JP2003141484A - Contact/contactless combined ic card - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a contact/contactless combined IC card capable of performing the transmission/receipt of signals through a contactless interface even if a sufficient power supply cannot be obtained by contactless. SOLUTION: A power is supplied from the power terminal 100 of a contact interface 10 in a communication wait state. When clock signals are not supplied from a clock terminal 101, a control means A controls a power switching circuit 12 and a communication switching circuit 14 to communicate by contactless system using power supply from the contact terminal 100.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a contact interface having both a contact interface for receiving power and transmitting / receiving a signal via a contact terminal and a contactless interface for receiving a power and transmitting / receiving a signal via an antenna. The present invention relates to a contactless composite IC card.

[0002]

2. Description of the Related Art In recent years, an IC card system using an IC card has been widely used for applications such as an entrance / exit management system, a railway ticket gate system, and an FA management system. IC cards include a contact type IC card having a contact terminal and a non-contact type IC card having no contact terminal. Further, in order to reduce the number of cards to be carried, a contact / contactless composite IC card having both functions of a contact IC card and a contactless IC card has been developed.

Conventionally, as this contact / non-contact composite IC card, the one disclosed in Japanese Patent Laid-Open No. 2000-322544 has been known. The composite IC card disclosed in Japanese Unexamined Patent Publication No. 2000-322544 has both a contact interface section and a non-contact interface section on one chip, and a switch for switching a power supply and a signal from each interface. Normally, power supply and signal transmission / reception on the non-contact interface side are selected to perform non-contact communication. Also, when the power supply voltage is applied from the contact terminal,
Alternatively, when the clock signal is detected, the contact interface is selected and communication is performed by the contact method.

[0004]

However, in such a conventional contact / contactless composite IC card, when the contactless method is selected, the power source is always selected to operate from the contactless interface. Therefore, if the contact / contactless combined IC card cannot obtain the sufficient power supply required for the contactless contactlessly, there is a problem that the signal transmission / reception cannot be performed through the contactless interface. is there.

An object of the present invention is to provide a contact / contactless composite IC card capable of transmitting / receiving a signal through a contactless interface even when sufficient power supply cannot be obtained contactlessly. To do.

[0006]

A contact / non-contact composite IC card according to claim 1 of the present invention is a contact interface and an antenna for contacting an electric contact to communicate with an external circuit to access a built-in storage means. A contact / contactless composite IC card equipped with a contactless interface that communicates with an external circuit through a contactlessly via a memory to access a built-in storage means, and supplies a power source necessary for the operation of the internal circuit. A power supply switching unit that selectively switches to the contact interface or the non-contact interface, a communication switching unit that selectively switches a communication method for accessing the storage unit between contact communication and non-contact communication, and an internal circuit state. According to the first state, the power source switching unit and the communication switching unit are controlled to receive electric power in a non-contact manner and perform data communication processing in a non-contact manner. A control unit configured to form a second state in which power is supplied in a contact mode and data communication is processed in a contact mode, and a third state in which power is supplied in a contact mode and data communication is processed in a non-contact mode. It is characterized by

When the composite IC card having the above-mentioned configuration is used, data communication by a non-contact method can be performed while using the power source supplied from the contact terminal, so that sufficient power cannot be supplied from the non-contact communication device. It is possible to perform data communication even at such a distance.

In the contact / non-contact composite IC card according to claim 2 of the present invention, in claim 1, the control means switches the power source according to the state of the internal circuit in addition to the first to third states. Means for controlling the communication means and the communication switching means to receive electric power in a contactless manner and perform data communication processing in a contact manner
It is characterized in that it is configured to form the state of.

A contact / non-contact composite IC card according to a third aspect of the present invention is characterized in that, in the first or the second aspect, the control means is a power supply potential generated by the power generation means of the non-contact interface. The power supply switching means is operated to select the power supply from the contactless interface when the power supply potential does not reach the threshold and to select the power supply from the contact interface when the power supply potential does not reach the threshold value. .

A contact / non-contact composite IC card according to a fourth aspect of the present invention is the contact communication method according to the first or second aspect, wherein the control means controls the contact communication when the supply of the clock signal from the contact of the contact interface is detected. It is characterized in that the communication switching means is operated so as to select the system and select the non-contact communication system when the supply of the clock signal is not detected.

The contact / non-contact composite IC card according to claim 5 of the present invention is the contact / contactless composite IC card according to claim 1 or 2, wherein the control means is used when the amplitude of the AC signal generated in the antenna exceeds a predetermined threshold value. It is characterized in that the non-contact communication method is selected and the communication switching means is operated so as to select the contact communication method when the amplitude of the AC signal does not reach the predetermined threshold value.

According to a sixth aspect of the present invention, there is provided a contact / non-contact composite IC card according to the first or second aspect, wherein the control means is a power supply potential generated by the power generation means of the non-contact interface. When the power supply potential does not reach the predetermined threshold value, the communication switching means is operated so as to select the non-contact communication method when the power supply potential does not reach the predetermined threshold value.

[0013]

BEST MODE FOR CARRYING OUT THE INVENTION Embodiments of the present invention will be described below with reference to FIGS. (Embodiment 1) FIGS. 1 and 2 show a contact / non-contact composite IC card according to (Embodiment 1) of the present invention.

This contact / non-contact composite IC card capable of storing data in the storage device 18 as storage means and reading the data stored in the storage device 18 via the CPU 16 and the logic circuit 17 is a contact interface. In addition to 10 and the non-contact interface 11, a power supply switching circuit 12 as a power supply switching means for selectively switching the supply source of electric power required for the operation of the internal circuit to the contact interface 11 or the non-contact interface 10, and the storage. A communication switching circuit 14 as communication switching means for selectively switching a communication method for accessing the device 18 between contact communication and non-contact communication, and a power supply switching circuit 1 in operation.
The control means A is provided for switching the combination of 2 and the communication switching circuit 14.

The contact interface 10 includes a power supply terminal 100 to which power is supplied and a CLK to which a clock signal is supplied.
Terminal 101, I / O terminal 10 for inputting / outputting data
2. It has an RST terminal 103 to which a reset signal is supplied and a GND terminal 104 to which a ground potential is applied.

The non-contact interface 11 has an antenna 110 for communicating with a reader / writer in a non-contact manner, a resonance capacitor 111 forming a resonance circuit with the antenna 110, and a rectifier for generating power from an AC signal received by the antenna 110. A power supply generation circuit 1 for generating a power supply voltage required inside the IC card from the output of the circuit 112 and the rectification circuit 112.
13, a clock generation circuit 114 that generates a clock signal from a reception signal of the antenna 110, and a modulation circuit 115 that transmits data to the reader / writer via the antenna 110.
And a demodulation circuit 116 for demodulating a signal received from the reader / writer via the antenna 110.

The control means A comprises a power supply level detection circuit 13 and a clock detection circuit 15.
The power supply level detection circuit 13 has a contactless interface 11
Potential of the output of the power supply generation circuit 113 (threshold)
It is to detect whether or not has reached.

The power supply switching circuit 12 includes a power supply terminal 100 of the contact interface 10 and a non-contact interface 11.
The output of the power generation circuit 113 of is connected to the input,
Based on the output from the power supply level detection circuit 13, output O
The output of the power supply generation circuit 113 is connected to the UT as a power supply for supplying the inside of the IC card when the output of the power supply generation circuit 113 reaches a predetermined potential, and the output of the power supply generation circuit 113 has a predetermined potential. When less than, the power supply terminal 100 is connected to the output OUT.

The clock detection circuit 15 is a circuit for detecting whether a clock signal is generated at the CLK terminal 101 of the contact interface 10. The communication switching circuit 14
CLK, I / O, RST of contact interface 11
Of each terminal 101, 102, and 103, the output of the clock generation circuit 114 of the non-contact interface 11, the modulation circuit 1
The input of 15 and the output of the demodulation circuit 116 are connected, and the clock detection circuit 15 is connected to the contact interface 10.
When the clock signal from is detected, the data communication by the contact method is selected, and when not detected, the data communication by the non-contact method is selected.

The CPU 16 and the logic circuit 17 process the data according to the selected communication method, store the data in the storage device 18, and read the data stored in the storage device 18.

The structure of the control means A will be described with reference to the flow chart shown in FIG. In the communication standby state, in (step S1), the power supply level detection circuit 13
Checks whether the power source generated by the contactless interface 11 has reached a predetermined potential.

When it is determined that the threshold value is reached in (step S1), the output of the clock detection circuit 15 is checked in (step S2). When it is determined in (step S2) that the clock signal from the CLK terminal 101 is detected, (step S3) is executed.

In step S3, the power supply switching circuit 12
Is connected to the output OUT by the power supply generation circuit 113, and the power supply inside the IC card is supplied by the power supply from the contactless interface 11.

Next (step S4), the communication switching circuit 14 selects the contact method for data communication. When it is determined that the clock signal from the CLK terminal 101 is not detected in (step S2), (step S5) is executed.

In step S5, the power supply switching circuit 12
Is connected to the output OUT by the power supply generation circuit 113, and the power supply inside the IC card is supplied by the power supply from the contactless interface 11.

Next (step S6), the communication switching circuit 14 selects the non-contact method for data communication.
When it is determined that the threshold value is not reached in (step S1), the clock detection circuit 15 is determined in (step S7).
Check the output of.

When it is determined in step S7 that the clock signal from the CLK terminal 101 is detected,
(Step S8) is executed. In step S8, the power supply switching circuit 12 connects the power supply terminal 100 to the output OUT so that the power supply inside the IC card is the contact interface 10.
It is covered by the power from the power supply terminal 100.

Next (step S9), the communication switching circuit 14 selects the contact method for data communication. When it is determined in (step S7) that the clock signal from the CLK terminal 101 is not detected, (step S10) is executed.

In step S10, the power supply switching circuit 1
2 connects the power supply terminal 100 to the output OUT, and the power supply inside the IC card is the power supply terminal 10 of the contact interface 10.
Powered from zero.

Next (step S11), the communication switching circuit 14 selects the non-contact method for data communication.
With this configuration, the contactless interface 11
If there is no power supply from the contact interface 10 and there is a clock signal and power supply from the contact interface 10 (step S8).
(Step S9) is executed to perform both power supply and data communication by contact.

If power is supplied from the non-contact interface 11 and there is no clock signal from the contact interface 10, (step S5) (step S6).
To perform power supply and data communication in a non-contact manner.

Further, in the communication standby state, when the power source generated by the non-contact interface has reached a predetermined potential, (step S3) is executed to supply power from the non-contact interface to the power source inside the IC card. Was covered by
When the clock signal from the contact interface 10 is detected (step S4), the data communication by the contact method is performed.

In the case where the IC card cannot contactlessly obtain sufficient power supply required internally, the CLK terminal 1
When the clock signal from 01 is not detected, (step S10) and (step S11) are executed, power is supplied from the contact type reader / writer through the power supply terminal 100, and transmitted from the non-contact type reader / writer. When the antenna 110 receives the signal, the data communication is performed by the non-contact method using the power supply from the power supply terminal 100.

In this way, according to the usage state (step S
10) In order to execute (step S11), this contact
This is effective for applications where a contactless composite IC card is mounted on a mobile phone device having a reader / writer function, such as communication with an external contactless communication device while being mounted on the mobile phone device.

More specifically, the present invention is effective when the contact / contactless composite IC card is mounted on a mobile phone device to communicate with a contactless communication device mounted on a vending machine for payment processing.

In this case, the portable telephone device is used as the non-contact communication device of the vending machine, and the non-contact data communication is performed between the contact / non-contact composite IC card and the non-contact communication device of the vending machine. However, the contact / contactless combined IC card requires a power far from the contactless communication device of the vending machine to contactlessly supply power,
Electric power is supplied to the contact / contactless composite IC card from a battery of a mobile phone device through a power supply terminal 100, and the contact / contactless composite IC card receives a request from the vending machine by contactless data communication. To do.

The contact / contactless composite IC card which receives this communicates with the bank via the line of the portable telephone device via the terminal 102 the account number and ID code written in its own storage device 18. The inquiry result received from the bank via the line of the mobile phone device is written into the storage device 18 via the terminal 102. The collation result written in the storage device 18 is transmitted by contactless data communication to the contactless communication device of the vending machine via the antenna 110 of the contact / contactless composite IC card. The non-contact communication device of the vending machine that has received this determines whether the fee can be settled based on the collation result, and pays out the selected product.

Therefore, the usability is improved as compared with the conventional device in which the contactless data communication cannot be performed unless the contactless power is received from the contactless communication device.

(Second Embodiment) FIGS. 2 and 3 show a contact / non-contact composite IC card according to a second embodiment of the present invention.

In the first embodiment, the communication switching circuit 14 switches the data communication system between the contact type and the non-contact type by the output of the clock detection circuit 15, but in the second embodiment, the signal level detection circuit is used. The only difference is that the data communication system is switched between a contact type and a non-contact type according to the output of 31.

The signal level detection circuit 31 includes the antenna 11
It detects whether the amplitude of the signal generated at 0 exceeds a predetermined threshold value. FIG. 4 shows a flowchart of the control means A of this (Embodiment 2).

In the communication standby state (step S1)
At, the power supply level detection circuit 13 checks whether the power supply generated by the contactless interface 11 has reached a predetermined potential.

When it is determined that the threshold value is reached in (step S1), the output of the signal level detection circuit 31 is checked in (step S2a). (Step S2
In a), the signal level detection circuit 31 has the antenna 110
When it is determined that the amplitude of the signal generated at 1 exceeds a predetermined threshold value, (step S5) is executed.

In step S5, the power supply switching circuit 12
Is connected to the output OUT by the power supply generation circuit 113, and the power supply inside the IC card is supplied by the power supply from the contactless interface 11.

Next (step S6), the communication switching circuit 14 selects the non-contact method for data communication. On the other hand, in (step S2a), the signal level detection circuit 3
1 determines that the amplitude of the signal generated in the antenna 110 does not exceed a certain threshold value (step S
Execute 3).

In step S3, the power source switching circuit 12
Is to connect the power supply terminal 100 to the output OUT so that the power supply inside the IC card is the power supply terminal 10 of the contact interface 10.
Powered from zero.

Next (step S4), the communication switching circuit 14 selects the contact method for data communication. If it is determined that the threshold value is not reached in (step S1), the output of the signal level detection circuit 31 is checked in (step S7a).

When the signal level detection circuit 31 determines in step S7a that the amplitude of the signal generated in the antenna 110 exceeds a predetermined threshold value, step S10 is executed.

In step S10, the power source switching circuit 12
With the power supply terminal 100 connected to the output OUT, the power supply inside the IC card is supplied by the power supply from the contact interface 10.

Next (step S11), the communication switching circuit 14 selects the non-contact method for data communication.
On the other hand, when the signal level detection circuit 31 determines in (step S7a) that the amplitude of the signal generated in the antenna 110 does not exceed a predetermined threshold value, (step S8) is executed.

In step S8, the power supply switching circuit 12
Is to connect the power supply terminal 100 to the output OUT so that the power supply inside the IC card is the power supply terminal 10 of the contact interface 10.
Powered from zero.

Next (step S9), the communication switching circuit 14 selects the contact method for data communication. With this configuration, the contact / non-contact composite IC card is mounted on a mobile phone device or the like having a reader / writer function, and the contact / non-contact composite IC card is connected to the contact / non-contact composite IC card from the battery of the mobile phone device via the power supply terminal 100. In applications such as usage in which electric power is supplied to communicate with an external contactless communication device while being attached to a mobile phone device, the contact communication device is approaching a distance at which contactless power supply can be received. If not, (step S10) and (step S11) can be executed to perform non-contact data communication, and the usability is greatly improved as in the case of the first embodiment.

In this (Embodiment 2), in (step S2a) or (step S7a), it is determined whether the signal level detection circuit 31 has an amplitude of the signal generated in the antenna 110 exceeding a predetermined threshold value. The check is made, but instead of this, the configuration is such that the level of the DC signal rectified and smoothed by the rectifying circuit 112 is detected and the communication switching circuit 14 is controlled.

Further, in each of the above-mentioned embodiments, the control means A has the power supply switching circuit 12 and the communication switching circuit 1 according to the state of the internal circuit of the contact / non-contact composite IC card.
4 to execute (step S5) and (step S6) to receive power in the non-contact method and perform data communication processing in the non-contact method, and execute (step S8) and (step S9). A second state in which power is supplied in the contact method and data communication processing is performed in the contact method, and (step S10) and (step S11) are performed to receive power in the contact method and perform data communication processing in the non-contact method The third state, (step S3) and (step S4) are executed to form a fourth state in which power is received in a non-contact manner and data communication processing is performed in a contact manner. Is not mandatory.

[0055]

As described above, the contact / contactless composite IC card of the present invention can perform contactless communication by using the power source supplied from the contact terminal. Therefore, data communication can be performed even at a distance where sufficient power cannot be supplied from the non-contact communication device, and the communication distance in non-contact communication can be expanded. It is particularly effective in applications such as a composite IC card that is mounted in a mobile phone device having a reader / writer function, such as a composite IC card that allows communication with an external non-contact communication device while being mounted in the mobile phone device.

[Brief description of drawings]

FIG. 1 is a configuration diagram of a contact / non-contact composite IC card according to (Embodiment 1) of the present invention.

FIG. 2 is a flowchart of a control circuit of the same embodiment.

FIG. 3 is a configuration diagram of a contact / non-contact composite IC card according to (Embodiment 2) of the present invention.

FIG. 4 is a flowchart of the control circuit of the same embodiment.

[Explanation of symbols]

10 contact interface 11 Non-contact interface A control means 100 power supply terminal 101 CLK terminal 102 I / O terminal 103 RST terminal 104 GND terminal 110 antenna 111 Resonance capacity 112 Rectifier circuit 113 power generation circuit 114 clock generation circuit 115 Modulation circuit 116 Demodulation circuit 12 Power supply switching circuit (power supply switching means) 13 Power supply level detection circuit 14 Communication switching circuit (communication switching means) 15 Clock detection circuit 18 storage 31 Signal level detection circuit

Claims (6)

[Claims] 1. A contact interface for contacting an electric contact to communicate with an external circuit to access a built-in storage means. A contact interface for communicating with an external circuit via an antenna and a non-contact for accessing a built-in storage means. A contact / contactless composite IC card equipped with a contact interface, the power supply switching unit selectively switching a power supply source required for operating an internal circuit to the contact interface or the contactless interface, and the storage unit. Communication switching means for selectively switching the communication method for accessing to the contact communication and the non-contact communication, and the power supply switching means and the communication switching means are controlled according to the state of the internal circuit to supply power in the non-contact method. The first state of receiving and performing data communication processing in a non-contact method, the second state of receiving power from the contact method and performing data communication processing in a contact method, and Third to data communication processing in a non-contact manner by receiving the power supply in a manner
The contact / non-contact composite IC card having a control means configured to form 2. The control means controls the power supply switching means and the communication switching means in accordance with the state of an internal circuit in addition to the first to third states to receive power in a non-contact manner and contact manner. The contact / noncontact composite IC card according to claim 1, wherein the contact / noncontact composite IC card is configured to form a fourth state in which data communication processing is performed. 3. The control means selects power supply from the non-contact interface when the power supply potential generated by the power generation means of the non-contact interface exceeds a predetermined threshold value, and selects the power supply from the non-contact interface when the power supply potential does not reach the threshold value. The contact / contactless composite I according to claim 1 or 2, wherein the power supply switching means is operated so as to select the power supply from the contact interface.
C card. 4. The communication so that the control means selects a contact communication system when supply of a clock signal from the contact of the contact interface is detected, and selects a contactless communication system when supply of the clock signal is not detected. The contact / non-contact composite IC card according to claim 1 or 2, wherein the switching means is operated. 5. The control means selects a non-contact communication method when the amplitude of the AC signal generated in the antenna exceeds a predetermined threshold value, and the contact communication when the amplitude of the AC signal does not reach the predetermined threshold value. The contact / non-contact composite IC card according to claim 1 or 2, wherein the communication switching means is operated to select a method. 6. The control means selects a non-contact communication method when the power supply potential generated by the power generation means of the non-contact interface exceeds a predetermined threshold value, and when the power supply potential does not reach the predetermined threshold value. The contact / non-contact composite IC card according to claim 1 or 2, wherein the communication switching means is operated to select a contact communication method.