KR101075090B1 - IC Card with Multi-Point of Contact - Google Patents

Abstract

The present invention provides an IC card having a predetermined integrated circuit (IC) chip, comprising: a first contact point electrically connected to a C1 contact point of the IC chip, and a second contact point electrically connected to a C8 contact point of the IC chip; And a third contact point electrically connected to the C4 contact point of the IC chip and a fourth contact point electrically connected to the C5 contact point of the IC chip, wherein the contact points are provided on the card surface to be electrically insulated. It is directed to an IC card for direct USB connection. Thereby, the first contact point and / or the second contact point provided in the IC card without using a predetermined card reader for connecting at least one contact point with a chip on board (COB) of the IC card, and And / or a terminal (for example, a personal computer (PC), etc.) that connects a third contact point and / or a fourth contact point to an electrical contact point with a USB (Universal Serial Bus) to provide a USB interface. There is an advantage of providing information or data input and output.

IC card, contact point

Description

IC Card with Multi-Point of Contact             

1 is a diagram showing a preferred functional configuration of an IC card having an interface contact for USB according to the present invention.

Fig. 2 is a diagram showing the functional configuration of an IC card having a USB interface contact according to an embodiment of the present invention.

3 is a diagram showing the functional configuration of an IC card having an interface contact for USB according to another embodiment of the present invention.

4 is a diagram illustrating a USB contact point provided on one surface of an IC card according to an embodiment of the present invention.

5 is a diagram illustrating a USB contact point provided on both sides of the IC card according to another embodiment of the present invention.

Figure 6 is a diagram illustrating a USB contact point provided on both sides of the IC card according to another embodiment of the present invention.

FIG. 7 illustrates a USB contact point interfaced directly with a B plug of a USB device according to another embodiment of the present invention.

<Description of main parts of drawing>

100: IC card 105: IC chip

110: memory section 115: processor section

120: input and output interface 125: COB

130: first contact point 135: second contact point

140: third contact point 145: fourth contact point

150: USB 200: power supply

205: switch unit 300: clock unit

700: B plug

According to the present invention, a first contact point electrically connected to a C1 contact point of the IC card, a second contact point electrically connected to a C8 contact point, and a C4 contact point, in addition to a COB connecting an electrical contact point between the IC card and the card reader The third contact point, the fourth contact point, and the like, which are electrically connected to the C5 contact point, are electrically insulated and provided on the card surface, thereby providing the IC card with predetermined information or data to the IC chip via USB.

USB uses Intel, Microsoft, and DEC (US) for the purpose of sharing the interface for connecting different types of peripherals (such as keyboards, mice, printers, modems, speakers, etc.) to personal computers. It is a serial universal bus proposed by Digital Equipment Corporation (IBM), International Business Machine (IBM) and Compaq, Nortel of Canada, and Nippon Electric Company (NEC) of Japan. General purpose features include the ability to connect up to 127 personal computers.

The IC card is a 0.76mm thick card with a predetermined IC chip that can store and compute various digital information by embedding the central processing unit and various memory elements. Refer to the ISO / IEC 7816 standard. ID-00 of 86.6 * 54 (mm) or ID-00 of 66 * 33 (mm) or ID-000 of 25 * 15 (mm), and the like. Processors (e.g., Central Processing Unit (CPU) / Micro Processing Unit (MPU), and / or coprocessors for cryptographic operations) and memory (e.g., Read Only Memory (ROM), Random Access Memory (RAM), EEPROM (Electrically Erasable and Programmable Read Only Memory) and at least one bus (BUS) that connects the processor and the memory, etc., and functions as a small computer without a Human Interface Device (HID).

In order to input / output predetermined information or data from the personal computer (e.g., desktop computer and / or notebook and / or pocket PC and / or Macintosh) to the IC card based on ISO / IEC 7816 standard A card reader which connects an electrical contact with a COB of an IC card and performs a predetermined IC card operation procedure through the COB should be provided. This has a problem of increasing the manufacturing cost of the personal computer, and a card reader is not provided. In the case of a non-personal computer, it is inconvenient for the user to purchase a separate card reader. Of course, in order to alleviate the inconvenience, the IC card issuer distributes a predetermined card reader to the user for free, but the card reader for distribution is optimized to use the IC card issued by the card issuer. Therefore, there is a problem in versatility, and in order to use IC cards issued by different card issuers, there is a problem in that different card readers must be connected.

An object of the present invention to solve the above problems is derived to solve the problems of the IC card as described above, in addition to the COB according to the standard of ISO / IEC 7816, universally connecting peripheral devices of different standards An IC card having at least one or more contact points for directly inputting and outputting predetermined information or data to an IC chip provided in the IC card via USB.

In order to achieve the above object, the present invention provides an IC card having a predetermined IC chip, the first contact point being electrically connected to the C1 contact point of the IC chip, and the C8 contact point of the IC chip. And a second contact point, a third contact point electrically connected to the C4 contact point of the IC chip, and a fourth contact point electrically connected to the C5 contact point of the IC chip, wherein the contact points are electrically insulated. It is characterized in that provided on the card surface.

According to a preferred embodiment of the present invention, it is preferable that the first contact point provided on the IC card is electrically connected to the first pin of the USB or “VBUS”. Preferably, the third contact point is electrically connected to the second pin or “D-“, and the third contact point is electrically connected to the third pin or “D +” of the USB, and the fourth contact point is the fourth of the USB. It is preferable to be electrically connected to the fifth or fifth pin or "GND".

According to a preferred embodiment of the present invention, the first contact point and / or the second contact point and / or the third contact point and / or the fourth contact point provided in the IC card may be provided on one side and / or both sides of the card. desirable.

Further, in the case where the first contact point and / or the second contact point and / or the third contact point and / or the fourth contact point are provided on both sides of the card, even if the USB is interfaced through any one surface of the IC card, the interface It is possible to include the four contact points to make a, or to provide the four contact points separately on both sides of the card.

According to a preferred embodiment of the present invention, when the first contact point is electrically connected to the C1 contact point of the IC chip, the voltage of the power supplied through the first contact point is dropped out to a voltage that can be applied from the IC chip. It is preferable to further comprise a predetermined power supply unit to drop out.

According to a preferred embodiment of the present invention, the IC card preferably further comprises a predetermined clock portion for oscillating and applying a predetermined clock frequency to the C3 contact of the IC chip.

According to a preferred embodiment of the present invention, the second contact point and / or the third contact point further comprises a switch unit for electrically connecting with the C2 contact of the IC chip to apply a reset signal for initialization of the IC chip. And / or the second contact point and / or the third contact point further comprises a switch part electrically connected to the C3 contact point of the IC chip to apply a predetermined clock frequency to the IC chip. It is preferable.

According to a preferred embodiment of the present invention, the power supply unit determines whether a predetermined power is applied to the IC chip, and when the predetermined power is applied to the IC chip, the power supplied from the USB is determined. It is preferable to block the application to the C1 of the IC chip, and / or to block the switch unit from applying the reset signal to the C2 contact of the IC chip, and / or the switch unit or the clock unit to the IC It is desirable to block the application of a predetermined clock frequency to the C3 contact of the chip.

Hereinafter, with reference to the accompanying drawings and description will be described in detail the operating principle of the preferred embodiment of the present invention. However, the drawings and the following description shown below are for the preferred method among various methods for effectively explaining the features of the present invention, the present invention is not limited only to the drawings and description below. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear. In addition, terms to be described below are terms defined in consideration of functions in the present invention, which may vary according to a user's or operator's intention or custom. Therefore, the definition should be based on the contents throughout the present title.

It is to be understood that both the foregoing general description and the following detailed description of the present invention are exemplary and explanatory and are intended to provide further explanation of the invention as claimed. The configuration is omitted as much as possible, and a functional configuration that should be additionally provided for the present invention is mainly described. If those skilled in the art to which the present invention pertains, it will be able to easily understand the function of the components that are conventionally used among the omitted functional configuration not shown below, and also the configuration omitted as described above The relationship between the elements and the components added for the present invention will also be clearly understood.

In addition, the preferred embodiment of the present invention will be described below based on a contact IC card conforming to the ISO / IEC 7816 standard in order to efficiently describe the technical components constituting the present invention, in the technical field to which the present invention belongs Those skilled in the art will be able to easily understand an IC card having a contact point connected to a USB in a contactless IC card conforming to the ISO / IEC 14443 standard based on the functional configuration described in this embodiment. That is, the technical idea of the present invention is not limited to the case of a contact IC card, and a hybrid card and / or a contactless IC card conforming to the ISO / IEC 14443 standard and / or a separate contact IC chip and a contactless IC chip are provided. It will be obvious that the IC chip can be applied to a combination card such as contact and contactless sharing.

1 is a view showing a preferred functional configuration of the IC card 100 having an interface contact for USB according to the present invention.

In more detail, Figure 1 shows a contact IC card 100 conforming to the ISO / IEC 7816 standard, which is connected to the C4 and / or C8 contacts of the IC chip 105 through a USB port of a terminal (for example, a personal computer). Fig. 1 is a diagram briefly showing a preferred functional configuration of the IC card 100 equipped with a USB interface for directly inputting / outputting predetermined information or data.

Referring to the ISO / IEC 7816 standard, the IC chip 105 included in the IC card 100 includes a power supply C1, a reset signal C2, a clock signal C3, a ground C5, a programming power supply ( C6), and / or an input / output interface 120 for communicating with the card terminal device (eg, exchanging commands or data) through at least one or more contact points such as an input / output C7, and the like. (Eg, C1, ..., C8) are connected to each contact point provided in the COB 125 through a predetermined process including wire bonding.

In addition, the IC chip 105 may include a processor unit 115 including at least one computing element including a CPU, an MPU, and / or a coprocessor, and at least one including ROM, RAM, EEPROM, FM, and the like. The memory unit 110 is formed of a memory device. In particular, at least one memory device (eg, a ROM) of the memory devices stores a chip operating system (COS) that manages and operates an IC card internal resource. When a predetermined power is supplied from a card terminal device through a power supply (VCC) contact point of the input / output interface 120, the COS stored in the memory unit 110 is loaded into a predetermined execution memory to load the IC chip 105. ) And through the application protocol data unit (APDU) based on the clock frequency (eg, 3.57 MHz or 4.9 MHz) of the clock signal CLK contact point. 05) Control information or data exchange between the card terminal device and the card terminal device.

Referring to FIG. 1, the C1 contact of the input / output interface 120 is electrically connected to the first contact point 130 forming a contact with the “VBUS” of the USB 150, and the IC card 100 is connected to a predetermined USB. When 150 is interfaced, the predetermined power required to operate the IC chip 105 from the USB 150 is applied through the “VBUS”.

In addition, the C4 contact point of the input / output interface 120 is electrically connected to the third contact point 140 that makes contact with the “D +” of the USB 150, and the IC card 100 and the predetermined USB 150 are connected to each other. When interfacing, it is characterized in that the predetermined information or data input and output to and from the USB 150 through the "D +".

In addition, the C5 contact of the input / output interface 120 is electrically connected to the fourth contact point 145 forming a contact with the “GND” of the USB 150, and the IC card 100 and the predetermined USB 150 are connected to each other. In case of interfacing, a predetermined ground power required for operating the IC chip 105 is applied through the “GND”.

In addition, the C8 contact of the input / output interface 120 is electrically connected to the second contact point 135 forming a contact with the “D-” of the USB 150, and the IC card 100 and the predetermined USB 150. In the case of interfacing, it is characterized in that the input and output the predetermined information or data with the USB 150 through the "D-".

2 is a diagram showing the functional configuration of the IC card 100 having an interface contact for USB according to an embodiment of the present invention.

In more detail, in FIG. 2, in the IC card 100, which briefly illustrates the technical configuration of the present invention as shown in FIG. 1, the contact point of the input / output interface 120 of the IC chip 105 and the The functional configuration between the first contact point 130 and / or the second contact point 135 and / or the third contact point 140 and / or the fourth contact point 145 provided in the IC card 100 is shown in detail. In this case, a predetermined power supply unit 200 and a switch unit 205 are added between the input / output interface 120 and the contact point of the IC chip 105.

The power applied through the USB 150 is DC 5V. The operating voltage of the IC chip 105 defined in ISO / IEC 7816-3 is 5V Class A according to the semiconductor production process and design. And Class B for 3V, the power supply unit 200 of FIG. 2 operates the voltage of the power applied from the USB 150 through the first contact point 130 to operate the IC chip 105. It is characterized by adjusting the voltage.

According to a preferred embodiment of the present invention, when the operating voltage of the operation of the IC chip 105 based on the data sheet of the IC chip 105 in the IC card manufacturing process is 5V, the And a predetermined regulator for dropping out the voltage applied from the USB 150 to 3V. When the operating voltage of the operation of the IC chip 105 is 5V, the power supply unit 200 Dropping out the voltage applied from the USB 150 is preferably omitted.

In addition, the power supply unit 200 detects a difference signal for a circuit connected to the C1 contact of the IC chip 105 to determine whether a predetermined power is applied to the C1 contact of the IC chip 105. It is preferable that a function (= circuit) is provided, and if there is a power applied to the IC chip 105 in addition to the power supply unit 200, the IC chip 105 is provided with a predetermined operating power supply through the COB 125. In this case, the power supply unit 200 blocks the application of the power supplied from the “VBUS” of the USB 150 to the C1 in order to prevent the IC chip 105 from malfunctioning. It is preferable to block a predetermined reset signal and / or clock frequency and / or data input / output from being applied to the IC chip 105 through the switch unit 205.

Referring to the IC card operating procedure of ISO / IEC 7816, in order to operate the IC card 100, the IC chip 105 is operated with a 3 / 5V operating power applied to the C1 contact of the IC chip 105. The operation of the IC chip 105 is started by applying a predetermined reset signal to the C2 contact and applying a predetermined clock frequency to the C3 contact. In particular, the clock frequency is specified by the initial frequency of the Answer To Response (ATR) process and the subsequent frequency, wherein the duty cycle of the clock frequency for asynchronous operation must be between 40% and 50% of the stable operating time The waveform of must not be shorter than 45% of the pulse duration.

In FIG. 2, the switch unit 205 is the second contact point 135 or the third contact point 140 based on the power supplied through the power supply unit 200 according to the operation procedure of the IC card 100 as described above. The reset signal is applied to the C2 contact point of the IC chip 105 using the pulse signal applied through the switching signal, and is switched to generate and apply a predetermined clock frequency to the C3 contact point.

2A illustrates a reset signal to the C2 contact point based on the “D-” pulse signal of the USB 150 applied through the power supply unit 200 and the second contact point 135. FIG. 2 illustrates an implementation method of applying a clock frequency to the C3 contact point, and FIG. 2B illustrates a power supply supplied through the power supply unit 200 and a USB 150 applied through the third contact point 140. Shows a method of applying a reset signal to the C2 contact and a clock frequency to the C3 contact based on the “D +” pulse signal of FIG. 2, and FIG. 2 (c) is supplied through the power supply unit 200. The reset signal is applied to the C2 contact point based on the power and the “D-” pulse signal of the USB 150 applied through the second contact point 135 and the USB applied through the third contact point 140 ( Clock to the C3 contact based on the “D +” pulse signal of 150). FIG. 2D illustrates a method of applying a wave number, and (D) of FIG. 2 illustrates a power supply supplied through the power supply unit 200 and a “D + pulse signal of the USB 150 applied through the third contact point 140. A method of applying a reset signal to the C3 contact point based on a reset signal applied to the C2 contact point and a “D-” pulse signal of the USB 150 applied through the second contact point 135 is shown. will be.

When the predetermined reset signal is applied to the C2 contact point and the predetermined clock frequency is stably applied to the C3 contact point through the above-described method, the switch unit 205 “D-” and the second contact point 135 of FIG. And / or input / output predetermined information or data to the IC chip 105 through the “D +” of the third contact point 140.

3 is a diagram showing the functional configuration of the IC card 100 having a USB interface contact according to another embodiment of the present invention.

In more detail, in FIG. 3, in the IC card 100 shown in FIG. 2, the switch unit 205 may set a predetermined clock frequency through “D−” and / or “D +” of the USB 150. FIG. This is a case where a predetermined clock unit 300 is provided which generates and generates a predetermined clock applied to the IC chip 105 without generating.

Referring to FIG. 3, the clock unit 300 generates and amplifies a predetermined noise by using the power supplied from the power supply unit 200 and applies a clock frequency defined to be applied to the IC chip 105. For example, 3.57MHz or 4.9MHz) may be generated and applied to the IC chip 105.

Referring to FIGS. 2 through 3 according to a preferred embodiment of the present invention, the power supply unit 200, the switch unit 205, and the clock unit 300 include the IC chip 105 in the IC card 100. ) Is provided between the input / output interface 120 and the first contact point 130 and / or the second contact point 135 and / or the third contact point 140. According to another embodiment, the power supply unit ( 200, the switch unit 205, and the clock unit 300 are connected to the first contact point 130 and / or the second contact point 135 and / or the third contact point 140 and the outside of the IC card 100. And / or may be provided in a predetermined USB interface device connecting the fourth contact point 145 and the USB 150 (not shown).

4 is a view illustrating a USB contact point provided on one surface of the IC card 100 according to an embodiment of the present invention.

More specifically, FIG. 4 illustrates a USB device including a first contact point 130 and / or a second contact point 135 and / or a third contact point 140 and / or a fourth contact point 145 that are electrically insulated from each other. The case where the contact point is provided on one surface of the IC card 100 having the technical configuration as shown in FIG.

The USB point of contact may vary depending on the intention of the person skilled in the art of implementing the present invention and / or the position of the contact provided in the interface device for interfacing the USB port provided in the IC card 100 and the terminal (for example, a personal computer, etc.). Form and structure (for example, the shape and size of the contact point and the separation interval and the distance from the edge or corner of the IC card, etc.), Figure 4 in accordance with a preferred embodiment of the present invention is the IC card 100 It is for the case that the contact point for the USB is provided at the corner of the.

4A is for the case where the parallel USB contact point is located in the horizontal direction at the upper left corner of the IC card 100, and FIG. 4B is a rectangular USB with a predetermined oblique angle. Is for the case where the contact point is located in the horizontal direction at the upper right edge of the IC card 100, and (c) of FIG. 4 shows that the contact point for the USB having a predetermined oblique angle is located at the lower left corner of the IC card 100. 4 is for the case where the checkerboard USB contact point is located at the lower right corner of the IC card 100. Of course, in addition to the USB contact point shown in Figure 4 can be implemented a variety of contact points, the technical concept of the present invention is not affected by the shape and / or structure of the USB contact tablet.

5 is a diagram illustrating a USB contact point provided on both sides of the IC card 100 according to another embodiment of the present invention.

In more detail, in FIG. 5, at the contact point for USB as shown in (a) of FIG. 4, even if the interface device for USB is interfaced to the front or back side of the IC card 100, the IC chip 105 is not affected. Shows a coupling structure of a USB contact point for successful interface.

Referring to FIG. 5 according to a preferred embodiment of the present invention, a first contact point 1, a second contact point 2, a third contact point 3 and a fourth contact point 4 are provided on the front surface of the IC card 100. The contact point for USB is provided, and the back side of the IC card has a first contact point 1 ', a second contact point 2', and a third contact point 3 'in the opposite (or diagonal) direction to the front face. ) And a fourth contact point 4 ', and the USB contact points provided on the front and back of the IC card 100 as described above are electrically connected as shown in (a) of FIG. 5 and (b) of FIG. It is connected through the interface, and the interface of a predetermined USB interface device to the front or back of the IC card 100 through the electrical connection of the USB contact point made through the front and back of the IC card 100 as described above Regardless, the IC chip 105 can be successfully interfaced with the IC chip 105.

According to another exemplary embodiment of the present invention, when the USB contact point is provided only on one surface of the IC card 100 as shown in FIG. 4, the connector structure of the USB interface device interfaced with the IC card 100 is shown in FIG. By designing and manufacturing both sides to be compatible as shown in (a) and (b) of FIG. 5, the USB interface device is successfully connected with the IC chip 105 regardless of the interface between the front and the back of the IC card 100. It is possible to interface with.

6 is a diagram illustrating a USB contact point provided on both sides of the IC card 100 according to another embodiment of the present invention.

In more detail, FIG. 6 illustrates a portion of the USB contact point when the USB interface device simultaneously interfaces with the front or back side of the IC card 100 in the USB contact point as shown in FIG. The coupling structure of the USB contact point provided on the front side of the IC card 100 and provided on the back side of the IC card 100 is shown.

Referring to FIG. 6 according to a preferred embodiment of the present invention, the front surface of the IC card 100 is provided with a USB contact point corresponding to the first contact point 1 and the second contact point 2, and a third contact point on the back side. USB contact points corresponding to the contact point 3 and the fourth contact point 4 are provided, and the USB contact points are provided to face each other based on the IC card 100. Therefore, when the interface device for USB including a groove of about 0.76 mm is interfaced to both sides of the IC card 100 based on one surface of the corner, the contact point for the USB 150 and the USB with a minimum area. The electrical contact between them can be made.

7 illustrates a USB contact point that interfaces directly with the B plug 700 of the USB 150 in accordance with another embodiment of the present invention.

In more detail, FIG. 7 is designed to be connected to a B plug 700 (eg, a USB cable of a USB cable) of the USB 150 at a USB contact point provided on both sides of the IC card 100 as shown in FIG. USB card contact points are provided on both sides of the IC card 100 so as to interface directly with the connector), and the IC card 100 is provided with a predetermined groove into which the B plug 700 can be inserted.

However, FIG. 7 merely illustrates the case of the B plug 700 connected to the USB device based on the USB-related standard, and is connected to the A plug of the USB 150 (for example, a personal computer (Host) of the USB cable). It may be provided with a contact point and a groove for the USB as shown in Figure 4 (a) to Figure 5 so as to interface through a connector designed to be connected to, or a predetermined interface device and / or USB connector designed for the present invention is connected It may be provided with a USB contact point and a groove, and when the following other implementation method is followed, it is apparent that the shape and structure of the USB contact point provided in the IC card 100 correspond to each implementation method. something to do.

Referring to FIG. 7 according to a preferred embodiment of the present invention, the B plug 700 of the USB 150 has dimensions of an outer width of 8.45 (mm) and a height of 7.78 (mm) and an inner width of 5.60 (mm). It includes, the width of the contact in the plug B 700 comprises 1.00 (mm), the USB contact point provided in the IC card 100 meets the B plug standard as described above the IC card ( 100) is preferably provided.

According to the present invention, a predetermined information or information can be transferred to the IC card through USB, which is established as a standard method of connecting a personal computer and a peripheral device without using a predetermined card reader connecting the COB and at least one contact point of the IC card. There is an advantage of directly inputting and outputting data.

According to the present invention, a predetermined card application is downloaded through the Internet through a USB contact point provided in the IC card and a USB provided in a personal computer, and the card application is directly post-issued by the IC chip provided in the IC card. There is an advantage.

Claims (22)

In the IC card equipped with an IC (Integrated Circuit) chip, A first contact point electrically connected to a power supply contact (C1 contact) of the IC chip; A second contact point electrically connected to a D + contact (C8 contact) of the IC chip; A third contact point electrically connected to a D-contact (C4 contact) of the IC chip; And And a fourth contact point electrically connected to the ground contact (C5 contact) of the IC chip. And the first to fourth contact points are provided on the card surface to be electrically insulated. The method of claim 1, wherein the first contact point provided on the IC card, An IC card having a plurality of contact points, characterized in that it is electrically connected to the first pin (Pin) or VBUS of the USB (Universal Serial Bus). The method of claim 1, wherein the second contact point provided on the IC card, An IC card having a plurality of contact points, characterized in that it is electrically connected to the second pin or D- of a universal serial bus (USB). The method of claim 1, wherein the third contact point provided on the IC card, An IC card having a plurality of contact points electrically connected to the third pin or D + of a universal serial bus (USB). The method of claim 1, wherein the fourth contact point provided on the IC card, An IC card having a plurality of contact points, which is electrically connected to the fourth or fifth pin or GND of a universal serial bus (USB). delete delete delete delete delete delete delete delete delete delete delete delete The method of claim 1, wherein the IC card, At least one of the second contact point and the third contact point is to apply a reset signal for initializing the IC chip, or At least one contact point of the second contact point and the third contact point applies a predetermined clock frequency to the IC chip, and at least one contact point of the second contact point and the third contact point and a reset contact C2 of the IC chip. And a switch section for electrically connecting the contacts). delete delete delete delete

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