极性系统相位补偿的三带CMOS e类功率放大器设计

CCECE 2010 Pub Date : 2010-05-02 DOI:10.1109/CCECE.2010.5575171

C. Lai, W. Tsou, M. Chou, K. Wen

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引用次数: 0

摘要

提出了一种工作在2.5GHz/3.5GHz/5.2GHz频段的0.18mm CMOS全集成级联码e类功率放大器。三波段放大是通过调整共栅晶体管的尺寸和匹配网络来实现的。通过控制共栅晶体管栅极电压和补偿电容来补偿e类电源调制引起的相位畸变。仿真结果表明，在2.8V电源下，该电路的最大附加功率效率为30.4%，漏极效率为34%，输出功率为18.8dBm。电源电压在0.5V ~ 2.8V范围内，相位畸变可从34.4°补偿到3.1°。建立了相对星座误差(RCE)评估的系统联合仿真，结果表明，在3.5GHz频段，相对星座误差可以从- 23.3dB提高到- 31.4dB。

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Tri-band CMOS Class-E power amplifier design with phase compensations for polar systems

A 0.18mm CMOS fully integrated cascode Class-E power amplifier operating in 2.5GHz/3.5GHz/5.2GHz frequency bands for polar transmitters has been proposed. The tri-band amplification is achieved by adaptation of the common-gate transistor size and the matching networks. The phase distortion from supply modulation of the Class-E is compensated by controlling the common-gate transistor gate voltage and a compensative capacitor. Simulation results show that the maximum power-added efficiency (PAE) of 30.4%, drain efficiency of 34% and output power of 18.8dBm from 2.8V supply can be achieved. The phase distortion can be compensated from 34.4° to 3.1° under supply voltage of 0.5V to 2.8V. A system co-simulation has been established for relative constellation error (RCE) evaluation and it reveals that the RCE can be improved from −23.3dB to −31.4dB in 3.5GHz frequency band.

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来源期刊

CCECE 2010

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