KR101914422B1 - IC card with IC chip tuning function and method of transmitting/receiving signal - Google Patents

Abstract

The present invention relates to an IC card having an IC chip tuning function and a method for transmitting/receiving a signal thereof. The IC card having an IC chip tuning function comprises: an antenna mounting chip part arranging an IC chip on a base film, and allowing a first antenna arranged on the base film so as to be connected to the IC chip to transmit/receive a signal for the IC chip; a card main body in which the antenna mounting chip part is installed; and a second antenna arranged in the card main body so as to be tuned with the first antenna, amplifying and transmitting the signal transmitted from the first antenna or transmitting the received signal to the first antenna. According to the present invention, the IC chip and the antenna of the card main body are connected to be tuned without physical contact, thereby solving a problem according to a process for connecting the IC chip and the antenna. Also, the present invention contributes to productivity improvement and cost reduction and prevents degradation of quality and operation reliability due to contact failure. Especially, the card with a metal material significantly improves the problem of the process, the productivity and the cost, thereby largely contributing to distribution and gentrification of the metal card.

Description

TECHNICAL FIELD [0001] The present invention relates to an IC card having an IC chip tuning function and a signal transmitting /

The present invention relates to an IC card having an IC chip tuning function and a signal transmitting / receiving method thereof, more particularly, to an IC chip and an antenna of a card body without physical contact, thereby solving difficulties To an IC card having an IC chip tuning function that contributes to improvement in productivity and cost reduction, and a signal transmission / reception method therefor.

2. Description of the Related Art Generally, an IC card (Integrated Circuit Card) is an electronic card that can store a large amount of information by attaching a semiconductor memory storage element (IC memory) to a cash card or the like. The worm card is a type of IC card that implements the subscriber identity module. Therefore, in the present invention, it is assumed that the IC card includes a smart card and a card reader card using this concept.

The smart card is an electronic card with a surface mounted integrated circuit (IC) chip with an 8-bit or 32-bit microprocessor (MPU) and operating system (COS) with self-computation on the surface, and an EEPROM as a secure storage area. Which is used for personal identification, authentication, data storage, and so on. Such a smart card can be divided into a contact card, a contactless card, a hybrid card, and a combination card. The contact type card is a smart card that operates due to a physical contact between the smart card reader and the contact portion (CHIP) of the smart card. Although there is a possibility of electric shock or damage due to frequent contact of the contact point, It is suitable for applications such as transaction authentication and digital signature processing which process a large amount of data. The contactless card communicates with the smart card terminal through an antenna by means of a radio frequency signal. It is suitable for traffic, distribution, etc., which does not require physical contact between the card and the reader, and is subject to limited processing time. A hybrid card is a format in which a contact card and a contactless card are physically present in one card. It is inefficient to utilize hardware resources (independent memory) and software resources (a separate operating system exists) high. A Combi Card is a chemically coupled card that shares the parts that can be shared by the contact card and the contactless card and shares only one part of the card, The same key or password). However, if the shared memory area is damaged, both the contact card function and the contactless card function may be paralyzed, but it is considered to be the most efficient form to date.

When a non-contact type IC card is used, a module (module) capable of wireless communication and an antenna are built in the card. The IC card senses surrounding radio frequency (RF) signals to exchange data, As shown in FIG.

A related art IC card having a conventional antenna is disclosed in Korean Patent No. 10-1039594 entitled " Cardiac card device equipped with an antenna module ". This card is a USIM card device, An RFID antenna formed in a radial pattern of a loop type within a size of 10 mm x 25 mm at a predetermined position inside the card device; And a thin circuit board electrically connected to the RFID antenna and performing wireless communication using the RFID antenna, wherein a head of the RFID antenna is 10 mu m to 35 mu m, and the line width of the RFID antenna is an electric field Wherein the coil spring of the RFID antenna is formed in one of three to eight times in order to increase the inner diameter of the RFID antenna, Lt; RTI ID = 0.0 > 400 < / RTI >

However, such a conventional technique has a problem that it is difficult to electrically connect the circuit board and the RFID antenna in a thin card, thereby causing a decrease in productivity and an increase in cost. Particularly, in recent years, when a card is made of a metal material such as stainless steel due to a high-grade card, a groove for passing a line for electrical connection between a circuit board and an RFID antenna must be machined in a thin metal card. And it has a problem that not only the productivity is greatly lowered due to such grooving, but also the cost is increased so as to cause an economic burden on the consumer.

SUMMARY OF THE INVENTION In order to solve the problems of the prior art as described above, the present invention relates to an IC chip and an antenna of a card body which are connected to each other without physical contact, In particular, in the case of a metal-made card, it greatly contributes to the diffusion and upgrading of the metal card by greatly improving the problems of processing, productivity and cost. There is a purpose.

Other objects of the present invention will become readily apparent from the following description of the embodiments.

According to an aspect of the present invention, an IC chip is provided on a base film, and a first antenna provided on the base film to be connected to the IC chip transmits a signal to the IC chip An antenna mounted chip unit for transmitting and receiving data; A card body provided with the antenna mounting chip portion; And a second antenna provided on the card body to be tuned with the first antenna to amplify and transmit a signal transmitted from the first antenna or to transmit a signal received to the first antenna, An IC card having a tuning function is provided.

The card body may be made of a metal-made card.

Wherein the antenna mounting chip portion includes a plurality of main electrodes and a plurality of antenna electrodes electrically connected to the IC chip, the plurality of antenna electrodes being provided on the other surface of the base film, 1 antenna may be provided on the other surface of the base film so as to be electrically connected to the antenna electrode.

Wherein the antenna mounting chip portion includes vias formed in the base film so as to expose each of the main electrodes and the antenna electrodes around the IC chip and the IC chip is connected to the main electrode And may be connected to the antenna electrode.

The first and second antennas can cause the alternating current of electromagnetic waves to occur using the overlapping beam pattern.

The first and second antennas may be RF antennas.

The second antenna may be provided with a capacitor for amplifying the wavelength and extending the beam pattern distance.

According to another aspect of the present invention, there is provided a method for transmitting and receiving signals to and from an IC card, comprising: transmitting and receiving signals to and from the IC chip through a first antenna electrically connected to the IC chip; And amplifying and transmitting a signal transmitted from the first antenna by a second antenna provided to the card body to be tuned to the first antenna or transmitting a signal to the first antenna, There is provided a signal transmission / reception method of an IC card having an IC chip tuning function.

According to the IC card having the IC chip tuning function and the signal transmitting / receiving method thereof, since the IC chip and the antenna of the card main body are connected so as to be tuned without physical contact, difficulties in processing for connection can be solved In particular, in the case of a card made of a metal material, it is possible to greatly improve the problems of processing, productivity, and cost, It can greatly contribute to the diffusion and upgrading of cards.

1 is a plan view showing an IC card having an IC chip tuning function according to an embodiment of the present invention.
2 is a plan view showing an antenna mounting chip portion of an IC card having an IC chip tuning function according to an embodiment of the present invention.
3 is a bottom view showing an antenna mounting chip portion of an IC card having an IC chip tuning function according to an embodiment of the present invention
4 is a cross-sectional view taken along the line A-A 'in Fig.
5 is a cross-sectional view taken along the line B-B 'in Fig.
6 is a cross-sectional view showing a card body and a second antenna of an IC card having an IC chip tuning function according to an embodiment of the present invention.
7 is a flowchart illustrating a signal transmission / reception method of an IC card having an IC chip tuning function according to an embodiment of the present invention.

The present invention is capable of various modifications and various embodiments, and specific embodiments are illustrated and described in detail in the drawings. It is to be understood, however, that the invention is not to be limited to the specific embodiments, but is to be understood to cover all modifications, equivalents, and alternatives falling within the spirit and scope of the invention, And the scope of the present invention is not limited to the following examples.

Hereinafter, embodiments according to the present invention will be described in detail with reference to the accompanying drawings, wherein like or corresponding elements are denoted by the same reference numerals, and redundant explanations thereof will be omitted.

1 is a plan view showing an IC card having an IC chip tuning function according to an embodiment of the present invention.

1, an IC card 10 having an IC chip tuning function according to an embodiment of the present invention may include an antenna mounted chip unit 100, a card body 200, and a second antenna 300 . In addition, the IC card 10 having the IC chip tuning function according to an embodiment of the present invention has been described above as including a smart card and a card reader.

2 to 5, an antenna mounting chip unit 100 includes an IC chip 120 provided on a base film 110, a first antenna 120 provided on a base film 110 to be connected to an IC chip 120, (150) transmits and receives signals to and from the IC chip (120).

The antenna mounted chip unit 100 may include an IC chip 120 on one side of the base film 110 and a plurality of main electrodes 130 electrically connected to the IC chip 120 and a plurality of antenna electrodes 140 may be provided on the other surface of the base film 110 and may be provided on the other surface of the base film 110 so that the first antenna 150 is electrically connected to the antenna electrode 140. Here, the main electrode 130, the antenna electrode 140, and the first antenna 150 may be formed of copper or the like and may be formed by various methods such as etching. The exposed surface of the main electrode 130, the antenna electrode 140, 131, 141 and 151, respectively. In addition, the first antenna 150 may be formed by forming metal patterns in a square or circular shape on a microstrip substrate, and then feeding them in various shapes. The first antenna 150 may be formed by a small size, light weight, various pattern combinations, And can be applied to various RF applications.

The antenna mounted chip unit 100 can form the vias 111 to expose the main electrodes 130 and the antenna electrodes 140 around the IC chip 120 in the base film 110, The first electrode 120 may be connected to the main electrode 130 and the antenna electrode 140 through the vias 111 by wire 160 bonding. Accordingly, the IC chip 120 can transmit and receive data stored through the main electrode 130, and transmit / receive data as a signal by the operation of the first antenna 150 through the antenna electrode 140 have. Here, the vias 111 may be formed by, for example, punching, but are not limited thereto, and may be formed by various methods as required. A coating layer 112 of gold foil may be formed on the bottom surface of the via 111, that is, the main electrode 130 and the antenna electrode 140 exposed by the vias 111 in order to increase the reliability of protection and electrical connection. have.

The antenna mounting chip unit 100 may be configured such that a cover portion 170 made of an epoxy molding compound (EMC) or the like is formed on the IC chip 120 for protecting the IC chip 120, the vias 111, 120, the vias 111, and the wires 160.

The card body 200 is provided with an antenna-mounted chip unit 100. For example, an opening 210 may be formed to provide an installation space for the antenna-mounted chip unit 100. [ The card body 200 may have a standard corresponding to, for example, a generally used credit card or a traffic card, but the present invention is not limited thereto. In this case, the second antenna 300, which will be described later, is connected to be tuned to the first antenna 150 of the antenna-mounted chip unit 100, It is possible to prevent the difficulty in machining for the physical connection between the antennas and the decrease in the productivity.

1, 2, and 6, the second antenna 300 is provided on the card body 200 so as to be synchronized with the first antenna 150, thereby amplifying a signal transmitted from the first antenna 150 And transmits the transmitted or received signal to the first antenna 150. Therefore, only the first antenna 150 performs communication with a very small distance, and the second antenna 300 extends the communication distance.

The first and second antennas 150 and 300 may use alternating beam patterns to cause alternating electromagnetic waves. For example, the first and second antennas 150 and 300 may be RF antennas.

The second antenna 300 may include an antenna pattern 310 designed to be tuned to the first antenna 150 and a capacitor 320 provided to amplify the wavelength and amplify the beam pattern in the antenna pattern 310. have.

The second antenna 300 may be provided on the card body 200 by etching or printing or engraving and may be provided on the first panel 220 in the card body 200, An insulation sheet 330 for insulation may be provided between the second antenna 300 and the first panel 220 and a second panel 230 may be provided between the second antenna 300 and the first panel 220. [ So that it is not exposed to the outside.

7 is a flowchart illustrating a signal transmission / reception method of an IC card having an IC chip tuning function according to an embodiment of the present invention.

Referring to FIG. 7, a signal transmission / reception method of an IC card having an IC chip tuning function according to an embodiment of the present invention includes transmitting and receiving signals of an IC card 10 having an IC chip tuning function according to an embodiment of the present invention First, a signal to and from the IC chip 120 is transmitted and received through the first antenna 150 electrically connected to the IC chip 120 (S11 ).

A signal transmitted from the first antenna 150 is amplified and transmitted by the second antenna 300 provided in the card body 200 so as to be tuned to the first antenna 150, (S12). Therefore, when the IC card 10 uses the non-contact type, the IC chip 120 detects RF (radio frequency) signals in the vicinity by the first and second antennas 150 and 300 tuned to each other, And communicate with an input device, a reader, or the like.

The first antenna 150 gives an appropriate L-C value to the end of the first antenna 150 to resonate at a specific frequency, so that the data of the IC chip 120 is not returned as a signal but energy of a certain magnetic field is formed and radiated to the outside. The first antenna 150 is a passive element, and when power is applied to the input unit, it is applied to the outside in the form of an electromagnetic field, and at the same time, a change in the electromagnetic field existing in the outside is detected. That is, when a signal to be transmitted to the outside is transmitted, the first antenna 150 is radiated in the air. Since the first antenna 150 itself is passive, it can not transmit a signal larger than the input signal. At this time, if the capacitance of the capacitor provided in the IC chip 120 is large or the capacitance is large due to the capacitor provided on the base film 110 or the card body 200, As another example, in the case where the capacitor 320 is attached to the second antenna 300, the beam pattern is amplified by the capacitor 320 to increase the signal intensity of the signal. External transmission can be made possible.

As described above, according to the present invention, the antenna electrode 140 corresponding to the contact point of the first antenna 150 is formed on the entire surface of the base film 110 to connect the first antenna 150 to the antenna electrode 140, And the antenna electrode 140 is connected to the IC chip 120. The second antenna 300 of the COB package is configured to transmit and receive signals generated by the IC chip 120 without connecting the second antenna 300 provided on the card body 200 to the IC chip 120. [ The second antenna 300 is designed such that the beam pattern region of the first antenna 150 in the inlay is shared with the beam pattern region of the inlay and is charged by the magnetic field formed by the attachment of the capacitor 320 to be used .

Therefore, according to the IC card having the IC chip tuning function according to the present invention and the signal transmitting / receiving method thereof, since the IC chip and the antenna of the card body are connected so as to be tuned without physical contact, It is possible to contribute to productivity improvement and cost reduction, and it is possible to prevent degradation of quality and operation reliability due to contact failure.

Further, according to the present invention, when the IC card is a metal card, the problem of processing, productivity, and cost can be greatly improved, contributing greatly to the diffusion and upgrading of the metal card.

Although the present invention has been described with reference to the accompanying drawings, it is to be understood that various changes and modifications may be made without departing from the spirit and scope of the present invention. Therefore, the scope of the present invention should not be limited to the described embodiments, but should be determined by the scope of the appended claims and equivalents thereof.

100: antenna mounting chip 110: base film
111: Via 112: Coating layer
120: IC chip 130: main electrode
131: Coating layer 140: Antenna electrode
141: Coating layer 150: First antenna
151: Coating layer 160: Wire
170: cover part 200: card body
210: aperture 220: first panel
230: second panel 300: second antenna
310: antenna pattern 320: capacitor
330: Insulation sheet

Claims (8)

An antenna mounting chip unit for mounting an IC chip on a base film and transmitting and receiving signals to and from the IC chip by a first antenna provided on the base film so as to be connected to the IC chip;
A card body provided with the antenna mounting chip portion; And
A second antenna provided on the card body to be tuned with the first antenna to amplify and transmit a signal transmitted from the first antenna or to transmit a signal to the first antenna;
Lt; / RTI >
The antenna mounting chip unit includes:
A plurality of main electrodes and a plurality of antenna electrodes electrically connected to the IC chip are provided on the other surface of the base film, and the first antenna is electrically connected to the antenna electrode, On the other surface of the base film,
The antenna mounting chip unit includes:
A via hole is formed in the base film so as to expose each of the main electrodes and the antenna electrodes around the IC chip so that the IC chip is connected to the main electrode and the antenna electrode by wire bonding through the via and,
The second antenna includes:
An IC card having an IC chip tuning function, wherein a capacitor is provided for wavelength amplification and beam pattern distance extension. The method according to claim 1,
The card-
An IC card having an IC chip tuning function, made of a metal material. delete delete The method according to claim 1,
Wherein the first and second antennas comprise:
An IC card having an IC chip tuning function for causing alternating electromagnetic waves to occur using a redundant beam pattern. The method according to claim 1,
Wherein the first and second antennas comprise:
An IC card comprising an RF antenna and having an IC chip tuning function. delete delete

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