A Compact Single-Ended Common-Base Doherty PA in 90-nm BiCMOS With 37.3% Peak PAE for 5G Beamforming Arrays

IF 4.5 1区工程技术 Q2 ENGINEERING, ELECTRICAL & ELECTRONIC IEEE Transactions on Microwave Theory and Techniques Pub Date : 2024-09-05 DOI:10.1109/TMTT.2024.3432602

Mohammad Ali Mokri;Emad Afshar;Md Aminul Hoque;Soodeh Miraslani;Shahriar Mirabbasi;Deukhyoun Heo

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Abstract

This article presents a back-off efficient power amplifier (PA) for mm-wave 5G and upcoming 6G beamforming phased array transceivers (PATs), incorporating advanced circuit designs and novel implementations in both passive and active components. Conventional back-off efficient PAs in the mm-wave frequency range occupy a large chip area, making it hard to fit them into PATs. To overcome this issue, we propose a compact back-off efficient Doherty PA (DPA) with a common base (CB) structure as the core of the PA and small low-loss passive elements. In addition, the proposed architecture moves the role of the input hybrid coupler to the interstage matching network while maintaining DPA functionality. The interstage matching provides the required phases for the main and auxiliary PAs, power division, and impedance matching. The PA prototype is fabricated in the GlobalFoundries 90-nm BiCMOS (9 HP) process. It achieves a peak gain of 20.4 dB at 28.45 GHz with a 1-dB bandwidth of 4.45 GHz. Under large-signal conditions, it archives >19.5-dBm

$P_{\mathrm { sat}}$

with >36%

$\text {PAE}_{\mathrm { sat}}$

. Its

$P_{1\text {dB}}$

at 26, 28, and 30 GHz are 19.4, 19.3, and 19.3 dBm with 38.5%, 37.3%, and 36.8%

$\text {PAE}_{1\, \text {dB}}$

, respectively. In the 6-dB power back-off region, it reaches efficiencies of 29.1%, 31.1%, and 29.3% at 26, 28, and 30 GHz, respectively. When tested with the NR-FR2 test model at these frequencies, the PA achieves

$P_{\mathrm { avg}}$

of 8.25, 8.45, and 8 dBm, and

$\text {PAE}_{\mathrm { avg}}$

of 13.9%, 14.5%, and 13.7% for a 400 M 1-CC 64-QAM signal, maintaining an rms error vector magnitude (

$\text {EVM}_{\mathrm { rms}}$

) of −25.8, −25.8, and −25.7 dB. In addition, in adjacent channel power ratio (ACPR) tests, the PA achieves −27, −26.2, and −30.8 dBc on the lower side and −28.4, −28.5, and −27.6 dBc on the higher side channels at 26, 28, and 30 GHz, respectively.

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用于 5G 波束成形阵列的 90 纳米 BiCMOS 紧凑型单端共基 Doherty PA，峰值 PAE 为 37.3

本文介绍了一种用于毫米波5G和即将推出的6G波束形成相控阵收发器（PATs）的回退型高效功率放大器（PA），该放大器结合了先进的电路设计和无源和有源组件的新颖实现。在毫米波频率范围内，传统的回退高效pa占据了很大的芯片面积，这使得它们很难安装到pat中。为了克服这个问题，我们提出了一种紧凑的回退高效Doherty PA (DPA)，其核心是公共基（CB）结构和小的低损耗无源元件。此外，所提出的架构将输入混合耦合器的角色转移到级间匹配网络中，同时保持DPA功能。级间匹配为主和辅助PAs、功率划分和阻抗匹配提供所需的相位。PA原型机采用GlobalFoundries 90纳米BiCMOS （9 HP）工艺制造。它在28.45 GHz时实现了20.4 dB的峰值增益，1 dB带宽为4.45 GHz。在大信号条件下，>19.5 dbm $P_{\mathrm {sat}}$, >36% $\text {PAE}_{\mathrm {sat}}$。其$P_{1\text {dB}}$在26、28和30 GHz频段分别为19.4、19.3和19.3 dBm，分别为$\text {PAE}_{1\, \text {dB}}$的38.5%、37.3%和36.8%。在6db功率回退区域，它在26ghz、28ghz和30ghz分别达到29.1%、31.1%和29.3%的效率。当使用NR-FR2测试模型在这些频率下进行测试时，PA在400 M 1-CC 64-QAM信号中实现了$P_{\mathrm {avg}}$为8.25、8.45和8 dBm， $\text {PAE}_{\mathrm {avg}}$为13.9%、14.5%和13.7%，保持了rms误差矢量幅度（$\text {EVM}_{\mathrm {rms}}$）为- 25.8、- 25.8和- 25.7 dB。此外，在相邻通道功率比（ACPR）测试中，在26ghz、28ghz和30ghz下，PA在低侧分别达到−27、−26.2和−30.8 dBc，在高侧分别达到−28.4、−28.5和−27.6 dBc。

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来源期刊

IEEE Transactions on Microwave Theory and Techniques 工程技术-工程：电子与电气

CiteScore

8.60

自引率

18.60%

发文量

486

审稿时长

6 months

期刊介绍： The IEEE Transactions on Microwave Theory and Techniques focuses on that part of engineering and theory associated with microwave/millimeter-wave components, devices, circuits, and systems involving the generation, modulation, demodulation, control, transmission, and detection of microwave signals. This includes scientific, technical, and industrial, activities. Microwave theory and techniques relates to electromagnetic waves usually in the frequency region between a few MHz and a THz; other spectral regions and wave types are included within the scope of the Society whenever basic microwave theory and techniques can yield useful results. Generally, this occurs in the theory of wave propagation in structures with dimensions comparable to a wavelength, and in the related techniques for analysis and design.