KR101604282B1 - Wireless charging power receiving device and operating method of the wireless charging power receiving device - Google Patents

Abstract

A wireless charging power receiving apparatus and a method of operating the wireless charging power receiving apparatus are disclosed. The wireless charging power receiving apparatus according to the present invention performs the voltage value correction by comparing the AC voltage with a predetermined reference voltage before rectifying the AC voltage applied to the charging power receiving unit to the DC voltage by the rectifying unit, The sensing value for the AC voltage may vary depending on the internal temperature or the external temperature of the IC (Integrated Circuit) constituting the wireless charging power receiving apparatus. Therefore, the internal temperature of the IC The voltage value correction for the AC voltage can be appropriately performed by suitably adjusting the reference voltage used for the voltage value correction according to the change of the external temperature.

Description

TECHNICAL FIELD [0001] The present invention relates to a wireless charging power receiving apparatus and a method of operating the wireless charging power receiving apparatus,

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

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 AC charging power 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 and supplies the DC power to the battery And generates a constant voltage and a constant current, and supplies the constant voltage and the constant current to the battery, thereby charging the battery.

However, in the conventional wireless charging power receiving apparatus, when rectifying the AC voltage to the DC voltage in the rectifying section, the voltage value of the AC voltage is somewhat low. However, The battery charging efficiency can be lowered.

Therefore, in the wireless charging power receiving apparatus, it is necessary to study a technique that can minimize the loss by allowing the rectifying unit to perform the voltage value correction on the AC voltage before rectifying the AC voltage to the DC voltage.

Further, when the wireless charging power receiving apparatus performs the voltage value correction for the AC voltage, sensing of the AC voltage applied to the charging power receiving unit must be performed. If the sensing value for the AC voltage is The voltage value correction for the AC voltage may be appropriately performed in accordance with the change in the internal temperature or the external temperature of the IC because the IC may be changed depending on the internal temperature or the external temperature of the IC This paper is organized as follows.

The wireless charging power receiving apparatus according to the present invention performs the voltage value correction by comparing the AC voltage with a predetermined reference voltage before rectifying the AC voltage applied to the charging power receiving unit to the DC voltage by the rectifying unit, Thereby minimizing power loss, thereby increasing charging efficiency for the battery.

In addition, the wireless charging power receiving apparatus according to the present invention can vary the sensing value of the AC voltage according to an internal temperature or an external temperature of an IC (Integrated Circuit) constituting the wireless charging power receiving apparatus, It is desired to appropriately adjust the reference voltage used for the voltage value correction according to the change of the internal temperature or the external temperature of the IC so that the voltage value correction for the AC voltage can be appropriately performed.

A wireless charging power receiving apparatus according to an exemplary embodiment of the present invention includes a charging power receiving unit for receiving charging power from a wireless charging power transmitter and a charging power receiving unit for charging the charging power receiving unit with the charging power, Sensing the AC voltage applied to the power receiving unit to compare the sensed AC voltage with a reference voltage and generating a pulse signal for voltage correction with respect to a period when the sensed AC voltage is lower than the reference voltage, And a rectifier for generating a constant voltage and a constant current on the basis of the DC voltage outputted from the rectifying part to generate the constant voltage and the constant current, A constant voltage / constant current part for charging the battery by supplying the battery, A temperature sensing unit for sensing an internal temperature and an external temperature of an integrated circuit (IC) constituting a charging power receiving apparatus, and a control unit for adjusting a magnitude of the reference voltage according to a change in an internal temperature and an external temperature of the IC do.

According to another aspect of the present invention, there is provided a method of operating a wireless charging power receiving apparatus, the charging power receiving unit receiving charging power from a wireless charging power transmitter, the charging power receiving unit receiving an AC charging power, The rectifying unit senses the AC voltage applied to the charging power receiving unit by the charging power, compares the sensed AC voltage with the reference voltage, and generates a pulse for voltage correction for a period in which the sensed AC voltage is lower than the reference voltage Generating a signal to change a voltage of the sensed AC voltage to a DC voltage and outputting the corrected AC voltage; and outputting a constant voltage / constant current based on the DC voltage output from the rectifying unit, And the constant voltage and the constant current are supplied to the battery, And a temperature sensing unit configured to sense an internal temperature and an external temperature of the IC constituting the wireless charging power receiving apparatus, and a control unit configured to control the magnitude of the reference voltage according to a change in an internal temperature and an external temperature of the IC, ≪ / RTI >

The wireless charging power receiving apparatus according to the present invention performs the voltage value correction by comparing the AC voltage with a predetermined reference voltage before rectifying the AC voltage applied to the charging power receiving unit to the DC voltage by the rectifying unit, The power loss can be minimized, thereby increasing the charging efficiency with respect to the battery.

In addition, the wireless charging power receiving apparatus according to the present invention can vary the sensing value of the AC voltage according to an internal temperature or an external temperature of an IC (Integrated Circuit) constituting the wireless charging power receiving apparatus, The voltage value correction for the AC voltage can be appropriately performed by appropriately adjusting the reference voltage used for the voltage value correction according to the change of the internal temperature or the external temperature of the IC.

1 is a diagram illustrating a structure of a wireless charging power receiving apparatus according to an embodiment of the present invention.
2 is a flowchart illustrating an operation method of a wireless charging power receiving apparatus 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 according to an embodiment of the present invention.

1, a wireless charging power receiving apparatus 110 according to an exemplary embodiment of the present invention includes a charging power receiving unit 111, a rectifying unit 112, a constant voltage / constant current unit 113, a battery 114, (sensing) unit 115 and a control unit 116.

The charging power receiving unit 111 receives the charging power from the wireless charging power transmitter 130.

In this regard, the wireless charging power transmitter 130 includes a primary coil for transmitting the charging power, and the charging power receiving unit 111 includes two (2) to be magnetically mutually coupled by inductive coupling with the primary coil. And may include a car 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 111 can receive the charging power from the wireless charging power transmitter 130.

In order to generate a magnetic field through the primary coil, the wireless charging power transmitter 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 pulse And applying it to the primary coil to generate a magnetic field.

Therefore, when the alternating charging power is received in the charging power receiving unit 111 and the alternating charging power is applied to the charging power receiving unit 111, the rectifying unit 112 charges The sensing unit 110 senses an AC voltage applied to the power receiving unit 111 and compares the sensed AC voltage with a reference voltage, generates a pulse signal for voltage correction for the sensed AC voltage lower than the reference voltage, After the voltage correction for the AC voltage is performed, the AC voltage having undergone the voltage correction may be changed to the DC voltage and output.

For example, assuming that the reference voltage is 2V, when the rectifying unit 112 senses the AC voltage applied to the charging power receiving unit 111 by the charging power, the AC voltage is applied to the reference voltage 2V The rectifying unit 112 determines that a loss due to a voltage drop has occurred in the specific period and generates a predetermined pulse signal for voltage correction for the specific period to generate a voltage value To be higher than the reference voltage of 2V or higher, and then the AC voltage having undergone the voltage correction is converted into a DC voltage and output.

When the AC voltage is rectified to the DC voltage, the constant voltage / constant current unit 113 generates a constant voltage and a constant current based on the DC voltage output from the rectifying unit 112, and supplies the constant voltage and the constant current to the battery 114 The battery 114 is charged.

The rectifier 112 rectifies the AC voltage applied to the charging power receiver 111 to a DC voltage before rectifying the AC voltage to a predetermined reference By performing the voltage value correction in comparison with the voltage, the power loss due to the voltage drop can be minimized, thereby increasing the charging efficiency with respect to the battery 114. [

The rectifying unit 112 senses the AC voltage applied to the charging power receiving unit 111 by the charging power, compares the sensed AC voltage with the reference voltage to perform voltage correction, The AC voltage is changed to a DC voltage and output.

At this time, when sensing the AC voltage applied to the charging power receiving unit 111, the rectifying unit 112 controls the internal temperature of the IC (Integrated Circuit) constituting the wireless charging power receiving apparatus 110 and the external temperature The sensing value for the AC voltage may be changed.

For example, the rectifying unit 112 may have a characteristic that the AC voltage applied to the charging power receiving unit 111 is sensed as a lower voltage as the internal temperature or the external temperature of the IC becomes higher.

In this case, the rectifying unit 112 compares the sensed AC voltage with a reference voltage, generates a pulse signal for the sensed AC voltage lower than the reference voltage, and performs voltage correction on the sensed AC voltage , The sensing value of the AC voltage may be changed according to the change of the internal temperature and the external temperature of the IC if the reference voltage is always maintained at the same value even when the internal temperature and the external temperature of the IC are changed , Accurate voltage correction may not be performed.

Therefore, the wireless charging power receiving apparatus 110 according to an embodiment of the present invention considers that the sensed value of the AC voltage sensed by the rectifying unit 112 may vary according to the change of the internal temperature and the external temperature of the IC And may include a temperature sensing unit 115 and a control unit 116 so as to be able to appropriately adjust the reference voltage value.

First, the temperature sensing unit 115 senses the internal temperature and the external temperature of the IC constituting the wireless charging power receiving apparatus 110.

According to an embodiment of the present invention, the temperature sensing unit 115 may include an internal temperature sensing unit 117 and an external temperature sensing unit 118.

The internal temperature sensing unit 117 measures a first output voltage of a CMOS (Complementary Metal Oxide Semiconductor) -based temperature sensor disposed inside the IC and having a characteristic of outputting a voltage value that is inversely proportional to a temperature rise, And calculates an internal temperature of the IC according to the measured first output voltage with reference to a predetermined voltage value change characteristic according to a temperature change of the CMOS-based temperature sensor.

In the related art, the CMOS-based temperature sensor can configure a circuit using a CMOS device and a bipolar junction transistor (BJT) device, And may be configured to output a voltage value that is inversely proportional to the rise.

Accordingly, the internal temperature sensing unit 117 measures a first output voltage of the CMOS-based temperature sensor disposed inside the IC, and then, selects a predetermined output voltage according to a temperature change set for the CMOS- The internal temperature of the IC corresponding to the measured first output voltage can be calculated with reference to the voltage value change characteristic.

The external temperature sensing unit 118 measures a second output voltage of a negative temperature coefficient thermistor disposed outside the IC and having a resistance value decreasing with increasing temperature, And calculates an external temperature of the IC according to the measured second output voltage with reference to a predetermined resistance value change characteristic according to a temperature change of the IC.

The external temperature sensing unit 118 measures a second output voltage of the negative temperature coefficient thermistor disposed outside the IC, calculates an internal resistance value of the negative temperature coefficient thermistor based on the second output voltage, The external temperature of the IC corresponding to the calculated internal resistance value can be calculated with reference to the selected resistance value change characteristic according to the temperature change set for the negative temperature coefficient thermistor.

When the sensing of the internal temperature and the external temperature of the IC is completed, the controller 116 adjusts the magnitude of the reference voltage according to the change of the internal temperature and the external temperature of the IC.

The controller 116 may include a table holding unit 119, a temperature value selecting unit 120, a voltage value selecting unit 121, and a feedback unit 122 according to an embodiment of the present invention.

The table holding unit 119 holds a table in which a plurality of predetermined temperature ranges and different voltage values for the reference voltages corresponding to the plurality of predetermined temperature ranges are stored.

According to an embodiment of the present invention, the rectifying unit 112 may have a characteristic that the AC voltage applied to the charging power receiving unit 111 is sensed as a lower voltage as the internal temperature or the external temperature of the IC becomes higher have.

At this time, as the plurality of predetermined temperature ranges have a high temperature value range, the reference voltage may correspond to a low voltage value stored in the table.

For example, the table may store a reference voltage of "2V " corresponding to the temperature range for" 60 degrees Celsius ", and "1.5 V" And a reference voltage of "1V" may be stored corresponding to a temperature range of "more than 100 degrees and less than 150 degrees ".

The information stored on the table sets various conditions for changing the internal temperature and the external temperature of the IC and confirms the sensed values of the AC voltage sensed by the rectifying unit 112 under the change condition, Can be determined through experiments performed.

The temperature value selection unit 120 compares the internal temperature of the IC with the external temperature to select a temperature value having a higher temperature value.

The voltage value selection unit 121 selects a voltage value corresponding to the temperature range to which the selected temperature value belongs among the plurality of predetermined temperature ranges with reference to the table.

Then, the feedback unit 122 determines the selected voltage value as the reference voltage, and feeds back the determined reference voltage to the rectifying unit 112.

For example, when the internal temperature of the IC is determined to be higher than the external temperature as a result of comparing the internal temperature of the IC with the external temperature, the temperature value selection unit 120 may select a temperature value for the internal temperature of the IC have.

The voltage value selection unit 121 can select a stored voltage value corresponding to the temperature range to which the temperature value of the internal temperature of the selected IC belongs among the plurality of predetermined temperature ranges with reference to the table.

If the internal temperature of the IC is 120 degrees and the stored reference voltage value corresponding to the temperature range of "above 100 degrees, below 150 degrees" Quot ;, the voltage value selection unit 121 can select the voltage value "1V ".

Then, the feedback unit 122 may determine the selected voltage value "1V " as the reference voltage, and feed back the determined reference voltage to the rectifying unit 112. [

Accordingly, the rectifying unit 112 compares the sensed value of the AC voltage applied to the charging power receiving unit 111 with the feedback reference voltage to perform voltage correction on the sensed AC voltage, Or even if the external temperature changes, appropriate voltage correction can be performed depending on the situation.

According to an embodiment of the present invention, the control unit 116 may further include a threshold determination unit 123 that determines whether the temperature value selected by the temperature value selection unit 120 exceeds a predetermined threshold temperature value .

At this time, if it is determined that the selected temperature value exceeds the predetermined threshold temperature value, the feedback unit 122 generates a control signal for controlling the stopping of the rectifying unit 112 and the constant voltage / constant current unit 113 The current can be fed back to the rectifying section 112 and the constant voltage / constant current section 113.

That is, when the internal or external temperature of the IC becomes high enough to exceed a predetermined threshold temperature value, the wireless charging power receiving apparatus 110 according to the embodiment of the present invention may be configured such that the rectifying unit 112 and the constant voltage / 113), it is possible to prevent malfunction due to overheating and to protect the IC.

2 is a flowchart illustrating an operation method of a wireless charging power receiving apparatus according to an embodiment of the present invention.

In step S210, the charging power receiving unit receives the charging power from the wireless charging power transmitter.

In step S220, when the charging power of the AC type is applied to the charging power receiving unit, the rectifying unit senses the AC voltage applied to the charging power receiving unit by the charging power, compares the sensed AC voltage with the reference voltage And generates a pulse signal for voltage correction for the sensed AC voltage lower than the reference voltage to perform voltage correction for the sensed AC voltage and then changes the AC voltage subjected to the voltage correction to a DC voltage And outputs it.

In step S230, the constant voltage / constant current part generates a constant voltage and a constant current based on the direct voltage output from the rectifying part, and supplies the constant voltage and the constant current to the battery to charge the battery.

In step S240, the temperature sensing unit senses the internal temperature and the external temperature of the IC constituting the wireless charging power receiving apparatus.

In step S250, the controller adjusts the magnitude of the reference voltage according to the change in the internal temperature and the external temperature of the IC.

At this time, according to an embodiment of the present invention, in step S240, the internal temperature sensing unit is disposed in the IC, and the first temperature-sensing unit of the CMOS-based temperature sensor having a characteristic of outputting a voltage value in inverse proportion to the temperature rise Calculating an internal temperature of the IC according to the measured first output voltage by referring to a predetermined voltage value change characteristic according to a temperature change of the CMOS based temperature sensor, measuring an output voltage, Measuring a second output voltage of the negative temperature coefficient thermistor having a characteristic in which the resistance value decreases with an increase in temperature, measuring a second resistance value change characteristic of the negative temperature coefficient thermistor, And calculating an external temperature of the IC according to the measured second output voltage.

According to an embodiment of the present invention, in step S250, the table holding unit stores a plurality of predetermined temperature ranges and different voltage values for the reference voltages corresponding to the plurality of selected temperature ranges, Selecting a temperature value having a higher temperature value by comparing the internal temperature and the external temperature of the IC; and controlling the voltage value selector to select the plurality of selected Selecting a stored voltage value corresponding to a temperature range to which the selected temperature value belongs, and feeding back the determined reference voltage to the rectifying part by determining the selected voltage value as the reference voltage . ≪ / RTI >

According to an embodiment of the present invention, the rectifying unit may have a characteristic that the AC voltage applied to the charging power receiving unit is sensed as a lower voltage as the internal temperature or the external temperature of the IC becomes higher, A lower voltage value may be stored corresponding to the reference voltage as the plurality of predetermined temperature ranges have a higher temperature value range.

According to an embodiment of the present invention, the method of operating the wireless charging power receiving apparatus may further include the step of determining whether the threshold value determining unit has exceeded a predetermined threshold temperature value after step S240, Generating a control signal for controlling the operation of the rectifying unit and the constant voltage / constant current unit to be feedbacked to the rectifying unit and the constant voltage / constant current unit when it is determined that the selected temperature value exceeds the predetermined threshold temperature value, As shown in FIG.

The operation of the wireless charging power receiving apparatus according to the embodiment of the present invention has been described above with reference to FIG. Here, the method of operating the wireless charging power receiving apparatus according to an embodiment of the present invention may correspond to the configuration of the operation of the wireless charging power receiving apparatus 110 described with reference to FIG. 1, It will be omitted.

As described above, the present invention has been described with reference to particular embodiments, such as specific elements, and specific embodiments and drawings. However, it should be understood that the present invention is not limited to the above- 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 receiving device
111: Charging power receiving unit 112:
113: constant voltage / constant current portion 114: battery
115: a temperature sensing unit 116:
117: internal temperature sensing unit 118: external temperature sensing unit
119: table holding unit 120: temperature value selection unit
121: Voltage value selection unit 122:
123:
130: Wireless charging power transmitter

Claims (10)

A wireless charging power receiving apparatus comprising:
A charging power receiver for receiving charging power from a wireless charging power transmitter;
And a controller for sensing an AC voltage applied to the charging power receiving unit by the charging power to compare the sensed AC voltage with a reference voltage when the AC charging power is applied to the charging power receiving unit, A rectifying unit for generating a pulse signal for voltage correction for an interval in which the alternating voltage is lower than the reference voltage to perform voltage correction for the sensed alternating voltage and changing the alternating voltage for which the voltage correction has been performed to a direct- ;
A constant voltage / constant current unit for generating a constant voltage and a constant current based on the DC voltage output from the rectifying unit to supply the constant voltage and the constant current to the battery, thereby charging the battery;
A temperature sensing unit for sensing an internal temperature and an external temperature of an IC (Integrated Circuit) constituting the wireless charging power receiving apparatus; And
A controller for adjusting a magnitude of the reference voltage according to changes in the internal temperature and the external temperature of the IC,
Lt; / RTI >
The control unit
A table holding unit for holding a table storing a plurality of predetermined temperature ranges and different voltage values for the reference voltages corresponding to the plurality of selected temperature ranges;
A temperature value selector for comparing the internal temperature of the IC with an external temperature to select a temperature value having a higher temperature value;
A voltage value selection unit for selecting a stored voltage value corresponding to a temperature range to which the selected temperature value belongs among the plurality of predetermined temperature ranges with reference to the table; And
A feedback unit for determining the selected voltage value as the reference voltage and feeding back the determined reference voltage to the rectifying unit,
Wherein the wireless charging power receiving device includes: The method according to claim 1,
The temperature sensing unit
A CMOS (Complementary Metal Oxide Semiconductor) -based temperature sensor having a characteristic of outputting a voltage value inversely proportional to a temperature rise, which is disposed inside the IC, and measures a first output voltage of the CMOS- An internal temperature sensing unit for calculating an internal temperature of the IC according to the measured first output voltage with reference to a predetermined voltage value change characteristic according to a change; And
Measuring a second output voltage of a negative temperature coefficient thermistor disposed outside the IC and having a resistance value decreasing with increasing temperature, measuring a second output voltage of the negative temperature coefficient thermistor, And an external temperature sensing unit for calculating an external temperature of the IC according to the measured second output voltage,
Wherein the wireless charging power receiving device includes: delete The method according to claim 1,
The rectifying part
The AC voltage applied to the charging power receiving unit is sensed as a lower voltage as the internal temperature or the external temperature of the IC becomes higher,
The table
Wherein a lower voltage value is stored in correspondence with the reference voltage as the plurality of predetermined temperature ranges have a higher temperature value range. The method according to claim 1,
The control unit
A threshold determining unit for determining whether the selected temperature value exceeds a predetermined threshold temperature value,
Further comprising:
The feedback section
And a control unit that generates a control signal for controlling the operation of the rectifying unit and the constant voltage / constant current unit to generate a control signal for feeding back to the rectifying unit and the constant voltage / constant current unit when it is determined that the selected temperature value exceeds the predetermined threshold temperature value, Receiving device. A method of operating a wireless charging power receiving device,
The charging power receiver receiving charging power from the wireless charging power transmitter;
Wherein the rectifying unit senses an AC voltage applied to the charging power receiving unit by the charging power and compares the sensed AC voltage with a reference voltage when the charging power of the AC type is applied to the charging power receiving unit, And generates a pulse signal for voltage correction for a sensed AC voltage lower than the reference voltage to perform voltage correction for the sensed AC voltage and then converts the AC voltage subjected to the voltage correction to a DC voltage to output ;
Charging the battery by supplying a constant voltage and a constant current to the battery by generating a constant voltage and a constant current based on a DC voltage output from the rectifying unit;
Sensing the internal temperature and the external temperature of an IC (Integrated Circuit) constituting the wireless charging power receiving apparatus; And
Adjusting a magnitude value of the reference voltage according to a change in an internal temperature and an external temperature of the IC
Lt; / RTI >
The step of adjusting the magnitude value of the reference voltage
Maintaining a table in which table holders store a plurality of predetermined temperature ranges and different voltage values for the reference voltages corresponding to each of the plurality of selected temperature ranges;
Comparing the internal temperature and the external temperature of the IC to select a temperature value having a higher temperature value;
Selecting a stored voltage value corresponding to a temperature range to which the selected temperature value belongs among the plurality of predetermined temperature ranges with reference to the table; And
Wherein the feedback section determines the selected voltage value as the reference voltage and feeds back the determined reference voltage to the rectifying section
Wherein the wireless charging power receiving apparatus comprises: The method according to claim 6,
The step of sensing the internal temperature and the external temperature
A CMOS (Complementary Metal Oxide Semiconductor) -based temperature sensor having a characteristic that an internal temperature sensing unit is disposed inside the IC and outputs a voltage value that is inversely proportional to a temperature rise; Computing an internal temperature of the IC according to the measured first output voltage with reference to a predetermined voltage value change characteristic according to a temperature change of the temperature sensor; And
A second output voltage of a negative temperature coefficient thermistor having an external temperature sensing part disposed outside the IC and having a resistance value decreasing with an increase in temperature is measured and a second output voltage of the negative temperature coefficient thermistor Calculating an external temperature of the IC according to the measured second output voltage with reference to a predetermined resistance value change characteristic according to the measured resistance value variation characteristic
Wherein the wireless charging power receiving apparatus comprises: delete The method according to claim 6,
The rectifying part
The AC voltage applied to the charging power receiving unit is sensed as a lower voltage as the internal temperature or the external temperature of the IC becomes higher,
The table
Wherein a lower voltage value is stored corresponding to the reference voltage as the plurality of predetermined temperature ranges have a higher temperature value range. The method according to claim 6,
Determining whether the selected temperature value exceeds a predetermined threshold temperature value; And
The feedback unit generates a control signal for controlling the operation stopping of the rectifying unit and the constant voltage / constant current unit, and feeds back the control signal to the rectifying unit and the constant voltage / constant current unit when the selected temperature value is determined to exceed the predetermined threshold temperature value step
Further comprising the steps of:

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