Antenna miniaturization of resonant wireless charging system design with biological media

• Main Authors: Tsai-Sheng Chu, 朱財生
• Other Authors: To-Po Wang
• Format: Others
• Language: en_US
• Published: 2017
• Online Access: http://ndltd.ncl.edu.tw/handle/85dhr4

碩士 === 國立臺北科技大學 === 電子工程系研究所 === 105 === Wireless transmission technology advances in recent years, many products have been wired into the wireless, in this era of rapid development are required to nothing more than the smaller, the better and the quality. The present study is based wireless transmission charging wish to miniaturized way to make wireless charging not only used in mobile phones, cars and those external items but can reach deep into the body of the use in biomedical engineering. Among todays technology to a patient with cardiac pacemakers, if the battery is dead, and it would need to replace or recharge. It must return to the hospital for the second surgery, not only medical time-consuming but more cost money and resources. My research is through the ferrite core inductor to make wireless charging receiving antenna, one to be able to increase the efficiency of power transmission, and the other can reduce the amount of occupied volume. This thesis is divided into seven parts, the first chapter is an introduction mainly introduces the research background and research purposes, the second chapter is the introduction of wireless transmission technology, the third chapter is focused on the focus of this paper is the transfer inductive transceiver used presentation, while the fourth chapter is the miniaturization of wireless charging transceiver system design my research design, and the fifth chapter it is the experimental data shows , the six chapter is the pork module derivation and the last chapter is the conclusions with future development.