Radio frequency identification transponder employing patch antenna
First Claim
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1. An RFID tag comprising:
- an RFID circuit affixed to a first side of a substrate, the RFID circuit further comprising an RFID tag IC having an antenna terminal;
a patch antenna affixed to said first side of the substrate;
an impedance matching circuit affixed to said first side of the substrate and connected between said RFID circuit and said Patch antenna to match the impedance of the RFID circuit to that of the antenna, wherein the impedance matching circuit further comprises a series-connected three-section microstrip circuit connected between the antenna and the antenna terminal of the RFID tag IC;
a ground plane affixed to a second side of said substrate, opposite said RFID and impedance matching circuits; and
a quarter wave transformer connected to a second connection of the tag IC to provide a via free connection between the tag IC and said ground plane;
wherein the impedance matching circuit comprises;
a first transmission line connected to the RFID tag IC, the first transmission line transforming the relatively high impedance of the RFID tag IC into an impedance that is a substantially pure resistance and that has a reflection coefficient having a magnitude that is substantially the same as the reflection coefficient of the tag IC, and one or more series-connected transmission line(s) connected to the first transmission line, said one or more series-connected transmission line(s) transforming the relatively low valued substantially pure resistivity looking into the first transmission line into an impedance that matches the impedance of the antenna.
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Abstract
A radio-frequency identification (RFID) transponder (tag) in accordance with the principles of the invention includes a patch antenna. The patch antenna may be co-located with RFID circuitry and an impedance matching circuit on one side of a substrate. A ground plane may be formed on the opposite side of the substrate. A quarter wave transformer may provide an “RF short” to ground to connect the RFID circuitry on one side of the substrate with a ground plane located on the opposite side of the substrate.
153 Citations
11 Claims
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1. An RFID tag comprising:
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an RFID circuit affixed to a first side of a substrate, the RFID circuit further comprising an RFID tag IC having an antenna terminal;
a patch antenna affixed to said first side of the substrate;
an impedance matching circuit affixed to said first side of the substrate and connected between said RFID circuit and said Patch antenna to match the impedance of the RFID circuit to that of the antenna, wherein the impedance matching circuit further comprises a series-connected three-section microstrip circuit connected between the antenna and the antenna terminal of the RFID tag IC;
a ground plane affixed to a second side of said substrate, opposite said RFID and impedance matching circuits; and
a quarter wave transformer connected to a second connection of the tag IC to provide a via free connection between the tag IC and said ground plane;
wherein the impedance matching circuit comprises;
a first transmission line connected to the RFID tag IC, the first transmission line transforming the relatively high impedance of the RFID tag IC into an impedance that is a substantially pure resistance and that has a reflection coefficient having a magnitude that is substantially the same as the reflection coefficient of the tag IC, and one or more series-connected transmission line(s) connected to the first transmission line, said one or more series-connected transmission line(s) transforming the relatively low valued substantially pure resistivity looking into the first transmission line into an impedance that matches the impedance of the antenna. - View Dependent Claims (2, 3)
a quarter wave transformer connected to the RFID tag IC terminal on said first side of the substrate.
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4. An RFID tag comprising:
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an RFID circuit affixed to a first side of a substrate, the RFID circuit further comprising an RFID tag IC having an antenna terminal;
a patch antenna affixed to said first side of the substrate;
an impedance matching circuit affixed to said first side of the substrate and connected between said RFID circuit and said patch antenna to match the impedance of the RFID circuit to that of the antenna, wherein the impedance matching circuit further comprises a series-connected three-section microstrip circuit connected between the antenna and the antenna terminal of the RFID tag IC;
a ground plane affixed to a second side of said substrate, opposite said RFID and impedance matching circuits; and
a quarter wave transformer connected to a second connection of the tag IC to provide a via free connection between the tag IC and said ground plane;
wherein the impedance matching circuit comprises;
a first transmission line for connection to the RFID tag IC, the line having an impedance that transforms the RFID tag IC impedance into a small-valued, substantially pure resistance, a second transmission line connected in series to the first transmission line, the second transmission line having an impedance that transforms the input impedance looking into the first transmission line when the first transmission line is connected to the RFID tag IC into an intermediate-valued impedance, and, a third transmission line that transforms the intermediate-valued impedance looking into the second transmission line into an impedance that substantially matches the impedance of the antenna. - View Dependent Claims (5, 6)
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7. An RFID tag comprising:
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an RFID circuit affixed to a first side of a substrate, the RFID circuit further comprising an RFID tag IC having an antenna terminal;
a patch antenna affixed to said first side of the substrate;
an impedance matching circuit affixed to said first side of the substrate and connected between said RFID circuit and said patch antenna to match the impedance of the RFID circuit to that of the antenna, wherein the impedance matching circuit further comprises a series-connected three-section microstrip circuit connected between the antenna and the antenna terminal of the RFID tag IC;
a ground plane affixed to a second side of said substrate, opposite said RFID and impedance matching circuits; and
a quarter wave transformer connected to a second connection of the tag IC to provide a via free connection between the tag IC and said ground plane;
wherein the impedance matching circuit comprises;
a first transmission line for connection to the source, the line having an impedance that transforms the RFID circuit impedance into a small-valued, substantially pure resistance, a second transmission line connected in series to the first transmission line, the second transmission line having an impedance that transforms the input impedance looking into the first transmission line when the first transmission line is connected to the RFID circuit into an intermediate-valued impedance, and, a third transmission line that transforms the intermediate-valued impedance looking into the second transmission line into an impedance that substantially matches the impedance of the antenna. - View Dependent Claims (8, 9, 10)
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11. An RFID system comprising:
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an RFID base station; and
an RFID tag configured to communicate with the RFID base station, the RFID tag including;
an RFID circuit affixed to a first side of a substrate, a patch antenna affixed to said first side of the substrate, an impedance matching circuit affixed to said first side of the substrate and connected between the RFID circuit and said patch antenna to match the impedance of the RFID circuit to that of the antenna, the impedance matching circuit further comprising a multi-segment transmission line; and
a ground plane affixed to a second side of said substrate, opposite said RFID and impedance matching circuits, wherein the RFID circuit further comprises an RFID tag IC having an antenna terminal, and wherein the impedance matching circuit comprises;
a first transmission line connected to the RFID tag IC, the first transmission line transforming the relatively high impedance of the RFID tag IC into an impedance that is a substantially pure resistance and that has a reflection coefficient having a magnitude that is substantially the same as the reflection coefficient of the tag IC, and one or more series-connected transmission line(s) connected to the first transmission line, said one or more series-connected transmission line(s) transforming the relatively low valued substantially pure resistivity looking into the first transmission line into an impedance that matches the impedance of the antenna.
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Specification
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Current AssigneeIntermec IP Corporation (Honeywell International Inc.)
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Original AssigneeIntermec IP Corporation (Honeywell International Inc.)
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InventorsRao Kodukula, Venkata S., Duan, Dah-Weih, Brady, Michael John, Moskowitz, Paul Andrew, Feild, Christopher Adam
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Primary Examiner(s)Wu, Daniel J.
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Assistant Examiner(s)PHAM, TOAN NGOC
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Application NumberUS09/191,642Time in Patent Office879 DaysField of Search340/572.7, 340/572.8, 340/825.54, 340/572.1, 340/551, 340/571, 340/568.1, 343/873, 343/895, 343/742, 343/872, 343/728, 343/700.MSUS Class Current340/572.8CPC Class CodesG06K 19/0723 the record carrier comprisi...G06K 19/07749 the record carrier being ca...G06K 19/07786 the antenna being of the HF...G06K 7/0008 General problems related to...G08B 13/2417 having a radio frequency id...G08B 13/2431 Tag circuit detailsG08B 13/2437 Tag layered structure, proc...G08B 13/2442 Tag materials and material ...G08B 13/2462 Asset location systems comb...
