2.8具有混合g类Doherty效率增强的宽带CMOS数字功率放大器

2015 IEEE International Solid-State Circuits Conference - (ISSCC) Digest of Technical Papers Pub Date : 2015-03-19 DOI:10.1109/ISSCC.2015.7062917

Song Hu, S. Kousai, Hua Wang

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引用次数: 34

摘要

现代无线系统中的频谱高效调制通常会导致传输信号的峰值平均功率比(papr)很大。因此，深度功率回退(PBO)水平(例如-12dB)下的PA效率对于延长手机电池寿命至关重要。在实践中，经典技术，如失相、包络跟踪和Doherty PAs，在深度PBO中提供了边际效率提高。双模PAs需要PA输出端的开关进行高/低功率模式选择[1,2]，这对可靠性和线性度提出了挑战。虽然简单的供电切换(g类)在深度PBO中是有效的，但它在每种供电模式下只能提供类似b类的PBO效率[3,4]。多级失相PA需要多个电源和频繁的电源切换[5]，导致DC-DC变换器开销较大，开关噪声加剧。

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2.8 A broadband CMOS digital power amplifier with hybrid Class-G Doherty efficiency enhancement

Spectrum-efficient modulations in modern wireless systems often result in large peak-to-average power ratios (PAPRs) for the transmitted signals. Therefore, PA efficiency at deep power back-off (PBO) levels (e.g., -12dB) becomes critical to extend the mobile's battery life. Classic techniques, i.e., outphasing, envelope tracking, and Doherty PAs, offer marginal efficiency improvement at deep PBO in practice. Dual-mode PAs require switches at the PA output for high-/low-power mode selection [1,2], posing reliability and linearity challenges. Although simple supply switching (Class-G) is effective at deep PBO, it only offers Class-B-like PBO efficiency in each supply mode [3,4]. Multi-level outphasing PA requires multiple supplies and frequent supply switching [5], resulting in substantial DC-DC converter overhead and exacerbated switching noise.

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2015 IEEE International Solid-State Circuits Conference - (ISSCC) Digest of Technical Papers

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