Claims
- 1. A radio frequency identification tag, comprising:
an insulated substrate having a surface; a parallel resonant antenna circuit disposed on the surface of said substrate, said parallel resonant antenna circuit having a step-tunable inductor adapted for tuning said parallel resonant antenna circuit to a desired frequency; and a semiconductor integrated circuit having electronic logic circuits for storing, receiving and transmitting data, said semiconductor integrated circuit being disposed on the surface of said substrate and connected to said parallel resonant antenna circuit.
- 2. The radio frequency identification tag of claim 1, wherein said step-tunable inductor is a spiral coil disposed on the surface of said substrate.
- 3. The radio frequency identification tag of claim 2, wherein said step-tunable inductor has trimming branches disposed on the surface of said substrate and inside of said spiral coil, wherein said trimming branches are adapted for adjusting the inductance of said step-tunable inductor.
- 4. The radio frequency identification tag device of claim 1, wherein said step-tunable inductor comprises a spiral coil having a plurality of coil turns and a plurality of trimming branches inside of said spiral coil, wherein said plurality of trimming branches are adapted for adjusting the inductance of said step-tunable inductor.
- 5. The radio frequency identification tag device of claim 4, wherein all but one of said plurality of trimming branches are disconnected so as to adjust the inductance of said step-tunable inductor.
- 6. The radio frequency identification tag of claim 5, wherein each of said plurality of trimming branches form a different length inner coil turn of the plurality of coil turns of said spiral coil.
- 7. A radio frequency identification (RFID) tag system, comprising:
a radio frequency identification (RFID) tag comprising an insulated substrate having a surface, a parallel resonant antenna circuit disposed on the surface of said substrate, said parallel resonant antenna circuit having a step-tunable inductor adapted for tuning said parallel resonant antenna circuit to a desired frequency, and a semiconductor integrated circuit having electronic logic circuits for storing, receiving and transmitting data, said semiconductor integrated circuit being disposed on the surface of said substrate and connected to said parallel resonant antenna circuit; a radio frequency interrogator for generating a radio frequency signal at the desired frequency which said parallel resonant antenna circuit is tuned; and an RFID tag reader connected to said radio frequency interrogator, said RFID tag reader detecting data signals from said RFID tag.
- 8. The radio frequency identification tag system of claim 7, wherein said step-tunable inductor is a spiral coil disposed on the surface of said substrate.
- 9. The radio frequency identification tag system of claim 8, wherein said step-tunable inductor has trimming branches disposed on the surface of said substrate and inside of said spiral coil, wherein said trimming branches are adapted for adjusting the inductance of said step-tunable inductor.
- 10. The radio frequency identification tag system of claim 7, wherein said step-tunable inductor comprises a spiral coil having a plurality of coil turns and a plurality of trimming branches inside of said spiral coil, wherein said plurality of trimming branches are adapted for adjusting the inductance of said step-tunable inductor.
- 11. The radio frequency identification tag system of claim 10, wherein all but one of said plurality of trimming branches are disconnected so as to adjust the inductance of said step-tunable inductor.
- 12. The radio frequency identification tag system of claim 11, wherein each of said plurality of trimming branches form a different length inner coil turn of the plurality of coil turns of said spiral coil.
- 13. A method for step-tuning an inductor in a parallel resonant antenna circuit of a radio frequency identification (RFID) tag, said method comprising the steps of:
providing an insulated substrate having a surface; providing a parallel resonant antenna circuit disposed on the surface of said substrate, said parallel resonant antenna circuit having a step-tunable inductor comprising a spiral coil having a plurality of trimming branches inside of said spiral coil and disposed on the surface of said substrate; providing a semiconductor integrated circuit having electronic logic circuits for storing, receiving and transmitting data, said semiconductor integrated circuit being disposed on the surface of said substrate and connected to said parallel resonant antenna circuit; and disconnecting all but one of said plurality of trimming branches so as to adjust the inductance of said step-tunable inductor, thereby changing a resonant frequency of said parallel
- 14. The method of claim 13, wherein the step of disconnecting is done by cutting with a laser.
- 15. The method of claim 13, wherein the step of disconnecting is done by ablation.
- 16. The method of claim 13, wherein the step of disconnecting is done by mechanically cutting.
- 17. The method of claim 13, wherein the step of disconnecting all but one of said plurality of trimming branches adjusts the length of an inner coil turn of the spiral coil of said step-tunable inductor.
- 18. The radio frequency identification tag of claim 1, wherein material for said substrate is selected from the group consisting of PET, mylar, paper, plastic, silicon, kapton, ceramic, polyimide and polyvinylchloride (PVC).
- 19. The radio frequency identification tag of claim 1, wherein material for said step-tunable inductor is selected from the group consisting of copper, aluminum, gold, plated metal, and electrically conductive organic and inorganic materials.
- 20. The radio frequency identification tag of claim 3, wherein said trimming branches are controlled by fuse links.
- 21. The radio frequency identification tag of claim 20, wherein said fuse links are opened with a current.
- 22. The radio frequency identification tag of claim 20, wherein said fuse links are opened with a voltage.
- 23. The radio frequency identification tag of claim 3, wherein said trimming branches are controlled by transistors.
- 24. The radio frequency identification tag of claim 23, wherein said transistors are controlled with fuse links.
- 25. The radio frequency identification tag of claim 23, wherein said transistors are controlled with a frequency selection circuit.
- 26. The radio frequency identification tag of claim 25, wherein said frequency selection circuit is a microcontroller.
- 27. The frequency identification tag of claim 1, wherein said step-tunable inductor has a plurality of fuse links, each of the plurality of fuse links in parallel with a turn of said step-tunable inductor wherein opening a one of the plurality of fuse links increases said step-tunable inductor inductance.
- 28. The frequency identification tag of claim 1, wherein said step-tunable inductor has a plurality of transistors, each of the plurality of transistor in parallel with a turn of said step-tunable inductor wherein turning off a one of the plurality of transistors increases said step-tunable inductor inductance.
- 29. The method of claim 13, wherein the step of disconnecting is done by opening fuse links.
- 30. The method of claim 29, wherein said fuse links are opened with a current.
- 31. The method of claim 29, wherein said fuse links are opened with a voltage.
- 32. The method of claim 31, wherein the step of disconnecting is done by controlling transistors.
- 33. The method of claim 32, wherein said transistors are controlled with fuse links.
- 34. The method of claim 32, wherein said transistors are controlled with a frequency selection circuit.
- 35. The method of claim 34, wherein said frequency selection circuit is a microcontroller.
RELATED PATENT APPLICATION
[0001] This application is related to commonly owned U.S. patent application Ser. No. ______ entitled “RADIO FREQUENCY IDENTIFICATION TAG ON A SINGLE LAYER SUBSTRATE” by Youbok Lee, Lee Furey and Roger St. Amand, and is hereby incorporated by reference for all purposes.