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Gregory J. Owen Benjamin D. Braaten* Robert M. Nelson Dustin Vaselaar

On The Effect of Mutual Coupling on LF and UHF Tags Implemented in Dual Frequency RFID Applications. Gregory J. Owen Benjamin D. Braaten* Robert M. Nelson Dustin Vaselaar. Cherish Bauer-Reich Jacob Glower Michael Reich Aaron Reinholz. North Dakota State University. Topics. Introduction

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Gregory J. Owen Benjamin D. Braaten* Robert M. Nelson Dustin Vaselaar

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  1. On The Effect of Mutual Coupling on LF and UHF Tags Implemented in Dual Frequency RFID Applications Gregory J. Owen Benjamin D. Braaten* Robert M. Nelson Dustin Vaselaar Cherish Bauer-Reich Jacob Glower Michael Reich Aaron Reinholz North Dakota State University

  2. Topics • Introduction • Dual frequency tag • Test setup • Test results • Discussion • Conclusion North Dakota State University

  3. Introduction • Interest in RFID has recently grown tremendously in many areas [1]-[5]: • supply chain management [6]-[8] • RFID security [9]-[10] • UHF antenna design [11] • back-scattering analysis [12]-[14] • dual frequency applications • Types of systems [1] • passive • semi-passive • active North Dakota State University

  4. Introduction • On a passive tag the antenna is typically connected directly to the rectifier. • thus antenna impedance and rectifier impedance directly effect the read range • Antenna characteristics (gain, input impedance and resonant frequency) can be effected by nearby conducting and non-conducting objects [15]-[21]: • Weather-proof enclosures • Surface placement of tag • Other RFID tags (i.e., dual-frequency tags) North Dakota State University

  5. Introduction • Several advantages are gained by using a weather-proof enclosure [18]: • Protection against heat, physical damage, and the environment (moisture, sun) • Dual-frequency implementation • Several examples include: • Electronic car tolling [22] • Livestock tracking [23]-[24] North Dakota State University

  6. A Little Background • The max theoretical read range of a passive RFID tag can be written as (using Friis’s eqn.) [25]: where North Dakota State University

  7. The Dual-Frequency Tag and Test Setup (902-928MHz) (125.4-134kHz) North Dakota State University

  8. Test Setup North Dakota State University

  9. Test Results (reminder) LF tag North Dakota State University

  10. Test Results (reminder) M-tag [33] North Dakota State University

  11. Test Results (reminder) Squiggle Tag [33] North Dakota State University

  12. Test Results (reminder) Rampart tag [29] North Dakota State University

  13. Discussion • Table 3 showed that a LF tag placed directly on the M-tag reduced the read range by 67.27%. • Table 4 showed that the LF tag placed near the squiggle tag reduced the read range by 91.84%. • The Rampart-line was less affected by the LF tag. North Dakota State University

  14. Discussion • In all cases by moving the LF tag to the edge of the UHF tags the read range could be recovered. • The trade-off to moving the LF tag to the edge of the UHF tag is a larger footprint. North Dakota State University

  15. Conclusion • A dual frequency (UHF and LF) tag has been introduced. • The read range of each tag was determined in the presence of mutual coupling. • In several instances the read range of the UHF tag was substantially decreased (91.84%). North Dakota State University

  16. Conclusion • In all instances is was shown that most of the read range could be recovered by moving the LF tag to the same plane of the UHF tag North Dakota State University

  17. Questions Thank you for listening North Dakota State University

  18. References

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