KR102575229B1 - Wireless charging system - Google Patents

Abstract

The present invention relates to a wireless charging system. A wireless charging system according to an embodiment of the present invention includes a first wireless power receiver, a second wireless power receiver connected to the first wireless power receiver through a short-range communication method, and the first wireless power receiver and a wireless charging device that initiates charging of the first wireless power receiver and the second wireless power receiver according to whether the wireless charging method of the wireless charging method is authenticated. Accordingly, when charging a plurality of wireless power receivers, an authentication time may be shortened.

Description

Wireless charging system {Wireless charging system}

The present invention relates to a wireless power system, and more particularly, to a wireless charging system capable of reducing authentication time when charging a plurality of wireless power receivers while performing charging according to whether a wireless power receiver is authenticated. it's about

As a method for supplying power to electronic devices, there is a terminal supply method for connecting a commercial power source and a physical cable or wire to the electronic device. In such a terminal supply method, cables or wires take up a considerable amount of space, are not easy to arrange, and have a risk of disconnection.

Recently, in order to solve this problem, research on a wireless charging method is being discussed.

A wireless charging system may include a wireless charging device that supplies power through a single coil or multiple coils, and a wireless power receiving device that receives and uses power wirelessly supplied from the wireless charging device.

However, since the conventional wireless power system initiates charging without an authentication confirmation procedure of the wireless power receiver, there is a problem in that it is vulnerable to security.

On the other hand, when charging a plurality of wireless power receivers at the same time, if the plurality of wireless power receivers and each authentication confirmation procedure are performed, there is a problem that the charging time increases. A method that can shorten the authentication confirmation time is required.

An object of the present invention is to provide a wireless charging system capable of enhancing security.

Another object of the present invention is to provide a wireless charging system capable of reducing an authentication confirmation time when simultaneously charging a plurality of wireless power receivers.

Another object of the present invention is to provide a wireless charging system capable of communicating even between a plurality of wireless power receivers and among a plurality of transmission coils.

In order to achieve the above object, a wireless charging system according to an embodiment of the present invention provides a wireless power receiver and charging of the wireless power receiver when the wireless power receiver is authenticated by a predetermined wireless charging method. Including a wireless charging device that initiates.

In order to achieve the above object, a wireless charging system according to another embodiment of the present invention includes a first wireless power receiver, a second wireless power receiver connected to the first wireless power receiver by a short-range communication method, and the and a wireless charging device that starts charging the first wireless power receiver and the second wireless power receiver according to whether the first wireless power receiver is authenticated by a predetermined wireless charging method.

In order to achieve the above object, a wireless charging system according to another embodiment of the present invention includes a first wireless power receiver and a second wireless power receiver connected to the first wireless power receiver by a short-range communication method; The first wireless power receiver for wirelessly charging the first wireless power receiver, and the second wireless power receiver according to whether or not the first wireless power receiver is authenticated by a predetermined wireless charging method. and a second wireless charging device that initiates charging.

Since the wireless charging system according to an embodiment of the present invention charges only the wireless power receiver certified by a predetermined wireless charging method, security is enhanced.

In the wireless charging system according to another embodiment of the present invention, when the first wireless power receiver is authenticated by a predetermined wireless charging method, whether or not short-range communication between the first wireless power receiver and the second wireless power receiver is determined. Accordingly, since the second wireless power receiver can be charged even before authentication of the second wireless power receiver, the overall charging time is reduced.

In addition, even when the charging of the second wireless power receiver is started before the authentication confirmation procedure of the second wireless power receiver, the wireless charging system may perform Since the authentication verification procedure is performed, there is an effect of strengthening security.

In addition, the wireless charging system starts charging the second wireless power receiver before the authentication confirmation procedure of the second wireless power receiver, but authentication confirmation of the second wireless power receiver is not possible or the second wireless power receiver When is not authenticated by a predetermined charging method, the charging of the second wireless power receiver is not immediately stopped, and whether or not the second wireless power receiver is charged according to whether or not short-range communication with the first wireless power receiver is performed. Since it determines, efficient operation of the system is possible.

In the wireless charging system according to another embodiment of the present invention, authentication information can be transmitted between the wireless power receiver and the wireless charging device, as well as between the first wireless power receiver and the second wireless power receiver, Authentication information can be transmitted, and authentication information can be transmitted between the first transmission coil and the second transmission coil. Accordingly, even when the first transmission coil and the second transmission coil are disposed in separate wireless charging devices, it is possible to shorten the authentication time for the second wireless power reception device.

1 is an example of an internal block diagram of a wireless charging system according to an embodiment of the present invention.
2 is an internal block diagram of a wireless charging device in the wireless charging system of FIG. 1 .
3 is an internal block diagram of a wireless power receiver in the wireless charging system of FIG. 1 .
4 is a flowchart for explaining a wireless charging method according to a first embodiment of the present invention.
FIG. 5 is a diagram referenced for description of the operation method of FIG. 4 .
6 is a flowchart illustrating a wireless charging method according to a second embodiment of the present invention.
FIG. 7 is a diagram referenced for description of the operation method of FIG. 6 .
8 is a flowchart illustrating a wireless charging method according to a third embodiment of the present invention.
FIG. 9 is a diagram referred to in the description of the operation method of FIG. 8 .

Hereinafter, the present invention will be described in more detail with reference to the drawings.

The suffixes "module" and "unit" for the components used in the following description are simply given in consideration of ease of writing this specification, and do not themselves give a particularly important meaning or role. Accordingly, the “module” and “unit” may be used interchangeably.

Terms including ordinal numbers, such as first and second, may be used to describe various components, but the components are not limited by the terms. These terms are only used for the purpose of distinguishing one component from another.

In this application, terms such as "comprise" or "have" are intended to designate that there is a feature, number, step, operation, component, part, or combination thereof described in the specification, but one or more other features It should be understood that the presence or addition of numbers, steps, operations, components, parts, or combinations thereof is not precluded.

1 is an example of an internal block diagram of a wireless charging system according to an embodiment of the present invention.

Referring to the drawings, the wireless charging system 10 may include a wireless charging device 100 that wirelessly transmits power and a wireless power receiver 200 that receives the wirelessly transmitted power.

The wireless charging device 100 may charge the wireless power receiver 200 through a predetermined charging method. For example, the wireless charging device 100 may charge the wireless power receiver 200 using an electromagnetic induction wireless charging method defined by the Wireless Power Consortium (WPC).

When the wireless charging device 100 charges the wireless power receiving device 200 using the electromagnetic induction wireless charging method defined by the Wireless Power Consortium (WPC), the wireless charging device 100 has a transmission coil ( Power may be transmitted to the wireless power receiver 200 through a magnetic induction phenomenon in which a current is induced in the receiving coil 281 by changing the magnetic field of 181).

According to embodiments, as shown in FIGS. 5 and 7 , one wireless charging device 100 may charge a plurality of wireless power receivers 501 and 503 . At this time, the number of wireless power receivers 200 connectable to one wireless charging device 100 is adapted in consideration of the amount of power required for each wireless power receiver 200 and the amount of available power of the wireless power transmitter 100. can be negatively determined. In addition, the number of transmission coils 181 included in the wireless charging device 100 may be increased or decreased corresponding to the number of chargeable wireless power receivers 200 .

Alternatively, as shown in FIG. 9 , it is also possible for one wireless charging device 100 to charge one wireless power receiver 200 .

Meanwhile, since the wireless charging device 100 transmits power wirelessly, it may also be referred to as a wireless power transmission device.

The wireless power receiver 200 may receive power transmitted from the wireless charging device 100 .

For example, the wireless power receiver 200 may be a laptop computer, personal digital assistants (PDAs), portable multimedia players (PMPs), navigation devices, MP3 players, electric toothbrushes, lighting devices, and remote controls. Preferably, the wireless power receiver 200 may be a mobile phone and/or a smart watch connected to the mobile phone through a short-range communication method.

The wireless charging device 100 and the wireless power receiving device 200 may perform bi-directional communication. Depending on the embodiment, the wireless charging device 100 and the wireless power receiver 200 may perform one-way communication or half-duplex communication.

In particular, in the wireless charging system 10 according to the present invention, when one wireless charging device 100 includes a plurality of transmission coils (181a and 181b in FIG. 2), the first transmission coil 181a and the second transmission coil 181a. Bi-directional communication between the transmitting coils 181b is also possible. For example, the first transmission coil 181a and the second transmission coil 181b include authentication information of the first wireless power receiver (501 in FIG. 5) and the second wireless power receiver (503 in FIG. 5) and Short-distance communication information can be exchanged.

2 is an internal block diagram of a wireless charging device in the wireless charging system of FIG. 1 .

Referring to the drawings, the wireless charging device 100 includes a converter 110 that converts commercial AC power 405 into DC power, and a wireless power driver 170 that converts DC power into AC power and converted It may be provided with a transmission coil 180 that transmits power wirelessly using AC power.

In addition, the wireless charging device 100 includes a control unit 160 that controls the internal configuration of the wireless charging device 100 for power transmission and communication, and a wireless receiving device placed on the charging surface by a predetermined communication method ( The communication unit 140 communicating with 200 in FIG. 3 , the sensing unit 130 sensing the current flowing through the wireless charging device 100, the temperature of the transmission coil 180, and the like, driving the wireless charging device 100 It may further include a memory 120 for storing a control program and the like for.

The wireless charging device 100 is operated by direct current power, and the direct current power may be supplied by the converter 110 that converts alternating current power into direct current power.

Depending on the embodiment, a configuration in which the wireless power driver 170 directly receives DC power without the converter 110 is also possible.

The converter 110 may convert AC power 405 into DC power and output the converted power. Although the drawing shows the AC power supply 405 as a single-phase AC power supply, it may be a three-phase AC power supply. The internal structure of the converter 110 may also vary depending on the type of AC power supply 405 .

Meanwhile, the converter 110 is made of a diode or the like without a switching element, and may perform a rectification operation without a separate switching operation.

For example, in the case of single-phase AC power, four diodes may be used in a bridge form, and in the case of three-phase AC power, six diodes may be used in a bridge form.

On the other hand, the converter 110 may be, for example, a half-bridge converter in which two switching elements and four diodes are connected, and in the case of a three-phase AC power supply, six switching elements and six diodes may be used. .

When DC power is supplied to the wireless power driver 170 during wireless power transmission, the controller 160 may control the power driver 170 to wirelessly transmit power to the wireless power receiver 200. In this case, the wireless power driver 170 may convert DC power into AC power for wireless power transmission.

Specifically, the controller 160 may include a PWM generator 160a that generates a PWM signal and a driver 160b that generates and outputs a drive signal Sic based on the PWM signal.

The controller 160 may determine the duty cycle of the PWM signal based on the amount of power transmission, the current value flowing through the wireless power driver 170, and the like. The PWM generator 160a may generate a PWM signal based on the duty cycle of the PWM signal. The driver 160b may output a driving signal Sic for driving the wireless power driver 170 based on the PWM signal.

The wireless power driver 170 may include at least one switching element (not shown) for converting DC power into AC power. For example, when the switching element is an IBGT, a gate driving signal may be output from the driver 160b and input to a gate terminal of the switching element. Also, the switching element may perform a switching operation according to the gate driving signal. DC power may be converted into AC power by the switching operation of the switching element and output to the transmission coil 180 .

Depending on the embodiment, it is also possible that the wireless power driver 170 is included as a configuration within the control unit 160.

Meanwhile, the wireless charging device 100 of the present invention may include a plurality of transmission coils 180 according to embodiments. For example, the wireless charging device 100 may include a first transmission coil 181a and a second transmission coil 181b.

When the wireless charging device 100 includes a plurality of transmitting coils 180, a plurality of wireless power receiving devices 200 can be charged.

The communication unit 140 may communicate with the wireless power receiver 200 through a predetermined communication method.

The communication unit 140 processes state information, power control information, etc. of the wireless charging device 100 into a predetermined signal and transmits the signal to the wireless power receiver 200, and transmits the state information, power consumption information, and charging efficiency of the wireless power receiver. After receiving information and processing a predetermined signal, it can be transmitted to the control unit 160 .

The sensing unit 130 may measure the temperature of the transmission coil 180 or the shielding material (not shown) and provide the measurement result to the control unit 160 in order to determine whether the wireless charging device 100 has overheated. .

At this time, the controller 160 may stop wireless power transmission to the wireless power receiver based on voltage, current, temperature information, etc. measured by the sensing unit 130 .

The memory 120 may store programs for operating the wireless charging device 100 .

3 is an internal block diagram of a wireless power receiver in the wireless charging system of FIG. 1 .

Referring to the drawings, the wireless charging device 100 includes a receiving coil 280 for receiving wireless power from the wireless charging device 100, a rectifier 210 for rectifying the received wireless power, and a rectified wireless power. It may include a switching regulator 220 that stabilizes power and a switching regulator controller 230 that controls the switching regulator 220 to output operating power to a load.

In addition, the wireless power receiver 200 may further include a communication unit 240 for communicating with the wireless charging device 100 .

The receiving coil 280 may receive wireless power transmitted from the transmitting coil 180 .

In the receiving coil 280, an induced electromotive force may be generated by a magnetic field generated by the transmitting coil 180. Wireless power by induced electromotive force passes through a rectifier 210 and a switching regulator 220, which will be described later, and is directly supplied to a load using wireless power, or when the load is a battery, the power can be used to charge the battery. there is.

The rectifier 210 may rectify the wireless power received through the receiving coil 280 when receiving the wireless power from the wireless charging device 100 . The rectifier 210 may include at least one diode element (not shown).

The switching regulator 220 may output the rectified wireless power as the charging power v supplied to the battery under the control of the switching regulator controller 230 .

The switching regulator control unit 230 may apply the regulator control signal Src to the switching regulator to control charging power v to be output.

Meanwhile, the switching regulator 220 may adjust the output voltage by performing DC-DC conversion according to the regulator control signal Src of the switching regulator controller 230 . The switching regulator 220 may control the output voltage based on the regulator control signal Src to output the charging power supply v having a specified level of voltage.

Meanwhile, the wireless charging system 10 of the present invention may include a plurality of wireless power receivers 200 according to embodiments. For example, the wireless charging system 10 includes a first wireless power receiver (501 in FIG. 5), a second wireless power receiver (503 in FIG. 5), and a third wireless power receiver (505 in FIG. 5). can be provided.

When there are a plurality of wireless power receivers 200, the plurality of wireless power receivers 200 may be charged by the transmission coils 180 corresponding to the plurality of wireless power receivers 200, respectively.

4 is a flowchart for explaining a wireless charging method according to the first embodiment of the present invention, and FIG. 5 is a diagram referenced for description of the operation method of FIG. 4 .

Referring to the drawings, in the wireless charging system 10 according to the first embodiment of the present invention, the wireless power receiver 200 and the wireless power receiver 200 are authenticated by a predetermined wireless charging method. When received, the wireless charging device 100 that starts charging the wireless power receiver 200 may be included.

More specifically, in FIG. 5, the wireless charging system 10 may include one wireless charging device 100 having a plurality of wireless power receivers 200 and a plurality of transmission coils 180. there is. As will be described later, each transmission coil 180 may wirelessly transmit power to one wireless power receiver 200 corresponding thereto.

Meanwhile, in the drawing, the wireless charging system 10 is shown as having a first wireless power receiver 501, a second wireless power receiver 503, and a third wireless power receiver 505, but in the embodiment Accordingly, the number of wireless power receivers 200 may increase or decrease.

Similarly, in the drawing, the wireless charging system 10 is shown as having a first transmission coil 181a, a second transmission coil 181b and a third transmission coil 181c, but according to the embodiment, the transmission coil The number of 180 may be increased or decreased.

In FIG. 4 , the wireless power receiver 200 may transmit authentication information according to a predetermined wireless charging method (S410).

The predetermined charging method may be a wireless charging method of electromagnetic induction method defined by the Wireless Power Consortium (WPC). At this time, the wireless power receiver 200 may be a standard certified (Qi) product that has passed both standard conformity and interoperability specified by the WPC.

The plurality of wireless power receivers 200 may transmit authentication information to the transmission coil 180 corresponding to each wireless power receiver 200 through the receiving coil 280 provided therein.

Specifically, in FIG. 5 , the first wireless power receiver 501 may transmit first authentication information auth1 to the first transmission coil 181a. The second wireless power receiver 503 may transmit second authentication information (auth2) to the second transmission coil 181b. The third wireless power receiver 505 may transmit third authentication information (auth3) to the third transmission coil 181c.

In FIG. 4 , the wireless charging device 100 may receive authentication information from the wireless power receiving device 200 (S420).

The wireless charging device 100 may receive authentication information through the transmission coil 180 .

Specifically, in FIG. 5 , the first transmission coil 181a may receive first authentication information auth1 transmitted by the first wireless power receiver 501 . The second transmission coil 181b may receive the second authentication information (auth2) transmitted by the second wireless power receiver 503. The third transmission coil 181c may receive third authentication information (auth3) transmitted by the third wireless power receiver 505.

Meanwhile, when authentication information is not received from the wireless power receiver 200, the wireless charging device 100 may wait until authentication information is received without starting charging.

Meanwhile, the wireless charging device 100 may calculate whether authentication information is received for each transmission coil 180.

For example, in FIG. 5, when the first transmission coil 181a receives authentication information and the second transmission coil 181b and the third transmission coil 181c do not receive authentication information, the wireless charging device ( 100), only the first transmission coil 181a proceeds to steps after S430, and the second transmission coil 181b and the third transmission coil 181c may stand by until authentication information is received.

In FIG. 4 , when authentication information is received, the wireless charging device 100 may check whether the wireless power receiving device 200 has been authenticated by a predetermined wireless charging method (S430).

That is, the wireless charging device 100 may check whether the wireless power receiver 200 is a product that has received WPC standard certification (Qi) based on the authentication information.

The wireless charging device 100 may check for each wireless power receiver 200 whether or not authentication is performed by a predetermined charging method.

For example, in FIG. 5 , the wireless charging device 100 determines whether or not the WPC standard certification (Qi) is received by the first wireless power receiver 501, the second wireless power receiver 503, and the third wireless power receiver. It can be computed per device 505 .

The wireless charging device 100 may return to step S420 without starting charging when the wireless power receiving device 200 is not authenticated by a predetermined charging method.

On the other hand, when the wireless power receiver 200 is not authenticated by a predetermined charging method, when the wireless charging device 100 receives authentication information but the authentication information is not valid, the wireless power receiver 200 ) may include cases where WPC standards have not been certified (Qi).

In FIG. 4 , the wireless charging device 100 may start charging the wireless power receiving device 200 when the wireless power receiving device 200 is authenticated by a predetermined wireless charging method (S440).

Specifically, in FIG. 5 , the wireless charging device 100 may wirelessly transmit the first power w1 to the first wireless power receiver 501 through the first transmission coil 181a. The wireless charging device 100 may wirelessly transmit the second power w1 to the second wireless power receiver 503 through the second transmission coil 181b. The wireless charging device 100 may wirelessly transmit the third power w3 to the third wireless power receiving device 505 through the third transmission coil 181c.

Meanwhile, the wireless charging device 100 may calculate whether to start charging for each wireless power receiver 200.

For example, in FIG. 5 , the first wireless power receiver 501 is a certified product according to a predetermined charging method, and the second wireless power receiver 501 and the third wireless power receiver 503 are predetermined. If the product is not certified by the charging method of , the wireless charging device 100 proceeds with charging only the first wireless power receiver 501, and the second wireless power receiver 503 and the third wireless power receiver. 505 may not proceed with charging.

Meanwhile, the wireless charging device 100 may start charging the wireless power receiver 200 even when the wireless power receiver 200 has been authenticated by a predetermined charging method, but the authentication version is different.

For example, even when the wireless power receiver 200 is certified for the WPC standard Qi 1.2.4 instead of the WPC standard Qi 1.3, the wireless charging device 100 is the wireless power receiver 200 ) can be charged.

Accordingly, the wireless charging device 100, if the wireless power receiver 200 is a product certified by a predetermined charging method, starts charging without waiting for charging, thereby increasing user convenience.

6 is a flowchart for explaining a wireless charging method according to a second embodiment of the present invention, and FIG. 7 is a diagram referenced in the description of the operation method of FIG. 6 .

Referring to the drawings, in FIG. 7, the wireless charging system 10 according to the second embodiment of the present invention provides short-range communication between the first wireless power receiver 501 and the first wireless power receiver 501. Depending on whether the second wireless power receiver 503 and the first wireless power receiver 501 connected by the method are authenticated by a predetermined wireless charging method, the first wireless power receiver 501 and the second wireless power receiver 501 The wireless charging device 100 that starts charging the wireless power receiver 503 may be included.

More specifically, the wireless charging device 100 may include a first transmission coil 181a, a second transmission coil 181b, and a controller ( 160 in FIG. 2 ).

The first transmission coil 181a wirelessly transmits the first power w1 to the first wireless power receiver 501, receives first authentication information auth1 from the first wireless power receiver 501, Short-range communication information nc with the second wireless power receiver may be received.

The second transmission coil 181b wirelessly transmits the second power w2 to the second wireless power receiver 503, receives first authentication information auth1 from the second wireless power receiver 503, Short-range communication information nc with the first wireless power receiver may be received.

Also, the second transmission coil 181b may receive second authentication information (auth2) from the second wireless power receiver 503.

The controller 160 calculates whether or not to start charging the second wireless power receiver 503 based on the first authentication information (auth1) and the short-range communication information (nc), and determines whether or not to start charging the second wireless power receiver 503. The transmission coil 181a and the second transmission coil 181b may be controlled.

For example, short-range communication may be Bluetooth (BT), Bluetooth Low Energy (BLE), or Near Field Communication (NFC).

On the other hand, conventionally, even if the wireless power receiver 200 does not receive WPC standard certification (Qi), WPC standard protocols (eg, ping, selection, id / config, negotiation, calibration, power transfer, re-negotiation) When complying with the WPC standard (Qi), it was possible for the wireless charging device 100 to initiate charging of the wireless power receiver 200, but there was a problem of security risk due to hacking.

Even, while complying with the WPC standard protocol, the wireless power receiver 200, which has not received WPC standard certification (Qi), has a risk of fire due to heat generation of the transmission coil 180 during charging.

In order to solve this problem, the wireless charging system 10 of the present invention, as shown in FIGS. 4 to 5, may start charging after performing the authentication procedure of the wireless power receiver 200, but a plurality of wireless power In the case of charging the receiving device 200 at the same time, if an authentication procedure is performed for all wireless power receiving devices 200, the time required for authentication increases, and eventually the total charging time increases, causing user inconvenience.

Therefore, when simultaneously charging a plurality of wireless power receivers 200, a method capable of shortening the authentication time is required.

In order to solve the above problems, the wireless charging device 100 according to the second embodiment of the present invention determines whether the first wireless power receiver 501 and the second wireless power receiver 503 communicate in a short distance. Further based on this, it is possible to calculate whether or not to start charging the second wireless power receiver 503 .

More specifically, in FIG. 6 , the first wireless power receiver 501 may transmit first authentication information (auth1) according to a predetermined wireless charging method (S611).

The predetermined charging method may be a wireless charging method of electromagnetic induction method defined by the Wireless Power Consortium (WPC). At this time, the first wireless power receiver 501 may be a standard certified (Qi) product that has passed both standard conformance and interoperability specified by the WPC.

In FIG. 7 , the first wireless power receiver 501 may transmit first authentication information auth1 to the first transmission coil 181a.

In this case, the first wireless power receiver 503 may be the wireless power receiver 200 that first transmits authentication information to the wireless charging device 100 among the plurality of wireless power receivers 200 .

For example, when both the first wireless power receiver 501 and the second wireless power receiver 503 connected by the short-range communication method are authenticated by a predetermined charging method, the wireless power first placed on the charging surface A. Since the receiving device 200 transmits authentication information to the wireless charging device 100 first, the first wireless power receiving device 503, among the two wireless power receiving devices 200 connected by the short-range communication method, is a wireless charging device. It may be the wireless power receiver 200 that is first placed on the charging surface A of (100).

As another example, when only one wireless power receiver 200 among the first wireless power receiver 501 and the second wireless power receiver 503 connected by the short-range communication method is authenticated by a predetermined charging method, the authentication Since only the received wireless power receiver 200 transmits authentication information to the wireless charging device 100, the first wireless power receiver 501 selects a predetermined one of the two wireless power receivers 200 connected by the short-range communication method. It may be a wireless power receiver 200 that can be authenticated by a wireless charging method.

Meanwhile, the first wireless power receiver 501 simultaneously transmits the first authentication information auth1 to the first transmission coil 181a or after transmitting the first authentication information auth1 to the first transmission coil 181a. ) may be transmitted to the second wireless power receiver 503.

That is, the first wireless power receiver 501 may share the first authentication information auth1 with the second wireless power receiver 503 .

Meanwhile, since the short-range communication information nc can be calculated in the second wireless power receiver 503, the first wireless power receiver 501 converts the short-range communication information nc to the second wireless power receiver 501. ) need not be sent.

The wireless charging device 100 may receive first authentication information (auth1) from the first wireless power receiver 501 (S613).

In FIG. 7 , the wireless charging device 100 may receive first authentication information auth1 through the first transmission coil 181a.

Meanwhile, when the wireless charging device 100 does not receive the first authentication information (auth1) from the first wireless power receiver 501, it does not start charging and waits until the first authentication information (auth1) is received. can do.

In FIG. 6 , when the first authentication information (auth1) is received, the wireless charging device 100 may check whether the first wireless power receiver 501 has been authenticated by a predetermined wireless charging method. (S615).

That is, the wireless charging device 100 may check whether the first wireless power receiver 501 is a product that has received WPC standard authentication (Qi) based on the first authentication information (auth1).

The wireless charging device 100 may return to step S613 without starting charging when the first wireless power receiving device 501 is not authenticated by a predetermined charging method.

Meanwhile, when the first wireless power receiver 501 is not authenticated by a predetermined charging method, when the wireless charging device 100 receives authentication information but the authentication information is not valid, the first wireless power receiver 501 is not validated. This may include a case where the receiving device 501 has not received WPC standard certification (Qi).

The wireless charging device 100 may start charging the first wireless power receiver 501 when the first wireless power receiver 501 receives the first authentication by a predetermined wireless charging method (S617). ).

Specifically, in FIG. 7 , the wireless charging device 100 may wirelessly transmit the first power w1 to the first wireless power receiver 501 through the first transmission coil 181a.

Meanwhile, the wireless charging device 100 starts charging the first wireless power receiver 501 even when the first wireless power receiver 501 is authenticated by a predetermined charging method, but the authentication version is different. can do.

For example, even when the first wireless power receiver 501 is certified for the WPC standard (Qi) 1.2.4 instead of the WPC standard (Qi) 1.3, the wireless charging device 100 receives the first wireless power The receiving device 501 can be charged.

Accordingly, if the first wireless power receiver 501 is a product certified by a predetermined charging method, the wireless charging device 100 starts charging without waiting for charging, thereby increasing user convenience.

6 and 7 , when the first wireless power receiver 501 receives the first power w1 wirelessly, the first wireless power receiver 501 receives the second wireless power receiver 503 ) and short-range communication information nc may be transmitted to the first transmission coil 181a (S619).

According to an embodiment, the first wireless power receiver 501 may transmit the short-range communication information nc simultaneously with the transmission of the first authentication information auth1 in step S611.

The first transmission coil 181a may transmit the first authentication information auth1 and the short-range communication information nc to the second transmission coil 181b.

That is, the first transmission coil 181a may share the first authentication information auth1 and the short-range communication information nc with the second transmission coil 181b.

Meanwhile, the second wireless power receiver 503 may transmit first authentication information auth1 and short-range communication information nc to the second transmission coil 181b.

The wireless charging device 100, in a state in which the first authentication information auth1 is received from the second wireless power receiver 503, is based on the short-range communication information nc received from the first transmission coil 181a. , it is possible to calculate whether short-range communication between the first wireless power receiver 501 and the second wireless power receiver 503 is performed (S621).

When the second wireless power receiver 503 is connected to the first wireless power receiver through a short-range communication method in a state in which the first wireless power receiver 501 starts to charge, the wireless charging device 100 generates a second wireless power receiver. Before confirming the second authentication by the predetermined wireless charging method of the power receiver 503, charging of the second wireless power receiver 503 may be started (S623).

That is, the wireless charging device 100 may wirelessly transmit the second power w2 to the second wireless power receiving device 503 through the second transmission coil 181b. Accordingly, since the wireless power system 10 of the present invention starts charging before authentication of the second wireless power receiver 503, the total charging time when charging the plurality of wireless power receivers 200 is reduced. has the effect of

Next, after starting charging of the second wireless power receiver 503, the wireless charging device 100 may check authentication of the second wireless power receiver 503 (S625).

Specifically, when both the first wireless power receiver 501 and the second wireless power receiver 503 are authenticated by a predetermined charging method, the second wireless power receiver 503 also provides second authentication information ( auth2) may be transmitted to the second transmission coil 181b.

The second transmission coil 181b may receive second authentication information auth2. In addition, the control unit 160 in the wireless charging device 100 may confirm authentication of the second wireless power receiver 503 by a predetermined wireless charging method based on the second authentication information auth2.

When the second authentication information (auth2) is received, the control unit 160 in the wireless charging device 100, based on the second authentication information (auth2), sets the second wireless power receiver 503 to a predetermined wireless charging device. You can check whether or not you have been authenticated by the method.

That is, the control unit 160 in the wireless charging device 100 may check whether the second wireless power receiver 503 is a product that has received WPC standard authentication (Qi) based on the second authentication information (auth2). .

The controller 160 in the wireless charging device 100 may maintain charging of the second wireless power receiver 503 when the second wireless power receiver 503 is authenticated by a predetermined wireless charging method. Yes (S627).

Meanwhile, the wireless charging device 100 maintains charging of the second wireless power receiver 503 even when the second wireless power receiver 503 is authenticated by a predetermined charging method, but the authentication version is different. can

For example, even when the second wireless power receiver 503 is certified for the WPC standard (Qi) 1.2.4 instead of the WPC standard (Qi) 1.3, the wireless charging device 100 receives the second wireless power The receiving device 503 can be charged.

Meanwhile, even when the first wireless power receiver 501 is authenticated by a predetermined wireless charging method, but the second wireless power receiver 503 is not authenticated by the predetermined charging method, the wireless charging device 100 The controller 160 in ) may temporarily maintain charging of the second wireless power receiver 503 without stopping charging (S629).

Accordingly, the wireless charging system 10 according to the second embodiment of the present invention, unlike the wireless charging system 10 according to the first embodiment, first authentication information (auth1) and second authentication information (auth2) The first wireless power receiver 501 and the second wireless power receiver 503 share the first authentication information (auth1), the second authentication information (auth2), and the short-range communication information (nc) to the first transmission coil. Since the 181a and the second transmission coil 181b are shared, charging is immediately stopped when any one of the two wireless power receivers 200 connected through short-range communication is authenticated. By proceeding with charging without having to do so, efficient operation of the system becomes possible.

On the other hand, the wireless charging device 100 starts charging the second wireless power receiver 503 when the second wireless power receiver 503 is not authenticated by a predetermined charging method, and then starts charging the second wireless power receiver 503. Whether or not short-range communication between the wireless power receiver 501 and the second wireless power receiver 503 may be checked at a preset cycle (S631).

The preset period may be appropriately set in consideration of the type of short-range communication of the first wireless power receiver 501 and the second wireless power receiver 503 and user convenience.

The wireless charging device 100 may stop charging the second wireless power receiver 503 when short-range communication between the first wireless power receiver 501 and the second wireless power receiver 503 is disconnected. (S633).

Accordingly, in the wireless charging system 10 according to the second embodiment of the present invention, when any one of the two wireless power receivers 200 is authenticated, charging is performed immediately. Charging proceeds without interruption, but when short-range communication between the two wireless power receivers 200 is cut off, charging of the unauthorized wireless power receiver 200 is stopped, thereby protecting users from security risks due to hacking. You can do it.

8 is a flowchart for explaining a wireless charging method according to a third embodiment of the present invention, and FIG. 9 is a diagram referenced in the description of the operation method of FIG. 8 .

The difference from FIG. 7 is that the first transmission coil 181a is disposed in the first wireless charging device 901 and the second transmission coil 181b is disposed in the second wireless charging device 903.

Specifically, in FIG. 9 , the wireless charging system 10 according to the third embodiment of the present invention is connected to the first wireless power receiver 501 and the first wireless power receiver 501 through a short-range communication method. The second wireless power receiver 503, the first wireless charging device 901 for wirelessly charging the first wireless power receiver 501, and the first wireless power receiver 501 are configured using a predetermined wireless charging method. A second wireless charging device 903 that initiates charging of the second wireless power receiver according to whether or not authentication has been received may be included.

The first wireless charging device 901 may include a first transmission coil 181a and a first control unit controlling the first transmission coil 181a.

The second wireless charging device 903 may include a second transmission coil 181b and a second control unit controlling the second transmission coil 181b.

In FIG. 8 , the first wireless power receiver 200 may transmit first authentication information (auth1) according to a predetermined wireless charging method (S611).

The predetermined charging method may be a wireless charging method of electromagnetic induction method defined by the Wireless Power Consortium (WPC). At this time, the first wireless power receiver 501 may be a standard certified (Qi) product that has passed both standard conformance and interoperability specified by the WPC.

In FIG. 9 , the first wireless power receiver 501 may transmit first authentication information auth1 to the first transmission coil 181a in the first wireless charging device 901 .

At this time, the first wireless power receiver 503 first transmits authentication information to the first wireless charging device 901 or the second wireless charging device 901 among the plurality of wireless power receivers 200. It may be the receiving device 200 .

For example, when both the first wireless power receiver 501 and the second wireless power receiver 503 connected by the short-range communication method are authenticated by a predetermined charging method, the wireless power first placed on the charging surface A. Since the receiving device 200 transmits authentication information to the wireless charging device 100 first, the first wireless power receiving device 503, among the two wireless power receiving devices 200 connected by the short-range communication method, is a wireless charging device. It may be the wireless power receiver 200 that is first placed on the charging surface A of (100).

Similarly, the first wireless charging device 901 may be the wireless charging device 901 that first receives authentication information among the plurality of wireless charging devices 100 .

As another example, when only one wireless power receiver 200 among the first wireless power receiver 501 and the second wireless power receiver 503 connected by the short-range communication method is authenticated by a predetermined charging method, the authentication Since only the received wireless power receiver 200 transmits authentication information to the wireless charging device 100, the first wireless power receiver 501 selects a predetermined one of the two wireless power receivers 200 connected by the short-range communication method. It may be a wireless power receiver 200 that can be authenticated by a wireless charging method.

Similarly, the first wireless charging device 901 may be the wireless charging device 901 that has received authentication information among the plurality of wireless charging devices 100 .

Meanwhile, the first wireless power receiver 501 transmits the first authentication information auth1 to the first transmission coil 181a simultaneously or to the first transmission coil 181a within the first wireless charging device 901. After transmission, first authentication information (auth1) may be transmitted to the second wireless power receiver 503 .

That is, the first wireless power receiver 501 may share the first authentication information auth1 with the second wireless power receiver 503 .

Meanwhile, since the short-range communication information nc can be calculated in the second wireless power receiver 503, the first wireless power receiver 501 converts the short-range communication information nc to the second wireless power receiver 501. ) need not be sent.

In FIG. 8 , the first wireless charging device 901 may receive first authentication information (auth1) from the first wireless power receiver 501 (S813).

In FIG. 9 , the first wireless charging device 901 may receive first authentication information auth1 through the first transmission coil 181a.

On the other hand, when the first wireless charging device 901 does not receive the first authentication information (auth1) from the first wireless power receiver 501, it does not start charging and upon receiving the first authentication information (auth1) can wait until

In FIG. 8 , the first wireless charging device 901 checks whether the first wireless power receiver 501 has been authenticated by a predetermined wireless charging method when first authentication information (auth1) is received. It can (S815).

That is, the first wireless charging device 901 may check whether the first wireless power receiver 501 is a product that has received WPC standard authentication (Qi) based on the first authentication information (auth1).

The first wireless charging device 901 may return to step S813 without starting charging when the first wireless power receiving device 501 is not authenticated by a predetermined charging method.

On the other hand, when the first wireless power receiver 501 is not authenticated by a predetermined charging method, when the first wireless charging device 901 receives authentication information but the authentication information is not valid, wireless charging This may include a case where the device 100 has not received WPC standard certification (Qi).

The first wireless charging device 901 may start charging the first wireless power receiving device 501 when the first wireless power receiving device 501 receives first authentication by a predetermined wireless charging method. (S817).

Specifically, in FIG. 9 , the first wireless charging device 901 may wirelessly transmit the first power w1 to the first wireless power receiving device 501 through the first transmission coil 181a.

Meanwhile, the first wireless power receiver 901 charges the first wireless power receiver 501 even when the first wireless power receiver 501 is authenticated by a predetermined charging method, but the authentication version is different. can initiate.

For example, even when the first wireless power receiver 501 is certified for the WPC standard (Qi) 1.2.4 instead of the WPC standard (Qi) 1.3, the first wireless charging device 901 first The wireless power receiver 501 may be charged.

Accordingly, if the first wireless power receiver 503 is a product certified by a predetermined charging method, the first wireless charging device 901 starts charging without waiting for charging, thereby increasing user convenience. let it

6 and 7 , when the first wireless power receiver 501 receives the first power w1 wirelessly, the first wireless power receiver 501 receives the second wireless power receiver 503 ) and short-range communication information (nc) may be transmitted to the first transmission coil 181a in the first wireless charging device 901 (S819).

According to an embodiment, the first wireless power receiver 501 may transmit the short-range communication information nc simultaneously with the transmission of the first authentication information auth1 in step S811.

The first transmission coil 181a in the first wireless charging device 901 transmits the first authentication information auth1 and the short-range communication information nc to the second transmission coil 181b in the second wireless charging device 901. can transmit

That is, the first wireless charging device 901 and the second wireless charging device 903 may share the first authentication information (auth1) and short-range communication information (nc) with the second transmission coil 181b.

Meanwhile, the second wireless power receiver 503 may transmit first authentication information auth1 and short-range communication information nc to the second transmission coil 181b in the second wireless charging device 903 .

The second wireless charging device 903 receives the short-range communication information (nc) received from the first wireless charging device 903 in a state in which the first authentication information auth1 is received from the second wireless power receiving device 503. ), it is possible to calculate whether or not short-range communication between the first wireless power receiver 501 and the second wireless power receiver 503 is performed (S821).

The second wireless charging device 903, when the second wireless power receiver 503 is connected to the first wireless power receiver by a short-range communication method in a state in which the first wireless power receiver 501 starts charging, 2 Before confirming the second authentication by the predetermined wireless charging method of the wireless power receiver 503, charging of the second wireless power receiver 503 may be started (S823).

That is, the second wireless charging device 903 may wirelessly transmit the second power w2 to the second wireless power receiving device 503 through the second transmission coil 181b. Accordingly, since the wireless power system 10 of the present invention starts charging before authentication of the second wireless power receiver 503, the total charging time when charging the plurality of wireless power receivers 200 is reduced. has the effect of

Next, after starting charging of the second wireless power receiver 503, the second wireless charging device 903 may check authentication of the second wireless power receiver 503 (S825).

Specifically, when both the first wireless power receiver 501 and the second wireless power receiver 503 are authenticated by a predetermined charging method, the second wireless power receiver 503 also provides second authentication information ( auth2) may be transmitted to the second transmission coil 181b within the second wireless charging device 903.

The second transmission coil 181b may receive second authentication information auth2. In addition, the second control unit in the second wireless charging device 903 may confirm authentication of the second wireless power receiver 503 by a predetermined wireless charging method based on the second authentication information auth2.

When the second control unit in the second wireless charging device 903 receives the second authentication information auth2, based on the second authentication information auth2, the second wireless power receiver 503 determines the predetermined wireless power It is possible to check whether authentication has been received by the charging method.

That is, the second control unit in the second wireless charging device 903 may check whether the second wireless power receiver 503 is a product that has received WPC standard authentication (Qi) based on the second authentication information (auth2). there is.

The second controller in the second wireless charging device 903 maintains charging of the second wireless power receiver 503 when the second wireless power receiver 503 is authenticated by a predetermined wireless charging method. It can (S827).

Meanwhile, the second wireless power receiver 100 charges the second wireless power receiver 503 even when the second wireless power receiver 503 has been authenticated by a predetermined charging method, but the authentication version is different. can keep

For example, even when the second wireless power receiver 503 is certified for the WPC standard (Qi) 1.2.4 instead of the WPC standard (Qi) 1.3, the second wireless charging device 903 receives the second wireless power charging device 903. The wireless power receiver 503 may be charged.

Meanwhile, even when the first wireless power receiver 501 is authenticated by a predetermined wireless charging method, but the second wireless power receiver 503 is not authenticated by the predetermined charging method, the second wireless charging device The second control unit in 903 may temporarily maintain charging of the second wireless power receiver 503 without stopping charging (S829).

Accordingly, the wireless charging system 10 according to the third embodiment of the present invention also uses the first authentication information (auth1) and the second authentication information (auth2) differently from the wireless charging system 10 according to the first embodiment. The first wireless power receiver 501 and the second wireless power receiver 503 share the first authentication information (auth1), the second authentication information (auth2), and the short-range communication information (nc) to the first transmission coil. Since the 181a and the second transmission coil 181b are shared, charging is immediately stopped when any one of the two wireless power receivers 200 connected through short-range communication is authenticated. By proceeding with charging without having to do so, efficient operation of the system becomes possible.

On the other hand, the second wireless charging device 903 starts charging the second wireless power receiver 503 when the second wireless power receiver 503 is not authenticated by a predetermined charging method, Whether or not short-range communication between the first wireless power receiver 501 and the second wireless power receiver 503 may be checked at a preset cycle (S831).

The preset period may be appropriately set in consideration of the type of short-range communication of the first wireless power receiver 501 and the second wireless power receiver 503 and user convenience.

The second wireless charging device 903 may stop charging the second wireless power receiver 503 when short-range communication between the first wireless power receiver 501 and the second wireless power receiver 503 is disconnected. It can (S833).

Accordingly, the wireless charging system 10 according to the third embodiment of the present invention, like the wireless charging system 10 according to the second embodiment, among the two wireless power receivers 200, any one wireless If even the power receiver 200 is authenticated, charging is performed without immediately stopping charging, but when short-range communication between the two wireless power receivers 200 is disconnected, the unauthorized wireless power receiver 200 Since charging is stopped, users can be protected from security risks caused by hacking.

The accompanying drawings are only for easy understanding of the embodiments disclosed in this specification, and the technical idea disclosed in this specification is not limited by the accompanying drawings, and all changes and equivalents included in the spirit and technical scope of the present invention It should be understood to include water or substitutes.

Similarly, while actions are depicted in the drawings in a particular order, it should not be construed as requiring that those actions be performed in the specific order shown or in the sequential order, or that all depicted actions must be performed to obtain desired results. . In certain cases, multitasking and parallel processing can be advantageous.

In addition, although the preferred embodiments of the present invention have been shown and described above, the present invention is not limited to the specific embodiments described above, and the technical field to which the present invention belongs without departing from the gist of the present invention claimed in the claims. Of course, various modifications are possible by those skilled in the art, and these modifications should not be individually understood from the technical spirit or perspective of the present invention.

10: wireless charging system
100: wireless charging device
181: transmission coil
181a: first transmission coil
181b: second transmission coil
200: wireless power receiving device
501: first wireless power receiving device
503: second wireless power receiving device
901: first wireless charging device
903: second wireless charging device

Claims (14)

delete a first wireless power receiver;
a second wireless power receiver connected to the first wireless power receiver through a short-range communication method; and
A wireless charging device that starts charging the first wireless power receiver and the second wireless power receiver according to whether or not the first wireless power receiver is authenticated by a predetermined wireless charging method,
When the first wireless power receiver is authenticated by the predetermined wireless charging method, charging of the first wireless power receiver is started;
When the second wireless power receiver is connected to the first wireless power receiver through the short-range communication method in a state in which the first wireless power receiver starts charging, the predetermined wireless charging of the second wireless power receiver The wireless charging system starts charging the second wireless power receiver before confirming authentication by the method.
delete According to claim 2,
The first wireless power receiver,
Among the two wireless power receivers connected by the short-range communication method, a wireless power receiver is first placed on a charging surface of the wireless charging device. According to claim 4,
The wireless charging device,
After starting charging of the second wireless power receiver, the wireless charging system, characterized in that to confirm the authentication of the second wireless power receiver. According to claim 2,
The first wireless power receiver,
A wireless charging system, characterized in that among the two wireless power receivers connected by the short-range communication method, a wireless power receiver capable of being authenticated by the predetermined wireless charging method. According to claim 6,
The wireless charging device,
The wireless charging system, characterized in that after starting the charging of the second wireless power receiver, whether or not short-range communication between the first wireless power receiver and the second wireless power receiver is checked at a predetermined cycle. According to claim 7,
The wireless charging device,
The wireless charging system, characterized in that, when the short-range communication between the first wireless power receiver and the second wireless power receiver is disconnected, charging of the second wireless power receiver is stopped. According to claim 2,
The first wireless power receiver,
The wireless charging system, characterized in that for transmitting the first authentication information according to the predetermined wireless charging method to the second wireless power receiver. According to claim 9,
The wireless charging device,
A first transmission coil that wirelessly transmits power to the first wireless power receiver and receives the first authentication information and short-range communication information with the second wireless power receiver from the first wireless power receiver; ,
A second transmission coil that wirelessly transmits power to the second wireless power receiver and receives the first authentication information and the short-range communication information with the first wireless power receiver from the second wireless power receiver class,
Calculating whether to start charging of the second wireless power receiver based on the first authentication information and the short-range communication information, and controlling the first transmission coil and the second transmission coil according to the calculated whether to start charging A wireless charging system comprising a control unit. According to claim 10,
The first transmission coil transmits the first authentication information and the short-range communication information to the second transmission coil;
The second transmission coil may transmit the predetermined wireless charging method from the second wireless power receiver when both the first wireless power receiver and the second wireless power receiver are authenticated by the predetermined wireless charging method. A wireless charging system characterized in that for receiving the second authentication information by.

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