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V680S-HMD64-PNT
User Manual
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Omron V680S-HMD63-PNT, V680S-HMD66-PNT, V680S-HMD64-PNT User Manual

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Page 1
RFID System
V680S Series
User’s Manual
(PROFINET)
Reader/Writer
V680S-HMD63-PNT V680S-HMD64-PNT V680S-HMD66-PNT
Man. No. Z354-E1-08
Page 2
Thank you for purchasing a V680S-series RFID System. This manual describes the functions,
performance, and application methods needed for optimum use of the V680S-series RFID System.
Please observe the following items when using the V680S-series RFID System.
Allow the V680S-series RFID System to be installed and operated only by qualified specialists
with a sufficient knowledge of electrical systems.
Read and understand this manual before attempting to use the RFID System and use the RFID
System correctly.
Keep this manual in a safe and accessible location so that it is available for reference when
required.

NOTICE

(1) No part of this publication may be reproduced, stored in a retrieval system, or transmitted, in any
form, or by any means, mechanical, electronic, photocopying, recording, or otherwise, without the
prior written permission of OMRON.
(2) Because OMRON is constantly striving to improve its high-quality products, the information
contained in this manual is subject to change without notice.
(3) Every precaution has been taken in the preparation of this manual. Nevertheless, OMRON
assumes no responsibility for errors or omissions. Neither is any liability assumed for damages
resulting from the use of the information contained in this publication. If you find any problems in
this manual, please contact your OMRON representative. If you do so, please provide the Cat. No.
that is given at the back of this manual.

Trademarks

Microsoft, Windows, Windows Vista are either registered trademarks or trademarks of Microsoft
Corporation in the USA and other countries.
ODVA and EtherNet/IP are trademarks of the ODVA.
Java and other trademarks that contain “Java” are the registered trademarks of Oracle
Corporation or its related companies.
Other system names and product names used in this manual are the trademarks or registered
trademarks of the respective companies.
Page 3
Introduction
Section 1
Section 2
Section 3
Section 4
Section 5
Section 6
Section 7
Section8
Section9
Section10
Section11
Terms and Conditions Agreement (Always Read This Information)
Product Overview
System Configuration
Component Names
Installation and Connections
Preparations for Communications
Introduction
Section 1 Section 2 Section 3 Section 4 Section 5 Section 6 Section 7 Section 8 Section 9
Functions
Host Communications Specifications
Browser Interface
Troubleshooting
Maintenance and Inspection
Appendices
Section 10 Section 11
RFID System
V680S-HMD63-PNT Reader/Writer V680S-HMD64-PNT Reader/Writer V680S-HMD66-PNT Reader/Writer
User's Manual
Page 4
Introduction
Introduction

Terms and Conditions Agreement

Warranty, Limitations of Liability
1. Warranties
Exclusive Warranty
Omron’s exclusive warranty is that the Products will be free from defects in materials and workmanship
for a period of twelve months from the date of sale by Omron (or such other period expressed in writing
by Omron). Omron disclaims all other warranties, express or implied.
Limitations
OMRON MAKES NO WARRANTY OR REPRESENTATION, EXPRESS OR IMPLIED, ABOUT NON-
INFRINGEMENT, MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE OF THE
PRODUCTS. BUYER ACKNOWLEDGES THAT IT ALONE HAS DETERMINED THAT THE
PRODUCTS WILL SUITABLY MEET THE REQUIREMENTS OF THEIR INTENDED USE.
Omron further disclaims all warranties and responsibility of any type for claims or expenses based on
infringement by the Products or otherwise of any intellectual property right.
Buyer Remedy
Omron’s sole obligation hereunder shall be, at Omron’s election, to (i) replace (in the form originally
shipped with Buyer responsible for labor charges for removal or replacement thereof) the non-
complying Product, (ii) repair the non-complying Product, or (iii) repay or credit Buyer an amount equal
to the purchase price of the non-complying Product; provided that in no event shall Omron be
responsible for warranty, repair, indemnity or any other claims or expenses 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. Return of
any Products by Buyer must be approved in writing by Omron before shipment. Omron Companies
shall not be liable for the suitability or unsuitability or the results from the use of Products in
combination with any electrical or electronic components, circuits, system assemblies or any other
materials or substances or environments. Any advice, recommendations or information given orally or
in writing, are not to be construed as an amendment or addition to the above warranty.
See http://www.omron.com/global/ or contact your Omron representative for published information.
2. Limitation on Liability; Etc
OMRON COMPANIES SHALL NOT BE LIABLE FOR SPECIAL, INDIRECT, INCIDENTAL, OR
CONSEQUENTIAL
DAMAGES, LOSS OF PROFITS OR PRODUCTION OR COMMERCIAL LOSS IN ANY WAY
CONNECTED WITH THE PRODUCTS, WHETHER SUCH CLAIM IS BASED IN CONTRACT,
WARRANTY, NEGLIGENCE OR STRICT LIABILITY.
Further, in no event shall liability of Omron Companies exceed the individual price of the Product on
which liability is asserted.
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Application Considerations
1. Suitability of Use
Omron Companies shall not be responsible for conformity with any standards, codes or regulations
which apply to the combination of the Product in the Buyer’s application or use of the Product. At
Buyer’s request, Omron will provide applicable third party certification documents identifying ratings
and limitations of use which apply to the Product. This information by itself is not sufficient for a
complete determination of the suitability of the Product in combination with the end product, machine,
system, or other application or use. Buyer shall be solely responsible for determining appropriateness
of the particular Product with respect to Buyer’s application, product or system. Buyer shall take
application responsibility in all cases.
NEVER USE THE PRODUCT FOR AN APPLICATION INVOLVING SERIOUS 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(S) IS PROPERLY RATED AND
INSTALLED FOR THE INTENDED USE WITHIN THE OVERALL EQUIPMENT OR SYSTEM.
2. Programmable Products
Omron Companies shall not be responsible for the user’s programming of a programmable Product, or
any consequence thereof.
Introduction
Introduction
Disclaimers
1. Performance Data
Data presented in Omron Company websites, catalogs and other materials is provided as a guide for
the user in determining suitability and does not constitute a warranty. It may represent the result of
Omron’s test conditions, and the user must correlate it to actual application requirements. Actual
performance is subject to the Omron’s Warranty and Limitations of Liability.
2. 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 part 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 part numbers may be assigned to fix or establish
key specifications for your application. Please consult with your Omron’s representative at any time to
confirm actual specifications of purchased Product.
3. Errors and Omissions
Information presented by Omron Companies has been checked and is believed to be accurate;
however, no responsibility is assumed for clerical, typographical or proofreading errors or omissions.
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Page 6
Introduction
Introduction

Precautions for Safe Use

Observe the following precautions to ensure safe use of the Product.
1. Installation and Storage Environment
Do not install the Product near any equipment that generates a large amount of heat (such as
heaters, transformers, and large-capacity resistors).
If multiple Reader/Writers are installed near each other, communications performance may decrease due to mutual interference. Refer to in
Section 11 Appendices
Writers.
and check to make sure there is no mutual interference between Reader/
2. Installation and Removal
Never use an AC power supply. Doing so may result in rupture.
Wire the Product correctly. Incorrect wiring may result in rupture or burning.
Connect the Ethernet Cable to a host device (e.g., Switching Hub or PLC) that supports STP and ground the host device to 100 Ω or less.
The communications range is adversely affected if there is any metal material around the RF Tag.
Transmission will not be possible if the front and back panels are mistakenly reversed and the Unit is
mounted to a metallic surface. V680-D1KP66MT V680-D8KF67M V680S-D2KF67M/-D8KF67M V680S-D2KF68M/-D8KF68M
The transmission distance will be reduced when the Unit is not mounted to a metallic surface. V680-D1KP66MT V680-D8KF67M V680S-D2KF67M/-D8KF67M V680S-D2KF68M/-D8KF68M
The maximum communications range can be obtained when the Antenna faces the RF tag directly. When the RF tag is installed at a tilt, the communications range is reduced. Consider the effect of the RF tag at tilt when installing the RF Tag.
Provide the mounting distances between plural RF tags to prevent them from malfunctions due to mutual interference.
if the central axis of an antenna and RF tag shifts, a communications range will fall.
Do not touch the product immediately after usage at high temperatures, Doing so may occasionally
result in burning.
Mutual Interference of Reader/Writers
in
RF Tag Installation Precautions
3. Application Methods
Do not bend the Cable to a bending radius of 40 mm or less. Doing so may break the wires.
If an error is detected in the Product, immediately stop operation and turn OFF the power supply.
Consult with an OMRON representative.
4. Cleaning
Do not clean the Product with paint thinner, benzene, acetone, or kerosene.
5. Disposal
Dispose of the Product as industrial waste.
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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 combustible gases, explosive gases, corrosive gases, dust, dirt, metal powder,
or salt
Locations where the specified ambient temperature range or ambient humidity range is exceeded
Locations subject to extreme temperature changes that may result in condensation
Locations subject to direct vibration or shock outside the specified ranges
2. Installation
This Product uses a frequency band of 13.56 MHz to communicate with RF Tags. Some transceivers,
motors, inverters, switch-mode power supplies, and other devices generate electrical noise that will
affect these communications. If any of these devices are located in the vicinity of the Product, they
may affect communications with RF Tags, and may possibly damage the RF Tags. Prior to using the
Product in the vicinity of any of these devices, perform a test to determine whether the Product can
be used under the resulting influence.
Connect the control signal to the positive and negative sides of the power supply.
The control signal is used to change the operation mode of the Reader/Writer.
Refer to Connector in Section 3 Component Names for the connection methods.
p.61
Introduction
Do not exceed the rated voltage range. Doing so may result in Product destruction or burning.
Tighten the mounting screws to a torque of 1.2 N·m.
Tighten the Cable connector to a torque of 0.39 to 0.49 N·m.
Mount the two-way Branch Cable with an M4 screw.
3. Application Methods
Do not drop the Product.
Do not pull on the Cables with excessive force.
Do not attempt to disassemble, repair, or modify the Product.
If you use the products in an environment that will subject them to oil, confirm that the oil that is used
will not adversely affect the resins used in the products.
4. Maintenance
Perform inspections both daily and periodically.
Refer to Maintenance and Inspection in Section 10 Maintenance and Inspection for the items to inspect.
p.228
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Page 8
Introduction
Introduction

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.
7
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MEMO
Introduction
Introduction
Meanings of Symbols
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Page 10
Introduction
Introduction

Table of Contents

Introduction
Terms and Conditions Agreement 2
Precautions for Safe Use 4
Precautions for Correct Use 5
Meanings of Symbols 6
Table of Contents 8
Section 1 Product Overview 11
Features 12
Application Flowchart 16
Product Specifications 23
Data Characteristics 42
Section 2 System Configuration 51
System Configuration 52
Section 3 Component Names 57
Component Names 58
Section 4 Installation and Connections 65
Installation 66
Connections and Wiring 78
Section 5 Preparations for Communications 81
Starting the Reader/Writer 82
Setting IP Addresses 83
Setting Cyclic Data Exchanges 86
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Introduction
Section 6 Functions 87
Functions 88
Using Communication Diagnostic and the RF Analyzer 114
Using Multi-Reader/Writer Operation 120
Section 7 Host Communications Specifications 141
PROFINET IO Communications Protocol 142
V680S Command Details 150
Time Charts 176
Section 8 Browser Interface 181
Introduction
Browser Operation Window 182
Operation Interface 184
Section 9 Troubleshooting 203
Error Descriptions 204
Errors and Indicator Status 206
Errors and Countermeasures 209
Troubleshooting Flowcharts 214
About The Ethernet Communication Abnormality 219
Cannot Display the Web Browser Operation Window 220
Safe Mode 226
Section 10 Maintenance and Inspection 227
Maintenance and Inspection 228
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Page 12
Introduction
Introduction
Section 11 Appendices 229
Data Characteristics 230
Reader/Writer Installation Precautions 242
RF Tag Installation Precautions 247
RF Tag Memory Capacities and Memory Types 293
RF Tag Memory Map 294
Chemical Resistance of the Reader/Writers and RF Tags 298
Degree of Protection 303
Differences in Address and Size Specifications between V680 and V680S Reader/Writers 305
Revision History 306
Firmware Version Update History 307
10
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Section 1 Product Overview

Features 12
Application Flowchart 16
Product Specifications 23
Data Characteristics 42
Section 1 Product Overview
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Section 1
Reader/WriterPLC
Antennas
PLC
Amplifiers
ID Controller
Previous OMRON models
V680S Integrated Reader/Writer
24-VDC power supply
24-VDC power supply
40
60
80
20
100
Y
-100 -80 -60 -40 -20 0 20 40 60 80 X
Y
X
Read
Write
Product Overview

Features

Section 1 Features
The integrated V680S-series Reader/Writers (V680S-HMD6-PNT) perform communications with RF Tags
according to commands from a host device.
Integrated Structure
The controller, amplifier, and antenna are integrated into the Reader/Writer for a simple structure.
Simple Installation
The Reader/Writer is automatically set to the best parameters according to the RF Tags to achieve
stable communications with more consistent communications and less omissions of RF Tags in the
communications field.
12
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Section 1
Product Overview
Stable Operation
When the Reader/Writer communicates with an RF Tag, it diagnoses the communications leeway and
reports the result. You can check the communications leeway to appropriately install the Reader/Writer
and RF Tags to achieve stable operation of your OMRON RFID System.
For details, refer to Using Communication Diagnostic and the RF Analyzer in Section 6 Functions.
p.114
If you use the RFID System under installation conditions that provide a high communications leeway,
you can reduce communications troubles during system operation and achieve stable line operation.
Area of stable communications Area of unstable communications
Area of stable communications Area of unstable communications
Area of stable communications Area of unstable communications
Section 1 Features
Operation Indicator lights green
Operation Indicator lights yellow Operation Indicator lights red
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Section 1 Features
Switching Hub
PLC
Reader/Writer
Reader/Writer
Reader/Writer
24-VDC power supply
24-VDC power supply
24-VDC power supply
PROFINET
You can use a Switching Hub to easily increase the number of Reader/Writers.
* A separate power supply is required to operate
the Reader/Writers.
Section 1 Product Overview
Simple Connection with PROFINET
The Reader/Writer communicates with the host device through PROFINET. PROFINET is an industrial
network that uses the PROFIBUS DP protocol on industrial Ethernet (100 Mbps, full duplex). The
specifications are open standards managed by PI (PROFIBUS & PROFINET International).
PROFINET is used by a wide range of industrial devices.
Because PROFINET uses standard Ethernet technology, various general-purpose Ethernet devices
can be used in the network. You can easily increase the number of Reader/Writers by using a
Switching Hub.
14
To connect more than one Reader/Writer, all devices must be set to a unique IP address.
There are two PROFINET standards: PROFINET IO and PROFINET CBA. The Reader/Writers are
applicable to a PROFINET IO network because communications for I/O data is performed between a
controller and devices. The Reader/Writers use RT (realtime) communications for cyclic data
communications with PROFINET IO. Conformance class A is supported along with the basic functions
of RT communications.
The functions below are defined in Class A.
Function Overview
Cyclic data exchange Real-time data communication between the I/O controller and I/O devices at determined
Acyclic parameter data / device identification
Device/network diagnosis Communication for the purpose of sending alarms and statuses from I/O devices to the I/O
RFID System
User's Manual (PROFINET)
cycles. Set by I/O data CR.
Used for parameter settings, I/O device configuration, and reading of device information. Set by record data CR.
controller. Set by Alarm CR.
Page 17
Section 1
Switching Hub
PLC
Computer
24-VDC power supply
Reader/Writer
Product Overview
Easy Operation
A Web server is provided so that you can easily perform setup and status monitoring by connecting to
a computer, without the need for any special software.
Section 1 Features
You can connect a computer to the Switching Hub to easily set up the Reader/Writers and check the
status of the Reader/Writers.
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Section 1
Spring washer
Flat washer
M4 screw
Reader/Writer power supply connector (M12 A-Coding, male)
Power supply connector on cable
Power supply connector on cable
Ethernet connector on Reader/Writer (M12 D-Coding, female)
Ethernet connector on cable
Ethernet connector on cable
M4 screw
p.242
Checking the Installation Environment
Refer to Reader/Writer Installation Precautions in Section 11 Appendices to confirm the conditions under which the RFID System will not be influenced by surrounding metal on the Reader/Writer or mutual interference between Reader/Writers.
p.66
Installation
Install the Reader/Writer with four M4 screws.
V680S-HMD63-PNT: Use two screws.
V680S-HMD64-PNT/-HMD66-PNT: Use four screws.
p.78
Connections and Wiring
Connect the Power Cable to a 24-VDC power supply.
Connect the Ethernet Cable to the host device (PLC) or Switching Hub.
Preparations
Insert the Power Cable into the power supply connector on the Reader/Writer (M12 A-Coding, female) and turn the cable connector on the Reader/Writer end clockwise to lock it in place.
Mount the Branch Cable with one M4 screw. Recommended tightening torque: 0.39 to 0.49 N·m
Insert the Ethernet Cable into the Ethernet connector on the Reader/Writer (M12 D-Coding, male) and turn the cable connector on the Reader/Writer end clockwise to lock it in place.
Product Overview

Application Flowchart

Section 1 Application Flowchart
A simple application flowchart is described below. For correct application methods and details, refer to the
reference page or section given for each step.
16
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Section 1
p.83
Setting Reader/Writer Communications Conditions
Change the network settings of the host device to match those of the Reader/Writer.
Host Device Setting Example
IP address: 192.168.1.100
Subnet mask: 255.255.255.0
he default network settings for the Reader/Writer are listed in the following table.
IP address 192.168.1.200 (fixed settings)
Subnet mask 255.255.255.0
Default gateway 192.168.1.254
Port number for Web browser 7090
Start a web browser (e.g., Internet Explorer) on the host computer, enter http://192.168.1.200/ in the address box, and press the
Enter Key. Communications will be possible if the following view appears.
p.182
Communications Test with Host Device
Communications Preparations
Trial Operation
Product Overview
Section 1 Application Flowchart
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Section 1
p.114
Using Communication Diagnostic to Check Communications Leeway
1. Connect the Ethernet cable, turn ON the power supply to the Reader/Writer, and then start a
Web browser on a computer.
2. Specify the IP address of the Reader/Writer in the address field of the web browser.
Enter http://192.168.1.200/ if you are using the default IP address.
3. The Communications Setting View will be displayed.
http:// (IP address)
Trial Operation
Product Overview
Section 1 Application Flowchart
18
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p.118
Using the RF Analyzer to Check the Results of Communication Diagnostic
1. Display the RF Analyzer View.
2. Click the Show Button in the Details column and follow the guidance to check the probable
causes and corrections.
Trial Operation
Section 1
Product Overview
Section 1 Application Flowchart
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Section 1
3. In this example, the position of the Tag is corrected according to the guidance.
4. You can check the graph display to check quantitative information on the degree of instability.
When you are finished, perform the step to communicate with the RF Tag again and check to see if
stable communications have been achieved.
Trial Operation
Product Overview
Section 1 Application Flowchart
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p.147
Communications with RF Tags for Commands from the Host Device Using Cyclic Data Exchanges
The Reader/Writer can perform various types of communications with RF Tags.
Communications
command name
Description Page
READ DATA Reads data from an RF Tag in the communications field. p.151
WRITE DATA Writes data to an RF Tag in the communications field. p.152
READ ID Reads the ID code from an RF Tag in the communications field. p.150
COPY DATA Uses two Reader/Writers to copy data from the memory of an RF Tag in the
communications field of one Reader/Writer (A) to the memory of the RF Tag in the communications field of another Reader/Writer (B).
p.157
DATA FILL Writes the specified data to the specified number of words beginning from the
specified start address. The specifications are made in the command.
p.154
LOCK This command locks the specified memory in the RF Tag.
It will no longer be possible to write data to the locked memory. The lock cannot be released.
p.153
RF TAG OVERWRITE COUNT CONTROL
Used to manage the number of times data is written to an RF Tag. You can use this command for RF Tags with EEPROM memory.
p.155
RESTORE DATA This command reads the restore information from the Reader/Writer. p.156
RF Tag Communications
Section 1
Product Overview
Section 1 Application Flowchart
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Section 1 Application Flowchart
p.147 Error Codes
p.60 Operation Indicators
p.214 Troubleshooting Flowcharts
Troubleshooting
If you Encounter a Problem...
Section 1 Product Overview
22
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Product Specifications

Section 1
Product Overview
Reader/Writer
General Specifications
Item Model V680S-HMD63-PNT V680S-HMD64-PNT V680S-HMD66-PNT
Compliance standards
Frequency 13.56 MHz
Dimensions 50 × 50 × 30 mm (W × H × D,
Power supply voltage 24 VDC (-15% to +10%)
Consumption current 0.2A max.
Ambient operating temperature
Ambient operating humidity
Ambient storage temperature
Ambient storage 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
Vibration resistance No abnormality after application of 10 to 500 Hz, 1.5-mm double amplitude, acceleration: 100 m/s
Shock resistance No abnormality after application of 500 m/s
Degree of protection IP67 (IEC 60529:2001)
Materials Case: PBT resin, Filled resin: Urethane resin
Mass Approx. 240 g Approx. 390 g Approx. 760 g
Installation method Reader/Writer body: Two M4
Host communications interface
Host device communications protocol
Accessories Instruction Sheet
Note 1. Oil resistance has been tested using a specific oil as defined in the OMRON test method. Note 2. Use a screw of 12 mm or more in length.
ISO/IEC 18000-3 (15693)
75 × 75 × 40 mm (W × H × D,
excluding protruding parts and cables)
-10 to 55°C (with no icing)
25% to 85% (with no condensation)
-25 to 70°C (with no icing)
25% to 85% (with no condensation)
sweeps in each of 3 axis directions (up/down, left/right, and forward/backward) for 11 minutes each
Oil resistance equivalent to IP67F (JIS C 0920:2003, Appendix 1)
See Note 2
screws Cable branching section: One M4 screw
Ethernet 10BASE-T/100BASE-TX
PROFINET
Copy of EC Self Declaration IP address label
excluding protruding parts and cables)
2
, 3 times each in 6 directions (Total: 18 times)
Reader/Writer body: Four M4 screws Cable branching section: One M4 screw
120 × 120 × 40 mm (W × H × D, excluding protruding parts and cables)
See Note 1
See Note 2
2
, 10
Section 1 Product Specifications
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Section 1
42
50
42
50
3.5
Two, 4.5 dia. mounting holes
15
30
Seven operation indicators
Standards label
46.5
(20.5)
300
14.5
27
7
35
5320050.7
8 dia.
6 dia.6.5 dia.
18
20044.7
14.9 dia.
14.9 dia.
(700.2)
18 dia.
15
15
Cable bracket
8-dia. round vinyl-insulated cable
6-dia. round vinyl-insulated cable
Connector
Connector
6.5-dia. round vinyl-insulated cable
6
42±0.2
42±0.2
Two, M4 holes
Mounting Hole Dimensions
View from Arrow A
A
4.6 dia. mounting hole
(Unit: mm)
Product Overview
Dimensions
V680S-HMD63-PNT
Section 1 Product Specifications
24
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V680S-HMD64-PNT
5.9 15
49
(20.5)
300
14.5
27
7
35
5320050.7
8 dia.
6 dia.6.5 dia.
18
20044.7
14.9 dia.
14.9 dia.
(727.7)
Cable bracket
8-dia. round vinyl-insulated cable
6-dia. round vinyl-insulated cable
Connector
Connector
6.5-dia. round vinyl-insulated cable
A
40
Standards label
18 dia.
17.5
15
Mounting Hole Dimensions
View from Arrow A
65±0.2
65±0.2
Four, M4 holes
65
75
65
75
Four, 4.5 dia. mounting holes
Seven operation indicators
4.6 dia. mounting hole
6
(Unit: mm)
Section 1
Product Overview
Section 1 Product Specifications
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Page 28
Section 1
4.9
15
48
(20.5)
300
14.5
27
7
35
5320050.7
8 dia.
6 dia.6.5 dia.
18
20044.7
14.9 dia.
14.9 dia.
(771.7)
Cable bracket
8-dia. round vinyl-insulated cable
6-dia. round vinyl-insulated cable
Connector
Connector
6.5-dia. round vinyl-insulated cable
A
Standards label
18 dia.
17.5
15
View from Arrow A
110
120
110
120
Four, 4.5 dia. mounting holes
Seven operation indicators
4.6 dia. mounting hole
Mounting Hole Dimensions
110±0.2
110±0.2
Four, M4 holes
40
6
(Unit: mm)
Product Overview
V680S-HMD66-PNT
Section 1 Product Specifications
26
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Section 1
16 dia.±0.1
20 dia.±0.1
1.1
2.7±0.1
Case material PPS resin
(Unit: mm)
Product Overview
RF Tag
V680-D1KP54T
General Specifications
Item Model V680-D1KP54T
Compliance standards ISO/IEC 18000-3 (15693)
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 hours
Write endurance 100,000 writes for each block (25°C)
Ambient operating temperature
Ambient operating humidity
Ambient storage temperature
Ambient storage humidity 35% to 95%
Degree of protection IP67 (IEC 60529:2001)
Vibration resistance No abnormality after application of 10 to 2,000 Hz, 1.5-mm double amplitude,
Shock resistance No abnormality after application of 500 m/s
Dimensions 20 dia. × 2.7 mm
Materials PPS resin
Weight Approx. 2 g
Metal countermeasures None
Note 1. After storing RF Tags at high temperatures, rewrite the data even if changes are not required. High temperatures are those between 125 and 180°C.
2. Oil resistance has been tested using a specific oil as defined in the OMRON test method.
-25 to 85°C (with no icing)
35% to 95%
-40 to 125°C (with no icing)
Oil resistance equivalent to IP67G (JIS C 0920:2003, Appendix 1)
2
acceleration: 150 m/s
, 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)
See Note 1.
See Note 2.
Section 1 Product Specifications
Dimensions
The V680-D1KP54T RF Tag can be placed in the Attachment in either direction. The direction does not affect operation.
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.
You cannot use FIFO Repeat communications.
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Page 30
Section 1
22
3.5
5
8
1
40
24
18
31±0.2
22
Two, 3.5 dia. mo
unting
holes
Two, 6 dia. countersinks
Two, M3 holes
Mounting Hole Dimensions
31±0.2
Materials PPS resin
(Unit: mm)
Product Overview
V700-A80 Attachment
Section 1 Product Specifications
RF Tag Heat Resistance
Storing RF Tags under high temperatures or under heat cycles will adversely affect the performance
of the internal parts and the service life of the RF Tags.
An LTPD of 10% was used for evaluation of RF Tags that reached the end of their service life after
testing under the following test conditions.
Heat cycle: 1,000 cycles of 30 minutes each between -10 and 150°C. No failures
occurred in 22 samples.
200 cycles of 30 minutes each between -10 and 180°C. No failures
occurred in 22 samples.
High-temperature storage: 1,000 hours at 150°C. No failures occurred in 22 samples.
200 hours at 180°C. No failures occurred in 22 samples.
LTPD: Lot Tolerance Percent Defective
The lower limit of the malfunction rate for lots to be considered unacceptable during reliability testing.
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Page 31
Section 1
V680-D1KP66MT V680-D1KP66T
Product Overview
V680-D1KP66T/-D1KP66MT
General Specifications
Item Model V680-D1KP66T V680-D1KP66MT
Compliance standards ISO/IEC 18000-3 (15693)
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 hours
Write endurance 100,000 writes for each block (25°C)
Ambient operating temperature
Ambient operating humidity
Ambient storage temperature
Ambient storage humidity 35% to 95%
Degree of protection IP68 (IEC 60529:2001)
Vibration resistance No abnormality after application of 10 to 2,000 Hz, 1.5-mm double amplitude, acceleration: 150 m/
Shock resistance No abnormality after application of 500 m/s
Dimensions 34 × 34 × 3.5 mm (W × H × D)
Materials PPS resin
Weight Approx. 6 g Approx. 7.5 g
Metal countermeasures None Provided
Note 1. After storing RF Tags at high temperatures, rewrite the data even if changes are not required. High temperatures are those between 125 and 180°C.
2. Oil resistance has been tested using a specific oil as defined in the OMRON test method.
-25 to 85°C (with no icing)
35% to 95%
-40 to 125°C (with no icing)
Oil resistance equivalent to IP67G (JIS C 0920:2003, Appendix 1)
2
s
, 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)
See Note 1.
See Note 2.
Section 1 Product Specifications
The V680-D1KP66MT must be mounted on a metallic surface. The markings on the V680-D1KP66T
and V680-D1KP66MT are shown below.
The marked surface is the communications surface. When mounting the RF Tag, face the marked surface toward the
Reader/Writer.
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.
You cannot use FIFO Repeat communications.
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Page 32
Section 1
25+0.2
25+0.2
25+0.2
25+0.2
3.5+0.1
Two, M3 holes
Four, 3-mm corners
Four, 4-mm corners
32
32
34
34
Two, 6 dia.
Two, 3.5 dia.
Mounting Hole Dimensions
Case material PPS resin
(Unit: mm)
25+0.2
25+0.2
25+0.2
25+0.2
Two, M3 holes
Two, 4 dia. holes
Four, 5.5-mm corners
16
4
10
3.5
3737343415
15
Case material PPS resin
(Unit: mm)
Product Overview
Dimensions
V680-D1KP66T/-D1KP66MT
Section 1 Product Specifications
V600-A86 Attachment
RFID System
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User's Manual (PROFINET)
RF Tag Heat Resistance
Storing RF Tags under high temperatures or under heat cycles will adversely affect the performance
of the internal parts and the service life of the RF Tags.
An LTPD of 10% was used for evaluation of RF Tags that reached the end of their service life after
testing under the following test conditions.
Heat cycle: 1,000 cycles of 30 minutes each between -10 and 150°C. No failures
occurred in 22 samples.
200 cycles of 30 minutes each between -10 and 180°C. No failures
occurred in 22 samples.
High-temperature storage: 1,000 hours at 150°C. No failures occurred in 22 samples.
200 hours at 180°C. No failures occurred in 22 samples.
LTPD: Lot Tolerance Percent Defective
The lower limit of the malfunction rate for lots to be considered unacceptable during reliability testing.
Page 33
V680-D1KP66T-SP
Two, 5.5 dia. mounting holes
Four, 6-mm corners
1.3
6.5 2.5 max.
Mounting Hole Dimensions
Two, M5 holes
80±0.2
80±0.2
34
95
3436.5
(Unit: mm)
Case material PFA resin
General Specifications
Item Specification
Compliance standards ISO/IEC 18000-3 (15693)
Memory capacity 1,000 bytes
Memory type EEPROM
Data retention 10 years (85°C or less)
Write endurance 100,000 writes for each 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 No abnormality after application of 500 m/s
Dimensions 95 × 36.5 × 6.5 mm (W × H × D, excluding protruding parts)
Degree of protection IP67
Materials Exterior: PFA fluororesin
Weight Approx. 20 g
Installation method Two M5 screws
Metal countermeasures None
-25 to 70°C (with no icing)
35% to 95% (with no condensation)
-40 to 110°C (with no icing)
for 15 minutes each
RF Tag filling: PPS resin
2
, 3 times each in X, Y, and Z directions (Total: 18 times)
Section 1
Product Overview
2
, 10 sweeps each in 3 directions
Section 1 Product Specifications
Dimensions
The marked surface is the communications surface. When mounting the RF Tag, face the marked surface toward the
Reader/Writer.
You cannot use FIFO Repeat communications.
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Section 1
(60 dia.)
80 dia.
14 dia.
10±0.2
7.51.25 (1.25)
(5°)
(5°)
18 dia.
Two, 1-mm corners
(Unit: mm)
Case material PPS resin
Product Overview
V680-D1KP58HTN
General Specifications
Section 1 Product Specifications
Item Model V680-D1KP58HTN
Compliance standards ISO/IEC 18000-3 (15693)
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 hours
Write endurance 100,000 writes for each block (25°C)
Ambient operating temperature
Ambient operating humidity
Ambient storage temperature
Ambient storage humidity
Degree of protection IP67 (IEC 60529:2001)
Vibration resistance No abnormality after application of 10 to 2,000 Hz, 1.5-mm double amplitude, acceleration: 150 m/s2,
Shock resistance No abnormality after application of 500 m/s
Dimensions 80 dia. × 10 mm
Materials PPS resin
Weight Approx. 70 g
Note1. After storing RF Tags at high temperatures, rewrite the data even if changes are not required. High temperatures are those between 125 and 250°C.
2. Oil resistance has been tested using a specific oil as defined in the OMRON test method.
-25 to 85°C (with no icing)
No restrictions.
-40 to 250°C (with no icing) (Data retention: -40 to 125°C)
No restrictions.
Oil resistance equivalent to IP67G (JIS C 0920:2003, Appendix 1)
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)
See Note.1
See Note.2
Dimensions
V680-D1KP58HTN
The RF Tag can be placed in the Attachment in either direction. The direction does not affect operation.
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Section 1
Mounting Hole Dimensions
20 dia.
M12
M12
4050
11.5
15
110
3.2 dia.
12 dia.
17
1 split pin (nominal dimensions: 3.2-mm dia. × 20-mm length)
Accessories: 2 nuts (M12)
(Unit: mm)
Product Overview
V680-A80 Attachment
This Attachment is used to hold V680-D1KP58HTN ID Tags.
Applicable model: V680-D1KP58HTN
High-temperature Applications (V680-D1KP58HTN)Data Retention
Due to the characteristics of EEPROM, any data that is written to an RF Tag may be lost if it is used
in a high-temperature environment that exceeds 125°C for a total of more than 10 hours. Always
reset the data holding time before a total of 10 hours is reached.
Communications between the Reader/Writer and RF Tags may fail in high-temperature environments
of 85°C or higher. Do not perform communications between the Reader/Writer and RF Tag in a high-
temperature environment of 85°C or higher.
Due to the characteristics of EEPROM, the UID (RF Tag ID code) may be lost if an RF Tag is used in
a high-temperature environment that exceeds 125°C. Do not use commands that use the UID in high-
temperature environments that exceed 125°C.
Do not use the ID READ command.
You cannot use FIFO Repeat communications.
Section 1 Product Specifications
Total Usage Time
This section gives the total time that an RF Tag can be placed at high temperatures.
Total usage time: 9 hours
Total usage time: 6 hours
Total usage time: 4 hours
Total usage time: 1 hour
1 hour at high temperature*1
1 hour at
°C
25
Data retention time reset.
2 hours at
°C
25
The time that the RF Tag is left at temperatures lower than the high temperatures are not included in the total usage time.
Fig. Conceptual Diagram of Resetting the Data Retention Time
*1 A “high temperature” is one between 125°C and 250°C.
3 hours at high temperature*1
3 hours at
°C
25
2 hours at high temperature*1
2 hours at
°C
25
3 hours at high temperature*1
Data retention time reset.
Data written to the memory of the RF Tag.
Total usage time: 2 hours
2 hours at high temperature*1
1 hour at
°C
25
3 hours at
°C
25
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Section 1 Product Overview
Data Retention Time Reset Procedure
Always use the following procedure to reset the data holding time before a total of 10 hours is reached.
Section 1 Product Specifications
When Using RF Tag Memory Addresses 0010 to 0015 hex
1. Read the data from RF Tag addresses 0010 to 0015 hex.
2. Write the read data to RF Tag memory addresses 0010 to 0015
hex.
The data retention time is reset only for the RF Tag memory addresses that are written.
To reset the data retention time, write the same data to all of the memory addresses that are used in the RF Tag.
RF Tag Memory
hex
hex
0010 0011 0012 0013 0014 0015
00
hex
hex
11
hex
hex
22
hex
hex
33
hex
hex
44
hex
hex
55
Write the data to the RF Tag memory addresses that were read.
Read the memory addresses that are used in the RF Tag.
RF Tag Memory
0010 0011 0012 0013 0014 0015
hex
hex
hex
hex
hex
hex
00 11 22 33 44 55
hex
hex
hex
hex
hex
hex
Heat Resistance
Storing RF Tags under high temperatures or under heat cycles will adversely affect the performance of
the internal parts and the service life of the RF Tags.
The RF Tag were placed in the following high temperatures and then evaluated in-house. It was
confirmed that no problems occurred.
1) 2,000 cycles of 30 minutes each between room temperature and 200°C
2) 500 hours at 250°C
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Section 1
METAL
V680-D8KF67M V680-D8KF67
Product Overview
V680-D8KF67/-D8KF67M
General Specifications
Item Model V680-D8KF67 V680-D8KF67M
Compliance standards ISO/IEC 18000-3 (15693)
Memory capacity 8,192 bytes (user area)
Memory type FRAM
Data retention 10 years after writing (70°C or less), 6 years after writing (70 to 85°C)
Write endurance 10 billion times per block(85°C or less). Access frequency
Ambient operating temperature
Ambient operating humidity
Ambient storage temperature
Ambient storage humidity 35% to 85%
Degree of protection IP67 (IEC 60529:2001)
Vibration resistance No abnormality after application of 10 to 2,000 Hz, 1.5-mm double amplitude, acceleration: 150 m/
Shock resistance No abnormality after application of 500 m/s
Dimensions 40 × 40 × 4.5 mm (W × H × D)
Materials Case: PBT resin, Filling: Epoxy resin
Weight Approx. 8 g Approx. 8.5 g
Metal countermeasures None Provided
Note 1. The number of accesses is the total number of reads and writes.
2. Oil resistance has been tested using a specific oil as defined in the OMRON test method.
-20 to 85°C (with no icing)
35% to 85%
-40 to 85°C (with no icing)
Oil resistance equivalent to IP67G (JIS C 0920:2003, Appendix 1)
2
s
, 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)
See Note 2.
: 10 billion times
See Note 2.
Section 1 Product Specifications
The V680-D8KF67M must be mounted on a metallic surface. The markings on the V680-D8KF67 and
V680-D8KF67M are shown below.
The marked surface is the communications surface. When mounting the RF Tag, face the marked surface toward the
Reader/Writer.
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Section 1
88
0.2
5.2
13.2
16
40+0.1
-0.5
16
40+0.1
-0.5
16
16
Two, 3.5-dia. mounting holes
13.2
5.2
8
8
2
4.5
32±0.2
32±0.2
Two, M3 holes
Mounting Hole Dimensions
(Unit: mm)
Mounting reference surface
Case material PBT resin
Filling Epoxy resin
Product Overview
Dimensions
V680-D8KF67/-D8KF67M
Section 1 Product Specifications
RFID System
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Section 1
Case material PBT resin
Filling Epoxy resin
Product Overview
V680-D8KF68A
General Specifications
Item Model V680-D8KF68A
Compliance standards ISO/IEC 18000-3 (15693)
Memory capacity 8,192 bytes (user area)
Memory type FRAM
Data retention 10 years after writing (70°C or less), 6 years after writing (70 to 85°C)
Write Endurance 10 billion times per block (85°C or less)
Access frequency
Ambient operating temperature
Ambient operating humidity
Ambient storage temperature
Ambient storage humidity 35% to 85%
Degree of protection IP67 (IEC 60529:2001)
Vibration resistance No abnormality after application of 10 to 500 Hz, 1.5-mm double amplitude, acceleration: 100 m/s2,
Shock resistance No abnormality after application of 500 m/s
Dimensions 86 × 54 × 10 mm (W × H × D)
Materials Case: PBT resin, Filling: Epoxy resin
Weight Approx. 50 g
Metal countermeasures None
Note 1. The total communications frequency of the Read or Write is called an access frequency.
2. Oil resistance has been tested using a specific oil as defined in the OMRON test method.
-20 to 85°C (with no icing)
35% to 85%
-40 to 85°C (with no icing)
Oil resistance equivalent to IP67G (JIS C 0920:2003, Appendix 1)
10 sweeps each in X, Y, and Z directions for 11 minutes each
See Note 1.
: 10 billion times
See Note 2.
2
, 3 times each in X, Y, and Z directions (Total: 18 times)
Section 1 Product Specifications
Dimensions
V680-D8KF68A
10
5
The marked surface is the communications surface. When mounting the RF Tag, face the marked surface toward the
Reader/Writer.
76±0.2
86
(Unit: mm)
Two, 4.5-dia. mounting holes
10
10
54
44±0.2
Mounting Hole Dimensions
44
Two, M4 holes
76
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Section 1
V680S-D2KF67M/-D8KF67M V680S-D2KF67/-D8KF67
Product Overview
V680S-D2KF67/-D2KF67M/-D8KF67/-D8KF67M
General Specifications
Section 1 Product Specifications
Item Model V680S-D2KF67 V680S-D2KF67M V680S-D8KF67 V680S-D8KF67M
Compliance standards ISO/IEC 18000-3 (15693)
Memory capacity 2,000 bytes (user area) 8,192 bytes (user area)
Memory type FRAM
Data retention 10 years after writing (85°C or less)
Write Endurance One trillion times per block (85°C or less), Access frequency
Ambient operating temperature
Ambient operating humidity
Ambient storage temperature
Ambient storage humidity 35% to 85%
Degree of protection IP68 (IEC 60529:2001), Oil resistance equivalent to IP67G (JIS C 0920:2003, Appendix 1)
Vibration resistance No abnormality after application of 10 to 2,000 Hz, 1.5-mm double amplitude, acceleration: 150 m/
Shock resistance No abnormality after application of 500 m/s
Dimensions 40 × 40 × 5 mm (W × H × D)
Materials PPS resin
Weight Approx. 11.5 g Approx. 12 g Approx. 11.5 g Approx. 12 g
Metal countermeasures None Provided None Provided
Note 1. The number of accesses is the total number of reads and writes.
2. Oil resistance has been tested using a specific oil as defined in the OMRON test method.
-20 to 85°C (with no icing)
35% to 85%
-40 to 125°C (with no icing)
IPX9K (DIN 40 050)
2
, 10 sweeps each in X, Y, and Z directions for 15 minutes each
s
2
, 3 times each in X, Y, and Z directions (Total: 18 times)
See Note 1.
: One trillion times
See Note 2.
The V680S-D2KF67M/-D8KF67M must be mounted on a metallic surface. The markings on the V680-
D2KF67/-D8KF67 and V680-D2KF67M/-D8KF67M are shown below.
The marked surface is the communications surface. When mounting the RF Tag, face the marked surface toward the
Reader/Writer.
You can use the V680S-D8KF67 with Reader/Writers with firmware version 2.00 or higher.
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Dimensions
(Unit: mm)
Two, 3.5-dia. mounting holes
32±0.2
40
32±0.2
40
32±0.2
32±0.2
Two, M3 holes
2
5
Mounting Hole Dimensions
Mounting height 5
+1
0
Case material PPS resin
V680S-D2KF67/-D2KF67M/-D8KF67/-D8KF67M
Section 1
Product Overview
Section 1 Product Specifications
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Section 1
V680S-D2KF68M/-D8KF68M V680S-D2KF68/-D8KF68
Product Overview
V680S-D2KF68/-D2KF68M/-D8KF68/-D8KF68M
General Specifications
Section 1 Product Specifications
Item Model V680S-D2KF68 V680S-D2KF68M V680S-D8KF68 V680S-D8KF68M
Compliance standards ISO/IEC 18000-3 (15693)
Memory capacity 2,000 bytes (user area) 8,192 bytes (user area)
Memory type FRAM
Data retention 10 years after writing (85°C or less)
Write Endurance One trillion times per block (85°C or less), Access frequency
Ambient operating temperature
Ambient operating humidity 35% to 85%
Ambient storage temperature -40 to 125°C (with no icing)
Ambient storage humidity 35% to 85%
Degree of protection IP68 (IEC 60529), Oil resistance equivalent to IP67G (JIS C 0920:2003, Appendix 1)
Vibration resistance No abnormality after application of 10 to 500 Hz, 1.5-mm double amplitude, acceleration: 100
Shock resistance No abnormality after application of 500 m/s
Dimensions 86 × 54 × 10 mm (W × H × D)
Materials PPS resin
Weight Approx. 44 g Approx. 46 g Approx. 44 g Approx. 46 g
Metal countermeasures None Provided None Provided
Note 1. The number of accesses is the total number of reads and writes.
2. Oil resistance has been tested using a specific oil as defined in the OMRON test method.
-20 to 85°C (with no icing)
IPX9K (DIN 40 050)
2
m/s
, 10 sweeps each in X, Y, and Z directions for 11 minutes each
2
, 3 times each in X, Y, and Z directions (Total: 18
times)
See Note 1.
: One trillion times
See Note 2.
The V680S-D2KF68M/-D8KF68M must be mounted on a metallic surface. The markings on the V680-
D2KF68/-D8KF68 and V680-D2KF68M/-D8KF68M are shown below.
The marked surface is the communications surface. When mounting the RF Tag, face the marked surface toward the
Reader/Writer.
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You can use the V680S-D8KF68 with Reader/Writers with firmware version 2.00 or higher.
Page 43
Dimensions
Two, M4 holes
76±0.2
86
44±0.2
54
Two, 4.5-dia. mounting holes
(Unit: mm)
5
Mounting Hole Dimensions
76±0.2
44±0.2
Mounting height 10
10
+1
0
Case material PPS resin
V680S-D2KF68/-D2KF68M/-D8KF68/-D8KF68M
Section 1
Product Overview
Section 1 Product Specifications
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Section 1 Product Overview

Data Characteristics

Section 1 Data Characteristics
Communications Range Specifications
V680S-HMD63-PNT
Reader/Writer RF Tag Communications range specification
V680S-HMD63-PNT (mounted to metallic material)
V680-D1KP54T (mounted to non-metallic material)
V680-D1KP66T (mounted to non-metallic material)
V680-D1KP66MT (mounted to metallic material)
V680-D1KP66T-SP (mounted to non-metallic material)
V680S-D2KF67 (mounted to non-metallic material)
V680S-D2KF67M (mounted to metallic material)
V680S-D8KF67 (mounted to non-metallic material)
V680S-D8KF67M (mounted to metallic material)
Read 0.0 to 24.0 mm (axis offset: ±10 mm)
Write 0.0 to 20.0 mm (axis offset: ±10 mm)
Read 0.0 to 30.0 mm (axis offset: ±10 mm)
Write 0.0 to 25.0 mm (axis offset: ±10 mm)
Read 0.0 to 25.0 mm (axis offset: ±10 mm)
Write 0.0 to 20.0 mm (axis offset: ±10 mm)
Read 0.0 to 25.0 mm (axis offset: ±10 mm)
Write 0.0 to 20.0 mm (axis offset: ±10 mm)
Read 7.0 to 40.0 mm (axis offset: ±10 mm)
Write 7.0 to 40.0 mm (axis offset: ±10 mm)
Read 6.0 to 30.0 mm (axis offset: ±10 mm)
Write 6.0 to 30.0 mm (axis offset: ±10 mm)
Read 7.0 to 40.0 mm (axis offset: ±10 mm)
Write 7.0 to 40.0 mm (axis offset: ±10 mm)
Read 6.0 to 30.0 mm (axis offset: ±10 mm)
Write 6.0 to 30.0 mm (axis offset: ±10 mm)
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Installation Conditions
Communications range
V680-D1KP54T
V680S-HMD63-PNT
Non-metallic material (Examples: Resin, plastic, wood, etc.)
Metallic material
Non-metallic material (Examples: Resin, plastic, wood, etc.)
Communications range
V680-D1KP66T
V680S-HMD63-PNT
Metallic material
Communications range
V680-D1KP66MT
V680S-HMD63-PNT
Metallic material
Communications range
V680-D1KP66T-SP
V680S-HMD63-PNT
Metallic material
V680-D1KP54T V680-D1KP66T
V680-D1KP66MT
V680-D1KP66T-SP
Metallic material
Communications range
V680S-D2KF67/-D8KF67
V680S-HMD63-PNT
Metallic material
Communications range
V680S-D2KF67M/-D8KF67M
V680S-HMD63-PNT
Metallic material
V680S-D2KF67/-D8KF67 V680S-D2KF67M/-D8KF67M
Metallic material
Non-metallic material (Examples: Resin, plastic, wood, etc.)
Non-metallic material (Examples: Resin, plastic, wood, etc.)
Non-metallic material (Examples: Resin, plastic, wood, etc.)
Non-metallic material (Examples: Resin, plastic, wood, etc.)
Non-metallic material (Examples: Resin, plastic, wood, etc.)
Non-metallic material (Examples: Resin, plastic, wood, etc.)
Non-metallic material (Examples: Resin, plastic, wood, etc.)
Non-metallic material (Examples: Resin, plastic, wood, etc.)
Non-metallic material (Examples: Resin, plastic, wood, etc.)
Section 1
Product Overview
Section 1 Data Characteristics
RFID System
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(PROFINET)
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Page 46
Section 1 Product Overview
V680S-HMD64-PNT
Section 1 Data Characteristics
V680S-HMD64-PNT (mounted to metallic material)
Reader/Writer RF Tag Communications Range Specification
V680-D8KF67 (mounted to non-metallic material)
V680-D8KF67M (mounted to metallic material)
V680-D8KF68A (mounted to non-metallic material)
V680-D1KP54T (mounted to non-metallic material)
V680-D1KP66T (mounted to non-metallic material)
V680-D1KP66MT (mounted to metallic material)
V680-D1KP66T-SP (mounted to non-metallic material)
V680-D1KP58HTN Read 7.5 to 75.0 mm (axis offset: ±10 mm)
V680S-D2KF67 (mounted to non-metallic material)
V680S-D2KF67M (mounted to metallic material)
V680S-D8KF67 (mounted to non-metallic material)
V680S-D8KF67M (mounted to metallic material)
V680S-D2KF68 (mounted to non-metallic material)
V680S-D2KF68M (mounted to metallic material)
V680S-D8KF68 (mounted to non-metallic material)
V680S-D8KF68M (mounted to metallic material)
Read 5.0 to 50.0 mm (axis offset: ±10 mm)
Write 5.0 to 50.0 mm (axis offset: ±10 mm)
Read 3.0 to 40.0 mm (axis offset: ±10 mm)
Write 3.0 to 40.0 mm (axis offset: ±10 mm)
Read 7.5 to 75.0 mm (axis offset: ±10 mm)
Write 7.5 to 75.0 mm (axis offset: ±10 mm)
Read 0.0 to 33.0 mm (axis offset: ±10 mm)
Write 0.0 to 28.0 mm (axis offset: ±10 mm)
Read 0.0 to 47.0 mm (axis offset: ±10 mm)
Write 0.0 to 42.0 mm (axis offset: ±10 mm)
Read 0.0 to 35.0 mm (axis offset: ±10 mm)
Write 0.0 to 30.0 mm (axis offset: ±10 mm)
Read 0.0 to 42.0 mm (axis offset: ±10 mm)
Write 0.0 to 37.0 mm (axis offset: ±10 mm)
Write 7.5 to 75.0 mm (axis offset: ±10 mm)
Read 5.0 to 65.0 mm (axis offset: ±10 mm)
Write 5.0 to 65.0 mm (axis offset: ±10 mm)
Read 3.0 to 40.0 mm (axis offset: ±10 mm)
Write 3.0 to 40.0 mm (axis offset: ±10 mm)
Read 5.0 to 65.0 mm (axis offset: ±10 mm)
Write 5.0 to 65.0 mm (axis offset: ±10 mm)
Read 3.0 to 40.0 mm (axis offset: ±10 mm)
Write 3.0 to 40.0 mm (axis offset: ±10 mm)
Read 7.5 to 75.0 mm (axis offset: ±10 mm)
Write 7.5 to 75.0 mm (axis offset: ±10 mm)
Read 5.5 to 55.0 mm (axis offset: ±10 mm)
Write 5.5 to 55.0 mm (axis offset: ±10 mm)
Read 7.5 to 75.0 mm (axis offset: ±10 mm)
Write 7.5 to 75.0 mm (axis offset: ±10 mm)
Read 5.5 to 55.0 mm (axis offset: ±10 mm)
Write 5.5 to 55.0 mm (axis offset: ±10 mm)
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Installation Conditions
Metallic material
Communications range
Metallic material
V680-D8KF67 V680-D8KF67M
V680-D8KF68A
Non-metallic material (Examples: Resin, plastic, wood, etc.)
Metallic material
V680S-D2KF67/-D8KF67 V680S-D2KF67/-D8KF67M
V680S-D2KF68/-D8KF68 V680S-D2KF68/-D8KF68M
V680-D8KF67
V680S-HMD64-PNT
V680-D8KF67M
V680S-HMD64-PNT
V680-D8KF68A
V680S-HMD64-PNT
V680S-D2KF67/-D8KF67
V680S-HMD64-PNT
V680S-D2KF67M/-D8KF67M
V680S-HMD64-PNT
V680S-D2KF68/-D8KF68
V680S-HMD64-PNT
V680S-D2KF68M/-D8KF68M
V680S-HMD64-PNT
Non-metallic material (Examples: Resin, plastic, wood, etc.)
Non-metallic material (Examples: Resin, plastic, wood, etc.)
Non-metallic material (Examples: Resin, plastic, wood, etc.)
Metallic material
Communications range
Communications range
Non-metallic material (Examples: Resin, plastic, wood, etc.)
Non-metallic material (Examples: Resin, plastic, wood, etc.)
Metallic material
Metallic material
Communications range
Communications range
Communications range
Non-metallic material (Examples: Resin, plastic, wood, etc.)
Non-metallic material (Examples: Resin, plastic, wood, etc.)
Non-metallic material (Examples: Resin, plastic, wood, etc.)
Non-metallic material (Examples: Resin, plastic, wood, etc.)
Non-metallic material (Examples: Resin, plastic, wood, etc.)
Non-metallic material (Examples: Resin, plastic, wood, etc.)
Non-metallic material (Examples: Resin, plastic, wood, etc.)
Non-metallic material (Examples: Resin, plastic, wood, etc.)
Section 1
Product Overview
Section 1 Data Characteristics
RFID System
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(PROFINET)
45
Page 48
Section 1
V680-D1KP54T
V680S-HMD64-PNT
V680-D1KP66T
V680S-HMD64-PNT
V680-D1KP66MT
V680S-HMD64-PNT
V680-D1KP66T-SP
V680S-HMD64-PNT
V680-D1KP58HTN
V680S-HMD64-PNT
V680-A80 Attachment
V680-D1KP54T V680-D1KP66T
V680-D1KP66MT V680-D1KP66T-SP
Metallic material
Communications range
Non-metallic material (Examples: Resin, plastic, wood, etc.)
Communications range
Communications range
Communications range
Non-metallic material (Examples: Resin, plastic, wood, etc.)
Non-metallic material (Examples: Resin, plastic, wood, etc.)
Non-metallic material (Examples: Resin, plastic, wood, etc.)
Metallic material
Metallic material
Non-metallic material (Examples: Resin, plastic, wood, etc.)
Non-metallic material (Examples: Resin, plastic, wood, etc.)
Non-metallic material (Examples: Resin, plastic, wood, etc.)
Non-metallic material (Examples: Resin, plastic, wood, etc.)
V680-D1KP58HTN
Metallic material
Metallic material
Metallic material
Communications range
Non-metallic material (Examples: Resin, plastic, wood, etc.)
Non-metallic material (Examples: Resin, plastic, wood, etc.)
Product Overview
Section 1 Data Characteristics
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V680S-HMD66-PNT
Reader/Writer RF Tag Communications Range Specification
V680S-HMD66-PNT (mounted to metallic material)
Section 1
Product Overview
V680-D8KF67 (mounted to non-metallic material)
V680-D8KF67M (mounted to metallic material)
V680-D8KF68A (mounted to non-metallic material)
V680-D1KP54T (mounted to non-metallic material)
V680-D1KP66T (mounted to non-metallic material)
V680-D1KP66MT (mounted to metallic material)
V680-D1KP66T-SP (mounted to non-metallic material)
V680-D1KP58HTN Read 10.0 to 90.0 mm (axis offset: ±10 mm)
V680S-D2KF67 (mounted to non-metallic material)
V680S-D2KF67M (mounted to metallic material)
V680S-D8KF67 (mounted to non-metallic material)
V680S-D8KF67M (mounted to metallic material)
V680S-D2KF68 (mounted to non-metallic material)
V680S-D2KF68M (mounted to metallic material)
V680S-D8KF68 (mounted to non-metallic material)
V680S-D8KF68M (mounted to metallic material)
Read 7.0 to 70.0 mm (axis offset: ±10 mm)
Write 7.0 to 70.0 mm (axis offset: ±10 mm)
Read 4.0 to 45.0 mm (axis offset: ±10 mm)
Write 4.0 to 45.0 mm (axis offset: ±10 mm)
Read 10.0 to 100.0 mm (axis offset: ±10 mm)
Write 10.0 to 100.0 mm (axis offset: ±10 mm)
Read 7.5 to 75.0 mm (axis offset: ±10 mm)
Write 7.5 to 75.0 mm (axis offset: ±10 mm)
Read 0.0 to 45.0 mm (axis offset: ±10 mm)
Write 0.0 to 38.0 mm (axis offset: ±10 mm)
Read 0.0 to 37.0 mm (axis offset: ±10 mm)
Write 0.0 to 30.0 mm (axis offset: ±10 mm)
Read 0.0 to 59.0 mm (axis offset: ±10 mm)
Write 0.0 to 52.0 mm (axis offset: ±10 mm)
Write 10.0 to 800.0 mm (axis offset: ±10 mm)
Read 7.0 to 70.0 mm (axis offset: ±10 mm)
Write 7.0 to 70.0 mm (axis offset: ±10 mm)
Read 4.0 to 45.0 mm (axis offset: ±10 mm)
Write 4.0 to 45.0 mm (axis offset: ±10 mm)
Read 7.0 to 70.0 mm (axis offset: ±10 mm)
Write 7.0 to 70.0 mm (axis offset: ±10 mm)
Read 4.0 to 45.0 mm (axis offset: ±10 mm)
Write 4.0 to 45.0 mm (axis offset: ±10 mm)
Read 10.0 to 100.0 mm (axis offset: ±
Write 10.0 to 100.0 mm (axis offset: ±10 mm)
Read 7.5 to 75.0 mm (axis offset: ±10 mm)
Write 7.5 to 75.0 mm (axis offset: ±10 mm)
Read 10.0 to 100.0 mm (axis offset: ±10 mm)
Write 10.0 to 100.0 mm (axis offset: ±10 mm)
Read 7.5 to 75.0 mm (axis offset: ±10 mm)
Write 7.5 to 75.0 mm (axis offset: ±10 mm)
10 mm)
Section 1 Data Characteristics
You can use the V680S-D8KF6 with Reader/Writers with firmware version 2.00 or higher.
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Section 1 Product Overview
Installation Conditions
Section 1 Data Characteristics
V680-D8KF67 V680-D8KF67M
Metallic material
Non-metallic material (Examples: Resin, plastic, wood, etc.)
V680-D8KF68A
Metallic material
Non-metallic material (Examples: Resin, plastic, wood, etc.)
V680S-HMD66-PNT V680S-HMD66-PNT
V680-D8KF67
Communications range
Non-metallic material (Examples: Resin, plastic, wood, etc.)
V680S-HMD66-PNT
V680-D8KF68A
Communications range
Non-metallic material (Examples: Resin, plastic, wood, etc.)
Metallic material
V680-D8KF67M
Communications range
Non-metallic material (Examples: Resin, plastic, wood, etc.)
Non-metallic material (Examples: Resin, plastic, wood, etc.)
Metallic material
V680S-D2KF67/-D8KF67 V680S-D2KF67M/-D8KF67M
Metallic material
Non-metallic material (Examples: Resin, plastic, wood, etc.)
V680S-HMD66-PNT
V680S-D2KF67/-D8KF67
Communications range
Non-metallic material (Examples: Resin, plastic, wood, etc.)
Metallic material
Non-metallic material (Examples: Resin, plastic, wood, etc.)
V680S-HMD66-PNT
V680S-D2KF67M/-D8KF67M
Communications range
V680S-D2KF68/-D8KF68 V680S-D2KF68M/-D8KF68M
Metallic material
Non-metallic material (Examples: Resin, plastic, wood, etc.)
V680S-HMD66-PNT
V680S-D2KF68/-D8KF68
Communications range
Non-metallic material (Examples: Resin, plastic, wood, etc.)
Metallic material
Non-metallic material (Examples: Resin, plastic, wood, etc.)
V680S-HMD66-PNT
V680S-D2KF68M/-D8KF68M
Communications range
Metallic material
Metallic material
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Section 1
V680-D1KP54T
V680S-HMD66-PNT
V680-D1KP66T
V680-D1KP66T-SP
V680-D1KP58HTN
V680-A80 Attachment
V680S-HMD66-PNT
V680S-HMD66-PNT V680S-HMD66-PNT
V680S-HMD66-PNT
V680-D1KP66MT
V680-D1KP54T
Metallic material
Communications range
Non-metallic material (Examples: Resin, plastic, wood, etc.)
Non-metallic material (Examples: Resin, plastic, wood, etc.)
Communications range
Communications range
Communications range
Metallic material
V680-D1KP66T
V680-D1KP66MT
V680-D1KP66T-SP
Non-metallic material (Examples: Resin, plastic, wood, etc.)
Non-metallic material (Examples: Resin, plastic, wood, etc.)
Non-metallic material (Examples: Resin, plastic, wood, etc.)
Non-metallic material (Examples: Resin, plastic, wood, etc.)
Non-metallic material (Examples: Resin, plastic, wood, etc.)
Non-metallic material (Examples: Resin, plastic, wood, etc.)
Metallic material
Metallic material
V680-D1KP58HTN
Metallic material
Communications range
Non-metallic material (Examples: Resin, plastic, wood, etc.)
Non-metallic material (Examples: Resin, plastic, wood, etc.)
Product Overview
Section 1 Data Characteristics
RFID System
User's Manual
(PROFINET)
49
Page 52
Section 1 Product Overview
MEMO
Section 1 Data Characteristics
50
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Section 2 System Configuration

System Configuration 52
Section 2 System Configuration
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Section 2 System Configuration
Reader/Writer (V680S-HMD6-PNT)
Power Cable (Recommended: XS5F-D42-80-F from OMRON)
Host device
(e.g., PLC)
24-VDC power supply
Ethernet Cable (Max. length: 100 m) (Recommended: XS5W-T42-MC-K from OMRON)
RF Tag
(V680 Series and V680S Series)
Section 2 System Configuration

System Configuration

One Reader/Writer is connected to the Host device (e.g., PLC)
Connect the Ethernet Cable to a host device (e.g., Switching Hub or PLC) that supports STP and ground the host device to
100 Ω or less.
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Section 2
Reader/Writer (V680S-HMD6-PNT)
Power Cable (Recommended: XS5F-D42-80-F from OMRON)
Ethernet Cable
24-VDC power supply
Ethernet Cable (Max. length: 100 m) (Recommended: XS5W-T42-MC-K from OMRON)
RF Tag
(V680 Series and V680S Series)
Reader/Writer (V680S-HMD6-PNT)
RF Tag
(V680 Series and V680S Series)
Power Cable (Recommended: XS5F-D42-80-F from OMRON)
24-VDC power supply
Ethernet Cable (Max. length: 100 m) (Recommended: XS5W-T42-MC-K from OMRON)
Host device
(e.g., PLC)
System Configuration
The plural Reader/Writer’s are connected to the Host device (e.g., PLC)
Section 2 System Configuration
Connect the Ethernet Cable to a host device (e.g., Switching Hub or PLC) that supports STP and ground the host device to
100 Ω or less.
Always use a Switching Hub on any network where cyclic data exchanges are used.
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Section 2
For details, refer to Section 8 Browser Interface.
p.181
System Configuration
The computer is connected to monitor the results of communications diagnostics
The system requirements to use the Web browser are as follows:
䚷㻌Internet Explorer 7 or higher running on Windows XP or Windows 7 䚷㻌JRE Version 8.0 or higher
Section 2 System Configuration
Reader/Writer (V680S-HMD6-PNT)
(V680 Series and V680S Series)
Host device
(e.g., PLC)
RF Tag
Switching Hub (Recommended: W4S1-05C Switching Hub from OMRON)
Ethernet Cable
Ethernet Cable (Max. length: 100 m) (Recommended: XS5W-T42-MC-K from OMRON)
24-VDC power supply
Computer to monitor the results of communications diagnostics
Computer
Power Cable (Recommended: XS5F-D42-80-F from OMRON)
Connect the Ethernet Cable to a host device (e.g., Switching Hub or PLC) that supports STP and ground the host device to
100 Ω or less.
Always use a Switching Hub on any network where cyclic data exchanges are used.
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About the Ethernet communication abnormality
If an Ethernet network is configured into a loop as shown below, broadcast packets are accumulated in the band, and
the communication is disabled. Therefore, do not configure the Ethernet network into a loop.
Sending broadcast storm
Section 2
System Configuration
Section 2 System Configuration
HUB
HUB
When a large amount of broadcast packets or multicast packets flow into the Ethernet network, Reader/Writers may
stop its operation. Please do not send a large amount of packet. Please separate the Reader/Writers from the network
segment that broadcast or multicast packets flow.
Broadcast storm Communication disabled
HUB
Reader/Writer
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Section 2 System Configuration
Section 2 System Configuration
MEMO
56
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Section 3 Component Names

Component Names 58
Section 3 Component Names
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Page 60
Section 3
NORM/ERR
RUN
RF
NORM/ERR
NORM/ERR
NORM/ERR
LINK/ACT
Ethernet connector Power supply connector
NORM/ERR
LINK/ACT
RUN
RF
NORM/ERR
NORM/ERR
NORM/ERR
Ethernet connector Power supply connector
V680S-HMD63-PNT
V680S-HMD64-PNT

Component Names

Component Names
Reader/Writer
Section 3 Component Names
RFID System
58
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Section 3
NORM/ERR
LINK/ACT
RUN
RF
NORM/ERR
NORM/ERR
NORM/ERR
Ethernet Connector Power supply connector
V680S-HMD66-PNT
Component Names
Section 3 Component Names
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Section 3 Component Names
Operation Indicators
RUN
Status Meaning
Lit green Lighting while the Reader/Writer is in Run Mode and cyclic data exchanges connection are established.
Flashing
green
Flashing
green
quickly
Lit yellow Lights yellow while the Reader/Writer is operating in Slave Mode.
Section 3 Component Names
Flashing
yellow
quickly
Not lit Turn off when power is not supplied.
RF
Status Meaning
Lit yellow Lighting during communication for RF Tag.
Not lit Turn off when not in communication with no error.
Flashes during operation in Safe Mode. (Flashes at 1-s intervals.)
The indicator will flash quickly in the following cases. (Flashes at 200-ms intervals.)
• During Reader/Writer initialization
• While the Reader/Writer is in Run Mode and is waiting to establish a connection for cyclic data exchanges from the IO controller
Flashes quickly while the Reader/Writer is in Slave Mode and is waiting to establish a connection for cyclic data exchanges from the IO controller.
NORM/ERR
The NORM/ERR indicator shows the result of communications with an RF Tag.
Status Meaning
Lit green Lights once when processing a communications command or another command from the host device is completed normally.
Lit yellow When communication diagnostic is enabled, this indicator will flash once each time an unstable communication is detected.
Flashing
yellow
quickly
Lit red Lights once when processing a communications command or another command from the host device ends in an error. It
Flashing
Flashing
irregularly
Not lit Turn off when the standby state.
When communication diagnostic is enabled, this indicator will flash once each time a stable communication is detected.
Flashes quickly when a timeout is detected during cyclic data exchanges. (A timeout occurs when I/O data from the IO controller is not received within the time specified for the timeout value.)
continues to light if a system error occurred.
Flash when recoverable error occurs. (Configuration memory error, or Control signal wiring mistake, etc.)
red
The indicator will flash irregularly in the following cases. (It will repeatedly flash twice for 100 ms at 1-s intervals.)
red
• When the same IP address is detected for two different devices on the network at startup
LINK/ACT
Status Meaning
Lit green Lighting during linking normally.
Flashing
green
Not lit Turn off when the Ethernet cable is not connected.
Flash during detects a carrier.
Refer to Errors and Indicator Status in Section 9 Troubleshooting for information of Error content of the operation indicator
p.206
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Connector
Power Supply Connector (M12 A-Coding, male)
1
2
4
3
Ethernet Connector (M12 D-Coding, female)
2
1
3
4
Sending broadcast storm
Reader/Writer
HUB
HUB
HUB
Broadcast storm Communication disabled
Power Supply Connector (M12 A-Coding)
Pin No. Name Description I/O
1 24P +24 V ---
Control signal (operating mode signal)
2CONT
324N0 V ---
4-- ---
Ethernet Connector (M12 D-Coding)
* Run Mode: Connect to +24 V and then start the Reader/Writer.
Safe Mode: Connect to 0 V and then start the Reader/Writer.
Section 3
Component Names
Section 3 Component Names
IN
Pin No. Name Description I/O
1 TD+ Ethernet send signal + OUT
2 RD+ Ethernet receive signal + IN
3 TD- Ethernet send signal - OUT
4 RD- Ethernet receive signal - IN
Housing FG Frame ground ---
If an Ethernet network is configured into a loop as shown below, broadcast packets are accumulated in the band, and the
communication is disabled. Therefore, do not configure the Ethernet network into a loop.
When a large amount of broadcast packets or multicast packets flow into the Ethernet network, Reader/Writers may stop its
operation. Please do not send a large amount of packet. Please separate the Reader/Writers from the network segment that
broadcast or multicast packets flow.
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Section 3 Component Names
RF Tag
The model numbers of the RF Tags that can communicate with the Reader/Writer are given in this
section. For the communications range specifications, refer to Communications Range Specifications
in Section 1 Product Overview.
V680-D1KP54T
Section 3 Component Names
Shape: 20 dia. × 2.7
V680-D1KP66T/-D1KP66MT
p.42
(Unit: mm)
Shape: 34 × 34 × 3.5 (W × H × D)
V680-D1KP66T-SP
Shape: 95 × 36.5 × 6.5 (W × H × D)
(excluding protruding parts)
V680-D1KP58HTN
62
Shape: 80 dia. × 10
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V680-D8KF67/-D8KF67M
Shape: 40 × 40 × 4.5 (W × H × D)
V680-D8KF68A
Section 3
Component Names
(Unit: mm)
Section 3 Component Names
Shape: 86 × 54 × 10 (W × H × D)
V680S-D2KF67/-D2KF67M/-D8KF67/-D8KF67M
Shape: 40 × 40 × 5 (W × H × D)
V680S-D2KF68/-D2KF68M/-D8KF68/-D8KF68M
Shape: 86 × 54 × 10 (W × H × D)
You can use the V680S-D8KF6 with Reader/Writers with firmware version 2.00 or higher.
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Section 3 Component Names
MEMO
Section 3 Component Names
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Section 4 Installation and Connections

Installation 66
Connections and Wiring 78
Section 4 Installation and Connections
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Section 4
Spring washer
Flat washer
42±0.2
42±0.2
Two, M4 holes
M4 screw
(Unit: mm)
Mounting Hole Dimensions
Installation and Connections

Installation

Reader/Writer
V680S-HMD63-PNT
Install the Reader/Writer with two M4 screws. Use both spring washers and flat washer.
Section 4 Installation
When you install the Reader/Writer, prepare the metal plate shown in the following figure.
When the metal plates size is larger than the below illustration, communication range will change.
Material: Steel
Two, M4 holes
42±0.2
42±0.2
50
Although it is possible to use SUS, aluminum or brass in addition to steel as the metal plate, communications range is
influenced by the material. Do not use resin as the metal plate.
The recommended tightening torque for M4 screws is 1.2 N·m.
50
(Unit: mm)
V680S-HMD63-PNT
Screw mounting
Metal plate
66
Refer to Reader/Writer Installation Precautions in Section 11 Appendices for information of surrounding metal and Mutual
Interference of Reader/Writers.
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Installation and Connections
(Unit: mm)
Mounting Hole Dimensions
Metal plate
V680S-HMD64-PNT
Screw mounting
75
(Unit: mm)
75
65±0.2
65±0.2
Material: Steel
Four, M4 holes
V680S-HMD64-PNT
Install the Reader/Writer with four M4 screws. Use both spring washers and flat washers.
M4 screw
Spring washer
Flat washer
Section 4
65±0.2
Four, M4 holes
65±0.2
When you install the Reader/Writer, prepare the metal plate shown in the following figure.
When the metal plates size is larger than the below illustration, communication range will change.
Section 4 Installation
Although it is possible to use SUS, aluminum or brass in addition to steel as the metal plate, communications range is
influenced by the material. Do not use resin as the metal plate.
The recommended tightening torque for M4 screws is 1.2 N·m.
Refer to Reader/Writer Installation Precautions in Section 11 Appendices for information of surrounding metal and Mutual
Interference of Reader/Writers.
p.242
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Section 4
(Unit: mm)
Mounting Hole Dimensions
120
110±0.2
110±0.2
120
Four, M4 holes
Screw mounting
Metal plate
V680S-HMD66-PNT
(Unit: mm)
Material: Steel
Installation and Connections
V680S-HMD66-PNT
Install the Reader/Writer with four M4 screws. Use both spring washers and flat washers.
Bracket
Spring washer
Flat washer
110±0.2
Four, M4 holes
110±0.2
Section 4 Installation
When you install the Reader/Writer, prepare the metal plate as shown in the following figure.
When the metal plates size is larger than the below illustration, communication range will change.
68
Refer to Reader/Writer Installation Precautions in Section 11 Appendices for information of surrounding metal and Mutual
Interference of Reader/Writers.
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User's Manual (PROFINET)
Although it is possible to use SUS, aluminum or brass in addition to steel as the metal plate, communications range is
influenced by the material. Do not use resin as the metal plate.
The recommended tightening torque for M4 screws is 1.2 N·m.
p.242
Page 71
Section 4
M3 flat-head screw
Mounting Hole Dimensions
31±0.2
Two, M3 holes
Installation and Connections
RF Tag
V680-D1KP54T
Either use the V700-A80 Attachment to mount the RF Tags with screws or permanently attach the RF
Tags with adhesive.
Installation with the V700-A80 Attachment
1. Place the V680-D1KP54T RF Tag in the Attachment.
The V680-D1KP54T RF Tag can be placed in the Attachment in either direction.
The direction does not affect operation.
Do not repeatedly place the RF Tag in the Attachment and remove it from the Attachment. If you do so, the RF Tag will
become loose or the Attachment will be damaged.
If you must remove an RF Tag from the Attachment, insert a flat-blade screwdriver in the gap under the RF Tag. Do not
try to remove it with your bare hands. Doing so may result in injury.
2. Mount the Attachment with M3 screws.
Tighten the screws to a suitable torque.
Tightening torque: 0.3 to 0.5 N·m
Installation with Adhesive
Select an adhesive that is suitable for the materials. Use the correct application method and amount.
Always confirm that the RF Tag is securely attached before you use it.
The RF Tags are made from PPS resin. We recommend epoxy adhesives to mount them on metal or
hard plastic.
The epoxy adhesives that are listed in the following table are recommended for the given temperature
ranges.
Ambient operating
temperature
-40 to 70°C
-40 to 110°C
-40 to 150°C
Two-part Epoxy Adhesive: TB2001 (main agent)/TB2105C (curing agent)
One-part Moisture-curing Elastic Adhesive: TB1530
Two-part Epoxy Adhesive: EP001
One-part Epoxy Adhesive: TB2285
Two-part Epoxy Adhesive: TB2087
Product name Manufacturer
ThreeBond Co., Ltd.
ThreeBond Co., Ltd.
Cemedine Co. Ltd.
ThreeBond Co., Ltd.
ThreeBond Co., Ltd.
Section 4 Installation
The above adhesives may not provide sufficient strength when attaching RF Tags to polyethylene, polypropylene,
fluororesins, or silicon-based resins. Check applicability carefully in advance. Consult with the manufacturer for detailed
information on adhesives.
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Section 4
Marked side
M3 flat-head screw
Mounting Hole Dimensions
Two, M3 holes
25
±0.2
25±0.2
Marked side
M3 flat-head screw
Mounting Hole Dimensions
Two, M3 holes
25
±0.2
25±0.2
Attachment (V600-A86)
Installation and Connections
V680-D1KP66T
Mounting on Non-metallic Material
Mount the RF Tag using M3 flat-head screws
from the marked side.
Tighten the screws to a torque of 0.3 to 0.5 N·m.
Mounting on Metallic Material
The communications range will decrease if there
Section 4 Installation
is metal at the back of the V680-D1KP66T RF
Tag.
If the RF Tag is mounted on metallic material,
use the V600-A86 Attachment (sold separately)
or a non-metallic spacer (e.g., plastic or resin).
Refer to RF Tag Installation Precautions in Section 11 Appendices for information on the effect of metal at the back surface,
Mutual Interference of RF Tags and Influence of Inclination of the V680-D1KP66T.
p.247
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Installation and Connections
Marked side
M3 flat-head screw
Mounting Hole Dimensions
Two, M3 holes
25
±0.2
25±0.2
25±0.2
25±0.2
Screw mounting
Metal plate
V680-D1KP66MT
34
(Unit: mm)
34
Material: Steel
Two, M3 holes
V680-D1KP66MT
Mount the RF Tag using M3 flat-head screws
from the marked side.
Tighten the screws to a torque of 0.3 to 0.5 N·m.
When you install the RF tag, prepare the metal plate as shown in the figure below.
When the metal plates size is larger than the below illustration, communication range will change.
Please confirm the influence well.
Section 4
Section 4 Installation
Although it is possible to use SUS, aluminum or brass in addition to steel as the metal plate, communications range is
influenced by the material. Do not use resin as the metal plate.
Refer to RF Tag Installation Precautions in Section 11 Appendices for information on the effect of surrounding metal, Mutual
Interference of RF Tags and Influence of Inclination on the V680-D1KP66MT.
p.247
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Section 4
Mounting Hole Dimensions
Two, M5 holes
80±0.2
Installation and Connections
V680-D1KP66T-SP
Mount the RF Tag using M5 screws and washers. The tightening torque is 1.2 N·m.
There are no restrictions on the mounting direction for the RF Tag or the direction of RF Tag travel in
respect to the Reader/Writer.
Section 4 Installation
Refer to RF Tag Installation Precautions in Section 11 Appendices for information on the effect of metal at the back surface,
Mutual Interference of RF Tags and Influence of Inclination of the V680-D1KP66T-SP.
p.247
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Installation and Connections
Mounting Hole Dimensions
M12
Split pin Nominal dimensions: 3.2-mm dia. × 20-mm length
Two nuts and one split pin are provided with the V680-A80 Attachment. You must provide any replacement split pins.
V680-D1KP58HTN
Use the following procedure to install an RF Tag with the V680-A80 Attachment.
1. Attach the Attachment to the workpiece.
2. Tighten the lock nut.
Use a tightening torque of 21 to 42 N·m.
Section 4
Section 4 Installation
3. Place the RF Tag in the Attachment.
The RF Tag can be attached in either direction. The direction does not
affect operation.
4. Insert the split pin into the 3.2-diameter hole and spread open
the end of the pin to prevent it from coming out.
Refer to RF Tag Installation Precautions in Section 11 Appendices for information on the effect of metal at the back surface,
Mutual Interference of RF Tags and Influence of Inclination of the V680-D1KP58HTN.
p.247
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Section 4
Marked side
M3 screw
Mounting Hole Dimensions
Two, M3 holes
32
±0.2
32±0.2
Marked side
M3 screw
Mounting Hole Dimensions
Two, M3 holes
32
±0.2
32±0.2
Two, M3 holes
Screw mounting
Metal plate
V680-D8KF67M
32±0.2
32±0.2
40
(Unit: mm)
40
Material: Steel
Installation and Connections
V680-D8KF67
Mount the RF Tag with M3 screws.
Tighten the screws to a torque of 0.6 N·m.
Refer to RF Tag Installation Precautions in Section 11 Appendices for information on the effect of metal at the back surface,
Mutual Interference of RF Tags and Influence of Inclination of the V680-D8KF67.
p.247
Section 4 Installation
V680-D8KF67M
Mount the V680-D8KF67M to a metal surface.
Mount the RF Tag with M3 screws.
Tighten the screws to a torque of 0.6 N·m.
When you install the RF tag, prepare the metal plate as shown in the figure below.
When the metal plates size is larger than the below illustration, communication range will change.
Please confirm the influence well.
Although it is possible to use SUS, aluminum or brass in addition to steel as the metal plate, communications range is
influenced by the material. Do not use resin as the metal plate.
74
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Refer to RF Tag Installation Precautions in Section 11 Appendices for information on the effect of surrounding metal, Mutual
Interference of RF Tags and Influence of Inclination on the V680-D8KF67M.
p.247
Page 77
Section 4
44
76
Two, M4 holes
M4 screw
Spring washer
Flat washer
Marked side
(Unit: mm)
Installation and Connections
V680-D8KF68A
Mount the RF Tag with M4 screws.
Tighten the screws to a torque of 0.7 to 1.2 N·m.
Refer to RF Tag Installation Precautions in Section 11 Appendices for information on the effect of metal at the back surface,
Mutual Interference of RF Tags and Influence of Inclination of the V680-D8KF68A.
p.247
Section 4 Installation
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Section 4
Marked side
M3 screw
Mounting Hole Dimensions
Two, M3 holes
32
±0.2
32±0.2
Marked side
M3 screw
Mounting Hole Dimensions
Two, M3 holes
32
±0.2
32±0.2
Installation and Connections
V680S-D2KF67/-D8KF67
Mount the RF Tag with M3 screws.
Tighten the screws to a torque of 0.6 N·m.
Refer to RF Tag Installation Precautions in Section 11 Appendices for information on the effect of metal at the back surface,
Mutual Interference of RF Tags and Influence of Inclination of the V680S-D2KF67.
p.247
Section 4 Installation
Refer to RF Tag Installation Precautions in Section 11 Appendices for information on the effect of metal at the back surface,
Mutual Interference of RF Tags and Influence of Inclination of the V680S-D8KF67.
p.247
You can use the V680S-D8KF67 with Reader/Writers with firmware version 2.00 or higher.
V680S-D2KF67M/-D8KF67M
Mount the V680-D8KF67M to a metal surface.
Mount the RF Tag with M3 screws.
Tighten the screws to a torque of 0.6 N·m.
Refer to RF Tag Installation Precautions in Section 11 Appendices for information on the effect of surrounding metal, Mutual
Interference of RF Tags and Influence of Inclination on the V680S-D2KF67M.
p.247
Refer to RF Tag Installation Precautions in Section 11 Appendices for information on the effect of surrounding metal, Mutual
Interference of RF Tags and Influence of Inclination on the V680S-D8KF67M.
p.247
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You can use the V680S-D8KF67M with Reader/Writers with firmware version 2.00 or higher.
Page 79
Section 4
44
76
Two, M4 holes
M4 screw
Spring washer
Flat washer
Marked side
(Unit: mm)
44
76
Two, M4 holes
M4 screw
Spring washer
Flat washer
Marked side
(Unit: mm)
Installation and Connections
V680S-D2KF68/-D8KF68
Mount the RF Tag with M4 screws. Tighten the screws to a torque of 0.7 to 1.2 N·m.
Refer to RF Tag Installation Precautions in Section 11 Appendices for information on the effect of metal at the back surface,
Mutual Interference of RF Tags and Influence of Inclination of the V680S-D2KF68.
p.247
Section 4 Installation
Refer to RF Tag Installation Precautions in Section 11 Appendices for information on the effect of metal at the back surface,
Mutual Interference of RF Tags and Influence of Inclination of the V680S-D8KF68.
p.247
You can use the V680S-D8KF68 with Reader/Writers with firmware version 2.00 or higher.
V680S-D2KF68M/-D8KF68M
Mount the RF Tag with M4 screws. Tighten the screws to a torque of 0.7 to 1.2 N·m.
Refer to RF Tag Installation Precautions in Section 11 Appendices for information on the effect of surrounding metal, Mutual
Interference of RF Tags and Influence of Inclination on the V680S-D2KF68M.
p.247
Refer to RF Tag Installation Precautions in Section 11 Appendices for information on the effect of surrounding metal, Mutual
Interference of RF Tags and Influence of Inclination on the V680S-D8KF68M.
p.247
You can use the V680S-D8KF68M with Reader/Writers with firmware version 2.00 or higher.
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Section 4 Connections and Wiring
Reader/Writer power supply connector (M12 A-Coding, female)
Power supply connector on cable
1 2 3 4
Blue Black
Brown White
PinNo.
wirecolor
Wiringcable(Four-coretype)Contactarrangement
2
1
4
3
Section 4 Installation and Connections

Connections and Wiring

Connecting and Removing the Reader/Writer Power Cable and Ethernet Cable
Connecting Method
1. Hold onto the connector on the Power Cable and
insert it into the power connector on the Reader/
Writer.
Do not apply more than 30 N of force to the
connector on the Reader/Writer.
2. Turn the connector on the Power Cable clockwise
to lock it in place.
Recommended tightening torque: 0.39 to 0.49 N·m
Contact arrangement of the Reader/
Writer’s power connector
1
2
Pin No. Name Description I/O
124P+24 V ---
Control signal (operating mode signal)
2CONT
324N0 V ---
4-- ---
Pin No. Name Description I/O
Refer to Functions in Section 6 Functions for information on the RUN mode, and Safe mode.
p.88
* Run Mode: Connect to +24 V and then start
the Reader/Writer. Safe Mode: Connect to 0 V and then start the Reader/Writer.
4
Power supply connector on cable
3
IN
Contact arrangement and wiring diagram of the recommended cable (Model
XS5F-D42-80-F)
Read and understand the power cable manual before attempting to connect the power cable.
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3. Hold onto the connector on the Ethernet Cable
Ethernet connector on Reader/Writer (M12 D-Coding, male)
Ethernet connector on cable
Ethernet connector on cable
2
1
3
4
and insert it into the Ethernet connector on the
Reader/Writer.
Do not apply more than 30 N of force to the
connector on the Reader/Writer.
4. Turn the connector on the Ethernet Cable
clockwise to lock it in place.
Recommended tightening torque: 0.39 to 0.49 N·m
Contact arrangement of the Reader/
Writer’s Ethernet connector
Section 4
Installation and Connections
Section 4 Connections and Wiring
Pin No. Name Description I/O
1 TD+ Ethernet send signal + OUT
2 RD+ Ethernet receive signal + IN
3 TD- Ethernet send signal - OUT
4 RD- Ethernet receive signal - IN
Housing FG Frame ground ---
5. Mount the Branch Cable with one M4 screw.
Recommended tightening torque: 0.39 to 0.49 N·m
M4 screw
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Section 4 Connections and Wiring
Ethernet connector on cable
Ethernet connector on Reader/Writer (M12 D-Coding, male)
Ethernet connector on cable
Section 4 Installation and Connections
Removal Method
1. Turn the connector on the Power Cable
counterclockwise to unlock it.
2. Hold onto the connector on the Power Cable and
pull it straight out to remove it.
If the connector is difficult to remove, press on the
Reader/Writer and pull on the connector. Never pull
on the Cable with excessive force. Doing so may
break the wires and cause malfunction.
Power supply connector on cable
Reader/Writer power supply connector (M12 A-Coding, female)
3. Turn the connector on the Ethernet Cable
counterclockwise to unlock it.
4. Hold onto the connector on the Ethernet Cable
and pull it straight out to remove it.
Never pull on the Cable with excessive force. Doing
so may break the wires and cause malfunction.
Power supply connector on cable
Do not remove the cable bracket from the Reader/
Writer.
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Cable bracket
Page 83

Section 5 Preparations for Communications

Starting the Reader/Writer 82
Setting IP Addresses 83
Setting Cyclic Data Exchanges 86
Section 5 Preparations for Communications
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Section 5 Preparations for Communications

Starting the Reader/Writer

Reader/Writer Starting Procedure
1. Connect the Cable to the Reader/Writer.
Refer to Connecting and Removing the Reader/Writer Power Cable and Ethernet Cable in Section 4 Installation and
Connections for the connector method.
p.78
2. Connect the power supply lines and the operation mode signal line in the Cable to the power source
and connect the RJ45 connector to an Ethernet port on the host device.
3. Turn ON the power supply to start the Reader/Writer.
If the Reader/Writer starts normally, the RUN indicator will fast flashing green.
Section 5 Starting the Reader/Writer
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Setting IP Addresses

Reader/Writer
Ethernet Cable
Switching Hub
Computer
Ethernet Cable
Preparations for Work
1. Network Configuration
The network configuration that is described in this manual is shown in the following figure.
Connect the Reader/Writer and the computer with an Ethernet Cable.
Section 5
Preparations for Communications
2. Set the IP address on the computer.
Set the IP addresses on the computer. The default IP addresses of the Reader/Writer are given in the following table. Use these
addresses to set the IP address on the computer. This example changes the last part of the IP address to a value other than 200
(i.e., to 1 to 199 or 201 to 254). Values of 0 and 255 cannot be used.
Default IP Addresses of the Reader/Writer
Setting Default setting
IP address 192.168.1.200 (fixed setting)
Subnet mask 255.255.255.0 (fixed setting)
Default gateway 192.168.1.254 (fixed settings)
Section 5 Setting IP Addresses
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Section 5
http:// (IP_address)
Preparations for Communications
Setting the IP Address of the Reader/Writer from a Web Browser
1. Start the Web browser.
Enter the IP address of the Reader/Writer in the address field of the Web browser to display the Browser Operation Window.
Enter http://192.168.1.200 if you are using the default IP address.
2. Set the IP address of the Reader/Writer.
Click the Network settings Button at the upper left of the Web Browser Operation Window.
Enter the IP address, subnet mask, and gateway address, and then click the Set Button.
Section 5 Setting IP Addresses
Setting a Fixed IP Address
On the Network Settings View, select the Fixed settings Option, enter the IP address, subnet mask,
and gateway address, and then click the Set Button.
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Section 5
Preparations for Communications
Setting the IP Address of the Reader/Writer on the Engineering Tool
You can also use the Engineering Tool to set the IP address for the Reader/Writer. Refer to the manual
for your Engineering Tool for the specific procedure to set the IP address with the Engineering Tool.
If you assign the IP addresses of the Reader/Writer from the IO controller, the IP addresses that are specified for the
following Reader/Writer functions will change dynamically and may result in unexpected operation. Confirm that no
problems will occur before you assign the IP addresses from the IO controller.
• IP address of the copy destination Reader/Writer for the data copy function
• IP addresses of the Slave Reader/Writers for multi-Reader/Writer operation
Section 5 Setting IP Addresses
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Section 5 Preparations for Communications

Setting Cyclic Data Exchanges

Refer to Section 7 Setting Up Cyclic Data Exchanges.
p.144
Section 5 Setting Cyclic Data Exchanges
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Section 6 Functions

Functions 88
Using Communication Diagnostic and the RF Analyzer 114
Using Multi-Reader/Writer Operation 120
Section 6 Functions
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Section 6 Functions
Section 6 Functions

Functions

Operation Mode
The Reader/Writer has two operation modes: Run Mode, and Safe Mode.
You can use the control signal to the Reader/Writer connector to change between these modes.
Run Mode
When you connect the control signal to the 24-VDC side of the power supply and turn ON the power
supply, the Reader/Writer will start in Run Mode.
Operation is performed in the modes specified in the commands from the host device and the results
are returned to the host device as responses.
Safe Mode
When you connect the control signal to the 0-VDC side of the power supply and turn ON the power
supply, the Reader/Writer will start in Safe Mode. The Safe Mode is used when you do not remember
the IP address that is set in the Reader/Writer. In Safe Mode, the Reader/Writer will start with the
following IP settings.
IP address: 192.168.1.200
Subnet mask: 255.255.255.0
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Section 6
Functions
RF Tag Communications
Communications Options
Communications with the RF Tag are performed according to one of the communications options that
are listed in the following table.
The setting of the communications option is effective immediately after it is changed. It is saved in
internal memory in the Reader/Writer even after the power supply is turned OFF.
Name Description
Once When the Reader/Writer receives a command, it communicates with an RF Tag and returns a
response.
Auto After the Reader/Writer receives a command, the Reader/Writer automatically detects an RF Tag
that enters the communications field and communicates with it. Communication can be carried out without confirming the existence of an RF tag by a sensor or the like.
Repeat When the Reader/Writer receives a command, it repeatedly communicates with RF Tags and
returns a response when communicating with an RF Tag was possible. Until the Reader/Writer communicates with another RF tag, the Reader/Writer cannot communicate with the RF tag once communicated.
FIFO Repeat When the Reader/Writer receives a command, it repeatedly communicates with RF Tags and
returns a response when communicating with an RF Tag was possible. The Reader/Writer can communicate with the another RF tag when the new RF tag comes in the communication area, because the Reader/Writer stops the operation of the RF tag once communicated. The Reader/Writer does not communicate with the RF tag once communicated until the following conditions are satisfied.
•The RF tag goes out of the communication area.
•The Reader/Writer communicates with another RF tag.
Section 6 Functions
FIFO Repeat has the following two setting modes.
•Without ID code check Repeat communication with RF tags without ID code check. Compared “With ID code check”, communication time becomes shorter. However, if the next tag enters the communication area during communication processing with the RF tag, there is a possibility of reading the data of the next RF tag. It is the same communication function as the FIFO repeat of the Reader/Writer of firmware version “3.01 or earlier”.
•With ID code check Repeat Communication with RF tag is processed with ID code check. Even if the next tag enters the communication area during communication processing with the RF tag, it will not read the data of the next RF tag. RF tags can be installed at narrow pitch. However, compared with “Without ID code check”, communication time will be longer. Therefore, in order to ensure reliable communication with the RF tag you want to communicate, we recommend “With ID code check”. It can be used with a Reader/Writer with firmware version “3.02 or later”.
“ID code” is a unique ID previously stored in each RF tag. By performing ID code check, even if an RF tag with another
ID code enters the communication area during communication processing, it does not communicate with that RF tag.
Refer to RF Tag Communications Time (for Reference Only) in Section 11 Appendices for details of Communications Time.
p.238
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Section 6
The Reader/Writer communicates with any RF Tag that enters the communications field and returns the result to the host device. Then the Reader/Writer waits for another command.
RF Tag
Waiting for RF Tag
RF Tag
Host device
Reader/Writer
Host device
Reader/Writer
Reader/Writer RF Tag
RF Tag operation
Processing completed.
Response
Auto communications
Communications processing
Functions
Once
The Reader/Writer communicates with RF Tags for command execution requests from the host device.
When the Reader/Writer is finished communicating with an RF Tag, it returns the communications
results to the host device and waits for another command.
If there is no RF Tag in the communications field when the Reader/Writer receives the command from
the host device, an RF Tag missing error will occur. It is therefore necessary to use a sensor or other
device to detect the presence of an RF Tag before you request command execution.
The Reader/Writer communicates with the RF Tag in the communications field of the Antenna when the host device sends a command. If there is no RF Tag,
RF Tag
Reader/Writer
an RF Tag missing error will occur. If an RF Tag communications error occurs, an error is detected according to the nature of the error.
Section 6 Functions
Host device Reader/Writer
Host device Reader/Writer
Reader/Writer
RF Tag operation
Refer to
Time Charts
p.176
RF Tag
in Section 7 Host Communications Specifications for details of Time charts of each communications options.
Once communication
Communications processing
RF Tag
Response
Processing completed.
Auto
The Reader/Writer automatically detects an RF Tag and communicates with it.
After the host device sends the command, the Reader/Writer automatically detects an RF Tag that
enters the communications field and communicates with it.
Refer to
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Time Charts
p.177
in Section 7 Host Communications Specifications for details of Time charts of each communications options.
Page 93
Section 6
Reader/Writer
Communications start when the RF Tag enters the communications field.
Host device Reader/Writer
Host device
Reader/Writer
Reader/Writer
RF Tag
RF Tag operation
Repeat communications
Communications processing
Response
RF Tag A
Processing completed.
RF Tag
Waiting for RF Tag
Response
RF Tag B
Waiting for RF Tag
Response
RF Tag C
Waiting for RF Tag
Functions
Repeat
When the Reader/Writer receives a command execution request from the host device, it automatically
detects RF Tags in the communications field and communicates with them. This process is repeated
until the execution request is cleared.
Communications are not performed for RF Tags that have returned communications results to the host
device until the Reader/Writer has to communicate with another RF Tags.
You can use this specification to perform communications with RF Tags in order as they move past the
Reader/Writer. However, if there is more than one RF Tag in the communications field of the Antenna
at the same time, normal communications will not be possible. Make sure that there is never more than
one RF Tag in the communications field of the Antenna at the same time.
Refer to
Time Charts
p.178
Section 6 Functions
in Section 7 Host Communications Specifications for details of Time charts of each communications options.
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Section 6
Reader/Writer
Communications start when an operable RF Tag enters the communications field. The operation of RF Tags that have normally completed communications is stopped. If the RF tag that completed communication normally moves out of the communication area and the reader / writer further communicates with another RF tag, the RF tag is ready to communicate again.
Host device Reader/Writer
Host device
Reader/Writer
Reader/Writer
RF Tag
RF Tag operation
FIFO Repeat communications
Communications processing
Response
RF Tag A
Processing completed.
RF Tag
Waiting for RF Tag
Response
RF Tag B
Waiting for RF Tag
Response
RF Tag C
Waiting for RF Tag
Functions
FIFO Repeat
When the Reader/Writer receives a command execution request from the host device, it automatically
detects RF Tags in the communications field and communicates with them. After successfully
communicating with an RF Tag once, operation for that RF Tag is stopped. This process is repeated
until the execution request is cleared.
The Reader/Writer does not communicate with the RF tag that has completed communication until the
RF tag is out of the communication area.
The Reader/Writer does not communicate with the RF tag once communicated until the following
conditions are satisfied.
•The RF tag goes out of the communication area.
•The Reader/Writer communicates with another RF tag.
You can use the FIFO Repeat communications option to perform communications with RF Tags in
order as they move past the Reader/Writer even when there is limited space between the RF Tags. If
there is more than one RF Tag for which operation is possible in the communications field of the
Antenna at the same time, normal communications will not be possible. Make sure that there is never
more than one RF Tag for which operation is possible in the communications field of the Antenna at the
same time.
Section 6 Functions
Refer to
FIFO Repeat communications cannot be used for communicating with V680-D1KP RF Tags.
Time Charts
p.178
in Section 7 Host Communications Specifications for details of Time charts of each communications options.
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Section 6
Repeat communications
Communications processing
Processing completed.
Waiting for RF Tag
Response
RF Tag A
1 32
Waiting for RF Tag
1 32
RF Tag B
Response
Waiting for RF Tag
Since RF tag B does not exist in the communication area, communication processing with RF tag B is never executed.
After RF tag B is detected, communication processing with RF tag B is executed.
1: RF tag detection processing 2: Communication processing 3: RF tag operation stop processing
Host device
Reader/Writer
Host device
Reader/Writer
Reader/Writer
RF Tag
RF Tag operation
Functions
The FIFO Repeat detects the RF tag in the sequence of “1. RF tag detection processing” and executes
read/write with the RF tag detected in the sequence of “2. communication processing”.
<Without ID code check>
When using FIFO Repeat (Without ID code check), please do not put the next RF tag B in the
communication area until communication with the detected RF tag is completed. (See the figure below) *
* When using FIFO Repeat (Without ID code check), the ID code of the RF tag is not checked. Therefore communication time will
be shorter than FIFO Repeat (With ID code check). However, if the next RF tag enters the communication area during “2.
communication processing” with the detected RF tag, there is a possibility of reading / writing the next RF tag.
<With ID code check>
When FIFO Repeat (With ID code check) is used, even if the next RF tag enters the communication
area before communication with the detected RF tag is completed, it can read / write without any
problem I will.
Host device Reader/Writer
Host device
Reader/Writer
RF Tag operation
FIFO Repeat (With ID code check) Even if the next RF tag B enters the communication area during communication processing with the RF tag A, it will not read / write to the next RF tag B.
* When using FIFO Repeat (With ID code check), the ID code of the RF tag is checked. Even if the next RF tag enters the
communication area during “2. communication processing” with the detected RF tag, there is no possibility of reading / writing
the next RF tag. However, compared with “Without ID code check”, communication time will be longer.
*
Reader/Writer
RF Tag
Repeat communications
Response Response
Communications processing
Waiting for RF Tag Waiting for RF Tag
1 32 1 32
RF Tag A
RF Tag B
After RF tag B is detected, communication processing with RF tag B is executed.
1: RF tag detection processing 2: Communication processing 3: RF tag operation stop processing
Processing completed.
Section 6 Functions
“ID code” is a unique ID previously stored in each RF tag. By performing ID code check, even if an RF tag with another
ID code enters the communication area during communication processing, it does not communicate with that RF tag.
Refer to RF Tag Communications Time (for Reference Only) in Section 11 Appendices for details of Communications Time.
p.238
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Section 6 Functions
Normal RF Tag Communications
The commands in the following table perform communications with RF Tags.
Name Description Page
READ DATA Reads data from an RF Tag. p.151
WRITE DATA Writes data to the memory of the RF Tag. p.152
READ ID Reads the RF Tag’s ID code. p.150
DATA FILL Writes the specified data to the specified number of words beginning from the specified start
address. The specifications are made in the command.
LOCK Locks the specified memory block in the RF Tag. It will no longer be possible to write data to the
locked memory block. The lock cannot be released.
COPY DATA Reads data from the memory of an RF Tag using one Reader/Writer (A) and writes it to the
memory of the RF Tag in the communications field of another Reader/Writer (B).
Tag Memory Management
RF TAG OVERWRITE COUNT CONTROL Command
The RF TAG OVERWRITE COUNT CONTROL command is used to determine whether the RF Tag
overwrite limit has been exceeded.
With the RF TAG OVERWRITE COUNT CONTROL command with a subtraction specification, the
overwrite count is subtracted from the data in the user-specified overwrite count control area to
determine whether the number of overwrites has been exceeded.
With the RF TAG OVERWRITE COUNT CONTROL command with an addition specification, the
overwrite count is added to the data in the user-specified overwrite count control area to determine
whether the number of overwrites has exceeded 100,000. The RF TAG OVERWRITE COUNT
CONTROL command with an addition specification is used only for RF Tags with a overwrite life of
100,000 writes.
p.154
p.153
p.157
Overwrite count control area
Always 00 hex
Upper digit
2 words (4 bytes)
Middle digit
Lower digit
RF TAG OVERWRITE COUNT CONTROL Command with a Subtraction Specification
The overwrite count control area consists of 4 bytes from the specified start address. The decrement
value is subtracted from the overwrite count and then written to this area. When the value reaches 0
(i.e., 00 hex), a warning code is returned. Therefore, to enable control of the number of overwrites,
the maximum number of overwrites must be written to the overwrite count control area beforehand.
You can set any number of overwrites up to 16,700,000.
You can read the overwrite count control area with a read command. If the control area data is
already 0, the control area value will not be refreshed, and a warning code will be returned as a
response. When the refresh count is set to 0000 hex, the count will not be updated, and only an
overwrite count check will be performed.
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Functions
RF TAG OVERWRITE COUNT CONTROL Command with a Addition Specification
The overwrite count control area consists of 4 bytes from the specified start address. The increment
value is added to the overwrite count and then written to this area. When the value reaches 100,000
(i.e., 0186A0 hex), a warning code is returned. You can read the overwrite count control area with a
read command. If the control area data is already 100,000, the control area value will not be
refreshed, and a warning code will be returned as a response. When the refresh count is set to 0000
hex, the count will not be updated, and only an overwrite count check will be performed.
Section 6 Functions
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Section 6
Host device Reader/Writer
Host device
Reader/Writer
Reader/Writer operation
Reset
Self-reset processing
Response
Initialization
Waiting for connection
Functions
Reader/Writer Controls
RESET
You can restart the Reader/Writer.
You can restart the Reader/Writer by using a RESET command or by performing a reset with the DCP
protocol from a Web browser. The Reader/Writer will return the execution results and reset itself.
If you reset the Reader/Writer during cyclic data exchanges, the connection will be broken and must be re-established
from the IO controller.
If the Reader/Writer is reset with the DCP protocol, it will be restored to the default settings.
All of the network settings will be restored to zeros, including the IP address, subnetwork, and default gateway. Use the
IP address settings with the DCP protocol to reset the IP address as required.
Section 6 Functions
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Functions
Maintenance
Reading Device Information
You can read the device information given in the following table from the Reader/Writer.
You can send a command from the host device or access the information from a Web browser to read
the device information.
Device information Description
Model Gives the model number of the Reader/Writer.
Firmware version Gives the firmware version in the Reader/Writer.
MAC address Gives the MAC address that is assigned to the Reader/Writer.
* Not supported for the command.
Reader/Writer operating status
Operating time Gives the elapsed time in milliseconds since the Reader/Writer was started.
Noise Measurement
Communication performance will be reduced when the RF tag or the Reader/Writer are influenced by
ambient noise. The Reader/Writer responds the ambient noise level by using noise monitor function.
The response data includes the following parameters. By checking the noise level, you can check the
influence on the performance of communication with the RF tag in advance. You can also check the
noise level when the trouble occurs.
Noise level (Average) This represents the average value of the measured noise level.
Noise level (Maximum) This represents the Maximum value of the measured noise level.
Noise level (Minimum) This represents the minimum value of the measured noise level.
Gives the operating status of the Reader/Writer. The operating status include idle (waiting for a command), communicating, other processing, etc. * Not supported for the command.
* 0 to 4,294,967,295 (FFFF FFFF hex)
00 to 99
00 to 99
00 to 99
Section 6 Functions
The noise monitor can be performed by means of the following two.
Measuring Noise with a Command from the Host Device
You can send the MEASURE NOISE command to the Reader/Writer to obtain the numerical ambient
noise level around the Reader/Writer.
Refer to MEASURE NOISE in V680S Commands in Section 7 Host Communications Specifications for details on the MEASURE
NOISE command.
p.169
Noise measurement using Web browser.
You can check the transition graph of the noise level using WEB browser.
By selecting the type of the RF tag, you are also able to visually confirm the stability of communication.
Refer to Noise Monitor View in Section 8 Browser Interface for more information.
p.191
If the noise level that was confirmed by WEB browser screen may affect the performance of
communication, do the following actions.
If the other Reader/Writers are operating close to the Reader/Writer, ensure the distance between
the Reader/Writers.
p.242, p.243, p.245
If the equipment close to the Reader/Writer, become a source of noise transceivers, motors,
inverters, and switching power supply is running, ensure the distance until the amount of noise is
sufficiently reduced. Take action, such as enclosing the noise source by metal object.
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Section 6 Functions
Setting Functions
You can use a setting command or a Web browser to set the operating conditions of the Reader/Writer
according to the application environment.
You can save the settings so that they are stored in internal memory in the Reader/Writer even after
the power supply is turned OFF.
Only the settings that are made with the SET TAG COMMUNICATIONS CONDITIONS command are
effective immediately after they are changed. For any changes to all other settings, you must first save
them and then reset the Reader/Writer to enable using them.
Refer to SET MULTI-READER/WRITER OPERATION in V680S Commands in Section 7 Host Communications Specifications
for details on the setting command.
p.162
Refer to RF Tag Communications View in Network Settings View in Section 8 Browser Interface for the setting procedure for the
web browser interface.
p.186, p.189
Section 6 Functions
Initialization
Initialization returns all of the set values in the Reader/Writer to their default values.
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