KR20170003746A - Array antenna for mutiple wireless power transfer and wireless power transmission device using the same - Google Patents

Abstract

The present invention relates to an array antenna for supporting multiple wireless power transmission capable of supporting the wireless power transmission of a magnetic induction method and a magnetic resonance method at the same time. The array antenna for supporting multiple wireless power transmission according to the present invention includes a magnetic resonance element unit which transmits a wireless power signal to the outside by the magnetic resonance method, and a magnetic induction element unit which is arranged near the magnetic resonance element unit to be separated from the magnetic resonance element unit and transmits the wireless power signal to the outside by the magnetic induction method, thereby supporting the wireless power transmission of the magnetic resonance method and the magnetic induction method at the same time.

Description

TECHNICAL FIELD [0001] The present invention relates to an array antenna capable of supporting multiple wireless power transmission, and a wireless power transmission apparatus using the array antenna.

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a wireless power transmission apparatus, and more particularly, to an array antenna supporting multiple wireless power transmission for simultaneously supporting a magnetic induction type and a self-resonant wireless power transmission, and a wireless power transmission apparatus using the same.

Recently, the development of mobile communication devices has progressed rapidly, and recently, individuals have portable digital devices such as mobile phones, Mp3 players, and digital cameras. However, in the development of such mobile communication devices, the field related to power supply is the only one that is lagging behind. That is, despite the development of the mobile communication device, the power supply of the mobile communication device is carried out by wire.

Recently, interest in wireless power transmission capable of wirelessly supplying power has been greatly increased. Such a wireless power transmission technology can be largely divided into a magnetic induction technique that provides charging at a distance of several millimeters close to the contact, such as an electric toothbrush and an electronic candle, and a technique of matching the resonance frequency between the transmitting coil and the receiving coil, Can be divided into a wireless power transmission system using high self resonance.

Wireless power transmission technology is fundamentally based on the electromagnetic field characteristics generated by the antenna. On the other hand, wireless power transmission in different or different frequencies may cause interference between antennas, and at the same time, there may be a limit to support different types of wireless power transmission.

Korean Patent No. 10-0976231 (Aug. 10, 2010)

Accordingly, an object of the present invention is to provide a multi-radio power transmission supporting array antenna capable of simultaneously supporting a magnetic induction type and a self-resonant type wireless power transmission, and a wireless power transmission apparatus using the same.

A multi-radio power transmission supporting array antenna according to the present invention includes: a self-resonance element part for transmitting a radio power signal to the outside by a self-resonance method; a plurality of antennas arranged near the self- And a magnetic induction element part for transmitting the signal to the outside by a magnetic induction method.

In the multi-radio power transmission supporting array antenna according to the present invention, the self-resonant element part may include a first connection part for receiving the radio power signal, a second connection part for receiving the radio power signal from the first connection part And a resonance coil part for transmitting the radio power signal to the outside through the self resonance method.

In the multi-radio power transmission supporting array antenna according to the present invention, the magnetic induction element unit may include a second connection unit for receiving the radio power signal, a second connection unit for receiving the radio power signal from the second connection unit, And an inductive coil part for transmitting the radio power signal to the outside through the magnetic induction method.

In the multi-radio power transmission supporting array antenna according to the present invention, the resonance coil part or the induction coil part is in the form of a loop having an empty interior.

In the multi-radio power transmission supporting array antenna according to the present invention, the induction coil part is disposed inside the resonance coil part so as to be spaced apart from the resonance coil part.

A wireless power transmission apparatus using an array antenna supporting multiple wireless power transmission according to the present invention includes: a self-resonant device unit that transmits a wireless power signal to the outside by a self-resonance method, A plurality of wireless power transmission supporting array antennas disposed apart from the self resonant element part and including a magnetic induction element part for transmitting a wireless power signal to the outside by a magnetic induction method; A first power transfer station for generating a signal and supplying the generated radio power signal to the self-resonant device unit, and a second power transmission station connected to the magnetic induction device unit for generating the radio power signal, And a second power transfer station for supplying the magnetic field to the magnetic induction element unit.

A plurality of antennas supporting a wireless power transmission according to the present invention includes a self-resonant element section for transmitting a radio power signal to the outside by a self-resonant method, a plurality of antennas arranged in a vicinity of the self- And a magnetic induction element for transmitting the magnetic field to the outside through a magnetic induction method, so that it is possible to simultaneously support the self resonance type and the magnetic induction type wireless power transmission.

In addition, the array antenna supporting multiple wireless power transmission according to the present invention can maximize the wireless power transmission efficiency by minimizing the interference between the respective wireless power transmission schemes by disposing the magnetic induction element portion in the self-resonant element portion.

FIG. 1 illustrates a wireless power transmission apparatus using an array antenna supporting multiple wireless power transmission according to an embodiment of the present invention. Referring to FIG.
2 is a block diagram illustrating a configuration of a first power transmission station according to an embodiment of the present invention.
3 is a block diagram illustrating a configuration of a second power transmission station according to an embodiment of the present invention.

In the following description, only parts necessary for understanding the embodiments of the present invention will be described, and the description of other parts will be omitted so as not to obscure the gist of the present invention.

The terms and words used in the present specification and claims should not be construed as limited to ordinary or dictionary meanings and the inventor is not limited to the meaning of the terms in order to describe his invention in the best way. It should be interpreted as meaning and concept consistent with the technical idea of the present invention. Therefore, the embodiments described in the present specification and the configurations shown in the drawings are merely preferred embodiments of the present invention, and are not intended to represent all of the technical ideas of the present invention, so that various equivalents And variations are possible.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

On the other hand, the wireless power transmission device is affected by the peripheral device depending on the characteristics of the power transmission antenna. That is, the wireless power transmission is influenced by the antenna efficiency depending on the antenna arrangement, the separation distance, and the like even among the antennas of the same wireless power transmission scheme. Accordingly, a wireless power transmission apparatus 100 using an array antenna supporting multiple wireless power transmission according to an embodiment of the present invention discloses a wireless power transmission apparatus capable of maximizing antenna efficiency in different wireless power transmission schemes.

FIG. 1 is a block diagram of a wireless power transmission apparatus using an array antenna supporting multiple wireless power transmission according to an embodiment of the present invention. FIG. 2 is a block diagram illustrating a configuration of a first power transmission station according to an embodiment of the present invention 3 is a block diagram illustrating a configuration of a second power transmission station according to an embodiment of the present invention.

1 to 3, a wireless power transmission apparatus 100 using an array antenna supporting multiple wireless power transmission according to an embodiment of the present invention includes an antenna 10, a first power transmission station 20, And a transmitting station 30.

The multi-radio power transmission supporting array antenna 10 can transmit the radio power signals to the outside respectively by the self-resonance method and the magnetic induction method.

The multiple wireless power transmission supporting array antenna 10 includes a self-resonant element portion 11 and a magnetic induction element portion 12. [

The self resonance element section 11 can transmit the radio power signal to the outside by a self-resonance method. That is, the self-resonant element section 11 generates a magnetic field that vibrates at a resonant frequency and radiates it to the outside, so that energy can be intensively transmitted to a receiving section of an external device (not shown) designed with the same resonant frequency.

The self-resonant element section 11 includes a first connection section 11a for receiving a wireless power signal and a second connection section 11b for receiving a wireless power signal from the first connection section 11a and a self- And a resonant coil portion 11b for transmitting the wireless power signal to the outside through the antenna.

Here, the resonance coil portion 11b may be formed in a circular loop shape having an inner space. However, the present invention is not limited thereto, and the resonance coil section 11b may be formed in an elliptical, hexagonal, or octagonal shape in the form of a ring with an empty interior. The resonance coil portion 11b is a portion where the electromagnetic field is concentrated in the self-resonance element portion 11. [

On the other hand, the magnetic induction element section 12 can transmit the radio power signal to the outside by a magnetic induction method. That is, the magnetic induction element section 12 generates a magnetic field so that electricity can be induced in the receiving section of an external device (not shown).

The magnetic induction element section 12 includes a second connection section 12a for receiving a wireless power signal and a second connection section 12b for receiving a wireless power signal from the second connection section 12a, And an inductive coil part 12b for transmitting the radio power signal to the outside.

The induction coil part 12b may be formed in the form of a circular loop having an empty interior. However, the present invention is not limited thereto, and the induction coil part 12b may be formed in an elliptical, hexagonal, or octagonal shape having an annular shape with an empty interior. The induction coil portion 12b is a portion where the electromagnetic field is concentrated in the magnetic induction element portion 12. [

Here, the induction coil part 12b may be located inside the resonance coil part 11b of the self-resonance element part 11. [ That is, the induction coil part 12b is formed so as to correspond to the annular resonance coil part 11b and is formed in a ring shape smaller than the resonance coil part 11b, and the resonance coil part 11b and the resonance coil part 11b are formed inside the resonance coil part 11b. They can be arranged in a spaced apart relationship.

As described above, the multi-radio power transmission supporting array antenna 10 minimizes the interference between the respective radio power transmission systems by disposing the magnetic induction element portion 20 in the self-resonant element portion 10, The transmission efficiency can be maximized.

The first power transmission station 20 receives the AC power of the commercial power source, converts the AC power into DC power, and transmits the DC power to the self-resonant power unit 11.

The first power transmission station 20 may include a first power supply unit 21, a first signal generation unit 22, and a first frequency adjustment unit 23.

The first power supply unit 21 receives the AC power of the commercial power supply, converts the AC power into DC power, and supplies the DC power to the first signal generator 22.

The first signal generating unit 22 may generate a wireless power signal having a resonant frequency of a specific band from the DC power converted by the first power supply unit 21 so that wireless power transmission can be performed.

The first frequency adjusting unit 23 transmits the radio power signal generated from the first signal generating unit 22 to the self-resonant element unit 11 and adjusts the resonant frequency of the transmitted radio power signal to an optimum state The resonance frequency of the wireless power signal generated from the first signal generator 22 can be adjusted so as to be transmitted to the outside.

The second power transmission station 30 receives the AC power of the commercial power source, converts the AC power into DC, and transmits the DC power to the magnetic induction power unit 12.

The second power transmission station 30 may include a second power supply 31, a second signal generator 32, and a second frequency adjuster 33.

The second power supply unit 31 receives the AC power of the commercial power supply, converts the AC power into DC, and supplies the DC power to the second signal generator 32.

The second signal generator 32 may generate a radio power signal having an induction frequency of a specific band from the DC power converted by the second power supply unit 31 so that wireless power transmission can be performed.

The second frequency adjusting unit 33 transmits the radio power signal generated from the second signal generating unit 32 to the self-resonant device unit 12 and adjusts the resonant frequency of the transmitted radio power signal to an optimal state The resonance frequency of the wireless power signal generated from the second signal generator 32 can be adjusted so as to be transmitted to the outside.

Therefore, the multi-radio power transmission supporting array antenna 10 according to the embodiment of the present invention includes the self-resonance element unit 11 for transmitting the radio power signal to the outside by the self-resonance method, And a magnetic induction element portion 12 which is disposed apart from the magnetic resonance element portion 11 and transmits the radio power signal to the outside by a magnetic induction method. It can be supported at the same time.

In addition, the multiple wireless power transmission supporting array antenna 10 according to the embodiment of the present invention includes the self-inductive element unit 12 spaced apart from the self-resonant element unit 11, Can be minimized to maximize the wireless power transmission efficiency.

It should be noted that the embodiments disclosed in the drawings are merely examples of specific examples for the purpose of understanding, and are not intended to limit the scope of the present invention. It will be apparent to those skilled in the art that other modifications based on the technical idea of the present invention are possible in addition to the embodiments disclosed herein.

10: Multiple wireless power transmission supporting array antenna 11: Self resonance element part
11a: first connection part 11b: resonance coil part
12: magnetic induction element part 12a: second connection part
12b: Induction coil part 20: First power transmission station
21: first power supply unit 22: first signal generator
23: first frequency adjusting unit 30: second power transmitting station
31: second power supply unit 32: second signal generator
33: second frequency adjusting section

Claims (6)

A self-resonant element part for transmitting a radio power signal to the outside by a self-resonant method;
A magnetic induction element disposed adjacent to the self-resonance element and spaced apart from the self-resonance element to transmit a radio power signal to the outside by a magnetic induction method;
And a plurality of wireless power transmission supporting array antennas. The method according to claim 1,
Wherein the self-
A first connection unit receiving the wireless power signal;
A resonant coil part connected to the first connection part to receive the wireless power signal from the first connection part and to transmit the wireless power signal to the outside through the self resonance method;
And a plurality of wireless power transmission supporting array antennas. 3. The method of claim 2,
Wherein the magnetic induction element part comprises:
A second connection unit receiving the wireless power signal;
An induction coil part connected to the second connection part to receive the wireless power signal from the second connection part and to transmit the wireless power signal to the outside through the magnetic induction method;
And a plurality of wireless power transmission supporting array antennas. The method of claim 3,
Wherein the resonant coil part or the induction coil part is formed in a loop shape in which the inside is hollow. 5. The method of claim 4,
Wherein the induction coil portion is disposed inside the resonance coil portion so as to be spaced apart from the resonance coil portion. A self-resonant element section in which a radio power signal is transmitted to the outside by a self-resonance method and whose inside is empty; and a magnetic resonance element section which is disposed in the self- A plurality of wireless power transmission supporting array antennas including a magnetic inductive element unit for transmitting the external magnetic field to the outside;
A first power transfer station connected to the self-resonant element section, for generating the radio power signal and supplying the generated radio power signal to the self-resonant element section;
A second power transmission station connected to the magnetic induction element part to generate the radio power signal and supply the generated radio power signal to the magnetic induction element part;
Wherein the wireless power transmission supporting array antenna comprises a plurality of wireless power transmission supporting array antennas.

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