PIER Letters
 
Progress In Electromagnetics Research Letters
ISSN: 1937-6480
Home | Search | Notification | Authors | Submission | PIERS Home | EM Academy
Home > Vol. 50 > pp. 61-66

DUAL-MODE RESONATOR FOR THE DUAL-BAND SYSTEM OF WIRELESS ENERGY TRANSFER WITH SIMULTANEOUS DATA TRANSMISSION

By V. N. Yashchenko, D. S. Kozlov, and I. B. Vendik

Full Article PDF (785 KB)

Abstract:
Original resonant structures for improving efficiency of wireless charging system with the possibility of data exchange are presented. Characteristics of two different dual-mode spiral resonators were obtained by electromagnetic and circuit simulations. Based on these results, an optimum design for highly efficient data and energy transfer was suggested.

Citation:
V. N. Yashchenko, D. S. Kozlov, and I. B. Vendik, "Dual-Mode Resonator for the Dual-Band System of Wireless Energy Transfer with Simultaneous Data Transmission," Progress In Electromagnetics Research Letters, Vol. 50, 61-66, 2014.
doi:10.2528/PIERL14101804

References:
1. Rao, S., et al., "Miniature implantable and wearable on-body antennas: Towards the new era of wireless body-centric systems," IEEE Antennas and Propagation Magazine, Vol. 56, No. 1, 271-291, 2014.
doi:10.1109/MAP.2014.6821799

2. Hmida, G. B., H. Ghairani, and M. Samet, "Design of a wireless power and data transmission circuits for implantable biomicrosystem," Biotechnology, Vol. 56, 153-164, 2007.

3. Rathge, C. and D. Kuschner, "High efficient inductive energy and data transmission system with special coil geometry," Proc. of 13th European Conference --- Power Electronics and Applications, 1-8, Barcelona, Sep. 8-10, 2009.

4. Dionigi, M. and M. Mongiardo, "Multi band resonators for wireless power transfer and near field magnetic communications," Proc. of Microwave Workshop Series on Innovative Wireless Power Transmission: Technologies, Systems, and Applications (IMWS), 61-64, Kyoto, May 10-11, 2012.

5. Kozlov, D. S., V.M. Turgaliev, V. N. Yashchenko, and I. B. Vendik, "Dual-band radiator for wireless charging system with possibility of data transfer," Proc. of the Second All-Russia Conference “Electronic and Microelectronics of Microwaves”, 136-141, Saint Petersburg, Jun. 4-7, 2014 (in Russian).

6. AVR 2004, LC-Balun for AT86RF230, Atmel Application Note, 2004.

7. Vendik, O. G. and D. S. Kozlov, "Wireless energy transfer systems: State of the art and efficiency improvement," Proceedings of the IEEE Russia North West Section, Vol. 1, 63-68, 2011.

8. http://www.cst.com.

9. http://www.awrcorp.com.


© Copyright 2010 EMW Publishing. All Rights Reserved