KR20150054037A - Wireless power transmission apparatus capable of varying resonant frequency and method thereof - Google Patents

Abstract

The present invention relates to a wireless power transmission apparatus capable of varying resonant frequency and a method thereof, which are provided to control the resonant frequency of the wireless power transmission apparatus according to the resonant frequency of a power receiving device, to control the resonant frequency of the wireless power transmission apparatus according to the type of the power receiving device, and to check if the power receiving device is in a method of WPC or PMA and if, when it is in the method of PMA, it is in the method of type 1 or in the method of type 3. The wireless power transmission apparatus according to the present invention comprises: a resonant frequency varying unit which varies the resonant frequency of a power signal to be transmitted; a power signal transmission unit which generates the power signal according to the resonant frequency varied by the resonant frequency varying unit, and transmits the power signal to the power receiving device wirelessly; and a control unit which performs communications with the power receiving device through the power signal transmission unit, obtains an information signal of the power receiving device, controls the resonant frequency of the resonant frequency varying unit according to the obtained information signal, and controls the power signal transmission unit to generate the power signal according to the resonant frequency of the resonant frequency varying unit and to transmit to the power receiving device.

Description

TECHNICAL FIELD [0001] The present invention relates to a wireless power transmission apparatus capable of varying resonant frequency,

BACKGROUND OF THE INVENTION 1. Field of the Invention [0002] The present invention relates to a resonant frequency variable power wireless power transmission apparatus and method for adjusting a resonant frequency of a wireless power transmission apparatus that transmits power wirelessly according to a resonant frequency of a power receiving apparatus.

2. Description of the Related Art Generally, various portable terminals such as a smart phone and a PDA (Personal Digital Assistant) are equipped with a power receiving device for supplying operating power.

The power reception device charges electric power supplied from an external charging device and supplies the charged electric power to the portable terminal as operation power.

Such a water receiving apparatus includes a battery for charging electric power, a charge / discharge circuit for charging the battery by inputting electric power supplied from an external electric power supply apparatus, discharging the electric power charged in the battery and supplying the electric power to the portable terminal . ≪ / RTI >

In the method of electrically connecting the charging device and the water receiving device, a terminal for outputting electric power from the power supply device and a terminal connection for directly connecting the terminal to which power is inputted from the water receiving device, Method is known.

In the connector connection method, if the connector coupled by the user's carelessness is detached or repeatedly used a plurality of times, the connector may be detached easily due to a slight impact as the durability of the connector deteriorates.

In recent years, a wireless power transmission apparatus for wirelessly transmitting power to a receiving apparatus has been proposed in order to solve various problems of the terminal connection system.

The wireless power transmission apparatus wirelessly transmits power using, for example, an electromagnetic induction method. The power reception device receives the power transmitted by the wireless power transmission device wirelessly and charges the battery with the received power.

The above-mentioned wireless power transmission apparatus is stable in radio, transmits power with high efficiency, and in addition, the power reception apparatus can make a great effort to maximize the power transmitted from the wireless power transmission apparatus to charge the battery It is leaning.

The wireless power transmission apparatus may be classified into a magnetic induction (MI) system (i.e., a standard standard) and a magnetic resonance (MR) system (i.e., a standard standard) A wireless power consortium (WPC) system (i.e., a standard) and a power matters alliance (PMA) system (i.e., a standard).

The WPC system uses 100 to 205 kHz, the PMA system uses 232 to 278 kHz for the Type 1 system, and uses 205 to 300 kHz for the Type 3 system. .

When power is transmitted to the power reception apparatus by the wireless power transmission apparatus, if the wireless power frequencies are different from each other according to the standard standard difference, the power transmission efficiency is lowered.

Therefore, a user who wishes to purchase a wireless power transmission device of a magnetic induction type must purchase the water receiving apparatus by checking whether the water receiving apparatus is a WPC system or a PMA system. If the water receiving apparatus is a PMA system, Or Type3 method, and then purchase it.

Korean Patent Laid-Open Publication No. 10-2012-0052517 discloses a wireless power transmission method for wirelessly transmitting power, comprising: recognizing an external device; Requesting the external device for charging related information when the external device is recognized; Receiving a charging response signal including the charging-related information corresponding to the charging-related information from the external device; Generating resonance power based on the charge response signal including the charge-related information; And outputting the resonant power to the external device wirelessly.

The above-mentioned publication No. 10-2012-0052517 does not disclose a function to support both a magnetic induction system and a magnetic resonance system, but supports a wireless charging standard of either a magnetic induction system or a magnetic resonance system.

In addition, although a dual mode receiving apparatus that supports both the WPC system and the PMA system has been proposed, a dual mode or multi-mode wireless power transmission apparatus that supports both the WPC system and the PMA system has not been proposed.

Korean Patent Publication No. 10-2012-0052517 (disclosed on May 24, 2012)

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems of the prior art and its object is to provide a resonant frequency variable power wireless transmission Apparatus and method therefor.

It is another object of the present invention to provide a resonant frequency variable power type wireless power transmission apparatus and method which can adjust a resonant frequency of a wireless power transmission apparatus that transmits power wirelessly according to the type of a receiving apparatus.

It is still another object of the present invention to provide a wireless power transmission apparatus that communicates with a water receiving apparatus to confirm whether the water receiving apparatus is a WPC system or a PMA system, and also confirm whether the system is a Type 1 system or a Type 3 system when the system is a PMA system And a method of controlling the resonant frequency variable power type wireless power transmission apparatus capable of adjusting a resonant frequency of a power signal transmitted in a wireless manner.

According to an aspect of the present invention, a wireless power transmission apparatus includes: a resonance frequency variable unit that varies a resonance frequency of a power signal to be transmitted; A power signal transmitter for generating a power signal according to the variable resonance frequency of the resonance frequency variable part and transmitting the power signal to the power reception device wirelessly; And a control unit for controlling the resonance frequency of the variable power unit according to the acquired information signal by controlling the resonance frequency of the variable power unit, And a controller for generating and transmitting a power signal according to the resonant frequency to the power receiving device.

The information signal may include an information signal indicating whether the power reception apparatus is a WPC system or a PMA system.

In the case of the information signal indicating that the information signal is the PMA scheme, it may include a signal indicating whether the information signal is the Type 1 scheme or the Type 3 scheme.

The information signal may include a resonant frequency of the power reception device.

Wherein the resonance frequency varying section comprises: a first inductor; First and second capacitors connected in parallel to each other and serially connected to the first inductor; And a first switch inserted between any one of the first and second capacitors and the first inductor and maintaining or releasing a connected state under the control of the control unit, or a first capacitor; First and second inductors connected in parallel to each other and serially connected to the first capacitor; And a first switch inserted between any one of the first and second inductors and the first capacitor and maintaining or releasing a connected state under the control of the control unit.

The resonance frequency varying unit may include: a first inductor; First and second capacitors connected in series to each other and serially connected to the first inductor; And a first switch for selecting one of the connection point of the first and second capacitors and the second capacitor under the control of the control unit, or a first capacitor; First and second inductors connected in series to each other and serially connected to the first capacitor; And a first switch for selecting one of the connection points of the first and second inductors and the second inductor according to the control of the control unit.

According to another aspect of the present invention, there is provided a wireless power transmission method for a wireless power transmission apparatus, including: a step of a controller performing communication with a power reception apparatus through a power signal transmission unit to determine a type of the power reception apparatus; Controlling the resonance frequency of the resonance frequency varying unit according to the type of the apparatus; and controlling the power signal transmitting unit to generate the power signal according to the resonance frequency of the variable resonance frequency unit, To the receiving apparatus.

Wherein the control unit communicates with the power reception device through the power signal transmission unit to receive the information signal of the power reception device and determine the type of the power reception device with the received information signal, can do.

The power transmission command may be generated when a power transmission command is generated through the key signal input unit or when the power reception unit is placed on the power signal transmission unit.

Wherein the control unit communicates with the power receiving apparatus through the power signal transmitting unit to determine the type of the power receiving apparatus includes the steps of the controller generating the information request signal and transmitting the information request signal to the power receiving apparatus through the power signal transmitting unit, The receiving apparatus may generate an information signal informing its type according to the information request signal and transmitting the information signal to the controller through the power signal transmitting unit.

The information signal may include a signal indicating whether the power reception apparatus is a WPC system or a PMA system, and whether or not the power reception apparatus is a Type 1 system or a Type 3 system when the system is a PMA system.

According to another aspect of the present invention, there is provided a wireless power transmission method of a wireless power transmission apparatus, comprising: a step of determining completion of charging of the water receiving apparatus by the control unit; and a step of, when the control unit determines completion of charging of the water receiving apparatus, And terminating the operation of transmitting power wirelessly.

In the step of determining completion of charging the water receiving apparatus, the controller may receive an information signal indicating the power charging state of the water receiving apparatus through the power signal transmitting unit.

As described above, in the resonant frequency variable-type wireless power transmission apparatus of the present invention, the wireless power transmission apparatus communicates with the water receiving apparatus to confirm whether the water receiving apparatus is the WPC system or the PMA system, and in the case of the PMA system Type 1 scheme or Type 3 scheme to adjust the resonance frequency for transmitting the power signal wirelessly.

Therefore, the user who intends to purchase the wireless power transmission device does not need to individually check the type of the water receiving apparatus he / she is using.

In addition, a single wireless power transmission apparatus can be used to transmit a wireless power signal to various types of receiving apparatuses with optimum efficiency.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings, in which like reference numerals refer to like elements throughout.
1 is a block diagram illustrating a configuration of a resonance frequency variable power type wireless power transmission apparatus according to a preferred embodiment of the present invention.
FIGS. 2A to 2D are detailed circuit diagrams showing various embodiments of the resonance frequency variable unit in the resonance frequency variable power type wireless power transmission apparatus of the present invention,
3 is a flowchart illustrating a wireless power transmission method of a resonant frequency variable power type wireless power transmission apparatus according to the present invention.

The following detailed description is merely an example, and is merely an example of the present invention. Further, the principles and concepts of the present invention are provided for the purpose of being most useful and readily explaining.

Accordingly, it is not intended to provide a more detailed structure than is necessary for a basic understanding of the present invention, but it should be understood by those skilled in the art that various forms that can be practiced in the present invention are illustrated in the drawings.

1 is a block diagram illustrating a configuration of a resonance frequency variable power type wireless power transmission apparatus according to a preferred embodiment of the present invention.

1, a resonance frequency variable power type wireless power transmission apparatus according to a preferred embodiment of the present invention includes a resonance frequency variable unit 100, a power signal transmission unit 102, and a control unit 104, And transmits power wirelessly to the mobile station 200.

The resonance frequency variable unit 100 varies the resonance frequency of a power signal to be transmitted according to a control signal of the control unit 104. [

The power signal transmission unit 102 includes a plurality of power transmission coils (not shown), for example, and communicates with the power reception device 200 through the plurality of power transmission coils , And receives an information signal indicating whether the power reception apparatus 200 is a WPC system or a PMA system and whether the system is a Type 1 system or a Type 3 system in a PMA system. The power signal transmission unit 102 generates a power signal at a resonance frequency of the resonance frequency variable unit 100 and transmits the power signal to the power reception device 200 wirelessly.

The control unit 104 communicates with the power reception device 200 through the power transmission control unit 102 to acquire an information signal of the power reception device 200. [ The control unit 104 adjusts the resonance frequency of the resonance frequency varying unit 100 according to the obtained information signal and controls the power signal transmitting unit 100 to adjust the resonance frequency of the resonance frequency varying unit 100 according to the resonance frequency of the resonance frequency varying unit 100, And controls transmission of the signal to the power reception apparatus 200.

In the resonant frequency variable power type wireless power transmission apparatus of the present invention having such a configuration, the control unit 104 determines whether or not a power transmission command has occurred.

Here, there are various methods of generating the power transfer command. For example, a power transmission command may be generated via a key signal input (not shown in the figure). In addition, when the power reception device 200 is placed on the power transmission coils of the power signal transmission unit 102, the control unit 104 detects a change in the impedance of the power signal transmission unit 102 It can be determined that a power transmission command has occurred.

In addition, the control unit 104 may be configured to determine whether or not a power transmission command has been generated in various manners other than the above-described method.

When the power transmission command is generated, the controller 104 generates an information request signal, and outputs the generated information request signal to the power signal transmission unit 102, and transmits the information request signal to the power reception device 200 ).

In this state, the power reception apparatus 200 receiving the information request signal generates and transmits its own information signal, and transmits the information signal to the power signal transmission unit 102 through the plurality of power transmission coils And provides it to the control unit 104.

Here, the information signal transmitted by the power reception apparatus 200 according to the information request signal includes a signal indicating whether it is a WPC scheme or a PMA scheme, and a signal indicating whether it is a Type 1 scheme or a Type 3 scheme in the case of the PMA scheme . In addition, the information signal transmitted by the power reception apparatus 200 according to the information request signal includes whether it is a WPC system or a PMA system, a standard system signal indicating whether the system is a Type 1 system or a Type 3 system in the case of a PMA system, And an information signal of a resonance frequency.

When the information signal is received, the control unit 104 determines a standard mode signal or a resonance frequency of the receiving apparatus 200 included in the information signal, and controls the resonance frequency of the resonance frequency variable unit 100 So that the power signal transmitting unit 102 can generate a power signal corresponding to the controlled resonance frequency.

The control unit 104 controls the power signal transmitting unit 102 to generate a power signal and wirelessly transmit the generated power signal to the power receiving device 200.

Then, the power signal transmitting unit 102 generates a power signal at the resonance frequency of the resonance frequency varying unit 100, and wirelessly transmits the generated power signal to the power receiving apparatus 200.

2A to 2D are detailed circuit diagrams showing various embodiments of the resonance frequency variable portion in the resonance frequency variable power type wireless power transmission apparatus of the present invention.

Referring to FIG. 2A, the resonance frequency variable portion of the present invention includes a first inductor L11 and a first capacitor C11 connected in series, a first switch SW11 connected in series to the first capacitor C11, 2 capacitors C12 connected in parallel and the control unit 104 switches the first switch SW11 according to the WPC scheme or the PMA scheme so that the resonance frequency of the power signal transmission unit 102 can be varied .

Referring to FIG. 2B, the resonance frequency variable portion of the present invention includes a second inductor L21 and two third and fourth capacitors C21 and C22 connected in series, and a second switch SW21, The control unit 104 switches the second switch SW21 according to the WPC scheme or the PMA scheme to select the connection point of the first capacitor C21 and the fourth capacitor C21 or C22 or the fourth capacitor C22, The resonance frequency of the transmitting unit 102 can be varied.

2C, a third inductor L31 and a fifth capacitor C31 are connected in series, a fourth inductor L32 and a third switch SW31 connected in series to the third inductor L31, And the control unit 104 may switch the third switch SW31 according to the WPC scheme or the PMA scheme so that the resonance frequency of the power signal transmission unit 102 can be varied.

2D, a sixth capacitor C41 and two fifth and sixth inductors L41 and L42 are connected in series and a fourth switch SW41 is connected to the fifth and sixth inductors L41 and L42. L41 and L42 or the sixth inductor L42 according to the WPC method or the PMA method so that the control unit 104 switches the fourth switch SW41 to switch the power signal transmitting unit 102 The resonance frequency can be varied.

In addition, the resonance frequency variable unit 100 may be constituted by various circuits in addition to the above configuration, and the control unit 104 controls the resonance frequency variable unit 100 according to the WPC system or the PMA system, Can be configured to be variable.

2A to 2D illustrate a configuration in which the control unit 104 can vary the resonance frequency of the power signal transmission unit 102 according to the WPC scheme or the PMA scheme In implementing the present invention, it is possible to configure the resonance frequency of the power signal transfer unit 102 to be variable by simply changing the configuration of the resonance frequency variable unit 100 according to the Type 1 system or the Type 3 system in the case of the PMA system have.

3 is a signal flow diagram illustrating the operation of the controller according to the resonant frequency variable power mode wireless power transmission apparatus of the present invention.

Referring to FIG. 3, the control unit 104 determines whether a power transmission command has been generated (S300).

Here, there are various methods of generating the power transfer command. For example, a power transmission command may be generated via a key signal input (not shown in the figure). Also, when the power reception device 200 is placed on a plurality of power transmission coils provided in the power signal transmission unit 102, the control unit 104 detects a change in impedance of the power signal transmission unit 102, It can be determined that a transfer command has occurred.

In addition, the control unit 104 may be configured to determine whether or not a power transmission command has been generated in various manners other than the above-described method.

When the power transmission command is generated, the controller 104 communicates with the receiving apparatus 200 to determine whether the receiving apparatus is a WPC scheme or a PMA scheme, and whether the receiving apparatus is a PMA scheme or a Type 1 scheme or a Type 3 scheme (S302). ≪ / RTI >

That is, the controller 104 generates an information request signal, and outputs the generated information request signal to the power signal transmitter 102 and transmits the information request signal to the power receiver 200 through the plurality of power transmission coils.

According to the information request signal, the power reception apparatus 200 generates and transmits an information signal indicating whether it is a WPC system or a PMA system and whether it is a Type 1 system or a Type 3 system in the case of a PMA system The controller 104 receives the information signal through the power signal transmitter 102.

Here, the information signal transmitted by the power reception apparatus 200 includes the information of the resonance frequency in addition to the signal indicating whether it is the WPC system or the PMA system and whether it is the Type 1 system or the Type 3 system in the case of the PMA system can do.

The control unit 104 determines the type of the power reception device 200 based on the information signal obtained by performing the communication in step S304, and controls the resonance frequency of the resonance frequency variable unit 100 according to the determined type, The signal transmitting unit 102 can generate a power signal according to the controlled resonant frequency (S306).

The control unit 104 controls the power signal transmitting unit 102 to generate a power signal and to transmit the generated power signal to the power reception device 200 wirelessly (S308).

Then, the power signal transmitting unit 102 generates a power signal at the resonance frequency of the resonance frequency varying unit 100, and wirelessly transmits the generated power signal to the power receiving apparatus 200.

In this state, the control unit 104 determines whether charging of the water receiving apparatus 200 is completed (S310).

That is, the power reception device 200 generates and transmits an information signal according to a power charging state while charging power to a battery (not shown in the figure), and the control unit 104 controls the power signal transmission unit 102, And determines whether charging of the water receiving apparatus 200 is completed or not.

The controller 104 returns to step S308 so that the power signal transmission unit 102 is set to the resonance frequency variable unit 100 And repeatedly performs the operation of determining whether charging of the water receiving apparatus 200 is completed while wirelessly transmitting the power signal to the water receiving apparatus 200 wirelessly at the resonant frequency.

As a result of the determination, when the charging of the water receiving apparatus 200 is completed, the controller 104 controls the power signal transmitting unit 102 to stop the transmission of the power signal (S312), and the process ends.

In the above description, the resonance frequency is varied by using a magnetic induction type wireless power transmission device as an example. In carrying out the present invention, the present invention can be easily applied to a magnetic resonance type wireless power transmission apparatus.

That is, the frequency adjusting device of the present invention may be applied to a magnetic resonance type wireless power transmission device to transmit power at a resonance frequency corresponding to the standard mode of the magnetic resonance type receiving device.

In the above description of the embodiment, the resonance frequency of a power signal transmitted to satisfy one of the two standard standards is set. However, in addition to the two standard specifications, It is also possible to vary the resonance frequency of the signal in multimode.

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 embodiments, but, on the contrary, I will understand.

Therefore, the scope of the present invention should not be limited to the above-described embodiments, but should be determined by equivalents to the appended claims, as well as the appended claims.

The present invention can be applied to a resonant frequency variable power wireless power transmission apparatus and method for adjusting a resonant frequency of a wireless power transmission apparatus that transmits power wirelessly according to a resonant frequency of a power receiving apparatus.

100: Resonance frequency variable section 102: Power signal transmission section
104: control unit 200:

Claims (15)

A resonance frequency varying unit for varying a resonance frequency of a power signal to be transmitted;
A power signal transmitter for generating a power signal according to the variable resonance frequency of the resonance frequency variable part and transmitting the power signal to the power reception device wirelessly; And
Wherein the power signal transmitting unit communicates with the receiving apparatus to obtain an information signal of the receiving apparatus, adjusts a resonance frequency of the variable resonance frequency unit according to the acquired information signal, And generating a power signal according to the frequency and transmitting the generated power signal to the power reception device. The information processing apparatus according to claim 1,
And an information signal indicating whether the power reception apparatus is a WPC system or a PMA system. 3. The method of claim 2, wherein if the information signal is an information signal indicating that the information signal is a PMA scheme,
Type 1 scheme or a Type 3 scheme. 4. The method according to claim 2 or 3,
Wherein the resonant frequency of the power reception device is included. The variable resonator according to claim 1,
A first inductor;
First and second capacitors connected in parallel to each other and serially connected to the first inductor; And
And a first switch inserted between any one of the first and second capacitors and the first inductor and maintaining or releasing a connection state under the control of the control unit. The variable resonator according to claim 1,
A first capacitor;
First and second inductors connected in parallel to each other and serially connected to the first capacitor; And
And a first switch inserted between any one of the first and second inductors and the first capacitor and maintaining or releasing the connection state under the control of the control unit. The variable resonator according to claim 1,
A first inductor;
First and second capacitors connected in series to each other and serially connected to the first inductor; And
And a first switch for selecting one of the connection point of the first and second capacitors and the second capacitor under the control of the control unit. The variable resonator according to claim 1,
A first capacitor;
First and second inductors connected in series to each other and serially connected to the first capacitor; And
And a first switch for selecting one of the connection point of the first and second inductors and the second inductor in accordance with the control of the control unit. The control unit communicating with the water receiving apparatus through the power signal transmitting unit to determine the type of the water receiving apparatus;
Adjusting the resonance frequency of the resonance frequency variable part according to the type of the water receiving device determined by the controller; And
Wherein the control unit controls the power signal transmission unit to generate a power signal according to the resonance frequency of the variable resonance frequency unit and transmit the generated power signal to the power reception device, Transmission method. The method of claim 9, wherein the controller communicates with the power receiving device through the power signal transmitting unit to receive the information signal of the power receiving device and determine the type of the power receiving device with the received information signal.
A method of wireless power transmission of a wireless power transmission device performed when a power transfer command occurs. 11. The method of claim 10, wherein the power transfer command
Generating a power transfer command when a power transfer command is generated via a key signal input, or when a power reception device is placed on the power signal transfer portion. The method of claim 9, wherein the controller communicates with the power receiving device through the power signal transmitter to determine the type of the power receiving device,
The control unit generating an information request signal and transmitting the generated information request signal to the power receiving unit through the power signal transmitting unit; And
And the power reception device generates an information signal indicating the type of the power reception device according to the information request signal and transmits the information signal to the control part through the power signal transmission part. 13. The method according to claim 10 or 12,
And a signal indicating whether the power reception apparatus is a WPC system or a PMA system and whether or not the power reception apparatus is a Type 1 system or a Type 3 system when the PMA system is a PMA system. 10. The method of claim 9,
The control unit determining completion of charging the water receiving apparatus; And
And terminating an operation of transmitting power wirelessly by controlling the power signal transmitting unit when the controller determines that charging of the water receiving apparatus has been completed. The method as claimed in claim 14, wherein the step of the controller determining completion of charging the water receiving apparatus comprises:
Wherein the power receiving unit receives an information signal indicating a power charging state through the power signal transmitting unit and determines the received power.

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