KR20130124698A - Apparatus for transmitting wireless power method for transmitting wireless power thereof - Google Patents

Abstract

A wireless power transmission device for wirelessly transmitting power to a wireless power reception device according to an embodiment of the present invention includes a transmission induction coil which receives power from a power supply device; and a transmission resonance coil which transmits the power received from the transmission induction coil to the wireless power reception device. The wireless power transmission device informs about a chargeable area of the wireless power reception device on the basis of power transmission efficiency between the wireless power transmission device and the wireless power reception device. [Reference numerals] (230) Transmitting unit;(240) Identification unit;(250) Negotiation unit;(260) Light emitting unit;(270) Display unit;(280) Sound output unit;(290) Control unit;(340) Receiving unit;(350) Response signal delivery unit;(360) Negotiation unit;(370) Control unit

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a wireless power transmission apparatus and a wireless power transmission method therefor,

The present invention relates to wireless power transmission techniques. And more particularly, to a wireless power transmission apparatus and a wireless power transmission method capable of grasping a state of power transmission between a wireless power transmission apparatus and a wireless power reception apparatus.

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. Electromagnetic induction method is rapidly commercialized around small devices, but there is a problem that the transmission distance of power is short.

Up to now, the energy transmission method using a wireless method includes a resonance method in addition to electromagnetic induction and a remote transmission technique using a short wavelength radio frequency.

In recent years, resonance-based energy transmission methods have been widely used among such wireless power transmission techniques.

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

However, in the conventional wireless power transmission technology, there is a limit to the method of informing the user of the power transmission environment between the wireless power transmitter and the wireless power receiver.

An object of the present invention is to provide a wireless power transmission apparatus and a wireless power transmission apparatus capable of grasping a power transmission state between a wireless power transmission apparatus and a wireless power reception apparatus by displaying a chargeable region using light.

An aspect of the present invention is to provide a wireless power transmission apparatus and method capable of grasping a power transmission state between a wireless power transmission apparatus and a wireless power reception apparatus using voice.

An object of the present invention is to provide a wireless power transmission apparatus and a method thereof capable of grasping a power transmission state between a wireless power transmission apparatus and a wireless power reception apparatus by using bidirectional communication.

An object of the present invention is to provide a wireless power transmission apparatus and a method for enabling a user to easily know a power transmission state between a wireless power transmission apparatus and a wireless power reception apparatus.

An object of the present invention is to provide a wireless power transmission apparatus and method capable of improving power transmission efficiency between a wireless power transmission apparatus and a wireless power reception apparatus.

A wireless power transmission apparatus for wirelessly receiving power from a wireless power receiving apparatus according to an embodiment of the present invention includes a transmission induction coil for receiving power from a power supply apparatus,

And a transmission resonance coil for transmitting the power received from the transmission induction coil to the resonance-coupled radio power receiving apparatus, wherein the radio power transmission apparatus is based on a power transmission efficiency between the radio power transmission apparatus and the radio power reception apparatus And notifies the chargeable area of the wireless power receiving apparatus.

The wireless power transmission apparatus includes a light emitting unit that irradiates a chargeable region capable of transmitting power to the wireless power receiving apparatus by irradiating the wireless power receiving apparatus and displays the chargeable region.

The light emitting unit illuminates at least one light beam at a predetermined angle according to the power transmission efficiency, and displays at least one chargeable region by displaying the chargeable region.

The wireless power transmission apparatus further comprises a control unit for calculating the chargeable area based on the center of the transmission resonance coil and for controlling the light emitting unit to display the calculated chargeable area.

And the at least one rechargeable region is displayed in a different color.

The wireless power transmission apparatus includes a transmitter for transmitting a connection signal to the wireless power receiver, an identification unit for receiving a response signal to the connection signal to identify the wireless power receiver, And a controller for transmitting power to the identified wireless power receiving apparatus in accordance with the negotiated result.

And the transmitting unit performs communication with the wireless power receiving apparatus using the short-range communication module.

Wherein the negotiating unit transmits status information of the wireless power transmitting apparatus to the identified wireless power receiving apparatus so that the identified wireless power receiving apparatus determines specific status information within the status information of the wireless power transmitting apparatus, Receives the specific state information determined from the received wireless power receiving apparatus, and the control unit causes the power corresponding to the specific state information to be transmitted to the identified wireless power receiving apparatus.

The wireless power transmission apparatus may further include a display unit for displaying status information of the wireless power transmission apparatus or status information of the wireless power reception apparatus.

The wireless power transmission apparatus may further include a voice output unit for outputting status information of the wireless power transmission apparatus or status information of the wireless power reception apparatus by voice.

Wherein the status information of the wireless power transmission apparatus includes information on a maximum power amount that the wireless power transmission apparatus can supply, information on the number of the wireless power reception apparatuses provided by the wireless power transmission apparatus, And identification information on the identification information.

The status information of the wireless power receiving apparatus includes at least one of a maximum charging amount that can be provided to the wireless power receiving apparatus and information on a current charging amount of the wireless power receiving apparatus.

The wireless power transmission apparatus may further include a transmitter for transmitting a connection signal, and the connection signal is a power signal for detecting and identifying the wireless power reception apparatus.

The wireless power transmission apparatus may further include a shielding portion for changing a direction of a magnetic field generated in the transmission resonance coil.

The shielding portion is located at the upper end of the light emitting portion and has a shape of an umbrella.

The wireless power transmission apparatus acquires information on the power transmission efficiency using a signal used for wireless power transmission.

A wireless power transmission method of a wireless power transmission apparatus for wirelessly transmitting power to a wireless power reception apparatus according to another embodiment of the present invention is characterized in that the wireless power transmission apparatus includes a rechargeable region capable of transmitting power to the wireless power reception apparatus Dividing the calculated chargeable area into at least one or more areas, and displaying the separated at least one area by irradiating light.

The step of dividing the at least one region into the at least one region may be performed according to the power transmission efficiency between the wireless power transmission apparatus and the wireless power reception apparatus.

When the wireless power receiving apparatus is located in one of the chargeable regions, displaying the power transmission efficiency corresponding to the one region.

The step of dividing and displaying the light by irradiating the light may include displaying the at least one region by using light of different colors.

Wherein the step of irradiating and displaying the light is performed by irradiating light with a predetermined angle with a vertical line of a horizontal plane on which the transmission resonant coil of the wireless power transmission apparatus is placed.

Calculating the chargeable area includes calculating a chargeable area by calculating a distance at which power can be transmitted based on the center of the transmission resonant coil of the wireless power transmission device.

The wireless power transmission method may further include displaying the charging error message if the wireless power receiving apparatus is not located in the rechargeable area.

The wireless power transmission method may further include transmitting a connection signal and receiving a response signal to the connection signal to identify the wireless power reception apparatus.

The wireless power transmission method may further include displaying status information of the wireless power receiving apparatus when the wireless power receiving apparatus is located in one of the rechargeable areas.

The status information of the wireless power receiving apparatus includes at least one of a maximum charging amount that can be provided to the wireless power receiving apparatus and information on a current charging amount of the wireless power receiving apparatus.

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

The user can easily grasp the power transmission state between the wireless power transmission apparatus and the wireless power reception apparatus by displaying the chargeable area using light or voice.

The power transmission efficiency can be improved by detecting the power transmission state between the wireless power transmission apparatus and the wireless power reception apparatus by using the two-way communication.

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 according to an embodiment of the present invention.
3 is an equivalent circuit diagram of a power supply device and a wireless power transmitter according to an embodiment of the present invention.
4 is an equivalent circuit diagram of a wireless power receiver according to an embodiment of the present invention.
5 is a block diagram of a wireless power transmission apparatus and a wireless power reception apparatus according to another embodiment of the present invention.
6 is a structural diagram of a wireless power transmission apparatus according to another embodiment of the present invention.
7 is a structural diagram of a wireless power transmission apparatus according to another embodiment of the present invention.
8 to 12 are diagrams for explaining a method for informing a user of a state of wireless power transmission using a wireless power transmission apparatus according to an embodiment of the present invention.
13 is a flowchart illustrating a wireless power transmission method of a wireless power transmission apparatus 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, the wireless power transmission system may include a power supply device 100, a wireless power transmitter 200, a wireless power receiver 300, and a load 400.

In one embodiment, the power supply device 100 may be included in the wireless power transmitter 200.

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 unit 330, and a load 400.

Both ends of the power supply device 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 rectification part 330 and the load 400 is connected to both ends of the rectification part 330. In an embodiment, the load 400 may be included in the wireless power receiver 300.

The power generated by the power supply apparatus 100 is transmitted to the wireless power transmission apparatus 200 and the power transmitted to the wireless power transmission apparatus 200 is resonated with 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 supply apparatus 100 generates and transmits AC power having a predetermined frequency to the wireless power transmission apparatus 200.

When the alternating current flows by the power supplied from the power supply device 100, the transmission induction coil 210 induces an alternating current also in the transmission resonance coil 220 physically spaced by the 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 resonance.

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

The reception resonance coil 310 receives power from the transmission resonance coil 220 by 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 transmitted to the reception induction coil 320 is rectified through the rectifying part 330 and transferred to the load 400.

The transmission resonance coil 220 of the wireless power transmitter 200 may transmit power to the reception resonance coil 310 of the wireless power receiver 300 through a magnetic field.

Specifically, the transmitting resonant coil 220 and the receiving resonant coil 310 are magnetically coupled to operate at a resonant frequency.

Resonance coupling between the transmission resonance coil 220 and the reception resonance coil 310 can greatly improve the efficiency of power transmission between the wireless power transmission device 200 and the wireless power reception device 300.

Quality factor and coupling coefficient are important in wireless power transmission.

The Quality Factor may refer to an index of energy that can be scaled in the vicinity of a wireless power transmission device or a wireless power receiving device.

The quality factor may vary depending on the operating frequency w, the shape, dimensions, materials, and the like of the coil. The formula can be expressed as Q = w * L / R. L is the inductance of the coil, and R is the resistance corresponding to the amount of power loss occurring in the coil itself.

The Quality Factor can have a value from zero to infinity.

Coupling coefficient means the degree of magnetic coupling between the transmitting coil and the receiving coil, and ranges from 0 to 1.

The coupling coefficient may vary depending on the relative position or distance between the transmitting coil and the receiving coil.

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 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 supply 100 and a wireless power transmission apparatus 200, according to an embodiment of the present 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 rectification unit 330 may include a diode D1 and a rectification capacitor C5, and may convert AC power into DC power and output the AC power.

The rectification part 330 may include a rectifier and a smoothing circuit. As the rectifier element of the rectifier, a silicon rectifier may be used.

The smoothing circuit smoothes the rectified output.

The load 400 can be any rechargeable battery or device that requires direct current power. For example, the load 400 may mean a battery.

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.

Next, a wireless power transmission apparatus 200 and a wireless power reception apparatus 300 according to still another embodiment of the present invention will be described with reference to FIGS. 5 to 12. FIG.

5 is a block diagram of a wireless power transmission apparatus 200 and a wireless power reception apparatus 300 according to an embodiment of the present invention.

5, the wireless power transmission apparatus 200 includes a transmitting unit 230, an identifying unit 240, a negotiating unit 250, a light emitting unit 260, a display unit 270, an audio output unit 280, And a control unit.

The wireless power transmission apparatus 200 may further include the transmission induction coil 210 and the transmission resonance coil 220 shown in FIG.

The transmitting unit 230 may transmit a connection signal to the receiving unit 340, which will be described later. In one embodiment, the connection signal may refer to a power signal for detecting and identifying the wireless power receiving device 300. That is, the transmitting unit 230 transmits a connection signal to the receiving unit 340 in order to transmit power only to a device capable of receiving power wirelessly.

The transmitting unit 230 may periodically transmit a connection signal to the outside in order to detect the wireless power receiving apparatus 300.

The transmitting unit 230 may include a module that enables wireless communication between the wireless power transmitting apparatus 200 and the wireless power receiving apparatus 300. In one embodiment, the transmitter 230 may include a local area communication module.

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.

The transmitter 230 can acquire status information of the wireless power receiving apparatus 300 through wireless communication with the wireless power receiving apparatus 300 using any one of the short range communication modules.

The receiving unit 340 of the wireless power receiving apparatus 300 may also include the short-range communication module.

The identification unit 240 may receive a response signal to the connection signal and identify the wireless power receiving apparatus 300 capable of receiving power.

If the identification unit 240 does not receive a response signal to the connection signal, the identification unit 240 may stop the transmission of the connection signal to the corresponding device. The case where the identification unit 240 does not receive a response signal in the present embodiment is a case where a response signal is not received from a device that does not include a reception resonant coil or a reception induction coil such as a key ring, It can mean.

When the identification unit 240 receives a response signal to the connection signal and identifies that the device is a wireless power receiving apparatus 300 capable of receiving power, the negotiating unit 250 transmits the identified wireless power receiving apparatus 300 ). ≪ / RTI > That is, the negotiating unit 250 negotiates with the identified wireless power receiving apparatus 300 for power transmission, and the control unit controls the wireless power transmitting apparatus 300 to transmit power to the identified wireless power receiving apparatus 300 according to the negotiated result, (200).

The negotiation unit 250 transmits the state information of the wireless power transmitter 200 to the identified wireless power receiver 300 so that the identified wireless power receiver 300 is the state information of the wireless power transmitter 200. To determine specific status information within, and receives the specific status information determined from the identified wireless power receiver 300.

The state information of the wireless power transmission apparatus 200 includes information on the maximum power amount that the wireless power transmission apparatus 200 can supply, information on the maximum power amount that can be supplied from the wireless power transmission apparatus 200 Information on the number and identification information on the wireless power transmission apparatus 200. [

The negotiating unit 250 receives the status information of the identified wireless power receiving apparatus 300 and determines specific status information in the status information of the identified wireless power receiving apparatus 300. The control unit 290 receives specific status information To transmit to the identified wireless power receiving apparatus 300 the power corresponding to the received power.

In one embodiment, the status information of the wireless power receiving apparatus 300 may include information on the current charging amount and the transition of the charging amount of the wireless power receiving apparatus 300.

The negotiating unit 250 transmits the amount of available power to the identified wireless power receiving apparatus 300 to allow the identified wireless power receiving apparatus 300 to determine the required amount of power within the available power amount range. Thereafter, when the wireless power receiver 300 determines the required power amount, the negotiation unit 250 receives the required power amount. The control unit 290 transmits the power corresponding to the requested power amount to the wireless power receiving apparatus 300. [

Through the above-described process, the state of the wireless power transmission apparatus 200 and the wireless power reception apparatus 300 can be grasped and active power transmission can be performed.

The light emitting unit 260 may emit light of at least one or more lights to separately display an area where the wireless power receiving apparatus 300 can be positioned. The region in which the wireless power receiving apparatus 300 can be positioned in one embodiment may mean an area where the wireless power transmitting apparatus 200 can receive power wirelessly.

The light emitting unit 260 can display at least one or more than one chargeable region by irradiating at least one light at a predetermined angle according to the power transmission efficiency between the wireless power transmission apparatus 200 and the wireless power reception apparatus 300 .

6, a wireless power transmission apparatus 200 including a transmission resonant coil 220, a light emitting unit 260, and a connection unit 265 is illustrated.

Although not shown in FIG. 6, the wireless power transmission apparatus 200 further includes the components described in FIG.

The transmitting resonant coil 220 receives power from the inductively coupled transmission induction coil and transmits the received power to the wireless power receiving apparatus 300 including the resonantly coupled receiving resonant coil 310.

The connection unit 265 connects the transmission resonance coil and the light emitting unit 260. The connection portion 265 may have a cylindrical shape having a predetermined vertical distance, but is not limited thereto.

Referring to FIG. 6, the horizontal plane in which the wireless power transmission apparatus 200 is located includes three charging regions including the first to third concentric charging regions. The light emitting unit 260 emits three lights to divide the horizontal plane into three charging regions. In one embodiment, the light emitting unit 260 may emit light to differentiate the colors of the three charged regions to separate the regions.

In one embodiment, the three charging regions can be distinguished by different power transmission efficiencies between the wireless power transmission apparatus 200 and the wireless power reception apparatus 300. For example, when the wireless power receiving apparatus 300 is located in the first charging region, the power transmission efficiency is 40% when the power transmission efficiency is 60% and the wireless power receiving apparatus 300 is located in the second charging region, When the wireless power receiving apparatus 300 is located in the third charging area, the power transmission efficiency may be 20%.

The display unit 270 may display the power transmission efficiency corresponding to the charging area where the wireless power receiving apparatus 300 is located among the three charging areas.

If the user wishes to charge the battery 300 at a high speed, the user may place the wireless power receiving device 300 in the first area, and if it is desired to charge the battery 300 at a slow speed, It is possible to place the wireless power receiving apparatus 300 at a predetermined position. Accordingly, the user can position the wireless power receiving apparatus 300 at an appropriate position according to the charged state of the wireless power receiving apparatus 300, thereby enhancing user convenience.

In an embodiment, the light emitting unit 260 may emit light reflecting the state of charge of the wireless power receiving apparatus 300. That is, the light emitting unit 260 can emit light in green when the wireless power receiving apparatus 300 is fully charged at 50%, and when the wireless power receiving apparatus 300 is fully charged at 50%

Each of the three regions may be different in color.

In one embodiment, the light emitting portion 260 may be an LED, but is not limited thereto, and any light emitting configuration is possible.

The display unit 270 may display an overall state of power transmission between the wireless power transmission apparatus 200 and the wireless power reception apparatus 300. [

The display unit 270 may indicate a state in which power transmission between the wireless power transmission apparatus 200 and the wireless power reception apparatus 300 is possible or impossible. That is, when the identified wireless power receiving apparatus 300 is close to the wireless power transmitting apparatus 200, the display unit 270 can indicate that power transmission is possible. If the device other than the identified wireless power receiving device 300 is close to the wireless power transmitting device 200, the display portion 270 may indicate that power transmission is not possible.

In one embodiment, the display unit 270 outputs a message "Rechargeable" or "Rechargeable" to allow the user to visually recognize the state in which the electronic device having the wireless power receiving apparatus 300 can receive power Or can not receive power.

The display unit 270 may display a completed status when charging of the electronic device equipped with the wireless power receiving apparatus 300 is completed.

In one embodiment, the display unit 270 outputs a message "Charging complete" to allow the user to visually recognize that the electronic device equipped with the wireless power receiving apparatus 300 has completed charging.

The display unit 270 may be configured such that when the electronic apparatus equipped with the wireless power receiving apparatus 300 is placed in a direction where it can not receive power or is unable to receive power by an external obstacle, The situation can be displayed.

In one embodiment, the display unit 270 outputs a message "charging error" to allow the user to visually recognize the state in which the electronic apparatus equipped with the wireless power receiving apparatus 300 can receive power, It makes you aware that you are in a state of absence.

The display unit 270 may display the number of the wireless power receiving apparatuses 300. The display unit 270 can receive information on the number of the wireless power receiving apparatuses 300 from the control unit and display the number of the received information.

The display unit 270 may use a PDP, an LCD, an OLED, a flexible display, a 3D display, or the like.

The voice output unit 280 can output the overall state of the power transmission between the wireless power transmission apparatus 200 and the wireless power reception apparatus 300 by voice.

The voice output unit 280 can output a state in which the power transmission between the wireless power transmission apparatus 200 and the wireless power reception apparatus 300 is possible or impossible. That is, when the identified wireless power receiving apparatus 300 is located close to the wireless power transmitting apparatus 200, the voice output unit 280 can output voice that the power transmission is possible. When the device other than the identified wireless power receiving device 300 is located close to the wireless power transmitting device 200, the audio outputting unit 280 can output a voice output indicating that power transmission is impossible.

In one embodiment, the audio output unit 280 outputs a message "rechargeable" or "non-rechargeable" to the user so that the electronic device having the wireless power receiving apparatus 300 audibly receives the power It is possible to know that it can not receive or receive power.

The audio output unit 280 can output a completed state of the electronic device in which the wireless power receiving apparatus 300 is mounted when the charging is completed.

In one embodiment, the voice output unit 280 outputs a message "Completed" as a voice to let the user know that the electronic device having the wireless power receiving apparatus 300 audibly has completed charging.

When the electronic apparatus equipped with the wireless power receiving apparatus 300 is in a state where it can not receive power or is unable to receive power by an external obstacle, It is possible to output the situation to the voice.

In one embodiment, the voice output unit 280 outputs a message "Complete Charging" as a voice to inform the user that the electronic device having the wireless power receiving apparatus 300 can not receive power It does.

The audio output unit 280 can output the number of the wireless power receiving apparatuses 300 by voice. The voice output unit 280 may receive information on the number of the wireless power receiving apparatuses 300 from the control unit and output the number of the wireless power receiving apparatuses 300 by voice.

The display unit 270 and the audio output unit 280 may simultaneously operate to display status information between the wireless power transmitting apparatus 200 and the wireless power receiving apparatus 300. [

The light emitting unit 260, the display unit 270 and the audio output unit 280 are connected to the wireless power transmitting apparatus 200 using in-band communication between the wireless power transmitting apparatus 200 and the wireless power receiving apparatus 300 200 may reflect and output the acquired information.

In band communication may refer to a communication for exchanging information between the wireless power transmitter 200 and the wireless power receiver 300 using a signal having a frequency used for wireless power transmission. The wireless power receiving apparatus 300 may receive or not receive the power transmitted from the wireless power transmitting apparatus 200 through the switching operation. Accordingly, the wireless power transmission apparatus 200 can detect the amount of power consumed in the wireless power transmission apparatus 200 and recognize the signal that the wireless power reception apparatus 300 is turned on or off.

Specifically, the wireless power receiving apparatus 300 can change the power consumed in the wireless power transmitting apparatus 200 by changing the amount of power absorbed in the resistance by using the resistance and the switch included in the wireless power receiving apparatus 300 . The apparatus 200 for transmitting power wirelessly may acquire state information of the apparatus for receiving power wirelessly 300 by detecting a change in power consumption. The switch and resistor can be connected in series.

More specifically, when the switch is opened, the power absorbed by the resistor becomes 0, and the power consumed by the wireless power transmitter 200 also decreases.

When the switch is shorted, the power absorbed by the resistor is greater than zero, and the power consumed by the wireless power transmitter 200 increases. When the wireless power receiving apparatus repeats the above operation, the wireless power transmitting apparatus 200 can detect the power consumed in the wireless power transmitting apparatus 200 and perform digital communication with the wireless power receiving apparatus 300.

The wireless power transmitter 200 may receive state information of the wireless power receiver 300 according to the above operation, and may transmit power appropriate thereto.

On the contrary, the wireless power transmitter 200 may be provided with a resistor and a switch to transmit the state information of the wireless power transmitter 200 to the wireless power receiver 300.

Using the in-band communication between the wireless power transmission apparatus 200 and the wireless power reception apparatus 300, the user can visually and audibly display the status information of the wireless power transmission apparatus 200 or the wireless power reception apparatus 300 And can actively cope with charging of the wireless power receiving apparatus 300 in response thereto.

The control unit 290 can control the overall operation of the wireless power transmission apparatus 200. [

The control unit 290 can control the amount of light transmitted to the wireless power receiving apparatus 300 while adjusting the color of light emitted from the light emitting unit 260 according to the charging state of the wireless power receiving apparatus 300. [ That is, the control unit can control the power supply apparatus to reduce the amount of power transmitted from the wireless power transmission apparatus 200 as the wireless power reception apparatus 300 approaches the charging completion state. As a result, unnecessary power consumption can be prevented.

The controller 290 controls the operation of the wireless power transmission apparatus 200 to output status information of the wireless power transmission apparatus 200, status information of the wireless power reception apparatus 300, status information between the wireless power transmission apparatus 200 and the wireless power reception apparatus 300, The control unit 260, the display unit 270, and the audio output unit 280.

The control unit 290 can calculate the chargeable area based on the center of the transmission resonance coil and control the light emitting unit 260 to display the calculated chargeable area.

The wireless power receiving apparatus 300 may include a receiving unit 340, a response signal transmitting unit 350, a negotiating unit 360, and a controller 370. In addition, the wireless power receiving apparatus 300 may further include the reception resonant coil, the reception induction coil, and the rectification unit shown in FIG.

The receiving unit 340 receives a connection signal for identifying the wireless power receiving apparatus 300.

The response signal transmission unit 350 transmits a response signal to the wireless power transmission apparatus 200 in response to the connection signal.

The negotiating unit 360 negotiates with the wireless power transmitting apparatus 200 for power transmission, and the controller 370 causes the wireless power receiving apparatus 300 to receive power according to the negotiated result.

In one embodiment, the negotiating unit 360 receives status information of the wireless power transmission apparatus 200 to determine specific status information in the status information of the wireless power transmission apparatus 200, and transmits the status information to the wireless power transmission apparatus 200 The controller 370 transmits the determined specific state information, and the controller 370 receives power corresponding to the specific state information from the wireless power transmission apparatus 200. [

7 is a structural diagram of a wireless power transmission apparatus 200 according to another embodiment of the present invention.

Referring to FIG. 7, the wireless power transmission apparatus 200 further includes a shielding unit 267 in the configuration of FIG.

The shield may be located at the top of the light emitting portion 260.

The shielding portion may change the direction of the magnetic field transmitted from the transmitting resonant coil to the wireless power receiving device 300. That is, the shielding part can change the direction of the magnetic field generated in the transmission resonant coil 220 to intensively transmit the magnetic field to the wireless power receiving device 300. As a result, the power transmission efficiency between the wireless power transmission apparatus 200 and the wireless power reception apparatus 300 can be improved.

8 to 12 are diagrams for explaining a method for informing a user of the state of wireless power transmission using the wireless power transmission apparatus 200 according to an embodiment of the present invention.

Hereinafter, it is assumed that the wireless power receiving apparatus 300 or the electronic apparatus is located in a region capable of receiving power from the wireless power transmitting apparatus 200 (chargeable region).

8 is a diagram illustrating a process of displaying a process of identifying the wireless power receiving apparatus 300 by the wireless power transmitting apparatus 200 through the display unit 270. Referring to FIG.

The wireless power transmission apparatus 200 transmits a connection signal to the wireless power reception apparatus 300. In one embodiment, the connection signal may mean a power signal for detecting and identifying the wireless power receiver 300. The wireless power transmitter 200 may periodically transmit a connection signal to detect the wireless power receiver 300.

The wireless power receiving apparatus 300 receives the connection signal and transmits a response signal to the wireless power transmission apparatus 200. [

The display unit 270 outputs a message "Identifying" to the above process.

The audio output unit 280 can output a message of "identifying" at the same time as displaying the display unit 270 by voice.

FIG. 9 is a diagram illustrating a process of displaying the completion of identification of the wireless power receiving apparatus 300 through the display unit 270. FIG.

The wireless power transmission apparatus 200 may receive a response signal to the connection signal to identify the wireless power reception apparatus 300. [ If the wireless power receiving apparatus 300 is identified as a suitable apparatus capable of receiving power, the display unit 270 outputs a message "IDENTIFIED ".

The voice output unit 280 can output a message of "identification completed" at the same time as the display of the display unit 270.

10 is a diagram for explaining a process of displaying an electronic device located in a chargeable area through a state display unit 270 where power can not be received.

If the wireless power transmission apparatus 200 does not receive a response signal to the connection signal, the display unit 270 may output a "charging error" message. That is, when an object which can not be charged is located as shown in FIG. 10 such as the key ring 20, the display unit 270 may output a message "charging error ".

FIG. 11 is a view for explaining a process of displaying a state of transmitting power to the identified electronic device through the display unit 270. FIG.

11, the display unit 270 displays the status of "charging" in order to display the status in which the electronic apparatus having the wireless power receiving apparatus 300 that has been identified is receiving power from the wireless power transmitting apparatus 200, Is displayed.

FIG. 12 is a diagram for explaining a process of displaying the charged state of the identified electronic device through the display unit 270. FIG.

Referring to FIG. 12, the display unit 270 outputs a message "charging" in order to display the charging completion status of the electronic device in which the wireless power receiving apparatus 300 is mounted.

FIG. 13 is a flowchart illustrating a wireless power transmission method of a wireless power transmission apparatus 200 according to an embodiment of the present invention.

Referring to FIG. 13, the controller 290 calculates a chargeable area of the wireless power transmission device 200 (S101). In one embodiment, the controller 290 can calculate a chargeable area of the wireless power receiving apparatus 300 based on the center of the transmission resonant coil. Specifically, the controller 290 can calculate the chargeable distance at which power can be transmitted based on the center of the transmission resonance coil, and calculate the chargeable area corresponding to the chargeable distance.

The chargeable distance may vary depending on the size, direction, and the like of the transmission resonance coil 220.

Thereafter, the control unit 290 can divide the calculated chargeable area into three areas (S103). Three are just examples. In one embodiment, the three chargeable regions may be regions that are distinguished according to the power transmission efficiency between the wireless power transmission apparatus 200 and the wireless power reception apparatus 300. In one embodiment, the three chargeable regions include a first chargeable region A, a second chargeable region B, and a third chargeable region C, The transmission efficiency may be 60%, the second chargeable region B may have a power transmission efficiency of 40%, and the third chargeable region C may have a power transmission efficiency of 20%. The above efficiency values are only examples.

Thereafter, the light emitting unit 260 irradiates light to display three chargeable regions according to the three chargeable regions classified by the controller 290 (S105). The light emitting unit 260 can display three chargeable areas by irradiating light so as to form a constant angle with a vertical line on a horizontal plane on which the transmission resonance coil is placed.

In one embodiment, the three chargeable regions may be displayed differently in color.

Thereafter, the control unit confirms whether the wireless power receiving apparatus 300 exists in the first chargeable area A (S107). In one embodiment, the controller 290 can receive the detection signal transmitted from the detection coil located on the horizontal plane and confirm whether or not the detection signal is present in the first chargeable area A.

If the wireless power receiving apparatus 300 is located in the first chargeable area A, the display unit 270 indicates that the wireless power receiving apparatus 300 is being charged with an efficiency of 60% (S109 ).

On the other hand, when the wireless power receiving apparatus 300 is not present in the first rechargeable region A, the control unit 290 confirms whether the wireless power receiving apparatus 300 exists in the second rechargeable region B (S111).

If the wireless power receiving apparatus 300 is located in the second chargeable area B, the display unit 270 indicates that the wireless power receiving apparatus 300 is being charged with an efficiency of 40% (S113 ).

On the other hand, if the wireless power receiving apparatus 300 is not present in the second chargeable region B, the control unit confirms whether the wireless power receiving apparatus 300 exists in the third chargeable region C (S115).

If the wireless power receiving apparatus 300 is located in the third chargeable region C, the display unit 270 indicates that the wireless power receiving apparatus 300 is being charged with an efficiency of 20% (S117 ).

If it is determined that the wireless power receiving apparatus 300 is not located in the third chargeable region C, the display unit 270 displays a charge error message (S119). The charging error message allows the user to easily confirm that the wireless power receiving apparatus 300 is not receiving power.

Through the above process, the user can easily check whether or not the charging is performed by placing the electronic device equipped with the wireless power receiving device 300 in the chargeable area.

In addition, the user can actively charge the wireless power receiving apparatus 300 by displaying the chargeable region in accordance with the power transmission efficiency.

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.

100: power supply
200: Wireless power transmitting device
210: transmission induction coil
220: transmission resonance coil
230: transmitter
240: identification unit
250: negotiation unit
260:
270:
280: Audio output unit
290:
300: Wireless power receiving device
310: Receive resonant coil
320: reception induction coil
330: rectification part
340: receiving unit
350: response signal transmission unit
360: negotiation department
370: control unit 400: load

Claims (25)

A wireless power transmitter for wirelessly receiving power from a wireless power receiver,
A transmission induction coil receiving power from the power supply; And
And a transmission resonance coil for transmitting the power received from the transmission induction coil to the wireless power receiving apparatus resonated,
And the wireless power transmitter notifies a chargeable area of the wireless power receiver based on power transmission efficiency between the wireless power transmitter and the wireless power receiver. The method of claim 1,
And a light emitting unit for irradiating the chargeable region capable of power transmission to the wireless power receiving apparatus by irradiating the chargeable region and displaying the chargeable region. 3. The method of claim 2,
The light-
Wherein at least one or more rechargeable areas are distinguished and displayed by irradiating at least one light at a predetermined angle according to the power transmission efficiency. The method of claim 1,
Further comprising a control unit for calculating the chargeable area based on the center of the transmission resonance coil and controlling the light emitting unit to display the calculated chargeable area. 3. The method of claim 2,
Wherein the at least one rechargeable area is displayed in a different color. The method of claim 1,
A transmitter for transmitting a connection signal to the wireless power receiver;
An identification unit for receiving a response signal to the connection signal and identifying the wireless power receiving apparatus;
A negotiating unit for negotiating for power transmission with the identified wireless power receiving apparatus; And
And to transmit power to the identified wireless power receiving apparatus according to the negotiated result. The method according to claim 6,
Wherein the transmitting unit performs communication with the wireless power receiving apparatus using a short-range communication module. 7. The apparatus according to claim 6,
Transmit the status information of the wireless power transmission apparatus to the identified wireless power reception apparatus so that the identified wireless power reception apparatus determines specific status information in the status information of the wireless power transmission apparatus, Receiving specific status information determined from the receiving apparatus,
And the control unit transmits the power corresponding to the specific state information to the identified wireless power receiving apparatus. The method according to claim 6,
Further comprising a display unit for displaying status information of the wireless power transmission apparatus or status information of the wireless power reception apparatus. The method according to claim 6,
Further comprising a voice output unit for outputting, by voice, status information of the wireless power transmission apparatus or status information of the wireless power reception apparatus. 11. The method according to any one of claims 8 to 10,
The status information of the wireless power transmission apparatus includes:
At least one of information on a maximum power amount that the wireless power transmission apparatus can supply, information on the number of the wireless power reception apparatuses provided by the wireless power transmission apparatus, and identification information on the wireless power transmission apparatus Wherein the wireless power transmission apparatus comprises: 11. The method according to any one of claims 8 to 10,
The state information of the wireless power receiving apparatus includes:
A maximum charge amount that can be provided to the wireless power receiving apparatus, and information on a current charge amount of the wireless power receiving apparatus. The method of claim 1,
And a shielding portion for changing a direction of a magnetic field generated in the transmission resonance coil. The method of claim 13,
Wherein the shielding portion is located at the upper end of the light emitting portion and has a shape of an umbrella. The method of claim 1,
The wireless power transmitter is a wireless power transmitter, characterized in that for obtaining information on the power transmission efficiency using a signal used for wireless power transmission. A wireless power transmission method of a wireless power transmission apparatus for wirelessly transmitting power to a wireless power reception apparatus,
Calculating a chargeable area in which the wireless power transmission device can transmit power to the wireless power reception device;
Dividing the calculated chargeable area into at least one area; And
And displaying the separated at least one region by illuminating and displaying the light. 17. The method of claim 16,
The step of dividing into at least one or more areas comprises:
And dividing the transmission power according to a power transmission efficiency between the wireless power transmission apparatus and the wireless power reception apparatus. 18. The method of claim 17,
Further comprising the step of, when the wireless power receiving apparatus is located in one of the rechargeable areas, displaying the power transfer efficiency corresponding to the one of the rechargeable areas. 17. The method of claim 16,
The step of irradiating and displaying the light is characterized by comprising:
And separating and displaying the at least one region using light of different colors. 17. The method of claim 16,
The step of illuminating and displaying the light includes:
Wherein the light is irradiated and displayed so as to form a constant angle with a vertical line of a horizontal plane on which the transmission resonance coil of the wireless power transmission apparatus is placed. 17. The method of claim 16,
Wherein the step of calculating the chargeable area comprises:
And calculating the chargeable area by calculating a distance capable of power transmission based on a center of the transmission resonance coil of the wireless power transmission device. 17. The method of claim 16,
Further comprising the step of displaying the charging error message if the wireless power receiving device is not located in the rechargeable area. 17. The method of claim 16,
Transmitting a connection signal;
Further comprising receiving a response signal to the connection signal to identify the wireless power receiving device. 18. The method of claim 17,
Further comprising the step of displaying status information of the wireless power receiving apparatus when the wireless power receiving apparatus is located in any one of the rechargeable areas. 18. The method of claim 17,
The state information of the wireless power receiving apparatus includes:
A maximum charge amount that can be provided to the wireless power receiving apparatus, and information on a current charge amount of the wireless power receiving apparatus.

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