KR20200129293A - Apparatus and method for controlling wireless charging of vehicle - Google Patents

Abstract

According to an embodiment of the present invention, provided is a device for controlling wireless charging of a vehicle which comprises: a power output unit which transmits charging power for charging a mobile device; and a control unit which adjusts an amount of the charging power transmitted to the mobile device in accordance with a temperature change of the power output unit. Therefore, a temperature rise of the device for controlling wireless charging and the mobile device can be suppressed, and charging efficiency can be improved.

Description

Vehicle wireless charging control device and method {APPARATUS AND METHOD FOR CONTROLLING WIRELESS CHARGING OF VEHICLE}

The present invention relates to an apparatus and method for controlling wireless charging of a vehicle.

Recently, as a technology for fast charging of portable devices has been developed, a heat generation problem has emerged in wireless power transmission devices and portable devices. In general, wireless charging of a portable device is performed in a manner in which a wireless power transmission device provides wireless power with a required amount of power set by the portable device, and the wireless power transmission device supplies power with the required amount of power set from the portable device. Therefore, it is difficult to control the temperature of the transmitting device itself.

An object of the present invention is to provide an apparatus and method for controlling wireless charging of a vehicle capable of effectively controlling a heating problem of a wireless power transmission apparatus.

The technical problems of the present invention are not limited to the technical problems mentioned above, and other technical problems that are not mentioned will be clearly understood by those skilled in the art from the following description.

A wireless charging control device for a vehicle according to an embodiment of the present invention includes a power output unit that transmits charging power for charging a mobile device, and a control unit that adjusts the amount of charging power transmitted to the mobile device according to a temperature change of the power output unit. Includes.

The control unit determines whether the temperature of the power output unit exceeds a first temperature, and when the temperature of the power output unit exceeds the first temperature, the amount of charging power transmitted to the portable device is reduced.

If the temperature of the power output unit does not exceed the first temperature, the control unit determines whether the temperature of the power output unit is less than a second temperature lower than the first temperature, and the temperature of the power output unit is higher than the first temperature. If it is less than the second low temperature, the amount of charging power calculated based on the information of the portable device is transmitted.

When the temperature of the power output unit does not exceed the first temperature, the control unit determines whether a timer is set, and when the timer is not set, transmits a charging power amount calculated based on information of the portable device.

The controller determines whether a predetermined time has elapsed after the timer is set, and when the predetermined time elapses, the amount of charging power transmitted to the portable device is reduced.

When the amount of charging power transmitted to the portable device is reduced, the controller resets the timer.

If the predetermined time has not elapsed, the control unit determines whether the temperature of the power output unit is less than a second temperature lower than the first temperature, and if the temperature of the power output unit is less than a second temperature lower than the first temperature, , And transmits the amount of charging power calculated based on the information of the portable device.

When transmitting the charging power to the mobile device, the control unit determines whether the temperature increase value of the power output unit exceeds a first reference value, and when the temperature increase value of the power output unit exceeds a first reference value, it is transmitted to the mobile device. Reduce the amount of power to be charged.

If the temperature increase value of the power output unit does not exceed the first reference value, the control unit determines whether the temperature increase value of the power output unit is less than a second reference value lower than the first reference value, and the temperature increase value of the power output unit is the If it is less than the second reference value lower than the first reference value, the amount of charging power calculated based on the information of the portable device is transmitted.

The wireless charging control method of a vehicle according to an embodiment of the present invention includes transmitting charging power from a power output unit to a mobile device and adjusting the amount of charging power transmitted to the mobile device according to a temperature change of the power output unit. Include.

Determining whether the temperature of the power output unit exceeds a first temperature; And when the temperature of the power output unit exceeds the first temperature, reducing an amount of charging power transmitted to the portable device.

If the temperature of the power output unit does not exceed the first temperature, determining whether the temperature of the power output unit is less than a second temperature lower than the first temperature; And if the temperature of the power output unit is less than a second temperature lower than the first temperature, transmitting an amount of charging power calculated based on the information of the portable device.

If the temperature of the power output unit does not exceed the first temperature, determining whether a timer is set, and if the timer is not set, transmitting a charging power amount calculated based on the information of the portable device. do.

Determining whether a predetermined time has elapsed after setting of the timer; And when the predetermined time elapses, reducing an amount of charging power transmitted to the portable device.

After the step of reducing the amount of charging power transmitted to the mobile device, the step of resetting the timer.

If the predetermined time has not elapsed, determining whether the temperature of the power output unit is less than a second temperature lower than the first temperature; And if the temperature of the power output unit is less than a second temperature lower than the first temperature, transmitting an amount of charging power calculated based on the information of the portable device.

The step of determining whether the temperature increase value of the power output unit exceeds a first reference value, and when the temperature increase value of the power output unit exceeds a first reference value, reducing an amount of charging power transmitted to the portable device.

If the temperature increase value of the power output unit does not exceed the first reference value, determining whether the temperature increase value of the power output unit is less than a second reference value lower than the first reference value, and the temperature increase value of the power output unit is the first And if it is less than the second reference value lower than the reference value, transmitting the amount of charging power calculated based on the information of the portable device.

The apparatus for controlling wireless charging of a vehicle according to an exemplary embodiment of the present invention may suppress an increase in temperature of the apparatus for controlling wireless charging and a portable device by controlling an amount of power transmission according to a change in temperature and improve charging efficiency.

1 is a block diagram showing an apparatus for controlling wireless charging of a vehicle according to an embodiment of the present invention.
2 is a graph showing a temperature change of a charging power unit controlled according to an embodiment of the present invention.
3 is a flowchart illustrating a method of controlling wireless charging of a vehicle according to an embodiment of the present invention.
4 is a flowchart illustrating a method of controlling wireless charging of a vehicle according to another embodiment of the present invention.
5 is a flowchart illustrating a method of controlling wireless charging of a vehicle according to another embodiment of the present invention.

Hereinafter, some embodiments of the present invention will be described in detail through exemplary drawings. In adding reference numerals to elements of each drawing, it should be noted that the same elements are assigned the same numerals as possible even if they are indicated on different drawings. In addition, in describing an embodiment of the present invention, if it is determined that a detailed description of a related known configuration or function obstructs an understanding of the embodiment of the present invention, a detailed description thereof will be omitted.

In describing the constituent elements of the embodiments of the present invention, terms such as first, second, A, B, (a), (b), etc. may be used. These terms are only used to distinguish the component from other components, and the nature, order, or order of the component is not limited by the term. In addition, unless otherwise defined, 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 the present invention belongs. Terms such as those defined in a commonly used dictionary should be interpreted as having a meaning consistent with the meaning in the context of the related technology, and should not be interpreted as an ideal or excessively formal meaning unless explicitly defined in this application. Does not.

1 is a block diagram showing an apparatus for controlling wireless charging of a vehicle according to an embodiment of the present invention.

As illustrated in FIG. 1, the apparatus 100 for controlling wireless charging of a vehicle may include a power output unit 110 and a control unit 120.

The power output unit 110 may transmit charging power required to charge the portable device. According to an embodiment of the present invention, the power output unit 110 may include a charging coil unit 111. The charging coil unit 111 may include a transmission coil for transmitting wireless power to a portable device and a communication coil for transmitting and receiving information and information of the portable device. The transmission coil may transmit charging power for charging the portable device to the portable device in at least one of a magnetic induction method, a magnetic resonance method, or a microwave method. In addition, the communication coil may receive information from the portable device through short-range two-way communication with the portable device. Here, the mobile device means an electronic device, and may include a smart phone, an electronic pad, and a notebook.

The sensor 112 may measure the temperature inside the wireless control device 100. According to an embodiment, the sensor 112 may include a temperature sensor that senses a temperature around the charging coil unit 111.

The control unit 120 may be implemented by a processing device such as a microprocessor in which a semiconductor chip or the like capable of calculating or executing various commands is embedded, and the overall device for controlling wireless charging of a vehicle according to an embodiment of the present invention You can control the operation.

The controller 120 may control the amount of charging power transmitted to the portable device to be adjusted according to the temperature change of the power output unit 110.

Hereinafter, in order to describe the operation of the control unit 120 in detail, an operation of adjusting the amount of charging power transmitted to the portable device according to a temperature change of the power output unit 110 will be described with reference to embodiments.

According to an embodiment, the control unit 120 may control the power output unit 110 to transmit charging power to the mobile device. In this case, the amount of charging power transmitted to the mobile device may be calculated by the controller 120 based on information on the mobile device or a temperature change of the power output unit 110. Here, the information of the portable device may include current power usage information, CPU usage information, battery charging status information, battery output voltage/current information, etc., and the controller 120 is requested by the portable device based on the information of the portable device. It can be controlled to calculate and transmit the amount of charging power.

The controller 120 receives temperature information of the power output unit 110, which changes according to the amount of charging power transmitted to the portable device, from a temperature sensor, and determines a temperature change of the power output unit 110.

Specifically, the control unit 120 determines whether the temperature of the power output unit 110 exceeds the first temperature. When it is determined that the power output unit 110 exceeds the first temperature, the control unit 120 may control the amount of charging power transmitted to the portable device to be reduced and transmitted. According to an embodiment, the control unit 120 reduces the amount of charging power transmitted to the mobile device so that the amount of charging power transmitted to the mobile device before the temperature of the power output unit 110 exceeds the first temperature (information or power of the mobile device) It is possible to control to transmit an amount of charging power less than the amount of charging power calculated based on a temperature change of the output unit 110 ). The control unit 120 may prevent the temperature of the power output unit 110 from exceeding the first temperature by reducing the amount of charging power as described above.

On the other hand, if the temperature of the power output unit 110 does not exceed the first temperature, the control unit 120 determines whether the temperature of the power output unit is less than a second temperature lower than the first temperature, and based on the information of the mobile device. It can be controlled to transmit the calculated charging power amount. Here, the amount of charging power calculated based on the information of the mobile device may mean a required charging amount of the mobile device. That is, when it is determined that the temperature of the power output unit 110 does not need to be lowered any more, the controller 120 may increase the charging rate of the mobile device by recharging the required charging amount of the mobile device.

According to another embodiment, the control unit 120 receives temperature information of the power output unit 110, which changes according to the amount of charging power transmitted to the mobile device, from a temperature sensor, and determines a temperature change of the power output unit 110. , It is determined whether the temperature of the power output unit 110 exceeds the first temperature.

When it is determined that the power output unit 110 exceeds the first temperature, the control unit 120 may control the amount of charging power transmitted to the portable device to be reduced and transmitted. Meanwhile, if the temperature of the power output unit 110 does not exceed the first temperature, the controller 120 may determine whether to set a timer. Here, the timer may mean a timer for checking the required time for the charging power to be transmitted to the portable device.

If it is determined that the timer is set, the controller 120 may determine whether a predetermined time has elapsed after the timer is set. That is, the controller 120 may determine whether the charging power is being transmitted for a longer time than a predetermined time. If it is determined that a predetermined time has elapsed (charging power has been transmitted for a longer time than a predetermined time), the control unit 120 may control the transmission by reducing the amount of charging power transmitted to the portable device. This is to prevent the power output unit 110 from being overheated when the charging power is transmitted for a longer time than a predetermined time. When the controller 120 determines that the charging power is being transmitted for a longer time than a predetermined time and decreases the charging power amount, the controller 120 may reset the timer to check the required time transmitted to the portable device with the reduced charging power amount. On the other hand, if the control unit 120 determines that a predetermined time has not elapsed (charging power is being transmitted for less than a predetermined time), the temperature of the charging power unit 110 is a second temperature lower than the first temperature. Determine whether it is less than. When it is determined that the temperature of the charging power unit 110 is less than the second temperature, the control unit 120 may control to transmit the amount of charging power calculated based on the mobile device information to the mobile device. That is, the control unit 120 It is possible to increase the charging rate of the mobile device by recharging it to the required charging amount of the mobile device.

According to an embodiment of the present invention, the controller 120 reduces the charging power amount when the first temperature is exceeded, and transmits the charging power amount calculated based on the information of the mobile device when it is less than the second temperature. The change point is set to the first temperature and the second temperature in order not to cause a problem by continuously changing the amount of charging power when the hysteresis characteristic is used to increase and decrease at a specific temperature. A more detailed description will be given with reference to FIG. 2.

2 is a graph showing a temperature change of a charging power unit controlled according to an embodiment of the present invention.

As shown in FIG. 2, the controller 120 calculates a charging power amount based on information on a mobile device, and controls to transmit the calculated charging power amount to the mobile device. At this time, the power output unit 110 is overheated according to the amount of charged power transmitted. Accordingly, in the section'A' of FIG. 2, the temperature of the charging power unit 110 may continuously increase. According to an embodiment of the present invention, the control unit 120 determines whether the temperature of the charging power unit 110 exceeds the first temperature, and when the temperature exceeds the first temperature, the charging power transmitted from the charging power unit 110 It can be controlled to reduce the amount of power. Accordingly, the temperature of the charging power unit 110 decreases in the section'B' of FIG. 2.

The control unit 120 determines whether the temperature of the charging power unit 110 continuously decreases due to a decrease in the amount of charging power transmitted to the mobile device to be lower than the second temperature. When the temperature is lower than the second temperature, the mobile device It is possible to control the transmission by changing back to the amount of charging power calculated based on the information. In this case, the temperature of the charging power unit 110 may increase again as in section'C' of FIG. 2.

The control unit 120 may determine again whether the temperature exceeds the first temperature (eg, 40 degrees) according to the temperature increase of the charging power unit 110, and when the temperature exceeds the first temperature, the charging power unit 110 ), and the temperature of the charging power unit 110 may decrease again.

As described above, the control unit 120 of the present invention controls the amount of charging power transmitted from the charging power unit 110 to the mobile device at a first temperature and a second temperature lower than the first temperature, so that the temperature of the charging power unit is at the first temperature. It is possible to improve the charging efficiency by preventing it from rising above and not falling below the second temperature. Here, the first temperature and the second temperature may be set as a temperature range for high-speed charging of the portable device. For example, when the temperature range for high-speed charging of the portable device is between 36°C and 40°C, the first temperature may be set to 40°C and the second temperature may be set to 36°C. In addition, since the controller 120 does not frequently adjust the charging power amount according to the temperature rise or fall based on a single temperature, the charging power amount can be safely controlled.

According to another embodiment of the present invention, the controller 120 adjusts the amount of charging power transmitted to the portable device, but may adjust the amount of charging power according to the temperature rise of the power output unit 110.

More specifically, the control unit 120 may receive temperature information of the power output unit 110, which changes according to the amount of charging power transmitted to the portable device, from a temperature sensor, and calculate a temperature rise value of the power output unit 110. . The controller 120 determines whether the temperature increase value of the power output unit 110 exceeds a first reference value, and when the temperature increase value of the power output unit 110 exceeds the first reference value, the amount of charging power transmitted to the mobile device is calculated. Can be reduced.

Meanwhile, when it is determined that the temperature increase value of the power output unit 110 does not exceed the first reference value, the controller 120 determines whether the temperature increase value is less than the second reference value lower than the first reference value. When it is determined that the temperature increase value of the power output unit 110 is less than the second reference value, the controller 120 may control to transmit the amount of charging power calculated based on information of the portable device.

When charging power cannot be transmitted from the power output unit 110 to the mobile device or when a charging stop signal is received from the mobile device, the control unit 120 determines whether to stop charging. If it is determined that charging is to be stopped, the operation of the wireless charging control device is terminated, and when it is determined that charging will continue without stopping, the amount of charging power may be adjusted according to a temperature change of the power output unit.

3 is a flowchart illustrating a method of controlling wireless charging of a vehicle according to an embodiment of the present invention.

As shown in FIG. 3, the controller 120 controls the power output unit 110 to transmit charging power to the portable device (S110). In S110, the controller 120 may calculate the amount of charging power transmitted to the mobile device based on information on the mobile device or a temperature change in the amount of charging power.

The control unit 120 determines whether the temperature of the power output unit 110 exceeds the first temperature (S120). In S120, the controller 120 may receive temperature information of the power output unit 110, which changes according to the amount of charging power transmitted to the portable device, from a temperature sensor, and may determine a temperature change of the power output unit 110.

In S120, when it is determined that the power output unit 110 exceeds the first temperature (Y), the amount of charging power transmitted to the mobile device is reduced and transmitted to the mobile device (S130). In the controller 120, the amount of charging power transmitted to the mobile device in S130 may be less than the amount of charging power transmitted to the mobile device in S110.

In S120, when it is determined that the power output unit 110 does not exceed the first temperature (N), the control unit 120 determines whether the temperature of the power output unit 110 is less than the second temperature lower than the first temperature. Do (S140). In S140, when it is determined that the temperature of the power output unit 110 is less than the second temperature (Y), the controller 120 transmits the amount of charging power calculated based on the information of the portable device (S150).

When the charging power cannot be transmitted from the power output unit 110 to the mobile device or when a charging stop signal is received from the mobile device, the control unit 120 determines whether to stop charging (S160). In S160, if it is determined that charging is to be stopped (Y), the control unit 120 terminates the operation of the wireless charging control device, and if it is determined to continue without stopping charging, the controller 120 performs S120 to charge according to the temperature change of the power output unit. The amount of power can be adjusted again.

4 is a flowchart illustrating a method of controlling wireless charging of a vehicle according to another embodiment of the present invention.

As shown in FIG. 4, the control unit 120 controls the power output unit 110 to transmit charging power to the mobile device (S210). In S210, the controller 120 may calculate the amount of charging power transmitted to the mobile device based on information on the mobile device or a temperature change in the amount of charging power.

The control unit 120 determines whether the temperature of the power output unit 110 exceeds the first temperature (S220). In S220, the control unit 120 may receive temperature information of the power output unit 110, which changes according to the amount of charging power transmitted to the portable device, from a temperature sensor, and may determine a temperature change of the power output unit 110.

In S220, when it is determined that the power output unit 110 exceeds the first temperature (Y), the amount of charging power transmitted to the portable device is reduced and transmitted (S230). In S220, when the temperature of the power output unit 110 does not exceed the first temperature, the controller 120 determines whether to set a timer (S240). Here, the timer may mean a timer for checking the required time for the charging power to be transmitted to the portable device.

In S240, if it is determined that the timer is set (Y), the controller 120 determines whether a predetermined time has elapsed after the timer is set (S250). In S250, the controller 120 may determine whether the charging power is being transmitted for a longer time than a predetermined time. On the other hand, if it is determined in S240 that the timer is not set (N), the controller 120 performs S270.

In S250, if it is determined that a predetermined time has elapsed (charging power is being transmitted for a longer time than a predetermined time) (Y), the amount of charging power transmitted to the portable device is reduced and transmitted (S230). . Thereafter, the controller 120 resets the timer (S280). On the other hand, in S250, if the control unit 120 determines that a predetermined time has not elapsed (charging power is being transmitted for less than a predetermined time) (N), the temperature of the charging power unit 110 is the first temperature. It is determined whether it is less than the lower second temperature (S260).

When determining that the temperature of the charging power unit 110 is less than the second temperature in S260, the controller 120 transmits the amount of charging power calculated based on the portable device information to the portable device (S270).

When the charging power cannot be transmitted from the power output unit 110 to the mobile device or when a charging stop signal is received from the mobile device, the control unit 120 determines whether to stop charging (S290). In S290, if it is determined that charging is to be stopped (Y), the control unit 120 terminates the operation of the wireless charging control device, and if it is determined to continue without stopping charging, the controller 120 performs S220 to charge according to the temperature change of the power output unit. The amount of power can be adjusted again.

5 is a flowchart illustrating a method of controlling wireless charging of a vehicle according to another embodiment of the present invention.

As shown in FIG. 5, the controller 120 controls the power output unit 110 to transmit charging power to the portable device (S310). In S310, the controller 120 may calculate the amount of charging power transmitted to the mobile device based on information on the mobile device or a temperature change in the amount of charging power.

The control unit 120 determines whether the temperature increase value of the power output unit 110 exceeds the first reference value (S320). In S320, the controller 120 may receive temperature information of the power output unit 110, which is changed according to the amount of charging power transmitted to the portable device, from a temperature sensor, and calculate a temperature rise value of the power output unit 110.

In S320, when it is determined that the temperature increase value of the power output unit 110 exceeds the first reference value (Y), the amount of charging power transmitted to the portable device is reduced and transmitted (S330). On the other hand, in S320, if the control unit 120 determines that the temperature increase value of the power output unit 110 does not exceed the first reference value (N), it determines whether the temperature increase value is less than the second reference value lower than the first reference value. (S340).

In S340, if it is determined that the temperature rise value of the power output unit 110 is less than the second reference value (Y), the control unit 120 transmits the amount of charging power calculated based on the information of the portable device (S350).

When charging power cannot be transmitted from the power output unit 110 to the mobile device or when a charging stop signal is received from the mobile device, the control unit 120 determines whether to stop charging (S360). In S360, if it is determined that charging is to be stopped (Y), the control unit 120 terminates the operation of the wireless charging control device, and if it is determined to continue without stopping charging, the controller 120 performs S320 to charge according to the temperature change of the power output unit. The amount of power can be adjusted again.

The above description is merely illustrative of the technical idea of the present invention, and those of ordinary skill in the art to which the present invention pertains will be able to make various modifications and variations without departing from the essential characteristics of the present invention.

Accordingly, the embodiments disclosed in the present invention are not intended to limit the technical idea of the present invention, but to explain the technical idea, and the scope of the technical idea of the present invention is not limited by these embodiments. The scope of protection of the present invention should be interpreted by the following claims, and all technical ideas within the scope equivalent thereto should be interpreted as being included in the scope of the present invention.

Vehicle wireless charging control device 100
Power output 110
Charging coil part 111
Sensor 112
Control 120

Claims (18)

A power output unit for transmitting charging power for charging the mobile device; And
A wireless charging control device for a vehicle comprising a control unit for adjusting an amount of charging power transmitted to the portable device according to a temperature change of the power output unit. The method according to claim 1,
The control unit
A wireless charging control device for a vehicle that determines whether a temperature of the power output unit exceeds a first temperature, and reduces an amount of charging power transmitted to the portable device when the temperature of the power output unit exceeds a first temperature. The method according to claim 1,
The control unit
If the temperature of the power output unit does not exceed the first temperature, it is determined whether the temperature of the power output unit is less than a second temperature lower than the first temperature, and a second temperature of the power output unit is lower than the first temperature. If it is less than the temperature, the wireless charging control device of the vehicle for transmitting the amount of charging power calculated based on the information of the portable device. The method according to claim 1,
The control unit
If the temperature of the power output unit does not exceed the first temperature, it is determined whether a timer is set, and if the timer is not set, wireless charging control of a vehicle transmitting the amount of charging power calculated based on the information of the portable device Device. The method of claim 4,
The control unit
A wireless charging control device for a vehicle that determines whether a predetermined time has elapsed after setting of the timer and, when the predetermined time elapses, reduces an amount of charging power transmitted to the portable device. The method of claim 5,
The control unit
A wireless charging control device for a vehicle that resets the timer when the amount of charging power transmitted to the portable device is reduced. The method of claim 5,
The control unit
If the predetermined time has not elapsed, it is determined whether the temperature of the power output unit is less than a second temperature lower than the first temperature, and if the temperature of the power output unit is less than a second temperature lower than the first temperature, the portable A wireless charging control device for a vehicle that transmits the amount of charging power calculated based on device information. The method according to claim 1,
The control unit
When transmitting charging power to the mobile device, it is determined whether the temperature increase value of the power output unit exceeds a first reference value, and the amount of charging power transmitted to the mobile device when the temperature increase value of the power output unit exceeds a first reference value. Wireless charging control device of the vehicle to reduce the. The method of claim 8,
The control unit
If the temperature increase value of the power output unit does not exceed the first reference value, it is determined whether the temperature increase value of the power output unit is less than a second reference value lower than the first reference value, and the temperature increase value of the power output unit is the first reference value If it is less than the second lower reference value, the wireless charging control device of the vehicle for transmitting the amount of charging power calculated based on the information of the portable device. Transmitting charging power from the power output unit to the mobile device; And
And adjusting an amount of charging power transmitted to the portable device according to a temperature change of the power output unit. The method of claim 10,
Determining whether the temperature of the power output unit exceeds a first temperature; And
When the temperature of the power output unit exceeds the first temperature, the method of controlling wireless charging of a vehicle further comprising reducing an amount of charging power transmitted to the portable device. The method of claim 11,
If the temperature of the power output unit does not exceed the first temperature, determining whether the temperature of the power output unit is less than a second temperature lower than the first temperature; And
If the temperature of the power output unit is less than a second temperature lower than the first temperature, transmitting a charging power amount calculated based on the information of the portable device. The method of claim 11,
Determining whether to set a timer when the temperature of the power output unit does not exceed the first temperature; And
If the timer is not set, the method further comprising the step of transmitting a charging power amount calculated based on the information of the portable device. The method of claim 13,
Determining whether a predetermined time has elapsed after setting of the timer; And
And reducing an amount of charging power transmitted to the portable device when the predetermined time elapses. The method of claim 14,
After the step of reducing the amount of charging power transmitted to the mobile device, the method further comprising resetting the timer. The method of claim 14,
If the predetermined time has not elapsed, determining whether the temperature of the power output unit is less than a second temperature lower than the first temperature; And
If the temperature of the power output unit is less than a second temperature lower than the first temperature, transmitting a charging power amount calculated based on the information of the portable device. The method of claim 10
Determining whether a temperature rise value of the power output unit exceeds a first reference value; And
When the temperature increase value of the power output unit exceeds a first reference value, the method of controlling wireless charging of a vehicle further comprising reducing an amount of charging power transmitted to the portable device. The method of claim 17,
If the temperature increase value of the power output unit does not exceed the first reference value, determining whether the temperature increase value of the power output unit is less than a second reference value lower than the first reference value; And
And transmitting a charging power amount calculated based on the information of the portable device when the temperature rise value of the power output unit is less than a second reference value lower than the first reference value.

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