NL8304247A - Security detector card assembly - incorporates LC circuit formed by pairs of electrodes and flat wire spiral and includes plastics components - Google Patents

Abstract

The detector card (1) may be used to control the access of authorised personnel to security restricted areas. It may consist of a thin plastics card, approx. the size of a normal credit card, and approx. 50 (microns) thick. There is a pair of electrodes (Y1,Y2) on opposite faces of the card at one corner, and there is a further opposed pair of electrodes (X1,X2) at the centre of the card. On one side the central electrode (X1) is connected to the corner electrode by a straight wire (Z1), while on the other side the two electrodes (X2,Y2) are connected by a flat spiral of wire, which forms an inductor and resistor. The pairs of electrodes form capacitors, and the whole thin forms an LC circuit which may resonate when exerted at a given frequency. The card has outer layers of plastics fusion bonded around the edges to inner layers of platics made of low melting material to form a hermetic seal. Pref. there is a supporting core made of polyester etc. and the inner layers are pref. made of a copolymer of ethylene and vinyl acetate.

Description

- 1 -

Card-shaped detector and entry and exit control device for its application.

The invention relates to a card-shaped detector, which contains a number of LO tuning circuits, as well as an entry and exit control device using this detector, and more particularly to a card-shaped detector, which contains a number of LC tuning circuits. , the presence of which can be detected when at least one of said LC circuits is sensed at a preselected resonance frequency of an electric wave, and on an entry and exit control device using this card.

An earlier board includes a single LC tuning circuit, consisting of an inductance L, a capacitance C and a resistor R, as shown in Figure 1, and these impedance elements are interposed between simple covers.

When a conventional card-shaped detector of such construction is made to sense the resonance frequency of an electric wave emitted by an electric wave emitting and receiving device, not shown, installed at the exit of a shop, the electric wave can emit and receiving device produce a interference sound to eventually emit an alarm signal, or detect the state of an absorbed electric wave energy to generate an electric signal. For this reason, an article containing a detector provided with such an LC tuning circuit can be detected at the exit of a shop. However, since the known detector uses a common coil and capacitor, the electrical circuits are vulnerable to damage, requiring a large number of manufacturing processes in the case of mass production, which entails high production costs. In addition, since the finished map has a not insignificant thickness, it is quite uncomfortable 8 3 0 4? * 7 A Μ - 2 - to handle and take with you.

In the meantime, an entry control system has been implemented, whereby a person, who carries a plastic card the size of a credit card, provided with a magnetic strip, can automatically open a door or gate by using this card. More specifically, inserting a card with a preset code into lead-in ends, affixed to the inside and outside of a door, causes the door to open and then automatically close in a predetermined mode, after a person carrying the card has gone through the door. However, this system is not convenient since every time a door has to be opened the person has to take the card and insert it into the 15 ends.

In the case of an optical identification card system, it is also necessary to pass the card through a checking device, i.e. the card carrier must apply the card to a suitable part of the body 20 so as not to intercept the light source , which is used to detect a specific code on the surface of the card. This not only makes the use of this card difficult, but can also be observed by third parties.

It is an object of the invention to provide an improved map detector with a simple construction so as to be easily detectable with an electric wave of preset resonance frequency.

Another object of the invention is to provide a merchandise entry and exit control device using the card just described.

Yet another object of the invention is to provide a new identification card and an entry and exit control device which allows or prevents the passage of a person carrying the card without requiring any manipulation of his card. .

According to one aspect of the invention, there is provided a card-shaped detector comprising a plate substrate. * - * - 3 - with a fixed thickness and dielectric constant and made of a synthetic resin such as polyester resin or polyimide resin, comprises a first equivalent capacitor, comprising a pair of central electrodes, connected, for example, by photo-etching technique, with opposing surfaces of the substrate on a central portion, respectively, a second equivalent capacitor comprising a pair of peripheral electrodes, respectively bonded on opposite surfaces of the substrate on any portion of the periphery thereof, said two capacitors having an equivalent forming a capacitance of an LC tuning circuit, a spiral conductor interconnecting a central electrode and a peripheral electrode, said electrodes being arranged on one side of the substrate, said spiral conductor forming an inductance of said LC tuning circuit, internal films made of low melting point resin and thermal resin fused to the opposite surfaces of the substrate, and outer films, respectively, overlying said inner films and made of a high melting point synthetic film, the peripheries of said inner and outer films being hermetically fused together.

According to another aspect of the invention, there is provided an entry and exit control device, comprising a card-shaped detector, comprising a plurality of LC tuning circuits, all having different tuning frequencies, a sweep signal generator for producing sweep signals with oscillation frequencies, capable of sensing the LC tuning circuit of preset tuning frequencies, a tuning point detector for sensing a depression in a detected current level, caused by slightly absorbed oscillatory electric wave energy at each tuning point of a number of LC tuning circuits to which an output of the sweep signal generator is applied, thereby formed such that a binary code is produced by bits corresponding respectively to the state of the LC tuning circuits, 40 and means responsive to the binary code for the ~ - 2 4 7 - 4 - operating a door or gate in order to make a passage t e to prevent or admit a person who carries the card.

The invention will now be further elucidated with reference to the drawing. In the drawing: Fig. 1 shows a circuit diagram of an LC tuning circuit used with a known detector, Fig. 2 shows a perspective view of a plate substrate of a map-shaped detector, applying the invention, Fig. 3 a section according to III-III of fig. 2, fig. 4 an equivalent diagram of the card-shaped detector, shown in fig. 2, fig. 5, a cross-section of a plate substrate 15 of the card-shaped detector, which is sealed with a thin cover, FIG. 6 is a plan view showing a modified card using two LC tuning circuits with different tuning frequencies, and FIG. 7 is a circuit diagram of an entry and exit control device using a card similar to that of FIG. 6.

The card-shaped detector, as shown in Figs. 2, 3, and 5, comprises a plate substrate with a thickness of about 5 µm and made of polyester resin or a polyxmide resin. A central main electrode X ^, a central counter electrode X2t, a peripheral main electrode Y ^ and a peripheral counter electrode Y2 are formed on the opposite faces of the substrate, e.g.

30 by photo-etching. The central main electrode X ^ and the peripheral main electrode Y ^ on the back of the substrate are interconnected by a linear printed wire Z ^, while the central counter electrode X2 and the peripheral counter electrode Y2 are interconnected at the top by a spiral printed wire Z2 to form an LC tuning circuit. The thicknesses of the electrodes X ^, X2, Y ^ and Y2 are chosen at approximately 18 μ.

Fig. 4 shows an equivalent scheme of the 40 arrangement shown in FIG. 2, where C_v and C-^

Jz2 \ ir X

OU

4> - 5 - represent electrostatic capacitances of the capacitors formed between the electrodes X1 and X2, and the electrodes Y ^ and Y2, respectively. As shown in Fig. 1, these capacitors are connected in series with an inductance L and a resistor R, a line B-B representing the horizontal central line of the plate substrate 1.

The electrostatic capacitance C__ of the total equivalent capacitor comprising the equivalent-10 circuit is shown by the following equation: _i___1_ +. . L ·.

CPE CPX CPY

As shown in Fig. 5, both sides of the plate substrate 1, shown in Fig. 2, are covered with top and bottom cover plates 2 and 3, and the peripheral joint therebetween is hermetically sealed by heat and pressure.

More specifically, a thin lid made of the top and bottom plates 2 and 3 includes outer films 2a and 3a made of a polyester resin, and inner films 2b and 3b made of an ethylene-vinyl acetate copolymer such as described in published Japanese utility model 14259/1979. The inner and outer films are laminated to a thickness of approximately 150 μ. After superimposing the top plate 2 and the bottom plate 3, heat and pressure are applied to their peripheries and the plate substrate 1. Since the outer films 2a and 3a are made of a high melting point polyester resin, they are not affected by the heat, but since the inner films 2b and 3b are made of low melting point copolymer of ethylene and vinyl acetate, these films 2b and 3b will melt by the heat. Thus, the inner films 2b and 3b melt on the plate substrate 1, and at their peripheries, the top and bottom plates 2 and 3 melt together to form an airtight peripheral splice 4, thereby obtaining a map detector according to the invention .

Since the card-shaped detector according to the invention has a laminated thin plate construction, __ i 3 0> 2 4 7 • * v - 6 - which includes an LC tuning circuit, in case the detector is hidden in an expensive fur article or a book, scanning the resonance frequency (f = --——) of an electric wave, which is 27r / LCpE 5 emitted by an electric wave emitting and receiving device (not shown), installed at an outlet of a shop, where the article is brought out at the exit without any legal procedure or payment having been made for it, resulting in a maximum current flowing through the LC tuning circuit. Accordingly, the electric wave reflected from the card is received by the electric wave transmitting and receiving device, and thus the detector detects a resonance frequency tuning point for producing an alarm signal. Thus, the card-shaped detector according to the invention is effective in preventing merchandise theft.

Although in the shown embodiment the capacitors 20 have a certain capacitance, it is clear that capacitors of any capacitance can be applied by cutting off the peripheral electrodes to be formed in different sizes, thereby obtaining different kinds of map detectors, which respectively respond to different resonant frequencies, which can be used to monitor the entry and exit of persons.

As described above, according to the invention, there is provided a new card-shaped detector useful for preventing theft of valuable merchandise and for monitoring the entry and exit of persons. Moreover, the card according to the invention is characterized by its low thickness and light weight, and it is easy to manufacture and use.

Fig. 6 is a plan view showing a modified chart using two LC tuning circuits. The substrate 1 has the construction similar to that shown in Fig. 2.

S3 0 4 2 4 7 _: __ - 7 -

In this version, two symmetrical LC tuning circuits are provided, one of which is laid upside down and rotated 180 ° relative to the other. Thus, the LC tuning circuits include a pair of 5 central electrodes, X2 and a Pair of peripheral electrodes Y1 #. Y2 on the opposite surfaces of the substrate 1. The electrodes X ^ and Y ^ on one side and X2 and Y2 on the other side are respectively interconnected by a linear wire and a spiral wire Z2, which are on the substrate 1 are printed.

Although not shown, the modified card is also covered with synthetic resin composite films sealed in the same manner as in the first embodiment.

Pig. 7 is a circuit diagram showing an entry and exit control device using the modified card shown in FIG. 6. The card 10 shown in FIG. 6 includes three LC tuning circuits 10a, 10b, and 10c, which represent a 20 3-bit binary code and consist respectively of capacitors CpE1, CpE2, CpE3, and inductances L ^, L2 and L3. Furthermore, n ^, n2 and n3 are coil terminals, respectively. disposed near the electrodes of the LC tuning circuits, where n 2 and n 2 are in the closed position, and n 2 is in the open position in this example.

The entry and exit control device 30 includes a sweep signal generator 40, which generates three sweep signals in a bandwidth corresponding to the different resonant frequencies of the three LC-30 tuning circuits 10a, 10b and 10c, and a tuning point detector 50, operating according to the operational principle of a so-called "dive meter".

More specifically, when the oscillation frequency of the sweep signal generator and any preset frequency of the LC tuning circuits 10a, 10b and 10c coincide, the oscillating electric wave energy is absorbed by the relevant LC tuning circuits, making it weak at the tuning point. As a result, the tuning point detector 50 detects the 40 tuning points Ta, Tb and Tc corresponding to each

S "·" Λ 0 LI

~ w ί ». / -V * - 8 - tuning frequency of the LC tuning circuits 10a, 10b and 10c to provide a pulse signal, which becomes a high signal ("1") when a tuning point is detected, but a low signal ("O" ), when no 5 tuning point is detected. These pulses are independently paralleled to a register 60 as a 3-bit binary code, converting them into a decimal value, representing one of seven combinations for a selection of operation sequences 10 which is then given to a selector 70. The selector 70 is constructed such that either one course of action of the seven combinations is selected or seven different identification items relating to persons, the identified number corresponding to the above entry of a decimal value. The output of the selector 70 is given to a display device 80 and a gate driver circuit 90 which opens and closes a gate in accordance with the output of the entry and exit control device 30, 20 which operates as follows:

Since the LC tuning circuits 10a and 10c of the card 10 are closed, while the LC tuning circuit 10b is open, the card 10 forms a 3-bit binary code "101". As a person carrying the card 10 approaches the entry and exit control device IQ, since the variable frequencies of the sweep signal generated by the sweep signal generator 40 coincide with the tuning frequencies of the LC tuning circuits 10a and 10c, contained in the card 10, its 30 tuning points Ta and Tc are accordingly detected by the tuning point detector 50, and detected signals "1", "0" and "lu are applied to the register 60. This binary code" 101 "is converted to a decimal value "5" by the register 60.

Next, the selector 70 is operative either to select the preset output corresponding to the above-mentioned decimal value "5", or to check the identification, which belongs to a specific group of persons, corresponding to 40 the identified number " 5 ". The output of the selector 9304247-9-170 is supplied to the display 80 to display "CONTINUE ORDER". This output is also applied to the gate driver circuit 90 so as to open the gate (not shown), allowing the person carrying the card to pass through the gate.

When a person who does not carry a specific card 10 of the type described above approaches the gate, since the tuning point detector 50 of the entry and exit control device 30 does not detect any tuning point, a detected binary code "000" becomes sent to the tuning point detector 50. This binary code is then converted to a decimal value "0". The selector 70 is then operative either to select the preselected output corresponding to the above-mentioned decimal value "0", or to check the identification belonging to the specific group of persons corresponding to the identified number " 0 ". Therefore, the display 10 shows "CONTINUE FORBIDDEN" while the gate driver circuit 90 does not open the gate. As described above, the entry and exit control device according to the invention controls the card carrier to allow or prevent it from passing through a gate. Thus, the card holder need never show or manipulate his card, and furthermore, the card itself cannot be seen by a third party.

By increasing the number of LC tuning loops present in the card, the number of bits of the available 30 binary code can be increased, which means that the number of differently identified cards can be technically increased, thereby extending the limit of the use of maps for the system in question is expected.

- conclusions -? ^ 'δ 2 4 /

Claims (8)

A card-shaped detector, characterized by: a plate substrate with a predetermined thickness and dielectric constant and made of a synthetic resin, a first capacitor, comprising a pair of electrodes bonded to opposite surfaces of said substrate to a central portion thereof, a second capacitor, comprising a pair of electrodes bonded to opposite surfaces of said substrate at its peripheries, a spiral conductor interconnecting a central electrode and a peripheral electrode disposed on one side of said substrate, said spiral conductor forms an inductance of an LC tuning circuit, inner films made of a low melting synthetic resin, and fused to the opposite surfaces of the substrate, and outer films, which overlie said inner films, respectively, and are made of an artificial film, wherein the peripheries of the genoe the inner and outer films are hermetically fused together. Card-shaped detector according to claim 1, characterized in that the substrate is made of a polyester resin or a polyimide resin. Card-shaped detector according to claim 1 or 2, 30, characterized in that said inner films are made of a copolymer of ethylene and vinyl acetate. Card-shaped detector according to one of the preceding claims, characterized in that said second capacitor has different capacitances vv \ J ** i "4 ƒ ........... ϋΙΙΒΚϋ - 11 - as desired, due to cut off a portion of the peripheral electrodes. Card-shaped detector according to any one of the preceding claims, characterized in that said card comprises a number of LC tuning circuits having different tuning frequencies. 6. Entry and exit control device to be used in combination with a card according to claim 5, characterized by a sweep signal generator for generating sweep signals, suitable for scanning said LC tuning circuits, a tuning point detector, to which an output of said sweep signal generator is applied to generate a binary code consisting of a number of bits corresponding to the state of said LC tuning circuits, and means responsive to said binary code for operating a gate for operating the prevent or permit the passage of a person carrying the said card. 7. Apparatus according to claim 6, characterized in that some of the LC tuning circuits are configured to be closed, while the others are open, resulting in "1" and "Q" of the binary code. * Device according to claim 7, characterized in that the latter means comprise a register for converting said binary code into a decimal value, a selector 30 for selecting a preset output responsive to the decimal value for operation. port and a display for displaying the selected output. 304247