无数字预失真的宽带包络跟踪CMOS线性发射机

2015 IEEE Radio Frequency Integrated Circuits Symposium (RFIC) Pub Date : 2015-05-17 DOI:10.1109/RFIC.2015.7337781

J. Woo, Sunghwan Park, Y. Kwon

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引用次数: 8

摘要

本文提出了一种有效的线性化技术，利用双整形表对CMOS包络跟踪(ET)发射机中的AM-PM和AM-AM失真进行线性化。利用等增益整形表对AM-AM响应进行线性化。可变移相器集成在射频功率放大器(RF PA)中，结合等增益整形表，将CMOS ET PA的AM-PM响应线性化。通过这种方式，不需要额外的数字预失真(DPD)来线性化CMOS ET PA。采用0.28 μm SOI CMOS工艺制作了集成相位补偿电路的2级射频放大器。使用CMOS包络放大器(EA)演示的ET发射机系统显示，整体系统PAE为42.2%，E-UTRA ACLR为-34.5 dBc, 40mhz BW LTE信号以0.837 GHz为中心。该方法克服了依赖DPD和/或反馈回路的传统方法的带宽限制，可以应用于宽带LTE信号。

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A wideband envelope-tracking CMOS linear transmitter without digital predistortion

In this work, an effective linearization technique to linearize both AM-PM and AM-AM distortions in CMOS envelope tracking (ET) transmitter is developed using dual shaping tables. AM-AM response is linearized using iso-gain shaping table. A variable phase shifter is integrated with the RF power amplifier (RF PA), which linearizes AM-PM response of CMOS ET PA in conjunction with the iso-gain shaping table. In this way, no additional digital predistortion (DPD) is required to linearize the CMOS ET PA. The 2-stage RF PA with the integrated phase compensation circuit is fabricated in 0.28-μm SOI CMOS process. The ET transmitter system demonstrated using the CMOS envelope amplifier (EA) shows an overall system PAE of 42.2% with -34.5 dBc E-UTRA ACLR with 40 MHz BW LTE signal centered at 0.837 GHz. The proposed method overcomes the bandwidth limitation of the conventional methods relying on DPD and/or feedback loops, and can be applied to wide bandwidth LTE signals.

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2015 IEEE Radio Frequency Integrated Circuits Symposium (RFIC)

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