Omron V680-HAM81, V680-HS51, V680-D1KP52MT, V680-HS65, V680-D1KP52M-BT01 User Manual

V680-series ID Flag Sensors

User’s Manual

ID Flag Sensors

V680-HAM91
V680-HAM81

Antennas

V680-HS51
V680-HS52
V680-HS63
V680-HS65

RF Tags

V680-D1KP52MT
V680-D1KP53M
V680-D1KP52M-BT01/D1KP52M-BT11
V680-D1KP66T/-D1KP66MT
V680-D1KP66T-SP
V680-D1KP58HTN
V680-D2KF52M
V680-D2KF52M-BT01/D2KF52M-BT11
V680-D2KF67/-D2KF67M
V680-D8KF67/-D8KF67M
V680-D8KF68/-D32KF68

Man. No.: Z279-E1-04A

Introduction

Thank you for purchasing a V680-series ID System. This manual describes the functions, performance, and
application methods needed for optimum use of the V680-series RFID System.

Please observe the following items when using the ID System.

• Allow the ID System to be installed and operated only by qualified specialist with a sufficient knowledge of
electrical systems.

•

Read and understand this manual before attempting to use the ID System and use the ID System correctly.
Keep this manual in a safe and accessible location so that it is available for reference when required.

•

Introduc-

tion

Section 1

Section 2

Section 3

Section 4

Section 5

Section 6

Section 7

READ AND UNDERSTAND THIS DOCUMENT

Product Overview

Names and Functions of Components

Functions

Installation, Connections, and Wiring

Control I/O Interface

Introduction

Section 1 Section 2 Section 3 Section 4 Section 5 Section 6 Section 7

Troubleshooting

Appendices

RFID System

V680-HAM91 ID Flag Sensor
V680-HAM81 ID Flag Sensor
V680-HS51 Antenna
V680-HS52 Antenna
V680-HS63 Antenna
V680-HS65 Antenna
V680-1KP52MT RF Tag
V680-1KP52MT-BT01/-D1KP52M-BT11 RF Tag
V680-1KP53M RF Tag
V680-1KP66T/-D1KP66MT RF Tag
V680-1KP66T-SP RF Tag
V680-1KP58HTN RF Tag
V680-2KF52M RF Tag
V680-2KF52MT-BT01/-D2KF52M-BT11 RF Tag
V680-2KF67/-D2KF67M RF Tag
V680-8KF67/-D8KF67M RF Tag
V680-D8KF68/-D32KF68 RF Tag

User's Manual

Introduction

Introduction

READ AND UNDERSTAND THIS DOCUMENT

Please read and understand this document before using the products. Please consult your OMRON representative if you have any questions or comments.

WARRANTY

OMRON’s exclusive warranty is that the products are free from defects in materials and workmanship for a period of one year (or other period if specified)
from date of sale by OMRON.
OMRON MAKES NO WARRANTY OR REPRESENTATION, EXPRESS OR IMPLIED, REGARDING NON-INFRINGEMENT, MERCHANTABILITY, OR FIT­NESS FOR PARTICULAR PURPOSE OF THE PRODUCTS. ANY BUYER OR USER ACKNOWLEDGES THAT THE BUYER OR USER ALONE HAS
DETERMINED THAT THE PRODUCTS WILL SUITABLY MEET THE REQUIREMENTS OF THEIR INTENDED USE. OMRON DISCLAIMS ALL OTHER
WARRANTIES, EXPRESS OR IMPLIED.

LIMITATIONS OF LIABILITY

OMRON SHALL NOT BE RESPONSIBLE FOR SPECIAL, INDIRECT, OR CONSEQUENTIAL DAMAGES, LOSS OF PROFITS OR COMMERCIAL LOSS IN
ANY WAY CONNECTED WITH THE PRODUCTS, WHETHER SUCH CLAIM IS BASED ON CONTRACT, WARRANTY , NEGLIGE NCE, OR STRICT LIABIL­ITY.
In no event shall responsibility of OMRON for any act exceed the individual price of the product on which liability is asserted.
IN NO EVENT SHALL OMRON BE RESPONSIBLE FO R WARRANTY, REPAIR, OR OTHER CLAIMS REGARDING THE PRODUCTS UNLESS OMRON’S
ANALYSIS CONFIRMS THAT THE PRODUCTS WERE PROPERLY HANDLED, STORED, INSTALLED, AND MAINTAINED AND NOT SUBJECT TO CON­TAMINATION, ABUSE, MISUSE, OR INAPPROPRIATE MODIFICATION OR REPAIR.

SUITABILITY FOR USE

THE PRODUCTS CONTAINED IN THIS DOCUMENT ARE NOT SAFETY RATED. THEY ARE NOT DESIGNED OR RATED FOR ENSURING SAFETY OF
PERSONS, AND SHOULD NOT BE RELIED UP ON AS A SAFETY COMPONENT OR PR OTECTIVE DEVICE FOR SUCH PURPOSES. Please ref er to sep­arate catalogs for OMRON's safety rated products.
OMRON shall not be responsible for conformity with any standards, codes, or regulations that apply to the combination of products in the customer’s applica­tion or use of the product.
At the customer’s request, OMRON will provide applicable third party certification documents identifying ratings and limitations of use that apply to the prod­ucts. This information by itself is not sufficient for a complete determination of the suitability of the products in combination with the end product, machine,
system, or other application or use.
The following are some examples of applications for which particular attention must be given. This is not intended to be an exhaustive list of all possible uses
of the products, nor is it intended to imply that the uses listed may be suitable for the products:

Outdoor use, uses involving potential chemical contamination or electrical interference, or conditions or uses not described in this document.

•

Nuclear energy control systems, combustion systems, railroad systems, aviation systems, medical equipment, amusement machines, vehicles, safety

•

equipment, and installations subject to separate industry or government regulations.

Systems, machines, and equipment that could present a risk to life or property.

•

Please know and observe all prohibitions of use applicable to the products.
NEVER USE THE PRODUCTS FOR AN APPLICATION INVOLVING SE RIOUS RISK TO LIFE OR PROPERTY WITHOUT ENSURING THAT THE SYSTEM
AS A WHOLE HAS BEEN DESIGNED TO ADDRESS THE RISKS , AND THAT THE OMRON PRODUCT IS PROPERLY RATED AND INSTALLED FOR THE
INTENDED USE WITHIN THE OVERALL EQUIPMENT OR SYSTEM.

PERFORMANCE DATA

Performance data giv e n in this document i s pro vided as a g uide for the user in determining suitability and does not constitute a warranty. It may represent the
result of OMRON’ s te st con ditions, and the users must correlate it to actual applicat ion req uire ments . Actual performance is subject to the OMRON Warranty
and Limitations of Liability.

CHANGE IN SPECIFICATIONS

Product specifications and accessories may be changed at any time based on improvements and other reasons.
It is our practice to change model numbers when published ratings or features are changed, or when significant construction changes are made. However,
some specifications of the product may be changed without any notice. When in doubt, special model numbers may be assigned to fix or establish key spec­ifications for your applicat ion on y ou r reque st. P lease consult wit h y our OMR ON repr esentati ve at any time to confirm actual specificatio ns of purcha sed prod­ucts.

DIMENSIONS AND WEIGHTS

Dimensions and weights are nominal and are not to be used for man ufacturing purposes, even when tolerances are shown.

ERRORS AND OMISSIONS

The information in this document has been carefully chec ked and is believed to be accurate; however, no responsibility is assu med f or clerical, typog raphical ,
or proofreading errors, or omissions.

PROGRAMMABLE PRODUCTS

OMRON shall not be responsible f or the user’s programming of a programmable product, or any consequence thereof.

COPYRIGHT AND COPY PERMISSION

This document shall not be copied for sales or promotions without permission. This document is protected by copyright and is intended solely for use in con­junction with the product. Please notify us before copying or reproducing this document in any manner, for any other purpose. If copying or transmitting thi s
document to another, please co py or transmit it in its entirety.

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Introduction

Safety Precautions

zAlert Symbols for Safe Use
The following symbols are used in this manual to indicate precautions that must be observed to ensure safe
use of V680-HAM91, V680-HAM81, V680-series Antennas, and V680-series RF Tags.
The precautions provided here contain important saf ety information. Be sure to observe these precautions.
The following signal words are used in this manual.

Indicates a potentially hazardous situation which, if not avoided, will result in minor or mod-

WARNING

zMeanings of Alert Symbols

erate injury, or may result in serious injury or death. Addition a lly, there may be significant
property damage.

Introduction

Indicates general prohibitions for which there is no specific symbol.

zWarning

WARNING

These Products are not designed to be used either directly or indirectly in applications that detect human
presence for the purpose of maintaining saf ety. Do not use these Products as a sensing means for protect ing
human lives.

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3

Introduction

Introduction

Precautions for Safe Use

Be sure to observe the following precautions to ensure saf e use of the Products.

1. Do not use the Products in environments with flammable, explosive, or corrosive gasses.

2. Do not attempt to disassemble, repair, or modify any Product.

3. Because a cable has a locking mechanism, make sure that it has been locke d before using the cable.

4. Make sure the power supplied by the DC power supply unit is within the rated power supply voltage (24

VDC +10%/−15%) before using the Product.

5. Do not connect the power supply in reverse.

6. Do not allow water or pieces o f wire to ent er from openin gs in the ca se . Doing so may cause fire or electric

shock.

7. Provide sufficient ventilation space.

8. Do not install the Products near any equipment that generates a large amount of heat (such as heaters,

transformers, and large-capacity resistors).

9. Turn OFF the Controller power supply before mounting or removing an Antenna.

10. If an error is detected in any Product, immediately stop operation and turn OFF the power supply. Consult

with an OMRON representative.

11. Dispose of the Products as industrial waste.

12. Do not clean the Products with paint thinner, benzene, acetone, or kerosene.

13. If multiple Antennas are mounted near each other, communications performance may decrease due to

mutual interference. Refer to Mutual Interference between Antennas (Reference) on page 149 and check
to make sure there is no mutual interference between the Antennas.

14. To remove the Unit, catch a tool on the hook and gently remove the Unit.

15. Do not perform wiri ng incorrec tly or sho r t-c ircuit th e load. D oing so may result in r uptur e or dam age from

burning.

16. Do not use the product in environments subject to oil.

17. Do not never use the AC power supply.

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Introduction

Precautions for Correct Use

Always observe the following precautions to prevent operation failures, malfunctions, and adverse effects on
performance and equipment.

1. Installation and Storage Environment

Do not use or store the Product in the following locations.

• Locations subject to corrosive gase s, dust, dirt, metal powder, or salt.

• Locations where the specified ambient temperature and ambient humidity range is exceeded.

• Locations subject to extreme temperature changes that may result in condensation.

• Locations where the product would be directly subjected to vibration or shock exceeding specifica­tions.

• Locations subject to contact with water, oil, or chemicals

2. Installation

• The Products communicate with RF Tags using the 13.56-MHz frequency band. Some motors,

inverters, and switching power supplies generate noise that can affect communications with the RF
Tags and cause errors. If such devices are located near the RF Tags, always test operation in
advance to confirm whether the system will be affected.

• Observe the following precautions to minimize the effects of normal noise.
(1) Ground all metal objects in the vicinity of the Products to 100 Ω or less.
(2) Do not use the Products near high-voltage or high-current lines.

• Do not pull on the cables with excessive strength.

• The Product is not waterproof. Do not use it in an environment where mist is present.

• Do not expose the Products to chemicals that adversely affect the Product materials.

• The dust cover is attached at the CN2 connector. When neither writing in the RF Tags nor address
shift function/noise check function is used, the connection to this connector is unnecessary. In this
case, please keep the duct cover attached.

Introduction

3. About control at the initial state

There is a possibility that the state of Input/Output becomes unstable while starting this product.
Please control Input/Output after one second or more passes after turning on the power supply to this
product.

4. Use at high temperatures (V680-D1KP58HTN)

• Data stored in memory in the RF Tag may be lost due to the characteristics of EEPROM, if the accu-

mulated usage time of the RF Tag at a high temperature over 125°C exceeds 10 hours after writing
data to the RF Tag.

• Do not communicate between the Antenna and the RF Tag in an environment where the ambient

operating temperature is 85°C or higher.
An error in communications between the Antenna and the RF Tag may occur.

• Do not use the commands using UID (unique identification n umbe r for each RF Tag) when the RF tag

is used at a high temperature over 125°C. The UID may be lost due to the characteristics of
EEPROM.

For Use at high temperatures, refer to Product Specifications - Use at high temperatures (V680-D1KP58HTN) in Sec-
tion 7 Appendices.

p.93

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Introduction

Introduction

Meanings of Symbols

Meanings of Symbols

Indicates particularly important points related to a function, including precautions and application advice.

Indicates page numbers containing relevant information.

Indicates reference to helpful information and explanations for difficult terminology.

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User's Manual

Introduction

Table of Contents

Introduction

Safety Precautions 3
Precautions for Safe Use 4
Precautions for Correct Use 5
Meanings of Symbols 6
Table of Contents 7

Section 1 Product Overview 9

Features 10

Introcuction

System Configuration 11

Section 2 Names and Functions of Components 13

ID Flag Sensor 14
Antennas 21
RF Tags 22

Section 3 Functions 25

Communications Mode 26
Optional Functions 28
Wire-saving Mode 30
Parity Check 31
Address Shift 32
Noise Measurement 33
Write Protection 34

Section 4 Installation, Connections, and Wiring 37

ID Flag Sensor 38
Installing Antennas 43
Installing RF Tags 46

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Introduction

Introduction

Section 5 Control I/O Interface 53

I/O Interface Control 54
I/O Control Flow 55
Timing Charts 56
Sample Programming 65

Section 6 Troubleshooting 69

Handling Errors 70
Errors and Countermeasures 71
Maintenance and Inspection 72

Section 7 Appendices 73

Product Specifications 74
Characteristics 104
Reference Data: Antenna and RF Tags Installation 133
RF Tag Memory Capacities and Memory Type s 165
RF Tag Memory Map 166
Chemical Resistance of the Antennas and RF Tags 167
V600-Compatible Mode 173
Degree of Protection 188

Revision History 190

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Section 1 Product Overview

Features 10
System Configuration 11

Section 1 Product Overview

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Section 1
Product Overview

Features

Section 1 Features

The V680-series ID System uses electromagnetic induction in the 13.56-MHz bandwidth, which conforms to
the international standards in ISO/IEC 18000-3 (ISO/IEC 15693). A V680-series ID System enables reading
and writing RF Tag data without contact by connecting a V680-HAM91/V680-HAM81 ID Flag Sensor to a
V680-series Antenna. With control performed in connection with the Basic I/O Units of a Programmable
Controller , ID Flag Sensors provide data management for ap plications such as quality and process control at
production sites.

 Simple Operation with I/O Control as Simple as Using a Regular Sensor

The V680-HAM91 and V680-HAM81 can be used right away to create an RFID System with operation
as easy as with regular Sensors. Start operation simply by setting the mode switch on the ID Flag
Sensor to output the read results to the I/O interface.

 Advanced Line Management

In accessing RF Tag data, up to 64,000 IDs are possible with 16-bit data. And, using the address shift
function enables accessing up to 128 bits, making it possible to build advanced lines.

 Conforms to International Standards of ISO/IEC 18000-3 (ISO/IEC 15693)

Compliance with international standards enables the V680 to be exported to and used in the world's
main countries.

 RF Tags Available with EEPROM or FRAM

Two types of RF Ta g memory are available: EEPROM, with a maximum heat resistance of 180°C
(30 min./200 cycles) and a capacity of 1,000 bytes, and FRAM, with a capacity of 2, 8, or 32 kilobytes,
and long memory life of 10 billion accesses. Chose the ideal type for various worksite applications.

 Smooth Replacement of Previous RFID Systems

All functions of the previous V600 Series are supported, so assets on existing lines can still be used.

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System Configuration

V680-A60 2 m

5 m
10 m

Host

Interface Cable

Terminal block wiring

Connector connection

ID Flag Sensor

Antenna

V680-HS52-R
V680-HS52-W

V680-HS63-R
V680-HS63-W

V680-HS65-R
V680-HS65-W

Connector connection

V680-D1KP52MT
V680-D2KF52M

V680-D1KP66T
V680-D1KP66MT
V680-D1KP66T-SP
V680-D2KF67
V680-D2KF67M
V680-D8KF67
V680-D8KF67M

Wireless Communications

V680-D8KF68
V680-D32KF68

RF Tags

Programmable Controllers,
Link Terminal (B7A),
I/O Relay Terminal etc.

V680-HS51

V680-HAM81
V680-HAM91

Sensor Controller

V680-D1KP53M

V680-D1KP52M-BT01
V680-D1KP52M-BT11
V680-D2KF52M-BT01
V680-D2KF52M-BT11

V680-D1KP58HTN

Section 1

Product Overview

The ID Flag Sensor is connected to a Programmable Controller or wire-reduction device using I/O Interface.
The ID Flag Sensor can be connected with a connector by using a optional interface cable. All of the various
V680-series Antennas and RF Tags can be used.

Section 1 System Configuration

When embedding the V680-D1KP52MT, V680-D1KP53M, and V680-D2KF52M in a metal surface, please use the
V680-HS51 or -HS52 Antenna. It can not communicate with the V680-HS63 Antenna.

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Section 1 System Configuration

Section 1
Product Overview

MEMO

12

RFID System

User's Manual

Section 2 Names and Functions of Components

ID Flag Sensor 14
Antennas 21
RF Tags 22

Section 2 Names and Functions of Components

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13

Section 2 ID Flag Sensor

 Interface Connector : CN2

Connect to Inputs.
Note. Please use the optional Interface Cable(Optional).

 Mode Switches

IF Flag Sensor Operation Mode setting switches.

 Interface Connector : CN1

Connect to 24VDC power, INHIBIT/TRIG Input and Outputs.
Recommended Power Supply : S8VS-03024(OMRON)
Note. Please use the Interface Cable(Optional).

 State Indicator LED

RUN : ID Flag Sensor Status(Green)
T/R : RF Tag communications status(Yellow)
NORMAL/ERROR : IF Flag Sensor operat ion result(Green/Red)
READ/WRITE : READ or WRITE operation status(Green/Yellow)
VERIFY OK/NG : Verify Read operation result(Green/Re d )

 Data Display LED

Date Display(Green)
Error Code Display(Red)
Noise Level Display (Green)

• Access Mode Setting Switch : Set the access mode to the RF Tags.

• Output Mode Setting Switch : Set the output mode and output time.

• Read Mode Setting Switch : Set the read operation mode.

• Write Mode Setting Switch : Set the write operation mode.

 Antenna Connector

Connects to V680-series Antennas.

 Access Address Setting

Set the access address to the RF Tag in hexadecimal notation (0000 hex to
FFFF hex)

Section 2
Names and Functions of Components

ID Flag Sensor

14

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 Status Indicator LED

 RUN

The ID Flag Sensor status is displayed.

Status Definition
Lit green Normal
Not lit No power supply or Fatal error.

 T/R

The communication status with the RF Tags is displayed.

Status Definition
Lit yellow Communicating with RF Tag , Measuring Noise level.
Not lit Standby

 NORMAL ERROR

The ID Flag Sensor operation result is displayed.

Status Definition
Lit green Normal Completion
Lit red Error occurred
Not lit Standby

Section 2

Names and Functions of Components

Section 2 ID Flag Sensor

 READ/WRITE

The Read or Write operation mode is displayed.

Status Definition
Lit green Read operation
Lit yellow Write operation
Not lit Standby or Noise check operation

 VERIFY OK/NG

The Verify Read operation result is displayed.

Status Definition
Lit green Verification result is matched.
Lit red Verification result is mismatched.
Not lit Standby

 Data Display LED

The Data Display LED show the 16 bits of data that was read or
written when communication complete normally, and show the
Error Code when error was occurred. It also sho w the Noise Le v e l
when measured the noise level.

Status Definition
Lit green Data ( Read, Write, Noise Level )
Flashing

red/Lit red
Not lit Standby

Error Code

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Section 2 ID Flag Sensor

I/O connector : CN1

Triangle mark

ID Flag Sensor connectors viewed from mating side

MIL-compliant Connector (MIL-C-83503)
(Applicable Connector: OMRON XG4A-2639-A)

2

1

26

25

Section 2
Names and Functions of Components

 I/O Connector CN1

CN1 connects to 24 VDC, INHIBIT/TRIG input and all other Outputs.

Pin Name

1 FG FG line FG ground terminal FG
2 Not used. --- --- --­3 Not used. --- --- --­4 NOISE_OUT Gray/Red ON when checking noise Output
5 0 V Blue 24-VDC power supply GND line Power supply
6 24 VDC Brown 24-VDC power supply input line Power supply
7 PARITY Gray/White Parity check output (Even: OFF, Odd: ON) Output
8 INHIBIT/TRIG Red Inhibit input for auto modes 1, 2, and 3

9 NORMAL/STRB Light green Normal read completion output in Read Mode

10 ERR

11 OD9 White/Red Read data output bit 10 Output

12 OD8 White/Black Read data output bit 9 Output

13 OD11 White/Yellow Read data output bit 12 Outpu

14 OD10 White/Green Read data output bit 11 Output

15 OD13 White/Blue Read data output bit 14 Output

16 OD12 White/Brown Read data output bit 13 Output

17 OD15 Gray/Black Read data output bit 16 Output

18 OD14 White/Orange Read data output bit 15 Output

19 OD1 Yellow Read data output bit 2 Output

20 OD0 Green Read data output bit 1

21 OD3 Black Read data output bit 4 Output

22 OD2 White Read data output bit 3 Output

23 OD5 Orange Read data output bit 6 Output

24 OD4 Gray Read data output bit 5 Output

25 OD7 Pink Read data output bit 8

26 OD6 Light blue Read data output bit 7 Output

Wire colors

(See Note1.)

Trigger input for trigger modes 1, 2, and 3

Output for verification results in Verify Mode
Normal write completion output for Write Mode
Strobe output when Read Mode is set to Wire-saving Mode

Purple Error output (OFF: active) (See Note2. ) Output

Match output in Verify Mode

Mismatch output in Verify Mode

Description I/O

Input

Output

Output

Output

16

Note1: Wire colors are f or the V680-A60 Interface Cable (sold separately).

2: ERR Output is OFF active. It turns ON after Powered-up correctly. It can use as checking

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User's Manual

output for powering up the product.

 I/O Connector CN2

I/O connector : CN2

Triangle mark

ID Flag Sensor connectors viewed from mating side

MIL-compliant Connector (MIL-C-83503)
(Applicable Connector: OMRON XG4A-2639-A)

2

1

26

25

CN2 connects to Input signals except for INHIBIT/TRIG.

Section 2

Names and Functions of Components

Section 2 ID Flag Sensor

Pin No.. Name

1 FG FG line FG ground terminal FG
2 Not used. --- --- --­3 Not used --- --- --­4 Not used Gray/Red --- --­5R
6 NOISE_IN/WRITE

7 ADR2 Gray/White Address shift input bit 2 Input
8 Not used Red --- Input

9 ADR0 Light green Address shift input bit 0 Input
10 ADR1 Purple Address shift input bit 1 Input
11 ID9 White/Red Write data input bit 10 in Write Mode.

12 ID8 White/Black Write data input bit 9 in Write Mode

13 ID11 White/Yellow Write data input bit 12 in Write Mode

14 ID10 White/Green Write data input bit 11 in Write Mode

15 ID13 White/Blue Write data input bit 14 in Write Mode

16 ID12 Wh ite/Brown Write data input bit 13 in Write Mode

17 ID15 Gray/Black Write data input bit 16 in Write Mode

18 ID14 White/Orange Write data input bit 15 in Write Mode

19 ID1 Yellow Write data input bit 2 in Write Mode

20 ID0 Green Write data input bit 1 in Write Mode

21 ID3 Black Write data input bit 4 in Write Mode

22 ID2 White Write data input bit 3 in Write Mode

23 ID5 Orange Write data input bit 6 in Write Mode

24 ID4 Gray Write data input bit 5 in Write Mode

25 ID7 Pink Write data input bit 8 in Write Mode

26 ID6 Light blue Write data input bit 7 in Write Mode

/W Blue Read/write mode switching input (Read: OFF, Write: ON) Input

PROTECT

Wire colors
(See Note.)

Brown Noise check mode setting input (Noise check : ON in Read mode)

Write protect enable/disable input (Enabled : OFF, Disabled : ON in Write mode)

Verify data input bit 10 in Verify Mode

Verify data input bit 9 in Verify Mode

Verify data input bit 12 in Verify Mode

Verify data input bit 11 in Verify Mode

Verify data input bit 14 in Verify Mode

Verify data input bit 13 in Verify Mode

Verify data input bit 16 in Verify Mode

Verify data input bit 15 in Verify Mode

Verify data input bit 2 in Verify Mode

Verify data input bit 1 in Verify Mode

Verify data input bit 4 in Verify Mode

Verify data input bit 3 in Verify Mode

Verify data input bit 6 in Verify Mode

Verify data input bit 5 in Verify Mode

Verify data input bit 8 in Verify Mode

Verify data input bit 7 in Verify Mode

Description I/O

Input

Input

Input

Input

Input

Input

Input

Input

Input

Input

Input

Input

Input

Input

Input

Input

Input

Note: Wire colors are for the V680-A60 Interface Cable (sold separately).

This connector is not required if data will not be written to RF Tags or the address shift function and noise check function
will not be used.

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Section 2 ID Flag Sensor

Refer to the following figure for a set position of the Setting Switch.

Cutting edge

Example) When it sets "1".

Refer to the following figure for a set position of the Setting Switch.

Cutting edge

Example) When it sets "1".

Section 2
Names and Functions of Components

 Mode Setting Switches

 Access Mode Setting Switch

Use this switch to set the communications mode for communications with RF Tags.

No. Name Remarks

0 SYNC1
1AUTO1

2 SYNC2
3AUTO2
4 SYNC3
5AUTO3
6NOISE

CHECK
7 --­8
9

TRIGGER MODE 1 : The ID Flag Sensor starts to communicate with RF Tags when the trigger signal inputs.
AUTO MODE 1 : The ID Flag Sensor starts to communicate with RF Tags automatically when the RF Tag comes

in the communication area.
TRIGGER MODE 2 : Functional compatible mode with V600 series (V600-HAM91/-HAM81/-HAR91/-HAR81)
AUTO MODE 2 : Functional compatible mode with V600 series (V600-HAM91/-HAM81/-HAR91/-HAR81)
TRIGGER MODE 3 : Functional compatible mode of V600 series (V600-HAR92)
AUTO MODE 3 : Functional compatible mode of V600 series (V600-HA R 92)
NOISE MEASURING MODE : The maintenance mode to measure the environmental noise level.

Setting Prohibit
(The ID Flag Sensor indicates Settings Error.)

p.56
p.60

p.175
p.178
p.181
p.183
p.63

 Output Mode Setting Switch

Use this switch to set the output mode and output time width.

No. Setting Setting Combination with the access mode

0 10 ms OFF DELAY 10 ms OFF delay Auto Mode 1, Auto Mode 3, or Trigger Mode 3
1 50 ms OFF DELAY 50 ms OFF delay
2 500 ms OFF DELAY 500 ms OFF delay
3 10 ms 10 ms output Auto Mode 2 or Trigger Mode 3
4 50 ms 50 ms output
5 CONTINUOUS Continuous output
6 --- Setting prohibited : except for Trigger Mode1(See Note.)
7
8
9

Note. TRIGGER MODE 1 is not influenced the OUTPUT MODE settings. Set the OUTPUT mode switch either from "0" to "9".

(The ID Flag Sensor indicates Settings Error.)

Note: A mode setting error will occur if one of the above

access modes is not set.

Note: A mode setting error will occur if one of the above

access modes is not set.

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RFID System

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The setting of the mode setting switch is read only when the power supply is turned ON. Therefore, settings cannot be
changed while the power is being supplied. Turn OFF the power supply before changing the settings.

 Read Mode Setting Switch

Refer to the following figure for a set position of the Setting Switch.

Cutting edge

Example) When it sets "1".

Refer to the following figure for a set position of the Setting Switch.

Cutting edge

Example) When it sets "1".

Use this switch to set the mode for reading data.

Section 2

Names and Functions of Components

Section 2 ID Flag Sensor

No

.
0 DATA READ1 Outputs read data.
1 DATA READ2 Outputs read data in Wire-saving Mode. p.30
2 VERIFY Compares external input data with read data and outputs the verification result. p.29
3 --- Setting prohibited.
4
5
6
7
8
9

Name Description

(The ID Flag Sensor indicates Settings Error.)

 Write Mode Setting Switch

Use this switch to set the mode for writing data.

---

No. Name Description

0 2-BYTE WRITE Write the 2 bytes (16 bits) of data that is input to the external data inputs (ID 0 to ID15) to the RF Tag.
1 BIT SET When external data (ID0 to ID15) is input, only the ON bits will be turned ON. The other bits will not be

changed.

2 BIT CLEAR When external data (ID0 to ID15) is input, only the ON bits will be turned OFF. The other bits will not be

changed.

3 1-BYTE WRITE Write the 1 byte (8 bits) of data that is input to external data input bits ID0 to ID7 to the RF Tag.

Inputs for external data input bits ID8 to ID15 will be ignored.
4 --- Setting prohibited.
5
6
7
8
9

Note : This is for supporting V600-series (V600-HAM91/-HAM81) 1byte(8bits) write operation.

The setting of the mode setting switch is read only when the power supply is turned ON. Therefore, settings cannot be
changed while the power is being supplied. Turn OFF the power supply before changing the settings.

(The ID Flag Sensor indicates Settings Error.)

(See Note.)

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19

Section 2 ID Flag Sensor

Item Description

Setting

method

Specify the memory address of the RF Tag in 4-digit hexadecimal.
Example to specify an RF Tag memory address of 01A3 hex:

Setting

range

0000 to FFFF hex (See note.)
Default setting: 0000 hex

Note: The upper 8 bits will not be read if FFFF hex is specified for a16-bit read/

write operation. All output bits will be OFF.

“0“
“1“
“A“
“3“

Refer to the follo wing figure f or a se t position
of the Setting Switch.

Cutting edge

Example) When it sets "B".

2

1

Pin No. Name Description I/O

1 S Signal line --­2 GND Analog ground ---

Section 2
Names and Functions of Components

Access Address Setting Switches

Use these switches to set the memory address for reading data.

The setting of the access address setting switches is read only when the power supply is turned ON.
Therefore, settings cannot be changed while the power is being supplied. Turn OFF the power supply before changing
the settings.

 Antenna Connector

Connect this connector to the V680-series Antenna (described in this User's Manual).

20

RFID System

User's Manual

Antennas

(2) Communications sufrace

(2) Communications sufrace

(2) Communications sufrace

(2) Communications sufrace

(3) Ferrite core

(3) Ferrite core

(3) Ferrite core

(3) Ferrite core

(4) Connector

(4) Connector

(4) Connector

(1) Operation indicator

(1) Operation indicator

(4) Connector

(1) Operation

indicator

 V680-HS51

 V680-HS52

 V680-HS63

 V680-HS65

No. Name Description

1 Operation indicator Lights when a signal is transmitted.
2 Communication surface Mounted facing the RF Tags.
3 Ferrite core
4 Connector Connects to the ID Flag Sensor.

Section 2

Names and Functions of Components

Section 2 Antennas

RFID System

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21

Section 2 RF Tags

 V680-D1KP52MT/-D2KF52M

 V680-D1KP66T/D1KP66MT

 V680-D1KP66T-SP

 V680-D1KP58HTN

 V680-D1KP53M

 V680-D1KP52M-BT01/-D2KF52M-BT01

 V680-D1KP52M-BT11/-D2KF52M-BT11

Section 2
Names and Functions of Components

RF Tags

The ID Flag Sensor communications with th e RF Tags through the Antenna to read and write data in
the internal memory of the RF Tags.
The printed side is the communications surface . Mount t he RF Tags with the communications surf aces
facing the Antenna.

RFID System

22

User's Manual

Section 2

 V680-D2KF67/-D2KF67M

 V680-D8KF68/-D32KF68

 V680-D8KF67/-D8KF67M

Names and Functions of Components

Section 2 RF Tags

The ID Flag Sensor communications with th e RF Tags through the Antenna to read and write data in
the internal memory of the RF Tags.
The printed side is the communications surface . Mount t he RF Tags with the communications surf aces
facing the Antenna.

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23

Section 2 RF Tags

Section 2
Names and Functions of Components

MEMO

24

RFID System

User's Manual

Section 3 Functions

Section 3 Functions

Communications Mode 26
Optional Functions 28
Wire-saving Mode 30
Parity Check 31
Address Shift 32
Noise Measurement 33
Write Protection 34

RFID System

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25

Section 3

Sensor or Switch

Pallet

V680-A60
Interface Cable

PLC

V680-series
RF T ag

V680-HAM91/V680-HAM81
ID Flag Sensor

V680-series
Antenna

Functions

Communications Mode

The ID Flag Sensor operates after reading the setting of the mode setting switches when the power supply is
turned ON. Set the mode for communications with the RF Tags or set the Noise Measurement Mode on the
access mode setting switch. There are th ree communicati ons modes, each with diff ere nt timing f or comple ting
communications with RF Tags: Mode 1, Mode 2, and Mode 3. Also , each of these modes has tw o other modes
to specify when to start communications with the RF Tags: Trigger Mode and Auto Mode . Mode 2 and Mode 3
are compatible with the V600 series.

Section 3 Communications Mode

Communications end
timing

Mode 1 Trigger Mode1 0: SYNC1 Standard modes

Mode 2 Trigger Mode2 2: SYNC2 Compatible with V600-HAR91/81 and HAM91/81.

Mode 3 Trigger Mode3 4: SYNC3 Compatible with V600-HAR92.

Some of the functions supported in Mode 1 cannot be used in the V600-compatible modes.
For details, refer to V600-Compatible Mode.

Communications start
timing

Auto Mode1 1: AUTO1

Auto Mode2 3: AUTO2

Auto Mode3 5: AUTO3

p.173

Access mode setting
switch

Mode overview

Trigger Mode

In Trigger Mode, an RF Tag on a workpiece or pallet in the communications area of the Antenna is
detected by a sensor or a switch. A control signal (called the trigger signal) is output from the PLC to
the ID Flag Sensor to trigger the I D Flag Sensor t o begin commu nications with the RF Tag. The ID Flag
Sensor reads the RF Tag data and outputs the results to the PLC.

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RFID System

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Only one Interface Cable (I/O connector CN1) is used to read RF Tag da ta. The address shift, noise check, and parity
check functions, however, are not possible when only CN1 is used.

Section 3

Pallet

V680-A60
Interface Cable

PLC

V680-HAM91/V680-HAM81
ID Flag Sensor

V680-series
Antenna

V680-series
RF T ag

Functions

Auto Mode

In Auto Mode, the ID Flag Sensor aut omatically begins co mmun ications wit h a RF Tag on a workpiece
or pallet when it enters the communications area of the Antenna, and then the ID Flag Sensor outputs
the result to the PLC.

Section 3 Communications Mode

Only one Interface Cable (I/O connector CN1) is used to read RF Tag da ta. The address shift, noise check, and parity
check functions, however, are not possible when only CN1 is used.

Noise Measurement

The Noise Measurement Mode can be used to check if there is noise around the Antenna that is
affecting communications with the RF Tag. When the power supply is turned ON with the access mode
switch set to this mode, the noise around the Antenna will be measured and the result will be displayed
on indicators and output to external outputs.

Noise measurement can performed with the above mode setting or by turning ON the NOISE_IN external input when
Trigger Mode 1 or Auto Mode 1 is being used. For details, refer to Trigger Mode1 :Noise Measurement.

p.63

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27

Section 3 Optional Functions

Section 3
Functions

Optional Functions

The following optional functions can be enabled by using the mode setting switches (access mode setting,
output mode setting, read mode setting, or write mode setting) and specifying the control signal.

Function Description
Output time operation Specified by setting the output mode.
Verification Set the read mode to "VERIFY".
Wire saving Set the read mode to "DATA READ2".
Write mode Specified by setting the write mode.
Write protection Specified using the WRITE_PROTECT external input.
Address shift Specified using theADR0 to ADR2 external inputs.
Noise check Specified using the NOISE_IN external input.

Output Time Operation

Set the output method and time for the normal completion output (NORMAL/STRB), error completion
output (ERR

), and data outputs (OD0 to OD15). There are two output methods: OFF delay and fixed

time.

Out of communi­cations range

2 ms

t

OFF delay

In communications
range

Fixed output time

t

1 ms

Out of communi­cations range

2 ms

t

OFF delay

RF T ag position

Fixed time
output

OFF delay

Out of communications
range

ON
OFF

ON
OFF

In communications
range

Fixed output time

1 ms

t

• The output time operation specification depends on the communications mode. A setting error will
occur if an output method that is not supported is set

Communications mode Output method specification Output rotary switch setting range

Standard modes Trigger Mode 1 Designation not required.

Auto Mode 1 OFF delay 10 ms(“0“)/50 ms(“1“)/500 ms(“2“) OFFDELAY

V600-compatible
modes

Note1. : The output will continue in Trigger Mode 1 until the trigger input turns OFF.

2. : When it is set to "CONTINUOUS" at the FIXED TIME OUTPUT, it keeps OUTPUT until INHIBIT/TRIG input turns to

OFF.

Trigger Mode 2 Fixed time 10 ms(“3“)/50 ms(“4“)/CONTINUOUS(“5“) (See note2.)
Auto Mode 2 Fixed time 10 ms(“3“)/50 ms(“4“)/CONTINUOUS(“5“) (See note2.)
Trigger Mode 3 OFF delay 10 ms(“0“)/50 ms(“1“)/500 ms(“2“) OFFDELAY
Auto Mode 3 OFF delay 10 ms(“0“)/50 ms(“1“)/500 ms(“2“) OFFDELAY

(See note1.)

Either from "0" to "9"

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RFID System

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For detail timing of output time, refer to Section 5 Control I/O Interface, and Section 7 Appendices when using V600
compatible mode.

p.56, p.173

Section 3

Functions

Verification

The verification function compares th e data (16 bit s) that is in put to the external data input lines (ID0 to
ID15) with the actually data (16 bits) read from the RF Tag, and outputs the result to indicate whether
the data matches or not. The result of the verification is output to the external data outputs (OD0:
Match, OD7: Mismatch, OD1 to OD6 and OD8 to OD15: Not used.) The result can also be checked on
the Data Display LED on the ID Flag Sensor.

Wire-saving Mode

The Wire-saving Mode enables re ading data and detecting errors using only 16 external data outputs
(OD0 to OD15). Control can be performed using one 16-point I/O Unit in a Programmable Controller.

For details, refer to Wire-saving Mode.

p.30

Write Mode

Specify the method for writing data to the RF Tag. Specify the mode to write 2 bytes (16 bits) or 1 byte
(8 bits) at a time, or specify the mode to set or clear specified bits.

Write Protection

Write protection can be enabled to prevent product model numbers, model names, or other important
data saved in RF Tags from being lost.

For details, refer to Write Protection.

p.34

Address Shift

Section 3 Optional Functions

The address set on the access address setting switches can be offset by the value specified by
external data inputs ADR0 to ADR2. This function is useful for reading more 16 bits (2 bytes) of RF Tag
data.

For details, refer to Address Shift.

p.32

Noise Measurement

This function can be used to check if there is noise around the Antenna that is affecting
communications with the RF Tag. The noise measurement when you turn ON the NOISE_IN external
input in Sync Mode 1 or Auto Mode 1. The oper ating mode called Noise Measurem ent Mode by setting
the access mode setting switch to "6" is for measuring noise at startup.

For details, refer to Noise Measurement.

p.33

RFID System

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29

Section 3 Wire-saving Mode

INHIBIT/TRIG

V680-HAM91/
V680-HAM81

Output Unit

Input Unit 1

Input Unit 2

NORMAL/STRB, ERR,
PARITY (3 points)

OD0 to OD15 (16 points)

Section 3
Functions

Wire-saving Mode

The Wire-saving Mode enab les detecting read data signals and normal/error completion signa ls using only 16
data outputs (OD0 to OD15). Using this mode enables controlling reading 16-bit data using only one 16-point
Input Unit for a PLC or a wire-saving device.

 System Configuration Example: Combination and Usage of I/O Lines in Each Mode

• Normal Read Wiring: DATA READ 1 • Wire-saving Read Wiring: DATA READ 2
Number of Required I/O

Output Units: 1
Input Units: 2

Number of Required I/O
Output Units: 1
Input Units: 1

Output Unit

Input Unit

INHIBIT/TRIG

OD0 to OD15 (16 points)

V680-HAM91/V680-HAM81

• For Wire-saving Mode, outputting all zeros on the data lines (0000 hex) is used as communications
control, and outputting all ones on the data lines (FFFF hex) is used as an error completion output.
Normal completion (NORMAL/STRB) is detected by confirming that the output from the data lines is
not all zeros (0000 hex) and not all ones (FFFF hex).

• All zeroes (0000 hex) and all ones (FFFF hex) cannot be used as data when Wire-saving Mode is
used.

• Error codes cannot be output when an error completion occurs. The data indicators, however, will
flash red to show the error code.

• The parity output is not connected and cannot be used.

• The Wire-saving Mode cannot be used when Trigger 2 or Auto 2 Mode is used. Attempting to do so
will result in a settings error.

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RFID System

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Section 3

Functions

Parity Check

This function detects vertical parity in the data output on the data outp ut lines (OD0 t o OD15) an d outpu ts the
parity status. If the number o f bit s th at are O N in t he da t a out put lin es is even, then the parity output is OFF. If
the number of bits that are ON in the data output lines is odd, the n the parity output is ON. The parity chec k is
performed for outp ut data on the ca b le communica tions betw een the host device and the ID Flag Sensor . The
parity check can be used to effectively perform simple checks for disconnected cables or wiring.

The parity check cannot be used in Trigger Mode 2 or Auto Mode 2. The ID Flag Sensor indicates a Setting Error.

p.173

Section 3 Parity Check

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31

Section 3 Address Shift

0000 hex

0ED5 hex
0ED6 hex
0ED7 hex

1

2

3

4

0ED8 hex
0ED9 hex
0EDA hex

0EDB hex
0EDC hex

0EDD hex
0EDE hex

0EDF hex
0EE0 hex

1FFF hex

Conditions: Access address setting switch setting = 0ED5 hex
Address shift input = 4 (ADR2 = 1, ADR1 = 0, ADR0 = 0)
Access address: 0EDD hex

Access address set on access address setting switches

+ address shift (= 4)

Access address in RF Tag

Section 3
Functions

Address Shift

The address set on the access address setting switches can be offset by the value specified by external data
inputs ADR0 to ADR2 to change the access address. The address shift enables reading or writing to up to 16
access address (up to 128 bits) of RF Tag memory.

Address Specification Example with 8-kilobyte RF Tag

32

Note 1. An address error will occur if the address shift exceeds the maximum address setting (FFFF hex).

Example of Address Error

Access address setting switches: FFFD hex
Address shift input: 5 (ADR2 = 1, ADR1 = 0, ADR0 = 1)
Access address: Address error

2. The address will be shifted by blocks when the 1-Byte Write Mode is used.
Access address setting switches: 0010 hex
Address shift input: 3 (ADR2 = 0, ADR1 = 0, ADR0 = 1)
Access address: 0013 hex

The address shift function can be used only in Trigger 1 or Auto 1 Mode.

RFID System

User's Manual

Section 3

01234567

89101112131415

01234567

89101112131415

01234567

89101112131415

01234567

89101112131415

01234567

89101112131415

01234567

89101112131415

01234567

89101112131415

01234567

89101112131415

01234567

89101112131415

OFF :ON(Green)

0102030

40 50 60

70

20%

40%

60%

80%

100%

0%

Noise level

Communications distance

(noise level 0 to 100%)

Functions

Noise Measurement

You can check whether noise that affect s communications with RF Tags exists in the area where the Antenna
and ID Flag Sensor are installed.
In Trigger Mode 1 or Auto Mode 1, noise measurement is performed by turning ON the NOISE_IN external
input. The result of noise measurement will be output to the external data outputs when the NORMAL/STRB
signal is turned ON after the measurement is performed.
The output will be on a scale of 00 to 99 for the strength of the noise aff ecting the Antenna. The external data
output lines will output the value converted to hexadecimal. The measured noise strength is also displayed in
eight levels on the Data Display LED, and so it can be checked directly on the ID Flag Sensor.

Relation between Result Output and Data Display LED

Result output

“00” to “10 “55” to “65

Data indicator status

Result output

Data indicator status

Section 3 Noise Measurement

“11” to “21 “66” to “76

“22” to “32 “77” to “87

“33” to “43 “88” to “99

“44” to “54

Example of Results Output and Influence on Communications Distance

The values given for the influence of the noise level obtained from noise measurement and the communications
distance are for reference only. The results depend on the type of Antenna and RF Tag used, and differences in the
noise environment. Be sure to check carefully when installing the system.

 Measurement Conditions

Antenna : V680-HS63
RF Tag : V680-D1KP66T(non-metallic mounting)
Command 4-byte write

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33

Section 3
Functions

Write Protection

The write protection function protects important data stored in the memory of a RF Tag, such as the product
model or type, from being overwritten inadvertently.
Enable the write protection function after writing important data as described in this section.

Setting Write Protection

For the write protection function to be effective, it must be enabled in both the ID Flag Sensor settings
and the RF Tag settings.

Section 3 Write Protection

1. Enabling the Write Protection in the ID Flag Sensor

Write protection can be enabled by turning OFF pin 6 (NOISE_IN/WRITE PROTECT) of I/O connector CN2.
NOISE_IN/WRITE PROTECT input is effective as WRITE PROTECT input only when it specified write mode(R/W : ON).

Write protect enable/disable settings is effective only TRIGGER MODE 1 and AUTO MODE 1.
Write protect is always enabled at the TRIGGER MODE 2 and AUTO MODE 2.
The method of write protect for TRIGGER MODE 2 and AUTO MODE 2 confirms to the V600 series.
Details of Write Protect function for V600-compatible Mode, refer to the Section 7 Appendices

p.184

2. Setting Write Protection for RF Tags

Write protection is set in the 4 bytes from RF T ag addresses 0000 hex to 0003 he x. Write protection for RF Tags is enabled in the
most significant bit of address 0000 hex.

• Write-protect Bit (most significant bit of address 0000 hex)
1: Write-protected (write protection enable)
0: Not write-protected (write protection disable)

Memory Map for RF Tag Write Protection Settings

Address Bit 7 6 5 4 3 2 1 0

0000 hex

0001 hex Lower two digits of start address (00 to FF)
0002 hex Upper two digits of end address (00 to FF)
0003 hex Lower two digits of end address (00 to FF)

When write protection is not used, the above addresses can be used as user memory. If it is used as user memory,
disable the write protection function of the ID Flag Sensor by turning ON pin 6 (NOISE_IN/WRITE PROTECT) of I/O
connector CN2. NOISE_IN/WRITE PROTECT input must be OFF when reading the RF Tag. If it turns ON during
reading operation, the ID Flag Sensor execute Noise level measurement.

• Addresses in RF Tag Memory That Can Be Write Protected
Start address: 0000 hex to 7FFF hex
End address: 0000 hex to FFFF hex

Enable/

disable

Upper two digits of start address (00 to 7F)

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RFID System

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The write-protection setting area of the RF Tag cannot be write-protected.

Example of Write Protection

Address
(hex)

Bit

Upper digits Lower digits

0000

10000000

80

0001

00010101

15

0002

00000001

01

0003

00100000

20

Write-protected

0000 hex

0021 hex

03E7 hex

Address
(hex)

Bit

Upper digits Lower digits

0000

10000000

80

0001

00100001

21

0002

00000000

00

0003

00100001

21

Address
(hex)

Bit

Upper digits Lower digits

0000

10000011

83

0001

00000000

00

0002

00000011

03

0003

11111111

FF

 Start Address Is Lower Than the End Address

The memory area between the start address and end address will be write-protected.

0000 hex

0015 hex

0120 hex

03E7 hex

Section 3

Functions

Write-protected

Section 3 Write Protection

 Start Address Is Equal to End Address

Only the selected address (one byte) will be write-protected.

 End Address Is Higher than the Last RF Tag Address

The memory area between the start address and the last RF Tag address will be write-protected.

0000 hex

0300 hex

03E7 hex

Write-protected

RFID System

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35

Section 3

Address
(hex)

Bit

Upper digits Lower digits

0000

10000001

81

0001

00100000

20

0002

00000000

00

0003

00010101

15

Functions

 Start Address Is Higher Than End Address

The memory area between the start address and the last RF Tag address, as well as the area betwe en
0004 hex and the end address will be write-protected.

Section 3 Write Protection

0000 hex

0004 hex

Write-protected

End address

Start address

0015 hex

0120 hex

Write-protected

03E7 hex

Disabling Write Protection

 Disabling Write Protection for Part of the RF Tags

Set the uppermost bit of 0000 hex to 0.

 Disabling All Write Protection for the Whole RFID system

Turn ON pin 6 (NOISE_IN/WRITE PROTECT) of the I/O connector on the ID Flag Sensor.

Caution When Using Write Protection:
The write protection function is an OMRON ID Flag Sensor function. It cannot be used with RFID reader/writer
manufactured by other companies.

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RFID System

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Write protect enable/disable settings is effective only TRIGGER MODE 1 and AUTO MODE 1.
Write protect is always enabled at the TRIGGER MODE 2 and AUTO MODE 2.
TRIGGER MODE 3 and AUTO MODE 3 is not supported Write function itself.

Section 4 Installation, Connections, and Wiring

ID Flag Sensor 38
Installing Antennas 43
Installing RF Tags 46

Section 4 Installation, Connections, and Wiring

RFID System

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37

Section 4 ID Flag Sensor

Section 4
Installation, Connections, and Wiring

ID Flag Sensor

Installation

To ensure full functionality of the ID Flag Sensor, follow the instructions provided in this section for
installation.

 Installation Site

Do not install the ID Flag Sensor in the following locations.

• Locations exposed to ambient temperatures that are not between −10 and 55°C or where there are
radical temperature changes resulting in condensation

• Locations exposed to humidity that is not between 25% and 85%

• Locations subject to corrosive gas, flammable gas, dust, salt, or metal powder

• Locations that will expose the ID Flag Sensor to direct vibration or shock

• Locations exposed to direct sunlight

• Locations exposed to spray of water, oil, or chemicals

• Locations more than 2,000 m above sea level

 Mounting in a Panel

The ID Flag Sensor can be used at an ambient temperature range of −10 to 55°C. Be sure to observe
the following precautions.

• Make sure that the Unit is provided with sufficient ventilation space.

• Do not install the Unit close to heaters, transformers, or large-cap acity resistors that radiate e xcessiv e
heat.

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RFID System

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Section 4

End Plate

End Plate

Spacer Spacer

10 mm min.10 mm min.

Installation, Connections, and Wiring

 Installation Method

The ID Flag Sensor is to be mounted to a DIN Track. Mount the DIN Track, and then mou nt the ID Flag
Sensor to the DIN Track.

1. First hook the ID Flag Sensor Unit to part A, then press it in direction B to mount it to the DIN Track.

2. To disconnect the ID Flag Sensor Unit from the DIN Track, pull the mounting hook downwards, and

then lift the Unit upwards.

DIN Track

End Plate

Mounting Hook

Attaching the End Plates:
To mount an End Plate easily, first hook the bottom of the End Plate and then hook the
top on the DIN Track, pull the End Plate downwards and tighten the screw.
Recommended tightening torque: 1.2 N⋅m.

End Plate

A

DIN Track
PFP-100N2 (OMRON)

B

Mounting Hook

 Mounting Interval

The ID Flag Sensor Units will generate heat if they are mounted side-by­side.
Leave space between Units of at least 10 mm.

Section 4 ID Flag Sensor

End Plate
PFP-M (OMRON)

Use at least 2 OMRON DIN Track Spacers. (Each Spacer is 5 mm wide）

Spacer
PFP-S

RFID System

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39

Section 4
Installation, Connections, and Wiring

Connection and Wiring

 Interface Cable

 INPUT/OUTPUT controls

• When using a solid-state output with the maximum switching current rating over 1A , there is a
possibility of causing External Input Errors due to the delay of rise /fall time of output signal.
Consider this when selecting the solid-state output.

• When using a contact output, consider chattering and the minimum switching current.

• When connecting an inductive load or an electrical device that tends to generate noise to the output,
connect a diode in parallel with t he load. Connect the cat hode side of the diod e to the positiv e side of
the power supply.

Section 4 ID Flag Sensor

WARNING

 Power Supply Voltage

• Do not impose an AC(100VAC to 240VAC) power supply or any voltage exceeding the rated voltage
range on the V680-HAM91/-HAM81. Unsuitable power supplies may cause the V680-HAM91/­HAM81 to explode or bum.

 Load Short-circuiting

• Do not short-circuit the load connected to the V680-HAM91/-HAM81 or connect power to the load.
Any of these may cause the V680-HAM91/-HAM81 to explode or bum.

WARNING

• Do not mis-wire and do not reverse polarity of the power sup ply connected to the V680-HAM91/­HAM81. Wiring mistakes, including reversed power supply polarity may cause the V680-HAM91/­HAM81 to explode or bum.

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 Connecting and Disconnecting the ID Flag Sensor

Mounting Procedure

Line up the direction of the triangle mark on the connectors of the ID Flag Sensor and the interface cable, and then
press in the connector of the interface cable.

The lock will engage when the interface cable is pressed
into the connector on the ID Flag Sensor.

Section 4

Installation, Connections, and Wiring

Section 4 ID Flag Sensor

Removal Procedure

To remove the connector of the interface cable, always hold the connector and pull it out in a straight line.
Pulling the cable may result in severing the cable or other product failure.

Unlock the connector on the ID Flag Sensor and pull out
the connector of the interface cable.

RFID System

User's Manual

41

Section 4 ID Flag Sensor

Section 4
Installation, Connections, and Wiring

 Antenna Connector

 Mounting the Antenna

1. Hold the connector part of the Antenna and insert it into the

Antenna port while matching the key on the ID Flag Sensor with
the groove on the connector.

Key

Antenna connector

2. Turn the connector clockwise to lock it in place.

 Removing the Antenna

1. Turn the connector in counterclockwise to release t he lock.

2. Pull the connector straight out of the port.

Key

Antenna connector

42

RFID System

User's Manual

The connector cannot be removed without turning it to release the lock.
If the cable is pulled without releasing the lock, it may cause the cable or wires to break. Make sure that the lock is
released before pulling out the connector.

Installing Antennas

V680-HS51

Install the Antenna using the nuts and toothed washer that are provided on both sides of the mounting
material, as shown in the diagram below.

Mounting Hole Dimensions

+0.5

12

0

For details on installing Antennas, refer to Antenna Mounting Precautions.

p.133

dia.

Antenna

Toothed washer

Section 4

Installation, Connections, and Wiring

Metallic material

Nut

Section 4 Installing Antennas

Securely tighten the screws to a torque of 6 N⋅m.

V680-HS52

Install the Antenna using the nuts an d toothed wa shers that are provided on bot h sides of the mounting
material, as shown in the diagram below.

When the Antenna is mounted to a metallic material, the communications distance will be reduced by approximately
10% compared with mounting to a non-metallic material.
For details on the effect of metal surrounding the Antenna, refer to Antenna Mounting Precautions.

p.133

Non-metallic material

Mounting Hole Dimensions

+0.5

22

dia.

0

Antenna

Toothed washers

Nuts

Securely tighten the screws to a torque of 40 N⋅m.

RFID System

User's Manual

43

Section 4

Two, M4

Coil center

27

53

40

28±0.2

5

Two, 4.5 dia.

Coil center

27

40

28±0.2

A

Nut

Installation, Connections, and Wiring

V680-HS63

 Installation from the Front

 Installation from the Back

Insert the nuts that come with the Antenna into sections A.

Section 4 Installing Antennas

For details on installing Antennas, refer to Antenna Mounting Precautions.

p.133

Securely tighten screws to a torque of 1.2 N⋅m.

44

RFID System

User's Manual

V680-HS65

Four, C1

90±0.1

100±0.2

100±0.2

90±0.1

Four, 4.5

+

0.3

dia.

0

V680-HS65

Mounting base

Mounting Bracket
(provided)

Section 4

Installation, Connections, and Wiring

100

90±0.2

Securely tighten screws to a torque of 0.7 to 1.2 N⋅m.

Four, M4

100

90±0.2

Use M4 screws and spring washers (in four places) for
Antenna installation.

 Mounting Bracket Dimensions (Provided Only with the V680-HS65)

Note: When installing the Antenna, mount it on the

enclosed Mounting Brack et. The M ounting Br ack et
is not necessary, however, if the Anten na is
mounted on a metal base that is larger than t he
Antenna (100 × 100 mm).

Section 4 Installing Antennas

For details on installing Antennas, refer to Antenna Mounting Precautions.

p.133

RFID System

User's Manual

45

Section 4
Installation, Connections, and Wiring

Installing RF Tags

Section 4 Installing RF Tags

V680-D1KP52MT

 RF Tag Installation Direction

Mount the RF Tags as shown in the diagram on the right. The
epoxy adhesiv es listed in the f ollo wing table are recommended
for the given temperature ranges.

Ambient operating

temperature

−40 to 70°C

−40 to 150°C

Two-part Epoxy-compound
Resin: TB2001 (main agent)/
TB2105C (curing agent)

One-part Moisture-curing
Elastic Adhesive
TB1530

One-part Epoxy Resin: TB2285 Three Bond Co., Ltd.
Two-part Epoxy Resin: TB2087 Three Bond Co., Ltd.

Product name Manufacturer

Three Bond Co., Ltd.

Three Bond Co., Ltd.

Marked side

+0.1

8.1

0

Marked side

dia.

5

0

R0.2 max.

+0.1

When installing RF Tags, refer to RF Tag Mounting Precautions.

p.137

When embedding the V680-D1KP52MT into a metal surface, use the V680-HS51/-HS52 Antenna.
Communications will not be possible if the V680-HS63 Antenna is used.

V680-D1KP52M-BT01/-D1KP52M-BT11

 RF Tag Installation Direction

1. Turn the RF Tag clockwise, attach to the Mounting holes.

V680-D1KP52M-BT01 is attached to the mounting holes in the M10,
V680-D1KP52M-BT11 to the mounting holes in the M8.

RF T ag

Mounting Hole

46

2. Secure by tightening the bolts of the RF Tag.

When mounting the RF Tags, tighten the bolts to the following torques.
V680-D1KP52M-BT01: 24.5 N⋅m
V680-D1KP52M-BT11: 11 N⋅m

RFID System

User's Manual

RF T ag

V680-D1KP53M

 RF Tag Installation Direction

Mount the RF Tags as shown in the diagram on the right. The
epoxy adhesiv es listed in the following table are
recommended for the given temperature ranges.

Ambient operating

temperature

Two-part Epoxy-compound
Resin: TB2001 (main agent)/

−40 to 70°C

−40 to 150°C

When installing RF Tags, refer to RF Tag Mounting Precautions.

TB2105C (curing agent)
One-part Moisture-curing

Elastic Adhesive
TB1530

One-part Epoxy Resin: TB2285 Three Bond Co., Ltd.
Two-part Epoxy Resin: TB2087 Three Bond Co., Ltd.

Product name Manufacturer

Three Bond Co., Ltd.

Three Bond Co., Ltd.

Section 4

Installation, Connections, and Wiring

V680D1KP53M

R0.5 max.

+0.09

10

dia.

0

+0.2

4.6

0

Marked side

Marked side

Section 4 Installing RF Tags

p.137

When embedding the V680-D1KP53M into a metal surface, use the V680-HS51/-HS52 Antenna.
Communications will not be possible if the V680-HS63 Antenna is used.

RFID System

User's Manual

47

Section 4
Installation, Connections, and Wiring

V680-D1KP66T

 Mounting on Non-metallic Material

Mount the RF Tag using M3 pan-head screws from the
marked side.
Tightening torque: 0.3 to 0.5 N⋅m

Mounting Hole Dimensions

Two, M3

M3 pan-head screw

25±0.2

Section 4 Installing RF Tags

 Mounting on Metallic Material

Communications distance will decrease if there is
metal on the back of the V680-D1KP66T RF Tag. If the
RF Tag is to be used mounted to metallic material, use
the separately sold special attachment (V600-A86) or a
non-metallic spacer (e.g., plastic or resin).

When installing RF Tags, refer to RF Tag Mounting Precautions.

p.137

Refer to Effect of Metal on Back of RF Tags (Reference) for information on the effect of metal on the back of the V680-
D1KP66T.

p.142

Marked side

M3 pan-head screw

Marked
side

Attachment (V600-A86)

25±0.2

Mounting Hole Dimensions

Two, M3

25±0.2

25±0.2

48

RFID System

User's Manual

V680-D1KP66MT

Two, M5

80±0.2

Mounting Hole Dimensions

Section 4

Installation, Connections, and Wiring

Mount the RF Tag to metal using M3 pan-head screws
from the marked side. Tighten the screws to a torque
of 0.3 to 0.5 N⋅m..

When installing RF Tags, refer to RF Tag Mounting Precautions.

p.137

M3 pan-head screw

Marked side

Mounting Hole Dimensions

Two, M3

25±0.2

25±0.2

V680-D1KP66T-SP

Mount the RF Tag using M5 screws and washers. Tighten the screws to a torque of 1.2 N⋅m.
The installation direction of RF Tags is not restricted by the travel direction in respect to the Antenna.

Section 4 Installing RF Tags

When installing RF Tags, refer to RF Tag Mounting Precautions.

p.137

RFID System

User's Manual

49

Section 4

Mounting Hole Dimensions

M12

Two nuts and one split pin are provided wi th the V680-A80 Attachment. Replacement spl it pins must be
provided by the user.

Split pin Nominal: 3.2 mm × 20 mm (length)

Installation, Connections, and Wiring

Section 4 Installing RF Tags

V680-D1KP58HTN

 RF Tag Installation Direction

The RF Tags have a limited life span. Therefore, install them in locations in which they can be easily
replaced. Use the following procedure to mount the V680-A80 Attachment when required.

1. Mount the Attachment to the workpiece.

2. Tighten the lock nut.

Use a tightening torque of 21 to 42 N·m.

3. Mount the RF Tag to the Attachment.

The RF Tag can be mounted in either
direction.

Insert the split pin into the 3.2-dia. hole and open the tip of the pin to secure.

RFID System

50

User's Manual

V680-D2KF52M

 RF Tag Installation Direction

Mount the RF Tag as shown in the diagram on the right.
The epoxy adhesives listed in the following table are
recommended for the given temperature ranges.

Ambient operating

temperature

Two-part Epoxy-compound
Resin: TB2001 (main agent)/

−40 to 70°C

−40 to 85°C

When installing RF Tags, refer to RF Tag Mounting Precautions.

TB2105C (curing agent)
One-part Moisture-curing

Elastic Adhesive
TB1530

One-part Epoxy Resin: TB2285 Three Bond Co., Ltd.
Two-part Epoxy Resin: TB2087 Three Bond Co., Ltd.

Product name Manufacturer

Three Bond Co., Ltd.

Three Bond Co., Ltd.

Section 4

Installation, Connections, and Wiring

R0.2 max.

+0.1

8.1

dia.

0

+0.1

5

0

Marked side

Marked side

Section 4 Installing RF Tags

p.137

When embedding the V680-D2KF52M into a metal surface, use the V680-HS51/-HS52 Antenna.
Communciations will not be possible if the V680-HS63 Antenna is used.

V680-D2KF52M-BT01/-D2KF52M-BT11

 RF Tag Installation Direction

1. Turn the RF Tag clockwise, attach to the Mounting holes.

V680-D2KF52M-BT01 is attached to the mounting holes in the M10,
V680-D2KF52M-BT11 to the mounting holes in the M8.

2. Secure by tightening the bolts of the RF Tag.

RF T ag

Mounting Hole

When mounting the RF Tags, tighten the bolts to the following torques.
V680-D2KF52M-BT01: 24.5 N⋅m
V680-D2KF52M-BT11: 11 N⋅m

RF T ag

RFID System

User's Manual

51

Section 4

Two, M3

Marked side

32±0.2

32±0.2

Mounting Hole Dimensions

M3 screw

Installation, Connections, and Wiring

V680-D2KF67/-D2KF67M

 RF Tag Installation Direction

Secure the RF Tag with M3 screws. Tighten the
screws to a torque of 0.6 N⋅m.

Mounting Hole Dimensions

Two, M3

M3 screw

32±0.2

Section 4 Installing RF Tags

When installing RF Tags, refer to RF Tag Mounting Precautions.

p.137

V680-D8KF67/-D8KF67M

 RF Tag Installation Direction

Secure the RF Tag with M3 screws. Tighten the
screws to a torque of 0.6 N⋅m.

When installing RF Tags, refer to RF Tag Mounting Precautions.

p.137

Marked side

32±0.2

52

RFID System

User's Manual

V680-D8KF68/-D32KF68

 RF Tag Installation Direction

Secure the RF Tag with M4 screws. Tighten the screws to a torque of 0.7 to 1.2 N⋅m.

M4 screw

Spring washer

Flat washer

When installing RF Tags, refer to RF Tag Mounting Precautions.

p.137

44

76

Two, M4

Section 5 Control I/O Interface

I/O Interface Control 54
I/O Control Flow 55
Timing Charts 56
Sample Programming 65

Section 5 Control I/O Interface

RFID System

User's Manual

53

Section 5
Control I/O Interface

I/O Interface Control

The V680-series ID Flag Sensor can be connected to a PLC, I/O Terminal, B7A-series Link Terminal,
DeviceNet device, or other host device. This section describes operations for connecting to and
communicating with these devices.

Overview of Communications Modes

Use the access mode setting switch to set the communications mode for RF Tag communications.
There are three communications modes, ea ch with dif ferent timing for completin g comm unicat ions with
RF Tags: Mode 1, Mode 2, and Mode 3. Also, each of these modes has two modes to specify when to
start communications with the RF Tags: Tr igger Mode and Auto Mode. Mode 2 and Mode 3 are com­patible with the V600.

Section 5 I/O Interface Control

Communications end
timing

Mode 1 Trigger 0: SYNC MODE 1 p.56 Standard modes

Mode 2 Trigger 2: SYNC MODE 2 p.175 Modes compatible with V600-HAR91/81

Mode 3 Trigger 4: SYNC MODE 3 p.181 Modes compatible with V600-HAR92

Some of the functions supported in Mode 1 cannot be used in the V600-compatible modes.

Communications start
timing

Auto 1: AUTO MODE 1 p.60

Auto 3: AUTO MODE 2 p.178

Auto 5: AUTO MODE 3 p.183

p.174

Access mode setting Timing

Mode overview

Charts

and V600-HAM91/81

54

RFID System

User's Manual

Section 5

Mode setting switch settings

RF T ag position

Communications
with RF Tag

INHIBIT/TRIG

NORMAL/STRB

In communications area

1. Start of communications

2. End of communications

3. Result cleared

Reading

Read data 0000 hex

0000 hex

Data output
(OD0 to OD15: 16 bits)

3 ms



Mode setting switch settings

RF T ag position

Communications
with RF Tag

INHIBIT/TRIG

NORMAL/STRB

Data output
(OD0 to OD15: 16 bits)

In communications range

2. Start of communications

3. End of communications

4. Result cleared

Reading

Read data 0000 hex

0000 hex

1. Preparing Communications

3 ms

OFF delay time

Control I/O Interface

I/O Control Flow

The operation outline f or ID Flag Sensor at Trigger Mode 1 and Auto Mode 1 a re shown in th is page. F or de tail
timing of ID Flag Sensor , ref er to the timing charts in this section. Control the I D Flag Sensor according to the
timing charts.

Trigger Mode

Example: Timing Chart for Trigger Mode 1, and Successful Read

1. Start of communications Turn ON the INHIBIT/TRIG input to start communications with the RF Tag after confirm­ing the RF Tag is in the communications area of the Antenna.

2. End of communications If communications with the RF Tag are completed normally, the ID Flag Sensor will turn
ON the NORMAL/STRB output and will output the read data to the data output bits (OD0
to OD15). The NORMAL/STRB output turns ON 3 ms after the data output lines. Read
the data output after the NORMAL/STRB output turns ON.

3. Clearing results When you turn OFF the INHIBIT/TRIG input, the NORMAL/STRB output will be turned
OFF, and data output will be cleared to 0000 hex.

Auto Mode

Example: Timing Chart for Auto Mode 1, and Successful Read

Section 5 I/O Control Flow

1. Preparations Turn OFF the INHIBIT/TRIG input in advance to enable communications.

2. Start of communications The ID Flag Sensor will start communications with the RF Tag when the RF Tag enters

3. End of communications If communications with the RF Tag are completed normally, the ID Flag Sensor will turn

4. Clearing results After the RF Tag is out of the communications area of the Antenna, the NORMAL/STRB

the communications area of the Antenna.

ON the NORMAL/STRB output and will output the read data to the data output bits (OD0
to OD15). The NORMAL/STRB output turns ON 3 ms after the data output lines. Read
the data output after the NORMAL/STRB output turns ON.

output and data output bits will be turned OFF after the time set for the OFF delay in the
output mode time setting has elapsed.

RFID System

User's Manual

55

Section 5

Mode setting switch settings

RF T ag position

Communications
with RF Tag

In communications range

INHIBIT/TRIG

Read­ing

0 hex

NORMAL/STRB

PARITY output

NOISE_OUT
output

0 0

Error
code

0000 hex

AB C

D

E

F

G

R/W input

ERR output

Address shift input
(ADR0 to 2: 3 bits)

Parity
value

Parity
value

0000 hex

Data output
(OD0 to OD15: 16 bits)

Read
data

Normal completion

Completion with error

Data Display LED
(0 to 15: 16 bits)

Read­ing

Read data display (green) Error code display (red)

0000 hex

0000 hex

0

3 ms

3 ms

Address shift data

Access Address : 0010 hex

Control I/O Interface

Timing Charts

Trigger Mode 1: Read

Section 5 Timing Charts

 Normal Completion of Communications with RF Tag

A. Preparations Before starting communications with the RF Tag, turn OFF the R/W input and set the address shift

B. Start of communications Turn ON the INHIBIT/TRIG input to s ta rt communicatio ns wi th the RF Tag after confirming the RF

C. End of communications If communications with the RF Tag are completed normally, the ID Flag Sensor will turn ON the

D. Clearing results When you turn OFF the INHIBIT/TRIG input, th e NORM/STRB output will be turned OFF, the par-

input bits (ADR0 to ADR2).

Tag is in the communications area of the Antenna.

NORMAL/STRB output, store t he parity v alue i n the PARITY output, and store the read data in the
data output bits (OD0 to OD15). The Data Display LED(0 to 15) corresponding to the read data
will be lit green.

ity value (0) will be set on the PARITY output, and the data output bits (OD0 to OD15) will be
cleared to 0000 hex.

RFID System

56

User's Manual

 Error Completion of Communications with RF Tag

E. Start of communications Turn ON the INHIBIT/TRIG input to start communications with the RF Tag.
F. End of communications If communications with the RF Tag are completed with an error(No RF Tag error), the ID Flag Sen-

G. Clearing results When you turn OFF the INHIBIT/TRIG input, the ERR output will be turned OFF “1“, the parity

• Wait at least 10 ms after switching the R/ W inpu t lin e be fore performing next proc es s.

• Switch the address shift input (ADR0 to ADR2) at least 10 ms before accessing the RF Tag(e.g., at least 10 ms before turning

ON the trigger input).

• Read the data output (OD0 to OD15) after the NORMAL/STRB output turns ON.

sor will turn ON ”0” the ERR output, store the parity value in the PARITY output, and store the
error code in the data output bits (OD0 to OD15). Th e data indicator s (0 to 15) corre sponding to
the error code will be lit red.

value (0) will be set on the PARITY output, and the Data Display LED (OD0 to OD15) will be
cleared to 0000 hex.

Trigger Mode1 : Read with Wire-saving Mode

Mode setting switch settings

RF T ag position

Communications
with RF Tag

In communications range

INHIBIT/TRIG

Read­ing

0 hex

NORMAL/STRB

PARITY output

NOISE_OUT
output

0 0

FFFF hex

0000 hex

AB C

D

E

F

G

R/W input

ERR output

Address shift input
(ADR0 to 2: 3 bits)

Parity
value

0

0000 hex

Data output
(OD0 to OD15: 16 bits)

Read
data

Normal completion

Completion with error

Data Display LED
(0 to 15: 16 bits)

Read­ing

Read data display (green) Error code display (red)

0000 hex

0000 hex

0

3 ms

3 ms

Address shift data

Access Address : 0010 hex

Section 5

Control I/O Interface

 Normal Completion of Communications with RF Tag

 Error Completion of Communications with RF Tag

A. Preparations Before starting communications with the RF Tag, turn OFF the R/W input and set the address shift

B. Start of communications Turn ON the INHIBIT/TRIG input to s ta rt communicatio ns wi th the RF Tag after confirming the RF

C. End of communications If communications with the RF Tag are completed normally, the ID Flag Sensor will turn ON the

D. Clearing results When you turn OFF the INHIBIT/TRIG input, th e NORM/STRB output will be turned OFF, the par-

input bits (ADR0 to ADR2).

Tag is in the communications area of the Antenna.

NORMAL/STRB output, store t he parity v alue i n the PARITY output, and store the read data in the
data output bits (OD0 to OD15). The Data Display LED(0 to 15) corresponding to the read data
will be lit green.

ity value (0) will be set on the PARITY output, and the data output bits (OD0 to OD15) will be
cleared to 0000 hex.

E. Start of communications Turn ON the INHIBIT/TRIG input to start communications with the RF Tag.
F. End of communications If communications with the RF Tag are completed with an error(No RF Tag error), the ID Flag Sen-

G. Clearing results When you turn OFF the INHIBIT/TRIG input, the ERR output will be turned OFF “1“, the parity

sor will turn ON “0“ the ERR output, store the parity value in the PARITY output, and store FFFF
hex (ON all bits) in the data output bits (OD0 to OD15). The Data Display LED (0 to 15) corre­sponding to the error code will be lit red.

value (0) will be set on the PARITY output, and the data output bits ( OD0 to OD 15) w ill be clea red
to 0000 hex.

Section 5 Timing Charts

• Wait at least 10 ms after switching the R/ W inpu t lin e be fore performing next proc es s.

• Switch the address shift input (ADR0 to ADR2) at least 10 ms before accessing the RF Tag (e.g., at least 10 ms before turning

ON the trigger input).

• If communications cont rol will be performed usi ng only data output l ines withou t using the N ORMAL/STRB out put, for exam­ple, implement programming for a timer with a specified time, check the status of each data output line at each specified time,
and read the outputs as data after the data is all zeros or all ones.

• All ones and all zeros of data outputs cannot be used as data.

• All data output bits will be ON when an error occurs. The Data Display LED (0 to 15) will flash the error code in red corre-

sponding to the occurring error.

RFID System

User's Manual

57

Section 5

3 ms

Access Address : 0010 hex

Verify­ing

Verify­ing

Mode setting switch settings

RF T ag position

Communications
with RF Tag

INHIBIT/TRIG

NORMAL/STRB

PARITY output

NOISE_OUT
output

ABC D E F G

R/W input

ERR output

Address shift input
(ADR0 to 2: 3 bits)

Data output
(OD0 to OD15: 16 bits)

Data Display LED
(0 to 15: 16 bits)

Data intput
(ID0 to ID15: 16 bits)

In communications range

Address shift data

In communications range

0000 hex

0001 hex

0080 hex

0000 hex

H

Reference data and read data match

Reference data and read data do not match.

0 hex

0

0000 hex

All OFF

Reference data (green)

Reference data (green)

3 ms

Reference Data

Control I/O Interface

Trigger Mode1: VERIFY

Section 5 Timing Charts

A, B. Preparat ions Turn OFF the R/W input before star ting communications with t he RF Tag, set reference data on

the data input bits (ID0 to ID15), and set the address shift input bits (ADR0 to ADR2).

 Reference Data and Read Data Match

C. Start of communications Tur n ON t he IN HIB IT/T RI G in pu t to s ta rt communications with th e RF Tag after confirming the RF

D. En d of communications If communicatio ns with the RF Tag are completed normally, the ID Flag Sensor will turn ON the

E. Clearing results When you turn O FF the INHIBIT/TRIG input, the NORMAL/STRB output and the data output bit

 Reference Data and Read Data Mismatch

F. Star t of communications Turn ON the INHIBIT/TRIG input to start communications with the RF Tag after confirming the RF

G. End of communications If communications with the RF Tag are completed normally, the ID Flag Sensor will turn ON the

H. Clearing results When you tur n OFF the INHIB IT/TRIG input, the NORMAL/STRB output and the data output bit

Tag is in the communications area of the Antenna.

NORMAL/STRB output and the data outp ut bit (OD0: data matc h). The VERIF Y OK/NG indi cator
will be lit green, and the Data Display LED (0 to 15) corresponding to the reference data will be lit
green.

(OD0) will be turned OFF.

Tag is in the communications area of the Antenna.

NORMAL/STRB output and the data output bit (OD7: data mismatch). The VERIFY OK/NG indi­cator will be lit red, and the Data Display LED (0 to 15) corresponding to the reference data will be
lit green.

(OD7) will be turned OFF.

58

RFID System

User's Manual

• Wait at least 10 ms after switching the R/ W inpu t lin e be fore performing next proc es s.

• Switch the address shift input (ADR0 to ADR2) at least 10 ms before accessing the RF Tag(e.g., at least 10 ms before turning

ON the trigger input).

• Switch the reference data input (ID0 to ID15) at least 10 ms before accessing the RF Tag(e.g., at least 10 ms before turning
ON the trigger input).

• Read the data output(OD0 to OD15) after the NORMAL/STRB output turns ON.

Trigger Mode1: Write

RF T ag position

Communications
with RF Tag

INHIBIT/TRIG

In communications range

Writing

Write data

NORMAL/STRB

PARITY output

R/W input

ERR output

Address shift input
(ADR0 to 2: 3 bits)

Data output
(OD0 to OD15: 16 bits)

Data Display LED
(0 to 15: 16 bits)

Data intput
(ID0 to ID15: 16 bits)

NOISE_OUT
output

Error
code

0000 hex

AB C D E F G H

Normal completion

Completion with error

0000 hex

All OFF

0

0 hex

Write
failed

Write data display (green)

Error code display (red)

In communications range

Access Address : 0010 hex

Mode setting switch settings

3 ms

3 ms

10

Address shift data

Section 5

Control I/O Interface

A, B. Preparations Turn ON the R/W input before starting communications with the RF Tag, set the write data on the

data input bits (ID0 to ID15), and set the address shift input bits (ADR0 to ADR2).

 Normal Completion of Communications with RF Tag

C. Start of communications Turn ON the INHIBIT/TRIG input to start communications with the RF Tag after confirming the RF

D. End of communications If communications with the RF Tag are completed normally, the ID Flag Sensor will turn ON the

E. Clearing results When you turn OFF the INHIBIT/TRIG input, the NORMAL/STRB output will be turned OFF.

 Error Completion of Communications with RF Tag

F. Start of communications Turn ON the INHIBIT/TRIG input to start communications with the RF Tag after confirming the RF

G. End of communications If communications with the RF Tag are completed with an error (Write-verify error, Lock error , Write-

H. Clearing results When you turn OFF the INHIBIT/TRIG input, the ERR output will be turned OFF “1“, and the data

Tag is in the communications area of the Antenna.

NORMAL/STRB output, and the Data Display LED (0 to 15) corresponding to the write data will be
lit green.

Tag is in the communications area of the Antenna.

protect error etc.), the ID Flag Sensor will turn ON “0“ the ERR output, and the error code will be
stored in the data output bits (OD0 to OD15). The Data Display LED (0 to 15) corresponding to the
error code will be lit red.

output bits (OD0 to OD15) will be cleared to 0000 hex.

Section 5 Timing Charts

• Wait at least 10 ms after switching the R/ W inpu t lin e be fore performing next proc es s.

• Switch the address shift input (ADR0 to ADR2) at least 10 ms before accessing the RF Tag (e.g., at least 10 ms before turning

ON the trigger input).

• Switch the write data input ( ID0 to ID15) at least 10 ms before accessing th e RF Tag (e.g., at least 10 ms before turning ON
the trigger input).

RFID System

User's Manual

59

Section 5

In communi­cations range

In communications range

Read­ing

INHIBIT/TRIG

R/W input

Communications
with RF Tag

0 hex

Address shift data

Address shift input
(ADR0 to 2: 3 bits)

NORMAL/STRB

ERR output

PARTY output

NOISE_OUT
output

Data output
(OD0 to OD15: 16 bits)

Data Display LED
(0 to 15: 16 bits)

A

B

C

D

E

0000 hex

Normal completion

Read
data

OFF delay time

RF T ag position

Parity
Value

0000 hex

0000 hex

Read data display (green)

Reading
incomplete

Access Address : 0010 hex
Output Mode : 10 ms OFF delay

Mode setting switch settings

3ms

0 0

Control I/O Interface

Auto Mode1: Read

Section 5 Timing Charts

A. Preparations Before starting communications with the RF Tag, turn OFF the R/W input and set the address shift

B. Canceling communications

 Normal Completion of Communications with RF Tag

C. Start of communications The ID Flag Sensor will start communications with the RF Tag when the RF Tag enters the com-

D. End of communications If communications with the RF Tag are completed normally, the ID Flag Sensor will turn ON the

E. Clearing results After the RF Tag is out of the communications area of the Antenna, the NORMAL/STRB output

prohibition

input bits (ADR0 to ADR2).
Turn OFF the INHIBIT/TRIG before starting communications.

munications area of the Antenna.

NORMAL/STRB output and will store the read data in the data output bits (OD0 to OD15). The
Data Display LED (0 to 15) corresponding to the read data will be lit green.

and data output bits (OD0 to OD15) will be turned OFF after the time set for the OFF delay in the
output mode time setting has elapsed.
The NORMAL/STRB output, the data output bits (OD0 to OD15) and the Data Display LED can be
unconditionally cleared by turning ON the INHIBIT/TRIG input.

RFID System

60

User's Manual

• At least 10 ms is required for enabling INHIBIT/TRIG input as operation prohibit or clear the data.

• Wait at least 10 ms after switching the R/ W inpu t lin e be fore performing next proc es s.

• Switch the address shift input (ADR0 to ADR2) at least 10 ms before accessing the RF Tag (e.g., at least 10 ms before turning

ON the trigger input).

• Read the data output (OD0 to OD15) after the NORMAL/STRB output turns ON.]

• In Auto Mode, the ID Flag Sensor does n ot ou t put th e e rro r i n case wh en the ID Fl ag S ensor c an not co mpl ete th e communi -

cation process caused by passing the RF Tag quickly in the communications area of the Antenna before completing the com­munication or interfering by electrical noise. Be sure to check the communications carefully when installing the system.

• Error in Auto Mode will occur when the input to th e ID Fl a g Se nsor h as er ro rs suc h a s t he external input error or address set ­ting error at the time to start the communications with the RF Tag. In this case, the ID Flag Sensor will turns ON"0" the ERR
output and will store the error code in the data output bits (OD0 to OD15) in Normal Read Mode, or will store FFFF hex(ON all
bits) in Read Mode with Wire-saving mode. The Data Display LED(0 to 15) corresponding to the error code will be lit red.

Auto Mode1: VERIFY

In communi­cations range

RF T ag position

INHIBIT/TRIG

Communications
with RF Tag

0000
hex

0 hex

Verify­ing

Verify­ing

R/W input

Data intput
(ID0 to ID15: 16 bits)

NORMAL/STRB

PARITY output

ERR output

Address shift input
(ADR0 to 2: 3 bits)

NOISE_OUT
output

Data output
(OD0 to OD15: 16 bits)

Data Display LED
(0 to 15: 16 bits)

0001 hex

0080 hex

0000 hex

ABCDE F G

Address shift data

H

Reference data and read data match

Reference data and read data do not match.

I

OFF delay time

OFF delay time

Reference data2 (green)

0000 hex

Reference data1 (green)

0

0000 hex

All OFF

3 ms

3 ms

Access Address : 0010 hex
Output Mode : 10 ms OFF delay

Mode setting switch settings

Reference data1 Reference data2

In communi­cations range

Section 5

Control I/O Interface

A, B. Preparations Before starting communications with the RF Tag, turn OFF the R

C. Canceling communica-

 Reference Data and Read Data Match

D. Start of communications The ID Flag Sensor will start communications with the RF Tag when the RF Tag enters the communications

E. End of communications If communications with the RF Tag are co mpleted normally, the ID Flag Sensor will turn ON the NORMAL/STRB

F. Clearing results

 Reference Data and Read Data Mismatch

G. Start of communications The ID Flag Sensor will start communications with the RF Tag when the RF Tag enters the communications

H. End of communications If communications with the RF Tag are completed normally, the ID Flag Sensor will turn ON the NORMAL/ST RB

I. Clearing results

input bits (ID0 to ID15), and set the address shift input bits (ADR0 to ADR2).

tions prohibition

• At least 10 ms is required for enabling INHIBIT/TRIG input as operation prohibit or clear the data.

• Wait at least 10 ms after switching the R

• Switch the address shift input (ADR0 to ADR2) at least 10 ms before accessing the RF Tag.

• Switch the reference data input (ID0 to ID15) at least 10 ms before accessing the RF Tag.

• Read the data output (OD0 to OD15) after the NORMAL/STRB output turns ON.

• In Auto Mode, the ID Flag Sensor does not output the error in case when the ID Flag Sensor can not complete the communication

process caused by passing the RF Tag quickly in the communications area of the Antenna before completing the communication or
interfering by electrical noise. Be sure to check the communications carefully when installing the system.

Turn OFF the INHIBIT/TRIG before starting communications.

area of the Antenna.

output and the data output bit (OD0: data match). The VERIFY OK/NG indicator will be lit green, and the data
indicators (0 to 15) corresponding to the reference data will be lit green.

After the RF Tag is out of the communications area of the Antenna, the NORMAL/STRB output and data output bits
(OD0 to OD15) will be turned OFF after the time set for the OFF delay in the output mode time setting has elapsed.
The NORMAL/STRB output , the data output bits (OD0 to OD15) an d the Data Displ a y L ED can be uncondit ion­ally cleared by turning ON the INHIBIT/TRIG input.

area of the Antenna.

output and the data output bit (OD7: data mismatch). The VERIFY OK/NG indicator will be lit red, and the data
indicators (0 to 15) corresponding to the reference data will be lit green.

After the RF Tag is out of the communications area of the Antenna, the NORMAL/STRB output and data output bits
(OD0 to OD15) will be turned OFF after the time set for the OFF delay in the output mode time setting has elapsed.
The NORMAL/STRB output, the data output bi ts (OD0 to OD15) and the Data Display LED can be uncon dition­ally cleared by turning ON the INHIBIT/TRIG input.

/W input line before performing next process.

/W input, set the reference data on the data

RFID System

User's Manual

Section 5 Timing Charts

61

Section 5
Control I/O Interface

Auto Mode1: Write

Mode setting switch settings

RF T ag position

INHIBIT/TRIG

In communi­cations range

In communi­cations range

Communications
with RF Tag

Data intput
(OD0 to OD15: 16 bits)

Access Address : 0010 hex
Output Mode : 10 ms OFF delay

Section 5 Timing Charts

R/W input

Address shift input
(ADR0 to 2: 3 bits)

NORMAL/STRB

ERR output

PARITY output

NOISE_OUT
output

Data output
(OD0 to OD15: 16 bits)

Data Display LED
(0 to 15: 16 bits)

0000
hex

0 hex

0000 hex

All OFF

B

A

Writing

Write data

Address shift data

3 ms

OFF delay time

0

Write data display (green)

C

D

E

F

Writing

3 ms

Error code display (red)

G H

OFF delay time

10

Error
code

0000 hex

I

Normal completion Completion with error

A, B. Preparations Turn ON the R

C. Canceling communications

prohibition

bits (ID0 to ID15), and set the address shift input bits (ADR0 to ADR2).
Turn OFF the INHIBIT/TRIG before starting communications.

/W input before starting communications with the RF Tag, set the write data on the data input

 Normal Completion of Communications with RF Tag

D. Start of communications The ID Flag Sensor will start communications with the RF Tag when the RF Tag enters the communications

E. End of communications

F. Clearing results After the RF Tag is out of the communications area of the Antenna, the NORMAL/STRB output and data out-

area of the Antenna.
If communications with the RF Tag are completed normally , the ID Flag Sensor will turn ON the NORMAL/STRB

output. The Data Display LED (0 to 15) corresponding to the write data will be lit green.

put bits (OD0 to OD15) will be turned OFF after the time set f or the OFF dela y in the output mode time sett ing
has elapsed.
The NORMAL/STRB output, the data output bits (OD0 to OD15) and the Data Display LED can be uncondi­tionally cleared by turning ON the INHIBIT/TRIG input.

 Error Completion of Communications with RF Tag

G. Start of communications The ID Flag Sensor will start communications with the RF Tag when the RF Tag enters the communications

H. End of communications

I. Clearing results After the RF Tag is out of the communications area of the Antenna, the ERR output will turns OFF"1" and

area of the Antenna.
If communications with the RF Tag are completed with an error (Write Verify error, Lock error, Write-protect error

etc.), the ID Flag Sensor will turn ON “0“ the ERR output and will store the error data in the data output bits (OD0 to
OD15). The Data Display LED (0 to 15) corresponding to the error data will be lit red.

data output bits (OD0 to OD15) will be turned OFF after the time set for the OFF delay in the output mode
time setting has elapsed.
The NORMAL/STRB output, the data output bits (OD0 to OD15) and the Data Display LED can be uncondi­tionally cleared by turning ON the INHIBIT/TRIG input.

62

RFID System

User's Manual

• At least 10 ms is required for enabling INHIBIT/TRIG input as operation prohibit or clear the data.

• Wait at least 10 ms after switching the R/W input line before performing next process.

• Switch the address shift input (ADR0 to ADR2) at least 10 ms before accessing the RF Tag.

• Switch the write data input (ID0 to ID15) at least 10 ms before accessing the RF Tag.

• In Auto Mode, the ID Flag Sensor does not output the error in case when the ID Flag Sensor can not complete the communication

process caused by passing the RF Tag quickly in the communications area of the Antenna before completing the communication or
interfering by electrical noise. Be sure to check the communications carefully when installing the system.

Trigger Mode1 :Noise Measurement

Mode setting switch settings

INHIBIT/TRIG

Section 5

Control I/O Interface

Measuring
noise level

NOISE_IN/WRITE
PROTECT input

R/W input

NORMAL/STRB

NOISE_OUT

output

PARITY output

Data output
(OD0 to OD15: 16 bits)

Data Display LED
(0 to 15: 16 bits)

A. Preparations Turn OFF the R

Measuring
noise level

3 ms

0 0

0000 hex

B

A

Parity value

0000 hexNoise level data

Noise level display (green)

C

D

E

/W input and INHIBIT/TRIG input, and turn ON the NOISE_IN/WRITE

PROTECT input.
B. Start of measurement Turn ON the INHIBIT/TRIG input to start noise measurement.
C. End of measurement When the noise level measurement is completed, the ID Flag Sensor will turn ON the

NORMAL/STRB output, store the noise level data in the output data bits (OD0 to OD15),

and store the parity value in the PARITY output.
D. Clearing results When you turn OFF the INHIBIT/TRIG input, the NORMAL/STRB output will be turned OFF,

the parity value(0) will be set on the P ARITY output, and the data output bits (OD0 to OD15)

will be cleared to 0000 hex.
E. Return to communications Turn OFF the INHIBIT/TRIG input and NOISE_IN/WRITE PROTECT input to return to read

and write communication mode.

Section 5 Timing Charts

• At least 10 ms the INHIBIT/TRIG input duration is required for measuring the noise level.

• Read the noise level data output (OD0 to OD15) after the NORMAL/STRB output turns ON.

RFID System

User's Manual

63

Section 5
Control I/O Interface

Auto Mode1 (Noise Measurement)

Mode setting switch settings

INHIBIT/TRIG

Measuring
noise level

NOISE_IN/WRITE
PROTECT input

R/W input

NORMAL/STRB

NOISE_OUT

output

PARITY output

Data output

Section 5 Timing Charts

(OD0 to OD15: 16 bits)

Data Display LED
(0 to 15: 16 bits)

A. Preparations Turn OFF the R

Measuring noise level

3 ms Approx. 10 ms 3 ms Approx. 10 ms

0 0

0000 hex

B

A

C

Measuring noise level

Parity

value

Noise level data

0000 hex

Noise level display (green)

D

Parity

value

Noise level data

Noise level display

(green)

/W input , and turn ON the INHIBIT/TRIG input and the NOISE_IN/WRITE

E

PROTECT input.
B. Start of measurement Turn OFF the INHIBIT/TRIG input to start noise measurement.
C. End of measurement When the noise level measurement is completed, the ID Flag Sensor will turn ON the

NORMAL/STRB output, store the noise level data in the output data bits (OD0 to OD15),

and store the parity value in the PARITY output.
D. Clearing results About 10msec has elapsed after output NORMAL/STRB output, the NORMAL/STRB output

will be turned OFF, the parity value(0) will be set on the PARITY output, and the data output

bits (OD0 to OD15) will be cleared to 0000 hex. And then, start noise measurement

repeatedly.
E. Return to communications Turn OFF the INHIBIT/TRIG input and NOISE_IN/WRITE PROTECT input to return to read

and write communication mode.

64

RFID System

User's Manual

• At least 10 ms the INHIBIT/TRIG input duration is required for measuring the noise level.

• Read the noise level data outpu (OD0 to OD15) after the NORMAL/STRB output turns ON.

Section 5

DIFU

100.00

100.01

00.00

100.00

02.00

01.00

01.01

01.02

01.14

01.15

Mode setting switch settings

Start INHIBIT/TRIG input

NORMAL output

Upwardly
differentiated
status of
NORMAL output

Model 1

Model 2

Model 3

Model 15

Model 16

Data output bit OD0

Data output bit OD1

Data output bit OD2

Data output bit OD14

Data output bit OD15

Detects when NORMAL output
turns ON.

100.07

End

110.0

Self-holding

DIFU

100.01

00.10

external SW

100.07

End

110.0

Self-holding bit

When the external SW turns ON,
INHIBIT/TRIG input turns ON,
and the ID Flag Sensor starts
communications.

Control I/O Interface

Sample Programming

Reading Flags

This sample program shows a programming example for using an external switch with a Sensor or other
device to read RF Tag data and turn ON the outputs for bits allocated to various devices.

Section 5 Sample Programming

RFID System

User's Manual

65

Section 5

Mod

Control I/O Interface

Detecting Disconnection

This sample program shows a programming example for detecting disconnection of data output lines
(16 lines) by using the parity output.

Section 5 Sample Programming

e setting switch settings

00.10

SW

100.01

Start

110.00

Self-holding

00.00

NORMAL output

100.00

Upwardly
differentiated
status of
NORMAL output

100.07

End

00.02

PARITY output

Carry flag

P_CY

DIFU

100.01

INHIBIT/TRIG input

Self-holding

DIFU

100.00

BCNT

#0000

1

D0000

++

D0000

ASR

D0000

When the external SW turns ON,
INHIBIT/TRIG input turns ON, and the ID Flag
Sensor starts communications.

02.00

110.00

Detects when NORMAL output
turns ON.

Counts the number of ON bits in the data output
bits(OD0 to OD15) and store in the DM0000.

Add the PARITY output result to the data output
bits ON number. (Even : normal, Odd : error)

Check the PARITY results. When the results is
odd(error), P_CY flags turns ON.

100.02

Disconnection Detected
If the number is odd, there is a disconnection.

100.07

100.02

Disconnection
Detected

100.03

Cable Disconnection Indication

End

100.03

Cable Disconnection Indication
Indicates the disconnection.

66

RFID System

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Section 5

Mode setting switch settings

01.00

Data output bit OD0

01.01

Data output bit OD1

01.02

Data output bit OD2

01.03

Data output bit OD3

01.14

Data output bit OD14

01.15

Data output bit OD15

100.00

Upwardly differentiated
status of Data output

100.07

End

TIMH

000

#0001

110.00

Self-holding

110.00

Self-holding

CMP

000

#FFFF

T0000

TIMER 000

P_EQ

P_EQ

100.06

Error completion

100.05

Normal completion

100.07

End

MOV

000

D0000

DIFU

100.00

Detects when either of the data output
bits(OD0 to OD15) turns ON.

Set the time 10msec at the timer000
( #0001 x 10msec =10msec).

Wait 10msec after detecting either of
data output bits(OD0 to OD15) turns ON.

Compare the data output bits
(OD0 to OD15) and FFFFHex(all ones).

Store the data output bits to DM0000.

If the data output bis is all ones,
turns ON error completion contact.

If the data output bis is not all ones,
turns ON normal completion contact.

Control I/O Interface

Auto Mode with Wire-saving Mode

This sample program shows a programming example for reading the RF Tag in Auto
Mode with Wire-saving mode. The ID Flag Sensor read the RF Tag data in Auto Mode
with Wire-saving mode , store the read data in the DM0000, and outputs normal
completion contact(100.05). If the communications is completed with error, error
completion contact(100.06) turns ON.

Section 5 Sample Programming

RFID System

User's Manual

67

Section 5
Control I/O Interface

MEMO

Section 5 Sample Programming

68

RFID System

User's Manual

Section 6 Troubleshooting

Handling Errors 70
Errors and Countermeasures 71
Maintenance and Inspection 72

Section 6 Troubleshooting

RFID System

User's Manual

69

Section 6
Troubleshooting

Handling Errors

Check the error status by loo king at the 16bits Data Displa y LED and the Error output(ERR)/Dat a Output(O D0
to OD15), and then take suitable actions.

Hardware Errors

Data Output

Lit red No output Hardware error If the error continues after resetting the power, replace the ID Flag Sensor .

Operation Errors

Data Output

Flashing red No output Settings error Set the Access address setting switches or Mode setting switches within the correct

Error Corrective action

Error Corrective action

range.

Section 6 Handling Errors

Flashing red OD6 External Input error There are possibilities that external noise is applied or chattering or delay at the Input

lines.
Follow the instruction in the Chapter 4 Installation, Connections, and Wiring and

Errors and Countermeasures of this chapter.

RFID-related Errors

Data Output

Flashing red OD0 RF Tag communication error :

Flashing red OD1 Verify error :

Flashing red OD2 No RF Tag error :

Flashing red OD3 Address setting error :

Flashing red OD4 Write protect error :

Error Corrective action

RF Tag was detected in
TRIGGER MODE but
communications could not be
ended normally.

Data was not correctly written to
RF Tag .

An RF T ag could not be d etected
in TRIGGER MODE.

The access address setting
switches set to a memory area
outside the RF Tag memory range.

Write operation executed to the
write-protected area of RF Tag.

Change the control timing so that communications can be started while the RF T ag is
within the Antenna's communications range.
Measure the noise and tak e suit ab le n oise co unte rmeasures .
Check the effect of surrounding metal and make sure that the desired
communications distance can be obtained.

Retry the writing process.
If the error persists, replace the RF Tag.

Change the control timing so that communications can be started while the RF T ag is
within the Antenna's communications range.
Measure the noise and tak e suit ab le n oise co unte rmeasures .
Check the effect of surrounding metal and make sure that the desired
communications distance can be obtained.

Set the Access address setting switches within the RF Tag memory range.

Execute the write operation to outside the write-protected area.
Disabled Write protect funct ion , if y o u do no t use write pr otec t funct ion .

70

Flashing red OD8 RF Tag error 1 :

Flashing red OD9 RF Tag error 2 :

Flashing red OD10 RF Tag error 3 :

Flashing red OD5 Hardware Data error :

Note. Flashing is turing on and off every 0.3sec.

RFID System

User's Manual

RF Tag used is not supported by

Change the RF Tag to one supported by the ID Flag Sensor.

the ID Flag Sensor.

RF Tag used is not supported by
the ID Flag Sensor.

RF Tag used is not supported by
the ID Flag Sensor.

Change the RF Tag data in the specified address except for all 0s or 1s.
Data in the specified address is
set to all 0s or 1s in the DATA
READ 2 MODE.

Errors and Countermeasures

• Noise interference· · · · · · · · · · · · · Take adequate countermeasures against noise.

• External device failure

• ID Flag Sensor failure

• Others

· · · · · · Repairs are required.

1. Improvement in Grounding

2. Countermeasures Against Noise on Power Line

Noise filter

Twist the wires and do
not lay them out
parallel to power lines.

Other
device

Other
device

Ground at a
resistance less
than 100 Ω.

Power
supply

ID Flag Sensor

ID Flag Sensor

ID Flag Sensor

The four main causes of problems that may occur in the ID Flag Sensor are as follows:

 Noise Interference

If the system malfunctions due to noise, refer to the following table and take appropriate countermea­sures.

No. Occurrence of fault Possible cause Countermeasure

An instantaneous voltage drop due to
inrush current to the heavy load.

Occurs when a heavy-duty motor,

1

transformer, or capacitor is turned ON.

2 Occurs irregularly. Noise on power line

Malfunction such as input signal turn-

3

ing ON when it should be OFF.

Common mode noise as a result of the
above cause.

Inductive noise on input line

Increase the capacity of the power
supply and the size of the power cable.

• Provide the power through a 1-to-1
non-grounded insulating transformer.

• Do not use the same ground as other
large-capacity devices. Indepen­dently ground the Controller at a
resistance of 100 Ω or less. (See
figure1.)

Provide the power through a 1-to-1
non-grounded insulating transformer or
noise filter. (See figure 2.)

• Separate input signal from power
lines.

• If there is a lot of noise interference,
put the input line inside a grounded
metal conduit or use shielded cable.

Section 6

Troubleshooting

Section 6 Errors and Countermeasures

RFID System

User's Manual

71

Section 6
Troubleshooting

Maintenance and Inspection

The ID Flag Sensor must be inspected on a daily or regular basis so that the functions can be used in good
condition. The ID Flag Sensor consists of semiconductors that last almost indefinitely. The following
malfunctions may, however, result due to the operating environment and conditions.
(1) Element deterioration due to overvoltage or overcurrent.
(2) Element deterioration due to continuous stress caused by high ambient temperature.
(3) Connector contact faults or insulation deterioration due to humidity and dust.
(4) Connector contact f aults or element corrosion due to corrosive gas.

 Inspection Items

No. Item Detail Criteria

Supply voltage fluctua­tion

1

Ambient environment
(a) Temperature (a) Within the specified range (a) −10 to 55°C

Section 6 Maintenance and Inspection

(b) Humidity (b) Within the specified range (b) 25% to 85%
(c) Vibration and shock (c) Influence of vibration or impact of

2

(d) Dust (d) Check that the system is free of accumu-

(e) Corrosive gas (e) Check that no metal part of the system is

Panel condition
(a) Ventilation (a) Check that the system is ventilated prop-

3

(b) Damage to packing

for any enclosed
construction

I/O power supply

4

(a) Voltage fluctuation
(b) Ripple

5 Mounting condition

6RF Tag life

(1) Check that the supply voltage fluctuation

at the power supply terminal block is within
the permissible range.

(2) Check that there are no frequent instanta-

neous power failures or radical voltage
fluctuations.

machines

lated dust and foreign particles.

discolored or corroded.

erly with natural ventilation, forced ventila­tion, or cooling air.

(b) Check that the panel packing is properly

attached with no damage.

Check on the I/O terminal block that the volt­age fluctuation and ripple are within the per­missible ranges.

(1) Check that each device is securely

mounted.

(2) Check that each connector is fully

inserted.

(3) Check that no wire is broken or nearly bro-

ken.

(4) Check that the distance between the RF

Tag and Antenna is within the specified
range.

Manage the number of times the RF Tag has
been written

Within supply voltage speci­fied range

Within permissible voltage
fluctuation range

(c) Within the specified

range

(d) Neither is permitted.

(e) Neither is permitted.

(a) The interior temperature

must be within a range
between −10 and 55°C
with proper ventilation.

(b) The packing must have

no damage.

Within the specified range

No loose screws

Each connector must be
locked or securely tightened
with screws.

Must be no wire that is bro­ken or nearly broken.

Within the specified range

Do not allow the specified
maximum number of over­writes to be exceeded.

Required

equipment

Multimeter

Power supply
analyzer

Maximum and
minimum ther­mometer
Hygrometer

---

Multimeter
Oscilloscope

---

---

---

---

---

72

RFID System

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Section 7 Appendices

Product Specifications 74
Characteristics 104
Reference Data: Antenna and RF Tags Installation 133
RF Tag Memory Capacities and Memory Types 165
RF Tag Memory Map 166
Chemical Resistance of the Antennas and RF Tags 167
V600-Compatible Mode 173
Degree of Protection 188

Section 7 Appendices

RFID System

User's Manual

73

Section 7
Appendices

Product Specifications

ID Flag Sensor

 General Specifications

V680-HAM91/-HAM81

Item Model
Supply voltage 24 VDC +10%/-15%, Ripple (p-p): 10% max.
Power consumption 3.5 W max. (supply voltage: 24 VDC, current consumption: 0.15A Max., not included I/O Interface

current.)

Ambient operating
temperature

Ambient storage
temperature

Ambient operating
humidity

Insulation resistance
Dielectric strength
Vibration resistance

Shock resistance
Dimensions
Degree of protection IP40 (IEC60529)
Material PC + ABS

Section 7 Product Specifications

Weight Approx. 130 g
Mounting method DIN Track

-10 to 55°C (with no icing)

-25 to 65°C (with no icing)

25% to 85% (with no condensation)

20 MΩ min. (at 500 VDC) between terminals(except for FG) and casing
1,000 VAC, 50/60Hz for 1 min between terminals(except for FG) and casing
10 to 150 Hz, 0.2-mm double amplitude, acceleration: 15m/s

down, left/right, and forward/backward) for 8 minutes each

2

150 m/s
90 × 30 × 65 mm (excluding protruding parts)

, 3 times each in 6 directions (Total: 18 times)

V680-HAM91/V680-HAM81

2

, 10 sweeps in each 3 directions (up/

 Interface cable

V680-A60 2M/5M/10M

Specifications

Interface cable
(Connector : 26pins)

The interface cable connector is not waterproof.
The maximum cable length is 10 m.

cable length model

2m V680-A60 2m
5m V680-A60 5m

10m V680-A60 10m

74

RFID System

User's Manual

 I/O Specifications

DC24V

IN

Tr

8.2kΩ

0V

Main
Circuit

Main
Circuit

OUT

0V

DC24V

IN

Tr

8.2kΩ

0V

Main
Circuit

Main
Circuit

DC24V

0V

OUT

Section 7

Appendices

Item

Input

Output

 I/O Circuit Diagram

V680-HAM91

Input Circuit Output Circuit

V680-HAM81

Input Circuit Output Circuit

V680-HAM91 V680-HAM81

Transistor output or contact output
Short-circuit current: 3 mA (typical) (Input terminal and 0-V short-circuit)
OFF voltage: 15 to 30 VDC
ON voltage: 0 to 5 VDC
Input impedance: 8.2 kΩ
Applied voltage: 30 VDC max.

NPN open collector,
20 mA max. at 30 VDC,
residual voltage: 2 V max.

PNP open collector,
20 mA max. at 30 VDC,
residual voltage: 2 V max.

Section 7 Product Specifications

INPUT/OUTPUT controls

• When using a solid-state output with the maximum switching current rating over 1A , there is a possibility of causing
External Input Errors due to the delay of rise /fall time of output signal. Consider this when selecting the solid-state
output.

• When using a contact output, consider chattering and the minimum switching current.

• When connecting an inductive load or an electrical device that tends to generate noise to the output, connect a diode

in parallel with the load. Connect the cathode side of the diode to the positive side of the power supply.

RFID System

User's Manual

75

Section 7

8.7

74.8

71.8

65.75

61.75

4-switch

30

14.74

21-Status Indicator

7×2.1=14.7

4-switch

18.95

30.25

41.55

52.85

108.26
90

Connector

65

12

(5.5)

Connector

38.5

(Unit : mm)

(Unit : mm)

32

20±5

20±5

20±5

20±5

35±5

14.4

1

6.1

37.6

Connector : XG5M-2632-N

Vinyl-insulated round cord 9 mm dia,
23-conductor cable (7/0.2 mm dia. : AWG24)

L1

0

+50

Model L1 Length (mm)
V680-A60 2M 2000
V680-A60 5M 5000
V680-A60 10M 10000

The interface cable connector is not waterproof.
The maximum cable length is 10 m.

Appendices

 Dimensions

V680-HAM91/-HAM81

Section 7 Product Specifications

 Interface cable

V680-A60 2M/5M/10M

76

RFID System

User's Manual

Appendices

(16.8 dia.)

(Unit: mm)

(14.5 dia.)

12

9.6 dia.

Connector

Ferrite core

50

25

Two toothed washers

Two lock nuts

Coaxial cable, 2.9 dia.,
standard length: 2 m

15

35

33

24

7

M12 x 1

21 dia.

12.5 dia.

17

Mounting Hole Dimensions

Insulation cover

Antenna

Four models of Antennas can be used with ID Slave. Select the best Antenna for the application.

 V680-HS51

 General Specifications

Item Model V680-HS51
Ambient operating

temperature
Ambient storage

temperature
Ambient operating

humidity
Insulation resistance 20 MΩ min. (at 500 VDC) between cable terminals and case
Dielectric strength 1,000 VAC, 50/60Hz for 1 min between cable terminals and case
Degree of protection IP67 (IEC60529)

Vibration resistance 10 to 2,000 Hz, 1.5-mm double amplitude, acceleration: 150 m/s

Shock resistance 1,000 m/s
Dimensions M12 × 35 mm
Material ABS, brass, and epoxy resin filling
Weight Approx. 55 g
Cable length Standard length of 2 m

−10 to 60°C (with no icing)

−25 to 75°C (with no icing)

35% to 95% (with no condensation)

Oil resistance equivalent to IP67g according to the former JEM standard. (Read/Write Antenna
portion)
Note: The Connector is not waterproof.

2

, 10 sweeps in each of

3 directions (up/down, left/right, and forward/backward) for 15 minutes each

2

, 3 times each in 6 directions (Total: 18 times)

Section 7

Section 7 Product Specifications

 Dimensions

Case material Brass
Communications surface ABS resin
Filling resin Epoxy resin
Cable PVC (black)

RFID System

User's Manual

77

Section 7
Appendices

 V680-HS52-W/R

 General Specifications

Item Model V680-HS52-W

(Standard cable, waterproof connector)

Ambient operating
temperature

Ambient storage
temperature

Ambient operating
humidity

Insulation resistance 20 MΩ min. (at 500 VDC) between cable terminals and the case
Dielectric strength 1,000 VAC, 50/60 Hz for 1 min between cable terminals and case
Degree of protection IP67 (IEC 60529)

Vibration resistance 10 to 500 Hz, 1.5-mm double amplitude, acceleration: 100 m/s

Shock resistance 500 m/s
Dimensions M22 × 65 mm
Material ABS resin, brass, and epoxy resin filler
Weight Approx. 850 g (with 12.5-m cable)
Cable length Standard lengths of 2 and 12.5 m

−10 to 60°C (with no icing)

−25 to 75°C (with no icing)

35% to 95% (with no condensation)

Oil resistance equivalent to IP67g according to the
former JEM standard.
Note: The connector specifications are IP67 and
IP65 (IEC 60529).

down, left/right, and forward/backward) for 8 minutes each

2

, 3 times each in 6 directions (Total: 18 times)

(See Note.)

V680-HS52-R

(Flexible cable, non-waterproof connector)

IP67 (IEC 60529)
Oil resistance equivalent to IP67g according to the
former JEM standard.
Note: The connectors are not waterproof.

2

, 1 sweep in each 3 directions (up/

Note : The ID Flag Sensor is not waterproof. Do not use it in an environment where mist is present.

Section 7 Product Specifications

78

RFID System

User's Manual

 Dimensions

16.8 dia.

(Unit: mm)

14.5 dia.

Connector

Ferrite core

Insulation cover

37

50

30

16.5 dia.

Two toothed washers

Two lock nuts

M22 × 1

Operation indicator

Coaxial cable, 5.5 dia.,
standard length: 2 m

65

57

50

47.8

7

35 dia.

Antenna

22.5 dia.

Mounting Hole Dimensions

30

19.8 dia.

V680-HS52-W

Section 7

Appendices

V680-HS52-R

Mounting Hole Dimensions

30

22.5 dia.

Antenna

35 dia.

Case material Brass
Communications surface ABS resin
Filling resin Epoxy resin
Cable PVC (gray)

Section 7 Product Specifications

Two toothed washers

Two lock nuts

M22 × 1

Operation indicator

Ferrite core

(39.5)

7

16.5 dia.

30

50

47.6
50

57

65

Coaxial cable, 5.3 dia.,
standard length: 2 m

(Unit: mm)

Connector

16.8 dia.

14.5 dia.

Insulation cover

Case material Brass
Communications surface ABS resin
Filling resin Epoxy resin
Cable PVC (black)

RFID System

User's Manual

79

Section 7
Appendices

 V680-HS63-W/R

 General Specifications

Item Model V680-HS63-W

(Standard cable, waterproof connector)

Ambient operating
temperature

Ambient storage
temperature

Ambient operating
humidity

Insulation resistance 20 MΩ min. (at 500 VDC) between cable terminals and case
Dielectric strength 1,000 VAC, 50/60 Hz for 1 min between cable terminals and case
Degree of protection IP67 (IEC 60529)

Vibration resistance 10 to 500 Hz, 1.5-mm double amplitude, acceleration: 100 m/s

Shock resistance 500 m/s
Dimensions 40 × 53 × 23 mm
Material ABS resin case, epoxy resin filler
Weight Approx. 850 g (with 12.5-m cable)
Cable length Standard lengths of 2 and 12.5 m

−10 to 60°C (with no icing)

−25 to 75°C (with no icing)

35% to 95% (with no condensation)

Oil resistance equivalent to IP67g according to the
former JEM standard.
Note: The connector specifications are IP67 and

IP65 (IEC 60529).

down, left/right, and forward/backward) for 11 minutes each

2

, 3 times each in 6 directions (Total: 18 times)

(See Note.)

V680-HS63-R

(Flexible cable, non-waterproof connector)

IP67 (IEC 60529)
Oil resistance equivalent to IP67g according to the
former JEM standard.
Note: The connectors are not waterproof.

2

, 10 sweeps in each of 3 directions up/

Note : The ID Flag Sensor is not waterproof. Do not use it in an environment where mist is present.

Section 7 Product Specifications

80

RFID System

User's Manual

 Dimensions

(Unit: mm)

Connector

Ferrite core

Insulation cover

37

50

30

16.5 dia.

Coaxial cable, 5.5 dia.,
standard length: 2 m

Operation indicator

16.8 dia.

14.5 dia.

Two, M4 or 4.5-dia. holes

Antenna

53

27

6

5

Coil center

Note: Mounting Hole Dimensions

40

5

28±0.1

16.8 dia.

(Unit: mm)

14.5 dia.

Connector

Ferrite core

Insulation cover

37

50

30

16.5 dia.

Coaxial cable, 5.3 dia.,
standard length: 2 m

Operation indicator

Antenna

Note: Mounting Hole Dimensions

Coil center

Two, M4 or 4.5-dia. holes

40

28±0.1

53

27

6

5

5

V680-HS63-W

Section 7

Appendices

Case material ABS resin
Filling resin Epoxy resin
Cable PVC (gray)

Section 7 Product Specifications

V680-HS63-R

Case material ABS resin
Filling resin Epoxy resin
Cable PVC (black)

RFID System

User's Manual

81

Section 7
Appendices

 V680-HS65-W/R

 General Specifications

Item Model V680-HS65-W

(Standard cable, waterproof connector)

Ambient operating
temperature

Ambient storage
temperature

Ambient operating
humidity

Insulation resistance 20 MΩ min. (at 500 VDC) between cable terminals and case
Dielectric strength 1,000 VAC, 50/60 Hz for 1 min between connector terminals and case
Degree of protection IP67 (IEC 60529)

Vibration resistance 10 to 500 Hz, 1.5-mm double amplitude, acceleration: 100 m/s

Shock resistance 500 m/s
Dimensions 100 × 100 × 30 mm
Material ABS resin case, epoxy resin filler
Weight Approx. 1,100 g (with 12.5-m cable)
Cable length Standard lengths of 2 and 12.5 m

−25 to 70°C (with no icing)

−40 to 85°C (with no icing)

35% to 95% (with no condensation)

IP67 (IEC 60529)
Oil resistance equivalent to IP67g according to the
former JEM standard.
Note: The connector specifications are IP67 and

IP65 (IEC 60529).

down, left/right, and forward/backward) for 11 minutes each

2

, 3 times each in 6 directions (Total: 18 times)

(See Note.)

Oil resistance equivalent to IP67g according to the

former JEM standard.

Note: The connectors are not waterproof.

V680-HS65-R

(Flexible cable, non-waterproof connector)

2

, 10 sweeps in each of 3 directions up/

Note : The ID Flag Sensor is not waterproof. Do not use it in an environment where mist is present.

Section 7 Product Specifications

82

RFID System

User's Manual

 Dimensions

16.8 dia.

(Unit: mm)

14.5 dia.

Connector

Ferrite core

Insulation cover

37

50

30

16.5 dia.

Coaxial cable, 5.5 dia.,
standard length: 2 m

Operation
indicator

100

90±0.2

90±0.2

100

50

5

5

30

20

10

10

50

Bushing

Four, 4.5 dia.
(Mounting holes)

11

16.8 dia.

(Unit: mm)

14.5 dia.

Connector

Ferrite core

Insulation cover

37

50

16.5 dia.

Coaxial cable, 5.3 dia.,
standard length: 2 m

Bushing

Four, 4.5 dia.
(Mounting holes)

Operation
indicator

100

90±0.2

90±0.2

100

50

5

5

30

20

10

10

50

11

V680-HS65-W

Section 7

Appendices

V680-HS65-R

Case material ABS resin
Filling resin Epoxy resin
Cable PVC (gray)

Case material ABS resin
Filling resin Epoxy resin
Cable PVC (black)

Section 7 Product Specifications

RFID System

User's Manual

83

Section 7
Appendices

RF Tags

 V680-D1KP52MT

 General Specifications

Item Model V680-D1KP52MT
Memory capacity 1,000 bytes (user area)
Memory type EEPROM
Data Retention 10 years after writing (85°C or less), 0.5 years after writing (85 to 125°C)

Total data retention at high temperatures exceeding 125°C is 10 houres (See note.)
Write Endurance 100,000 times per block (25°C)
Ambient operating

temperature when
communicating

Ambient storage
temperature (with data
retention)

Ambient operating
humidity

Degree of protection IP68 (IEC 60529)

Vibration resistance 10 to 2,000 Hz, 1.5-mm double amplitude, acceleration: 150 m/s

Shock resistance 500 m/s
Dimensions 8 dia. × 5 mm
Materials Case: PPS resin, Filling resin: Epoxy resin
Weight Approx. 0.5 g

Section 7 Product Specifications

Metal countermeasures Yes
Note: After string data at high temperatures, rewrite the data even if changes are not required, high temperatures are those

exceeding 125°C up to 180°C.

−25 to 85°C (with no icing)

−40 to 125°C (with no icing)

35% to 95%

Oil resistance equivalent to IP67g according to the former JEM standard.

2

, 10 sweeps each in X, Y, and Z

directions for 15 minutes each

2

, 3 times each in X, Y, and Z directions (Total: 18 times)

84

RFID System

User's Manual

 Dimensions

R0.2

8

dia.

0

−0.1

5

0

−0.1

(Unit: mm)

When embedding the V680-D1KP52MT into a metal surface, use the V680-HS51, V680-HS52 Antenna.
Transmission will not be possible if the V680-HS63 Antenna is used.

The side with the markings is the communications surface. Mount the RF Tag with this side facing the Antenna.

Section 7

Appendices

Case material PPS resin
Filling resin Epoxy resin

The ID code is written in the memory of the RF Tag and may be affected by data retention characteristics at high
temperatures. Take suitable precautions when using the READ ID command for RF Tags operating at high
temperatures.

 RF Tag Heat Resistivity

• Storing RF Tags under high temperatures will adversely affect the performance of the internal parts
and the service life of the RF Tags.

• An LTPD of 10% was determined during the evaluation for RF Tags that reached the end of their life
after testing under the following test conditions.

Heat cycle −10°C/150°C, 30 minutes each for 1,000 cycles

−10°C/180°C, 30 minutes each for 200 cycles

High temperatures 150°C 1,000 hours

180°C, 200 hours

LTPD: Lot tolerance percent defective
The lower limit of the malfunction rate for lots to be considered unacceptable during reliability testing.

Section 7 Product Specifications

RFID System

User's Manual

85

Section 7
Appendices

 V680-D1KP52M-BT01

 General Specifications

Item Model V680-D1KP52M-BT01
Memory capacity 1,000 bytes (user area)
Memory type EEPROM
Data Retention 10 years after writing (85°C or less), 0.5 years after writing (85 to 125°C)

Total data retention at high temperatures exceeding 125°C is 10 houres (See note.)
Write Endurance 100,000 times per block (25°C)
Ambient operating

temperature when
communicating

Ambient storage
temperature (with data
retention)

Ambient operating
humidity

Degree of protection IP68 (IEC 60529)

Vibration resistance 10 to 2,000 Hz, 1.5-mm double amplitude, acceleration: 150 m/s

Shock resistance 500 m/s
Dimensions Hex Head: 17 HEX × 9.5 mm, Screw: M10 × 10 mm
Materials Bolt: SUS303, Case(RF Tag): PPS resin, Filling resin(RF Tag): Epoxy resin
Weight Approx. 25 g
Metal countermeasures Yes

−25 to 85°C (with no icing)

−40 to 125°C (with no icing)

35% to 95%

Oil resistance equivalent to IP67g according to the former JEM standard.

directions for 15 minutes each

2

, 3 times each in X, Y, and Z directions (Total: 18 times)

2

, 10 sweeps each in X, Y, and Z

Section 7 Product Specifications

 Dimensions

15-30

RF T ag

(19.6)

17

The side with the markings is the communications surface. Mount the RF Tag with this side facing the Antenna.

The ID code is written in the memory of the RF Tag and may be affected by data retention characteristics at high
temperatures. Take suitable precautions when using the READ ID command for RF Tags operating at high
temperatures.

Bolt

8.4 dia.
M10-P1.5

C1.5

0.1 9.5 10

21.6

Bolt material SUS303
Case materia (RF Tag) PPS resin
Filling resin (RF Tag) Epoxy resin

(Unit: mm)

86

RFID System

User's Manual

 V680-D1KP52M-BT11

 General Specifications

Item Model V680-D1KP52M-BT11
Memory capacity 1,000 bytes (user area)
Memory type EEPROM
Data Retention 10 years after writing (85°C or less), 0.5 years after writing (85 to 125°C)

Total data retention at high temperatures exceeding 125°C is 10 houres (See note.)
Write Endurance 100,000 times per block (25°C)
Ambient operating

temperature when
communicating

Ambient storage
temperature (with data
retention)

Ambient operating
humidity

Degree of protection IP68 (IEC 60529)

Vibration resistance 10 to 2,000 Hz, 1.5-mm double amplitude, acceleration: 150 m/s

Shock resistance 500 m/s
Dimensions Hex Head: 13 HEX × 7 mm, Screw: M8 × 10 mm
Materials Bolt: SUS303, Case(RF Tag): PPS resin, Filling resin(RF Tag): Epoxy resin
Weight Approx. 10 g
Metal countermeasures Yes

−25 to 85°C (with no icing)

−40 to 125°C (with no icing)

35% to 95%

Oil resistance equivalent to IP67g according to the former JEM standard.

directions for 15 minutes each

2

, 3 times each in X, Y, and Z directions (Total: 18 times)

Section 7

Appendices

2

, 10 sweeps each in X, Y, and Z

Section 7 Product Specifications

 Dimensions

The side with the markings is the communications surface. Mount the RF Tag with this side facing the Antenna.

The ID code is written in the memory of the RF Tag and may be affected by data retention characteristics at high
temperatures. Take suitable precautions when using the READ ID command for RF Tags operating at high
temperatures.

RF T ag

(15)

13

Bolt

15-30

6 dia.

M8-P1.25

C1.5

0.1 7 10

19.1

Bolt material SUS303
Case material (RF Tag) PPS resin
Filling resin (RF Tag) Epoxy resin

(Unit: mm)

RFID System

User's Manual

87

Section 7

C0.5

6-R0.8

10 dia.

4.5

Appendices

 V680-D1KP53M

 General Specifications

Item Model V680-D1KP53M
Memory capacity 1,000 bytes (user area)
Memory type EEPROM
Data Retention 10 years after writing (85°C or less), 0.5 years after writing (85 to 125°C)
Write Endurance 100,000 times per block (25°C)
Ambient operating

temperature when
communicating

Ambient storage
temperature (with data
retention)

Ambient operating
humidity

Degree of protection IP68 (IEC 60529)

Vibration resistance 10 to 2,000 Hz, 1.5-mm double amplitude, acceleration: 150 m/s

Shock resistance 500 m/s
Dimensions 10 dia. × 4.5 mm (DIN698373)
Materials Case: PPS resin, Filling resin: Epoxy resin
Weight Approx. 1.0 g
Metal countermeasures Yes

−25 to 85°C (with no icing)

−40 to 125°C (with no icing)

35% to 95%

Oil resistance equivalent to IP67g according to the former JEM standard.

directions for 15 minutes each

2

, 3 times each in X, Y, and Z directions (Total: 18 times)

2

, 10 sweeps each in X, Y, and Z

Section 7 Product Specifications

 Dimensions

Case material PPS resin
Filling resin Epoxy resin

When embedding the V680-D1KP53M into a metal surface, use the V680-HS51, V680-HS52 Antenna.
Transmission will not be possible if the V680-HS63 Antenna is used.

The side with the markings is the communications surface. Mount the RF Tag with this side facing the Antenna.

88

RFID System

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Section 7

z V680-D1KP66MT

z V680-D1KP66T

Appendices

 V680-D1KP66T/-D1KP66MT

 General Specifications

Item Model V680-D1KP66T V680-D1KP66MT
Memory capacity 1,000 bytes (user area)
Memory type EEPROM
Data Retention 10 years after writing (85°C or less), 2.5 years after writing (85 to 125°C)

Total data retention at high temperatures exceeding 125°C is 10 houres (See note.)
Write Endurance 100,000 times per block (25°C)
Ambient operating

temperature when
communicating

Ambient storage
temperature (with data
retention)

Ambient operating
humidity

Degree of protection IP68 (IEC 60529)

Vibration resistance 10 to 2,000 Hz, 1.5-mm double amplitude, acceleration: 150 m/s

Shock resistance 500 m/s
Dimensions 34 × 34 × 3.5 mm
Materials Case: PPS resin
Weight Approx. 6 g Approx. 7.5 g
Metal countermeasures None Yes
Note: After string data at high temperatures, rewrite the data even if changes are not required, high temperatures are those

exceeding 125°C up to 180°C.

−25 to 85°C (with no icing)

−40 to 125°C (with no icing)

35% to 95%

Oil resistance equivalent to IP67g according to the former JEM standard.

2

, 10 sweeps each in X, Y, and Z

directions for 15 minutes each

2

, 3 times each in X, Y, and Z directions (Total: 18 times)

Section 7 Product Specifications

The V680-D1KP66MT is designed to be mounted directly to metal. The V680-D1KP66T and V680­D1KP66MT markings are shown in the f ollowing diagrams.

The side with the markings is the communications surface. Mount the RF Tag with this side facing the Antenna.

The ID code is written in the memory of the RF Tag and may be affected by data retention characteristics at high
temperatures. Take suitable precautions when using the READ ID command for RF Tags operating at high
temperatures.

RFID System

User's Manual

89

Section 7

(Unit: mm)

25±0.2

Four, R8

Four, R4

34

32

32
34

25±0.2

35±0.1

Two, M3

25±0.2

25±0.2

Two, 3.5 dia.

Two, 6 dia.

Mouting Hole Dimensions

(Unit: mm)

25±0.2

Two, 4 dia.

Four, R5.5

34

37

37

34

25±0.2

Two, M3

25±0.2

25±0.2

15

15

10

16

3.5

4

Appendices

 Dimensions

V680-D1KP66T/-D1KP66MT

V600-A86 Attachment

Case material PPS resin

Section 7 Product Specifications

Case material PPS resin

 RF Tag Heat Resistivity

• Storing RF Tags under high temperatures will adversely affect the performance of the internal parts
and the service life of the RF Tags.

• An LTPD of 10% was determined during the evaluation for RF Tags that reached the end of their life
after testing under the f o llowing test conditions.

Heat cycle −10°C/150°C, 30 minutes each fo r 1,000 cycles

−10°C/180°C, 30 minutes each for 200 cycles

High temperatures 150°C 1,000 hours

180°C, 200 hours

LTPD: Lot tolerance percent defective
The lower limit of the malfunction rate for lots to be considered unacceptable during reliability testing.

RFID System

90

User's Manual

 V680-D1KP66T-SP

Mounting Hole Dimensions

(Unit: mm)

80±0.2

Four, R6

34

36.5

34

Two, M5

80±0.2

95

1.3

6.5

2.5
max.

Two, 5.5 dia.
(Mounting hole)

 General Specifications

Item Specifications
Memory capacity 1,000 bytes
Memory type EEPROM
Data Retention 10 years after writing (85°C or less)
Write Endurance 100,000 times per block (25°C)
Ambient operating

temperature
Ambient operating

humidity
Ambient storage

temperature
Ambient storage humidity 35% to 95% (with no condensation)
Vibration resistance 10 to 2,000 Hz, 1.5-mm double amplitude, acceleration: 150 m/s

Shock resistance 500 m/s
Dimensions 95 × 36.5 × 6.5 mm (excluding protruding parts)
Degree of protection IP67
Material External coating: Fluororesin (PFA)

Weight Approx. 20 g
Mounting method Two M5 screws
Metal countermeasures None

When communicating: −25 to 70°C (with no icing)
When not communicating: −40 to 110°C (with no icing)

35% to 95% (with no condensation)

−40 to 110°C (with no icing)

directions for 15 minutes each

2

, 3 times each in 6 directions (Total: 18 times)

RF Tag body: PPS resin

Section 7

Appendices

2

, 10 sweeps each in X, Y, and Z

The side with the markings is the communications surface. Mount the RF Tag with this side facing the Antenna.

 Dimensions

Section 7 Product Specifications

Case material PFA resin

RFID System

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91

Section 7

䋨60 dia.䋩

80 dia.

14 dia.

10±0.2

7.51.25

䋨1.25䋩

䋨5°䋩

䋨5°䋩

18 dia.

Two, R1

(Unit: mm)

Case material PPS resin

Mounting Hole Dimensions

20 dia.

M12

M12

4050

11.5
15

110

3.2 dia.

12 dia.

17

2
1

Nuts (M12):

Provided Parts

Split pin (3.2 × 20 mm):

(Unit: mm)

Appendices

 V680-D1KP58HTN

• General Specifications

Item Model V680-D1KP58HTN

Memory capacity 1,000 bytes (user area)
Memory type EEPROM
Data Retention 10 years after writing (85°C or less), 0.5 years after writing (85°C to 125°C)

Total data retention at high temperatures exceeding 125°C is 10 hours

Write Endurance 100,000 times per block (25°C)
Ambient operating temperature

Ambient storage temperature -40 to 250°C (with no icing)

Ambient operating humidity 35% to 95%
Degree of protection IP67 (IEC 60529)

Vibration resistance

Shock resistance 500 m/s
Materials Coatiog: PPS resin
Weight Approx. 70 g

-25 to 85°C (with no icing)

(Data retention: -40 to 125°C)

Oil resistance equivalent to IP67g according to the former JEM standard.
10 to 2,000 Hz, 1.5-mm double amplitude, acceleration: 150 m/s

and Z directions for 15 minutes each

2

, 3 times each in X, Y, and Z directions (Total: 18 times)

2

,10 sweeps each in X, Y,

• Dimensions

V680-D1KP58HTN

Section 7 Product Specifications

V680-A80 (Attachment)

This Attachment is specifically designed to secure V680-D1KP58HTN RF Tags to the workpiece.
Applicable RF Tag model: V680-D1KP58HTN

92

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Section 7

1 hour
at 2

5°

C

1 hour
at 25°C

3 hours
at 25°C

2 hours
at 25°C

1 hours
at 25°C

3 hours
at 25°C

㪘㪺㪺㫌㫄㫌㫃㪸㫋㪼㪻㩷㫋㫀㫄㪼䋺㩷㪈㩷㪿㫆㫌㫉

㪘㪺㪺㫌㫄㫌㫃㪸㫋㪼㪻㩷㫋㫀㫄㪼䋺㩷㪋㩷㪿㫆㫌㫉㫊

㪮㫉㫀㫋㫀㫅㪾㩷㪻㪸㫋㪸㩷㫋㫆㩷㫋㪿㪼㩷㪩㪝㩷㫋㪸㪾㩷
㫄㪼㫄㫆㫉㫐㩷㫀㫅㩷㫌㫊㪼㪅

Reset the data
retention time.

Leaving time other than high temperature environment
is not included in the cumulative time used.

*1.

*1. High temperatures are those exceeding 125°C up to 250°C.

Reset the data
retention time.

Fig. Concept of resetting the data retention time

1 hour at high
temperatures

*1.

3 hours at high
temperatures

2 hours at high
temperatures

*1. *1.

3 hours at high
temperatures

2 hours at high
temperatures

*1.

㪘㪺㪺㫌㫄㫌㫃㪸㫋㪼㪻㩷㫋㫀㫄㪼䋺㩷㪍㩷㪿㫆㫌㫉㫊

㪘㪺㪺㫌㫄㫌㫃㪸㫋㪼㪻㩷㫋㫀㫄㪼䋺㩷㪐㩷㪿㫆㫌㫉㫊

㪘㪺㪺㫌㫄㫌㫃㪸㫋㪼㪻㩷㫋㫀㫄㪼䋺㩷㪋㩷㪿㫆㫌㫉㫊

Appendices

 Use at high temperatures (V680-D1KP58HTN)

Data retention

•Data stored in memory in the RF Tag may be lost due to the characteristics of EEPROM, if the accumu­lated usage time of the RF Tag at a high temperature over 125

°

C exceeds 10 hours after writing data to

the RF Tag. Reset the data retention time before the accumulated usage time exceeds 10 hours.

•An error in communications between the Antenna and the RF Tag may occur in an environment where
the ambient operating temperature is 85
the RF Tag in an environment where the ambient operating temperature is 85

°

C or higher. Do not communicate between the Antenn a and

°

C or higher.

•The UID (unique identification number for each RF Tag) may be lost due to the characteristics of
EEPROM when the RF tag is used at a high temperature over 125°C. Do not use the commands
using UID at a high temperature over 125°C.

•Accumulated time

•Resetting the data retention time

<When using 3 Bytes from the RF Tag addresses 0120Hex.>

1.Reading 3 Bytes of data from the RF tag addresses 0120Hex.

(4-byte Access Mode)

2.Read data written to 3 Bytes of data from the RF tag

addresses 0120Hex.
(4-byte Access Mode)

<RF tag memory>

011F
0120
0121
0122
0123

Data retention is reset only data written to the RF tag address.
If you reset the data retention, writes the same data to all of the tag memory in use.

Read data written to the RF
tag memory in use.

Hex
Hex
Hex
Hex
Hex

12
78

AB

Hex
Hex
Hex

Reading data from the RF
tag memory in use.

<RF tag memory>

Hex

011F
0120
0121
0122
0123

Hex
Hex
Hex
Hex

AB

12
78

Hex
Hex
Hex

Section 7 Product Specifications

RFID System

User's Manual

93

Section 7
Appendices

 Heat Resistance

Storing RF Ta gs under high temperatures or heat cycle will adversely affect the performance of the
internal parts and the service life of the RF Tags.
Correct operation has been confirmed through the OMRON in-house evaluation for RF Tags under the
following high-temperature conditions.

1) 2,000 cycles, where 1 cycle is each 30-minute at Room temperature and 200°C

2) 250°C, 500 hours

• The controller’s setting

Please set the latest ID controller to the CA1D mode and use it when the latest ID controller is used
together with the old model ID controller Model V680 -CA1D/-CA2D.

RF Tag
Controller
V680-CA1D/-CA2D only Not required Not required Not required
C680-CA1D/-CA2D and the latest

ID controller used together
The latest ID controller only Not required Not required Not required

Note: The latest ID controller:

V680-CA5D01-V2/-CA5D02-V2
V680-CH1D/CHUD/-CH1D-PSI
CS1W-V680C11/-V680C12
CJ1W-V680C11/-V680C12

V680-D1KP58HT only

Not required Set the latest ID controller to

V680-D1KP58HT and V680-

D1KP58HTN used together

the CA1D mode.

V680-D1KP58HTN only

Set the latest ID controller to
the CA1D mode.

Section 7 Product Specifications

94

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 V680-D2KF52M

 General Specifications

Item Model V680-D2KF52M
Memory capacity 2,000 bytes (user area)
Memory type FRAM
Data Retention 10 years after writing (55°C or less), 2.9 years after writing (85°C max.)
Write Endurance 10 billion times per block. Access frequency (See note): 10 billion times
Ambient operating

temperature
Ambient storage

temperature
Ambient operating

humidity
Degree of protection IP67 (IEC 60529)

Vibration resistance 10 to 2,000 Hz, 1.5-mm double amplitude, acceleration: 150 m/s

Shock resistance 500 m/s
Dimensions 8 dia. × 5 mm
Materials Case: PPS resin, Filling resin: Epoxy resin
Weight Approx. 0.5 g
Metal countermeasures Yes
Note: The total communications frequency of the Read or Write is called an access frequency.

−25 to 85°C (with no icing)

−40 to 85°C (with no icing)

35% to 95%

Oil resistance equivalent to IP67g according to the former JEM standard.

directions for 15 minutes each

2

, 3 times each in X, Y, and Z directions (Total: 18 times)

Section 7

Appendices

2

, 10 sweeps each in X, Y, and Z

 Dimensions

When embedding the V680-D1KP52MT into a metal surface, use the V680-HS51, V680-HS52 Antenna.
Transmission will not be possible if the V680-HS63 Antenna is used.

The side with the markings is the communications surface. Mount the RF Tag with this side facing the Antenna.

0

dia.

8

−0.1

(Unit: mm)

R0.2

0

5

−0.1

Case material PPS resin
Filling resin Epoxy resin

Section 7 Product Specifications

RFID System

User's Manual

95

Section 7
Appendices

 V680-D2KF52M-BT01

 General Specifications

Item Model V680-D2KF52M-BT01
Memory capacity 2,000 bytes (user area)
Memory type FRAM
Data Retention 10 years after writing (55°C or less), 2.9 years after writing (85°C max.)
Write Endurance 10 billion times per block. Access frequency (See note): 10 billion times
Ambient operating

temperature
Ambient storage

temperature
Ambient operating

humidity
Degree of protection IP67 (IEC 60529)

Vibration resistance 10 to 2,000 Hz, 1.5-mm double amplitude, acceleration: 150 m/s

Shock resistance 500 m/s
Dimensions Hex Head: 17 HEX × 9.5 mm, Screw: M10 × 10 mm
Materials Bolt: SUS303, Case(RF Tag): PPS resin, Filling resin(RF Tag): Epoxy resin
Weight Approx. 25 g
Metal countermeasures Yes
Note: The total communications frequency of the Read or Write is called an access frequency.

−25 to 85°C (with no icing)

−40 to 85°C (with no icing)

35% to 95%

Oil resistance equivalent to IP67g according to the former JEM standard.

directions for 15 minutes each

2

, 3 times each in X, Y, and Z directions (Total: 18 times)

2

, 10 sweeps each in X, Y, and Z

Section 7 Product Specifications

 Dimensions

The side with the markings is the communications surface. Mount the RF Tag with this side facing the Antenna.

RF T ag

(19.6)

17

Bolt

15-30

8.4 dia.
M10-P1.5

C1.5

0.1 9.5 10

21.6

Bolt material SUS303
Case material (RF Tag) PPS resin
Filling resin (RF Tag) Epoxy resin

(Unit: mm)

96

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 V680-D2KF52M-BT11

13

(15)

RF T ag

0.1 7 10

19.1

6 dia.

M8-P1.25

C1.5

15-30

(Unit: mm)

Bolt

 General Specifications

Item Model V680-D2KF52M-BT11
Memory capacity 2,000 bytes (user area)
Memory type FRAM
Data Retention 10 years after writing (55°C or less), 2.9 years after writing (85°C max.)
Write Endurance 10 billion times per block. Access frequency (See note): 10 billion times
Ambient operating

temperature
Ambient storage

temperature
Ambient operating

humidity
Degree of protection IP67 (IEC 60529)

Vibration resistance 10 to 2,000 Hz, 1.5-mm double amplitude, acceleration: 150 m/s

Shock resistance 500 m/s
Dimensions Hex Head: 13 HEX × 7 mm, Screw: M8 × 10 mm
Materials Bolt: SUS303, Case(RF Tag): PPS resin, Filling resin(RF Tag): Epoxy resin
Weight Approx. 10 g
Metal countermeasures Yes
Note: The total communications frequency of the Read or Write is called an access frequency.

−25 to 85°C (with no icing)

−40 to 85°C (with no icing)

35% to 95%

Oil resistance equivalent to IP67g according to the former JEM standard.

directions for 15 minutes each

2

, 3 times each in X, Y, and Z directions (Total: 18 times)

Section 7

Appendices

2

, 10 sweeps each in X, Y, and Z

 Dimensions

The side with the markings is the communications surface. Mount the RF Tag with this side facing the Antenna.

Section 7 Product Specifications

Bolt material SUS303
Case material (RF Tag) PPS resin
Filling resin (RF Tag) Epoxy resin

RFID System

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97

Section 7

z V680-D2KF67M

z V680-D2KF67

Appendices

 V680-D2KF67/-D2KF67M

 General Specifications

Item Model V680-D2KF67 V680-D2KF67M
Memory capacity 2,000 bytes (user area)
Memory type FRAM
Data Retention 10 years after writing (55°C or less), 2.9 years after writing (85°C max.)
Write Endurance 10 billion times per block. Access frequency (See note.): 10 billion times
Ambient operating

temperature
Ambient storage

temperature
Ambient operating

humidity
Degree of protection P67 (IEC 60529)

Vibration resistance 10 to 2,000 Hz, 1.5-mm double amplitude, acceleration: 150 m/s

Shock resistance 500 m/s
Dimensions 40 × 40 × 4.5 mm
Materials Case: PBT resin
Weight Approx. 6.5 g Approx. 7 g
Metal countermeasures None Yes
Note: The total communications frequency of the Read or Write is called an access frequency.

−25 to 85°C (with no icing)

−40 to 85°C (with no icing)

35% to 85%

Oil resistance equivalent to IP67g according to the former JEM standard.

2

directions for 15 minutes each

2

, 3 times each in X, Y, and Z directions (Total: 18 times)

,10 sweeps each in X, Y, and Z

Section 7 Product Specifications

The V680-D2KF67M is designed to be mounted directly to metal. The V680-D2KF67 and V680­D2KF67M markings are shown in the following diagrams.

The side with the markings is the communications surface. Mount the RF Tag with this side facing the Antenna.

RFID System

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User's Manual