JP5500631B2 - Contactless charging device, communication terminal device, program, and contactless charging system - Google Patents

Description

  The present invention relates to a contactless charging device, a communication terminal device, a program, and a contactless charging system.

  Recently, with the miniaturization of electronic devices such as communication terminal devices such as mobile phones (hereinafter also referred to as “terminal devices” or “terminals” in the present specification and drawings), a method of charging a battery included in the electronic devices is charged. As a result, the contactless charging method has been adopted. Since the contactless charging device used in this charging method does not need to expose the contact on the terminal side, it can be applied to various terminal devices without causing a short circuit or the like.

  On the other hand, a system that enables communication with a PC (Personal Computer) or a network by installing a terminal on a charging stand (cradle) is widely used. Patent Documents 1 and 2 disclose a technique that enables communication between a terminal and a computer or the like in parallel with charging of the terminal.

Special table 2009-501000 gazette JP 2008-118575 A

  If contactless charging devices become widespread in the future, for example, the degree of freedom regarding the positional relationship between a charging device formed in a trapezoidal shape (hereinafter referred to as a “charging table”) and a terminal placed on the charging device may increase. is expected. That is, (1) Use multiple terminals simultaneously on a charging stand, (2) One or more of the terminals placed on the charging stand communicate with a PC or network via the charging stand A case may occur.

  However, in the use cases described above, the following problems are expected to occur. For example, (1) When communication is performed in parallel with charging with a contactless charging device that can charge a plurality of terminals, it is difficult for the user to know which terminal is communicating. (2) Multiple terminals communicate If possible, problems such as the possibility that a user erroneously accesses the data of another terminal by mistake and (3) communication is difficult depending on the position on the contactless charging stand may occur. .

  The present invention has been made in view of the above-described problems, and a contactless charging device and a communication device that allow a user to easily intuitively confirm that a specific terminal is communicating when a plurality of terminals are in a chargeable state. It is an object of the present invention to provide a terminal device, a program for causing these to function, and a contactless charging system.

In order to achieve the above object, a contactless charging apparatus according to the first aspect of the present invention includes:
A contactless charging device capable of charging a plurality of terminal devices,
Communication means for enabling at least one of the terminal devices to communicate with an external device in parallel with the charging;
The communication means transmits a control signal for identifiably indicating that the communication is being performed to the terminal device that is communicating, and when there are a plurality of the terminal devices that are communicating, Control means for transmitting a control signal for causing the terminal devices to display such that they can be distinguished from each other ;
It is characterized by providing.

In addition, the control means, when there are a plurality of the terminal devices in communication, a control signal for causing the external device as a communication destination to display which terminal device can be identified Send,
It is good as well.

Further, the battery pack further includes a predetermined chargeable area where the charge can be performed when the terminal device is brought close to the terminal device,
The chargeable area includes a communicable area capable of communicating by the communication means in a part thereof,
The communicable area is formed so as to be visually distinguishable from the other chargeable areas.
It is good as well.

The chargeable area is a planar area on which the terminal device is placed,
The communicable area is formed in the chargeable area as a flat sign, a convex part or a concave part,
It is good as well.

In order to achieve the above object, a communication terminal device according to the second aspect of the present invention provides:
A communication terminal device that can be charged by a contactless charging device,
Communication means for communicating with an external device through the contactless charging device in parallel with the charging;
Display means for displaying communication information relating to communication by the communication means;
Control means for transmitting a control signal for causing the display means to display the communication means in an identifiable manner when communication is being performed by the communication means;
Information acquisition means for acquiring, from the contactless charging apparatus, communication identification information that can be distinguished from other communication terminal apparatuses when a plurality of the communication terminal apparatuses communicate with the external device by the communication means. ,
The control means includes the communication identification information in the control signal and transmits it to the display means,
The display means displays the communication information that can be visually distinguished from other communication terminal devices based on the control signal from the control means.
And wherein a call.

In order to achieve the above object, a program according to the third aspect of the present invention provides:
A computer that controls a contactless charging device capable of charging a plurality of terminal devices,
Communication means for enabling at least one of the terminal devices to communicate with an external device in parallel with the charging;
The communication means transmits a control signal for identifiably indicating that the communication is being performed to the terminal device that is communicating, and when there are a plurality of the terminal devices that are communicating, Control means for transmitting a control signal for causing the terminal devices to display such that they can be distinguished from each other ;
It is made to function as.

In order to achieve the above object, a contactless charging system according to a fourth aspect of the present invention includes:
A contactless charging system comprising: a communication terminal device; a contactless charging device capable of charging a plurality of the terminal devices; and a communication device communicating with one or a plurality of the terminal devices via the contactless charging device. And
The communication device
Display means for displaying the terminal device in communication in an identifiable manner;
Selecting means for selecting any one from one or a plurality of the terminal devices displayed on the display means according to a user instruction;
When there are a plurality of the terminal devices in communication, the terminal device selected by the selection means transmits a control signal for causing the terminal devices in communication to display each other so that they can be distinguished from each other. Control means for transmitting other control signals for causing the apparatus to display another identifiable display,
It is characterized by that.

  According to the present invention, since it is possible to visually check which terminal is in communication from a plurality of communication terminal devices arranged so as to be rechargeable in the contactless charging apparatus, the user can intuitively and easily communicate with the terminal. Can be confirmed.

It is a schematic diagram which shows the structure of Embodiment 1 of this invention. It is a block diagram of the structure shown in FIG. It is a schematic diagram which shows operation | movement of Embodiment 1 of this invention. It is a flowchart which shows the communication operation | movement in the structure shown in FIG. It is a schematic diagram which shows the structure of Embodiment 2 of this invention. (A) is a figure which shows the example of a display of the display of PC in communication operation, (b) is a figure which shows the example of a display of the display of the portable terminal in communication operation. It is a flowchart which shows operation | movement of Embodiment 2 of this invention. It is a figure which shows the example of the connection number management table used in operation | movement of Embodiment 2 of this invention. It is a flowchart which shows the operation | movement in the modification of Embodiment 2 of this invention. It is a schematic diagram which shows the structure of Embodiment 3 of this invention. It is a block diagram of a part of a structure shown in FIG. (A)-(c) is a figure which shows the structural example of the mounting part for communication of Embodiment 3. FIG. It is a schematic diagram which shows the structure of Embodiment 4 of this invention. It is a flowchart which shows operation | movement of Embodiment 4 of this invention. It is a schematic diagram which shows the structure of Embodiment 5 of this invention. (A) is a figure which shows the example of a display of the display of PC in communication operation | movement, (b) is a figure which shows the example of a display of the LED light emission part and display of a portable terminal in communication operation | movement. It is a schematic diagram which shows the structure of Embodiment 6 of this invention. It is a block diagram of the structure shown in FIG. It is a flowchart which shows operation | movement of Embodiment 6 of this invention. It is a flowchart which shows the operation | movement in the modification of Embodiment 6 of this invention.

  Embodiments of the present invention will be described below with reference to the accompanying drawings.

(Embodiment 1)
As shown in FIG. 1, the contactless charging system 1 according to the first embodiment includes a contactless charging stand 10, a plurality of portable terminals 30, a PC 50, and a communication cable 70.

  The contactless charging stand 10 is formed as a rectangular plate-like body whose outer shape is such that a plurality of portable terminals 30 can be placed, and the portable terminal 30 is brought close to the main surface of the plate-like body. The portable terminal 30 can be charged without contact at the time. In the contactless charging stand 10 in the example of the present embodiment, the upper surface shown in the figure is a chargeable region, and the contactless charging stand 10 and the mobile terminal 30 are arranged by placing the mobile terminal 30 on the contactless charging stand 10. It shall be close. The contactless charging stand 10 includes, for example, a power cable 11 for connecting to a commercial power source and a connection port (not shown) to which a communication cable 70 can be connected.

  The mobile terminal 30 is a mobile phone in the example of the present embodiment. However, the description regarding the call function of the portable terminal 30 is omitted in this specification. The portable terminal 30 includes an LED (Light Emitting Diode) light emitting unit 31 and a display 32 that are provided at positions that are visible from the outside with the housing folded. The LED light emitting unit 31 has an LED element and emits light according to control of a CPU 33 (described later) of the mobile terminal 30. In the following description and the description of the drawings, the LED light emitting unit 31 is also simply referred to as an LED. The display 32 displays information such as characters, graphics, and colors for the user according to the control of the CPU 33 of the mobile terminal 30. The LED light emitting unit 31 or the display 32 functions as a display unit of the mobile terminal 30.

  The PC 50 executes predetermined application software and defines the operation of the contactless charging stand 10. The PC 50 includes a display 51 that displays the execution state of the application software.

  The communication cable 70 transmits a signal for performing communication between the contactless charging stand 10 and the PC 50. In the present specification, as a typical example, it is described that wired communication is performed between the contactless charging stand 10 and the PC 50, but wireless communication using radio waves or infrared rays may be used.

  Next, a more detailed configuration of the contactless charging stand 10, the portable terminal 30, and the PC 50 described above is shown in the block diagram of FIG.

  In addition to the power cable 11 described above, the contactless charging stand 10 includes a communication unit 12, a PC communication unit 13, a communication control unit 14, a memory 15, a CPU 16, a coil driving unit 17, and a feeding coil 18. And a power supply circuit 19.

  The communication part 12 communicates with the communication part 34 of the portable terminal 30 mentioned later about the information regarding terminal information or charge management, for example. Since the contactless charging stand 10 of the present embodiment does not have a contact at the interface with the mobile terminal 30, communication between the communication unit 12 and the communication unit 34 of the mobile terminal 30 is performed without contact. For this communication, for example, a wireless or infrared method can be used.

  The PC communication unit 13 communicates with a communication unit 52 of the PC 50 described later. This communication is performed via the communication cable 70.

  The communication control unit 14 instructs the communication unit 12 or the PC communication unit 13 to change each communication state based on an instruction from the CPU 16. Further, the communication control unit 14 transmits a signal received from the mobile terminal 30 or the PC 50 from the communication unit 12 or the PC communication unit 13 to the CPU 16. The communication unit 12, the PC communication unit 13, and the communication control unit 14 function as communication means of the contactless charging stand 10.

  The memory 15 is a storage device including a ROM (Read Only Memory), a RAM (Random Access Memory), and the like. The memory 15 stores programs executed by the CPU 16, data, and the like. The memory 15 operates as a work memory when the CPU 16 executes a program, for example.

  The CPU 16 controls the overall functions of the contactless charging stand 10 such as charging of the mobile terminal 30, communication and data management. The CPU 16 functions as a control unit for the contactless charging stand 10.

  The coil driving unit 17 includes a DC (direct current) / AC (alternating current) inverter and the like, and supplies a predetermined AC current to the feeding coil 18 based on an instruction from the CPU 16.

  The power feeding coil 18 generates a magnetic field for electromagnetic induction with respect to a power receiving coil 39 of the portable terminal 30 described later by an AC current supplied from the coil driving unit 17. In order to support charging of a plurality of portable terminals 30 as in the present embodiment, the power feeding coil 18 includes one or a plurality of coils arranged within a predetermined range of the contactless charging stand 10.

  The power supply circuit 19 includes an AC / DC converter or the like, and converts an AC current supplied from a commercial power supply via the power cable 11 into a predetermined DC current.

  The portable terminal 30 includes a CPU 33, a communication unit 34, a memory 35, a charge control unit 36, a rectification unit 37, a battery 38, and a power receiving coil 39, in addition to the LED light emitting unit 31 and the display 32 described above. I have.

  The CPU 33 controls overall functions of the mobile terminal 30 such as charging of the mobile terminal 30, communication with the contactless charging base 10 via the communication unit 34, data management, and display.

  The communication unit 34 communicates with the communication unit 12 of the contactless charging stand 10 described above. The communication unit 34 functions as a communication unit of the mobile terminal 30. The CPU 33 and the communication unit 34 function as communication information acquisition means of the mobile terminal 30.

  The memory 35 is a storage device including a ROM (Read Only Memory), a RAM (Random Access Memory), and the like. The memory 35 stores programs executed by the CPU 33, data, and the like. The memory 35 operates as a work memory when the CPU 33 executes a program, for example.

  The charging control unit 36 performs monitoring control on the charging time of the portable terminal 30 and the charging / discharging current of the battery 38 based on the instruction of the CPU 33.

  The rectifying unit 37 rectifies the AC current received by the power receiving coil 39 by electromagnetic induction, and applies a predetermined charging voltage to the battery 38 for charging. The rectifying unit 37 supplies the DC current rectified during charging to each unit in the mobile terminal 30 via the charging control unit 36.

  The battery 38 is a secondary battery that stores DC power received from the contactless charging stand 10 and rectified by the battery 38 and supplies power as an operation power source of the mobile terminal 30 when not charged.

  When the mobile terminal 30 is placed on the contactless charging stand 10 and charged, the power receiving coil 39 receives power from the power feeding coil 18 provided at the facing position by electromagnetic induction. As a result, an AC voltage is generated at both ends of the power receiving coil 39.

  The PC 50 includes a communication unit 52, a memory 53, and a CPU 54 in addition to the display 51 described above.

  The communication unit 52 communicates with the PC communication unit 13 of the contactless charging stand 10 described above.

  The memory 53 is a storage device including a ROM (Read Only Memory), a RAM (Random Access Memory), and the like. The memory 53 stores programs executed by the CPU 54, data, and the like. The memory 53 operates as a work memory when the CPU 54 executes a program, for example.

  The CPU 54 controls all functions of the PC 50 such as communication with the contactless charging stand 10 via the communication unit 52, data management, and display.

  In the description of each embodiment of the present specification, it is assumed that any portable terminal 30 placed on the contactless charging stand 10 can be charged. The charging operation is generally performed as follows. The contactless charging stand 10 receives AC power supplied via the power cable 11 through AC / DC conversion by the power supply circuit 19 and DC / AC conversion by the coil driving unit 17 to receive power from the mounted mobile terminal 30. A predetermined alternating current is supplied to the feeding coil 18 at a position corresponding to the coil 39. These operations are performed according to instructions from the CPU 16. An induced current flows through the power receiving coil 39 of the portable terminal 30 by the operation of the contactless charging stand 10. The portable terminal 30 charges the battery 38 by rectifying the induced current by the rectifying unit 37 and applying it to the battery 38 as a predetermined charging voltage. Note that these operations of the mobile terminal 30 are performed according to instructions from the CPU 33 and the charging control unit 36.

  Next, the operation of the contactless charging system 1 according to the present embodiment will be described with reference to FIGS. 3 and 4.

  The operation of this embodiment, particularly the communication operation will be described below. In this embodiment, in order to distinguish, for example, the three mobile terminals 30 shown in FIG. 1, the reference numerals of the mobile terminals 30a, 30b, and 30c are given as shown in FIG. In the following description of the operation, the mobile terminal 30b communicates with the contactless charging stand 10 and the PC 50. Although the portable terminals 30a and 30c are being charged or have been charged, the portable terminals 30a and 30c do not communicate with the contactless charging stand 10 and the PC 50.

  Also, as shown in FIG. 3, a communication application 60 that is software for communicating with the contactless charging stand 10 and the portable terminal 30 is activated by the user on the PC 50. The user inputs an instruction to an input device (not shown) of the PC 50 while referring to the application screen displayed on the display 51. The communication application 60 controls communication operations for the contactless charging stand 10, the portable terminal 30, and the PC 50 according to this instruction. Hereinafter, each process of the contactless charging stand 10 and the portable terminal 30 according to the flowchart shown in FIG. 4 is a process after the activation of the communication application 60 in principle.

(Charging stand)
First, the CPU 16 of the contactless charging stand 10 determines whether or not communication with the PC 50 has been established (step S110). When communication is not established (step S110: No), the process of step S110 is repeated until it is established.

  When communication with the PC 50 is established (step S110: Yes), the CPU 16 subsequently requests communication with the portable terminal 30b (step S120).

  Thereafter, when a signal indicating that communication has been established is input from the mobile terminal 30b, the CPU 16 determines that communication with the mobile terminal 30b has been established (step S130).

  Then, CPU16 performs the connection process for communicating between PC50 and the portable terminal 30b via the communication cable 70 (step S140), and the process in the non-contact charging stand 10 is complete | finished. Thereafter, communication between the PC 50 and the portable terminal 30b is performed between the CPUs 54 and 33.

(Mobile device)
First, the CPU 33 of the mobile terminal 30b determines whether or not the mobile terminal 30b is being charged (step S310). If the battery is not being charged (step S310: No), this process is repeated until it is determined that the battery is being charged.

  If it is determined that the mobile terminal 30b is being charged (step S310: Yes), the CPU 33 then waits for a communication request from the contactless charging stand 10 (step S320). At this time, the communication request process from the contactless charging stand 10 is the process of step S120 described above.

  When a communication request is received from the contactless charging stand 10, the CPU 33 establishes a terminal device with the contactless charging stand 10 and transmits a signal indicating that communication has been established to the contactless charging stand 10 (step S330). . This signal is received by the CPU 16 of the contactless charging stand 10 in the process of step S130 described above.

  Next, CPU33 discriminate | determines whether communication with PC50 was established by the communication connection process (step S140) of PC50 and the portable terminal 30b by the non-contact charging stand 10 mentioned above (step S340). If communication with the PC 50 is not established (step S340: No), this process is repeated until it is established.

  If communication with PC50 is established (step S340: Yes), CPU33 will light the LED light emission part 31b of the portable terminal 30b, in order to show that the portable terminal 30b and PC50 are communicating (step S350). As shown in FIG. 3, the LED light emitting unit 31b emits light, but the LED light emitting unit 31a of the portable terminal 30a and the LED light emitting unit 31c of the portable terminal 30c do not emit light. Can be easily identified visually.

  Thereafter, the CPU 33 determines whether or not the communication between the portable terminal 30 and the PC 50 has ended by controlling the communication application 60 (step S360). If communication with the PC 50 does not end (step S360: No), this process is repeated until the communication ends.

  When the communication with the PC 50 ends (step S360: Yes), the CPU 33 turns off the LED light emitting unit 31b of the mobile terminal 30b (step S370), and the processing of the mobile terminal 30 ends. By turning off the LED light emitting unit 31b, the user can identify that the communication between the portable terminal 30b and the PC 50 has ended.

  As described above, in the present embodiment, a control signal for causing the terminal device to perform a display that makes it possible to identify that the communicating terminal device is communicating is transmitted. As a result, even if a plurality of terminal devices are placed at free positions of the contactless charging device and the communication is performed, the user can intuitively and easily understand which terminal is communicating. Therefore, according to the present embodiment, it is possible to prevent the communication from being disconnected by mistakenly disconnecting the terminal device in communication from the contactless charging device.

(Embodiment 2)
Next, Embodiment 2 of the present invention will be described with reference to FIGS. The contactless charging system 2 according to the present embodiment is different from the first embodiment in that two of the three exemplified mobile terminals perform communication during charging. In the description of FIGS. 5 and 6, the same components as those in the first embodiment are denoted by the same reference numerals, and detailed description thereof is omitted.

  The physical configuration and block diagram of the contactless charging system 2 in the present embodiment are the same as the contactless charging system 1 (FIGS. 1 and 2) of the first embodiment. However, the present embodiment is different from the first embodiment in that there are two communication applications activated by the PC 50, which are reference numerals 60a and 60b. The communication applications 60a and 60b correspond to the mobile terminals 30a and 30b mounted on the contactless charging stand 10, respectively, and control communication between these terminals and the contactless charging stand 10 and the PC 50.

  In the first embodiment, the LED light emitting unit 31 is caused to emit light so that the user can recognize that the mobile terminal 30 is communicating, but in the present embodiment, a predetermined display is displayed on the display 32 of the mobile terminal 30. In FIG. 5, a predetermined display is displayed on the display 32a of the portable terminal 30a and the display 32b of the portable terminal 30b. In this case, the display 32c of the portable terminal 30c does not display that communication related to this specification is being performed. The active communication applications 60a and 60b are also displayed on the display 51 of the PC 50.

  An example of display displayed by the user is shown in FIGS. As shown in FIG. 6A, for example, “terminal communication in progress: connection No. 1” is displayed on the display 51 of the PC 50 in the window of the communication application 60a. Further, for example, “terminal communication: connection No. 2” is displayed in the window of the communication application 60b. Thus, the unique display (serial number in the example of this embodiment) is attached | subjected about the portable terminal 30 in communication. Corresponding to these, for example, “PC communication: connection No. 1” is displayed on the display 32a of the mobile terminal 30a, and “PC communication: connection No. 2” is displayed on the display 32b of the mobile terminal 30b. Is displayed. As described above, the mobile terminal 30 also displays the serial number in association with the communication application 60.

  Next, of the operation of the contactless charging system 2 according to the present embodiment, particularly the display portion of the connection number will be described. In the following description, two cases are shown by the management entity of the “connection number” in the communication between the contactless charging stand 10, the portable terminal 30 and the PC 50. In the following description, communication of one of the plurality of mobile terminals 30 (the mobile terminal 30a or the mobile terminal 30b) will be described except for a portion to be specifically described.

(1) Case where charging stand manages PC-terminal connection number The operation will be described with reference to the flowchart of FIG.
(PC)
Hereinafter, it is assumed that the CPU 54 of the PC 50 operates based on the program of the communication application 60a or 60b. First, the CPU 54 requests communication from the contactless charging stand 10 (step S510). Thereafter, when receiving a signal indicating that communication with the PC 50 has been established from the contactless charging stand 10 (step S112 described later), the CPU 54 performs processing for establishing communication with the contactless charging stand 10 (step S520).

  Thereafter, when a communication connection process between the PC and the terminal is performed in the contactless charging stand 10 (step S141 described later), the CPU 54 of the PC 50 performs a process of establishing communication with the portable terminal 30 (step S530).

  Thereafter, when a connection number (step S160 described later) transmitted from the contactless charging stand 10 is received (step S540), the CPU 54 displays the communication application 60a (or 60b) shown in FIG. (Step S550). Here, when a plurality of portable terminals 30 are communicating, the second communication established is displayed as a serial number (No. 2) as in the communication application 60b of FIG.

(Charging stand)
First, the CPU 16 of the contactless charging stand 10 waits for a communication request from the PC 50 (step S111). When receiving a communication request from the PC 50 (step S510 described above), the CPU 16 performs processing for establishing communication with the PC 50 (step S112). Here, when communication between the contactless charging stand 10 and the PC 50 is established, the CPU 16 transmits a signal indicating that communication is established to the PC 50 (step S520).

  Thereafter, the CPU 16 makes a communication request to the portable terminal 30 (step S120), and then performs processing for establishing communication with the portable terminal 30 in accordance with a signal from the portable terminal 30 (step S130). The processing in steps S120 and S130 is the same as the processing in the first embodiment shown in FIG.

  Subsequently, the CPU 16 performs a communication connection process between the PC and the terminal (step S141). Here, the CPU 16 communicates between the contactless charging stand 10 and the portable terminal 30 (communication unit 12 and communication unit 34) and between the contactless charging stand 10 and PC 50 (communication with the PC communication unit 13) via the communication control unit 14. Communication of the unit 52). In addition, by transmitting the result of the communication connection process from the contactless charging stand 10 to the PC 50, the CPU 54 of the PC 50 executes the process of step S530 as described above. The result of the similar communication connection process is also transmitted to the mobile terminal 30 (step S341 described later).

  Subsequently, the CPU 16 registers the connection state in the connection number management table stored in the memory 15 (step S150). For example, as shown in FIG. 8, the connection number management table is configured in a table format including items of “connection number”, “PC communication port”, “terminal communication port”, and “state”. ing.

  In the example of FIG. 1, “Port 1” is assigned to the communication port (PC communication port) with the PC 50 (communication unit 52) of the contactless charging stand 10, and similarly the communication port with the portable terminal 30 (PC communication unit 13). “Port 1” is assigned to (terminal communication port). In this way, communication is established between the mobile terminal 30 and the PC 50 by being connected at both the “PC communication port” and the “terminal communication port”, and the “state” at this time is “connected” and other It is registered with the item in the connection number management table. The connection number No. In the example of 2, the “PC communication port” of the contactless charging stand 10 is assigned “Port 2”, but nothing is assigned to the “terminal communication port” and “unconnected”. Therefore, no. In the case of 2, communication between the portable terminal 30 and the PC 50 is not established, and the “state” at this time is registered in the connection number management table together with other items as “not connected”.

  Subsequently, the CPU 16 transmits, to the PC 50 and the portable terminal 30, a connection number in which communication between the portable terminal 30 and the PC 50 is established by the above processing (Step S160). Specifically, the contents of the above connection number management table are transmitted. Here, the connection number is to be displayed on the PC 50 or the portable terminal 30 and therefore needs to include a connection number with which communication has been established. However, the table contents including the connection number “not connected” are transmitted. There is no problem. In that case, the connection number is selected from the received data from the contactless charging stand 10 by the PC 50 or the portable terminal 30 and displayed. As a result, as described above, the PC 50 performs the processing of steps S540 and 550 to display the connection number on the display 51.

(Mobile device)
First, the CPU 33 of the mobile terminal 30a (or 30b) determines whether or not the mobile terminal 30a (or 30b) is being charged (step S310). Subsequently, the CPU 33 waits for a communication request from the contactless charging stand 10 (step S320), establishes communication with the contactless charging stand 10 in response to the communication request, and establishes communication with the contactless charging stand 10. Is transmitted (step S330). Each of these processes is the same as that of Embodiment 1 shown in FIG.

  Thereafter, the CPU 33 establishes communication between the portable terminal 30 and the PC 50 (step S341). Here, as described above, the CPU 33 receives the result of the connection process transmitted from the contactless charging stand 10 by the PC-terminal connection process (step S141), and performs the process of establishing the connection with the PC 50.

  Thereafter, when the connection number is transmitted from the contactless charging stand 10 as described above, the CPU 33 of the portable terminal 30 receives this connection number (step S380). Then, a message including the serial number shown in FIG. 6B is displayed on the display 32a (or 32b) of the mobile terminal 30 according to the received connection number (step S390).

  In addition, in order to end the display on the display 51 of the PC 50 or the display 32 of the mobile terminal 30, a routine similar to the processing in steps S360 and S370 in FIG. 4 may be added after step S550 or step S390.

(2) When the PC application manages the PC-terminal connection number The operation will be described with reference to the flowchart of FIG.
With respect to the flowchart shown in FIG. 9, only differences from the flowchart of FIG. 7 by managing the connection number management table on the PC 50 side will be described below.

  In the PC 50, after establishing communication with the portable terminal 30 (step S530), the CPU 54 registers the connection state in the connection number management table stored in the memory 53 (step S531). The connection number management table includes the same items as those described in FIG.

  Subsequently, the CPU 54 transmits a connection number to the contactless charging stand 10 (step S541). This process is the same as the process in step S160 in the contactless charging stand 10 described above, but in the example of FIG. 9, transmission from the PC 50 to only the contactless charging stand 10 is performed. Thereafter, as described above, the CPU 54 displays the communication application 60a (or 60b) on the display 51 (step S550).

(Charging stand)
In the contactless charging stand 10, after the above-described communication connection process between the PC and the terminal (step S 141), when the connection number is transmitted from the PC 50 (step S 541), the CPU 16 transfers the connection number to the portable terminal 30. (Step S161). The transferred connection number is received by the portable terminal 30 as described above (step S380).

  As described above, in the present embodiment, when there are a plurality of terminal devices in communication, a control signal for causing the plurality of terminal devices to perform display that can be distinguished from communication by other terminal devices. I sent it. This eliminates the need for preparing a plurality of contacts for communication in the contactless charging apparatus. Therefore, according to the present embodiment, even if a plurality of terminal devices are placed at arbitrary positions and a plurality of terminal devices communicate simultaneously, it is possible to prevent erroneous operations such as accessing data of other terminal devices by mistake from an external device.

  In this embodiment, when there are a plurality of terminal devices in communication, a control signal is transmitted to cause the external device of the communication destination to display so as to be able to identify which terminal device is in communication. I tried to do it. Thereby, the user can discriminate | determine the terminal device which is communicating intuitively. Therefore, according to the present embodiment, it is possible to prevent an erroneous operation such as accessing data of another terminal device by mistake from an external device.

(Embodiment 3)
Next, Embodiment 3 of the present invention will be described with reference to FIGS. The contactless charging system 3 according to the present embodiment has the above-described structure in which a user can easily identify an area where the mobile terminal 30 and the PC 50 can communicate on the contactless charging stand 10. It is different from each embodiment. 10 to 12, the same components as those in the first and second embodiments are denoted by the same reference numerals, and detailed description thereof is omitted.

  As shown in FIG. 10, the contactless charging stand 10 of the present embodiment includes a communication placement unit 20. In the present embodiment, as an example, two mobile terminals 30 (30d, 30e) are placed on the contactless charging stand 10, and the mobile terminal 30d is placed on the communication placement unit 20. . In the example of the present embodiment, the mobile terminal 30d is communicating with the PC 50, and the LED light emitting unit 31d is lit. Moreover, the LED light emission part 31e of the portable terminal 30e which is not mounted on the communication mounting part 20 is not lighted. In addition, the display 51 of the PC 50 displays a window of the communication application 60 that is activated to control communication in this embodiment. Accordingly, the user can easily identify that the mobile terminal 30d is communicating with the PC 50. The operation in the present embodiment will be described with reference to a flowchart in the fourth embodiment described later.

  As shown in the block diagram of FIG. 11, the contactless charging stand 10, the portable terminal 30, and the PC 50 are basically the same as those in the first embodiment shown in FIG. However, in the contactless charging stand 10 of the present embodiment, communication is possible within the range of the communicable area 21 corresponding to the position of the communication unit 12 and the like. Therefore, the communication placement unit 20 is provided so that the user can place the portable terminal 30 within the range of the communicable region 21 by visual observation or the like.

  Specific examples of the communication placement unit 20 are indicated by the plane markers 22, the projections 23, and the recesses 24 described in FIGS. 12A is a rectangular label affixed to the contactless charging stand 10 in the illustrated example. For example, four L-shaped guides are printed on the surface of the flat sign 22, and communication can be performed by placing the mobile terminal 30 d within a rectangular range having the four guides as vertices. ing. The plane mark 22 may be paint, for example. The convex portions 23 illustrated in FIG. 12B are four convex guides having a shape corresponding to the L-shaped guide of the plane marker 22. Moreover, as shown in FIG.12 (c), it is good also as identifying by making the area | region which puts the portable terminal 30d into a position lower than the other mounting part of the non-contact charging stand 10. FIG.

  In addition, the shape etc. of the plane label | marker 22, the convex part 23, and the recessed part 24 of Fig.12 (a)-(c) can be made into arbitrary shapes so that a user can recognize. Further, although not shown in FIG. 12 for simplification of illustration, it is a matter of course that characters or the like indicating the communication mounting unit 20 may be provided on the contactless charging stand 10.

  As described above, in this embodiment, the position (area) where communication is possible in the contactless charging apparatus is designed to be identifiable. For example, according to the configuration shown in FIGS. 12A to 12C, the user can easily determine the communicable area visually. As described above, according to the present embodiment, it is possible to prevent communication from being appropriately performed by placing the terminal device in a position where it is difficult for the user to communicate on the contactless charging device.

(Embodiment 4)
Next, a fourth embodiment of the present invention will be described with reference to FIGS. In the description of FIGS. 13 and 14, the same components as those in Embodiments 1 to 3 are denoted by the same reference numerals, and detailed description thereof is omitted.

  The physical configuration and block diagram of the contactless charging system 4 according to the present embodiment are the same as the contactless charging system 3 of the third embodiment. In the present embodiment, the fact that the mobile terminal 30 and the PC 50 are communicating is displayed on the display 32d of the mobile terminal 30d, and is not displayed on the display 32e of the mobile terminal 30e that is not placed in the communicable area 21. This is different from the third embodiment. In FIG. 13, the portion of the contactless charging stand 10 on which the mobile terminal 30 d is placed is displayed as the communicable area 21, but any of the arbitrary ones as described above with reference to FIGS. A specific configuration may be adopted.

  Hereinafter, the operation of the contactless charging system 4 will be described with reference to the flowchart of FIG. The operation described below is basically the same as the operation of the contactless charging system 3 in the third embodiment. Differences between the contactless charging system 3 and the contactless charging system 4 will be separately described.

(Charging stand)
First, the CPU 16 of the contactless charging stand 10 makes a communication request to the portable terminal 30 (step S120), and then performs a process of establishing communication with the portable terminal 30 according to a signal from the portable terminal 30 (step S130). The processing in steps S120 and S130 is the same as the processing in the first embodiment shown in FIG.

  Thereafter, the CPU 16 monitors the communication state between the contactless charging stand 10 and the portable terminal 30 (step S170), and determines whether communication is maintained (step S180). If communication is maintained (step S180: Yes), the process returns to step S170 and repeats monitoring. When it is determined that the communication is not maintained, that is, the communication is disconnected (step S180: No), the process returns to step S120, and the CPU 16 repeats the communication request to the portable terminal 30.

(Mobile device)
First, the CPU 33 of the mobile terminal 30a waits for a communication request from the contactless charging stand 10 (step S320). This process is the same as that of the first embodiment shown in FIG. Subsequently, the CPU 33 performs communication establishment processing with the contactless charging stand 10 (step S321), and determines whether communication is established (step S322). If there is no communication request (step S120) from the portable terminal 30 in step S320, communication is not established (step S322: No), and the process returns to step S320 and repeats waiting for a communication request.

  If there is a communication request from the portable terminal 30, communication is established by the process of step S321 (step S322: Yes), and then the CPU 33 transmits a signal indicating that communication is established to the contactless charging stand 10 (step). S330). This process is the same as that of the first embodiment shown in FIG.

  Subsequently, the CPU 33 displays that communication has been established on the display 32d of the portable terminal 30d (step S351). By this processing, as shown in FIG. 13, for example, a message “Communication with PC” is displayed on the display 32d. In the third embodiment, the LED light emitting unit 31d of the mobile terminal 30d is turned on by the process of step S351 as shown in FIG.

  Subsequently, the CPU 33 monitors the communication state between the portable terminal 30 and the contactless charging stand 10 (step S361), and determines whether communication is maintained (step S362). When communication is maintained (step S362: Yes), the process returns to step S361 and repeats monitoring.

  When it is determined that the communication between the portable terminal 30 and the contactless charging stand 10 is not maintained, that is, the communication is disconnected (step S362: No), the CPU 33 turns off the display 32d on which the message is displayed ( Step S371). In the third embodiment, in step S371, the CPU 33 turns off the LED light emitting unit 31d that has been turned on. Thus, a series of communication processes in the mobile terminal 30 is completed.

  As described above, in this embodiment, when a terminal device is installed at a communicable position, a control signal for causing the terminal device to display that communication is possible is transmitted. Thereby, the user can easily understand that the terminal device that performs the display can communicate. Therefore, according to the present embodiment, communication between the terminal device and the charging stand or the external device can be performed more reliably.

(Embodiment 5)
Next, a fifth embodiment of the present invention will be described with reference to FIGS. 15 and 16. In the description of FIGS. 15 and 16, the same components as those in the first to fourth embodiments are denoted by the same reference numerals, and detailed description thereof is omitted.

  The physical configuration and block diagram of the contactless charging system 5 according to the present embodiment are the same as those of the contactless charging system 2 of the second embodiment. In the present embodiment, in addition to the fact that the mobile terminal 30 and the PC 50 are communicating, the mobile terminal 30 displays on the mobile terminal 30 that the communication application 60 activated on the PC 50 is selected by the user. Is different.

  Hereinafter, the operation of the present embodiment will be described with reference to FIGS. 15 and 16. In the example of FIG. 15, three portable terminals 30 a to 30 c are placed on the contactless charging stand 10. The mobile terminals 30a to 30c can be charged at the illustrated positions. Among the mobile terminals 30 a to 30 c, the mobile terminals 30 a and 30 b are communicating with the PC 50 via the contactless charging stand 10. This communication is performed in the same manner as in the second embodiment. As shown in FIG. 15, the display 32a of the mobile terminal 30a and the display 32b of the mobile terminal 30b have a predetermined display (described later) indicating that communication is in progress, and the PC 50 has a communication application corresponding to the mobile terminal 30a. 60a and the communication application 60b corresponding to the portable terminal 30b are activated.

  In the present embodiment, in addition to the above, the user selects, for example, the communication application 60b on the display 51 of the PC 50. Specifically, as shown in FIG. 16A, the window of the communication application 60b pointed to by the cursor 61 on the display 51 is selected (focused) by the pointing device (not shown) of the PC 50 operated by the user. Yes. At this time, as in the second embodiment shown in FIG. 6, for example, “terminal communication: connection No. 1” is displayed in the communication application 60a, and “terminal communication: connection No. 2” is displayed in the communication application 60b. Is displayed.

  In this state, a display as shown in FIG. 16B is made on the portable terminal 30 side. In the mobile terminal 30a, for example, “PC communication: connection No. 1” is displayed on the display 32a to indicate that the PC 50 is communicating, and in the mobile terminal 30b, for example, “PC communication: connection No. 2” is displayed. Is displayed. Furthermore, in the portable terminal 30b corresponding to the communication application 60b selected by the user, the LED light emitting unit 31b emits light, indicating that the communication application 60b is focused. In addition, the LED light emission part 31a of the portable terminal 30a corresponding to the communication application 60a which has not been selected is turned off.

  As described above, in the present embodiment, the terminal device that is communicating is selected on the side of the communication device that is mainly operated by the user during communication between the terminal device and the communication device (for example, PC), and is in the selected state. The terminal device is caused to display a message indicating Accordingly, the terminal device selected by the user in the communication device can be easily identified on the contactless charging device. Therefore, according to the present embodiment, it is possible to further reduce the possibility of a user's erroneous operation even when a plurality of terminal devices are communicating.

(Embodiment 6)
Next, a sixth embodiment of the present invention will be described with reference to FIGS. The contactless charging system 6 according to this embodiment is different from the above-described embodiments in that a display indicating that the mobile terminal 30 and the PC 50 are communicating is performed on the contactless charging stand 10. In addition, in description of FIGS. 17-20, the same referential mark is attached | subjected to the same structure as Embodiment 1-5, and the detailed description is abbreviate | omitted.

  As shown in FIGS. 17 and 18, in the example of the present embodiment, the contactless charging stand 10 is provided with three communication placement units 20. Each of the communication placement units 20 can have the same configuration as that of the third embodiment, and has a size such that one mobile terminal 30 is placed. In addition, three displays 25 (25 a to 25 c) corresponding to the communication placement units 20 are provided on the contactless charging stand 10. In the present embodiment, the display 25 is configured as, for example, three liquid crystal panels, and can display characters, symbols, graphics, and the like based on instructions from the CPU 16. Other configurations are the same as those in the first and second embodiments. In addition, the display 25 is good also as using arbitrary display methods, such as a LED element other than the example of this embodiment.

  Next, the operation of the contactless charging system 6 according to the present embodiment will be described, particularly with respect to the differences from the second embodiment.

(1) When the charging stand manages the PC-terminal connection number The operation will be described with reference to the flowchart of FIG.
In the flowchart of the second embodiment shown in FIG. 7, the mobile terminal 30 receives the connection number from the contactless charging stand 10 (step S380), and displays the connection number on the display 32 (step S390). On the other hand, in the flowchart shown in FIG. 19, the following processing is performed in the contactless charging stand 10.

  As shown in FIG. 19, after the connection state registration process (step S150) in the contactless charging stand 10 described above, the CPU 16 of the contactless charging stand 10 is similar to the above-described step S160, but only the PC 50 has a connection number. Is transmitted (step S162). Subsequently, the CPU 16 displays a predetermined display on the display 25a to 25c corresponding to the portable terminal 30 that has established communication with the PC 50 in step S141 (step S165). In the present embodiment, for example, “PC communication: connection No. 1” is displayed on the display 25a corresponding to the mobile terminal 30a, and “PC communication: connection No. 2” is displayed on the display 25b corresponding to the mobile terminal 30b. Display. The display is preferably such that the correspondence between the mobile terminal 30 and the communication application 60 can be easily identified, and may be a unique display other than the serial number as in the present embodiment.

(2) When the PC application manages the PC-terminal connection number The operation will be described with reference to the flowchart of FIG.
In another flowchart of the second embodiment shown in FIG. 9, the mobile terminal 30 receives the connection number from the contactless charging stand 10 (step S380), and displays the connection number on the display 32 (step S390). On the other hand, in the flowchart shown in FIG. 20, the following processing is performed in the contactless charging stand 10.

  As shown in FIG. 20, after the above-described communication connection processing between the PC and the terminal in the contactless charging stand 10 (step S141), the CPU 16 of the contactless charging stand 10 transmits the connection transmitted from the PC 50 by the processing of step S541. The number is received (step S163). At this time, unlike the processing of step S161 in FIG. 9, the transfer of the connection number to the portable terminal 30 is not performed. Subsequently, the CPU 16 displays a predetermined display on the display 25a to 25c corresponding to the portable terminal 30 that has established communication with the PC 50 in step S141 (step S165). This process is the same as in the example of FIG.

  As described above, in the present embodiment, the fact that the terminal device and the external device are communicating is displayed on the contactless charging stand in correspondence with the terminal device. Thereby, for example, high discrimination can be obtained for various terminal devices corresponding to the same contactless charging and communication but having different display positions and the like. In the above description, the display 25 is exemplified as the display similar to the display 32 as in the second embodiment. In addition, it is good also as setting it as the light emission display similar to the LED light emission part 31 like Embodiment 1. FIG. Of course, it may be combined with either or both of the LED light emitting unit 31 and the display 32.

  The present invention is not limited to the above-described embodiments and specific examples, and various modifications and applications are possible.

  In addition to a mobile phone, the present invention provides various communication devices including a battery for power supply and a communication means such as a camera, a PDA (Personal Digital Assistant), a notebook PC, a wearable PC, a calculator, and an electronic dictionary. It can be applied to a terminal device.

  In the above-described embodiment, the light emitting unit 31 of the portable terminal 30 is described as emitting light. However, the light emitting method may be any method such as EL (electroluminescence) in addition to the LED. Moreover, it is good also as performing the light emission function equivalent to the LED light emission part 31 as a form of the display of the display 32, for example.

  In addition, a program for executing the processing based on the above-described flowchart is stored in a disk device or the like included in a server device on a communication network such as the Internet, and for example, the program is superimposed on a carrier wave and downloaded to a computer. Good. Furthermore, the above-described processing can also be achieved by starting and executing a program while transferring it via a communication network.

  When the above functions are realized by an OS (Operating System) sharing or by cooperation between the OS and an application, only the part other than the OS may be stored in a medium and distributed. You may download it.

  The above-described contactless charging method uses so-called electromagnetic induction, but other than this, for example, a method using transmission / reception of radio waves or a method using magnetic resonance may be used. In these cases, among the configurations shown in FIG. 2, for example, the coil driving unit 17 and the power feeding coil 18 of the contactless charging stand 10, and the charging control unit 36, the rectifying unit 37, and the power receiving coil 39 of the portable terminal 30 are connected to each other. It can be set as the structure according to.

  In addition, the configuration included in the contactless charging stand 10 or the portable terminal 30 according to the above embodiment may be realized by software processing of the CPU 16 or the CPU 33 as well as by hardware. In this case, for example, a program for realizing the above-described processes may be stored in the ROM of the memory 15 or the memory 35, and the CPU 16 or the CPU 33 may execute such a program.

  In addition, the program can be provided by any method. For example, the program can be provided as a data signal embodied on a carrier wave via a communication medium such as the Internet, or stored in a recording medium such as a memory card. May be distributed.

  In the above-described embodiment, the communication application 60 is displayed as a window for each portable terminal 30 to be communicated. However, for example, a list of the portable terminals 30 to be communicated is displayed in one window. I just need it.

  DESCRIPTION OF SYMBOLS 1-6 ... Contactless charging system, 10 ... Contactless charging stand, 11 ... Power supply cable, 12 ... Communication part, 13 ... PC communication part, 14 ... Communication control part, 15 ... Memory, 16 ... CPU, 17 ... Coil drive , 18 ... feeding coil, 19 ... power supply circuit, 20 ... communication mounting part, 21 ... communicable area, 22 ... plane sign, 23 ... convex part, 24 ... concave part, 25, 25a-c ... display, 30, 30a to e ... portable terminal, 31, 31a to e ... LED light emitting unit, 32, 32a to e ... display, 33 ... CPU, 34 ... communication unit, 35 ... memory, 36 ... charge control unit, 37 ... rectification unit, 38 ... Battery, 39 ... Receiving coil, 50 ... PC, 51 ... Display, 52 ... Communication unit, 53 ... Memory, 54 ... CPU, 60, 60a-b ... Communication application, 61 ... Cursor, 70 ... Communication cable

Claims (7)

A contactless charging device capable of charging a plurality of terminal devices,
Communication means for enabling at least one of the terminal devices to communicate with an external device in parallel with the charging;
The communication means transmits a control signal for identifiably indicating that the communication is being performed to the terminal device that is communicating, and when there are a plurality of the terminal devices that are communicating, Control means for transmitting a control signal for causing the terminal devices to display such that they can be distinguished from each other ;
A contactless charging apparatus comprising: The control means transmits a control signal for causing the external device that is a communication destination to display which terminal device can be identified when the terminal device in communication is plural. To
The contactless charging apparatus according to claim 1 . A predetermined chargeable area that can be charged when the terminal device is brought close to the terminal device;
The chargeable area includes a communicable area capable of communicating by the communication means in a part thereof,
The communicable area is formed so as to be visually distinguishable from the other chargeable areas.
The contactless charging apparatus according to claim 1 or 2 , characterized in that The chargeable area is a planar area on which the terminal device is placed,
The communicable area is formed in the chargeable area as a flat sign, a convex part or a concave part,
The contactless charging apparatus according to claim 3 . A communication terminal device that can be charged by a contactless charging device,
Communication means for communicating with an external device through the contactless charging device in parallel with the charging;
Display means for displaying communication information relating to communication by the communication means;
Control means for transmitting a control signal for causing the display means to display the communication means in an identifiable manner when communication is being performed by the communication means;
Information acquisition means for acquiring, from the contactless charging apparatus, communication identification information that can be distinguished from other communication terminal apparatuses when a plurality of the communication terminal apparatuses communicate with the external device by the communication means. ,
The control means includes the communication identification information in the control signal and transmits it to the display means,
The display means displays the communication information that can be visually distinguished from other communication terminal devices based on the control signal from the control means.
Communication terminal device comprising a call. A computer that controls a contactless charging device capable of charging a plurality of terminal devices,
Communication means for enabling at least one of the terminal devices to communicate with an external device in parallel with the charging;
The communication means transmits a control signal for identifiably indicating that the communication is being performed to the terminal device that is communicating, and when there are a plurality of the terminal devices that are communicating, Control means for transmitting a control signal for causing the terminal devices to display such that they can be distinguished from each other ;
A program characterized by functioning as A contactless charging system comprising: a communication terminal device; a contactless charging device capable of charging a plurality of the terminal devices; and a communication device communicating with one or a plurality of the terminal devices via the contactless charging device. And
The communication device
Display means for displaying the terminal device in communication in an identifiable manner;
Selecting means for selecting any one from one or a plurality of the terminal devices displayed on the display means according to a user instruction;
When there are a plurality of the terminal devices in communication, the terminal device selected by the selection means transmits a control signal for causing the terminal devices in communication to display each other so that they can be distinguished from each other. Control means for transmitting other control signals for causing the apparatus to display another identifiable display,
A contactless charging system characterized by that.

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