KR200357682Y1 - RF Loop Antenna for Smart Chip in Cellular Phone - Google Patents

Abstract

The present invention relates to an RF loop antenna for a smart chip of a mobile phone mounted to use the contactless function of the smart chip in a mobile phone having a smart card function. The RF loop antenna 1 for the smart chip of the mobile phone according to the present invention is an RF loop antenna in which conductor wires are wired in a loop pattern, and the conductor wire 10 is formed of a double wire arranged in parallel at regular intervals instead of a single wire. The conductor wires 10A and 10B are wired in a pair to form a parallel loop pattern.

Description

RF Loop Antenna for Smart Chip in Cellular Phone

(Technology)

The present invention relates to an RF loop antenna, and more particularly, to an RF loop antenna for a smart chip of a mobile phone mounted to use a contactless function of the smart chip in a mobile phone having a smart card function.

(Background)

A smart chip is an IC chip equipped with a microprocessor, an operating system, a security module, a memory, etc., and has a storage function, arithmetic function, and security function, and records information and royalties in many fields such as finance, communication, education, administration, and transportation. It is widely used as a means of management, identity verification (eg membership card), electronic money (eg transportation card), credit card, electronic bank account.

Smart chips can be classified in various ways according to their classification criteria, but they can be classified into contact-chip (card), contactless-chip (card), and combined-chip (card) according to the way the data of smart chip is read. .

A contact smart chip refers to a form in which a smart chip is activated by contacting a smart chip contact with a contact of an interface device. A non-contact smart chip is the same as that of a contact type and a memory element required for an information processing function, but to drive a smart chip. It is a type of card that uses power induction through RF loop antenna and uses electromagnetic induction method for communication with interface device. Combined smart chip is a smart chip that supports both contact and contactless functions. Is a smart chip configured to share parts where contact / contactless can be shared in one chip.

As mobile communication terminals (especially mobile phones) and smart chips are used more and more, and mobile terminals become necessities of life, smart chips are installed in mobile communication terminals rather than traditional plastic cards such as transportation cards and credit cards. It came to be used to form.

Examples of applying a smart chip to a mobile communication terminal include: a mobile phone equipped with a non-contact smart chip and an RF loop antenna in a mobile phone to make a payment in advance; A mobile phone equipped with a combination chip and an RF loop antenna mounted on a mobile phone, and equipped with an electronic passbook function on a contact chip and a prepaid traffic card function on a contactless chip; Combi-chip and RF loop antenna are installed in the mobile purifier to install the credit card function on the contact-chip and the traffic card function on the non-contact chip, so that the transportation fee by the credit card can be paid by credit card credit. Cell phones;

In order to be able to perform various contactless smart card functions through a smart phone-applied mobile phone, there must be an RF loop antenna that generates induced electromotive force so that RF communication with the interface device is realized.

The RF loop antenna, which is applied to implement the contactless function of the smart chip, is basically an annular RF loop antenna that executes 13.56 MHz RF communication, and is embedded in an appropriate position of the main body of the mobile phone or the battery.

4 is a schematic plan view of an exemplary conventional RF loop antenna pattern structure applied to a battery of a cellular phone. As shown, an electromagnetic wave absorber 110 (eg, a ferra art-based electromagnetic wave absorber) that absorbs electromagnetic waves is coated on one surface of the battery 100, and the flexible circuit board 120 is attached to the electromagnetic wave absorber 110, and a flexible circuit. The RF loop antenna 130 is formed on the substrate 120 by winding a plurality of copper wire wires in a loop shape. The RF loop antenna 130 is provided with a terminal 131 for electrical connection with the smart chip.

As smart chips and RF loop antennas are built into mobile phones as basic specifications, RF loop antenna performance and manufacturing cost reduction are required in order to reduce the manufacturing cost of mobile phones. Therefore, manufacturing cost can be maintained while maintaining the same performance at least. There is a need for an RF loop antenna that can be lowered.

Although the industry aims to improve antenna performance and cost by improving parts such as electromagnetic wave absorbers applied to RF loop antennas, the reality is that there are limitations in reducing manufacturing costs while maintaining at least the same performance under the limited environment of a battery of a mobile phone. to be.

The purpose of the present invention is to improve the performance and cost reduction of the RF loop antenna applied to the mobile phone as described above, and can improve the performance of the RF loop antenna with little additional cost burden. It is to provide an RF loop antenna having a new loop pattern structure.

1 is a schematic plan view showing a parallel loop pattern of an exemplary RF loop antenna according to the present invention;

2 is a schematic plan view showing a parallel loop pattern of another exemplary RF loop antenna according to the present invention;

3 is a view showing an example of a wiring method of a conductor wire for realizing a parallel loop pattern of an RF loop antenna according to the present invention;

4 is a schematic plan view of an exemplary conventional RF loop antenna pattern structure applied to a battery of a cellular phone.

<Description of Symbols for Main Parts of Drawings>

1: RF loop antenna of the present invention

2: medium (substrate, etc.)

10, 10A, 10B: conductor wire

According to the present invention, there is provided an RF loop antenna for a smart chip of a mobile phone in which conductor wires are wired in a loop pattern.

The RF loop antenna according to the present invention is characterized in that a parallel loop pattern is formed by wiring a plurality of conductor wires arranged in parallel at regular intervals instead of a single wire.

Hereinafter, with reference to the accompanying drawings will be described in detail the RF loop antenna for the smart chip of the mobile phone according to the present invention. The following embodiments merely illustrate the RF loop antenna according to the present invention, but are not intended to limit the scope of the present invention.

1 is a schematic plan view showing a parallel loop pattern of an exemplary RF loop antenna according to the present invention, FIG. 2 is a schematic plan view showing a parallel loop pattern of another exemplary RF loop antenna according to the present invention, and FIG. It is a figure which shows the example of the wiring method of the conductor wire for implementing the parallel loop pattern of an RF loop antenna.

The RF loop antenna 1 according to the present invention is an RF loop antenna applied to a battery of a mobile phone for contactless use of a smart chip, and as described with reference to FIG. 4, a conventional RF loop antenna uses a single conductor wire. Unlike wired in a loop-shaped pattern, as shown in FIGS. 1 to 3, double-wire conductor wires 10A and 10B arranged in parallel form a parallel loop pattern to form a parallel loop pattern. The wiring is characterized in that.

That is, the RF loop antenna 1 according to the present invention includes a plurality of conductor wires 10, such as copper wires, in a ring (loop) shape on a predetermined medium 2, such as a flexible circuit board, to have characteristics as an RF loop antenna. In winding the wire once, instead of winding a single conductor wire 10 to form a loop, the conductor wires 10A and 10B of a double wire are wound as a group and the two conductor wires 10A and 10B are parallel (parallel). The conductor wire is wound in such a manner that a constant width W is formed between the two conductor wires 10A and 10B.

As the parallel loop pattern is formed of the double-wire conductor wires 10A and 10B, in the case of the conventional RF loop antenna to which the single-wire conductor wire is applied, in adjusting various parameters for determining antenna characteristics (eg, antenna resistance). It is difficult to improve the performance of the antenna in a space such as a limited battery because it only depends on adjusting the spacing between adjacent conductor wires and the conductor wires forming a ring.

However, according to the RF loop antenna of the present invention, in determining the characteristics of the antenna, it is possible to adjust the width Wa between the two conductor wires 10A and 10B itself, which form a pair, while the pair of conductor wires 10 and The spacing (Wb) between different sets of conductor wires 10 can also be adjusted, so that the excitation can improve the performance of the antenna.

For example, in forming an RF loop antenna for executing 13.56 MHz RF communication, an antenna having a resistance of 390 m ?? and a Q value of 0.9 can be realized using a conventional single-wire RF loop antenna. Since the parallel loop pattern RF loop antenna 1 according to the present invention can realize an antenna having a resistance of 180 m ?? and a Q value of 1.8, the antenna performance can be improved accordingly.

1 and 2 show examples of the RF loop antenna 1 with the width Wa and the spacing Wb adjusted differently.

In the RF loop antenna 1 according to the present invention as illustrated in Figs. 1 and 2, the arrangement of the conductor wires 10 in the medium 2, such as a substrate, although wiring in parallel double lines 3, the conductor wire 10 can be realized without breaking. At this time, one terminal 11B of the antenna 1 made inside the loop among the two antenna terminals 11A and 11B may be drawn out of the loop as shown in FIGS. 1 and 2 after the array is completed.

According to the RF loop antenna for the smart chip of the mobile phone according to the present invention described above, in the case of wiring the conductor wire in a loop pattern, by wiring in a parallel loop pattern of parallel double lines instead of a single wire, the battery of the mobile phone to which the smart chip is applied In the same limited space, there is an effect that can improve the performance of the RF loop antenna compared to the existing disconnection method.

Claims (1)

In an RF loop antenna for a smart chip of a mobile phone in which conductor wires are formed by wiring in a loop pattern, The conductor wire 10 is a RF loop antenna for a smart chip of a mobile phone, in which a plurality of conductor wires 10A and 10B of parallel wires arranged in parallel are arranged in parallel to form a parallel loop pattern instead of a single wire. .