KR102128935B1 - Array antenna for mutiple wireless power transfer and wireless power transmission device using the same - Google Patents

Abstract

The present invention relates to a multi-radio power transmission support array antenna and a wireless power transmission device using the same for simultaneously supporting the magnetic induction method and the wireless power transmission of the magnetic resonance method. The array antenna for multiple wireless power transmission support according to the present invention is arranged to be spaced apart from the magnetic resonance element unit in the vicinity of the magnetic resonance element unit and the magnetic resonance element unit for transmitting the wireless power signal to the outside by a magnetic resonance method, and transmits the wireless power signal. A magnetic resonance method and a magnetic induction type wireless power transmission may be simultaneously supported by including a magnetic induction element unit that is transmitted to the outside by a magnetic induction method.

Description

Array antenna for mutiple wireless power transfer and wireless power transmission device using the same}

The present invention relates to a wireless power transmission device, and more particularly, to a multi-radio power transmission support array antenna for simultaneously supporting a magnetic induction method and a magnetic resonance type wireless power transmission, and a wireless power transmission device using the same.

Recently, the development of mobile communication devices has progressed rapidly, and recently, an individual has several portable digital devices such as a mobile phone, an Mp3 player, and a digital camera. However, in the development of such mobile communication devices, the field related to power supply is the only one whose development is delayed. That is, in spite of the development of mobile communication devices, the power supply of mobile communication devices is performed by wire.

Accordingly, in recent years, interest in wireless power transmission capable of supplying power wirelessly has been greatly increased. These wireless power transmission technologies are largely the same as those of electric toothbrushes and electronic candles. The power transmission efficiency in the near field by matching the resonant frequency between the transmitting coil and the receiving coil, and the self-induction method that mainly provides charging at a distance of several mm close to the contact. It can be divided into wireless power transmission method using this high magnetic resonance.

The wireless power transmission technology basically uses electromagnetic field characteristics generated by an antenna. On the other hand, wireless power transmission of different methods or different frequencies may cause interference between antennas, and at the same time, there may be limitations in supporting wireless power transmission of different methods.

Korean Registered Patent No. 10-0976231 (2010.08.10.)

Accordingly, an object of the present invention is to provide a multi-radio power transmission support array antenna and a wireless power transmission device using the same, which can simultaneously support the magnetic induction method and the magnetic resonance method of wireless power transmission.

The array antenna for multiple wireless power transmission support according to the present invention is a magnetic resonance element unit for transmitting a wireless power signal to the outside by a magnetic resonance method, and is disposed spaced apart from the magnetic resonance element unit in the vicinity of the magnetic resonance element unit, and wireless power It includes a magnetic induction element for transmitting a signal to the outside by a magnetic induction method.

In the array antenna for multiple wireless power transmission support according to the present invention, the magnetic resonance element unit is connected to the first connection unit receiving the wireless power signal and the first connection unit and receiving the wireless power signal from the first connection unit And, it characterized in that it comprises a resonance coil unit for transmitting the wireless power signal to the outside through the self-resonance method.

In the array antenna for multiple wireless power transmission support according to the present invention, the magnetic induction element unit is connected to the second connection unit receiving the wireless power signal, and the second connection unit to receive the wireless power signal from the second connection unit, It characterized in that it comprises an induction coil for transmitting the wireless power signal to the outside through the magnetic induction method.

In the array antenna for multiple wireless power transmission support according to the present invention, the resonance coil unit or the induction coil unit is characterized in that the inside has an empty loop (loop) shape.

In the array antenna for multiple wireless power transmission support according to the present invention, the induction coil part is arranged to be spaced apart from the resonant coil part inside the resonant coil part.

A wireless power transmission apparatus using an array antenna supporting multiple wireless power transmissions according to the present invention transmits a wireless power signal to the outside by a self-resonance method, and has an empty self-resonance element unit and an inside of the self-resonance element unit. An array antenna arranged to be spaced apart from the magnetic resonance element unit and including a magnetic induction element unit for transmitting a wireless power signal to the outside by a magnetic induction method, connected to the magnetic resonance element unit, and the wireless power A first power transmission station that generates a signal and supplies the generated wireless power signal to the magnetic resonance element unit, is connected to the magnetic induction element unit, generates the wireless power signal, and generates the wireless power signal. And a second power transmission station that supplies the magnetic induction element.

The array antenna for multiple wireless power transmission support according to the present invention is a magnetic resonance element unit for transmitting a wireless power signal to the outside by a magnetic resonance method, and a magnetic resonance element unit is spaced apart from the magnetic resonance element unit, and a wireless power signal It is provided with a magnetic induction element for transmitting to the outside by a magnetic induction method, it is possible to support the magnetic resonance method and the magnetic induction method wireless power transmission at the same time.

In addition, the array antenna for multiple wireless power transmission support according to the present invention can maximize the wireless power transmission efficiency by minimizing interference between each wireless power transmission method by disposing the magnetic induction element parts within the magnetic resonance element.

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

It should be noted that in the following description, only parts necessary for understanding the embodiments of the present invention are described, and descriptions of other parts will be omitted so as not to distract the subject matter of the present invention.

The terms or words used in the present specification and claims described below should not be interpreted as being limited to ordinary or lexical meanings, and the inventor is appropriate as a concept of terms to describe his or her invention in the best way. It should be interpreted as a meaning and a concept consistent with the technical idea of the present invention based on the principle that it can be defined as such. Therefore, the configuration shown in the embodiments and drawings described in this specification is only a preferred embodiment of the present invention, and does not represent all of the technical spirit of the present invention, and various equivalents that can replace them at the time of this application It should be understood that there may be and variations.

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

Meanwhile, the wireless power transmission device is affected by peripheral devices according to the characteristics of the power transmission antenna. That is, the wireless power transmission is influenced by the antenna efficiency according to the antenna arrangement or the separation distance between antennas of the same wireless power transmission method. Accordingly, the wireless power transmission apparatus 100 using a multi-radio power transmission support array antenna 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.

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

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

The array antenna 10 supporting multiple wireless power transmissions may transmit wireless power signals to each other in a self-resonance method and a magnetic induction method.

The array antenna 10 for supporting multiple wireless power transmission includes a magnetic resonance element unit 11 and a magnetic induction element unit 12.

The magnetic resonance element unit 11 may transmit a wireless power signal to the outside by a magnetic resonance method. That is, the magnetic resonance element unit 11 generates a magnetic field vibrating at a resonance frequency and radiates it to the outside, so that energy can be intensively transmitted to a receiver of an external device (not shown) designed at the same resonance frequency.

The self-resonant element unit 11 is supplied with a wireless power signal from the first connection unit 11a connected to the first connection unit 11a and the first connection unit 11a to receive a wireless power signal, and the magnetic resonance method. It may include a resonance coil unit (11b) for transmitting a wireless power signal to the outside.

Here, the resonant coil portion 11b may be formed in a circular loop shape having an empty interior. However, the present invention is not limited thereto, and the resonant coil portion 11b may be formed in an oval, hexagonal or octagonal shape of an empty ring. The resonant coil portion 11b is a portion where the electromagnetic field is concentrated in the magnetic resonance element portion 11.

Meanwhile, the magnetic induction element unit 12 may transmit a wireless power signal to the outside by a magnetic induction method. That is, the magnetic induction element unit 12 may generate a magnetic field so that electricity can be induced at a receiving unit of an external device (not shown).

The magnetic induction element unit 12 is supplied with a wireless power signal from the second connection unit 12a and the second connection unit 12a that is connected to the second connection unit 12a and receives the wireless power signal. It may include an induction coil unit (12b) for transmitting a wireless power signal to the outside.

The induction coil portion 12b may be formed in a circular loop shape in which the inside is empty. However, the present invention is not limited thereto, and the induction coil portion 12b may be formed in an oval, hexagonal, or octagonal shape of an empty ring. The induction coil portion 12b is a portion in which the electromagnetic field is concentrated in the magnetic induction element portion 12.

Here, the induction coil portion 12b may be located inside the resonant coil portion 11b of the magnetic resonance element portion 11. That is, the induction coil portion 12b is formed to correspond to the ring-shaped resonant coil portion 11b and has a ring shape formed smaller than the resonant coil portion 11b, and the resonant coil portion 11b is provided inside the resonant coil portion 11b. It can be placed in a spaced state.

As described above, the array antenna 10 supporting multiple wireless power transmissions is spaced apart from the magnetic induction element unit 20 inside the magnetic resonance element unit 10, thereby minimizing interference between each wireless power transmission method to reduce the wireless power. Transmission efficiency can be maximized.

The first power transmission station 20 may receive AC power of commercial power, convert it into DC, and transmit it to the magnetic resonance receiver 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 AC power of commercial power, converts it into DC power, and supplies it to the first signal generator 22.

The first signal generator 22 may generate a wireless power signal having a resonance frequency of a specific band of 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 serves to transfer the wireless power signal generated from the first signal generating unit 22 to the magnetic resonance element unit 11, and optimizes the resonance frequency of the transmitted wireless power signal. The resonance frequency of the wireless power signal generated from the first signal generator 22 can be adjusted so that it can be transmitted to the outside.

The second power transmission station 30 may receive AC power of commercial power and convert it into DC to transmit it to the magnetic induction receiver 12.

The second power transmission station 30 may include a second power supply unit 31, a second signal generation unit 32, and a second frequency adjustment unit 33.

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

The second signal generating unit 32 may generate a wireless power signal having an induction frequency of a specific band of 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 serves to transfer the wireless power signal generated from the second signal generating unit 32 to the magnetic resonance element unit 12, and optimizes the resonance frequency of the wireless power signal to be transmitted. The resonance frequency of the wireless power signal generated from the second signal generator 32 may be adjusted so that it can be transmitted to the outside.

Therefore, the multi-radio power transmission support array antenna 10 according to an embodiment of the present invention is a magnetic resonance element unit 11 for transmitting a wireless power signal to the outside by a magnetic resonance method, and the vicinity of the magnetic resonance element unit 11 The magnetic resonance element unit 11 is spaced apart, and a magnetic induction element unit 12 for transmitting a wireless power signal to the outside by a magnetic induction method is provided, and the wireless power transmission of the magnetic resonance method and the magnetic induction method is provided. You can apply at the same time.

In addition, the array antenna 10 for supporting multiple wireless power transmissions according to an embodiment of the present invention is arranged by separating the magnetic induction element parts 12 inside the magnetic resonance element part 11, thereby interfering with each wireless power transmission method. By minimizing, it is possible to maximize the efficiency of wireless power transmission.

On the other hand, the embodiments disclosed in the drawings are merely presented as specific examples to aid understanding, and are not intended to limit the scope of the present invention. It is obvious to those skilled in the art to which the present invention pertains that other modifications based on the technical spirit of the present invention can be implemented in addition to the embodiments disclosed herein.

10: Array antenna supporting multiple wireless power transmissions 11: Magnetic resonance element unit
11a: 1st connection part 11b: Resonant coil part
12: magnetic induction element portion 12a: second connection portion
12b: induction coil unit 20: first power transmission station
21: first power supply 22: first signal generating unit
23: first frequency control unit 30: second power transmission station
31: second power supply 32: second signal generating unit
33: second frequency adjustment unit

Claims (6)

A magnetic resonance element unit that transmits a wireless power signal to the outside by a magnetic resonance method;
And including; the magnetic resonance element neighborhood being arranged separately from the resonance element and the magnetic portion in part, by the wireless power signal to the magnetic induction type magnetic inductive element unit for transmitting to the outside
The magnetic resonance element unit,
A first connection unit receiving the wireless power signal;
It includes; a resonance coil unit connected to the first connection unit to receive the wireless power signal from the first connection unit and to transmit the wireless power signal to the outside through the self-resonance method.
The magnetic induction element portion,
A second connection unit receiving the wireless power signal;
It includes; an induction coil unit connected to the second connection unit to receive the wireless power signal from the second connection unit, and to transmit the wireless power signal to the outside through the magnetic induction method.
The induction coil unit is arranged inside the resonant coil unit, the array antenna supporting multiple wireless power transmissions, characterized in that spaced apart from the resonant coil unit . delete delete According to claim 1,
The resonant coil unit or the induction coil unit is a multi-wireless power transmission support array antenna, characterized in that the inside has an empty loop (loop) shape. delete It includes a resonant coil unit for transmitting a wireless power signal to the outside by a self-resonant method, the inside of the resonant coil unit is empty, and the magnetic resonance element unit is disposed inside the resonant coil unit A multi-radio power transmission supporting array antenna including an induction coil portion spaced apart from the resonant coil portion, and including a magnetic induction element portion transmitting a wireless power signal to the outside by a magnetic induction method;
A first power transmission station connected to the magnetic resonance element unit to generate the wireless power signal and to supply the generated wireless power signal to the magnetic resonance element unit;
A second power transmission station connected to the magnetic induction element unit to generate the wireless power signal and supply the generated wireless power signal to the magnetic induction element unit;
Wireless power transmission device using a multi-radio power transmission support array antenna, characterized in that it comprises a.

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