KR101635135B1 - Wireless charging receiver module - Google Patents

Abstract

The present invention relates to a wireless charge receiving module capable of increasing the efficiency of induction electromotive force, reducing thickness, and improving productivity by using a coil in which a metal wire is wound instead of a coil pattern without using a flexible printed circuit board A wireless charge receiving module according to the present invention includes: a base sheet; A wireless charging coil bonded on the base sheet; And a protective sheet for protecting the wireless charging coil and the base sheet.

Description

[0001] WIRELESS CHARGING RECEIVER MODULE [0002]

BACKGROUND OF THE INVENTION 1. Field of the Invention [0002] The present invention relates to a wireless charger, and more particularly, to a wireless charging receiver module and a method of manufacturing the same.

A portable electronic device such as a mobile communication terminal including a smart phone, a personal digital assistant (PDA) or the like is equipped with a battery having a rechargeable secondary battery cell incorporated therein. In order to charge such a battery, a separate charging device for supplying the commercial commercial AC power to the battery at an appropriate voltage is needed.

The charging device and the battery each have a separate contact terminal, and the charging device and the battery are electrically connected by the operation of connecting the two contact terminals to each other. However, if the contact terminal protrudes to the outside as described above, there is a problem that the appearance is not good and the contact terminal is contaminated with foreign matter and the contact state is easily deteriorated.

Further, when a short circuit occurs to the battery due to carelessness of the user or exposure to moisture, the charging energy can be easily lost. In addition, when the charging device and the battery are brought into contact with or separated from each other, an instantaneous discharge phenomenon occurs due to a difference in electric potential between the two contact terminals, so that there is a concern that fire due to heat generation may occur if contact foreign substances accumulate on both contact terminals .

In order to solve such a problem of the terminal supplying method, a non-contact charging apparatus has been developed. In the non-contact charging apparatus, a portable terminal having a battery to be charged is disposed at the upper portion of the primary coil of the non- , It is charged by the secondary coil inside the battery. That is, the secondary coil is charged with electricity derived from the induced electromotive force by the magnetic field generated in the primary coil. However, such a conventional solid state charging device can charge electricity only when there is a secondary coil in the battery of the portable electronic device.

1 is a schematic perspective view of a general solid state charging device.

As shown in the figure, the general solid state charging device includes a power supply device 100 and a power receiving device 200 receiving power wirelessly from the power supply device 100 for charging the battery .

The power supply apparatus 100 is a device that generates electric power to be supplied to the power receiving apparatus 200 by receiving electric energy from an external power supply. The power supply apparatus 100 may be formed in a pad shape so that the power receiving apparatus 200 can be easily mounted. As the external power supplied to the power supply apparatus 100, a commercial AC power source (60 Hz, 220 V / 100 V) or a DC power source may be employed.

The power receiving apparatus 200 includes a battery pack having a built-in battery or a portable electronic apparatus having a built-in battery. The power receiving apparatus 200 may be a part of a portable electronic device connected to the battery, or may be a member connected to the battery separately from the portable electronic device. Examples of the portable electronic device include a cellular phone, a PDA, and an MP3 player. The battery may include a lithium ion battery, a lithium polymer battery, or the like as a rechargeable battery cell.

The power supply apparatus 100 and the power receiving apparatus 200 have a primary coil 110 and a secondary coil 210 that correspond to each other. The primary and secondary coils 110 and 210 are magnetically coupled to each other by inductive coupling. Accordingly, as the secondary coil 210 is juxtaposed on the primary coil 110, a magnetic field generated by the primary coil 110 induces an induced current in the secondary coil 210. [

The power supply device 100 incorporates a charging power supply circuit 150 for generating a magnetic field by driving the primary coil 110. The power receiving apparatus 200 incorporates a charging circuit 250 that charges the battery using induced electromotive force generated by the secondary coil 210.

On the other hand, in order to increase the convenience of users who use the portable terminal with the introduction of the smart phone, the wireless charging technology has been tried to be applied. Recently, And a terminal for connecting a wireless charging and receiving module having a coil for charging the battery. That is, when the cover of the smartphone is opened, a charging terminal for connecting the wireless charging and receiving module and an antenna terminal for connecting an NFC (Near Field Communication) antenna are provided at an upper end where the battery is mounted.

Accordingly, if wireless charging is desired, the wireless charging device may include a wireless charging pad, which is the power supply device, and a wireless charging module, which is the power receiving device. The wireless charging module may be connected to the charging terminal of the sparket.

A conventional wireless charge receiving module will be described as follows.

2 is an exploded view of a conventional wireless charging and receiving module.

2, the conventional wireless charging and receiving module includes a flexible printed circuit board (F-PCB) 2 on which an electromagnetic wave absorbing sheet 1, a coil pattern 4 is printed, and a protective sheet 3 .

The coil pattern 4 printed on the flexible printed circuit board 2 is formed by printing a conductive material such as metal (copper, copper) on the flexible printed circuit board 2, A coil pattern is formed by an etching process using an etching liquid, or a coil pattern is formed by an etching process using a laser.

In addition, the coil pattern 4 must have an inductance L and a resistance R of at least a predetermined value to induce the magnetic field supplied from the power supply device. For this purpose, the coil pattern must be printed in multiple layers (three or more layers).

Therefore, the conventional wireless charging and receiving module has the following problems.

First, since the conductive material is deposited on the flexible printed circuit board and the coil pattern is formed by the etching process, the unit price is increased and the efficiency of the induced electromotive force is lowered.

Second, since the coil pattern is formed on the flexible printed circuit board, heat may be generated in the wireless charging and receiving module, and even the battery of the portable terminal may explode.

Third, for the slimming of the smartphone, the total thickness of the wireless charging and receiving module should be 0.4 mm or less. However, since the conventional wireless charge receiving module includes the electromagnetic wave absorbing sheet and the flexible printed circuit board (F-PCB) on which the coil pattern is printed and the coil pattern is formed in several layers, There was a limit to making.

SUMMARY OF THE INVENTION The present invention has been made in view of the above problems, and it is an object of the present invention to provide a wireless charging and receiving module capable of increasing the efficiency of induced electromotive force and reducing the thickness by using a coil in which a metal wire is wound instead of a coil pattern, The purpose is to provide.

According to an aspect of the present invention, there is provided a wireless charging and receiving module including: a base sheet; A wireless charging coil bonded on the base sheet; And a protective sheet for protecting the wireless charging coil and the base sheet.

Here, the base sheet is formed of an electromagnetic wave absorbing sheet having a function of absorbing and shielding electromagnetic waves generated in a portable terminal.

And an NFC antenna coil is further formed on the base sheet outside the wireless charging coil.

The base sheet of the portion where both ends of the wireless charging coil and the NFC antenna coil are overlapped may be further formed with a groove so that both ends of the wireless charging coil may be recessed.

A film printed with lines is attached on the base sheet at a portion where both ends of the wireless charging coil and the NFC antenna coil overlap each other and both ends of the wireless charging coil are electrically connected to one end of the line .

The wireless charging and receiving module and the method of manufacturing the same according to the present invention having the above features have the following effects.

First, since the wireless charge receiving module of the present invention does not use a flexible printed circuit board and does not form a coil pattern, the thickness of the wireless charge receiving module can be reduced, and the risk of explosion of the battery by reducing heat generation can be reduced .

Second, the efficiency of the induced electromotive force can be increased by using the coil wound with the metal wire instead of the coil pattern.

Third, since a coil wound around a metal wire is formed on the base sheet without using a flexible printed circuit board, the manufacturing cost of the wireless charging and receiving module can be greatly reduced, and high productivity and economy can be obtained.

1 is a schematic perspective view of a general solid state charging device.
2 is an exploded view of a conventional wireless charging and receiving module.
3 is an exploded view of a wireless charging and receiving module according to a first embodiment of the present invention.
4 is an exploded view of a wireless charging and receiving module according to a second embodiment of the present invention.

A wireless charging receiving module and a manufacturing method thereof according to the present invention having the above features will be described in detail with reference to the accompanying drawings.

First, the applicant of the present invention has applied for a patent for a wire recharging coil and a coil winding method (Patent Application No. 10-2013-0138058, filed on November 14, 2013).

In this patent application the present applicant has proposed various wireless charging coils. The various coils presented in the above patent application are all applicable as coils of the present invention. A detailed description of the coils will be omitted.

3 is an exploded view of a wireless charge receiving module according to a first embodiment of the present invention.

3, the wireless charging and receiving module according to the first embodiment of the present invention includes a base sheet 11, a wireless charging coil 14 bonded on the base sheet 11, And a protective sheet 13 for protecting the charging coil 14 and the base sheet 11.

The base sheet 11 is provided with connection terminals 12a and 12b at positions corresponding to charging terminals of a smart phone. One of the various types of coils proposed in the patent application No. 10-2013-0138058 filed by the applicant of the present invention is located on the base sheet 11 so that the wireless charging coil 14 Are electrically connected to the connection terminals 12a and 12b.

A protective sheet 13 for protecting the wireless charging coil 14 and the base sheet 11 from external factors such as heat, moisture or moisture is formed on the base sheet 11 so as to cover the coil 14. [ Lt; / RTI >

Here, the base sheet 11 may be an electromagnetic wave absorbing sheet having a function of absorbing and shielding electromagnetic waves generated in a portable terminal such as a smart phone.

4 is an exploded view of a wireless charging and receiving module according to a second embodiment of the present invention.

The wireless charge receiving module according to the second embodiment of the present invention is further comprised of the NFC antenna coil 15 added to the wireless charge receiving module of the first embodiment of the present invention as illustrated in FIG.

4, the base sheet 11, the wireless charging coil 14 and the NFC antenna coil 15 bonded on the base sheet 11, the coils 14 and 15, And a protective sheet 13 for protecting the base sheet 11.

The base sheet 11 is provided with first connection terminals 12a and 12b and second connection terminals 12c and 12d at positions corresponding to the charging terminal and the antenna terminal of the smartphone, respectively. One coil 14 of various kinds of coils proposed in the above-mentioned patent application No. 10-2013-0138058 filed by the applicant of the present invention is positioned on the base sheet 11 to form the wireless charging coil 14, Both ends of which are electrically connected to the first connection terminals 12a and 12b.

The NFC antenna coil 15 is positioned outside the base sheet 11 and both ends of the NFC antenna coil 15 are electrically connected to the second connection terminals 12c and 12d.

A protective sheet 13 for protecting the coils 14 and 15 and the base sheet 11 from external factors such as heat, moisture or moisture is provided on the base sheet 11).

Similarly, the base sheet 11 may be an electromagnetic wave absorbing sheet having a function of absorbing and shielding electromagnetic waves generated in a portable terminal such as a smart phone.

In the wireless charging and receiving module according to the second embodiment of the present invention, both ends of the wireless charging coil 14 and the NFC antenna coil 15 are overlapped with each other so that the overlapped portion is thicker than the other portions, The overall thickness of the receiving module can be increased.

Although not shown in the drawing, both ends of the wireless charging coil 14 may be embedded in the base sheet 11 of the portion where both ends of the wireless charging coil 14 and the NFC antenna coil 15 are overlapped with each other A groove may be formed.

Alternatively, although not shown in the drawing, a film on which the line is printed may be adhered on the base sheet 11 at a portion where both ends of the wireless charging coil 14 and the NFC antenna coil 15 are overlapped with each other Both ends of the wireless charging coil 14 may be connected to one end of the line and the other end of the line may be electrically connected to the second connection terminals 12a and 12b.

As described above, the wireless charge receiving module of the present invention does not use the F-PCB but uses a coil in which the metal wire is wound instead of the coil pattern, thereby increasing the efficiency of the induced electromotive force and reducing the thickness.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the general inventive concept as defined by the appended claims and their equivalents. Will be clear to those who have knowledge of.

11: base sheet 12a, 12b, 12c, 12d: connection terminal
13: protective sheet 14: wireless charging coil
15: NFC antenna coil

Claims (5)

A base sheet;
A wireless charging coil bonded on the base sheet;
And a protective sheet for protecting the wireless charging coil and the base sheet,
Wherein the wireless charging coil includes a first coil layer portion wound in a counterclockwise direction on one side of an enamel copper wire and a second coil layer portion wound in a clockwise direction on the other side of the enamel copper wire, Wherein both ends of the coil are protruded from an outer periphery of the first and second coil layer portions, and the first coil layer portion and the second coil layer portion are integrally formed. The method according to claim 1,
Wherein the base sheet is formed of an electromagnetic wave absorbing sheet having a function of absorbing and shielding electromagnetic waves generated in a portable terminal. The method according to claim 1,
And an NFC antenna coil is further formed on the base sheet outside the wireless charging coil. The method of claim 3,
Wherein the base sheet of the portion where the both ends of the wireless charging coil and the NFC antenna coil overlap each other is formed with a groove so that both ends of the wireless charging coil can be recessed. The method of claim 3,
A film printed with lines is attached on the base sheet at a portion where both ends of the wireless charging coil and the NFC antenna coil overlap each other and both ends of the wireless charging coil are electrically connected to one end of the line. Wireless charging receiver module.

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