KR200314075Y1 - Structure for Assembling Roof Antenna of Smart Cart in Cellular Phone - Google Patents

Abstract

The present invention relates to a loop antenna forming structure for a smart card of a mobile phone. Loop antenna forming structure of the present invention, the electromagnetic wave absorber layer 10 is covered with a mobile phone to block the electromagnetic wave, and a plurality of loops are formed to form a loop antenna for a smart card to be bonded to the electromagnetic wave absorber layer 10 A copper wire 20; The copper wire 20 is bonded to the electromagnetic wave absorber layer 10 by fusion of at least one of the enamel 22 covering the copper wire 21 and the electromagnetic wave absorber layer 10. . Preferably, the electromagnetic wave absorber layer 10 and the copper wire 20 are applied to the battery 1 of the cellular phone so that the loop antenna is applied to the battery 1.

Description

Structure for Assembling Roof Antenna of Smart Cart in Cellular Phone

(Technology)

The present invention relates to a loop antenna forming structure, and more particularly to a structure for forming a loop antenna for a contactless use of a smart card in a mobile phone having a smart card function.

(Background)

As is widely known, a smart card in which an IC chip including a microprocessor, an operating system, a security module, and a memory is inserted to have a storage function, a calculation function, and a security function is used for communication, finance, education, administration, transportation, etc. In many fields, it is widely used as a means of recording information, identifying and paying.

Smart cards are largely divided into contact cards, contactless cards, and dual cards, depending on how the IC chip reads data. The contact type is a form in which the card is activated by direct contact with an interface device (bill collector, card reader, reader, etc.), and the contactless type is activated by induction electromotive force induced in the loop antenna when approaching the interface device. The combined type is a type in which both contact and contactless types are supported.

Recently, smart cards with built-in contactless IC chips (or combination chips), which allow postpayment of transportation charges by credit, have become widespread, and these smart cards are becoming more popular in the form of mobile phones rather than plastic cards. have.

In order to perform smart card function in a contactless manner by embedding a smart card in a mobile phone, a loop antenna (induction coil) for generating RF power to a predetermined position such as a main body of a mobile phone or a battery and performing RF communication with an interface device is provided. Should be built in.

3 is a schematic plan view of a conventional structure in which a loop antenna is incorporated into a mobile phone, and FIG. 4 is a schematic sectional view of a conventional structure in which a loop antenna is embedded in a mobile phone.

As shown in the related art, a mobile phone device application of a loop antenna for a smart card includes applying an electromagnetic wave absorber 110 (eg, a ferra art absorber) to the battery 100 so as to block electromagnetic waves from the battery 100. After coating and bonding the double-sided adhesive 120 to the electromagnetic wave absorber 110 again, the flexible circuit board 130 to which the loop antenna is applied is attached to the double-sided adhesive 120. The loop antenna is formed by nicking the thin film copper plate 131 of the flexible circuit board 130 in a loop (coil) shape. In FIG. 3, reference numeral 132 denotes a terminal connected to a terminal of the battery 100 for connection with a smart card chip.

However, the conventional loop antenna forming structure applied to the mobile phone as described above, the step of bonding the double-sided adhesive 120 to the electromagnetic wave absorber 110 (ferrite) attached to the battery 100, the flexible to the double-sided adhesive 120 Since the structure requires a complicated and complicated process, such as the process of joining the circuit board 130 and the process of forming the loop antenna of the thin film copper plate 131 through the nicking process of the flexible circuit board 130, the productivity is improved. There is a problem falling.

The object of the present invention is to solve the problem of the loop antenna forming structure of the smart card of the mobile phone, which has been previously applied, and to simplify the application process in applying the loop antenna to the mobile phone. This is to reduce the manufacturing cost and increase the productivity.

1 is a schematic plan view of a loop antenna forming structure for a smart card of a mobile phone according to the present invention;

2 is a schematic plan view of a loop antenna forming structure for a smart card of a mobile phone according to the present invention;

3 is a schematic plan view of a conventional structure in which a loop antenna is incorporated into a mobile telephone;

4 is a schematic cross-sectional view of a conventional structure in which a loop antenna is incorporated into a mobile telephone.

<Description of Symbols for Main Parts of Drawings>

1: phone battery

10: electromagnetic wave absorber layer

20: copper wire

21: copper wire

22: enamel

23: terminal

According to the present invention, there is provided a structure for forming a loop antenna for a smart card in a mobile phone.

The smart card loop antenna forming structure of the mobile phone according to the present invention includes an electromagnetic wave absorber layer coated on the mobile phone, and copper wires forming several loops directly applied to the electromagnetic wave absorber layer.

According to a feature of the present invention, the copper wire is joined to the electromagnetic wave absorber layer by fusion of at least one of the enamel covering the copper wire and the electromagnetic wave absorber layer.

Hereinafter, with reference to the accompanying drawings will be described in detail the loop antenna forming structure for the smart card of the mobile phone according to the present invention. The following embodiments are merely illustrative of the loop antenna formation structure according to the present invention, and are not intended to limit the scope of the present invention.

1 is a schematic plan view of a loop antenna forming structure of a mobile phone according to the present invention, and FIG. 2 is a schematic plan view of a loop antenna forming structure of a mobile phone according to the present invention.

As shown, the loop antenna forming structure of the mobile phone according to the present invention is directly applied to the electromagnetic wave absorber layer 10 and the electromagnetic wave absorber layer 10 coated on the battery 1 of the mobile phone, preferably the mobile phone. Consists of copper wire 20.

That is, according to the present invention, the loop antenna may use the electromagnetic wave absorber layer 10, such as ferrite, for the copper wire 20 having several loops formed according to the antenna characteristics of the loop antenna without using a double-sided adhesive or a flexible circuit board as in the prior art. It is characterized by applying directly to).

As is widely known, the copper wire 20 has a structure in which the enamel 22 is coated around the copper wire 21 to prevent electrical shorts. The loop antenna formation structure of the present invention forms a loop with a copper wire 20 to form a loop antenna, and attaches the copper wire 20 to the electromagnetic wave absorber layer 10 of the battery 1 separately for this purpose. The enamel 22 coated around the copper wire 21 of the copper wire 20 is melted and fused to the electromagnetic wave absorber layer 10, or the electromagnetic wave absorber layer 10 is constituted without employing the material or the structure of the copper wire 20. The components (eg, ferrite) are melted to fuse the copper wire 20, or both are melted to fuse each other.

In FIG. 2, for convenience of explanation, the enamel 22 is melted and the copper wire wire 20 is fused to the electromagnetic wave absorber layer 10. The electromagnetic wave absorber layer 10 is melted on the right side. ) Is shown at the same time on the left side.

In Fig. 1, reference numeral 23 denotes a terminal connected to a terminal of the battery 1 for connection with a smart card chip built in a main body of a cellular phone.

In this way, the loop antenna made of the copper wire wire 20 of the loop is fused to the enamel 22 or the electromagnetic wave absorber layer 10 of the copper wire 20 to be mutually attached to the loop antenna to the mobile phone (battery: 1). As a result, the process of bonding the double-sided adhesive to the electromagnetic wave absorber as in the prior art, the process of bonding the flexible circuit board to the double-sided adhesive, and the process of forming a loop antenna of the thin film copper plate through the nicking of the flexible circuit board And tricky processes can be ruled out.

In the above description of the present invention, the loop antenna is described as an example in which the battery is mounted, but the present invention may be applied as it is when the loop antenna is mounted on the main body of the mobile phone instead of the battery.

According to the smart card loop antenna formation structure of the mobile phone according to the present invention described above, the step of bonding the double-sided adhesive to the electromagnetic wave absorber, the step of bonding the flexible circuit board to the double-sided adhesive, and the nickname of the flexible circuit board Since complicated and difficult processes such as the process of forming a loop antenna of a thin film copper plate can be eliminated, the application of smart antenna loop antenna to a mobile phone is greatly simplified, thereby reducing manufacturing cost and increasing productivity. Can be.

Claims (2)

An electromagnetic wave absorber layer (10) coated on the cellular phone to block electromagnetic waves, and a plurality of loops formed to form a loop antenna for a smart card to be bonded to the electromagnetic wave absorber layer (10); The copper wire 20 is bonded to the electromagnetic wave absorber layer 10 by fusion of at least one of the enamel 22 covering the copper wire 21 and the electromagnetic wave absorber layer 10. Loop antenna forming structure for smart card of mobile phone. 2. The electromagnetic wave absorber layer (10) and the copper wire (20) are applied to the battery (1) of the mobile phone so that the loop antenna is formed in the battery (1) of the mobile phone. A loop antenna forming structure for a smart card of a mobile phone.