KR20020083332A - Apparatus for Wireless Charging Control and Portable Wireless Charging System Using It - Google Patents

Abstract

PURPOSE: Provided are a wireless charging controller which can accept an aerial radio wave and convert the radio wave into voltage energy capable of charging, and a portable, wireless charger using the same. CONSTITUTION: The controller comprises a wireless, frequency receiving unit(41) for accepting a radio wave and selectively transmitting a radio wave having best sensitivity while monitoring a state of radio wave in order to prevent the discontinuance of charging due to disconnection of radio wave during charging; a frequency tuner(42) for tuning a radio wave transmitted from the frequency receiving unit in order to increase the utilization; a radio wave capturing unit(43) for transmitting the radio wave tuned by the frequency tuner to voltage converting unit; a voltage converter unit(44) for receiving a radio wave from the radio wave capturing unit and converting the radio wave into voltage energy capable of charging; and a booster unit(45) for boosting the voltage energy converted by the converter unit to voltage capable of charging a battery.

Description

Apparatus for Wireless Charging Control and Portable Wireless Charging System Using It}

The present invention relates to a wireless charging control device for wireless charging and a portable wireless charging system using the same.

Conventional charging device is implemented by a wire to be able to charge only in a certain place. 1 is a view illustrating an exemplary embodiment of a wired charging device according to the related art. As shown in FIG. 1, the charging device 13 may be used only when the plug 12 is inserted into the outlet 11. Therefore, there are many cases where a charging device is used for the use of a mobile phone or an electric and electronic device. However, in order to charge the mobile phone or the electric and electronic device, there is an inconvenience of having to go to an electric outlet.

In addition, the conventional patent (US Patent: 5,596,567) for wireless charging is as shown in FIG. FIG. 2 is a diagram illustrating an exemplary configuration of a conventional wireless charging device, which is implemented wirelessly between a battery pack 22 and a battery charger 21. It is intended to provide the memory status to the battery pack (22) wirelessly, and to operate only when there is less than 50cm between them, the battery charging device 21 and the battery to be charged 205 is + supply line ( 206 and the supply line 207 are connected to each other by wire, so that the battery pack 22 and the battery charging device 21 are not completely wirelessly implemented. In addition, the battery charging device 21 is inconvenient to go to the place where the electrical outlet is located in order to charge like the charging device by the wire.

The present invention has been proposed in order to solve the above problems, and an object thereof is to provide a wireless charging control device and a portable wireless charging system using the same, which accepts airwaves and converts it to enable charging.

1 is a configuration diagram of an embodiment of a conventional wired charging device.

Figure 2 is a configuration diagram of one embodiment of a conventional wireless charging device.

Figure 3 is an embodiment configuration of a portable wireless charging system according to the present invention.

Figure 4 is a configuration diagram of an embodiment of a wireless charging control device used in the portable wireless charging system according to the present invention.

5 is a detailed configuration diagram of an embodiment of a frequency wireless receiver of a wireless charging control device used in a portable wireless charging system according to the present invention.

* Explanation of symbols for the main parts of the drawings

41: frequency radio receiver 42: frequency tuning unit

43: radio wave acquisition unit 44: voltage conversion unit

45: booster

In order to achieve the above object, the present invention provides a wireless charging control device for wireless charging, in which a radio wave is cut off during charging to select the most sensitive radio wave while receiving the radio wave while monitoring the radio wave state in order to prevent disconnection. Frequency radio receiving means for transmitting by means of; Frequency tuning means for tuning radio waves transmitted from the frequency radio receiving means to increase use efficiency; Radio wave acquiring means for creating a state for transmitting the radio wave tuned in the frequency tuning means to a voltage converting means; The voltage converting means for converting the electric wave from the electric wave acquiring means into voltage energy which can be converted into voltage and charged; And boosting means for raising the voltage energy converted by the voltage converting means to a voltage capable of charging the battery to be charged.

In addition, the present invention is a portable wireless charging system using a wireless charging control device for wireless charging, wireless connection means for receiving radio waves from the outside; converting the radio wave received through the wireless connection means into a chargeable voltage Wireless charging control means for controlling to; And means for charging to be charged by the wireless charging control means.

The above objects, features and advantages will become more apparent from the following detailed description taken in conjunction with the accompanying drawings. Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

3 is a configuration diagram of an embodiment of a portable wireless charging system according to the present invention.

As shown in FIG. 3, the portable wireless charging system 32 according to the present invention supplies power to each block in the wireless connection unit 301 and the portable wireless charging system 32 that receive radio waves from the airwave transmission system 31. And a power supply unit 302 for supplying power, a control device 303 for controlling the charging radio wave to convert the received radio wave into a voltage, and a charging target battery 304.

Looking at the detailed operation, the wireless connection unit 301 serves to connect to airwaves (particularly broadcast waves) and receives radio waves from an airwave transmission system 31 such as a broadcast station transmitting system. The power supply unit 302 supplies power required for the operation of the portable wireless charging device according to the present invention. Here, the power supplied is used for driving the control device 303. The control device 303 converts the electric wave received from the airwave transmission device 31 through the wireless connection unit 301 into a voltage to be charged to the battery to be charged 304. Hereinafter, the configuration and role of the control device 303 will be described in more detail with reference to FIGS. 4 to 5.

4 is a configuration diagram of an embodiment of a wireless charging control device used in the portable wireless charging system according to the present invention.

As shown in Figure 4, the wireless charging control device used in the portable wireless charging system according to the present invention, by receiving a radio wave and transmitting it to the frequency tuning section 42, the radio frequency receiver 41, by tuning the radio wave Frequency tuning section 42 to increase the use efficiency, the radio wave acquisition section 43 to make the state to deliver the tuned radio wave to the voltage converter 44, voltage energy that can convert the radio wave into voltage to charge And a voltage converter 44 for converting the voltage into a voltage capable of charging the converted voltage energy.

Looking at the detailed operation, the frequency radio receiver 41 selects the most sensitive radio wave to receive the radio wave received through the radio connection unit 301 and pass it to the frequency tuner 42, and the radio wave is stopped during charging. The operation of monitoring the radio wave condition is performed to prevent the charging from being cut off. The frequency tuner 42 improves the use efficiency by tuning the radio wave received from the frequency radio receiver 41, that is, the broadcast wave. The radio wave acquisition unit 43 receives a radio wave tuned by the frequency tuning unit 42 and makes it into a state for passing it to the voltage converter 44. Then, the voltage converter 44 converts the radio waves processed as described above into a voltage energy that can be charged by converting it into a voltage. However, since the voltage energy converted by the voltage converter 44 is weak to use for charging, the voltage converter 44 raises the voltage to be charged through the booster 45.

While the operation related to wireless charging is possible by the above operation, when the radio wave situation changes due to movement, another part for continuous charging is required. Hereinafter, the configuration and operation of the frequency radio receiver 41 for enabling wireless charging while on the move will be described.

5 is a detailed configuration diagram of an embodiment of a frequency wireless receiver of a wireless charging control device used in a portable wireless charging system according to the present invention.

As shown in FIG. 5, the frequency radio receiving unit of the wireless charging control apparatus used in the portable wireless charging system according to the present invention includes a reception strength measuring unit 502 for measuring the intensity of the received radio wave and the radio wave currently being connected; The air wave classifying unit 501 classifies the radio waves received from the wireless access unit 301 according to the measurement result of the reception intensity measuring unit 502, and measures the current wave strength to measure the reception strength of the currently connected air wave. The air wave currently being used is classified in advance by the air wave classifying unit 501 according to the measurement result in the current wave transmission unit 504 and the reception strength measurement unit 502 for the air wave currently being used. An air wave connecting unit 503 is provided to replace the connection with the air wave having the best reception sensitivity.

Looking at the detailed operation, when the charging device is moving, the airwaves being received may be cut off. Even in this case, to ensure that the charging operation of the charging device does not stop, the frequency radio receiver must always ensure available airwaves.

To this end, the air wave classifier 501 classifies a broadcast wave having the highest reception strength among the airwaves connected through the wireless access unit 301. The method of classifying the broadcast wave having the strongest reception strength is to measure the reception strength of the received air wave through the reception strength measurement unit 502 so that the frequency having the largest reception strength is classified and selected. That is, the air wave through the air wave classifying unit 501 measures the strength of the receiving intensity measuring unit 502 and receives the result back from the air classifying unit 501 and stores the received result again, and receives the received intensity measurement result for other air waves. Receive and return to compare with each other, the stronger intensity is classified and selected, and the weaker strength is discarded, such as to prepare the highest airwaves with the highest reception strength at all times.

In addition, the current wave transmission unit 504 always transmits the currently connected airwaves to the reception strength measurement unit 502 in order to always measure the reception strength of the currently connected airwaves so that the value is not below a predetermined level. That is, the current wave transmission unit 504 always measures the strength of the airwaves currently being used for the charging operation through the reception intensity measurement unit 502. Here, the air wave currently in use refers to the air wave currently being supplied to the frequency tuner 42 through the air wave connection unit 503. In detail, the current wave transmission unit 504 receives a signal passing through the air wave connection unit 503 to the frequency tuning unit 42 and sends it to the reception strength measurement unit 502 to always measure the reception strength. The measurement value is reported to the air wave connection unit 503.

And, in the air wave connection unit 503, when the air wave currently being used is a result of the measurement in the reception strength measuring unit 502, the air wave classifying unit 501 prepares the air wave having the strongest strength in advance. Make a connection. That is, since the reception intensity of the used air drops below a certain limit and reaches an unusable degree, the air prepared in the air classification unit 501 is connected, and again in the air classification unit 501, among the other air waves. It is to classify and prepare the airwaves with the highest reception strength. Meanwhile, the airwaves connected through the airwave connection unit 503 are transmitted to the reception strength measurement unit 502 through the current wave transmission unit 504 so that monitoring of the strength of the currently connected airwaves is continued. By using the above-described method, it is possible to continue the charging operation without stopping even when the airwaves in use are cut off.

The present invention described above is not limited to the above-described embodiments and the accompanying drawings, and various substitutions, modifications, and changes are possible in the art without departing from the technical spirit of the present invention. It will be apparent to those of ordinary knowledge.

According to the present invention as described above, the portable wireless charging device is provided, so that the charging target battery can be easily charged in a state in which the charging device is not wired.

In addition, the present invention continuously monitors the state of the airwaves, if the strength is weak, there is an effect that can be stable charging while moving by changing to other airwaves.

Claims (6)

In the wireless charging control device for wireless charging, Frequency radio receiving means for receiving radio waves and selecting and delivering the most sensitive radio waves while monitoring the radio wave condition to prevent the radio waves from being cut off and the charging is cut off; Frequency tuning means for tuning radio waves transmitted from the frequency radio receiving means to increase use efficiency; Radio wave acquiring means for creating a state for transmitting the radio wave tuned in the frequency tuning means to a voltage converting means; The voltage converting means for converting the electric wave from the electric wave acquiring means into voltage energy which can be converted into voltage and charged; And Boosting means for raising the voltage energy converted by the voltage converting means to a voltage capable of charging the battery to be charged Wireless charging control device for wireless charging comprising a. The method of claim 1, The radio frequency receiving means, Reception strength measuring means for measuring the strength of radio waves received from the outside and radio waves currently connected; Air wave classification means for transferring the radio waves received from the outside to the reception intensity measurement means to classify and prepare the radio wave having the highest reception intensity according to the measurement result of the reception intensity measurement means; Current wave transmission means for delivering the current wave to the upper limb reception intensity measurement means so that the reception intensity measurement means can measure the reception intensity of the radio wave currently connected; And To replace the currently connected radio wave with a radio wave having the highest reception strength, which is prepared in advance by the air wave classification means, according to a measurement result of the reception strength measurement unit for the currently connected radio wave. Over-the-air connection Wireless charging control device for wireless charging comprising a. In the portable wireless charging system using a wireless charging control device for wireless charging, Wireless connection means for receiving radio waves from the outside; Wireless charging control means for controlling to convert a radio wave received through said wireless access means into a chargeable voltage; And Charged means for charging by the wireless charging control means Portable wireless charging system using a wireless charging control device comprising a. The method of claim 3, wherein Power supply means for supplying power to the wireless connection means and the wireless charging control means; Portable wireless charging system using a wireless charging control device further comprising. The method according to claim 3 or 4, The wireless charging control device, Frequency radio receiving means for receiving radio waves and selecting and delivering the most sensitive radio waves while monitoring the radio wave condition to prevent the radio waves from being cut off and the charging is cut off; Frequency tuning means for tuning radio waves transmitted from the frequency radio receiving means to increase use efficiency; Radio wave acquiring means for creating a state for transmitting the radio wave tuned in the frequency tuning means to a voltage converting means; The voltage converting means for converting the electric wave from the electric wave acquiring means into voltage energy which can be converted into voltage and charged; And Boosting means for raising the voltage energy converted by the voltage converting means to a voltage capable of charging the battery to be charged Portable wireless charging system using a wireless charging control device comprising a. The method of claim 5, The radio frequency receiving means, Reception strength measuring means for measuring the strength of radio waves received from the outside and radio waves currently connected; Air wave classification means for transferring the radio waves received from the outside to the reception intensity measurement means to classify and prepare the radio wave having the highest reception intensity according to the measurement result of the reception intensity measurement means; Current wave transmission means for delivering the current wave to the upper limb reception intensity measurement means so that the reception intensity measurement means can measure the reception intensity of the radio wave currently connected; And To replace the currently connected radio wave with a radio wave having the highest reception strength, which is prepared in advance by the air wave classification means, according to a measurement result of the reception strength measurement unit for the currently connected radio wave. Over-the-air connection Portable wireless charging system using a wireless charging control device comprising a.