JP2016192179A - RFID tag and RFID tag system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide an RFID tag and an RFID tag system that enable an operator to certainly learn the occurrence of failure of a display part of an RFID tag.SOLUTION: A control part 11 is provided with rewriting checking means that, during rewriting of the details of display on a display part 9, detects that the details of display on the display part 9 have been rewritten. A control part 11, when the rewriting checking means detects that the details of display on the display part 9 have not been rewritten, transmits the result of detection to the outside via a communication controller 8 together with an identification code unique to the communication controller 8.SELECTED DRAWING: Figure 1

Description

  The present invention relates to an RFID tag provided with a display unit for displaying characters and images, and an RFID tag system, and more particularly, to an RFID tag and an RFID tag system in which the display unit is configured by a nonvolatile display medium.

  For example, Patent Documents 1 and 2 disclose that a display unit for displaying characters or the like in a RFID tag is formed of a nonvolatile display medium. In the wireless tag (RFID tag) according to Patent Document 1, the display unit is configured by electronic paper that can hold display contents without consuming electric power, and the electronic paper includes letters, numbers, one-dimensional code, or two-dimensional code. Display contents such as code are displayed. The display content of the electronic paper is rewritten when the wireless tag provided with the electronic paper receives a display rewriting request transmitted wirelessly from the reader / writer. Also in the record carrier (RFID tag) according to Patent Document 2, the display device is composed of electronic paper, and a one-dimensional code or a two-dimensional code is displayed on the electronic paper. The display content of the electronic paper is rewritten when the record carrier receives data transmitted wirelessly from the interrogator.

JP 2012-32953 A JP 2008-234633 A

  In the wireless tag described in Patent Document 1, since the wireless tag rewrites the display content of the electronic paper by receiving the display rewrite request, the display content of the wireless tag in the range in which wireless communication with the reader / writer can be established. For example, even if a user having a wireless tag is in a location where wireless communication is possible, information displayed can be easily rewritten and information can be easily captured even when the user is located away from the reader / writer. The same applies to the record carrier described in Patent Document 2, and the display content of the electronic paper is rewritten when the record carrier receives the data. Therefore, even a user having a record carrier away from the interrogator can receive information. Can be easily taken in.

  However, the display content after the rewriting operation is retained in the electronic paper except when a display element (for example, a capsule enclosing white and black particles in an electrophoretic electronic paper) is damaged. Therefore, even if a failure occurs in the electronic paper, the electronic paper appears to be operating normally, and the user cannot confirm that the wireless tag or the record carrier is defective at a glance. . For example, after a failure occurs in the wireless tag described in Patent Document 1 or the electronic paper of the record carrier described in Patent Document 2, the wireless tag or the record carrier performs wireless transmission related to rewriting the display content of the electronic paper. Even when it is received, the display content displayed on the electronic paper cannot be rewritten, and the display content at the time of the failure continues to be displayed.

  As described above, the non-volatile display medium such as electronic paper has an advantage that the display content after the rewriting operation is non-volatile, but it is difficult to confirm that a failure has occurred in the electronic paper. The display content is not reliable. For example, when the wireless tag of Patent Document 1 or the record carrier of Patent Document 2 is used as an information display medium for displaying important display contents such as disaster prevention information, the display contents are low in reliability and suitable for practical use. It was not.

  The present invention detects on the RFID tag side that a non-volatile display medium has failed and the display portion has not been rewritten, and transmits the detection result to the outside, so that the display portion of the RFID tag is broken. An object of the present invention is to provide a highly reliable RFID tag and an RFID tag system that can surely know what has occurred.

  The present invention relates to a communication controller 8 that is responsible for wireless communication with the outside, a display unit 9 that displays information, a control unit 11 that performs overall control of the RFID tag 1, and at least the control unit 11 and the display unit 9. And an RFID tag in which the display unit 9 is formed of a non-volatile display medium. The display content of the display unit 9 is controlled by the control unit 11 so as to be rewritten based on a rewrite command transmitted from the outside to the communication controller 8. The control unit 11 includes rewrite confirmation means for detecting whether the display content of the display unit 9 has been rewritten when the display content of the display unit 9 is rewritten. When the rewriting confirmation means detects that the display content of the display unit 9 has not been rewritten, the detection result is transmitted to the outside through the communication controller 8 together with an identification code unique to the communication controller 8. To do.

  The “nonvolatile display medium” in the present invention consumes a small amount of power only at the time of rewriting the display, and can retain the display contents without consuming the power after the rewriting of the display or with a very small amount of power. Means that. Specifically, an organic EL display having advantages similar to those of electronic paper and electronic paper corresponds to a nonvolatile display medium.

  The rewrite confirmation unit is configured by at least one of the display state detection unit and the drive state detection unit. The display state detection means includes a detection pattern 21 that is displayed in the identification area 20 of the display unit 9 and that is displayed differently before and after the display unit 9 is rewritten, and an optical sensor 22 that reads the detection pattern 21. The driving state detection means includes an electric sensor 23 that measures at least one of a current value, a voltage value, or a power value supplied from the power supply 13 to the display unit 9. The “electric sensor” here is not limited to a sensor having all of the current measurement function, the voltage measurement function, and the power measurement function, but includes any one or two sensors. It is a concept.

  The rewrite confirmation unit can be composed of both a display state detection unit and a drive state detection unit.

  A window 16c for visually recognizing the display surface of the display unit 9 accommodated in the tag main body 16 is provided in the tag main body 16 constituting the RFID tag 1. The display surface of the display unit 9 includes an exposed surface 9a exposed to the outer surface facing the window 16c and a concealed surface 9b concealed from the outer surface by the tag body 16, and an identification area 20 is provided on the concealed surface 9b.

  The display unit 9 is composed of electronic paper.

  The present invention is also directed to an RFID tag system including an RFID tag 1, a host terminal 2, and a reader / writer 3 that is controlled by the host terminal 2 and performs wireless communication with the RFID tag 1. The RFID tag 1 includes a communication controller 8 that performs wireless communication with the reader / writer 3, a display unit 9 that displays information, a control unit 11 that performs overall control of the RFID tag 1, and at least the control unit 11 and a display unit. And a power source 13 for supplying power to the display unit 9, and the display unit 9 is formed of a nonvolatile display medium. The display content of the display unit 9 is controlled by the control unit 11 so as to be rewritten based on a rewrite command transmitted from the host terminal 2 to the communication controller 8 via the reader / writer 3. The control unit 11 includes rewrite confirmation means for detecting whether the display content of the display unit 9 has been rewritten. When the rewrite confirmation means detects that the display content of the display unit 9 has not been rewritten, the rewrite confirmation means transmits the detection result to the host terminal 2 via the communication controller 8 together with the identification code unique to the communication controller 8. Features.

  The rewrite confirmation unit is configured by at least one of the display state detection unit and the drive state detection unit. The display state detection means includes a detection pattern 21 that is displayed in the identification area 20 of the display unit 9 and that is displayed differently before and after the display unit 9 is rewritten, and an optical sensor 22 that reads the detection pattern 21. The driving state detection means includes an electric sensor 23 that measures at least one of a current value, a voltage value, or a power value supplied from the power supply 13 to the display unit 9.

  In the RFID tag according to the present invention, when the display content of the display unit 9 is rewritten, the rewrite confirmation means provided in the control unit 11 detects whether or not the display content has been rewritten. When the rewriting confirmation unit detects that the display content of the display unit 9 has not been rewritten, the detection result is transmitted to the outside together with the identification code unique to the communication controller 8.

  Thus, when the control unit 11 transmits from the RFID tag 1 to the outside that the display content of the display unit 9 has not been rewritten based on the detection result of the rewrite confirmation unit, a failure has occurred in the display unit 9. This can be surely known from the outside, and the RFID tag 1 having excellent reliability can be obtained. At this time, since the identification code specific to the communication controller 8 is simultaneously transmitted together with the detection result, the RFID tag 1 in which the failure has occurred in the display unit 9 can be easily identified. Accordingly, the defective RFID tag 1 can be promptly dealt with such as replacement, and can be suitably used as an information display medium for displaying important display contents such as disaster prevention information.

  When the rewrite confirmation means is constituted by a display state detection means including a detection pattern 21 that is displayed differently before and after rewriting and an optical sensor 22 that reads the detection pattern 21, a change in the detection pattern 21 displayed on the display unit 9 is achieved. Can be directly read and confirmed by the optical sensor 22, and when the display content is not changed, it can be detected that a failure has occurred in the display unit 9. Further, when the rewriting confirmation unit is configured by a driving state detection unit including an electric sensor 23 that measures at least one of a current value, a voltage value, or a power value supplied from the power source 13 to the display unit 9, the display unit 9 When the current value, voltage value, or power value required for rewriting the display content is not supplied to the display unit 9, it can be detected that a failure has occurred in the display unit 9. By configuring the rewrite confirmation means with at least one of these two detection means, it is possible to detect the presence or absence of a failure of the display unit 9 while suppressing an increase in cost, and to obtain an RFID tag 1 having excellent reliability. it can.

  If the rewrite confirmation means is composed of both the display state detection means and the drive state detection means, even if a failure occurs in one detection means, it is possible to detect whether the display content has been rewritten by the other detection means. The detection accuracy of the rewrite confirmation means can be improved, and the presence or absence of a failure in the display unit 9 of the RFID tag 1 can be determined with higher reliability.

  If the identification area 20 is provided on the concealment surface 9b of the display unit 9 that is concealed from the outer surface by the tag body 16, the user can visually recognize only the display content displayed on the exposed surface 9a. The complexity of the display contents due to being displayed on the screen 9 can be avoided.

  According to the RFID tag in which the display unit 9 is made of electronic paper, since the electronic paper is lightweight, the RFID tag 1 can be reduced in size and weight. Further, the power consumption at the time of display rewriting is very small, and the display contents can be held without consuming power, so that the power saving of the RFID tag 1 can be achieved.

  In the RFID tag system according to the present invention, the rewrite confirmation means provided in the control unit 11 of the RFID tag 1 detects whether or not the display content has been rewritten when the display content of the display unit 9 is rewritten. I made it. And when the detection result by the rewriting confirmation means detects that the display content of the display unit 9 has not been rewritten, the detection result is transmitted to the host terminal 2 together with the identification code unique to the communication controller 8.

  As described above, when the control unit 11 transmits from the RFID tag 1 to the host terminal 2 that the display content of the display unit 9 has not been rewritten based on the detection result of the rewrite confirmation unit, the display unit 9 has a failure. The occurrence of occurrence can be surely known on the host terminal 2 side, and an RFID tag having excellent reliability can be obtained. At this time, since the identification code specific to the communication controller 8 is simultaneously transmitted together with the detection result, the RFID tag 1 in which the failure has occurred in the display unit 9 can be easily identified. Accordingly, the defective RFID tag 1 can be dealt with promptly, such as replacement, and can be suitably operated as an information providing system for displaying important display contents such as disaster prevention information. Further, since the failure is detected on the RFID tag 1 side, the failure of the display unit 9 of the RFID tag 1 in the range where communication with the reader / writer 3 can be established can be known on the host terminal 2 side. Therefore, as long as communication with the reader / writer 3 can be established, even if the RFID tag 1 is located away from the host terminal 2, the operator operating the host terminal 2 can know the failure of the display unit 9. The convenience of operation of the RFID tag system is improved.

  When the rewrite confirmation means is constituted by a display state detection means including a detection pattern 21 that is displayed differently before and after rewriting and an optical sensor 22 that reads the detection pattern 21, a change in the detection pattern 21 displayed on the display unit 9 is achieved. Can be directly read and confirmed by the optical sensor 22, and when the display content is not changed, it can be detected that a failure has occurred in the display unit 9. Further, when the rewriting confirmation unit is configured by a driving state detection unit including an electric sensor 23 that measures at least one of a current value, a voltage value, or a power value supplied from the power source 13 to the display unit 9, the display unit 9 When the current value, voltage value, or power value required for rewriting the display content is not supplied to the display unit 9, it can be detected that a failure has occurred in the display unit 9. By configuring the rewrite confirmation unit with at least one of these two detection units, it is possible to detect the presence or absence of a failure of the display unit 9 while suppressing an increase in cost, and to provide an RFID tag system with excellent reliability. Further, if the rewrite confirmation means is constituted by both the display state detection means and the drive state detection means, even if a failure occurs in one detection means, it is detected whether the display content has been rewritten by the other detection means. Therefore, an RFID tag system with improved detection accuracy of the rewrite confirmation means can be provided.

1 is a block diagram showing an RFID tag and an RFID tag system according to the present invention. It is a front view of the RFID tag of the present invention. It is the sectional view on the AA line of FIG. It is a front view which shows an example of the display state of a detection pattern. It is a cross-sectional view which shows another arrangement | positioning form of an electric sensor. It is a block diagram which shows the RFID tag and RFID tag system which concern on a reference example. It is a front view which shows a part of display content of the display part in a reference example.

(Embodiment) FIGS. 1 to 4 show an embodiment of an RFID tag and an RFID tag system according to the present invention. In the present embodiment, front and rear, left and right, and up and down follow the arrows shown in FIG. In FIG. 1, the RFID tag system includes an RFID tag 1, a host terminal 2 constituted by a personal computer, a reader / writer 3 connected to the host terminal 2, and the like.

  The reader / writer 3 performs non-contact wireless communication with the communication controller 8 of the RFID tag 1 based on a control signal from the host terminal 2 or the like. The wireless communication between the reader / writer 3 and the communication controller 8 is performed when wireless communication is performed using NFC (Near Field Communication) by using radio waves in the UHF frequency band (920 MHz) for wireless communication. Compared with this, the communication distance can be increased. Reference numeral 4 denotes an antenna of the reader / writer 3 that transmits a transmission wave for wireless communication or receives a reflected wave from the RFID tag 1. The antenna 4 is a batch antenna. Note that data communication between the reader / writer 3 and the host terminal 2 can be performed via the Internet or a mobile phone line in addition to a wired or wireless LAN. The RFID tag 1 in a range where wireless communication with the reader / writer 3 can be established operates when the communication controller 8 receives a transmission wave radiated from the reader / writer 3.

  As shown in FIG. 1, the RFID tag 1 includes a communication controller 8 that performs wireless communication with the reader / writer 3, a display unit 9 that is electronic paper (nonvolatile display medium) on which various types of information are displayed, A display driver 10 that controls the display unit 9, a tag controller (control unit) 11 that controls the entire RFID tag 1, a storage unit 12 that stores various data information, the display unit 9, and the tag controller 11 And a primary battery (power source) 13 for supplying electric power. The communication controller 8 includes an antenna 14 that receives a transmission wave for wireless communication from the reader / writer 3 or transmits a reflected wave. The antenna 14 is a folded dipole antenna. The communication controller 8 transmits data to the tag controller 11 or communicates with the reader / writer 3 based on a command transmitted from the reader / writer 3. The communication controller 8, the display driver 10, the tag controller 11, the primary battery 13, and the like are mounted on the substrate 15 (see FIG. 1).

  The tag main body 16 constituting the RFID tag 1 includes a shallow dish-shaped front case 16a having an opening on the rear surface, and a rear case 16b fixed so as to close the rear surface opening of the front case 16a (see FIG. 3). Between the front and rear cases 16a and 16b, the display unit 9 and the substrate 15 are accommodated. As shown in FIG. 2, a horizontally elongated rectangular window 16 c for exposing the display surface of the display unit 9 to the outer surface of the tag body 16 is provided on the front wall of the front case 16 a. The left and right dimensions of the display unit 9 are set to be larger than the left and right dimensions of the window 16c. Thus, the display surface of the display unit 9 is exposed to the window 16c and exposed to the outer surface, and the display of the display unit 9 is displayed. The concealing surface 9b is concealed from the outer surface by the tag body 16 on the right end side of the surface. Most of the display surface of the display unit 9 is configured to be the exposed surface 9a, and information to be provided to the user is displayed on the exposed surface 9a.

  The communication controller 8 is provided with a dedicated storage unit 18, and the storage area is divided into a system area and a user area. In the system area, an identification code unique to the communication controller 8 and a program for controlling wireless communication with the reader / writer 3 are stored, whereby the communication controller 8 independently functions as an RFID tag. In the system area, a program for controlling communication with the tag controller 11 is stored. The user area is used for temporarily storing data transmitted from the reader / writer 3 when the communication controller 8 communicates with the tag controller 11. Since the communication controller 8 has a unique identification code, the host terminal 2 can selectively or collectively operate the RFID tags 1 within a range where wireless communication with the reader / writer 3 can be established. .

  The communication controller 8 waits to receive a transmission wave from the reader / writer 3 without using the communication mode for performing wireless communication with the reader / writer 3 using the power of the primary battery 13 and the power of the primary battery 13. The mode can be changed to the standby mode. As the power for changing the mode from the standby mode to the communication mode, the power generated when the antenna 14 receives the transmission wave radiated from the reader / writer 3 is used. The mode change from the communication mode to the standby mode is performed when the tag controller 11 cuts off the power supply of the primary battery 13 to the communication controller 8 when the operation based on the command from the host terminal 2 is completed.

  The display unit 9 is controlled by the tag controller 11 and the display content is rewritten based on a rewrite command transmitted from the host terminal 2 to the communication controller 8 via the reader / writer 3. The display driver 10 receives a control signal from the tag controller 11 and displays and erases the display content of the display unit 9 that is electronic paper. The entire RFID tag 1 is controlled by the tag controller 11. The mode can be changed between a rewrite mode in which the display content of the display unit 9 is rewritten using the power of the primary battery 13 and a sleep mode in which a small amount of power of the primary battery 13 is used to receive and wait for an activation signal from the communication controller 8. It is configured.

  The storage area of the storage unit 12 is divided into a system area, an image data area, and a data storage area. A program for controlling the entire RFID tag 1 is stored in the system area, and the tag controller 11 controls the RFID tag 1 based on this program. The image data area stores base image data composed of various characters and symbols that are the basis of display image data, and a plurality of standard image data such as characters, numbers, symbols, and figures. A code for identifying image data is assigned to each base image data and fixed image data. The tag controller 11 reads the image data based on the code stored in the rewrite command, and displays the base image and the fixed image in a superimposed manner at a predetermined coordinate position of the display unit 9 via the display driver 10. Characters and the like can be displayed on the display unit 9 in black and white. Various data transmitted from the reader / writer 3 are stored in the data storage area.

  The tag controller 11 of the RFID tag 1 according to the present embodiment includes rewrite confirmation means for detecting whether the display content of the display unit 9 has been rewritten when the display content of the display unit 9 is rewritten by a rewrite command. The rewrite confirmation unit includes a display state detection unit and a drive state detection unit. The display state detection means includes a detection pattern 21 that displays different display contents in the identification area 20 before and after rewriting, and a photoelectric sensor (optical sensor) 22 that reads the detection pattern 21. Further, the driving state detection means includes a current sensor (electric sensor) 23 that measures a current value supplied from the primary battery 13 to the display unit 9.

  Here, the display state detection means will be described. As shown in FIGS. 3 and 4, the identification area 20 is provided on the concealment surface 9 b of the display unit 9 concealed from the outer surface by the tag body 16, and the three identification areas 20 are located at the lower right of the display unit 9. It is provided side by side in the part. On the surface side of the display unit 9, photoelectric sensors 22 are arranged so as to face each identification area 20, and the photoelectric sensor 22 is arranged inside a bulging part 16d formed in the front case 16a. The photoelectric sensor 22 includes a light projecting element 22a and a light receiving element 22b, reflects the irradiation light emitted from the light projecting element 22a at the identification area 20, and receives the reflected light at the light receiving element 22b. Whether the identification area 20 is white or black is detected based on the amount of reflected light received by the light receiving element 22b. The detection pattern 21 is configured by combining white or black display of each identification area 20.

  The rewrite control of the detection pattern 21 is performed by generating a rewrite command including the code of the detection pattern 21 at the host terminal 2 and transmitting the rewrite command from the reader / writer 3 to the RFID tag 1. When the communication controller 8 receives the rewrite command, the tag controller 11 rewrites the display content of the display unit 9 based on the code of the rewrite command. At the time of rewriting, for example, the detection pattern 21 (FIG. 4A) in which the upper and lower identification areas 20 and 20 are displayed in black before the rewriting is detected, and the detection pattern 21 (in which the upper and center identification areas 20 and 20 are displayed in black). The data is rewritten as shown in FIG. The tag controller 11 detects the failure of the display unit 9 by reading the detection pattern 21 with the three photoelectric sensors 22 and checking whether the detection pattern 21 has changed before and after rewriting. .

  If there is a change in the detection pattern 21 before and after the rewriting, the tag controller 11 determines that the rewriting operation has been performed normally and that the display unit 9 has not failed, and the communication controller 8 determines that the rewriting has been completed. To the host terminal 2. If there is no change in the detection pattern 21 before and after rewriting, the tag controller 11 determines that the display unit 9 has failed and the rewriting operation is not normally performed, and the detection result is used as a communication controller. The information is transmitted to the host terminal 2 through the communication controller 8 together with the 8 identification code. Thereby, the host terminal 2 can know which RFID tag 1 has a failure. When a plurality of reader / writers 3 are connected to the host terminal 2, the approximate position of the RFID tag 1 can be identified from the reader / writer 3 that has established communication with the RFID tag 1 in which a failure has occurred.

  The rewrite control of the detection pattern 21 does not need to be included in the rewrite command, and may be performed by the tag controller 11. In this case, the detection pattern 21 before rewriting is stored in the storage unit 12. When the communication controller 8 receives the rewrite command, the tag controller 11 generates a detection pattern 21 different from the detection pattern 21 before the rewrite, and the detection generated by the tag controller 11 in the display content based on the code of the rewrite command. The display unit 9 is rewritten with the pattern 21 superimposed. The tag controller 11 reads this detection pattern 21 with the photoelectric sensor 22 and confirms whether or not the detection pattern 21 has changed before and after rewriting.

  Next, the driving state detecting means will be described. As shown in FIG. 1, a current sensor 23 is provided in a circuit in which power is supplied from the primary battery 13 to the display unit 9. Since a predetermined current is supplied at the time of rewriting the display content of the display unit 9, a failure of the display unit 9 is detected by measuring the supplied current with the current sensor 23. When a predetermined current is supplied to the display unit 9 when the display content of the display unit 9 is rewritten, the tag controller 11 determines that the rewriting operation is normally performed and the display unit 9 has not failed, and the rewriting is performed. The completion is transmitted to the host terminal 2 via the communication controller 8. If a predetermined current is not supplied to the display unit 9, the tag controller 11 determines that the display unit 9 has failed and the rewrite operation is not normally performed, and the detection result is communicated. This is transmitted to the host terminal 2 through the communication controller 8 together with an identification code unique to the controller 8.

  FIG. 5 shows another arrangement form of the photoelectric sensor 22. In this arrangement form, the detection pattern 21 of the identification area 20 from the back side of the display unit 9 is formed by forming the back side constituent member of the paper body constituting the electronic paper as the display unit 9 with a material having translucency. Can be confirmed (viewed). Accordingly, the photoelectric sensor 22 is arranged on the back side of the display unit 9 so as to face each identification area 20. The photoelectric sensor 22 is mounted on the substrate 15. Thus, by disposing the photoelectric sensor 22 in the gap between the substrate 15 and the display body 9, the appearance of the RFID tag 1 can be made as clean as the bulging portion 16d can be omitted. . Further, since the photoelectric sensor 22 can be mounted on the substrate 15, there is an advantage that the assembling property of the RFID tag 1 can be improved.

  Here, an example in which the RFID tag 1 of this embodiment and the RFID tag system are applied as an information providing system in an evacuation facility at the time of disaster will be described. A plurality of reader / writers 3 constituting the RFID tag system are installed on the ceiling, wall surface, or under the floor of the facility so that the RFID tag 1 can establish wireless communication with the reader / writer 3 at all locations in the facility. Keep it. The manager of the facility (the operator of the host terminal 2) rents the RFID tag 1 to the resident (user) who has evacuated at the time of the disaster, and the identification code of the communication controller 8 of the rented RFID tag 1 and the resident's The personal information is associated and registered in the host terminal 2. When the administrator wants to provide facility guidance or evacuation information to the residents, the host terminal 2 transmits a rewrite command for rewriting the display content of the display unit 9 of the RFID tag 1 via the reader / writer 3. . As a result, the residents can take in the latest information provided by the administrator. At this time, for the RFID tag 1 in which the display content of the display unit 9 is not rewritten and a failure of the display unit 9 is detected, the administrator evacuates to the facility by promptly taking measures such as replacement. Can maintain a state where the residents are always able to capture the latest information.

  As described above, in the RFID tag and the RFID tag system of the present embodiment, the rewrite confirmation means provided in the tag controller 11 detects whether or not the display content has been rewritten when the display content on the display unit 9 is rewritten. To do. When the rewriting confirmation unit detects that the display content of the display unit 9 has not been rewritten, the detection result is transmitted to the host terminal 2 together with the identification code unique to the communication controller 8. Thus, since the tag controller 11 transmits from the RFID tag 1 to the host terminal 2 (external) that the display content of the display unit 9 has not been rewritten based on the detection result of the rewrite confirmation unit, the display unit 9 that the failure has occurred can be surely recognized on the host terminal 2 side, and the RFID tag 1 having excellent reliability can be obtained. At this time, since the identification code specific to the communication controller 8 is simultaneously transmitted together with the detection result, the RFID tag 1 in which the failure has occurred in the display unit 9 can be easily identified. Accordingly, it is possible to quickly deal with the defective RFID tag 1 such as replacement, which is suitable as an information display medium and an information providing system for displaying important display contents such as disaster prevention information. Further, since the failure is detected on the RFID tag 1 side, the failure of the display unit 9 of the RFID tag 1 in the range where communication with the reader / writer 3 can be established can be known on the host terminal 2 side. Therefore, as long as communication with the reader / writer 3 can be established, even if the RFID tag 1 is located away from the host terminal 2, the operator operating the host terminal 2 can know the failure of the display unit 9. The convenience of operation of the RFID tag system is improved.

  Since the rewrite confirmation means is composed of a display state detection means that includes a detection pattern 21 that is displayed differently before and after the rewrite and a photoelectric sensor 22 that reads the detection pattern 21, the detection pattern 21 displayed on the display unit 9 is displayed. The change can be confirmed by directly reading it with the photoelectric sensor 22, and when the display content is not changed, it can be detected that a failure has occurred in the display unit 9. In addition, since the rewriting confirmation unit is configured by the driving state detection unit including the current sensor 23 that measures the current value supplied from the primary battery 13 to the display unit 9, the current value required for rewriting the display content of the display unit 9. Is not supplied to the display unit 9, it can be detected that a failure has occurred in the display unit 9. Since both of these detection means constitute the rewrite confirmation means, even if one of the detection means malfunctions, it is possible to detect whether the display content has been rewritten by the other detection means, thus improving the detection accuracy of the rewrite confirmation means. Thus, the presence or absence of a failure in the display unit 9 of the RFID tag 1 can be determined with higher reliability. In addition, when the rewrite confirmation unit is configured by one of these two detection units, the RFID tag 1 having excellent reliability can be obtained while suppressing an increase in cost.

  Since the identification area 20 is provided on the concealment surface 9b of the display unit 9 concealed from the outer surface by the tag body 16, the user can visually recognize only the display content displayed on the exposed surface 9a. The complexity of the display content caused by the display on the unit 9 can be avoided.

  Since the display unit 9 of the RFID tag 1 is made of lightweight electronic paper, the RFID tag 1 can be reduced in size and weight, and the electronic paper consumes little power when rewriting the display. Since display content can be held without consumption, the consumption of the primary battery 13 can be prevented, and power saving of the RFID tag 1 can be achieved.

  In the above embodiment, the three identification areas 20 are provided. However, since the display contents of the detection pattern 21 need only change before and after rewriting, at least one identification area 20 is provided and the corresponding photoelectric sensor 22 is provided. Any detection pattern 21 of white or black may be detected. Further, the RFID tag 1 may be provided with a light emitting display unit, a speaker, or the like, and the failure of the display unit 9 may be notified by the RFID tag 1 itself. In this case, the user himself / herself can confirm the failure of the display unit 9 and can take measures such as replacement promptly.

Reference Example FIGS. 6 and 7 show a reference example of an RFID tag and an RFID tag system. In this reference example, display contents including a detection code 30 composed of a one-dimensional code or a two-dimensional code are displayed on the display unit 9 of the RFID tag 1, such as a scanner or a camera connected to the host terminal 2. The data is read by the code reader 31 to check whether the display contents are rewritten. Specifically, a display content rewrite command is generated by the host terminal 2 and transmitted from the reader / writer 3. The RFID tag 1 that has received the display content rewriting command displays a barcode (detection code) 30 in the lower right portion of the display unit 9 as shown in FIG. 7 in addition to the information provided to the user. After transmitting the rewrite command, the barcode scanner (code reader) 31 checks whether the barcode 30 specified by the rewrite command has been rewritten. If the barcode has been rewritten to the designated bar code 30, it is determined that the rewriting operation has been normally performed and the display unit 9 has not failed. If the designated bar code 30 has not been rewritten, it is determined that a failure has occurred in the display unit 9 and the rewriting operation is not normally performed.

  In the RFID tag and RFID tag system of this reference example, since the display unit 9 is read by the barcode scanner 31 connected to the host terminal 2, the photoelectric sensor 22 and the current sensor 23 can be omitted from the RFID tag 1 of the above embodiment. . Thereby, the cost of the RFID tag 1 can be suppressed, and the barcode scanner 31 can be constituted by a general-purpose scanner-type barcode reader. Therefore, the RFID tag that can detect a failure of the display unit 9 while suppressing an increase in cost. A system can be provided.

  In the reference example, the code reader 31 can be connected to the reader / writer 3. In this case, the RFID tag system can detect a failure of the display unit 9 even at a location away from the host terminal 2. Further, the host terminal 2, the reader / writer 3, and the code reader 31 can be configured as a portable package such as a handy terminal. In this case, a portable RFID tag system that can detect a failure of the display unit 9 offline without using a wired or wireless LAN network can be provided.

  In the above reference example, after rewriting, the code reader 31 checks whether or not the detection code 30 has been rewritten normally. Therefore, the RFID in the vicinity of the host terminal 2 to which the code reader 31 is connected or the reader / writer 3 is connected. It is necessary to rewrite the display unit 9 of the tag 1. For this reason, in the above embodiment, radio waves in the UHF frequency band are used for wireless communication between the reader / writer 3 and the communication controller 8, but in the reference example, wireless communication is performed using NFC (near field communication). It can be performed.

DESCRIPTION OF SYMBOLS 1 RFID tag 2 Host terminal 3 Reader / writer 8 Communication controller 9 Display part 9a Exposed surface 9b Concealed surface 11 Control part (tag controller)
13 Power supply (primary battery)
16 Tag body 16c Window 20 Identification area 21 Detection pattern 22 Optical sensor (photoelectric sensor)
23 Electric sensor (current sensor)

Claims (7)

A communication controller (8) responsible for wireless communication with the outside, a display unit (9) for displaying information, a control unit (11) for controlling the entire RFID tag (1), and at least the control unit (11) And a power supply (13) for supplying power to the display unit (9), and the display unit (9) is an RFID tag configured with a non-volatile display medium,
The display content of the display unit (9) is controlled by the control unit (11) so as to be rewritten based on a rewrite command transmitted from the outside to the communication controller (8).
The control unit (11) includes rewrite confirmation means for detecting whether the display content of the display unit (9) is rewritten when the display content of the display unit (9) is rewritten.
When the rewrite confirmation means detects that the display content of the display unit (9) has not been rewritten, the detection result is sent to the outside via the communication controller (8) together with the identification code unique to the communication controller (8). An RFID tag characterized by transmitting. The rewrite confirmation unit is configured with at least one of the display state detection unit and the drive state detection unit,
The display state detection means displays a detection pattern (21) displayed in the identification area (20) of the display unit (9) and displayed differently before and after rewriting of the display unit (9), and the detection pattern (21). An optical sensor (22) for reading,
The drive state detection means includes an electric sensor (23) for measuring at least one of a current value, a voltage value, or a power value supplied from the power source (13) to the display unit (9). RFID tag described in 1.   The RFID tag according to claim 2, wherein the rewrite confirmation unit includes both a display state detection unit and a drive state detection unit. The tag body (16) constituting the RFID tag (1) is provided with a window (16c) for visually recognizing the display surface of the display unit (9) housed in the tag body (16).
The display surface of the display unit (9) is composed of an exposed surface (9a) exposed to the outer surface facing the window (16c) and a concealed surface (9b) concealed from the outer surface by the tag body (16). The RFID tag according to claim 2 or 3, wherein an identification area (20) is provided on the surface (9b).   The RFID tag according to any one of claims 1 to 4, wherein the display unit (9) is made of electronic paper. An RFID tag system including an RFID tag (1), a host terminal (2), and a reader / writer (3) controlled by the host terminal (2) to perform wireless communication with the RFID tag (1),
The RFID tag (1) includes a communication controller (8) that performs wireless communication with the reader / writer (3), a display unit (9) that displays information, and a control unit that controls the entire RFID tag (1). (11) and at least a control unit (11) and a power source (13) for supplying power to the display unit (9), and the display unit (9) is formed of a nonvolatile display medium,
The display content of the display unit (9) is controlled by the control unit (11) so as to be rewritten based on a rewrite command transmitted from the host terminal (2) to the communication controller (8) via the reader / writer (3). Has been
The control unit (11) includes rewrite confirmation means for detecting whether the display content of the display unit (9) has been rewritten,
When the rewrite confirmation means detects that the display content of the display unit (9) has not been rewritten, the detection result is sent to the host terminal via the communication controller (8) together with the identification code unique to the communication controller (8). An RFID tag system which transmits to (2). The rewrite confirmation unit is configured with at least one of the display state detection unit and the drive state detection unit,
The display state detection means displays a detection pattern (21) displayed in the identification area (20) of the display unit (9) and displayed differently before and after rewriting of the display unit (9), and the detection pattern (21). An optical sensor (22) for reading,
The drive state detection means includes an electric sensor (23) for measuring at least one of a current value, a voltage value, or a power value supplied from the power source (13) to the display unit (9). The RFID tag system described in 1.

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