KR20130092084A - Wireless recharge system for mobile device - Google Patents

Abstract

PURPOSE: A wireless charging system for a mobile communications terminal is provided to enable wireless charging by directly connecting a receiver antenna to a battery part arranged at the terminal of a mobile communications terminal without additional interface. CONSTITUTION: A wireless charging method using electromagnetic induction causes a magnetic field to be generated at a first coil (211) of inside when power is connected to a wireless charging transmitter part (210). The magnetic field generates induced current at a second coil (221) at a wireless charging receiver part (220) connected to a mobile communications terminal (240) and the current charges the battery part (230) inside the mobile communications terminal. [Reference numerals] (211) First coil; (221) Second coil; (222,212) Control circuit; (223) Charging circuit; (231) Wireless charging connecting port; (232) Battery cell; (233) Device connecting port; (240) Mobile device

Description

Wireless Recharge System for Mobile Device {Wireless Recharge System for Mobile Device}

The present invention relates to a wireless charging system applied to a mobile communication terminal. More specifically, unlike a conventional wireless charging system connected through an interface of a mobile communication terminal, a wireless charging receiver antenna is provided on a cover of the mobile communication terminal, and directly connected to the battery unit and the receiver antenna provided in the mobile communication terminal. The present invention relates to a wireless charging system for a mobile communication terminal that enables wireless charging.

As mobile technology advances, things that were previously only available in the office or at home can now be done through mobile devices. Notebook computers, mobile phones, as well as language learners, handheld game consoles, navigation devices, smart phones, and other new types of mobile communication devices have emerged.

Many of these mobile communication devices each have a built-in battery, and in order to charge them, a mobile communication device is directly connected to a power terminal, or a battery is disconnected and charged through a dedicated charger. Figure 1a shows a state of the mobile communication terminal 240 having a multi-function charging terminal 110, Figure 1b shows a state of connecting the power connection terminal 120 for wired charging to the multi-function charging terminal 120. have. However, it is not only cumbersome to remove the battery and insert the battery into the charger each time, or connect the mobile communication device to the power terminal.

One way to solve the above problem is a wireless charging system. The wireless charging system connects the wireless charging receiver to the charging terminal of the mobile communication device, and charges by mounting the mobile communication device to which the receiver is connected to the wireless charging transmitter. However, when the wireless charging system is applied to the existing mobile communication device, its volume becomes large, it is inconvenient to carry, and there is a problem such that the NFC antenna applied to the existing mobile communication device does not work by being disturbed, which makes it difficult to apply. There is this.

The present invention to solve the above problems is to provide a wireless charging system for a mobile communication terminal that is easy to carry without applying an additional wireless charging system while applying a wireless charging system to an existing mobile communication device. In addition, the present invention is to provide a wireless charging system for a mobile communication terminal that can be wireless charging without interference, if the mobile communication terminal supports NFC wireless communication, and can further enhance the strength of NFC wireless communication The purpose is.

The technical objects to be achieved by the present invention are not limited to the above-mentioned technical problems, and other technical subjects which are not mentioned can be clearly understood by those skilled in the art from the description of the present invention .

The present invention for achieving the above object comprises a primary coil, a wireless charging transmitter unit connected to a power supply for supplying power to the primary coil; A wireless charging receiver unit including a circuit unit and a secondary coil for controlling inductive power, wherein the primary coil and the secondary coil are aligned to generate inductive power in the secondary coil when mounted on the wireless charging transmitter unit; A battery unit connected to the wireless charging receiver unit and charged with the induced power; And a mobile communication terminal supplied with power through the battery unit.

The present invention provides a wireless charging system for a mobile communication terminal, wherein the battery unit includes a wireless charging connection terminal connected to the wireless charging transmitter in addition to a power connection terminal connected to the mobile communication terminal. Provided is a wireless charging system for a communication terminal.

The present invention provides a wireless charging system for a mobile communication terminal, wherein the receiver unit includes an NFC antenna, and the battery unit includes a first NFC connection terminal connected to the mobile communication terminal and a second NFC connection connected to the mobile communication receiver unit. It includes a connection terminal, the second NFC connection terminal provides a wireless charging system for a mobile communication terminal, characterized in that connected to the NFC antenna.

The present invention provides a wireless charging system for the mobile communication terminal, wherein the wireless charging receiver portion has a battery cover shape located on the rear of the mobile communication terminal, is coupled to the rear of the mobile communication terminal, the wireless charging receiver portion is automatic Having an alignment guide, when the mobile communication terminal is mounted on the wireless charging receiver unit, the primary coil and the secondary coil provides a wireless charging system for a mobile communication terminal, characterized in that automatically aligned.

The present invention provides a wireless charging system for a mobile communication terminal, wherein the wireless charging transmitter unit has a predetermined angle, and when the mobile communication terminal is mounted on the wireless charging transmitter unit, the mobile communication terminal is connected by the predetermined angle. It provides a wireless charging system for a mobile communication terminal, characterized in that automatically aligned with the automatic alignment guide.

The present invention provides a wireless charging system for a mobile communication terminal which is easy to carry by applying a wireless charging system to an existing mobile communication device, but does not connect an additional wireless charging system. In addition, according to the present invention, when the mobile communication terminal supports NFC wireless communication, wireless charging is possible without disturbing, and provides a wireless charging system for a mobile communication terminal that can further strengthen the strength of NFC wireless communication.

1A illustrates a mobile communication terminal including a multifunction charging terminal.
Figure 1b is a view showing a state connecting the power connection terminal for wired charging to the multi-function charging terminal
Figure 1c to Figure 1d is a view showing a conventional wireless charging system.
Figure 2 is an exploded perspective view of a wireless charging system for a mobile communication terminal according to an embodiment of the present invention.
Figure 3 is a block diagram of a wireless charging system for a mobile communication terminal according to an embodiment of the present invention.
4 to 5 are views showing a side view of a wireless charging system for a mobile communication terminal including an automatic alignment guide according to an embodiment of the present invention.
6 is a block diagram of a wireless charging system for a mobile communication terminal including an NFC communication function according to an embodiment of the present invention.

Wireless charging uses electromagnetic induction. In the wireless charging method using electromagnetic induction, a magnetic field is generated when current flows, and this magnetic field generates new current again. When a power source is connected to the wireless charging transmitter 210, a magnetic field is generated in the primary coil 211. The magnetic field generates an induced current in the secondary coil 221 in the wireless charging receiver unit 220 connected to the mobile communication terminal 240, and this current causes the battery unit 230 in the mobile communication terminal 240. To charge.

In order to install the wireless charging system in the existing mobile communication terminal 240, a wireless charging receiver is mounted on the multifunction charging terminal 110 of the mobile communication terminal 240, and a method of aligning the wireless communication receiver with the wireless charging transmitter is used. . 1c shows a state in which the wireless charging receiver 140 is connected to the mobile communication terminal 240 by connecting the wireless charging connection terminal 130 to the multifunction charging terminal 110. Since the wireless charging receiver is inconvenient to carry, the wireless charging receiver may be manufactured in the form of an external case of the mobile communication terminal 240 to surround the rear of the mobile communication terminal 240 and charged by mounting it on the wireless charging transmitter. Figure 1d shows a wireless charging receiver 150 manufactured in the form of a conventional outer case. However, such a conventional wireless charging system is manufactured in the form of adding an external case to the mobile communication terminal 240, the weight and volume is larger than the existing mobile communication terminal, is inconvenient to carry, multi-function charging terminal 110 and the computer There are many problems, such as having to disconnect from a wireless charging receiver when trying to use it to connect.

One embodiment of the present invention includes a primary coil 211, the wireless charging transmitter 210 for supplying power to the primary coil 211 is connected to a power supply, a circuit unit for controlling the induction power and the secondary It includes a coil 221, when mounted on the wireless charging transmitter 210, the primary coil 211 and the secondary coil is aligned, the wireless charging to generate induced power in the secondary coil 221 Receiver unit 220, connected to the wireless charging receiver unit 220 and the battery unit 230 is charged with the induction power and includes a mobile communication terminal 240 supplied with power through the battery unit 230 It provides a wireless charging system for a mobile communication terminal. Figure 2 shows each component through an exploded perspective view of a wireless charging system for a mobile communication terminal according to an embodiment of the present invention.

The wireless charging transmitter unit 210 includes a primary coil 211 for generating electromagnetic induction and is connected to a power supply to supply power to the primary coil 211. In order to supply proper charging power, commercial power which is 100V or 220V AC power is converted into DC and the output voltage is converted to a voltage suitable for charging. The output voltage is determined by the control circuit 212 included in the wireless charging transmitter unit 210, and may change the output value as necessary.

The wireless charging receiver unit 220 includes a circuit unit for controlling induction power and a secondary coil 221 which generates an induction current through a current flowing in the primary coil 211, and is connected to the battery unit 230. The battery unit 230 serves to charge. The wireless charging receiver unit 220 is mounted on the wireless charging transmitter unit 210 when the primary coil 211 and the secondary coil 221 is aligned, the induced power is generated to satisfy the condition that the induced power is generated 1 The primary coil 211 and the secondary coil 221 should be aligned within 8 mm, and the distance should also be within a few mm to have the same level of charging performance as the wired charging. To this end, the wireless charging receiver unit 220 of the present embodiment is not limited thereto, but preferably, the thickness is within 1.45 mm, and the thickness of the secondary coil 221 may be 0.8 mm. Looking at the process of delivering power to the battery unit 300 in detail, when the primary coil 211 and the secondary coil 221 is aligned to generate the induced power, the induced power is transferred to the charging circuit 223, such The process is controlled through the control circuit 222.

The wireless charging receiver unit 220 may be manufactured in the form of a rear battery cover which is preferably located at the rear of the mobile communication terminal 240. The rear battery cover is manufactured to be detachable in order to replace the battery. By using this, if the wireless charging receiver unit 220 is manufactured in the form of the rear battery cover, there is no need to replace the existing mobile communication terminal 240, The wireless charging system for a mobile communication terminal can be used only by mounting the wireless charging receiver 220 having a form compatible with the mobile communication terminal 240. Since the battery integrated mobile communication terminal does not have a rear battery cover, the same effect can be obtained by forming the wireless charging receiver unit 220 on the rear of the mobile communication terminal 240.

The battery unit 230 is directly connected to the wireless charging receiver 220 is charged using the induced power induced in the wireless charging receiver 220. To this end, preferably, one side of the battery unit 230 may be further provided with a wireless charging connection terminal 231 that can be directly connected to the wireless charging receiver 220. Through this configuration, the configuration of connecting the wireless charging receiver 140 to the existing multifunction charging terminal 110 becomes unnecessary, thereby reducing the volume, simplifying the configuration, and using the multifunction charging terminal 110 even during wireless charging. Data exchange between the computer and the mobile communication terminal 240 is possible. In addition, when the battery unit 230 and the wireless charging receiver 220 is directly connected, the induction current through the conventional wireless charging receiver 140, 150 through the multi-function charging terminal 110, the mobile communication terminal 240 In order to supply power to the mobile terminal 240 again to charge the battery cell 232 through the terminal connection terminal 233, the wireless charging receiver 220 through the wireless charging connection terminal 231. Switching to the configuration for charging the battery cell 232 has the effect of providing a more efficient wireless charging system.

The mobile communication terminal 240 may use any product as long as the existing commercial mobile communication terminal 240. The present invention has a purpose to conveniently provide a wireless charging system for a mobile communication terminal without modifying the existing mobile communication terminal 240, a modification to the mobile communication terminal 240, or a new circuit is added There is no problem such as

Since the wireless charging system for a mobile communication terminal of the present invention is compatible with the international standard for wireless charging of the WPC (Wireless Power Congress), the product using the anti-invention does not collide with other wireless devices by detecting them.

In one embodiment of the present invention, in the wireless charging system for the mobile communication terminal, the wireless charging receiver unit 220 has a battery cover form, is coupled to the rear of the mobile communication terminal 240, the wireless charging receiver The unit 220 has an automatic alignment guide 213, and when the mobile communication terminal is mounted on the wireless charging receiver 220, the primary coil 211 and the secondary coil 221 are automatically aligned. Provided is a wireless charging system for a mobile communication terminal.

4 shows a wireless charging system for a mobile communication terminal equipped with an automatic alignment guide 213. As described above, the primary coil 211 of the wireless charging transmitter 210 and the secondary coil 221 of the wireless charging receiver 220 may be aligned within an error of 8 mm so that wireless charging may be performed. However, when the user arbitrarily mounts the mobile communication terminal 240 to the wireless charging transmitter unit 210, the primary coil 211 and the secondary coil 221 may not be properly aligned, and thus may not be charged.

The present embodiment includes an automatic alignment guide 213 in the wireless charging transmitter 210 to solve this problem. The automatic alignment guide 213 is not limited thereto, but preferably, may be formed in a form that may wrap the side and bottom surfaces of the mobile communication terminal 240. Using this form, the mobile communication terminal 240 is naturally mounted to the wireless charging transmitter unit 210 while the side and the lower surface are aligned with the automatic alignment guide 213 of the wireless charging transmitter unit 210, and thus the primary The coil 211 and the secondary coil 221 are automatically aligned to enable wireless charging. Another form of automatic alignment guide is a method of forming one or more protrusions in the wireless charging transmitter unit 210 and forming a groove corresponding thereto in the wireless charging receiver unit 220 so that the corresponding protrusions and grooves are aligned. However, in order to align with a natural mounting operation, the form surrounding the side and the bottom surface is preferable.

In an embodiment of the present invention, in the wireless charging system for the mobile communication terminal, the wireless charging transmitter unit 210 has a predetermined angle, and the mobile communication terminal 240 to the wireless charging transmitter unit 210. When installed, the mobile communication terminal 240 provides a wireless charging system for a mobile communication terminal, characterized in that automatically aligned with the automatic alignment guide 213 by the predetermined angle.

5 shows a wireless charging system for a mobile communication terminal in which the wireless charging transmitter 210 has a predetermined angle. In this embodiment, even if the user does not consciously align the automatic alignment guide 213 when the mobile terminal 240 is mounted on the wireless charging transmitter unit 210, the automatic alignment guide 213 is aligned without the need for additional mechanical devices. Provides a wireless charging system. To this end, the wireless charging transmitter 210 of the present embodiment has a predetermined angle, and the predetermined angle has a range of 10 degrees to 80 degrees, but is not limited thereto, and preferably has a range of 10 degrees to 30 degrees. . Since the surface on which the mobile communication terminal 240 of the wireless charging transmitter unit 210 is mounted has a predetermined angle from the bottom, when the user arbitrarily mounts the mobile communication terminal 240, the user slides down by gravity. The automatic alignment guide 213 is automatically aligned. To this end, the surface on which the mobile communication terminal 240 of the wireless charging transmitter 210 is mounted and the outside of the wireless charging receiver 220 are preferably made of a material having low frictional force.

In an embodiment of the present invention, in the wireless charging system for the mobile communication terminal, the receiver unit 200 includes an NFC antenna 224, and the battery unit 300 is connected to the mobile communication terminal 400. A first NFC connection terminal 235 and a second NFC connection terminal 234 connected to the mobile communication receiver 200, and the second NFC connection terminal 234 is connected to the NFC antenna 224. It provides a wireless charging system for a mobile communication terminal, characterized in that the connection.

Near field communication (NFC) is a short-range wireless communication standard that enables data exchange, billing, and the like, when a device such as a mobile communication terminal performs near-field radio communication and accesses a few cm or less. NFC communication takes place between an NFC device and an NFC chip called a tag. NFC technology has been in the spotlight as a fare payment, public transportation fare payment means, and recently the NFC communication technology is basically applied to the mobile communication terminal 240.

Since NFC communication is also wireless communication, data is exchanged through an NFC antenna made of coils. In the conventional wireless charging system, a wireless charging system antenna (secondary coil 221) is located at the rear of the mobile communication terminal 240. Because of the interference with the NFC antenna embedded in the battery, there is a problem that can not use the NFC function contained in the mobile communication terminal 240. Multifunction charging terminal 110 of the mobile communication terminal 240 can be used for battery charging and data communication, but difficult to use for NFC communication, there is a problem that requires the definition of additional protocols, eventually the existing mobile communication terminal and wireless There is a problem that can not use the NFC communication function with the charging system.

The present embodiment, in addition to the first NFC connection terminal 235 provided in the battery unit 230 and connected to the mobile communication terminal 240 to solve the above-described problem, the second NFC connection to one surface of the battery unit 230 Further provided with a terminal 234 and the second NFC connection terminal 234 is connected to the NFC antenna 224 provided in the wireless charging receiver 220 to be used as an NFC antenna. The NFC antenna 224 of the wireless charging receiver unit 220 is generally larger in size than the NFC antenna formed in the battery, and operates as a very excellent NFC antenna. That is, when the mobile communication terminal 240 is mounted on the wireless charging transmitter unit 210 to start charging, the wireless charging receiver unit 220 charges the induced current to the battery unit 230, and the mobile communication terminal 240 When the NFC tag is close to the NFC communication signal received by the NFC antenna 224 is to be delivered to the NFC receiving unit of the mobile communication terminal 240 through the NFC connection terminals 234 and 235 of the battery unit 230.

The terms and words used in the present specification and claims should not be construed as limited to ordinary or dictionary terms and should be construed in a sense and concept consistent with the technical idea of the present invention. It should be noted that the embodiments described in the present specification and the configurations shown in the drawings are only the most preferred embodiments of the present invention and are not intended to represent all of the technical ideas of the present invention so that various equivalents And variations.

100: mobile communication terminal
110: multi-function charging terminal
120: power connection terminal for wired charging
130: wireless charging connector
140: wireless charging receiver
150: wireless charging receiver manufactured in the form of an external case
210: wireless charging transmitter
211: primary coil
212 transmitter control circuit
213: Automatic alignment guide
220: wireless charging receiver
221: secondary coil
222: receiver control circuit
223: charging circuit
224: NFC antenna
230: battery unit
231: wireless charging connector
232: battery cell
233: terminal connection terminal
234: second NFC connector
235: first NFC connector
240: mobile communication terminal

Claims (5)

A wireless charging transmitter unit including a primary coil and connected to a power supply to supply power to the primary coil;
A wireless charging receiver unit including a circuit unit and a secondary coil for controlling inductive power, wherein the primary coil and the secondary coil are aligned to generate inductive power in the secondary coil when mounted on the wireless charging transmitter unit;
A battery unit connected to the wireless charging receiver unit and charged with the induced power; And
And a mobile communication terminal supplied with power through the battery unit.
The method of claim 1,
The battery unit further comprises a wireless charging connection terminal connected to the wireless charging transmitter unit in addition to a power connection terminal connected to the mobile communication terminal.
The method of claim 2,
The receiver unit includes an NFC antenna,
The battery unit includes a first NFC connection terminal connected to the mobile communication terminal and a second NFC connection terminal connected to the mobile communication receiver,
The second NFC connection terminal is a wireless charging system for a mobile communication terminal, characterized in that connected to the NFC antenna.
The method of claim 1,
The wireless charging receiver unit has a battery cover form located on the rear of the mobile communication terminal, is coupled to the rear of the mobile communication terminal,
The wireless charging receiver unit has an automatic alignment guide, the wireless charging system for a mobile communication terminal, characterized in that the primary coil and the secondary coil is automatically aligned when the mobile terminal is mounted on the wireless charging receiver.
5. The method of claim 4,
The wireless charging transmitter unit has a predetermined angle, and when the mobile communication terminal is mounted on the wireless charging transmitter unit, the mobile communication terminal is automatically aligned with the automatic alignment guide by the predetermined angle. Wireless charging system for communication terminals.

Images