JPH04192091A - Ic card device - Google Patents

Abstract

PURPOSE:To simplify the circuit configuration of an IC card to make the IC card small in size and thin by subjecting a power transmission wave to angle modulation by data on the main body side to transmit it to the IC card side. CONSTITUTION:A controller 1 includes a clock circuit 11 which generates a pulse signal to be the carrier of the power transmission wave, a counter 12, a CPU 13 which outputs data to be transmitted to an IC card 2, a modulating circuit 14 which subjects the pulse signal to phase modulation by data, an amplifying circuit 15, and a transmission coil 16. The IC card 2 includes a reception coil 21, a rectifying circuit 22 which rectifies the received transmission wave, a constant voltage circuit 23 which takes out power required for each circuit of the IC card 2, a demodulating circuit 24 which demodulates the transmission wave, and a CPU 25 which decodes the modulated data signal. It is unnecessary to provide the IC card with a large-capacity capacitor because the amplitude of the power transmission wave is fixed, and the IC card is made small in size and thin.

Description

DETAILED DESCRIPTION OF THE INVENTION [Field of Industrial Application] The present invention relates to an IC card device, and particularly to an IC card device that performs data transmission between an IC card and a main unit.

[Prior Art] Recently, IC cards that do not have contact terminals for electrical connection with a card reader/writer and can perform data transmission in a non-contact manner are known. FIG. 4 is a schematic block diagram showing the configuration of such a conventional IC card and the configuration of a controller including a card reader/writer.

In FIG. 4, the controller 3 includes a power transmission section 31 and a data transmission section 32. The power transmission section 31 includes an oscillation circuit 33 that generates a carrier for power transmission, and an amplifier circuit 34.
and a transmitting coil 35 for transmitting power transmission waves. The data transmission unit 32 includes a clock circuit 36 and a counter 38 that generate carriers for data transmission, a CPU 37 that outputs data to be transmitted, a modulation circuit 39 that modulates the data transmission carrier with a data signal, and a modulated data transmission It includes an amplifier circuit 40 for amplifying waves, and a transmitting coil 41 for transmitting the amplified data transmission waves.

On the other hand, the IC card 5 includes a power supply section 51 and a data reception section 52.
including. The power supply section 51 includes a receiving coil 53 for receiving power transmission waves transmitted from the controller 3, a rectifier circuit 54 for rectifying the received power transmission waves, and a DC power supplied from the rectifier circuit 54. It includes a constant voltage circuit 55 for extracting the power necessary for each circuit of the IC card. The data receiving section 52 includes a receiving coil 56 for receiving a data transmission wave transmitted from the controller 3, an amplifying circuit and a filter circuit 57 for amplifying the received data signal and removing noise, and an amplifying circuit and a filter circuit 57 for amplifying the received data signal and removing noise.・
It includes a demodulation circuit 58 for demodulating the signal passed through the filter circuit 57, and a CPU 59 for decoding the data signal provided from the demodulation circuit 58.

As described above, in the system shown in FIG. 4, the power transmission wave and the data transmission wave have separate carrier frequencies, and are individually transmitted between the controller 3 and the IC card 5.

[Problems to be Solved by the Invention] However, the configuration shown in FIG. 4 does not include an amplifier circuit for amplifying weak data transmission waves on the IC card side, or an amplifier circuit for separating power transmission waves and data transmission waves. Since a filter circuit is required, there is a problem that the scale of the circuit becomes large and the cost increases.

Furthermore, when viewed from the data transmission wave side, all power transmission waves become noise, resulting in a problem that data transmission quality deteriorates.

In order to solve the above-mentioned problems, it is conceivable to amplitude modulate the power transmission wave with data and superimpose data on the power transmission wave and transmit it, but in this case, the power transmitted to the IC card Since the amplitude of the transmission wave changes, it is necessary to provide a large capacity capacitor on the IC card side in order to supply stable power to the IC card, which hinders miniaturization and thinning.

Therefore, an object of the present invention is to provide an IC with a simple circuit configuration.
An object of the present invention is to provide an IC card device capable of transmitting power transmission waves and data transmission waves to a card.

[Means for Solving the Problems] The present invention is an IC card device that performs data transmission between an IC card and a main unit, and the main unit has an output that outputs power to be supplied to the IC card as a power transmission wave. a modulation means for angularly modulating the power transmission wave from the pressure means with data to be transmitted to the IC card; and a transmission means for transmitting the power transmission wave modulated by the modulation means to the IC card. Equipped with

The IC card also includes a receiving means for receiving the power transmission wave transmitted from the main unit, a means for demodulating the data signal from the power transmission wave received by the receiving means, and a receiving means for receiving the power transmission wave by the receiving means. IC from the transmitted power transmission wave
and means for extracting the power necessary for the card.

[Operations] In this invention, the power transmission wave is angularly modulated with data on the main body side and transmitted to the IC card side.

[Embodiment of the Invention] FIG. 1 is a schematic block diagram showing the configuration of an embodiment of the invention. In FIG. 1, a controller 1 includes a clock circuit 11 and a counter 12 that generate a pulse signal as a carrier of a power transmission wave, a CPU 3 that outputs data to be transmitted to an IC card 2, and a CPU 13 that uses data to generate pulse signals. Modulation circuit 14 that frequency modulates the signal
, an amplifier circuit 15 for amplifying the modulated signal, and a transmitting coil 16 for transmitting the amplified power and data transmission waves to the IC card 2 . Frequency modulation circuit 14
Instead, a phase modulation circuit may be used.

On the other hand, the IC card includes a receiving coil 21 that receives power and data transmission waves transmitted from the controller 1, and a rectifier circuit 22 that rectifies the received transmission waves.
The IC card 2 is converted from the power rectified by the rectifier circuit 22.
a constant voltage circuit 23 for extracting the power necessary for each circuit; a demodulation circuit 24 for demodulating the received transmission wave into a data signal; and a C circuit for decoding the demodulated data signal.
PU25.

In Figure 1, on the controller side, a pulse signal with a constant amplitude that serves as the carrier of the power transmission wave is frequency-modulated or phase-modulated with data and transmitted as a power transmission wave, so the amplitude of the power transmission wave is not constant. To be, I
There is no need to provide a large capacity capacitor on the C card side. Therefore, the IC card can be made smaller and thinner.

Furthermore, frequency modulation or phase modulation allows data to be transmitted at high speed. Furthermore, since an amplifier circuit for amplifying data signals and a filter circuit for removing noise are not required, the circuit configuration of the IC card becomes simple.

FIG. 2 is a diagram for explaining the transmission sequence between the controller and the IC card shown in FIG. 1, and FIG. 3 is a flow diagram for explaining the operation of the controller and the IC card shown in FIG. It is.

Next, the operation of one embodiment of the present invention will be described with reference to FIGS. 1 to 3.

First, a power transmission wave is generated on the controller 1 side. At this time, no data is being output from the CPU II of the controller 1. Therefore, from the controller 1 side
As shown in FIG. 2(a), an unmodulated power transmission wave is transmitted to the C card 2 side.

The controller 1 starts timing at the same time it starts transmitting the unmodulated power transmission wave in order to check whether a signal indicating power ON from the IC card 2 is transmitted within a certain period of time. When the CPU 25 of the IC card 2 is supplied with a predetermined power from the constant voltage circuit 23 by transmitting a power transmission wave, it transmits a signal indicating that the power has been turned on to the controller 1 from a transmission circuit (not shown). This state is shown in FIG. 2(b).

The controller 10 CPU 13 checks whether the above signal transmitted from the IC card 2 has been received or not, and if it is not received within a predetermined clocked time, requests the IC card to retransmit it. On the other hand, if the above signal is received within the predetermined time period, the CPU 13 of the controller 1 starts outputting data, and thereby data is transmitted between the controller 1 and the IC card 2.

In this data transmission, when data is transmitted from the controller 1 to the IC card 2, the data transmission shown in Fig. 2 (c
), a transmission wave angle-modulated with data is transmitted. In addition, when data is transmitted from the IC card 2 to the controller 1, the controller 1
An unmodulated power transmission wave is transmitted to the C card 2, as shown in FIG. 2(d).

[Effects of the Invention] As described above, according to the present invention, since the power transmission wave is angularly modulated with data on the main body side and transmitted to the IC card side, a large-capacity capacitor is installed on the IC card side. Since there is no need to provide an amplifier circuit for amplifying data signals and a filter circuit for removing noise, the circuit configuration of the IC card is simplified and the IC card can be made smaller and thinner.

[Brief explanation of the drawing]

FIG. 1 is a schematic block diagram showing the configuration of an embodiment of the present invention. FIG. 2 is a diagram for explaining the transmission sequence between the controller and the IC card shown in FIG. 1. FIG. 3 is a flow diagram for explaining the operations of the controller and IC card shown in FIG. 1. Figure 4 is a conventional IC
FIG. 2 is a schematic block diagram showing the configuration of a card and the configuration of a controller. In the figure, 1 is a controller, 2 is an IC card, 11
is a clock circuit, 12 is a counter, 13 is a CPU, 14
15 is a frequency modulation circuit, 15 is an amplifier circuit, 16 is a transmitting coil, 21 is a receiving coil, 22 is a rectifier circuit, 23 is a constant voltage circuit, 24 is a demodulating circuit, and 25 is a CPU. Patent applicant OMRON Corporation -2\1 Figure 1 Figure 2 Figure 3

Claims (1)

[Claims] An I that performs data transmission between an IC card and a main device.
A C card device, the main body device comprising: an output means for outputting power to be supplied to the IC card as a power transmission wave; and an angle of the power transmission wave from the output means with data to be transmitted to the IC card. a modulating means for modulating the power transmission wave; and a transmitting means for transmitting the power transmission wave modulated by the modulation means to the IC card, and the IC card receives the power transmission wave transmitted from the main body device. receiving means for demodulating a data signal from the power transmission wave received by the receiving means; and means for demodulating the data signal from the power transmission wave received by the receiving means.
and means for extracting the power necessary for the card.
C card device.