JP2018121119A - Management system - Google Patents

Abstract

PROBLEM TO BE SOLVED: To execute maintenance processing, for example, by enabling communication in a state where a battery is not connected when information related to a terminal device should be communicated between a terminal device and a management device. Provide technology that can reduce the burden on workers. SOLUTION: When a management device 100 causes a power transmission unit to execute power transmission and receives a wireless connection request from a terminal device 100 during the execution of power transmission (T112), the management device 100 establishes a wireless communication connection with the terminal device 100. Established (T114) and use the wireless communication connection to execute command communication with the terminal device 100 (T116, etc.). When the power received by the power receiving unit is supplied to the control unit of the terminal device 100 (T106), the terminal device 100 uses the power to transmit a wireless connection request to the management device 10 (T112). Using the wireless communication connection established with the management device 10, command communication is executed with the management device (T116, etc.). [Selection diagram] Fig. 4

Description

  The technology disclosed in this specification relates to a management system for managing information related to a terminal device.

  A non-contact power transmission technique for transmitting power from one device to the other device without connecting one device to the other device with a connector or the like is known. As a non-contact power transmission technique, for example, an electromagnetic induction method using the principle of electromagnetic induction and a radio wave method of generating electric power from a received radio wave by receiving a radio wave transmitted from one device are known.

  Patent Document 1 discloses a portable terminal including a wireless tag chip that uses a radio frequency identifier (RFID) technology. The portable terminal further includes a battery and a power supply circuit that switches on / off of power supply from the battery to the control unit. When receiving the electromagnetic wave from the outside, the wireless tag chip generates electric power from the received electromagnetic wave, transmits a trigger signal to the power supply circuit using the generated electric power, and switches on the power supply from the battery to the control unit. Thereby, the electric power of the battery is supplied to the control unit, and the control unit is driven by the electric power of the battery and executes a predetermined process such as starting a specific application.

JP 2012-209835 A

  For example, using the technique of Patent Document 1, a process (so-called maintenance process) for executing communication of information related to a portable terminal between the portable terminal and an external management device may be executed. is assumed. In the technique of Patent Document 1, it is necessary to connect a battery to a portable terminal in advance when performing maintenance processing. However, in a situation where the battery is not connected to the portable terminal, for example, in a situation where the portable terminal is packed before shipment, the operator unpacks the portable terminal, A battery must be connected to the terminal, which is burdensome to the operator.

  In the present specification, when communication of information related to the terminal device is to be performed between the terminal device and the management device, the maintenance process is executed by performing communication without a battery connected. The management system which can reduce the burden of the worker at the time is disclosed.

  The present specification discloses a management system including a terminal device and a management device for communicating information related to the terminal device between the terminal device. The management device includes a management-side control unit, a power transmission unit for transmitting power to the outside according to a non-contact method, and a management-side communication interface for executing wireless communication with the outside. The management-side control unit causes the power transmission unit to perform power transmission, and receives a wireless connection request from the terminal device via the management-side communication interface while the power transmission unit is performing power transmission. Establishes a wireless communication connection via the management-side communication interface, and communicates commands including information related to the terminal device with the terminal device using the wireless communication connection via the management-side communication interface. Run. The terminal device includes a terminal-side control unit, a power receiving unit that receives power from the outside according to a non-contact method, a first power supply circuit that supplies power received by the power receiving unit to the terminal-side control unit, and a first power source A second power supply circuit different from the circuit, a second power supply circuit for supplying power supplied from the battery to the terminal-side control unit, and a terminal-side communication interface for executing wireless communication with the outside . In a specific case where power is supplied from the first power supply circuit, the terminal-side control unit uses the power supplied from the first power supply circuit to make a wireless connection request to the outside via the terminal-side communication interface. When the power is supplied from the second power supply circuit, the wireless connection request is not output, and after the wireless connection request is output, wireless communication is performed with the management apparatus via the terminal-side communication interface. A connection is established, and command communication is executed with the management apparatus using the wireless communication connection via the terminal-side communication interface.

  According to the above configuration, the terminal device uses the power supplied from the first power supply circuit in a specific case where power is supplied from the first power supply circuit to the terminal-side control unit. A wireless communication connection is established between the devices, and a command including information related to the terminal device is communicated with the management device using the established wireless communication connection. Thereby, it is possible to execute command communication with the management apparatus without using the power supplied from the battery. That is, according to the above configuration, the terminal device can execute command communication with the management device even when the battery is not connected to the second power supply circuit. According to the above configuration, when information related to the terminal device should be communicated between the terminal device and the management device, compared to a conventional configuration in which a battery needs to be connected to the terminal device in advance. Since communication can be performed in a state where the battery is not connected, the burden on the operator when performing the maintenance process can be reduced.

The structure of a management system is shown. The flowchart of the update file transmission process of a management apparatus is shown. The flowchart of the update file reception process of a terminal device is shown. A specific case by the processing of FIGS. 2 and 3 is shown.

  The main features of the embodiments described below are listed. In addition, the technical elements shown below are independent technical elements and exhibit technical usefulness alone or in various combinations, and are not limited to the combinations described in the claims at the time of filing. .

(Feature 1) Identification information indicating the terminal device may be assigned to the terminal device. The management-side control unit may cause the power transmission unit to output specific information to the outside when the power transmission unit performs power transmission. The terminal-side control unit receives power from the first power supply circuit, acquires specific information by the power reception unit, and in a specific case where the acquired specific information is determined to be related to the identification information, The wireless connection request may be output to the outside through the terminal-side interface using the power supplied from the first power supply circuit. The power is supplied from the first power supply circuit, When the information is acquired and it is determined that the acquired specific information is not related to the identification information, the wireless connection request may not be output.

  According to this configuration, the control unit outputs a wireless connection request to the outside only in a specific case where it is determined that the specific information is related to the identification information. As a result, the management device can establish a wireless communication connection only with the terminal device indicated by the identification information.

(Feature 2) The management-side communication interface and the terminal-side communication interface may be communication interfaces for executing Wi-Fi communication.

(Feature 3) The management-side communication interface and the terminal-side communication interface may be communication interfaces for executing Bluetooth (registered trademark) communication.

(First embodiment)
(System configuration: Fig. 1)
A management system 2 illustrated in FIG. 1 includes a management device 10 and a terminal device 100. The terminal device 100 is packed in a packing container 200 together with a battery 140 connected to the terminal device 100. That is, the terminal device 100 in FIG. 1 is in a state before shipment. In this state, the battery 140 is not connected to the terminal device 100.

(Management device 10)
The management device 10 is a device for managing a terminal device (for example, the terminal device 100) before shipment. The management apparatus 10 includes an RFID (abbreviation for radio frequency identifier) tag communication unit 12, a Wi-Fi interface 16, a control unit 20, and a memory 30. Hereinafter, the interface is referred to as “I / F”.

  The RFID tag communication unit 12 includes an antenna (not shown) and a transmission / reception circuit (not shown) for transmitting and receiving radio waves according to the RFID system via the antenna. The transmission / reception circuit includes an encoding unit, a modulation unit, an oscillator, an amplifier, and the like. When the transmission / reception circuit acquires the digital signal to be transmitted from the control unit 20, the transmission / reception circuit modulates the acquired digital signal and transmits the modulated radio wave. The control unit 20 can execute communication with an RFID tag (for example, the RFID tag 112) existing in the radio wave transmission range via the RFID tag communication unit 12. The control unit 20 can read information recorded on the RFID tag and write information to the RFID tag by performing communication with the RFID tag via the RFID tag communication unit 12.

  The Wi-Fi I / F 16 is an interface for performing wireless communication according to the Wi-Fi (registered trademark of Wi-Fi Alliance) standard.

  The control unit 20 executes various processes according to the program 32 stored in the memory 30. The memory 30 is configured by a volatile memory, a nonvolatile memory, or the like. The memory 30 further stores an update file 34.

  The update file 34 is a file for updating a program of the terminal device (for example, the program 132 of the terminal device 100). As will be described later, after the wireless communication connection is established with the terminal device via the Wi-Fi I / F 16 (S14 in FIG. 2), the control unit 20 sends a preparation completion command from the terminal device. When received (YES in S16), the update file 34 is transmitted to the terminal device.

(Terminal device 100)
The terminal device 100 according to the present embodiment is a portable terminal device, for example, an information code reading device for reading data recorded in various information codes such as a barcode and a two-dimensional code. In another example, the terminal device 100 is not limited to an information code reader, but is a mobile phone (for example, a smartphone), a PDA, a notebook PC, a tablet terminal, a portable music player, a portable video player, an RFID tag reader / writer. Any portable device may be used. The terminal device 100 includes an RFID tag 112, a first power supply circuit 113, a battery terminal 114, a second power supply circuit 115, a Wi-Fi I / F 116, a power button 118, a control unit 120, a memory 130, .

  The RFID tag 112 is a known RFID tag. The RFID tag 112 includes a memory 112a, an antenna coil 112b, and a control circuit 112c. When the antenna coil 112b receives a radio wave, the antenna coil 112b generates power from the received radio wave. The generated power is supplied to the control circuit 112c. The control circuit 112c operates using the power supplied from the antenna coil 112b. The control circuit 112c demodulates the radio wave received by the antenna coil 112b and generates a digital signal. Then, the control circuit 112c performs various processes according to the generated digital signal. For example, a process of writing information included in the generated digital signal into the memory 112a, a process of supplying an ON signal to the first power supply circuit 113 of the terminal device 100, and the like.

  The first power supply circuit 113 is a circuit for supplying power generated by the antenna coil 112 b to the control unit 120. The first power supply circuit 113 is connected between the antenna coil 112b and the control unit 120, and switches between blocking and conduction of a path (hereinafter referred to as “first path”) between the antenna coil 112b and the control unit 120. . When the ON signal is supplied from the RFID tag 112, the first power supply circuit 113 switches the first path from cutoff to conduction. Thereby, the electric power generated by the antenna coil 112b is supplied to the control unit 120.

  The battery terminal 114 is a terminal for connecting the battery 140 to the terminal device 100. As described above, the terminal device 100 is in a state before shipment. In this state, the battery 140 is not connected to the battery terminal 114.

  The second power supply circuit 115 is a circuit for supplying the power of the battery 140 connected to the battery terminal 114 to the control unit 120. The second power supply circuit 115 is connected between the battery terminal 114 and the control unit 120, and switches between blocking and conduction of a path (hereinafter referred to as “second path”) between the battery terminal 114 and the control unit 120. . The second power supply circuit 115 passes the second path when an ON signal is supplied from the power button 118 in response to the power button 118 being pushed down with the battery 140 connected to the battery terminal 114. Switch from interruption to conduction. As a result, the power of the battery 140 connected to the battery terminal 114 is supplied to the control unit 120.

  The Wi-Fi I / F 116 is an interface for executing Wi-Fi communication.

  The control unit 120 executes various processes according to the program 132 stored in the memory 130. The memory 130 is configured by a volatile memory, a nonvolatile memory, or the like. The memory 130 further stores a terminal ID for identifying the terminal device 100. The terminal ID is unique information for identifying the terminal device 100 (that is, the own device). The terminal ID is assigned to the terminal device 100 when the terminal device 100 is manufactured.

(Update file transmission process: Fig. 2)
Then, with reference to FIG. 2, the content of the update file transmission process which the control part 20 of the management apparatus 10 performs is demonstrated. The update file transmission process is a process for transmitting an update file to the terminal device. Upon receiving a start instruction for starting the update file transmission process, the control unit 20 starts the update file transmission process of FIG. The start instruction is a terminal ID (for example, the terminal ID of the terminal device 100, hereinafter referred to as “target ID”) of the terminal device (for example, the terminal device 100; hereinafter may be referred to as “target device”) to which the update file is sent. Input).

  In S <b> 10, the control unit 20 generates a digital signal including the target ID input in the start instruction, and supplies the digital signal to the RFID tag communication unit 12. Then, the control unit 20 causes the RFID tag communication unit 12 to perform modulation of the digital signal and output of the modulated radio wave. That is, the control unit 20 causes the RFID tag communication unit 12 to start outputting (that is, transmitting power) a radio wave including the target ID input in the start instruction.

  In S12, the control unit 20 monitors reception of a wireless connection request via the Wi-Fi I / F 16 while the RFID tag communication unit 12 is performing power transmission (that is, output of radio waves). The wireless connection request requests to establish a wireless communication connection (that is, Wi-Fi connection) between the terminal device (for example, the terminal device 100) that has received the radio wave transmitted by the RFID tag communication unit 12 and the management device 10. It is a command to do.

  As will be described in detail later, when the control unit of the terminal device (for example, the terminal device 100) receives the radio wave output from the RFID tag communication unit 12 (YES in S50 of FIG. 3), the target ID included in the radio wave is When the terminal ID of the terminal device that has received the radio wave matches (that is, when the terminal device that has received the radio wave is the target device; YES in S52), the control unit of the terminal device issues a wireless connection request to the management device. Transmit (S54).

  In this case, the control unit 20 receives a wireless connection request from the terminal device via the Wi-Fi I / F 16. In this case, the control unit 20 determines YES in S12, and proceeds to S14.

  In S <b> 14, the control unit 20 executes various communications for establishing a Wi-Fi connection with the target device via the Wi-Fi I / F 16. The communication includes, for example, transmission of a signal including an SSID (abbreviation of Service Set Identifier), communication for authentication using a password, and the like. Then, the control unit 20 establishes a Wi-Fi connection with the target apparatus via the Wi-Fi I / F 16.

  In S <b> 16, the control unit 20 monitors reception of a preparation completion command from the target device using the established Wi-Fi connection via the Wi-Fi I / F 16. The preparation completion command is a command indicating that the target device is ready to receive an update file from the management device 10.

  As will be described in detail later, the control unit of the target device transmits a wireless connection request (S54 in FIG. 3) and then establishes a Wi-Fi connection with the management device 10 (YES in S56). A preparation completion command is transmitted to the management apparatus 10.

  In this case, the control unit 20 receives a preparation completion command from the target device via the Wi-Fi I / F 16. In this case, the control unit 20 determines YES in S16, and proceeds to S18.

  In S18, the control unit 20 transmits the update file 34 in the memory 30 to the target apparatus using the established Wi-Fi connection via the Wi-Fi I / F 16.

  In subsequent S20, the control unit 20 monitors reception of an update completion command from the target device using the established Wi-Fi connection via the Wi-Fi I / F 16. The update completion command is a command indicating that the update process (S62 in FIG. 3) using the update file 34 has been completed in the target device.

  In S <b> 22, the control unit 20 supplies a signal for stopping the power transmission by the RFID tag communication unit 12 to the RFID tag communication unit 12, and causes the RFID tag communication unit 12 to stop power transmission (that is, output of radio waves). When S24 ends, the control unit 20 ends the update file transmission process of FIG.

(Update file reception process: Fig. 3)
Next, the contents of the update file reception process executed by the control unit 120 of the terminal device 100 will be described with reference to FIG. The control unit 120 is activated when power is supplied from the first power supply circuit 113 or the second power supply circuit 115. The control unit 120 starts the update file reception process of FIG. 3 with the activation as a trigger.

  The activation of the control unit 120 due to the supply of power from the first power supply circuit 113 means that the RFID tag 112 of the terminal device 100 is receiving radio waves. In this case, the control circuit 112c of the RFID tag 112 demodulates the radio wave received by the antenna coil 112b to generate a digital signal. Then, the control circuit 112c writes the target ID included in the digital signal in the memory 112a. The control circuit 112c transmits an ON signal to the first power supply circuit 113. As a result, the power generated from the radio wave being received by the antenna coil 112 b is supplied to the control unit 120 via the first power supply circuit 113.

  On the other hand, the activation of the control unit 120 due to the supply of power from the second power supply circuit 115 means that the battery 140 is connected to the battery terminal 114 of the terminal device 100 and the power button 118 is pushed down. Means that That is, it means that the user unpacks the terminal device 100 from the packaging container 200, connects the battery 140, and starts using the terminal device 100.

  In S <b> 50, the control unit 120 determines whether or not the power supply source is the first power supply circuit 113. Specifically, the control unit 120 determines the voltage value applied to the path between the antenna coil 112b and the control unit 120 (that is, the first path) and the path between the battery terminal 114 and the control unit 120 (that is, the first path). Each of the voltage sources applied to the second path) is referred to, and based on whether the voltage value in each path is a value indicating conduction, the power supply source is the first power supply circuit 113 and the second The power supply circuit 115 is determined. When the voltage value of the first path is a value indicating conduction and the voltage value of the second path is a value indicating cutoff (that is, the power supply source is the first power supply circuit 113). In the case), it is determined YES in S50, and the process proceeds to S52. On the other hand, when the voltage value of the first path is a value indicating interruption and the voltage value of the second path is a value indicating conduction (that is, when the power supply source is the second power supply circuit 115), The control unit 120 determines NO in S50 and ends the update file reception process of FIG. Further, when the voltage value of the first path and the voltage value of the second path are both values indicating conduction (that is, power is supplied simultaneously from both the first power supply circuit 113 and the second power supply circuit 115). In this case, the control unit 120 also determines NO in S50 and ends the update file reception process of FIG. In this case, priority is given to the use of the terminal device 100 according to the user operation (that is, the operation of the control unit 120 using the power supplied from the second power supply circuit 115).

  In S52, the control unit 120 determines whether or not the target ID written in the memory 112a of the RFID tag 112 by receiving the radio wave from the management device 10 matches the terminal ID of the terminal device 100 that is the own device. To do. When the target ID matches the terminal ID of the terminal device 100 stored in advance in the memory 130, the control unit 120 determines YES in S52 and proceeds to S54. In this case, it means that the terminal device 100 is a target device. On the other hand, when the target ID does not match the terminal ID of the terminal device 100, the control unit 120 determines NO in S52, skips the processing after S54, and ends the update file reception processing in FIG.

  In S54, the control unit 120 uses the power supplied from the first power supply circuit 113 to transmit a wireless connection request to the management apparatus 10 via the Wi-Fi I / F 116 (see S12 in FIG. 2). ). The wireless connection request is a command for requesting the management apparatus 10 to establish a Wi-Fi connection with the management apparatus 10.

  In subsequent S <b> 56, the control unit 120 monitors that a Wi-Fi connection via the Wi-Fi I / F 116 is established between the terminal device 100 and the management device 10 (see S <b> 14 in FIG. 2). When the Wi-Fi connection is established, the control unit 120 determines YES in S56 and proceeds to S58.

  In S <b> 58, the control unit 120 transmits a preparation completion command to the management apparatus 10 using the established Wi-Fi connection via the Wi-Fi I / F 116 (see S <b> 16 in FIG. 2). The preparation completion command is a command for notifying the management apparatus 10 that preparation for receiving an update file using a connected Wi-Fi connection is completed.

  In S60, the control unit 120 monitors reception of the update file 34 from the management apparatus 10 using the established Wi-Fi connection via the Wi-Fi I / F 116 (see S18 in FIG. 2). ). When receiving the update file 34, the control unit 120 determines YES in S60, and proceeds to S62.

  In S <b> 62, the control unit 120 executes an update process for updating the program 132 of the terminal device 100 using the received update file 34. In S64, when the update process is completed, the control unit 120 transmits an update completion command to the management apparatus 10 using the established Wi-Fi connection via the Wi-Fi I / F 16 (S20 in FIG. 2). See). When the process of S64 ends, the control unit 120 ends the update file reception process of FIG.

  Although not shown in FIG. 3, when power is supplied from the second power supply circuit 115 while the processing of S <b> 52 to S <b> 64 is being performed, the control unit 120 is supplied from the first power supply circuit 113. The power to be used is preferentially used (that is, the processing of S52 to S64 is continued without interruption).

(Specific case)
Next, a specific case realized by the flowcharts of FIGS. 2 and 3 will be described with reference to FIG. In this case, the terminal device 100 is still packed in the packing container 200, and the battery 140 is not connected to the battery terminal 114.

  In T100, the management device 10 receives a start instruction including an input of a target ID (in this example, the terminal ID of the terminal device 100).

  In T102, the management apparatus 10 starts power transmission (that is, output of radio waves) (S10 in FIG. 2). Specifically, the RFID tag communication unit 12 of the management apparatus 10 modulates a digital signal including the target ID input in the start instruction, and transmits the modulated radio wave to the outside.

  In T104, the control circuit 112c of the RFID tag 112 of the terminal device 100 demodulates the radio wave received by the antenna coil 112b of the RFID tag 112 to generate a digital signal. Then, the control circuit 112c writes the target ID included in the generated digital signal in the memory 112a of the RFID tag 112. In addition, the control circuit 112 c supplies an ON signal to the first power supply circuit 113. The antenna coil 112b generates power from the radio wave being received.

  In T106, when an ON signal is supplied from the RFID tag 112 to the first power supply circuit 113, the first power supply circuit 113 supplies the power generated by the antenna coil 112b to the control unit 120. Thereby, the control part 120 starts.

  At T108, the control unit 120 of the terminal device 100 determines that the power supply source is the first power supply circuit 113 (YES in S50 of FIG. 3). In T110, the terminal device 100 determines that the target ID written in the memory 112a of the RFID tag 112 in T104 matches the terminal ID of the own device in the memory 130 (YES in S52). In T112, the terminal apparatus 100 transmits a wireless connection request to the management apparatus 10 via the Wi-Fi I / F 116 (S54).

  In T114, when the management apparatus 10 receives a wireless connection request from the terminal apparatus 100 via the Wi-Fi I / F 16 (YES in S12 of FIG. 2), the management apparatus 10 and the terminal apparatus 100 perform Wi-Fi. A connection is established (S14).

  When the Wi-Fi connection is established between the management device 10 and the terminal device 100 (YES in S56 of FIG. 3), at T116, the control unit 120 uses the Wi-Fi connection to issue a preparation completion command. It transmits to the management apparatus 10 (S58).

  In T118, when the management apparatus 10 receives a preparation completion command from the terminal apparatus 100 via the Wi-Fi I / F 16 (YES in S16 in FIG. 2), the management apparatus 10 updates the data in the memory 30 using the Wi-Fi connection. The file 34 is transmitted to the terminal device 100 (S18).

  In T120, when the control unit 120 receives the update file 34 from the management apparatus 10 via the Wi-Fi I / F 116 (YES in S60 in FIG. 3), the control unit 120 uses the received update file 34 to execute the program 132. Update processing is executed (S62). When the update process is completed, in T122, the terminal apparatus 100 transmits an update completion command to the management apparatus 10 using the Wi-Fi connection (S64).

  In T124, the management apparatus 10 stops the power transmission (that is, the output of radio waves) of the RFID tag communication unit 12. Thereby, since the antenna coil 112b of the terminal device 100 does not receive the radio wave, the antenna coil 112b does not generate power. For this reason, power is not supplied from the antenna coil 112b to the control unit 120, and the control unit 120 automatically stops.

(Effect of this embodiment)
When power is supplied from the first power supply circuit 113 to the control unit 120 (T108 in FIG. 4), the terminal device 100 uses the power supplied from the first power supply circuit 113 to communicate with the management device 10. Wi-Fi connection is established between them (T114), and the update file 34 is received from the management apparatus 10 using the established Wi-Fi connection (T118). Then, the terminal device 100 executes an update process using the received update file 34. Thereby, even if it does not use the electric power supplied from the battery terminal 114, the update file 34 can be received from the management apparatus 10, and an update process can be performed. That is, the terminal device 100 can receive the update file 34 from the management device 10 and execute the update process even in a situation where the battery 140 is not connected to the battery terminal 114 (for example, in a packing state). . According to the present embodiment, the terminal device 100 is unpacked, the battery 140 is connected to the terminal device 100, and the communication with the management device 10 is performed using the power of the battery 140. Since the update process is executed without connecting the battery 140, the burden on the operator who has updated the program 132 of the terminal device 100 can be reduced.

  In addition, when receiving the radio wave, the RFID tag 112 writes the target ID included in the digital signal demodulated from the radio wave in the memory 112 a of the RFID tag 112. The terminal device 100 is wireless only when it is determined that the target ID written in the memory 112a of the RFID tag 112 matches the terminal ID of the terminal device 100 (YES in S52 of FIG. 3, T110 of FIG. 4). A connection request is transmitted to the management apparatus 10 (T112). Thereby, the management apparatus 10 can establish a Wi-Fi connection only with the terminal apparatus 100 to which the target ID is assigned.

(Correspondence)
The control unit 20, the RFID tag communication unit 12, and the Wi-Fi I / F 16 are examples of the “management side control unit”, “power transmission unit”, and “management side communication interface”, respectively. The control unit 120, the RFID tag 112, and the Wi-Fi I / F 116 are examples of “terminal side control unit”, “power receiving unit”, and “terminal side communication interface”, respectively. Communication of a preparation completion command, an update file, and an update completion command is an example of “command communication”. The case where YES is determined in S50 is an example of a “specific case”. The target ID is an example of “specific information”. Wi-Fi connection is an example of “wireless communication connection”.

(Second embodiment)
The second embodiment will be described with a focus on differences from the first embodiment. This embodiment is different from the first embodiment in that a BT (abbreviation of Bluetooth) connection is established between the management device 10 and the terminal device 100 instead of the Wi-Fi connection. In the present embodiment, the management apparatus 10 includes a management-side BT communication I / F instead of the Wi-Fi I / F 16. Similarly, the terminal device 100 includes a terminal-side BT communication I / F instead of the Wi-Fi I / F 116. Each BT communication I / F is an interface for executing BT communication. BT communication is, for example, wireless communication based on IEEE (abbreviation of The Institute of Electrical and Electronics Engineers, Inc.) 802.15.1 and standards conforming thereto.

  The control unit 20 of the management device 10 receives the wireless connection request via the management-side BT communication I / F (S12 in FIG. 2), and manages the BT communication with the terminal device that is the transmission source of the wireless connection request. A BT connection via the I / F is established (S14). Then, the control unit 20 uses the established BT connection via the management-side BT communication I / F to receive a preparation completion command (S16), send an update file (S20), and an update completion command. Is received (S22).

  On the other hand, the control unit 120 of the terminal device 100 transmits a wireless connection request via the terminal-side BT communication I / F (S54 in FIG. 3), and performs the terminal-side BT communication I / F with the management device 10. BT connection is established (YES in S56). Then, the control unit 120 uses the established BT connection via the terminal-side BT communication I / F to transmit a preparation completion command (S58), receive an update file (S60), and an update completion command. Is transmitted (S64). In this embodiment, the management-side BT communication I / F and the terminal-side BT communication I / F are examples of a “management-side communication interface” and a “terminal-side communication interface”, respectively. The BT connection is an example of “wireless communication connection”.

  Specific examples of the present invention have been described in detail above, but these are merely examples and do not limit the scope of the claims. The technology described in the claims includes various modifications and changes of the specific examples illustrated above. The modifications of the above embodiment are listed below.

(Modification 1) The management apparatus 10 may include a power transmission coil that generates a magnetic field in accordance with an electromagnetic induction method, instead of the RFID tag communication unit 12. Further, the terminal device 100 may include a power receiving coil that receives the magnetic field generated by the power transmission coil and generates electric power using the principle of electromagnetic induction instead of the RFID tag 112. Then, the terminal device 100 may transmit a wireless connection request to the management device 10 using power generated by the power receiving coil while the power receiving coil is receiving a magnetic field. The power transmission coil and the power reception coil in this modification are examples of “power transmission unit” and “power reception unit”, respectively.

(Modification 2) In the above embodiment, the control unit 20 of the management apparatus 10 causes the RFID tag communication unit 12 to transmit the target ID. Then, the control unit 120 of the terminal device 100 determines whether or not the target ID received from the RFID tag communication unit 12 matches the terminal ID of the terminal device 100. Instead, the control unit 20 may cause the RFID tag communication unit 12 to transmit specific information (for example, information including a target ID, an encrypted target ID, etc.). Then, the control unit 120 determines whether or not the specific information received from the RFID tag communication unit 12 is information corresponding to the terminal ID of the own device (for example, the target ID included in the specific information matches the terminal ID). Whether the ID obtained by decrypting the encrypted target ID included in the specific information matches the terminal ID, or the like may be determined. Generally speaking, the “terminal-side control unit” may output a wireless connection request to the outside via the terminal-side interface when “determined that the acquired specific information is related to the identification information”. .

(Modification 3) The control part 20 of the management apparatus 10 may transmit the setting value file containing a setting value to the terminal device 100 instead of transmitting an update file to the terminal device 100 by S20 of FIG. In this case, the control unit 120 of the terminal device 100 uses the received setting value file in S62 of FIG. 3 to receive the setting value stored in the memory 130 of the terminal device 100. The set value changing process for changing to the set value included in the above may be executed. In this modification, transmission of the setting value file is an example of “command communication”. The “command” is not limited to these, and may be a command for executing some function of the terminal device 100. Generally speaking, “communication of a command including information related to the terminal device” may be executed.

(Modification 4) The “wireless communication connection” is not limited to the Wi-Fi connection as long as it is a connection according to a wireless communication system (that is, an infrastructure system) via an access point. Further, the “wireless communication connection” is not limited to the BT connection as long as it is a connection in accordance with a wireless communication method (that is, an ad hoc method) without using an access point.

  The technical elements described in this specification or the drawings exhibit technical usefulness alone or in various combinations, and are not limited to the combinations described in the claims at the time of filing. In addition, the technology illustrated in the present specification or the drawings achieves a plurality of objects at the same time, and has technical utility by achieving one of the objects.

2: Management system 10: Management device 14: RFID tag communication unit 16: Wi-Fi I / F
20: control unit 30: memory 32: program 34: update file 100: terminal device 112: RFID tag 112a: memory 112b: antenna coil 112c: control circuit 113: first power supply circuit 114: battery terminal 115: second power supply Circuit 116: Wi-Fi I / F
118: Power button 120: Control unit 130: Memory 132: OS program 140: Battery 200: Packing container

Claims (4)

A management system comprising: a terminal device; and a management device for communicating information related to the terminal device between the terminal device,
The management device
A management control unit;
A power transmission unit for transmitting power to the outside according to a non-contact method;
A management-side communication interface for performing wireless communication with the outside;
With
The management side control unit
Causing the power transmission unit to perform power transmission,
When receiving a wireless connection request from the terminal device via the management-side communication interface while the power transmission unit is performing power transmission, wirelessly via the management-side communication interface with the terminal device Establish a communication connection,
Via the management-side communication interface, using the wireless communication connection, execute communication of commands including information related to the terminal device with the terminal device,
The terminal device
A terminal-side control unit;
A power receiving unit that receives power from outside according to the non-contact method;
A first power supply circuit for supplying power received by the power receiving unit to the terminal-side control unit;
A second power supply circuit different from the first power supply circuit, wherein the second power supply circuit supplies power supplied from a battery to the terminal-side control unit;
A terminal-side communication interface for performing wireless communication with the outside;
With
The terminal side control unit
In a specific case where power is supplied from the first power supply circuit, the wireless connection request is output to the outside via the terminal-side communication interface using the power supplied from the first power supply circuit. ,
When power is supplied from the second power supply circuit, the wireless connection request is not output,
After the wireless connection request is output, establish the wireless communication connection with the management device via the terminal side communication interface,
Via the terminal side communication interface, using the wireless communication connection, execute the command communication with the management device,
Management system. Identification information indicating the terminal device is assigned to the terminal device,
The management side control unit
When the power transmission unit performs power transmission, the power transmission unit outputs specific information to the outside,
The terminal side control unit
In the specific case where power is supplied from the first power supply circuit, the specific information is acquired by the power receiving unit, and it is determined that the acquired specific information is related to the identification information, Using the power supplied from the first power supply circuit, outputting the wireless connection request to the outside via the terminal-side communication interface,
The wireless connection when power is supplied from the first power supply circuit, the specific information is acquired by the power receiving unit, and it is determined that the acquired specific information is not related to the identification information. Do not output requests,
The management system according to claim 1. The management-side communication interface and the terminal-side communication interface are communication interfaces for executing Wi-Fi communication.
The management system according to claim 1 or 2. The management system according to claim 1 or 2, wherein the management-side communication interface and the terminal-side communication interface are communication interfaces for executing Bluetooth (registered trademark) communication.

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