RU2032224C1 - Resonance marking device with remote suppression - Google Patents

Abstract

FIELD: radio electronic systems for prevention of unauthorized movement of objects beyond limits of guarded zone. SUBSTANCE: resonance marking device includes dielectric substrate 1 which one side carries induction coil 2 connected with one end to fusible conductor 9 with two-wire quarter-wavelength resonator 7 and with other end to plate 3 of capacitor which second plate is arranged on reverse side of substrate 1 and is linked to second fusible conductor with second two-wire quarter-wavelength resonator. Device is inserted with second capacitor which plate 5 is linked to fusible conductor 9 and which other plate is arranged on reverse side of dielectric substrate and is connected to second fusible conductor. EFFECT: simplified design of electron mark with simultaneous time reduction of technological process. 3 dwg

Description

 The invention relates to electronic alarm systems, and in particular to devices for preventing the unauthorized movement of various items equipped with a tag outside the protected area.

 Known tag with remote destruction (US patent N 3810147, CL G 08 B 13/24, 1974). Structurally, the mark is made on a dielectric substrate, on one side of which there are two spiral inductors and capacitor plates, which form electrical capacitances with plates on the reverse side of the substrate.

The equivalent circuit of the label consists of two resonant circuits. One of them is tuned to the detection frequency f ₁ = 5 MHz, and the other to the frequency of destruction f ₂ = 21.14 MHz. The mark is made in such a way that the detection and destruction currents flow through the fusible conductor. As a result of the action of a large current at the frequency of destruction, the conductor is destroyed, which leads to an interruption in the circuit of the resonant detection circuit. The geometric dimensions of the inductance coil of the destruction circuit are small compared to the wavelength at frequency f. This is the reason for the low efficiency of converting the power of the irradiating signal into current. Therefore, for the thermal destruction of the fusible conductor, a large radiation power is required.

 Closest to the proposed device is an electronic tag, made in the form of a flat spiral inductor on a dielectric substrate. The coil forms a resonant circuit with a capacitor, the plates of which are located on opposite sides of the substrate. The electrical contact of the inductor with the capacitor plate located on the opposite side is provided through an opening with metallized walls. Remote tag blanking occurs under the influence of electromagnetic radiation in the microwave range. To do this, fusible conductors are included in the detection circuit, which simultaneously short-circuit two-wire resonators having a size corresponding to a quarter of the wavelength of the microwave oscillations, which makes it possible to efficiently convert microwave energy into current.

 However, such a device has a complex design solution due to the presence in the substrate of the mark of the hole with metallized walls, which complicates the manufacturing technology and increases cost.

 The aim of the invention is the elimination of the above disadvantages of the structural solution of the resonant label while reducing the manufacturing process of its manufacture by at least two operations.

 In FIG. 1, 2 show the topology of the front and back sides of the marker device; in FIG. 3 is an equivalent circuit diagram of a device.

 The dashed line marks the invisible part of the topology. The resonant circuit of the device is made on a dielectric substrate 1 and consists of a spiral inductor 2, a flat capacitor formed by the plates 3 and 4, and a second capacitor formed by the plates 5 and 6. The device contains two quarter-wave two-wire resonators 7 and 8 and two fuse conductors 9 and 10. The resonator 7 together with the fusible conductor 9 is connected between the end of the inductor 2 and the lining 5 of the second capacitor, and the resonator 8 with the conductor 10 is located on the reverse side and connects the plates 4 and 6 to capacitors.

The equivalent circuit of the device is an electric resonant circuit, consisting of series-connected inductors 2 of the inductance L and capacitors C ₁ and C ₂ formed by plates 3 and 4, 5 and 6, respectively.

 The detection of the label is carried out by the resonant absorption of energy of the irradiating radio signal.

Remote tag blanking occurs due to the energy of electromagnetic radiation in the microwave range. The resonance arising in the segments of the two-wire lines 7 and 8 leads to the appearance of a current antinode in the fuse conductors 9 and 10, which causes their thermal destruction and breakage in the circuit of the resonance detection circuit L, C ₁ , C ₂ .

Claims (1)

 RESONANCE REMAINING BLENDING DEVICE, containing a substrate of dielectric material, a coil in the form of a spiral is placed on the front side of the substrate, one end of the inductor is connected to one end of the first fusible conductor, which is located between the two ends of the first two-wire quarter-wave resonator, the other the inductor is connected to the output of one plate of the first capacitor, the second plate of which is located on the back of the substrate and connected to one end of the second fusible conductor, which is located between the two ends of the second two-wire quarter-wave resonator, characterized in that a second capacitor is inserted into the device, the first lining of which is located on the front side of the substrate, the second lining is on the reverse side of the substrate, the first lining of the second capacitor connected to the other end of the first fusible conductor, the second lining to the other end of the second fusible conductor.

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