Matsuki H. Transcutaneous DC-DC converter for totally implantable artificial heart using synchronous rectifier[J]. IEEE Transactions on Magnetics, 1996, 32(5): 5118-5120.
[2]
Hidekazu Miura, Shinsuke Arai, Yasuyuki Kakubari, et al. Improvement of the transcutaneous energy transmission system utilizing ferrite cored coils for artificial hearts[J]. IEEE Transactions on Magnetics, 2006, 42(10): 3578-3580.
[3]
陶发. 植入式生物遥测装置无线电能传输系统研 究[D]. 南京:南京航空航天大学, 2005.
[4]
ACGIH[S]. Radiation Standard of America, 1984.
[5]
田民波. 磁性材料[M]. 北京:清华大学出版社, 2001.
[6]
于歆杰, 朱桂萍, 陆文娟. 电路原理[M]. 北京:清华大学出版社, 2007.
[7]
Robert E Fischell. The invention to the rechargeable cardiac pacemaker vignette[J]. IEEE Engineering in Medicine and Biology, 1990, 9(2): 77-78.
[8]
Dr Orhan Soykan. Power sources for implantable medical devices[J]. Devices Technology & Appli- cations Electronics, 2002(6): 76-79.
[9]
Hideaki Abe, Hiroshi Sakamoto, Koosuke Harada. A noncontact charger using a resonant converter with parallel capacitor of the secondary coil[J]. IEEE Transactions on Industry, 2000, 36(2): 444- 451.
[10]
Richard P Phillips. A transcutaneous energy transport system with voltage input for power control[J]. Cardiovascular Mechanics, 1991, 13(5):2131-2132.
[11]
David B Geselowitz, Quynh T N Hoang, Roger P Gaumond. The effects of metals on transcutaneous energy transmission system[J]. IEEE Transactions on Biomedical Engineering, 1992, 39(9): 928-934.
[12]
Puers R, Vandevoorde G. Recent progress on transcutaneous energy transfer for total artificial heart systems[J]. Artificial Organs, 2001, 25(5): 400-405.
[13]
Matsuki H, Shiiki M. Investigations of coil geometry for transcutaneous for artificial heart[J]. IEEE Transactions on Magnetics, 1992, 28(5): 2406-2408.
[14]
Hidekazu Miura, Shinsuke Arai, Fumihiro Sato, et al. A synchronous rectification using a digital PLL technique for contactless power supplies[J]. IEEE Transactions on Magnetics, 2005, 41(10): 3997-3999.
