Evaluation of a closed loop inductive power transmission system on an awake behaving animal subject

Proceedings of the Annual International Conference of the IEEE Engineering in Medicine and Biology Society, EMBS

Volumn , Issue , 2011, Pages 7658-7661

  Kiani, Mehdi ^a   Kwon, Ki Yong ^b   Zhang, Fei ^b   Oweiss, Karim ^c   Ghovanloo, Maysam ^a  

^a GEORGIA INSTITUTE OF TECHNOLOGY   (United States)

^b Michigan State University   (United States)

^c MICHIGAN STATE UNIVERSITY   (United States)

Author keywords

[No Author keywords available]

Indexed keywords

ANALOG TO DIGITAL CONVERTERS; ANIMAL MOVEMENT; BACK TELEMETRY; CLOSED LOOPS; COMMERCIAL-OFF-THE-SHELF; IMPLANTABLE DEVICES; IN-VIVO; INDUCED VOLTAGES; INDUCTIVE LINK; OPEN LOOP SYSTEMS; POWER TRANSMISSION SYSTEMS; RELATIVE DISTANCES; SECONDARY COILS; SUPPLY VOLTAGES; WIRELESS POWER TRANSMISSION; WIRELESS POWER TRANSMISSION SYSTEMS;

ANALOG TO DIGITAL CONVERSION; ANIMALS; CLOSED LOOP SYSTEMS; IMPLANTS (SURGICAL); POWER TRANSMISSION; RADIO BROADCASTING; RADIO FREQUENCY IDENTIFICATION (RFID); RADIO TRANSMISSION;

ELECTRIC POWER TRANSMISSION;

ANIMAL; ANIMAL BEHAVIOR; ARTICLE; ELECTRONICS; EQUIPMENT; EVALUATION STUDY; METHODOLOGY; PHYSIOLOGY; POWER SUPPLY; RADIOFREQUENCY IDENTIFICATION; RAT; SIGNAL PROCESSING; SPRAGUE DAWLEY RAT; TELEMETRY; WAKEFULNESS; EVALUATION; INSTRUMENTATION;

ANIMALS; BEHAVIOR, ANIMAL; ELECTRIC POWER SUPPLIES; ELECTRONICS, MEDICAL; RADIO FREQUENCY IDENTIFICATION DEVICE; RATS; RATS, SPRAGUE-DAWLEY; SIGNAL PROCESSING, COMPUTER-ASSISTED; TELEMETRY; WAKEFULNESS;

EID: 84861710163     PISSN: 1557170X     EISSN: None     Source Type: Conference Proceeding    
DOI: 10.1109/IEMBS.2011.6091887     Document Type: Conference Paper

References (11)

1. K. Finkenzeller, RFID-Handbook, 2nd ed. Hoboken, NJ: Wiley, 2003.
2. G. M. Clark, Cochlear Implants: Fundamentals and Applications. New York: Springer-Verlag, 2003.
3. H. Lee and M. Ghovanloo, "An integrated power-efficient active rectifier with offset-controlled high speed comparators for inductively powered applications," Accepted for publication in IEEE Trans. Cir. Syst. I.
4. M. W. Baker and R. Sarpeshkar, "Feedback analysis and design of RF power links for low-power bionic systems," IEEE Trans. Biomed. Circuits Syst., vol. 1, no. 1, pp. 28-38, Mar. 2007.
5. G. Wang, W. Liu, M. Sivaprakasam, and G. A. Kendir, "Design and analysis of an adaptive transcutaneous power telemetry for biomedical implants," IEEE Trans. Circuits Syst. I, vol. 52, no. 10, pp. 2109- 2117, Oct. 2005.
6. M. Kiani and M. Ghovanloo, "An RFID-based closed loop wireless power transmission system for biomedical applications," IEEE Trans. Cir. Syst. II, vol. 57, no. 4, pp. 260-264, Apr. 2010.
7. M. Kiani and M. Ghovanloo, "A closed loop wireless power transmission system using a commercial RFID transceiver for biomedical applications," IEEE 31st Eng. in Med. and Biol. Conf., pp. 3841-3844, Sep. 2009.
8. R. Bashirullah, W. Liu, Y. Ji, A. Kendir, M. Sivaprakasam, G. Wang, and B. Pundi, "A smart bi-directional telemetry unit for retinal prosthetic device," IEEE Intl. Symp. Cir. Syst., vol. 5, pp. V5-V8, May 2003.
9. N. Chaimanonart, M. Zimmerman, and D. J. Young, "Adaptive RF power control for wireless implantable bio-sensing network to monitor untethered laboratory animal real-time biological signals," IEEE Sensors Conf., pp. 1241-1244, Oct. 2008.
10. T. Dissanayake, A. Hu, S. Malpas, L. Bennet, A. Taberner, L. Booth, and D. Budgett, "Experimental study of a TET system for implantable biomedical devices," IEEE Trans. Biomed. Cir. Syst., vol. 3, pp.370- 378, Dec. 2009.
11. U.M. Jow and M. Ghovanloo, "Design and optimization of printed spiral coils for efficient transcutaneous inductive power transmission," IEEE Trans. Biomed. Cir. Syst., vol. 1, no. 3, pp. 193- 202, Sept. 2007.