1) The index modification is available for RW, T, C and D registers.  
(2) If index registers are used as a double-length register, only the  
combinations J×I and K×J are allowed.  
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6. Programming Information  
The followings are examples of index modifications.  
When I = 0, it designates RW10.  
I
When I = 1, it designates RW11.  
When I = -1, it designates RW09.  
When I = 10, it designates RW20.  
When I = -10, it designates RW00.  
RW10  
When J = 0, it designates D0201D0200.  
When J = 1, it designates D0202D0201.  
When J = 2, it designates D0203D0202.  
When J = -1, it designates D0200D0199.  
When J = -2, it designates D0199D0198.  
J
D0201D0200  
Be careful that the registers do not exceed the address range by the index  
modification. The address range is not checked by the T1-16S.  
!
CAUTION  
NOTE  
Substitutions of values into index registers and index modifications can be  
used any times in a program. Normally, the program will be easier to see if  
a value substitution into an index register is positioned immediately before  
the index modification.  
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6. Programming Information  
6.3 Real-time clock/calendar (Enhanced model only)  
The T1-16S enhanced model is equipped with the real-time clock/calendar for year,  
month, day, day of the week, hour, minute, and second.  
These data are stored in the special registers SW07 to SW13 by 2-digit BCD format  
as follows.  
Register  
SW07  
SW08  
SW09  
SW10  
SW11  
SW12  
SW13  
Function  
Year  
Month  
Day  
Data  
1999 = H0099, 2000 = H0000, 2001 = H0001, 2002 = H0002 ...  
Jan. = H0001, Feb. = H0002, Mar. = H0003, ... Dec. = H0012  
1st = H0001, 2nd = H0002, 3rd = H0003, ... 31st = H0031  
H0000, H0001, H0002, ... H0022, H0023  
H0000, H0001, H0002, ... H0058, H0059  
H0000, H0001, H0002, ... H0058, H0059  
Hour  
Minute  
Second  
Week  
Sun. = H0000, Mon. = H0001, Tue. = H0002, ... Sat. = H0006  
Program example:  
In the following circuit, output Y030 turns ON for 1 minute at every Sunday 6 pm.  
(H0018)  
Clock/calendar back up:  
The clock/calendar continues updating even while the power to the T1-16S is off by  
built-in capacitor and by the optional battery (CR2032) if used. Its buck-up period is as  
follows.  
Expected value  
Guarantee value  
Environment  
temperature  
Under 30 °C (86 °F)  
Over 30 °C (86 °F)  
Capacitor  
Battery  
2 year  
1 year  
Capacitor  
1 hours  
Battery  
1 year  
2 hours  
1 hours  
30 minutes  
6 months  
As shown in the table, it is recommended to use the optional battery when the real-  
time clock/calendar function is used.  
In the T1-16S, the validity of the clock/calendar is checked. If the data is not valid by  
excess power off period, special relay S00A is set to ON. Therefore, when the  
clock/calendar is used, it is recommended to check the status of S00A in the user  
program.  
Setting the clock/calendar:  
To set the clock/calendar data, the following 2 ways are available. In both cases, the  
week data is automatically calculated.  
(1) Setting the clock/calendar data on the system information screen of the  
programming tool.  
(2) Using the Calendar Set instruction (CLND) in the user program.  
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6. Programming Information  
6.4 I/O allocation  
The external input signals are allocated to the external input devices/registers (X/XW).  
The external output signals are allocated to the external output devices/registers  
(Y/YW).  
The register numbers of the external input and output registers are consecutive. Thus  
one register number can be assigned for either input or output.  
As for the T1-16S basic unit, I/O allocation is fixed as follows.  
Inputs: 8 points (X000 - X007)  
T1-16S  
Outputs: 8 points (Y020 - Y027)  
X000 --- X007 Y020---- Y027  
Any operations for the I/O allocation are not required if only the T1-16S basic unit is  
used.  
However, if the I/O modules are used with the T1-16S, the I/O allocation operation is  
necessary. Refer to the separate manual "T1-16S User's Manual - I/O Modules -".  
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6. Programming Information  
Internally, the T1-16S has information called ‘I/O allocation table’ in its memory. This  
I/O allocation table shows the correspondence between I/O hardware and software,  
i.e. register/device.  
The contents of the I/O allocation table are as follows.  
Unit  
Slot  
PU  
0
I/O type  
X+Y 4W  
PU slot must be blank  
Slot 0 is for basic unit (XW00, XW01, YW02  
and YW03 are assigned internally)  
1
2
0
3
4
5
Slots 1 to 7 of unit 0 are not used  
(must be blank)  
6
7
0
1
2
3
4
1
These slots are for I/O modules  
5
6
7
The T1-16S operating system automatically sets the I/O type ‘X+Y 4W’ on the slot 0 at  
unit 0 position when the memory clear is executed for the T1-16S.  
When the T1-16S program is developed in off-line, the above I/O allocation table  
should be set before programming. For this operation (called manual I/O allocation),  
refer to the programming tool manual.  
NOTE  
(1) Unit base address setting function is not supported by the T1-16S.  
Do not use this function with the T1-16S. It will causes malfunction.  
(2) When the TOSLINE-F10 station module FR112M is used, allocate it at  
the end of the I/O modules.  
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6. Programming Information  
6.5 T1-16S memory mode setting  
The program capacity of the T1-16S is 8 k steps. However, user can set the T1-16S’s  
program capacity to 4 k steps. It is called the T1-16S’s memory mode.  
That is, the T1-16S has two memory modes, 8 k mode and 4 k mode.  
In the 4 k mode, on-line program changes become available, although the program  
capacity is limited to 4 k steps. Refer to section 6.9 for the on-line debug support  
functions.  
To set the T1-16S’s memory mode, write 4 k or 8 k on the Program Size Setting of the  
System Parameters using the programming tool. Then execute the EEPROM write  
command.  
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6. Programming Information  
6.6 User program configuration  
A group of instructions for achieving the PLC-based control system is called ‘user  
program’. The T1-16S has 8 k steps capacity for storing the user program.  
A ‘step’ is the minimum unit, which composes an instruction. Number of steps required  
for one instruction is depending on the type of instruction. Refer to section 7.1.  
The figure below shows the T1-16S’s memory configuration.  
RAM  
System information  
User program  
4 k or 8 k steps  
Back-up area  
by EEPROM  
Data registers  
mentioned in  
section 5.2  
Other registers/  
devices  
NOTE  
For conditions of transfer between RAM and EEPROM, see section 5.2.  
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6. Programming Information  
System information  
System information is the area which stores execution control parameters. The  
following contents are included in the system information.  
(1) Machine parameters (hardware type, memory type)  
(2) User program information (program ID, system comments, number of steps used)  
(3) Passwords  
(4) Retentive register area information  
(5) T1S program memory mode, 4 k steps or 8 k steps  
(6) Execution control parameters (scan mode, timer interrupt interval)  
(7) Station number setting for programmer port (T1), or RS-485 port communication  
parameters (Enhanced model)  
(8) I/O allocation table  
(9) Input force table  
The system information is stored in the built-in EEPROM. Therefore, when this  
information is modified, the EEPROM write operation is necessary. Otherwise, these  
are over-written by original EEPROM contents at the next initial load timing.  
User program  
The T1-16S has a capacity of 8 k steps of the user program.  
The user program is stored by each program types as shown in the following diagram,  
and is managed by units called blocks in each program types.  
User program configuration  
(Program types)  
Program type internal configuration  
(Blocks)  
Block 1  
Main program  
Sub-program #1  
Block 2  
Timer interrupt  
I/O interrupt #1  
I/O interrupt #2  
I/O interrupt #3  
I/O interrupt #4  
Block 10  
Block N  
(N = max. 256)  
Block 1  
Subroutine  
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6. Programming Information  
In the user program, the main program is the core. The scan operation explained in  
section 5.3 is for the main program. The operation of other program types are  
explained in the following sections.  
The following 8 program types are supported by the T1-16S.  
(1) Main program  
(2) Sub-program #1  
(3) Timer interrupt program  
(4) I/O interrupt program #1  
(5) I/O interrupt program #2  
(6) I/O interrupt program #3  
(7) I/O interrupt program #4  
(8) Subroutine  
The blocks are just separators of the program, and have no effect on the program  
execution. However, by dividing the user program into some blocks, the program  
becomes easy to understand. The block numbers need not be consecutive.  
In each program type and block, there is no limit of program capacity. The only limit is  
the total capacity.  
6.6.1 Main program  
The main program is the core of the user program. It is executed once in each scan.  
1 scan time  
Main program  
Mode I/O Timer  
Main program  
Time  
Mode I/O Timer  
In the above figure,  
Mode means the mode control operation  
I/O means the I/O update processing  
Timer means the timer up date processing  
Main program means the main program execution  
the self-diagnostic check and peripheral support are omitted in this figure.  
The end of the main program is recognized by the END instruction.  
Although instructions may be present after the END instruction, these portions will not  
be executed.  
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6. Programming Information  
6.6.2 Sub-program #1  
If the sub-program #1 is programmed, it is executed once at the beginning of the first  
scan (before main program execution).  
Therefore, the sub-program #1 can be used to set the initial value into the registers.  
The sub-program #1 is called the initial program.  
The figure below shows the first scan operation.  
RUN mode  
transition  
2nd scan  
1st scan  
Main program  
I/O Timer Sub#1  
Main program  
Mode I/O Timer  
Time  
The end of the sub-program #1 is recognized by the END instruction.  
6.6.3 Timer interrupt program  
The timer interrupt is the highest priority task. It is executed cyclically with a user  
specified interval, with suspending other operation.  
The interrupt interval is set in the system information. (5 to 1000 ms, 5 ms units)  
1 scan  
1 scan  
1 scan  
1 scan  
Scan  
Timer interrupt  
Timer interrupt  
interval  
Timer interrupt  
interval  
Time  
The end of the timer interrupt is recognized by the IRET instruction.  
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6. Programming Information  
6.6.4 I/O interrupt programs  
The I/O interrupt program is also the highest priority task. It is executed immediately  
when the interrupt factor is generated, with suspending other operation.  
The following 4 types I/O interrupt programs are supported in the T1/T1S.  
(1) I/O interrupt #1  
The I/O interrupt #1 is used with the high speed counter function. When the count  
value reaches the preset value, etc., the I/O interrupt #1 is activated immediately  
with suspending other operation. The end of the I/O interrupt #1 is recognized by  
the IRET instruction. For detailed information, refer to section 8.3.  
(2) I/O interrupt #2  
The I/O interrupt #2 is also used with the high speed counter function. Refer to  
section 8.3 for details.  
(3) I/O interrupt #3  
The I/O interrupt #3 is used with the interrupt input function. When the state of the  
interrupt input is changed from OFF to ON (or ON to OFF), the I/O interrupt #3 is  
activated immediately with suspending other operation. The end of the I/O  
interrupt #3 is also recognized by the IRET instruction. For detailed information,  
refer to section 8.4.  
(4) I/O interrupt #4  
The I/O interrupt #4 is also used with the interrupt input function. Refer to section  
8.4 for details.  
If an interrupt factor is generated while other interrupt program is executing (including  
the timer interrupt), the interrupt factor is held. Then it will be activated after finishing  
the other interrupt program execution.  
If two or more interrupt factors are generated at the same time, the priority is as  
follows.  
Timer > I/O #1 > I/O #2 > I/O #3 > I/O #4  
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6. Programming Information  
6.6.5 Subroutines  
In the program type ‘Subroutine’, The following number of subroutines can be  
programmed.  
The T1-16S supports up to 256 subroutines.  
The subroutine is not a independent program. It is called from other program types  
(main program, sub-program, interrupt program) and from other subroutines.  
One subroutine is started with the SUBR instruction, and ended by the RET  
instruction.  
It is necessary to assign a subroutine number to the SUBR instruction. The available  
subroutine numbers are 0 to 255.  
[ SUBR (000) ]  
Subroutine number  
The RET instruction has no subroutine number.  
The instruction that calls a registered subroutine is the CALL instruction. The CALL  
instruction has the subroutine number to be called.  
[ CALL N.000 ]  
Subroutine number  
Main program  
[ CALL N.000 ]  
Subroutine  
Execution  
flow  
[ SUBR (000) ]  
[ RET ]  
NOTE  
(1) Multiple subroutines can be programmed in a block. However, one  
subroutine in one block is recommended.  
(2) From the inside of a subroutine, other subroutines can be called  
(nesting). Its allowable level is up to 3 levels.  
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6. Programming Information  
6.7 Programming language  
The programming language of the T1-16S is ‘ladder diagram’.  
Ladder diagram is a language, which composes program using relay symbols as a  
base in an image similar to a hard-wired relay sequence. In the T1/T1S, in order to  
achieve an efficient data-processing program, ladder diagram which are combinations  
of relay symbols and function blocks are used.  
The ladder diagram program is constructed by units called ‘rung’. A rung is defined as  
one network which is connected each other.  
Rung number  
1
Rung  
2
3
The rung numbers are a series of numbers (decimal number) starting from 1, and  
cannot be skipped. There is no limit to the number of rungs.  
The size of any one rung is limited to 11 lines × 12 columns.  
A example of a ladder diagram program is shown below.  
When X005 is ON or the data of D0100 is greater than 200, Y027 comes ON.  
Y027 stays ON even if X005 is OFF and the data of D0100 is 200 or less.  
Y027 will come OFF when X006 comes ON.  
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6. Programming Information  
6.8 Program execution sequence  
The instructions execution sequence is shown below.  
(1) They are executed in the sequence from block 1 through the final block, which  
contains the END instruction (or IRET in an interrupt program).  
(2) They are executed in the sequence from rung 1 through the final rung in a block  
(or the END instruction).  
(3) They are executed according to the following rules in any one rung.  
When there is no vertical  
connection, they are  
executed from left to right.  
1
2
3
4
4
7
1
5
2
3
6
When there is an OR  
connection, the OR logic  
portion is executed first.  
When there is a branch, they  
are executed in the order from  
the upper line to the lower line.  
1
2
3
3
5
4
6
1
2
7
4
6
5
8
A combination of  
above.  
and  
The instructions execution sequence in which function instructions are included also  
follows the above rules. However, for program execution control instructions, such as  
jumps (JCS), loops (FOR-NEXT), subroutines (CALL-SUBR-RET), it will depend the  
specifications of each instruction.  
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6. Programming Information  
6.9 On-line debug support functions  
The following on-line (during RUN) functions are supported in the T1-16S for effective  
program debugging.  
On-line function  
Force function  
4 k mode  
Yes  
8 k mode  
Yes  
Sampling trace function  
Changing timer /counter  
preset value  
Yes  
Yes  
Yes  
Yes  
Changing constant operand of  
function instruction  
Changing device directly  
Program changing in edit  
mode  
Yes  
Yes  
Yes  
Yes  
Yes  
No  
EEPROM write command  
Yes  
Yes  
NOTE  
Refer to section 6.5 for 4 k/8 k mode.  
Force function  
Two types of force functions are available, input force and coil force.  
The input force is used to disable the external input signals. When an external input  
device is designated as forced input, the ON/OFF state of the device can be changed  
manually by using the data setting function of the programming tool, regardless of the  
corresponding external signal state. The input force designation is available for the  
external input devices (X).  
The coil force is used to disable the coil instruction. When a coil instruction on the  
program is designated as forced coil, the ON/OFF state of the coil device can be  
changed manually by using the data setting function of the programming tool,  
regardless of the coil circuit execution status.  
On the programming tool, the forced input and forced coil are expressed as follows.  
Forced input  
X005  
x005  
Normal  
Y023  
Forced  
Y023  
Forced coil  
Normal  
Forced  
NOTE  
If EEPROM write operation is executed with remaining the force  
designation, the force designation is also saved into the built-in EEPROM.  
Because the force function is debugging function, release all force  
designation before executing the EEPROM write operation. The force batch  
release command is available when the T1-16S is in HALT mode.  
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6. Programming Information  
Sampling trace function  
The sampling trace function collects the status of specified devices or register at every  
specified sampling timing. The collected data can be displayed on the programmer  
(T-PDS) screen in the format of timing chart (for devices) or trend graph (for register).  
The minimum sampling timing is the T1-16S’s scan cycle.  
This function is useful for program debugging and troubleshooting.  
T1-16S  
Sampling target  
Devices (up to 8) and  
Registers (up to 3)  
256 times  
Sampling capacity  
The collected data is stored in the T1-16S internal buffer.  
The buffer works as a ring buffer, and latest collected data can be displayed.  
The sampling start/stop condition (arm condition) and the collection timing (trigger  
condition) can be specified by status changing of devices.  
For detailed key operations for arm/trigger conditions setting on the T-PDS, refer to  
the manual for T-PDS.  
T-PDS screen example of device timing chart  
NOTE  
(1) On the T-PDS, select ‘3 registers + 8 devices’ as the sampling type.  
(2) As the arm and trigger conditions, register values cannot be used.  
(3) The After times setting is not effective for the T1-16S.  
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6. Programming Information  
Timer/counter preset value (constant data) changing  
The preset value (constant data) of timer or counter instruction can be changed in on-  
line (during RUN) by using the programming tool.  
Function instruction constant operand changing  
The constant operand of function instruction can be changed in on-line (during RUN)  
by using the programming tool.  
Device changing  
The device of contact or coil instruction can be changed in on-line (during RUN) by  
using the programming tool.  
On-line program changing  
When the T1S’s memory mode is 4 k mode, the program can be changed using  
normal edit mode. (rung by rung)  
In the on-line program changing, it is not allowed to change the number or order of the  
following instructions.  
END, MCS, MCR, JCS, JCR, FOR, NEXT, CALL, SUBR, RET, IRET  
NOTE  
The above on-line functions are performed on the RAM memory. Therefore,  
when program has been changed, execute the EEPROM write operation  
before turning off power. Otherwise, program stored in the EEPROM will be  
overwritten.  
On-line EEPROM write  
The EEPROM write is possible in on-line (during RUN) as well as in HALT mode.  
In the on-line EEPROM write, user data is not written into the EEPROM.  
During this operation, the T1-16S’s scan time becomes longer. However, as it has the  
time limit per scan, the T1-16S’s control operation is not stopped.  
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6. Programming Information  
6.10 Password protection  
The T1-16S has the password function to protect the user program and data from  
unauthorized operations.  
There are four levels of protection. Accordingly, three levels of passwords can be  
registered to control the protection levels.  
These passwords are stored in the built-in EEPROM. Therefore, if you entered,  
changed or cleared the passwords, the EEPROM write operation is necessary.  
The outline of the protection levels are shown below. For details, refer to the manual  
for the programming tool.  
Protection level 4 (disabled functions)  
Writing register/device data  
Writing system information  
I/O allocation  
Protection level 3 (disabled functions)  
Reading program  
Program write into EEPROM  
Strict  
Protection level 2 (disabled functions)  
Clear memory  
Writing/loading program  
T1/T1S operation mode changes (by programming tool)  
Setting/changing passwords  
Protection level 1 (disabled functions)  
None (all functions are available)  
When the level 1, 2 and 3 passwords are registered, the T1-16S will be started as  
protection level 4. In this state, for example, entering the level 2 password changes  
the protection level to 2.  
NOTE  
When you use the password function, do not forget the level 1 password.  
Otherwise, you cannot change/release the registered passwords.  
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Section 7  
Instructions  
7.1 List of instructions, 106  
7.2 Instruction specifications, 116  
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7. Instructions  
7.1 List of instructions  
The T1-16S has 21 types of basic ladder instructions and 97 types of function  
instructions as listed below. The specifications of each instruction will be described in  
detail later.  
The tables listing these instructions are provided as a quick reference. (Note: In the  
following table, italic character means operand, i.e. register, device or constant value.)  
Basic ladder instructions  
Speed  
(µs)  
FUN  
No.  
Name  
Expression  
Function  
Steps  
Page  
NO contact  
NO (normally open) contact of  
device A.  
NC (normally closed) contact  
of device A.  
Turns ON output for 1 scan  
when input changes from OFF  
to ON.  
A
A
1
1
1.4 - 3.3 117  
NC contact  
1.4 - 3.3 118  
Transitional  
contact (rising)  
1
3.0  
119  
Transitional  
contact (falling)  
Turns ON output for 1 scan  
when input changes from ON  
to OFF.  
1
1
1
3.0  
2.3  
2.3  
120  
121  
122  
Coil  
A
Relay coil of device A.  
Forced coil  
A
Forced coil of device A. State  
of device A is retained  
regardless of the input state.  
Inverter  
I
Inverts the input state.  
1
1
1.4 - 3.3 123  
Invert coil  
Stores the inverse state of  
input into device A.  
A
I
2.3  
124  
Positive pulse  
contact  
Turns ON output for 1 scan  
when input is ON and device A  
changes from OFF to ON.  
Turns ON output for 1 scan  
when input is ON and device A  
changes from ON to OFF.  
Turns ON device A for 1 scan  
when input changes from OFF  
to ON.  
A
P
1
1
1
1
125  
Negative pulse  
contact  
A
N
126  
127  
128  
Positive pulse coil  
Negative pulse coil  
ON delay timer  
A
P
A
N
Turns ON device A for 1 scan  
when input changes from ON  
to OFF.  
Turns ON output when the  
time specified by A has  
elapsed after the input came  
ON. B is a timer register.  
Turns OFF output when the  
time specified by A has  
elapsed after the input came  
OFF. B is a timer register.  
Turns ON output for the time  
specified by A when the input  
comes ON. B is a timer  
register.  
[ A TON B ]−  
[ A TOF B ]−  
[ A SS B ]−  
2
2
2
12.6  
12.8  
13.0  
129  
130  
131  
OFF delay timer  
Single shot timer  
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7. Instructions  
Basic ladder instructions (continued)  
Speed  
Page  
(µs)  
FUN  
No.  
Name  
Counter  
Expression  
Function  
Steps  
2
C
E
CNT  
A B  
Q
Counts the number of cycles  
the count input (C) comes ON  
while the enable input (E) is  
ON, and turns ON output (Q)  
when the count reaches to the  
value specified by A. B is a  
counter register.  
Turns OFF power rail between  
MCS and MCR when MCS  
input is OFF.  
22.6  
132  
133  
Master control set  
3.75  
(in a  
pair)  
2.75  
(in a  
pair)  
−−[ MCS ]−  
−−[ MCR ]−  
1
1
1
1
Master control reset  
Jump control set  
Jumps from JCS to JCR when  
JCS input is ON.  
−−[ JCS ]−  
−−[ JCR ]−  
134  
135  
Jump control reset  
End  
Indicates end of main program  
or sub-program.  
−−[ END ]−  
1
1.4  
Data transfer instructions  
Speed  
(µs)  
FUN  
No.  
018 Data transfer  
019 Double-word  
data transfer  
Name  
Expression  
Function  
Steps  
Page  
136  
[ A MOV B ]−  
[ A+1A DMOV B+1B ]−  
3
3
4.2  
Transfers data of A to B.  
Transfers double-word data  
of A+1A to B+1B.  
Transfers bit-inverted data of  
A to B.  
7.2  
137  
[ A NOT B ]−  
020 Invert transfer  
3
3
3
4.6  
6.5  
138  
139  
140  
[ A XCHG B ]−  
[ A TINZ (n) B ]−  
022 Data exchange  
024 Table initialize  
Exchanges data of A with B.  
Transfers data of A to n  
registers starting with B.  
Transfers data of n registers  
starting with A to n registers  
starting with B.  
Transfers bit-inverted data of  
n registers starting with A to  
n registers starting with B.  
Transfers data from the  
register specified by B in the  
table, size n starting with A,  
to C.  
[ A TMOV (n) B ]−  
[ A TNOT (n) B ]−  
[ A MPX (n) B C ]−  
025 Table transfer  
3
3
141  
142  
026 Table invert  
transfer  
090 Multiplexer  
5
5
70.6  
71.5  
176  
177  
[ A DPX (n) B C ]−  
091 Demultiplexer  
Transfers data from A to the  
register specified by B in the  
table, size n starting with C.  
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7. Instructions  
Arithmetic operations  
Speed  
(µs)  
FUN  
No.  
027 Addition  
Name  
Expression  
Function  
Steps  
Page  
143  
[ A + B C ]−  
Adds data of A and B, and  
stores the result in C.  
Subtracts data of B from A,  
and stores the result in C.  
Multiplies data of A and B,  
and stores the result in  
double-length register C+1C.  
Divides data of A by B, and  
stores the quotient in C and  
the reminder in C+1.  
Adds data of A+1A and  
B+1B, and stores the result  
in C+1C.  
4
4
6.5  
[ A - B C ]−  
028 Subtraction  
029 Multiplication  
6.5  
144  
[ A B C+1C ]−  
4
4
4
8.8  
9.7  
145  
146  
147  
[ A / B C ]−  
030 Division  
[ A+1A D+ B+1B C+1C ]−  
031 Double-word  
addition  
11.6  
[ A+1A D- B+1B C+1C ]−  
032 Double-word  
subtraction  
Subtracts data of B+1B from  
A+1A, and stores the result  
in C+1C.  
4
4
11.7  
9.7  
148  
149  
[ A +C B C ]−  
035 Addition with  
carry  
Adds data of A, B and the  
carry, and stores the result in  
C. The carry flag changes  
according to the result.  
Subtracts data of B and the  
carry from A, and stores the  
result in C. The carry flag  
changes according to the  
result.  
[ A -C B C ]−  
036 Subtraction  
with carry  
4
9.7  
150  
[ A UB C+1C ]−  
[ A U/ B C ]−  
039 Unsigned  
multiplication  
Multiplies data of A and B,  
and stores the result in  
double-length register C+1C.  
(Unsigned integer operation)  
Divides data of A by B, and  
stores the quotient in C and  
the reminder in C+1.  
4
4
4
151  
152  
153  
040 Unsigned  
division  
(Unsigned integer operation)  
[ A+1A DIV B C ]−  
041 Unsigned  
double/single  
division  
Divides data of A+1A by B,  
and stores the quotient in C  
and the reminder in C+1.  
(Unsigned integer operation)  
Increments data of A by 1.  
Decrements data of A by 1.  
15.3  
[ +1 A ]−  
[ -1 A ]−  
043 Increment  
044 Decrement  
2
2
4.6  
4.6  
154  
155  
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7. Instructions  
Logical operations  
Speed  
Page  
(µs)  
FUN  
Name  
No.  
048 AND  
Expression  
Function  
Steps  
[ A AND B C ]−  
[ A OR B C ]−  
[ A EOR B C ]−  
[ A TEST B ]−  
Finds logical AND of A and B,  
and stores it in C.  
Finds logical OR of A and B,  
and stores it in C.  
Finds logical exclusive OR of A  
and B, and stores it in C.  
Turns ON output if logical AND  
of A and B is not 0.  
4
4
4
3
5.7  
5.7  
5.7  
5.0  
156  
157  
158  
163  
050 OR  
052 Exclusive OR  
064 Bit test  
Shift operations  
Speed  
(µs)  
FUN  
Name  
No.  
1 bit shift right  
068  
Expression  
Function  
Steps  
2
Page  
164  
[ SHR1 A ]−  
Shifts data of A 1 bit to the right  
(LSB direction). The carry flag  
changes according to the result.  
Shifts data of A 1 bit to the left  
(MSB direction). The carry flag  
changes according to the result.  
Shifts data of A n bits to the  
right (LSB direction) and stores  
the result in B. The carry flag  
changes according to the result.  
Shifts data of A n bits to the left  
(MSB direction) and stores the  
result in B. The carry flag  
changes according to the result.  
When shift input (S) comes ON,  
shifts the data of specified shift  
register 1 bit to the left, and  
stores data input (D) state into  
A. This operation is enabled  
while enable input (E) is ON.  
The carry flag changes  
6.8  
[ SHL1 A ]−  
1 bit shift left  
069  
2
4
6.8  
165  
166  
[ A SHR n B ]−  
n bit shift right  
070  
10.2  
10.2  
[ A SHL n B ]−  
n bit shift left  
071  
4
3
167  
168  
D
S
E
SR  
Q
Shift register  
074  
(n)  
A
65.9 -  
76.2  
according to the result.  
Shift register: n devices starting  
with device A.  
D
S
E
L
DSR  
(n)  
Q
Bi-directional  
shift register  
When shift input (S) comes ON,  
shifts the data of specified shift  
register 1 bit to the left or to the  
right depending on direction  
input (L). This operation is  
enabled while enable input (E) is  
ON. The carry flag changes  
according to the result.  
075  
A
69.0 -  
79.3  
3
170  
Shift register: n devices starting  
with device A.  
Direction: Left when L is ON,  
right when L is OFF  
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7. Instructions  
Rotate operations  
Speed  
(µs)  
FUN  
No.  
078 1 bit rotate  
right  
Name  
Expression  
Function  
Steps  
2
Page  
172  
[ RTR1 A ]−  
Rotates data of A 1 bit to the  
right (LSB direction). The  
carry flag changes according  
to the result.  
Rotates data of A 1 bit to the  
left (MSB direction). The  
carry flag changes according  
to the result.  
Rotates data of A n bits to  
the right (LSB direction) and  
stores the result in B. The  
carry flag changes according  
to the result.  
Rotates data of A n bits to  
the left (MSB direction) and  
stores the result in B. The  
carry flag changes according  
to the result.  
6.8  
6.8  
[ RTL1 A ]−  
079 1 bit rotate left  
2
4
173  
174  
[ A RTR n B ]−  
080 n bit rotate  
right  
10.2  
10.2  
[ A RTL n B ]−  
081 n bit rotate left  
4
175  
Compare instructions  
Speed  
(µs)  
FUN  
Name  
No.  
096 Greater than  
097 Greater than or  
equal  
Expression  
Function  
Steps  
Page  
178  
[ A > B ]−  
[ A >= B ]−  
3
3
6.1  
Turns ON output if A > B.  
Turns ON output if A B.  
5.3  
179  
[ A = B ]−  
[ A <> B ]−  
[ A < B ]−  
[ A <= B ]−  
098 Equal  
099 Not equal  
100 Less than  
101 Less than or  
equal  
102 Double-word  
greater than  
3
3
3
5.0  
5.0  
6.1  
180  
181  
182  
Turns ON output if A = B.  
Turns ON output if A B.  
Turns ON output if A < B.  
Turns ON output if A B.  
3
3
5.3  
6.1  
183  
184  
[ A+1A D> B+1B ]−  
Turns ON output  
if A+1A > B+1B.  
Turns ON output  
if A+1A B+1B.  
[ A+1A D>= B+1B ]−  
103 Double-word  
greater than or  
equal  
3
5.3  
185  
[ A+1A D= B+1B ]−  
[ A+1A D<> B+1B ]−  
[ A+1A D< B+1B ]−  
[ A+1A D<= B+1B ]−  
104 Double-word  
equal  
105 Double-word  
not equal  
106 Double-word  
less than  
107 Double-word  
less than or  
equal  
Turns ON output  
if A+1A = B+1B.  
Turns ON output  
if A+1A B+1B.  
Turns ON output  
if A+1A < B+1B.  
Turns ON output  
if A+1A B+1B.  
3
3
3
5.0  
5.0  
6.1  
186  
187  
188  
3
5.3  
189  
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7. Instructions  
Compare instructions (continued)  
Speed  
Page  
(µs)  
FUN  
No.  
108 Unsigned  
greater than  
Name  
Expression  
Function  
Steps  
3
[ A U> B ]−  
Turns ON output if A > B.  
(Unsigned integer compare)  
190  
[ A U>= B ]−  
109 Unsigned  
greater than or  
equal  
Turns ON output if A B.  
(Unsigned integer compare)  
3
191  
[ A U= B ]−  
[ A U<> B ]−  
[ A U< B ]−  
[ A U<= B ]−  
110 Unsigned  
equal  
111 Unsigned  
not equal  
112 Unsigned  
less than  
113 Unsigned  
less than or  
equal  
Turns ON output if A = B.  
3
3
3
192  
193  
194  
(Unsigned integer compare)  
Turns ON output if A B.  
(Unsigned integer compare)  
Turns ON output if A < B.  
(Unsigned integer compare)  
Turns ON output if A B.  
(Unsigned integer compare)  
3
195  
Special data processing  
Speed  
Page  
(µs)  
FUN  
No.  
Name  
Expression  
Function  
Steps  
2
[ SET A ]−  
114 Device/register  
set  
If A is a device:  
Sets device A to ON.  
If A is a register:  
4.2  
196  
Stores HFFFF in registerA.  
[ RST A ]−  
115 Device/register  
reset  
If A is a device:  
Resets device A to OFF.  
If A is a register:  
2
4.2  
197  
Stores 0 in register A.  
[ SETC ]−  
[ RSTC ]−  
[ A ENC (n) B ]−  
118 Set carry  
119 Reset carry  
120 Encode  
Sets the carry flag to ON.  
Resets the carry flag to OFF.  
Finds the uppermost ON bit  
position in the bit file of size 2n  
bits starting with register A, and  
stores it in B.  
1
1
4.2  
4.2  
198  
199  
57.0 -  
141.4  
4
200  
121 Decode  
In the bit file of size 2n bits  
starting with register B, sets ON  
the bit position indicated by  
lower n bits of A, and resets  
OFF all other bits.  
[ A DEC (n) B ]−  
69.5 -  
99.1  
4
3
2
201  
202  
215  
[ A BC B ]−  
122 Bit count  
147 Flip-flop  
Counts the number of ON bits  
of A and stores it in B.  
Sets ON device A when set  
input (S) is ON, and resets OFF  
device A when reset input (R) is  
ON.  
S
R
F/F  
A
Q
26.7  
30.1  
(Reset takes priority)  
U
C
E
U/D  
Q
149 Up-down  
counter  
While enable input (E) is ON,  
counts up or down the number  
of cycles the count input (C)  
comes ON, depending on the  
up/down select input (U).  
Up when U is ON, down when U  
is OFF.  
A
2
216  
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7. Instructions  
Program control instructions  
Speed  
(µs)  
21.0  
(in a  
pair)  
FUN  
No.  
Name  
Expression  
Function  
Steps  
Page  
203  
[ CALL N. n ]−  
−−[ RET ]−  
128 Subroutine call  
129 Subroutine  
return  
2
1
Calls the subroutine number n.  
Indicates the end of a  
subroutine.  
204  
[ FOR n ]−  
[ NEXT ]−  
132 FOR  
When the input of FOR is ON,  
executes the segment from  
FOR to NEXT the number of  
times specified by n.  
Indicates the start of the  
subroutine number n.  
Enables execution of interrupt  
program.  
Disables execution of interrupt  
program.  
Indicates the end of an interrupt  
program.  
2
1
2
1
1
1
2
205  
206  
207  
208  
209  
210  
211  
22.0  
(in a  
pair)  
133 NEXT  
[ SUBR (n) ]−  
[ EI ]−  
137 Subroutine  
entry  
140 Enable  
interrupt  
141 Disable  
interrupt  
142 Interrupt return  
included  
in CALL  
27.6  
(in a  
pair)  
[ DI ]−  
−−[ IRET ]−  
[ WDT n ]−  
[ STIZ (n) A ]−  
1.4  
143 Watchdog  
timer reset  
144 Step sequence  
initialize  
Extends the scan time over  
detection time.  
16.1  
These  
Resets OFF the n  
devices stating with  
A, and sets ON A.  
Turns ON output if  
input is ON and A is  
ON.  
59.9 -  
65.0  
configure  
a series  
of step  
3
2
212  
213  
[ STIN A ]−  
145 Step sequence  
input  
sequence  
27.0  
[ STOT A ]−  
146 Step sequence  
output  
When input is ON,  
resets OFF the  
devices of STIN on  
the same rung, and  
sets ON A.  
27.0 -  
119.0  
2
214  
RAS  
Speed  
(µs)  
FUN  
Name  
No.  
154 Set calendar  
Expression  
Function  
Steps  
2
Page  
217  
[ A CLND ]−  
Sets 6 registers data starting  
with A into clock/calendar.  
Calculates difference between  
present date & time and past  
date & time stored in 6 registers  
starting with A, and stores the  
result in 6 registers starting with  
B.  
[ A CLDS B ]−  
155 Calendar  
operation  
3
218  
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7. Instructions  
Functions  
Speed  
Page  
(µs)  
FUN  
No.  
056 Moving  
average  
Name  
Expression  
Function  
Steps  
5
[ A MAVE (n) B C ]−  
Calculates the average value  
of latest n scan values of A,  
and stores the result in C.  
Filters the value of A by filter  
constant specified by B, and  
stores the result in C.  
Performs PID control. (pre-  
derivative real PID algorithm)  
Process value (PV): A  
159  
[ A DFL B C ]−  
061 Digital filter  
4
4
160  
[ A PID3 B C ]−  
156 Pre-derivative  
real PID  
85.0 -  
219  
Set value (SV): A+1  
428.0  
PID parameters: B and after  
Manipulation value (MV): C  
Upper limits the value of A  
by B, and stores the result in  
C.  
Lower limits the value of A  
by B, and stores the result in  
C.  
Finds the maximum value of  
n registers data starting with  
A, and stores the value in C  
and the pointer in C+1.  
Finds the minimum value of  
n registers data starting with  
A, and stores the value in C  
and the pointer in C+1.  
Calculates the average value  
of n registers data starting  
with A, and stores the result  
in C.  
[ A UL B C ]−  
[ A LL B C ]−  
[ A MAX (n) B ]−  
160 Upper limit  
161 Lower limit  
4
4
224  
225  
162 Maximum  
value  
4
4
4
226  
227  
228  
[ A MIN (n) B ]−  
163 Minimum value  
164 Average value  
[ A AVE (n) B ]−  
[ A FG (n) B C ]−  
165 Function  
generator  
Finds f(x) for given x=A, and  
stores it in C. The function  
f(x) is defined by parameters  
stored in a table 2×n  
77.7 -  
229  
5
142.1  
registers starting with B.  
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6F3B0253  
7. Instructions  
Conversion instructions  
Speed  
(µs)  
FUN  
No.  
062 Hex to ASCII  
conversion  
Name  
Expression  
Function  
Steps  
4
Page  
161  
[ A HTOA (n) B ]−  
Converts the hexadecimal  
data of n words stating with  
A into ASCII characters, and  
stores them in nx2 registers  
starting with B.  
[ A ATOH (n) B ]−  
063 ASCII to Hex  
conversion  
Converts the ASCII  
characters stored in n  
registers stating with A into  
hexadecimal data, and stores  
them in n/2 registers starting  
with B.  
4
162  
[ A ABS B ]−  
180 Absolute value  
Stores the absolute value of  
A in B.  
Stores the 2’s complement  
value of A in B.  
3
3
5.0  
4.6  
231  
232  
[ A NEG B ]−  
182 2’s  
complement  
[ A+1A DNEG B+1B ]−  
[ A 7SEG B ]−  
183 Double-word  
2’s  
complement  
185 7-segment  
decode  
Stores the 2’s complement  
value of A+1A in B+1B.  
3
3
4.6  
233  
234  
Converts lower 4 bits of A  
into 7-segment code, and  
stores it in B.  
43.9  
[ A ASC B ]−  
186 ASCII  
conversion  
Converts the alphanumerics  
(max. 16 characters) of A  
29.8 -  
49.6  
into ASCII codes, and stores 3 - 10  
them in registers starting  
with B.  
236  
[ A BIN B ]−  
188 Binary  
conversion  
Converts the BCD data in A  
into binary data, and stores it  
in B.  
3
3
65.5  
55.6  
237  
238  
[ A BCD B ]−  
190 BCD  
Converts the binary data in A  
into BCD data, and stores it  
in B.  
conversion  
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7. Instructions  
Special I/O instructions  
Speed  
FUN  
No.  
235 Direct I/O  
Name  
Expression  
Function  
Steps  
3
Available Page  
(µs)  
[ I/O (n) A ]−  
Performs the immediate  
block I/O transfer of n  
registers starting with A.  
Writes data into the built-in  
EEPROM, or reads data  
from the EEPROM. The  
transfer source and  
destination are indirectly  
designated by A and C. The  
transfer register size is  
designated by B.  
20.7 +  
21.3 × n  
*1  
257  
[ A XFER B C ]−  
236 Expanded data  
transfer  
54.0  
1w  
read  
-
7130  
16w  
write  
4
259  
*1: Direct I/O instruction is effective only for the basic unit inputs/outputs.  
*2: The expanded data transfer (XFER) instruction supports some special functions. It  
also supports the communication function. The execution speed shown in the  
above table is for the EEPROM read/write function. When the Inverter connection  
mode is selected, the execution speed of this instruction is typically 150 µs (max.  
500 µs).  
NOTE  
The index modification is available for some instructions. The values in the  
execution speed column show the execution time without index  
modification.  
If index modification is used, approx. 20 µs is added per one indexed  
operand.  
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7. Instructions  
7.2 Instruction specifications  
The following pages in this section describe the detailed specifications of each  
instruction. On each page, the following items are explained.  
Expression  
Shows the operands required for the instruction as italic characters.  
Function  
Explains the functions of the instruction with referring the operands shown on the  
Expression box.  
Execution condition  
Shows the execution condition of the instruction and the instruction output status.  
Operand  
Shows available register, device or constant value for each operand. For constant  
operand, available value range is described. If the constant column is just marked (),  
it means normal value range (-32768 to 32767 in 16-bit integer or -2147483648 to  
2147483647 in 32-bit integer) is available.  
Whether index modification for a register operand is usable or not is also shown for  
each operand.  
Example  
Explains the operation of the instruction by using a typical example.  
Note  
Explains supplementary information, limitations, etc. for the instruction.  
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7. Instructions  
NO contact  
Expression  
A
Input  
Output  
Function  
NO (normally open) contact of device A.  
When the input is ON and the device A is ON, the output is turned ON.  
Execution condition  
Input  
Operation  
Output  
OFF  
OFF  
ON  
OFF Regardless of the state of device A  
ON  
When device A is OFF  
When device A is ON  
Operand  
Name  
Device  
Register  
Constant Index  
K
X
Y
R
S
T. C. XW YW RW SW T  
C
D
I
J
A Device  
Example  
Coil Y022 comes ON when the devices X000 and R001 are both ON.  
X000  
R001  
Y022  
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7. Instructions  
NC contact  
Expression  
A
Input  
Output  
Function  
NC (normally closed) contact of device A.  
When the input is ON and the device A is OFF, the output is turned ON.  
Execution condition  
Input  
Operation  
Output  
OFF  
ON  
OFF Regardless of the state of device A  
ON  
When device A is OFF  
When device A is ON  
OFF  
Operand  
Name  
Device  
Register  
Constant Index  
X
Y
R
S
T. C. XW YW RW SW T  
C
D
I
J
K
A Device  
Example  
Coil Y022 comes ON when the devices X000 and R001 are both OFF.  
X000  
R001  
Y022  
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7. Instructions  
Transitional contact (Rising edge)  
Expression  
Input  
Output  
Function  
When the input at last scan is OFF and the input at this scan is ON, the output is turned ON.  
This instruction is used to detect the input changing from OFF to ON.  
Execution condition  
Input  
Operation  
Output  
OFF  
ON  
OFF Regardless of the input state at last scan  
ON  
When the input state at last scan is OFF  
When the input state at last scan is ON  
OFF  
Operand  
No operand is required.  
Example  
Coil Y022 comes ON for only 1 scan when the device X000 comes ON.  
X000  
Y022  
1 scan time  
1 scan time  
Note  
In case of T1, the maximum usable number in a program is 512. (  
and  
total)  
In case of T1S, the maximum usable number in a program is 2048.  
(
P
N
(P)  
(N)  
total)  
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7. Instructions  
Transitional contact (Falling edge)  
Expression  
Input  
Output  
Function  
When the input at last scan is ON and the input at this scan is OFF, the output is turned ON.  
This instruction is used to detect the input changing from ON to OFF.  
Execution condition  
Input  
Operation  
Output  
OFF  
ON  
OFF When the input state at last scan is OFF  
When the input state at last scan is ON  
ON  
Regardless of the input state at last scan  
OFF  
Operand  
No operand is required.  
Example  
Coil Y022 comes ON for only 1 scan when the device X000 comes OFF.  
X000  
Y022  
1 scan time  
1 scan time  
Note  
In case of T1, the maximum usable number in a program is 512. (  
and  
total)  
In case of T1S, the maximum usable number in a program is 2048.  
(
P
N
(P)  
(N)  
total)  
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7. Instructions  
( )  
Coil  
Expression  
A
Input ( )  
Function  
Relay coil of device A.  
When the input is ON, the device A is set to ON.  
Execution condition  
Input  
Operation  
Output  
OFF Sets device A to OFF  
ON  
Sets device A to ON  
Operand  
Name  
Device  
Register  
Constant Index  
K
X
Y
R
S
T. C. XW YW RW SW T  
C
D
I
J
A Device  
Example  
Coil Y025 comes ON when the devices X000 is ON.  
X000  
Y025  
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7. Instructions  
Forced coil  
Expression  
A
Input  
Function  
Regardless of the input sate the state of device A is retained.  
Execution condition  
Input  
Operation  
Output  
OFF No operation  
ON  
No operation  
Operand  
Name  
Device  
Register  
Constant Index  
X
Y
R
S
T. C. XW YW RW SW T  
C
D
I
J
K
A Device  
Example  
Device Y025 retains the preceding state regardless of the devices X000 state.  
X000  
Y025  
Set force  
Reset force  
Set force  
Reset force  
Note  
The forced coil is a debugging function. The state of a forced coil device can be set ON or OFF  
by the programming tool.  
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7. Instructions  
I
Inverter  
Expression  
Input  
I
Output  
Function  
When the input is OFF, the output is turned ON, and when the input is ON, the output is turned  
OFF.  
This instruction inverts the link state.  
Execution condition  
Input  
Operation  
Output  
ON  
OFF Inverts the input state  
ON  
Inverts the input state  
OFF  
Operand  
No operand is required.  
Example  
Y022 comes ON when X000 is OFF, and Y022 comes OFF when X000 is ON.  
X000  
Y022  
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7. Instructions  
( I )  
Invert coil  
Expression  
A
Input ( I )  
Function  
When the input is OFF, the device A is set to ON, and when the input is ON, the device A is set to  
OFF. This instruction inverts the input state and store it in the deviceA.  
Execution condition  
Input  
Operation  
Output  
OFF Sets device A to ON  
ON  
Sets device A to OFF  
Operand  
Name  
Device  
Register  
Constant Index  
X
Y
R
S
T. C. XW YW RW SW T  
C
D
I
J
K
A Device  
Example  
Y025 comes ON when X000 is OFF, and Y025 comes OFF when X000 is ON.  
X000  
Y025  
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7. Instructions  
P
Positive pulse contact  
Expression  
A
Input  
P
Output  
Function  
When the input is ON and the device A is changed from OFF to ON (OFF at last scan and ON at  
this scan), the output is turned ON.  
This instruction is used to detect the device changing from OFF to ON.  
Execution condition  
Input  
Operation  
Output  
OFF  
OFF  
ON  
OFF Regardless of the state of device A  
ON  
State of device A is OFF  
State of device A is ON  
A is OFF at last scan  
A is ON at last scan  
OFF  
Operand  
Name  
Device  
Register  
Constant Index  
X
Y
R
S
T. C. XW YW RW SW T  
C
D
I
J
K
A Device  
Example  
R100 comes ON for only 1 scan when X000 is ON and X003 changes to ON.  
X000  
X003  
R100  
1 scan time 1 scan time  
Note  
The maximum usable number in a program is 2048.  
total)  
(
P
N
(P)  
(N)  
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7. Instructions  
N
Negative pulse contact  
Expression  
A
Input  
N
Output  
Function  
When the input is ON and the device A is changed from ON to OFF (ON at last scan and OFF at  
this scan), the output is turned ON.  
This instruction is used to detect the device changing from ON to OFF.  
Execution condition  
Input  
Operation  
Output  
OFF  
OFF  
ON  
OFF Regardless of the state of device A  
ON  
State of device A is OFF A is OFF at last scan  
A is ON at last scan  
State of device A is ON  
OFF  
Operand  
Name  
Device  
Register  
Constant Index  
X
Y
R
S
T. C. XW YW RW SW T  
C
D
I
J
K
A Device  
Example  
R100 comes ON for only 1 scan when X000 is ON and X003 changes to OFF.  
X000  
X003  
R100  
1 scan time 1 scan time  
Note  
The maximum usable number in a program is 2048.  
total)  
(
P
N
(P)  
(N)  
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7. Instructions  
Positive pulse coil  
( P )  
Expression  
A
Input ( P )  
Function  
When the input is changed form OFF to ON, the device A is set to ON for 1 scan time.  
This instruction is used to detect the input changing from OFF to ON.  
Execution condition  
Input  
Operation  
Output  
OFF Sets device A to OFF  
ON  
When the input at last scan is OFF, sets A to ON  
When the input at last scan is ON, sets A to OFF  
Operand  
Name  
Device  
Register  
Constant Index  
X
Y
R
S
T. C. XW YW RW SW T  
C
D
I
J
K
A Device  
Example  
R101 comes ON for only 1 scan when X000 is changed from OFF to ON.  
X000  
R100  
1 scan time  
1 scan time  
Note  
The maximum usable number in a program is 2048.  
total)  
(
P
N
(P)  
(N)  
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7. Instructions  
Negative pulse coil  
( N )  
Expression  
A
Input ( N )  
Function  
When the input is changed form ON to OFF, the device A is set to ON for 1 scan time.  
This instruction is used to detect the input changing from ON to OFF.  
Execution condition  
Input  
Operation  
Output  
OFF When the input at last scan is OFF, sets A to OFF  
When the input at last scan is ON, sets A to ON  
ON  
Sets device A to OFF  
Operand  
Name  
Device  
Register  
Constant Index  
X
Y
R
S
T. C. XW YW RW SW T  
C
D
I
J
K
A Device  
Example  
R101 comes ON for only 1 scan when X000 is changed from ON to OFF.  
X000  
R100  
1 scan time 1 scan time  
Note  
The maximum usable number in a program is 2048.  
total)  
(
P
N
(P)  
(N)  
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7. Instructions  
TON  
ON delay timer  
Expression  
Input  
[ A TON B ]  
Output  
Function  
When the input is changed from OFF to ON, timer updating for the timer register B is started. The  
elapsed time is stored in B. When the specified time by A has elapsed after the input came ON, the  
output and the timer device corresponding to B is turned ON. (Timer updating is stopped)  
When the input is changed from ON to OFF, B is cleared to 0, and the output and the timer device  
are turned OFF.  
The available data range for operand A is 0 to 32767.  
Execution condition  
Input  
Operation  
Output  
OFF  
OFF  
ON  
OFF No operation (timer is not updating)  
ON  
Elapsed time < preset time (timer is updating)  
Elapsed time preset time (timer is not updating)  
Operand  
Name  
Device  
Register  
Constant Index  
0 - 32767  
X
Y
R
S
T. C. XW YW RW SW T  
C
D
I
J
K
A Preset time  
B Elapsed time  
Example  
Y021 (and the timer device T.000) is turned ON 2 seconds after X000 came ON.  
X000  
Note  
Preset value  
Time is set in 10 ms units for;  
T1: T000 to T031 (0 to 327.67 s)  
T1S: T000 to T063 (0 to 327.67 s)  
Time is set in 100 ms units for;  
T1: T032 to T063 (0 to 3276.7 s)  
T1S: T064 to T255 (0 to 3276.7 s)  
Multiple timer instructions (TON, TOF or  
SS) with the same timer register are not  
allowed.  
T000  
T.000  
Y021  
Preset time (2s) Less than preset time  
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7. Instructions  
TOF  
OFF delay timer  
Expression  
Input  
[ A TOF B ]  
Output  
Function  
When the input is changed from OFF to ON, the output and the timer device corresponding to the  
timer register B are set to ON. When the input is changed from ON to OFF, timer updating for B is  
started. The elapsed time is stored in B. When the specified time by A has elapsed after the input  
came OFF, the output and the timer device are turned OFF. (Timer updating is stopped)  
The available data range for operand A is 0 to 32767.  
Execution condition  
Input  
Operation  
Output  
ON  
OFF  
ON  
OFF  
Elapsed time < preset time (timer is updating)  
Elapsed time preset time (timer is not updating)  
No operation (timer is not updating)  
ON  
Operand  
Name  
Device  
Register  
Constant Index  
0 - 32767  
X
Y
R
S
T. C. XW YW RW SW T  
C
D
I
J
K
A Preset time  
B Elapsed time  
Example  
Y021 (and the timer device T.002) is turned OFF 1 second after X000 came OFF.  
X000  
Note  
Time is set in 10 ms units for;  
T1: T000 to T031 (0 to 327.67 s)  
T1S: T000 to T063 (0 to 327.67 s)  
Time is set in 100 ms units for;  
T1: T032 to T063 (0 to 3276.7 s)  
T1S: T064 to T255 (0 to 3276.7 s)  
Multiple timer instructions (TON, TOF or  
SS) with the same timer register are not  
allowed.  
Preset value  
T002  
T.002  
Y021  
Preset time (1 s) Less than preset time  
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7. Instructions  
SS  
Single shot timer  
Expression  
Input  
[ A SS B ]  
Output  
Function  
When the input is changed from OFF to ON, the output and the timer device corresponding to the  
timer register B are set to ON, and timer updating for B is started. The elapsed time is stored in B.  
When the specified time by A has elapsed after the input came ON, the output and the timer device  
are turned OFF. (Timer updating is stopped)  
The available data range for operand A is 0 to 32767.  
Execution condition  
Input  
Operation  
Output  
ON  
OFF  
ON  
OFF  
Elapsed time < preset time (timer is updating)  
Elapsed time preset time (timer is not updating)  
Elapsed time < preset time (timer is updating)  
Elapsed time preset time (timer is not updating)  
ON  
OFF  
Operand  
Name  
Device  
Register  
Constant Index  
0 - 32767  
X
Y
R
S
T. C. XW YW RW SW T  
C
D
I
J
K
A Preset time  
B Elapsed time  
Example  
Y021 (and the timer device T.003) is turned OFF 1 second after X000 came ON.  
X000  
Note  
Time is set in 10 ms units for;  
T1: T000 to T031 (0 to 327.67 s)  
T1S: T000 to T063 (0 to 327.67 s)  
Time is set in 100 ms units for;  
T1: T032 to T063 (0 to 3276.7 s)  
T1S: T064 to T255 (0 to 3276.7 s)  
Multiple timer instructions (TON, TOF or  
SS) with the same timer register are not  
allowed.  
Preset value  
T003  
T.003  
Y021  
Preset time (1 s)  
Preset time (1 s)  
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7. Instructions  
CNT  
Counter  
Expression  
Count input  
C CNT Q Output  
Enable input  
E A B  
Function  
While the enable input is ON, this instruction counts the number of the count input changes from  
OFF to ON. The count value is stored in the counter register B. When the count value reaches the  
set value A, the output and the counter device corresponding toB are turned ON. When the enable  
input comes OFF, B is cleared to 0 and the output and the counter device are turned OFF.  
The available data range for operand A is 0 to 65535.  
Execution condition  
Enable  
input  
Operation  
Output  
OFF No operation (B is cleared to 0)  
OFF  
OFF  
ON  
ON  
Count value (B) < set value (A)  
Count value (B) set value (A)  
Operand  
Name  
Device  
Register  
Constant Index  
0 - 65535  
X
Y
R
S
T. C. XW YW RW SW T  
C
D
I
J
K
A Set value  
B Count value  
Example  
Note  
No transitional contact is required for the  
count input. The count input rising edge is  
detected by this instruction.  
For the count input, direct linking to a  
connecting point is not allowed. In this  
case, insert a dummy contact (always ON  
= S04F, etc.) just before the input.  
X001  
X002  
C010  
C.010  
Y021  
5
4
3
3
2
2
1
1
Refer to Note of Shift register FUN 074.  
Multiple counter instructions (CNT) with  
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7. Instructions  
MCS Master control set / reset  
MCR  
Expression  
Input  
[ MCS ]  
[ MCR ]  
Function  
When the MCS input is ON, ordinary operation is performed. When the MCS input is OFF, the state  
of left power rail between MCS and MCR is turned OFF.  
Execution condition  
MCS  
input  
Operation  
Output  
OFF Sets OFF the left power rail until MCR  
ON Ordinary operation  
Operand  
No operand is required.  
Example  
When X000 is OFF, Y021 and Y022 are turned OFF regardless of the states of X001 and  
X002.  
Equivalent circuit  
X000  
Note  
MCS and MCR must be used as a pair.  
Nesting is not allowed.  
X001  
X002  
Y021  
Y022  
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7. Instructions  
JCS  
JCR  
Jump control set / reset  
Expression  
Input  
[ JCS ]  
[ JCR ]  
Function  
When the JCS input is ON, instructions between JCS and JCR are skipped (not executed). When  
the JCS input is OFF, ordinary operation is performed.  
Execution condition  
JCS  
Operation  
Output  
input  
OFF Ordinary operation  
ON  
Skips until JCR  
Operand  
No operand is required.  
Example  
When X000 is ON, the rung 2 circuit is skipped, therefore Y021 is not changed its state  
regardless of the X001 state. When X000 is OFF, Y021 is controlled by the X001 state.  
Note  
JCS and JCR must be used as a pair.  
Nesting is not allowed.  
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7. Instructions  
END  
End  
Expression  
[ END ]  
Function  
Indicates the end of main program or sub-program. Instructions after the END instruction are not  
executed. At least one END instruction is necessary in a program.  
Execution condition  
Input  
Operation  
Output  
Operand  
No operand is required.  
Example  
Note  
For debugging purpose, 2 or more END instructions can be written in a program.  
Instructions after END instruction are not executed. Those steps are, however, counted as used  
steps.  
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7. Instructions  
FUN 018  
MOV  
Data transfer  
Expression  
Input [ A MOV B ]Output  
Function  
When the input is ON, the data of A is stored in B.  
Execution condition  
Input  
Operation  
Output  
OFF  
ON  
OFF No execution  
ON  
Execution  
Operand  
Name  
Device  
Register  
Constant Index  
X
Y
R
S
T. C. XW YW RW SW T  
C
D
I
J
K
A Source  
B Destination  
Example 1 (constant to register)  
When R010 is ON, a constant data (12345) is stored in D0100 and the output is turned ON.  
Example 2 (register to register)  
When X005 is ON, the data of SW30 is stored in RW45 and the output is turned ON. If SW30  
is 500, the data 500 is stored in RW45.  
Example 3 (index modification)  
When R050 is changed from OFF to ON, the data of RW08 is stored in the index register I and  
the data of D(0000+I) is stored in YW10. If RW08 is 300, the data of D0300 is stored in YW10.  
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7. Instructions  
FUN 019  
DMOV Double-word data transfer  
Expression  
Input [ A+1A MOV B+1B ]Output  
Function  
When the input is ON, the double-word (32-bit) data of A+1A is stored in double-word register  
B+1B. The data range is -2147483648 to 2147483647.  
Execution condition  
Input  
Operation  
Output  
OFF  
ON  
OFF No execution  
ON  
Execution  
Operand  
Name  
Device  
Register  
Constant Index  
X
Y
R
S
T. C. XW YW RW SW T  
C
D
I
J
K
A Source  
B Destination  
Example  
When R011 is ON, a double-word data of D0101D0100 is stored in RW17RW16 and the  
output is turned ON. If D0101D0100 is 1234567, the data 1234567 is stored in RW17RW16.  
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7. Instructions  
FUN 020  
NOT  
Invert transfer  
Expression  
Input [ A NOT B ]Output  
Function  
When the input is ON, the bit-inverted data of A is stored in B.  
Execution condition  
Input  
Operation  
Output  
OFF  
ON  
OFF No execution  
ON  
Execution  
Operand  
Name  
Device  
Register  
Constant Index  
X
Y
R
S
T. C. XW YW RW SW T  
C
D
I
J
K
A Source  
B Destination  
Example  
When R010 is ON, the bit-inverted data of RW30 is stored in D0200 and the output is turned  
ON. If RW30 is H4321, the bit-inverted data (HBCDE) is stored in D0200.  
F
E
D
C
B
A
9
8
7
6
5
4
3
2
1
0
RW30 0 1 0 0 0 0 1 1 0 0 1 0 0 0 0 1  
4
3
2
1
Bit-invert  
F
E
D
C
B
A
9
8
7
6
5
4
3
2
1
0
D0200 1 0 1 1 1 1 0 0 1 1 0 1 1 1 1 0  
B
C
D
E
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7. Instructions  
FUN 022  
XCHG Data exchange  
Expression  
Input [ A XCHG B ]Output  
Function  
When the input is ON, the data of A and the data of B is exchanged.  
Execution condition  
Input  
Operation  
Output  
OFF  
ON  
OFF No execution  
ON  
Execution  
Operand  
Name  
Device  
Register  
Constant Index  
K
X
Y
R
S
T. C. XW YW RW SW T  
C
D
I
J
A Operation data  
B Operation data  
Example  
When R005 is ON, the data of RW23 and D0100 is exchanged. If the original data of RW23 is  
23456 and that of D0100 is 291, the operation result is as follows.  
RW23 23456  
D0100 291  
Before operation  
RW23  
D0100  
291  
23456  
After operation  
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7. Instructions  
FUN 024  
TINZ  
Table initialize  
Expression  
Input [ A TINZ (n) B ]Output  
Function  
When the input is ON, the data of A is stored in n registers starting with B.  
The allowable range of the table sizen is 1 to 1024 words.  
Execution condition  
Input  
Operation  
Device  
Output  
OFF  
ON  
OFF No execution  
ON  
Execution  
Operand  
Name  
Register  
Constant Index  
X
Y
R
S
T. C. XW YW RW SW T  
C
D
I
J
K
A Source  
n Table size  
B Start of  
destination  
1 - 1024  
Example  
When R010 is ON, a constant data (0) is stored in 100 registers starting with D0200 (D0200 to  
D0299) and the output is turned ON.  
Constant  
0
D0200  
D0201  
D0202  
0
0
0
100 registers  
D0299  
0
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7. Instructions  
FUN 025  
TMOV Table transfer  
Expression  
Input [ A TMOV (n) B ]Output  
Function  
When the input is ON, the data of n registers starting with A are transferred to n registers starting  
with B in a block. The allowable range of the table size n is 1 to 1024 words.  
Execution condition  
Input  
Operation  
Output  
OFF  
ON  
OFF No execution  
ON  
Execution  
Operand  
Name  
Device  
Register  
Constant Index  
1 - 1024  
X
Y
R
S
T. C. XW YW RW SW T  
C
D
I
J
K
A Start of source  
n Table size  
B Start of  
destination  
Example  
When R010 is ON, the data of D0500 to D0509 (10 registers) are block transferred to D1000 to  
D1009, and the output is turned ON.  
D0500  
D0501  
D0502  
1111  
2222  
3333  
D1000  
D1001  
D1002  
1111  
2222  
3333  
Block transfer  
10 registers  
D0509  
12345  
D1009  
12345  
Note  
The source and destination tables can be overlapped.  
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7. Instructions  
FUN 026  
TNOT  
Table invert transfer  
Expression  
Input [ A TNOT (n) B ]Output  
Function  
When the input is ON, the data of n registers starting with A are bit-inverted and transferred to n  
registers starting with B in a block. The allowable range of the table size n is 1 to 1024 words.  
Execution condition  
Input  
Operation  
Output  
OFF  
ON  
OFF No execution  
ON  
Execution  
Operand  
Name  
Device  
Register  
Constant Index  
1 - 1024  
X
Y
R
S
T. C. XW YW RW SW T  
C
D
I
J
K
A Start of source  
n Table size  
B Start of  
destination  
Example  
When R010 is ON, the data of D0600 to D0604 (5 registers) are bit-inverted and transferred to  
D0865 to D0869, and the output is turned ON.  
D0600  
D0601  
D0602  
D0603  
D0604  
H00FF  
H0000  
H1234  
H5555  
H89AB  
D0865  
D0866  
D0867  
D0868  
D0869  
HFF00  
HFFFF  
HEDCB  
HAAAA  
H7654  
Bit-invert  
and transfer  
5 registers  
Note  
The source and destination tables can be overlapped.  
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7. Instructions  
FUN 027  
+
Addition  
Expression  
Input [ A + B C ]Output  
Function  
When the input is ON, the data of A and the data of B are added, and the result is stored in C.  
If the result is greater than 32767, the upper limit value 32767 is stored in C, and the output is  
turned ON. If the result is smaller than -32768, the lower limit value -32768 is stored in C, and the  
output is turned ON.  
Execution condition  
Input  
Operation  
Output  
OFF  
OFF  
ON  
OFF No execution  
ON  
Execution (normal)  
Execution (overflow or underflow occurred)  
Operand  
Name  
Device  
Register  
Constant Index  
X
Y
R
S
T. C. XW YW RW SW T  
C
D
I
J
K
A Augend  
B Addend  
C Sum  
Example  
When R005 is ON, the data of D0100 and the constant data 1000 is added, and the result is  
stored in D0110.  
If the data of D0100 is 12345, the result 13345 is stored in D0110, and R010 is turned OFF.  
D0100  
12345  
+
D0110  
13345  
R010 is OFF  
Constant 1000  
If the data of D0100 is 32700, the result exceeds the limit value, therefore 32767 is stored in  
D0110, and R010 is turned ON.  
D0100  
32700  
Overflow  
+
D0110  
32767  
R010 is ON  
Constant 1000  
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7. Instructions  
FUN 028  
Subtraction  
Expression  
Input [ A B C ]Output  
Function  
When the input is ON, the data of B is subtracted from the data of A, and the result is stored in C.  
If the result is greater than 32767, the upper limit value 32767 is stored in C, and the output is  
turned ON. If the result is smaller than -32768, the lower limit value -32768 is stored in C, and the  
output is turned ON.  
Execution condition  
Input  
Operation  
Output  
OFF  
OFF  
ON  
OFF No execution  
ON  
Execution (normal)  
Execution (overflow or underflow occurred)  
Operand  
Name  
Device  
Register  
Constant Index  
X
Y
R
S
T. C. XW YW RW SW T  
C
D
I
J
K
A Minuend  
B Subtrahend  
C Difference  
Example  
When R005 is ON, the constant data 2500 is subtracted from the data of D0200, and the result  
is stored in RW50.  
If the data of D0200 is 15000, the result 12500 is stored in RW50, and R010 is turned OFF.  
D0200  
15000  
RW50  
12500  
R010 is OFF  
Constant 2500  
If the data of D0200 is -31000, the result is smaller than the limit value, therefore -32768 is  
stored in RW50, and R010 is turned ON.  
D0100  
-31000  
Underflow  
RW50  
-32768  
R010 is ON  
Constant 2500  
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7. Instructions  
FUN 029  
Multiplication  
Expression  
Input [ A B C+1C ]Output  
Function  
When the input is ON, the data of A is multiplied by the data of B, and the result is stored in  
double-length register C+1C.  
Execution condition  
Input  
Operation  
Output  
OFF  
ON  
OFF No execution  
ON  
Execution  
Operand  
Name  
Device  
Register  
Constant Index  
X
Y
R
S
T. C. XW YW RW SW T  
C
D
I
J
K
A Multiplicand  
B Multiplier  
C Product  
Example  
When R005 is ON, the data of D0050 is multiplied by the data of RW05, and the result is  
stored in double-length register D0101D0100 (upper 16-bit in D0101 and lower 16-bit in  
D0100).  
If the data of D0050 is 1500 and the data of RW05 is 20, the result 30000 is stored in  
D0101D0100.  
D0050  
RW05  
1500  
20  
×
D0101D0100  
30000  
D0101  
D0100  
H0000  
H7530  
(upper 16-bit)  
(lower 16-bit)  
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7. Instructions  
FUN 030  
/
Division  
Expression  
Input [ A / B C ]Output  
Function  
When the input is ON, the data of A is divided by the data of B, and the quotient is stored in C and  
the remainder in C+1.  
Execution condition  
Input  
Operation  
Output  
OFF  
ON  
ERF  
Set  
OFF No execution  
ON  
Normal execution (B 0)  
No execution (B = 0)  
OFF  
Operand  
Name  
Device  
Register  
Constant Index  
X
Y
R
S
T. C. XW YW RW SW T  
C
D
I
J
K
A Dividend  
B Divisor  
C Quotient  
Example  
When R005 is ON, the data of RW22 is divided by the constant data 325, and the quotient is  
stored in RW27 and the remainder is stored in RW28.  
If the data of RW22 is 2894, the quotient 8 is stored in RW27 and the remainder 294 is stored  
in RW28.  
RW22  
2894  
325  
÷
RW27  
RW28  
8
294  
(quotient)  
(remainder)  
Constant  
Note  
If divisor (operand B) is 0, ERF (instruction error flag = S051) is set to ON.  
The ERF (S051) can be reset to OFF by user program, e.g. [ RST S051 ] .  
If the index register K is used as operand C, the remainder is ignored.  
If operand A is -32768 and operand B is -1, the data -32768 is stored in C and 0 is stored in  
C+1.  
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7. Instructions  
FUN 031  
D+  
Double-word addition  
Expression  
Input [ A+1A D+ B+1B C+1C ]Output  
Function  
When the input is ON, the double-word data of A+1A and B+1B are added, and the result is  
stored in C+1C. The data range is -2147483648 to 2147483647.  
If the result is greater than 2147483647, the upper limit value 2147483647 is stored in C+1C, and  
the output is turned ON. If the result is smaller than -2147483648, the lower limit value  
-2147483648 is stored in C+1C, and the output is turned ON.  
Execution condition  
Input  
Operation  
Output  
OFF  
OFF  
ON  
OFF No execution  
ON  
Execution (normal)  
Execution (overflow or underflow occurred)  
Operand  
Name  
Device  
Register  
Constant Index  
X
Y
R
S
T. C. XW YW RW SW T  
C
D
I
J
K
A Augend  
B Addend  
C Sum  
Example  
When R005 is ON, the data of D0011D0010 and the constant data 100000 is added, and the  
result is stored in D0101D0100.  
If the data of D0011D0010 is 300000, the result 400000 is stored in D0101D0100, and R010  
is turned OFF. (No overflow/underflow)  
D0011D0010  
300000  
100000  
+
D0101D0100  
400000  
R010 is OFF  
Constant  
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7. Instructions  
FUN 032  
Double-word subtraction  
D  
Expression  
Input [ A+1A DB+1B C+1C ]Output  
Function  
When the input is ON, the double-word data of B+1B is subtracted from A+1A, and the result is  
stored in C+1C. The data range is -2147483648 to 2147483647.  
If the result is greater than 2147483647, the upper limit value 2147483647 is stored in C+1C, and  
the output is turned ON. If the result is smaller than -2147483648, the lower limit value  
-2147483648 is stored in C+1C, and the output is turned ON.  
Execution condition  
Input  
Operation  
Output  
OFF  
OFF  
ON  
OFF No execution  
ON  
Execution (normal)  
Execution (overflow or underflow occurred)  
Operand  
Name  
Device  
Register  
Constant Index  
X
Y
R
S
T. C. XW YW RW SW T  
C
D
I
J
K
A Minuend  
B Subtrahend  
C Difference  
Example  
When R005 is ON, the double-word data of RW25RW24 is subtracted from the double-word  
data of D0101D0100, and the result is stored in D0103D0102.  
If the data of D0101D0100 is 1580000 and the data of RW25RW24 is 80000, the result  
1500000 is stored in D0103D0102, and R010 is turned OFF. (No overflow/underflow)  
D0101D0100  
1580000  
80000  
D0103D0102  
1500000  
R010 is OFF  
RW25RW24  
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7. Instructions  
FUN 035  
+C  
Addition with carry  
Expression  
Input [ A +C B C ]Output  
Function  
When the input is ON, the data of A, B and the carry flag (CF = S050) are added, and the result is  
stored in C. If carry is occurred in the operation, the carry flag is set to ON. If the result is greater  
than 32767 or smaller than -32768, the output is turned ON.  
This instruction is used to perform unsigned addition or double-length addition.  
Execution condition  
Input  
Operation  
Output  
OFF  
OFF  
OFF  
ON  
CF  
Reset  
Set  
Reset  
Set  
OFF No execution  
ON  
Execution Normal  
No carry  
Carry occurred  
Overflow / No carry  
underflow Carry occurred  
ON  
Operand  
Name  
Device  
Register  
Constant Index  
X
Y
R
S
T. C. XW YW RW SW T  
C
D
I
J
K
A Augend  
B Addend  
C Sum  
Example  
When R013 is ON, the data of double-length registers D0101D0100 and RW21RW20 are  
added, and the result is stored in D0201D0200. The RSTC is a instruction to reset the carry  
flag before starting the calculation.  
If the data of D0101D0100 is 12345678 and RW21RW20 is 54322, the result 12400000 is  
stored in D0201D0200.  
D0101D0100 12345678  
+
D0201D0200 12400000  
RW21RW20  
54322  
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7. Instructions  
FUN 036  
-C  
Subtraction with carry  
Expression  
Input [ A -C B C ]Output  
Function  
When the input is ON, the data of B and the carry flag (CF = S050) are subtracted from A, and the  
result is stored in C. If borrow is occurred in the operation, the carry flag is set to ON. If the result is  
greater than 32767 or smaller than -32768, the output is turned ON.  
This instruction is used to perform unsigned subtraction or double-length subtraction.  
Execution condition  
Input  
Operation  
Output  
OFF  
OFF  
OFF  
ON  
CF  
Reset  
Set  
Reset  
Set  
OFF No execution  
ON  
Execution Normal  
No borrow  
Borrow occurred  
Overflow / No borrow  
underflow Borrow occurred  
ON  
Operand  
Name  
Device  
Register  
Constant Index  
X
Y
R
S
T. C. XW YW RW SW T  
C
D
I
J
K
A Minuend  
B Subtrahend  
C Difference  
Example  
When R013 is ON, the data of double-length register RW23RW22 is subtracted from the data  
of D0201D0200, and the result is stored in D0211D0210. The RSTC is a instruction to reset  
the carry flag before starting the calculation.  
If the data of D0201D0200 is 12345678 and RW23RW22 is 12340000, the result 5678 is  
stored in D0211D0210.  
D0201D0200 12345678  
-
D0211D0210  
5678  
RW23RW22 12340000  
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7. Instructions  
FUN 039  
Unsigned multiplication  
U∗  
Expression  
Input [ A UB C+1C ]Output  
Function  
When the input is ON, the unsigned data of A and B are multiplied, and the result is stored in  
double-length register C+1C. The data range of A and B is 0 to 65535 (unsigned 16-bit data)  
Execution condition  
Input  
Operation  
Output  
OFF  
ON  
OFF No execution  
ON  
Execution  
Operand  
Name  
Device  
Register  
Constant Index  
X
Y
R
S
T. C. XW YW RW SW T  
C
D
I
J
K
A Multiplicand  
B Multiplier  
C Product  
Example  
When R010 is ON, the data of D0050 is multiplied by the data of RW05, and the result is  
stored in double-length register D0101D0100 (upper 16-bit in D0101 and lower 16-bit in  
D0100).  
If the data of D0050 is 52500 and the data of RW05 is 30, the result 1575000 is stored in  
D0101D0100.  
D0050  
RW05  
52500  
30  
×
D0101D0100  
1575000  
Note  
This instruction handles the register data as unsigned integer.  
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7. Instructions  
FUN 040  
U/  
Unsigned division  
Expression  
Input [ A U/ B C ]Output  
Function  
When the input is ON, the unsigned data of A is divided by the unsigned data of B, and the  
quotient is stored in C and the remainder in C+1.  
The data range of A and B is 0 to 65535 (unsigned 16-bit data)  
Execution condition  
Input  
Operation  
Output  
OFF  
ON  
ERF  
Set  
OFF No execution  
ON  
Normal execution (B 0)  
No execution (B = 0)  
OFF  
Operand  
Name  
Device  
Register  
Constant Index  
X
Y
R
S
T. C. XW YW RW SW T  
C
D
I
J
K
A Dividend  
B Divisor  
C Quotient  
Example  
When R010 is ON, the data of D0030 is divided by the constant data 300, and the quotient is  
stored in D0050 and the remainder is stored in D0051.  
If the data of D0030 is 54321, the quotient 181 is stored in D0050 and the remainder 21 is  
stored in D0051.  
D0030  
54321  
300  
÷
RW27  
RW28  
181  
21  
(quotient)  
(remainder)  
Constant  
Note  
If divisor (operand B) is 0, ERF (instruction error flag = S051) is set to ON.  
The ERF (S051) can be reset to OFF by user program, e.g. [ RST S051 ].  
If the index register K is used as operand C, the remainder is ignored.  
This instruction handles the register data as unsigned integer.  
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7. Instructions  
FUN 041  
DIV  
Unsigned double/single division  
Expression  
Input [ A+1A DIV B C ]Output  
Function  
When the input is ON, the double-word data of A+1A is divided by the data of B, and the quotient  
is stored in C and the remainder in C+1. The data range of A+1A is 0 to 4294967295, and the data  
range of B and C is 0 to 65535.  
If the quotient is greater than 65535 (overflow), the limit value 65535 is stored in C, 0 is stored in  
C+1, and the instruction error flag (ERF = S051) is set to ON.  
Execution condition  
Input  
Operation  
Output  
OFF  
ON  
ON  
OFF  
ERF  
Set  
OFF No execution  
ON  
Normal execution (B 0)  
Overflow (B 0)  
No execution (B = 0)  
Set  
Operand  
Name  
Device  
Register  
Constant Index  
X
Y
R
S
T. C. XW YW RW SW T  
C
D
I
J
K
A Dividend  
B Divisor  
C Quotient  
Example  
When R010 is ON, the double-word data of D0201D0200 is divided by the constant data  
4000, and the quotient is stored in D1000 and the remainder is stored in D1001.  
If the data of D0201D0200 is 332257, the quotient 83 is stored in D1000 and the remainder  
257 is stored in D1001.  
D0201D0200  
332257  
4000  
÷
D1000  
D1001  
83 (quotient)  
257 (remainder)  
Constant  
Note  
If divisor (operand B) is 0, ERF (instruction error flag = S051) is set to ON.  
The ERF (S051) can be reset to OFF by user program, e.g. [ RST S051 ].  
This instruction handles the register data as unsigned integer.  
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7. Instructions  
FUN 043  
+1  
Increment  
Expression  
Input [ +1 A ]Output  
Function  
When the input is ON, the data of A is increased by 1 and stored in A.  
Execution condition  
Input  
Operation  
Output  
OFF  
ON  
OFF No execution  
ON  
Execution  
Operand  
Name  
Device  
Register  
Constant Index  
X
Y
R
S
T. C. XW YW RW SW T  
C
D
I
J
K
A Operation data  
Example  
At the rising edge of X004 changes from OFF to ON, the data of D0050 is increased by 1 and  
stored in D0050.  
If the data of D0050 is 750 before the execution, it will be 751 after the execution.  
D0050  
750  
D0050  
751  
+ 1  
Note  
There is no limit value for this instruction. When the data of operand A is 32767 before the  
execution, it will be -32768 after the execution.  
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7. Instructions  
FUN 045  
-1  
Decrement  
Expression  
Input [ -1 A ]Output  
Function  
When the input is ON, the data of A is decreased by 1 and stored in A.  
Execution condition  
Input  
Operation  
Output  
OFF  
ON  
OFF No execution  
ON  
Execution  
Operand  
Name  
Device  
Register  
Constant Index  
K
X
Y
R
S
T. C. XW YW RW SW T  
C
D
I
J
A Operation data  
Example  
At the rising edge of X005 changes from OFF to ON, the data of D0050 is decreased by 1 and  
stored in D0050.  
If the data of D0050 is 1022 before the execution, it will be 1021 after the execution.  
D0050  
1022  
D0050  
1021  
- 1  
Note  
There is no limit value for this instruction. When the data of operand A is -32768 before the  
execution, it will be 32767 after the execution.  
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7. Instructions  
FUN 048  
AND  
AND  
Expression  
Input [ A AND B C ]Output  
Function  
When the input is ON, this instruction finds logical AND of A and B, and stores the result in C.  
Execution condition  
Input  
Operation  
Output  
OFF  
ON  
OFF No execution  
ON  
Execution  
Operand  
Name  
Device  
Register  
Constant Index  
X
Y
R
S
T. C. XW YW RW SW T  
C
D
I
J
K
A Source  
B Source  
C AND  
Example  
When R012 is ON, logical AND operation is executed for the data of RW12 and the constant  
data HFF00, and the result is stored in D0030.  
If the data of RW12 is H3456, the result H3400 is stored in D0030.  
F
E
D
C
B
A
9
8
7
6
5
4
3
2
1
0
RW12  
0 0 1 1 0 1 0 0 0 1 0 1 0 1 1 0  
3
4
5
6
AND  
Constant 1 1 1 1 1 1 1 1 0 0 0 0 0 0 0 0  
F
F
0
0
D0030  
0 0 1 1 0 1 0 0 0 0 0 0 0 0 0 0  
3
4
0
0
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7. Instructions  
FUN 050  
OR  
OR  
Expression  
Input [ A OR B C ]Output  
Function  
When the input is ON, this instruction finds logical OR of A and B, and stores the result in C.  
Execution condition  
Input  
Operation  
Output  
OFF  
ON  
OFF No execution  
ON  
Execution  
Operand  
Name  
Device  
Register  
Constant Index  
X
Y
R
S
T. C. XW YW RW SW T  
C
D
I
J
K
A Source  
B source  
C OR  
Example  
When R012 is ON, logical OR operation is executed for the data of RW13 and RW20, and the  
result is stored in D0031.  
If the data of RW13 is H5678 and RW20 is H4321, the result H5779 is stored in D0031.  
F
E
D
C
B
A
9
8
7
6
5
4
3
2
1
0
RW13  
RW20  
D0031  
0 1 0 1 0 1 1 0 0 1 1 1 1 0 0 0  
5
6
7
8
OR  
0 1 0 0 0 0 1 1 0 0 1 0 0 0 0 1  
4
3
2
1
0 1 0 1 0 1 1 1 0 1 1 1 1 0 0 1  
5
7
7
9
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7. Instructions  
FUN 052  
EOR  
Exclusive OR  
Expression  
Input [ A EOR B C ]Output  
Function  
When the input is ON, this instruction finds exclusive OR oAf and B, and stores the result in C.  
Execution condition  
Input  
Operation  
Output  
OFF  
ON  
OFF No execution  
ON  
Execution  
Operand  
Name  
Device  
Register  
Constant Index  
X
Y
R
S
T. C. XW YW RW SW T  
C
D
I
J
K
A Source  
B source  
C Exclusive OR  
Example  
When R012 is ON, exclusive OR operation is executed for the data of D1000 and D0300, and  
the result is stored in D1000.  
If the data of D1000 is H5678 and D0300 is H4321, the result H1559 is stored in D1000.  
F
E
D
C
B
A
9
8
7
6
5
4
3
2
1
0
D1000  
D0300  
D1000  
0 1 0 1 0 1 1 0 0 1 1 1 1 0 0 0  
5
6
7
8
Exclusive OR  
0 1 0 0 0 0 1 1 0 0 1 0 0 0 0 1  
4
3
2
1
0 0 0 1 0 1 0 1 0 1 0 1 1 0 0 1  
1
5
5
9
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7. Instructions  
FUN 056  
MAVE  
Moving average  
Expression  
Input [ A MAVE (n) B C ]Output  
Function  
When the input is ON, this instruction calculates the average value of the latestn scan’s register A  
data, and stores it in C. The allowable range ofn is 1 to 64.  
This instruction is useful for filtering the analog input signal.  
The latest n scan’s data of A are stored in n registers starting with B, and C+1 are used as pointer.  
Execution condition  
Input  
Operation  
Output  
OFF  
ON  
OFF No execution  
ON  
Execution  
Operand  
Name  
Device  
Register  
Constant Index  
X
Y
R
S
T. C. XW YW RW SW T  
C
D
I
J
K
A Input data  
n Data size  
1 - 64  
B Start of table  
C Output data  
Example  
The latest 5 scan’s data of XW04 is stored in D0900 to D0904 (5 registers), and the average  
value of them is calculated and stored in D0010.  
D0011 is used as internal work data.  
XW04  
1000  
D0010  
200 = (1000) / 5  
1st scan  
2nd scan  
3rd scan  
4th scan  
5th scan  
6th scan  
7th scan  
8th scan  
1005  
1009  
1012  
1007  
1004  
998  
401 = (1000 + 1005) / 5  
603 = (1000 + 1005 + 1009) / 5  
805 = (1000 + 1005 + 1009 + 1012) / 5  
1006 = (1000 + 1005 + 1009 + 1012 + 1007) / 5  
1007 = (1005 + 1009 + 1012 + 1007 + 1004) / 5  
1006 = (1009 + 1012 + 1007 + 1004 + 998) / 5  
1003 = (1012 + 1007 + 1004 + 998 + 994) / 5  
994  
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7. Instructions  
FUN 061  
DFL  
Digital Filter  
Expression  
Input [ A DFL B C ]Output  
Function  
When the input is ON, this instruction calculates the following formula to perform digital filtering for  
input data A by filter constant by B, and stores the result in C.  
yn = 1FL ×xn +FL ×yn 1  
(
)
Here; xn is input data specified by A  
FL is filter constant, 1/10000 of data specified by B (data range: 0 to 9999)  
yn is output data to be stored in C  
yn-1 is output data at last scan  
This instruction is useful for filtering the analog input signal.C+1 is used for internal work data.  
Execution condition  
Input  
Operation  
Output  
OFF  
ON  
OFF No execution  
ON  
Execution (FL is limited within the range of 0 to  
9999)  
Operand  
Name  
Device  
Register  
Constant Index  
X
Y
R
S
T. C. XW YW RW SW T  
C
D
I
J
K
A Input data  
B Filter constant  
C Output data  
Example  
The filtered data of XW04 is stored in D0110. (D0111 is used for internal work data)  
When D0100 value is small  
XW04  
When D0100 value is large  
XW04  
D0110  
D0110  
Time  
Time  
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7. Instructions  
FUN 062  
HTOA  
Hex to ASCII conversion  
Expression  
Input [ A HTOA (n) B ]Output  
Function  
When the input is ON, the hexadecimal data of n registers starting with A is converted into ASCII  
characters and stored in B and after. The uppermost digit of source A is stored in lower byte of  
destination B, and followed in this order. The allowable range ofn is 1 to 32.  
Execution condition  
Input  
Operation  
Output  
OFF  
ON  
OFF No execution  
ON  
Execution  
Operand  
Name  
Device  
Register  
Constant Index  
X
Y
R
S
T. C. XW YW RW SW T  
C
D
I
J
K
A Source  
n Data size  
B Destination  
1 - 32  
Example  
When R010 is ON, 4 words data of D0100 to D0103 are converted into ASCII characters, and  
stored in 8 words registers starting with D0200.  
F
0
F
8
7
0
D0100  
D0101  
D0102  
D0103  
H0123  
H4567  
H89AB  
HCDEF  
D0220  
D0221  
D0222  
D0223  
D0224  
D0225  
D0226  
D0227  
“1” (H31)  
“3” (H33)  
“5” (H35)  
“7” (H37)  
“9” (H39)  
“B” (H42)  
“D” (H44)  
“F” (H46)  
“0” (H30)  
“2” (H32)  
“4” (H34)  
“6” (H36)  
“8” (H38)  
“A” (H41)  
“C” (H43)  
“E” (H45)  
Converted  
Note  
If index register (I, J or K) is used for the operand A, only n = 1 is allowed. Otherwise,  
boundary error will occur.  
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7. Instructions  
FUN 063  
ATOH  
ASCII to Hex conversion  
Expression  
Input [ A ATOH (n) B ]Output  
Function  
When the input is ON, the ASCII characters stored in n registers starting with A is converted into  
hexadecimal data and stored in B and after. The lower byte of source A is stored as uppermost  
digit of destination B, and followed in this order. The allowable ASCII character in the source table  
is “0” (H30) to “9” (H39) and “A” (H41) to “F” (H46). The allowable range ofn is 1 to 64.  
Execution condition  
Input  
Operation  
Output  
OFF  
ON  
ERF  
Set  
OFF No execution  
ON  
Normal execution  
Conversion data error (no execution)  
OFF  
Operand  
Name  
Device  
Register  
Constant Index  
X
Y
R
S
T. C. XW YW RW SW T  
C
D
I
J
K
A Source  
n Data size  
B Destination  
1 - 64  
Example  
When R011 is ON, the ASCII characters stored in 8 words of D0300 to D0307 are converted  
into hexadecimal data, and stored in 4 words registers starting with RW040.  
F
8
7
0
F
0
D0300  
D0301  
D0302  
D0303  
D0304  
D0305  
D0306  
D0307  
“1” (H31)  
“3” (H33)  
“5” (H35)  
“7” (H37)  
“9” (H39)  
“B” (H42)  
“D” (H44)  
“F” (H46)  
“0” (H30)  
“2” (H32)  
“4” (H34)  
“6” (H36)  
“8” (H38)  
“A” (H41)  
“C” (H43)  
“E” (H45)  
RW040  
RW041  
RW042  
RW043  
H0123  
H4567  
H89AB  
HCDEF  
Converted  
Note  
If index register (I, J or K) is used for the operand A, only n = 1 is allowed.  
If n is odd number, lower 2 digits of the last converted data will not be fixed, Use even for n.  
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7. Instructions  
FUN 064  
TEST  
Bit test  
Expression  
Input [ A TEST B ]Output  
Function  
When the input is ON, this instruction finds logical AND of A and B. Then if the result is not 0, sets  
the output to ON.  
Execution condition  
Input  
Operation  
Output  
OFF  
ON  
OFF No execution  
ON  
Execution When the result is not 0  
When the result is 0  
OFF  
Operand  
Name  
Device  
Register  
Constant Index  
X
Y
R
S
T. C. XW YW RW SW T  
C
D
I
J
K
A Source  
B Test data  
Example  
Logical AND operation is executed for the data of RW07 and the constant data H0FFF, and if  
the result is not 0, R00A is turned ON. (R00A is turned ON when any device from R070 to  
R07B is ON.)  
If the data of RW07 is H4008, R00A is turned ON.  
F
E
D
C
B
A
9
8
7
6
5
4
3
2
1
0
RW07  
0 1 0 0 0 0 0 0 0 0 0 0 1 0 0 0  
4
0
0
8
AND  
Constant 0 0 0 0 1 1 1 1 1 1 1 1 1 1 1 1  
0
F
F
F
Result is not 0  
Result  
0 0 0 0 0 0 0 0 0 0 0 0 1 0 0 0  
R00A comes ON  
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7. Instructions  
FUN 068  
SHR1  
1 bit shift right  
Expression  
Input [ SHR1 A ]Output  
Function  
When the input is ON, the data of register A is shifted 1 bit to the right (LSB direction). 0 is stored in  
the left most bit (MSB). The pushed out bit state is stored in the carry flag (CF = S050). After the  
operation, if the right most bit (LSB) is ON, the output is turned ON.  
Execution condition  
Input  
Operation  
Output  
OFF  
ON  
CF  
Set or reset  
Set or reset  
OFF No execution  
ON  
Execution When LSB = 1  
When LSB = 0  
OFF  
Operand  
Name  
Device  
Register  
Constant Index  
X
Y
R
S
T. C. XW YW RW SW T  
C
D
I
J
K
A Operation data  
Example  
When X007 is changed from OFF to ON, the data of RW15 is shifted 1 bit to the right.  
The figure below shows an operation example.  
(MSB)  
F
(LSB)  
E
D
C
B
A
9
8
7
6
5
4
3
2
1
0
RW15  
0 1 0 0 0 0 1 0 1 0 0 0 1 0 1 0  
CF  
0
RW15  
0 0 1 0 0 0 0 1 0 1 0 0 0 1 0 1  
(Result)  
0
R001 is turned ON  
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7. Instructions  
FUN 069  
SHL1  
1 bit shift left  
Expression  
Input [ SHL1 A ]Output  
Function  
When the input is ON, the data of register A is shifted 1 bit to the left (MSB direction). 0 is stored in  
the right most bit (LSB). The pushed out bit state is stored in the carry flag (CF = S050). After the  
operation, if the left most bit (MSB) is ON, the output is turned ON.  
Execution condition  
Input  
Operation  
Output  
OFF  
ON  
CF  
Set or reset  
Set or reset  
OFF No execution  
ON  
Execution When MSB = 1  
When MSB = 0  
OFF  
Operand  
Name  
Device  
Register  
Constant Index  
X
Y
R
S
T. C. XW YW RW SW T  
C
D
I
J
K
A Operation data  
Example  
When X008 is changed from OFF to ON, the data of RW15 is shifted 1 bit to the left.  
The figure below shows an operation example.  
(MSB)  
F
(LSB)  
0
E
D
C
B
A
9
8
7
6
5
4
3
2
1
1 1 1 0 0 1 1 1 0 0 1 1 1 0 1 0  
RW15  
CF  
1
RW15 (Result)  
1 1 0 0 1 1 1 0 0 1 1 1 0 1 0 0  
R002 is turned ON  
0
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7. Instructions  
FUN 070  
SHR  
n bit shift right  
Expression  
Input [ A SHR n B ]Output  
Function  
When the input is ON, the data of register A is shifted n bits to the right (LSB direction) including  
the carry flag (CF = S050), and stored in B. 0 is stored in upper n bits. After the operation, if the  
right most bit (LSB) is ON, the output is turned ON.  
Execution condition  
Input  
Operation  
Output  
OFF  
ON  
CF  
Set or reset  
Set or reset  
OFF No execution  
ON  
Execution When LSB = 1  
When LSB = 0  
OFF  
Operand  
Name  
Device  
Register  
Constant Index  
X
Y
R
S
T. C. XW YW RW SW T  
C
D
I
J
K
A Source  
n Shift bits  
B Destination  
1 - 16  
Example  
When X007 is changed from OFF to ON, the data of RW18 is shifted 5 bits to the right and the  
result is stored in RW20.  
The figure below shows an operation example.  
(MSB)  
F
(LSB)  
E
D
C
B
A
9
8
7
6
5
4
3
2
1
0
RW18  
0 1 0 0 0 0 1 0 1 0 0 1 1 0 1 0  
CF  
1
RW20  
0 0 0 0 0 0 1 0 0 0 0 1 0 1 0 0  
(Result)  
0
R001 is turned OFF  
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7. Instructions  
FUN 071  
SHL  
n bit shift left  
Expression  
Input [ A SHL n B ]Output  
Function  
When the input is ON, the data of register A is shifted n bits to the left (MSB direction) including the  
carry flag (CF = S050), and stored in B. 0 is stored in lower n bits. After the operation, if the left  
most bit (MSB) is ON, the output is turned ON.  
Execution condition  
Input  
Operation  
Output  
OFF  
ON  
CF  
Set or reset  
Set or reset  
OFF No execution  
ON  
Execution When MSB = 1  
When MSB = 0  
OFF  
Operand  
Name  
Device  
Register  
Constant Index  
X
Y
R
S
T. C. XW YW RW SW T  
C
D
I
J
K
A Source  
n Shift bits  
B Destination  
1 - 16  
Example  
When X008 is changed from OFF to ON, the data of RW18 is shifted 3 bits to the left and the  
result is stored in RW20.  
The figure below shows an operation example.  
(MSB)  
F
(LSB)  
0
E
D
C
B
A
9
8
7
6
5
4
3
2
1
1 0 1 0 0 1 1 1 0 0 1 1 1 0 1 0  
RW18  
CF  
1
RW20 (Result)  
0 0 1 1 1 0 0 1 1 1 0 1 0 0 0 0  
R002 is turned OFF  
0
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7. Instructions  
FUN 074  
SR  
Shift register  
Expression  
Data input  
Shift input  
Enable input E  
D SR Q Output  
S (n)  
A
Function  
While the enable input is ON, this instruction shifts the data of the bit table, size n starting with A,  
1 bit to the left (upper address direction) when the shift input is ON. The state of the data input is  
stored in A. The pushed out bit state is stored in the carry flag (CF = S050).  
When the enable input is OFF, all bits in the table and the carry flag are reset to OFF.  
Execution condition  
Enable  
input  
Operation  
Output  
OFF  
CF  
OFF Resets all bits in the bit table  
Reset  
ON  
When the shift input is ON  
When the shift input is OFF  
Shift execution  
No execution  
Last bit Set or reset  
state  
Operand  
Name  
Device  
Register  
Constant Index  
1 - 64  
X
Y
R
S
T. C. XW YW RW SW T  
C
D
I
J
K
A Leading device  
n Device size  
Example  
32 devices starting with R100 (R100 to R11F) is specified as a shift register.  
When R010 is OFF, the data of the shift register is reset to 0. (R100 to R11F are reset to OFF)  
The carry flag (CF = S050) is also reset to OFF.  
While R010 is ON, the data of the shift register is shifted 1 bit to the upper address direction  
when X009 is changed from OFF to ON. At the same time, the state of X008 is stored in the  
leading bit (R100).  
The output (R011) indicates the state of the last bit (R11F).  
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7. Instructions  
The figure below shows an operation example. (When X009 is changed from OFF to ON)  
CF  
R11F R11E R11D R11C  
R103 R102 R101 R100  
X008  
1
0
0
0
0
1
1
0
0
0
1
1
1
1
0
0
1
Shift result  
R011 is turned OFF  
Note  
When the shift input is ON, the shift operation is performed every scan. Use a transitional  
contact for the shift input to detect the state changing.  
For the data input and the shift input, direct linking to a connecting point is not allowed. In this  
case, insert a dummy contact (always ON special device = S04F, etc.) just before the input.  
( )  
D SR  
S (n)  
E
Q
Not allowed  
A
Dummy contact  
( )  
D SR  
S (n)  
E
Q
Allowed  
A
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7. Instructions  
FUN 075  
DSR  
Bi-directional shift register  
Expression  
Data input  
Shift input  
Enable input  
D DSR Q Output  
S (n)  
E  
Direction input L  
A
Function  
While the enable input (E) is ON, this instruction shifts the data of the bit table, size n starting with  
A, 1 bit when the shift input (S) is ON. The shift direction is determined by the state of the direction  
input (L).  
When L is OFF, the direction is right (lower address direction).  
When L is ON, the direction is left (upper address direction).  
The state of the data input (D) is stored in the highest bit if right shift, and stored in the lowest bit A  
if left shift. The pushed out bit state is stored in the carry flag (CF = S050).  
When the enable input (E) is OFF, all bits in the table and the carry flag are reset to OFF.  
Execution condition  
Enable  
input  
Operation  
Output  
OFF  
CF  
OFF Resets all bits in the bit table  
Reset  
ON  
S = ON  
L = ON  
L = OFF  
Shift left execution  
Shift right execution  
Highest bit state Set or reset  
Lowest bit state Set or reset  
S = OFF No execution  
Highest bit state  
Operand  
Name  
Device  
Register  
Constant Index  
1 - 64  
X
Y
R
S
T. C. XW YW RW SW T  
C
D
I
J
K
A Leading device  
n Device size  
Example  
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7. Instructions  
9 devices starting with R200 (R200 to R208) is specified as a shift register.  
When R010 is OFF, the data of the shift register is reset to 0. (R200 to R208 are reset to OFF)  
The carry flag (CF = S050) is also reset to OFF.  
While R010 is ON the following operation is enabled.  
When X00A is ON (shift left), the data of the shift register is shifted 1 bit to the upper  
address direction when X009 is changed from OFF to ON. At the same time, the state of  
X008 is stored in the leading bit (R200). The output (R012) indicates the state of the highest  
bit (R208).  
When X00A is OFF (shift right), the data of the shift register is shifted 1 bit to the lower  
address direction when X009 is changed from OFF to ON. At the same time, the state of  
X008 is stored in the highest bit (R208). The output (R012) indicates the state of the lowest  
bit (R200).  
The figure below shows an operation example.  
(When X00A is ON and X009 is changed from OFF to ON)  
CF  
R208 R207 R206 R205 R204 R203 R202 R201 R200  
X008  
1
0
0
1
1
0
0
1
1
0
1
0
0
1
1
0
0
1
1
0
Shift result  
R012 is turned OFF  
(When X00A is OFF and X009 is changed from OFF to ON)  
X008  
R208 R207 R206 R205 R204 R203 R202 R201 R200  
CF  
1
0
0
1
1
0
0
1
1
0
Shift result  
1
0
0
1
1
0
0
1
1
0
R012 is turned ON  
Note  
When the shift input is ON, the shift operation is performed every scan. Use a transitional  
contact for the shift input to detect the state changing.  
For the data input, the shift input and the enable input, direct linking to a connecting point is not  
allowed. In this case, insert a dummy contact (always ON special device = S04F, etc.) just  
before the input. Refer to Note of Shift register FUN 074.  
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7. Instructions  
FUN 078  
RTR1  
1 bit rotate right  
Expression  
Input [ RTR1 A ]Output  
Function  
When the input is ON, the data of register A is rotated 1 bit to the right (LSB direction). The pushed  
out bit state is stored in the left most bit (MSB) and in the carry flag (CF = S050). After the  
operation, if the right most bit (LSB) is ON, the output is turned ON.  
Execution condition  
Input  
Operation  
Output  
OFF  
ON  
CF  
Set or reset  
Set or reset  
OFF No execution  
ON  
Execution When LSB = 1  
When LSB = 0  
OFF  
Operand  
Name  
Device  
Register  
Constant Index  
X
Y
R
S
T. C. XW YW RW SW T  
C
D
I
J
K
A Operation data  
Example  
When X007 is changed from OFF to ON, the data of RW15 is rotated 1 bit to the right.  
The figure below shows an operation example.  
(MSB)  
F
(LSB)  
E
D
C
B
A
9
8
7
6
5
4
3
2
1
0
RW15  
0 1 0 0 0 0 1 0 1 0 0 0 1 0 1 0  
CF  
0
RW15  
0 0 1 0 0 0 0 1 0 1 0 0 0 1 0 1  
(Result)  
R001 is turned ON  
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7. Instructions  
FUN 079  
RTL1  
1 bit rotate left  
Expression  
Input [ RTL1 A ]Output  
Function  
When the input is ON, the data of register A is rotated 1 bit to the left (MSB direction). The pushed  
out bit state is stored in the right most bit (LSB) and in the carry flag (CF = S050). After the  
operation, if the left most bit (MSB) is ON, the output is turned ON.  
Execution condition  
Input  
Operation  
Output  
OFF  
ON  
CF  
Set or reset  
Set or reset  
OFF No execution  
ON  
Execution When MSB = 1  
When MSB = 0  
OFF  
Operand  
Name  
Device  
Register  
Constant Index  
X
Y
R
S
T. C. XW YW RW SW T  
C
D
I
J
K
A Operation data  
Example  
When X008 is changed from OFF to ON, the data of RW15 is rotated 1 bit to the left.  
The figure below shows an operation example.  
(MSB)  
F
(LSB)  
0
E
D
C
B
A
9
8
7
6
5
4
3
2
1
1 1 1 0 0 1 1 1 0 0 1 1 1 0 1 0  
1 1 0 0 1 1 1 0 0 1 1 1 0 1 0 1  
R002 is turned ON  
RW15  
CF  
1
RW15 (Result)  
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7. Instructions  
FUN 080  
RTR  
n bit rotate right  
Expression  
Input [ A RTR n B ]Output  
Function  
When the input is ON, the data of register A is rotated n bits to the right (LSB direction), and stored  
in B. After the operation, if the right most bit (LSB) is ON, the output is turned ON.  
Execution condition  
Input  
Operation  
Output  
OFF  
ON  
CF  
Set or reset  
Set or reset  
OFF No execution  
ON  
Execution When LSB = 1  
When LSB = 0  
OFF  
Operand  
Name  
Device  
Register  
Constant Index  
X
Y
R
S
T. C. XW YW RW SW T  
C
D
I
J
K
A Source  
n Shift bits  
B Destination  
1 - 16  
Example  
When X007 is changed from OFF to ON, the data of RW18 is rotated 5 bits to the right and the  
result is stored in RW20.  
The figure below shows an operation example.  
(MSB)  
F
(LSB)  
E
D
C
B
A
9
8
7
6
5
4
3
2
1
0
RW18  
0 1 0 0 0 0 1 0 1 0 0 1 1 0 1 0  
CF  
1
RW20  
1 1 0 1 0 0 1 0 0 0 0 1 0 1 0 0  
(Result)  
R001 is turned OFF  
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7. Instructions  
FUN 081  
RTL  
n bit rotate left  
Expression  
Input [ A RTL n B ]Output  
Function  
When the input is ON, the data of register A is rotated n bits to the left (MSB direction), and stored  
in B. After the operation, if the left most bit (MSB) is ON, the output is turned ON.  
Execution condition  
Input  
Operation  
Output  
OFF  
ON  
CF  
Set or reset  
Set or reset  
OFF No execution  
ON  
Execution When MSB = 1  
When MSB = 0  
OFF  
Operand  
Name  
Device  
Register  
Constant Index  
X
Y
R
S
T. C. XW YW RW SW T  
C
D
I
J
K
A Source  
n Shift bits  
B Destination  
1 - 16  
Example  
When X008 is changed from OFF to ON, the data of RW18 is rotated 3 bits to the left and the  
result is stored in RW20.  
The figure below shows an operation example.  
(MSB)  
F
(LSB)  
0
E
D
C
B
A
9
8
7
6
5
4
3
2
1
1 0 1 0 0 1 1 1 0 0 1 1 1 0 1 0  
0 0 1 1 1 0 0 1 1 1 0 1 0 1 0 1  
R002 is turned OFF  
RW18  
CF  
1
RW20 (Result)  
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7. Instructions  
FUN 090  
MPX  
Multiplexer  
Expression  
Input [ A MPX (n) B C ]Output  
Function  
When the input is ON, the data of the register which is designated by B in the table, size n starting  
with A, is transferred to C.  
Execution condition  
Input  
Operation  
Output  
OFF  
OFF  
ON  
OFF No execution  
ON  
Normal execution  
Pointer over (no execution)  
Operand  
Name  
Device  
Register  
Constant Index  
X
Y
R
S
T. C. XW YW RW SW T  
C
D
I
J
K
A Start of table  
n Table size  
B Pointer  
1 - 64  
0 - 63  
C Destination  
Example  
When R010 is ON, the register data which is designated by RW30 is read from the table  
D0500 to D0509 (10 registers size), and stored in D0005.  
If the data of RW30 is 7, D0507 data is transferred to D0005.  
Source table  
D0500  
D0501  
Pointer  
Destination  
D0005  
0
1
12345  
D0507  
D0508  
D0509  
12345  
7
8
9
Note  
If the pointer data designates outside the table (10 or more in the above example), the transfer  
is not executed and the output comes ON.  
The table must be within the effective range of the register address.  
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7. Instructions  
FUN 091  
DPX  
Demultiplexer  
Expression  
Input [ A DPX (n) B C ]Output  
Function  
When the input is ON, the data of A is transferred to the register which is designated byB in the  
table, size n starting with C.  
Execution condition  
Input  
Operation  
Output  
OFF  
OFF  
ON  
OFF No execution  
ON  
Normal execution  
Pointer over (no execution)  
Operand  
Name  
Device  
Register  
Constant Index  
X
Y
R
S
T. C. XW YW RW SW T  
C
D
I
J
K
A Source  
n Table size  
B Pointer  
C Start of table  
1 - 64  
0 - 63  
Example  
When R011 is ON, the data of XW04 is transferred to the register which is designated by  
RW30 in the table D0500 to D0509 (10 registers size).  
If the data of RW30 is 8, XW04 data is transferred to D0508.  
Source  
XW04  
Destination table Pointer  
3210  
D0500  
D0501  
0
1
D0507  
D0508  
D0509  
7
8
9
3210  
Note  
If the pointer data designates outside the table (10 or more in the above example), the transfer  
is not executed and the output comes ON.  
The table must be within the effective range of the register address.  
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7. Instructions  
FUN 096  
Greater than  
>
Expression  
Input [ A > B ]Output  
Function  
When the input is ON, the data of A and the data of B are compared, and if A is greater than B, the  
output is turned ON.  
Execution condition  
Input  
Operation  
Output  
OFF  
ON  
OFF No execution  
ON  
Execution  
A > B  
A B  
OFF  
Operand  
Name  
Device  
Register  
Constant Index  
X
Y
R
S
T. C. XW YW RW SW T  
C
D
I
J
K
A Compared  
data  
B Reference  
data  
Example  
When R00C is ON, the data of D0125 is compared with the constant data 2500, and if the data  
of D0125 is greater than 2500, R020 is turned ON.  
If the data of D0125 is 3000, the comparison result is true. Consequently, R020 is turned ON.  
D0125  
If the data of D0125 is -100, the comparison result is false. Consequently, R020 is turned OFF.  
D0125 -100 Constant 2500 R020 is OFF  
Note  
3000  
>
Constant 2500  
R020 is ON  
This instruction deals with the data as signed integer (-32768 to 32767).  
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7. Instructions  
FUN 097  
Greater than or equal  
>=  
Expression  
Input [ A >= B ]Output  
Function  
When the input is ON, the data of A and the data of B are compared, and if A is greater than or  
equal to B, the output is turned ON.  
Execution condition  
Input  
Operation  
Output  
OFF  
ON  
OFF No execution  
ON  
Execution  
A B  
A < B  
OFF  
Operand  
Name  
Device  
Register  
Constant Index  
X
Y
R
S
T. C. XW YW RW SW T  
C
D
I
J
K
A Compared  
data  
B Reference  
data  
Example  
When R00C is ON, the data of D0125 is compared with the data of D0020, and if the data of  
D0125 is greater than or equal to the data of D0020, R020 is turned ON.  
If the data of D0125 is 3000 and that of D0020 is 3000, the comparison result is true.  
Consequently, R020 is turned ON.  
D0125  
3000  
D0020  
3000  
R020 is ON  
If the data of D0125 is -1500 and that of D0020 is 0, the comparison result is false.  
Consequently, R020 is turned OFF.  
D0125  
-1500  
<
D0020  
0
R020 is OFF  
Note  
This instruction deals with the data as signed integer (-32768 to 32767).  
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7. Instructions  
FUN 098  
Equal  
=
Expression  
Input [ A = B ]Output  
Function  
When the input is ON, the data of A and the data of B are compared, and if A is equal to B, the  
output is turned ON.  
Execution condition  
Input  
Operation  
Output  
OFF  
ON  
OFF No execution  
ON  
Execution  
A = B  
A B  
OFF  
Operand  
Name  
Device  
Register  
Constant Index  
X
Y
R
S
T. C. XW YW RW SW T  
C
D
I
J
K
A Compared  
data  
B Reference  
data  
Example  
When R00C is ON, the data of D0125 is compared with the data of D0030, and if the data of  
D0125 is equal to the data of D0030, R020 is turned ON.  
If the data of D0125 is 3000 and that of D0020 is 3000, the comparison result is true.  
Consequently, R020 is turned ON.  
D0125  
3000  
=
D0030  
3000  
R020 is ON  
If the data of D0125 is -1500 and that of D0020 is 0, the comparison result is false.  
Consequently, R020 is turned OFF.  
D0125  
Note  
-1500  
D0030  
0
R020 is OFF  
This instruction deals with the data as signed integer (-32768 to 32767).  
180 T1-16S User’s Manual  
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6F3B0253  
7. Instructions  
FUN 099  
Not equal  
<>  
Expression  
Input [ A <> B ]Output  
Function  
When the input is ON, the data of A and the data of B are compared, and if A is not equal to B, the  
output is turned ON.  
Execution condition  
Input  
Operation  
Output  
OFF  
ON  
OFF No execution  
ON  
Execution  
A B  
A = B  
OFF  
Operand  
Name  
Device  
Register  
Constant Index  
X
Y
R
S
T. C. XW YW RW SW T  
C
D
I
J
K
A Compared  
data  
B Reference  
data  
Example  
When R00C is ON, the data of D0125 is compared with the constant data 0, and if the data of  
D0125 is not 0, R020 is turned ON.  
If the data of D0125 is 10, the comparison result is true. Consequently, R020 is turned ON.  
D0125  
If the data of D0125 is 0, the comparison result is false. Consequently, R020 is turned OFF.  
D0125 Constant R020 is OFF  
10  
Constant  
0
R020 is ON  
0
=
0
Note  
This instruction deals with the data as signed integer (-32768 to 32767).  
Basic Hardware and Function 181  
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6F3B0253  
7. Instructions  
FUN 100  
Less than  
<
Expression  
Input [ A < B ]Output  
Function  
When the input is ON, the data of A and the data of B are compared, and if A is less than B, the  
output is turned ON.  
Execution condition  
Input  
Operation  
Output  
OFF  
ON  
OFF No execution  
ON  
Execution  
A < B  
A B  
OFF  
Operand  
Name  
Device  
Register  
Constant Index  
X
Y
R
S
T. C. XW YW RW SW T  
C
D
I
J
K
A Compared  
data  
B Reference  
data  
Example  
When R00C is ON, the data of D0125 is compared with the data of D0040, and if the data of  
D0125 is less than the data of D0040, R020 is turned ON.  
If the data of D0125 is 10 and that of D0040 is 15, the comparison result is true. Consequently,  
R020 is turned ON.  
D0125  
10  
<
D0040  
15  
R020 is ON  
If the data of D0125 is 0 and that of D0040 is -50, the comparison result is false.  
Consequently, R020 is turned OFF.  
D0125  
Note  
0
D0040  
0
R020 is OFF  
This instruction deals with the data as signed integer (-32768 to 32767).  
182 T1-16S User’s Manual  
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6F3B0253  
7. Instructions  
FUN 101  
Less than or equal  
<=  
Expression  
Input [ A <= B ]Output  
Function  
When the input is ON, the data of A and the data of B are compared, and if A is less than or equal  
to B, the output is turned ON.  
Execution condition  
Input  
Operation  
Output  
OFF  
ON  
OFF No execution  
ON  
Execution  
A B  
A > B  
OFF  
Operand  
Name  
Device  
Register  
Constant Index  
X
Y
R
S
T. C. XW YW RW SW T  
C
D
I
J
K
A Compared  
data  
B Reference  
data  
Example  
When R00C is ON, the data of D0125 is compared with the constant data -100, and if the data  
of D0125 is less than or equal to -100, R020 is turned ON.  
If the data of D0125 is -150, the comparison result is true. Consequently, R020 is turned ON.  
D0125  
If the data of D0125 is 0, the comparison result is false. Consequently, R020 is turned OFF.  
D0125 Constant -100 R020 is OFF  
-150  
<
Constant  
-100  
R020 is ON  
0
Note  
This instruction deals with the data as signed integer (-32768 to 32767).  
Basic Hardware and Function 183  
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6F3B0253  
7. Instructions  
FUN 102  
Double-word greater than  
D>  
Expression  
Input [ A+1A D> B+1B ]Output  
Function  
When the input is ON, the double-word data of A+1A and B+1B are compared, and if A+1A is  
greater than B+1B, the output is turned ON.  
Execution condition  
Input  
Operation  
Output  
OFF  
ON  
OFF No execution  
ON  
Execution  
A+1A > B+1B  
A+1A B+1B  
OFF  
Operand  
Name  
Device  
Register  
Constant Index  
X
Y
R
S
T. C. XW YW RW SW T  
C
D
I
J
K
A Compared  
data  
B Reference  
data  
Example  
When R010 is ON, the data of D0101D0100 is compared with the constant data 200000, and  
if the data of D0101D0100 is greater than 200000, R014 is turned ON.  
If the data of D0101D0100 is 250000, the comparison result is true. Consequently, R014 is  
turned ON.  
D0101D0100  
250000  
>
Constant  
200000  
R014 is ON  
If the data of D0101D0100 is -100, the comparison result is false. Consequently, R014 is  
turned OFF.  
D0101D0100  
Note  
-100  
Constant  
200000  
R014 is OFF  
This instruction deals with the data as double-word integer (-2147483648 to 2147483647).  
184 T1-16S User’s Manual  
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6F3B0253  
7. Instructions  
FUN 103  
Double-word greater than or equal  
D>=  
Expression  
Input [ A+1A D>= B+1B ]Output  
Function  
When the input is ON, the double-word data of A+1A and B+1B are compared, and if A+1A is  
greater than or equal to B+1B, the output is turned ON.  
Execution condition  
Input  
Operation  
Output  
OFF  
ON  
OFF No execution  
ON  
Execution  
A+1A B+1B  
A+1A < B+1B  
OFF  
Operand  
Name  
Device  
Register  
Constant Index  
X
Y
R
S
T. C. XW YW RW SW T  
C
D
I
J
K
A Compared  
data  
B Reference  
data  
Example  
When R010 is ON, the double-word data of D0101D0100 is compared with the double-word  
data of D0251D0250, and if the data of D0101D0100 is greater than or equal to the data of  
D0251D0250, R014 is turned ON.  
If the data of D0101D0100 is 250000 and D0251D0250 is 200000, R014 is turned ON.  
D0101D0100  
If the data of D0101D0100 is -100 and D0251D0250 is 0, R014 is turned OFF.  
D0101D0100 -100 D0251D0250  
Note  
250000  
D0251D0250  
200000  
R014 is ON  
<
0
R014 is OFF  
This instruction deals with the data as double-word integer (-2147483648 to 2147483647).  
Basic Hardware and Function 185  
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6F3B0253  
7. Instructions  
FUN 104  
Double-word equal  
D=  
Expression  
Input [ A+1A D= B+1B ]Output  
Function  
When the input is ON, the double-word data of A+1A and B+1B are compared, and if A+1A is  
equal to B+1B, the output is turned ON.  
Execution condition  
Input  
Operation  
Output  
OFF  
ON  
OFF No execution  
ON  
Execution  
A+1A = B+1B  
A+1A B+1B  
OFF  
Operand  
Name  
Device  
Register  
Constant Index  
X
Y
R
S
T. C. XW YW RW SW T  
C
D
I
J
K
A Compared  
data  
B Reference  
data  
Example  
When R010 is ON, the double-word data of D0101D0100 is compared with the double-word  
data of D0251D0250, and if the data of D0101D0100 is equal to the data of D0251D0250,  
R014 is turned ON.  
If the data of D0101D0100 is 250000 and D0251D0250 is 250000, R014 is turned ON.  
D0101D0100  
If the data of D0101D0100 is -100 and D0251D0250 is 0, R014 is turned OFF.  
D0101D0100 -100 D0251D0250  
Note  
250000  
=
D0251D0250  
250000  
R014 is ON  
0
R014 is OFF  
This instruction deals with the data as double-word integer (-2147483648 to 2147483647).  
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6F3B0253  
7. Instructions  
FUN 105  
Double-word not equal  
D<>  
Expression  
Input [ A+1A D<> B+1B ]Output  
Function  
When the input is ON, the double-word data of A+1A and B+1B are compared, and if A+1A is not  
equal to B+1B, the output is turned ON.  
Execution condition  
Input  
Operation  
Output  
OFF  
ON  
OFF No execution  
ON  
Execution  
A+1A B+1B  
A+1A = B+1B  
OFF  
Operand  
Name  
Device  
Register  
Constant Index  
X
Y
R
S
T. C. XW YW RW SW T  
C
D
I
J
K
A Compared  
data  
B Reference  
data  
Example  
When R010 is ON, the double-word data of D0101D0100 is compared with the double-word  
data of D0251D0250, and if the data of D0101D0100 is not equal to the data of  
D0251D0250, R014 is turned ON.  
If the data of D0101D0100 is 250000 and D0251D0250 is 200000, R014 is turned ON.  
D0101D0100  
If the data of D0101D0100 is -100 and D0251D0250 is -100, R014 is turned OFF.  
D0101D0100 -100 D0251D0250 -100 R014 is OFF  
Note  
250000  
D0251D0250  
250000  
R014 is ON  
=
This instruction deals with the data as double-word integer (-2147483648 to 2147483647).  
Basic Hardware and Function 187  
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6F3B0253  
7. Instructions  
FUN 106  
Double-word less than  
D<  
Expression  
Input [ A+1A D< B+1B ]Output  
Function  
When the input is ON, the double-word data of A+1A and B+1B are compared, and if A+1A is  
less than B+1B, the output is turned ON.  
Execution condition  
Input  
Operation  
Output  
OFF  
ON  
OFF No execution  
ON  
Execution  
A+1A < B+1B  
A+1A B+1B  
OFF  
Operand  
Name  
Device  
Register  
Constant Index  
X
Y
R
S
T. C. XW YW RW SW T  
C
D
I
J
K
A Compared  
data  
B Reference  
data  
Example  
When R010 is ON, the data of D0101D0100 is compared with the constant data 427780, and  
if the data of D0101D0100 is less than 427780, R014 is turned ON.  
If the data of D0101D0100 is 250000, R014 is turned ON.  
D0101D0100  
If the data of D0101D0100 is 430000, R014 is turned OFF.  
D0101D0100 430000 Constant 427780  
Note  
250000  
<
Constant  
427780  
R014 is ON  
R014 is OFF  
This instruction deals with the data as double-word integer (-2147483648 to 2147483647).  
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6F3B0253  
7. Instructions  
FUN 107  
Double-word less than or equal  
D<=  
Expression  
Input [ A+1A D<= B+1B ]Output  
Function  
When the input is ON, the double-word data of A+1A and B+1B are compared, and if A+1A is  
less than or equal to B+1B, the output is turned ON.  
Execution condition  
Input  
Operation  
Output  
OFF  
ON  
OFF No execution  
ON  
Execution  
A+1A B+1B  
A+1A > B+1B  
OFF  
Operand  
Name  
Device  
Register  
Constant Index  
X
Y
R
S
T. C. XW YW RW SW T  
C
D
I
J
K
A Compared  
data  
B Reference  
data  
Example  
When R010 is ON, the data of D0101D0100 is compared with the constant data 0, and if the  
data of D0101D0100 is less than or equal to 0, R014 is turned ON.  
If the data of D0101D0100 is -1, R014 is turned ON.  
D0101D0100  
If the data of D0101D0100 is 10000, R014 is turned OFF.  
D0101D0100 10000 Constant  
Note  
-1  
Constant  
0
0
R014 is ON  
R014 is OFF  
>
This instruction deals with the data as double-word integer (-2147483648 to 2147483647).  
Basic Hardware and Function 189  
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6F3B0253  
7. Instructions  
FUN 108  
Unsigned greater than  
U>  
Expression  
Input [ A U> B ]Output  
Function  
When the input is ON, the data of A and the data of B are compared, and if A is greater than B, the  
output is turned ON.  
Execution condition  
Input  
Operation  
Output  
OFF  
ON  
OFF No execution  
ON  
Execution  
A > B  
A B  
OFF  
Operand  
Name  
Device  
Register  
Constant Index  
X
Y
R
S
T. C. XW YW RW SW T  
C
D
I
J
K
A Compared  
data  
B Reference  
data  
Example  
When R00C is ON, the data of D0125 is compared with the constant data 40000, and if the  
data of D0125 is greater than 40000, R020 is turned ON.  
If the data of D0125 is 52000, the comparison result is true. Consequently, R020 is turned ON.  
D0125 52000 Constant 40000 R020 is ON  
>
If the data of D0125 is 21000, the comparison result is false. Consequently, R020 is turned  
OFF.  
D0125  
Note  
21000  
Constant 40000  
R020 is OFF  
This instruction deals with the data as unsigned integer (0 to 65535).  
190 T1-16S User’s Manual  
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6F3B0253  
7. Instructions  
FUN 109  
Unsigned greater than or equal  
U>=  
Expression  
Input [ A >= B ]Output  
Function  
When the input is ON, the data of A and the data of B are compared, and if A is greater than or  
equal to B, the output is turned ON.  
Execution condition  
Input  
Operation  
Output  
OFF  
ON  
OFF No execution  
ON  
Execution  
A B  
A < B  
OFF  
Operand  
Name  
Device  
Register  
Constant Index  
X
Y
R
S
T. C. XW YW RW SW T  
C
D
I
J
K
A Compared  
data  
B Reference  
data  
Example  
When R00C is ON, the data of D0125 is compared with the data of D0020, and if the data of  
D0125 is greater than or equal to the data of D0020, R020 is turned ON.  
If the data of D0125 is 40000 and that of D0020 is 40000, the comparison result is true.  
Consequently, R020 is turned ON.  
D0125  
40000  
D0020  
40000  
R020 is ON  
If the data of D0125 is 15000 and that of D0020 is 20000, the comparison result is false.  
Consequently, R020 is turned OFF.  
D0125  
15000  
<
D0020  
20000  
R020 is OFF  
Note  
This instruction deals with the data as unsigned integer (0 to 65535).  
Basic Hardware and Function 191  
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6F3B0253  
7. Instructions  
FUN 110  
Unsigned equal  
U=  
Expression  
Input [ A U= B ]Output  
Function  
When the input is ON, the data of A and the data of B are compared, and if A is equal to B, the  
output is turned ON.  
Execution condition  
Input  
Operation  
Output  
OFF  
ON  
OFF No execution  
ON  
Execution  
A = B  
A B  
OFF  
Operand  
Name  
Device  
Register  
Constant Index  
X
Y
R
S
T. C. XW YW RW SW T  
C
D
I
J
K
A Compared  
data  
B Reference  
data  
Example  
When R00C is ON, the data of D0125 is compared with the data of D0030, and if the data of  
D0125 is equal to the data of D0030, R020 is turned ON.  
If the data of D0125 is 35000 and that of D0020 is 35000, the comparison result is true.  
Consequently, R020 is turned ON.  
D0125  
35000  
=
D0030  
35000  
R020 is ON  
If the data of D0125 is 1500 and that of D0020 is 4000, the comparison result is false.  
Consequently, R020 is turned OFF.  
D0125  
Note  
1500  
D0030  
4000  
R020 is OFF  
This instruction deals with the data as unsigned integer (0 to 65535).  
192 T1-16S User’s Manual  
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6F3B0253  
7. Instructions  
FUN 111  
Unsigned not equal  
U<>  
Expression  
Input [ A U<> B ]Output  
Function  
When the input is ON, the data of A and the data of B are compared, and if A is not equal to B, the  
output is turned ON.  
Execution condition  
Input  
Operation  
Output  
OFF  
ON  
OFF No execution  
ON  
Execution  
A B  
A = B  
OFF  
Operand  
Name  
Device  
Register  
Constant Index  
X
Y
R
S
T. C. XW YW RW SW T  
C
D
I
J
K
A Compared  
data  
B Reference  
data  
Example  
When R00C is ON, the data of D0125 is compared with the constant data 0, and if the data of  
D0125 is not 0, R020 is turned ON.  
If the data of D0125 is 41000, the comparison result is true. Consequently, R020 is turned ON.  
D0125  
If the data of D0125 is 0, the comparison result is false. Consequently, R020 is turned OFF.  
D0125 Constant R020 is OFF  
41000  
Constant  
0
R020 is ON  
0
=
0
Note  
This instruction deals with the data as unsigned integer (0 to 65535).  
Basic Hardware and Function 193  
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6F3B0253  
7. Instructions  
FUN 112  
Unsigned less than  
U<  
Expression  
Input [ A U< B ]Output  
Function  
When the input is ON, the data of A and the data of B are compared, and if A is less than B, the  
output is turned ON.  
Execution condition  
Input  
Operation  
Output  
OFF  
ON  
OFF No execution  
ON  
Execution  
A < B  
A B  
OFF  
Operand  
Name  
Device  
Register  
Constant Index  
X
Y
R
S
T. C. XW YW RW SW T  
C
D
I
J
K
A Compared  
data  
B Reference  
data  
Example  
When R00C is ON, the data of D0125 is compared with the data of D0040, and if the data of  
D0125 is less than the data of D0040, R020 is turned ON.  
If the data of D0125 is 43000 and that of D0040 is 45000, the comparison result is true.  
Consequently, R020 is turned ON.  
D0125  
43000  
<
D0040  
45000  
R020 is ON  
If the data of D0125 is 50000 and that of D0040 is 50000, the comparison result is false.  
Consequently, R020 is turned OFF.  
D0125  
Note  
50000  
D0040  
50000  
R020 is OFF  
This instruction deals with the data as unsigned integer (0 to 65535).  
194 T1-16S User’s Manual  
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6F3B0253  
7. Instructions  
FUN 113  
Unsigned less than or equal  
U<=  
Expression  
Input [ A U<= B ]Output  
Function  
When the input is ON, the data of A and the data of B are compared, and if A is less than or equal  
to B, the output is turned ON.  
Execution condition  
Input  
Operation  
Output  
OFF  
ON  
OFF No execution  
ON  
Execution  
A B  
A > B  
OFF  
Operand  
Name  
Device  
Register  
Constant Index  
X
Y
R
S
T. C. XW YW RW SW T  
C
D
I
J
K
A Compared  
data  
B Reference  
data  
Example  
When R00C is ON, the data of D0125 is compared with the constant data 35000, and if the  
data of D0125 is less than or equal to 35000, R020 is turned ON.  
If the data of D0125 is 35000, the comparison result is true. Consequently, R020 is turned ON.  
D0125 35000 Constant 35000 R020 is ON  
If the data of D0125 is 0, the comparison result is false. Consequently, R020 is turned OFF.  
D0125 38000 Constant 35000 R020 is OFF  
>
Note  
This instruction deals with the data as unsigned integer (0 to 65535).  
Basic Hardware and Function 195  
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6F3B0253  
7. Instructions  
FUN 114  
SET  
Device/register set  
Expression  
Input [ SET A ]Output  
Function  
When the input is ON, the device A is set to ON if A is a device, or the data HFFFF is stored in the  
register A if A is a register.  
Execution condition  
Input  
Operation  
Output  
OFF  
ON  
OFF No execution  
ON  
Execution  
Operand  
Name  
Device  
Register  
Constant Index  
X
Y
R
S
T. C. XW YW RW SW T  
C
D
I
J
K
A Device or  
register  
Example 1 (device set)  
When R010 is ON, R025 is set to ON. The state of R025 is remained even if R010 comes  
OFF.  
Example 2 (register set)  
When R010 is ON, the data HFFFF is stored in RW20. (R200 to R20F are set to ON)  
The state of RW20 is remained even if R010 comes OFF.  
196 T1-16S User’s Manual  
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6F3B0253  
7. Instructions  
FUN 115  
RST  
Device/register reset  
Expression  
Input [ RST A ]Output  
Function  
When the input is ON, the device A is reset to OFF ifA is a device, or the data 0 is stored in the  
register A if A is a register.  
Execution condition  
Input  
Operation  
Output  
OFF  
ON  
OFF No execution  
ON  
Execution  
Operand  
Name  
Device  
Register  
Constant Index  
X
Y
R
S
T. C. XW YW RW SW T  
C
D
I
J
K
A Device or  
register  
Example 1 (device reset)  
When R011 is ON, R005 is reset to OFF. The state of R025 is remained even if R011 comes  
OFF.  
Example 2 (register reset)  
When R011 is ON, the data 0 is stored in RW20. (R200 to R20F are reset to OFF)  
The state of RW20 is remained even if R011 comes OFF.  
Basic Hardware and Function 197  
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6F3B0253  
7. Instructions  
FUN 118  
SETC  
Set carry  
Expression  
Input [ SETC ]Output  
Function  
When the input is ON, the carry flag (CF = S050) is set to ON.  
Execution condition  
Input  
Operation  
Output  
OFF  
ON  
CF  
Set  
OFF No execution  
ON  
Execution  
Operand  
No operand is required.  
Example  
When R011 is changed from OFF to ON, the carry flag S050 is set to ON.  
198 T1-16S User’s Manual  
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6F3B0253  
7. Instructions  
FUN 119  
RSTC  
Reset carry  
Expression  
Input [ RSTC ]Output  
Function  
When the input is ON, the carry flag (CF = S050) is reset to OFF.  
Execution condition  
Input  
Operation  
Output  
OFF  
ON  
CF  
Reset  
OFF No execution  
ON  
Execution  
Operand  
No operand is required.  
Example  
When R010 is changed from OFF to ON, the carry flag S050 is reset to OFF.  
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7. Instructions  
FUN 120  
ENC  
Encode  
Expression  
Input [ A ENC (n) B ]Output  
Function  
When the input is ON, this instruction finds the bit position of the most significant ON bit in the bit  
table, size 2n bits starting with 0 bit (LSB) of A, and stores it in B.  
Execution condition  
Input  
Operation  
Output  
OFF  
ON  
ERF  
Set  
OFF No execution  
ON  
Normal execution  
There is no ON bit (no execution)  
OFF  
Operand  
Name  
Device  
Register  
Constant Index  
1 - 8  
X
Y
R
S
T. C. XW YW RW SW T  
C
D
I
J
K
A Start of table  
n Table size  
B Encode result  
Example  
25 (=32) bits starting with 0 bit of RW05 (R050 to R06F) are defined as the bit table.  
When R010 is ON, the most significant ON (1) bit position in the bit table is searched, and the  
position is stored in D0010.  
The following figure shows an operation example.  
RW06  
RW05  
31 30 29 28 27 26 25 24 23 22 21 20 19 18 17 16 15 14 13 12 11 10 9  
3
2
1
0
0 0 0 0 0 1 0 0 1 0 0 1 1 0 0 0 0 1 1 1 0 1 0  
0 0 1 0  
D0010  
26  
Note  
If there is no ON bit in the bit table, the instruction error flag (ERF = S051) is set to ON.  
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7. Instructions  
FUN 121  
DEC  
Decode  
Expression  
Input [ A DEC (n) B ]Output  
Function  
When the input is ON, this instruction sets the bit position which is designated by lower n bits of A  
to ON in the bit table, size 2n bits starting with 0 bit (LSB) of B, and resets all other bits to OFF.  
Execution condition  
Input  
Operation  
Output  
OFF  
ON  
OFF No execution  
ON  
Execution  
Operand  
Name  
Device  
Register  
Constant Index  
1 - 8  
X
Y
R
S
T. C. XW YW RW SW T  
C
D
I
J
K
A Decode source  
n Table size  
B Start of table  
Example  
25 (=32) bits starting with 0 bit of RW05 (R050 to R06F) are defined as the bit table.  
When R011 is ON, the bit position designated by lower 5 bits of D0011 in the bit table is set to  
ON, and all other bits in the table are reset to OFF.  
The following figure shows an operation example.  
F
E D C B A  
9
8
7
6
5
4
3
2
1
0
D0011  
1 1 0 0 0  
Ignored  
Sets ON  
H18 (=24)  
31 30 29 28 27 26 25 24 23 22 21 20 19 18 17 16 15 14 13 12 11 10 9  
3
2
1
0
0 0 0 0 0 0 0 1 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0  
0 0 0 0  
RW06  
RW05  
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7. Instructions  
FUN 122  
BC  
Bit count  
Expression  
Input [ A BC B ]Output  
Function  
When the input is ON, this instruction counts the number of ON (1) bits of A, and stores the result  
in B.  
Execution condition  
Input  
Operation  
Output  
OFF  
ON  
OFF No execution  
ON  
Execution  
Operand  
Name  
Device  
Register  
Constant Index  
X
Y
R
S
T. C. XW YW RW SW T  
C
D
I
J
K
A Source  
B Count data  
Example  
When R020 is ON, the number of ON (1) bits of the register RW032 is counted, and the result  
is stored in D0102.  
The following figure shows an operation example.  
F
E D C B A  
9
8
7
6
5
4
3
2
1
0
RW032 0 0 1 0 0 1 1 1 0 1 0 1 1 0 0 0  
Counts the number of ON (1) bits = 7  
F
E D C B A  
9
8
7
6
5
4
3
2
1
0
D0102 0 0 0 0 0 0 0 0 0 0 0 0 0 1 1 1  
The result data (7) is stored in binary  
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7. Instructions  
FUN 128  
CALL  
Subroutine call  
Expression  
Input [ CALL N. n ]Output  
Function  
When the input is ON, this instruction calls the subroutine numbern.  
Execution condition  
Input  
Operation  
Output  
OFF  
ON  
OFF No execution  
ON  
Execution  
Operand  
Name  
Device  
Register  
Constant Index  
X
Y
R
S
T. C. XW YW RW SW T  
C
D
I
J
K
n Subroutine  
(Note)  
number  
Example  
When X007 is ON, the subroutine number 8 is called. When the program execution is returned  
from the subroutine, the output is turned ON.  
Main program  
Subroutine  
| | [ CALL N.008 ]  
[ SUBR (008)]  
[ RET ]  
Note  
The possible subroutine number is 0 to 15 (T1) or 0 to 255 (T1S).  
Refer to the SUBR instruction (FUN 137).  
In case of T1, nesting of subroutines is not allowed. That is, the CALL instruction cannot be  
used in a subroutine.  
In case of T1S, nesting of subroutines is possible. (up to 3 levels)  
The CALL instruction can be used in an interrupt program. However, it is not allowed that the  
same subroutine is called from an interrupt program and from main program.  
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7. Instructions  
FUN 129  
RET  
Subroutine return  
Expression  
−−[ RET ]−  
Function  
This instruction indicates the end of a subroutine. When program execution is reached this  
instruction, it is returned to the original CALL instruction.  
Execution condition  
Input  
Operation  
Output  
-
-
Execution  
Operand  
No operand is required.  
Example  
Main program  
Subroutine  
| | [ CALL N.008 ]  
[ SUBR (008)]  
[ RET ]  
Note  
Refer to the SUBR instruction (FUN 137).  
The RET instruction can be programmed only in the program type ‘Subroutine’.  
The RET instruction must be connected directly to the left power rail.  
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7. Instructions  
FUN 132  
FOR  
FOR (FOR-NEXT loop)  
Expression  
Input [ FOR n ]Output  
Function  
When the input is ON, the program segment between FOR and NEXT is executed n times  
repeatedly in a scan.  
When the input is OFF, the repetition is not performed. (the segment is executed once)  
Execution condition  
Input  
Operation  
Output  
OFF  
ON  
OFF No repetition  
ON  
Repetition  
Operand  
Name  
Device  
Register  
Constant Index  
1 - 32767  
X
Y
R
S
T. C. XW YW RW SW T  
C
D
I
J
K
n Repetition  
times  
Example  
This segment is executed 30 times repeatedly in a scan.  
When R005 is ON, the program segment between FOR and NEXT is executed 30 times in a  
scan.  
R005  
| | [ FOR 30 ]  
Executed 30 times in a scan when  
R005 is ON.  
[ NEXT ]  
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7. Instructions  
FUN 133  
NEXT  
NEXT (FOR-NEXT loop)  
Expression  
Input [ NEXT ]Output  
Function  
This instruction configures a FOR-NEXT loop.  
If the input is OFF, The repetition is forcibly broken. and the program execution is moved to the  
next instruction.  
Execution condition  
Input  
OFF Forcibly breaks the repetition  
ON Repetition  
Operation  
Output  
OFF  
ON  
Operand  
No operand is required.  
Example  
When R005 is ON, the program segment between FOR and NEXT is executed 30 times in a  
scan. In the above example, the rung 3 is executed 30 times. As a result, the data of D0000 to  
D0029 are transferred to D0500 to D0529. (Block transfer)  
Note  
The FOR instruction must be used with a corresponding NEXT instruction one by one.  
Nesting of the FOR-NEXT loop is not allowed. That is, the FOR instruction cannot be used in a  
FOR-NEXT loop.  
The FOR and NEXT instructions cannot be programmed on the same rung.  
The following connection is not allowed.  
| | [ FOR n ]  
| | [ NEXT ]  
| |  
| |  
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7. Instructions  
FUN 137  
SUBR  
Subroutine entry  
Expression  
[ SUBR (n) ]−  
Function  
This instruction indicates the begging of a subroutine.  
Execution condition  
Input  
Operation  
Output  
-
-
Execution  
Operand  
Name  
Device  
Register  
Constant Index  
X
Y
R
S
T. C. XW YW RW SW T  
C
D
I
J
K
n Subroutine  
(Note)  
number  
Example  
The begging of the subroutine number 8 is indicated.  
Main program  
Subroutine  
| | [ CALL N.008 ]  
[ SUBR (008)]  
[ RET ]  
Note  
The possible subroutine number is 0 to 15 (T1) or 0 to 255 (T1S).  
Refer to the CALL instruction (FUN 128) and the RET instruction (FUN 129).  
The SUBR instruction can be programmed only in the program typeSubroutine’.  
Nesting of subroutine is not allowed. That is, the CALL instruction cannot be used in a  
subroutine.  
No other instruction cannot be placed on the rung of the SUBR instruction.  
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7. Instructions  
FUN 140  
EI  
Enable interrupt  
Expression  
Input [ EI ]Output  
Function  
When the input is ON, this instruction enables the execution of user designated interrupt operation,  
i.e. timer interrupt program and I/O interrupt programs.  
Execution condition  
Input  
Operation  
Output  
OFF  
ON  
OFF No execution  
ON  
Execution  
Operand  
No operand is required.  
Example  
In the above example, the DI instruction disables the interrupt. Then the EI instruction enables  
the interrupt again. As a result, the rung 2 instructions can be executed without interruption  
between each instructions.  
Note  
Refer to the DI instruction (FUN 141).  
If an interrupt factor is occurred during the interrupt disabled state, the interrupt is kept waiting  
and it will be executed just after the EI instruction is executed.  
The EI instruction can be used only in the main program.  
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7. Instructions  
FUN 141  
DI  
Disable interrupt  
Expression  
Input [ DI ]Output  
Function  
When the input is ON, this instruction disables the execution of user designated interrupt operation,  
i.e. timer interrupt program and I/O interrupt programs.  
Execution condition  
Input  
Operation  
Output  
OFF  
ON  
OFF No execution  
ON  
Execution  
Operand  
No operand is required.  
Example  
In the above example, the interrupt is disabled when R000 is ON, and it is enabled when R000  
is OFF.  
Note  
Refer to the EI instruction (FUN 140).  
If an interrupt factor is occurred during the interrupt disabled state, the interrupt is kept waiting  
and it will be executed just after the EI instruction is executed.  
The DI instruction can be used only in the main program.  
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7. Instructions  
FUN 142  
IRET  
Interrupt return  
Expression  
−−[ IRET ]−  
Function  
This instruction indicates the end of an interrupt program. When program execution reaches this  
instruction, it returns to the original location of the main program (or subroutine).  
Execution condition  
Input  
Operation  
Output  
-
-
Execution  
Operand  
No operand is required.  
Example  
An interrupt program  
(Timer interrupt,  
I/O interrupt #1, #2, #3 or #4)  
Note  
The IRET instruction can be used only in an interrupt program.  
There is no specific instruction which indicates the beginning of the interrupt program.  
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7. Instructions  
FUN 143  
WDT  
Watchdog timer reset  
Expression  
Input [ WDT n ]Output  
Function  
When the input is ON, this instruction extend the scan time over detection time by 200 ms.  
Normally, T1/T1S detects the scan time-over if a scan is not finished within 200 ms. This instruction  
can be used to extend the detection time.  
Execution condition  
Input  
Operation  
Output  
OFF  
ON  
OFF No execution  
ON  
Execution  
Operand  
Name  
Device  
Register  
Constant Index  
1 - 100  
X
Y
R
S
T. C. XW YW RW SW T  
C
D
I
J
K
n Extend time  
Example  
When R020 is ON, the scan time detection time is extended by 200 ms. The operand n has no  
effect on the extended time. It is fixed as 200 ms.  
Normal detection point  
Extended point  
0
50  
100  
150  
200  
250 300 (ms)  
Extended by 200 ms  
Scan  
WDT instruction  
execution  
Note  
As for the upper T-series PLCs, the operand n specifies the extended time. However in the  
T1/T1S, it is fixed as 200 ms regardless of the operand n.  
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7. Instructions  
FUN 144  
STIZ  
Step sequence initialize  
Expression  
Input [ STIZ (n) A ]Output  
Function  
When the input is ON, n devices starting with A are reset to OFF, and A is set to ON.  
This instruction is used to initialize a series of step sequence. The step sequence is useful to  
describe a sequential operation.  
Execution condition  
Input  
Operation  
Output  
OFF  
ON  
OFF No execution  
ON  
Execution at the rising edge of the input  
Operand  
Name  
Device  
Register  
Constant Index  
1 - 64  
X
Y
R
S
T. C. XW YW RW SW T  
C
D
I
J
K
n Size of step  
sequence  
A Start device  
Example  
When R020 is changed from OFF to ON, R400 is set to ON and subsequent 9 devices (R401  
to R409) are reset to OFF.  
This instruction initializes a series of step sequence, 10 devices starting with R400.  
R409  
R408  
R407  
R406  
R405  
R404  
R403  
R402  
R401  
R400  
OFF OFF OFF OFF OFF OFF OFF OFF OFF  
ON  
10 devices starting with R400  
Note  
The STIZ instruction is used together with STIN (FUN 145) and STOT (FUN 146) instructions to  
configure the step sequence.  
The STIZ instruction is executed only when the input is changed from OFF to ON.  
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7. Instructions  
FUN 145  
STIN  
Step sequence input  
Expression  
Input [ STIN A ]Output  
Function  
When the input is ON and the device A is ON, the output is set to ON.  
Execution condition  
Input  
Operation  
Output  
OFF  
ON  
OFF No execution  
ON  
When A is ON  
When A is OFF  
OFF  
Operand  
Name  
Device  
Register  
Constant Index  
K
X
Y
R
S
T. C. XW YW RW SW T  
C
D
I
J
A Step device  
Example  
The following sequential operation is performed.  
When R020 is changed from OFF to ON, R400 is set to ON and subsequent 9 devices (R401  
to R409) are reset to OFF.  
When X004 comes ON, R400 is reset to OFF and R401 is set to ON.  
When both X005 and R022 are ON, R401 is reset to OFF and R402 is set to ON.  
R020  
X004  
X005  
R022  
R400  
R401  
R402  
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7. Instructions  
FUN 146  
STOT  
Step sequence output  
Expression  
Input [ STOT A ]−  
Function  
When the input is ON, the device A is set to ON and the devices of STIN instructions on the same  
rung are reset to OFF.  
Execution condition  
Input  
Operation  
Output  
-
-
OFF No execution  
ON  
Execution  
Operand  
Name  
Device  
Register  
Constant Index  
X
Y
R
S
T. C. XW YW RW SW T  
C
D
I
J
K
A Step device  
Example  
See example on STIN (FUN 145) instruction.  
Note  
The STIZ, STIN and STOT instructions are used together to configure the step sequence.  
Two or more STOT instructions can be placed on one rung to perform simultaneous sequences.  
Two or more STIN instructions can be placed on one rung in parallel or in series to perform loop  
or convergence of sequences. (Max. 11 STIN instructions on one rung)  
To perform the conditional branch (sequence selection), separate the rungs as follows.  
This limitation is applied to T1 version 1.00 only.  
[ STIN A ]  
| |  
| |  
[ STOT B ]  
[ STIN A ]  
| |  
| |  
[ STOT B ]  
[ STOT C ]  
[ STIN A ]  
[ STOT C ]  
Not allowed  
Available  
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7. Instructions  
FUN 147  
F/F  
Flip-flop  
Expression  
Set input  
S F/F Q Output  
Reset input R  
A
Function  
When the set input is ON, the device A is set to ON. When the reset input is ON, the device A is  
reset to OFF. When both the set and reset inputs are OFF, the device A remains the state. If both  
the set and reset inputs are ON, the device A is reset to OFF.  
The state of the output is the same as the device A.  
Execution condition  
Set  
input  
OFF  
Reset  
input  
Operation  
Output  
OFF No execution (A remains previous state)  
ON Resets A to OFF  
OFF Sets A to ON  
Same  
as A  
ON  
ON  
Resets A to OFF  
Operand  
Name  
Device  
Register  
T. C. XW YW RW SW T  
Constant Index  
X
Y
R
S
C
D
I
J
K
A Device  
Example  
When X003 is ON, R10E is set to ON. When X004 is ON, R10E is reset to OFF. If both are  
ON, R10E is reset to OFF.  
An example timing diagram is shown below.  
X003  
X004  
R10E  
Note  
For the set input, direct linking to a connecting point is not allowed. In this case, insert a dummy  
contact (always ON = S04F, etc.) just before the input. Refer to Note of Shift register FUN 074.  
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7. Instructions  
FUN 149  
U/D  
Up-down counter  
Expression  
Direction input U U/D Q Output  
Count input  
Enable input  
C  
E  
A
Function  
While the enable input is ON, this instruction counts the number of the count input changes from  
OFF to ON. The count direction (up count or down count) is selected by the state of the direction  
input. The count value is stored in the counter register A. The count value range is 0 to 65535.  
Up count when the direction input is ON  
Down count when the direction input is OFF  
When the enable input is OFF, the counter register A is cleared to 0.  
Execution condition  
Enable  
input  
Operation  
Output  
OFF No operation (A is cleared to 0)  
OFF  
OFF  
ON  
ON  
Count value is not limit value (0 or 65535)  
Count value is limit value and count input is ON  
Operand  
Name  
Device  
Register  
Constant Index  
X
Y
R
S
T. C. XW YW RW SW T  
C
D
I
J
K
A Count value  
Example  
Note  
X005  
X006  
R010  
C005  
C.005  
The transitional contact is required for  
the count input. Otherwise, counting is  
executed every scan during X005 is ON  
in this example.  
For the direction input and the count  
input, direct linking to a connecting point  
is not allowed. Refer to Note of Shift  
register FUN 074.  
3
3
2
2
2
1
1
1
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7. Instructions  
FUN 154  
CLND  
Set calendar  
Expression  
Input [ A CLND ]Output  
Function  
When the input is ON, the built-in clock/calendar is set to the date and time specified by 6 registers  
starting with A. If an invalid data is contained in the registers, the operation is not executed and the  
output is turned ON.  
Execution condition  
Input  
Operation  
Output  
OFF  
OFF  
ON  
OFF No operation  
ON  
Execution (data is valid))  
No execution (data is not valid)  
Operand  
Name  
Device  
Register  
Constant Index  
X
Y
R
S
T. C. XW YW RW SW T  
C
D
I
J
K
A Start of table  
Example  
When R020 is ON, the clock/calendar is set according to the data of D0050 to D0055, and the  
output is OFF (R0031 is OFF).  
If D0050 to D0055 contains invalid data, the setting operation is not executed and the output is  
turned ON (R0031 comes ON).  
Allowable data range (2-digit BCD)  
F
8 7  
0
D0050  
D0051  
D0052  
D0053  
D0054  
D0055  
H00  
H00  
H00  
H00  
H00  
H00  
Year  
Month  
Day  
Hour  
Minute  
Second  
H00 to H99 (1990 - 2089)  
H01 to H12  
H01 to H31  
H00 to H23  
H00 to H59  
Calendar  
LSI  
H00 to H59  
Note  
The day of the week is automatically.  
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7. Instructions  
FUN 155  
CLDS  
Calendar operation  
Expression  
Input [ A CLDS B ]Output  
Function  
When the input is ON, this instruction subtracts the date and time stored in 6 registers starting with  
A from the current date and time, and stores the result in 6 registers starting with B.  
If an invalid data is contained in the registers, the operation is not executed and the output is  
turned ON.  
Execution condition  
Input  
Operation  
Output  
OFF  
OFF  
ON  
OFF No operation  
ON  
Execution (data is valid))  
No execution (data is not valid)  
Operand  
Name  
Device  
Register  
Constant Index  
X
Y
R
S
T. C. XW YW RW SW T  
C
D
I
J
K
A Subtrahend  
B Result  
Example  
When R020 is ON, the date and time data recorded in D0050 to D0055 are subtracted from  
the current date and time of clock/calendar, and the result is stored in D0100 to D0105.  
In normal operation, the output is OFF (R0035 is OFF). If D0050 to D0055 contains invalid  
data, the operation is not executed and the output is turned ON (R0035 comes ON).  
Current date & time  
F
0
F
0
H0098  
H0001  
H0015  
H0017  
H0000  
H0000  
D0050  
D0051  
D0052  
D0053  
D0054  
D0055  
H0097  
H0010  
H0010  
H0015  
H0030  
H0000  
D0100  
D0101  
D0102  
D0103  
D0104  
D0105  
H0000  
H0003  
H0007  
H0001  
H0030  
H0000  
(Year)  
(Month)  
(Day)  
(Hour)  
(Minute)  
(Second)  
minus  
Note  
Future date and time cannot be used as subtrahend A.  
In the calculation result, it means that 1 year is 365 days and 1 month is 30 days.  
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6F3B0253  
7. Instructions  
FUN 156  
PID3  
Pre-derivative real PID  
Expression  
Input [ A PID3 B C ]Output  
Function  
Performs PID (Proportional, Integral, Derivative) control which is a fundamental method of feed-  
back control. (Pre-derivative real PID algorithm) This PID3 instruction has the following features.  
For derivative action, incomplete derivative is used to suppress interference of high-frequency  
noise and to expand the stable application range,  
Controllability and stability are enhanced in case of limit operation for MV, by using digital PID  
algorithm succeeding to benefits of analog PID.  
Auto, cascade and manual modes are supported in this instruction.  
Digital filter is available for PV.  
Direct / reverse operation is selectable.  
Execution condition  
Input  
OFF Initialization  
Operation  
Output  
OFF  
ON  
Execute PID every setting interval  
ON when  
execution  
Operand  
Name  
Device  
Register  
Constant Index  
X
Y
R
S
T. C. XW YW RW SW T  
C
D
I
J
K
A Top of input data  
B Top of parameter  
C Top of output data  
Input data  
Control parameter  
Proportional gain  
Integral time  
Derivative time  
Dead-band  
A-mode initial SV  
Input filter constant  
ASV differential limit DSV  
MMV differential limit DMMV  
Initial status  
MV upper limit  
Output data  
Manipulation value  
Last error  
Last derivative value  
Last PV  
A
A+1  
A+2  
A+3  
A+4  
A+5  
B
B+1  
B+2  
B+3  
B+4  
B+5  
B+6  
B+7  
B+8  
C
Process input value  
A-mode set value  
C-mode set value  
M-mode MV input  
MV tracking input  
Mode setting  
PVC  
ASV  
CSV  
MMV  
TMV  
KP  
TI  
TD  
GP  
ISV  
FT  
MV  
en-1  
Dn-1  
PVn-1  
SVn-1  
Ir  
C+1  
C+2  
C+3  
C+4  
C+5  
C+6  
C+7  
C+8  
C+9  
Last SV  
MODE  
Integral remainder  
Derivative remainder  
Internal MV  
Internal counter  
Control interval  
Dr  
MVn  
C
A-mode: Auto mode  
C-mode: Cascade mode  
M-mode: Manual mode  
STS  
MH  
ML  
DMV  
n
B+9  
t  
B+10  
B+11  
B+12  
MV lower limit  
MV differential limit  
Control interval setting  
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6F3B0253  
7. Instructions  
Control block diagram  
Integral  
control  
Integral  
1
Auto  
mode  
TI s  
In  
ASV  
CSV  
MVn  
DSV  
Proportional  
1
+
-
Differential  
MVCn  
SVn  
+
en  
Pn  
MVn  
+
Gap  
KP  
MVS  
H/L  
DMV  
MV  
-
Derivative  
Cascade  
mode  
MMV  
Dn  
TD  
η⋅  
s
DMMV  
1+  
TD s  
Manual  
mode  
Differential limit  
PVn  
η
(
= 0.1)  
MVS: Velocity  
Position  
± ∆  
PVC  
1
MVn = MVn-1  
H/L: Upper / lower limit  
DMV: Differential limit  
MVn  
1+T s  
Digtal filter  
Integral action control:  
When MV is limited (H/L, DMV) and the integral value has same sign as limit over, integral action  
is stopped.  
Velocity Position conversion:  
In Direct mode, MV increases when PV is increased.  
In Reverse mode, MV decreases when PV is increased.  
MVn = MVn-1 - Mvn  
MVn = MVn-1 + MVn  
Gap (dead-band) operation:  
Error e  
SV - PV  
GP (%) GP (%)  
Algorithm  
Digital filter:  
PVn =(1FT)PVC +FT PVn  
1
Here,  
0.000 FT 0.999  
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6F3B0253  
7. Instructions  
PID algorithm:  
MVn =KP (Pn +In +Dn  
)
MVn =MVn 1 ±MVn  
Here,  
Pn =en en 1  
en SVn PVn  
(If GP 0, Gap is applied)  
=
en  
t +Ir  
TI  
(If TI = 0, then In = 0)  
In  
=
D ⋅  
T
n
1  
n
−∆ ⋅  
n
1  
+
Dr  
(PV  
PV )  
t D  
D
n
=
t +η⋅TD  
Dn  
=Dn 1 +Dn  
η = 0.1 (Fixed)  
Parameter details  
A
Process input value PVC (0.00 to 100.00 %)  
Data range: 0 to 10000  
A+1 Auto mode set value ASV (0.00 to 100.00 %)  
A+2 Cascade mode set value CSV (0.00 to 100.00 %)  
A+3 Manual mode MV MMV (-25.00 to 125.00 %)  
A+4 MV tracking input TMV (-25.00 to 125.00 %)  
A+5 Mode setting MODE  
Data range: 0 to 10000  
Data range: 0 to 10000  
Data range: -2500 to 12500  
Data range: -2500 to 12500  
F
C
8
4
0
Operation mode  
00 : Manual mode  
01 : Auto mode  
10 : Cascade mode  
11 : (Reserve)  
Tracking designation  
0 : No  
1 : Yes  
B
Proportional gain KP (0.00 to 327.67)  
Data range: 0 to 32767  
B+1 Integral time TI (0.000 to 32.767 min., In=0 if TI =0) Data range: 0 to 32767  
B+2 Derivative time TD (0.000 to 32.767 min.)  
B+3 Gap (dead-band) GP (0.00 to 10.00 %)  
B+4 Auto mode initial set value ISV (0.00 to 100.00 %)  
B+5 Input filter constant FT (0.000 to 0.999)  
B+6 ASV differential limit DSV (0.00 to 100.00 %/t)  
Data range: 0 to 32767  
Data range: 0 to 1000  
Data range: 0 to 10000  
Data range: 0 to 999  
Data range: 0 to 10000  
B+7 MMV differential limit DMMV (0.00 to 100.00 %/t) Data range: 0 to 10000  
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7. Instructions  
B+8 Initial status STS  
F
C
8
4
0
Initial operation mode  
00 : Manual mode  
01 : Auto mode  
10 : Cascade mode  
11 : (Reserve)  
Direct / reverse selection  
0 : Direct  
1 : Reverse  
B+9 MV upper limit MH (-25.00 to 125.00 %)  
B+10 MV lower limit ML (-25.00 to 125.00 %)  
B+11 MV differential limit DMV (0.00 to 100.00 %/t)  
B+12 Control interval setting n (1 to 32767 times)  
Data range: -2500 to 12500  
Data range: -2500 to 12500  
Data range: 0 to 10000  
Data range: 1 to 32767  
Executes PID every n scan. Therefore, control interval t = n × constant scan interval  
(It is treated as n = 1 when n 0)  
C
C+1  
:
Manipulation value MV (-25.00 to 125.00 %)  
Internal work area  
Data range: -2500 to 12500  
C+9  
Operation  
1. When the instruction input is OFF:  
Initializes the PID3 instruction.  
Operation mode is set as specified by B+8.  
Auto mode SV is set as specified by B+4.  
Manual mode MV is set as current MV.  
Internal calculation data is initialized.  
MV remains unchanged.  
A+5 bit 0, 1 B+8 bit 0, 1  
ASV ISV  
MMV MV  
2. When the instruction input is ON:  
Executes PID calculation every n scan which is specified by B+12. The following operation modes are  
available according to the setting of A+5.  
Auto mode  
This is a normal PID control mode with ASV as set value.  
Set value differential limit DSV, manipulation value upper/lower limit MH/ML and differential limit DMV  
are effective.  
Bump-less changing from auto mode to manual mode is available. (Manual mode manipulation value  
MMV is over-written by current MV automatically. MMV MV)  
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7. Instructions  
Manual mode  
In this mode, the manipulation value MV can be directly controlled by the input value of MMV.  
MV differential limit for manual mode DMMV is effective. MH/ML and DMV are not effective.  
When mode is changed from manual to auto or cascade, the operation is started from the current MV.  
Cascade mode  
This is a mode for PID cascade connection. PID is executed with CSV as set value.  
Different from the auto mode, set value differential limit is not effective. Manipulation value upper/lower  
limit MH/ML and differential limit DMV are effective.  
Bump-less changing from cascade mode to manual mode is available. (Manual mode manipulation  
value MMV is over-written by current MV automatically. MMV MV)  
And, bump-less changing from cascade mode to auto mode is available. (Auto mode set value ASV is  
over-written by current CSV automatically. ASV CSV)  
MV tracking  
This function is available in auto and cascade modes. When the tracking designation (A+5 bit 2) is ON,  
tracking input TMV is directly output as MV.  
Manipulation value upper/lower limit MH/ML is effective, but differential limit DMV is not effective.  
When the tracking designation is changed to OFF, the operation is started from the current MV.  
Note  
PID3 instruction is only usable on the main-program.  
PID3 instruction must be used under the constant scan mode. The constant scan interval can be selected  
in the range of 10 to 200 ms, 10 ms increments.  
The data handled by the PID3 instruction are % units. Therefore, process input value PVC, manipulation  
value MV, etc., should be converted to % units (scaling), before and/or after the PID3 instruction. For this  
purpose, the function generator instruction (FUN165 FG) is convenient.  
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6F3B0253  
7. Instructions  
FUN 160  
UL  
Upper limit  
Expression  
Input [ A UL B C ]Output  
Function  
When the input is ON, the following operation is executed. (Upper limit for A by B)  
If A B, then C = A.  
If A > B, then C = B.  
Execution condition  
Input  
Operation  
Output  
OFF  
OFF  
ON  
OFF No operation  
ON  
Execution: not limited (A B)  
Execution: limited (A > B)  
Operand  
Name  
Device  
Register  
Constant Index  
X
Y
R
S
T. C. XW YW RW SW T  
C
D
I
J
K
A Operation data  
B Upper limit  
C Destination  
Example  
When R030 is ON, the upper limit operation is executed for the data of RW018 by the data of  
D1200, and the result is stored in RW021.  
C
(RW021)  
Upper limit B (D1200)  
A (RW018)  
When RW018 is 3000 and D1200 is 4000, 3000 is stored in RW021 and R0040 is OFF.  
When RW018 is 4500 and D1200 is 4000, the limit value 4000 is stored in RW021 and R0040  
is ON.  
Note  
This instruction deals with the data as signed integer (-32768 to 32767).  
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7. Instructions  
FUN 161  
LL  
Lower limit  
Expression  
Input [ A LL B C ]Output  
Function  
When the input is ON, the following operation is executed. (Lower limit for A by B)  
If A B, then C = A.  
If A < B, then C = B.  
Execution condition  
Input  
Operation  
Output  
OFF  
OFF  
ON  
OFF No operation  
ON  
Execution: not limited (A B)  
Execution: limited (A < B)  
Operand  
Name  
Device  
Register  
Constant Index  
X
Y
R
S
T. C. XW YW RW SW T  
C
D
I
J
K
A Operation data  
B Lower limit  
C Destination  
Example  
When R031 is ON, the lower limit operation is executed for the data of RW019 by the data of  
D1220, and the result is stored in RW022.  
C
(RW022)  
A (RW019)  
Lower limit B (D1220)  
When RW019 is -1000 and D1220 is -1800, -1000 is stored in RW022 and R0041 is OFF.  
When RW019 is 800 and D1220 is 1200, the limit value 1200 is stored in RW022 and R0041  
is ON.  
Note  
This instruction deals with the data as signed integer (-32768 to 32767).  
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6F3B0253  
7. Instructions  
FUN 162  
MAX  
Maximum value  
Expression  
Input [ A MAX (n) B ]Output  
Function  
When the input is ON, this instruction searches for the maximum value from the table of sizen  
words starting with A, and stores the maximum value in B and the pointer indicating the position of  
the maximum value in B+1. The allowable range of the table sizen is 1 to 64.  
Execution condition  
Input  
Operation  
Output  
OFF  
ON  
OFF No execution  
ON  
Execution  
Operand  
Name  
Device  
Register  
Constant Index  
1 - 64  
X
Y
R
S
T. C. XW YW RW SW T  
C
D
I
J
K
A Start of table  
n Table size  
B Result  
Example  
When R010 is ON, the maximum value is found from the register table D0200 to D0209 (10  
words), and the maximum value is stored in D0500 and the pointer is stored in D0501.  
Pointer  
D0200  
D0201  
D0202  
D0203  
D0204  
D0205  
D0206  
D0207  
D0208  
D0209  
100  
10000  
-1000  
10  
0
1
2
3
4
5
6
7
8
9
0
200  
-300  
20000  
-30  
D0500  
D0501  
20000  
7
(Maximum value)  
(Pointer)  
20  
Note  
This instruction deals with the data as signed integer (-32768 to 32767).  
If there are two or more maximum value in the table, the lowest pointer is stored.  
If Index register K is used as operand B, the pointer data is discarded.  
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7. Instructions  
FUN 163  
MIN  
Minimum value  
Expression  
Input [ A MIN (n) B ]Output  
Function  
When the input is ON, this instruction searches for the minimum value from the table of sizen  
words starting with A, and stores the minimum value in B and the pointer indicating the position of  
the minimum value in B+1. The allowable range of the table sizen is 1 to 64.  
Execution condition  
Input  
Operation  
Output  
OFF  
ON  
OFF No execution  
ON  
Execution  
Operand  
Name  
Device  
Register  
Constant Index  
1 - 64  
X
Y
R
S
T. C. XW YW RW SW T  
C
D
I
J
K
A Start of table  
n Table size  
B Result  
Example  
When R011 is ON, the minimum value is found from the register table D0200 to D0209 (10  
words), and the minimum value is stored in D0510 and the pointer is stored in D0511.  
Pointer  
D0200  
D0201  
D0202  
D0203  
D0204  
D0205  
D0206  
D0207  
D0208  
D0209  
100  
10000  
-1000  
10  
0
1
2
3
4
5
6
7
8
9
D0510  
D0511  
-1000  
2
(Minimum value)  
(Pointer)  
0
200  
-300  
20000  
-30  
20  
Note  
This instruction deals with the data as signed integer (-32768 to 32767).  
If there are two or more minimum value in the table, the lowest pointer is stored.  
If Index register K is used as operand B, the pointer data is discarded.  
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7. Instructions  
FUN 164  
AVE  
Average value  
Expression  
Input [ A AVE (n) B ]Output  
Function  
When the input is ON, this instruction calculates the average value of the data stored in then  
registers starting with A, and stores the average value in B. The allowable range of the table sizen  
is 1 to 64.  
Execution condition  
Input  
Operation  
Output  
OFF  
ON  
OFF No execution  
ON  
Execution  
Operand  
Name  
Device  
Register  
Constant Index  
1 - 64  
X
Y
R
S
T. C. XW YW RW SW T  
C
D
I
J
K
A Start of table  
n Table size  
B Result  
Example  
When R012 is ON, the average value of the data stored in the register table D0200 to D0209  
(10 words), and the average value is stored in D0520.  
D0200  
D0201  
D0202  
D0203  
D0204  
D0205  
D0206  
D0207  
D0208  
D0209  
100  
10000  
-1000  
10  
0
D0520  
2900  
(Average value)  
200  
-300  
20000  
-30  
20  
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7. Instructions  
FUN 165  
FG  
Function generator  
Expression  
Input [ A FG (n) B C ]Output  
Function  
When the input is ON, this instruction finds the function value f(x) for A as x, and stores it in C. The  
function f(x) is defined by the parameters stored in 2 × n registers starting with B.  
Execution condition  
Input  
Operation  
Output  
OFF  
ON  
OFF No execution  
ON  
Execution  
Operand  
Name  
Device  
Register  
Constant Index  
X
Y
R
S
T. C. XW YW RW SW T  
C
D
I
J
K
A
Input value x  
1 - 32  
n Parameter size  
B Start of  
parameters  
C Function value  
f(x)  
Example  
When R010 is ON, the FG instruction finds the function value f(x) for x = XW004, and stores  
the result in D0100.  
The function f(x) is defined by 2 × 4 = 8 parameters stored in D0600 to D0607. In this example,  
these parameters are set at the first scan.  
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6F3B0253  
7. Instructions  
Parameter table  
4 registers for x parameters and subsequent 4 registers for corresponding f(x) parameters  
y
(x4,y4)  
y = f(x)  
1800  
D0600  
D0601  
D0602  
D0603  
D0604  
D0605  
D0606  
D0607  
-2000 x1  
-100 x2  
100 x3  
2000 x4  
-1800 y1  
-300 y2  
300 y3  
300  
(x3,y3)  
100  
-2000  
-100  
2000  
x
(x2,y2)  
-300  
1800 y4  
-1800  
(x1,y1)  
The FG instruction interpolators f(x) value for x based on the n parameters of (xi,yi).  
For example, if XW04 is 1500 (x = 1500), the result 1405 (f(x) = 1405) is stored in D0100.  
y
1800  
1405  
300  
-2000  
-100  
100  
-300  
2000  
1500  
x
-1800  
Note  
The order of the x parameters should be x1 x2 ... xi ... xn. In the above example, the  
data of D0600 to D0603 should be D0600 D0601 D0602 D0603.  
If x is smaller than x1, y1 is given as f(x). In this example, D0604 data (-1800) is stored in  
D0100 if XW04 is smaller than D0600 (-2000).  
If x is greater than xn, yn is given as f(x). In this example, D0607 data (1800) is stored in  
D0100 if XW04 is greater than D0603 (2000).  
The valid data range is -32768 to 32767.  
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7. Instructions  
FUN 180  
ABS  
Absolute value  
Expression  
Input [ A ABS B ]Output  
Function  
When the input is ON, this instruction finds the absolute value of operand A, and stores it in B.  
Execution condition  
Input  
Operation  
Output  
OFF  
ON  
OFF No execution  
ON  
Execution  
Operand  
Name  
Device  
Register  
Constant Index  
X
Y
R
S
T. C. XW YW RW SW T  
C
D
I
J
K
A Source  
B Destination  
Example  
When X006 is ON, the absolute value of RW38 is stored in D0121.  
For example, if RW38 is -12000, the absolute value 12000 is stored in D0121.  
D0121  
32767  
12000  
-32767  
-12000  
0
32767  
RW38  
Note  
The data range of A is -32768 to 32767. If the data of A is -32768, 32767 is stored in B.  
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7. Instructions  
FUN 182  
NEG  
2’s complement  
Expression  
Input [ A NEG B ]Output  
Function  
When the input is ON, this instruction finds the 2’s complement value of A, and stores it in B.  
Execution condition  
Input  
Operation  
Output  
OFF  
ON  
OFF No execution  
ON  
Execution  
Operand  
Name  
Device  
Register  
Constant Index  
X
Y
R
S
T. C. XW YW RW SW T  
C
D
I
J
K
A Source  
B Destination  
Example  
When X007 is ON, the 2’s complement value (sign inverted data) of RW39 is stored in D0122.  
For example, if RW38 is 4660, the 2’s complement value -4660 is stored in D0122.  
2’s complement data is calculated as follows.  
F
E
D
C
B
A
9
8
7
6
5
4
3
2
1
0
RW39 0 0 0 1 0 0 1 0 0 0 1 1 0 1 0 0  
Bit inverse  
(4660)  
(-4661)  
(-4660)  
1 1 1 0 1 1 0 1 1 1 0 0 1 0 1 1  
+ 1  
D0122 1 1 1 0 1 1 0 1 1 1 0 0 1 1 0 0  
Note  
The data range of A is -32768 to 32767. If the data of A is -32768, the same data -32768 is  
stored in B.  
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7. Instructions  
FUN 183  
DNEG Double-word 2’s complement  
Expression  
Input [ A+1A DNEG B+1B ]Output  
Function  
When the input is ON, this instruction finds the 2’s complement value of double-word data A+1A,  
and stores it in B+1B.  
Execution condition  
Input  
Operation  
Output  
OFF  
ON  
OFF No execution  
ON  
Execution  
Operand  
Name  
Device  
Register  
Constant Index  
X
Y
R
S
T. C. XW YW RW SW T  
C
D
I
J
K
A Source  
B Destination  
Example  
When X007 is ON, the 2’s complement value (sign inverted data) of double-word register  
RW41RW40 is stored in double-word register D0151D0150.  
For example, if RW41RW40 is -1234567890, the 2’s complement value 1234567890 is stored  
in D0151D0150.  
Note  
The data range of A+1A is -2147483648 to 2147483647. If the data of A+1A is -2147483648,  
the same data -2147483648 is stored in B+1B.  
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7. Instructions  
FUN 185  
7SEG  
7 segment decode  
Expression  
Input [ A 7SEG B ]Output  
Function  
When the input is ON, this instruction converts the lower 4 bits data ofA into the 7 segment code,  
and stores it in B. The 7 segment code is normally used for a numeric display LED.  
Execution condition  
Input  
Operation  
Output  
OFF  
ON  
OFF No execution  
ON  
Execution  
Operand  
Name  
Device  
Register  
Constant Index  
X
Y
R
S
T. C. XW YW RW SW T  
C
D
I
J
K
A Source  
B Destination  
Example  
When X000 is ON, the lower 4 bits data of RW15 is converted into the 7 segment code, and  
the result is stored in lower 8 bits of RW10. 0 is stored in upper 8 bits of RW10.  
For example, if RW15 is H0009, the corresponding 7 segment code H006F is stored in RW10.  
F
E
D
C
B
A
9
8
7
6
5
4
3
2
1
0
RW15 0 0 0 0 0 0 0 0 0 0 0 0 1 0 0 1 (H0009)  
Upper 12 bits are ignored  
7 segment decode  
RW10 0 0 0 0 0 0 0 0 0 1 1 0 1 1 1 1 (H006F)  
0 is stored in upper 8 bits  
The 7 segment code conversion table is shown on the next page.  
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7. Instructions  
Operand A (lower 4 bits)  
7 segment LED  
composition  
Operand B (lower 8 bits)  
B7 B6 B5 B4 B3 B2 B1 B0  
Display  
Hex  
Binary  
0000  
0001  
0010  
0011  
0100  
0101  
0110  
0111  
1000  
1001  
1010  
1011  
1100  
1101  
1110  
1111  
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
0
1
1
1
1
1
0
1
1
1
1
0
1
1
1
1
0
0
0
1
1
1
1
1
1
1
1
1
0
1
1
1
0
1
0
0
0
1
0
1
0
1
1
1
1
1
1
1
0
1
1
0
1
1
0
1
1
0
1
1
1
1
0
1
1
0
1
1
1
1
1
1
1
1
1
0
1
0
0
1
1
1
1
1
0
0
1
1
1
1
0
0
1
0
0
1
0
1
1
0
1
1
1
1
1
1
0
1
0
1
1
1
2
3
B0  
4
5
B5  
B1  
B6  
6
7
B4  
B2  
8
9
B3  
A
B
C
D
E
F
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7. Instructions  
FUN 186  
ASC  
ASCII conversion  
Expression  
Input [ A ASC B ]Output  
Function  
When the input is ON, this instruction converts the alphanumeric characters into the ASCII codes,  
and stores them in the register table starting with B. (16 characters maximum)  
Execution condition  
Input  
Operation  
Output  
OFF  
ON  
OFF No execution  
ON  
Execution  
Operand  
Name  
Device  
Register  
Constant Index  
X
Y
R
S
T. C. XW YW RW SW T  
C
D
I
J
K
A Characters  
B Start of  
destination  
Example  
When R030 is ON, the characters ‘ABCDEFGHIJKLMN’ is converted into the ASCII codes, and  
the result is stored in 8 registers starting with lower 8 bits (byte) of D0200 (D0200 to D0207).  
High  
Low  
F
8
7
0
D0200 H42 (B)  
D0201 H44 (D)  
D0202 H46 (F)  
D0203 H48 (H)  
D0204 H4A (J)  
D0205 H4C (L)  
D0206 H4E (N)  
D0207  
H41 (A)  
H43 (C)  
H45 (E)  
H47 (G)  
H49 (I)  
H4B (K)  
H4D (M)  
Previous data is remained  
Note  
Only the number of bytes converted are stored. The rest are not changed. In the above  
example, 14 characters are converted into 14 bytes of ASCII code, and these ASCII codes are  
stored in 7 registers (D0200 to D0206). The data of D0207 remains unchanged.  
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7. Instructions  
FUN 188  
BIN  
Binary conversion  
Expression  
Input [ A BIN B ]Output  
Function  
When the input is ON, this instruction converts the 4 digits of BCD data ofA into binary, and stores  
in B. If any digit of A contains non-BCD code (other than H0 through H9), the conversion is not  
executed and the instruction error flag (ERF = S051) is set to ON.  
Execution condition  
Input  
Operation  
Output  
OFF  
ON  
ERF  
Set  
OFF No execution  
ON  
Normal execution  
BCD data error  
OFF  
Operand  
Name  
Device  
Register  
Constant Index  
X
Y
R
S
T. C. XW YW RW SW T  
C
D
I
J
K
A Source (BCD)  
H0000 -  
H9999  
B Destination  
(Binary)  
Example  
When R017 is ON, the BCD data of RW28 is converted into binary data, and the result is  
stored in D0127.  
For example, if RW28 is H1234, the binary data 1234 is stored in D0127.  
RW28  
H1234  
BCD to Binary  
D0127  
1234  
Note  
If any digit of operand A contains non-BCD data, e.g. H13A6, the conversion is not executed  
and the instruction error flag (ERF = S051) is set to ON.  
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7. Instructions  
FUN 190  
BCD  
BCD conversion  
Expression  
Input [ A BCD B ]Output  
Function  
When the input is ON, this instruction converts the binary data of A into BCD, and stores in B. If the  
data of A is not in the range of 0 to 9999, the conversion is not executed and the instruction error  
flag (ERF = S051) is set to ON.  
Execution condition  
Input  
Operation  
Output  
OFF  
ON  
ERF  
Set  
OFF No execution  
ON  
Normal execution  
Binary data error  
OFF  
Operand  
Name  
Device  
Register  
Constant Index  
0 - 9999  
X
Y
R
S
T. C. XW YW RW SW T  
C
D
I
J
K
A Source  
(Binary)  
B Destination  
(BCD)  
Example  
When R019 is ON, the data of D0211 is converted into 4-digit BCD, and the result is stored in  
RW22.  
For example, if D0211 is 5432, the BCD data H5432 is stored in RW22.  
D0211  
5432  
Binary to BCD  
RW22  
H5432  
Note  
If the data of A is smaller than 0 or greater than 9999, the conversion is not executed and the  
instruction error flag (ERF = S051) is set to ON.  
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7. Instructions  
FUN 235  
I/O  
Direct I/O  
Expression  
Input [ I/O (n) A ]Output  
Function  
When the input is ON, this instruction immediately updates the external input (XW) and output  
(YW) registers which are in the range of n registers starting with A.  
For XW register ... reads the data from corresponding input circuit  
For YW register ... writes the data into corresponding output circuit  
Execution condition  
Input  
Operation  
Output  
OFF  
ON  
OFF No execution  
ON  
Execution  
Operand  
Name  
Device  
Register  
Constant Index  
1 - 32  
X
Y
R
S
T. C. XW YW RW SW T  
C
D
I
J
K
n Register size  
A Start of  
registers  
Example  
When R010 is ON, the 4 registers starting with XW00 (XW00 to YW03) are updated  
immediately.  
XW00  
XW01  
YW02  
YW03  
Input  
circuit  
Output  
circuit  
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7. Instructions  
Note  
In the T1-16S, the following register/device range is only effective for this Direct I/O instruction.  
Input on basic unit  
X000 - X007  
Output on basic unit  
Y020 - Y027  
I/O module  
Not effective  
The Direct I/O instruction can be programmed in the main program and in the interrupt program.  
If this instruction is programmed in both, the instruction in the main program should be executed  
in interrupt disable state. Refer to EI (FUN 140) and DI (FUN 141) instructions.  
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7. Instructions  
FUN 236  
XFER  
Expanded data transfer  
Expression  
Input [ A XFER B C ]Output  
Function  
When the input is ON, data block transfer is performed between the source which is indirectly  
designated by A and A+1 and the destination which is indirectly designated by C and C+1. The  
transfer size (number of words) is designated by B.  
The transfer size is 1 to 256 words. (except for writing into EEPROM)  
Data transfer between the following objects are available.  
CPU register (RW or D) EEPROM (D register)  
CPU register (RW or D) T1S RS-485 port (T1S only)  
Execution condition  
Input  
Operation  
Output  
OFF  
ON  
ERF  
Set  
OFF No execution  
ON  
Normal execution  
When error is occurred (see Note)  
ON  
Operand  
Name  
Device  
Register  
Constant Index  
X
Y
R
S
T. C. XW YW RW SW T  
C
D
I
J
K
A Source  
parameter  
B Transfer size  
C Destination  
parameter  
Parameters  
Source parameter  
Type  
Transfer size and status  
Transfer size  
Destination parameter  
Type  
A
B
C
A+1  
Leading address  
B+1 Status flag for RS-485 port  
B+2 (max. 2 words)  
C+1  
Leading address  
Register type  
RW register (RAM)  
D register (RAM)  
D register (EEPROM)  
Type code  
H0003  
H0004  
Leading address  
Transfer size  
1 to 256  
0 to 255  
0 to 4095  
0 to 2047  
1 to 256  
H0020  
1 to 32 (if destination)  
1 to 256 (if source)  
1 to 256  
T1S RS-485 port  
H0030  
0 (fixed)  
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7. Instructions  
CPU register built-in EEPROM  
In the EEPROM, the D registers are divided into pages as follows.  
T1-16S  
D0000  
Page 1  
(32 words)  
Writing data into the EEPROM is  
available within one page at a  
time. (max. 32 words)  
D0031  
D0032  
Page 2  
(32 words)  
For data reading from the  
EEPROM, there is no need to  
consider the pages.  
D0063  
D2016  
D2047  
Page 64  
(32 words)  
Example  
When R020 is changed from OFF to ON, 10 words of RAM data (D0700 to D0709) are written  
into the EEPROM (D0016 to D0025).  
D1000 (H0004) and D1001 (700) indicate the leading register of the source table (D0700 in  
RAM). D1002 (10) indicates the transfer size (10 words = 10 registers). D1003 (H0020 = 32)  
and D1004 (16) indicate the leading register of the destination table (D0016 in EEPROM).  
Note  
The XFER instruction is not executed as error in the following cases. In these cases, the  
instruction error flag (ERF = S051) is set to ON. If the ERF is set to ON once, it remains ON until  
resetting to OFF by user program.  
(1) When the number of words transferred exceeds limit.  
(2) When the source/destination table of transfer is out of the valid range.  
(3) When the transfer combination is invalid.  
The EEPROM has a life limit for data writing into an address. It is 100,000 times. Pay attention  
not to exceed the limit. (EEPROM alarm flag = S007 is not updated by this instruction)  
Once data writing into the EEPROM is executed, EEPROM access (read/write) is prohibited for  
the duration of 10 ms. Therefore, minimum 10 ms interval is necessary for data writing.  
The XFER instruction can be programmed in the main program and in the interrupt program.  
If this instruction is programmed in both, the instruction in the main program should be executed  
in interrupt disable state. Refer to EI (FUN 140) and DI (FUN 141) instructions.  
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7. Instructions  
CPU register T1S RS-485 port  
<Receiving>  
When the instruction input is ON, one set of message (from start character to the trailing code)  
which is received by the RS-485 port is read from the receive buffer, and stored in the CPU  
registers. The transfer size is fixed to 256 words. The execution status and the message length  
(in bytes) are stored in the status flag.  
The instruction input must be kept ON until the receiving operation is complete.  
Example  
Source designation  
H0030  
Transfer size  
00256 (fixed)  
D0003 Execution status  
D0004 Message length  
Destination designation  
D0000  
D0001  
D0002  
D0005  
D0006  
H0004  
00100  
00000  
T1S RS-485 port  
D0100 (CPU register)  
When R0000 is ON, one set of received message is read and stored in D0100 and after.  
Execution status:  
H0000 ... Normal complete  
H0001 ... Communication error (parity error, framing error)  
H0002 ... Message length over (more than 512 bytes)  
H0003 ... Receive buffer over flow  
H0004 ... Receive time-out (from start character to the trailing code)  
Baudrate  
Time-out setting  
300, 600, 1200 bps 30 seconds  
2400 bps  
4800 bps  
9600 bps  
19200 bps  
15 seconds  
7 seconds  
3 seconds  
1.5 seconds  
Message length: 0 .............. No receive message  
1 to 512 ... Message length in bytes  
Note  
The XFER instruction is not executed as error in the following cases. In these cases, the  
instruction error flag (ERF = S051) is set to ON. If the ERF is set to ON once, it remains ON until  
resetting to OFF by user program.  
(1) The leading address for the RS-485 port designation is other than 0.  
(2) Transfer size is other than 256.  
(3) Mode setting of the RS-485 port is not the free ASCII mode.  
(4) This instruction is programmed in the sub-program #1.  
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7. Instructions  
<Transmitting>  
When the instruction input is ON, one set of message which is stored in the source table (from  
start character to the trailing code) is transmitted through the RS-485 port. The execution  
status is stored in the status flag.  
The instruction input must be kept ON until the transmitting operation is complete.  
Example  
Source designation  
H00 H04  
Transfer size  
00012  
D0013 Execution status  
Destination designation  
H00 H30  
00000  
D0010  
D0011  
D0012  
D0015  
D0016  
00500  
D0500 (CPU register)  
T1S RS-485 port  
When R0001 is ON, one set of message (ended by the trailing code) stored in the range of  
D0500 to D0511 (12 words) is transmitted through the RS-485 port.  
Execution status:  
H0000 ... Normal complete  
H0001 ... During transmitting the message  
H0002 ... Communication busy  
H0003 ... During the reset operation  
H0004 ... Send time-out (from start character to the trailing code)  
H0005 ... Send message length error (no trailing code in the source table)  
Baudrate  
Time-out setting  
300, 600, 1200 bps 30 seconds  
2400 bps  
4800 bps  
9600 bps  
19200 bps  
15 seconds  
7 seconds  
3 seconds  
1.5 seconds  
Note  
The XFER instruction is not executed as error in the following cases. In these cases, the  
instruction error flag (ERF = S051) is set to ON. If the ERF is set to ON once, it remains ON until  
resetting to OFF by user program.  
(1) The leading address for the RS-485 port designation is other than 0.  
(2) Transfer size is out of the range of 1 to 256.  
(3) Mode setting of the RS-485 port is not the free ASCII mode.  
(4) This instruction is programmed in the sub-program #1.  
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7. Instructions  
FUN 236  
XFER  
Expanded data transfer (Inverter connection mode)  
Expression  
Input [ A XFER B C ]Output  
Function  
This function is provided to control Toshiba Inverters VF-A7/G7/S9 connected on the RS-485 line.  
When the RS-485 port operation mode is set to the Inverter mode (SW56 = 3), the T1-16S can  
perform the following functions for up to 63 Inverters.  
(1) Cyclically scans the Inverters and sends/receives the following data to/from each Inverter.  
Send to Inverter: Frequency reference write and Operation command write (Run, Stop, etc.)  
Receive from Inverter: Operating frequency monitor and Output terminal status monitor  
(2) Cyclically scans the Inverters and receives the following data from each Inverter.  
Receive from Inverter: Operating frequency monitor and Output terminal status monitor  
(3) Sends a specified Read command to a specified Inverter and stores the response data.  
(4) Sends a specified Write command with the command data to a specified Inverter.  
(5) Sends a specified Write command with the command data to all the connected inverters as  
broadcast.  
Execution condition  
Input  
Operation  
Output  
OFF  
ON  
ERF  
Set  
OFF No execution  
ON  
Normal execution  
When error is occurred (see Note)  
ON  
Operand  
Name  
Device  
Register  
Constant Index  
X
Y
R
S
T. C. XW YW RW SW T  
C
D
I
J
K
A Data table  
B Inverter No.  
C RS-485 port  
Parameters  
Data table designation  
Register type code  
Leading address  
Parameter and status  
Inverter number  
Operation mode  
Execution status  
RS-485 port designation  
Fixed to H0030  
C+1 Fixed to 0  
A
A+1  
B
B+1  
B+2  
C
B+3 Communication error code  
B+4  
B+5  
B+6  
B+7  
Inverter communication  
status map  
(each bit shows each  
Inverter status)  
Data table designation (A, A+1):  
Register  
RW register  
D register  
Type code (A)  
Leading address (A+1)  
0 to 255  
H0003  
H0004  
0 to 4095  
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7. Instructions  
Operation mode designation (B+1):  
B+1  
0
Operation mode  
Data exchange mode  
(Mode 0)  
Monitor mode  
(Mode 1)  
Read command mode  
(Mode 2)  
Write command mode  
(Mode 3)  
Description  
Cyclically scans the connected Inverters (Control & Monitor)  
(Inverter command: P+FA01&FA00 and R+FD00&FE07)  
Cyclically scans the connected Inverters (Monitor only)  
(Inverter command: R+FD00&FE07)  
Sends a read command to a specified Inverter  
(Inverter command: R+ User designation)  
Sends a write command to a specified Inverter  
(Inverter command: P+ User designation)  
Sends a write command to all the connected Inverters as broadcast  
(Inverter command: P+ User designation)  
1
2
3
4
Broadcast mode  
(Mode 4)  
Inverter number (B):  
For the operation mode 0 and 1:  
It specifies the maximum Inverter number. For example, if it is 5, the T1-16S scans from #0  
through #5 Inverters and repeats. Setting range is 0 to 63.  
For the operation mode 2 and 3:  
It specifies the target Inverter number for sending commands. Setting range is 0 to 63.  
For the operation mode 4:  
This setting is ignored. The broadcast address (HFF) is used as Inverter number.  
Execution status (B+2):  
F
E
D
C
B
A
9
8
7
6
5
4
3
2
1
0
B+2  
Shows the scan count.  
(0 1 2 ... 32767 0 1 ... )  
Comes 1 when the RS-485 port is busy. (No execution)  
Communication error code (B+3):  
The communication error code responded from the Inverter is shown here. If 2 or more Inverters are error,  
the smallest Inverter number's error is stored. Refer to Inverter's manual for the error code.  
B+3  
Meaning  
0
No error (Normal)  
Response time-out (No answer)  
Others Inverter error response (Refer to Inverter's manual)  
Inverter communication status map (B+4 to B+7):  
This 4-word table shows the communication status map of each Inverter. (1: Normal / 0: Error or No  
answer)  
F
E
D
C
B
A
9
8
7
6
5
4
3
2
1
0
B+4 15 14 13 12 11 10  
9
8
7
6
5
4
3
2
1
0
B+5 31 30 29 28 27 26 25 24 23 22 21 20 19 18 17 16  
B+6 47 46 45 44 43 42 41 40 39 38 37 36 35 34 33 32  
B+7 63 62 61 60 59 58 57 56 55 54 53 52 51 50 49 48  
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7. Instructions  
< Data exchange mode (Mode 0) >  
When the instruction input comes ON with the operand B+1 is 0, the Data exchange mode  
(mode 0) is selected. In this mode, the T1-16S sends the following commands to the Inverters  
starting from #0 through the Inverter number specified by the operand B, and repeats.  
#0 Frequency reference write (FA01)  
#0 Operation command write (FA00)  
#1 Frequency reference write (FA01)  
#1 Operation command write (FA00)  
:
#n Frequency reference write (FA01)  
#n Operation command write (FA00)  
Scan  
#0 Operating frequency monitor (FD00)  
#0 Output terminal status monitor (FE07)  
#1 Operating frequency monitor (FD00)  
#1 Output terminal status monitor (FE07)  
:
#n Operating frequency monitor (FD00)  
#n Output terminal status monitor (FE07)  
The maximum Inverter number #n is specified by the operand B.  
The scan execution status and the Inverter communication status are stored in the operand  
B+2 to B+7.  
The command data table is specified by the operand A and A+1.  
When the instruction input is reset to OFF, the operation is stopped after receiving the  
response from the Inverter currently communicating.  
Example  
Data table designation  
Parameter & status  
RS-485 port  
H0030 (fixed)  
0 (fixed)  
D1000  
D1001  
4
2000  
RW200  
RW201  
5
D1010  
D1011  
0 (mode 0)  
RW202 Execution status  
RW203 Comm error code  
RW204  
RW205 Inverter comms  
RW206  
RW207  
status map  
When the data for each operand are set as above, the following operation condition is specified.  
RW200=5 The max Inverter number is 5. Therefore T1-16S scans from #0 through #5 Inverters.  
D1000=4 & D1001=2000 D2000 is specified as the data table starting address.  
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7. Instructions  
Data table:  
Register  
Data contents  
Signal direction  
Read  
D2000 #0 Operating frequency  
D2001 #0 Output terminal status  
D2002 #0 Frequency reference  
D2003 #0 Operation command  
D2004 #1 Operating frequency  
D2005 #1 Output terminal status  
D2006 #1 Frequency reference  
D2007 #1 Operation command  
Read  
Write  
Write  
Read  
Read  
Write  
Write  
D2020 #5 Operating frequency  
D2021 #5 Output terminal status  
D2022 #5 Frequency reference  
D2023 #5 Operation command  
Read  
Read  
Write  
Write  
The data format for the operating frequency and the frequency reference registers are 0.01 Hz units.  
For example, if it is 60 Hz, the corresponding register data is 6000.  
For the data format of the output terminal status register, refer to the Monitor mode (mode 1).  
The bit assignment of the operation command register is as follows. For details, refer to your  
Inverter manual.  
F
E
D
C
B
A
9
8
7
6
5
4
3
2
1
0
Programmed speed selection  
0000 = None  
0001 = Speed 1  
0010 = Speed 2  
:
1111 = Speed 15  
PI operation (0 = Normal / 1 = Off)  
DC braking (0 = Off / 1 = On)  
Jog operation (0 = off / 1 = On)  
F/R selection (0 = Forward / 1 = Reverse)  
Run/Stop (0 = Stop / 1 = Run)  
Free run (0 = Normal / 1 = Free run)  
Emergency stop (0 = Normal / 1 = EMS)  
Reset command (0 = Normal / 1 = Reset)  
Frequency enable (0 = Disable / 1 = Enable)  
Command enable (0 = Disable / 1 = Enable)  
Example operation:  
To operate the #0 Inverter at 30 Hz forward rotation, write the value 3000 in D2002 and HC400 in  
D2003. (HC400 = Bits F, E, A are 1, and others are 0)  
The current operating frequency and the output terminal status of the #0 Inverter are stored in D2000  
and D2001 respectively.  
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7. Instructions  
< Monitor mode (Mode 1) >  
When the instruction input comes ON with the operand B+1 is 1, the Monitor mode (mode 1) is  
selected.  
In this mode, the T1-16S sends the following Read commands to the Inverters starting from #0  
through the Inverter number specified by the operand B, and repeats.  
#0 Operating frequency monitor (FD00)  
#0 Output terminal status monitor (FE07)  
#1 Operating frequency monitor (FD00)  
#1 Output terminal status monitor (FE07)  
:
Scan  
#n Operating frequency monitor (FD00)  
#n Output terminal status monitor (FE07)  
The maximum Inverter number #n is specified by the operand B.  
The scan execution status and the Inverter communication status are stored in the operand  
B+2 to B+7.  
The monitor data table is specified by the operand A and A+1.  
When the instruction input is reset to OFF, the operation is stopped after receiving the  
response from the Inverter currently communicating.  
Example  
Data table designation  
Parameter & status  
19  
RS-485 port  
H0030 (fixed)  
0 (fixed)  
D1000  
D1001  
3
100  
RW200  
RW201  
D1010  
D1011  
1 (mode 1)  
RW202 Execution status  
RW203 Comm error code  
RW204  
RW205 Inverter comms  
RW206  
RW207  
status map  
When the data for each operand are set as above, the following operation condition is specified.  
RW200=19 The max Inverter number is 19. Therefore T1-16S scans from #0 through #19 Inverters.  
D1000=3 & D1001=100 RW100 is specified as the data table starting address.  
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7. Instructions  
Data table:  
Register  
Data contents  
Signal direction  
Read  
Read  
RW100 #0 Operating frequency  
RW101 #0 Output terminal status  
RW102  
RW103  
No use  
No use  
RW104 #1 Operating frequency  
RW105 #1 Output terminal status  
Read  
Read  
RW106  
RW107  
No use  
No use  
RW176 #19 Operating frequency  
RW177 #19 Output terminal status  
Read  
Read  
RW178  
RW179  
No use  
No use  
The data format for the operating frequency register is 0.01 Hz units. For example, if it is 60 Hz, the  
corresponding register data is 6000.  
The bit assignment of the output terminal status register is as follows. For details, refer to your  
Inverter manual.  
F
E
D
C
B
A
9
8
7
6
5
4
3
2
1
0
OUT1 (f130)  
OUT2 (f131)  
FL (f132)  
R1 (f133)  
R2 (f134)  
OUT3 (f135)  
OUT4 (f136)  
ALM0  
ALM1  
ALM2  
ALM3  
Example operation:  
The current operating frequency and the output terminal status of the #0 Inverter are stored in RW100  
and RW101 respectively.  
If the #0 Inverter is operating at 55 Hz, the data 5500 is stored in RW100. If the OUT2 terminal of the  
#0 Inverter is ON, the bit 1 of RW101 (R1011) becomes 1.  
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7. Instructions  
< Read command mode (Mode 2) >  
When the instruction input comes ON with the operand B+1 is 2, the Read command mode  
(mode 2) is selected. In this mode, the T1-16S sends the user specified Read command to the  
Inverter specified by the operand B, and repeats.  
Sends the specified command to #n Inverter  
Repeat  
Receives the response and stores the data into the register  
The target Inverter number #n is specified by the operand B.  
The scan execution status and the Inverter communication status are stored in the operand  
B+2 to B+7.  
The command setting register and the response data storing register is indirectly specified by  
the operand A and A+1.  
When the instruction input is reset to OFF, the operation is stopped after receiving the  
response from the Inverter.  
Example  
Data table designation  
Parameter & status  
RS-485 port  
H0030 (fixed)  
0 (fixed)  
D1000  
D1001  
4
3000  
RW200  
RW201  
3
D1010  
D1011  
2 (mode 2)  
RW202 Execution status  
RW203 Comm error code  
RW204  
RW205 Inverter comms  
RW206  
RW207  
status map  
When the data for each operand are set as above, the following operation condition is specified.  
RW200=3 The target Inverter number is 3. Therefore T1-16S communicates with #3 Inverter.  
D1000=4 & D1001=3000 D3000 is specified as the command setting register and D3001 is specified  
as the response data storing register.  
Data table:  
Register  
Data contents  
Signal direction  
D3000 Command code  
D3001 Response data  
Read  
Example operation:  
For example, to read the output current from the #3 Inverter, set the command code HFE03 into  
D3000. Then the response data is stored in D3001. If the response data is 1915, it means 19.15 %.  
For the command code and the data format of the response, refer to your Inverter manual.  
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7. Instructions  
< Write command mode (Mode 3) >  
When the instruction input comes ON with the operand B+1 is 3, the Write command mode  
(mode 3) is selected. In this mode, the T1-16S sends the user specified Write command to the  
Inverter specified by the operand B, and repeats.  
Sends the specified command with command data to #n Inverter  
Repeat  
Checks the acknowledge  
The target Inverter number #n is specified by the operand B.  
The scan execution status and the Inverter communication status are stored in the operand  
B+2 to B+7.  
The command code and the command data setting registers are indirectly specified by the  
operand A and A+1.  
When the instruction input is reset to OFF, the operation is stopped after receiving the  
response from the Inverter.  
Example  
Data table designation  
Parameter & status  
RS-485 port  
H0030 (fixed)  
0 (fixed)  
D1000  
D1001  
4
3010  
RW200  
RW201  
5
D1010  
D1011  
3 (mode 3)  
RW202 Execution status  
RW203 Comm error code  
RW204  
RW205 Inverter comms  
RW206  
RW207  
status map  
When the data for each operand are set as above, the following operation condition is specified.  
RW200=5 The target Inverter number is 5. Therefore T1-16S communicates with #5 Inverter.  
D1000=4 & D1001=3010 D3010 is specified as the command code setting register and D3011 is  
specified as the command data setting register.  
Data table:  
Register  
Data contents  
Signal direction  
D3010 Command code  
D3011 Command data  
Write  
Example operation:  
For example, to write the acceleration time parameter (10 seconds) to the #5 Inverter, set the  
command code H0009 into D3010 and the value 100 into D3011.  
For the command code and the command data format, refer to your Inverter manual.  
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7. Instructions  
< Broadcast mode (Mode 4) >  
When the instruction input comes ON with the operand B+1 is 4, the Broadcast mode (mode 4)  
is selected. In this mode, the T1-16S sends the user specified Write command to all the  
Inverters as broadcast.  
This mode is useful to send Run/Stop command to all the Inverter at the same time.  
Sends the specified command with command data to all Inverters (broadcast)  
Repeat  
Checks the acknowledge from #0 Inverter  
The Inverter number specified by the operand B is ignored.  
The scan execution status and the Inverter communication status are stored in the operand  
B+2 to B+7. (only #0 Inverter responds)  
The command code and the command data setting registers are indirectly specified by the  
operand A and A+1.  
When the instruction input is reset to OFF, the operation is stopped after receiving the  
response from the Inverter.  
Example  
Data table designation  
Parameter & status  
(any 0 to 63)  
RS-485 port  
H0030 (fixed)  
0 (fixed)  
D1000  
D1001  
4
3020  
RW200  
RW201  
D1010  
D1011  
4 (mode 4)  
RW202 Execution status  
RW203 Comm error code  
RW204  
RW205 Inverter comms  
RW206  
RW207  
status map  
When the data for each operand are set as above, the following operation condition is specified.  
D1000=4 & D1001=3020 D3020 is specified as the command code setting register and D3021 is  
specified as the command data setting register.  
Data table:  
Register  
Data contents  
Signal direction  
D3020 Command code  
D3021 Command data  
Write  
Example operation:  
For example, to send the Run forward command to all the Inverters, set the command code HFA00  
into D3020 and the value HC400 into D3021.  
For the command code and the command data format, refer to your Inverter manual.  
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7. Instructions  
< Note >  
(1) The XFER instruction is not executed as error in the following cases. In these cases, the instruction error  
flag (ERF = S051) is set to ON. If the ERF is set to ON once, it remains ON until resetting to OFF by  
user program.  
The RS-485 port designation is other than H0030 and 0.  
The Inverter number designation is other than 0 to 63.  
Operation mode setting for RS-485 port is other than the Inverter connection mode.  
(2) This XFER instruction must be programmed in the Main program.  
(3) During the instruction input is ON, the data contents in the data table specified by A can be changed.  
However, parameters specified by B cannot be changed.  
(4) In the Data exchange mode (mode 0) and the Monitor mode (mode 1), the T1-16S scans from #0 to the  
specified number. Therefore the Inverter number should be consecutive starting with 0.  
If an Inverter is disconnected from the network, the T1-16S checks its existence periodically. When you  
turn off power to an Inverter for maintenance purpose and turn on again, it is recommended to reset the  
instruction input to re-configure the network.  
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Section 8  
Special I/O Functions  
8.1 Special I/O function overview, 256  
8.2 Variable input filter constant, 260  
8.3 High speed counter, 261  
8.4 Interrupt input function, 268  
8.5 Analog setting function, 270  
8.6 Pulse output function, 271  
8.7 PWM output function, 273  
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8. Special I/O Functions  
8.1 Special I/O function overview  
The T1-16S supports the special I/O functions as listed below.  
Function name  
Variable input filter  
constant  
Function summary  
Input filter constant (ON/OFF delay time) can be set SW16 setting  
by user program. The setting range is 0 to 15ms  
(1ms units). Default value is 10ms. This function is  
applied for X000 to X007 (8 points as a block).  
Remarks  
is necessary to  
use this  
function. (Note)  
High  
speed  
counter  
Single phase Counts the number of pulses of single phase pulse  
up-counter train. 2 channels of pulse input are available. The  
Only one  
among these 4  
countable pulse rate is up to 5KHz for each channel. functions can  
be selected.  
SW16 is used  
to select the  
function.  
Channel 1 X000 count input, X002 reset input  
Channel 2 X001 count input, X003 reset input  
Single phase Counts the number of pulses in a specified sampling  
speed-  
counter  
time. The sampling time setting is 10 to 1000ms  
(10ms units). 2 channels of pulse input are available.  
The countable pulse rate is up to 5KHz for each  
channel.  
(Note)  
Channel 1 X000 count input  
Channel 2 X001 count input  
Quadrature Counts the 2-phase pulses whose phases are shifted  
bi-pulse  
counter  
90° each other. Counts up when phase A precedes,  
and counts down when phase B precedes.  
The countable pulse rate is up to 5KHz.  
Phase A X000  
Phase B X001  
Reset … … X002  
Interrupt input function Immediately activates the corresponding I/O interrupt  
program when the interrupt input is changed from  
OFF to ON (or ON to OFF). 2 points of interrupt input  
are available.  
X002 Interrupt 1 (I/O interrupt program #3)  
X003 Interrupt 2 (I/O interrupt program #4)  
Analog setting  
function  
The value of the analog setting adjuster is converted No function  
into digital value (0 to 1000) and stored in the SW  
register. 2 adjusters are provided on the T1-16S.  
V0 SW30  
selection is  
required.  
V1 SW31  
Pulse output function Variable frequency pulse train can be output. The  
available pulse rate is 50 to 5000Hz (1Hz units).  
Y020 CW or Pulse (PLS)  
Either one  
between these  
2 functions  
can be used.  
SW26 is used  
to select the  
function.(Note)  
Y021 CCW or Direction (DIR)  
PWM output function Variable duty cycle pulse train can be output. The  
available ON duty setting is 0 to 100% (1% units).  
Y020 PWM output  
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8. Special I/O Functions  
Mode setting for the special I/O functions  
These functions, except the analog setting function, are selected by setting data into  
SW16 and SW26 by user program. These registers work as mode setting registers for  
the special I/O functions. The data setting for these registers, i.e. mode setting for the  
special I/O functions, is effective only at the first scan.  
Note) In the explanation below, HSC and INT mean the high speed counter and the  
interrupt input functions respectively.  
F E D C B A 9 8 7 6 5 4 3 2 1 0  
SW16  
0
0 0  
0 0  
Bit 0 < HSC and INT master flag >  
0: No use  
1: Use  
Bit 1 < HSC / INT selection >  
0: INT  
1: HSC  
Bits 2 and 3 < INT No.1 mode >  
00: No use (Reserve)  
01: Rising (OFF to ON)  
10: Falling (ON to OFF)  
11: No use (Reserve)  
Bits 6 and 7 < INT No.2 mode >  
00: No use (Reserve)  
01: Rising (OFF to ON)  
10: Falling (ON to OFF)  
11: No use (Reserve)  
Bits A and B < HSC mode >  
00: Single phase up-counter  
01: Single phase speed-counter  
10: Quadrature bi-pulse counter  
11: No use (Reserve)  
Bits C and D < Enable flag for HSC / INT >  
00: CH2 - disable, CH1 - disable  
01: CH2 - disable, CH1 - enable  
10: CH2 - enable, CH1 - disable  
11: CH2 - enable, CH1 - enable  
Bit F < Variable input filter constant >  
0: No use (fixed to 10ms)  
1: Use  
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8. Special I/O Functions  
Note) In the explanation below, P-OUT means the pulse output function.  
F E D C B A 9 8 7 6 5 4 3 2 1 0  
0 0 0 0 0 0 0 0 0 0  
SW26  
Bit 0 < P-OUT and PWM master flag >  
0: No use  
1: Use  
Bit 1 < P-OUT / PWM selection >  
0: PWM  
1: P-OUT  
Bit 2 < PLS mode >  
0: CW/CCW  
1: Pulse/Direction (PLS/DIR)  
P-OUT / PWM operation error flag  
(These are not user setting items)  
Bit D < PWM pulse width error >  
0: Normal  
1: Error  
Bit E < PWM ON duty setting error >  
0: Normal  
1: Error  
Bit F < Frequency setting error >  
0: Normal  
1: Error  
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8. Special I/O Functions  
The table below summarizes the mode setting data of each function. In the table,  
’ means do not care.  
SW16  
Variable input filter constant  
F
E
D C  
B
A
9
8
7
6
5
4
3
2
1
0
Use  
1 0  
0 0  
0 0  
− − − −  
− − − −  
− −  
SW16  
High speed counter  
F
E
D C  
B
A
9
8
7
6
5
4
3
2
1
0
Single phase  
up-counter  
Channel 1 only  
0 0 1 0 0 0 0 0 0 0 0 0 0 1 1  
0 1 0 0 0 0 0 0 0 0 0 0 0 1 1  
0 1 1 0 0 0 0 0 0 0 0 0 0 1 1  
0 0 1 0 1 0 0 0 0 0 0 0 0 1 1  
0 1 0 0 1 0 0 0 0 0 0 0 0 1 1  
0 1 1 0 1 0 0 0 0 0 0 0 0 1 1  
0 0 0 1 0 0 0 0 0 0 0 0 0 1 1  
Channel 2 only  
Both channels  
Channel 1 only  
Channel 2 only  
Both channels  
Single phase  
speed-counter  
Quadrature bi-pulse counter  
SW16  
Interrupt input function  
F
E
D C  
B
A
9
8
7
6
5
4
3
2
1
0
Interrupt 1 only Rising (OFF to ON)  
Falling (ON to OFF)  
Interrupt 2 only Rising (OFF to ON)  
Falling (ON to OFF)  
0 0 1 0 0 0 0 0 0 0 0 0 1 0 1  
0 0 1 0 0 0 0 0 0 0 0 1 0 0 1  
0 1 0 0 0 0 0 0 1 0 0 0 0 0 1  
0 1 0 0 0 0 0 1 0 0 0 0 0 0 1  
0 1 1 0 0 0 0 0 1 0 0 0 1 0 1  
0 1 1 0 0 0 0 1 0 0 0 0 1 0 1  
0 1 1 0 0 0 0 0 1 0 0 1 0 0 1  
0 1 1 0 0 0 0 1 0 0 0 1 0 0 1  
Both interrupts No.1 = Rising, No.2 = Rising  
1 and 2  
No.1 = Rising, No.2 = Falling  
No.1 = Falling, No.2 = Rising  
No.1 = Falling, No.2 =  
Falling  
SW26  
Pulse output function  
F
E
D C  
B
A
9
8
7
6
5
4
3
2
1
0
CW/CCW method  
Pulse/Direction (PLS/DIR) method  
0 0 0 0 0 0 0 0 0 0 0 1 1  
0 0 0 0 0 0 0 0 0 0 1 1 1  
− − −  
− − −  
SW26  
PWM output function  
F
E
D C  
B
A
9
8
7
6
5
4
3
2
1
0
Use  
0 0 0 0 0 0 0 0 0 0 0 0 1  
− − −  
For example, the following programs can be used to select the quadrature bi-pulse  
counter.  
or  
(H0803)  
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8. Special I/O Functions  
8.2 Variable input filter constant  
Function  
The input filter constant (ON/OFF delay time) of the leading 8 points X000 to X007  
can be specified by user program within the range of 0 to 15ms. The default is 10ms.  
The setting value is recognized at the first scan. Therefore, it cannot be changed after  
the second scan.  
Related registers  
SW16 Function selection. Refer to section 8.1.  
SW17 Input filter constant value  
F
E D C B A  
9
8
7
6
5
4
3
2
1
0
No use (set to 0)  
Setting value  
0 to 15  
Operation  
Input signal  
T
T
T
T
Internal logic  
Scan cycle  
X device  
T: Input filter constant (0 to 15ms)  
Sample program  
This program sets the input filter constant to 3ms.  
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8. Special I/O Functions  
8.3 High speed counter  
8.3.1 Single phase up-counter  
Function  
When the count input is changed from OFF to ON, the count value is increased by 1.  
When the count value reaches the set value, the count value is reset to 0, and I/O  
interrupt program is activated (if the interrupt enable flag is ON). The count value is  
reset to 0 when the reset input comes ON.  
This counter operation is enabled while the soft-gate is ON. The count value is reset to  
0 when the soft-gate is changed from ON to OFF.  
The set value is set internally at the timing of the soft-gate changing from OFF to ON.  
When the soft-gate is OFF, the count value can be changed by writing the data into  
the set value register and setting the count preset flag to ON.  
The count value range is H0000 to HFFFF (16-bit data).  
Hardware condition  
Count input (X000 and X001)  
ON/OFF pulse width: 100µs or more (max. 5KHz)  
Reset input (X002 and X003)  
ON/OFF duration:  
Related registers  
SW16: Function selection. Refer to section 8.1.  
Function Register/device  
Count input  
2ms or more  
Remarks  
Channel 1  
Channel 2  
X001  
X000  
X002  
SW18  
SW22  
S240  
S241  
S243  
(Note)  
Reset input  
Set value  
Count value  
Soft-gate  
X003  
SW20  
SW23  
S248  
Data range: H0000 to HFFFF  
Operation is enabled when ON  
Interrupt is enabled when ON  
Used to preset the counter value  
Interrupt enable  
Count preset  
S249  
S24B  
Note) When both channels are used, X000 to X003 cannot be used as normal  
input devices. However, if either one channel is used, these inputs for unused  
channel can be used as normal input devices.  
Interrupt assignment  
Channel 1 I/O interrupt program #1  
Channel 2 I/O interrupt program #2  
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8. Special I/O Functions  
Operation  
Count input  
Reset input  
Soft-gate  
Set value  
Count value  
Interrupt  
Sample program  
(H1003)  
In this example, 4099 (H1003) is set in SW16. As a result, the single phase up-  
counter (channel 1 only) is selected.  
When R010 comes ON, the data 2000 is written into the set value register (SW18).  
While R010 is ON, the soft-gate (S240) and the interrupt enable flag (S241) are set to  
ON to enable the counter operation.  
The counter works as a ring counter with the set value 2000. The count value is stored  
in SW22.  
When R010 is OFF and R011 comes ON, the count value is preset to the data of  
D0100.  
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8. Special I/O Functions  
8.3.2 Single phase speed-counter  
Function  
This function counts the number of changes of the count input from OFF to ON during  
the every specified sampling time. The count value in a sampling time is stored in the  
hold value register.  
This counter operation is enabled while the soft-gate is ON. When the soft-gate is  
OFF, the hold value is cleared to 0.  
The setting range of the sampling time is 10 to 1000ms (10ms units).  
The count value range is H0000 to HFFFF (16-bit).  
Hardware condition  
Count input (X000 and X001)  
ON/OFF pulse width: 100µs or more (max. 5KHz)  
Related registers  
SW16: Function selection. Refer to section 8.1.  
Function  
Register/device  
Remarks  
Channel 1  
Channel 2  
X001  
SW20  
SW23  
S248  
Count input  
X000  
SW18  
SW22  
S240  
(Note 2)  
Sampling time  
Hold value  
Soft-gate  
Data range: 1 to 100 (Note 1)  
Data range: H0000 to HFFFF  
Operation is enabled when ON  
Note 1) The setting data range of the sampling time is 1 to 100. (10ms multiplier)  
Note 2) When both channels are used, X000 and X001 cannot be used as normal  
input devices. However, if either one channel is used, the input for unused  
channel can be used as normal input devices.  
Interrupt assignment  
No interrupt function.  
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8. Special I/O Functions  
Operation  
Count input  
T  
T  
T  
T  
T  
T  
Sampling time  
Soft-gate  
e
c
b
a
d
c
a
Internal  
count value  
e
b
d
Hold value  
Sample program  
(H1403)  
In this example, 5123 (H1403) is set in SW16. As a result, the single phase speed-  
counter (channel 1 only) is selected.  
The sampling time is set as 100ms, because 10 is written in SW18.  
While R010 is ON, the soft-gate (S240) is set to ON, and the speed-counter works.  
The hold value is stored in SW22.  
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8. Special I/O Functions  
8.3.3 Quadrature bi-pulse counter  
Function  
This function counts up or down the quadrature bi-pulse (2-phase pulses whose  
phases are shifted 90° each other). Counts up when phase A precedes, and counts  
down when phase B precedes. Both rising and falling edges of each phase are  
counted. Consequently, 4 times count value against the pulse frequency is obtained.  
Phase A  
Phase B  
Up count  
Down count  
When the count value reaches the comparison value 1 (or 2), the I/O interrupt  
program #1 (or #2) is activated (if the interrupt enable flag for each is ON).  
This counter operation is enabled while the soft-gate is ON. The count value is reset to  
0 when the soft-gate is changed from ON to OFF. The count value is also reset to 0  
when the reset input comes ON.  
When the soft-gate is OFF, the count value can be changed by writing the data into  
the comparison value 1 (or 2) register and setting the count preset flag 1 (or 2) to ON.  
The comparison value 1 and 2 can be changed even when the soft-gate is ON.  
The count value range is -2147483648 to 2147483647 (32-bit data).  
Hardware condition  
Phase A and phase B (X000 and X001)  
ON/OFF pulse width: 100µs or more (max. 5KHz)  
Reset input (X002)  
ON/OFF duration:  
Related registers  
SW16: Function selection. Refer to section 8.1.  
2ms or more  
Function  
Phase A  
Register/device  
X000  
Remarks  
Phase B  
X001  
Reset input  
X002  
Comparison value 1  
Comparison value 2  
Count value  
Data range: -2147483648 to 2147483647  
SW19SW18  
SW21SW20  
SW23SW22  
S240  
Soft-gate  
Operation is enabled when ON  
Interrupt 1 is enabled when ON  
Used to preset the count value  
Interrupt 2 is enabled when ON  
Used to preset the count value  
Interrupt enable 1  
Count preset 1  
Interrupt enable 2  
Count preset 2  
S241  
S243  
S249  
S24B  
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Interrupt assignment  
Comparison value 1 I/O interrupt program #1  
Comparison value 2 I/O interrupt program #2  
Operation  
Up count  
Down count  
Reset input  
Soft-gate  
2147483647  
Comparison  
value 1  
Count value  
Comparison  
value 2  
-2147483648  
Interrupt  
1
1 1  
2
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8. Special I/O Functions  
Sample program  
(H0803)  
In this example, 2051 (H0803) is set in SW16. As a result, the quadrature bi-pulse  
counter is selected.  
When R010 comes ON, the data 150000 is set into the comparison value 1 register  
(SW19SW18), and 200000 is set into the comparison value 2 register (SW21SW20).  
While R010 is ON, the soft-gate (S240), the interrupt enable flag 1 (S241) and the  
interrupt enable flag 2 (S249) are set to ON to enable the counter operation.  
The count value is stored in SW23SW22.  
When R010 is OFF and R011 comes ON, the count value is preset to the data of  
D0101D0100.  
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8. Special I/O Functions  
8.4 Interrupt input function  
Function  
When the signal state of the interrupt input is changed from OFF to ON (or ON to  
OFF), the corresponding I/O interrupt program is activated immediately.  
Up to 2 interrupt inputs can be used. The interrupt generation condition can be  
selected either rising edge (OFF to ON) or falling edge (ON to OFF) for each input.  
The I/O interrupt program #3 is corresponding to the interrupt input 1, and the I/O  
interrupt program #4 is corresponding to the interrupt input 2.  
Hardware condition  
Interrupt input (X002 and X003)  
ON/OFF pulse width: 100µs or more  
Related registers  
SW16: Function selection. Refer to section 8.1.  
Interrupt input 1  
Interrupt input 2  
X002  
X003  
Interrupt assignment  
Interrupt input 1 I/O interrupt program #3  
Interrupt input 2 I/O interrupt program #4  
Operation  
Interrupt input 1  
Interrupt input 2  
Interrupt  
3
4
3
4
The above operation example is the case of rising edge setting for both inputs.  
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8. Special I/O Functions  
Sample program  
Main program  
(H3045)  
I/O interrupt program #3  
Interrupt program A  
I/O interrupt program #4  
Interrupt program B  
In this example, 12357 (H3045) is set in SW16. As a result, the interrupt input function  
(2 points, rising for both) is selected.  
When X002 is changed from OFF to ON, the interrupt program A is executed. When  
X003 is changed from OFF to ON, the interrupt program B is executed.  
NOTE  
Even if the Direct I/O instruction is used in the interrupt program, the  
corresponding input state (X002 or X003) cannot be confirmed. Because  
the interrupt is generated before internal updating of the input states.  
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8. Special I/O Functions  
8.5 Analog setting function  
Function  
The value of the analog setting adjuster is converted into a digital value (0 to 1000)  
and stored in the SW register. 2 adjusters are provided. (V0 and V1)  
The SW register data can be used as timer presets or any parameters for function  
instructions.  
Related registers  
Function  
Adjuster V0  
Adjuster V1  
Register  
SW30  
SW31  
Remarks  
Data range: 0 to 1000  
Operation  
Decrease  
Decrease  
Increase  
Increase  
V0  
V1  
SW30 (0 to 1000)  
SW31 (0 to 1000)  
Sample program  
The above example is a simple flicker circuit of Y020. In this example, the ON/OFF  
interval of Y020 can be controlled by the adjuster V0.  
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8. Special I/O Functions  
8.6 Pulse output function  
Function  
This function is used to output a variable frequency pulse train. The controllable pulse  
frequency is 50 to 5000 Hz (1 Hz units).  
The output mode can be selected either CW/CCW or Pulse/Direction (PLS/DIR).  
In the CW/CCW mode, CW pulse is output when the frequency setting is positive (50  
to 5000), and CCW pulse is output when it is negative (-50 to -5000).  
In the PLS/DIR mode, DIR is OFF when the frequency setting is positive (50 to 5000),  
and DIR is ON when it is negative (-50 to -5000).  
< CW/CCW mode >  
CW  
CCW  
< PLS/DIR mode >  
PLS  
DIR  
In the both modes, pulse output is enabled when the pulse enable flag is ON. While  
the pulse enable flag is ON, the pulse frequency can be changed by changing the  
frequency setting value. However, the pulse direction (the sign of the frequency  
setting) cannot be changed when the pulse enable flag is ON.  
This function can be used to control the speed of a stepping motor, etc.  
Related registers  
SW26: Function selection. Refer to section 8.1.  
Function  
CW/CCW PLS/DIR  
Register/  
device  
Y020  
Remarks  
CW pulse  
PLS  
DIR  
CCW pulse  
Y021  
Pulse enable flag  
S270  
Output is enabled when ON  
Frequency setting register  
Frequency setting error flag  
SW28  
S26F  
Data range: -5000 to -50, 50 to 5000  
ON at error (reset OFF automatically)  
Note) The allowable value range of the frequency setting (SW28) is -5000 to -50 and  
50 to 5000. If the value is out of this range or the sign is changed while the  
pulse enable flag (S270) is ON, the frequency setting error flag (S26F) comes  
ON. (Pulse output operation is continued with previous frequency setting)  
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8. Special I/O Functions  
Operation  
Pulse enable  
Frequency setting  
100  
-1000  
-300  
1000  
300  
-100  
+
1KHz  
Frequency  
300Hz  
100Hz  
Pulse output  
100Hz  
300Hz  
1KHz  
-
Sample program  
In this example, 3 (H0003) is set in SW26. As a result, the CW/CCW mode pulse  
output function is selected.  
When R000 is ON, the pulse output is started with the frequency designated by  
D0100.  
If an invalid frequency is designated, the frequency setting error flag (S26F) comes  
ON and the pulse enable flag (S270) is turned OFF. Then the pulse output is stopped.  
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8. Special I/O Functions  
8.7 PWM output function  
Function  
This function is used to output a variable duty cycle pulse train. The controllable duty  
cycle is 0 to 100 % (1 % units).  
ON duty  
PWM  
50%  
70%  
60%  
T
T
T
T = Pulse cycle  
The PWM output is enabled when the pulse enable flag is ON. While the pulse enable  
flag is ON, the duty cycle (ON duty) can be changed by changing the duty setting  
value (0 to 100).  
The frequency setting is available in the range of 50 to 5000 Hz (1 Hz units) before  
turning ON the pulse enable flag. The frequency changing is not allowed while the  
pulse enable is ON.  
Note that the minimum ON/OFF pulse duration is 100 µs. Therefore, the controllable  
ON duty range is limited depending on the frequency setting as follows. If the ON duty  
setting value is not available (within 0 to 100), the pulse width error flag comes ON.  
(PWM output operation is continued but the duty cycle is not guaranteed)  
Frequency  
50 - 100 Hz  
200 Hz  
1000 Hz  
5000 Hz  
Cycle time  
20 - 10 ms  
5 ms  
1 ms  
200 µs  
Available ON duty  
0 to 100 %  
0, 2 to 98, 100 %  
0, 10 to 90, 100 %  
0, 50, 100 %  
Related registers  
SW26: Function selection. Refer to section 8.1.  
Function  
Register/  
device  
Y020  
Remarks  
PWM pulse  
Pulse enable flag  
S270  
Output is enabled when ON  
Frequency setting register  
ON duty setting register  
Pulse width error flag  
ON duty setting error flag  
Frequency setting error flag  
SW28  
SW29  
S26D  
S26E  
Data range: 50 to 5000  
Data range: 0 to 100  
ON at error (reset OFF automatically)  
ON at error (reset OFF automatically)  
ON at error (reset OFF automatically)  
S26F  
Note) If the setting value of SW28 or SW29 is out of the allowable range, the  
frequency setting error flag (S26F) or the ON duty setting error flag (S26E)  
comes ON. (PWM output operation is continued with previous ON duty setting)  
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8. Special I/O Functions  
Operation  
Pulse enable  
ON duty setting  
70  
60  
10  
20  
30  
70  
70%  
70%  
60%  
ON duty  
30%  
20%  
PWM output  
10%  
Sample program  
In this example, 1 (H0001) is set in SW26 and 100 is set in SW28. As a result, 100 Hz  
PWM output function is selected.  
When R005 is ON, the PWM output is started with the duty cycle designated by  
D0200.  
If an invalid ON duty is designated, the ON duty setting error flag (S26E) comes ON  
and the pulse enable flag (S270) is turned OFF. Then the PWM output is stopped.  
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Section 9  
Maintenance and Checks  
9.1 Precautions during operation, 276  
9.2 Daily checks, 277  
9.3 Periodic checks, 278  
9.4 Maintenance parts, 279  
9.5 Battery, 280  
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9. Maintenance and Checks  
9.1 Precautions during operation  
When the T1-16S is in operation, you should pay attention to the following items.  
(1) The programmer cable can be plugged or unplugged while the T1-16S is in  
operation. When you try to do it, do not touch the connector pins. This may cause  
malfunction of the T1-16S owing to static electricity.  
(2) Do not plug nor unplug the expansion cable during power on. This can cause  
damage to the equipment. Furthermore, to avoid malfunction of the T1-16S owing  
to static electricity, do not touch the cable ends.  
(3) Do not touch any terminals while the T1-16S is in operation, even if the terminals  
are not live parts. This may cause malfunction of the T1-16S owing to static  
electricity.  
(4) Do not touch the expansion connector pins while the T1-16S is in operation. This  
may cause malfunction of the T1-16S owing to static electricity.  
Fix the expansion connector cover if the expansion connector is not used.  
(5) Turn off power when a battery installs and removes.  
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9. Maintenance and Checks  
9.2 Daily checks  
1. Pay special attention during the maintenance work to minimize the risk  
of electrical shock.  
!
CAUTION  
2. Turn off power immediately if the T1-16S or related equipment is  
emitting smoke or odor. Operation under such situation can cause fire  
or electrical shock.  
To maintain the system and to prevent troubles, check the following items on daily  
basis.  
Item  
Status LEDs  
Check  
Lit when internal 5V is  
normal.  
Lit when operating  
normally.  
Corrective measures  
If the LEDs are not normal, see  
10. Troubleshooting.  
PWR  
(power)  
RUN  
FLT (fault)  
Not lit when operating  
normally.  
Mode control  
switch  
Check that the mode control switch is Turn this switch to R (RUN) side.  
in R (RUN) side. Normal operation is  
performed when this switch is in R  
(RUN) side.  
Input LEDs  
Lit when the corresponding input is  
ON.  
Check that the input terminal  
screw is not loose.  
Check that the input terminal  
block is not loose.  
Check that the input voltage is  
within the specified range.  
Check that the output terminal  
screw is not loose.  
Output LEDs  
Lit when the output is ON and the  
corresponding load should operate.  
Check that the output terminal  
block is not loose.  
Check that the output voltage  
is within the specified range.  
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9. Maintenance and Checks  
9.3 Periodic checks  
1. Pay special attention during the maintenance work to minimize the risk  
!
CAUTION  
of electrical shock.  
2. Turn off power immediately if the T1-16S or related equipment is  
emitting smoke or odor. Operation under such situation can cause fire  
or electrical shock.  
Check the T1-16S based on the following items every six months. Also perform  
checks when the operating environment is changed.  
Item  
Check  
Criteria  
Power supply  
Measure the power voltage at the T1- 85 - 132/170 - 264Vac (AC PS)  
16S’s power terminals.  
Check that the terminal screw is not  
loose.  
20.4 - 28.8Vdc (DC PS)  
Not loose  
Check that the power cable is not  
damaged.  
Not damaged  
Installation  
condition  
Check that the unit is installed  
securely.  
Not loose, no play  
Check that the I/O module is inserted Not loose, no play  
securely. (if any)  
Check that the expansion rack/unit is  
installed securely. (if any)  
Not loose, no play  
Check that the expansion cable is  
connected securely and the cable is  
not damaged. (if any)  
Not loose, not damaged  
Check that the I/O module on the  
expansion rack is inserted securely. (if  
any)  
Not loose, no play  
Input/output  
Measure the input/output voltage at  
the T1-16S’s terminals.  
The voltage must be within the  
specified range.  
Check the input status LEDs.  
Check the output status LEDs.  
Check that the terminal block is  
installed securely.  
The LED must light normally.  
The LED must light normally.  
Not loose, no play  
Check that the terminal screw is not  
Not loose, not contacting the  
loose and the terminal has a sufficient next terminal  
distance to the next terminal.  
Check that the each I/O wire is not  
damaged.  
Not damaged  
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9. Maintenance and Checks  
(Periodic checks - continued)  
Item  
Check  
Criteria  
Environment  
Check that the temperature, humidity, Must be within the range of  
vibration, dust, etc. are within the  
specified range.  
general specification.  
Programming tool Check that the functions of the  
programming tool are normal.  
Monitoring and other operations  
are available.  
Check that the connector and cable  
are not damaged.  
Not damaged  
User program  
Check that the T1-16S program and  
the master program (saved on a floppy  
disk, etc.) are the same.  
No compare error  
9.4 Maintenance parts  
To recover from trouble quickly, it is recommended to keep the following spare parts.  
Item  
T1-16S basic unit  
Quantity  
1
Remarks  
Prepare at least one to minimize the down-time  
of the controlled system.  
Programming tool  
Master program  
Expansion rack or  
unit (if any)  
1
Useful for the troubleshooting procedure.  
Saved on a floppy disk, etc.  
As required  
1
I/O module  
One of each type  
(if any)  
used  
Fuse for I/O  
One of each type  
module (if any)  
used  
Battery (CR2032)  
1
These spare parts should not be stored in high temperature and/or humidity locations.  
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9. Maintenance and Checks  
9.5 Battery  
(1) Install  
+ side  
Insert the battery by an angle of 45°.  
(Turn + side into an upside.)  
(1) Push the battery horizontal direction.  
(2) Push from upside and lock.  
(2) Eject  
Push the center of the tab by a finger or a pen. Then  
the battery will be unlocked.  
Remove the battery.  
NOTE  
1. Turn off power when installing or removing the battery for safety.  
2. The battery type is CR2032. Do not use other types of battery. Use of  
another battery may present a risk of fire or explosion.  
3. Dispose of used battery promptly. Keep away from children. Do not  
disassemble and do not dispose of in fire.  
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Section 10  
Troubleshooting  
10.1 Troubleshooting procedure, 282  
10.2 Self-diagnostic items, 288  
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10. Troubleshooting  
10.1 Troubleshooting procedure  
1. Pay special attention during the troubleshooting to minimize the risk of  
!
CAUTION  
electrical shock.  
2. Turn off power immediately if the T1-16S or related equipment is  
emitting smoke or odor. Operation under such situation can cause fire  
or electrical shock.  
3. Turn off power before removing or replacing units, modules, terminal  
blocks or wires. Failure to do so can cause electrical shock or damage  
to the T1 and related equipment.  
4. Contact Toshiba for repairing if the T1-16S or related equipment is  
failed. Toshiba will not guarantee proper operation nor safety for  
unauthorized repairing.  
If a trouble occurs, determine whether the cause lies in the mechanical side or in the  
control system (PLC) side. A problem may cause a secondary problem, therefore, try  
to determine the cause of trouble by considering the whole system.  
If the problem is found in the T1-16S, check the following points:  
PWR (power) LED  
Follow the procedure in  
10.1.1 Power supply check  
Not lit  
Not lit  
Lit  
RUN LED  
Lit  
Follow the procedure in  
10.1.2 CPU check  
User program  
Follow the procedure in  
10.1.3 Program check  
Not normal  
Normal operation  
Input operation  
Normal operation  
Output operation  
Follow the procedure in  
10.1.4 Input check  
Not normal  
Not normal  
Follow the procedure in  
10.1.5 Output check  
Also refer to section 10.1.6 for environmental problem.  
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10. Troubleshooting  
10.1.1 Power supply check  
If the PWR (power) LED is not lit after power on, check the following points.  
Check the power connection  
Correct  
Connection terminals are correct.  
The terminal screws are not loose.  
The terminal block is installed securely.  
Check the power voltage  
at the T1-16S’s terminal  
85 to 132/170 to 264Vac (50/60 Hz)  
or 20.4 to 28.8Vdc (DC power)  
Normal  
Remove the programmer  
port connector  
If the PWR LED becomes normal, the  
internal 5Vdc can be shorted in the  
external connections of this port.  
Still unlit  
Remove the 24Vdc service  
power terminals if it is used  
If the PWR LED becomes normal, the  
24Vdc service power can be over load.  
Still unlit  
Remove the I/O modules.  
If the PWR LED is still unlit, the T1-16S  
basic unit may be faulty. Replace the unit.  
Lit  
Confirm the internal 5Vdc  
current consumption if  
I/O module is used.  
The 5Vdc capacity for I/O modules is  
max. 1.5A.  
(Refer to section 2.1.)  
Within the limit  
Insert the removed option  
modules one by one to  
pinpoint the faulty card.  
Replace the faulty I/O module.  
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10. Troubleshooting  
10.1.2 CPU check  
If the PWR (power) LED is lit but the RUN LED is not lit, check the following points.  
Check the position of the  
If it is not in R (RUN) position, turn the  
mode control switch  
switch to R (RUN) position.  
Check the FLT (fault) LED  
If the FLT LED is lit or blinking, the T1-16S  
is in the ERROR mode. Confirm the error  
message by connecting the  
programming  
tool. Refer to section 10.2.  
Is the RUN LED blinking ?  
If it is blinking, the T1-16S is in the HOLD  
mode. Check your program  
whether the  
not used.  
HOLD device (S401) is  
Connect the programming  
tool, and check the T1-16S’s  
status  
If the T1-16S stays in HALT mode even  
when the mode control switch is changed,  
the switch may be faulty.  
If the communication between the T1-16S  
and the programming tool is not possible,  
the T1-16S may be faulty.  
10.1.3 Program check  
Check the user program based on the following points if it is running but the operation  
does not work as intended.  
(1) Whether duplicated coils are not programmed.  
(2) Whether a coil device and a destination of a function instruction are not  
overlapping.  
(3) Whether the ON/OFF duration of an external input signal is not shorter than the  
T1-16S’s scan time.  
(4) Whether a register/device, which is used in the main program, is not operated  
erroneously in the interrupt program.  
NOTE  
When you write/modify the program, it is necessary to execute the  
EEPROM write operation before turning off power to the T1. Otherwise the  
old program stored in the built-in EEPROM will be over-written, and your  
program modification will disappear.  
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10. Troubleshooting  
10.1.4 Input check  
If the program is running but the external input signal is not read normally, check the  
following points:  
Is the input status LED  
changed ON/OFF according  
to the corresponding input  
device operation ?  
If not, check the input voltage at the  
T1-16S’s input terminals.  
If the voltage is not normal, check the input  
device and the cable.  
If the voltage is normal, the T1-16S’s input  
circuit may be faulty.  
Yes  
Connect the programming  
tool, and monitor the  
corresponding X device state  
in RUN mode  
If the monitored X device state is identical  
to the state of the input status LED, the  
cause may lie in the user program or in the  
environment.  
Not normal  
Check whether the X device  
is forced or not  
If it is forced, release the force designation  
then execute the EEPROM write  
operation.  
Not forced  
Check whether the I/O  
allocation table is identical to  
the actual I/O configuration  
If identical, the T1-16S’s internal circuit or  
the input circuit may be faulty.  
Not identical  
Execute the automatic I/O  
allocation, and check whether  
the I/O allocation table is now  
identical to the actual I/O  
configuration  
If it becomes identical, execute the  
EEPROM write operation.  
Still not identical  
Is the allocation mismatch for  
a specific I/O module?  
If so, the card, module or expansion unit  
may be faulty. For expansion unit, check  
the expansion cable also.  
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10. Troubleshooting  
10.1.5 Output check  
If the output status monitored on the programming tool is normal but the external  
output device (load) is not operated normally, check the following points:  
Is the output status LED  
changed ON/OFF according  
to the program execution ?  
No  
Yes  
Check the voltage between  
the output terminal and its  
common terminal.  
It should be 0V when the  
output is ON, and it should  
be the circuit voltage when  
the output is OFF.  
If it is the circuit voltage at the output is  
ON, or if it is 0V at the output is OFF with  
the load ON, the T1-16S’s output circuit  
may be faulty.  
If it is 0V and the load is also OFF, check  
the output power and the output cable  
connections.  
Normal  
If it is not normal, check the output cable  
connections.  
Check the voltage at the load  
If it is normal, check the specification of  
the load, also check environmental factors.  
Check whether the I/O  
allocation table is identical to  
the actual I/O configuration  
If identical, the T1-16S’s internal circuit or  
the output circuit may be faulty.  
Not identical  
Execute the automatic I/O  
allocation, and check whether  
the I/O allocation table is now  
identical to the actual I/O  
configuration  
If it becomes identical, execute the  
EEPROM write operation.  
Still not identical  
Is the allocation mismatch for  
a specific I/O module?  
If so, the card, module or expansion unit  
may be faulty. For expansion unit, check  
the expansion cable also.  
286 T1-16S User’s Manual  
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6F3B0253  
10. Troubleshooting  
10.1.6 Environmental problem  
If the following improper operations occur in the controlled system, check possible  
environmental factors.  
(1) If an improper operation occurs synchronously with the operation of I/O devices:  
The noise generated at ON/OFF of the output device (load) may be the cause of  
the problem. Take necessary measures mentioned in section 3.  
(2) If an improper operation occurs synchronously with the operation of surrounding  
equipment or high-frequency equipment:  
The noise induced in I/O signal lines may be the cause of the problem. The surge  
voltage, voltage fluctuations, or differences of grounding potentials may cause  
the problem, depending on the power supply system or the grounding system.  
Check the operation in accordance with the precautions in section 4. For some  
cases, isolation from the ground may lead to the stable operation.  
(3) If an improper operation occurs synchronously with the operation of machinery:  
The vibration of the equipment may cause the problem. Check that the installation  
status of the units and take necessary measures.  
(4) If a similar failure is repeated after the unit is replaced:  
Check that no metal debris or water drops has been entered into the unit/module.  
Apart from the above points, consider climatic conditions. If the ambient temperature  
is beyond the specified range, stable operation of the system is not guaranteed.  
Basic Hardware and Function 287  
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6F3B0253  
10. Troubleshooting  
10.2 Self-diagnostic items  
If an error is detected by the self-diagnostic check of the T1-16S CPU, the error  
messages and the related information shown on the following pages will be recorded  
in the T1-16S’s event history table. If the error is severe and continuation of operation  
is not possible, the T1-16S turns OFF all outputs and stops the operation (ERROR  
mode).  
The latest 15 error messages are stored in the event history table. This event history  
table can be displayed on the programming tool. (Power ON/OFF is also registered)  
If the T1-16S has entered into ERROR mode, connect the programming tool to the T1-  
16S to confirm the error message in the event history table. This information is  
important to recover from a trouble. For the key operations on the programming tool to  
display the event history table, refer to the separate manual for the programming tool.  
(An example of the event history)  
< Event History>  
Date  
Time  
Event  
Count  
Info 1  
Info 2  
H0024  
Info 3  
Mode  
1. 98-02-21  
2. 98-02-21  
3. 98-02-21  
4. 98-01-15  
5. 98-01-14  
6. 98-01-14  
16:48:01  
15:55:26  
12:03:34  
09:27:12  
19:11:43  
10:39:11  
I/O no answer  
3
1
1
1
1
3
#00-04  
RUN Down  
INIT.  
RUN  
INIT.  
HALT  
System power on  
System power off  
System power on  
System power off  
No END/IRET error  
M-001  
HALT Down  
In the event history table, No.1 message indicates the latest event recorded.  
Each column shows the following information.  
Date: The date when the error has detected (Enhanced model only)  
Time: The time when the error has detected (Enhanced model only)  
Event: Error message  
Count: Number of times the error has detected by retry action  
Info n: Related information to the error detected  
Mode: T1-16S’s operation mode in which the error has detected (INIT. means the  
power-up initialization)  
Down: Shows the T1-16S has entered into ERROR mode by the error detected  
If the T1-16S is in the ERROR mode, operations to correct the program are not  
accepted.  
In this case, execute the Error reset operation by the programming tool to return the  
HALT mode before starting the correction operation.  
288 T1-16S User’s Manual  
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10. Troubleshooting  
Error message and related information  
Special  
device  
Meaning and countermeasures  
Event  
Info 1  
Info 2  
Info 3  
Batt voltage drop  
S00F In the power-up initialization, data invalidity  
of RAM (back-up area) has been detected.  
If retentive registers are used, these validity  
are not guaranteed. (No error down)  
The register of index modification is other  
than RW, T, C and D. (Error down)  
S064 The register designated by index  
modification has exceeded the allowable  
range. That is, out of RW, T, C and D.  
(No error down)  
Boundary error  
Program Address FUN No.  
type - in the  
block No. block  
Check the value of the index register.  
S00A The data of built-in calendar LSI is illegal.  
(No error down)  
Clock-calendar error  
Duplicate entry No.  
Set the date and time.  
(Enhanced model only)  
Multiple SUBR instructions which have the  
same subroutine number are programmed.  
(Error down)  
Program Address Entry No.  
type -  
in the  
block No. block  
Check the program.  
EEPROM BCC error Illegal  
BCC  
S004 BCC error has been detected in the user  
S013 program of the EEPROM. (Error down)  
Reload the program and execute EEPROM  
write operation again.  
EEPROM warning  
Number  
of excess  
writing  
S007 The number of times of writing into  
EEPROM has exceeded the life (100,000  
times). (No error down)  
Replace the unit because the data reliability  
of the EEPROM will decrease.  
I/O bus error  
I/O mismatch  
Unit No. Data  
S005 An abnormality has been detected in I/O  
S020 bus checking. (Error down)  
Check the expansion cable connection and  
I/O module mounting status.  
S005 The I/O allocation information and the  
S021 actual I/O configuration are not identical.  
(Error down)  
Unit No. - Register  
slot No. No.  
Check the I/O allocation and the I/O module  
mounting status.  
I/O no answer  
I/O parity error  
Illegal I/O reg  
Unit No. - Register  
slot No. No.  
S005 No response from the T2 I/O module has  
S022 been received. (Error down)  
Check the I/O allocation, the expansion  
cable connection and the T2 I/O module  
mounting status.  
S005 I/O bus parity error has been detected in  
S023 data read/write for T2 I/O modules. (Error  
down)  
Check the expansion cable connection and  
the T2 I/O module mounting status.  
S005 The allocated I/O register address exceeds  
S021 the limit, 32 words. (Error down)  
Check the I/O allocation.  
Unit No. - Register  
slot No. No.  
Unit No. - Register  
slot No. No.  
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6F3B0253  
10. Troubleshooting  
Error message and related information  
Event Info 1 Info 2  
Illegal inst Program Address  
type - in the  
Special  
device  
Meaning and countermeasures  
Info 3  
S006 An illegal instruction has been detected in  
S030 the program. (Error down)  
S060 Reload the program and execute EEPROM  
write operation again.  
block No. block  
Illegal sys intrpt  
Interrupt Interrupt  
address 1 address 2  
Unregistered interrupt has occurred. (No  
error down)  
If the error occurs frequently, replace the  
unit.  
Invalid Fun inst  
Invalid program  
Program Address Fun No.  
type - in the  
block No. block  
Program  
type -  
A function instruction which is not supported  
by the T1-16S is programmed. (Error down)  
Correct the program.  
A basic ladder instruction which is not  
supported by the T1-16S is programmed.  
(Error down)  
block No.  
Correct the program.  
SUBR instruction is not programmed before  
RET instruction. (Error down)  
Correct the program.  
An abnormality is detected in the program  
management information. (Error down)  
Reload the program and execute EEPROM  
write operation again.  
Loop nesting error  
Memory full  
Program Address  
A FOR-NEXT loop is programmed inside  
other FOR-NEXT loop. (Error down)  
Correct the program.  
The program exceeds the executable  
memory capacity. (Error down)  
Reduce the program steps.  
type -  
in the  
block No. block  
No END/IRET error  
Program Address  
The END instruction is not programmed in  
the main program or in the sub-program.  
(Error down)  
type -  
in the  
block No. block  
Correct the program.  
The IRET instruction is not programmed in  
the interrupt program. (Error down)  
Correct the program.  
No RET error  
No sub-r entry  
Program Address Sub-r No.  
The RET instruction is not programmed in  
the subroutine program. (Error down)  
Correct the program.  
The subroutine corresponding to CALL  
instruction is not programmed. (Error down)  
Correct the program.  
type -  
in the  
block No. block  
Program Address Sub-r No.  
type -  
in the  
block No. block  
290 T1-16S User’s Manual  
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10. Troubleshooting  
Error message and related information  
Special  
device  
Meaning and countermeasures  
Event  
Operand error  
Info 1  
Program Address  
type - in the  
Info 2  
Info 3  
A register/device which is not supported by  
the T1-16S is programmed. (Error down)  
Correct the program.  
block No. block  
The timer or counter register is duplicated in  
the program. (Error down)  
Correct the program.  
The subroutine number programmed with  
CALL or SUBR instruction is out of the  
range. (Error down)  
0 to 255  
Correct the program.  
Index modification is programmed for  
instructions in which the index modification  
is not allowed. (Error down)  
Correct the program.  
Pair inst error  
Program Address  
The combination is illegal for MCS-MCR,  
JCS-JCR or FOR-NEXT instructions. (Error  
down)  
type -  
in the  
block No. block  
Correct the program.  
A MCS-MCR is programmed inside other  
MCS-MCR segment. (Error down )  
Correct the program.  
A JCS-JCR is programmed inside other  
JCS-JCR segment. (Error down )  
Correct the program.  
Peripheral LSI err  
Program BCC error  
RAM check error  
Scan time over  
Error  
code  
S004 CPU hardware error has been detected in  
S016 the power-up initialization. (Error down and  
programming tool cannot be connected)  
Replace the unit if the error remains after  
power OFF and ON again.  
S006 BCC error has been detected in the user  
S030 program in the RAM. (Error down)  
If the error remains after power OFF and  
ON again, reload the program and execute  
EEPROM write operation.  
S004 In the power-up initialization, an error has  
S012 detected by RAM read/write checking. (Error  
down)  
Replace the unit if the error remains after  
power OFF and ON again.  
S006 The scan time has exceeded 200 ms. (Error  
S031 down)  
Illegal  
BCC  
Error  
address  
Error data Test data  
Scan time  
Correct the program to reduce the scan time  
or use WDT instruction to extend the check  
time.  
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6F3B0253  
10. Troubleshooting  
Error message and related information  
Special  
device  
Meaning and countermeasures  
Event  
Info 1  
Error  
address  
Info 2  
Info 3  
Sys RAM check err  
Error data Test data  
S004 In the power-up initialization, an error has  
S011 detected by system RAM read/write  
checking. (Error down and programming  
tool cannot be connected)  
Replace the unit if the error remains after  
power OFF and ON again.  
Sys ROM BCC error Illegal  
BCC  
S004 BCC error has been detected in the system  
S010 program in the ROM. (Error down and  
programming tool cannot be connected)  
Replace the unit if the error remains after  
power OFF and ON again.  
System power off  
System power on  
Power OFF (no error)  
Power ON (no error)  
Sub-r nesting err  
Program Address Sub-r No.  
type - in the  
The nesting of subroutines exceeds 3  
levels.  
block No. block  
(Error down)  
Correct the program.  
WD timer error  
Address 1 Address 2  
S004 The watchdog timer error has occurred.  
S01F (Error down)  
If the error occurs frequently, replace the  
unit.  
292 T1-16S User’s Manual  
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6F3B0253  
Appendix  
A.1 List of models and types, 294  
A.2 Instruction index, 295  
Basic Hardware and Function 293  
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6F3B0253  
Appendix  
A.1 List of models and types  
Basic unit  
Model  
T1-16S 100 – 240Vac  
Power supply Input type RTC/RS-485  
Type code  
T1-MDR16SS  
T1-MDR16SC  
Part number  
TDR116S6S  
TDR116S6C  
24Vdc  
Yes  
No  
24Vdc  
Yes  
No  
T1-MDR16SSD TDR116S3S  
T1-MDR16SCD TDR116S3C  
I/O module  
Description  
16 points 24Vdc input  
16 points 24Vdc output  
8 points 24Vdc input and 8 points 24Vdc output  
8 points relay output  
1 channel analog input, 0 – 5V/0 - 20mA  
Type code  
DI116M  
Part number  
TDI116MS  
TDO116MS  
TDD116MS  
TRO108MS  
TAD121MS  
TAD131MS  
TDA121MS  
TDA131MS  
TTC111MS  
TFR112MS  
DO116M  
DD116M  
RO108M  
AD121M  
AD131M  
DA121M  
DA131M  
TC111M  
FR112M  
1 channel analog input, ±10V  
1 channel analog output, 0 – 20mA  
1 channel analog output, ±10V  
1 channel thermo couple input, K/E/J  
TOSLINE-F10 remote station  
Peripherals  
Description  
Handy programmer (with 2 m cable for T1/T1S)  
T-PDS software (Windows version)  
Program storage module  
Type code  
HP911A  
T-PDS Windows TMW33E2SS  
RM102  
CU111  
Part number  
THP911AS  
TRM102∗∗S  
TCU111∗∗S  
Multi-drop adapter for computer link  
Cable and others  
Description  
T-PDS cable for T1/T1S, 5m length  
HP911A cable for T1/T1S, 2m length (spare parts)  
RS-232C connector for computer link  
(with 2 m cable)  
Type code  
Part number  
TCJ105CS  
TCJ102CS  
TPT16SAS  
CJ105  
CJ102  
PT16S  
I/O module I/O connector for  
DI116M/DO116M/DD116M, soldering type  
I/O module I/O connector for  
DI116M/DO116M/DD116M, flat cable type  
PT15S  
PT15F  
TPT15SAS  
TPT15FAS  
294 T1-16S User’s Manual  
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6F3B0253  
Appendix  
A.2 Instruction index  
Instruction name  
1 bit rotate left  
1 bit rotate right  
1 bit shift left  
1 bit shift right  
2’s complement  
7-segment decode  
Absolute value  
Addition  
173  
172  
165  
164  
232  
234  
231  
143  
149  
156  
236  
162  
228  
238  
170  
237  
202  
163  
218  
121  
132  
139  
136  
201  
155  
177  
197  
196  
160  
239  
209  
146  
233  
147  
137  
286  
284  
Exclusive OR  
Expanded data transfer  
Flip-flop  
FOR  
Forced coil  
Function generator  
Greater than  
Greater than or equal  
Hex to ASCII conversion  
Increment  
Interrupt return  
Invert coil  
Invert transfer  
Inverter  
Jump control reset  
Jump control set  
Less than  
Less than or equal  
Lower limit  
Master control reset  
Master control set  
Maximum value  
Minimum value  
Moving average  
Multiplexer  
Multiplication  
n bit rotate left  
n bit rotate right  
n bit shift left  
158  
241  
215  
205  
122  
229  
178  
179  
161  
154  
210  
124  
138  
123  
134  
134  
182  
183  
225  
133  
133  
226  
227  
159  
176  
145  
175  
174  
167  
166  
118  
128  
126  
206  
117  
181  
130  
129  
157  
127  
125  
219  
199  
217  
198  
168  
Addition with carry  
AND  
ASCII conversion  
ASCII to Hex conversion  
Average value  
BCD conversion  
Bi-directional shift register  
Binary conversion  
Bit count  
Bit test  
Calendar operation  
Coil  
Counter  
Data exchange  
Data transfer  
Decode  
Decrement  
Demultiplexer  
Device/register reset  
Device/register set  
Digital filter  
Direct I/O  
Disable interrupt  
Division  
Double-word 2’s complement  
Double-word addition  
Double-word data transfer  
Double-word equal  
Double-word greater than  
n bit shift right  
NC contact  
Negative pulse coil  
Negative pulse contact  
NEXT  
NO contact  
Not equal  
OFF delay timer  
ON delay timer  
OR  
Positive pulse coil  
Positive pulse contact  
Pre-derivative real PID  
Reset carry  
Set calendar  
Set carry  
Shift register  
Double-word greater than or equal 285  
Double-word less than  
Double-word less than or equal  
Double-word not equal  
Double-word subtraction  
Enable interrupt  
Encode  
288  
289  
287  
148  
208  
200  
135  
180  
End  
Equal  
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Appendix  
Single shot timer  
131  
245  
247  
212  
213  
214  
203  
207  
204  
144  
150  
140  
142  
141  
120  
119  
152  
153  
192  
190  
191  
194  
195  
151  
193  
216  
224  
211  
Special module data read  
Special module data write  
Step sequence initialize  
Step sequence input  
Step sequence output  
Subroutine call  
Subroutine entry  
Subroutine return  
Subtraction  
Subtraction with carry  
Table initialize  
Table invert transfer  
Table transfer  
Transitional contact (falling)  
Transitional contact (rising)  
Unsigned division  
Unsigned double/single division  
Unsigned equal  
Unsigned greater than  
Unsigned greater than or equal  
Unsigned less than  
Unsigned less than or equal  
Unsigned multiplication  
Unsigned not equal  
Up-down counter  
Upper limit  
Watchdog timer reset  
296 T1-16S User’s Manual  
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6F3B0253  
Appendix  
Instruction symbol  
FG  
229  
205  
161  
239  
210  
134  
134  
225  
159  
226  
133  
133  
227  
136  
176  
232  
206  
138  
157  
219  
245  
204  
197  
199  
175  
173  
174  
172  
196  
198  
167  
165  
166  
164  
168  
131  
213  
212  
214  
207  
163  
140  
141  
142  
130  
129  
151  
152  
U/D  
U<  
U<=  
U<>  
U=  
U>  
U>=  
UL  
WDT  
WRITE 247  
XCHG  
XFER  
216  
194  
195  
193  
192  
190  
191  
224  
211  
145  
143  
154  
149  
144  
155  
150  
146  
182  
183  
181  
180  
178  
179  
234  
231  
156  
236  
162  
228  
202  
238  
237  
203  
217  
218  
132  
147  
148  
188  
189  
187  
186  
184  
185  
201  
160  
209  
153  
137  
233  
177  
170  
208  
200  
135  
158  
215  
+
FOR  
HTOA  
I/O  
IRET  
JCR  
+1  
+C  
-
-1  
-C  
/
<
<=  
<>  
=
>
>=  
7SEG  
ABS  
AND  
ASC  
ATOH  
AVE  
BC  
BCD  
BIN  
CALL  
CLDN  
CLDS  
CNT  
D+  
JCS  
LL  
MAVE  
MAX  
MCR  
MCS  
MIN  
MOV  
MPX  
NEG  
NEXT  
NOT  
OR  
PID3  
READ  
RET  
RST  
RSTC  
RTL  
RTL1  
RTR  
RTR1  
SET  
139  
241  
D-  
D<  
D<=  
D<>  
D=  
SETC  
SHL  
SHL1  
SHR  
SHR1  
SR  
D>  
D>=  
DEC  
DFL  
DI  
DIV  
DMOV  
DNEG  
DPX  
DSR  
EI  
ENC  
END  
EOR  
F/F  
SS  
STIN  
STIZ  
STOT  
SUBR  
TEST  
TINZ  
TMOV  
TNOT  
TOF  
TON  
U∗  
U/  
Basic Hardware and Function 297  
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TOSHIBA CORPORATION  
Industrial Equipment Department  
1-1, Shibaura 1-chome, Minato-ku  
Tokyo 105-8001, JAPAN  
Tel: 03-3457-4900 Fax: 03-5444-9268  
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