Use of Microwaves in Wireless Charging of Mobile Phone
DOI:
https://doi.org/10.37591/jomsd.v2i2.5221Abstract
The foremost objective of this present scheme is to make the recharging of the mobile phones independent of their manufacturer and battery make. In this paper a new scheme has been made so as to make the recharging of the mobile phones is done by design as you talk in your mobile phone. This is done by use of microwaves. The microwave signal is transmitted from the transmitter along with the message signal using special kind of antennas called slotted wave guide antenna at a frequency is 2.45 GHz. The insignificant accompaniments, which have to be completed in the mobile handsets, which are the adding of a sensor, a Rectenna, and a filter. With this setup, the requirement for separate chargers for mobile phones is eradicated and makes charging universal. Thus, charging of your mobile phone is dependent on how much you talk. With this application the industrialists would be able to remove the talk time and battery stand by from their phone specificationsReferences
Tae-Whan Yo and Kai Chang. Theoretical and experimental development of 10 and 35 GHz rectennas. IEEE Transactions on Microwave Theory and Techniques. 1992; 40(6).
Pozar David M. Microwave Engineering Addison, Wesley Publishing Company, 2010.
Journal of Microelectronics and Solid State Devices
Volume 2, Issue 2
JoMSD (2015) 21-25 © STM Journals 2015. All Rights Reserved Page 25
SS Mohammed. Wireless Power Transmission: A Next Generation Power Transmission System, International Journal of Computer Applications. 2010; 1 (13).
Lander, Cyril W. Rectifying Circuits. Power electronics. (3rd ed.), 2011.
Espejel JD. RF to DC power generation, University of Maryland, December 2003.
Hagerty JA. Nonlinear Circuits and Antennas for Microwave Energy Conversion, Thesis, University of Houston, 2009,
Lin GH. Topological generation of Voltage Multiplier Circuits, September 2003. http://www.sinc.sunysb.edu/Stu/glin/ese314/lab2.pdf#search='Topological%20Generation%20and%20Analysis%20of%20Voltage%20Multiplier
Pylarinos L and Roger E. Charge Pumps: An Overview, Thesis, Department of Electrical and Computer Engineering. University of Toronto, 2010.
Sedra AS and Smith KG. Microelectronic Circuits, 5th Edition, 2004.
Stremler FG. Introduction to Communication Systems, 3rd Edition, 1990.
http://www.seminarsonly.com- Electronics Topics Retrieved
http://conversations.nokia.com- Nokia’s Explanation for Inductive Charging
http://en.wikipedia.org/wiki-Introduction to Microwave.
Olvitz C,Vinko D, Svedek T Mipro. Wireless power transfer for mobile phone charging device. Proceedings of 35th Intersation Convention. 2012.
Kurs A, Karalis A, Moffat R et al. Wireless power transfer via strongly coupled magnetic reasonances, Science . 2001; 317.
Leanaerts B and Puers R. Inductive powering of freely moving system. Sensors and Actuators. 2006; 123: 522–530p.
Liou Chong Yi, Chi Jungkuo, Ming Lung La, Shau-Gang Mao. Microwave symposium digest (MTT), IEEE MTT-S-International, 2012.
Sample AP, Meyer DA and Smith LR. Analysis experimental results and range adaption of magnetically coupled resonators for wireless power transfer, IEEE Trans. Ind. Electron. 2011; 58(2): 544–554p.
Garnica I, Casunova I and Lin I. High off midrange wireless power system. In 2011 IEEE MTT-S-information microwave workshop series on innovative wireless power transmission technologies system and applications. (IMWS), Kyoto, 2011; 73–76p.