KR101405811B1 - Mobile terminal and apparatus for receiving wireless power and method for controlling power of wireless power receiver - Google Patents

Abstract

A mobile terminal for controlling a wireless power receiving apparatus that transmits power received from a wireless power transmission apparatus according to an exemplary embodiment of the present invention to a load includes a modem for receiving a call signal and transmitting a power control signal; And a power regulator for regulating power transmitted to the load according to the power regulation signal.

Description

TECHNICAL FIELD [0001] The present invention relates to a mobile terminal, a wireless power receiving apparatus, and a wireless power receiving apparatus. [0002] MOBILE TERMINAL AND APPARATUS FOR RECEIVING WIRELESS POWER AND METHOD FOR CONTROLLING POWER OF WIRELESS POWER RECEIVER [

The present invention relates to wireless power transmission techniques. More particularly, the present invention relates to a mobile terminal, a wireless power receiving apparatus, and a power adjusting method for a wireless power receiving apparatus for preventing a reception sensitivity from dropping when a mobile terminal enters a communication mode.

In the 1800s, electric motors and transformers using electromagnetic induction principles began to be used, and then radio waves and lasers were used to transmit the electric energy to the desired devices wirelessly. A method of transmitting electrical energy by radiating the same electromagnetic wave has also been attempted. Our electric toothbrushes and some wireless shavers are actually charged with electromagnetic induction. Electromagnetic induction is a phenomenon in which a voltage is induced and a current flows when a magnetic field is changed around a conductor. The electromagnetic induction method is rapidly commercialized mainly in small-sized devices, but there is a problem in that the transmission distance of electric power is short.

Up to now, the energy transmission system by radio system includes electromagnetic induction, self-resonance and remote transmission using short-wave radio frequency.

In recent years, among such wireless power transmission techniques, energy transmission using self resonance is widely used.

In the wireless power transmission system using self-resonance, since the electric signals formed on the transmission side and the reception side are wirelessly transmitted through the coil, the user can easily charge electronic devices such as portable devices.

Recently, the wireless power transmission system has been widely applied to mobile terminals such as mobile phones.

However, in the past, when a call signal is received during a wireless power transmission process in a mobile terminal, there is a problem that communication is disturbed by a magnetic field generated in a power transmission process and reception sensitivity is lowered.

An object of the present invention is to provide a power control method for a mobile terminal, a wireless power receiving apparatus, and a wireless power receiving apparatus, which adjusts power to be transmitted to a load when a mobile terminal receives a mid- do.

An object of the present invention is to provide a power control method for a mobile terminal, a wireless power receiving apparatus, and a wireless power receiving apparatus that cuts off power to be transmitted to a load when a mobile terminal receives a mid- do.

An object of the present invention is to provide a power control method for a mobile terminal, a wireless power receiving apparatus, and a wireless power receiving apparatus capable of resuming power to be transmitted to a load when the mobile terminal is in a communication mode and its receiving sensitivity is higher than a threshold sensitivity .

A mobile terminal for controlling a wireless power receiving apparatus that transmits power received from a wireless power transmission apparatus according to an exemplary embodiment of the present invention to a load includes a modem for detecting a call signal; And a power regulator for regulating power to be transmitted to the load, wherein the power regulator adjusts power to be transmitted to the load depending on whether the call signal is detected.

The modem generates a power control signal for controlling the power delivered to the load, and transmits the generated power control signal to the power control unit when the modem detects the reception of the call signal.

And the power control signal is a power cutoff signal that cuts off power transmitted to the load.

And a power management element for supplying power to the reception module required when the mobile terminal enters the communication mode.

The modem transmits an activation signal for maintaining the activation state of the power management element, and after receiving the activation signal, the power management element transmits a power control signal, which controls the power delivered to the load, To the mobile station.

And the power management element transmits the power control signal after supplying power to the receiving module after receiving the activation signal.

And the modem transmits an activation signal for maintaining the activation state of the power management element while transmitting a power control signal to the power control unit.

And the power regulator opens a switch included in the wireless power receiving apparatus to cut off power transmitted to the load.

And the power regulator short-circuits the switch included in the wireless power receiving apparatus to resume transmission of power to the load.

The mobile terminal further includes a reception sensitivity measuring unit measuring the reception sensitivity of the call when the mobile terminal enters the communication mode.

The modem transmits a power resume signal to the power regulator to resume power transmission to the load when the reception sensitivity is determined to be equal to or greater than the threshold sensitivity.

The mobile terminal may further include a wireless communication unit for communicating with the base station at predetermined intervals to receive the call signal.

The mobile terminal may further include the wireless power receiving apparatus.

And the wireless power receiving apparatus wirelessly receives power from the wireless power transmitting apparatus by electromagnetic induction.

Wherein the wireless power receiving apparatus comprises: a receiving resonant coil for receiving power from the transmitting resonant coil of the wireless power transmitting apparatus by self resonance; And a reception induction coil for receiving the received power by electromagnetic induction.

The wireless power receiving apparatus further includes a rectifying circuit for converting the AC power received from the wireless power transmitting apparatus into DC power and transmitting the DC power to the load.

A wireless power receiving apparatus for transmitting power received from a wireless power transmission apparatus wirelessly to a load of a mobile terminal according to another embodiment of the present invention includes: a receiving coil for wirelessly receiving AC power from the wireless power transmission apparatus; And a rectifier circuit for converting the received AC power into direct current power and delivering the direct current power to a load of the mobile terminal, wherein the rectifier circuit is configured to transmit power to the load of the mobile terminal according to whether the call signal is detected by the mobile terminal .

And the receiving coil receives AC power using electromagnetic induction from the radio power transmitting apparatus.

Wherein the reception coil comprises: a reception resonant coil for receiving AC power by self resonance from a transmission resonant coil of the wireless power transmission device; And a reception induction coil for receiving the received AC power by electromagnetic induction.

And the rectifier circuit interrupts the power to be transmitted to the load when the mobile terminal senses the call signal.

According to another aspect of the present invention, there is provided a power adjustment method of a wireless power receiving apparatus for transmitting power received from a wireless power transmission apparatus to a load of a mobile terminal, the method comprising: sensing whether a call signal is received; Receiving the call signal and transmitting a power control signal; And adjusting power transmitted to the load depending on whether the call signal is received or not.

The step of controlling the electric power transmitted to the load is a step of interrupting electric power transmitted to the load when reception of the call signal is detected.

The power control method of the wireless power receiving apparatus may further include measuring a reception sensitivity of a call when the mobile terminal enters the communication mode.

The power control method of the wireless power receiving apparatus may further include restarting power transmission to the load when the measured reception sensitivity is equal to or greater than the threshold sensitivity.

The power control method of the wireless power receiving apparatus may further include blocking power transmission to the load when the measured reception sensitivity is less than the threshold sensitivity.

A computer readable recording medium on which a program for controlling power of a wireless power receiving apparatus for transmitting power received from a wireless power transmission apparatus according to another embodiment of the present invention to a load of a mobile terminal is recorded, Detecting whether or not a signal is received; And generating a signal for controlling power to be transmitted to the load according to whether or not the call signal is received.

The step of generating a signal for controlling power transmitted to the load is a step of generating a signal for shutting off power transmitted to the load when the reception of the call signal is detected.

According to the embodiment of the present invention, the following effects can be obtained.

First, when the mobile terminal receives a middle call signal while receiving power wirelessly, it can control the power to be transmitted to the load so as not to lower the reception sensitivity.

Second, when the mobile terminal receives a mid-call signal which is being received by radio, the power to be transmitted to the load may be cut off and the reception sensitivity may not be lowered.

The present invention resumes the power to be transmitted to the load when the mobile terminal enters the communication mode and the reception sensitivity is higher than the threshold sensitivity, so that the mobile terminal can be charged even when the mobile terminal is in a communication state.

Meanwhile, various other effects will be directly or implicitly disclosed in the detailed description according to the embodiment of the present invention to be described later.

1 is a diagram for explaining a wireless power transmission system according to an embodiment of the present invention.
2 is an equivalent circuit diagram of a transmission induction coil 210 according to an embodiment of the present invention.
3 is an equivalent circuit diagram of a power source 100 and a wireless power transmission device 200, in accordance with an embodiment of the invention.
4 is an equivalent circuit diagram of a wireless power receiving apparatus 300 according to an embodiment of the present invention.
5 is a block diagram of a mobile terminal 10 according to a first embodiment of the present invention.
6 is a block diagram of a mobile terminal 10 according to a second embodiment of the present invention.
7 is a flowchart of a power transmission method of the mobile terminal 10 according to an embodiment of the present invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings, which will be easily understood by those skilled in the art.

1 is a diagram for explaining a wireless power transmission system according to an embodiment of the present invention.

Referring to FIG. 1, a wireless power transmission system may include a power source 100, a wireless power transmission device 200, and a wireless power reception device 300.

The wireless power transmission apparatus 200 may include a transmission induction coil 210 and a transmission resonance coil 220.

The wireless power receiving apparatus 300 may include a receiving resonant coil 310, a receiving induction coil 320, a rectifying circuit 330, and a load 340.

Both ends of the power source 100 are connected to both ends of the transmission induction coil 210.

The transmission resonant coil 220 may be disposed at a certain distance from the transmission induction coil 210.

The reception resonant coil 310 may be disposed at a certain distance from the reception induction coil 320. [

Both ends of the reception induction coil 320 are connected to both ends of the rectifier circuit 330 and the load 340 is connected to both ends of the rectifier circuit 330. In one embodiment, the load 340 is not included in the wireless power receiving apparatus 300 and may be configured separately.

The power generated by the power source 100 is transmitted to the wireless power transmission apparatus 200 and the power transmitted to the wireless power transmission apparatus 200 is transmitted to the wireless power transmission apparatus 200 And transmitted to the wireless power receiving apparatus 300 having the same resonance frequency value.

More specifically, the power transmission process will be described below.

The power source 100 may be an alternating current power source providing alternating current power of a predetermined frequency.

An alternating current flows in the transmission induction coil 210 by the electric power supplied from the electric power source 100. When an alternating current flows in the transmission induction coil 210, an alternating current is also induced in the transmission resonance coil 220 that is physically spaced apart by electromagnetic induction. Thereafter, the power transmitted to the transmission resonant coil 220 is transmitted to the wireless power receiving apparatus 300 which forms a resonant circuit with the wireless power transmitting apparatus 200 by self-resonance.

Power can be transmitted by self resonance between two LC circuits whose impedance is matched. Such power transmission by self-resonance enables power transmission to a higher efficiency, farther than the power transmission by electromagnetic induction.

The reception resonance coil 310 receives electric power from the transmission resonance coil 220 by self resonance. An AC current flows in the reception resonant coil 310 due to the received power. The power transmitted to the reception resonance coil 310 is transmitted to the reception induction coil 320 by electromagnetic induction. The power delivered to the reception induction coil 320 is rectified through the rectifier circuit 330 and delivered to the load 340.

2 is an equivalent circuit diagram of a transmission induction coil 210 according to an embodiment of the present invention.

As shown in FIG. 2, the transmission induction coil 210 may be formed of an inductor L1 and a capacitor C1, thereby constituting a circuit having an appropriate inductance and a capacitance value.

The transmission induction coil 210 may be constituted by an equivalent circuit in which both ends of the inductor L1 are connected to both ends of the capacitor C1. That is, the transmission induction coil 210 may be composed of an equivalent circuit in which the inductor L1 and the capacitor C1 are connected in parallel.

The capacitor C1 may be a variable capacitor, and an impedance matching may be performed by adjusting the variable capacitor. The equivalent circuits of the transmission resonant coil 220, the reception resonant coil 310, and the reception induction coil 320 may be the same as those shown in Fig.

3 is an equivalent circuit diagram of a power source 100 and a wireless power transmission device 200, in accordance with an embodiment of the invention.

3, the transmission induction coil 210 and the transmission resonance coil 220 may include inductors L1 and L2 and capacitors C1 and C2 having a predetermined inductance value and a capacitance value, respectively.

4 is an equivalent circuit diagram of a wireless power receiving apparatus 300 according to an embodiment of the present invention.

4, the reception resonant coil 310 and the reception induction coil 320 may include inductors L3 and L4 and capacitors C3 and C4 having a predetermined inductance value and a capacitance value, respectively.

The rectifier circuit 330 may include a diode D1 and a rectification capacitor C5. The rectifier circuit 330 may convert AC power into DC power and output the AC power. The rectifier circuit 330 may include a rectifier and a smoothing circuit. A silicon rectifier may be used as the rectifier of the rectifier. The smoothing circuit smoothes the rectified output.

The load 400 may be any rechargeable battery or device requiring direct current power. The wireless power receiving apparatus 300 may be mounted on an electronic apparatus requiring power such as a mobile phone, a notebook computer, and a mouse.

5 is a block diagram of a mobile terminal 10 according to a first embodiment of the present invention.

5, the mobile terminal 10 includes a wireless communication unit 11, a modem 12, a power management element 13, a reception module 14, a reception sensitivity measurement unit 15, a power control unit 16, , And a wireless power receiving apparatus (300).

The wireless communication unit 11 can receive a call signal for the mobile terminal 10 to enter the communication mode from the base station.

The wireless communication unit 11 may include one or more modules for enabling wireless communication between the mobile terminal 10 and the wireless communication system or between the mobile terminal 10 and the network in which the mobile terminal 10 is located. In one embodiment, the wireless communication unit 11 may include a mobile communication module and a local communication module.

The mobile communication module transmits and receives radio signals to and from at least one of a base station, an external terminal, and a server on a mobile communication network.

The wireless signal may include various types of data depending on a voice call signal, a video call signal or a text / multimedia message transmission / reception.

The short-range communication module is a module for short-range communication.

Bluetooth, Radio Frequency Identification (RFID), Infrared Data Association (IRDA), Ultra Wideband (UWB), ZigBee, NFC (Near Field Communication), etc. can be used as short range communication technology have.

When the call signal is received, the modem 12 senses the reception of the call signal, generates a wake up signal, and transmits the generated activation signal to the power management element 13. [ Here, the activation signal may mean a signal for causing the power management element 13 to supply power to the reception module 14 so that the mobile terminal 10 normally maintains the communication mode.

The modem 12 may generate the power-off signal at the same time as generating the activation signal, and may transmit the generated power-off signal to the power control unit 16.

In one embodiment, the power cutoff signal may refer to a signal that cuts off the power that the wireless power receiving device delivers to the load.

The modem 12 may generate a power resume signal. Here, the power resumption signal may mean a signal that causes the wireless power receiving apparatus to transmit power to the load after the power that the wireless power receiving apparatus transmits to the load is cut off. In one embodiment, the power resume signal may be a signal that is generated when the reception sensitivity described below in the talk mode is greater than the threshold sensitivity.

The power management element 13 may receive an activation signal from the modem 12, enter an activation state, and then supply power to the reception module 14. [

That is, the power management element 13 can supply power to the reception module 14 necessary for starting and maintaining the communication mode when the mobile terminal 10 enters the communication mode.

In one embodiment, the receiving module 14 may include a media input, a user input, a sensing unit, and an output power amplifier (PA).

The media input unit is for inputting audio or video signals, and may include a camera, a microphone, and the like.

The user input unit may receive input data for controlling the operation of the mobile terminal 10 from a user.

The sensing unit may sense the current state of the mobile terminal 10 such as the open / close state of the mobile terminal 10, the position of the mobile terminal 10, the presence of the user, the orientation of the mobile terminal 10, And may generate a sensing signal for controlling the operation of the mobile terminal 10.

The output unit generates an output related to the user's visual, auditory or tactile sense. The output unit may include a display unit, an audio output module, an alarm unit, and the like.

The display unit displays (outputs) information processed by the mobile terminal 10 (100). For example, when the mobile terminal 10 is in the call mode, a UI (User Interface) or GUI (Graphic User Interface) associated with a call is displayed.

The sound output module can receive audio data received from a communication unit or stored in a memory in a call signal reception mode, a call mode or a recording mode, a voice recognition mode, a broadcast reception mode, and the like. The sound output module may include a receiver, a speaker, a buzzer, and the like.

The alarm unit outputs a signal for notifying the occurrence of an event of the mobile terminal 10. Examples of the events that occur in the mobile terminal 10 include call signal reception, message reception, key signal input, touch input, and the like.

A power amplifier (PA) amplifies the power received from the power management element 13 and can transmit power to components such as the media input unit, the user input unit, the sensing unit, and the output unit.

The reception sensitivity measuring unit 15 may measure the reception sensitivity of the call when the mobile terminal 10 enters the communication mode and may transmit the measured reception sensitivity to the modem 12. [ The modem 12 may transmit the power resume signal to the power regulator 16 when the received received sensitivity is equal to or higher than the threshold sensitivity.

In one embodiment, the threshold sensitivity may be the minimum sensitivity required for the mobile terminal 10 to maintain normal call mode upon entry into the call mode, which may be the minimum sensitivity that the user will not feel uncomfortable with. The threshold sensitivity may be set to a predetermined value in the setting of the user or the manufacture of the mobile terminal 10. [

The power regulator 16 may receive a power shutdown signal or a power resume signal from the modem 12 and may intercept or resume the power that the wireless power receiving apparatus 300 transmits to the load 400. [

When the power control unit 16 receives the power cutoff signal from the modem 12, the power control unit 16 controls the rectifying circuit 330 to cut off the power transmitted to the load 400. The rectifier circuit 330 may include a switch connected in series to the rectifier and the power regulator 16 may open the switch to shut off the power delivered to the load 400 by sending an open signal to the switch. In one embodiment, the switch may also be included in the receive coil 350, not the rectifier, and the power adjuster 16 may transmit an open signal to the switch included in the receive coil 350, .

The power regulator 16 may also control the wireless power receiving apparatus 300 by using various methods to shut off power transmitted to the load 400. [

When the mobile terminal 10 receives a call signal as described above, power transmitted from the wireless power transmission apparatus 200 to the load 400 via the wireless power reception apparatus 300 may be cut off, The terminal 10 does not lower the reception sensitivity when entering the communication mode, thereby preventing the user from causing discomfort.

The wireless power receiving apparatus 300 is detachable inside the mobile terminal 10.

The wireless power receiving apparatus 300 can wirelessly receive power from the wireless power transmitting apparatus 200 and transmit it to the load 400. [

The load 400 may refer to the battery of the mobile terminal 10.

The wireless power receiving apparatus 300 may include a receiving coil 350, a rectifying circuit 330, and the like.

The receiving coil 350 may include the receiving resonant coil 310 and the receiving induction coil 320 shown in FIG.

When the wireless power receiving apparatus 300 receives power by electromagnetic induction from the wireless power transmitting apparatus 200, the receiving resonant coil 320 may not be included. At this time, the reception induction coil receives the electric power by electromagnetic induction from the transmission induction coil of the wireless power transmission device 200.

When the wireless power receiving apparatus 300 receives power using the self resonance from the wireless power transmitting apparatus 200, the receiving resonant coil receives electric power by self resonance from the transmitting resonant coil of the wireless power transmitting apparatus 200 . The reception induction coil is coupled to the reception resonance coil to receive power by electromagnetic induction, and the received power can be transmitted to the load 400 via the rectifying circuit 330

When the call signal is received and the power is continuously transmitted to the load 400 of the wireless power receiving apparatus 300 when entering the communication mode, there may occur a problem that the reception sensitivity of the call drops.

Therefore, the communication unit generates a power cutoff signal, and transmits the generated power cutoff signal to the power adjuster 16. The power control unit 16 can block the electric power transmitted to the load 400 by the wireless power receiving apparatus 300 by receiving the power cutoff signal and thereby prevent the decrease of the call reception sensitivity that may occur when entering into the call mode .

In addition, when the reception sensitivity in the call mode is equal to or greater than the threshold reception sensitivity, the power control unit 16 receives the power resume signal, and the wireless power receiving apparatus 300 can resume power transmission to the load 400, The battery of the mobile terminal 10 can be charged even in the mode. As a result, it is possible to solve the problem that the call is not advanced due to the shortage of the battery in the call mode.

6 is a block diagram of a mobile terminal 10 according to a second embodiment of the present invention.

5, the mobile terminal 10 includes a wireless communication unit 11, a modem 12, a power management element 13, a reception sensitivity measurement unit 15, a power control unit 16, , And a wireless power receiving apparatus (300).

The wireless communication unit 11, the reception sensitivity measuring unit 15, the receiving module 14, the power adjusting unit 16, and the wireless power receiving apparatus 300 are the same as those described in FIG.

When a call signal is received, the modem 12 can generate a wake up signal and send the generated activation signal to the power management element 13. [ Here, the activation signal may mean a signal for causing the power management element 13 to supply power to the reception module 14 so that the mobile terminal 10 normally maintains the communication mode.

That is, the power management element 13 can supply power to the reception module 14 necessary for starting and maintaining the communication mode when the mobile terminal 10 enters the communication mode.

The power management element 13 receives an active signal from the modem 12 and enters an active state. Thereafter, the power management element 13 generates a power cutoff signal and sends a power cutoff signal to the power adjuster 16 before supplying power to the receiving module 14. [ In one embodiment, the power cutoff signal may refer to a signal that causes the wireless power receiving apparatus 300 to cut off the power transmitted to the load 400.

Thereafter, the power management element 13 supplies power to the reception module 14. That is, the power control unit 16 cuts off the power transmitted from the wireless power receiving apparatus 300 to the load 400 before the power management element 13 supplies power to the receiving module 14, It is possible to maintain the state of the apparatus. More specifically, the power regulator 16 may block the power that the wireless power receiving apparatus 300 transmits to the load 400 before the power management element 13 supplies power to the receiving module 14, The reception sensitivity is prevented from being lowered by the magnetic field generated during power transmission between the power transmission apparatus 200 and the wireless power reception apparatus 300. As a result, the reception sensitivity can be maintained in an optimal state.

The receiving module 14 has the same contents as described in FIG.

7 is a flowchart of a power transmission method of the mobile terminal 10 according to an embodiment of the present invention.

The mobile terminal 10 may include all the configurations described in FIG.

First, the mobile terminal 10 is in an activation mode in which it does not receive a call signal (S101).

Thereafter, the radio communication unit 11 confirms whether it receives the call signal (S103). In one embodiment, the wireless communication unit 11 communicates with the repeater at a predetermined period, and can confirm whether a call signal is received.

When the call signal is received, the modem 12 generates an activation signal and a power cutoff signal, and transmits the generated activation signal to the power management element 13, and the generated power cutoff signal is supplied to the power adjuster 16 (S105).

If the call signal is not received, the mobile terminal 10 remains in the inactive mode.

The power control unit 16 receives the power cutoff signal and cuts off the power that the wireless power receiving apparatus 300 transmits to the load 400 (S107).

When the power shutoff signal is received from the modem 12, the power regulator 16 controls the rectifier circuit 330 to shut off the power transmitted to the load 400.

The rectifier circuit 330 may include a switch connected in series to the rectifier and the power regulator 16 may open the switch to shut off the power delivered to the load 400 by sending an open signal to the switch.

In one embodiment, the switch may also be included in the receive coil 350, not the rectifier, and the power adjuster 16 may transmit an open signal to the switch included in the receive coil 350, .

When the mobile terminal 10 receives a call signal as described above, power transmitted from the wireless power transmission apparatus 200 to the load 400 via the wireless power reception apparatus 300 may be cut off, The terminal 10 does not lower the reception sensitivity when entering the communication mode, thereby preventing the user from causing discomfort.

Thereafter, the reception sensitivity measuring unit 15 measures reception sensitivity in the communication mode state (S109).

The modem 12 determines whether the measured reception sensitivity is equal to or higher than the threshold sensitivity (S111).

If the received sensitivity is equal to or higher than the threshold sensitivity, the modem 12 generates a power resume signal and transmits the generated power resume signal to the power regulator 16 (S113).

If the received received sensitivity is less than the critical sensitivity, the process returns to step S107 to maintain the state where the power is cut off to the load 400. [

In one embodiment, the threshold sensitivity may be the minimum sensitivity required for the mobile terminal 10 to maintain normal call mode upon entry into the call mode, which may be the minimum sensitivity that the user will not feel uncomfortable with. The threshold sensitivity may be set to a predetermined value in the setting of the user or the manufacture of the mobile terminal 10. [

Here, the power resumption signal is a signal for causing the wireless power receiving apparatus 300 to transmit power to the load 400 after the power transmitted from the wireless power receiving apparatus 300 to the load 400 is cut off .

The power regulator 16 receives the power resume signal and controls the wireless power receiving apparatus 300 to resume transmission of power to the load 400 (S115). The power regulator 16 may control the rectifier circuit 330 to resume the power delivered to the load 400. [ The rectifier circuit 330 may include a switch in series with the rectifier and the power regulator 16 may short-circuit the switch by sending a short signal to the switch to resume transmission of power to the load 400. In one embodiment, the switch may also be included in the receive coil 350 and not the rectifier, and the power adjuster 16 may transmit a short signal to the switch included in the receive coil 350 to transmit power to the load 400 It may be resumed.

Thereafter, the radio communication unit 11 does not receive the call signal and confirms whether the call mode is ended (S117).

If the communication mode is ended, the process returns to step S101 and the mobile terminal 10 returns to the inactivation mode. If the communication mode is maintained, the process returns to step S109.

The method according to the present invention may be implemented as a program for execution on a computer and stored in a computer-readable recording medium. Examples of the computer-readable recording medium include a ROM, a RAM, a CD- , A floppy disk, an optical data storage device, and the like, and may also be implemented in the form of a carrier wave (for example, transmission over the Internet).

The computer readable recording medium may be distributed over a networked computer system so that computer readable code can be stored and executed in a distributed manner. And, functional programs, codes and code segments for implementing the above method can be easily inferred by programmers of the technical field to which the present invention belongs.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, It should be understood that various modifications may be made by those skilled in the art without departing from the spirit and scope of the present invention.

10: mobile terminal
11:
12: Modem
13: Power management element
14: receiving module
15: Receive sensitivity measuring section
16:
100: Power source
200: Wireless power transmitting device
210: transmission induction coil
220: transmission resonance coil
300: Wireless power receiving device
310: Receive resonant coil
320: reception induction coil
330: rectifier circuit
400: Load

Claims (27)

A modem for generating a power control signal according to receipt of a call signal; And
And a wireless power receiving device for supplying power received from the wireless power transmission device wirelessly to the load and for controlling switching of the power supply to the load in response to the power control signal from the modem. A modem for detecting whether a call signal is received;
A power management element for generating a power control signal according to receipt of the call signal; And
And a wireless power receiving device for supplying power received from the wireless power transmission device wirelessly to the load and switching control of the power supply to the load in response to the power control signal from the power management device. 3. The method according to claim 1 or 2,
Wherein the call signal is received from one of a base station, another mobile terminal and a server. 3. The method according to claim 1 or 2,
The wireless power receiving apparatus includes:
A receiving coil for receiving the power from the wireless power transmission device;
A rectifying unit for rectifying the power received from the receiving coil; And
Further comprising a switch connected between the receiving coil and the rectifying part or between the rectifying part and the load for switching control of the power supply. 5. The method of claim 4,
The power regulation signal is a power cutoff signal,
And the switch is opened in response to the power cutoff signal to cut off the supply of the power to the load. 5. The method of claim 4,
Wherein the modem generates a power resume signal when the call reception sensitivity is equal to or greater than a threshold value. The method according to claim 6,
And the switch is short-circuited in response to the power resume signal so that the power is supplied to the load. 5. The method of claim 4,
Wherein the receiving coil receives the power using one of an electromagnetic induction method and a self resonance method. A wireless power receiving apparatus for transmitting power received from a wireless power transmission apparatus wirelessly to a load in a mobile terminal,
A receiving coil for receiving the power from the wireless power transmission device;
A rectifying unit for rectifying the power received from the receiving coil; And
And a switch connected between the receiving coil and the rectifying unit or between the rectifying unit and the load for switching control of the power supply to the load in response to a power regulation signal generated in response to receipt of a call signal from the mobile terminal Wireless power receiving device. 10. The method of claim 9,
Wherein the call signal is received from one of a base station, another mobile terminal and a server. 10. The method of claim 9,
The power regulation signal is a power cutoff signal,
And the switch is opened in response to the power cutoff signal to cut off the supply of the power to the load. 10. The method of claim 9,
The modem of the mobile terminal generates a power resume signal when the call reception sensitivity is equal to or greater than a threshold value,
And the switch is short-circuited in response to the power resume signal so that the power is supplied to the load. 10. The method of claim 9,
Wherein the receiving coil receives the power using one of an electromagnetic induction method and a self resonance method. A power adjusting method of a wireless power receiving apparatus for transmitting power received from a wireless power transmitting apparatus wirelessly to a load in a mobile terminal,
Detecting whether a call signal is received;
Generating a power down signal when the call signal is received; And
And blocking the power supply to the load in response to the power shutdown signal. 15. The method of claim 14,
Generating a power resume signal when the call reception sensitivity of the mobile terminal is equal to or greater than a threshold value; And
And resuming the power supply to the load in response to the power resume signal. A computer-readable recording medium storing a program for controlling power of a wireless power receiving apparatus for transmitting power received from a wireless power transmitting apparatus to a load of a mobile terminal,
Detecting whether a call signal is received;
Generating a power down signal when the call signal is received; And
And disconnecting the power supply to the load in response to the power shutdown signal. 17. The method of claim 16,
Generating a power resume signal when the call reception sensitivity of the mobile terminal is equal to or greater than a threshold value; And
And resuming the power supply to the load in response to the power resume signal. ≪ Desc / Clms Page number 20 > delete delete delete delete delete delete delete delete delete delete

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