Page 1 RFID System V680S Series User’s Manual (PROFINET) Reader/Writer V680S-HMD63-PNT V680S-HMD64-PNT V680S-HMD66-PNT Man. No. Z354-E1-04...
Page 2: Introduction
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.
Page 3 Terms and Conditions Agreement (Always Read This Information) Introduction Product Overview Section 1 Names and Functions of Components Section 2 Installation and Connections Section 3 Preparations for Communications Section 4 Host Communications Specifications Section 5 Browser Interface Section 6 Troubleshooting Section 7 Appendices Section8...
Page 4: Terms And Conditions Agreement
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.
Page 5 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.
Page 6: Precautions For Safe Use
 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 ...
Page 7: Precautions For Correct Use
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 ...
Page 8: Meanings Of Symbols
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. RFID System User's Manual (PROFINET)
Page 9: Table Of Contents
Introduction Table of Contents Introduction Terms and Conditions Agreement Precautions for Safe Use Precautions for Correct Use Meanings of Symbols Table of Contents Section 1 Product Overview Features System Configuration Application Flowchart Section 2 Names and Functions of Components Component Names Functions Using Communication Diagnostic and the RF Analyzer Using Multi-Reader/Writer Operation...
Page 10 Introduction Section 5 Host Communications Specifications PROFINET IO Communications Protocol V680S Command Details Time Charts Section 6 Browser Interface Browser Operation Window Operation Interface Section 7 Troubleshooting Error Descriptions Errors and Indicator Status Errors and Countermeasures Maintenance and Inspection Troubleshooting Flowcharts Cannot Display the Web Browser Operation Window Safe Mode Section 8 Appendices...
Page 11: Section 1 Product Overview
Section 1 Product Overview Features System Configuration Application Flowchart RFID System User's Manual (PROFINET)
Page 12: 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. Previous OMRON models V680S Integrated Reader/Writer Reader/Writer Antennas...
Page 13 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 2 Names and Functions of Components .
Page 14 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.
Page 15 Section 1 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. Computer Reader/Writer Switching Hub 24-VDC power supply You can connect a computer to the Switching Hub to easily set up the Reader/Writers and check the status of the Reader/Writers.
Page 16: System Configuration
 One Reader/Writer is connected to the Host device (e.g., PLC) Reader/Writer (V680S-HMD6 -PNT) Host device (e.g., PLC) RF Tag (V680 Series and V680S Series) Ethernet Cable (Max. length: 100 m) (Recommended: XS5W-T42 - MC-K from OMRON) 24-VDC power supply 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...
Page 17 Reader/Writer (e.g., PLC) (V680S-HMD6 -PNT) (V680S-HMD6 -PNT) RF Tag RF Tag (V680 Series and V680S Series) (V680 Series and V680S Series) Ethernet Cable (Max. length: 100 m) (Recommended: XS5W-T42 - MC-K from OMRON) Ethernet Cable 24-VDC power supply Power Cable (Recommended: XS5F-D42 - 80-F from OMRON) Ethernet Cable (Max.
Page 18 Host device (V680S-HMD6 -PNT) results of communications Computer (e.g., PLC) diagnostics RF Tag (V680 Series and V680S Series) Switching Hub (Recommended: W4S1-05C Switching Hub from OMRON) Ethernet Cable Ethernet Cable (Max. length: 100 m) (Recommended: XS5W-T42 - MC-K from OMRON)
Page 19 Section 1 Product Overview  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 Reader/Writer Broadcast storm...
Page 20: Application Flowchart
Section 1 Product Overview 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. Checking the Installation Environment p.230 Refer to Reader/Writer Installation Precautions in Section 8 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.
Page 21 Section 1 Product Overview Setting Reader/Writer Communications Conditions p.99 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 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...
Page 22 Section 1 Product Overview Using Communication Diagnostic to Check Communications Leeway p.55 Connect the Ethernet cable, turn ON the power supply to the Reader/Writer, and then start a Web browser on a computer. 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.
Page 23 Section 1 Product Overview Using the RF Analyzer to Check the Results of Communication Diagnostic p.59 Display the RF Analyzer View. Click the Show Button in the Details column and follow the guidance to check the probable causes and corrections. RFID System User's Manual (PROFINET)
Page 24 Section 1 Product Overview In this example, the position of the Tag is corrected according to the guidance. 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.
Page 25 Section 1 Product Overview Communications with RF Tags for Commands from the Host Device Using Cyclic Data Exchanges p.109 The Reader/Writer can perform various types of communications with RF Tags. Communications Description Page command name READ DATA Reads data from an RF Tag in the communications field. p.113 WRITE DATA Writes data to an RF Tag in the communications field.
Page 26 Section 1 Product Overview If you Encounter a Problem... Troubleshooting p.109 Error Codes p.28 Operation Indicators p.177 Troubleshooting Flowcharts RFID System User's Manual (PROFINET)
Page 27: Section 2 Names And Functions Of Components
Section 2 Names and Functions of Components Component Names Functions Using Communication Diagnostic and the RF Analyzer Using Multi-Reader/Writer Operation RFID System User's Manual (PROFINET)
Page 28: Component Names
Section 2 Names and Functions of Components Component Names Reader/Writer V680S-HMD63-PNT V680S-HMD64-PNT LINK/ACT LINK/ACT NORM/ERR NORM/ERR NORM/ERR NORM/ERR NORM/ERR NORM/ERR NORM/ERR NORM/ERR Ethernet connector Power supply connector Ethernet connector Power supply connector RFID System User's Manual (PROFINET)
Page 29 Section 2 Names and Functions of Components V680S-HMD66-PNT LINK/ACT NORM/ERR NORM/ERR NORM/ERR NORM/ERR Ethernet Connector Power supply connector RFID System User's Manual (PROFINET)
Page 30 Section 2 Names and Functions of Components  Operation Indicators  RUN Status Meaning Lit green Lighting while the Reader/Writer is in Run Mode and cyclic data exchanges connection are established. Flashing Flashes during operation in Safe Mode. (Flashes at 1-s intervals.) green Flashing The indicator will flash quickly in the following cases.
Page 31 Section 2 Names and Functions of Components  Connector  Power Supply Connector (M12 A-Coding) Power Supply Connector (M12 A-Coding, male) Pin No. Name Description +24 V Control signal (operating mode signal) CONT * Run Mode: Connect to +24 V and then start the Reader/Writer. Safe Mode: Connect to 0 V and then start the Reader/Writer.
Page 32 Section 2 Names and Functions of Components 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 8 Appendices. p.211 (Unit: mm) ...
Page 33 Section 2 Names and Functions of Components (Unit: mm)  V680-D8KF67/-D8KF67M Shape: 40 × 40 × 4.5 (W × H × D)  V680-D8KF68A Shape: 86 × 54 × 10 (W × H × D)  V680S-D2KF67/-D2KF67M/-D8KF67/-D8KF67M Shape: 40 × 40 × 5 (W × H × D) ...
Page 34: Functions
Section 2 Names and Functions of Components 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.
Page 35 Section 2 Names and Functions of Components 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.
Page 36 Section 2 Names and Functions of Components  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.
Page 37 Section 2 Names and Functions of Components  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.
Page 38 Section 2 Names and Functions of Components  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.113 WRITE DATA Writes data to the memory of the RF Tag. p.114 READ ID Reads the RF Tag’s ID code.
Page 39 Section 2 Names and Functions of Components 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.
Page 40 Section 2 Names and Functions of Components 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. Host device Reader/Writer Reset...
Page 41 Section 2 Names and Functions of Components 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.
Page 42 Section 2 Names and Functions of Components 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.
Page 43 Section 2 Names and Functions of Components  Setting Communications Conditions This command sets parameters that are related to the operation of communications with RF Tags. Any changes to the settings that are made with this command are effective immediately. (There is no need to reset the Reader/Writer to save the settings.) ...
Page 44 Section 2 Names and Functions of Components  Network Settings You can set the parameters for communications between the Reader/Writer and the host device. If you change the settings, you must reset the Reader/Writer to enable the new settings.  IP Address, Subnet Mask, and Default Gateway You can use any of the following methods to set the IP address, subnet mask, and default gateway for the Reader/Writer.
Page 45 Section 2 Names and Functions of Components Error Logs The Reader/Writer manages errors that occur during operation in logs. The error logs are saved until the power supply to the Reader/Writer is turned OFF. You can read the error logs by sending commands from the host device or by using a browser.
Page 46 Section 2 Names and Functions of Components Web Server The following functions are provided in the Web server interface.  Status Monitoring, Setting, and Confirmation  Status Monitoring You can monitor the status of the Reader/Writer. The Reader/Writer status includes the firmware versions, MAC address, network settings, operating status, and other status information.
Page 47 Section 2 Names and Functions of Components RFID System Maintenance Communications performance can be affected by environmental factors around the RFID System (including metal objects, the positional relationship between the Reader/Writer and RF Tags, and noise). You can use the RFID System maintenance functions to check the leeway in communications and achieve more stable device operation.
Page 48 Section 2 Names and Functions of Components Communication diagnostic is disabled in the default settings. To use communication diagnostic, you must enable it in advance. Refer to RF Tag Communications View in Section 6 Browser Interface for the setting procedure for communication diagnostic.
Page 49 Section 2 Names and Functions of Components You can use communication diagnostic to detect and diagnoses deterioration of performance for the following conditions. Communications performance reduced by inclination of Communications performance reduced by positional RF Tags offset of RF Tags Communications performance reduced by metal objects Communications performance reduced by an excessively long communications ranges...
Page 50 Section 2 Names and Functions of Components  RF Analyzer The RF Analyzer displays detailed information from communication diagnostic on a web browser. You can easily check to see how stable communications are and troubleshoot problems. You can browse a list of diagnostic information and periodically confirm the leeway quantitatively on graphs.
Page 51 Section 2 Names and Functions of Components An application example of the RFID System maintenance functions is given below. Enable communication diagnostic. p.20 Communicate with an RF Tag. p.19 If the operation indicator lights in yellow, check the RF Analyzer on a web browser.
Page 52 Section 2 Names and Functions of Components Multi-Reader/Writer Operation There are two modes that you can use for multi-Reader/Writer operation: Field Extension Mode and High-speed Traveling Mode. You can link up to eight Reader/Writers to perform communications operations with RF Tags. One of the Reader/Writers operates as the master and the other Reader/Writers operate as slaves.
Page 53 Section 2 Names and Functions of Components The commands that can be acknowledged by a Slave Reader/Writer are shown in the following table. If an unsupported command is received by a Slave Reader/Writer, a multi-Reader/Writer execution error will occur. Name Supported? Name Supported?
Page 54 Section 2 Names and Functions of Components  Field Extension Mode You can use this mode to link Reader/Writers in order to extend the effective communications field. Even if the workpieces are not all the same height or not oriented in the same direction, the placement of more than one Reader/Writer enables communicating with the RF Tags without worrying about the positions or orientation of the RF Tags.
Page 55 Section 2 Names and Functions of Components  High-speed Traveling Mode You can read large data sizes from RF Tags because the data is split up and read by more than one Reader/Writer on a time-sharing basis while the workpiece is moving. We recommend that you use this mode when reading data from RF Tags that are moving on a production line.
Page 56 Section 2 Names and Functions of Components In High-speed Traveling Mode, you can use only the READ DATA RF Tag communications command. Also, you can specify only the Repeat communications option. If you use any communications option other than Repeat in the High-speed Traveling Mode, an execution status error will be indicated in the response.
Page 57: Using Communication Diagnostic And The Rf Analyzer
Section 2 Names and Functions of Components Using Communication Diagnostic and the RF Analyzer You can use communications diagnostics from a Web server. Use either of the following procedures. Use the Web server to use the RF Analyzer. Using the Web Server ...
Page 58 Section 2 Names and Functions of Components Select the Enable Option for Communication Diagnostics and click the Set Button. Refer to Communications Settings View in Section 6 Browser Interface for the setting procedure for the web browser interface. p.148 When you enable communication diagnostic, the setting will be retained after the Reader/Writer is restarted and communication diagnostic will remain enabled.
Page 59 Section 2 Names and Functions of Components  Communicating with an RF Tag The RF Tag Communications View will be displayed. Place a RF Tag in front of the Reader/Writer. To increase the accuracy of communication diagnostic, we recommend installation in an environment that is as close as possible to the actual application environment.
Page 60 Section 2 Names and Functions of Components Set the communications parameters (data address, data size, etc.), click the Send Button, and check the diagnostic results. RFID System User's Manual (PROFINET)
Page 61 Section 2 Names and Functions of Components  Checking with the RF Analyzer and Implementing Corrections Display the RF Analyzer View. You cannot use the RF Tag Analyzer if you are using the FIFO Repeat communications option. Use the Once or Repeat communications option.
Page 62 Section 2 Names and Functions of Components In this example, the position of the Tag is corrected according to the guidance. 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.
Page 63: Using Multi-Reader/Writer Operation
Section 2 Names and Functions of Components Using Multi-Reader/Writer Operation Using Field Extension Mode Use the following procedure for operation in Field Extension Mode. The following figure shows an example in which four Reader/Writers are installed. Slave Reader/Writer No. 1 IP:192.168.1.201 Master Reader/Writer IP:192.168.1.200...
Page 64 Section 2 Names and Functions of Components  Enabling Field Extension Mode Connect all of the Reader/Writers with Ethernet Cables and turn ON the power supplies. Set a unique IP address for each Reader/Writer in advance. Refer to Section 4 Preparations for Communications. Start a Web browser on your computer.
Page 65 Section 2 Names and Functions of Components Display the Multi-Reader/Writer Settings View. Select the Field Extension Mode Check Box. Set the IP addresses of the three slave Reader/Writers and click the Set Button. If you assign the IP addresses of the Reader/Writer from the IO controller, the IP addresses of the slave Reader/Writer will change dynamically and may result in unexpected operation.
Page 66 Section 2 Names and Functions of Components A confirmation message will be displayed. Click the OK Button. Click the Reboot Button. A Confirm Reboot Dialog Box will be displayed. Click the Yes Button. Click this button to reboot Click this button to cancel the Reader Writer.
Page 67 Section 2 Names and Functions of Components The following dialog box is displayed after reconnecting to the Reader/Writer. Click the OK Button. When re-connection goes wrong and an error message is displayed, check connection with the Reader/Writer and reboot a browser. When the Master Reader/Writer is restarted, group registration processing is automatically performed for the registered Slave Reader/Writers.
Page 68 Section 2 Names and Functions of Components  Executing a READ DATA Command in Field Extension Mode.  When the RF Tag Communications Option of the Master Reader/Writer Is Set to Once Send a READ DATA command from the host device to the Master Reader/Writer. Slave Reader/Writer No.
Page 69 Section 2 Names and Functions of Components Slave Reader/Writer No. 1 will communicate with the RF Tag using the Once communications option. Here, communications will end normally or an RF Tag communications error will occur, the Reader/ Writer will return a response to the host device, and processing will end. If an RF Tag tag missing error is detected, processing will be continued in order by Slave No.
Page 70 Section 2 Names and Functions of Components  When the RF Tag Communications Option of the Master Reader/Writer Is Set to Repeat Send a READ DATA command from the host device to the Master Reader/Writer. Slave Reader/Writer No. 1 IP:192.168.1.201 READ DATA Master Reader/Writer IP:192.168.1.200...
Page 71 Section 2 Names and Functions of Components Slave Reader/Writer No. 1 will communicate with the RF Tag using the Once communications option. Here, if RF Tag communications end normally, the Reader/Writer will return a response to the host device and processing is repeated from step 2. If an RF Tag tag missing error is detected, processing will be continued in order by Slave No.
Page 72 Section 2 Names and Functions of Components Using High-speed Traveling Mode Use the following procedure for operation in High-speed Traveling Mode. The following figure shows an example in which four Reader/Writers are installed. Master Reader/Writer IP:192.168.1.200 Direction of line movement IP:192.168.1.201 Switching Hub Slave...
Page 73 Section 2 Names and Functions of Components  Enabling High-speed Traveling Mode Connect all of the Reader/Writers with Ethernet Cable and turn ON the power supplies. Set a unique IP address for each Reader/Writer in advance. Refer to Section 4 Names and Functions of Components. Start a Web browser on your computer.
Page 74 Section 2 Names and Functions of Components Display the Multi-Reader/Writer Settings View. Select the High-speed travelling mode Check Box. Set the IP addresses of the three slave Reader/Writers and click the Set Button. If you assign the IP addresses of the Reader/Writer from the IO controller, the IP addresses of the slave Reader/Writer will change dynamically and may result in unexpected operation.
Page 75 Section 2 Names and Functions of Components A confirmation message will be displayed. Click the OK Button. Click the Reboot Button. A Confirm Reboot Dialog Box will be displayed. Click the Yes Button. Click this button to reboot Click this button to cancel the Reader Writer.
Page 76 Section 2 Names and Functions of Components The following dialog box is displayed after reconnecting to the Reader/Writer. Click the OK Button. When re-connection goes wrong and an error message is displayed, check connection with the Reader/Writer and reboot a browser. When the Master Reader/Writer is restarted, group registration processing is automatically performed for the registered Slave Reader/Writers.
Page 77 Section 2 Names and Functions of Components  Executing a READ DATA Command in High-speed Traveling Mode. Send a READ DATA command from the host device to the Master Reader/Writer. READ DATA Master Reader/Writer IP:192.168.1.200 Direction of line movement IP:192.168.1.201 Slave Switching Hub Reader/Writer...
Page 78 Section 2 Names and Functions of Components Slave No. 1 will wait for an RF Tag to enter the communications field and then communicate with the RF Tag. If communicating with the RF Tag ends normally, processing will be continued in order by Slave No.
Page 79 Section 2 Names and Functions of Components  Disabling Multi-Reader/Writer Operation The following example procedure shows how to disable the multi-Reader/Writer operation. You can use the same procedure from either Field Extension Mode or High-speed Traveling Mode. Start the Web browser on your computer and enter the IP address of the master Reader/Writer (here, 192.168.1.200) in the address field.
Page 80 Section 2 Names and Functions of Components A confirmation message will be displayed. Click the OK Button. Click the Reboot Button. A Confirm Reboot Dialog Box will be displayed. Click the Yes Button. Click this button to reboot Click this button to cancel the Reader Writer.
Page 81 Section 2 Names and Functions of Components The following dialog box is displayed after reconnecting to the Reader/Writer. Click the OK Button. The Slave Reader/Writers will also be restarted automatically. This concludes the procedure to disable multi-Reader/Writer operation. When the Field Extension Mode is disabled, the RUN indicators on the Slave Reader/Writers will fast flashing green. RFID System User's Manual (PROFINET)
Page 82 Section 2 Names and Functions of Components MEMO RFID System User's Manual (PROFINET)
Page 83: Section 3 Installation And Connections
Section 3 Installation and Connections Installation Connections and Wiring RFID System User's Manual (PROFINET)
Page 84: Installation
Section 3 Installation and Connections Installation Reader/Writer  V680S-HMD63-PNT Install the Reader/Writer with two M4 screws. Use both spring washers and flat washer. M4 screw Spring washer Mounting Hole Dimensions Flat washer Two, M4 holes 42±0.2 (Unit: mm) 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.
Page 85 Section 3 Installation and Connections  V680S-HMD64-PNT Install the Reader/Writer with four M4 screws. Use both spring washers and flat washers. M4 screw Spring washer Flat washer Mounting Hole Dimensions Four, M4 holes 65±0.2 (Unit: mm) 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.
Page 86 Section 3 Installation and Connections  V680S-HMD66-PNT  Install the Reader/Writer with four M4 screws. Use both spring washers and flat washers. Bracket Spring washer Mounting Hole Dimensions Flat washer Four, M4 holes 110±0.2 (Unit: mm) 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.
Page 87 Section 3 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 Place the V680-D1KP54T RF Tag in the Attachment. The V680-D1KP54T RF Tag can be placed in the Attachment in either direction.
Page 88 Section 3 Installation and Connections  V680-D1KP66T  Mounting on Non-metallic Material Mount the RF Tag using M3 flat-head screws Mounting Hole Dimensions from the marked side. Two, M3 holes Tighten the screws to a torque of 0.3 to 0.5 N·m. M3 flat-head screw 0.2 Marked side...
Page 89 Section 3 Installation and Connections  V680-D1KP66MT Mount the RF Tag using M3 flat-head screws Mounting Hole Dimensions from the marked side. Two, M3 holes Tighten the screws to a torque of 0.3 to 0.5 N·m. M3 flat-head screw 0.2 Marked side 0.2 When you install the RF tag, prepare the metal plate as shown in the figure below.
Page 90 Section 3 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.
Page 91 Section 3 Installation and Connections  V680-D1KP58HTN Use the following procedure to install an RF Tag with the V680-A80 Attachment. Attach the Attachment to the workpiece. Mounting Hole Dimensions Tighten the lock nut. · Use a tightening torque of 21 to 42 N Place the RF Tag in the Attachment.
Page 92 Section 3 Installation and Connections  V680-D8KF67 Mount the RF Tag with M3 screws. Mounting Hole Dimensions Two, M3 holes Tighten the screws to a torque of 0.6 N·m. M3 screw 0.2 Marked side 0.2 Refer to RF Tag Installation Precautions in Section 8 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.
Page 93 Section 3 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. Two, M4 holes M4 screw Spring washer Flat washer Marked side (Unit: mm) Refer to RF Tag Installation Precautions in Section 8 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.
Page 94 Section 3 Installation and Connections  V680S-D2KF67/-D8KF67 Mount the RF Tag with M3 screws. Mounting Hole Dimensions Two, M3 holes Tighten the screws to a torque of 0.6 N·m. M3 screw 0.2 Marked side 0.2 Refer to RF Tag Installation Precautions in Section 8 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.
Page 95 Section 3 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. Two, M4 holes M4 screw Spring washer Flat washer Marked side (Unit: mm) Refer to RF Tag Installation Precautions in Section 8 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.
Page 96: Connections And Wiring
Section 3 Installation and Connections Connections and Wiring Connecting and Removing the Reader/Writer Power Cable and Ethernet Cable  Connecting Method Hold onto the connector on the Power Cable and Reader/Writer power insert it into the power connector on the Reader/ supply connector (M12 A-Coding, female) Writer.
Page 97 Section 3 Installation and Connections Hold onto the connector on the Ethernet Cable Ethernet connector and insert it into the Ethernet connector on the on Reader/Writer Reader/Writer. (M12 D-Coding, male) Do not apply more than 30 N of force to the connector on the Reader/Writer.
Page 98 Section 3 Installation and Connections  Removal Method Turn the connector on the Power Cable counterclockwise to unlock it. Power supply connector on cable Hold onto the connector on the Power Cable and pull it straight out to remove it. Reader/Writer power supply connector (M12 A-Coding, female)
Page 99: Section 4 Preparations For Communications
Section 4 Preparations for Communications Starting the Reader/Writer Setting IP Addresses Setting Cyclic Data Exchanges RFID System User's Manual (PROFINET)
Page 100: Starting The Reader/Writer
Section 4 Preparations for Communications Starting the Reader/Writer Reader/Writer Starting Procedure Connect the Cable to the Reader/Writer. Refer to Connecting and Removing the Reader/Writer Power Cable and Ethernet Cable in Section 3 Installation and Connections for the connector method. p.94 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.
Page 101: Setting Ip Addresses
Section 4 Preparations for Communications Setting IP Addresses Preparations for Work 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. Computer Reader/Writer Switching Hub Ethernet Cable Ethernet Cable...
Page 102 Section 4 Preparations for Communications Setting the IP Address of the Reader/Writer from a Web Browser 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.
Page 103 Section 4 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.
Page 104: Setting Cyclic Data Exchanges
Section 4 Preparations for Communications Setting Cyclic Data Exchanges Refer to Section 5 Setting Cyclic Data Exchanges. p.102 RFID System User's Manual (PROFINET)
Page 105: Section 5 Host Communications Specifications
Section 5 Host Communications Specifications PROFINET IO Communications Protocol Data Exchange with PROFINET IO PROFINET IO Communications with the Reader/Writer Setting Up Cyclic Data Exchanges Memory Assignments V680S Commands V680S Command Details READ ID READ DATA WRITE DATA LOCK DATA FILL RF TAG OVERWRITE COUNT CONTROL RESTORE DATA COPY DATA...
Page 106: Profinet Io Communications Protocol
Section 5 Host Communications Specifications PROFINET IO Communications Protocol Data Exchange with PROFINET IO The host device (PLC) and Reader/Writer function as the IO controller and IO device. You must establish a connection called an AR (application relation) between the two devices to perform communications between an IO controller and IO device.
Page 107 Section 5 Host Communications Specifications PROFINET IO Communications with the Reader/Writer For cyclic data exchanges between the host device (PLC) and a Reader/Writer, you can use the IO data CRs to control RF Tag communications from the PLC with command/response communications. The following communications areas are prepared in the PLC to perform communications.
Page 108 Refer to the manual for your Engineering Tool for the specific procedure to set up the IO data CR with the Engineering Tool. To connect to an IO controller manufactured by OMRON, use the CX-Configurator FDT Engineering Tool to set up the IO data CR.
Page 109 Section 5 Host Communications Specifications Memory Assignments This section describes the command area (output area) for the input CR to the Reader/Writer and the response area (input area) for the output CR to the PLC. Memory alignment is given in units of 8 bits. The byte order in all fields is big endian. ...
Page 110 Section 5 Host Communications Specifications  Response Area Reader/Writer (IO Device)  PLC (IO Controller) Offset SYS_ERR RF_ERR CMD_ERR FRIC NORM BUSY READY Resv Resv Resv Resv Resv Resv Resv RF_WAR Error Code Response Information 1 Response Information 2 Response Data (The format depends on the command.) * Reserved (resv) bits are for future expansion.
Page 111 Section 5 Host Communications Specifications V680S Commands  Command Codes The following table lists the command codes that you can specify for execution by the Reader/Writer. Set these codes in the Command Code field in the command area. Classification Command code Command name Reference RF Tag communications...
Page 112 Section 5 Host Communications Specifications  Command Errors Error code name Error code Description Unknown command error 1003 hex A command that is not supported by the Reader/Writer was received. Command parameter error 1005 hex There was an error in the parameters in the received command data. Execution status error 1006 hex The Reader/Writer could not execute the command that was received.
Page 113 Section 5 Host Communications Specifications  System Errors Error code name Error code Description System startup errors System memory error An error was detected in system memory. A record is stored only in the F001 hex system error log. Profile error An error was detected in the profile data.
Page 114: V680S Command Details
Section 5 Host Communications Specifications V680S Command Details READ ID This command reads the ID code of the RF Tag in the communications field.  Command Area Signal/data Data type Size Function CmdCode/Command Code WORD 2 bytes 0001 hex CmdParam1/Command Parameter 1 WORD 2 bytes 0000 hex (Not used.)
Page 115 Section 5 Host Communications Specifications READ DATA This command reads data from the RF Tag in the communications field.  Command Area Signal/data Data type Size Function CmdCode/Command Code WORD 2 bytes 0002 hex CmdParam1/Command Parameter 1 First word address of the data read from the RF Tag WORD 2 bytes 0000 to FFFF hex...
Page 116 Section 5 Host Communications Specifications WRITE DATA This command writes data to the RF Tag in the communications field.  Command Area Signal/data Data type Size Function CmdCode/Command Code WORD 16 bits WRITE DATA (0003 hex) CmdParam1/Command Parameter 1 First word address of the data to write to the RF Tag WORD 16 bits 0000 to FFFF hex...
Page 117 Section 5 Host Communications Specifications LOCK This command locks the memory of the RF Tag in the communications field. Memory cannot be written again after it is locked. There is also no way to unlock memory.  Command Area Signal/data Data type Size Function...
Page 118 Section 5 Host Communications Specifications DATA FILL This command fills the specified number of words in the RF Tag in the communications field with the specified data.  Command Area Signal/data Data type Size Function CmdCode/Command Code WORD 2 bytes 0005 hex CmdParam1/Command Parameter 1 First word address of the data to write to the RF Tag...
Page 119 Section 5 Host Communications Specifications RF TAG OVERWRITE COUNT CONTROL This command is used to control the number of times RF Tags are overwritten. You can use it for RF Tags that have EEPROM.  Command Area Signal/data Data type Size Function CmdCode/Command Code...
Page 120 Section 5 Host Communications Specifications RESTORE DATA This command restores the RF Tag data that is held in the Reader/Writer. You can use it for RF Tags that have EEPROM. You can restore RF Tag data only when the RF Tag in the communications field matches the held RF Tag ID.
Page 121 Section 5 Host Communications Specifications COPY DATA This command uses two Reader/Writers to copy data from an RF Tag in the communications field of one Reader/Writer (A) to the RF Tag in the communications field of another Reader/Writer (B). Switching Hub Copy Source Reader/Writer Copy Destination Reader/Writer ...
Page 122 Section 5 Host Communications Specifications  Execution Example Copying Four Words of Data Starting from Word Address 1234 Hex in the RF Tag to an RF Tag in the Communications Field of the Reader/Writer with IP Address 192.168.1.201 (C0A801C9 Hex) Command Area Response Area Memory offset...
Page 123 Section 5 Host Communications Specifications INITIALIZE This command restores the Reader/Writer settings to their default values.  Command Area Signal/data Data type Size Function CmdCode/Command Code WORD 2 bytes 1000 hex CmdParam1/Command Parameter 1 WORD 2 bytes 0000 hex (Not used.) CmdParam2/Command Parameter 2 WORD 2 bytes...
Page 124 Section 5 Host Communications Specifications SET RF TAG COMMUNICATIONS This command sets the RF Tag communications conditions in the Reader/Writer (communications option, communications speed, and write verification).  Command Area Signal/data Data type Size Function CmdCode/Command Code WORD 2 bytes 1001 hex CmdParam1/Command Parameter 1 WORD...
Page 125 Section 5 Host Communications Specifications GET RF TAG COMMUNICATIONS SETTINGS This command reads the RF Tags communications conditions from the Reader/Writer (communications option, communications speed, and write verification).  Command Area Signal/data Data type Size Function CmdCode/Command Code WORD 2 bytes 1002 hex CmdParam1/Command Parameter 1 WORD...
Page 126 Section 5 Host Communications Specifications SET MULTI-READER/WRITER OPERATION This command sets multi-Reader/Writer operation.  Command Area Signal/data Data type Size Function CmdCode/Command Code WORD 2 bytes 1003 hex CmdParam1/Command Parameter 1 WORD 2 bytes 0000 hex (Not used.) CmdParam2/Command Parameter 2 WORD 2 bytes 0000 hex (Not used.)
Page 127 Section 5 Host Communications Specifications  Execution Example Setting the Multi-Reader/Writer Mode to Field Extension Mode, the Number of Slave Reader/Writers to 3, and the IP Addresses of Slaves No. 1, No. 2, and No. 3 to 192.168.1.201, 192.168.1.202, and 192.168.1.203, Respectively Command Area Response Area...
Page 128 Section 5 Host Communications Specifications GET MULTI-READER/WRITER SETTINGS You can use this command to check the multi-Reader/Writer settings in a Reader/Writer.  Command Area Signal/data Data type Size Function CmdCode/Command Code WORD 2 bytes 1004 hex CmdParam1/Command Parameter 1 WORD 2 bytes 0000 hex (Not used.) CmdParam2/Command Parameter 2...
Page 129 Section 5 Host Communications Specifications  Execution Example Reading the Multi-Read/Writer Settings When the Multi-Reader/Writer Mode Is Set to Field Extension Mode, the Number of Slave Reader/Writers Is Set to 3, and the IP Addresses of Slaves No. 1, No. 2, and No.
Page 130 Section 5 Host Communications Specifications GET MODEL INFORMATION This command reads the model of the Reader/Writer.  Command Area Signal/data Data type Size Function CmdCode/Command Code WORD 2 bytes 2000 hex CmdParam1/Command Parameter 1 WORD 2 bytes 0000 hex (Not used.) CmdParam2/Command Parameter 2 WORD 2 bytes...
Page 131 Section 5 Host Communications Specifications GET FIRMWARE VERSION This command reads the firmware version of the Reader/Writer.  Command Area Signal/data Data type Size Function CmdCode/Command Code WORD 2 bytes 2001 hex CmdParam1/Command Parameter 1 WORD 2 bytes 0000 hex (Not used.) CmdParam2/Command Parameter 2 WORD 2 bytes...
Page 132 Section 5 Host Communications Specifications GET OPERATING TIME This command reads the operating time since the Reader/Writer was started. The operating time is reset when the Reader/Writer is reset.  Command Area Signal/data Data type Size Function CmdCode/Command Code WORD 2 bytes 2002 hex CmdParam1/Command Parameter 1...
Page 133 Section 5 Host Communications Specifications MEASURE NOISE This command measures the noise level around the Reader/Writer.  Command Area Signal/data Data type Size Function CmdCode/Command Code WORD 2 bytes 2003 hex CmdParam1/Command Parameter 1 WORD 2 bytes 0000 hex (Not used.) CmdParam2/Command Parameter 2 WORD 2 bytes...
Page 134 Section 5 Host Communications Specifications GET COMMAND ERROR LOG This command reads the log of command errors that have occurred in the Reader/Writer. The command error log is reset when the Reader/Writer is restarted.  Command Area Signal/data Data type Size Function CmdCode/Command Code...
Page 135 Section 5 Host Communications Specifications  Execution Example Reading the Two Newest Records from the Command Error Log When Command Errors Occur * This example assumes that there are the following two valid records in the command error log. • Error code 2001 hex occurred for command code 0001 hex at the host device (IP address 192.168.1.10) at an operating time of 11,223,344 (00AB 4130 hex).
Page 136 Section 5 Host Communications Specifications GET RESTORE INFORMATION This command reads the restore information from memory in the Reader/Writer. The restore information is reset when the Reader/Writer is reset.  Command Area Signal/data Data type Size Function CmdCode/Command Code WORD 2 bytes 2005 hex CmdParam1/Command Parameter 1...
Page 137 Section 5 Host Communications Specifications  Execution Example Reading the Newest Restore Information Record When Writing to an RF Tag Fails and an RF Tag Data Lost Error Occurs * This example assumes that there is the following one valid record of restore information. •...
Page 138 Section 5 Host Communications Specifications GET MULTI-READER/WRITER STATUS This command reads the Master Reader/Writer and Slave Reader/Writer status when multi-Reader/ Writer operation is being used.  Command Area Signal/data Data type Size Function CmdCode/Command Code WORD 2 bytes 2006 hex CmdParam1/Command Parameter 1 WORD 2 bytes...
Page 139 Section 5 Host Communications Specifications RESET This command resets the Reader/Writer.  Command Area Signal/data Data type Size Function CmdCode/Command Code WORD 2 bytes 3000 hex CmdParam1/Command Parameter 1 WORD 2 bytes 0000 hex (Not used.) CmdParam2/Command Parameter 2 WORD 2 bytes 0000 hex (Not used.) ...
Page 140: Time Charts
Section 5 Host Communications Specifications Time Charts Time Charts  Executing RF Tag Communications Commands  Using the Once Communications Option Command code Command Area Command parameters Command data READY BUSY NORM Response Area Response code Response information Response data Communications field RF Tag RF Tag missing...
Page 141 Section 5 Host Communications Specifications  Using the Repeat or FIFO Repeat Communications Option Command code Command Area Command parameters Command data READY BUSY FRIC NORM Response Area Response code Response information Response data Communications field RF Tag A RF Tag B 8 9 9 1.
Page 142 Section 5 Host Communications Specifications  Executing Other Commands  Executing Reader/Writer Setting, Reader/Writer Information Acquisition, or Reader/Writer Operation Control Commands Command code Command Area Command parameters Command data READY BUSY NORM Response Area Response code Response information Response data 1.
Page 143 Section 5 Host Communications Specifications  Executing the RESET Command Command Area Command code READY BUSY NORM Response Area Response code Response information 1. Set the command code of the RESET command in the PLC while the READY signal is ON. 2.
Page 144 Section 5 Host Communications Specifications MEMO RFID System User's Manual (PROFINET)
Page 145: Section 6 Browser Interface
Section 6 Browser Interface Browser Operation Window Operation Interface RFID System User's Manual (PROFINET)
Page 146: Browser Operation Window
Section 6 Browser Interface Browser Operation Window Connect the Ethernet cable and start a Web browser on the computer. 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.
Page 147: Operation Interface
Section 6 Browser Interface Operation Interface Password Entry View If a Web password is set in the Reader/Writer, the Password Entry View will be displayed first. Item name Description Password If a Web password is set in the Reader/Writer, enter the password. If an error message appears after pressing the OK button, confirm the password.
Page 148 Section 6 Browser Interface Status View Item name Description Device type Displays the product model number. Firmware version Run mode program Displays the Run Mode program versions. Displays only "Major version" and "Minor version". Safe mode program Displays the Safe Mode program versions. Displays only "Major version"...
Page 149 Section 6 Browser Interface Network Settings View Click this button to set the displayed values. Item name Description Setting range Default IP address IP address 192.168.1.200 Subnet mask Subnet mask address 255.255.255.0 Gateway address Gateway address 192.168.1.254 Web Port The port number used for browser communications 1024 to 65535 7090 Web password...
Page 150 Section 6 Browser Interface Communications Settings View Click this button to set the displayed values. Item name Description Setting range Default RF Tag Communications Select the RF Tag communications Once, Repeat, or FIFO Once option option. Repeat RF Tag Communications Specify the speed of communications High speed or Normal speed High speed...
Page 151 Section 6 Browser Interface SET MULTI-READER/WRITER OPERATION Click this button to set the displayed values. Item name Description Setting range Default setting Multi Reader/Writer mode Sets the Multi-Reader/Writer Mode. Disable, Field extension Disable mode, or High-speed traveling mode Group setting You can check the IP address of Reader/Writers registered as Slave Reader/Writers and the connection...
Page 152 Section 6 Browser Interface RF Tag Communications View Click this button to send the command. Select this check box to repeatedly send the command. 1. Command Area Item name Description Setting range Reading Read data address Specify in 4-digit hexadecimal the first address to read from the 0000 to 0999 hex RF Tag RF Tag.
Page 153 Section 6 Browser Interface Log View Item name Description Command error log Displays the following command error log information. Operating time, error name, IP address, command code, error code, attached information 1, and attached information 2 System error log Displays the following information from the system error log: Operating time, error name, error code, attached information 1, and attached information 2 Refer to Command Error Log in Section 2 Names and Functions of Components for details on the command error log.
Page 154 Section 6 Browser Interface Noise Monitor View You can check the graphed noise level (one second intervals) around the Reader/Writer. Select from the screen, the type of the RF tag you want to use, because the communication performance will be changed by the combination of the type of the RF tag to be used. The “Normal area”, “Precaution area”...
Page 155 Section 6 Browser Interface RF Analyzer You can use the RF Analyzer to check the diagnostic information from communication diagnostic. You can easily see whether communications are stable, unstable, or in error when communication diagnostic is used. If communications are unstable, you can display probable causes and display guidance that provides detailed cause confirmation and corrections.
Page 156 Section 6 Browser Interface  RF Analyzer Guidance Click the Display Button in the Details column on the RF Analyzer View to display guidance. Respond yes or no to the displayed questions to display advice on the probable causes and corrections. If you follow the advice to make corrections, you can increase the communications leeway and achieve more stable RFID System operation.
Page 157 Section 6 Browser Interface  RF Analyzer Graphs You can display time-based graphs of diagnostic log information. This allows you to visually understand the data from communication diagnostic and quantitatively confirm the degree of leeway in communications. Two parameters are displayed for the graph. 1.
Page 158 Section 6 Browser Interface  RF Analyzer Diagnostic Log File You can click the Export Button on the RF Analyzer View to download the diagnostic log stored in the Reader/Writer to a computer and save it as a CSV file. The following information is included in the diagnostic log file.
Page 159 Section 6 Browser Interface Reboot If you click the Reboot Button on any of the operation views, a Confirm Reboot Dialog Box is displayed. Click this button to reboot Click this button to cancel the Reader Writer. rebooting the Reader Writer. The following dialog box is displayed after the Reader/Writer has finished rebooting.
Page 160 Section 6 Browser Interface Configuration You can save a configuration file (INI file) that contains the configuration information from the Reader/ Writer in the computer. You can also send a configuration file to the Reader/Writer to change all of the configuration information in the Reader/Writer.
Page 161 Section 6 Browser Interface  Saving a Configuration File on the Computer You can click the Export Button in the Export Configuration File to PC Area to save a configuration file (file name: conf.ini) that contains the configuration information from the Reader/Writer on the computer. The configuration file uses a normal INI file format.
Page 162 Section 6 Browser Interface  Sending a Configuration File to the Reader/Writer You can change all of the configuration information in the Reader/Writer with the following procedure: Click the Browse Button in the Import Configuration File to R/W Area, select the configuration file to use to set up the Reader/Writer, and then click the Import Button.
Page 163 Section 6 Browser Interface The following information is displayed after setting is completed. RFID System User's Manual (PROFINET)
Page 164 Section 6 Browser Interface  Initializing the Settings Click the Default Button in the Initialize Configuration Area to return all of the settings in the Reader/ Writer to the default settings. After you initialize the settings, cycle the power supply to the Reader/ Writer to enable the new settings.
Page 165 Section 6 Browser Interface Configuration File This section describes the format of the configuration file. The configuration file uses a normal INI file format.  Any line that starts with a semicolon (;) is treated as a comment.  Any line that starts with an opening bracket ([) is treated as a section declaration row. The row must also end in a closing bracket (]).
Page 166 Section 6 Browser Interface MEMO RFID System User's Manual (PROFINET)
Page 167: Section 7 Troubleshooting
Section 7 Troubleshooting Error Descriptions Errors and Indicator Status Errors and Countermeasures Maintenance and Inspection Troubleshooting Flowcharts Cannot Display the Web Browser Operation Window Safe Mode RFID System User's Manual (PROFINET)
Page 168: Error Descriptions
Section 7 Troubleshooting Error Descriptions Information on up to eight errors that occur are recorded until the power supply to the Reader/Writer is turned OFF. You can access this information from the host device or the Web server. Fatal Errors ...
Page 169 Section 7 Troubleshooting Nonfatal Errors The NORM/ERR indicator in the operation indicators flashes red once if an error occurs in communications between the Reader/Writer and host device or in communications with an RF Tag. V680S-HMD63-PNT V680S-HMD64-PNT NORM/ERR NORM/ERR NORM/ERR NORM/ERR NORM/ERR NORM/ERR NORM/ERR...
Page 170: Errors And Indicator Status
Section 7 Troubleshooting Errors and Indicator Status Fatal Errors  Reader/Writer Operation Errors  User Configuration Memory Error NORM/ERR Processing when error occurs There is an error in user configuration memory.  Initialize the settings to restore normal operation. Refer to User Configuration Memory Error in this Section for information for lnitialize the setting.
Page 171 Section 7 Troubleshooting  System Errors  CPU Error or Hardware Fault NORM/ERR Processing when error occurs Take the appropriate action referring System Errors in this Section Replace the Reader/Writer if the condition does not change. p.172 Lit green or fast Lit red flashing green ...
Page 172 Section 7 Troubleshooting Nonfatal Errors The NORM/ERR indicator flashes once if an error occurs in communications between the Reader/ Writer and host device or in communications with an RF Tag. NORM/ERR Lit green or fast Flashes red once flashing green Cyclic Data Exchanges Error NORM/ERR Lit green...
Page 173: Errors And Countermeasures
Section 7 Troubleshooting Errors and Countermeasures Reader/Writer Operation Errors  User Configuration Memory Error Initialize the settings to restore normal operation. There are the following two ways to initialize the Reader/Writer.  Initializing with a Command Message from the Host Device You can send the INITIALIZE SETTINGS command to the Reader/Writer to return the settings to the default values.
Page 174 Section 7 Troubleshooting IP Address Duplication Error Turn OFF the power supply to the Reader/Writer, remove the Reader/Writer from the network, correct the IP addresses, add the Reader/Writer to the network, and turn the power supply back ON. System Errors Turn OFF the power supply, check the wiring, and then turn ON the power supply.
Page 175 Section 7 Troubleshooting  Commands That Can Be Acknowledged by a Slave Reader/Writer The following table shows the commands that a Reader/Writer that is operating as a slave can acknowledge. If an unsupported command is received by a Slave Reader/Writer, an execution status error will be indicated in the response.
Page 176 Section 7 Troubleshooting V680S Command Errors You can check errors detected by the Reader/Writer in the Response Area where the Reader/Writer returns the response after command execution. You can also check error information by sending the GET COMMAND ERROR LOG command to the Reader/Writer or by using the Error Log View on a browser.
Page 177 Section 7 Troubleshooting RF Tag Communications Errors You can check errors detected by the Reader/Writer in the Response Area where the Reader/Writer returns the response after command execution. You can also check error information by sending the GET COMMAND ERROR LOG command to the Reader/Writer or by using the Error Log View on a browser.
Page 178: Maintenance And Inspection
Section 7 Troubleshooting Maintenance and Inspection The Reader/Writer must be inspected on a daily or periodic basis so that the functions remain in good condition. The Reader/Writer consists of semiconductors that last almost indefinitely. The following malfunctions, however, may result due to the operating environment and conditions. (1) Element deterioration due to overvoltage or overcurrent.
Page 179: Troubleshooting Flowcharts
Section 7 Troubleshooting Troubleshooting Flowcharts If an error occurs, fully check the whole situation, determine the relationship between the system and any other devices, and refer to the following flowcharts for the troubleshooting procedures. Main Check Flowchart Use the following Main Check Flowchart Main Check Flowchart to determine the cause of the error.
Page 180 Section 7 Troubleshooting System Connections Check Flowchart START Are the connector and Cable connections OK? Power ON Connect them correctly. RUN LED? Flashing green Not lit Lit green NORM/ERR LED? Flashing red Lit red Not lit Check the control Check the control signal line connection.
Page 181 Section 7 Troubleshooting Operating Conditions and External Environment Check Flowchart START Refer to Maintenance and Inspection. Are the operating p.176 conditions OK? Refer to Maintenance. Is the ambient p.39 noise OK? RFID System User's Manual (PROFINET)
Page 182 Section 7 Troubleshooting Host Device Communications Check Flowchart START Are the network Is the connector Is there a response? settings OK? wiring OK? Correct the connector Correct the settings. wiring. Are the Error code command contents = 1003 hex? correct? Send the correct command.
Page 183 RF Tag to restore is communications field. correct. RF Tag made by Error code another company? = 2008? Replace the RF Tag with an OMRON RF Tag. Is there a mistake Is the copy destination Error code Reader/Writer operating in the network = 200A?
Page 184 Section 7 Troubleshooting 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 Reader/Writer Broadcast storm...
Page 185: Cannot Display The Web Browser Operation Window
This section describes countermeasures when you cannot access the Reader/Writer Web browser interface (i.e., when you cannot display the operation window). Only countermeasures that have been confirmed by OMRON are provided. They may not solve all possible problems. Contact your OMRON representative if you have problems that cannot be solved.
Page 186 Section 7 Troubleshooting Countermeasure for Security Settings (1) Open the Control Panel and click the Java Icon. (2) Click the Security Tab and change the security level from high to medium. * If the security settings are not displayed, refer to Java Security Settings Are Not Displayed. This procedure will reduce the security verification performed for execution of Java applications and therefore it may affect the execution of other Java applications.
Page 187 Section 7 Troubleshooting (3) Restart the Web browser and access the IP address of the Reader/Writer again. * The first time you access the IP address, the following message will be displayed. Click the Execute Button to display the window. RFID System User's Manual (PROFINET)
Page 188 Section 7 Troubleshooting Java Security Settings Are Not Displayed This section describes the countermeasure when the exception site list is not displayed and operation is not possible. If the tab page to change Java security settings does not appear and you cannot change the settings when you select the Security Tab in step 2 of the procedure in Countermeasure for Security Settings, use the following procedure.
Page 189 Section 7 Troubleshooting Countermeasures for Other Problems (1) Open the Control Panel and click the Java Icon. (2) Click the Settings Button in the Temporary Internet Files Area on the General Tab Page. RFID System User's Manual (PROFINET)
Page 190 Section 7 Troubleshooting (3) Select the Keep temporary files on my computer Check Box and click the Delete Files Button. (4) Click the OK Button. (5) When the files have been deleted, click the OK Button and close all windows. Then, restart the Web browser and connect to the Reader/Writer again.
Page 191: Safe Mode
Section 7 Troubleshooting Safe Mode In addition to the Run Mode that is used for normal operation, the Reader/Writer supports a Safe Mode operation mode. The Safe Mode is used when you do not remember the IP address that is set in the Reader/ Writer.
Page 192 Section 7 Troubleshooting MEMO RFID System User's Manual (PROFINET)
Page 193: Section 8 Appendices
Section 8 Appendices Product Specifications Data Characteristics Reader/Writer Installation Precautions RF Tag Installation Precautions RF Tag Memory Capacities and Memory Types RF Tag Memory Map Chemical Resistance of the Reader/Writers and RF Tags Degree of Protection Differences in Address and Size Specifications between V680 and V680S Reader/Writers RFID System User's Manual...
Page 194: Product Specifications
Copy of EC Self Declaration IP address label 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. RFID System...
Page 195 Section 8 Appendices  Dimensions  V680S-HMD63-PNT (Unit: mm) Seven operation indicators Two, 4.5 dia. mounting holes Standards label Two, M4 holes 42±0.2 Mounting Hole Dimensions 18 dia. Cable bracket (20.5) 8-dia. round vinyl-insulated cable 8 dia. 4.6 dia. mounting hole View from Arrow A 6.5-dia.
Page 196 Section 8 Appendices  V680S-HMD64-PNT (Unit: mm) Seven operation indicators Four, 4.5 dia. mounting holes Standards label Four, M4 holes 65±0.2 18 dia. Cable bracket Mounting Hole Dimensions (20.5) 8-dia. round vinyl-insulated cable 17.5 8 dia. 4.6 dia. mounting hole View from Arrow A 6.5-dia.
Page 197 Section 8 Appendices  V680S-HMD66-PNT (Unit: mm) Seven operation indicators Four, 4.5 dia. mounting holes Standards label Four, M4 holes 110±0.2 18 dia. Mounting Hole Dimensions Cable bracket (20.5) 8-dia. round vinyl-insulated cable 17.5 8 dia. 4.6 dia. mounting hole View from Arrow A 6.5-dia.
Page 198 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.  Dimensions (Unit: mm) 1.1 2.7±0.1...
Page 199 Section 8 Appendices V700-A80 Attachment (Unit: mm) Mounting Hole Dimensions Two, M3 holes 31±0.2 31±0.2 Materials PPS resin  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.
Page 200 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. The V680-D1KP66MT must be mounted on a metallic surface. The markings on the V680-D1KP66T and V680-D1KP66MT are shown below.
Page 201 Section 8 Appendices  Dimensions V680-D1KP66T/-D1KP66MT (Unit: mm) Four, 4-mm corners Mounting Hole Dimensions Four, 3-mm corners +0.2 Two, M3 holes +0.2 +0.2 Two, 3.5 dia. Two, 6 dia. +0.2 +0.1 Case material PPS resin V600-A86 Attachment (Unit: mm) Four, 5.5-mm corners Two, 4 dia.
Page 202 Section 8 Appendices  V680-D1KP66T-SP  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 -25 to 70C (with no icing) temperature Ambient operating 35% to 95% (with no condensation)
Page 203 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.  Dimensions V680-D1KP58HTN 10±0.2...
Page 204 Section 8 Appendices V680-A80 Attachment This Attachment is used to hold V680-D1KP58HTN ID Tags. Applicable model: V680-D1KP58HTN (Unit: mm) 20 dia. 3.2 dia. 12 dia. 11.5 Mounting Hole Dimensions Accessories: 2 nuts (M12) 1 split pin (nominal dimensions: 3.2-mm dia. × 20-mm length) ...
Page 205 Section 8 Appendices  Data Retention Time Reset Procedure Always use the following procedure to reset the data holding time before a total of 10 hours is reached. When Using RF Tag Memory Addresses 0010 to 0015 hex 1. Read the data from RF Tag addresses 0010 to 0015 hex. RF Tag Memory 0010 Read the memory addresses...
Page 206 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. The V680-D8KF67M must be mounted on a metallic surface. The markings on the V680-D8KF67 and V680-D8KF67M are shown below.
Page 207 Section 8 Appendices  Dimensions V680-D8KF67/-D8KF67M (Unit: mm) 13.2 Mounting Hole Dimensions Two, 3.5-dia. Two, M3 holes mounting holes 13.2 40+0.1 -0.5 32±0.2 Mounting reference surface 32±0.2 40+0.1 -0.5 Case material PBT resin Filling Epoxy resin RFID System User's Manual (EtherNet/IP...
Page 208 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.  Dimensions V680-D8KF68A (Unit: mm) Two, 4.5-dia.
Page 209 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. 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.
Page 210 Section 8 Appendices  Dimensions V680S-D2KF67/-D2KF67M/-D8KF67/-D8KF67M (Unit: mm) Two, 3.5-dia. mounting holes Mounting Hole Dimensions Two, M3 holes 32±0.2 32±0.2 Case material PPS resin RFID System User's Manual (EtherNet/IP...
Page 211 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. 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.
Page 212 Section 8 Appendices  Dimensions V680S-D2KF68/-D2KF68M/-D8KF68/-D8KF68M (Unit: mm) Two, 4.5-dia. mounting holes Mounting Hole Dimensions Two, M4 holes 76±0.2 76±0.2 Case material PPS resin RFID System User's Manual (EtherNet/IP...
Page 213: Data Characteristics
Section 8 Appendices Data Characteristics Communications Range Specifications  V680S-HMD63-PNT Reader/Writer RF Tag Communications range specification V680S-HMD63-PNT V680-D1KP54T Read 0.0 to 24.0 mm (axis offset: ±10 mm) (mounted to metallic (mounted to non-metallic material) Write 0.0 to 20.0 mm (axis offset: ±10 mm) material) V680-D1KP66T Read...
Page 214 Section 8 Appendices  Installation Conditions V680-D1KP54T V680-D1KP66T V680S-HMD63-PNT V680S-HMD63-PNT Metallic material Metallic material V680-D1KP66T V680-D1KP54T Communications range Communications range Non-metallic material Non-metallic material Non-metallic material Non-metallic material (Examples: Resin, plastic, wood, etc.) (Examples: Resin, plastic, wood, etc.) (Examples: Resin, plastic, wood, etc.) (Examples: Resin, plastic, wood, etc.) V680-D1KP66MT V680-D1KP66T-SP...
Page 215 Section 8 Appendices  V680S-HMD64-PNT Reader/Writer RF Tag Communications Range Specification Read 5.0 to 50.0 mm (axis offset: 10 mm) V680S-HMD64-PNT V680-D8KF67 (mounted to metallic material) (mounted to non-metallic material) Write 5.0 to 50.0 mm (axis offset: 10 mm) Read 3.0 to 40.0 mm (axis offset: 10 mm) V680-D8KF67M (mounted to metallic material) Write 3.0 to 40.0 mm (axis offset: 10 mm)
Page 216 Section 8 Appendices  Installation Conditions V680-D8KF67 V680-D8KF67M Metallic material Metallic material V680S-HMD64-PNT V680S-HMD64-PNT Metallic material V680-D8KF67 V680-D8KF67M Communications Communications range range Non-metallic material Non-metallic material Non-metallic material Non-metallic material (Examples: Resin, plastic, wood, etc.) (Examples: Resin, plastic, wood, etc.) (Examples: Resin, plastic, wood, etc.) (Examples: Resin, plastic, wood, etc.) V680-D8KF68A...
Page 217 Section 8 Appendices V680-D1KP54T V680-D1KP66T Metallic material Metallic material V680S-HMD64-PNT V680S-HMD64-PNT V680-D1KP66T V680-D1KP54T Communications Communications range range Non-metallic material Non-metallic material Non-metallic material Non-metallic material (Examples: Resin, plastic, wood, etc.) (Examples: Resin, plastic, wood, etc.) (Examples: Resin, plastic, wood, etc.) (Examples: Resin, plastic, wood, etc.) V680-D1KP66MT V680-D1KP66T-SP...
Page 218 Section 8 Appendices  V680S-HMD66-PNT Reader/Writer RF Tag Communications Range Specification Read 7.0 to 70.0 mm (axis offset: 10 mm) V680S-HMD66-PNT V680-D8KF67 (mounted to metallic material) (mounted to non-metallic material) Write 7.0 to 70.0 mm (axis offset: 10 mm) Read 4.0 to 45.0 mm (axis offset: 10 mm) V680-D8KF67M (mounted to metallic material) Write 4.0 to 45.0 mm (axis offset: 10 mm)
Page 219 Section 8 Appendices  Installation Conditions V680-D8KF67 V680-D8KF67M Metallic material Metallic material V680S-HMD66-PNT V680S-HMD66-PNT Metallic material V680-D8KF67 V680-D8KF67M Communications Communications range range Non-metallic material Non-metallic material Non-metallic material Non-metallic material (Examples: Resin, plastic, wood, etc.) (Examples: Resin, plastic, wood, etc.) (Examples: Resin, plastic, wood, etc.) (Examples: Resin, plastic, wood, etc.) V680-D8KF68A...
Page 220 Section 8 Appendices V680-D1KP66T V680-D1KP54T Metallic material Metallic material V680S-HMD66-PNT V680S-HMD66-PNT V680-D1KP66T V680-D1KP54T Communications Communications range range Non-metallic material Non-metallic material Non-metallic material Non-metallic material (Examples: Resin, plastic, wood, etc.) (Examples: Resin, plastic, wood, etc.) (Examples: Resin, plastic, wood, etc.) (Examples: Resin, plastic, wood, etc.) V680-D1KP66MT V680-D1KP66T-SP...
Page 221 Section 8 Appendices RF Tag Communications Range (for Reference Only)  V680S-HMD63-PNT (Unit: mm) V680S-HMD63-PNT and V680-D1KP54MT V680S-HMD63-PNT and V680-D1KP66T (Back Surface: Metal) (Back Surface: Metal) Read Read Write Write -100 -80 -100 -80 V680S-HMD63-PNT and V680-D1KP66MT V680S-HMD63-PNT and V680-D1KP66T-SP (Back Surface: Metal) (Back Surface: Metal) (Back Surface: Metal) Read...
Page 222 Section 8 Appendices (Unit: mm) V680S-HMD63-PNT and V680S-D2KF67M V680S-HMD63-PNT and V680S-D2KF67 (Back Surface: Metal) (Back Surface: Metal) Read Read Write Write -100 -80 -100 -80 V680S-HMD63-PNT and V680S-D8KF67 V680S-HMD63-PNT and V680S-D8KF67M (Back Surface: Metal) (Back Surface: Metal) (Back Surface: Metal) Read Read Write...
Page 223 Section 8 Appendices  V680S-HMD64-PNT (Unit: mm) V680S-HMD64-PNT and V680-D1KP54T V680S-HMD64-PNT and V680-D1KP66T (Back Surface: Metal) (Back Surface: Metal) Read Read Write Write -100 -80 -100 -80 V680S-HMD64-PNT and V680-D1KP66MT V680S-HMD64-PNT and V680-D1KP66T-SP (Back Surface: Metal) (Back Surface: Metal) (Back Surface: Metal) Read Read Write...
Page 224 Section 8 Appendices (Unit: mm) V680S-HMD64-PNT and V680-D8KF67 V680S-HMD64-PNT and V680-D8KF67M (Back Surface: Metal) (Back Surface: Metal) (Back Surface: Metal) Read Read Write Write -100 -80 -100 -80 V680S-HMD64-PNT and V680-D8KF68A V680S-HMD64-PNT and V680-D8KF68A (Back Surface: Metal) (Horizontal-facing RF Tag) (Back Surface: Metal) (Vertical-facing RF Tag) Read...
Page 225 Section 8 Appendices (Unit: mm) V680S-HMD64-PNT and V680S-D2KF68 V680S-HMD64-PNT and V680S-D2KF68 (Back Surface: Metal) (Horizontal-facing RF Tag) (Back Surface: Metal) (Vertical-facing RF Tag) Read Read Write Write -250 -200 -150 -100 -250 -200 -150 -100 V680S-HMD64-PNT and V680S-D2KF68M V680S-HMD64-PNT and V680S-D2KF68M (Back Surface: Metal) (Back Surface: Metal) (Back Surface: Metal)
Page 226 Section 8 Appendices  V680S-HMD66-PNT (Unit: mm) V680S-HMD66-PNT and V680-D1KP66T V680S-HMD66-PNT and V680-D1KP54T (Back Surface: Metal) (Back Surface: Metal) Read Read Write Write -100 -80 -250 -200 -150 -100 V680S-HMD66-PNT and V680-D1KP66MT V680S-HMD66-PNT and V680-D1KP66T-SP (Back Surface: Metal) (Back Surface: Metal) (Back Surface: Metal) Read Read...
Page 227 Section 8 Appendices (Unit: mm) V680S-HMD66-PNT and V680-D8KF67 V680S-HMD66-PNT and V680-D8KF67M (Back Surface: Metal) (Back Surface: Metal) (Back Surface: Metal) Read Read Write Write -250 -200 -150 -100 -100 -80 V680S-HMD66-PNT and V680-D8KF68A V680S-HMD66-PNT and V680-D8KF68A (Back Surface: Metal) (Horizontal-facing RF Tag) (Back Surface: Metal) (Vertical-facing RF Tag) Read...
Page 228 Section 8 Appendices (Unit: mm) V680S-HMD66-PNT and V680S-D2KF68 V680S-HMD66-PNT and V680S-D2KF68 (Back Surface: Metal) (Horizontal-facing RF Tag) (Back Surface: Metal) (Vertical-facing RF Tag) Read Read Write Write -250 -200 -150 -100 -250 -200 -150 -100 V680S-HMD66-PNT and V680S-D2KF68M V680S-HMD66-PNT and V680S-D2KF68M (Back Surface: Metal) (Back Surface: Metal) (Back Surface: Metal)
Page 229 Section 8 Appendices RF Tag Communications Time (for Reference Only) ? Communications Time Communications time is from the rise of the RF signal to the last bit of the response from the RF tag. Command Response RF signal Communications time RF signal : The radio wave that the Reader/Writer turns ON the RF Tag.
Page 230 Section 8 Appendices V680S-HMD6-PNT and V680S-D2KF6 (Communications speed setting: High speed) Command Communications time (ms) N: No. of bytes processed Read T= 0.4N + 17.4 Write (with verification) Write (with verification) T= 1.0N + 51.9 Write (without verification) Write (without verification) T= 0.7N + 35.2 Read No.
Page 231 Section 8 Appendices  Travel Speed Calculations Set the communications option to Repeat to communicate with a moving RF Tag. The maximum speed for communicating with the RF Tag can be calculated simply using the following formula. D (Distance traveled in communications field) Maximum speed = T (Communications time) D (Distance traveled in communications field) is calculated from the actual measurement or the...
Page 232: Reader/Writer Installation Precautions
Section 8 Appendices Reader/Writer Installation Precautions V680S-HMD63-PNT  Influence of Surrounding Metal on Reader/Writer The Reader/Writer can be surface-mounted or it can be embedded in metal to protect it from collisions. If you embed the Reader/Writer in metal, separate it at least 80 mm from any metallic surface to prevent malfunctions.
Page 233 Section 8 Appendices V680S-HMD64-PNT  Influence of Surrounding Metal on Reader/Writer The Reader/Writer can be surface-mounted or it can be embedded in metal to protect it from collisions. If you embed the Reader/Writer in metal, separate it at least 100 mm from any metallic surface to prevent malfunctions.
Page 234 Section 8 Appendices  Installing the Reader/Writer Facing Each Other  Installing the Reader/Writer in Parallel Mounting distance Mounting distance RFID System User's Manual (EtherNet/IP...
Page 235 Section 8 Appendices V680S-HMD66-PNT  Influence of Surrounding Metal on Reader/Writer The Reader/Writer can be surface-mounted or it can be embedded in metal to protect it from collisions. If you embed the Reader/Writer in metal, separate it at least 160 mm from any metallic surface to prevent malfunctions.
Page 236 Section 8 Appendices  Reader/Writers Installed Facing Each Other  Reader/Writers Installed in Parallel Mounting distance Mounting distance RFID System User's Manual (EtherNet/IP...
Page 237: Rf Tag Installation Precautions
Section 8 Appendices RF Tag Installation Precautions V680-D1KP54T  Effect of Metal behind RF Tags The communications range will decrease if there is metal at the back of the V680-D1KP54T RF Tag. The V700-A80 Attachment is 8 mm thick. If the RF Tag is mounted on metallic material, use a non- metallic spacer (e.g., plastic or resin).
Page 238 Section 8 Appendices  Mutual Interference of RF Tags If you use more than one RF Tag, separate them by at least the interval shown below to prevent malfunctions due to mutual interference. If the distance between the RF tags is too short, read / write distance will be reduced. ...
Page 239 Section 8 Appendices  Influence of Inclination Install the Reader/Writer and RF Tags so that the Reader/Writer and RF Tags are as parallel to each other as possible. Communications will be possible even if the Reader/Writer and RF Tags are not parallel to each other; however, the communications range is affected by the inclination between them as shown in the following graphs.
Page 240 Section 8 Appendices V680-D1KP66T  Influence of Metal at Back Surface The communications range will decrease if there 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 insert a non-metallic spacer (e.g., plastic or resin). The following graphs show the relationship between the distance from the RF Tag to the metallic surface and the communications range.
Page 241 Section 8 Appendices  Mutual Interference of RF Tags If you use more than one RF Tag, separate them by at least the interval shown below to prevent malfunctions due to mutual interference. If the distance between the RF tags is too short, read / write distance will be reduced. ...
Page 242 Section 8 Appendices  Influence of Inclination Install the Reader/Writer and RF Tags so that the Reader/Writer and RF Tags are as parallel to each other as possible. Communications will be possible even if the Reader/Writer and RF Tags are not parallel to each other; however, the communications range is affected by the inclination between them as shown in the following graphs.
Page 243 Section 8 Appendices V680-D1KP66MT  Influence of Surrounding Metal The V680-D1KP66MT can be surface-mounted or it can be embedded in metal. However, do not allow the height of the metal to exceed the height of the V680-D1KP66MT. RF Tag RF Tag Embedded Surface-mounted 3.5mm max.
Page 244 Section 8 Appendices  Mutual Interference of RF Tags If you use more than one RF Tag, separate them by at least the interval shown below to prevent malfunctions due to mutual interference. If the distance between the RF tags is too short, read / write distance will be reduced. ...
Page 245 Section 8 Appendices  Influence of Inclination Install the Reader/Writer and RF Tags so that the Reader/Writer and RF Tags are as parallel to each other as possible. Communications will be possible even if the Reader/Writer and RF Tags are not parallel to each other; however, the communications range is affected by the inclination between them as shown in the following graphs.
Page 246 Section 8 Appendices V680-D1KP66T-SP  Influence of Metal at Back Surface The communications range will decrease if there is metal at the back of the V680-D1KP66T-SP RF Tag. If the RF Tag is mounted on metallic material, use a non-metallic spacer (e.g., plastic or resin). The following graphs show the relationship between the distance from the RF Tag to the metallic surface and the communications range.
Page 247 Section 8 Appendices  Mutual Interference of RF Tags If you use more than one RF Tag, separate them by at least the interval shown below to prevent malfunctions due to mutual interference. If the distance between the RF tags is too short, read / write distance will be reduced. ...
Page 248 Section 8 Appendices V680S-HMD66-PNT Reader/Writer 110 mm min. 110 mm min. 110 mm min. 110 mm min. RFID System User's Manual (EtherNet/IP...
Page 249 Section 8 Appendices  Influence of Inclination Install the Reader/Writer and RF Tags so that the Reader/Writer and RF Tags are as parallel to each other as possible. Communications will be possible even if the Reader/Writer and RF Tags are not parallel to each other; however, the communications range is affected by the inclination between them as shown in the following graphs.
Page 250 Section 8 Appendices V680-D1KP58HTN  Influence of Metal at Back Surface You must consider the influence of the mounting location when mounting RF Tags. The communications range of an RF Tag may be reduced by the influence of the surrounding objects. The amount that the communications range decreases will depend on the materials and shapes of the surrounding objects.
Page 251 Section 8 Appendices  Mutual Interference of RF Tags If you use more than one RF Tag, separate them by at least the interval shown below to prevent malfunctions due to mutual interference. If the distance between the RF tags is too short, read / write distance will be reduced. ...
Page 252 Section 8 Appendices V680-D8KF67  Influence of Metal at Back Surface of RF Tags The communications range will decrease if there is metal at the back of the V680-D8KF667 RF Tag. If the RF Tag is mounted on metallic material, use a non-metallic spacer (e.g., plastic or resin). The following graphs show the relationship between the distance from the RF Tag to the metallic surface and the communications range.
Page 253 Section 8 Appendices  Influence of Inclination Install the Reader/Writer and RF Tags so that the Reader/Writer and RF Tags are as parallel to each other as possible. Communications will be possible even if the Reader/Writer and RF Tags are not parallel to each other; however, the communications range is affected by the inclination between them as shown in the following graphs.
Page 254 Section 8 Appendices V680-D8KF67M  Influence of Surrounding Metal The V680-D8KF67M can be surface-mounted or it can be embedded in metal. However, do not allow the height of the metal to exceed the height of the V680-D8KF67M. RF Tag RF Tag Embedded Surface-mounted 4.5mm max.
Page 255 Section 8 Appendices  Influence of Inclination Install the Reader/Writer and RF Tags so that the Reader/Writer and RF Tags are as parallel to each other as possible. Communications will be possible even if the Reader/Writer and RF Tags are not parallel to each other; however, the communications range is affected by the inclination between them as shown in the following graphs.
Page 256 Section 8 Appendices V680-D8KF68A  Influence of Metal at Back Surface of RF Tags The communications range will decrease if there is metal at the back of the V680-D1KP68A RF Tag. If the RF Tag is mounted on metallic material, use a non-metallic spacer (e.g., plastic or resin). The following graphs show the relationship between the distance from the RF Tag to the metallic surface and the communications range.
Page 257 Section 8 Appendices  Mutual Interference of RF Tags If you use more than one RF Tag, separate them by at least the interval shown below to prevent malfunctions due to mutual interference. If the distance between the RF tags is too short, read / write distance will be reduced. ...
Page 258 Section 8 Appendices  Influence of Inclination (for Reference Only) Install the Reader/Writer and RF Tags so that the Reader/Writer and RF Tags are as parallel to each other as possible. Communications will be possible even if the Reader/Writer and RF Tags are not parallel to each other; however, the communications range is affected by the inclination between them as shown in the following graphs.
Page 259 Section 8 Appendices V680S-D2KF67  Influence of Metal at Back Surface of RF Tags The communications range will decrease if there is metal at the back of the V680S-D2KF67 RF Tag. If the RF Tag is mounted on metallic material, use a non-metallic spacer (e.g., plastic or resin). The following graphs show the relationship between the distance from the RF Tag to the metallic surface and the communications range.
Page 260 Section 8 Appendices  Mutual Interference of RF Tags If you use more than one RF Tag, separate them by at least the interval shown below to prevent malfunctions due to mutual interference. If the distance between the RF tags is too short, read / write distance will be reduced. ...
Page 261 Section 8 Appendices  Influence of Inclination Install the Reader/Writer and RF Tags so that the Reader/Writer and RF Tags are as parallel to each other as possible. Communications will be possible even if the Reader/Writer and RF Tags are not parallel to each other; however, the communications range is affected by the inclination between them as shown in the following graphs.
Page 262 Section 8 Appendices V680S-D2KF67M  Influence of Surrounding Metal The V680S-D2KF67M can be surface-mounted or it can be embedded in metal. However, do not allow the height of the metal to exceed the height of the V680S-D2KF67M. RF Tag RF Tag Embedded Surface-mounted 5 mm max.
Page 263 Section 8 Appendices  Mutual Interference of RF Tags If you use more than one RF Tag, separate them by at least the interval shown below to prevent malfunctions due to mutual interference. If the distance between the RF tags is too short, read / write distance will be reduced. ...
Page 264 Section 8 Appendices  Influence of Inclination Install the Reader/Writer and RF Tags so that the Reader/Writer and RF Tags are as parallel to each other as possible. Communications will be possible even if the Reader/Writer and RF Tags are not parallel to each other; however, the communications range is affected by the inclination between them as shown in the following graphs.
Page 265 Section 8 Appendices V680S-D8KF67  Influence of Metal at Back Surface of RF Tags The communications range will decrease if there is metal at the back of the V680S-D8KF67 RF Tag. If the RF Tag is mounted on metallic material, use a non-metallic spacer (e.g., plastic or resin). The following graphs show the relationship between the distance from the RF Tag to the metallic surface and the communications range.
Page 266 Section 8 Appendices  Mutual Interference of RF Tags If you use more than one RF Tag, separate them by at least the interval shown below to prevent malfunctions due to mutual interference. If the distance between the RF tags is too short, read / write distance will be reduced. ...
Page 267 Section 8 Appendices  Influence of Inclination Install the Reader/Writer and RF Tags so that the Reader/Writer and RF Tags are as parallel to each other as possible. Communications will be possible even if the Reader/Writer and RF Tags are not parallel to each other; however, the communications range is affected by the inclination between them as shown in the following graphs.
Page 268 Section 8 Appendices V680S-D8KF67M  Influence of Surrounding Metal The V680S-D8KF67M can be surface-mounted or it can be embedded in metal. However, do not allow the height of the metal to exceed the height of the V680S-D8KF67M. RF Tag RF Tag Embedded Surface-mounted 5 mm max.
Page 269 Section 8 Appendices  Mutual Interference of RF Tags If you use more than one RF Tag, separate them by at least the interval shown below to prevent malfunctions due to mutual interference. If the distance between the RF tags is too short, read / write distance will be reduced. ...
Page 270 Section 8 Appendices  Influence of Inclination Install the Reader/Writer and RF Tags so that the Reader/Writer and RF Tags are as parallel to each other as possible. Communications will be possible even if the Reader/Writer and RF Tags are not parallel to each other; however, the communications range is affected by the inclination between them as shown in the following graphs.
Page 271 Section 8 Appendices V680S-D2KF68  Influence of Metal at Back Surface of RF Tags The communications range will decrease if there is metal at the back of the V680S-D2KF68 RF Tag. If the RF Tag is mounted on metallic material, use a non-metallic spacer (e.g., plastic or resin). The following graphs show the relationship between the distance from the RF Tag to the metallic surface and the communications range.
Page 272 Section 8 Appendices  Mutual Interference of RF Tags If you use more than one RF Tag, separate them by at least the interval shown below to prevent malfunctions due to mutual interference. If the distance between the RF tags is too short, read / write distance will be reduced. ...
Page 273 Section 8 Appendices  Influence of Inclination Install the Reader/Writer and RF Tags so that the Reader/Writer and RF Tags are as parallel to each other as possible. Communications will be possible even if the Reader/Writer and RF Tags are not parallel to each other; however, the communications range is affected by the inclination between them as shown in the following graphs.
Page 274 Section 8 Appendices V680S-D2KF68M  Influence of Surrounding Metal The V680S-D2KF68M can be surface-mounted or it can be embedded in metal. However, do not allow the height of the metal to exceed the height of the V680S-D2KF68M. RF Tag RF Tag Embedded Surface-mounted 10 mm max.
Page 275 Section 8 Appendices  Mutual Interference of RF Tags If you use more than one RF Tag, separate them by at least the interval shown below to prevent malfunctions due to mutual interference. If the distance between the RF tags is too short, read / write distance will be reduced. ...
Page 276 Section 8 Appendices  Influence of Inclination Install the Reader/Writer and RF Tags so that the Reader/Writer and RF Tags are as parallel to each other as possible. Communications will be possible even if the Reader/Writer and RF Tags are not parallel to each other; however, the communications range is affected by the inclination between them as shown in the following graphs.
Page 277 Section 8 Appendices V680S-D8KF68  Influence of Metal at Back Surface of RF Tags The communications range will decrease if there is metal at the back of the V680S-D8KF68 RF Tag. If the RF Tag is mounted on metallic material, use a non-metallic spacer (e.g., plastic or resin). The following graphs show the relationship between the distance from the RF Tag to the metallic surface and the communications range.
Page 278 Section 8 Appendices  Mutual Interference of RF Tags If you use more than one RF Tag, separate them by at least the interval shown below to prevent malfunctions due to mutual interference. If the distance between the RF tags is too short, read / write distance will be reduced. ...
Page 279 Section 8 Appendices  Influence of Inclination Install the Reader/Writer and RF Tags so that the Reader/Writer and RF Tags are as parallel to each other as possible. Communications will be possible even if the Reader/Writer and RF Tags are not parallel to each other; however, the communications range is affected by the inclination between them as shown in the following graphs.
Page 280 Section 8 Appendices V680S-D8KF68M  Influence of Surrounding Metal The V680S-D8KF68M can be surface-mounted or it can be embedded in metal. However, do not allow the height of the metal to exceed the height of the V680S-D8KF68M. RF Tag RF Tag Embedded Surface-mounted 10 mm max.
Page 281 Section 8 Appendices  Mutual Interference of RF Tags If you use more than one RF Tag, separate them by at least the interval shown below to prevent malfunctions due to mutual interference. If the distance between the RF tags is too short, read / write distance will be reduced. ...
Page 282 Section 8 Appendices  Influence of Inclination Install the Reader/Writer and RF Tags so that the Reader/Writer and RF Tags are as parallel to each other as possible. Communications will be possible even if the Reader/Writer and RF Tags are not parallel to each other; however, the communications range is affected by the inclination between them as shown in the following graphs.
Page 283: Rf Tag Memory Capacities And Memory Types
Section 8 Appendices RF Tag Memory Capacities and Memory Types (As of January 2014) Memory capacity (user Model Memory type Life expectancy memory)  Write endurance: 100,000 times per block V680-D1KP54T (25C) V680-D1KP66T  Data retention: 10 years after writing (85C V680-D1KP66MT V680-D1KP66T-SP or less)
Page 284: Rf Tag Memory Map
Section 8 Appendices RF Tag Memory Map V680-D1KP RF Tags Block Address(W) Data 0000 hex 0001 hex 0002 hex 0003 hex 0004 hex 0005 hex 0006 hex EEPROM is used as the memory in the RF Tag. 0007 hex The user-accessible capacity is 1,000 bytes. User area 01EC hex 01ED hex...
Page 285 Section 8 Appendices V680-D8KF6 RF Tags Sector Block Address(W) Data 0000 hex 0001 hex 0002 hex 0003 hex 0004 hex 0005 hex 0006 hex 0007 hex 03F8 hex 03F9 hex 03FA hex 03FB hex 03FC hex 03FD hex 03FE hex 03FF hex FRAM is used as the memory in the User area...
Page 286 Section 8 Appendices V680S-D2KF6 RF Tags Block Address(W) Data 0000 hex 0001 hex 0002 hex 0003 hex 0004 hex 0005 hex 0006 hex FRAM is used as the memory in the RF Tag. 0007 hex The user-accessible capacity is 2,000 bytes. User area 03E0 hex 03E1 hex...
Page 287 Section 8 Appendices V680S-D8KF6 RF Tags Block Address(W) Data 0000 hex 0001 hex 0002 hex 0003 hex 000C hex 000D hex 000E hex 000F hex 0010 hex 0011 hex 0012 hex 0013 hex 001C hex 001D hex 001E hex FRAM is used as the memory in the RF Tag. 001F hex The user-accessible capacity is 8,192 bytes.
Page 288: Chemical Resistance Of The Reader/Writers And Rf Tags
Section 8 Appendices Chemical Resistance of the Reader/Writers and RF Tags Chemical Resistance of the Reader/Writers  Applicable Models V680S-HMD63-PNT/-HMD64-PNT/-HMD66-PNT The chemicals that affect the Reader/Writer are listed below. PBT (polybutylene terephthalate) is used as the case material and a urethane resin is used as the filling.
Page 289 Section 8 Appendices Chemical Resistance of RF Tags  Applicable Models V680-D1KP54T/-D1KP66T/-D1KP66MT/-D1KP58HTN/V680S-DKF6 PPS resin is used for case material. Refer to the following lists and do not use chemicals that affect PPS and epoxy resin. RF Tags cannot be used in applications with explosion-proof specifications. At room At room Chemical...
Page 290 Section 8 Appendices  Applicable Models V680-D8KF67/-D8KF67M/-D8KF68A Chemicals that affect RF Tags are shown below. Polybutylene terephthalate (PBT) resin is used for case material and epoxy resin for filling material. Refer to the following lists and do not use chemicals that affect PBT and epoxy resins. RF Tags cannot be used in applications with explosion-proof specifications.
Page 291 Section 8 Appendices  Applicable Models V680-D1KP66T-SP PFA resin is used for exterior case material. Refer to the following lists and do not use chemicals that affect PFA resin. RF Tags cannot be used in applications with explosion-proof specifications.  Chemical Resistance of Fluoroplastic PFA (Reference) PFA: Tetrafluorethylene-Perfluoroalkylvinyletheir Copolymer Fluoroplastic PFA does not react with most chemicals except molten alkali metal, hot pressurized fluorine (F2), and some halogen derivatives.
Page 292 Section 8 Appendices  Organic Chemicals Resulting characteristics Test Weight Chemical name temperature increase Tensile rate (%) (C) Elongation strength Glacial acetic acid Acetic anhydride Trichloroacetic acid Isooctane Naphtha Mineral oil Toluene o-creosol Nitrobenzene Benzyl alcohol Aniline n-butylamine Ethylenediamine Tetrahydrofuran Benzaldehyde Cyclohexane Methyl ethyl ketone...
Page 293: Degree Of Protection
Section 8 Appendices Degree of Protection Ingress protection degrees (IP-) are determined by the following tests. Be sure to check the sealing capability under the actual operating environment and conditions before actual use.  IEC (International Electrotechnical Commission) IEC 60529:2001 (A) First Digit: Degree of Protection from Solid Materials Degree Protection...
Page 294 Oil-proof Protects against penetration of oil drops or oil spray approaching from any direction. Note. Oil resistance has been tested using a specific oil as defined in the OMRON test method. (JIS C 0920:2003, Appendix 1) RFID System User's Manual...
Page 295: Differences In Address And Size Specifications Between V680 And V680S Reader/Writers
Section 8 Appendices Differences in Address and Size Specifications between V680 and V680S Reader/Writers RF Tag access for V680S-series Reader/Writers is performed in words (1 word = 2 bytes). RF Tag access for V680-series Controllers is performed in bytes. Be sure to access data in the correct units. The word and byte addresses for the memory map of a V680-D1KP...
Page 296: Revision History
Revision History A manual revision code appears as a suffix to the catalog number at the bottom of the front and rear pages. Man. No.: Z354-E1-04 Revision code Revision code Date Revised contents February 2015 Original production Changed model numbers of the recommended cable for Ethernet cable and Power August 2015 cable, and changed the information for RF Tag Communications Time.
Page 298 The Netherlands Hoffman Estates, IL 60169 U.S.A Tel: (31)2356-81-300/Fax: (31)2356-81-388 Tel: (1) 847-843-7900/Fax: (1) 847-843-7787 © OMRON Corporation 2015-2016 All Rights Reserved. OMRON (CHINA) CO., LTD. OMRON ASIA PACIFIC PTE. LTD. In the interest of product improvement, Room 2211, Bank of China Tower, No.

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