RU71791U1 - LABEL FOR RADIO FREQUENCY IDENTIFICATION OF OBJECTS - Google Patents

Abstract

The utility model relates to radio engineering and is intended for radio-frequency identification of objects (goods, products, structures, etc.) for various purposes and for obtaining various information about them.

An identification tag is proposed that contains an identification chip and antennas, DIFFERENT in that the identification chip (1) is made with at least two pairs of antenna terminals (5, 6, 8) directly connected to the antennas (2, 3, 7), tuned to work in various frequency ranges: 865 - 868 MHz and 902-928 MHz; 865-868, 902-928 MHz and 950-956 MHz, respectively. Figure 2

Description

The utility model relates to radio engineering and is intended for radio-frequency identification of objects (goods, products, structures, etc.) for various purposes and for obtaining various information about them.

A known radio frequency identification tag of objects containing an identification microcircuit and an antenna connected to it, made in the form of two symmetrical wires (patent US 6,147,606 G08B 13/14).

A known label for radio-frequency identification of objects containing an identification microcircuit and an antenna connected to it, made in the form of two conductive layers separated by a dielectric layer, and the identification microcircuit is connected by its findings directly to the upper and lower conductive layers (PM RU No. 62723 G08B 13/00) .

The disadvantage of these types of tags is a narrow range of operating frequencies, determined by the design of their antennas.

The closest in technical essence and the achieved result to the claimed utility model is a label for radio-frequency identification of objects described in US patent 6,147,606. This tag consists of an integrated circuit (chip) and antenna, made in the form of a complicated dipole, and connected directly to the antenna terminals of the chip. However, this design does not allow to obtain sufficiently accurate matching of the antenna and chip resistances in a wide frequency range or in several disjoint ranges, which does not allow the same design to be used equally efficiently in RFID systems of different frequency ranges.

The task to which the claimed utility model is directed is to expand the arsenal of hardware for radio frequency identification

objects due to the creation of a simple and technologically advanced in manufacture, compact radio-frequency tags that work equally effectively in different frequency ranges.

The technical result obtained by using the claimed utility model is to expand the scope of use of the tag due to its versatility with respect to RF identification systems of various ranges.

The task is achieved in that in the identification tag containing the identification chip and the antenna, the identification chip (1) is made with at least two pairs of antenna terminals (5, 6, 8) directly connected to the antennas (2, 3, 7) tuned to work in different frequency ranges: 865-868 MHz and 902-928 MHz; 865-868, 902-928 MHz and 950-956 MHz, respectively.

The inventive label differs from the prototype in that it contains an identification chip with at least two pairs of antenna terminals and at least two antenna antennas connected to the terminals, configured to operate in different frequency ranges.

The identification chip is connected directly to the inputs of the antennas by its findings. In the claimed design does not use a matching scheme, because coordination is achieved by selecting the geometric dimensions of the antenna at which the complex resistance of the identification chip and the complex resistance of the antenna can be matched at a frequency that is in a given frequency range.

The utility model is illustrated using figures 1-2, which show the options labels for radio frequency identification of the object with the following notation:

1 - identification chip

2 - antenna

3 - antenna

4 - flat substrate

5 - the first pair of antenna terminals

6 - the second pair of antenna terminals

7 - antenna (option 2)

8 - the third pair of antenna terminals

The label for radio-frequency identification of objects is shown in FIGS. 1, 2. The label (FIG. 1) contains an Impinj Monza2 1 identification chip and antennas 2 and 3 made of a thin layer of conductive material on a flat substrate 4. Two pairs of antenna terminals 5 and 6 of the identification microchips soldered to antennas 2 and 3.

The identification microcircuit connected directly to the tag antenna has a complex resistance Z and _c = 58-j166, consisting of the active part R _is and the reactive part X _is . The coordination and, thanks to it, the most efficient transfer of power from the antenna to the identification chip is achieved provided that the integrated resistance of the identification chip Z and _c and the antenna Z _A are complex conjugate Z and _c = Z * _A. That is, for the best matching of the antenna with the chip in a given frequency range, it is necessary that the input impedance of the antenna at the center frequency of this range be equal to Z _A = 58 + j166.

The prototype tag is configured to operate in two frequency ranges: 868 ÷ 870 and 902 ÷ 928 MHz. The dimensions of the antennas are experimentally selected so that

antenna 2 at the center frequency of the range 868–870 MHz and antenna 3 at the center frequency of the range 902–928 MHz have an input impedance Z _A = 58 + j166.

A special case of a model with three pairs of antenna terminals is presented in figure 2.

The label for radio-frequency identification of objects works as follows.

In order to ensure the identification of objects, an interested party, such as a manufacturer of goods or a trade organization, supplies each object (goods, product, construction, etc.) with a radio frequency identification tag during its production, or when it is transferred to a trading organization, or when it is sold .

The antenna provides a signal from the reader and the reverse transmission of individual information contained in the identification chip.

Thus, an identification tag has been proposed as a useful model, which is not only simple and technologically advanced to manufacture, but also operates in different frequency ranges, which is relevant for labeling goods that are transported and sold in countries where radio frequency identification systems are used to use different frequency ranges are reserved.

Claims (3)

1. A label for radio-frequency identification of objects containing an identification microcircuit and antennas, characterized in that the identification microcircuit is made with at least two pairs of antenna terminals directly connected to antennas configured to operate in different frequency ranges; 2. A label for radio-frequency identification of objects according to claim 1, characterized in that its operating frequency ranges are 865-868 MHz and 902-928 MHz. 3. The label for radio-frequency identification of objects according to claim 1, characterized in that its operating frequency ranges are 865-868, 902-928 MHz and 950-956 MHz.