KR20120088623A - Interface devices for usb(universal serial bus) - Google Patents

Abstract

PURPOSE: A USB(Universal Serial Bus) interface device is provided to directly input/output data or information included in an IC card through an interface device for IC card. CONSTITUTION: An interface unit(130) applies a signal for USB of a USB connector to a C4 contact point. The interface unit applies a signal for USB of the USB connector to a C8 contact point. A clock unit(115) generates a clock applied to a C3 contact point of an IC card through power applied from the USB connector. A resetting unit(125) generates a reset signal applied to a C2 contact point of the IC card.

Description

 Interface Devices for USB (Universal Serial Bus)}

The present invention provides a USB connector to which power and ground of USB (Universal Serial Bus) communication are applied, and at least one of the signal D + and the signal D- for USB is applied, and an IC card to be connected to the USB communication. A USB interface device having an interface unit, wherein the interface unit applies a USB signal (D +) of the USB connector to a C4 contact point of the IC card, or transmits a USB signal (D-) of the USB connector to the IC. A USS interface device comprising at least one of applying to a C8 contact point of a card.

Universal Serial Bus (USB) is a US-based Intel technology that aims to collaborate on interfaces for connecting different types of peripherals (eg, keyboards, mice, printers, modems, speakers, etc.) to personal computers. , Serial universal bus proposed by Microsoft, Digital Equipment Corporation (DEC), International Business Machine (IBM) and Compaq and Nortel of Canada, Nippon Electric Company (NEC) of Japan It includes features that allow up to 127 universally connected peripherals (= USB devices) of different specifications to a USB host.

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 store predetermined IC chip storage information on the IC card in a USB host (e.g., a desktop computer and / or notebook and / or Pocket PC and / or Macintosh equipped with universal serial communication function), A card reader that performs a predetermined IC card operation procedure based on the ISO / IEC 7816 standard should be provided, which increases the manufacturing cost of the USB host, and in the case of a USB host without a card reader, Has the inconvenience of having to purchase a separate card reader. Of course, in order to alleviate the inconvenience, the IC card issuing agency 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 is a USB connector to which the power and ground of the USB (Universal Serial Bus) communication is applied and one or more signals of the signal (D +) and the signal (D-) for USB are applied, and the IC card to be connected with the USB communication. In the USB interface device having an interface unit to be interfaced, The interface unit applies the USB signal (D +) of the USB connector to the C4 contact point of the IC card, or the USB signal (D-) of the USB connector The present invention provides a USB interface device comprising at least one of applying to a C8 contact point of the IC card.

The USB interface device according to the present invention includes a USB connector to which power and ground of USB (Universal Serial Bus) communication are applied, and at least one of a signal (D +) and a signal (D−) for USB is applied, and the USB communication and In the USB interface device having an interface unit to which the IC card to be connected is interfaced, The interface unit applies the USB signal (D +) of the USB connector to the C4 contact point of the IC card, or the USB signal (D) of the USB connector And applying at least one of-) to the C8 contact point of the IC card.

In the USB interface device according to the present invention, a clock unit for generating a clock applied to the C3 contact point of the IC card using the power applied from the USB connector is characterized in that it further comprises.

In the USB interface device according to the present invention, a reset unit for generating a reset signal to be applied to the C2 contact point of the IC card using the power applied from the USB connector is characterized in that it further comprises.

In the USB interface device according to the present invention, the reset unit reads at least one of the USB signal D + and the signal D− of the USB connector to determine generation of the reset signal.

In the USB interface device according to the present invention, the power supply unit for converting the power applied from the USB connector into a power that can be applied to the C1 contact point of the IC card is characterized in that it further comprises.

According to the present invention, a predetermined power and ground and at least one data signal are applied through serial universal communication from a predetermined host and / or device having a predetermined universal serial communication function. By providing a USB connector and an interface unit for interfacing the power and / or ground and / or data signals applied from the USB connector to the IC chip provided in the IC card, It is advantageous in that a predetermined host and / or device having a predetermined universal serial communication function can directly input / output and / or store IC predetermined information or data provided in the IC card through the IC card interface device.

1 is a diagram showing a preferred functional configuration of an interface card for an IC card according to the present invention.
Fig. 2 is a diagram showing the functional configuration of an IC card with a predetermined contact point according to one embodiment of the present invention.
3 is a diagram showing the functional configuration of an IC card provided with a predetermined contact point according to another embodiment of the present invention.
4 is a diagram illustrating a USB contact point provided on one surface of the IC card in a one-to-one correspondence with the interface portion of the IC card interface device according to one embodiment of the present invention.
FIG. 5 is a diagram illustrating a USB contact point provided on one surface of an IC card in a one-to-one correspondence with an interface portion of the IC card interface device according to another embodiment of the present invention.
FIG. 6 is a diagram illustrating an interface unit of an IC card interface device for interfacing with a USB contact point provided on a face of an IC card through universal serial communication according to an embodiment of the present invention.
FIG. 7 is a diagram illustrating an interface unit of an IC card interface device for interfacing with a COB provided on a face of an IC card through universal serial communication according to another embodiment of the present invention.
FIG. 8 is a diagram showing the structure of an interface unit of an IC card interface device for interfacing with a COB provided on a face of an IC card through universal serial communication according to one embodiment of the present invention.
Fig. 9 shows a preferred method of applying power to an IC chip in an IC card interface device according to the present invention.
Fig. 10 shows a preferred method for resetting the IC chip in the IC card interface device according to the present invention.
Fig. 11 is a diagram showing a preferred method of interfacing a predetermined data signal with an IC chip in an IC card interface device according to the present invention.
Fig. 12 is a diagram showing a preferred structure of a USB connector provided in the IC card interface device according to the present invention.
Fig. 13 is a diagram showing another preferred structure of the USB connector provided in the IC card interface device according to the present invention.
Fig. 14 is a diagram showing still another preferred structure of the USB connector provided in the IC card interface device according to the present invention.
Fig. 15 is a diagram showing still another preferred structure of the USB connector provided in the IC card interface device according to the present invention.

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. It should be understood, however, that the drawings and the following detailed description are exemplary and explanatory and are intended to provide further explanation of the invention, and are not to be construed as limiting the present invention. 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. The terms used below are defined in consideration of the functions of the present invention, which may vary depending on the user, intention or custom of the operator. 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. Those skilled in the art will readily understand the functions of components that have been used in the prior art among the functional configurations that are not shown in the following description, The relationship between the elements and the components added for the present invention will also be clearly understood.

That is, 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, but in the technical field to which the present invention pertains. Those skilled in the art, based on the functional configuration described in this embodiment, a contactless IC card conforming to the ISO / IEC 14443 standard and / or a hybrid card and / or one provided with a separate contact IC chip and a contactless IC chip It can be easily understood that the IC chip of the present invention can be applied to a combination card and the like which are shared by contact and contactless.

1 is a view showing a preferred functional configuration of the IC card interface device 100 according to the present invention.

In more detail, FIG. 1 shows a predetermined USB terminal 105, a power supply unit 110, a data unit 120, a clock unit 115, and a reset unit 125 for universal serial communication according to a preferred embodiment of the present invention. And according to the interface device 100 for the IC card having an interface unit 130, according to another embodiment of the present invention according to the type and / or characteristics of the IC card 135 and / or card issuer Some of the components may be omitted or modified.

Referring to FIG. 1, an IC card interface device 100 for interfacing with an IC card 135 having at least one contact point on a card surface through general-purpose serial communication is provided with a predetermined power source and a ground and at least through serial general-purpose communication. A USB connector 145 for applying one or more data signals, a USB terminal 105 for applying the power and ground and at least one data signal through the USB connector 145, and the applied power to the IC card ( The oscillator generates and outputs a predetermined clock using the power supply unit 110 dropping out to the power available at 135, the data unit 120 inputting and outputting the applied data signal to the IC chip 140, and the applied power supply. And / or generate or apply a predetermined clock using the applied data signal to the IC chip 140 and the predetermined power using the applied power. At least one or more surfaces of the reset unit 125 and the IC card 135 that generate a reset signal or generate a predetermined reset signal using the applied data signal and apply the generated reset signal to the IC chip 140. It includes an interface unit 130 for interfacing with the IC chip 140 through a contact point.

The USB connector 145 includes at least one connector (A plug) connected to a predetermined USB host through universal serial communication or at least one connector (B plug) connected to a predetermined USB device through universal serial communication. Characterized in that, it is preferable that the connection to the IC card interface device 100 via a predetermined USB cable, or further comprising the USB connector 145 is provided in the IC card interface device 100. Do.

According to a preferred embodiment of the present invention, a USB power supply (DC) from a predetermined USB host and / or a USB device via the USB connector 145 to the IC card interface device 100 through the USB terminal 105. 5V), ground and data (D + / D-) signals are supplied and applied.

The power supply unit 110 supplies the DC 5V power supplied to the IC card interface device 100 through the USB connector 145 and the USB terminal 105 through a power contact provided in the interface unit 130. It is applied to the power contact point provided on the surface of the IC card 135 (for example, in the case of Class A using a voltage of 5V), the IC chip 140 is applied to Class B using a power supply of 3V In this case, the voltage of the supplied power is dropped out to a voltage usable in the class B and applied to the power contact point provided on the surface of the IC card 135 through the power contact provided in the interface unit 130. It is preferable. To this end, the power supply unit 110 preferentially drops out the voltage of the supplied power supply to 3V, and 3V to the power contact point provided on the surface of the IC card 135 through the power contact provided in the interface unit 130. Is applied and determines whether a valid ATR (Answer To Response) is received from the IC chip 140. If a valid ATR is received as a result of the determination, the power supply unit 110 supplies the dropped 3V power. If a valid ATR is not received while the 3V power is applied to the IC chip 140, the power supply unit 110 applies the 5V power to the IC chip 140.

According to the preferred embodiment of the present invention, the power supply unit 110 applies a predetermined power to the IC chip 140 in applying the voltage of the power supplied through the universal serial communication to the IC chip 140. Whether or not the power is applied using a difference signal, and when the predetermined power is applied to the IC chip 140, cuts off the power supplied through universal serial communication. It is preferable. In addition, when the power supply unit 110 blocks the application of power to the IC chip 140, the clock unit 115 generates a clock corresponding to a predetermined operating frequency of the IC chip 140 to generate the clock. The application to the IC chip 140 is preferably blocked, and the reset unit 125 generates a predetermined reset signal to be applied to the IC chip 140.

The data unit 120 receives a predetermined data signal transmitted from a predetermined USB host and / or a USB device to the IC card interface device 100 through the USB connector 145 and the USB terminal 105. And applying the received data signal to a data signal contact point provided on the surface of the IC card 135 through a data signal contact provided in the interface unit 130, and / or the IC card 135 And a predetermined data signal provided from a data signal contact point provided at the) surface to the predetermined USB host and / or the USB device through the USB terminal 105 and the USB connector 145.

According to a preferred embodiment of the present invention, when the data signal contact point provided on the surface of the IC card 135 is electrically connected to the input / output contacts (I / O, C7) of the IC chip 140, the data unit 120 ) Reads a communication packet corresponding to the applied data signal, reads a data field included in the communication packet, restores original transmission / reception data, and converts the restored original transmission / reception data into an APDU, thereby converting the interface unit 130. It is preferable to apply to the data signal contact point provided on the surface of the IC card 135 through the data signal contact provided in the, and / or the data unit 120 is provided from the input and output contacts of the IC chip 140 Preferably, a predetermined APDU is included in the data field of the communication packet and transmitted to the predetermined USB host and / or the USB device through the USB terminal 105 and the USB connector 145.

According to a preferred embodiment of the present invention, the data unit 120 reads a data field from the communication packet and restores original transmission / reception data, wherein the restored original transmission / reception data is defined in the APDU specification defined in the ISO / IEC 7816 standard. It is preferable to further comprise a function for determining whether the satisfies, if the data field corresponding to the IC card 135 command does not satisfy the APDU specification, ignore the IC card 135 command, or It is preferable to request retransmission to the USB host and / or the USB device through the USB terminal 105 and the USB connector 145 through the universal serial communication.

When the power supply unit 110 applies the appropriate and stable power to the IC chip 140, the clock unit 115 operates the IC chip 140 using the power applied from the USB connector 145. Oscillating and / or generating at least one clock frequency of 3.57 MHz or 4.9 MHz required to generate the signal, or generating the clock frequency by using a data signal applied from the USB connector 145, and the interface unit 130 It is characterized in that it is applied to the clock contact point provided on the surface of the IC card 135 through the clock contact provided in the.

According to a preferred embodiment of the present invention, the clock unit 115 has a predetermined oscillation circuit therein and oscillates a predetermined frequency based on the power inputted through the power supply unit 110 to 3.57 MHz to 4.9 MHz. It is preferable to generate a predetermined clock frequency by amplifying or to generate a predetermined clock frequency by using a predetermined pulse signal included in the data signal.

The reset unit 125 resets the IC chip 140 using the power applied from the USB connector 145 when the power supply unit 110 applies the appropriate and stable power to the IC chip 140. To generate a predetermined predetermined reset signal or to generate the reset signal using a data signal applied from the USB connector 145, and to generate the reset signal through the reset contact provided in the interface unit 130. It is characterized in that the application to the reset contact point provided on the surface of the card (135).

The interface unit 130 may include a power contact for interfacing power applied from the USB connector 145 to a power contact point on the surface of the IC card 135, and a ground applied from the USB connector 145. 135 a ground contact for interfacing to a ground contact point on the surface, at least one data signal contact for interfacing a data signal applied from the USB connector 145 to a data contact point on the IC card 135 surface, and the IC card ( 135) a clock contact for interfacing the predetermined clock signal to the clock contact point provided on the surface and a reset contact for interfacing the predetermined reset signal to the reset contact point provided on the IC card 135.

2 is a diagram showing the functional configuration of the IC card 135 provided with a predetermined contact point according to one embodiment of the present invention.

In more detail, in FIG. 2, when the data signal contact point provided on the surface of the IC card 135 is electrically connected with the data signal (D + / D-) contact of the IC chip 140, the IC card 135 is connected to the IC card 135. The correlation between the provided IC chip 140 and the contact point is shown.

Referring to the ISO / IEC 7816 standard, the IC chip 140 included in the IC card 135 includes a power supply (C1, VCC), a reset signal (C2, RST), a clock signal (C3, CLK), and a data signal ( And at least one contact point such as C4, D +, ground (C5, GND), programming power supply (C6, VPP), input / output (C7, I / O), and data signals (C8, D-). An input / output interface 210 for communicating (eg, exchanging commands or data) is provided, and the contacts of the input / output interface are COB 215 (Chip On Board) through a predetermined process including wire bonding. It is characterized in that it is connected to each contact point provided in).

In addition, the IC chip 140 may include a processor unit 205 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 200 is formed of a memory device. In particular, at least one or more memory devices (eg, ROMs) of the memory devices may manage and operate an internal resource of the IC card 135. When a predetermined power is supplied from a card terminal device through a power supply (VCC) contact point of the input / output interface, the COS stored in the memory unit 200 is loaded into a predetermined execution memory to store the IC chip 140. ) 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. 40) and exchange of information or data between the card terminal device.

Referring to FIG. 2, the IC card 135 has a power contact point electrically connected to a power supply (VCC) contact of the IC chip 140 and an input / output interface of the IC chip 140. A ground contact point electrically connected to the provided ground (GND) contact point, a data signal (D +) contact point electrically connected to a data signal (D +) contact point provided at an input / output interface of the IC chip (140), and the IC chip (140). ) And a reset contact point electrically connected to a data signal (D-) contact point electrically connected to a data signal (D-) contact provided at an input / output interface of the IC chip 140 and a reset (RST) contact provided at an input / output interface of the IC chip 140. And a clock contact point electrically connected to a clock signal CLK contact provided in the input / output interface of the IC chip 140.

According to a preferred embodiment of the present invention, the contact point provided on the surface of the IC card 135 is included in the COB 215 provided on the surface of the IC card 135, or the interface device for an IC card according to the present invention ( In one-to-one correspondence with the contacts provided on the interface unit 130 of the 100, it is preferable to include a predetermined USB contact point provided on the surface of the IC card 135.

3 is a view showing the functional configuration of the IC card 135 provided with a predetermined contact point according to another embodiment of the present invention.

In more detail, in FIG. 3, when the data signal contact point provided on the surface of the IC card 135 is electrically connected to an input / output (I / O) contact point of the IC chip 140, the IC card 135 is provided. The correlation between the IC chip 140 and the contact point is shown.

Referring to FIG. 3, the IC card 135 has a power contact point electrically connected to a power supply (VCC) contact of the IC chip 140 and an input / output interface of the IC chip 140. A ground contact point electrically connected to an provided ground (GND) contact point, a data signal contact point electrically connected to an input / output (I / O) contact point provided at an input / output interface of the IC chip 140, and a contact point of the IC chip 140. And a clock contact point electrically connected to a reset contact point electrically connected to a reset (RST) contact point provided at the input / output interface and a clock signal (CLK) contact point provided at the input / output interface of the IC chip 140. The contact point is included in the COB 215 provided on the surface of the IC card 135 or the contact point provided in the interface unit 130 of the interface device 100 for the IC card according to the present invention. Preferably it made in response, including the point of contact for the predetermined USB provided in the IC card 135 side to.

4 is a view illustrating a USB contact point provided on one surface of the IC card 135 in one-to-one correspondence with the interface unit 130 of the IC card interface device 100 according to one embodiment of the present invention.

In more detail, FIG. 4 corresponds to the contact point provided in the interface unit 130 of the interface device 100 for an IC card 100 according to the present invention in addition to the COB 215 provided in the IC card 135. A diagram illustrating at least one USB contact point provided on the (135) plane.

According to the present invention, the contact point for USB illustrated in FIG. 4 is the intention of a person skilled in the art to implement the present invention and / or the contact portion provided in the interface unit 130 of the interface card 100 for the IC card according to the present invention. Depending on the location may be made of a variety of forms and structures (for example, the shape and size of the contact point and the separation interval and the separation angle from the side to the corner of the IC card 135, etc.), according to a preferred embodiment of the present invention Is for the case where the contact point for the USB is provided at the edge of the IC card 135.

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 135, 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 135, and (c) of FIG. 4 shows that the contact point for the USB having a predetermined oblique angle is positioned at the lower left corner of the IC card 135. 4 is for the case where the checkerboard USB contact point is located at the lower right corner of the IC card 135. Of course, in addition to the contact point for USB shown in FIG. 4, various contact points may be implemented, and the technical idea of the present invention is not affected by the form and / or structure of the contact tablet for USB.

5 is a diagram illustrating a USB contact point provided on one surface of the IC card 135 in one-to-one correspondence with the interface unit 130 of the IC card interface device 100 according to another exemplary embodiment of the present invention.

In more detail, FIG. 5 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 135 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 135 and provided on the back side of the IC card 135 is shown.

FIG. 6 is a diagram illustrating an interface unit 130 of an IC card interface device 100 for interfacing with a USB contact point provided on the IC card 135 surface through universal serial communication according to one embodiment of the present invention. .

In more detail, FIG. 6 illustrates a preferred interface unit provided in the IC card interface device 100 for interfacing through the IC and the IC card 135 equipped with the USB contact point as shown in FIG. 130 is a diagram showing the case in which various USB contact points exist according to the intention of the person skilled in the art of carrying out the present invention in (B) to (C) to (D) of FIG. It will be apparent that the interface device may be modified accordingly.

Referring to FIG. 6, the interface unit 130 for interfacing with the USB contact point provided on the IC card 135 has a groove into which a 0.76 mm IC card 135 is inserted according to the ISO / IEC standard. A power contact in electrical contact with a power contact of a USB contact in the groove of the IC card 135 and / or a data signal contact in electrical contact with a data signal contact of the USB contact. A ground contact in electrical contact with the ground contact of the contact point and / or a clock contact in electrical contact with the clock contact point of the contact point for the USB and / or a reset contact with the reset contact point of the contact point for the USB.

7 illustrates an interface unit 130 of the IC card interface device 100 for interfacing with the COB 215 provided on the IC card 135 surface through general purpose serial communication according to another embodiment of the present invention. Drawing.

In more detail, FIG. 7 illustrates a preferred interface provided in the IC card interface device 100 to interface with the COB 215 provided on one surface of the IC card 135 through universal serial communication according to ISO / IEC 7816 standard. The unit 130 is shown.

The interface unit 130 for interfacing with the COB 215 provided on the surface of the IC card 135 may include an edge of a groove (eg, an IC card 135 inserted into the groove) in which the IC card 135 is inserted. Based on the upper left end), 1.7 mm * 2.0 mm of width and width are provided at equal intervals as shown in FIG. A power contact in electrical contact with a power contact of the COB 215 and / or a data signal contact in electrical contact with a data signal contact and / or an input / output contact of the COB 215. A ground contact in electrical contact with a ground contact of COB 215 and / or a clock contact in electrical contact with a clock contact of COB 215 and / or a reset in electrical contact with a reset contact of COB 215. It is made to include.

8 illustrates the structure of the interface unit 130 of the IC card interface device 100 for interfacing with the COB 215 provided on the IC card 135 surface through universal serial communication according to one embodiment of the present invention. Drawing.

In more detail, FIG. 8 illustrates a structure of an interface unit 130 for interfacing through a universal serial communication with an IC card 135 having a USB contact point as shown in FIG. 4 and / or a COB conforming to ISO / IEC 7816 standard. A representative interface structure 130 for interfacing with 215 through general purpose serial communication is shown.

8A is an interface unit 130 optimized to interface with the IC card 135 having a USB contact point at the upper left of the IC card 135 as shown in FIG. 4 through universal serial communication. Figure 8 shows a preferred structure of Figure 8 (b) through the universal serial communication with the IC card 135 is provided with a USB contact point at the lower left of the IC card 135 as shown in Figure 4 (c) The preferred structure of the interface unit 130 optimized for interfacing is shown, and Fig. 8 (C) shows the IC card 135 equipped with the COB 215 conforming to the ISO / IEC 7816 standard and the general purpose as shown in Fig. 7. The preferred structure of the interface unit 130 optimized for interfacing through serial communication is shown, and (d) of FIG. 8 shows an entire IC card 135 provided with a COB 215 conforming to the ISO / IEC 7816 standard. Desirability of the interface unit 130 accommodated and interfaced via universal serial communication It shows the structure.

9 is a view showing a preferred method of applying power to the IC chip 140 from the IC card interface device 100 according to the present invention.

In more detail, in FIG. 9, the power supply unit 110 included in the IC card interface device 100 receives the predetermined power supplied from the USB connector 145 to the power contact unit provided in the interface unit 130. The preferred process of applying to the IC chip 140 through the power contact point provided on the surface of the IC card 135 is shown.

Referring to FIG. 9, a predetermined power source including a voltage (for example, DC 5V) of a power source supplied through the universal serial communication is input, and the power supply unit 110 converts the voltage to a class A voltage (5V). Or dropout to the lowest voltage except the voltage (3V) corresponding to class B (900).

According to a preferred embodiment of the present invention, the voltage dropped out as described above preferably has a voltage value excluding a voltage (5V) corresponding to the class A or a voltage (3V) corresponding to the class B, and the IC chip In order to prevent the 140 from being destroyed, the dropout is performed at the lowest voltage, and the voltage value is preferably larger than the ground voltage (0V). When the supply voltage is dropped out as described above, the power supply unit 110 compares the difference between the power supply (C1) contact point of the IC chip 140 and the dropped out voltage, and based on the difference signal, the voltage difference. In operation 905, it is determined whether there is a power applied to the IC chip 140.

For example, if a predetermined power is already applied to the IC chip 140, a voltage difference between the dropped-out voltage and the power supply (VCC) contact of the IC chip 140 is a voltage other than the dropped-out voltage. If there is no power applied to the IC chip 140, the voltage difference will have the same value as the dropped out voltage in a predetermined error range.

If power is already applied to the IC chip 140 (910), the power supply unit 110 cuts off the power supplied through universal serial communication and performs a predetermined error processing to perform the universal serial communication. The process of approaching the IC chip 140 is terminated.

On the other hand, if there is no power applied to the IC chip 140 (915), the power supply unit 110 drops out the voltage of the power supplied through universal serial communication to 3V corresponding to the class B (920) The drop-out power is applied to the IC chip 140 through a power supply (VCC) contact of the IC chip 140 and it is determined whether a valid ATR is returned from the IC chip 140 (925).

If a valid ATR is returned from the IC chip 140 (930), the IC chip 140 corresponds to Class B, so that the power supply unit 110 sets the power supply mode to the Class B mode and stabilizes the power of 3V. In operation 935, the IC chip 140 is applied to the power supply (C1) contact point.

On the other hand, if a valid ATR is not returned from the IC chip 140 (940), since the IC chip 140 is not a class B, the power supply unit 110 supplies the voltage of the power supplied through the universal serial communication to the class A. Switch to the corresponding 5V (945), power applied to the class A is applied to the IC chip 140 through the power supply (C1) contact of the IC chip 140 and effective from the IC chip 140 It is determined whether the ATR is returned (950).

If a valid ATR is returned from the IC chip 140 (955), the IC chip 140 corresponds to class A, so that the power supply unit 110 sets the power supply mode to the class A mode and stabilizes the power of 5V. In operation 960, the IC chip 140 is applied to the power supply (C1) contact point.

On the other hand, if a valid ATR is not returned from the IC chip 140 (965), since the IC chip 140 is neither class A nor class B, the power supply unit 110 cuts off the power supplied through universal serial communication. The process of accessing the IC chip 140 through the universal serial communication is terminated by performing a predetermined error processing process (970).

Fig. 10 shows a preferred method for resetting the IC chip 140 in the IC card interface device 100 according to the present invention.

In more detail, in FIG. 10, the reset unit 125 provided in the IC card interface device 100 generates a predetermined reset signal and generates the predetermined reset signal through the reset contact provided in the interface unit 130. The IC chip 140 is reset through the reset contact point provided on the surface of the IC chip. In the input / output interface of the IC chip 140, the reset (RST) contact is in the L state, and the power supply is stably supplied to the power supply (VCC) contact. In the reset section 125, when the input / output (I / O) contact is in the reception mode, and the programming power supply (VPP) contact is valid, and a suitable and stable clock frequency is supplied to the clock CLK contact. A preferred method of applying a predetermined reset signal to the IC chip 140 is shown.

The method of resetting the IC chip 140 with reference to ISO / IEC 7816 includes an IR (Internal Reset) and / or an Active Low Reset (AL) and / or a SyncHronous Active Reset (SH). At least one or more of the reset methods are selected and used according to the type and / or characteristic of the card. Referring to Figure 10 briefly described the IC chip 140 reset method as follows.

The IR method is reset after a few cycles of the clock signal when the IC chip 140 is internally reset by a predetermined command or execution procedure. At this time, the ATR of the I / O terminal is CLK (after T0). Starts at 400 to 40000 clock cycles t1 after being applied to t1). In the AL method, when IC chip 140 is in an active zero reset state, RST is changed to LST in at least 40000 clock cycles (t3) in the L state after the clock signal is applied to CLK (time t3 after T0). If not started, RST is placed in H (time T1) state, where the ATR at the I / O contact starts at 400 to 40000 clock cycles (t1) after the rising end of the signal waveform of RST (t1 after T0). do. The SH method is an IC chip 140 that responds synchronously, with all contacts held in the L state and at least 50 μs (microseconds) before the RST returns to the L state with the I / O contacts in the receive mode. Maintain H state.

According to a preferred embodiment of the present invention, the reset unit 125 is based on the type and / or characteristics of the IC chip 140 provided in the IC card 135 and the IR method and / or AL method described above and / Alternatively, the IC chip 140 may be reset through at least one reset method among SH methods.

FIG. 11 shows a preferred method of interfacing a predetermined data signal from the IC card interface device 100 to the IC chip 140 in accordance with the present invention.

In more detail, FIG. 11 illustrates a case in which the data signal contact provided on the surface of the IC card 135 is electrically connected to the input / output (I / O) contact provided on the input / output interface of the IC chip 140. In the data unit 120 of the interface device 100, the present invention relates to a half-duplex APDU protocol applied to the IC chip 140 and a full-duplex communication packet applied to USB. Those skilled in the art to which the present invention pertains will clearly understand the functional blocks of the APDU protocol and communication packets, and thus detailed description thereof will be omitted.

Referring to FIG. 11, a communication packet includes a synchronization field SYNC, a packet ID field PID, a data field DATA, and a CRC field, and the synchronization field, packet ID field, and CRC field are defined by a USB protocol specification. Characterized in that it is automatically allocated dynamically, the data field comprises a predetermined information or data for transmitting and receiving through the universal serial communication, according to the present invention, the IC chip in the data field of the communication packet The APDU protocol stack applied to 140 is inserted.

11A is a case of transmitting a predetermined IC card 135 command without data transmission from the terminal (or personal computer) to the IC chip 140 through universal serial communication. The data field of the communication packet is shown in FIG. An IC card 135 command including a 5-byte APDU header is included, and '00' is assigned to the P3 field of the APDU header to indicate that there is no data following the IC card 135 command. When a communication packet including an APDU header is received from the terminal (or a personal computer) through universal serial communication, the data unit 120 reads the APDU header from the data field of the communication packet to the IC chip 140. And receiving a response (eg, a card response and a trailer (SW1, SW2) field) corresponding to the IC card 135 command from the IC chip 140, and including the response in the data field of the communication packet. Through the transmission to the terminal (or personal computer).

11B illustrates a case in which predetermined information or data is transmitted from the terminal (or personal computer) to the IC chip 140 through universal serial communication. The data of the communication packet is transmitted from the terminal (or personal computer). When the APDU header of the IC card 135 command including the 5-byte header is transmitted in the field, the data unit 120 reads the APDU header from the data field of the communication packet and transmits the APDU header to the IC chip 140. If a response corresponding to the APDU header (for example, a card response) is provided from the IC chip 140, the data unit 120 includes the response in a data field of the communication packet through universal serial communication. Transfer to the terminal (or personal computer). When the response corresponding to the APDU header is received as described above, a predetermined APDU body including information or data to be transmitted to the IC card 135 is transmitted from the terminal (or personal computer) to the data field of the communication packet. Included in the communication packet and transmitted, the data unit 120 reads the APDU body from the data field of the communication packet and provides it to the IC chip 140, and from the IC chip 140 to the IC card 135 When a response (eg, trailer (SW1, SW2) field) corresponding to the APDU body of the command is provided, the data unit 120 includes the response in a data field of the communication packet to transmit the terminal through universal serial communication. (Or personal computer).

11 (c) is a case in which predetermined information or data is transmitted from the IC chip 140 to a terminal (or personal computer) through universal serial communication. The data field of the communication packet is transmitted from the terminal (or personal computer). When the APDU header of the IC card 135 command including the 5-byte header is included and transmitted, the data unit 120 reads the APDU header from the data field of the communication packet and provides it to the IC chip 140. And a predetermined response (for example, a card response, information or data to be transmitted from the IC chip 140 to the terminal (or personal computer), and a trailer (SW1, SW2) field) from the IC chip 140. If provided, the data unit 120 includes the response in the data field of the communication packet and transmits the response to the terminal (or personal computer) through universal serial communication.

12, 13, 14, and 15 show a preferred structure of the USB connector 145 provided in the IC card interface device 100 according to the present invention.

More specifically, (a) of FIG. 12 illustrates a preferred structure of a USB connector 145 having a USB cable connected to a connector (A plug) connected to a USB host on one surface of the IC card interface device 100. 12 (b) shows a preferred structure of a USB connector 145 having a USB cable connected to a connector (B plug) connected to a USB device on one surface of the IC card interface device 100.

In addition, FIG. 13 illustrates a preferred structure of the USB connector 145 in which the IC card interface device 100 is provided with a connector (A plug) connected to a USB host and a connector (B plug) connected to a USB device at the same time. 14 shows a connector (B plug) connected to a USB device on a standard USB cable provided with a connector (A plug) connected to a USB host and a connector (B plug) connected to the USB device at the same time. The preferred structure of the USB connector 145 accommodated (or inserted) in the interface device 100 is shown.

15A illustrates a preferred structure of the USB connector 145 having a connector (A plug) connected to a USB host on one surface of the IC card interface device 100. (B) illustrates a preferred structure of the USB connector 145 having a connector (B plug) connected to a USB device on one surface of the IC card interface device 100.

100: IC card interface unit 105: USB terminal
110: power supply section 115: clock section
120: data portion 125: reset portion
130: interface unit 135: IC card
140: IC chip 145: USB connector.

Claims (5)

USB connector to which power and ground of USB (Universal Serial Bus) communication are applied and one or more signals of USB signal (D +) and signal (D-) are applied, and an interface unit to interface the IC card to be connected with the USB communication. In one USB interface device,
The interface unit includes:
Apply the USB signal (D +) of the USB connector to the C4 contact point of the IC card,
And applying at least one of the USB signal (D-) of the USB connector to the C8 contact point of the IC card.
The method of claim 1,
And a clock unit configured to generate a clock applied to a C3 contact point of the IC card by using the power applied from the USB connector.
The method of claim 1,
And a reset unit for generating a reset signal to be applied to the C2 contact point of the IC card by using the power applied from the USB connector.
The method of claim 3, wherein the reset unit,
And generating at least one of a USB signal (D +) and a signal (D−) of the USB connector to determine generation of the reset signal.
The method of claim 1,
And a power supply unit for converting power applied from the USB connector into power applicable to the C1 contact point of the IC card.

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