RU173877U1 - RFID REGISTRATION LABEL - Google Patents

Abstract

The utility model relates to the field of radio engineering and is intended to identify objects (goods, products, structures, etc.) for various purposes and obtain information about them, in particular RFID tags. The RFID tag is made in the form of a short-circuited linear polarized antenna made of a conductive material having a cross section in the form of an elongated open rectangle, with two parallel conductive surfaces-shelves, differing in width, and at least one side conductive surface-wall. In this case, two shelves are electrically connected through one wall and through an RFID chip located between the shelves at a distance from the wall. The technical result consists in simplifying the design of the RFID tag while maintaining efficiency. 17 s.p. f-ly, 3 ill.

Description

The inventive utility model relates to the field of radio engineering and is intended to identify objects (goods, products, structures, etc.) for various purposes and to obtain information about them, in particular RFID tags.

The RFID tag for the utility model patent of the Russian Federation No. 142645 is known, published on June 27, 2014. This document describes a tag for radio frequency identification of objects, including an identification microcircuit and a microstrip antenna connected to it, containing a lower conductive layer, an upper conductive layer and located between they dielectric layer made in the form of an air gap, characterized in that the conductive layers are placed on dielectric substrates, the upper conductive layer is made with a figured slot, arr The connecting strip and the base part of the conductive layer is the emitter, the identification microcircuit is connected by its leads to the upper conductive layer at points located on the connecting strips, the first connecting strip being connected to the central part of the emitter, and the second connecting strip connected to the peripheral part of the emitter.

The disadvantage of the utility model is the complex design of the device.

The RFID tag for the utility model patent of the Russian Federation 62723 published on April 27, 2007 is known. The document describes a tag for radio frequency identification of objects containing an identification microcircuit and a microstrip antenna connected to it, comprising a lower conductive layer, an upper conductive layer and a dielectric layer located between them characterized in that the identification microcircuit is connected by its terminals directly to the upper and lower conductive layers, the complex resistance of the identification m kroskhemy located in the range (10 ÷ 30) -j (410 ÷ 430) ohms and in accord with the complex impedance of the microstrip antenna in the range 0.86 ÷ 0.9 its resonant frequency, the operating range of frequencies of keywords 865 ÷ 869.65 MHz.

The disadvantage of the utility model is the complex design of the device.

Known RFID tag for application for European patent No. 2843596, published March 4, 2015. The document describes an RFID tag in the housing, operating at a frequency of 13.56 MHz, incorporating a dipole antenna designed for carrying by a person on a chain around his neck , on a bunch of keys, etc.

The disadvantage of this application is the design complexity.

Known RFID tag for the application for the invention of Japan No. 201081290, published 08.04.2010. The document presents various architecture options for the RFID tag, which incorporates a microstrip patch antenna. The described RFID tag is a dielectric plate coated on one side over the entire area with a metal layer and having on the other hand a metal coating of a rectangular shape of a smaller area with a rectangular or U-shaped cutout, inside which an RFID tag chip is fixed. Metal coatings on both sides of the dielectric plate are not electrically connected to each other.

The disadvantage is the design complexity, as well as the lack of a matching element in the design for matching the RFID chip and antenna, which leads to a deterioration of the antenna.

Known RFID tag for the patent for the invention of Japan No. 5687154, published 02.21.2013. The document describes the architecture of RFID tags with short-circuited antennas; in some embodiments, short-circuited microstrip antennas are provided. The described RFID tag is a dielectric plate with a metal coating on two large flat surfaces and on two side faces, while the coating forms a single whole except for the installation location of the RFID chip and cut strips (which are present in some versions).

The disadvantage of the invention is the design complexity, as well as the lack of a matching element in the design for matching the RFID chip and antenna, which leads to deterioration of the antenna.

Known RFID tag for the patent for the invention of Japan No. 5187083, published 04/24/2013. The document describes the architecture of RFID tags with short-circuited microstrip antennas. The described RFID tag is a dielectric plate coated on one side over the entire area with a metal layer and having on the other hand a metal coating of a rectangular shape of a smaller area with one or more rectangular cutouts, an RFID tag chip is fixed inside one of them. The metal coatings on both sides of the dielectric plate are electrically connected to each other in various ways.

The disadvantage of the invention is the design complexity.

The closest analogue of the claimed utility model is the invention of Japan patent No. 4742322, published on 05/13/2010. The document describes the architecture of RFID tags with short-circuited microstrip antennas. The described RFID tag is a dielectric plate coated on one side over the entire area with a metal layer and having on the other hand a metal coating of a rectangular shape of a smaller area with a rectangular or U-shaped cutout, inside which an RFID tag chip is fixed. The metal coatings on both sides of the dielectric plate are electrically connected to each other in various ways.

The disadvantages of the utility model is the complexity of the design of the device.

The technical result, which the utility model is aimed at, is to simplify the design of the RFID tag while maintaining efficiency.

The technical result is achieved in an RFID tag device made in the form of a short-circuited linear polarized antenna made of a conductive material having a cross section in the form of an elongated open rectangle, with two parallel conductive surfaces-shelves that differ in width, and at least one side conductive surface-wall. Two shelves are electrically connected through one wall and through an RFID chip located between the shelves at a distance from the wall.

Preferably, the RFID chip is connected to at least one shelf through a matching element.

In some embodiments, the antenna is made with two side conductive surfaces-walls, and only one of the side walls is electrically connected to each of the shelves of the antenna, and the second wall is connected to only one of the shelves.

In some embodiments, an additional conductive shelf located in the plane of the second shelf is attached to a wall having a connection of only one of its sides with one shelf, on the other hand, in the direction of the second shelf.

Preferably, the RFID chip is mounted on a printed circuit board mounted between the parallel shelves of the antenna, parallel or perpendicular to the shelves.

The device can be used housing RFID chip attached to the circuit board by soldering.

The device can be used with an open-frame RFID chip attached to the printed circuit board by welding.

An inductance and / or capacitance are used as a matching element in the device, which can be either in the form of separate components mounted on a printed circuit board and / or outside the printed circuit board, or as a group of conductive tracks on a printed circuit board.

The antenna may be made of copper and / or aluminum.

The antenna can be made of foil or sheet by bending it to form the desired shape.

In some embodiments, the antenna is formed on a dielectric sheet, wherein the dielectric sheet is placed between two shelves.

In some embodiments, the dielectric sheet is made with cutouts.

Preferably, the dielectric sheet is solid and / or foamed and / or with a honeycomb structure,

It is preferable to use plastics and / or cork material as dielectric.

It is preferable to use cork material from glued cork chips and / or from agglomerate of cork chips and / or cork veneer.

In one embodiment, it is possible to form conductive surfaces of the antenna by sputtering or electrodeposition of metal on a dielectric sheet.

In some embodiments of the utility model, the RFID tag is made with a protective layer of varnish or a polymer film deposited, for example, by lamination.

In FIG. 1 is an isometric view of an RFID tag.

In FIG. 2 is a side view of an RFID tag.

In FIG. 3 is a front view of an RFID tag.

The following elements are shown in the figures: 1 - conductive surface-shelf of a smaller size; 2 - side conductive surface-wall; 3 - parallel to surface 1, the conductive surface-shelf of a larger size; 4 - side conductive surface-wall with an additional shelf; 5 - conductive section, through which there is an electrical connection of the shelf 1 with the RFID chip 6.

The utility model is implemented in an RFID tag, which is made by bending from a copper sheet an antenna in the form of an open rectangle with two parallel surfaces-shelves 1 and 3 and with two side conductive surfaces-walls 2 and 4. The printed circuit board is made with a soldered encased RFID chip 6 and matching element as a separate component. The printed circuit board is fixed between the shelves parallel to them at a distance from the side wall 2. The shelf 3 is connected to the shelf 1 through a printed circuit board on which an RFID chip 6 with a matching element is installed, and then through a conductor 5 connected to the printed circuit board.

The device has a simple design, due to which a technical result is achieved.

Claims (18)

1. RFID tag, characterized in that it is made in the form of a short-circuited linear polarization antenna made of a conductive material having a cross section in the form of an elongated open rectangle, with two parallel conductive surfaces-shelves, differing in width, and at least with one side conductive surface-wall, with two shelves electrically connected through one wall and through an RFID chip located between the shelves at a distance from the wall. 2. The RFID tag according to claim 1, characterized in that the connection of the RFID chip with at least one shelf is made through a matching element. 3. The RFID tag according to claim 1, characterized in that the antenna is made with two side conductive surfaces-walls, with only one of the side walls being electrically connected to each of the shelves of the antenna, and the second wall is connected to only one of the shelves. 4. RFID tag according to claim 3, characterized in that to the wall having a connection of only one of its sides with one shelf, on the other hand, an additional conductive shelf located in the plane of the second shelf is attached to the second shelf. 5. The RFID tag according to claim 1, characterized in that the RFID chip is placed on a printed circuit board mounted between parallel antenna shelves parallel or perpendicular to the shelves. 6. The RFID tag according to claim 5, characterized in that the RFID chip is a housing chip and is attached to the printed circuit board by soldering. 7. The RFID tag according to claim 5, characterized in that the RFID chip is frameless and attached to the printed circuit board by welding. 8. The RFID tag according to claim 2, characterized in that the inductance and / or capacitance are used as the matching element, which are made either as separate components installed on the printed circuit board and / or outside the printed circuit board, or as a group of conductive tracks on the circuit board. 9. The RFID tag according to claim 1, characterized in that the antenna is made of copper and / or aluminum. 10. The RFID tag according to claim 1, characterized in that the antenna is made of foil or sheet by bending. 11. The RFID tag according to claim 1, characterized in that the antenna is located on the dielectric sheet, while the dielectric sheet is placed between two shelves. 12. The RFID tag according to claim 11, characterized in that the dielectric sheet is solid and / or foamed and / or with a honeycomb structure. 13. The RFID tag according to claim 11, characterized in that the dielectric sheet is made of plastic and / or cork material. 14. The RFID tag according to claim 11, characterized in that the formation of the conductive surfaces of the antenna is performed by sputtering or electrodeposition of a metal on a dielectric sheet. 15. The RFID tag according to claim 1, characterized in that it is made with a protective layer of varnish or polymer film. 16. The RFID tag according to claim 15, wherein the polymer film is applied by lamination. 17. The RFID tag according to claim 13, characterized in that the cork material is made of glued cork chips and / or agglomerate of cork chips and / or cork veneer. 18. The RFID tag according to claim 11, characterized in that the dielectric sheet is made with cutouts.

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