JPH0754539B2 - Information card - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION Industrial Field of the Invention The present invention relates to office automation (Office Autom).
ation, OA) Factory Automation (Factory
Information cards such as IC cards used in the field of automation, FA, etc., especially non-power sources (without batteries) without contact terminals for power supply and signal input / output, non-contact type capacitive coupling power supply, The present invention relates to a reception / contactless transmission type information card.

(Prior Art) In a general information card, an integrated circuit such as a semiconductor memory is built in a card body made of plastic or the like, and a contact terminal with an external device is provided on the card surface.

Conventionally, as the technology in this field, Nikkei Mechanical, (1985-10-21) Nikkei McGraw-Hill "IC card"
P.167-170, Nikkei Electronics, (1985-12-
2) Nikkei McGraw-Hill “Electronics manufacturer that sinks into the IC card market (above)” P.275-292, Nikkei Electronics, (1985-12-6) Nikkei McGraw-Hill “Electronics manufacturer that sinks into the IC card market (below)” Some were described on P.249-262. Less than,
The configuration will be described with reference to the drawings.

FIG. 2 is a block diagram showing a configuration example of a conventional information card, and FIG. 3 is a perspective view showing an implementation example thereof.

In FIG. 2, 1 is an external device for reading and writing information, 2 is an information card, and DC power VC, E is supplied from the external device 1 to the information card 2 and the external device 1 Input / output signals between information cards 2 I / O 1 to I / O
n is given and received.

As shown in FIGS. 2 and 3, the information card 2 has a rectangular card body 3 made of plastic or the like, and the card body 3 has a plurality of power sources and signals exposed on its surface. The contact type terminal 4 is provided, and an electronic integrated circuit (hereinafter referred to as IC) 5 is provided inside.
The IC 5 has a semiconductor memory 6 and a microprocessor 7 that controls writing and reading of information to and from the memory 6.

When this type of information card 2 is inserted into the external device 1, the terminal 4 on the card 2 side comes into contact with the terminal on the external device 1 side, and the information stored in the memory 6 is passed through these terminals 4 and the like to the external device 1. 1 or read the information on the external device 1 side into the memory 6.

(Problems to be Solved by the Invention) However, in the information card having the above configuration, since the terminal 4 is exposed to the outside, contact failure due to dirt, oxidation, corrosion, wear, etc. of the terminal contact portion, and leakage current. There was a problem in reliability due to malfunctions caused by, and IC5 breakdown due to static electricity and external voltage.

Therefore, for example, JP-A-59-60783 and JP-A-58-1
The reliability problem described above can be solved by applying the technique described in Japanese Patent No. 51722, etc., which transmits power and information in a contactless manner without providing a terminal contact portion.

However, since the information card 2 is thin and small, the information receiving path from the external device 1 and the information transmitting path to the external device 1 are close to each other, so that interference may occur between the reception and the transmission of the information. However, there is a problem in that the transmission accuracy of the is reduced. Further, if it is attempted to prevent this, the circuit configuration such as modulation and demodulation becomes complicated, and a new problem that the information card 2 becomes thicker or larger occurs, and an information card that is still technically sufficiently satisfactory is created. It was difficult to get.

The present invention solves the problems that the above-mentioned conventional art has, that it is difficult to obtain an information card that has a simple circuit configuration, is small and thin, and can transmit power and information in a contactless and accurate manner. The information card is provided.

(Means for Solving Problems) In order to solve the above problems, the first invention is to input electric power on which signals are superimposed by capacitive coupling in an information card for reading information or for reading and writing. Electrode plate, a demodulation circuit that demodulates only an electrical signal from the output of the electrode plate, a memory that stores information, a memory control circuit that controls the operation of the memory based on the output signal of the demodulation circuit, and a light emitting element Comprised of a drive circuit and a light emitting element,
An electric signal / transmission signal converter for converting the output signal of the memory control circuit into a transmission optical signal and transmitting the signal, and the demodulation circuit, the memory, the memory control circuit and the electric signal by inputting the output of the plate. And a power supply circuit that supplies power to the transmission signal converter. Then, the demodulation circuit, the memory, the memory control circuit, the electric signal /
The transmission signal converter and the electric power supply circuit are configured by an optoelectronic integrated circuit, and the optoelectronic integrated circuit and the electrode plate are
It is stored in the card body.

In the information card of the second invention, a polar plate for inputting electric power on which signals are superimposed by capacitive coupling, a demodulation circuit for demodulating only an electric signal from an output of the polar plate, a memory for storing information, and the demodulation A memory control circuit that controls the operation of the memory based on the output signal of the circuit, a modulation circuit that modulates the output signal of the memory control circuit and converts it to a transmission signal, and a drive that generates a drive signal based on the transmission signal An electric signal / transmission signal converter which is composed of a circuit and an ultrasonic wave generation element which generates a transmission ultrasonic wave signal based on the drive signal, and which converts the output signal of the memory control circuit into the transmission ultrasonic wave signal and sends out the transmission ultrasonic wave signal. A power supply circuit for inputting the output of the electrode plate to supply power to the demodulation circuit, the memory, the memory control circuit, and the electric signal / transmission signal converter. The demodulation circuit, the memory, the memory control circuit, the electric signal / transmission signal converter, and the power supply circuit are configured by an electronic integrated circuit, and the electronic integrated circuit and the electrode plate are provided in a card body. It is housed.

(Operation) According to the first invention, since the information card is configured as described above, when the electric power on which the signal is superimposed is sent from the external device, it is the capacitive coupling of the non-contact electrode plate. Are entered into the information card in the form of electric charges. Then, the power supply circuit inputs the output of the electrode plate and supplies the power supply power to each circuit in the information card, so that the circuit in the information card starts operating. Then, only the signal being output from the electrode plate is demodulated by the demodulation circuit and sent to the memory control circuit. The memory control circuit
Information is read from the memory or written in the memory based on the output signal of the demodulation circuit. The output signal of the memory control circuit is converted into a transmission optical signal by the electric signal / transmission signal converter and then sent to the external device side in a non-contact state.

In the second invention, unlike the first invention, after the output signal of the memory control circuit is converted into a transmission ultrasonic signal by the electric signal / transmission signal converter, it is sent to the external device side in a non-contact state. To be Therefore, the above problems can be eliminated.

(Embodiment) FIG. 1 is a schematic configuration diagram of an information card showing an embodiment of the present invention.

In FIG. 1, reference numeral 10 denotes an external device.
An information card 20 is inserted in the.

The external device 10 includes a modulation circuit 11 that converts an input signal S _i into a transmission signal, an amplification circuit 12 that amplifies the transmission signal, a capacitive coupling electrode plate 13 that transmits the amplifier output, and a return electrode plate 14. ,
And a transmission signal / electrical signal converter (X / X) that converts the transmission signal S _x from the information card 20 into an electric signal and outputs the output signal S _0.
E) 15 is equipped.

On the other hand, the information card 20 has a substantially rectangular card body 21 made of plastic or the like, and inside the card body 21, electrode plates 22, 23, a power supply circuit 24, a demodulation circuit 25, and a memory control circuit 26. , Memory 27, and electrical signal / transmission signal converter (E /
X) 28 is provided.

Here, the electrode plates 22 and 23 are capacitively coupled to the electrode plates 13 and 14 on the external device 10 side to form a power and signal transmission system, and input power and signals on the external device 10 side to power them. It is given to the circuit 24 and the demodulation circuit 25. The power supply circuit 24 converts the input power into a stabilized DC voltage V _dc, and converts it into the card body 21.
It is a circuit that supplies each circuit as a power supply voltage. The demodulation circuit 25 is a circuit that demodulates only the electric signal from the output of the electrode plate 22 and supplies it to the memory control circuit 26. The memory control circuit 26 is composed of, for example, a microprocessor having functions such as a central processing unit (CPU) and an input / output device, and is a circuit for inputting an output signal of the demodulation circuit 25 to control reading and writing of the memory 27. is there. The memory 27 is a circuit that stores various kinds of information, and includes a read-only memory (ROM), a writable ROM (PROM), and an electrically erasable and writable ROM (EEPR).
OM), UV erasable and writable ROM (EPROM), etc. In addition, the electrical signal / transmission signal converter 28
Is an output signal of the memory control circuit 26, which is a transmission signal such as an optical signal.
This is a circuit for converting into S _x and sending it to the transmission signal / electrical signal converter 15 on the external device 10 side. Each circuit in the card body 21 is composed of an IC, an optoelectronic integrated circuit (hereinafter referred to as OEIC), and the like.

Next, the operation will be described.

The input signal S _i in the external device 10 is an initial set (initial setting) of the memory control circuit 26 on the information card 20 side, a control signal for reading and writing information, and a signal to be written in the memory 27 serially (serially). ) Has been converted.

When the information card 20 is inserted into such an external device 10, the input signal S _i on the external device 10 side is converted into a transmission signal by the modulation circuit 11, amplified by the amplification circuit 12, and then the electrode plate 13 of the capacitance result is obtained. , 22 is supplied to the information card 20 side.

The electrode plate 22 gives its output to the power supply circuit 24 and the demodulation circuit 25. Then, the power supply circuit 24 generates a stabilized DC voltage V _dc and supplies it to each circuit in the card body 21 as a power supply. The demodulation circuit 25 demodulates only the electric signal from the output of the electrode plate 22 and supplies it to the memory control circuit 26. Memory control circuit 26
Then, based on the information included in the input signal, for example, read information, an address is designated and the stored information is read from the memory 27. The stored information is converted into a predetermined transmission signal S _x by the electric signal / transmission signal converter 28 and sent to the transmission signal / electric signal converter 15 on the external device 10 side.

The transmission signal / electrical signal converter 15 converts the input transmission signal into an electric signal, and outputs an output signal S ₀ obtained by serializing the read information of the memory 27, the operation confirmation signal inside the information card, and the like.

FIGS. 4 to 12 show a specific example of the configuration of the information card of FIG. 1, of which (i) FIGS. 4 to 6 are information cards of the capacitive coupling power supply / reception / optical transmission system. , (Ii) 7th
FIG. 9 to FIG. 9 are information cards of the capacitive coupling power supply / reception / ultrasonic transmission system, and the configurations thereof will be described below.

(I) Information Card of Capacitively Coupled Power Supply / Reception / Optical Transmission Method of FIGS. 4 to 6 FIG. 4 is a circuit configuration block diagram. The transmission signal / electrical signal converter 15 on the external device 10 side includes a lens 15-1 for receiving the optical signal OPT, a light receiving element 15-2 such as a photodiode, and an amplifier circuit 15-3. The electric signal / transmission signal converter 28 on the side of the information card 20 corresponding to this is composed of a light emitting element drive circuit 28-1, and a light emitting diode 28-2 including an optical signal (transmission optical signal) OPT. ing.
The power supply circuit 24, the demodulation circuit 25, the memory control circuit 26, and the memory 27 in the card main body 21 including the circuit 28-1 and the light emitting element 28-2 are configured by, for example, the OEIC 29-1.

FIG. 5 is a perspective view showing a mounting example of the information card 20 in FIG. 4, and FIG. 6 is a perspective view showing a structural example of a main part of FIG. Card body made of plastic or the like for storing OEIC29-1
In FIG. 21, the optical signal OPT has a structure in which a hole is formed to allow passage of the optical signal OPT or a transparent film allows the optical signal OPT to pass therethrough.

In the above configuration, when the output of the memory control circuit 26, for example, the write confirmation signal for the memory 27 is given to the drive circuit 28-1, the drive circuit 28-1 causes the light emitting element 28-2 to emit light and outputs the write confirmation signal. It is converted into an optical signal OPT and sent to the lens 15-1 on the external device 10 side. The optical signal OPT passing through the lens 15-1 is converted into an electric signal by the light receiving element 15-2,
The signal is amplified by the amplifier circuit 15-3 and output in the form of the output signal S ₀ .

(Ii) Information Card of Capacitively Coupled Power Supply / Reception / Ultrasonic Transmission Method of FIGS. 7 to 9 FIG. 7 is a circuit configuration block diagram, and FIG. 8 is a perspective view showing an example of mounting the information card 20 in FIG. FIG. 9 and FIG. 9 are perspective views showing an example of the essential structure of FIG.

As shown in FIG. 7, in this circuit, the transmission signal / electrical signal converter 15 on the side of the external device 10 includes an ultrasonic receiving element 15-11 including an electrostrictive vibrator for receiving the ultrasonic wave S, and a transmission signal. It is composed of a demodulation circuit 15-12 that demodulates the use signal. Corresponding to this, the electrical signal / transmission signal converter 28 on the information card 20 side
Is a modulation circuit 28-11 that converts the output of the memory control circuit 26 into a transmission signal, an ultrasonic wave generation element drive circuit 28-12, and an electrostrictive oscillator that generates an ultrasonic wave signal (transmission ultrasonic wave signal) S, etc. It is composed of an ultrasonic wave generating element 28-13. The power supply circuit 24, the demodulation circuit 25, the memory control circuit 26, and the memory 27 in the card body 21 including the electric signal / transmission signal converter 28 are composed of the IC 29-2.

In FIG. 8 and FIG. 9, the card body 21 that houses the IC 29-2, the electrode plates 22 and 23, and the ultrasonic wave generating element 28-13 is
A hole is formed in the passage of the ultrasonic signal S, or the ultrasonic wave S
Permeable material is used.

In the above configuration, the memory control circuit on the information card 20 side
The output of 26 is modulated into a transmission signal by a modulation circuit 28-11, converted into an ultrasonic signal S by a drive circuit 28-12 and an ultrasonic wave generation element 28-13, and an ultrasonic wave reception element 15-on the external device 10 side. 11
Transmitted to. Then, the ultrasonic receiving element 15-11 converts the ultrasonic signal S into an electric signal, demodulates it in the demodulation circuit 15-12, and outputs the output signal S ₀ .

The above embodiments have the following advantages.

(A) The power on which the signal is superposed from the external device 10 is sent to the information card 20 by capacitive coupling of the plates 13, 14, 22, 23, and the information in the information card 20 is the optical signal OPT or The ultrasonic signal S is sent to the external device 10. Therefore, even if the information receiving path from the external device 10 and the information transmitting path to the external device 10 are close to each other, since the types of both transmission media are different, interference occurs between reception and transmission of information. Absent. Therefore, the information transmission accuracy can be improved with a relatively simple circuit configuration.

(B) Since the electric power on which the signal is superimposed is input to the information card 20 via the electrode plates 13, 14, 22, 23, the electrode plates 13, 1
4,22,23 are shared for signal transmission and power transmission. Therefore, the number of the electrode plates 13, 14, 22, 23 can be reduced, and the circuit connected thereto can be simplified.

(C) The circuit in the information card 20 is OEIC29-1 or IC29
Since it is configured by -2, in combination with the simplification of the circuit configuration and the reduction of the number of electrode plates as in (a) and (b) above,
The information card 20 can be made thinner and smaller.

The present invention is not limited to the illustrated embodiment, and various modifications can be made. For example, each circuit in the card body 21 can be configured by another circuit.

(Effects of the Invention) As described in detail above, according to the first and second inventions,
The electric power on which the signal is superimposed is input to the information card by capacitive coupling of the electrode plate, and the information in the information card is output in the form of a transmission optical signal or a transmission ultrasonic signal. Even if the reception path and the information transmission path to the outside are close to each other, since the types of both transmission media are different, interference does not occur between reception and transmission of information. Therefore, the information transmission accuracy can be improved with a relatively simple circuit configuration.

Moreover, since the electric power on which the signal is superimposed is input to the information card via the electrode plate, the electrode plate is used for both signal transmission and power transmission, the number of electrode plates can be reduced, and a circuit connected thereto Can be simplified. In addition, since the circuit inside the information card is composed of OEIC or IC, it is possible to make the information card thinner and more compact with the simplification of the circuit configuration and the reduction of the number of plates. .

[Brief description of drawings]

FIG. 1 is a schematic configuration diagram of an information card showing an embodiment of the present invention, FIG. 2 is a configuration block diagram of a conventional information card, and FIG.
2 is a perspective view showing the mounting example of FIG. 2, FIG. 4 is a block diagram showing the configuration of an information card of the capacitive coupling power supply / reception / optical transmission system embodying FIG. 1, and FIG. 5 is the information of FIG. FIG. 6 is a perspective view showing a mounting example of the card, FIG. 6 is a perspective view showing a configuration example of a main part of FIG. 5, and FIG. 7 is an information card of a capacitive coupling power supply / reception / ultrasonic transmission system embodying FIG. 8 is a perspective view showing a mounting example of the information card of FIG. 7, and FIG. 9 is a perspective view showing a constitutional example of a main part of FIG. 10 …… External device, 11 …… Modulation circuit, 12 …… Amplification circuit, 1
3,14,22,23 …… Pole plate, 15 …… Transmission signal / electrical signal converter, 20 …… Information card, …… Card body, 24 …… Power supply circuit, 25 …… Demodulation circuit, 26 …… Memory Control circuit, 27 ... Memory, 28 ... Electrical signal / transmission signal converter, 28-1 ... Light emitting element drive circuit, 28-2 ... Light emitting element, 28-11 ... Modulation circuit, 28-12 ... Ultrasonic generator driving circuit, 28-13 ……
Ultrasonic wave generator, 29-1 ... Optoelectronic integrated circuit (OEIC),
29-2 ... Electronic integrated circuits (ICs).

Claims (2)

[Claims] 1. A polar plate for inputting electric power on which signals are superimposed by capacitive coupling, a demodulation circuit for demodulating only an electric signal from an output of the polar plate, a memory for storing information, and an output signal of the demodulation circuit. A memory control circuit for controlling the operation of the memory based on the above, and an electric signal / transmission signal converter which is composed of a light emitting element drive circuit and a light emitting element, and which converts the output signal of the memory control circuit into a transmission optical signal and sends it , The output of the electrode plate is input, the demodulation circuit, the memory,
A memory control circuit and a power supply circuit that supplies power to the electric signal / transmission signal converter, the demodulation circuit, the memory, the memory control circuit, the electric signal / transmission signal converter, and the power supply circuit. An information card characterized by comprising an optoelectronic integrated circuit and accommodating the optoelectronic integrated circuit and the electrode plate in a card body. 2. A polar plate for inputting electric power on which signals are superimposed by capacitive coupling, a demodulation circuit for demodulating only an electric signal from an output of the polar plate, a memory for storing information, and an output signal of the demodulation circuit. A memory control circuit that controls the operation of the memory based on the above; a modulation circuit that modulates an output signal of the memory control circuit to convert it into a transmission signal; a drive circuit that generates a drive signal based on the transmission signal; and An electric signal / transmission signal converter which is composed of an ultrasonic wave generation element which generates a transmission ultrasonic wave signal based on a drive signal, and which converts an output signal of the memory control circuit into the transmission ultrasonic wave signal and sends the electric wave; Input the output of the demodulation circuit, the memory,
A memory control circuit and a power supply circuit that supplies power to the electric signal / transmission signal converter, the demodulation circuit, the memory, the memory control circuit, the electric signal / transmission signal converter, and the power supply circuit. An information card comprising an electronic integrated circuit, wherein the electronic integrated circuit and the electrode plate are housed in a card body.