JP5644632B2 - Portable wireless tag reader - Google Patents

Description

  The present invention relates to a portable wireless tag reader.

  An RFID (Radio Frequency IDentification) system is generally composed of an RFID tag for registering ID and information data, and an RFID reader / writer for recognizing and controlling the RFID tag. An RFID tag used in this system includes, for example, a built-in antenna and an IC chip, and uses power and communication data supplied from the RFID reader / writer via radio waves and magnetic fields output from the antenna of the RFID reader / writer. Received with built-in antenna. Then, data is recorded in the IC chip according to a command from the RFID reader / writer, or data is transmitted to the RFID reader / writer.

JP 2003-87399 A

By the way, although a portable device is widely provided as the wireless tag reader, the portable device generally has a problem that the device is easily left behind, and a technique for solving such a problem. As described in Japanese Patent Application Laid-Open No. H10-260688, a device such as that disclosed in Patent Document 1 is provided. In the technique of this Patent Document 1, a wireless transmission / reception circuit (5) and a wireless tag (8) are provided inside a moving body, and the wireless tag (8) receives this electromagnetic wave when receiving an electromagnetic wave from the outside. The power supply circuit (6) is activated by the electric power generated by. Then, according to the information received by the wireless tag (8), the functions of the wireless transmission / reception circuit (5) and the power supply circuit (6) are stopped or restarted.
However, in the configuration in which the wireless tag is simply provided in the wireless device in this way, when there are many similar wireless devices in the vicinity, even if only a specific wireless device is to be activated, the wireless devices provided in these wireless devices are All tags react and all wireless devices operate in the same way (for example, simultaneous activation). Therefore, such a method causes useless activation, and it is difficult to find a specific device when there are many similar wireless devices.

  The present invention has been made to solve the above-described problems, and relates to a portable wireless tag reader that can perform wireless communication with a wireless tag, even if it is in a power-off state, from an external tag reader. It is an object of the present invention to provide a configuration that can selectively activate only the device according to an instruction.

In order to achieve the above object, the invention of claim 1
A portable wireless tag reader that performs wireless communication with a wireless tag via an antenna,
Battery,
A power supply means connected to the battery and capable of switching power supply from the battery to an electronic component in the apparatus between an on state and an off state;
A communication means configured to operate when power supply by the power supply means is in the on state, and capable of performing wireless communication with a wireless tag outside the apparatus via the antenna;
An internal tag having a wireless tag function and configured to be communicable with an external tag reader;
The power supply means is configured to be operable when the power supply is in the off state, wireless communication with the internal tag is performed by the external tag reader, and designation information for designating the wireless tag reader is transmitted by the external tag reader Detecting means for detecting
With
The power supply means, when the power supply by the power supply means is in the off state, when the detection means detects wireless communication with the internal tag and transmission of the designated information by the external tag reader, The power supply to the device is configured to switch to the on state ,
The inner tag is
A password recording means for recording a registered password;
The registration recorded in the password and the password recording means when the external tag reader transmits designation information for designating the wireless tag reader and a password is transmitted from the external tag reader to the internal tag. An authentication means for performing authentication based on the password;
When the external tag reader instructs the internal tag to write data, and when the authentication by the authentication means is successful, the writing means for performing the instructed data writing process,
An output means for outputting a specific signal when the writing process is performed by the writing means;
With
When the power supply by the power supply means is in the off state, the power supply means switches the power supply into the apparatus to the on state when the specific signal is output.

The invention of claim 1 is provided with an internal tag configured to be able to communicate with an external tag reader and a detecting means, and the detecting means is configured to be operable when the power supply by the power supply means is in an off state. In addition, it is configured to detect that the external tag reader performs wireless communication with the internal tag and the external tag reader transmits the designation information specifying the wireless tag reader.
Then, when the power supply by the power supply means is in an off state, the power supply means detects when the detection means detects the wireless communication with the internal tag by the external tag reader and the transmission of the designated information. The power supply is configured to be switched on.
In this configuration, even when the position of the wireless tag reader is not known when the wireless tag reader is turned off, the wireless tag reader can be turned on by communication from the external tag reader. Furthermore, since the power supply is turned on under the condition that the designated information for designating the wireless tag reader is detected, even if there are a plurality of tag readers of the same type in the range that can communicate with the external tag reader, only the desired wireless tag reader is used. It can be selectively activated to make it easy to find.
The internal tag is provided with password recording means for recording a registered password, authentication means, writing means, and output means.
The authentication means is recorded in the password and the password recording means when the designation information for designating the wireless tag reader is transmitted by the external tag reader and the password is transmitted from the external tag reader to the internal tag. Authentication is performed based on the registered password, and the writing means is authenticated by the authentication means when the external tag reader instructs the internal tag to write data. In addition, the instructed data is written. The output means is configured to output a specific signal when the writing process is performed by the writing means.
The power supply means is configured to switch the power supply into the apparatus to the on state when the specific signal is output when the power supply by the power supply means is in the off state.
In this configuration, when trying to activate a power-off RFID tag reader by an external tag reader, authentication is not performed unless the regular password is transmitted from the external tag reader, and the RFID tag reader cannot be activated. It is possible to block access from a tag reader that cannot transmit the password. Accordingly, it is possible to more reliably prevent unauthorized activation in response to an instruction from an unauthorized tag reader, and to enhance security.

In the invention of claim 2, the antenna is configured to be connectable to the communication means and the internal tag, and connection switching means for switching the connection state is provided. The connection switching means is configured to connect the antenna and the communication means when the power supply by the power supply means is on, and to connect the antenna and the internal tag when the power supply by the power supply means is off. It is configured.
In this configuration, the antenna provided in the device can be shared when the communication means communicates and when the internal tag communicates, and the number of parts can be reduced and the device can be realized while realizing high functionality. The configuration can be simplified. In particular, it is possible to appropriately use depending on the state so that the communication unit is used when the power supply by the power supply unit is in the on state, and the internal tag is used in the off state.

The invention of claim 3 includes a process execution unit capable of executing a plurality of types of processes, a process specification information storage unit storing process specification information for specifying any process executable by the process execution unit, in a predetermined area; Is provided.
Then, the process execution unit is configured to process the process specifying information when the power supply by the power supply unit is turned on in response to the wireless communication with the internal tag by the external tag reader and the transmission of the designation information being detected by the detection unit. A predetermined area of the storage means is read out, and a process corresponding to the read process specifying information is executed.
According to this configuration, at the time of activation (when the terminal is activated in response to communication with an internal tag), information that specifies a desired process (process identification information) is stored in a predetermined area. ) Can be executed.

The invention of claim 4 is provided with notification means for performing a notification operation to the outside of the apparatus and notification control means for controlling the notification operation of the notification means. The notification control unit notifies the notification unit when the power supply by the power source unit is turned on in response to the detection unit detecting the wireless communication with the internal tag by the external tag reader and the transmission of the designation information. The notification operation is performed.
According to this configuration, when the terminal is activated in response to communication with the internal tag, it is possible to notify the outside, so that a person who exists outside (for example, a person who operates an external tag reader) It becomes easier to ascertain that there is a tag reader and the position of the wireless tag reader more reliably.

Also, control and control means are provided, the control means, when the power supply by the power supply means is turned on, that the wireless communication with the internal tag by the external tag reader is detected by the detection means You may be comprised so that specific processing may be performed to conditions. In this configuration, the wireless tag reader can be operated from an external tag reader not only when the power supply to the wireless tag reader is off but also on.

Further, the internal tag, and writing means, output means and is provided, the writing means performs writing processing of the data when the external reader instructs the writing of data to the internal tags, The output means may be configured to output a specific signal when the writing process is performed by the writing means .
Further, the control means is configured to perform a process of reading the data written by the writing means as a specific process when a specific signal is output when the power supply by the power supply means is in an on state. It may be.
In the present invention, when the power supply by the power supply means is in an on state, it is possible to read data written to the internal tag from the outside. In particular, when a write process is performed with an internal tag, a specific signal is output, and the written data is read on the condition that the specific signal is output, so that it is read at an appropriate time without constantly monitoring the writing. Will be able to. Accordingly, the overall processing time can be shortened and power can be saved.

FIG. 1 is a block diagram illustrating the electrical configuration of the wireless tag reader according to the first embodiment of the invention. 2A is a block diagram schematically illustrating an internal configuration of a communication unit (wireless reader unit) in the wireless tag reader in FIG. 1, and FIG. 2B is an information code reading in the wireless tag reader in FIG. It is a block diagram which illustrates schematically the internal structure of a part. FIG. 3 is a block diagram schematically illustrating the internal configuration of the wireless tag chip in the wireless tag reader of FIG. FIG. 4 is a block diagram illustrating an electrical configuration of a wireless tag read by the wireless tag reader of FIG. FIG. 5 is a flowchart illustrating the flow of activation processing performed by the wireless tag chip in the wireless tag reader. FIG. 6 is a flowchart illustrating the flow of communication processing performed by an external tag reader. FIG. 7 is a flowchart illustrating the flow of the startup process performed by the wireless tag reader. FIG. 8 is an explanatory diagram for conceptually explaining the process specifying information. FIG. 9 is a block diagram illustrating an electrical configuration of a wireless tag reader according to another embodiment.

[First embodiment]
Hereinafter, a first embodiment in which a wireless tag reader of the present invention is embodied will be described with reference to the drawings.

(Overall configuration of wireless tag reader)
First, the overall configuration of the wireless tag reader 1 will be described with reference to FIGS.
FIG. 1 is a block diagram illustrating the electrical configuration of the wireless tag reader according to the first embodiment of the invention. 2A is a block diagram schematically illustrating an internal configuration of a communication unit (wireless reader unit) in the wireless tag reader in FIG. 1, and FIG. 2B is an information code reading in the wireless tag reader in FIG. It is a block diagram which illustrates schematically the internal structure of a part. FIG. 3 is a block diagram schematically illustrating the internal configuration of the wireless tag chip in the wireless tag reader of FIG. FIG. 4 is a block diagram illustrating an electrical configuration of a wireless tag read by the wireless tag reader of FIG.

  The wireless tag reader 1 is configured as a portable terminal that can be carried by a user, and has a function of reading an information code such as a barcode or a two-dimensional code in addition to a function of reading a non-contact communication medium such as an RFID tag. Therefore, the reading can be performed by two methods.

  As shown in FIG. 1, the wireless tag reader 1 is provided with a control unit 10 that performs overall control. The control unit 10 includes a memory 11, a display unit 12, a buzzer 13, an external interface 14, and a wireless reader unit. 20, an information code reading unit 30, a wireless tag chip 40, and the like are connected.

  The control unit 10 is composed mainly of a microcomputer, has a CPU, a system bus, an input / output interface, and the like, and functions as an information processing device together with the memory 11. The display part 12 is comprised, for example with the liquid crystal display etc., and it is comprised so that a display content may be controlled by the control part 10. FIG. The external interface 14 is configured as an interface for performing data communication (for example, serial communication via a cable) with the outside (for example, a host device), and cooperates with the control unit 10. It is configured to perform communication processing.

  The wireless reader unit 20 corresponds to an example of “communication means”, and performs communication using the electromagnetic wave with the wireless tag 50 in cooperation with the antenna 25 and the control unit 10 and is stored in the wireless tag 50. It functions to read data or write data to the wireless tag 50. The wireless reader unit 20 is configured, for example, as a circuit that performs transmission using a known radio wave system, and includes a transmission circuit 21, a reception circuit 22, a matching circuit 23, and the like as illustrated in FIG. It is configured to operate when the power supply by the circuit 15 is on.

  The transmission circuit 21 includes a carrier oscillator, an encoding unit, an amplifier, a transmission unit filter, a modulation unit, and the like, and is configured to output a carrier (carrier wave) having a frequency of 953 MHz, for example, from the carrier oscillator. The encoding unit is connected to the control unit 10, encodes transmission data output from the control unit 10, and outputs the encoded transmission data to the modulation unit. The modulation unit is a part to which the carrier (carrier wave) from the carrier oscillator and the transmission data from the encoding unit are input. The carrier (carrier wave) output from the carrier oscillator is encoded at the time of command transmission to the communication target. A modulated signal that is ASK (Amplitude Shift Keying) modulated by the encoded transmission code (modulated signal) output from the encoding unit is generated and output to the amplifier. The amplifier amplifies the input signal (the modulated signal modulated by the modulation unit) with a predetermined gain, and outputs the amplified signal to the transmission unit filter. The transmission unit filter filters the amplified signal from the amplifier. The transmission signal is output to the antenna 25 via the matching circuit 23. When a transmission signal is output to the antenna 25 in this way, the transmission signal is radiated to the outside from the antenna 25 as an electromagnetic wave.

  On the other hand, the radio wave signal received by the antenna 25 is input to the receiving circuit 22 through the matching circuit 23. The reception circuit 22 is configured by a reception unit filter, an amplifier, a demodulation unit, a binarization processing unit, a decoding unit, and the like, and after filtering a signal received via the antenna 25 with a reception unit filter, The signal is amplified by an amplifier, and the amplified signal is demodulated by a demodulator. Then, the demodulated signal waveform is binarized by the binarization processing unit, decoded by the decoding unit, and then the decoded signal is output to the control unit 10 as received data. In FIG. 2A, the switch SW1 shown in FIG. 1 is omitted, and the transmission circuit 21 and the reception circuit 22 are switched so that the wireless reader unit 20 and the antenna 25 are electrically connected. When it is designed to work as described above.

  A communication target when communication is performed by the wireless reader unit 20 is configured as shown in FIG. 4, for example. The wireless tag 50 is configured as a known RFID tag in hardware, for example, and includes an antenna 51, a power supply circuit 52, a demodulation circuit 53, a control circuit 54, a memory 55, a modulation circuit 56, and the like as shown in FIG. It is configured. The power supply circuit 52 rectifies and smoothes the transmission signal (carrier signal) received from the wireless tag reader 1 via the antenna 51 to generate an operation power supply. The operation power supply includes the control circuit 54 and the like. Is supplied to each component. The demodulating circuit 53 demodulates the data superimposed on the transmission signal (carrier signal) and outputs it to the control circuit 54. The memory 55 is composed of various semiconductor memories such as ROM and EEPROM, and stores control information, identification information (unique ID) for identifying the wireless tag 50, other data, and the like. The control circuit 54 is configured to read the information and data from the memory 55 and output it as transmission data to the modulation circuit 56. The modulation circuit 56 performs load modulation on the carrier signal with the transmission data and performs the antenna 51. Is transmitted as a reflected wave.

  As shown in FIG. 2B, the information code reading unit 30 includes a light receiving sensor 33 formed of a solid-state imaging device such as a CCD area sensor, an imaging lens 37, an illumination unit 31 including a plurality of LEDs and lenses. The information code (for example, one-dimensional code such as a barcode, QR code (registered trademark), data matrix code, etc.) attached to the reading object R in cooperation with the control unit 10 is configured. 2D code such as maxi code).

  In the information code reading unit 30, for example, when reading the information code C, the illumination light Lf is first emitted from the illumination unit 31 that has received a command from the control unit 10, and the illumination light Lf is read out (not shown). ) Is irradiated to the reading object R. Then, the reflected light Lr reflected from the information code C by the illumination light Lf is taken into the apparatus through the reading port, and is received by the light receiving sensor 33 through the imaging lens 37. The imaging lens 37 disposed between the reading port (not shown) and the light receiving sensor 33 is configured to form an image of the information code C on the light receiving sensor 33. The light receiving sensor 33 is configured with this information code. A light reception signal corresponding to the C image is output. The light receiving signal output from the light receiving sensor 33 is stored as image data in the memory 11 (FIG. 1) and used for decoding processing and the like. The information code reading unit 30 is provided with an amplifier circuit that amplifies the signal from the light receiving sensor 33, an AD converter circuit that converts the amplified signal into a digital signal, and the like. Is omitted.

  The wireless tag chip 40 corresponds to an example of an “internal tag” and has, for example, the same configuration as a known RFID tag, and has a wireless tag function and is configured to be able to communicate with an external tag reader. . The wireless tag chip 40 is formed as an IC chip with the same configuration as the wireless tag 50 in FIG. 4, and a control circuit 42, a communication circuit 41, and a memory 43 are provided inside. The communication circuit 41 has the same function as, for example, the demodulation circuit 53 and the modulation circuit 56 in FIG. 4, and the control circuit 42 and the memory 43 have the same function as, for example, the control circuit 54 and the memory 55 in FIG. doing. In addition, a power supply circuit similar to the power supply circuit 52 of FIG. 4 is also provided in the wireless tag chip 40, and is configured to generate operating power when receiving radio waves from an external tag reader.

  In the present embodiment, as shown in FIG. 1, the antenna 25 is configured to be connectable to the wireless reader unit 20 (communication means) and the wireless tag chip 40 (internal tag), and the control unit 10 controls the switch SW1. By doing so, the path of the connection from the antenna 25 can be switched. The switch SW1 and the control unit 10 correspond to an example of “connection switching unit”, and when the power supply by the power supply circuit 15 is in an on state, the antenna 25 and the wireless reader unit 20 (communication unit) are connected. When the power supply by the power supply circuit 15 is in an off state, the antenna 25 and the wireless tag chip 40 (internal tag) are operated to be connected.

  Further, the wireless tag reader 1 is provided with a battery 16 and a power supply circuit 15 as power sources. The battery 16 is configured by a known secondary battery such as a lithium ion battery. The power supply circuit 15 is configured to generate a predetermined output voltage upon receiving power supplied from, for example, the battery 16. The power supply circuit 15 corresponds to an example of “power supply means” and is connected to a battery 16 (battery) and functions to switch the power supply from the battery 16 into the apparatus between an on state and an off state. To do.

  The operation key 18 functions as a power key. For example, when a predetermined operation is performed on the operation key 18 while the operation of the power circuit 15 is stopped, an ON signal (for example, an H level signal) is output from the operation key 18. At this time, when a drive signal (for example, an H level signal) is input from the OR circuit 19 to the power supply circuit 15, the power supply circuit 15 starts operating (power supply) using this signal as a trigger. It is supposed to be.

  The OR circuit 19 can also receive a trigger signal from the RFID tag chip 40, and the power supply circuit 15 can receive a trigger signal (for example, an H level signal) from the RFID tag chip 40 while the operation is stopped (power is off). Even when is output, this signal is used as a trigger to start the operation.

(Control action)
Next, a control operation performed by the wireless tag reader 1 will be described.
FIG. 5 is a flowchart illustrating the flow of activation processing performed by the wireless tag chip in the wireless tag reader. FIG. 6 is a flowchart illustrating the flow of communication processing performed by an external tag reader. FIG. 7 is a flowchart illustrating the flow of the startup process performed by the wireless tag reader.

  5 is performed when the wireless tag chip 40 is accessed from an external tag reader when the wireless tag reader 1 is powered off (when the power supply circuit 15 is stopped), for example (between the external tag reader and the wireless tag chip 40). The wireless tag chip 40 executes the wireless communication when the wireless communication is started.

  First, with reference to FIG. 6, a process performed by an external tag reader in order to execute the activation process will be described. The processing in FIG. 6 is performed by, for example, a tag reader (external tag reader) having the same configuration as that of the wireless tag reader 1, and first, a write request is transmitted to the wireless tag chip 40 (S21). This write request is made by designating unique information of the communication partner, and for example, the write request is transmitted in association with the unique ID. After that, it waits for a response from the RFID tag chip 40 (S22), and after confirming the response from the RFID tag chip 40, transmits a password (S23). As this password, for example, a password input by the external tag reader (for example, password data input by a user using an operation unit provided in the external tag reader) is used. After transmitting the password in S23, it waits for a response from the RFID tag chip 40 to the transmission (S24).

  On the other hand, in the RFID tag chip 40, processing is performed as shown in FIG. 5, and first, a write request from the external tag reader (write request transmitted in S21 of FIG. 6) is received (S1). Specifically, for example, the unique ID of the memory 43 of the RFID tag chip 40 is recorded, and when a write request designating this unique ID is sent from an external tag reader, the write request is received and the steps after S2 Process. Note that in the case of a write request specifying a unique ID recorded in the memory 43, this write request is ignored.

  In the present embodiment, the control circuit 42 of the wireless tag chip 40 corresponds to an example of “detecting means”, and is configured to be operable when the power supply by the power supply circuit 15 is in an off state. The wireless tag chip 40 (internal A function to detect that the wireless tag communication is performed, and that the designation information designating the RFID tag reader 1 (specifically, the designation information designating the unique ID of the RFID tag chip 40) is transmitted by an external tag reader To do.

  After receiving the write request in S1, it is determined whether or not the security level of the wireless tag reader 1 is set to a high level (S2). In the wireless tag reader 1 of the present embodiment, the security level can be set to a high level and a low level, and if the security level is set to a high level, the process proceeds to Yes in S2. On the other hand, if the security level is set to a low level, the process proceeds to No in S2. The security level can be set, for example, when the user inputs information for designating the security level in the wireless tag reader 1 in advance, and the user performs an information input operation for instructing the security level to a high level in advance. In this case, information indicating that the security level is high can be registered in the memory 43. In S2, it is determined whether or not such information is set / registered. When the security level is set to a high level, a password (registration password) can be input and registered in the memory 43 together with information specifying the high level. The memory 43 corresponds to an example of “password recording unit”.

  If it is determined in S2 that the set security level is a high level, the process proceeds to Yes in S2, and a password transmitted from the external tag reader (password transmitted in S23) is received (S4). ). Then, the password received in S4 is compared with the password registered in the memory 43 (registered password) to determine whether or not they match (S5). If the password received in S4 does not match the password registered in the memory 43, the process proceeds to No in S5, and a write rejection command is transmitted to the external tag reader (S9). On the other hand, if it is determined in S5 that the passwords match, the process proceeds to Yes in S5, and a write permission command is transmitted to the external tag reader (S6). If it is determined in S2 that the security level is low, the processes in S3 to S5 are omitted, and the process in S6 (write permission command transmission process) is performed.

  In the present embodiment, the control circuit 42 corresponds to an example of “authentication means”, designation information for designating the wireless tag reader 1 is transmitted by an external tag reader, and the wireless tag chip 40 (internal tag) is transmitted from the external tag reader. When a password is transmitted to the password, authentication is performed based on the password and the registered password recorded in the memory 43 (password recording means).

  As shown in FIG. 6, the external tag reader side waits for a response from the wireless tag chip 40 after transmitting the password in S23 (S24), and then determines whether the response is a write permission command (S25). ). If the response sent from the wireless tag chip 40 is a write permission command, the process proceeds to Yes in S25, and data for writing to the wireless tag chip 40 (write data) is transmitted (S26). On the other hand, if the response sent from the wireless tag chip 40 is a write rejection command, or if the response cannot be obtained from the wireless tag chip 40, the process proceeds to No in S25. When the process proceeds to No in S25, or after the process of S26 is completed, it is determined whether or not to access the next device, and when another device is accessed (for example, there is an instruction from the user to access another device). In the case of the case, etc.), the process proceeds to Yes in S27. When other devices are not accessed (for example, when the user gives an instruction to end), the processing in FIG. 6 ends.

  On the wireless tag chip 40 side, after sending the write permission command in S6, the write data sent from the external tag reader is received (S7). Then, the contents designated by the write data are written into the memory 43. In the present embodiment, a signal (W signal) is extracted from the information transmission line between the control circuit 42 and the memory 43 to the power supply circuit 15, and when the data write process is performed on the memory 43 in S 8. An operation signal (for example, an H level signal) is input to the OR circuit 19. Accordingly, in response to this input, a drive signal (for example, an H level signal) is output from the OR circuit 19 to the power supply circuit 15, and the power supply circuit 15 is activated. As a result, the wireless tag reader 1 is turned on, and various electrical components in the wireless tag reader 1 can operate.

  In the present embodiment, the control circuit 42 corresponds to an example of “writing means”, and when the external tag reader instructs the wireless tag chip 40 (internal tag) to write data, the “authentication means” When the authentication is successful, it functions to write the instructed data. The control circuit 42 corresponds to an example of an “output unit”, and functions to output a specific signal (an operation signal for the OR circuit 19) when a write process is performed by the “write unit”.

Next, a post-startup process performed by the wireless tag reader 1 after the power is turned on will be described.
In this embodiment, data registration is performed in advance as shown in FIG. 8, for example, and the registration information in FIG. 8 has a configuration in which written characters are associated with processes after activation. Therefore, if a writing character is designated, the processing after activation is specified by referring to this registration information. In addition, in which area such registration information is registered in the memory 11 is recorded in advance as setting information. The control unit 10 of the wireless tag reader 1 can access registration information as shown in FIG. 8 according to this setting information at the time of activation (when power supply from the power supply circuit 15 is started).

  7 is performed by the control unit 10 when power supply from the power supply circuit 15 is started based on access to the wireless tag chip 40 (communication between an external tag reader and the wireless tag chip 40). For example, the process of FIG. 7 is executed when the signal St is input to the control unit 10 when the power is turned on. The signal St corresponds to, for example, a write signal (W signal) extracted from between the control circuit 42 and the memory 43 in the above-described write process. In this process, first, the memory 43 of the RFID tag chip 40 is accessed (S31), and information written by an external tag reader is read (S32). In S31, for example, the wireless reader unit 20 and the wireless tag chip 40 may be switched and read so as to be connected, or may be directly read from the control unit 10 via an access line (not shown).

  After reading the written contents in the process of S32, the above-described registration information (FIG. 8) stored in the memory 11 is referred to, and the process corresponding to the written information written by the external tag reader is specified (S33). . Then, it is determined whether or not there is data matching the data written in the memory 43 (write information written by an external tag reader) (S34). If there is matching data, Yes in S34. Then, the process associated with the matching data is executed. For example, if the data written in the memory 43 by the external tag reader is “444”, the process proceeds to Yes in S34, and the buzzer 13 sounds (see FIG. 8). Since it is configured in this way, it is possible to specify processing after activation by selecting write information with an external tag reader.

  In this case, the buzzer 13 corresponds to an example of “notification means”. The control unit 10 corresponds to an example of “notification control unit”, and is performed by the power supply circuit 15 in response to detection of wireless communication with the wireless tag chip 40 (internal tag) and transmission of designated information by an external tag reader. When the power supply is turned on, the buzzer 13 (notification unit) functions to perform a notification operation. Here, although an example in which notification is given by the buzzer 13 is shown, the notification may be made by display on the display unit 12 or lighting of an LED (not shown). Further, in the above example, an example in which the buzzer 13 notifies when the buzzer 13 sounds has been written is shown. However, the notification is uniformly performed when the startup process of FIG. 7 is performed regardless of the written contents. Processing may be performed.

  In the present embodiment, the memory 11 corresponds to an example of “process identification information storage unit”, and process identification information that identifies any process that can be executed by the process execution unit is stored in a predetermined area in the memory 11. To function. The control unit 10 corresponds to an example of “processing execution means”, and is executed by the power supply circuit 15 in response to detection of wireless communication with the wireless tag chip 40 (internal tag) and transmission of designated information by an external tag reader. When the power supply is turned on, it functions to read a predetermined area of the memory 11 (process specific information storage means) and execute a process corresponding to the read process specific information.

(Processing when the power is turned on)
In the above description, the processing when the wireless tag chip 40 is accessed when the power is off (when the power supply from the power supply circuit 15 is stopped) has been described, but the power supply from the power supply circuit 15 is described. Even when is in the on state, the same processing as in FIG. 7 can be performed. That is, the process of FIG. 7 is also executed when the signal St is input when the power is turned on (that is, when writing is performed from the external tag reader to the wireless tag chip 40 when the power is turned on). In this case as well, the wireless tag chip 40 is accessed in S31, and the data written in the memory 43 is read (S32). And the process corresponding to the write information written by the external tag reader is specified with reference to the above-mentioned registration information stored in the memory 11 (S33). Then, it is determined whether or not there is data matching the data written in the memory 43 (write information written by an external tag reader) (S34). If there is matching data, Yes in S34. The process corresponding to the matching data is executed. For example, when an external tag reader writes 111 when the power is turned on, the control unit 10 performs processing corresponding to “111” (starting of the program (application 1) corresponding to “111”).

  In the present embodiment, the control unit 10 corresponds to an example of “control means”, and when the power supply by the power supply circuit 15 is on, the control unit 10 is connected to the wireless tag chip 40 (internal tag) by an external tag reader. It functions to perform a specific process (such as a process of reading data written by an external tag reader) on condition that wireless communication is detected. Specifically, it functions to refer to registration information (FIG. 8) recorded in the memory 11 and to specify and execute processing corresponding to data written by an external tag reader.

(Main effects of the first embodiment)
In the wireless tag reader 1 of the present embodiment, even when the position of the wireless tag reader 1 is unknown when the power is off, the wireless tag reader 1 is turned on by communication from an external tag reader. Can do. Furthermore, since the power supply is turned on under the condition that the designation information for designating the wireless tag reader 1 is detected, only the desired wireless tag reader can be used even when there are a plurality of tag readers of the same type in a range that can communicate with the external tag reader. Can be selectively activated to make it easy to find.

In the present embodiment, the antenna 25 is configured to be connectable to the wireless reader unit 20 (communication means) and the wireless tag chip 40 (internal tag), and connection switching means for switching this connection state is provided. The connection switching means connects the antenna 25 and the wireless reader unit 20 (communication means) when the power supply by the power supply circuit 15 is on, and connects the antenna 25 when the power supply by the power supply circuit 15 is off. The wireless tag chip (internal tag) is connected.
In this configuration, the antenna 25 provided in the apparatus can be shared when the wireless reader unit 20 (communication means) performs communication and when the wireless tag chip 40 (internal tag) performs communication, and has high functionality. It is possible to reduce the number of parts and simplify the device configuration while realizing the above. In particular, the wireless reader unit 20 (communication means) is used when the power supply by the power supply circuit 15 is on, and the wireless tag chip 40 (internal tag) is used when the power supply circuit 15 is off. It can be used properly.

In the present embodiment, the process execution means capable of executing a plurality of types of processes, and the process specification information storage means for storing, in a predetermined area, process specification information for specifying any of the processes that can be executed by the process execution means. Is provided.
Then, the process execution means specifies the process when the power supply by the power supply means is turned on in response to the wireless communication with the wireless tag chip 40 by the external tag reader and the transmission of the designation information detected by the detection means. A predetermined area of the information storage means is read out, and processing corresponding to the read processing specifying information is executed.
According to this configuration, the terminal is activated at the time of activation (according to communication with the wireless tag chip 40) by a simple setting of storing information for identifying a desired process (process identification information) in a predetermined area. The process can be executed.

In the present embodiment, a notification unit that performs a notification operation outside the apparatus and a notification control unit that controls the notification operation of the notification unit are provided. Then, the notification control means notifies the notification means when the power supply by the power supply means is turned on in response to the wireless communication with the wireless tag chip 40 by the external tag reader and the transmission of the designation information detected by the detection means. Is configured to execute a notification operation.
According to this configuration, when the terminal is activated in response to communication with the wireless tag chip 40, it is possible to notify the outside, so that a person who exists outside (for example, a person who operates an external tag reader) has designated It becomes easier to grasp the fact that the wireless tag reader exists and the position of the wireless tag reader more reliably.

In the present embodiment, the internal tag is provided with password recording means for recording a registered password, authentication means, writing means, and output means.
The authentication means is recorded in the password and the password recording means when the designation information for designating the wireless tag reader is transmitted by the external tag reader and the password is transmitted from the external tag reader to the internal tag. Authentication is performed based on the registered password, and the writing means is authenticated by the authentication means when the external tag reader instructs the internal tag to write data. In addition, the instructed data is written. The output means is configured to output a specific signal when the writing process is performed by the writing means.
The power supply means is configured to switch the power supply into the apparatus to the on state when the specific signal is output when the power supply by the power supply means is in the off state.
In this configuration, when trying to activate a power-off RFID tag reader by an external tag reader, authentication is not performed unless the regular password is transmitted from the external tag reader, and the RFID tag reader cannot be activated. It is possible to block access from a tag reader that cannot transmit the password. Accordingly, it is possible to more reliably prevent unauthorized activation in response to an instruction from an unauthorized tag reader, and to enhance security.

  Further, in the present embodiment, a control unit is provided, and this control unit detects wireless communication with an internal tag by an external tag reader when the power supply by the power supply unit is in an on state. It is configured to perform a specific process on the condition that it has been done. In this configuration, the wireless tag reader can be operated from an external tag reader not only when the power supply to the wireless tag reader is off but also on.

In the present embodiment, the internal tag is provided with writing means and output means, and the writing means writes data when an external tag reader instructs the internal tag to write data. The processing is performed, and the output means is configured to output a specific signal when the writing process is performed by the writing means.
Further, the detection means is configured to be able to detect the specific signal output from the output means, and the control means is specified when the specific signal is output when the power supply by the power supply means is in an ON state. As a process, a process for reading data written by the writing means is performed.
Further, in the present embodiment, when the power supply by the power supply unit is in an on state, it is possible to read data written to the internal tag from the outside. In particular, when a write process is performed with an internal tag, a specific signal is output, and the written data is read on the condition that the specific signal is output, so that it is read at an appropriate time without constantly monitoring the writing. Will be able to. Accordingly, the overall processing time can be shortened and power can be saved.

[Other Embodiments]
The present invention is not limited to the embodiments described with reference to the above description and drawings. For example, the following embodiments are also included in the technical scope of the present invention.

  In the above embodiment, the configuration as illustrated in FIG. 1 is illustrated, but the configuration as illustrated in FIG. 9 may be employed. In this example, similarly to the first embodiment, a signal St (a signal indicating that data has been written to the wireless tag chip 40) from the wireless tag chip 40 can be input to the control unit 10, and this signal St is input to the control unit. 10 interrupt input terminals INT are also input. In this example, the signal St is input to the interrupt input terminal INT when a write process is performed on the wireless tag chip 40 from an external tag reader when the power is on. When the signal St is input, the control unit 10 may uniformly perform a specific process (for example, buzzer sounding) or may perform a process as shown in FIG. 7 is the same as in the first embodiment, and corresponds to information (data written by an external tag reader) stored in the memory 43 of the wireless tag chip 40 with reference to the registration information (FIG. 8). Will be executed.

DESCRIPTION OF SYMBOLS 1 ... Wireless tag reader 10 ... Control part (Detection means, connection switching means, process execution means, notification control means, control means)
11: Memory (processing specific information storage means)
13 ... Buzzer (notification means)
15 ... Power supply circuit (power supply means)
16 ... Battery
20: Wireless reader unit (communication means)
25 ... Antenna 40 ... RFID tag chip (internal tag)
42. Control circuit (authentication means, writing means, output means)
43 ... Memory (password recording means)
SW1 ... switch (connection switching means)

Claims (4)

A portable wireless tag reader that performs wireless communication with a wireless tag via an antenna,
Battery,
A power supply means connected to the battery and capable of switching power supply from the battery to an electronic component in the apparatus between an on state and an off state;
A communication means configured to operate when power supply by the power supply means is in the on state, and capable of performing wireless communication with a wireless tag outside the apparatus via the antenna;
An internal tag having a wireless tag function and configured to be communicable with an external tag reader;
The power supply means is configured to be operable when the power supply is in the off state, wireless communication with the internal tag is performed by the external tag reader, and designation information for designating the wireless tag reader is transmitted by the external tag reader Detecting means for detecting
With
The power supply means, when the power supply by the power supply means is in the off state, when the detection means detects wireless communication with the internal tag and transmission of the designated information by the external tag reader, The power supply to the device is configured to switch to the on state ,
The inner tag is
A password recording means for recording a registered password;
The registration recorded in the password and the password recording means when the external tag reader transmits designation information for designating the wireless tag reader and a password is transmitted from the external tag reader to the internal tag. An authentication means for performing authentication based on the password;
When the external tag reader instructs the internal tag to write data, and when the authentication by the authentication means is successful, the writing means for performing the instructed data writing process,
An output means for outputting a specific signal when the writing process is performed by the writing means;
With
The power supply means switches the power supply into the device to the ON state when the specific signal is output when the power supply by the power supply means is in the OFF state. Type wireless tag reader. The antenna is configured to be connectable to the communication means and the internal tag,
When the power supply by the power supply means is in the on state, the antenna and the communication means are connected, and when the power supply by the power supply means is in the off state, the antenna and the internal tag are connected. 2. The portable wireless tag reader according to claim 1, further comprising connection switching means. A process execution means capable of executing a plurality of types of processes;
Process specifying information storage means for storing process specifying information for specifying any process executable by the process executing means in a predetermined area;
With
In the case where the power supply by the power supply unit is in the ON state in response to the wireless communication with the internal tag by the external tag reader and the transmission of the specified information being detected by the detection unit The portable wireless tag reader according to claim 1 or 2, wherein the predetermined area of the process specific information storage means is read and a process corresponding to the read process specific information is executed. A notification means for performing a notification operation outside the apparatus;
Notification control means for controlling the notification operation of the notification means;
With
In the case where the power supply by the power supply unit is in the ON state in response to the wireless communication with the internal tag by the external tag reader and the transmission of the specified information being detected by the detection unit, the notification control unit The portable wireless tag reader according to any one of claims 1 to 3, wherein the notification unit is configured to perform a notification operation.

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