Highly Efficient Class E SiGe Power Amplifier Design for Wireless Sensor Network Applications

2007 IEEE Bipolar/BiCMOS Circuits and Technology Meeting Pub Date : 2007-10-22 DOI:10.1109/BIPOL.2007.4351859

D. Lie, J. Lopez, J. Rowland

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引用次数: 12

Abstract

This paper discusses the design of highly efficient and monolithic medium-power RF class E SiGe power amplifiers (PAs) in IBM 7HP SiGe BiCMOS technology at both 900 MHz and 2.4 GHz for wireless sensor applications. Without needing off-chip on-board matching, we achieved high power-added-efficiency (PAE) for the single-stage class E SiGe PAs at ~70% (900 MHz) and ~60% (2.4 GHz), respectively. Using large number of downbonds at the emitter node of the PA, optimal device sizing and layout, and careful circuit design with bondwire tank inductors, maximum PAE of 62% at 2.4 GHz is obtained, which performance rivals that of commercially-available III-V PA modules. Taking advantages of the higher output power with breakdown robustness and the excellent PAE for SiGe PAs vs. CMOS PAs, one can not only shrink the battery size and therefore sensor volume, but also reduce the number of nodes required in a wireless sensor network to bring down system cost and simplify data fusion. With improved understanding of on-chip PA loss mechanisms, it is likely that we can push these high-efficient SiGe PAs into higher frequencies of operation (say 10 GHz) to utilize smaller antenna size, enabling new and exciting wireless sensor network applications.

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无线传感器网络应用的高效E级SiGe功率放大器设计

本文讨论了基于IBM 7HP SiGe BiCMOS技术的900 MHz和2.4 GHz无线传感器应用的高效单片中功率射频类E SiGe功率放大器(PAs)的设计。在不需要片外板上匹配的情况下，我们实现了单级E SiGe PAs的高功率附加效率(PAE)，分别为~70% (900 MHz)和~60% (2.4 GHz)。利用PA发射极节点大量的下键，优化器件尺寸和布局，并采用键合线槽电感进行精心的电路设计，在2.4 GHz下获得了62%的最大PAE，其性能可与市购III-V级PA模块相媲美。利用更高的输出功率和击穿鲁棒性以及SiGe PAs相对于CMOS PAs的出色PAE，人们不仅可以缩小电池尺寸，从而缩小传感器体积，还可以减少无线传感器网络中所需的节点数量，从而降低系统成本并简化数据融合。随着对片上PA损耗机制的进一步了解，我们很可能将这些高效SiGe PA推向更高的工作频率(例如10 GHz)，以利用更小的天线尺寸，从而实现新的令人兴奋的无线传感器网络应用。

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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2007 IEEE Bipolar/BiCMOS Circuits and Technology Meeting

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