RU182955U1 - Electromagnetic field modulator - Google Patents

Abstract

The utility model relates to the field of radio frequency identification. The electromagnetic field modulator contains a radiolucent thin-sheet base on which two circuits of parallel rows of electrically conductive filamentous elements are fixed, each of which is made of conductors and high-frequency switches connecting these conductors to each other, which are used high-frequency pin diodes. The electrically conductive filamentous elements of each circuit are connected to the source of the modulating signal, and the electrically conductive filiform elements of one circuit are perpendicular to the electrically conductive filamentous elements of the other circuit. All switches and electrically conductive filamentous elements of both circuits are located on one side of the radiotransparent thin-sheet base. As switches, dual high-frequency pin diodes are used, which are related to the type of an unconnected pair according to the configuration of the diodes, one of which is located in the connection line of adjacent conductors of electrically conductive thread-like elements of one circuit, and the other of which is located in the connection line of adjacent adjacent conductors of electrically conductive thread-like elements of another contour. The technical result is to simplify the design. 1 ill.

Description

The utility model relates to the field of radio frequency identification and is intended to modulate electromagnetic radiation in the radio frequency range of wavelengths passing through the device and reflected from it.

A known modulator of electromagnetic fields containing a radiolucent thin-sheet base, on one side of which parallel conductive filamentous elements are fixed, each of which is made of conductors of the same and / or unequal length and connecting the conductors to each other high-frequency switches, high-frequency pin diodes are used as switches, which in parallel rows in adjacent threads are installed on a common imaginary line perpendicular to the direction of filamentous ele copiers, while the electrically conductive filamentous elements are connected to a power source, and on the other side of the base are fixed orthogonally mounted electrically conductive filamentous elements, each of which is made of conductors of the same and / or unequal length and connecting the conductors of high-frequency switches in the form of high-frequency pin diodes, installed in parallel rows on a common imaginary line perpendicular to the direction of filamentous elements that are connected to a power source (RU 2414027, H 01Q 15/10, publ. 03/10/2011).

The disadvantage of this known solution is the complexity of the installation of radio components in the manufacture of large-area screens - modulators. This is explained by the fact that first the electrically conductive circuit is mounted on one side of the radiotransparent thin-sheet base, and then this base is turned over, the web is straightened, and another electrically conductive circuit is mounted on the side opposite the first. By itself, this process is not complicated, but requires high accuracy and experience with paintings of a large area. Deformation of the web with the mounted contour can lead to breaking the chain and unsuitability of the product. Therefore, the installation of elements on the other side of the fabric proceed after the complete polymerization of the compounds on the first side of the same fabric. Due to the complexity of conducting simple operations on a large canvas, the durability of the product is sharply reduced.

In addition, with two-sided installation, the consumption of radio components doubles.

The technical result consists in halving the applied switching elements and simplifying installation - one-sided instead of two-sided.

This utility model aims to achieve a technical result, which consists in simplifying the design to increase its durability.

The specified technical result is achieved by the fact that in the electromagnetic field modulator containing a radiolucent thin-sheet base, on which a first circuit of parallel rows of electrically conductive filamentous elements is fixed, each of which is made of conductors and high-frequency switches connecting these conductors to each other, using high-frequency pin -diodes, a second circuit of parallel rows of electrically conductive filamentous elements, each of which is made of conductors and high-frequency switches connecting these conductors, using high-frequency pin diodes, the electrically conductive filamentous elements of each circuit are connected to the source of the modulating signal, and the electrically conductive filamentous elements of one circuit are perpendicular to the electrically conductive filamentous elements of the other circuit, all switches and electrically conductive filamentous elements both circuits are placed on one side of the radiolucent sheet base, and as a commutator tori used unpacked dual high-frequency pin diodes, which are of the type of unconnected pair according to the configuration of the diodes, one of which is located in the connection line of adjacent conductors of electrically conductive thread-like elements of one circuit, and the other of which is located in the connection line of adjacent adjacent conductors of electrically conductive thread-like elements of another circuit .

Dual high-frequency pin-diodes can be made housing or frameless.

These features are significant and are interconnected with the formation of a stable set of essential features sufficient to obtain the desired technical result.

The present utility model is illustrated by a specific example of execution, which, however, is not the only possible one, but clearly demonstrates the possibility of achieving the required technical result.

In FIG. 1 shows the design of a parametric modulator that performs wide-range modulation of electromagnetic waves incident on it.

According to the claimed utility model, a device is considered - a controlled parametric modulator for modulating electromagnetic waves. Refers to the field of technology related to the creation of semi-active markers used in radio frequency identification for placement on remote objects. In this case, the radio frequency identification system consists of an irradiator forming an irradiating unmodulated electromagnetic wave, a receiver detecting the modulated signal, and a marker placed on the object containing the incident radio signal modulator according to the law, which allows the identification of the object. The design of such markers should ensure the convenience of mounting the marker on an object of complex shape, as well as provide reliable identification of the object when the signal is attenuated, under conditions of interference and changes in the path of the electromagnetic wave in the space between the irradiator and the marker, as well as a change in their relative position. Such changes may occur due to:

the mutual movement of the marker and the feed, as a result of which a Doppler frequency shift occurs in the received signal;

mutual rotation of the marker and the irradiator, as a result of which electromagnetic waves incident on the modulator and receiver can change the plane of polarization;

changes in the electromagnetic configuration of the medium between the marker and the irradiator due to the ingress of conductive objects between them.

In addition, in the presence of a complex electromagnetic configuration of the medium between the marker and the irradiator, due to interference, a local “shadow” may form in the zone where the marker is located when irradiated with a single-frequency signal. To increase the stability of reading information from the marker in this case, it is advisable to use the multi-frequency irradiation method in a wide range of irradiating frequencies.

To this end, the requirements of the software are presented to the properties of the modulator:

the maximum modulation efficiency of both the incident and passing through the surface of the modulator electromagnetic waves,

independence of modulation properties in a wide frequency range, independence of modulation properties from the polarization of the incident signal,

the possibility of curvature and flexibility of the modulator surface.

The device is a controlled parametric modulator for modulating electromagnetic waves (designed to modulate the re-emitted radio signal incident on the surface of the product) is a sheet structure of arbitrary shape containing a "lattice" consisting of parallel "threads" with controlled conductivity. The conductivity of the filaments changes according to a given law under the action of a control electric current coming from a control signal generator.

The device (Fig. 1) contains a thin-sheet radiolucent base 1 (for example, a polyimide film, a flexible material of a woven base, an inflexible plate of their textolite, etc.), on which or in which two electrically conductive circuits are fixed on one side of the base.

Each circuit consists of electrically conductive filamentous elements 2, each filiform element is made of conductors 3 of the same or unequal length and high-frequency switches 4 between the ends of every two adjacent conductors 3.

Based on 1, the electrically conductive filamentous elements are arranged parallel to each other (in parallel rows). The switches 4 in adjacent rows are located at a minimum distance from each other, along imaginary cut lines of conductors 3, perpendicular to the threads.

In this case, the electrically conductive filamentous elements of each circuit are connected to a power source or the source of the modulating signal 5, and the electrically conductive filiform elements of one circuit are perpendicular to the electrically conductive filamentous elements of the other circuit. A feature of the claimed utility model is that all switches and electrically conductive filamentous elements of both loops are located on one side of the radiolucent thin-sheet base 1. The reverse side of the base 1 is not used for mounting radio elements.

Given this feature of the installation of radio components, dual switches are used. As such a switch 4, dual high-frequency pin diodes are used, which are related to the type of an unconnected pair according to the configuration of the diodes. One dual high-frequency pin diode is used simultaneously for the connected conductors of two circuits. In one circuit, each one diode 6 of a dual high-frequency pin diode is located in the connection line of adjacent conductive conductive thread-like elements of this circuit, and another diode 7 of which is located in the connection line of adjacent adjacent conductors of electrically conductive thread-like elements of another circuit.

Dual high-frequency pin diodes can be made either case-mounted or unpacked (V. Reznikov and L. Gubyrin “High-frequency and microwave pin diodes”, posted online on the website “Radio amateur website Volgograd RA4A. Help” on the Internet at the address: http://ra4a.narod.ru/Spravka3/s48.htm).

The operating frequency range of the product is determined by the cutoff frequency of the switch, as well as the geometric parameters of the lattice:

the length of the thread, i.e. the number of periodic elements multiplied by the length of the element determines the lower boundary frequency of the operating range;

the length of a single element determines the upper cutoff frequency of the operating range.

The conductivity of the radio signal is controlled by pin diodes in the threads by changing the current passing through them. The magnitude of the current passing through each filament is determined by the resistance value of the resistors connected in series with the filaments and the magnitude of the voltage supplied to the filament.

Electrically conductive filamentous elements are connected at the ends with buses 8, passed along the edges of the base 1 and connected to the source of the modulating signal 5, connected with the power source of the circuits.

The effectiveness of the modulation properties of the product is determined by the area of the lattice, i.e. the number of threads multiplied by the length of one thread.

The principle of operation is to simultaneously change the transmitting and reflecting properties of the product, by coordinated management of the conductive properties of the switches, in accordance with the required modulation law.

A feature of the claimed utility model is that the change in the transmitting and reflecting properties of the product is determined by the presence of contours, and not their location on the basis. This allowed us to get away from double-sided installation and proceed to the installation of two circuits on one side of the base. This ensured a high level of assembly, control over the connection of parts and eliminated the factor of accidental deformation of conductors or rations or product breakage from manipulations of turning over a large area of the canvas.

Such a modification of a device consisting of two orthogonal gratings (circuits) ensures that the efficiency of the modulation properties of the product is independent of the polarization of the incident wave. Both gratings can be powered by common buses, but can be independently connected via their buses to separate control signal sources.

Tires and conductors are made on the basis of conductive conductors embedded in the structure of the base material or obtained by etching on the surface of the side of the base or glued onto the base. High-frequency pin diodes are soldered to the edges of the conductors. When using two combined orthogonal circuit arrays to ensure polarization independence and broadband device, it is necessary to combine the arrays so that the pin diodes in the aligned arrays are located strictly at the nodes of an imaginary square grid. This condition is met through the use of dual pin diodes.

The implementation of the lattice in the form of a flexible sheet of a variable shape achieves a service property - the convenience of placing a parametric modulator on an object of complex shape.

The device operates as follows, as well as the prototype. Under the influence of a control (modulating) signal, the ability of the switches in the wires to conduct high-frequency currents induced in the wires by the incident electromagnetic wave changes. As a result of this, the magnitude of the reradiated electromagnetic wave from the surface of the modulator and the magnitude of the electromagnetic wave passing through the modulator are changed. Thus, the re-emitted and transmitted waves are modulated according to the law of the control signal. If the control signal contains identification information in analog or digital form, in the re-emitted and transmitted through the modulator radio signals a modulation component is formed that carries identification information about the object.

The present invention is industrially applicable, it allows simple means to increase the operational reliability of the device for radio-frequency identification of remote objects by using a modulator consisting of electrically conductive filamentous elements made of conductors of the same length and dual pin diodes. The device can also be used in any technical field, where it is advisable to provide parametric modulation of electromagnetic fields in a wide frequency range, for example, such as communications, radar, information protection, etc. Moreover, the device is easy to manufacture and has high durability due to reliable technical and installation study an electrical component base on one side of the base of the screen.

Claims (2)

1. An electromagnetic field modulator containing a radiolucent thin-sheet base on which a first circuit of parallel rows of electrically conductive filamentous elements is fixed, each of which is made of conductors and high-frequency switches connecting these conductors to each other, which are used high-frequency pin diodes, the second circuit of parallel rows of electrically conductive thread-like elements, each of which is made of conductors and high-frequency commutations connecting these conductors tators, which are used high-frequency pin-diodes, while the electrically conductive filamentous elements of each circuit are connected to the source of the modulating signal, and the electrically conductive filamentous elements of one circuit are perpendicular to the electrically conductive filamentous elements of the other circuit, characterized in that all switches and electrically conductive filamentous elements of both circuits placed on one side of the radiotransparent thin-sheet base, and dual heights used as switches near-frequency pin diodes related to the type of an unconnected pair according to the configuration of the diodes, one of which is located in the connection line of adjacent conductors of electrically conductive thread-like elements of one circuit, and the other of which is located in the connection line of adjacent adjacent conductors of electrically conductive thread-like elements of another circuit. 2. The modulator according to claim 1, characterized in that the dual high-frequency pin-diodes are made open.

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