Efficiency enhancement using adaptive bias control for 60GHz power amplifier

2015 IEEE 13th International New Circuits and Systems Conference (NEWCAS) Pub Date : 2015-06-07 DOI:10.1109/NEWCAS.2015.7182050

A. Serhan, E. Lauga-Larroze, J. Fournier

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引用次数: 11

Abstract

A single-stage 60GHz class-A bipolar power amplifier (PA) is fabricated in a BiCMOS 55nm technology. In order to enhance the power added efficiency (PAE) behavior of the PA, a bias control loop, based on direct power detection, is implemented in order to dynamically adjust the DC bias current of the PA according to its output power level. A power detector (PD) is connected directly at the output of the amplifier in order to track the envelope variation of its output signal. The employed PD has a dynamic range of more than 30dB, and a maximum power consumption of 0.8mW. Under constant bias conditions, the PA has a power gain of around 7dB, a maximum PAE of 16%, and an output compression point of around 7.5dBm while driving 25.8mA under 1.2V supply voltage. Under adaptive bias control, the mean value of the DC current is reduced down to 20.8mA, while maintaining high power gain, leading to a significant enhancement of the PAE over the linear input dynamic range of the PA. System level simulations show that the applied technique enhances the average PAE and DC power consumption by 18% without significant discrepancies on the EVM, ACPR, and power gain.

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利用自适应偏置控制提高60GHz功率放大器的效率

采用BiCMOS 55nm工艺制备了单级60GHz A级双极功率放大器(PA)。为了提高放大器的功率附加效率(PAE)性能，设计了基于直接功率检测的偏置控制环，根据放大器输出功率动态调节其直流偏置电流。功率检测器(PD)直接连接在放大器的输出端，以跟踪其输出信号的包络变化。所使用的PD具有超过30dB的动态范围，最大功耗为0.8mW。在恒定偏置条件下，PA的功率增益约为7dB，最大PAE为16%，输出压缩点约为7.5dBm，在1.2V电源电压下驱动25.8mA。在自适应偏置控制下，直流电流的平均值降至20.8mA，同时保持较高的功率增益，使得PAE在放大器的线性输入动态范围内显著增强。系统级仿真表明，该技术将平均PAE和直流功耗提高了18%，而EVM、ACPR和功率增益没有显著差异。

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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2015 IEEE 13th International New Circuits and Systems Conference (NEWCAS)

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