JP2022052402A - Charging system, wireless charger, and portable terminal - Google Patents

Abstract

To provide a technique capable of allowing only a portable terminal used by a specific user to be charged.SOLUTION: A charging system comprises a portable terminal and a wireless charger for charging the portable terminal. The wireless charger includes a power transmission coil for performing power transmission in wireless charging and a reader for reading authentication information in an NFC tag or an information code. The charging system includes a power transmission control unit for causing the power transmission coil to start power transmission in the wireless charging when authentication using the authentication information read by the reader of the wireless charger is successful, and start no power transmission in the wireless charging when the authentication fails.SELECTED DRAWING: Figure 3

Description

The techniques disclosed herein relate to techniques for charging mobile terminals using wireless chargers.

Patent Document 1 discloses a charging system for providing a service for charging a smartphone of a user who visits a store. When the smartphone is placed on the charging pad installed in the store, wireless charging of the smartphone starts.

JP-A-2015-50719

The above charging system assumes charging of a smartphone of a user who visits a store, that is, a smartphone used by an unspecified user.

The present specification provides a technique capable of permitting charging only to a mobile terminal used by a specific user.

The charging system disclosed herein includes a mobile terminal and a wireless charger for charging the mobile terminal. The wireless charger comprises a power transmission coil for performing power transmission in wireless charging and a reader for reading authentication information in an NFC tag or information code. The charging system initiates power transmission in the wireless charging to the power transmission coil when authentication using the authentication information read by the reader of the wireless charger succeeds, and when the authentication fails. It is provided with a power transmission control unit that does not start power transmission in the wireless charging.

In the above configuration, when authentication using the authentication information in the NFC tag or information code read by the reader is successful (that is, authentication of the user or mobile terminal), wireless charging is started and authentication fails. In addition, wireless charging does not start. That is, wireless charging is permitted only if the user or mobile terminal is successfully authenticated. From the above, it is possible to allow charging only to the mobile terminal used by a specific user.

Further, the wireless charger may include the power transmission control unit.

For example, a comparative example in which a mobile terminal is provided with a power transmission control unit is assumed. In this comparative example, it is necessary to install an application program for the power transmission control unit on the mobile terminal 10 separately from the OS program. With the above configuration, it is not necessary to install the application program on the mobile terminal 10.

Further, in the charging system, whether or not the distance between the reader and the NFC tag continues to be equal to or less than a predetermined distance after the authentication is successful and the power transmission coil starts power transmission. It may be provided with a monitoring unit that monitors the power. When the monitoring unit determines that the distance between the reader and the NFC tag is not equal to or less than the predetermined distance, the power transmission control unit transmits power transmission in the wireless charging to the power transmission coil. It may be stopped at. When the monitoring unit determines that the distance between the reader and the NFC tag is equal to or less than the predetermined distance, the power transmission in the wireless charging may be continued.

For example, in a comparative example in which the charging system does not have a monitoring unit, a third party other than a specific user temporarily steals the NFC tag of a specific user and successfully authenticates, and then removes the NFC tag from the reader. By returning the NFC tag to a specific user, the mobile terminal can be continuously charged wirelessly. On the other hand, in the above configuration, in order to continuously charge the mobile terminal wirelessly, the distance between the reader and the NFC tag is continuously reduced to a predetermined distance or less even after the power transmission coil starts power transmission. Need to maintain. That is, the third party cannot return the NFC tag during charging. A third party cannot temporarily steal the NFC tag and can properly permit a specific user to charge.

Further, the charging system does not continue to have a state in which the distance between the notification unit for notifying the wireless charging status and the monitoring unit between the reader and the NFC tag is equal to or less than the predetermined distance. In the case of determining that, a notification control unit that causes the notification unit to execute a first notification indicating that power transmission in the wireless charging has stopped may be provided.

With the above configuration, the user can know that the charging of the mobile terminal has stopped.

Further, the notification control unit may further cause the notification to execute a second notification indicating that the wireless charging is completed when the wireless charging is completed.

With the above configuration, the user can know that the charging of the mobile terminal is completed.

Further, when the NFC tag approaches the reader, a wireless connection may be established between the NFC tag and the reader. When the establishment of the wireless connection is continued, the monitoring unit determines that the distance between the reader and the NFC tag is not less than or equal to the predetermined distance, and determines that the wireless connection is continued. When is disconnected, it may be determined that the state in which the distance between the reader and the NFC tag is equal to or less than the predetermined distance does not continue.

With the above configuration, it is possible to monitor whether or not the distance between the reader and the NFC tag continues to be equal to or less than a predetermined distance by monitoring whether or not the wireless connection is established. ..

Further, the mobile terminal may include the NFC tag. When the mobile terminal is arranged on the wireless charger, the power receiving coil of the mobile terminal may face the power transmission coil and the NFC tag may face the reader.

For example, a comparative example is assumed in which the posture of the mobile terminal in which the power receiving coil and the power transmission coil face each other and the posture of the mobile terminal in which the NFC tag and the reader face each other are different. In this comparative example, the user first needs to change the posture of the mobile terminal in order to make the power receiving coil face the power transmission coil after the NFC tag faces the reader and the authentication is successful. In the above configuration, the user does not need to change the posture of the mobile terminal because they face each other in one posture at the same time. It is possible to improve the convenience of the user.

Further, the charging system may further include a card separate from the mobile terminal and the wireless charger. The card may include the NFC tag.

In the above configuration, even if the mobile terminal used by the specific user does not have the NFC tag, the specific user can wirelessly charge the mobile terminal by using the card.

The wireless charger disclosed herein also charges a mobile terminal. The wireless charger succeeds in authentication using a power transmission coil for performing power transmission in wireless charging, a reader for reading authentication information in an NFC tag or an information code, and the authentication information read by the reader. In this case, it includes a power transmission control unit that causes the power transmission coil to start power transmission in the wireless charging and does not start power transmission in the wireless charging when the authentication fails.

In the above configuration, when authentication using the authentication information in the NFC tag or information code read by the reader is successful (that is, authentication of the user or mobile terminal), wireless charging is started and authentication fails. In addition, wireless charging does not start. That is, wireless charging is permitted only if the user or mobile terminal is successfully authenticated. From the above, it is possible to allow charging only to the mobile terminal used by a specific user.

In addition, the mobile terminal is charged using a wireless charger. In order to start power transmission in the wireless charger, the mobile terminal has a power receiving coil arranged so as to face the power transmission coil of the wireless charger when the mobile terminal is arranged on the wireless charger. It is provided with an NFC tag in which authentication information for executing the authentication of the above is stored. The NFC tag is used to read the authentication information stored in the NFC tag when the mobile terminal is arranged on the wireless charger and the power receiving coil faces the power transmission coil. It is arranged so as to face the reader of the wireless charger.

For example, a comparative example is assumed in which the posture of the mobile terminal in which the power receiving coil and the power transmission coil face each other and the posture of the mobile terminal in which the NFC tag and the reader face each other are different. In this comparative example, the user first needs to change the posture of the mobile terminal in order to make the power receiving coil face the power transmission coil after the NFC tag faces the reader and the authentication is successful. In the above configuration, the user does not need to change the posture of the mobile terminal because they face each other in one posture at the same time. It is possible to improve the convenience of the user.

It is a figure which shows the appearance of the mobile terminal of 1st Embodiment, a wireless charger, and a card. It is a block diagram which shows the structure of the mobile terminal of 1st Embodiment, a wireless charger, and a card. It is a flowchart which shows the authentication process of 1st Example. It is a flowchart which shows the charge process of 1st Example. In the first embodiment, it is a sequence diagram which shows the case realized by the authentication process and the charge process. It is a figure which shows the appearance of the mobile terminal of 2nd Example, and a wireless charger. It is a block diagram which shows the structure of the mobile terminal of 2nd Example, and the wireless charger. In the second embodiment, it is a sequence diagram which shows the case realized by the authentication process and the charge process.

(First Example)
(Structure of charging system 2; FIGS. 1 and 2)
The charging system 2 of the first embodiment will be described with reference to the drawings. As shown in FIGS. 1 and 2, the charging system 2 includes a mobile terminal 10, a wireless charger 30, and a card 50. The mobile terminal 10 is a portable terminal device. The portable terminal 10 is an information code reading device (so-called bar code handy terminal) for reading data recorded in various information codes such as a two-dimensional bar code. For example, the mobile terminal 10 reads the information recorded in the information code attached to the luggage, the product, or the like existing in the predetermined area. The mobile terminal 10 is carried by a user engaged in work in a predetermined area. In the modified example, the mobile terminal 10 is not limited to the information code reading device, but may be a mobile phone (for example, a smartphone), a tablet PC, RFID (abbreviation of Radio Frequency Identification), a reader / writer, or the like.

The wireless charger 30 is a device capable of performing wireless charging based on the Qi standard, which is an international standard for wireless charging established by WPC (abbreviation of Wireless Power Consortium). A specific user (for example, a user of the mobile terminal 10) owns the card 50. The card 50 stores authentication information for authenticating a specific user (for example, a user ID that identifies a specific user). The charging system 2 determines whether or not to allow wireless charging of the mobile terminal 10 by the wireless charger 30 by using the authentication information.

(Structure of mobile terminal 10; FIGS. 1 and 2)
The mobile terminal 10 includes an information code acquisition unit 12, a display unit 14, an operation unit 16, a memory 18, a power receiving coil 20, a battery 22, and a control unit 26.

The information code acquisition unit 12 is a device capable of acquiring various information codes such as a bar code and a two-dimensional code. The information code acquisition unit 12 includes, for example, a CCD sensor in a CCD (abbreviation of Charge-Coupled Device) system. The method for acquiring the information code is not limited to the CCD method, and may be, for example, a laser method or a pen method.

The display unit 14 is a display for displaying various information. For example, the display unit 14 can display the information recorded in the information code acquired by the information code acquisition unit 12. The display unit 14 is a liquid crystal display. In the modified example, the display unit 14 may be a touch panel type display.

The operation unit 16 includes a plurality of keys. The user can input various instructions to the mobile terminal 10 by operating a plurality of keys. In the modified example, the display unit 14 and the operation unit 16 may be configured as a touch panel having both functions.

The memory 18 includes a RAM, a ROM, a non-volatile memory, and the like. Further, the memory 18 stores various information (for example, a program).

The power receiving coil 20 is a coil capable of receiving power in wireless charging conforming to the Qi standard. When the power receiving coil 20 receives power transmitted from the wireless charger 30, an electromotive force is generated and a current flows. Then, the current flows through the battery 22, so that the battery 22 is charged.

The battery 22 is a secondary battery such as a lithium ion battery. The mobile terminal 10 operates by the electric power charged in the battery 22.

The control unit 26 is electrically connected to each of the above units 12-22, and can control each of these units 12-22. The control unit 26 executes various processes according to the program stored in the memory 18 of the mobile terminal 10.

(Configuration of wireless charger 30; FIGS. 1 and 2)
The wireless charger 30 includes a power transmission coil 32, a power supply unit 34, a reader 36, a notification unit 38, a memory 40, and a control unit 42.

The power transmission coil 32 is a coil capable of performing power transmission in wireless charging conforming to the Qi standard. The power transmission coil 32 transmits power by an electromagnetic induction method using an electromagnetic wave having a frequency in the vicinity of several tens of kHz to several hundreds of kHz. The electromagnetic induction method is a method in which an electromotive force is generated in a power receiving coil 20 and transmitted by electromagnetic induction generated by a change in a magnetic field generated by a power transmitting coil 32. The power transmission coil 32 can transmit power to the power reception coil when the power reception coil (for example, 20) is arranged within a predetermined range from the power transmission coil 32.

The power supply unit 34 is a device for supplying electric power to the wireless charger 30 from an external power source. The power supply unit 34 includes a plug that can be plugged into an outlet. When the power supply unit 34 is plugged into an outlet, power is supplied to the wireless charger 30 via the power supply unit 34. In the modified example, the power supply unit 34 may be a battery built in the wireless charger 30. The battery may be a secondary battery such as, for example, a lithium ion battery.

The reader 36 is an interface for executing wireless communication according to an NFC (abbreviation of Near Field Communication) method. The NFC system is, for example, a wireless communication system based on the international standards of ISO / IEC21481 and 18092. The reader 36 reads (that is, receives) the authentication information from the NFC tag 52 described later.

The notification unit 38 is a device that executes notification to the user. The notification unit 38 is a speaker capable of outputting various sounds (for example, various notification sounds, message voices, etc.). In the modified example, the notification unit 38 is not limited to the speaker, but may be a light capable of emitting light, a vibrating device capable of vibrating the wireless charger 30, or the like.

The memory 40 includes a RAM, a ROM, a non-volatile memory, and the like. Further, the memory 40 stores various information (for example, a program). Further, the memory 40 stores the database DB and the charge permission flag F. The database DB includes a list of users who are allowed to charge the mobile terminal 10 using the wireless charger 30. The list stores authentication information for authenticating the user for each of the plurality of users. The authentication information is a user ID for identifying a user. In the modified example, the authentication information may include a user ID and a password. The charge permission flag F indicates one of a value of "on" indicating that the execution of wireless charging is permitted and "off" indicating that the execution of wireless charging is not permitted.

The control unit 42 is electrically connected to each of the above units 32-40, and can control each of these units 32-40. The control unit 42 executes various processes according to the program stored in the memory 40 of the wireless charger 30.

(Structure of card 50; FIGS. 1 and 2)
The card 50 includes an NFC tag 52. The NFC tag 52 is an IC (abbreviation of Integrated Circuit) tag according to the NFC method. When the NFC tag 52 receives a command from the reader 36 of the wireless charger 30, the NFC tag 52 transmits a response to the command to the reader 36 to establish a wireless connection with the reader 36. The NFC tag 52 stores the above-mentioned authentication information. The authentication information includes a user ID for identifying the user.

(Authentication process; Fig. 3)
With reference to FIG. 3, the authentication process for permitting charging by the wireless charger 30 will be described. The authentication process involves the wireless charger 30 and the card 50. The authentication process is executed with the power supply unit 34 being plugged into an outlet and power being supplied to the wireless charger 30 as a trigger.

In S2, the control unit 42 monitors that a wireless connection is established between the reader 36 of the wireless charger 30 and the NFC tag 52 of the card 50. The reader 36 continues to output a predetermined command within a predetermined distance from the reader 36. As shown in FIG. 1, when the card 50 is placed on the wireless charger 30 and the NFC tag 52 is placed at a position facing the reader 36 by the user, the NFC tag 52 is placed at a predetermined distance from the reader 36. Go inside. In this case, the predetermined command output by the reader 36 is received by the NFC tag 52. As a result, the control unit 42 receives the response to the command from the NFC tag 52 via the reader 36. Then, a wireless connection is established between the reader 36 and the NFC tag 52. When the control unit 42 determines that the wireless connection with the NFC tag 52 has been established (YES in S2), the control unit 42 proceeds to S4.

In S4, the control unit 42 transmits a read command to the NFC tag 52 via the reader 36 by using the wireless connection with the NFC tag 52. Then, the control unit 42 receives the authentication information stored in the NFC tag 52 from the NFC tag 52 via the reader 36. That is, the control unit 42 reads the authentication information from the NFC tag 52 via the reader 36.

In S6, the control unit 42 monitors whether or not the authentication using the authentication information read from the NFC tag 52 by the reader 36 is successful. Specifically, the control unit 42 determines whether or not the authentication information (that is, the user ID) read from the NFC tag 52 matches the user ID of one of the plurality of user IDs stored in the database DB. Authentication is performed by determining whether or not. When the two user IDs match, the control unit 42 determines that the authentication was successful (YES in S6), and proceeds to S8. On the other hand, when the two user IDs do not match, the control unit 42 determines that the authentication has failed (NO in S6), and returns to the monitoring of S2.

In S8, the control unit 42 switches the charge permission flag F in the memory 40 from off to on. If the authentication of S6 fails, the charge permission flag F is kept off, and wireless charging by the wireless charger 30 is not permitted.

In S10, the control unit 42 monitors whether or not the establishment of the wireless connection with the NFC tag 52 continues. Specifically, when the control unit 42 continuously receives a predetermined signal from the NFC tag 52 via the reader 36, the control unit 42 determines that the establishment of the wireless connection with the NFC tag 52 is continuing. When the control unit 42 determines that the establishment of the wireless connection with the NFC tag 52 is continuing (YES in S10), the control unit 42 continues the monitoring of S10. In this case, the NFC tag 52 is within a predetermined distance from the reader 36. On the other hand, when the control unit 42 determines that the establishment of the wireless connection with the NFC tag 52 is not continued (NO in S10), the control unit 42 proceeds to S12. In this case, the NFC tag 52 is outside the predetermined distance from the reader 36.

In S12, the control unit 42 switches the charge permission flag F from on to off. When S12 ends, it returns to the monitoring of S2. If it is determined in S10 that the establishment of the wireless connection with the NFC tag 52 is continuing (YES in S10), the charging permission flag F is kept on and the wireless permission is permitted by the processing of S6. Charging continues.

(Charging process; Fig. 4)
Next, a charging process for charging the mobile terminal 10 will be described with reference to FIG. In the charging process, the mobile terminal 10 and the wireless charger 30 are involved. The trigger of the charging process is the same as the trigger of the authentication process.

In S22, the control unit 42 monitors whether or not the mobile terminal 10 is arranged on the wireless charger 30. Specifically, the control unit 42 outputs a signal within a predetermined distance from the power transmission coil 32 via the power transmission coil 32. As shown in FIG. 1, when the mobile terminal 10 is placed on the wireless charger 30 by the user and the power receiving coil 20 of the mobile terminal 10 is arranged at a position facing the power transmission coil 32, the power receiving coil 20 is placed. It enters within a predetermined distance from the power transmission coil 32. In this case, the signal output by the power transmission coil 32 is received by the power reception coil 20. Then, when the control unit 42 receives the response to the signal from the power receiving coil 20 via the power transmission coil 32, the control unit 42 determines that the mobile terminal 10 is arranged on the wireless charger 30. When the control unit 42 determines that the mobile terminal 10 is arranged on the wireless charger 30 (YES in S22), the control unit 42 proceeds to S24.

In S24, the control unit 42 determines whether or not the charge permission flag F is on. When the control unit 42 determines that the charge permission flag F is on (YES in S24), the control unit 42 proceeds to S26. On the other hand, when the control unit 42 determines that the charge permission flag F is off (NO in S24), the control unit 42 returns to the monitoring of S22.

In S26, the control unit 42 starts power transmission. Specifically, the control unit 42 applies a voltage required for starting wireless charging to the power transmission coil 32. As a result, the strength of the magnetic field generated by the power transmission coil 32 is increased. As a result, an electromotive force is generated in the opposing power receiving coil 20, and a current flows through the power receiving coil 20. The battery 22 is charged by the current flowing through the power receiving coil 20.

In S28, the control unit 42 monitors whether or not the mobile terminal 10 is arranged on the wireless charger 30. In the monitoring of S28, the same signals and responses as those of the monitoring of S22 are used. When the control unit 42 determines that the mobile terminal 10 is not arranged on the wireless charger 30 (NO in S28), the control unit 42 proceeds to S38.

In S38, the control unit 42 stops power transmission. Specifically, the control unit 42 lowers the voltage applied to the power transmission coil 32 to a voltage for stopping wireless charging. When S38 ends, it returns to the monitoring of S22.

Further, when the control unit 42 determines that the mobile terminal 10 is arranged on the wireless charger 30 (YES in S28), the control unit 42 proceeds to S30. In S30, the control unit 42 monitors whether or not the wireless charging of the mobile terminal 10 is completed. Specifically, the control unit 26 of the mobile terminal 10 completes wireless charging of the mobile terminal 10 via the power receiving coil 20 when the remaining amount of the battery 22 reaches a predetermined value (for example, 100%). A charge completion signal indicating that the battery has been charged is transmitted to the power transmission coil 32. When the control unit 42 of the wireless charger 30 receives the charging completion signal from the mobile terminal 10 via the power transmission coil 32, it determines that the wireless charging of the mobile terminal 10 is completed (YES in S30), and proceeds to S32. ..

In S32, the control unit 42 causes the notification unit 38 to output a completion notification sound indicating that the wireless charging of the mobile terminal 10 is completed. The user can hear the completion notification sound to know that the wireless charging of the mobile terminal 10 is completed. When S32 is completed, the process proceeds to S38.

Further, when the control unit 42 determines that the wireless charging of the mobile terminal 10 is not completed (NO in S30), the control unit 42 proceeds to S34. In S34, the control unit 42 determines whether or not the charge permission flag F is off. For example, when the card 50 is separated from the wireless charger 30, the charge permission flag F is turned off. In this case, the control unit 42 determines YES in S34 and proceeds to S36. Further, for example, when the card 50 is placed on the wireless charger 30, the charge permission flag F is kept on. In this case, the control unit 42 determines NO in S34 and returns to the monitoring of S28.

In S36, the control unit 42 causes the notification unit 38 to output a stop notification sound indicating that the wireless charging of the mobile terminal 10 has stopped. As a result, the user can hear the stop notification sound and know that the wireless charging of the mobile terminal 10 has stopped. When S36 is completed, the process proceeds to S38.

(Specific case; Fig. 5)
A specific case realized by the flowcharts of FIGS. 3 and 4 will be described with reference to FIG. First, the user places the card 50 on the wireless charger 30 and the NFC tag 52 at a position facing the reader 36. As a result, a wireless connection is established between the reader 36 and the NFC tag 52 (YES in S2 of FIG. 3). Further, the user places the mobile terminal 10 on the wireless charger 30 and arranges the power receiving coil 20 at a position facing the power transmission coil 32.

In A4, the wireless charger 30 uses the established wireless connection to send a read command to the card 50 to read the authentication information from the NFC tag 52 of the card 50 (S4 in FIG. 3).

In A6, the card 50 transmits the authentication information stored in the NFC tag 52 to the reader 36. The wireless charger 30 acquires the authentication information by receiving the authentication information (that is, the user ID) via the reader 36 (S4 in FIG. 3).

In A8, the wireless charger 30 determines that the user ID read from the card 50 matches the user ID of one of the plurality of authentication information stored in the database DB, and the authentication is successful (FIG. FIG. YES in S6 of 3).

In A10, the wireless charger 30 switches the charge permission flag F from off to on (S8 in FIG. 3). After that, when power transmission by the power transmission coil 32 is started, charging is started (S26 in FIG. 4). As a result, the mobile terminal 10 is wirelessly charged.

Next, the wireless charger 30 executes different processes depending on whether charging is completed without removing the card 50 (case 1) and when charging is not completed due to the card 50 being removed (case 2). do. First, Case 1 will be described. In case 1, in A14, the wireless charger 30 outputs a completion notification sound in response to the reception of the charge completion signal from the mobile terminal 10 (S32 in FIG. 4). Then, in A16, the wireless charger 30 stops power transmission (S38 in FIG. 4).

Next, Case 2 will be described. In case 2, when the card 50 is removed from the wireless charger 30, the wireless connection established between the reader 36 and the NFC tag 52 is disconnected, and the wireless charger 30 turns on the charge permission flag F. Switch off (YES in S34 in FIG. 4). In A20, the wireless charger 30 outputs a stop notification sound. Then, in A22, the wireless charger 30 stops power transmission (S38 in FIG. 4).

(effect)
In this embodiment, when authentication using the authentication information (for example, user ID) in the NFC tag 52 read by the reader 36 is successful (for example, user authentication) (YES in S6 of FIG. 3), wireless charging is performed. Is started and authentication fails (NO in S6), wireless charging is not started. That is, wireless charging is permitted only if the user is successfully authenticated. From the above, it is possible to allow charging only to the mobile terminal 10 used by a specific user.

For example, a comparative example of executing authentication information communication using the Qi standard is assumed. In this modification, it is not possible to execute authentication information having an amount of information that cannot be transmitted by the Qi standard. In this embodiment, it is possible to transmit authentication information having a relatively large amount of information by using wireless communication according to the NFC method.

For example, a comparative example is assumed in which the control unit 26 of the mobile terminal 10 executes user authentication. In this comparative example, the mobile terminal 10 may include a reader and receive authentication information from the card 50 via the reader. Then, the mobile terminal 10 may execute authentication using the received authentication information, and if the authentication is successful, may transmit a charging start signal to the power transmission coil 32 via the power receiving coil 20. That is, in this comparative example, it is necessary to install an application program for transmitting authentication and charging start signals on the mobile terminal 10 separately from the OS program (not shown). On the other hand, in this embodiment, the control unit 42 of the wireless charger 30 executes authentication and transmits a charging start signal. It is not necessary to install the application program on the mobile terminal 10. As a modification, the above comparative example may be adopted.

Here, a comparative example in which the processes of S10 and S12 of FIG. 3 and S34 and S38 of FIG. 4 are not executed is assumed. In this comparative example, after a third party other than the specific user temporarily steals the card 50 of the specific user and the authentication is successful, the card 50 is removed from the reader 36 and the card 50 is returned to the specific user. As a result, the mobile terminal 10 can be continuously charged wirelessly. On the other hand, in this embodiment, in order to continuously charge the mobile terminal 10 wirelessly, the distance between the reader 36 and the NFC tag 52 of the card 50 continues even after the power transmission coil 32 starts power transmission. It is necessary to maintain the wireless connection (YES in S10 of FIG. 3, NO in S34 of FIG. 4). That is, the third party cannot return the card 50 during charging. A third party cannot temporarily steal the card 50 and can appropriately permit a specific user to charge. As a modification, the above comparative example may be adopted.

Further, the charging system 2 includes a card 50 having an NFC tag 52, in addition to the mobile terminal 10 and the wireless charger 30. Therefore, even if the mobile terminal 10 used by the specific user does not have the NFC tag, the specific user can wirelessly charge the mobile terminal 10 by using the card 50.

(Correspondence)
The mobile terminal 10, the wireless charger 30, the charging system 2, the power transmission coil 32, the NFC tag 52, the reader 36, the notification unit 38, and the card 50 are the "mobile terminal" and "wireless charging," respectively. It is an example of a "charger", a "charging system", a "power transmission coil", an "NFC tag", a "reader", a "notification unit", and a "card". The control unit 42 is an example of a “power transmission control unit”, a “monitoring unit”, and a “notification control unit”. The stop notification and the completion notification are examples of the "first notification" and the "second notification", respectively.

(Second Example)
(Structure of charging system 2; FIGS. 6 and 7)
The second embodiment will be described with reference to the drawings. In the second embodiment, only the points different from those in the first embodiment will be described, and the same points as those in the first embodiment will be designated by the same reference numerals and the description thereof will be omitted. As shown in FIG. 7, in the second embodiment, the charging system 2 does not include the card 50 of the first embodiment, and the mobile terminal 10 further includes an NFC tag 152. The NFC tag 152 of the second embodiment has the same configuration as the NFC tag 52 of the first embodiment. Therefore, the NFC tag 152 can establish a wireless connection with the reader 36 of the wireless charger 30.

As shown in FIG. 6, in the mobile terminal 10, the NFC tag 152 is arranged in the vicinity of the power receiving coil 20, and the NFC tag 152 and the power receiving coil 20 are linearly arranged with a predetermined distance. Further, in the wireless charger 30, the reader 36 is also arranged in the vicinity of the power transmission coil 32, and the reader 36 and the power transmission coil 32 are linearly arranged with the same distance as the above-mentioned predetermined distance. When the mobile terminal 10 is arranged at a predetermined position on the wireless charger 30, the NFC tag 152 faces the reader 36 and the power receiving coil 20 faces the power transmission coil 32. For example, a comparative example is assumed in which the distance between the NFC tag 152 and the power receiving coil 20 is different from the distance between the reader 36 and the power transmission coil 32. In this comparative example, the position (that is, the posture) on the wireless charger 30 of the mobile terminal 10 where the power receiving coil 20 and the transmitting coil 32 face each other, and the wireless charger 30 of the mobile terminal 10 where the NFC tag 152 and the reader 36 face each other. The top position is different. That is, the user first needs to change the position of the mobile terminal 10 in order to make the power receiving coil 20 face the power transmission coil 32 after the NFC tag 152 faces the reader 36 and the authentication is successful. In the above configuration, since the mobile terminals face each other at one position at the same time, the user does not need to change the position of the mobile terminal 10. It is possible to improve the convenience of the user.

(Specific case; Fig. 8)
A specific case realized by the authentication process and the charge process will be described with reference to FIG. Although the authentication process of the second embodiment is different from the authentication process of the first embodiment in that the mobile terminal 10 and the wireless charger 30 are involved, in the authentication process of the second embodiment, the third embodiment shown in FIG. 1 The authentication process similar to the authentication process of the embodiment is executed. Further, the authentication process of the second embodiment is the same as the authentication process of the first embodiment shown in FIG.

First, the user places the mobile terminal 10 at a predetermined position on the wireless charger 30. In this case, as described above, the NFC tag 152 faces the reader 36 and the power receiving coil 20 faces the power transmission coil 32. As a result, a wireless connection is established between the NFC tag 152 and the reader 36 (YES in S2 of FIG. 3).

A24 and A26 are the same as A4 and A6 in FIG. 5, except that communication is performed between the wireless charger 30 and the mobile terminal 10. A28 to A52 are the same as A8 to A22 in FIG.

(Correspondence)
The NFC tag 152 is an example of an “NFC tag”.

Although the examples have been described in detail above, these are merely examples and do not limit the scope of claims. The techniques described in the claims include various modifications and modifications of the specific examples exemplified above. For example, the following modification may be adopted.

(Modification 1)
The card 50 may be provided with a barcode instead of the NFC tag 52. In this case, the authentication information is recorded on the barcode. Further, the reader 36 may be a device capable of acquiring authentication information from a barcode. The reader 36 includes, for example, a CCD sensor in a CCD system or the like. The method for acquiring the barcode is not limited to the CCD method, and may be, for example, a laser method or a pen method. In this modification, the barcode is an example of the "information code".

(Modification 2)
The processes of S10 and S12 of FIG. 3 and S34 and S38 of FIG. 4 may not be executed. In this modification, the "monitoring unit" can be omitted.

(Modification 3)
In the third modification, in S10 of FIG. 3, the control unit 42 monitors whether or not the communication strength of the wireless connection with the NFC tag 52 is equal to or higher than a predetermined value, thereby connecting the reader 36 and the NFC tags 52 and 152. It may be monitored whether or not the state in which the distance between the two is equal to or less than a predetermined distance continues. When the control unit 42 determines that the communication strength of the wireless connection is less than the predetermined value, it determines that the distance between the reader 36 and the NFC tag 52 exceeds the predetermined distance, proceeds to S12, and sets the charge permission flag F. You may switch from on to off. In this modification, the fact that the communication strength is equal to or higher than the predetermined value is an example of "the state in which the distance is equal to or lower than the predetermined distance continues".

(Modification example 4)
S36 of FIG. 4 does not have to be executed. In this modification, the "first notification" can be omitted.

(Modification 5)
S32 in FIG. 4 does not have to be executed. In this modification, the "second notification" can be omitted.

(Modification 6)
The method of placing the card 50 is not limited to the above embodiment. For example, the card 50 may be pluggable into the wireless charger 30. Further, the card 50 may be arranged so as to face the side surface of the wireless charger 30. Further, the card 50 may be arranged on the mobile terminal 10 arranged on the wireless charger 30.

Further, the technical elements described in the present 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 techniques exemplified in the present specification or the drawings achieve a plurality of purposes at the same time, and achieving one of the purposes itself has technical usefulness.

2: Charging system 10: Mobile terminal 12: Information code acquisition unit 14: Display unit 16: Operation unit 18, 40: Memory 20: Power receiving coil 22: Battery 26, 42: Control unit 30: Wireless charger 32: Power transmission coil 34 : Power supply unit 36: Reader 38: Notification unit 50: Card 52, 152: NFC tag DB: Database F: Charge permission flag

Claims (10)

A charging system including a mobile terminal and a wireless charger for charging the mobile terminal.
The wireless charger
A power transmission coil for performing power transmission in wireless charging,
Equipped with a reader for reading authentication information in NFC tags or information codes,
The charging system
When the authentication using the authentication information read by the reader of the wireless charger is successful, the power transmission in the wireless charging is started in the transmission coil, and when the authentication fails, the power transmission in the wireless charging is performed. A charging system with a power transmission control unit that does not start. The charging system according to claim 1, wherein the wireless charger includes the power transmission control unit. The charging system further
A monitoring unit for monitoring whether or not the distance between the reader and the NFC tag continues to be equal to or less than a predetermined distance after the authentication is successful and the power transmission coil starts power transmission is provided.
When the monitoring unit determines that the distance between the reader and the NFC tag is not equal to or less than the predetermined distance, the power transmission control unit transmits power transmission in the wireless charging to the power transmission coil. Stop at
Claim 1 or 2 in which the power transmission in the wireless charging is continued when the monitoring unit determines that the state in which the distance between the reader and the NFC tag is equal to or less than the predetermined distance continues. The charging system described in. The charging system further
A notification unit that notifies the state of wireless charging and
When the monitoring unit determines that the state in which the distance between the reader and the NFC tag is equal to or less than the predetermined distance does not continue, the first notification indicating that the power transmission in the wireless charging has stopped is stopped. The charging system according to claim 3, further comprising a notification control unit that causes the notification unit to execute the above. The charging system according to claim 4, wherein the notification control unit further causes the notification to execute a second notification indicating that the wireless charging is completed when the wireless charging is completed. When the NFC tag approaches the reader, a wireless connection is established between the NFC tag and the reader.
When the establishment of the wireless connection is continued, the monitoring unit determines that the distance between the reader and the NFC tag is not less than or equal to the predetermined distance, and determines that the wireless connection is continued. The charging according to any one of claims 3 to 5, wherein when the device is disconnected, it is determined that the state in which the distance between the reader and the NFC tag is equal to or less than the predetermined distance does not continue. system. The mobile terminal includes the NFC tag.
One of claims 1 to 6, wherein when the mobile terminal is arranged on the wireless charger, the power receiving coil of the mobile terminal faces the power transmission coil and the NFC tag faces the reader. The charging system described in the section. The charging system further comprises a card separate from the mobile terminal and the wireless charger.
The charging system according to any one of claims 1 to 6, wherein the card comprises the NFC tag. A wireless charger for charging mobile terminals,
A power transmission coil for performing power transmission in wireless charging,
With a reader to read the authentication information in the NFC tag or information code,
If the authentication using the authentication information read by the reader is successful, the power transmission in the wireless charging is started by the power transmission coil, and if the authentication fails, the power transmission in the wireless charging is not started. A wireless charger with a control unit. A mobile device that is charged by a wireless charger
When the mobile terminal is arranged on the wireless charger, the power receiving coil arranged so as to face the power transmission coil of the wireless charger and the power receiving coil.
It comprises an NFC tag that stores authentication information for performing authentication for initiating power transmission in the wireless charger.
The NFC tag is used to read the authentication information stored in the NFC tag when the mobile terminal is arranged on the wireless charger and the power receiving coil faces the power transmission coil. A mobile terminal arranged to face the reader of the wireless charger.

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