用于无线传感器和生物医学应用的超低功耗多速率FSK发射机

2014 International Conference on Electronics, Information and Communications (ICEIC) Pub Date : 2014-10-02 DOI:10.1109/ELINFOCOM.2014.6914390

Horng-Yuan Shih, Yu-Wei Hu, Cheng-Wei Yang, Yi-Wei Hong

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引用次数: 2

摘要

提出了一种采用0.18 μm CMOS工艺实现的超低功耗多速率FSK发射机。发射机采用数字频率插补器，实现多数据速率传输。发射机的功耗取决于所需的传输数据速率。因此，可以实现高功率效率。在应用于植入式或可穿戴式生物医学设备时，高功率效率的特点使得植入式或可穿戴式生物医学设备的提升时间大大提高。此外，发射机的所有晶体管都工作在亚阈值区域，实现了超低功耗。在供电电压为0.7 V时，当传输速率为200kb /s ~ 2mb /s时，发射机功耗为378 μW ~ 424 μW。因此，在最大传输速率为2mb /s的情况下，每传输比特的最小能耗可达到212 pJ/bit。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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An ultra-low power multi-rate FSK transmitter for wireless sensors and biomedical applications

An ultra-low power multi-rate FSK transmitter implemented in 0.18 μm CMOS process is presented. A digital frequency interpolator is adopted in the transmitter for achieving multiple data rate transmission. Power consumption of the transmitter is dependent on the required transmitted data rate. Thus, high power efficiency can be achieved. As applying for implantable or wearable biomedical devices, the feature of high power efficiency leads to a great improvement of lift time of the implantable or wearable biomedical devices. Moreover, all transistors of the transmitter are operated under sub-threshold region for realizing ultra-low power consumption. The transmitter consumes 378 μW to 424 μW according to the transmitted data rate varying from 200 kb/s to 2 Mb/s under a supply voltage of 0.7 V. Therefore, minimum energy consumption per transmitted bit of 212 pJ/bit can be achieved under the maximum transmitted data rate of 2 Mb/s.

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来源期刊

2014 International Conference on Electronics, Information and Communications (ICEIC)

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