JPH02108184A - Card type information storage device - Google Patents

Abstract

PURPOSE:To improve the reliability and reduce the power consumption by reading information out by an external equipment on a noncontacting basis by using a liquid crystal display element. CONSTITUTION:While the light emission part of the external equipment emits constant-output light to the liquid crystal display element 3, a control part 32 reads recording information out of an information storage medium, and converts the read information into a binary signal, which is supplied to a driver part 31. Then the driver part 31 varies an electric field or current applied to the liquid crystal display element 3 according to the binary signal. The light transmitting or reflecting operation of the liquid crystal display element 3 is controlled according to the read information from the information storage medium. Consequently, the transmitted or reflected light from the liquid crystal display element 3 is detected by the photodetection part of the external equipment to read the information out of the information storage medium, thereby obtaining the card type information storage device which h as high electrostatic dielectric strength and is small in power consumption.

Description

DETAILED DESCRIPTION OF THE INVENTION (Industrial Field of Application) The present invention provides a method for storing RAM on a card-like base, such as an IC card.
The present invention relates to a card-type information storage device incorporating an information storage medium such as a ROM.

(Prior Art) As shown in FIG. 5, a dedicated reader/writer (21) equipped with a contact portion (4o) is used to write information to or read information from an IC card (1).

The information transmission method between the IC card (1) and the reader/writer (21) includes, for example, the IC There is a contact method in which information is written and read by mechanical contact with electrodes provided on the front or back surface of the card, and a non-contact method in which information is written and read using electromagnetic induction.

(Problem to be solved) However, in the contact method, high mechanical precision is required in the contact part to ensure operational reliability, and
There is a problem with low electrostatic withstand voltage.

On the other hand, in the non-contact type, although operational reliability is high, there are problems in that not only interference waves are radiated to the surrounding area, but also power consumption is significant due to the large drive current.

An object of the present invention is to provide a card-type information storage device that employs a non-contact method that can achieve high operational reliability, has high electrostatic withstand voltage, and consumes little power.

(Means for Solving the Problem) In the information storage device according to the present invention, the information reading means for transmitting information written in the information storage medium to an external device transmits light emitted from the external device. a liquid crystal display element (3) capable of reflecting or reflecting; a driver unit (31) for driving the liquid crystal display element; It is composed of a control section (32) that creates a binary signal and supplies it to a driver section (31).

(Function) The card type information storage device of the present invention was loaded into an external device for reading information (data reading device), and light with a constant output was emitted from the light emitting section of the external device toward the liquid crystal display element (3). In this state, the control unit (32) reads recorded information from the information storage medium, converts the read information into a binary signal, and supplies the binary signal to the driver unit (31).

The driver section (31) changes the electric field or current applied to the liquid crystal display element (3) according to the binary signal.

As a result, the light transmission or reflection operation of the liquid crystal display element (3) is controlled according to the information read from the information storage medium.

Therefore, by detecting the transmitted light or reflected light from the liquid crystal display element (3) with the light receiving section of the external device, the information written on the information storage medium can be read out.

(Effects of the Invention) According to the card-type information storage device of the present invention, since information is read by an external device in a non-contact manner, the operation reliability is higher than in the conventional contact method, and the information Since the transmission medium is light, no interfering radio waves are emitted to the surrounding area, and the power consumption is lower than that of conventional non-contact information storage devices.

(Implementation IN) The examples are for illustrating the present invention, and should not be construed as limiting the invention described in the claims or reducing its scope.

FIGS. 1 to 3 show an example in which a card type information storage device according to the present invention is implemented in an IC card. Note that, in the following description, of the configurations of the IC card (1) and the data reading device (2) for reading data from the IC card, description of known parts that are not involved in information transmission will be omitted.

The IC card (1) has an IC chip 7 (11) mounted on a card-shaped base (10) as shown in FIG.
), and the IC chip (11)
A liquid crystal display element (3), which will be described later, is arranged with its surface exposed.

As shown in Fig. 1, the IC chip (11) is a T N (T wistecl
N eIIlatic) type liquid crystal display element (3), a driver section (31) for applying a predetermined electric field to the liquid crystal display element, a memory (33) such as an EEPROM, and a memory for storing data from the memory. At the same time as reading, the read data is converted into 2-bit serial data and sent to the driver section (
31) and a photo sensor that detects a control signal (optical signal) from a data reading device (2) (described later) and sends the control signal to the data read control section (32). (34).

On the other hand, a data reading device (2) for reading data from the IC card (1) has a light emitting unit (2) that continuously emits light of a constant output to a liquid crystal display element (3) of the IC card (1).
41), a light receiving section (42) that detects reflected light from the liquid crystal display element (3), a light emitting section (41), and a light receiving section (42).
a data read controller (43) that controls data read operations by the IC card (1); and a memory (33) of the IC card (1).
The data D read by the data read controller (43) is provided with a light emitting unit (44) that emits an optical signal instructing the start of a data read operation from the printer,
It is sent to an output means such as a display.

FIG. 3 shows a device that integrally includes a light reflective liquid crystal display element (3) placed on an IC card, and a light emitting section (41) and a light receiving section (42) provided in a data reading device (2). A specific example of the detector (4) is shown.

As is well known, the liquid crystal display element (3) has a liquid crystal cell (8) disposed between first and second polarizing plates (7) and (71) whose alignment directions are orthogonal to each other. , two transparent electrodes (83) (84) with surface treatment for planar alignment.
) is filled with nematic liquid crystal (82).

Furthermore, a reflection plate (9) is placed behind the 21st light plate (71), and a power source (81) is connected to the liquid crystal cell (8).

By driving the power source (81) with the driver section (31), the light reflection function of the liquid crystal display element (3) is turned ON-OFF as described later.

On the other hand, the light emitting part (41) of the detector (4) is
ED (6) and the light from the LED to a liquid crystal display element (3)
It consists of an optical fiber (5) that leads to.

The light receiving section (42) also includes a photodiode (61) for detecting reflected light from the liquid crystal display element (3), and an optical fiber (61) that guides the reflected light to the photodiode (61).
51).

Light from the LED (6) of the detector (4) is sent to the liquid crystal display element (3) via an optical fiber (5).

When the potential difference between both electrodes of the liquid crystal cell (8) is zero, the polarized wave that has passed through the first polarizing plate (7) is polarized by 90 degrees in the liquid crystal cell, so the second polarizing plate (71) is further polarized. passing through,
The light is incident on the reflection plate (9). The light reflected by the reflecting plate (9) is transmitted to the second polarizing plate (1), the liquid crystal cell (8), and the first!
The reflected light from the liquid crystal display element (3) passes through the J4 light plate (7) and goes to the detector (4).
) via the optical fiber (51) of the photodiode (
61).

On the other hand, when a predetermined electric field is applied between both electrodes of the liquid crystal cell (8), the liquid crystal cell (8) becomes homeotropically aligned, and the light that has passed through the liquid crystal cell (8) passes through the second polarizing plate. It is interrupted at (71). Therefore, the photodiode (61) of the detector (4) does not detect light.

FIG. 4 shows another configuration example in which the light-emitting section (41) and the light-receiving section (42) of the data reading device are arranged facing each other with a light-transmissive liquid crystal display element (3) in between.

The liquid crystal display element (3) of the IC card is constructed by disposing a pair of polarizing plates (72) and (73) on both sides of a liquid crystal cell (8), and is not equipped with the reflecting plate.

The light emitted from the LED (62) of the light emitting section (41) passes through the optical fiber (52) and reaches the liquid crystal display element (3).
sent to.

In the liquid crystal cell (8), as described above, the deflection action is switched depending on the potential difference between both electrodes, and when the potential difference is zero, the polarized wave that has passed through the first polarizing plate (2) is polarized at 90 degrees in the liquid crystal cell. The passing light passes through the second polarizing plate (73) and is detected by the photodiode 3) through the optical fiber (53) of the light receiving section (42).

On the other hand, when a predetermined electric field is applied to the liquid crystal cell (8), the liquid crystal cell (8) becomes homeotropically aligned.
The light passing through the liquid crystal cell (8) is blocked by the second polarizing plate (73). Therefore, the photodiode (63) of the light receiving section (42) does not detect light.

The information transmission operation of the apparatus shown in FIG. 1 will be explained below.

When the IC card (1) is loaded into the data reading device (2), the light emitting unit (44) operates under the control of the data read controller (43), and the optical signal from the light emitting unit (44) is transmitted to the IC card ( 1> is detected by the photo sensor (34).The detection signal is sent to the data read control unit 32)
Based on this, the data read control unit (32)
starts reading data from the memory (33).

The data read from the memory (33) is converted into 2-bit serial data by the data read control section (32) and then sent to the driver section 31).

The driver section (31) creates a drive pulse according to the serial data and supplies it to the liquid crystal display element (3).

As a result, as described above, the light reflection function or light transmission function of the liquid crystal display element (3) is controlled ON-OFF, and the read data from the memory (33) is sent to the light receiving section (42> of the data reading device (2)). The corresponding optical information is sent.

The optical information detected by the light receiving section (42) of the data reading device (2) is sent to the data read controller (43).
Data D in the original format in the memory (33)
is converted and output.

To finish reading data from the IC card (1),
Under the control of the data read controller <43), the light emitting section (44) is activated by the photo sensor (3) of the IC card (1).
4) Send an optical signal to signal the end of the read operation.

The signal detected by the photo sensor (34) is sent to the data read control section (32), and based on this, the signal is read from the memory (34).
33) ends.

According to the above IC card, it is possible to construct an information transmission system that has high reliability and resistance to electrostatic discharge damage, and consumes little power.

The drawings and the description of the above embodiments are for illustrating the present invention, and do not limit the invention described in the claims.
Nor should it be construed as limiting the scope.

Further, it goes without saying that the configuration of each part of the present invention is not limited to the above-mentioned embodiments, and various modifications can be made within the technical scope of the claims.

For example, an IC card (1) has multiple liquid crystal display elements (3
〉 and also the
It is also possible to provide the information readout path shown in the figure to enable reading of parallel data.

[Brief explanation of the drawing]

FIG. 1 is a block diagram showing the configuration of a card-type information storage device according to the present invention, FIG. 2 is a plan view of an IC card implementing the present invention, and FIG. 3 illustrates an example of the configuration of a liquid crystal display element and a detector. FIG. 4 is a diagram illustrating another configuration example of the same as above, and FIG. 5 is a sectional view showing a schematic configuration of a conventional IC card reader/writer.

Claims (2)

[Claims] (1) In a card-type information storage device in which an information storage medium and an information reading means for reading information written on the information storage medium and transmitting it to an external device are incorporated in a card-shaped base, The information reading means includes a liquid crystal display element (3) capable of transmitting or reflecting light emitted from the external device, a driver section (31) for driving the liquid crystal display element, and the information storage. A control unit (31) that reads information written on the medium and creates a binary signal according to the read information and supplies it to the driver unit (31).
32) A card type information storage device comprising: (2) Consists of a card-type information storage device and a data reading device that reads data from the device, and the card-type information storage device includes an information storage medium and a device that reads information written on the information storage medium. In an information transmission system incorporating information reading means for transmitting information to a data reading device, the information reading means of the card type information storage device is configured to transmit information from the data reading device to the data reading device according to the information written in the information storage medium. A liquid crystal display element (3) that transmits or reflects light from the liquid crystal display element is provided, and the data reading device includes a light emitting section (41) that emits light to the liquid crystal display element, and a The light receiving part that should detect reflected light (
42) is provided, and based on the detection, information written in a card type information storage device is read out.