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引用次数: 7
摘要
本文讨论了三路Doherty功率放大器(3w - dpa)作为多标准信号宽带高效放大的可行方案。提出了一种具有最大带宽的3W-DPA的设计方法。该方法成功地应用于设计了一个30-W GaN 3W-DPA,在0.73-0.98 GHz频率范围内,在高达9 dB的输出回退下,测量到的平均漏极效率为55%。3W-DPA采用带宽为20mhz的四载波宽带码分多址(WCMDA)信号驱动,830mhz时峰值平均功率比(PAPR)为11.7 db。在平均输出功率为32 dBm时,功率增加效率为47%,线性化后相邻通道泄漏比(ACLR)为-48 dBc。
Three-way Doherty power amplifier for efficient amplification of wideband signals with extended PAPR
This paper deals with three-way Doherty power amplifiers (3W-DPAs) as a viable solution for wideband high-efficiency amplification of multi-standard signals. A methodology is presented to design a 3W-DPA with maximal bandwidth. This methodology was successfully applied to design a 30-W GaN 3W-DPA with a measured average drain efficiency of 55% at an output back-off of up to 9 dB, over the frequency range of 0.73-0.98 GHz. The 3W-DPA was driven with a four-carrier wideband code division multiple access (WCMDA) signal with 20-MHz bandwidth and 11.7-dB peak-to-average power ratio (PAPR) at 830 MHz. Power added efficiencies of 47% was measured at 32 dBm average output power, with an adjacent channel leakage ratio (ACLR) of -48 dBc after linearization.
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