KR20200083112A - Wireless charging system using ultra wide band - Google Patents

Abstract

Disclosed is a wireless charging transmitter for transmitting a power signal in consideration of an object in space and a wireless charging system including the same. According to an embodiment of the present invention, a wireless charging transmitter includes: a UWB module that generates information related to at least one object in a space in which the wireless charging transmitter is disposed using a UWB signal; And a wireless charging transmission module that transmits a power signal in at least one frequency band to at least one receiver in a radio frequency (RF) manner based on information related to the at least one object.

Description

Wireless charging system using UWB{WIRELESS CHARGING SYSTEM USING ULTRA WIDE BAND}

The following embodiments relate to a wireless charging system that wirelessly transmits a power signal generated from a transmitter to charge at least one receiver, and relates to a technology for transmitting a power signal in consideration of an object in space.

Recently, as various portable terminals using wireless communication have been widely spread, wireless charging technology for wirelessly charging the portable terminal has also been actively developed.

The wireless charging technology is a technology for charging a portable terminal according to a power signal transmitted from a wireless charging transmitter based on any one of a magnetic induction method, a magnetic resonance method, or an RF wireless charging method. Built-in, the portable terminal receives a power signal to be used for charging from the wireless charging transmitter.

In such a wireless charging technology, the magnetic induction method and the magnetic resonance method have a hassle of arranging the portable terminal close to the wireless charging transmitter, and thus the RF wireless charging method is in the spotlight.

However, in the case of the RF wireless charging method, since the power signal is transmitted without considering a person or other object located in the space where the wireless charging is performed, the strength of the power signal received at the receiver is weakened, or the user is directly in the power signal It has the problem of being exposed.

Accordingly, there is a need to propose a technique for solving the problems of the existing RF wireless charging method.

SUMMARY Embodiments provide a wireless charging transmitter that transmits a power signal in consideration of an object in a space where wireless charging is performed, and a wireless charging system including the same.

More specifically, embodiments of the present disclosure include a wireless charging transmitter for transmitting at least one power signal to at least one receiver based on information related to at least one object in a space generated using a UWB signal, and a wireless charging system including the same Gives

According to an embodiment, a wireless charging transmitter using an Ultra Wide Band (UWB) includes: a UWB module that generates information related to at least one object in a space in which the wireless charging transmitter is disposed using a UWB signal; And a wireless charging transmission module that transmits a power signal in at least one frequency band to at least one receiver in a radio frequency (RF) manner based on information related to the at least one object.

According to one side, the wireless charging transmission module, based on the information associated with the at least one object, characterized in that for transmitting a power signal of the at least one frequency band to avoid a specific object of the at least one object Can.

According to another aspect, the wireless charging transmission module, the at least one frequency band of the power signal avoids the specific object and is reflected by some object of the at least one object to reach the at least one receiver It may be characterized by transmitting a power signal in one frequency band.

According to another aspect, the UWB module may be configured to detect the shape and position of the at least one object in the space and generate information related to the at least one object.

According to another aspect, the UWB module may include a UWB transmitter and a UWB receiver that are respectively disposed at physically separate locations from each other in the space.

According to another aspect, the wireless charging and transmitting module may be provided with the UWB receiver and one device to receive information related to the at least one object while being electrically connected to the UWB receiver.

According to another aspect, the wireless charging transmission module may be characterized in that it is provided independently of the UWB receiver so as to receive information related to the at least one object through wireless communication with the UWB receiver.

According to another aspect, the wireless charging transmission module may be characterized in that power signals of a plurality of frequency bands are simultaneously transmitted to the at least one receiver.

According to another aspect, the wireless charging transmission module is used to communicate with the UWB module, independently of at least one RF antenna used to transmit power signals of the at least one frequency band to the at least one receiver. It may be characterized in that it comprises a communication antenna.

According to another aspect, the wireless charging and transmitting module is characterized in that the at least one RF antenna used to transmit the power signal of the at least one frequency band to the at least one receiver is used to communicate with the UWB module. can do.

According to another aspect, the wireless charging transmission module, based on the frequency information received through the communication antenna from the at least one receiver, characterized in that for determining the frequency band of the power signal to be transmitted to the at least one receiver can do.

According to an embodiment, a method of operating a wireless charging transmitter using an Ultra Wide Band (UWB) includes generating information related to at least one object in a space in which the wireless charging transmitter is disposed using a UWB signal. ; And transmitting a power signal in at least one frequency band to at least one receiver in a radio frequency (RF) manner based on the information related to the at least one object.

According to one side, the step of transmitting the power signal of the at least one frequency band to at least one receiver in a radio frequency (RF) method, based on information related to the at least one object, specific of the at least one object It may be a step of transmitting the power signal of the at least one frequency band to avoid the object.

According to another aspect, in the step of transmitting the power signal in the at least one frequency band to avoid the specific object, the power signal in the at least one frequency band avoids the specific object and some of the at least one object It may be a step of transmitting a power signal of the at least one frequency band to be reflected by the at least one receiver.

According to another aspect, the generating of information related to the at least one object may include: detecting a shape and a position of the at least one object in the space; And generating information related to the at least one object based on the detection result.

According to an embodiment, a wireless charging system using an Ultra Wide Band (UWB) includes: a wireless charging transmitter; And at least one receiver wirelessly charged by the wireless charging transmitter, wherein the wireless charging transmitter uses UWB signals to transmit information related to at least one object in a space in which the wireless charging transmitter is disposed. Generating UWB module; And a wireless charging transmission module that transmits a power signal in at least one frequency band to at least one receiver in a radio frequency (RF) manner based on information related to the at least one object.

According to one side, the wireless charging transmission module, based on the information associated with the at least one object, characterized in that for transmitting a power signal of the at least one frequency band to avoid a specific object of the at least one object Can.

According to another aspect, the wireless charging transmission module, the at least one frequency band of the power signal avoids the specific object and is reflected by some object of the at least one object to reach the at least one receiver It may be characterized by transmitting a power signal in one frequency band.

One embodiment may provide a wireless charging transmitter that transmits a power signal in consideration of an object in a space in which wireless charging is performed, and a wireless charging system including the same.

More specifically, embodiments of the present disclosure include a wireless charging transmitter for transmitting at least one power signal to at least one receiver based on information related to at least one object in a space generated using a UWB signal, and a wireless charging system including the same Can provide

Accordingly, one embodiment may solve the problem that the strength of the power signal received from at least one receiver is weakened and the user is directly exposed to the power signal by considering an object in space.

1 is a block diagram showing a wireless charging system according to an embodiment.
2 is a block diagram showing a wireless charging transmitter according to an embodiment.
3 is a block diagram illustrating a UWB module included in a wireless charging transmitter according to an embodiment.
4 is a block diagram showing a wireless charging transmission module included in a wireless charging transmitter according to an embodiment,
5 is a diagram for describing a process in which a wireless charging transmitter transmits at least one power signal according to an embodiment.
6 is a flowchart illustrating a method of operating a wireless charging system according to an embodiment.

Hereinafter, embodiments will be described in detail with reference to the accompanying drawings. However, the present invention is not limited or limited by the embodiments. In addition, the same reference numerals shown in each drawing denote the same members.

In addition, terms used in the present specification (terminology) are terms used to properly express a preferred embodiment of the present invention, which may vary according to a user, an operator's intention, or customs in the field to which the present invention pertains. Therefore, definitions of these terms should be made based on the contents throughout the present specification.

1 is a block diagram showing a wireless charging system according to an embodiment, FIG. 2 is a block diagram showing a wireless charging transmitter according to an embodiment, and FIG. 3 is a UWB module included in a wireless charging transmitter according to an embodiment 4 is a block diagram illustrating a wireless charging transmission module included in a wireless charging transmitter according to an embodiment, and FIG. 5 is a wireless charging transmitter according to an embodiment transmitting at least one power signal. It is a diagram for explaining the process.

1 to 5, the wireless charging system 100 according to an embodiment includes a wireless charging transmitter 110 and at least one receiver 120 wirelessly charged by the wireless charging transmitter 110. Hereinafter, the at least one receiver 120 may be various electronic devices requiring charging, such as a mobile phone or a tablet PC used by a user.

The wireless charging transmitter 110 includes a UWB module 210 and a wireless charging transmission module 220. Hereinafter, the wireless charging transmission module 220 may be provided as at least a part of the components included in the UWB module 210 and one device (wireless charging transmitter 110), but is not limited or limited to the UWB module 210 ). That is, hereinafter, the wireless charging transmitter 110 may be composed of a single physical device, or may be composed of two independent physically provided devices.

The UWB module 210 generates information related to at least one object in a space in which the wireless charging transmitter 110 is disposed using the UWB signal.

Specifically, the UWB module 210 processes the UWB signal transmitted from the UWB transmitter 310 while being composed of the UWB transmitter 310 and the UWB receiver 320, as shown in FIG. 3, at least in space. The shape and position of one object may be sensed to generate information related to at least one object.

To this end, the UWB transmitter 310 may be composed of a UWB signal generator (not shown) and a transmission antenna that generate UWB signals, and the UWB receiver 320 receives UWB signals transmitted from the UWB transmitter 310. It may be configured as an antenna (not shown) and a signal processor (not shown) that processes the received UWB signal to detect the shape and position of at least one object in space. Since the UWB transmitter 310 and the UWB receiver 320 have the same structure and function as each component constituting the conventional UWB module, detailed description thereof will be omitted.

In this way, the UWB transmitter 310 and the UWB receiver 320 are mutually spaced so that the UWB receiver 320 can generate information related to at least one object in space based on the UWB signal transmitted from the UWB transmitter 310. Each may be placed in physically separated positions (spaces separated from each other).

The wireless charging transmission module 220 outputs by matching at least one PLL (Phase Locked Loop) 410 generating at least one frequency band power signal and power signals of at least one frequency band for each frequency as shown in FIG. 4. At least one matching unit 420, at least one RF antenna 430 transmitting at least one frequency band power signal to the at least one receiver 120, and at least one PLL 410 and at least one matching The control unit 440 may be configured to control the unit 420.

At this time, the wireless charging transmission module 220 can adaptively adjust the frequency band of the transmitted power signal. For example, the control unit 440 included in the wireless charging transmission module 220 is a communication antenna (at least one RF antenna 430 and an antenna distinguished or at least one RF antenna 430, any one used for communication) By receiving the frequency information (at least one receiver 120 information about the available frequency band) from the at least one receiver 120 through the antenna of the, to the at least one receiver 120 according to the received frequency information The frequency band of the power signal to be transmitted can be determined.

In addition, the wireless charging transmission module 220 not only transmits a power signal of an adaptively adjusted single frequency band to at least one receiver 120, but also transmits power signals of a plurality of frequency bands to at least one receiver 120 It can also be transmitted simultaneously. Accordingly, the charging efficiency may be improved by using at least one receiver 120 using power signals of a plurality of frequency bands in a charging process.

The wireless charging transmission module 220 selectively switches a power amplifier (not shown) that amplifies a power signal in at least one frequency band and/or a power signal in at least one frequency band to at least one matching unit 420. It may be configured to further include a switch element (not shown). At least one PLL 410, at least one matching unit 420, at least one RF antenna 430 and the control unit 440 have the same structure and function as each component constituting a conventional RF wireless charging transmitter. , Detailed description thereof will be omitted.

Unlike the conventional RF wireless charging transmitter, the wireless charging/transmitting module 220 having such a structure uses at least one power signal in at least one frequency band in a radio frequency (RF) manner based on information related to at least one object. Characterized in that it transmits to the receiver 120 of. To this end, the wireless charging transmission module 220 may further include a communication antenna (not shown) used to receive information related to at least one object from the UWB module 210. However, the present invention is not limited or limited thereto, and the wireless charging and transmitting module 220 uses a communication antenna used to receive information related to at least one object from the UWB module 210 using one of the at least one RF antenna 430. It can also be used as

More specifically, the wireless charging transmission module 220 may transmit power signals in at least one frequency band to avoid a specific object based on information related to at least one object in a space received from the UWB module 210. have. That is, the wireless charging transmission module 220 transmits power signals of at least one frequency band so that power signals of at least one frequency band avoid certain objects and are reflected by some objects to reach at least one receiver 120. I can send it.

For example, as shown in FIG. 5, while the space is composed of the first wall 511 and the second wall 512, the human object 510 in the space includes at least one receiver 120 and the wireless charging transmitter 110 ( More precisely, when located between the wireless charging transmission module 220, the UWB module 210 detects the location of the first wall 511 and the second wall 512 and the location of the human object 510 The information is generated and transmitted to the wireless charging transmission module 220. Accordingly, the wireless charging transmission module 220 is based on information related to the location of the first wall 511 and the second wall 512, and information related to the location of the human object 510, a power signal in at least one frequency band Can determine the direction to be transmitted. For a more specific example, the wireless charging transmission module 220 avoids the human object 510 as the power signal of at least one frequency band is reflected by the first wall 511 and the second wall 512 as shown in the figure. In one direction, power signals of at least one frequency band may be transmitted in a direction to reach at least one receiver 120.

Accordingly, the wireless charging transmitter 110 according to an embodiment may solve a problem in which the strength of a power signal received by at least one receiver 120 is weakened by an object and a user is directly exposed to the power signal. .

The wireless charging transmission module 220 may be provided as one device with the UWB receiver 320 so as to be electrically connected to the UWB receiver 320 in order to receive information related to at least one object from the UWB receiver 320. have. That is, the wireless charging transmission module 220 and the UWB receiver 320 are provided as one device and disposed in a space, and the UWB transmitter 310 can be disposed apart from the device and physically separated.

However, the present invention is not limited or limited thereto, and the wireless charging transmission module 220 may be provided independently of the UWB receiver 320 to be wirelessly connected to the UWB receiver 320 to receive information related to at least one object. For example, the wireless charging transmission module 220 may be provided as one device with the UWB transmitter 310 or may be provided independently at a location physically separated from both the UWB transmitter 310 and the UWB receiver 320.

6 is a flowchart illustrating a method of operating a wireless charging system according to an embodiment. Hereinafter, the operation method of the described wireless charging system may be performed mainly by the wireless charging transmitter 110 included in the wireless charging system 100 described above with reference to FIGS. 1 to 5.

Referring to FIG. 6, in step S610, the UWB module 210 included in the wireless charging transmitter 110 uses at least one object in a space in which the wireless charging transmitter 110 is disposed using a UWB signal. And related information. For example, the UWB module 210 may detect the shape and position of at least one object in space, and generate information related to the at least one object based on the detection result.

Next, in step S620, the UWB module 210 transmits information related to at least one object to the wireless charging transmission module 220 included in the wireless charging transmitter 110.

Accordingly, in step S630, the wireless charging transmission module 220 transmits a power signal in at least one frequency band to at least one receiver in a radio frequency (RF) manner based on information related to at least one object. .

That is, in step 630, the wireless charging transmission module 220 may transmit a power signal in at least one frequency band to avoid a specific object among at least one object based on information related to the at least one object. . For example, the wireless charging transmission module 220 may at least one of the power signal of at least one frequency band avoids a specific object and is reflected by the rest of the at least one object to reach the at least one receiver 120 Power signals in the frequency band can be transmitted.

As described above, although the embodiments have been described by a limited embodiment and drawings, those skilled in the art can make various modifications and variations from the above description. For example, the described techniques are performed in a different order than the described method, and/or the components of the described system, structure, device, circuit, etc. are combined or combined in a different form from the described method, or other components Alternatively, even if replaced or substituted by equivalents, appropriate results can be achieved.

Therefore, other implementations, other embodiments, and equivalents to the claims are also within the scope of the following claims.

Claims (18)

In the wireless charging transmitter using the UWB (Ultra Wide Band),
A UWB module that generates information related to at least one object in a space in which the wireless charging transmitter is disposed using a UWB signal; And
A wireless charging transmission module that transmits a power signal in at least one frequency band to at least one receiver in a radio frequency (RF) manner based on information related to the at least one object.
Wireless charging transmitter comprising a. According to claim 1,
The wireless charging transmission module,
And transmitting a power signal in the at least one frequency band to avoid a specific object among the at least one object based on information related to the at least one object. According to claim 2,
The wireless charging transmission module,
And transmitting the power signal in the at least one frequency band such that the power signal in the at least one frequency band avoids the specific object and is reflected by some of the at least one object to reach the at least one receiver. Wireless charging transmitter. According to claim 1,
The UWB module,
And detecting the shape and position of the at least one object in the space to generate information related to the at least one object. According to claim 1,
The UWB module,
A wireless charging transmitter comprising a UWB transmitter and a UWB receiver that are respectively disposed at physically separate locations within the space. The method of claim 5,
The wireless charging transmission module,
Wireless charging transmitter, characterized in that provided with the UWB receiver and one device to receive information related to the at least one object while being electrically connected to the UWB receiver. The method of claim 5,
The wireless charging transmission module,
Wireless charging transmitter characterized in that it is provided independently of the UWB receiver to be connected to the UWB receiver in wireless communication and to receive information related to the at least one object. According to claim 1,
The wireless charging transmission module,
A wireless charging transmitter characterized in that power signals of a plurality of frequency bands are simultaneously transmitted to the at least one receiver. According to claim 1,
The wireless charging transmission module,
And a communication antenna used to communicate with the UWB module, independently of at least one RF antenna used to transmit power signals of the at least one frequency band to the at least one receiver. According to claim 1,
The wireless charging transmission module,
The at least one RF antenna used to transmit the power signal of the at least one frequency band to the at least one receiver is used to communicate with the UWB module. The method of any one of claims 9 or 10,
The wireless charging transmission module,
And determining a frequency band of a power signal to be transmitted to the at least one receiver based on the frequency information received from the at least one receiver through the communication antenna. In the operation method of the wireless charging transmitter using the UWB (Ultra Wide Band),
Generating information related to at least one object in a space in which the wireless charging transmitter is disposed using a UWB signal; And
Transmitting power signals of at least one frequency band to at least one receiver in a radio frequency (RF) manner based on information related to the at least one object
Method of operation of a wireless charging transmitter comprising a. The method of claim 12,
Transmitting the power signal of the at least one frequency band to at least one receiver in a radio frequency (RF) method,
And transmitting a power signal in the at least one frequency band to avoid a specific object among the at least one object based on information related to the at least one object. The method of claim 13,
The step of transmitting the power signal of the at least one frequency band to avoid the specific object,
Transmitting the power signals in the at least one frequency band such that the power signals in the at least one frequency band avoid the specific object and are reflected by some of the at least one object to reach the at least one receiver. How the wireless charging transmitter works. The method of claim 12,
Generating information related to the at least one object (Object),
Sensing the shape and position of the at least one object in the space; And
Generating information related to the at least one object based on the detection result
Method of operation of a wireless charging transmitter comprising a. In the wireless charging system using the UWB (Ultra Wide Band),
Wireless charging transmitter; And
At least one receiver wirelessly charged by the wireless charging transmitter
Including,
The wireless charging transmitter,
A UWB module generating information related to at least one object in a space in which the wireless charging transmitter is disposed using a UWB signal; And
A wireless charging transmission module that transmits a power signal in at least one frequency band to at least one receiver in a radio frequency (RF) manner based on information related to the at least one object.
Wireless charging system comprising a. The method of claim 16,
The wireless charging transmission module,
And transmitting a power signal in the at least one frequency band to avoid a specific object among the at least one object based on information related to the at least one object. The method of claim 17,
The wireless charging transmission module,
And transmitting the power signal in the at least one frequency band such that the power signal in the at least one frequency band avoids the specific object and is reflected by some of the at least one object to reach the at least one receiver. Wireless charging system.

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