多模WCDMA功率放大器模块，采用级旁通技术提高了低功耗效率

2010 IEEE Radio Frequency Integrated Circuits Symposium Pub Date : 2010-05-23 DOI:10.1109/RFIC.2010.5477320

G. Hau, Mahendra Singh

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引用次数: 26

摘要

提出了一种在大功率回退下具有极低直流静态电流和极低电流消耗的多模功率放大器。PA经过优化，可在三种电源模式下工作。双路PA设计用于高、中功率模式工作，而中功率PA的末级采用级旁通，用于低功率模式工作。每种功率模式的负载阻抗都进行了单独优化，以获得最佳效率和线性度，与双功率模式PAs相比，可显著节省电流。利用GaAs BiFET技术开发了一个1.95GHz WCDMA PA模块(PAM)来验证所提出的电路。在低功率模式偏置下，PAM具有3.5mA的极低静态电流。PAM在28.5dBm Pout下显示42%的PAE和- 40dBc的ACLR1。在17dBm和8dBm的回退口，PAM分别达到22%和15%的PAE, ACLR1为- 40dBc。采用级旁通配置，8dBm输出时的电流消耗降低了59%。

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Multi-mode WCDMA power amplifier module with improved low-power efficiency using stage-bypass

This paper presents a multi-mode power amplifier (PA) with very low DC quiescent current and current consumption under large power backoff operation. The PA is optimized to operate in three power modes. A dual-path PA is designed for high- and medium-power-mode operations, while a stage-bypass is applied to the final stage of the medium-power PA for low-power-mode operation. Load impedance for each power mode is individually optimized for best efficiency and linearity, achieving significant current saving compared to two-power-mode PAs. A 1.95GHz WCDMA PA module (PAM) has been developed using GaAs BiFET technology to validate the proposed circuit. The PAM demonstrates a very low quiescent current of 3.5mA under low-power-mode bias. The PAM exhibits 42% PAE and −40dBc ACLR1 at 28.5dBm Pout. At 17dBm and 8dBm backoff Pout, the PAM achieves 22% and 15% PAE, respectively, with −40dBc ACLR1. The current consumption at 8dBm Pout is reduced by 59% with the stage-bypass configuration.

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2010 IEEE Radio Frequency Integrated Circuits Symposium

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