JP2000276566A - Integrated circuit for composite data carrier, and composite data carrier using the circuit - Google Patents

Abstract

PROBLEM TO BE SOLVED: To make switchable a contact type and non-contact type without changing at all the contact type component part of a data carrier by securing the automatic connection between a non-contact terminal part and a contact terminal part via a signal switching part only when a prescribed AC voltage is induced at the non-contact terminal part. SOLUTION: The automatic connection is secured between a non-contact terminal part and a contact terminal part only when the prescribed AC voltage is induced at the non-contact terminal part. This circuit moves an IC card into an active area of a non-contact terminal part of an IC card reader/writer if this card reader/writer operates at the non-contact terminal part. At the same time, the AC voltage is induced at an antenna coil 3 of the IC card and the DC voltage V' + and a signal SE are generated at a DC voltage generation part 5. Thus, a component part functions as a non-contact type data carrier of the IC card and a signal switching part 7 secures the electrical connection between a 1st signal line string 8 and a 2nd signal line string 9.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

The present invention belongs to the technical field of a composite data carrier having both a contact type and a non-contact type function. In particular, the present invention relates to a composite data carrier having a function of automatically switching between a contact type and a non-contact type.

[0002]

2. Description of the Related Art A data carrier is represented by a portable storage medium having a card shape. A so-called IC card or memory card used for a credit card, a cash card, an ID card (identification card), and the like is a type of data carrier. Other than a card, there is a form in which it is incorporated in a watch-like shape and used on an arm. This form of data carrier is used for gate management and the like. Also,
It is known to be used for reading and writing mechanically by incorporating it into a part of a booklet such as a passbook, and for other purposes such as monitoring the behavior of animals by attaching it to an animal in the form of a capsule. ing.

In general, a data carrier has a memory unit for recording electrical information, and especially when security is required, a microprocessor unit is further mounted. The data carrier is provided with external input means for inputting and outputting information to and from an external device. A contact type data carrier has a contact terminal as an external input means, and a non-contact terminal such as an antenna coil is a non-contact type data carrier.

Recently, a composite data carrier having both a contact type and a non-contact type external input means has been known. Further, JP-A-3-209592
As disclosed in Japanese Unexamined Patent Application Publication No. H10-260, there is known a compound data carrier having a function of automatically discriminating and switching between a contact type and a non-contact type by itself. The same publication states that coils (non-contact terminals)
The voltage that is obtained by converting the energy induced into the DC voltage into a DC voltage by a diode capacitor network (rectifier circuit) and the voltage generated at the DC power supply terminal of the contact field (contact terminal section) are compared with a comparison element. Multiplexer element (switching circuit) according to the output of the comparison element
Describes switching between a signal line from the non-contact terminal side and a signal line from the contact terminal side.

[0005]

Problems to be Solved by the Invention
In the case of switching the signal line by the method disclosed in Japanese Patent Application Laid-Open Publication No. H08-209, a signal line from a contact terminal portion is connected to one input side of a switching circuit (a multiplexer is used in the embodiment of the same application), and the other input circuit is used. Side is connected to the signal line from the non-contact terminal portion. The MPU is connected to the output side of the switching circuit.
(Microprocessor unit) and a signal line connected to a memory or the like.
That is, a signal line connected to an MPU, a memory, or the like must be completely cut off from a contact terminal in a conventional contact-type circuit configuration, and a switching circuit must be inserted between the two. This has the problem of requiring a significant change in the conventional circuit pattern. In addition, there is a problem that a means for controlling a switching circuit including a comparison element or the like is required, which complicates the circuit configuration and increases the number of required components.

SUMMARY OF THE INVENTION The present invention has been made to solve the above problems, and can switch between a contact type and a non-contact type without making any change to a contact type component of a data carrier. It is an object of the present invention to provide a composite data carrier integrated circuit and a composite data carrier using the same.

[0007]

The above-mentioned problems are solved by the present invention described below. That is, the integrated circuit for a composite data carrier according to claim 1 of the present invention is used by being connected to a contact terminal for data exchange and energy reception and a non-contact terminal for data exchange and energy reception. An integrated circuit for a composite data carrier, comprising: a DC voltage generator, a signal converter, a first signal line, a second signal line, and a signal switch. The DC voltage generator converts an AC voltage induced in the non-contact terminal into a DC voltage, and the signal converter demodulates a signal from the non-contact terminal and / or modulates a signal to the non-contact terminal. The first signal line train electrically connects the signal conversion unit and the signal switching unit, and the second signal line train electrically connects the contact terminal unit and the signal switching unit. Connected, and the signal switch is The first signal line row and the second signal line row are electrically connected when the DC voltage of the voltage generating section is a specified voltage, and otherwise electrically disconnected. .

According to the present invention, the DC voltage generator converts the AC voltage induced in the non-contact terminal into a DC voltage, and the signal converter demodulates the signal from the non-contact terminal and / or demodulates the signal from the non-contact terminal. The signal is modulated to the signal conversion section, the signal conversion section and the signal opening / closing section are electrically connected by the first signal line array, and the contact terminal section and the signal opening / closing section are electrically connected by the second signal line array. The first signal line array and the second signal line array are electrically connected when the DC voltage of the DC voltage generating unit is a specified voltage by the signal switching unit, and is electrically disconnected otherwise. Is done. That is, the signal switching unit automatically connects the non-contact terminal unit and the contact terminal unit only when a specified AC voltage is induced in the non-contact terminal unit. This connection can be made in such a manner that it is simply branched to a signal line row on the side of the contact terminal section, whereby the non-contact terminal section can serve as a contact terminal section. Accordingly, there is provided an integrated circuit for a composite data carrier which can switch between a contact type and a non-contact type without making any change to the contact type component of the data carrier.

According to a second aspect of the present invention, there is provided an integrated circuit for a composite data carrier according to the first aspect, wherein the first signal line string is formed from the signal conversion section to the signal switching section. Demodulated signal output to
Alternatively, the modulated signal output from the signal switching unit to the signal conversion unit is transmitted. According to the present invention, one or both of the demodulated signal and the modulated signal can be transmitted by the first signal line sequence.

According to a third aspect of the present invention, there is provided an integrated circuit for a composite data carrier according to the first or second aspect, wherein the second signal line array is provided with an I / O of the contact terminal portion. An O control terminal, an R / W control terminal,
This is a signal line array for connecting to a data input / output terminal and a write enable terminal. According to the present invention, it is possible to connect to the I / O control terminal, the R / W control terminal, the data input / output terminal, and the write enable terminal of the contact terminal portion by the second signal line sequence.

According to a fourth aspect of the present invention, there is provided an integrated circuit for a composite data carrier according to any one of the first to third aspects.
A GND connection line is provided for electrically connecting the ND terminal and the GND terminal of the DC voltage generator. According to the present invention, the GND of the contact terminal portion and the GND of the DC voltage generating portion can be shared by the GND connection line.

The integrated circuit for a composite data carrier according to claim 5 of the present invention is the integrated circuit for composite data carrier according to any one of claims 1 to 4, wherein the signal switching unit and the signal conversion unit are connected to each other. The voltage generator operates using the DC voltage obtained by converting the AC voltage as a power supply source. ADVANTAGE OF THE INVENTION According to this invention, the component part of a non-contact terminal part can operate by receiving electric power supply from a non-contact terminal part regardless of the presence or absence of the power supply from a contact terminal part.

According to a sixth aspect of the present invention, there is provided a composite data carrier comprising the integrated circuit for a composite data carrier according to any one of the first to fifth aspects, and a contact terminal portion and a non-contact terminal portion connected to the circuit. It is provided with. According to the present invention, there is provided a composite data carrier capable of switching between a contact type and a non-contact type without making any changes to a contact type component of the data carrier.

In the composite data carrier according to claim 7 of the present invention, the contact terminal portion is electrically connected to a microprocessor unit, and the contact terminal portion is connected to the microprocessor by a non-contact terminal portion. It has a configuration for supplying power to the processor unit. According to the present invention, the non-contact terminal portion is electrically connected to the microprocessor unit by automatic connection.

[0015]

Next, the present invention will be described with reference to embodiments. FIG. 1 shows a basic configuration of the composite data carrier of the present invention. In FIG. 1, 1 is an IC card,
2 is a contact terminal part, 3 is an antenna coil part, 4 is an IC (in
integrated circuit) section. The IC card 1 is a main example of a composite data carrier as described above. As shown in FIG. 1, the IC card 1 has a contact terminal portion 2,
It is constituted by the antenna coil unit 3 and the IC unit 4. The contact terminal section 2 is a contact terminal section for data exchange and energy reception. The antenna coil section 3 is a non-contact terminal section for data exchange and energy reception. The IC unit 4 is a unit that stores and processes data.
The integrated circuit for a composite data carrier of the present invention (described later) is included. In FIG. 1, the IC unit 4 is shown by one block, but may be constituted by a plurality of IC chips or a plurality of modules.

It is not common practice to manufacture an IC card 1 by directly attaching an IC chip or the like to a base material of the IC card.
The base portion of the IC card and the IC module portion are manufactured in different processes, and quality inspection and operation tests are separately performed. Then, the integrated IC card 1 is manufactured by embedding the IC module portion in the base portion of the IC card. In a general manufacturing method, the IC module portion includes all electronic devices, that is, the contact terminal portion 2, the antenna coil portion 3, and the IC portion 4 in FIG.

The IC unit 4 has a function of controlling and storing data, and performing advanced management such as data security management as necessary. Therefore, it is composed of a memory device for storing data and a control device for controlling the memory device. In order to perform advanced management, MPU
Is included in the configuration. A characteristic configuration of an IC card 1 showing an example of the present invention in FIG. 1 is that the IC section 4 includes an integrated circuit for a composite data carrier in the configuration.

Next, an integrated circuit for a composite data carrier according to the present invention will be described. FIG. 2 shows the configuration of the integrated circuit for a composite data carrier of the present invention and its peripheral portion. In FIG. 2, 2 is a contact terminal, 3 is an antenna coil, 5 is a DC voltage generator, 6 is a signal converter, 7 is a signal switch, and 8 is a first switch.
, 9 is a second signal line array, and 10 is a third signal line array. As shown in FIG. 2, the contact terminal unit 2 is an I / O
Control terminal, R / W control terminal, data (serial) terminal, write enable terminal, V +
It has six terminals, a (power) terminal and a GND (ground) terminal. These terminals of the contact terminal unit 2 are connected to an MPU or the like constituting the IC unit 4 by a third signal line array 10.

The contact terminal section 2 is a contact terminal section for data exchange and energy reception. The GND terminal among the contact terminals for receiving energy is electrically connected to the GND terminal in the integrated circuit for a composite data carrier by a GND connection line. The integrated circuit for a composite data carrier includes a DC voltage generator 5, a signal converter 6, and a signal switch 7.

The two lead wires of the antenna coil unit 3 are connected to the DC voltage generator 5 and the signal converter 6 in parallel. The antenna coil section 3 is a non-contact terminal section for data exchange and energy reception. Antenna coil part 3
Are shared for data exchange and energy reception, but they are separated in the frequency and / or time domain. When separating in the frequency domain,
For example, data is exchanged through a high-pass filter (not shown), and energy is received through a low-pass filter (not shown). In the case of separation in the time domain, connection is switched by, for example, a switching circuit (not shown).

The DC voltage generator 5 converts an AC voltage induced in the antenna coil unit 3 into a DC voltage. The DC voltage obtained by this conversion is used for switching control of the signal switching unit 7. A DC voltage (V ′ +) is output to an SE (select enable) terminal of the signal switching unit 7.

The DC voltage obtained by this conversion is a power source for receiving energy. DC voltage generator 5
The DC voltage (V '+) generated at is supplied to the signal switching unit 7, the signal conversion unit 6, and the like. That is, power is supplied to the integrated circuit for the composite data carrier. When the IC card 1 is operated in a non-contact manner using the antenna coil unit 3 without using the contact terminal unit 2, power is also supplied to the MPU and the like of the IC card 1 via the diode D. Sufficient electric power is supplied to the antenna coil unit 3 and the normal I
In using the C card 1, the DC voltage generator 5 has a function of stabilizing the DC voltage to a predetermined voltage value.

The signal converter 6 demodulates a signal from the MPU or the like and / or modulates a signal to the MPU or the like. Two lead wires of the antenna coil unit 3 are connected to SG (signal) terminals of the signal conversion unit 6. The signal demodulated by the signal converter 6 is output to the first signal line array 8. The signal modulated by the signal converter 6 is input from the first signal line array 8.

The signal switching section 7 electrically connects the first signal line row 8 and the second signal line row 9 when the DC voltage of the DC voltage generating section 5 is a specified voltage, and otherwise, the signal Cut. The signal switching unit 7 performs an operation of electrically connecting or disconnecting according to a DC voltage input to the SE terminal. In the example shown in FIG. 2, the DC voltage is directly input to the SE terminal. However, the DC voltage as a power supply and the DC voltage input to the SE terminal have essentially different properties. Therefore, the DC voltage generator 5 can output the signal to the signal switch 7 as a signal of a separate system independent of the DC voltage as the power supply. With this configuration, for example, after a DC voltage (V '+) as a power supply is determined, a signal of a specified voltage is output to the SE terminal with a time delay, so that a reliable operation can be performed.

The first signal line array 8 transmits a demodulated signal output from the signal converter 6 to the signal switch 7 and / or a modulated signal output from the signal switch 7 to the signal converter 8. . The second signal line array 9 electrically connects the MPU and the like to the signal switching unit 7. As shown in FIG. 3, the second signal line array 9 is connected to the I / O control terminal, the R / W control terminal, the data input / output terminal, and the write enable terminal of the contact terminal unit 2.

Although the third signal line array 10 is substantially the same as the second signal line array 9, the third signal line array 10 is usually provided in a contact type IC card having only the contact terminals 2. This is the signal line sequence that is used. This contact type IC
By connecting the second signal line array 9 to the third signal line array 10 constituting the card, an IC card having the contact terminal unit 2 and the antenna coil 3 can be configured. That is, when the integrated circuit for a composite data carrier of the present invention is used, a composite data carrier that can switch between a contact type and a non-contact type without changing the contact type component of the IC card (data carrier) at all is obtained. Can be

The operation of the above configuration will now be described. The IC card 1 exchanges data and receives energy with an IC card reader / writer which is a terminal device of a system using the IC card 1. The IC card 1 is a composite data carrier. When the IC card reader / writer has a contact terminal portion, the IC card 1 operates as a contact type data carrier, and when the IC card reader / writer has a non-contact terminal portion, it operates as a non-contact type data carrier. Normally, an IC card reader / writer has one of a contact terminal portion and a non-contact terminal portion. However, the IC card reader / writer may have both a contact terminal portion and a non-contact terminal portion, and may be configured to use one of them according to the case. However, although it is technically possible for the IC card reader / writer to simultaneously use both the contact terminal portion and the non-contact terminal portion with respect to the IC card 1, it is meaningless and meaningless, so description thereof is omitted here. I do.

First, in the case of an IC card reader / writer that operates in the contact terminal section, the IC card 1 is mounted on the contact terminal section of the IC card reader / writer. As a result, the contact terminal section 2 of the IC card 1
And an IC card reader / writer are electrically connected to perform data exchange and energy reception. At this time, IC
Since no AC voltage is induced in the antenna coil 3 of the card 1, the DC voltage generator 5 does not generate the DC voltage (V '+) and the signal (SE). As a result, the signal switching unit 7 electrically disconnects the first signal line array 8 and the second signal line array 9. Therefore, the components of the IC card 1 as the non-contact type data carrier do not function.

Next, an IC operating at the non-contact terminal portion
In the case of a card reader / writer, the IC card 1
It moves into the operation area of the non-contact terminal section of the card reader / writer. At this time, an AC voltage is induced in the antenna coil 3 of the IC card 1, and the DC voltage generator 5 generates a DC voltage (V '+) and a signal (SE). As a result, a component as a non-contact type data carrier in the IC card 1 functions, and the signal opening / closing section 7 electrically connects the first signal line row 8 and the second signal line row 9. Also,
The DC voltage (V ′ +) is supplied to the MPU or the like of the IC card 1 via the diode D. Therefore, IC card 1
The IC card 1 and the IC card reader / writer are electrically connected by the antenna coil unit 3 to perform data exchange and energy reception. At this time, the contact terminals 2 of the IC card 1 are electrically disconnected, and the IC card 1
Does not function as a contact type data carrier.

[0030]

As described above, according to the integrated circuit for a composite data carrier according to the first aspect of the present invention, the contact type component and the non-contact type can be changed without changing the contact type component of the data carrier at all. The integrated circuit for a composite data carrier capable of switching between the two is provided. According to the integrated circuit for a composite data carrier according to claim 2 of the present invention, one or both of the demodulated signal and the modulated signal can be transmitted by the first signal line sequence. Further, according to the integrated circuit for a composite data carrier according to claim 3 of the present invention, the I / O control terminal of the contact terminal portion, the R / W control terminal, the data input / output terminal, It can be connected to the write enable terminal. According to the integrated circuit for a composite data carrier according to claim 4 of the present invention, the GND of the contact terminal portion and the GND of the DC voltage generating portion can be shared by the GND connection line. According to the integrated circuit for a composite data carrier according to claim 5 of the present invention,
Regardless of whether or not power is supplied from the contact terminal portion, the component of the non-contact terminal portion can operate by receiving power supply from the non-contact terminal portion.

According to the composite data carrier according to the sixth aspect of the present invention, there is provided a composite data carrier capable of switching between the contact type and the non-contact type without making any change to the contact type component of the data carrier. Provided. Further, according to the composite data carrier of the present invention, the non-contact terminal portion is electrically connected to the microprocessor unit by automatic connection.

[Brief description of the drawings]

FIG. 1 is a diagram showing a basic configuration of a composite data carrier of the present invention.

FIG. 2 is a diagram showing a configuration of an integrated circuit for a composite data carrier of the present invention and a peripheral portion thereof.

[Explanation of symbols]

 DESCRIPTION OF SYMBOLS 1 IC card 2 Contact terminal part 3 Antenna coil part 4 IC part 5 DC voltage generation part 6 Signal conversion part 7 Signal opening / closing part 8 1st signal line sequence 9 2nd signal line sequence 10 3rd signal line sequence

Claims (7)

[Claims] An integrated circuit for a composite data carrier used by being connected to a contact terminal for data exchange and energy reception and a non-contact terminal for data exchange and energy reception, comprising a DC voltage generator. , A signal conversion unit, a first signal line sequence, a second signal line sequence, and a signal switching unit, and in a use state, the DC voltage generation unit is induced by the non-contact terminal unit. Converting the AC voltage into a DC voltage, the signal conversion unit demodulates a signal from the non-contact terminal unit and / or modulates a signal to the non-contact terminal unit, and the first signal line train includes the signal A converter for electrically connecting the signal switching unit; the second signal line string electrically connecting the contact terminal unit to the signal switching unit; the signal switching unit for the DC voltage generation unit When the DC voltage of the first Line column and connected the second and a signal line sequence electrically, which electrically disconnected when the other, the complex data carrier integrated circuit, characterized in that. 2. The integrated circuit for a composite data carrier according to claim 1, wherein said first signal line string is a demodulated signal output from said signal conversion unit to said signal switching unit and / or a signal from said signal switching unit. An integrated circuit for a composite data carrier, which transmits a modulated signal output to the signal converter. 3. The integrated circuit for a composite data carrier according to claim 1, wherein said second signal line sequence comprises an I / O control terminal of said contact terminal portion, an R / W control terminal, and a data input / output terminal. An integrated circuit for a composite data carrier, which is a signal line array for connecting to an output terminal and a write enable terminal. 4. The integrated circuit for a composite data carrier according to claim 1, wherein said contact terminal section has a GND.
An integrated circuit for a composite data carrier, comprising: a GND connection line for electrically connecting a terminal to a GND terminal of the DC voltage generator. 5. The integrated circuit for a composite data carrier according to claim 1, wherein said signal switching unit and said signal conversion unit are connected to each other by said DC voltage generation unit converting an AC voltage. An integrated circuit for a composite data carrier, wherein the integrated circuit operates using a voltage as a power supply source. 6. A composite data carrier comprising the integrated circuit for a composite data carrier according to claim 1, and a contact terminal portion and a non-contact terminal portion connected to the circuit. 7. The composite data carrier according to claim 6, wherein said contact terminal portion is electrically connected to a microprocessor unit, and has a configuration for supplying power to said microprocessor unit from a non-contact terminal portion. A composite data carrier characterized by the following.