JPH07282212A - Noncontact ic card - Google Patents

Abstract

PURPOSE:To provide the noncontact IC card which enables internal data to be read out of its memory even if a noncontact type transmission and reception part for transmitting and receiving the data of the noncontact IC card to and from the outside gets out of order. CONSTITUTION:A CPU 3 makes a memory management part 2 to read data out of the memory 1 and outputs the data to the noncontact transmission and reception part 4, which outputs the data to the outside. When the transmission and reception part 4 receives data, the data are stored in the memory 1 through the memory management part 2. When no data are inputted to or outputted from the noncontact transmission and reception part 4, the CPU 3 judges that the transmission and reception part 4 gets out of order, and switches the transmission and reception of the data to a stand-by noncontact transmission and reception part 5. Data are transmitted and received through the stand-by transmission and reception part 5 thereafter.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a contactless IC for transmitting / receiving information stored in a memory to / from the outside by contactless communication.
More specifically, the present invention relates to a non-contact type IC card capable of reading data stored in a memory even if a non-contact type transmitting / receiving unit for transmitting / receiving data to / from the outside fails.

[0002]

2. Description of the Related Art Conventionally, in non-contact type IC cards, there is a non-contact type IC card in which the strength of the IC card itself is increased as a means for preventing a failure of an internal transmitting / receiving circuit and a failure of the internal IC itself. 56-88583). Also, IC
A technique for detecting a card failure is also known (Japanese Patent Application Laid-Open No. Hei 4-
173194). Further, there is also proposed an IC card in which a plurality of the same elements are arranged to improve the reliability of the IC card (Japanese Patent Laid-Open No. 63-7469).
6). Furthermore, by providing two storage areas in the memory and alternately storing data in these two areas, even if the stored data in one area is abnormal, the data can be read from the other area. I made it possible
A C card has also been proposed (JP-A-4-34499).
3).

[0003]

However, in the contactless communication type IC card having the built-in memory as described above, a failure occurs in the contactless transmission / reception section or a failure occurs in the internal circuit. In this case, even if the memory itself is sound, the data stored in the memory cannot be transmitted / received and cannot be read.

The present invention has been made in view of the above problems, and a contactless IC capable of reading data stored in a memory even when a failure occurs in a normal circuit.
The purpose is to provide a card.

[0005]

A first non-contact type IC card according to the present invention has a memory for storing data, a memory management unit for managing input / output of data to / from the memory, and a data externally. A data transmission / reception unit that transmits data and receives data from the outside, a backup data transmission unit that transmits data to the outside, and normally transmits / receives data to / from the outside via the data transmission / reception unit. And a control unit for controlling the data in the memory to be transmitted to the outside via the spare data transmission unit.

A second non-contact type IC card according to the present invention has a memory for storing data, a memory management unit for managing input / output of data to / from the memory, and an external device for transmitting and receiving data. A data transmission / reception unit for receiving data from the outside, a spare data transmission / reception unit for transmitting data to the outside and receiving data from the outside, and usually transmitting / receiving data between the outside via the data transmission / reception unit, And a control unit that controls to transmit and receive the data of the memory to and from the outside through the spare data transmission and reception unit when the data transmission and reception unit fails.

Further, a third non-contact type IC card according to the present invention has a memory for storing data, a memory management unit for managing input / output of data to / from this memory, and an external device for transmitting and receiving data. A data transmission / reception unit that receives data from the memory, a temporary storage unit that can temporarily store the data in the memory, and a control signal from the outside that contacts the external terminal and outputs the data in the memory to the temporary storage unit. It has a contact-type input terminal for inputting, and a contact-type output terminal for coming into contact with an external terminal and outputting the data stored in the temporary storage unit to the outside.

In the third non-contact type IC card, the control signal may include a power supply voltage and a clock signal.

[0009]

In the non-contact type IC card according to the present invention,
Normally, when data is externally input via the data transmission / reception unit, the control unit stores this data in the memory via the memory management unit.

When the data in the memory is output to the outside, the control unit causes the memory management unit to read the data from the memory, and transmits the data to the outside via the data transmission / reception unit.

However, when a failure occurs in the data transmitting / receiving unit, the internal circuit or the wiring portion other than the memory, and it becomes impossible to transmit / receive the data via the regular data transmitting / receiving unit, in the first invention of the present application. The control unit outputs the data in the memory to the preliminary data transmission unit. As a result, the data stored in the memory of the IC card is transmitted to the outside from the spare data transmission unit.

Further, in the second aspect of the present invention, when the data transmitting / receiving unit via the regular data transmitting / receiving unit is disabled, the control unit switches from the regular data transmitting / receiving unit to the spare data transmitting / receiving unit, and thereafter the spare data transmitting / receiving unit is operated. Data is transmitted / received between the memory and the outside via the data transmission / reception unit.

Further, in the third invention of the present application, a temporary storage unit is provided between the memory and the data transmission / reception unit so that the data in the memory is temporarily stored in the temporary storage unit, and the data in the memory is transferred via the data transmission / reception unit. When it becomes impossible to read out, input a control signal including a power supply voltage and a clock signal from the outside through a contact type input terminal,
The data in the memory is output to the temporary storage unit, and the data is output from the temporary storage unit to the contact output terminal. As a result, data can be read to the outside via the contact output terminal.

[0014]

Embodiments of the present invention will be specifically described below with reference to the accompanying drawings. 1 is a block diagram showing a circuit configuration of a non-contact type IC card according to a first embodiment of the present invention, and FIG. 2 is a plan view showing the device structure thereof. As shown in FIG. 1, in the non-contact type IC card of the present embodiment, the non-contact type transmitting / receiving section 4 transmits data to the outside and receives data from the outside. The memory management unit 2 manages data input / output to / from the memory 1,
The memory 1 stores the data input from the memory management unit 2. The CPU 3 controls these data input / output. In this embodiment, spare non-contact type transmitting / receiving sections 5 and 6 are provided, and like the non-contact type transmitting / receiving section 4, the spare non-contact type transmitting / receiving sections 5 and 6 transmit / receive data to / from the outside. It can be performed. The CPU 3 also controls the data input / output of these spare non-contact type transmission / reception units 5 and 6.

As shown in FIG. 2, the IC card 7 is in the shape of a rectangular plate, the surface of which is divided into three regions, and ring-shaped antennas 8, 9 and 10 are arranged in each region. An internal circuit 11 including a memory 1, a memory management unit 2 and a CPU 3 is arranged in the central portion of the area surrounded by the antenna 8 so as to come into contact with the inner edge of the antenna 8 so as to be a normal non-contact area. A mold transceiver 4 is provided. The other antennas 9 and 10 are also provided with spare non-contact type transmission / reception units 5 and 6 so as to contact the inner edges thereof. The transmitters / receivers 4, 5, 6 are antennas 8, 9, 10 respectively.
Is connected to the internal circuit 1 via the wiring 13.
1 is connected to the CPU 3.

Next, the I of this embodiment constructed as described above
The operation of the C card will be described together with the control mode of the CPU 3. Normally, the CPU 3 causes the data of the memory 1 read by the memory management unit 2 to be transmitted to the outside via the transmission / reception unit 4. Further, the data received via the transmission / reception unit 4 is output to the memory management unit 2, and the memory management unit 2 inputs this data into the memory 1 to store it. The signal from the transmitting / receiving unit 4 is input to the CPU 3, and the CP
As long as the signal from U3 to the transmitter / receiver 4 is input to the transmitter / receiver 4, such operation is continued.

However, when the input / output to / from the transmitter / receiver 4 is disabled, the CPU 3 determines that the transmitter / receiver 4 has failed, the wiring between the CPU 3 and the transmitter / receiver 4 has been cut, or the antenna 8 It is determined that a failure has occurred and transmission and reception of data from the transmission / reception unit 4 has become impossible.
Data is input / output between the memory management unit 2 and the spare data transmission / reception unit 5 via the CPU 3. That is, the data transmission / reception is switched to the spare non-contact transmission / reception unit 5.

As a result, even if transmission / reception of data from the transmission / reception unit 4 becomes impossible, data transmission / reception can be performed via the transmission / reception unit 5, and the use of the IC card can be continued. If the transceiver 5 fails, the CP
U3 is further switched to another transmitting / receiving unit 6 to transmit / receive data. Therefore, after switching to the transmission / reception unit 6, the data in the memory 1 is transferred to a new IC card, and the IC card in which the two transmission / reception units 4 and 5 have failed is discarded so that the data cannot be read. It is possible to avoid the situation.

FIG. 3 is a block diagram showing the circuit structure of a non-contact type IC card according to the second embodiment of the present invention, and FIG. 4 is a plan view showing the device structure thereof. As shown in FIG. 3, in the non-contact type IC card of the present embodiment, the non-contact type transmitting / receiving unit 20 transmits data to the outside and receives the data from the outside. The memory management unit 18 manages the input / output of data with respect to the memory 14, and the data from the transmission / reception unit 20 is input to and stored in the memory 14 via the temporary storage device 16. On the other hand, the memory management unit 18 temporarily stores the data read from the memory 14 in the temporary storage device 16, and then outputs the data to the transmission / reception unit 20 via the CPU 19. The CPU 19 controls input / output of these data.

On the other hand, a contact type external input terminal 15 and a contact type external output terminal 17 are connected to the temporary storage device 16. An external control signal is input to the external input terminal 15 and read from the memory 14. The data is output to the external output terminal 17 via the temporary storage device 16.

As shown in FIG. 4, the IC card 27 has a rectangular plate shape, and a ring-shaped antenna 24 is formed on the surface thereof.
Are arranged. An external input terminal 15 and an external output terminal 17 that can contact an external terminal are provided at one end of the IC card 27 in the longitudinal direction. A memory 14 is arranged in a region surrounded by the antenna 24, and an internal circuit 22 including a memory management unit 18 and a CPU 19 and a temporary storage device 16 are arranged in the vicinity of the memory 14.
The memory 14 is connected to the temporary storage device 16 via the wiring 29. Further, the temporary storage device 16 is connected to the internal circuit 22 by the wiring 32. CPU of internal circuit 22
Reference numeral 19 is connected to the antenna 24 by the wiring 28.
The temporary storage device 16 is connected to the external input terminal 15 and the external output terminal 17 via wirings 30 and 31, respectively.

Next, the I of this embodiment constructed as described above.
The operation of the C card will be described together with the control mode of the CPU 19. The CPU 19 transmits / receives data via the non-contact type transmitting / receiving unit 20 as in the first embodiment. Then, after the data in the memory 14 is once input to the temporary storage device 16, the memory management unit 18 stores the data in the temporary storage device 16.
Further, the data output to the transmission / reception unit 20 via the CPU 19 and the data input from the transmission / reception unit 20 are input to the memory 14 via the CPU 19, the memory management unit 18, and the temporary storage device 16.

On the other hand, the transmitter / receiver 20 by the CPU 19 due to a failure of the transmitter / receiver 20, the memory manager 18 or the CPU 19 or the wirings 28, 32 or the antenna 24.
When the data transmission / reception operation from the device becomes impossible, a data output control signal including a power supply voltage and a clock signal is input to the temporary storage device 16 via the external input terminal 15 to control the temporary storage device 16. Memory 14
The content of is output to the external output terminal 17. This allows
The data in the memory 14 can be output to an external device and read via the external output terminal 17.

[0024]

As described above, according to the present invention,
As long as the memory part is not physically destroyed, the data stored in the memory can be read even if the internal circuit or wiring of the transmitter / receiver circuit or the transmitter / receiver circuit and the memory management circuit is damaged, and the reliability is excellent. A contact communication type IC card can be obtained.

[Brief description of drawings]

FIG. 1 is a block diagram showing a non-contact type IC card according to a first embodiment of the present invention.

FIG. 2 is a plan view of the same.

FIG. 3 is a block diagram showing a non-contact type IC card according to a second embodiment of the present invention.

FIG. 4 is a plan view of the same.

[Explanation of symbols]

 1, 14; memory 2, 18; memory management unit 3, 19; CPU 4, 20; non-contact type transmitting / receiving unit 5, 6; spare non-contact type transmitting / receiving unit 7, 27; non-contact type IC card 8, 9, 10, 24; Antenna 11; Control unit 13, 28, 29, 30, 31, 32; Wiring 15; Contact type external input terminal 16; Temporary storage device 17; Contact type external output terminal 22; Internal circuit

Claims (4)

[Claims] 1. A memory for storing data, a memory management unit for managing input / output of data to / from this memory, a data transmitting / receiving unit for transmitting data to the outside and receiving data from the outside, and data for the outside. And the data is transmitted and received between the spare data transmitting unit and the outside via the data transmitting / receiving unit, and when the data transmitting / receiving unit fails, the data in the memory is transferred via the spare data transmitting unit. A non-contact type IC card having a control unit for controlling to transmit to the outside. 2. A memory for storing data, a memory management unit for managing input / output of data to / from this memory, a data transmission / reception unit for transmitting data to the outside and receiving data from the outside, and data for the outside. And a spare data transmitter / receiver that receives data from the outside and normally transmits / receives data to / from the outside via the data transmitter / receiver, and the spare data transmitter / receiver when the data transmitter / receiver fails A non-contact type IC card, comprising: a control unit that controls to transmit and receive the data of the memory to and from the outside via the. 3. A memory for storing data, a memory management unit for managing input / output of data to / from this memory, a data transmission / reception unit for transmitting data to the outside and receiving data from the outside, and the memory of the memory. A temporary storage unit capable of temporarily storing data, a contact type input terminal for externally inputting a control signal that contacts an external terminal to output the data of the memory to the temporary storage unit, and a contact type external terminal A non-contact type IC having a contact type output terminal for outputting the data stored in the temporary storage unit to the outside.
card. 4. The contactless I according to claim 3, wherein the control signal includes a power supply voltage and a clock signal.
C card.