JP5594178B2 - Communications system - Google Patents

Description

  The present invention relates to a communication system in which a low-cost electronic information recording medium can be used and communication can be performed by an electromagnetic induction method.

2. Description of the Related Art In recent years, electronic information recording media that perform information communication with a reading device in a contactless manner, in particular contactless IC cards, are used in various systems such as transportation systems, electronic money, entry / exit systems, and logistics management.
Communication methods using a non-contact information recording medium include an electromagnetic coupling method, an electrostatic coupling method, an electromagnetic induction method, and a radio wave method according to the communication frequency band. In a communication system using a non-contact IC card, an electromagnetic induction method is mainly used.
The non-contact IC card using the electromagnetic coupling method and the electrostatic coupling method is standardized by ISO / IEC 10536. In the non-contact IC card, two loop antennas or capacitor plates are provided, and 4.9 MHz. Used in the signal frequency band.
The non-contact IC card using the electromagnetic induction method is standardized by ISO / IEC 14443, 15693, 18092, and a loop-shaped antenna is provided in the non-contact IC card and used in a signal frequency band of 13.56 MHz. Is done.
A non-contact IC card using a radio wave system is standardized by ISO / IEC 18000. A plate-shaped dipole antenna is built in the non-contact IC card and used in a signal frequency band of 2.45 MHz.

Normally, contactless IC cards have an antenna mounted on the card and communicate with an external terminal by connecting the IC chip and the antenna. In order to obtain good communication performance, the antenna must be shaped to suit the communication frequency and IC chip. Is necessary.
Therefore, the antenna has a complicated shape, and the quality of the antenna is ensured by methods such as patterning by etching of a conductive material, printing with conductive ink, and embedding of a covered wire. In these methods, it is necessary to select a metal having a low resistance value in order to improve communication characteristics, and to mount the metal in the shape described above. Therefore, the card cost could not be reduced.
On the other hand, there is provided a system that is configured inexpensively and simply and performs electrostatic coupling type non-contact communication within a wide continuous allowable range from low-speed data to high-speed data. This system uses a contact-type non-contact information recording medium, and uses a capacitance formed by opposing flat electrodes arranged on the transmission side and the reception side as a coupler, and the transmission side directly receives a base hand signal. This is a communication system in which a transmission waveform transmitted to a reception-side electrode is binarized and demodulated by a comparator having hysteresis characteristics in addition to the transmission-side electrode (see, for example, Patent Document 1).

JP 2009-135632 A

In the communication system using the non-contact information recording medium, the electromagnetic induction method is mainstream, and in order to construct the system by the electrostatic coupling method described in the cited reference 1, an IC chip corresponding to the electrostatic coupling method is used. , The system must be built.
Accordingly, an object of the present invention is to provide a communication system using an electronic information recording medium that can use a communication system based on an electromagnetic induction system, is low-cost, and has a large rotational deviation tolerance.

  In order to achieve the above object, a first aspect of a communication system according to the present invention is a capacitively coupled electron having an IC chip capable of communicating by an electromagnetic induction method and a pair of conductive thin plates connected to the IC chip. Communication system for non-contact communication between an information recording medium and a reading / writing device having a loop antenna and communicating with the electronic information recording medium via a relay medium having a pair of conductive thin plates and a loop antenna The pair of conductive thin plates formed on the electronic information recording medium and the relay medium has a groove on the outside of one conductive thin plate so that the other conductive thin plate surrounds the inner conductive thin plate. One of the pair of conductive thin plates formed on the relay medium is connected to the start end of the loop antenna and the other one is connected to the end of the loop antenna, and the pair of conductive thin plates of the relay medium is connected to the electronic information. Is disposed so as to face the pair of conductive thin plate of the recording medium, it is characterized in that the loop antenna of the relay medium is communicated is arranged to face to the loop antenna of the reading and writing device.

  Further, the second aspect is the first aspect, wherein the pair of conductive thin plates formed on either or both of the electronic information recording medium and the relay medium has one circular shape and the other having the circular center point. It is characterized by being formed of an annular conductive thin plate formed on the outside of the circular thin plate through a groove.

  The third aspect is the electronic information recording method according to the first or second aspect, wherein the pair of conductive thin plates of the electronic information recording medium is disposed so as to face the pair of conductive thin plates of the relay medium. The conductive thin plate formed inside the medium groove was formed to be larger than the conductive thin plate formed inside the relay medium groove and smaller than the conductive thin plate formed outside the relay medium. It is characterized by this.

  In addition, the fourth aspect is any one of the first to third aspects, in which a pair of conductive thin plates formed on either or both of the electronic information recording medium and the relay medium are electrically formed on the outside of the groove. The sheet is characterized in that a groove having a predetermined width is formed in the radial direction.

  The fifth aspect is characterized in that, in any one of the first to fourth aspects, the relay medium is incorporated in the reading / writing device.

  Further, the sixth aspect is that in any one of the first to fifth aspects, the reading / writing device and the relay medium are communicated by electromagnetic induction, and the relay medium and the electronic information recording medium are communicated by electrostatic coupling. It is a feature.

  Further, according to a seventh aspect, in any one of the first to sixth aspects, when communication is performed between the reading / writing device and the electronic information recording medium, the electrical conductivity inside the groove of the electronic information recording medium and the relay medium is determined. The conductive thin plates are communicated with each other in a state where the conductive thin plates outside the groove face each other.

  Further, in the eighth aspect, in any one of the first to seventh aspects, the conductive thin plate pair formed on the relay medium and the conductive thin plate pair formed on the electronic information recording medium are made of different materials. It is characterized by this.

  According to a ninth aspect, in any one of the first to eighth aspects, the electronic information recording medium is an IC card.

  According to a tenth aspect, in any one of the first to eighth aspects, the electronic information recording medium is an IC label.

  An eleventh aspect is characterized in that, in any one of the first to eighth aspects, the electronic information recording medium is a coin-shaped electronic information recording medium.

By the communication system of the present invention,
1) Since an electronic information recording medium is not equipped with a so-called antenna and only has two conductive thin plates, a conventional complicated antenna formation process is not required, and the electronic information recording medium is manufactured at low cost. It becomes possible to do.
2) Since a system can be constructed by diverting electromagnetic induction communication devices that are widely distributed in the market, it can be introduced at low cost. That is, as an IC chip for an information storage medium, an IC chip that is widely distributed in the market (used for an existing electromagnetic induction type non-contact IC card) can be diverted, and an existing non-contact IC card as an electromagnetic induction communication device. The device can be configured by diverting the reader / writer for use.
3) Annular conductive thin plate formed on the outside of the circle, the conductive thin plate mounted on the electronic information recording medium and the relay medium both having a circular conductive thin plate and the other sharing the center point with the circular shape Because the area where the conductive thin plate mounted on the electronic information recording medium and the conductive thin plate mounted on the relay medium does not change even if the electronic information recording medium rotates on the relay medium, Stable communication can be established regardless of the overlapping direction of the electronic information recording medium with respect to the relay medium.
4) The conductive thin plate inside the groove formed in the electronic information recording medium is larger than the conductive thin plate inside the groove formed in the relay medium, and the conductive thin plate outside the groove formed in the electronic information recording medium. Is formed on the electronic information recording medium even when the center positions of the electronic information recording medium and the relay medium are slightly deviated from each other. Since one of the conductive thin plates is not opposed across the pair of conductive thin plates formed on the relay medium, stable communication can be established. In particular, in the case of a communication system using a coin-shaped (circular) electronic information recording medium, since the electronic information recording medium rotates in the reader, the system is stable by the system that is not affected by the rotational deviation and positional deviation of this method. A communication system can be constructed.
5) As described above, by using the communication system of the present invention, an electromagnetic induction communication system that is not easily affected by rotational deviation or positional deviation can be operated in a stable state.
In addition, IC chips and reader / writers that are used in non-contact type IC cards that are currently in operation can be used, and electronic information recording media with a simpler structure and smaller size than conventional non-contact type IC cards are available. Can be used. In addition, the cost for system construction and the manufacturing cost of the electronic information recording medium can be kept low.

It is an example of the circuit diagram for demonstrating the communication system of this embodiment. It is a figure for demonstrating an example of the reading / writing apparatus used for the communication system of this embodiment. It is a figure for demonstrating another example of the reading / writing apparatus used for the communication system of this embodiment. It is a figure for demonstrating an example of the transmission / reception part and antenna of the reading / writing apparatus of this embodiment. It is a figure for demonstrating an example of the relay medium of this embodiment. It is a figure for demonstrating an example of the electronic information recording medium of this embodiment. It is the sectional view on the AA line of FIG.

Hereinafter, the communication system of the present embodiment will be described with reference to the drawings.
FIG. 1 is a diagram showing the concept of a communication system that performs non-contact communication between an electronic information recording medium and a reading / writing device via a relay medium.
The communication system of the present embodiment includes a capacitively coupled electronic information recording medium 3 having an IC chip 31 capable of communicating by an electromagnetic induction method and a pair of conductive thin plates 33 connected to the IC chip 31, and a loop antenna 15. This is a communication system in which the reading / writing device 1 that communicates with the electronic information recording medium 3 has a contactless communication with the relay medium 2 having a pair of conductive thin plates 23 and a loop antenna 25 interposed therebetween.

  A pair of conductive thin plates (hereinafter also referred to as conductive thin plate pairs) 33 and 23 formed on the electronic information recording medium 3 and the relay medium 2 are both conductive thin plates on the outer conductive thin plate, It is formed in a state of being surrounded by a groove. Although not shown, for example, one inner conductive thin plate is a circular conductive thin plate, and the other outer conductive thin plate shares a central point with the circular conductive thin plate, and a groove is formed outside the circle. It is comprised with the annular | circular shaped electroconductive thin plate formed.

On the other hand, one conductive thin plate pair 23 of the relay medium 2 is connected to the start end of the loop antenna 25 and the other one is connected to the end of the loop antenna 25, and the conductive thin plate pair 23 of the relay medium 2 is connected to the electronic information recording medium described above. The medium 3 is disposed so as to face the conductive thin plate pair 33.
Further, the loop antenna 25 of the relay medium 2 is disposed so as to face the loop antenna 15 of the reading / writing device 1, and the loop antenna 15 of the reading / writing device 1 is the transmission / reception unit 11 of the reading / writing device 1. It is connected to the.

FIG. 2 shows a state in which the relay medium 2 is externally attached to the reading / writing apparatus 1 and the electronic information recording medium 3 is placed on the upper surface thereof and read.
The example shown in FIG. 2 is an example in which a pair of conductive thin plates and a loop antenna are formed on the same surface of the substrate of the relay medium 2. The pair of conductive thin plates is formed on the left plane of the relay medium 2, and the loop antenna is formed on the right plane. Is formed. The loop of the relay medium 2 is further placed on the loop antenna 15 of the reading / writing apparatus 1 shown in FIG. 1 so that the pair of conductive thin plates mounted on the electronic information recording medium 3 is opposed to the pair of conductive thin plates of the relay medium 2. The antenna 25 is opposed to the antenna 25.
The relay medium 2 may be fixed to the reading / writing device 1 with an adhesive or the like, or may be fixed with a string or the like.

Further, as shown in FIG. 3, the relay medium 2 may be incorporated in the housing of the reading / writing device 1.
In the example shown in FIG. 3, the relay medium base 22 is folded to substantially the same size as the electronic information recording medium 3 at a dotted line position at the center of the long side of the relay medium 2 shown in FIG. Built in the housing.
As a result, the conductive thin plate pair 23 of the relay medium 2 faces the conductive thin plate pair 33 mounted on the electronic information recording medium 3, and the loop of the relay medium 2 is opposed to the loop antenna 15 of the reading / writing device 1. The antenna 25 is opposed to the antenna 25.

In the case of the reading / writing apparatus 1 shown in FIG. 3, the electronic information recording medium 3 is placed at a predetermined position of the reading / writing apparatus 1 and the recorded information is read, but the upper part of the relay medium 2 in FIG. The pocket structure can be integrated with the writing device 1, and the electronic information recording medium 3 can be dropped by its own weight from the entrance of the pocket and temporarily stopped at the bottom of the pocket to read / write information.
When the electronic information recording medium 3 is a non-contact IC card, a card transport mechanism is provided to the reading / writing apparatus 1 incorporating the relay medium 2 as shown in FIG. 3 to move the card to a predetermined position. It is also possible to read / write information.

  In a non-contact communication system using a non-contact IC card equipped with a small loop antenna having a narrow communication range, such as a contact type IC card (also referred to as an IC card with a terminal) or a contact / non-contact type IC card, a reading / writing device Although high-precision positioning means is required on the one side, the use of the electronic information recording medium 3 as in the present embodiment enables the information even if the conductive thin plate pair 33 is slightly rotated or misaligned. Can be read / written. As a result, the reading / writing device can be manufactured and provided at low cost.

The read / write device 1 shown in FIG. 4 is an example in which the loop antenna 15 and the transmission / reception unit 11 are arranged apart from each other, but the conductive thin plate pair 23 provided in the relay medium 2 and the electronic information recording medium 3 are provided. It is not always necessary to read the pair of conductive thin plates 33 in a completely overlapped state.
If there is a portion where the conductive thin plate pair 23 provided on the relay medium 2 and the conductive thin plate pair 33 provided on the electronic information recording medium 3 overlap each other in a predetermined area, the relay medium 2 and the electronic information recording medium 33 It is possible to communicate between.

The conductive thin plate pair formed on the aforementioned relay medium and the conductive thin plate pair formed on the electronic information recording medium are made of the same material, for example, the same metal such as aluminum, copper, brass, tin, zinc, silver, gold. A good electrical conductor is preferable, but it may be made of a different material.
Particularly in an electronic information recording medium, it is preferable to use aluminum as the material of the pair of conductive thin plates. This is because aluminum is less expensive than other metals and can be provided as a lower-cost electronic information recording medium 3.

With reference to FIG. 5, an example of the relay medium of this embodiment will be described.
In the relay medium 2, a pair of conductive thin plates 23 and a loop antenna 25 are formed on a support film 22 made of an insulating material. A loop antenna 25 is formed on one surface of the support film 22. Moreover, the capacitor | condenser 26 may be formed ranging over a loop antenna.
A conductive thin plate pair 23 is formed on the other surface of the support film 22. One of the conductive thin plate pair 23 is a circular conductive thin plate 23 a and the other is in common with the circular conductive thin plate. The circular conductive thin plate 23b is formed on the outside of the circular conductive thin plate via a groove.
One of the pair of conductive thin plates 23a and 23b is connected to the start end of the loop antenna and the other one is connected to the end of the loop antenna, and is fixed on the support film 22 with an adhesive or the like.
The outer conductive thin plate 23b may be an annular shape or an annular shape having a slit from the center to the outside as shown in FIG. 5, but in the case of an annular shape having a slit, the slit is connected to the loop antenna. Connection wiring can be passed, and the conductive thin plate and the loop antenna can be formed with a single-sided wiring board, so that a cheaper system can be constructed.

The electronic information recording medium 3 will be described with reference to FIGS.
FIG. 6A is an example of a state in which the IC module 30 mounted on the electronic information recording medium 3 of the present embodiment is viewed from the plane.
A pair of conductive thin plates 33 is formed on the substrate 32 of the IC module 30 made of an insulating material, and the IC chip 31 is mounted.
The conductive thin plate 33b formed on the outer side of the conductive thin plate pair 33 is formed so as to surround the conductive thin plate 33a formed on the inner side with the conductive thin plate 33a formed on the inner side of the conductive thin plate 33a.
Each conductive thin plate shares a center.
The IC chip 31 may be in a bare chip state, in a state where a reinforcing plate is attached to the bare chip, or in a state protected by the sealing resin 34.
Since the conductive thin plate has a simple shape, it can be formed by a general-purpose processing technique such as etching with an acid or alkali solution, cutting with a cutting blade, or half-cut with a mold.

FIG. 6B is an example of the electronic information recording medium 3 used in the communication system of the present embodiment.
The electronic information recording medium 3 is a coin-shaped electronic information recording medium in addition to the IC card having the IC module 30 built in a plastic card base (not shown), or the above-mentioned one side of the adhesive film. There may be an IC label on which the IC module 30 is mounted.
When the electronic information recording medium 3 is an IC card or the like, although not shown, a magnetic stripe for magnetic recording may be formed on the surface of the electronic information recording medium 3 in some cases.
In many cases, beautiful printing is applied to the front and back of the electronic information recording medium 3.

One circular conductive thin plate 23a and 33a of the pair of conductive thin plates of the relay medium 2 and the electronic information recording medium 3 do not have to be a perfect circle, but may be an ellipse.
Further, a groove having a predetermined width of about 1 mm in the radial direction may be formed in the annular conductive thin plate of the pair of conductive thin plates formed in the relay medium 2 and the electronic information recording medium 3.

In the present embodiment, a pair of conductive thin plates formed on the electronic information recording medium and a pair of conductive thin plates formed on the relay medium are provided so that communication is suitably performed between the reading / writing device, the relay medium, and the electronic information recording medium. Are opposed to each other by electrostatic coupling between the pair of conductive thin plates mounted on the electronic information recording medium and the relay medium.
The higher the degree of electrostatic coupling, the higher the signal level applied to the electronic information recording medium, and more stable communication can be performed. The degree of electrostatic coupling increases as the area of the conductive thin plate that overlaps when viewed from the vertical direction of the electronic information recording medium and the relay medium increases, and is formed on the conductive thin plate formed on the electronic information recording medium and the relay medium. The shorter the distance in the vertical direction from the conductive thin plate, the higher the thickness. Therefore, the area of each conductive thin plate is preferably 100 mm ² or more.

Further, as shown in FIG. 5, a capacitor element 26 is connected in series or in parallel to the loop antenna 25 mounted on the relay medium 2 to form a series resonance circuit or a parallel resonance circuit, thereby transmitting from the reading / writing device. The signal can be received efficiently.
More preferably, the resonance frequency of the series resonance circuit or the parallel resonance circuit of the relay medium is approximately the same as the AC signal transmitted from the read / write device (the carrier wave of the signal transmitted from the read / write device is 13). In the case of .56 MHz, the resonance frequency of the relay medium is preferably 12 to 20 MHz.

(Example)
The electronic information recording medium will be described with reference to FIG.
First, in order to produce the IC module 30, a polyester film which is an insulating material was used as the module substrate 32, and aluminum foil having a thickness of 25 μm was bonded as the conductive thin plates 33a and 33b.
In order to verify the difference in communication characteristics depending on the shape, conductive thin plates having the following three shapes were produced.
(1) Shape 1 (square)
Conductive thin plate 33a: 10 mm long, 10 mm wide
Conductive thin plate 33b: 10 mm long, 10 mm wide
Between conductive thin plates: 0.5 mm slit (2) Shape 2 (annular)
Conductive thin plate 33a: circular with 8 mm (radius 4 mm) Φ conductive thin plate 33b: circular shape with outer diameter 12 mmΦ and inner diameter Φ9 mmΦ Between conductive thin plates: 0.5 mm slit (3) Shape 3 (circular shape)
Conductive thin plate 33a: circular with 12 mm (radius 6 mm) Φ conductive thin plate 33b: between circular conductive thin plates with outer diameter 18 mmΦ and inner diameter 13 mmΦ: 0.5 mm slit

The terminal portion for antenna connection on the circuit surface of the IC chip 31 conforming to the ISO / IEC 14443 Type A method is plated with gold or the like so as to straddle one circular conductive thin plate 33a and the other circular conductive thin plate 33b of the pair of conductive thin plates. A protrusion having a height of 20 μm was provided, and the IC chip circuit surface and the protrusion were connected toward the conductive thin plate.
The electronic information recording medium 3 having a thickness of 0.4 mm was formed by sandwiching the IC module 30 between insulating base materials such as PET, PVC, and PET-G and integrating them by heat melting or the like.
In the above description, the electronic information recording medium is described as an example of a card, but the present invention is not limited to the above form. For example, an electronic information recording medium such as an IC label, a coin, or a key holder on which an IC module is mounted may be used instead of the IC card.

As a relay medium, a 30 μm thick copper foil was attached to the entire surface of an insulating material such as 180 μm thick glass epoxy, polyimide, and polyester, and a pair of conductive thin plates and a loop antenna were produced by etching.
The loop antenna has three turns (size: 40 mm × 40 mm), and conductive thin plates of the following four types are connected to both ends of the antenna, and the difference in communication characteristics depending on the shape of the conductive thin plate was verified.
(1) Shape A (square)
Conductive thin plate 23a: 20 mm long, 15 mm wide
Conductive thin plate 23b: 20 mm long, 15 mm wide
Between conductive thin plates: 0.5 mm slit (2) Shape B (annular)
Conductive thin plate 23a: circular with 8 mm (radius 4 mm) Φ conductive thin plate 23b: annular shape with outer diameter 12 mmΦ and inner diameter Φ9 mmΦ Between conductive thin plates: 0.5 mm slit (3) Shape C (circular shape)
Conductive thin plate 23a: circular with 12mm (radius 6mm) Φ conductive thin plate 23b: annular shape with outer diameter 18mmΦ and inner diameter 13mmΦ Between conductive thin plates: 0.5mm slit (4) Shape D (circular shape)
Conductive thin plate 23a: circular with a diameter of 10 mm (radius 5 mm) conductive thin plate 23b: an annular shape with an outer diameter of 20 mmΦ and an inner diameter of 15 mmΦ Between conductive thin plates: a slit of 2.5 mm

Capacitors were connected in parallel to both ends of the loop antenna, and the capacitor capacity was adjusted so that the resonance frequency was 14 MHz.
The loop antenna and the conductive thin plate pair were adjacent to each other at an interval of 10 mm, and the start and end of the loop antenna were connected to the conductive thin plates 23a and 23b, respectively.

  Next, the facing distance between the loop antenna mounted on the reading / writing device capable of performing communication processing with a conventional non-contact IC card having an antenna conforming to the ISO / IEC14443 Type A system and the loop antenna of the relay medium The relay medium was fixed to the reading / writing device so as to be 5 mm. Further, a protective cover having a thickness of 1 mm is provided on the surface of the pair of conductive thin plates of the relay medium so that the electronic information recording medium can be superimposed on the protective cover.

The relay medium produced above and the reading / writing device are communicated by electromagnetic induction, the electronic information recording medium is placed on the pair of conductive thin plates formed on the relay medium, and the pair of conductive thin plates face each other and are electrostatically coupled. The data was read / written in the IC chip mounted on the electronic information recording medium.
Further, the center position of the electronic information recording medium and the relay medium can be determined by combining the three types of shapes 1 to 3 of the electronic information recording medium and the shapes 1 to 4 of the four types of conductive thin plates formed on the relay medium. Evaluation was made on the allowable rotational deviation of the electronic information recording medium in the combined state and the allowable deviation of the center position between the electronic information recording medium and the relay medium. The evaluation results are as shown in Table 1.

As a result of the evaluation, the shapes of the conductive thin plates of the electronic information recording medium and the relay medium are both shapes in which one conductive thin plate surrounds the other conductive thin plate via a groove (shape 2 and shape of the electronic information recording medium). 3 and relay media shape B, shape C, shape D), the rotation tolerance when the respective center positions are aligned is greatly increased from 10 ° to 360 °. It was confirmed that no stable region was generated.
It was also confirmed that the tolerance of misalignment increased from ± 1 mm to ± 2 to 3 mm by setting the size of each conductive thin plate of the electronic information recording medium and the relay medium to 100 mm ² or more.
Further, the combination of the shape 3 of the electronic information recording medium and the shape D of the relay medium (when the pair of conductive thin plates of the electronic information recording medium are arranged so as to face the pair of conductive thin plates of the relay medium, The conductive thin plate formed inside the groove of the information recording medium is larger than the conductive thin plate formed inside the groove of the relay medium and smaller than the conductive thin plate formed outside the relay medium. It was confirmed that the tolerance for displacement is further increased.

  According to the present invention, it is possible to use a non-contact type electronic information recording medium based on an electromagnetic induction system as a communication system that is not easily affected by rotational deviation or positional deviation.

DESCRIPTION OF SYMBOLS 1 Reading / writing apparatus 2 Relay medium 3 Electronic information recording medium 11 Transmission / reception part 15, 25 Loop antenna 20 Relay medium base material 22 Support film 23, 33 Conductive thin plate pair 23a, 33a Circular conductive thin plate 23b, 33b Toroidal shape Conductive thin plate 26 Capacitor 30 IC module 31 IC chip 32 Module substrate 34 Sealing resin

Claims (11)

  A capacitively coupled electronic information recording medium having an IC chip capable of communicating by electromagnetic induction and a pair of conductive thin plates connected to the IC chip, and a reading book having a loop antenna and communicating with the electronic information recording medium Is a communication system for non-contact communication with a relay medium having a pair of conductive thin plates and a loop antenna, and a pair of conductive elements formed on the electronic information recording medium and the relay medium The thin plate is formed through a groove on the outside of one conductive thin plate so that the other conductive thin plate surrounds the inner conductive thin plate, and one of the pair of conductive thin plates formed on the relay medium is a loop. The start end of the antenna and the other end are connected to the end of the loop antenna, and the pair of conductive thin plates of the relay medium are arranged to face the pair of conductive thin plates of the electronic information recording medium. Communication system, characterized in that the loop antenna is communicated is arranged to face to the loop antenna of the reading and writing device. The communication system according to claim 1,
A pair of conductive thin plates formed on either or both of the electronic information recording medium and the relay medium is circular, and the other shares the circular center point and is formed outside the circular thin plate via a groove. A communication system, characterized in that it is formed of an annular conductive thin plate. The communication system according to claim 1 or 2,
When the pair of conductive thin plates of the electronic information recording medium is arranged to face the pair of conductive thin plates of the relay medium, the conductive thin plate formed inside the groove of the electronic information recording medium is A communication system characterized in that it is formed to be larger than a conductive thin plate formed inside a groove and smaller than a conductive thin plate formed outside a relay medium. The communication system according to any one of claims 1 to 3,
A pair of conductive thin plates formed on either or both of the electronic information recording medium and the relay medium, the conductive thin plate formed on the outer side of the groove is formed with a groove having a predetermined width in the radial direction. A communication system. The communication system according to any one of claims 1 to 4,
A communication system, wherein the relay medium is incorporated in a reading / writing device. The communication system according to any one of claims 1 to 5,
A communication system, wherein the reading / writing device and the relay medium are communicated by electromagnetic induction, and the relay medium and the electronic information recording medium are communicated by electrostatic coupling. The communication system according to any one of claims 1 to 6,
When communication is performed between the reading / writing device and the electronic information recording medium, the conductive thin plates inside the grooves of the electronic information recording medium and the relay medium are communicated with the conductive thin plates outside the grooves facing each other. A communication system. The communication system according to any one of claims 1 to 7,
The conductive thin plate pair formed on the relay medium and the conductive thin plate pair formed on the electronic information recording medium are made of different materials. The communication system according to any one of claims 1 to 8,
A communication system, wherein the electronic information recording medium is an IC card. The communication system according to any one of claims 1 to 8,
A communication system, wherein the electronic information recording medium is an IC label. The communication system according to any one of claims 1 to 8,
A communication system, wherein the electronic information recording medium is a coin-shaped electronic information recording medium.

Images