JP2007183812A - Reader device - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide a reader device with simple circuit configuration which, allocates unique IDs without fail, and easily manages ID for preventing duplication. <P>SOLUTION: A transmission system 12 connected to a CPU 11 outputs transmission data to a switch 15 via a circulator 14. An antenna 16 for a reader is connected to the switch 15, and an RFID chip 19 for a unique ID is also connected to the switch 15 via an attenuator 17 and a matching circuit 18. When power is applied, the CPU 11 turns the switch to the attenuator 17 side and supplies the RFID chip 19 with power necessary for operation to read out ID information. The ID information is decoded by a reception system 13 and stored by the CPU 11. When an RFID tag 20 is read, the CPU 11 turns the switch 15 to the antenna 16 side and supplies the RFID tag 20 with operating power from the antenna 16 to execute reading processing. <P>COPYRIGHT: (C)2007,JPO&INPIT

Description

  The present invention relates to a reader device that transmits inquiry data and reads and processes response data from a wireless tag (RFID tag).

  Conventionally, in a physical distribution management system, a wireless tag system is used in which a wireless tag is attached to a moving body such as a product or an article, and unique code information set in advance on the wireless tag is read (for example, Patent Document 1, 2).

  Further, the reader device in the wireless tag system normally reads the code information of one wireless tag existing in the communicable area, but in recent years, even when a plurality of wireless tags exist in the communicable area, A system having a congestion control function capable of reading code information of each wireless tag is also considered (for example, see Patent Document 3).

  And in the physical distribution management system using the above-mentioned RFID tag system, in the case of using a plurality of reader devices at the same time, each reader device is given a unique ID to distinguish each device, and which reader device is used for reading. Judging.

As a method for allocating the unique ID of the reader device, conventionally, a method of previously writing ID information in an internal memory or an external memory of a CPU provided in the reader device is generally used.
JP 2002-358494 A Japanese Patent Laid-Open No. 2003-218736 Japanese Patent Laying-Open No. 2005-8346

  However, in order to support systems of all sizes, it is necessary to consider how many unique IDs can be allocated, and when unique IDs are written in the shipping state, there is no duplication. Management on the manufacturer side is required. Further, even when the user can write the unique ID in the reader device, a burden is generated on the managing user side such as ensuring that the IDs do not overlap.

  The present invention has been made in order to solve the above-described problem, and provides a reader device that can assign a unique ID with a simple circuit configuration and can easily perform ID management to prevent duplication. The purpose is to provide.

  A reader device according to a first aspect of the present invention is provided at a reader device main body that wirelessly reads ID information with respect to an RFID tag, and at a transmission / reception end of the reader device main body, and is controlled to be switched by a control command from the reader device main body. A reader antenna that is switched and connected to the reader device body by the switch, and a unique ID RFID chip that is switched and connected to the reader device body by the switch, The main body switches the changeover switch to the RFID chip side at the time of start-up and outputs transmission data, reads ID information from the RFID chip and sets it as a device ID, and normally switches the changeover switch to the antenna side. The RFID tag is wirelessly read.

  A reader device according to a second aspect of the present invention is provided at a reader device body for wirelessly reading ID information with respect to an RFID tag, and at a transmission / reception end of the reader device body, and is controlled to switch by a control command from the reader device body. A reader antenna that is switched and connected to the reader device body by the switch, and a unique ID RFID chip that is switched and connected to the reader device body by the switch, The main body performs self-diagnosis by switching the changeover switch to the RFID chip side, outputting transmission data, and reading ID information from the RFID chip.

  A reader device according to a third aspect of the present invention is a reader device body having a congestion control function for reading ID information wirelessly from an RFID tag, a reader antenna connected to the reader device, and the vicinity of the antenna And the RFID tag for unique ID that is capable of congestion control, and the reader device body reads ID information to the RFID tag for unique ID wirelessly at the time of start-up and sets it as a device ID In addition, the RFID tag for unique ID is set to non-operation, and thereafter, the RFID tag is wirelessly read from an external RFID tag.

  A reader device according to a fourth aspect of the present invention is a reader device body having a congestion control function for reading ID information wirelessly from an RFID tag, a reader antenna connected to the reader device, and the vicinity of the antenna And a unique ID RFID tag capable of congestion control, wherein the reader device body performs self-diagnosis by wirelessly reading ID information with respect to the unique ID RFID tag. To do.

  According to the present invention, a unique ID can be reliably set with a simple circuit configuration using a unique ID preset in the RFID chip, and ID management for preventing duplication can be easily performed. Furthermore, by using the RFID chip, it is possible to perform self-diagnosis (self-check) of the device.

Hereinafter, embodiments of the present invention will be described with reference to the drawings.
(First embodiment)
FIG. 1 is a block diagram showing a configuration of a reader device 10 according to the first embodiment of the present invention. In FIG. 1, reference numeral 11 denotes a CPU which operates in accordance with an instruction from a host device (not shown). A transmission system 12 and a reception system 13 are connected to the CPU 11.

  The transmission system 12 includes, for example, an oscillator that generates a high-frequency signal (carrier wave) such as 2.4 GHz, a modulator that modulates the carrier wave using query data, and an amplifier that amplifies the signal modulated by the modulator. . Transmission data output from the transmission system 12 is input to the changeover switch 15 via the circulator 14.

The CPU 11, the transmission system 12, the reception system 13, and the circulator 14 constitute a reader device body, and the changeover switch 15 is connected to a transmission / reception terminal of the reader device body.
A reader antenna 16 is connected to the changeover switch 15, and a unique ID RFID chip 19 is connected via an attenuator 17 and a matching circuit 18. In this case, the matching circuit 18 and the RFID chip 19 are also connected by wire using connection terminals provided on the RFID chip 19. The RFID chip 19 has a unique ID set at the time of manufacture of each chip by, for example, a 128-bit ID code.

  The changeover switch 15 is an RF (high frequency) switch constituted by a semiconductor element such as a pin diode, for example, and switches the circulator 14 to the antenna 16 or the attenuator 17 in accordance with a control signal from the CPU 11. The attenuator 17 is for adjusting the input level to the RFID chip 19 so as not to be excessively input, and the matching circuit 18 is for matching the input line with the RFID chip 19.

  The antenna 16 radiates a radio wave to the RFID tag 20 existing in the communication area of the reader device 10 and receives a response wave from the RFID tag 20. The RFID tag 20 includes an antenna for receiving radio waves from the reader device 10.

Next, the operation of the above embodiment will be described with reference to FIG.
[Reading device-specific ID information]
The reader device 10 reads the device-specific ID by the CPU 11 when, for example, the power is turned on (at startup). That is, for example, when the power is turned on, the CPU 11 switches the changeover switch 15 to the attenuator 17 side, and the RFID from the transmission system 12 through the circulator 14, the changeover switch 15, the attenuator 17 and the matching circuit 18 as indicated by an arrow a. Power necessary for operation is supplied to the chip 19. As a result, the RFID chip 19 operates and outputs ID information. The ID information read from the RFID chip 19 is sent to the receiving system 13 via the matching circuit 18, the attenuator 17, the changeover switch 15, and the circulator 14 as indicated by an arrow b. The receiving system 13 demodulates the ID information read from the RFID chip 19 and inputs it to the CPU 11.

  As described above, the CPU 11 reads the ID information of the RFID chip 19 and stores it in the internal memory such as RAM or ROM as the ID of the reader device 10, that is, the ID unique to the device.

[Reading RFID tag wirelessly]
Next, an ID reading operation of the RFID tag 20 existing in the communication area of the reader device 10 will be described with reference to FIG. When the ID information of the RFID tag 20 is read wirelessly, the CPU 11 sends a control command to the changeover switch 15 so as to connect to the antenna 16, and then outputs an inquiry signal to the transmission system 12.

  The transmission system 12 modulates a carrier wave by an inquiry signal from the CPU 11, amplifies it by an amplifier, and transmits it from the antenna 16 to the outside via the circulator 14 and the changeover switch 15 as indicated by an arrow a. The radio wave transmitted from the antenna 16 is received by the RFID tag 20 in the communication area. When receiving the inquiry signal sent from the reader device 10, the RFID tag 20 uses the inquiry signal as the driving power of the RFID tag 20, reads the ID information stored in the internal memory, and uses this ID information to read the reader information. The transmission carrier wave from the device 10 is modulated and returned to the reader device 10 as a reflected wave.

  The reflected wave from the RFID tag 20 is received by the antenna 16 of the reader device 10 and input to the receiving system 13 via the changeover switch 15 and the circulator 14 as indicated by an arrow b. The receiving system 13 demodulates the ID information returned from the RFID tag 20 and inputs it to the CPU 11. The CPU 11 sends the ID information read from the RFID tag 20 as described above to a host device (not shown). At this time, the CPU 11 sends the ID information read from the RFID chip 19 to the host device (not shown) as a device ID. Therefore, the host device can identify the ID of each reader device 10 even when managing a plurality of reader devices 10 simultaneously.

  As described above, the reader device 10 can reliably set a unique ID with a simple circuit configuration using a unique ID preset in the RFID chip 19 and easily perform ID management to prevent duplication. Can do.

Further, by using the RFID chip 19, self-diagnosis (self-check) of the device is possible. Hereinafter, the self-diagnosis of the reader device 10 will be described with reference to FIG.
When performing self-diagnosis of the device, the CPU 11 switches the changeover switch 15 to the attenuator 17 side as in the case of reading the unique ID, and supplies power necessary for the operation to the RFID chip 19 as shown by the arrow a in FIG. Then, ID information returned from the RFID chip 19 is acquired by wire as indicated by an arrow b.

  Since the ID information can be acquired, it can be confirmed that the operation in the range including the transmission system 12 and the reception system 13 is normal as indicated by a broken line 21 in FIG.

  When self-diagnosis is performed in a conventional device, the communication system with the control device is checked by making a loop configuration inside the CPU, and the transmission system uses a directional coupler or the like to output the signal level of the final-stage amplifier. It is common to check it up, but when considering including the receiving system, it cannot be determined by the device alone, and a partner device that always transmits and receives is necessary.

  In the above embodiment, the case where the changeover switch 15 is switched to the attenuator 17 side and the ID information is read from the RFID chip 19 when the power is turned on has been described. However, for example, the changeover switch 15 is set only when the reader device 10 is initialized. The ID information may be read from the RFID chip 19 by switching to the 17 side, and this ID information may be stored in a non-volatile memory such as a ROM as the device ID. In this way, when the ID information read from the RFID chip 19 is stored in the nonvolatile memory and set as the device ID, the subsequent ID reading process from the RFID chip 19 is unnecessary.

(Second Embodiment)
Next, a second embodiment of the present invention will be described.
FIG. 5 is a configuration diagram of a reader device 10A according to the second embodiment of the present invention. In the reader device 10A according to the second embodiment, a reader device body including a CPU 11, a transmission system 12, a reception system 13, and a circulator 14 has a congestion control function, and can perform congestion control as an RFID chip for unique ID. The RFID chip 19A is used. Then, by attaching the chip antenna element 22 to the RFID chip 19A and electromagnetically coupling the chip antenna element 22 to the reader antenna 16, the change-over switch 15, the attenuator 17 and the attenuator 17 in the first embodiment are changed. The configuration is omitted. Since other configurations are the same as those in the first embodiment, the same portions are denoted by the same reference numerals, and detailed description thereof is omitted.

  In the second embodiment, the antenna 16 is configured by providing a circular patch element 24 on a substrate 23. Then, a chip antenna element 22 is formed by an element pattern at a position where electromagnetic coupling with the antenna 16 is possible, for example, on one side of the substrate 23, and the RFID chip 19A is mounted on the chip antenna element 22. . That is, the RFID tag 25 is configured by an inlet in which the RFID chip 19A and the chip antenna element 22 are integrated, and the RFID tag 25 is provided on the substrate 23.

  Although FIG. 5 shows the case where the RFID tag 25 is provided on the substrate 23, the RFID tag 25 may be attached to the back surface of the antenna cover 26 as shown in FIG.

  Then, in the reader device 10A configured as shown in FIG. 5 or FIG. 6, when reading the unique ID of the RFID tag 25, in the situation where there is no other RFID tag, As indicated by an arrow a in FIG. 7, in response to an instruction from the CPU 11, an inquiry radio wave is radiated from the transmission system 12 via the circulator 14 and the antenna 16, the ID information of the RFID tag 25 is read, and this ID information is stored in the internal memory of the CPU 11. To remember.

  In addition, by radiating radio waves from the antenna 16 as described above and reading ID information from the RFID tag 25, all circuit operations of the transmission / reception system including the antenna 16 are normally performed. Can be confirmed.

  Next, when reading the ID information with respect to the external RFID tag 20, the RFID tag 25 is set to non-operation because the congestion control of the RFID tag 25 is possible. Then, the reader device 10A radiates an inquiry radio wave from the antenna 16 and reads the ID information from the RFID tag 20 as shown in FIG. In this state, there are a plurality of RFID tags 20 and 25 in the communication area of the reader apparatus 10A. However, since the RFID tag 25 is set to non-operation, ID information is not read from the RFID tag 25. .

  According to the second embodiment, the device ID can be read and the transmission / reception system including the antenna 16 can be self-checked without connecting the RFID tag 25 for setting the device ID by wire. And even if there are a plurality of RFID tags in the communication area of the reader device 10A, the ID information of the target RFID tag can be read reliably.

  Note that the present invention is not limited to the above-described embodiment as it is, and can be embodied by modifying constituent elements without departing from the scope of the invention in the implementation stage.

  In addition, various inventions can be formed by appropriately combining a plurality of components disclosed in the embodiment. For example, some components may be deleted from all the components shown in the embodiment. Furthermore, you may combine suitably the component covering different embodiment.

It is a block diagram of the reader apparatus which concerns on 1st Embodiment of this invention. It is a figure for demonstrating the reading operation | movement of apparatus specific ID information in the embodiment. It is a figure for demonstrating the reading operation | movement of the RFID tag by the reader apparatus in the embodiment. It is a figure for demonstrating the self-diagnosis operation | movement of the reader apparatus in the embodiment. It is a block diagram of the reader apparatus which concerns on 2nd Embodiment of this invention. It is a figure which shows the other structural example of the antenna and RFID tag part of the reader apparatus in the embodiment. It is a figure for demonstrating the reading operation | movement of apparatus specific ID information in the embodiment. It is a figure for demonstrating the reading operation | movement of the RFID tag by the reader apparatus in the embodiment.

Explanation of symbols

  DESCRIPTION OF SYMBOLS 10 ... Reader apparatus concerning 1st Embodiment, 10A ... Reader apparatus concerning 2nd Embodiment, 11 ... CPU, 12 ... Transmission system, 13 ... Reception system, 14 ... Circulator, 15 ... Changeover switch, 16 ... Antenna for reader , 17 ... Attenuator, 18 ... Matching circuit, 19, 19A ... RFID chip for unique ID, 20 ... RFID tag, 22 ... Antenna element for chip, 23 ... Substrate, 24 ... Patch element, 25 ... RFID tag for unique ID, 26 ... antenna cover.

Claims (4)

A reader device body for wirelessly reading ID information with respect to the RFID tag, a changeover switch provided at a transmission / reception end of the reader device body and controlled to be switched by a control command from the reader device body, and the changeover switch. A reader antenna switched and connected to the reader device main body, and a unique ID RFID chip switched and connected to the reader device main body by the changeover switch,
The reader device main body switches the changeover switch to the RFID chip side at the time of startup or the like, outputs transmission data, reads ID information from the RFID chip and sets it as a device ID, and normally sets the changeover switch to the antenna. A reader device, wherein the RFID tag is wirelessly read by switching to the side. A reader device body for wirelessly reading ID information with respect to the RFID tag, a changeover switch provided at a transmission / reception end of the reader device body and controlled to be switched by a control command from the reader device body, and the changeover switch. A reader antenna switched and connected to the reader device main body, and a unique ID RFID chip switched and connected to the reader device main body by the changeover switch,
The reader apparatus main body performs self-diagnosis by switching the changeover switch to the RFID chip side, outputting transmission data, and reading ID information from the RFID chip. A reader device body having a congestion control function for reading ID information wirelessly with respect to an RFID tag, a reader antenna connected to the reader device, and a unique device capable of congestion control disposed in the vicinity of the antenna An RFID tag for ID,
The reader apparatus body wirelessly reads ID information from the RFID tag for unique ID at the time of start-up, sets the device ID as a device ID, sets the RFID tag for unique ID to non-operation, and then external RFID A reader device that reads an RFID tag wirelessly from a tag. A reader device body having a congestion control function for reading ID information wirelessly with respect to an RFID tag, a reader antenna connected to the reader device, and a unique device capable of congestion control disposed in the vicinity of the antenna An RFID tag for ID,
The reader apparatus main body performs self-diagnosis by reading ID information wirelessly with respect to the RFID tag for unique ID.

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