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RFID tag

a technology of rfid tags and tags, applied in the direction of instruments, resonant antennas, burglar alarm mechanical actuation, etc., can solve the problems of inability to add or update new information to the barcode itself, troublesome reading of barcodes, and poor gain, so as to increase the frequency bandwidth and increase the transmission frequency. , the effect of simplifying the construction of the power supply section

Inactive Publication Date: 2011-08-09
FUJITSU LTD
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Benefits of technology

[0008]A further object of the present invention is to provide a RFID tag that can be utilized even when the transmission frequencies used in plural areas are relatively close.
[0011]With this invention, the RFID tag comprises a plurality of patch antennas that function as tag antennas and that have different sizes, so it is possible to increase the frequency bandwidth, as well as increase the gain of the transmission frequency used for RFID tags for Japan, the USA and Europe, and to provide a RFID tag that can be used in a plurality of regions (Japan, USA, Europe) that use these different transmission frequencies.
[0012]With this invention, the power-supply pattern section and patch antennas are coupled by a high-frequency coupling, so it is not necessary to form holes in the patch antennas in order to supply power, and thus the construction of the power-supply section is simplified.
[0013]With this invention, by adjusting the length of the loop pattern or linear antenna (monopole pattern), or by adjusting the length and the relative position between the pattern and patch antennas, it is possible to adjust the impedance matching between the tag antenna and tag LSI. Therefore, there is no need for an impedance conversion circuit, and it is possible to make the RFID tag smaller and thinner.
[0014]With this invention, the size of the RFID tag can be reduced by cutting away part of the patch antennas to form a H-shaped patch or C-shaped patch. Moreover, with this invention, it is possible to receive and emit circular polarized waves by cutting away diagonally the corner sections of the patch antennas, or by forming a diagonal slit in the patch antennas.

Problems solved by technology

However, in the method of processing barcodes, the barcode reader must come in contact with the barcode, so the work of reading the barcodes is somewhat troublesome.
Also, in a conventional barcode processing method there is a problem in that it is not possible to add or update new information to the barcode itself.
With this UHF RFID tag, the communication distance does not become poor even when the tag is stuck on a metal or liquid object, and it is not necessary to open holes up in the patch antenna for supplying power or to use an impedance conversion circuit, so this tag has the advantage that it can be made small and thin, however, there is a problem in that the frequency band is narrow, and the gain quickly becomes poor when the frequency shifts from the resonant frequency of the patch antenna.
By reason of the narrow frequency band and poor gain characteristic, it is impossible to use the proposed UHF band RFID tag in a case where a wide frequency band is demanded.
However, with the RFID tag of this prior art, it is necessary that the frequencies be sufficiently separated from each other, and there is a problem in that the tag cannot be used when the frequencies are relatively close.

Method used

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Examples

Experimental program
Comparison scheme
Effect test

embodiment 1

(A) Embodiment 1

(a) Construction

[0038]FIGS. 1A and 1B are drawings explaining a RFID tag of a first embodiment of the invention, where FIG. 1A is a pictorial drawing and FIG. 1B is an enlarged view of a part enclosed by a dotted line in FIG. 1A.

[0039]The RFID tag of this first embodiment is made by etching the rear surface of a double-sided printed circuit board 11 to form three patch antennas 12a to 12c, which function as a tag antenna, and a power-supply pattern section 14, and then mounting a tag LSI 15 on that power-supply pattern section 14 using a chip bonding technique. The power-supply pattern section 14 and the tag LSI 15 form a power-supply element 13. An electrically conductive pattern (not shown in the figure) on the rear surface of the printed circuit board 11 is used as a ground (all surfaces are metallic).

[0040]The sizes L0 to L2 of the patch antennas 12a to 12c are set so that the resonant frequencies will correspond with the transmission frequencies used by UHF band...

embodiment 2

(B) Embodiment 2

(a) Construction

[0061]FIGS. 9A and 9B are drawings explaining the RFID tag of a second embodiment of the invention, where FIG. 9A is a top view, and FIG. 9B is an enlarged view of the main part.

[0062]The RFID tag of this second embodiment is made by etching the surface of a double-sided printed circuit board 21 to form two patch antennas 22a to 22b, which function as tag antennas, and a power-supply pattern section 24, and by mounting a tag LSI 25 onto the power-supply pattern section 24 by a chip bonding technique. The power-supply pattern section 24 and tag LSI 25 form a power-supply element 23. The electrically conductive pattern (not shown in the figure) on the rear surface of the printed circuit board is used as a ground (all surfaces are metallic).

[0063]The sizes L1 to L2 of the patch antennas 22a to 22b are set so that the resonant frequencies correspond with the transmission frequencies used by UHF RFID tags for the USA and Japan. The power-supply pattern sec...

embodiment 3

(C) Embodiment 3

(a) Construction

[0085]FIGS. 17A and 17B are drawings explaining a RFID tag of a third embodiment of the invention, where FIG. 17A is a top view, and FIG. 17B is an enlarged view of the main parts.

[0086]The RFID tag of this third embodiment is made by etching the surface of a double-sided printed circuit board to form two patch antennas 32a to 32b that function as tag antennas, and a power-supply pattern section 34, and by mounting a tag LSI 35 onto the power-supply pattern section 34 by a chip bonding technique. The power-supply pattern section 34 and tag LSI 35 form a power-supply element 33. The electrically conductive pattern (not shown in the figure) on the rear surface of the printed circuit board is used as a ground (all surfaces are metallic).

[0087]The sizes L1 to L2 of the patch antennas 32a to 32b are set so that the resonant frequencies correspond with the transmission frequencies used by UHF RFID tags for the USA and Japan. The power-supply pattern section...

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PUM

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Abstract

An RFID tag that has a tag antenna and a tag LSI comprising: a power-supply element in which the tag LSI is mounted on a power-supply section; a plurality of patch antennas that function as tag antennas and sizes differs; and a high-frequency coupling section that couples the power-supply element with each of the patch antennas by high-frequency coupling.

Description

BACKGROUND OF THE INVENTION[0001]This invention relates to an RFID tag that comprises an antenna and tag LSI, and more particularly to an RFID tag having a plurality of patch antennas of different sizes as tag antennas so that the RFID tag can be utilized in a plurality of areas using different transmission frequencies.[0002]Conventionally, in the distribution industry, transportation industry and the like, one method that is widely used as a method of controlling and managing various kinds of product information, is a method in which barcodes are printed onto or stuck on a product itself or to the product box, and this barcode is read by a barcode reader. However, in the method of processing barcodes, the barcode reader must come in contact with the barcode, so the work of reading the barcodes is somewhat troublesome. Also, in a conventional barcode processing method there is a problem in that it is not possible to add or update new information to the barcode itself. Therefore, in ...

Claims

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Application Information

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Patent Type & Authority Patents(United States)
IPC IPC(8): H01Q1/38
Inventor YAMAGAJO, TAKASHIMANIWA, TORUKAI, MANABU
Owner FUJITSU LTD
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