用于植入式医疗设备的先进无线电源和数据传输技术

Hyung-Min Lee, M. Kiani, Maysam Ghovanloo
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引用次数: 9

摘要

短距离无线供电和数据传输提供了一种可行的方法,可以为具有广泛功率水平的植入式医疗设备(imd)供电,并通过皮肤与外部设备进行通信。为了优化无线电力传输(WPT),关键是要提高从外部电源到IMD的电力传输路径的每个阶段的效率,同时保持负载变化、线圈错位和附近导电物体的鲁棒性和安全性。本文综述了WPT的各种机制,重点介绍了无线供电imd的链路结构和电路技术。此外,先进的imd需要无线数据遥测技术(WDT)来实现在强载波干扰下的宽带双向数据通信。本文还讨论了几种用于低功耗、无载波和鲁棒WDT的调制方案和收发电路。
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Advanced wireless power and data transmission techniques for implantable medical devices
Short-range wireless power and data transmission offers a viable mean to power up implantable medical devices (IMDs) with a wide range of power levels and communicate with external units across the skin. To optimize wireless power transfer (WPT), it is key to improve efficiencies in every stage of the power delivery path from external power sources to the IMD, while maintaining robustness and safety against load variations, coil misalignments, and nearby conductive objects. This paper reviews various mechanisms for WPT with focus on link structures and circuit techniques for wirelessly-powered IMDs. Moreover, advanced IMDs require wireless data telemetry (WDT) for wideband bidirectional data communication in the presence of the strong power carrier interference. This paper also discusses several modulation schemes and transceiver circuits for low-power, carrier-less, and robust WDT.
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