KR101976625B1 - Wireless power receiver and power receiving method thereof - Google Patents

Abstract

A wireless power receiving apparatus for wirelessly receiving power from a wireless power transmitting apparatus for performing unidirectional communication according to an embodiment of the present invention includes a receiving unit that receives status information of another wireless power receiving apparatus that receives power from the wireless power transmitting apparatus And a time interval checking unit for checking a time interval used by the other wireless power receiving apparatus based on the received information and the received status information, wherein the wireless power receiving apparatus transmits the other wireless power receiving apparatus And communicates with the wireless power transmission apparatus using a time interval during which the apparatus is not in use.

Description

TECHNICAL FIELD [0001] The present invention relates to a wireless power receiving apparatus and a power receiving method thereof.

The present invention relates to wireless power transmission techniques. More particularly, the present invention relates to a technique capable of receiving power from a wireless power transmission apparatus capable of unidirectional communication using a wireless power reception apparatus capable of bidirectional communication.

In the 1800s, electric motors and transformers using electromagnetic induction principles began to be used, and then radio waves and lasers were used to transmit the electric energy to the desired devices wirelessly. A method of transmitting electrical energy by radiating the same electromagnetic wave has also been attempted. Our electric toothbrushes and some wireless shavers are actually charged with electromagnetic induction. Electromagnetic induction is a phenomenon in which a voltage is induced and a current flows when a magnetic field is changed around a conductor. The electromagnetic induction method is rapidly commercialized mainly in small-sized devices, but there is a problem in that the transmission distance of electric power is short.

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

In wireless power transmission technology, a wireless power transmission apparatus uses a two-way communication scheme to recognize two or more wireless power receiving apparatuses.

However, in the case of using bi-directional communication, there is a problem that the price increase of the wireless power transmission system is increased due to the module necessary for bidirectional communication, and the communication protocol becomes complicated.

In addition, when the wireless power transmission apparatus transmits information to the wireless power reception apparatus using bidirectional communication, the power used for information transmission may deteriorate the power transmission efficiency between the wireless power transmission apparatus and the wireless power reception apparatus.

It is an object of the present invention to provide a method of reducing the price of a wireless power transmission system and simplifying a communication protocol by using unidirectional communication and two-way communication in a wireless power transmission process.

The present invention reduces the cost of a wireless power transmission system, simplifies a communication protocol, and reduces power consumption of a wireless power transmission apparatus and a wireless power reception apparatus through a wireless power transmission apparatus performing unidirectional communication and a wireless power reception apparatus performing bidirectional communication. And a method for improving the power transmission efficiency.

A wireless power receiving apparatus for wirelessly receiving power from a wireless power transmitting apparatus for performing unidirectional communication according to an embodiment of the present invention receives status information of another wireless power receiving apparatus that receives power from the wireless power transmitting apparatus And a time interval checking unit for checking a time interval used by the other wireless power receiving apparatus based on the received status information, wherein the wireless power receiving apparatus further comprises: And communicates with the wireless power transmission apparatus using a time interval not used by the reception apparatus.

A power receiving method of a wireless power receiving apparatus that wirelessly receives power from a wireless power transmitting apparatus that performs unidirectional communication according to another embodiment of the present invention includes receiving power from another wireless power receiving apparatus Receiving the state information of the other wireless power receiving apparatus, checking the time interval used by the other wireless power receiving apparatus based on the received state information, and checking the time period not used by the other wireless power receiving apparatus And communicating with the wireless power transmission apparatus using the interval.

A wireless power transmission system including a wireless power transmission apparatus for performing unidirectional communication according to another embodiment of the present invention and a wireless power reception apparatus for wirelessly receiving power from the wireless power transmission apparatus includes: Receiving status information of another wireless power receiving apparatus that receives power from the other wireless power receiving apparatus, checking a time interval used by the other wireless power receiving apparatus based on the received status information, A wireless power receiving apparatus for communicating with the wireless power transmitting apparatus by using a time interval not used by the receiving apparatus, and a wireless power transmitting apparatus for wirelessly transmitting power to the wireless power receiving apparatus and the other wireless power receiving apparatus .

According to the embodiment of the present invention, unidirectional communication and two-way communication can be used in the wireless power transmission process to reduce the price of the wireless power transmission system and simplify the communication protocol.

Further, according to the embodiment of the present invention, it is possible to reduce the price of the wireless power transmission system, simplify the communication protocol, and reduce the power consumption of the wireless power transmission system through the wireless power transmission apparatus performing unidirectional communication and the wireless power reception apparatus performing bidirectional communication. The power transmission efficiency between the apparatus and the wireless power receiving apparatus can be improved.

Meanwhile, various other effects will be directly or implicitly disclosed in the detailed description according to the embodiment of the present invention to be described later.

1 is a diagram for explaining a wireless power transmission system according to an embodiment of the present invention.
2 is an equivalent circuit diagram of a transmission induction coil according to an embodiment of the present invention.
3 is an equivalent circuit diagram of a power supply apparatus and a wireless power transmission apparatus according to an embodiment of the present invention.
4 is an equivalent circuit diagram of a wireless power receiving apparatus according to an embodiment of the present invention.
5 is a diagram illustrating a wireless power transmission system according to another embodiment of the present invention.
6 is a block diagram illustrating a wireless power receiving apparatus according to another embodiment of the present invention.
7 is a view for explaining a power receiving method of a wireless power receiving apparatus according to an embodiment of the present invention.
8 is a diagram for explaining a time interval in which the first wireless power receiving apparatus and the second wireless power receiving apparatus transmit status information.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings, which will be easily understood by those skilled in the art.

1 is a diagram for explaining a wireless power transmission system according to an embodiment of the present invention.

1, a wireless power transmission system 10 may include a power supply 100, a wireless power transmission device 200, a wireless power reception device 300,

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

The wireless power transmission apparatus 200 may include a transmission induction coil 210 and a transmission resonance coil 220.

The wireless power receiving apparatus 300 may include a receiving resonant coil 310, a receiving induction coil 320, and a rectifying unit 330.

Both ends of the power supply device 100 are connected to both ends of the transmission induction coil 210.

The transmission resonant coil 220 may be disposed at a certain distance from the transmission induction coil 210.

The reception resonant coil 310 may be disposed at a certain distance from the reception induction coil 320. [

Both ends of the reception induction coil 320 are connected to both ends of the rectification part 330 and the load 400 is connected to both ends of the rectification part 330. In one embodiment, the load 400 may be included in the wireless power receiving device 300.

The power generated by the power supply apparatus 100 is transmitted to the wireless power transmission apparatus 200 and the power transmitted to the wireless power transmission apparatus 200 is resonated with the wireless power transmission apparatus 200 And transmitted to the wireless power receiving apparatus 300 having the same resonance frequency value.

More specifically, the power transmission process will be described below.

The power supply apparatus 100 generates and transmits AC power having a predetermined frequency to the wireless power transmission apparatus 200.

The transmission induction coil 210 and the transmission resonance coil 220 are inductively coupled. That is, when the alternating current flows by the electric power supplied from the power supply device 100, the transmission induction coil 210 induces an alternating current also in the transmission resonance coil 220 which is physically separated by the electromagnetic induction.

Thereafter, the power transmitted to the transmission resonant coil 220 is transmitted to the wireless power receiving apparatus 300 which forms a resonant circuit with the wireless power transmitting apparatus 200 by resonance.

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

The reception resonance coil 310 receives power from the transmission resonance coil 220 by resonance. An AC current flows in the reception resonant coil 310 due to the received power. The power transmitted to the reception resonance coil 310 is transmitted to the reception induction coil 320 inductively coupled to the reception resonance coil 310 by electromagnetic induction. The power transmitted to the reception induction coil 320 is rectified through the rectifying part 330 and transferred to the load 400.

In one embodiment, the transmission induction coil 210, the transmission resonance coil 220, the reception resonance coil 310, and the reception induction coil 320 may have a shape such as a circle, an ellipse, a square, and the like, none.

The transmitting resonant coil 220 of the wireless power transmitting apparatus 200 can transmit power to the receiving resonant coil 310 of the wireless power receiving apparatus 300 through a magnetic field.

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

The power transmission efficiency between the wireless power transmission apparatus 200 and the wireless power reception apparatus 300 can be greatly improved due to the resonance coupling between the transmission resonance coil 220 and the reception resonance coil 310.

In wireless power transmission, quality factor and coupling coefficient have important meaning. That is, the power transmission efficiency can be improved as the quality index and coupling coefficient have larger values.

The quality factor may mean an index of energy that can be accumulated in the vicinity of the wireless power transmission apparatus 200 or the wireless power reception apparatus 300.

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

The quality factor can have a value from 0 to infinity. The larger the quality index, the higher the power transmission efficiency between the wireless power transmission apparatus 200 and the wireless power reception apparatus 300 can be.

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

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

2 is an equivalent circuit diagram of a transmission induction coil 210 according to an embodiment of the present invention.

As shown in FIG. 2, the transmission induction coil 210 may include an inductor L 1 and a capacitor C 1, thereby constituting a circuit having an appropriate inductance and a capacitance value.

The transmission induction coil 210 may be constituted by an equivalent circuit in which both ends of the inductor L1 are connected to both ends of the capacitor C1. That is, the transmission induction coil 210 may be composed of an equivalent circuit in which the inductor L1 and the capacitor C1 are connected in parallel.

The capacitor C1 may be a variable capacitor, and the impedance matching may be performed as the capacitance of the capacitor C1 is adjusted. The equivalent circuit of the transmission resonant coil 220, the reception resonant coil 310, and the reception induction coil 320 may also be the same as that shown in Fig.

3 is an equivalent circuit diagram of a power supply apparatus 100 and a wireless power transmission apparatus 200 according to an embodiment of the present invention.

3, the transmission induction coil 210 and the transmission resonance coil 220 may include inductors L1 and L2 and capacitors C1 and C2 having a predetermined inductance value and a capacitance value, respectively.

4 is an equivalent circuit diagram of a wireless power receiving apparatus 300 according to an embodiment of the present invention.

4, the reception resonant coil 310 and the reception induction coil 320 may include inductors L3 and L4 and capacitors C3 and C4 having a predetermined inductance value and a capacitance value, respectively.

The rectifying unit 330 may convert the AC power received from the reception induction coil 320 into DC power and transmit the converted DC power to the load 400.

Specifically, the rectifying section 330 may include a rectifier and a smoothing circuit. In one embodiment, the rectifier may be a silicon rectifier, and may be equivalent to diode D1, as shown in FIG.

The rectifier can convert the DC power to the AC power received from the reception induction coil 320.

The smoothing circuit can output smooth DC power by removing the AC component included in the DC power converted in the rectifier. In one embodiment, the smoothing circuit may be, but need not be, a rectifying capacitor C5, as shown in Fig.

The load 400 may be any rechargeable battery or device requiring direct current power. For example, load 400 may refer to a battery.

The wireless power receiving apparatus 300 may be mounted on an electronic apparatus requiring power such as a mobile phone, a notebook computer, and a mouse. Accordingly, the reception resonant coil 310 and the reception induction coil 320 may have shapes conforming to the shape of the electronic device.

The wireless power transmission apparatus 200 can exchange information with the wireless power reception apparatus 300 using in-band or out-of-band communication.

In band communication may refer to a communication in which information is exchanged between a wireless power transmission apparatus 200 and a wireless power reception apparatus 300 using a signal having a frequency used for wireless power transmission. The wireless power receiving apparatus 300 may further include a switch and may not receive or receive power transmitted from the wireless power transmitting apparatus 200 through the switching operation of the switch. Accordingly, the wireless power transmission apparatus 200 can detect the amount of power consumed in the wireless power transmission apparatus 200 and recognize the ON or OFF signal of the switch included in the wireless power reception apparatus 300. [

Specifically, the wireless power receiving apparatus 300 can change the power consumed in the wireless power transmitting apparatus 200 by changing the amount of power absorbed by the resistor using the resistor and the switch. The wireless power transmission apparatus 200 can detect the change in the consumed power and obtain the status information of the wireless power reception apparatus 300. [ The switch and resistor can be connected in series. In one embodiment, the status information of the wireless power receiving apparatus 300 may include information on a current charging amount and a charging amount change of the wireless power receiving apparatus 300.

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

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

The wireless power transmitting apparatus 200 can receive the status information of the wireless power receiving apparatus 300 according to the above operation, and can transmit appropriate power.

Conversely, it is also possible to transmit the state information of the wireless power transmission apparatus 200 to the wireless power reception apparatus 300 by providing a resistor and a switch on the wireless power transmission apparatus 200 side. In one embodiment, the status information of the wireless power transmission apparatus 200 includes the maximum amount of power that the wireless power transmission apparatus 200 can transmit, the wireless power transmission apparatus 300 that the wireless power transmission apparatus 200 is providing power, And information on the amount of available power of the wireless power transmission apparatus 200.

Next, out-of-band communication will be described.

Out-of-band communication refers to communication in which information necessary for power transmission is exchanged by using a separate frequency band instead of the resonance frequency band. The wireless power transmission apparatus 200 and the wireless power reception apparatus 300 can exchange information necessary for power transmission by mounting an out-of-band communication module. The out-of-band communication module may be mounted on a power supply. In one embodiment, the out-of-band communication module may use a short-range communication method such as Bluetooth, ZigBee, wireless LAN, or NFC (Near Field Communication), but is not limited thereto.

Next, a wireless power receiving apparatus and a power receiving method thereof will be described with reference to Figs. 5 to 8. Fig.

5 is a diagram illustrating a wireless power transmission system according to another embodiment of the present invention.

5, the wireless power transmission system 20 may include a wireless power transmission device 200, a first wireless power reception device 500, and a second wireless power reception device 600. [

The wireless power transmission apparatus 200 may include all the configurations of the wireless power transmission apparatus 200 described with reference to FIGS.

The wireless power transmission apparatus 200 can transmit power to the first wireless power reception apparatus 500 and the second wireless power reception apparatus 600 using electromagnetic induction or resonance.

The wireless power transmission apparatus 200 performs unidirectional communication.

Specifically, the wireless power transmission apparatus 200 can receive information from the first wireless power receiving apparatus 500 and the second wireless power receiving apparatus 600, but can not transmit information. That is, the wireless power transmission apparatus 200 can transmit power to the first wireless power reception apparatus 500 and the second wireless power reception apparatus 600, but can not transmit information on the power transmission state or the like, Only the status information of the wireless power receiving apparatus 500 and the status information of the second wireless power receiving apparatus 600 can be received.

The first wireless power receiving apparatus 500 and the second wireless power receiving apparatus 600 can receive power from the wireless power transmitting apparatus 200 using electromagnetic induction or resonance.

When the first wireless power receiving apparatus 500 and the second wireless power receiving apparatus 600 receive power from the wireless power transmitting apparatus 200 using the resonance, the first wireless power receiving apparatus 500 and the second wireless power receiving apparatus 600, The power receiving apparatus 600 may include all the configurations of the wireless power receiving apparatus 300 shown in FIG.

If the first wireless power receiving apparatus 500 and the second wireless power receiving apparatus 600 receive power using the electromagnetic induction from the wireless power transmitting apparatus 200, The second wireless power receiving apparatus 600 may not include the receiving resonant coil 310 in the configuration of the wireless power receiving apparatus 300 shown in FIG.

The first wireless power receiving apparatus 500 and the second wireless power receiving apparatus 600 can perform bidirectional communication. That is, the first wireless power receiving apparatus 500 and the second wireless power receiving apparatus 600 can transmit or receive information from the outside. In one embodiment, the bi-directional communication may be in-band or out-of-band communication.

The first wireless power receiving apparatus 500 and the second wireless power receiving apparatus 600 can exchange information with each other through bidirectional communication. However, the wireless power transmission apparatus 200 according to the embodiment of the present invention can receive information only from the first wireless power receiving apparatus 500 and the second wireless power receiving apparatus 600, There is no.

6 is a block diagram illustrating a wireless power receiving apparatus according to another embodiment of the present invention.

6, a second wireless power receiving apparatus 600 according to another exemplary embodiment of the present invention includes an information receiving unit 610, a time interval checking unit 620, a time interval determining unit 630, 640). The wireless power receiving apparatus 600 may further include the reception resonant coil 310, the reception induction coil 320, and the rectification unit 330 described with reference to FIG.

The information receiving unit 610 can receive status information of the first wireless power receiving apparatus 500 from the first wireless power receiving apparatus 500. [ In one embodiment, the status information of the first wireless power receiving apparatus 500 includes the identifier information of the first wireless power receiving apparatus 500, the first wireless power receiving apparatus 500 receives the normal power from the wireless power transmitting apparatus 200 The charging completion information indicating that the charging is completed, the required power amount information currently required by the first wireless power receiving apparatus 500, and the first wireless power receiving apparatus 500 Transmission time interval information on a time interval for transmitting the status information of the wireless power transmission apparatus 200 to the wireless power transmission apparatus 200, and the like.

The information receiving unit 610 may receive status information of the first wireless power receiving apparatus 500 from the first wireless power receiving apparatus 500 through in-band or out-of-band communication.

The time interval checking unit 620 determines whether the first wireless power receiving apparatus 500 transmits its state information to the wireless power transmitting apparatus 200 at a certain time based on the received state information of the first wireless power receiving apparatus 500 It is possible to confirm the transmission time interval for whether the data is transmitted in the interval.

That is, the time interval checking unit 620 notifies the wireless power transmitting apparatus 200 of the first wireless power receiving apparatus 500 through the transmission time interval information of the received status information of the first wireless power receiving apparatus 500 It is possible to confirm the time interval during which the status information of the mobile station is transmitted. A detailed description thereof will be described later with reference to FIG. 7 and FIG.

The time interval determining unit 630 determines the time for transmitting the status information of the second wireless power receiving apparatus 600 to the wireless power transmitting apparatus 200 according to the status information transmission time period of the first wireless power receiving apparatus 500 The interval can be determined.

The time period determining unit 630 may determine a remaining time period excluding a time period during which the first wireless power receiving apparatus 500 transmits its state information to the wireless power transmitting apparatus 200 during the entire time period.

The information transmitting unit 640 can transmit the status information of the second wireless power receiving apparatus 600 to the wireless power transmitting apparatus 200 using the determined time interval.

The information transmitting unit 640 may transmit status information of the second wireless power receiving apparatus 600 to the wireless power transmitting apparatus 200 through in-band or out-of-band communication.

Next, a power receiving method of a wireless power receiving apparatus according to an embodiment of the present invention will be described with reference to FIG. 6 to FIG.

FIG. 7 is a view for explaining a power receiving method of a wireless power receiving apparatus according to an embodiment of the present invention. FIG. 8 is a view for explaining a power receiving method of a wireless power receiving apparatus according to an embodiment of the present invention, Fig.

7, the information receiving unit 610 of the second wireless power receiving apparatus 600 receives status information of the first wireless power receiving apparatus 500 from the first wireless power receiving apparatus 500 S101).

That is, the first wireless power receiving apparatus 500 can transmit its own status information to the wireless power transmitting apparatus 200 and the second wireless power receiving apparatus 600. In this case, the second wireless power receiving apparatus 600 should be located in a communication area capable of receiving status information from the first wireless power receiving apparatus 500 to receive the status information of the first wireless power receiving apparatus 500 can do. At this time, the second wireless power receiving apparatus 600 is located in a power transmittable region capable of receiving power wirelessly from the wireless power transmitting apparatus 200, and receives power from the wireless power transmitting apparatus 200 can do.

In one embodiment, the status information of the first wireless power receiving apparatus 500 includes the identifier information of the first wireless power receiving apparatus 500, the first wireless power receiving apparatus 500 receives the normal power from the wireless power transmitting apparatus 200 The charging completion information indicating that the charging is completed, the required power amount information currently required by the first wireless power receiving apparatus 500, and the first wireless power receiving apparatus 500 Transmission time interval information on a time interval for transmitting the status information of the wireless power transmission apparatus 200 to the wireless power transmission apparatus 200, and the like.

The time interval determining unit 620 of the second wireless power receiving apparatus 600 determines whether the first wireless power receiving apparatus 500 is connected to the wireless power transmitting apparatus 200 based on the status information of the first wireless power receiving apparatus 500, (S103). The transmission time interval is determined based on which time interval the status information is transmitted. Will be described in detail with reference to FIG.

FIG. 8 shows the entire time period. It is assumed that one cycle of the entire time interval is 140us and one cycle is divided into 20us time intervals. In this case, the total time interval can be divided into seven intervals. Here, the divided time periods for 140 us and 20 us are merely examples.

The first wireless power receiving apparatus 500 may transmit its status information to the wireless power transmitting apparatus 200 during the A time interval from 0 to 20us.

The time interval checking unit 620 checks whether the first wireless power receiving apparatus 500 has transmitted the wireless power transmitting apparatus 200 to the wireless power transmitting apparatus 200 based on the status information received from the first wireless power receiving apparatus 500, Information can be transmitted. That is, the time interval checking unit 620 can confirm that the first wireless power receiving apparatus 500 periodically transmits its status information to the wireless power transmitting apparatus 200 in the A time interval. The time interval checking unit 620 can check the time period of the entire time interval through the status information of the first wireless power receiving apparatus 500.

Of course, the time interval checking unit 620 may check whether a wireless power receiving apparatus other than the first and second wireless power receiving apparatuses 500 and 600 uses a time interval other than the A time interval.

7, the time interval determining unit 630 of the second wireless power receiving apparatus 600 determines whether or not the second wireless power receiving apparatus 600 is connected to the second wireless power receiving apparatus 600, (S105), the time interval for transmitting the state information of the wireless power transmission apparatus 200 to the wireless power transmission apparatus 200 is determined. That is, the time period determining unit 630 can determine a time period excluding a time period in which the first wireless power receiving apparatus 500 transmits its state information to the wireless power transmitting apparatus 200. [

Referring to FIG. 8, the time interval determining unit 630 determines the D time interval excluding the A time interval used by the first wireless power receiving apparatus 500 as the time to transmit the status information to the wireless power transmitting apparatus 200 It can be determined as a section. Of course, the D time interval determined by the time interval determiner 630 is merely an example, and is not limited to a time interval that is not used by the first wireless power receiving apparatus 500 and other wireless power receiving apparatuses during the entire time interval It does not matter.

Referring again to FIG. 7, the information transmitter 640 of the second wireless power receiver 600 transmits its state information to the wireless power transmitter 200 in a determined time interval (S107).

The status information of the second wireless power receiving apparatus 600 may include the identifier information of the second wireless power receiving apparatus 600 and the status information of the second wireless power receiving apparatus 600 indicating that normal power transmission is performed from the wireless power transmitting apparatus 200 The charging completion information indicating that the charging is completed, the required power amount information currently required by the second wireless power receiving apparatus 600, and the second wireless power receiving apparatus 600 are connected to the wireless power transmitting apparatus 600. [ Transmission time interval information for a time interval for transmitting the status information of the mobile station 200 to the mobile station 200, and the like.

As described above, according to the embodiment of the present invention, the wireless power transmission apparatus 200 performs only unidirectional communication capable of receiving information, and the first wireless power reception apparatus 500 and the second wireless power reception apparatus 600, Way communication in which information can be transmitted and received, the overall price of the wireless power transmission system can be reduced, and the communication protocol can be simplified, as compared with the case of the wireless power transmission apparatus using bidirectional communication.

Specifically, the second wireless power receiving apparatus 600 transmits its status information to the wireless power transmitting apparatus 200 using a time interval other than a time interval used by the first wireless power receiving apparatus 500 for information transmission. It is possible to solve the problem that the communication protocol becomes complicated.

In addition, according to the embodiment of the present invention, by using the wireless power transmission apparatus 200 that performs unidirectional communication that only receives non-bidirectional information, power consumption occurring in the information transmission process is prevented, Can be improved.

On the other hand, the wireless power transmission apparatus 200 generates a status information list based on the received status information of the first wireless power receiving apparatus 500 and the second wireless power receiving apparatus 600 (S109). In one embodiment, the status information list may be a list of various types of information included in the status information of the first and second wireless power receiving apparatuses 500 and 600 in a completed form. Here, the wireless power transmission apparatus 200 may also receive status information of the wireless power receiving apparatuses other than the first wireless power receiving apparatus 500 and the second wireless power receiving apparatus 600 to generate a status information list .

The wireless power transmitting apparatus 200 determines power to be transmitted to the first wireless power receiving apparatus 500 and the second wireless power receiving apparatus 600 based on the generated state information list (S111). For example, when the required power amount of the first wireless power receiving apparatus 500 is 100W and the requested amount of power of the second wireless power receiving apparatus 600 is 200W, 1 wireless power receiving apparatus 500 and the second wireless power receiving apparatus 600, respectively.

In addition, the second wireless power receiving apparatus 600 periodically transmits the status information of the second wireless power receiving apparatus 600 to the wireless power transmitting apparatus 600 in a period of time during which the second wireless power receiving apparatus 600 receives power, To the device (200). In this case, the wireless power transmission apparatus 200 can check the state of charge of the second wireless power reception apparatus 600 from the state information of the second wireless power reception apparatus 600, The power transmission to the second wireless power receiving apparatus 600 can be stopped.

The second wireless power receiving apparatus 600 wirelessly receives the determined power from the wireless power transmitting apparatus 200 (S113).

The power receiving method of the wireless power receiving apparatus according to an embodiment of the present invention can be stored in a computer-readable recording medium that is manufactured as a program to be executed in a computer, and is an example of a computer- (ROM), a magnetic tape, a floppy disk, an optical data storage device, and the like, and may also be implemented in the form of a carrier wave (for example, transmission over the Internet).

The computer readable recording medium may be distributed over a networked computer system so that computer readable code can be stored and executed in a distributed manner. And, functional programs, codes and code segments for implementing the above method can be easily inferred by programmers of the technical field to which the present invention belongs.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, It should be understood that various modifications may be made by those skilled in the art without departing from the spirit and scope of the present invention.

100: power supply
200: Wireless power transmitting device
210: transmission induction coil
220: transmission resonance coil
300: Wireless power receiving device
310: Receive resonant coil
320: reception induction coil
330: rectification part
400: Load
500: first wireless power receiving device
600: second wireless power receiving device
610:
620:
630: a time interval determining unit
640: Information transmission unit

Claims (19)

A wireless power receiving apparatus for wirelessly receiving power from a wireless power transmission apparatus that performs unidirectional communication,
An information receiving unit for receiving status information of another wireless power receiving apparatus that receives power from the wireless power transmission apparatus; And
And a time interval checking unit for checking a time interval used by the other wireless power receiving apparatus based on the received status information,
Wherein the wireless power receiving apparatus communicates with the wireless power transmission apparatus using a time interval that is not used by the other wireless power receiving apparatus according to the determined time interval,
The state information
And the transmission time interval information for a time period in which the other wireless power receiving apparatus transmits its own state information to the wireless power transmission apparatus
Wireless power receiving device. The method according to claim 1,
Further comprising a time interval determining unit for determining a time interval excluding the confirmed time interval for transmitting the status information of the wireless power receiving apparatus to the wireless power transmitting apparatus
Wireless power receiving device. The method according to claim 1,
The time-
And the other wireless power receiving apparatus confirms a time period used for transmitting its own status information to the wireless power transmission apparatus
Wireless power receiving device. 3. The method of claim 2,
And an information transmitting unit for transmitting the status information of the wireless power receiving apparatus to the wireless power transmitting apparatus through the determined time interval
Wireless power receiving device. The method according to claim 1,
The wireless power transmission apparatus
And performs unidirectional communication for receiving status information of the wireless power receiving apparatus from the wireless power receiving apparatus
Wireless power receiving device. The method according to claim 1,
The wireless power receiving apparatus
Directional communication in which status information of the wireless power receiving apparatus is transmitted to the wireless power transmitting apparatus and status information of the other wireless power receiving apparatus is received from the other wireless power receiving apparatus
Wireless power receiving device. The method according to claim 6,
The wireless power receiving apparatus
And performs the bidirectional communication using in-band communication or out-of-band communication.
Wireless power receiving device. The method according to claim 1,
The state information of the wireless power receiving apparatus includes:
The wireless power receiving apparatus comprising: an identifier information of the wireless power receiving apparatus; power transmission status confirmation information indicating that the wireless power receiving apparatus is performing normal power transmission from the wireless power transmitting apparatus; charging completion information indicating that charging is completed; Further comprising any one of the required power amount information currently required by the device
Wireless power receiving device. 5. The method of claim 4,
The wireless power receiving apparatus
And receives power from the wireless power transmission apparatus using electromagnetic induction or resonance according to the state information of the wireless power reception apparatus
Wireless power receiving device. A power receiving method of a wireless power receiving apparatus for wirelessly receiving power from a wireless power transmitting apparatus performing unidirectional communication,
Receiving status information of another wireless power receiving apparatus that receives power from the wireless power transmission apparatus;
Confirming a time interval used by the other wireless power receiving apparatus based on the received status information; And
And communicates with the wireless power transmission apparatus using a time interval not used by the other wireless power reception apparatus according to the determined time interval.
The state information
And the transmission time interval information for a time period in which the other wireless power receiving apparatus transmits its own state information to the wireless power transmission apparatus
A method for receiving power in a wireless power receiving apparatus. 11. The method of claim 10,
Further comprising the step of determining a time period excluding the identified time period for transmitting the status information of the wireless power receiving apparatus to the wireless power transmission apparatus
A method for receiving power in a wireless power receiving apparatus. 11. The method of claim 10,
Wherein the verifying step comprises:
And confirming a time period used by the other wireless power receiving apparatus to transmit its own status information to the wireless power transmitting apparatus
A method for receiving power in a wireless power receiving apparatus. 12. The method of claim 11,
And transmitting status information of the wireless power receiving apparatus to the wireless power transmitting apparatus through the determined time interval
A method for receiving power in a wireless power receiving apparatus. 14. The method of claim 13,
Further comprising the step of receiving power from the wireless power transmission apparatus using electromagnetic induction or resonance in accordance with the status information of the wireless power reception apparatus
A method for receiving power in a wireless power receiving apparatus. 11. The method of claim 10,
The receiving step
And receiving status information of the other wireless power receiving apparatus using in-band or out-of-band communication
A method for receiving power in a wireless power receiving apparatus. 14. The method of claim 13,
The step of transmitting status information of the wireless power receiving apparatus to the wireless power transmitting apparatus
And transmitting status information of the wireless power receiving apparatus to the wireless power transmitting apparatus using in-band or out-of-band communication
A method for receiving power in a wireless power receiving apparatus. 1. A wireless power transmission system comprising a wireless power transmission device performing unidirectional communication and a wireless power reception device wirelessly receiving power from the wireless power transmission device,
Receiving status information of another wireless power receiving apparatus that receives power from the wireless power transmission apparatus, checking a time interval used by the other wireless power receiving apparatus based on the received status information, A wireless power receiving apparatus for communicating with the wireless power transmission apparatus using a time interval not used by the other wireless power receiving apparatus according to the wireless power transmitting apparatus; And
And a wireless power transmitting apparatus for wirelessly transmitting power to the wireless power receiving apparatus and the other wireless power receiving apparatus,
The state information
And the transmission time interval information for a time period in which the other wireless power receiving apparatus transmits its own state information to the wireless power transmission apparatus
Wireless power transmission system. 18. The method of claim 17,
The wireless power receiving apparatus
And determines a time period excluding the confirmed time period to transmit the status information of the wireless power receiving apparatus to the wireless power transmission apparatus
Wireless power transmission system. 19. The method of claim 18,
The wireless power receiving apparatus includes:
Transmitting the status information of the wireless power receiving apparatus to the wireless power transmitting apparatus through the determined time interval,
The wireless power transmission apparatus
And wirelessly transmitting power to the wireless power receiving apparatus according to status information of the wireless power receiving apparatus
Wireless power transmission system.

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