KR20140008706A - Wireless charging reciever - Google Patents

Abstract

A contactless charging receiver according to the present invention comprises a charging transmission unit including a first coil and a charging receiving unit including a battery having an a first short distance wireless communication antenna for receiving a charging voltage from a second coil coupled to the first coil by the inducement combination, wherein the charging receiving unit includes a contactless charging receiving cover; a first FPCB which is arranged on the inner surface of the contactless charging receiving cover and has the second coil and a second short distance wireless communication antenna; a ferrite shielding member which is arranged to be opposite to the region where the second coil and the second short distance wireless communication antenna are arranged, induces an electromagnetic field generated in the first coil to the second coil and blocks the electromagnetic field entering into the battery; an antenna connector which is formed, in a terminal of the second short distance wireless communication antenna, to have the elastic force structure using metal materials; and a second FPCB for connecting the antenna connector to a terminal of the first short distance wireless communication antenna of the battery.

Description

Contactless Charging Receivers {Wireless charging reciever}

The present invention relates to a non-contact charging receiver, and in particular, when a near-field wireless communication antenna is intended to use a non-contact charging function in a portable terminal built in a battery, a non-contact charging and receiving device is provided with a separate short-range wireless communication antenna By short-circuit or parallel connection of antenna for short-range wireless communication of the battery contacts, and by connecting the short-range wireless communication antenna built in the contactless charging receiver, the short-range wireless communication function can be used without being affected by the shield of the contactless charging receiver. A contactless charging receiver can be provided.

In general, mobile devices such as mobile phones, PDAs, PMPs, DMB terminals, MP3s, and laptops are used while moving, so they cannot be powered by directly plugging in general home power. will be.

However, the charger for charging the battery of the portable device is a terminal supply method is used to supply power to the battery pack through a power supply line and a power supply terminal to receive electricity from the general power source.

Wired (contact) charging has traditionally been widely used for charging batteries for mobile devices, but recently contactless (wireless) charging has been introduced and used, and its application is gradually being expanded.

The most common contactless charging principle is electromagnetic induction, and if the secondary coil on the battery side to be charged is placed on the primary coil installed in the charging pad (transmitter) supplied with AC power, the primary coil and the secondary coil Induction electromotive force is generated, and this is the principle of charging the battery through the induction electromotive force.

This contactless charging technology is being standardized through the WPC (Wireless Power Consortium), and WPC uses a frequency of 100-205 KHz band for power transmission by electromagnetic induction and is charged within a transmission distance of several tens of millimeters. To standardize.

1 is a view schematically showing a structure in which a conventional contactless charging receiver is mounted on a portable terminal. As shown in FIG. 1, the structure in which the contactless charging receiver is mounted on the portable terminal 100 includes an LCD 180, a battery 170, an NFC antenna 150, and a shield 160 of the portable terminal. The contactless charging receiver includes a contactless charging receiver coil 120, a shield 130 for a contactless charging receiver coil and a contactless charging receiver cover 110.

The battery 170 includes the NFC antenna 150 and consists of four contact parts of a battery (+), a battery (-), an NFC antenna 1, and an NFC antenna 2.

The shield 130 is a magnetic field shield that allows a wireless signal transmitted from the NFC reader to the NFC antenna as a ferrite magnetic field shield.

The contactless charging receiver coil 120 generates induced electromotive force through an electromagnetic field generated by the contactless charging transmitter coil.

The shield for the contactless charging receiving coil 130 is a ferrite shield for blocking the electromagnetic field generated by the contactless charging transmission coil to flow into the battery, and induces the direction of the electromagnetic field to be transmitted to the contactless charging receiving coil.

The contactless charging receiving cover 110 has a contactless charging receiving circuit, a contactless charging receiving coil 120, a contact body 130 for a contactless charging receiving coil, etc., the cover to be fixed to the portable terminal at the back of the portable terminal It has a shape structure.

However, when the contactless charging and receiving cover is mounted on the portable terminal, the shielding shield for the receiving coil blocks the magnetic field, so that the NFC antenna located inside of the portable terminal does not receive the NFC signal, thereby preventing the use of the NFC function. do.

The technical problem to be solved by the present invention is to provide a short-range wireless communication antenna in the contactless charging receiving device when the short-range wireless communication antenna is to use a contactless charging function in a portable terminal embedded in a battery, By disconnecting or paralleling the antenna for wireless communication, and by connecting the antenna for short range wireless communication built in the contactless charging receiver, the near-field communication function can be used without being affected by the shield of the contactless charging receiver. It is to provide a charging receiver.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and explanatory and are not restrictive of the invention, unless further departing from the spirit and scope of the invention as defined by the appended claims. It will be possible.

The contactless charging receiver according to the present invention for solving the above technical problem, the first short-range receiving a charging voltage from a charging transmitter including a primary coil and a secondary coil coupled by the inductive coupling with the primary coil A contactless charging system comprising a charge receiving unit including a battery having an antenna for wireless communication, the charge receiving unit comprising: a contactless charge receiving cover; A first FPCB provided on an inner surface of the contactless charging receiving cover, the first FPCB including the secondary coil and the second short range wireless communication antenna; and arranged to correspond to an area where the secondary coil and the second short range wireless communication antenna are provided; A ferrite shielding member which induces an electromagnetic field generated by the primary coil to the secondary coil and blocks an electromagnetic field introduced into the battery; An antenna connector formed of a structure having elastic force by using a metal material at a terminal of the second short range wireless communication antenna; And a second FPCB connecting the antenna connector and the antenna terminal for the first short range wireless communication of the battery.

In particular, the second FPCB may include first and second contact terminal pads contacting the first short-range wireless communication contact terminals of the battery, third and fourth contact terminal pads contacting the antenna connector, and first contact terminals. And a second connection pattern connecting the pad and the third contact terminal pad, and a second connection pattern connecting the second contact terminal pad and the fourth contact terminal pad.

Here, in particular, it is characterized in that it further comprises a receiving circuit for responding to the ping signal periodically generated in the charge transmitter, and for charging the power induced in the secondary coil with a battery.

Here, in particular, the antenna connector is characterized in that it is formed of a spring structure or a c-shaped banded structure.

Here, in particular, when the first, second, third, and fourth contact terminal pads of the second FPCB are formed in a cross-section, when the antenna connector and the first near-field wireless communication antenna terminal of the battery are connected, the first near-field The antenna for wireless communication is cut off, and the second short-range wireless communication antenna is connected.

Here, in particular, when the first, second, third and fourth contact terminal pads of the second FPCB are formed on both sides, the first short range wireless communication antenna and the second short range wireless communication antenna are connected in parallel. Has its features.

According to the present invention, when the near-field wireless communication antenna is to use the contactless charging function of the portable terminal embedded in the battery, the near-field wireless communication antenna having a separate short-range wireless communication antenna in the contactless charging receiving device By disconnecting or connecting in parallel, and by connecting the short-range wireless communication antenna built in the contactless charging receiver, the short-range wireless communication function can be used without being affected by the shield of the contactless charging receiver.

1 is a view schematically showing a structure in which a conventional non-contact charging and receiving device is mounted on a portable terminal.
2 is a view schematically showing a structure in which a contactless charging receiver is mounted on a portable terminal according to the present invention.
3 is a cross-sectional view showing a cover structure of a contactless charging receiver having an NFC antenna according to the present invention.
Figure 4 is a view showing a planar structure of a contactless charging receiver having an NFC antenna according to the present invention.
5 is a view illustrating a structure in which a second FPCB is attached to a battery of the present invention.
6 shows the structure of a second FPCB of the present invention;

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. However, the detailed description of known functions and configurations incorporated herein will be omitted when it may unnecessarily obscure the subject matter of the present invention.

The same reference numerals are used for portions having similar functions and functions throughout the drawings.

In addition, in the entire specification, when a part is referred to as being 'connected' to another part, it may be referred to as 'indirectly connected' not only with 'directly connected' . Also, to include an element does not exclude other elements unless specifically stated otherwise, but may also include other elements.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

2 is a diagram schematically illustrating a structure in which a contactless charging receiver is mounted on a portable terminal according to the present invention. As shown in FIG. 2, the contactless charging system includes a charging transmitter (not shown) including a primary coil and a first short-range receiving a charging voltage from a secondary coil coupled by an inductive coupling with the primary coil. The charging receiver includes a battery having an antenna for wireless communication.

Here, the charging receiver is a contactless charging receiver, and includes a first FPCB 290 having a contactless charging receiver coil 220 and a second near field communication (NFC) antenna, the receiver circuit unit 260, and a contactless charging receiver. The coil consists of a ferrite shielding member 240 and a contactless charging receiving cover 210.

The battery 270 includes the first near field communication (NFC) antenna 273 and includes a battery (+), a battery (−), a first near field communication antenna terminal 1, and a first near field communication antenna terminal 2. It consists of four contacts. At this time, the second FPCB 271 is contacted to the first and second contact antennas for short range wireless communication.

The ferrite shielding member 240 is disposed to correspond to an area in which the secondary coil 220 and the second short range wireless communication antenna 230 are provided to transfer the electromagnetic field generated from the primary coil to the secondary coil 220. Induces and blocks electromagnetic fields entering the battery.

The receiving circuit unit 260 responds to a ping signal periodically generated by the charging transmitter (not shown) and charges the induced electromotive force generated in the primary coil and the secondary coil.

The contactless charging receiver coil 220 provided in the first FPCB 290 generates induced electromotive force through an electromagnetic field generated by the contactless charging transmitter coil.

In addition, the second short range wireless communication antenna 230 is provided in the first FPCB 290 to be connected in parallel with the first short range wireless communication antenna terminal.

The shield 240 for the contactless charging receiver coil prevents electromagnetic fields generated from the contactless charging transmitter coil from flowing into the battery 270 and induces the direction of the electromagnetic field to be transmitted to the contactless charging receiver coil 220. Ferrite shield.

The contactless charging receiving cover 210 seats a contactless charging receiving unit 260, a contactless charging receiving coil 220, a shield 240 for a contactless charging receiving coil, etc., and is fixed to a portable terminal at the back of the portable terminal. It has a cover structure to make it.

3 is a cross-sectional view showing a cover structure of a contactless charging receiver having a near field communication antenna according to the present invention, and FIG. 4 is a planar structure of a contactless charging receiver including a near field communication antenna according to the present invention. It is a figure which shows. As shown in FIGS. 3 and 4, the contactless charging receiver is provided with a first FPCB 290 in the contactless charging receiving cover 210.

More specifically, the first FPCB 290 is provided on the inner surface of the contactless charging receiving cover 210, and is provided with the secondary coil 220 and the second short range wireless communication antenna 230.

An antenna connector 250 formed of a structure having elastic force by using a metal material is in contact with the terminal of the second short range wireless communication antenna 230. At this time, the antenna connector 250 is formed of a spring structure or a c-shaped bent structure.

The antenna connector 250 connects a second FPCB 271 and a first short range wireless communication antenna terminal of the battery 270 when the contactless charging and receiving cover 210 is mounted with a battery of a portable terminal.

5 is a diagram illustrating a structure in which a second FPCB is attached to a battery of the present invention, and FIG. 6 is a diagram illustrating a structure of a second FPCB of the present invention. As shown in FIGS. 5 and 6, the second FPCB 271 may contact the first and second contact terminal pads 271a and 271b of the battery 270 with the first short-range wireless communication contact terminal. First and second connection patterns 271e connecting the third and fourth contact terminal pads 271c and 271d to which the antenna connector 250 is contacted, and the first contact terminal pad 271a and the third contact terminal pad 271c. ) And a second connection pattern 271f connecting the second contact terminal pad 271b and the fourth contact terminal pad 271d to each other.

When attaching the battery to the mobile phone by attaching a second FPCB 271 for connecting a near field communication (NFC) antenna to the battery 270, the (+) and (-) terminals of the battery are directly connected to the battery connector of the mobile phone. The NFC antenna embedded in the battery is disconnected. That is, in the battery connector of the mobile phone, the NFC antenna contact is connected to the second FPCB 271 attached to the battery, which leads to the second FPCB terminal exposed on the upper side of the battery.

More specifically, when the battery cover of the portable terminal is removed and the contactless charging receiver cover is mounted, the two terminals exposed to the upper surface of the battery are connected to a near field communication (NFC) antenna spring on the contactless charging receiver cover. In the case of using the second FPCB 271 for changing the connection of the cross section while contacting the connector 250 of the structure, the connection of the NFC antenna is changed from the NFC antenna inside the battery to the NFC antenna of the contactless charging cover. That is, when the antenna connector 250 and the first short range wireless communication antenna terminal of the battery are connected to the second FPCB 271, the first short range wireless communication antenna 273 is blocked, and the second short range wireless The communication antenna 230 is connected.

On the other hand, when using the two-sided connection change second FPCB 271, the NFC antenna is connected to the NFC antenna inside the battery and the NFC antenna of the contactless charging cover is connected in parallel.

While the present invention has been particularly shown and described with reference to exemplary embodiments, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, Of course, this is possible. Therefore, the scope of the present invention should not be limited to the described embodiments, but should be defined by the equivalents as well as the claims that follow.

Description of the Related Art
210 --- contactless charging receiving cover 220 --- secondary coil
230 --- Second antenna for short range wireless communication 240 --- Shielding member
250 --- Antenna connector 260 --- Receive circuit
270 --- Battery 290 --- 1st FPCB

Claims (6)

Contactless charging comprising a charge transmitter comprising a primary coil and a battery having a first short range wireless communication antenna receiving a charging voltage from a secondary coil coupled by inductive coupling with the primary coil. In the system,
The charging receiver,
A contactless charge receiving cover;
A first FPCB provided on an inner surface of the contactless charging receiving cover and including the secondary coil and the second short range wireless communication antenna;
A ferrite shielding member disposed to correspond to an area in which the secondary coil and the second short range wireless communication antenna are provided to guide the electromagnetic field generated by the primary coil to the secondary coil, and to block the electromagnetic field flowing into the battery;
An antenna connector formed of a structure having elastic force by using a metal material at a terminal of the second short range wireless communication antenna;
And a second FPCB connecting the antenna connector and the antenna terminal for first short range wireless communication of the battery.
The method of claim 1,
The second FPCB may include first and second contact terminal pads contacting the first short-range wireless communication contact terminals of the battery, third and fourth contact terminal pads contacting the antenna connector, and the first contact terminal pads. And a second connection pattern connecting the third contact terminal pad and a second connection pattern connecting the second contact terminal pad and the fourth contact terminal pad.
The method of claim 1,
And a receiving circuit unit responsive to a ping signal periodically generated by the charging transmitter, and configured to charge the power induced by the secondary coil with a battery.
The method of claim 1,
And the antenna connector is formed of a spring structure or a c-shaped banded structure.
3. The method of claim 2,
When the first, second, third, and fourth contact terminal pads of the second FPCB are formed in a cross section, when the antenna connector and the first short range wireless communication antenna terminal of the battery are connected, the first short range wireless communication antenna Is blocked, and the second short range wireless communication antenna is connected.
3. The method of claim 2,
When the first, second, third, and fourth contact terminal pads of the second FPCB are formed on both sides, the first short range wireless communication antenna and the second short range wireless communication antenna are connected in parallel. Contact charging receiver.

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