350 rub
Journal Biomedical Radioelectronics №1 for 2013 г.
Article in number:
The experimental research of the transcutaneous energy transfer using inductive coupling
Authors:
A.Yu. Gerasimenko, A.A. Danilov, A.V. Kornyukhin, A.E. Mindubaev, A.O. Ustinov
Abstract:
This paper describes the results of experimental study of wireless power transmission using inductive coupling. It is shown that a decrease in the number of turns of the receiving coil does not lead to a substantial decrease of energy transfer parameters. At the same time reducing the number of turns of the transmitting coil reduced the efficiency of energy transfer. It is also noted that the increase in the resonant frequency of the system leads to a decrease in the efficiency of energy transfer.
Pages: 55-58
References
- Holmes C.F., Owens B.B. Batteries for implantable medical applications, in «Wiley encyclopedia of biomedical engineering» / ed. M. Akay. Hoboken, John Wiley & Sons, Inc. 2006. P. 312-320.
- Kherani A.R., Ozb M.C. Ventricular assistance to bridge to transplantation // Surg. Clin. N. Am. 2004. № 84. P. 75-89.
- Anastasiadis K. Mechanical Support of the Circulatory System // Hellenic J. Cardiol. 2003. № 44. P. 341-347.
- Данилов А.А., Иткин Г.П., Селищев С.В. Развитие
методов чрескожного беспроводного энергообеспечения имплантируемых систем вспомогательного кровообращения // Медицинская техника. 2010. № 4 (262). С. 8-15. - Pures R., Vandervoorde G.Recent Progress on Transcutaneous Energy Transfer for Total artificial Heart System // Artificial organs. 2001. V. 25(5). P. 400-405.