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引用次数: 3
摘要
目前微电子技术的加速发展导致了以前无法设计的新的医疗保健应用,这里可以引用有源植入医疗设备- IMD。但它们的供应意味着电源的存在,通常是电池,其寿命有限,必须更换,因此需要反复切割。本文介绍了一种基于无线技术的经皮能量传输技术(transccutaneous Energy Transfer - TET)。结果表明,通过使用磁共振(WiTricity),即其变体,能量和数据传输不受患者(接收器)相对于源(发射器)的位置的限制。
On feasibility and optimization of WiTricity technology for implantable medical devices
The present accelerated development of microelectronics led to new health care applications that previously could not have been designed and here can be cited the active implanted medical devices - IMD. But their supply implies the existence of a power source, usually a battery whose lifetime is limited and must be changed so it requires repeated incisions. This paper presents an analysis of Transcutaneous Energy Transfer - TET for recharging the batteries from the IMDs based on wireless technology. It is shown that, by using magnetic resonance (WiTricity), namely a variant thereof, the energy and data transmission are not restricted by the position of the patient (receiver) with respect to the source (transmitter).
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