Page 2 - SAFETY PRECAUTIONS; WARNING
A - 1 A - 1 Q SAFETY PRECAUTIONS Q (Always read these precautions prior to use.) Before using this product, please read this manual and the relevant manuals introduced in this manual carefully and pay full attention to safety to ensure that the product is used correctly. The precautions presented in...
Page 3 - of electric facilities can open control panel.; CAUTION; malfunction, and product damage or deterioration.; CAUTION
A - 2 A - 2 [DESIGN PRECAUTIONS] CAUTION Q When storing the product, be sure to observe the defined storage ambient temperature and humidity. Failure to do so will lead to module malfunction and failure. Q Look the control panel so that only those who are trained and have acquired enough knowledge o...
Page 12 - Chapter 1 OVERVIEW; writing with Omron RFID system V680 series ID tags.; Amplifier
1 - 1 1 - 1 1. OVERVIEW Chapter 1 OVERVIEW This user’s manual describes the specifications, use, ID tag communication method, and other information related to the EQ-V680D1/EQ-V680D2 RFID interface module (hereinafter “RFID interface module”). The RFID interface module is mounted on a base unit of t...
Page 13 - RFID Interface Module Features
1 - 2 1 - 2 1. OVERVIEW 1.2 RFID Interface Module Features The following describes the features of the RFID interface module. (1) The RFID interface module uses a rich group of Mitsubishi Electric MELSEC-Q series products, and is capable of controlling Omron RFID system V680 series products. (2) The...
Page 14 - Application System
2 - 1 2 - 1 2. SYSTEM CONFIGURATION Chapter 2 SYSTEM CONFIGURATION The following describes the system configuration of the RFID interface module. 2.1 Application System The following describes the application system. (1) Mountable modules, mountable quantities, and mountable base units (a) When moun...
Page 15 - SYSTEM CONFIGURATION
2 - 2 2 - 2 2. SYSTEM CONFIGURATION Table 2.1 Application system (Continued) Mountable CPU Module Mountable Base Unit* 2 CPU Type CPU Model Mountable Quantity* 1 Main Base Unit Extension Base Unit Q03UDECPU Q04UDEHCPUQ06UDEHCPUQ10UDEHCPUQ13UDEHCPUQ20UDEHCPU Universal model CPU Q26UDEHCPU 64, maximum...
Page 16 - (2) Compatibility with multiple CPU systems
2 - 3 2 - 3 2. SYSTEM CONFIGURATION (2) Compatibility with multiple CPU systems When you want to use the RFID interface module in a multiple CPU system, be sure to first refer to the manual below: QCPU User’s Manual (Multiple CPU System) (a) Compatible RFID interface modules The RFID interface modul...
Page 17 - Verifying the Function Version
2 - 4 2 - 4 2. SYSTEM CONFIGURATION 2.2 Verifying the Function Version The following describes the method used to verify the function version of the RFID interface module. (1) Verifying the function version of the RFID interface module (a) When verifying the version by viewing the “SERIAL” area of t...
Page 18 - Identification of the UL/cUL authorization acquisition item; UL/cUL authorization acquisition
2 - 5 2 - 5 2. SYSTEM CONFIGURATION 2.3 Identification of the UL/cUL authorization acquisition item The RFID interface module produced after September, 2011 is shipped as the UL/cUL authorization acquisition item. The RFID interface module can distinguish the UL/cUL authorization acquisition item by...
Page 19 - Overall Configuration
2 - 6 2 - 6 2. SYSTEM CONFIGURATION 2.4 Overall Configuration The following indicates the overall configuration of the RFID system. 2.4.1 System that uses a separate amplifier type antenna The following illustrates a system that uses a separate amplifier type antenna. The antennas, amplifier and ID ...
Page 21 - Table 2.3 Component List
2 - 8 2 - 8 2. SYSTEM CONFIGURATION 2.5 Component List The component lists the required equipment for using the RFID interface module. Table 2.3 Component List Product Name Model Remarks EQ-V680D1 V680 series RFID interface module; one antenna connected RFID interface module EQ-V680D2 V680 series RF...
Page 22 - Chapter 3 SPECIFICATIONS
3 - 1 3 - 1 3. SPECIFICATIONS Chapter 3 SPECIFICATIONS The following describes the RFID interface module performance specifications, programmable controller CPU input/output signals, and buffer memory specifications. The following table shows the general specifications of the RFID interface module. ...
Page 23 - iring
3 - 2 3 - 2 3. SPECIFICATIONS 3.1 Performance Specifications The following describes the performance specifications of the RFID interface module. Table 3.1 Performance specifications Item Specifications Model EQ-V680D1 EQ-V680D2 Manufactured by Omron Corporation Connectable antenna V680-HA63A+V680-H...
Page 24 - Table 3.2 RUN mode functions list
3 - 3 3 - 3 3. SPECIFICATIONS 3.2 Functions The RFID interface module has two operation modes: RUN mode and TEST mode. The following describes the functions of each mode. 3.2.1 RUN mode RUN mode is used during programmable controller operation. To set the mode to RUN mode, set the test switch locate...
Page 25 - Table 3.3 TEST mode functions list; Function
3 - 4 3 - 4 3. SPECIFICATIONS 3.2.2 TEST mode TEST mode is used when starting the RFID system or when performing maintenance. To set the mode to TEST mode, either set the test switch located on the front of the RFID interface module to “TEST,” or set the test mode execution request (Y15) to ON in th...
Page 31 - Table 3.6 Communication specification list
3 - 10 3 - 10 3. SPECIFICATIONS (2) Communication specification area (Un \ G1, Un \ G4001) The communication specification method is selected according to the ID tag status (stationary, moving, number of ID tags in antenna communication area, etc.). For details of the control method for each communi...
Page 32 - Table 3.7 Processing specification list
3 - 11 3 - 11 3. SPECIFICATIONS (3) Processing specification area (Un \ G2, Un \ G4002) This area is used to select the processing specification contents according to the commands used. Table 3.7 Processing specification list Name Specification Contents Processing Contents Applicable Commands 0000 H...
Page 36 - Screw Location
4 - 1 4 - 1 4. SETUP AND PROCEDURES PRIOR TO OPERATION Chapter 4 SETUP AND PROCEDURES PRIOR TO OPERATION The following describes the setup and procedures to be executed prior to operation, names of parts, wiring, and the like for a system that uses the RFID interface module. Point (1) When using the...
Page 37 - SETUP AND PROCEDURES PRIOR TO OPERATION; Installation Environment
4 - 2 4 - 2 4. SETUP AND PROCEDURES PRIOR TO OPERATION 4.2 Installation Environment Refer to the user’s manual of the CPU module used. 4.3 Cable Installation When installing the antenna cable to the RFID interface module, be sure that excessive external force is not applied to the connector connecti...
Page 38 - Setup and Procedures Prior to Operation
4 - 3 4 - 3 4. SETUP AND PROCEDURES PRIOR TO OPERATION 4.4 Setup and Procedures Prior to Operation
Page 40 - The following describes the wiring of the RFID interface module.; The RFID interface module will not operate.
4 - 5 4 - 5 4. SETUP AND PROCEDURES PRIOR TO OPERATION 4.6 Wiring The following describes the wiring of the RFID interface module. 4.6.1 Wiring precautions CAUTION Q Do not wire the cables near or bundle the cables with main circuit cables, or power lines. Doing so causes noise and surge impact, res...
Page 41 - Connect the 24V DC power supply to the power supply of (1) below.; Model Input; can be significantly reduced by supplying power via a line filter.
4 - 6 4 - 6 4. SETUP AND PROCEDURES PRIOR TO OPERATION Connect the 24V DC power supply to the power supply of (1) below. (1) A circuit (class 2 circuit) having a class 2 power supply module in accordance with UL1310 or a class 2 transformer in accordance with UL1585 as a power supply, and a maximum ...
Page 45 - Test switch located on the front of the RFID interface module
5 - 1 5 - 1 5. THINGS YOU NEED TO KNOW BEFORE PROGRAMMING Chapter 5 THINGS YOU NEED TO KNOW BEFORE PROGRAMMING 5.1 Operation Mode The RFID interface module has two operation modes: RUN mode and TEST mode. 5.1.1 Switching the operation mode The operation mode is switched using one of the following tw...
Page 46 - THINGS YOU NEED TO KNOW BEFORE PROGRAMMING
5 - 2 5 - 2 5. THINGS YOU NEED TO KNOW BEFORE PROGRAMMING (1) Using TEST mode 1. Set the operation mode to TEST mode. Set the test contents to be executed in buffer memory (Un \ G8000 to Un \ G8002). For TEST mode operation setting details, refer to Sections 3.4.2 (14) to (16). Point (1) The TEST ex...
Page 52 - RFID interface module.
5 - 8 5 - 8 5. THINGS YOU NEED TO KNOW BEFORE PROGRAMMING 5.2 ID Tag Memory The following describes the memory of ID tags capable of communicating with the RFID interface module. Communication between V680 series ID tags and antennas is performed in units of blocks (units of 8 bytes). When a write e...
Page 55 - Bit
5 - 11 5 - 11 5. THINGS YOU NEED TO KNOW BEFORE PROGRAMMING (3) Write protect setting example (a) When write-protecting data from address 0015 H to 0120 H (start address < end address) Table 5.8 Write Protect Setting Example (Start Address < End Address) Bit Address Upper Lower 1 0 0 0 0 0 0 0...
Page 57 - The addresses up to the last ID tag address 03E7
5 - 13 5 - 13 5. THINGS YOU NEED TO KNOW BEFORE PROGRAMMING (c) When the end address exceeds the last ID tag address (last ID tag address < end address) The following is a setting example of a case where the ID tag is V680-D1KP . The addresses up to the last ID tag address 03E7 H are write protec...
Page 58 - and from
5 - 14 5 - 14 5. THINGS YOU NEED TO KNOW BEFORE PROGRAMMING (d) When the start address exceeds the end address (start address > end address) The following is a setting example of a case where the ID tag is V680-D1KP . The addresses from the start address to the last ID tag address 03E7 H and from...
Page 59 - Table 5.12 Write Protect Cancellation Method
5 - 15 5 - 15 5. THINGS YOU NEED TO KNOW BEFORE PROGRAMMING 5.3.2 How to cancel write protect When you want to cancel a write protect setting, set the most significant bit of the address 0000 H to “0”. The write protect setting is canceled, and the start and end address settings set in addresses 000...
Page 61 - serve as the number of writes management area.; Un
5 - 17 5 - 17 5. THINGS YOU NEED TO KNOW BEFORE PROGRAMMING (2) Example of use The following describes an example of a case where the three bytes from the address 0010 H serve as the number of writes management area. 1. The Write command is executed, clearing the management area. 0013 H 0012 H 0011 ...
Page 64 - With five as the number of writes [specified by command options (Un
5 - 20 5 - 20 5. THINGS YOU NEED TO KNOW BEFORE PROGRAMMING (2) Example of use The following describes an example of a case where the three bytes from the address 0010 H serve as the number of writes management area. 1. The Write command is executed to write a write life of 100,000 in the management...
Page 67 - With the five bytes specified from address 0010
5 - 23 5 - 23 5. THINGS YOU NEED TO KNOW BEFORE PROGRAMMING 2. With the five bytes specified from address 0010 H , a data check (calculation) is executed. The CRC code “5CD6 H ” calculated from data “123456” is written in addresses 0013 H to 0014 H . Bit 0 Bit 7 Address 0013 H 0012 H 0011 H 0010 H 0...
Page 68 - ID Tag Memory Error Correction Function
5 - 24 5 - 24 5. THINGS YOU NEED TO KNOW BEFORE PROGRAMMING 5.6 ID Tag Memory Error Correction Function The ID tag memory error correction function allows you to execute an ID tag data check and then write five error correction code bytes after the write data using Write with Error Correction. The f...
Page 69 - Programming Precautions
6 - 1 6 - 1 6. HOW TO COMMUNICATE WITH ID TAGS Chapter 6 HOW TO COMMUNICATE WITH ID TAGS The following describes the programming method for communicating with ID tags using instructions. When utilizing the program examples introduced in this chapter into an actual system, be sure to fully verify tha...
Page 70 - HOW TO COMMUNICATE WITH ID TAGS; The read data are stored in the data storage area (Un
6 - 2 6 - 2 6. HOW TO COMMUNICATE WITH ID TAGS 6.2 Instruction/Specification List The following describes the instruction types and specification contents that can be used with the RFID interface module. Table 6.1 Instruction/Specification List Command Name Command Code (Un \ G0, Un \ G4000 ) Commun...
Page 71 - specified in the head address specification area (Un
6 - 3 6 - 3 6. HOW TO COMMUNICATE WITH ID TAGS 6.2.3 Set bit The Set Bit command sets the bits of the data of the number of bytes specified in the number of processed points specification area (Un \ G4, Un \ G4004) from the address specified in the head address specification area (Un \ G3, Un \ G400...
Page 72 - address specified in the head address specification area (Un
6 - 4 6 - 4 6. HOW TO COMMUNICATE WITH ID TAGS 6.2.4 Clear bit The Clear Bit command clears the bits of the data of the number of bytes specified in the number of processed points specification area (Un \ G4, Un \ G4004) from the address specified in the head address specification area (Un \ G3, Un ...
Page 73 - Table 6.2 Number of Processed Bytes and Data Storage Area
6 - 5 6 - 5 6. HOW TO COMMUNICATE WITH ID TAGS 6.2.5 Write mask bit The Write Mask Bit command sets the mask bit of the data of the number of bytes specified in the number of processed points specification area (Un \ G4, Un \ G4004) from the address specified in the head address specification area (...
Page 74 - (b) When executing the Set Bit command in the data storage order 0001
6 - 6 6 - 6 6. HOW TO COMMUNICATE WITH ID TAGS (b) When executing the Set Bit command in the data storage order 0001 H (lower -> upper) for the four bytes from address 0010 H Stored data Before execution After execution b15 b0 b7 b0 11 H 22 H 33 H 44 H 0F F0 H 55 AA H 12 34 H 56 78 H 0010 H 0013 ...
Page 75 - G4003), and then writes the result to the same address of the ID tag.; is subtracted to the four bytes from address 0010; EFFF
6 - 7 6 - 7 6. HOW TO COMMUNICATE WITH ID TAGS 6.2.6 Write calculation The Write Calculation command performs an addition (subtraction) operation on the data of the number of bytes specified in the number of processed points specification area (Un \ G4, Un \ G4004) from the address specified in the ...
Page 80 - G4003), and checks the correctness of the data from the check code.
6 - 12 6 - 12 6. HOW TO COMMUNICATE WITH ID TAGS 6.2.11 Read with error correction The Read with Error Correction command reads from the ID tag the number of byte sets specified in the number of processed points specification area (Un \ G4, Un \ G4004) + the check code (five bytes) from the address ...
Page 82 - Control Methods According to Communication Specification
6 - 14 6 - 14 6. HOW TO COMMUNICATE WITH ID TAGS 6.3 Control Methods According to Communication Specification 6.3.1 Trigger With the trigger communication specification, communication is performed with the ID tag stopped within the antenna communication area. 1. When the ID instruction execution req...
Page 83 - the ID tag is started.; ID tag A
6 - 15 6 - 15 6. HOW TO COMMUNICATE WITH ID TAGS 6.3.2 Auto With the auto communication specification, communication is performed while the ID tag is being moved. 1. When the ID instruction execution request (Y14, Y1C) is turned ON, ID tag detection is started. 2. When an ID tag enters within the an...
Page 85 - with the operable ID tag is started.
6 - 17 6 - 17 6. HOW TO COMMUNICATE WITH ID TAGS 6.3.4 FIFO trigger With the FIFO trigger communication specification, communication is performed while the ID tag is stopped within the antenna communication area. 1. When the ID instruction execution request (Y14, Y1C) is turned ON, communication wit...
Page 86 - operable ID tags is started.
6 - 18 6 - 18 6. HOW TO COMMUNICATE WITH ID TAGS 6.3.5 FIFO repeat With the FIFO repeat communication specification, communication is performed while the ID tag is being moved. Communication is performed with the ID tags that enter the antenna communication area one after the other, until the ID ins...
Page 87 - communication is started.
6 - 19 6 - 19 6. HOW TO COMMUNICATE WITH ID TAGS 6.3.6 Multi-trigger With the multi-trigger communication specification, communication is performed with one or more ID tags stopped within the antenna communication area. 1. When the ID instruction execution request (Y14, Y1C) is turned ON, ID tag com...
Page 88 - tags that enter the antenna communication area is started.
6 - 20 6 - 20 6. HOW TO COMMUNICATE WITH ID TAGS 6.3.7 Multi-repeat With the multi-repeat communication specification, communication is performed while one or more ID tags are being moved. 1. When the ID instruction execution request (Y14, Y1C) is turned ON, detection of ID tags that enter the anten...
Page 89 - Switch 1 ·······························0000
6 - 21 6 - 21 6. HOW TO COMMUNICATE WITH ID TAGS 6.4 Sample Programs The following describes sample programs of the RFID interface module. (1) System configuration X/Y0 toX/Y1F The following intelligent function module switch settings are set in GX Developer I/O assignment settings as shown below. S...
Page 90 - Table 6.3 Sample Program List
6 - 22 6 - 22 6. HOW TO COMMUNICATE WITH ID TAGS (2) Sample program list The sample programs provided include the sixteen programs indicated in Table 6.3. Table 6.3 Sample Program List Program Name Description Reference Set parameters A program for setting parameters such as the communication specif...
Page 93 - The Read program is a program for reading data from an ID tag.
6 - 25 6 - 25 6. HOW TO COMMUNICATE WITH ID TAGS 6.4.2 Read The Read program is a program for reading data from an ID tag. (1) Program conditions (a) Setting contents Intelligent Function Module Device Address Buffer Memory Name Setting Contents U0 \ G0 Command code specification area (CH1) H0 (Read...
Page 96 - The Write program is a program for writing data to an ID tag.
6 - 28 6 - 28 6. HOW TO COMMUNICATE WITH ID TAGS 6.4.3 Write The Write program is a program for writing data to an ID tag. (1) Program conditions (a) Setting contents Intelligent Function Module Device Address Buffer Memory Name Setting Contents U0 \ G0 Command code specification area (CH1) H1 (Writ...
Page 138 - ule; MSLSEC-Q series programmable controller
6 - 70 6 - 70 6. HOW TO COMMUNICATE WITH ID TAGS 6.5 Specialized Sample Program for Read/Write of ID Tags with the Trigger Communication The following describes a simple and versatile sample program specialized for reading data from and writing data to an ID tag with the trigger communication. 6.5.1...
Page 139 - program is executed.; CPU module; Data
6 - 71 6 - 71 6. HOW TO COMMUNICATE WITH ID TAGS (3) Explanation of the operation (a) Reading from ID tags 1) By turning on the Read ID Tag command signal (M1010), the subsequent Read program is executed. 2) The Read command and the data required for reading are set in the buffer memory (Un \ G0 to ...
Page 143 - ) Application 2: Change of the slot to mount the RFID module; Pow; MELSEC-Q series programmable controller; Slot; Changes are shown in; bold
6 - 75 6 - 75 6. HOW TO COMMUNICATE WITH ID TAGS (6) Applications of the sample program 1) Application 1: Change of the channel to connect the antenna and the amplifier When connecting the antenna and the amplifier for communication with ID tags to channel 2, change the I/O signal and intelligent fu...
Page 144 - Point
6 - 76 6 - 76 6. HOW TO COMMUNICATE WITH ID TAGS 6.6 For Use in Remote I/O Network 6.6.1 Sample program for use in remote I/O Network This sentence is explanation of the usage of the RFID module on the MELSECNET/H remote I/O network. Point The dedicated instructions used for reading/writing the buff...
Page 145 - Items are set in GX Developer.
6 - 77 6 - 77 6. HOW TO COMMUNICATE WITH ID TAGS (2) Network parameters The network parameters to set to a CPU module of the remote I/O master station are as follows. Unit 1 Network type MNET/H ( Remote master ) Starting I/O No. 0000 H Network No. 1 Total stations 1 Mode Online (3) Network range ass...
Page 152 - (1) Attention in the sequence programming; Manual Name
6 - 84 6 - 84 6. HOW TO COMMUNICATE WITH ID TAGS 6.6.2. Attention and limitation using the RFID module at MELSECNET/H remote I/O station (1) Attention in the sequence programming The interlock circuit which operates the RFID module only when a MELSECNET/H remote I/O network system works normally is ...
Page 153 - Chapter 7. TROUBLESHOOTING; Error Details List
7 - 1 7 - 1 7. TROUBLESHOOTING Chapter 7. TROUBLESHOOTING The following describes the details of the errors that may occur when using the RFID interface module, and the corresponding troubleshooting methods. 7.1 Error Details List When an error occurs, the RFID interface module turns ON the bit corr...
Page 158 - APPENDIX 1 COMMUNICATION TIME (REFERENCE); App
App - 1 App - 1 APPENDICES APPENDICES APPENDIX 1 COMMUNICATION TIME (REFERENCE) The following describes the communication time between the RFID interface module and ID tag, according to ID tag type. For suitable ID tag and antenna combinations, refer to the Omron RFID system V680 series manual. (1) ...
Page 159 - APPENDICES; Communication Speed: Standard Mode
App - 2 App - 2 APPENDICES ● Communication Speed: Standard Mode ● Communication Speed: High-speed Mode 5,000 4,500 4,000 3,5003,0002,500 2,0001,5001,000 500 0 500 1,000 1,500 2,000 2,500 No. of Bytes (bytes) Write (with verify) During read ms ( ) 5,500 Write(without verify) 5,0004,500 4,000 3,5003,0...
Page 160 - Y signal output
App - 3 App - 3 APPENDICES APPENDIX 2 PROCESSING TIME (REFERENCE) The processing time is the time from the moment the ID instruction execution request (Y14, Y1C) is turned ON to the time ID instruction complete (X4, XC) turns OFF. Sequence program 0 step END Y signal output ID instruction complete (...
Page 164 - Product Warranty Details; Gratis Warranty Period; Warranty Period after Discontinuation of Production
App - 7 App - 7 APPENDICES Product Warranty Details Please confirm the following product warranty details prior to product use. Gratis Warranty Terms and Gratis Warranty Range If any fault or defect (hereinafter referred to as "Failure") attributable to Mitsubishi Electric Engineering Compan...
Page 165 - INDEX; Ind
Ind - 1 Ind - 1 INDEX [A] Amplifier ·························································· 2- 7 Antenna ·························································· 2- 7 Application system ········································· 2- 1 Auto··························································...
Page 168 - Model
RFID Intreface Module EQ - V680D1 EQ- V680D2 User,s Manual Model EQ-V680D-MAN-E HEAD OFFICE:Hulic KUDAN BLDG.1-13-5, KUDANKITA CHIYODA-KU, TOKYO 102-0073, JAPAN NAGOYA ENGINEERING OFFICE:139 SHIMOYASHIKICHO-SHIMOYASHIKI, KASUGAI, AICHI 486-0906, JAPAN New publication,effective Nov . ...
