Delivering optical power to subcutaneous implanted devices

机译：为皮下植入装置提供光功率

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In this paper, a new, easy-to-implement, and MRI-compatible approach for delivering power to implantable devices is presented. The idea is to harvest the energy of light within the therapeutic window wavelengths, where the optical absorption is small, by using subcutaneous photovoltaic (PV) cells. Depending on the application, this energy can then be used to directly drive the embedded electronics of an implanted device or recharge its battery. To show the feasibility of this system, a CMOS chip based on this concept has been implemented and tested. The experimental results demonstrate that μW's of power in ambient light conditions can be harvested using mm2-size PV cells. This amount of power is sufficient to address the needs of many low-power applications.

机译：在本文中，提出了一种新的，易于实现的和MRI兼容的方法，用于向可植入设备提供电源。该思想是通过使用皮下光伏（PV）电池来收集治疗窗波长内的光的能量，其中光学吸收小。根据应用，然后可以使用该能量直接驱动植入装置的嵌入式电子设备或充电其电池。为了显示该系统的可行性，已经实现并测试了基于该概念的CMOS芯片。实验结果表明，可以使用mm 2 -size pv电池收获μw的环境光条件的功率。此功率足以满足许多低功耗应用的需求。

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《Annual International Conference of the IEEE Engineering in Medicine and Biology Society》|2011年||共4页
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Ayazian Sahar; Hassibi Arjang;
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4. Delivering optical power to subcutaneous implanted devices [C] . Ayazian Sahar, Hassibi Arjang 33rd Annual International Conference of the IEEE Engineering in Medicine and Biology Society . 2011

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Delivering optical power to subcutaneous implanted devices

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