KR101744586B1 - Wireless charging power receiving apparatus for supporting a plurality of wireless charging method - Google Patents

Abstract

A wireless charging power receiving apparatus supporting a plurality of wireless charging schemes according to the present invention converts an input AC voltage based on the communication charging power into a PWM (Pulse Width Modulation) signal when the communication charging power is received from the wireless charging power transmission apparatus Generates a clock signal having a predetermined period, measures the number of clocks that can be included in the high pulse signal of the PWM signal, converts the number of clocks into bit data, The wireless charging method of the wireless charging power transmission apparatus can be accurately determined by checking the first wireless charging scheme corresponding to the converted bit data with reference to the bit table in which the range of the other bit data is recorded.

Description

TECHNICAL FIELD [0001] The present invention relates to a wireless charging power receiving apparatus that supports a plurality of wireless charging schemes,

Embodiments of the present invention relate to techniques for a wireless charging power receiving device for receiving charging power from a wireless charging power transmission device.

2. Description of the Related Art In recent years, efforts have been made to increase the use time of such portable devices as the popularity of various portable devices such as smart phones and tablet PCs increases.

As a part of these efforts, there have been introduced devices that make batteries mounted on portable devices not replaceable but removable, thereby facilitating battery replacement, and devices equipped with a high capacity battery are also being introduced.

However, since such a portable device eventually employs a battery, it is necessary to study a technique for supporting charging of a battery mounted on a portable device more easily and efficiently.

Currently, most of the general portable devices that are being introduced are those in which a predetermined charging cable is connected to a portable device so that the battery mounted in the portable device can be charged by wire.

In recent years, however, wireless charging technology has been introduced to charge a battery of a portable device in a wireless manner, since such a wired charging technique hinders the user's convenience.

As such wireless charging technology, a wireless charging technique based on electromagnetic induction and a wireless charging technique based on magnetic resonance exist. Both the wireless charging technique based on electromagnetic induction and the wireless charging technique based on magnetic resonance use a nonradiative attenuated alternating current signal present around the coil in the near field. In other words, a method of charging a battery without a contact terminal by using inductive coupling between a primary coil of a wireless charging power transmission device and a secondary coil of a wireless charging power reception device is introduced.

Generally, when the wireless charging power receiving apparatus receives the charging power having the AC signal from the wireless charging power transmission apparatus, the AC charging power receiving apparatus rectifies the AC voltage applied to the charging power receiving section to the DC voltage through the rectifying section, A constant voltage and a constant current to be supplied are generated and then supplied to the battery to charge the battery.

Then, the wireless charging power receiving device performs a pre-operation to be connected to the wireless charging power transmission device to normally receive the charging power from the wireless charging power transmission device and charge the battery.

The wireless charging power transmission device transmits the communication charging power to the wireless charging power receiving device in order to be connected to the wireless charging power receiving device before the charging power is fully transferred to the wireless charging power receiving device do.

At this time, when the wireless charging power receiving apparatus receives the communication charging power, the wireless charging power transmitting apparatus transmits a response signal indicating whether the communication charging power is normally received to the wireless charging power transmission apparatus, If it is normally fed back, the wireless charging power receiving apparatus starts to transmit the charging power in earnest.

The most well-known wireless charging methods to date include wireless charging by WPC (Wireless Power Consortium), wireless charging by PMA (Power Matrix Alliance) and wireless charging by Alliance for Wireless Power (A4WP).

The WPC system and the PMA system are configured to transmit a wireless charging power signal in a 110 to 205 kHz band while the WPC is configured to transmit a wireless charging power signal in a 110 to 357 kHz band .

The A4WP system is a wireless charging system of a magnetic resonance system, and is configured to transmit a wireless charging power signal of 6.78MHz band.

In the WPC system and the PMA system, in order to connect the wireless charging power transmission apparatus to the wireless charging power reception apparatus, communication charging power is supplied to the wireless charging power reception apparatus in the 110 to 205 kHz or 110 to 357 kHz band prescribed to transmit the wireless charging power signal The communication protocol is set so that the wireless charging power receiving device transmits a response signal to the wireless charging power transmission device through in-band communication in the same frequency band as the corresponding frequency band in which the communication charging power is transmitted .

On the other hand, in the A4WP system, when the wireless charging power transmitting apparatus is connected to the wireless charging power receiving apparatus, when the communication charging power is transmitted to the wireless charging power receiving apparatus in the 6.78 MHz band specified to transmit the wireless charging power signal, An out-of-band communication protocol is defined in which the power receiving apparatus transmits a response signal to the wireless charging power transmission apparatus through the Bluetooth communication in the 2.4 GHz band instead of the 6.78 MHz band have.

In this way, since there are various types of wireless charging methods, devices compatible with the wireless charging method have been separated from each other. As a result, devices that do not support a particular wireless charging scheme have had difficulty using wireless charging.

In order to overcome this disadvantage, the introduction of a wireless charging power receiving apparatus which is compatible with various wireless charging schemes has been recently discussed.

In such a wireless charging power receiving apparatus, an integrated antenna for receiving wireless charging power signals of both WPC, PMA, and A4WP is installed, and the wireless charging power received by each method is rectified and a constant voltage and a constant current And an integrated wireless rechargeable signal processing chip.

However, if the communication charging power for the first connection is received from the wireless charging power transmission device to the wireless charging power receiving device, the charging power of the wireless charging power receiving device may be analyzed to determine It is necessary to accurately determine whether or not the wireless charging method is used and then transmit a response signal to the wireless charging power transmission device based on the communication protocol according to the determined wireless charging method. In this way, if the wireless charging system is correctly determined based on the communication charging power initially received from the wireless charging power transmission apparatus, the wireless charging power transmission apparatus is connected to the wireless charging power transmission apparatus according to the determined wireless charging system to receive the wireless charging power .

Therefore, in order to allow a plurality of wireless charging methods to be compatible with each other in one wireless charging power receiving apparatus, the wireless charging method of the wireless charging power transmission apparatus is accurately determined based on the communication charging power transmitted from the wireless charging power transmission apparatus Research on techniques for discrimination is needed.

In the present invention, when communication charging power is received from a wireless charging power transmission apparatus, an input AC voltage based on the communication charging power is converted into a PWM (Pulse Width Modulation) signal, a clock signal having a predetermined period is generated The number of clocks that can be included in the high pulse signal of the PWM signal is measured and then the number of clocks is converted into bit data to refer to a bit table in which a range of different bit data is recorded for each of a plurality of wireless charging schemes, And a plurality of wireless charging schemes capable of accurately discriminating a wireless charging scheme of the wireless charging power transmission apparatus by confirming a first wireless charging scheme corresponding to the converted bit data.

A wireless charging power receiving apparatus supporting a plurality of wireless charging schemes according to an embodiment of the present invention stores and maintains a bit table in which a range of different bit data previously set for a plurality of different wireless charging schemes is recorded A bit table holding unit, a charging power receiving unit for receiving a communication charging power for wireless charging transmitted from a wireless charging power transmission apparatus, and a control unit for receiving the communication charging power in the form of AC, A PWM converter for sensing an AC voltage applied to the charge power receiving unit and converting the AC voltage into a PWM (Pulse Width Modulation) signal, generating a clock signal having a predetermined period, Is included in the High pulse signal within one period of the PWM signal A clock measuring unit for measuring the number of clocks of the clock signal capable of being output, a clock measuring unit for converting the number of clocks into bit data, 1 wireless charging method confirmation unit for confirming the wireless charging system and a response signal for transmitting a response signal for the communication charging power to the wireless charging power transmission apparatus based on a communication protocol preset according to the first wireless charging system And a transmission unit.

A wireless charging power receiving apparatus supporting a plurality of wireless charging schemes according to the present invention converts an input AC voltage based on the communication charging power into a PWM (Pulse Width Modulation) signal when the communication charging power is received from the wireless charging power transmission apparatus Generates a clock signal having a predetermined period, measures the number of clocks that can be included in the high pulse signal of the PWM signal, converts the number of clocks into bit data, The wireless charging method of the wireless charging power transmission apparatus can be accurately determined by checking the first wireless charging scheme corresponding to the converted bit data with reference to the bit table in which the range of the other bit data is recorded.

1 is a diagram illustrating a structure of a wireless charging power receiving apparatus supporting a plurality of wireless charging schemes according to an embodiment of the present invention.
2 is a view for explaining a wireless charging power receiving apparatus supporting a plurality of wireless charging schemes according to an embodiment of the present invention.

While the invention is susceptible to various modifications and alternative forms, specific embodiments thereof are shown by way of example in the drawings and will herein be described in detail. It should be understood, however, that the invention is not intended to be limited to the particular embodiments, but includes all modifications, equivalents, and alternatives falling within the spirit and scope of the invention. Like reference numerals are used for like elements in describing each drawing.

It is to be understood that when an element is referred to as being "connected" or "connected" to another element, it may be directly connected or connected to the other element, . On the other hand, when an element is referred to as being "directly connected" or "directly connected" to another element, it should be understood that there are no other elements in between.

The terminology used in this application is used only to describe a specific embodiment and is not intended to limit the invention. The singular expressions include plural expressions unless the context clearly dictates otherwise. In the present application, the terms "comprises" or "having" and the like are used to specify that there is a feature, a number, a step, an operation, an element, a component or a combination thereof described in the specification, But do not preclude the presence or addition of one or more other features, integers, steps, operations, elements, components, or combinations thereof.

Unless defined otherwise, all terms used herein, including technical or scientific terms, have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. Terms such as those defined in commonly used dictionaries are to be interpreted as having a meaning consistent with the contextual meaning of the related art and are to be interpreted as either ideal or overly formal in the sense of the present application Do not.

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

1 is a diagram illustrating a structure of a wireless charging power receiving apparatus supporting a plurality of wireless charging schemes according to an embodiment of the present invention.

1, a wireless charging power receiving apparatus 110 supporting a plurality of wireless charging schemes according to an embodiment of the present invention includes a bit table holding unit 111, a charging power receiving unit 112, a PWM (Pulse Width Modulation unit 113, a clock measuring unit 114, a wireless charging scheme confirmation unit 115, and a response signal transmission unit 116. [

The bit table holding unit 111 stores and holds a bit table in which a range of different bit data set in advance for each of a plurality of different wireless charging schemes is recorded.

In this connection, information may be recorded in the bit table as shown in Table 1 below.

Wireless charging methods Range of bit data Wireless charging method 1 0 to 1000 Wireless charging method 2 1001 to 1111 Wireless charging method 3 10000 to 11111 ... ...

The charging power receiving unit 112 receives the communication charging power for connection with the wireless charging power transmission apparatus 130 transmitted from the wireless charging power transmission apparatus 130.

In this regard, the wireless charging power transmission device 130 includes a primary coil for transmitting the charging power, and the charging power receiving unit 112 is connected to the primary coil by magnetic coupling And may include a secondary coil.

Accordingly, the magnetic field generated by the primary coil induces an induced current in the secondary coil, so that the charging power receiving unit 112 can receive the communication charging power from the wireless charging power transmission apparatus 130 .

In order to generate a magnetic field through the primary coil, the wireless charging power transmission device 130 rectifies the AC voltage from the commercial AC power source to DC and then uses the rectified DC voltage to generate a high frequency AC voltage A pulse can be generated and applied to the primary to generate a magnetic field.

Therefore, when the communication charging power of the AC type is received in the charging power receiving unit 112 and the communication charging power of the AC type is applied to the charging power receiving unit 112, the PWM converting unit 113 converts Senses the AC voltage applied to the charging power receiving unit 112 by the charging power, and converts the AC voltage into the PWM signal.

In this case, according to an embodiment of the present invention, the PWM converting unit 113 senses the AC voltage, converts a signal portion having a positive value in the AC voltage into a high pulse signal, To the low pulse signal, the AC voltage can be converted into the PWM signal.

The clock measuring unit 114 generates a clock signal having a predetermined period, compares the PWM signal with the clock signal, and outputs the clock signal, which is included in the High pulse signal within one period of the PWM signal, Measure the number of clocks.

The wireless charging mode check unit 115 converts the number of clocks into bit data, and confirms the first wireless charging scheme recorded in the bit table corresponding to the range of bit data including the converted bit data do.

The response signal transmitting unit 116 transmits a response signal for the communication charging power to the wireless charging power transmission apparatus 130 based on a communication protocol set in advance according to the first wireless charging scheme.

Hereinafter, the operation of the wireless charging power receiving apparatus 110 supporting a plurality of wireless charging schemes according to the present invention will be described in detail with reference to FIG.

2 is a view for explaining a wireless charging power receiving apparatus 110 supporting a plurality of wireless charging schemes according to an embodiment of the present invention.

First, it is assumed that the AC voltage applied by the charging power for communication received from the wireless charging power transmission apparatus 130 to the charging power receiving unit 112 has a signal waveform of reference numeral 210. [

At this time, the PWM converter 113 may sense the AC voltage having the signal waveform of the reference numeral 210 and convert the AC voltage into a PWM signal having the signal waveform shown by the reference numeral 220.

In this regard, the PWM converter 113 senses the AC voltage and converts the signal portions 211 and 212 having a positive value in the AC voltage into the high pulse signals 221 and 222, By converting the signal portions 213 and 214 into Low pulse signals 223 and 224, the AC voltage shown at 210 can be converted to the PWM signal as shown at 220. [

Then, the clock measuring unit 114 generates a clock signal having a predetermined period as shown at reference numeral 230, compares the PWM signal with the clock signal, and outputs a High pulse in one period of the PWM signal The number of clocks of the clock signal that can be included in the signal can be measured.

2, in the embodiment of FIG. 2, the number of clocks of the clock signal that can be contained in the high pulse signals 221 and 222 within one cycle of the PWM signal is "9" .

Thus, if the number of clocks is measured as "9 ", the wireless charging scheme determination unit 115 can convert the number of clocks of the nine bits into bit data of binary number" 1001 ".

Then, the wireless charging scheme check unit 115 confirms the first wireless charging scheme recorded in correspondence with the bit data range including the converted bit data "1001" on the bit table as shown in Table 1 .

In Table 1, since the first wireless charging scheme recorded in correspondence with the range of the bit data including the bit data "1001 " is" wireless charging scheme 2 ", the wireless charging scheme checking unit 115 determines You can check "Wireless charging method 2" by wireless charging method.

Then, the response signal transmission unit 116 transmits a response signal for the communication charging power to the wireless charging power transmission device (the wireless charging power transmission device) based on the communication protocol set in advance according to the first wireless charging method "wireless charging method 2" 130).

In this case, according to an embodiment of the present invention, the wireless charging power receiving apparatus 110 supporting a plurality of wireless charging schemes may further include a communication protocol information table storage unit 117.

The communication protocol information table storage unit 117 stores and maintains a communication protocol information table in which information on communication protocols corresponding to the plurality of different wireless charging schemes is recorded.

In this connection, information may be recorded in the communication protocol information table as shown in Table 2 below.

Wireless charging methods Communication Protocol Information Wireless charging method 1 Communication protocol 1 Wireless charging method 2 Communication Protocol 2 Wireless charging method 3 Communication Protocol 3 ... ...

At this time, the response signal transmitting unit 116 confirms the information on the communication protocol corresponding to the first wireless charging method from the communication protocol information table when the confirmation of the first wireless charging method is completed, To the wireless charging power transmission apparatus 130, a response signal for the communication charging power.

That is, when the first wireless charging method is confirmed as "wireless charging method 2 ", the response signal transmitting section 116 acquires a communication protocol corresponding to the" wireless charging method 2 " And transmits a response signal for the communication charging power to the wireless charging power transmission apparatus 130 based on the confirmed "communication protocol 2" after confirming the information about the "communication protocol 2 "

According to an embodiment of the present invention, the plurality of different wireless charging schemes may be wireless charging of a WPC (Wireless Power Consortium) scheme, wireless charging of a PMA (Power Matrix Alliance) scheme, and Alliance for Wireless Power It can be a wireless charging system.

In this case, according to an embodiment of the present invention, when the first wireless charging method confirmed by the wireless charging method determining part 115 is the wireless charging method of the WPC method or the wireless charging method of the PMA method, Unit 116 may transmit the response signal to wireless charging power transmission device 130 via in-band communication over the 110 to 205 kHz or 110 to 357 kHz band, In the case of the A4WP wireless charging method, the response signal transmitting unit 116 transmits the response signal to the wireless charging power transmission apparatus (or the wireless charging power transmission apparatus) in an out-of-band manner through the Bluetooth communication in the 2.4 GHz band 130).

In addition, according to an embodiment of the present invention, the wireless charging scheme determination unit 115 determines whether or not the wireless charging scheme determination unit 115 is in the first wireless charging scheme in which the converted bit data is recorded in correspondence with the range of bit data including the converted bit data If the WPC method and the PMA method exist in duplicate, the first wireless charging method can be confirmed by the WPC method.

In this regard, since the WPC system transmits the communication charging power through the 110 to 205 kHz band and the PMA system is prescribed to transmit the communication charging power through the 110 to 357 kHz band, the WPC system and the PMA system There may be a portion where a frequency band for transmitting the communication charging power is overlapped.

Accordingly, on the bit table as shown in Table 1, information on a range of bit data overlapping with the WPC scheme and the PMA scheme may be recorded.

Accordingly, the wireless charging scheme check unit 115 converts the number of clocks into bit data and confirms the first wireless charging scheme corresponding to the range of bit data including the converted bit data in the bit table When the WPC method and the PMA method are overlapped with each other in the first wireless charging method in which the converted bit data is recorded in correspondence with the bit data range including the converted bit data, The WPC method can be confirmed by the first wireless charging method.

Then, the response signal transmitting unit 116 can transmit a response signal to the wireless charging power transmission apparatus 130 based on the communication protocol set in advance according to the WPC scheme.

Thereafter, the response signal transmission unit 116 determines whether the wireless charging power is normally received from the wireless charging power transmission device 130 within a predetermined time from when the response signal is transmitted to the wireless charging power transmission device 130 Can be confirmed.

If the wireless charging power transmission device 130 receives the wireless charging power from the wireless charging power transmission device 130 within the predetermined time, the wireless charging power transmission device 130 receives the wireless charging power transmission device 130 according to the WPC scheme Therefore, the wireless charging power receiving apparatus 110 supporting a plurality of wireless charging schemes can receive the wireless charging power from the wireless charging power transmission apparatus 130 in the WPC manner.

However, if it is confirmed that the wireless charging power is not normally received from the wireless charging power transmission device 130 within the predetermined time, the wireless charging power transmission device 130 may be a device that takes the WPC wireless charging scheme The wireless charging scheme determination unit 115 can reset the first wireless charging scheme to the PMA scheme.

Then, the response signal transmission unit 116 retransmits a response signal for the communication charging power to the wireless charging power transmission apparatus 130 based on the communication protocol set in advance according to the PMA scheme, The device 130 and the wireless charging power receiving apparatus 110 supporting a plurality of wireless charging schemes can assist wireless charging of the battery according to the PMA scheme.

According to an embodiment of the present invention, a wireless charging power receiving apparatus 110 supporting a plurality of wireless charging schemes includes a voltage table storage unit 118, a current table storage unit 119, an input confirmation unit 120, And may further include a determination unit 121, a current determination unit 122, and a reception blocking unit 123.

The voltage table holding unit 118 stores and maintains a voltage table in which the first peak values for different input voltages are recorded for each of the plurality of different wireless charging schemes.

For example, in the case of WPC-based wireless charging, the limit input voltage to be applied to the wireless charging power receiving apparatus 110 supporting a plurality of wireless charging schemes is specified to be 15 V, The selected first peak value may be defined as "15V " for the WPC-based wireless charging method on the voltage table.

In the case of the A4WP type wireless charging, the limit input voltage to be applied to the wireless charging power receiving apparatus 110 supporting a plurality of wireless charging schemes is set to 18V, and if it exceeds the limit input voltage, the A4WP wireless charging The selected first peak value may be defined as "18V " for the A4WP wireless charging system on the voltage table.

The current table holding unit 119 stores and maintains a current table in which a predetermined second peak value for different input currents is recorded for each of the plurality of different wireless charging schemes.

For example, in the case of WPC-based wireless charging, the limit input current to be applied to the wireless charging power receiving apparatus 110 supporting a plurality of wireless charging schemes is defined as 2A, The selected second peak value may be defined as "2A " for the WPC-based wireless charging system on the current table.

In the case of the A4WP type wireless charging, the limit input current to be applied to the wireless charging power receiving apparatus 110 supporting a plurality of wireless charging schemes is defined as 1 A, and if it exceeds the limit input current, the A4WP type wireless charging The selected second peak value may be defined as "1A " for the A4WP type wireless charging system on the current table.

The input confirmation unit 120 receives from the wireless charging power transmission apparatus 130 after completion of the transmission of the response signal to the communication charging power, the wireless charging power based on the communication protocol set in advance according to the first wireless charging scheme If it is received, it confirms the input voltage and input current according to the received wireless charging power.

The voltage determination unit 121 determines whether the input voltage exceeds a first peak value recorded in correspondence with the first wireless charging scheme on the voltage table.

The current determination unit 122 determines whether or not the input current exceeds the second peak value recorded in correspondence with the first wireless charging scheme on the voltage table.

The reception blocking unit 123 may determine that the input voltage exceeds the first peak value recorded corresponding to the first wireless charging scheme or that the input current corresponds to the first wireless charging scheme Charging power transmission apparatus 130 when it is determined that the second peak value exceeds a predetermined second peak value.

In addition, according to an embodiment of the present invention, the wireless charging power receiving apparatus 110 supporting a plurality of wireless charging schemes, when the confirmation of the first wireless charging scheme is completed, In order to optimally support charging of the battery after receiving the wireless charging power from the wireless charging power transmission device 130, the charging power receiving device 110 that supports the plurality of wireless charging schemes, (Not shown) for setting the operation setting value of the wireless charging configurations such as a constant current unit, and the like, to a value optimized for the first wireless charging method.

As a result, the wireless charging power receiving apparatus 110 supporting a plurality of wireless charging schemes according to the present invention receives the communication charging power from the wireless charging power transmission apparatus 130, converts the input AC voltage based on the communication charging power into PWM A clock signal having a predetermined period is generated to measure the number of clocks that can be included in the high pulse signal of the PWM signal, and then the number of clocks is converted into bit data, The wireless charging method of the wireless charging power transmission apparatus 130 can be accurately discriminated by checking the first wireless charging scheme corresponding to the converted bit data with reference to the bit table in which the range of the other bit data is recorded.

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, And various modifications and changes may be made thereto by those skilled in the art to which the present invention pertains.

Accordingly, the spirit of the present invention should not be construed as being limited to the embodiments described, and all of the equivalents or equivalents of the claims, as well as the following claims, belong to the scope of the present invention .

110: wireless charging power receiver supporting a plurality of wireless charging schemes
111: Bit table holding unit 112: Charging power receiving unit
113: PWM (Pulse Width Modulation) converter 114: clock measuring unit
115: wireless charging system confirmation unit 116: response signal transmission unit
117: communication protocol information table holding unit 118: voltage table holding unit
119: current table holding unit 120: input confirmation unit
121: voltage determination unit 122: current determination unit
123:
130: Wireless charging power transmission device

Claims (5)

A bit table holding unit for storing and holding a bit table in which a range of different bit data set in advance for each of a plurality of different wireless charging schemes is recorded;
A communication protocol information table storage unit for storing and maintaining a communication protocol information table in which information on communication protocols corresponding to the plurality of different wireless charging schemes is recorded;
A charging power receiving unit for receiving a communication charging power for connection with the wireless charging power transmission apparatus transmitted from the wireless charging power transmission apparatus;
A PWM conversion circuit for sensing the AC voltage applied to the charging power receiving unit by the communication charging power and converting the AC voltage into a PWM (Pulse Width Modulation) signal when the communication charging power of the AC type is applied to the charging power receiving unit; part;
A clock generating circuit for generating a clock signal having a predetermined period and comparing the PWM signal with the clock signal and for counting the number of clocks of the clock signal that can be included in the high pulse signal within one period of the PWM signal, Measuring unit;
A wireless charging scheme verification unit for converting the number of clocks into bit data and confirming a first wireless charging scheme recorded in the bit table corresponding to a range of bit data including the converted bit data; And
Wherein when the confirmation of the first wireless charging scheme is completed, information on a communication protocol corresponding to the first wireless charging scheme is checked from the communication protocol information table, and a response to the communication charging power A response signal transmission unit for transmitting a signal to the wireless charging power transmission apparatus,
And a plurality of wireless charging schemes including a plurality of wireless charging modes. The method according to claim 1,
The PWM converter
The AC voltage is sensed to convert a signal portion having a positive value in the AC voltage into a High pulse signal and converting a signal portion having a negative value into a Low pulse signal to convert the AC voltage into the PWM signal A wireless charging power receiving apparatus supporting a plurality of wireless charging schemes. delete The method according to claim 1,
Each of the plurality of different wireless charging methods may be wireless charging of a WPC (Wireless Power Consortium) scheme, wireless charging of a PMA (Power Matrix Alliance) scheme, or wireless charging of an A4WP (Alliance for Wireless Power)
The wireless charging system confirmation unit
When the WPC method and the PMA method overlap with each other in the first wireless charging method in which the converted bit data is recorded on the bit table corresponding to the range of the bit data including the converted bit data, By the WPC method,
The response signal transmitting unit
Wherein the wireless charging power transmission device receives the wireless charging power from the wireless charging power transmission device within a predetermined time after transmitting a response signal for the communication charging power to the wireless charging power transmission device based on a communication protocol set in advance according to the WPC scheme And,
The wireless charging system confirmation unit
If it is determined that the wireless charging power is not normally received from the wireless charging power transmission device within the predetermined time, the first wireless charging method is reset to the PMA scheme,
The response signal transmitting unit
And a plurality of wireless charging methods for retransmitting a response signal for the communication charging power to the wireless charging power transmission device based on a communication protocol set in advance according to the PMA scheme. The method according to claim 1,
A voltage table holding unit for storing and holding a voltage table in which a predetermined first peak value for different input voltages is recorded for each of the plurality of different wireless charging schemes;
A current table storage unit for storing and holding a current table in which a predetermined second peak value for different input currents is recorded for each of the plurality of different wireless charging schemes;
When the wireless charging power is received from the wireless charging power transmission apparatus based on the communication protocol set in advance according to the first wireless charging scheme after the transmission of the response signal to the communication charging power is completed, An input confirmation unit for confirming an input voltage and an input current according to the input voltage;
A voltage judging unit for judging whether or not the input voltage exceeds a predetermined first peak value recorded corresponding to the first wireless charging scheme on the voltage table;
A current judging unit for judging whether or not the input current exceeds a predetermined second peak value recorded corresponding to the first wireless charging scheme on the voltage table; And
The input voltage is judged as exceeding a predetermined first peak value recorded corresponding to the first wireless charging system, or the input current is judged to be higher than a predetermined second peak The wireless charging power transmission apparatus comprising: a reception blocking unit for blocking reception of wireless charging power transmitted from the wireless charging power transmission apparatus,
And a plurality of wireless charging schemes further comprising:

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