KR100937627B1 - Non-Directional Charging Device and Wireless Charging Set of Small Electronic Device - Google Patents

Abstract

The present invention provides a magnetic flux to wirelessly charge a battery or obtain power in a contactless or wireless manner in a mobile communication terminal having a predetermined receiving coil and rectifier circuit or a small electronic device such as a PMP, a cam cord, or an electric toothbrush that requires charging. The present invention relates to a non-directional charging container, a mobile communication terminal and a small electronic device interoperating with the non-directional charging container.

The present invention rectifies the AC AC voltage of 60㎐ from the commercial power supply and converts it into DC power, and converts it into AC electric signals of tens of KHz to several tens of MHz through a DC-AC conversion circuit composed of a switching circuit and a transformer. It is sent to the transmission coil built in one side of the non-directional charging container consisting of, the non-directional charging container is designed and manufactured in a size and shape capable of charging the mobile communication terminal or a small electronic device that needs to be charged, the wall of the charging container A relay coil and a relay capacitor for relaying the time-varying magnetic field generated from the transmission coil are installed inside, and fixedly installed by adding various magnetic materials to the bottom of the charging container, and a mobile communication terminal and a charging terminal with a receiving coil inside the charging container. It is configured to be charged by storing the necessary small electronic devices.

According to the present invention, a non-directional charging container can be designed and manufactured, and a mobile communication terminal having a predetermined receiving coil and rectifier circuit and a small electronic device requiring charging can simultaneously charge multiple devices regardless of polarity or the bottom position of the charging container. And there is an effect that can be used as a wireless power supply.

Rechargeable container, relay coil, relay capacitor, receiving coil, rectifier circuit

Description

Non-Directional Charging Device and Wireless Charging Set of Small Electronic Device}

1 is an embodiment of a non-directional wireless charging container of a mobile communication terminal and a small electronic device according to the present invention

2: Component parts of a wireless charging container and a mobile communication terminal according to the present invention

3 is an embodiment of a non-directional wireless charger of a mobile communication terminal and a small electronic device according to the present invention

<Description of Drawing>

11; Plug 12; adapter

13; Filling container 14; Mobile communication terminal

21; Transmission coil 22; Magnetic body core (transmission coil side)

23; Rechargeable battery 24; Receiving coil

25; Relay capacitor 26; Relay coil

27; Magnetic core (receive coil side) 28; Magnetic body core (bottom of charger)

The present invention rectifies a 60 AC AC AC electric signal from a commercial power supply to automatically charge a mobile communication terminal with a receiving coil and a rectifier circuit or a small electronic device requiring charging or to provide power in real time. After converting into DC power, converting AC electric signal of several tens of KHz ~ several tens of MHz through DC-AC conversion circuit consisting of switching circuit and transformer, and then transmitting the converted AC electric signal to transmission coil installed on one side of charging container. The relay coil and the relay capacitor relaying the time-varying magnetic field generated by the transmission coil are fixedly installed in the charging container, and the receiving coil and the rectifier circuit are embedded in the mobile communication terminal and / or the small electronic device contained in the charging container. When the communication terminal and small electronic devices are put in the charging container, the battery can be charged and the required power can be obtained. It relates to a non-directional charging container for generating a magnetic flux so as to interlock with the wireless power charging set.

In the conventional wireless charging pad, the transmission pad and the receiving coil part are designed in a circular or square coil structure in order to reduce losses in a trans method, and are designed and manufactured in consideration of the direction of the magnetic flux linkage for high efficiency power transmission. Since charging is made, there is a problem inconvenient and troublesome for users to use.

In addition, in the case of the conventional pad-type charging, since the charging electronics must be accurately positioned on the pad in consideration of the direction of the magnetic flux linkage on the pad, there is a problem in that charging cannot be performed in a vehicle or a shaking place.

Another conventional technology is that the general transmission coil structure of spiral or solenoid shape embedded in the bottom of the charging pad does not cause sufficient induced electromotive force in the mobile communication terminal or the reception coil existing in the electronic device that needs charging, and the wide transmission coil structure. It has a problem that it is difficult to obtain necessary power because of low power transmission efficiency because it is composed of small receiving coils.In addition, the increase in the number of windings of receiving coils can increase the induced receiving voltage by Faraday's law. There is a problem in that it is difficult to achieve efficient power transfer by reducing power supply to the rechargeable battery.

The present invention was made in order to recognize and solve the problems of the prior art as described above, DC-AC conversion circuit consisting of a switching circuit and a transformer by rectifying the AC AC electric signal of 60 으로부터 from a commercial power supply to a DC power supply After converting into an AC electric signal of tens of KHz to several tens of MHz, it is sent to a transmission coil wound with a certain number of turns on a magnetic core to generate a time-varying magnetic field with the converted AC electric signal. It is built around the side or wall of the container, and the non-directional charging container is designed and manufactured in a size and shape that can be charged by a mobile communication terminal or a small electronic device that needs to be charged, and a magnetic material having various shapes on the bottom of the charging container. It is manufactured without or without a magnetic substance, the time-varying magnetic field generated in the transmission coil in the filling container The relay coil and the relay capacitor which are relayed to be evenly generated are fixedly installed inside the wall of the charging container, and one side of the mobile communication terminal to be charged and the small electronic device that needs to be charged is used to obtain the induced electromotive force from the time-varying magnetic field generated in the charging container. The purpose of the present invention is to provide a non-directional wireless charging container for a small electronic device and a wireless power charging set including the same by providing a receiving coil and a rectifying circuit.

Still another object of the present invention is to connect with a relay coil and a relay coil which repeats the inside of the wall of the filling container to generate a time-varying magnetic field evenly inside the container, and matches the impedance of the load while being adjacent to the resonance point by the time-varying magnetic field frequency. The relay capacitor is connected to be configured so that as much power is transmitted to the load as possible, and when the mobile communication terminal and the small electronic device are contained in the charging container, the receiving coils are located inside the relay coil. It is to achieve a non-directional charging container configured to induce almost the same induced electromotive force regardless of the bottom position of the charging container.

Another object of the present invention is to configure the non-directional filling container by winding the transmission coil to the magnetic core to be fixed to one side of the charging container, and physically separated from the transmitting coil to relay relay coils, such as square coil, round and oval shape Positioned along the inside of the wall of the container, the relay coil and the relay capacitor in consideration of the load impedance matching of the mobile communication terminal or a small electronic device and the frequency of the time-varying magnetic field for amplifying and relaying the wirelessly transmitted time-varying magnetic field Design and manufacture by adjusting the resonance point is to maximize the transmission efficiency of the electrical energy transmitted to the load.

The present invention provides a mobile communication terminal with a predetermined receiving coil and a rectifier circuit or a commercial power source for wirelessly automatically charging a small electronic device such as a PMP, a cam cord, an electric toothbrush that requires charging, or supplying real-time necessary power. AC AC electric signal of 60㎐ is rectified from the DC power source, converted into DC power, and converted into AC electric signal of tens of KHz to several tens of MHz through DC-AC conversion circuit composed of switching circuit and transformer, and then converted AC electric signal The transmission coil installed on one side of the charging container is transmitted, and a relay coil and a relay capacitor are fixedly installed around the charging container to relay the time-varying magnetic field (time-varying magnetic flux) generated by the transmission coil, and the mobile communication terminal and the small size contained in the charging container are fixed. Receiving coils and rectifier circuits are built into the electronic devices, and these mobile communication terminals and small electronic devices The present invention relates to a non-directional charging container generating magnetic flux so as to obtain a battery charge and necessary power, and a wireless power charging set including an integrated charging container and a receiving unit.

Hereinafter, the configuration and operation of the embodiments of the present invention with reference to the accompanying drawings, the configuration and operation of the present invention shown and described in the drawings will be described by at least one embodiment, whereby the present invention described above The technical idea and its core composition and operation are not limited.

With reference to the drawings to facilitate understanding of the present invention. 1 illustrates an embodiment of a non-directional wireless charging container for a mobile communication terminal and a small electronic device according to the present invention, and FIG. 2 shows one of components of a wireless charging container and a mobile communication terminal according to the present invention. An embodiment is shown. Figure 3 shows another embodiment of a non-directional wireless charging container of a mobile communication terminal and a small electronic device according to the present invention.

The present invention rectifies 60 AC AC AC electric signal from commercial power supply and converts it into DC power, and converts it into AC electric signal of tens of KHz ~ several tens of MHz through DC-AC conversion circuit composed of switching circuit and transformer. It is composed of an adapter for generating a signal input to the transmission coil for generating a.

The AC electrical signal generated to generate an AC time-varying magnetic field in the adapter is transmitted by wire and is sent to a transmission coil wound around a magnetic core embedded in one side of a non-directional charging container or a winding coil formed along a wall of the charging container. It is configured to generate AC time-varying magnetic field.

The non-directional charging container with a built-in transmission coil wound around the magnetic core generating the AC-varying magnetic field is a synthetic resin that does not block electromagnetic waves in a size and shape capable of charging a mobile communication terminal or a small electronic device requiring charging in a container. Designed and manufactured from a series of materials, the relay coil and relay capacitor are fixed to the inner wall of the charging container so that the time-varying magnetic field generated by the transmission coil is evenly generated inside the charging container. It is designed and manufactured without the magnetic core or the plate-shaped magnetic body fixedly installed or without the magnetic core.

On one side of the mobile communication terminal and / or the small electronic device that needs to be charged, which is contained in the charging container, a rectifying AC electric signal derived from a receiving coil and a receiving coil for obtaining induced electromotive force from a time-varying magnetic field (time-varying magnetic flux) is rectified. It is provided with a rectifying circuit, and using the rectified electric energy has a configuration that can charge or supply power to the rechargeable battery built in a mobile communication terminal or a small electronic device. It looks at a specific embodiment according to the present invention.

EXAMPLES

A specific embodiment according to the present invention will be described with reference to the drawings. 1 illustrates one embodiment of a mobile communication terminal 14 and a non-directional wireless charging container 13 of a small device according to the present invention. In Fig. 1, the AC AC electric signal of 60 신호 is rectified by using commercial power (100 V to 220 V) input from a plug, and then converted into a DC power source, and then a predetermined size is passed through a DC-AC conversion circuit including a switching circuit and a transformer. It is composed of an adapter 12 for generating an AC time-varying magnetic field having an AC frequency of several tens of KHz to several tens of MHz. The commercial power source receives power from a vehicle, a USB DC power source, or a commercial battery, and generates an AC frequency of several tens of KHz to several tens of MHz while having a predetermined voltage through a DC-AC conversion circuit consisting of a switching circuit and a transformer. The adapter 12 for generating an AC electrical signal for generating an AC time-varying magnetic flux may be configured.

The position of the adapter 12 may be integrally formed with the plug 11 or may be positioned adjacent to each other, or may be designed and manufactured by being positioned adjacent to the middle portion of the filling container 13 or adjacent to the filling container 13.

The AC electrical signal for generating the AC time-varying magnetic field generated by the adapter 12 is transmitted by wire and transmitted to the transmission coil 21, and the transmission coil 21 is coiled by a predetermined number of turns on the magnetic core 22. It is designed and manufactured by winding it along the wall of the container adjacent to the relay coil. The transmission coil 21 manufactured by winding a coil around the magnetic core 22 or by winding a predetermined number of windings along the charging container is built in one side or wall of the non-directional charging container 13 to generate an AC time-varying magnetic field. It is.

Figure 2 shows one embodiment of the components of the charging vessel 13 and the mobile communication terminal 14 according to the present invention. The non-directional charging container 13 having the transmission coil 21 wound around the magnetic core 22 generating the alternating-current magnetic field is a mobile communication terminal 14 or a charging container 13 of a small electronic device requiring charging. Designed and manufactured in a synthetic resin-based material that does not block the magnetic field in the size and shape that can be charged in, and the time-varying magnetic field generated from the transmission coil 21 wound on the magnetic core 22 on the inner wall of the charging container (13) The relay coil 26 and the relay capacitor 25 which are relayed to be uniformly generated in the filling container 13 are fixedly installed.

In FIG. 2, the transmission coil 21, the relay coil 26, and the relay capacitor 25 wound around the core are made of a synthetic resin series material that does not block a time-varying magnetic field when the non-directional filling container 13 is manufactured or molded. Or it may be molded and manufactured so that it does not appear outside, it may be manufactured in the same form as a general general container, or may be configured in various forms excellent in aesthetics.

For example, after constructing a tree, a propaganda phrase and a picture made by attaching a plurality of lamps, the charging vessel (13) by placing a power receiving unit consisting of a receiving coil, a capacitor and a rectifying circuit designed according to the present invention at the lower end thereof (13). ) And a plurality of lamps in the upper portion to reveal the ornament may be used for various purposes. In addition, when charging electric toothbrushes and small electronic devices, family or users can charge multiple electric toothbrushes in one charging container at the same time, eliminating the inconvenience of having to use multiple plugs for each charger. It can work.

A receiving coil 24 and a receiving coil 24 for obtaining an induced electromotive force from a time-varying magnetic field at a lower end or one side of a mobile communication terminal 14 that is a charging target contained in the charging container 13 and a small electronic device that needs to be charged. And a rectifier circuit for rectifying the AC electric signal induced in the device, and configured to charge or directly supply power to the rechargeable battery 23 built in the mobile communication terminal 14 or the small electronic device using the rectified electric energy. Consists of

The receiving unit 24 is configured to match the impedance of the load in order to transmit the induced electromotive force generated by the receiving coil 24 to the load end as efficiently as possible, and to form a resonance point by the frequency of the time-varying magnetic field. Designed and manufactured by the value of the capacitor connected in parallel with (24).

The present invention includes a relay coil 26 and a relay capacitor 25 connected to the relay coil 26 so as to be wound around the wall of the charging vessel 13 so that the time-varying magnetic field is evenly generated inside the charging vessel 13. The relay coil 26 and the relay capacitor 25 connected to the relay coil are designed and manufactured to be close to the resonance point of the frequency of the time-varying AC signal generated from the transmission coil 21 and matched with the impedance of the load, so that the maximum time-varying magnetic field is achieved. The amplification relay is configured to be transmitted to the load by the receiving coil 24, the mobile communication terminal 14, the built-in capacitor and the rectifier circuit built in accordance with the present invention and a small electronic device inside the relay coil 26, the charging container (13) It is constructed so that almost the same induced electromotive force is induced at a constant magnetic flux irrespective of the floor position.

The non-directional filling container 13 is formed by winding the transmission coil 21 on the magnetic core 22 to be fixedly installed on one side of the charging container 13, and is physically separated from the transmitting coil 21 to the charging container. The magnetic core 28 or the plate-shaped magnetic body 28, such as ferrite, is further added to the bottom of the battery, or variously designed and manufactured with a large rectangular relay coil, a circular relay coil, and an oval-shaped relay coil without magnetic materials. Located along the inside of the wall of the container 13, connecting the relay coil 26 and the relay capacitor 25, and a variety of materials such as boxes, cylinders, vases and cups made of a resin-based resin that does not block the time-varying magnetic field It can be manufactured by molding, molding, or designing by various materials and methods.

The receiving coil 24 may be formed of a conventional induction coil, but is designed and manufactured by winding the induction coil with a predetermined number of windings on the magnetic core 27 or a predetermined winding of the receiving coil on one magnetic core 27. The induction coil may be wound with a bow, and the induction coil may be wound with a predetermined number of windings below or above the receiving coil 24 on the same magnetic core 27, and a capacitor may be connected to the induction coil to amplify the time-varying magnetic field.

In order to minimize the loss of induced electromotive force of the alternating current induced in the receiving coil 24, a capacitor is connected in parallel with the receiving coil 24 in order to transmit electrical energy to the load as efficiently as possible and generated in the transmitting coil 21. Designed and manufactured so as to be close to the resonance point generated by the frequency of the time-varying AC electric signal and match with the load impedance, so that as much electric energy as possible is transmitted to the load.

AC induction electromotive force induced in the receiving coil 24 is provided with a rectifying circuit composed of one or more diodes in order to convert the charging voltage of the mobile communication terminal 14 and the DC power suitable for small electronic devices that need to be charged, When the power required for the load is AC power, it can be configured to directly supply electrical energy without passing through the rectifier circuit.

The charging vessel designed and manufactured according to the present invention is a transmission coil for generating an alternating magnetic flux in order to ensure safety, and receives the inside of the charging vessel when transmitting an AC electric signal of several tens of KHz to several tens of MHz while having a certain voltage. In order to detect the presence of a coil-equipped mobile communication terminal and / or a small electronic device, an AC electric signal having a frequency component equal to or different from that of the AC electric signal for generating the AC time-varying magnetic flux is generated. As the repulsive magnetic field sensing signal is sensed, the change of the repulsive magnetic field generated by transmitting simultaneously with the AC electric signal for generating the AC time-varying magnetic flux flows back through the transmitting coil, affecting the change in the power supply of the power supply located in the adapter. Detects this and continuously transmits power to the charging container when it determines that there is a receiving coil. If the developer is detected boundaries may be provided a built-in switch to stop the power supplied to the filling container an electronic circuit to a side adapter.

One of the specific experimental results performed using the filling container designed and manufactured according to the present invention is that the plate-shaped magnetic body 28 is installed on the bottom of the filling container, and the relay coil 26 and the relay capacitor 25 are not installed. Wrap the transmitter coil on the wall of the charging vessel and install the capacitor in parallel with the transmitter coil to adjust the capacitor to achieve the maximum transmit / receive power.When the transmit power is transmitted to 24W (24V, 1A), the receive power is 333mW (3.7). V, 90mA), the efficiency was very low, and the other was the transmission power of 4.8W (24V, 0.2A) when the relay coil 26 and the relay capacitor 25 were installed in the configuration described above. In case of transmitting with), the reception power is 2.6W (3.7V, 700mA), so the reception efficiency is very good.

According to the present invention, the non-directional filling container 13 having the adapter 12, the magnetic core 22 and the transmitting coil 21, the relay coil 26, and the relay capacitor 25 and the non-directional filling container 13 are provided. The wireless power charging set with the receiving coil 24 and the rectifier circuit interlocked with the device is also within the protection scope of the present invention.

According to the present invention, a mobile communication terminal 13 having a predetermined receiving coil 24 and a rectifier circuit or a small electronic device that needs to be charged can be wirelessly automatically charged or supplied from a commercial power source to supply necessary electrical energy. After converting AC AC electric signal of ㎐ into DC power, convert the converted DC power into AC electric signal of tens of KHz ~ tens of MHz through DC-AC conversion circuit composed of switching circuit and transformer, and then convert The relayed electric signal is transmitted to the transmission coil 21 provided at one side of the charging container 13, and the relay coil 26 and the relay relaying the time-varying magnetic field generated by the transmission coil 21 around the charging container 13. The capacitor 25 is fixedly installed, and the receiving communication coil 24 and the rectifier circuit are incorporated in the mobile communication terminal 14 and the small electronic device contained in the charging container 13, and the mobile communication terminal 14 and the small electronics are embedded therein. Device When the charging container 13 is contained in the charging battery 23 and the non-directional charging container 13 for generating a time-varying magnetic field so as to obtain the required power, and a mobile communication terminal 14 having a wireless power receiver interworking with it. And by providing a small electronic device has excellent efficiency and small size and light weight, and can be molded and manufactured with a minimum production cost, and can be conveniently used, the industrial applicability is very high.

The present invention is fixed to the relay coil and relay capacitor for relaying the time-varying magnetic flux generated in the transmission coil through the transmission coil installed on one side of the charging container, the mobile communication terminal and the small electronic device contained in the charging container The receiver coil and rectifier circuit are built-in, when the mobile communication terminal and the small electronic device in the charging container, a non-directional charging container for generating a magnetic flux so that the battery can be charged and the required power, and the wireless power receiver connected with the By providing a mobile communication terminal and a small electronic device with a built-in excellent efficiency and small size, light weight, can be produced by minimizing the production cost, there is an effect that can be conveniently used by users with non-directional.

Another effect of the present invention is to install a variety of magnetic materials in addition to the bottom of the filling container or the relay coil and relay coil to relay the time-varying magnetic field evenly generated inside the container by going inside the wall of the filling container without the magnetic material; The relay capacitor is connected to be connected to the resonance point of the time-varying magnetic field frequency and matched with the impedance of the load so that as much power as possible is transmitted to the load, and when it is contained in a charging container of a mobile communication terminal and a small electronic device, The reception coil embedded therein is located inside the relay coil to form a non-directional charging container configured to induce almost the same induced electromotive force regardless of the bottom position of the charging container.

Another effect of the present invention is to configure the non-directional filling container by winding the transmission coil on the magnetic core to be fixed to one side of the charging container, and physically separated from the transmitting coil to the relay coil of the square, round and oval shape A resonance point of the relay coil and the relay capacitor in consideration of the load impedance matching of the mobile communication terminal or the small electronic device, which is located along the inside of the wall and amplifies and relays the time-varying magnetic field transmitted wirelessly. By designing and manufacturing by adjusting the design to maximize the transmission efficiency of the electrical energy transmitted to the load to have an excellent power transmission efficiency.

Claims (13)

In the charging vessel that generates a time-varying magnetic field, An adapter for generating an alternating current electrical signal designed as a switching circuit and a transformer; A transmission coil connected to the adapter by a wire and fixedly wound with a predetermined number of windings along one side or a wall of the charging container to receive an AC electric signal generated from the adapter to generate a time-varying magnetic field; A relay coil and a relay capacitor which are physically isolated from the transmission coil, and fixedly installed up and down by winding a plurality of windings along the inside or the outside of the wall, and amplifying and relaying the time-varying magnetic field generated by the transmission coil; And The transmission coil for transmitting or amplifying the time-varying magnetic field, and the relay coil and the relay capacitor are made of a synthetic resin-based material that does not block the magnetic field, but may be manufactured as a container capable of containing electronic devices for charging. The transmission coil is a time-varying magnetic field designed to simultaneously transmit an AC electric signal for generating a magnetic field and a repulsive magnetic field detection signal having the same frequency or a different frequency as the AC electric signal for detecting whether a receiving coil exists in the charging container. Rechargeable container. delete The method according to claim 1, The relay coil and the relay capacitor of the time-varying magnetic field are fixedly installed inside the wall of the filling container, and the relay coil is amplified and relayed so that the time-varying magnetic field is generated evenly inside the container, and the load coil is connected by adjusting the resonance point of the relay coil. A charging vessel that generates a time-varying magnetic field consisting of relay capacitors designed to be designed to transmit as much power as possible to the load. The method according to claim 1 or 3, The transmission coil, the relay coil and the relay capacitor is designed and manufactured by winding a plurality of windings along one side or the wall of the charging container, generating a time-varying magnetic field produced by selecting one of the rectangular, cylindrical and vase shape. delete The method according to claim 1 or 3, Filling the bottom of the filling container to generate a time-varying magnetic field designed by manufacturing a magnetic material generating a magnetic flux further. In the wireless power conversion set having a transmission coil for generating a time-varying magnetic field and a wireless magnetic field receiver, An adapter for generating an alternating current electrical signal designed as a switching circuit and a transformer; A transmission coil connected to the adapter by a wire and fixedly wound with a predetermined number of windings along one side or a wall of the charging container to receive an AC electric signal generated from the adapter to generate a time-varying magnetic field; A charging container in which the transmission coil is physically isolated from the transmission coil, and fixedly installed by winding a plurality of windings along the inside or the outside of the charging container, and the relay coil and the relay capacitor amplifying the time-varying magnetic field generated by the transmission coil; A receiver for receiving a time-varying magnetic field generated in the charging container; And The transmission coil is a time-varying magnetic field designed to simultaneously transmit an AC electric signal for generating a magnetic field and a repulsive magnetic field detection signal having the same frequency or a different frequency as the AC electric signal for detecting whether a receiving coil exists in the charging container. Wireless power conversion set using. The method according to claim 7, The transmission coil is a wireless power conversion set using a time-varying magnetic field produced by winding the transmission coil with a certain number of turns on a magnetic core in order to efficiently generate a time-varying magnetic field. The method according to claim 7, The relay coil and the relay capacitor of the time-varying magnetic field are fixedly installed inside the wall of the charging container, and the relay coil is amplified and relayed to generate the time-varying magnetic field evenly inside the container, and is connected to the relay coil to adjust the resonance point to match the impedance of the load. Wireless power conversion set using a time-varying magnetic field designed as a relay capacitor that is designed to achieve the maximum power is transmitted to the load. The method according to claim 7, The transmission coil, the relay coil and the relay capacitor is designed and manufactured by winding a fixed number of windings along one side or inside the wall of the recharging container and fixedly installed, and selecting any one from a rectangular, cylindrical, and vase shape, using a time-varying magnetic field. Power conversion set. delete The method according to any one of claims 7 to 10, A capacitor which forms a frequency resonance point while matching the impedance of the load in order to efficiently transfer the induced electromotive force induced in the receiving coil from the time-varying magnetic field generated in the charging container to an electronic circuit embedded in a mobile communication terminal or a small electronic device as a load. Wireless power conversion set using a time-varying magnetic field designed by connecting in parallel with the receiving coil. The method according to any one of claims 7 to 10, The receiver is a wireless power conversion set using a time-varying magnetic field characterized in that the built-in one selected from a mobile communication terminal, a small electronic device and a small electronic device that can be supplied with power to the time-varying magnetic field with a built-in rechargeable battery.

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