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Analysis and design of an efficient, fully integrated 1-8GHz traveling wave power amplifier in 180nm CMOS

机译：高效，完全集成的180nm CMOS 1-8GHz行波功率放大器的分析和设计

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Traveling wave amplifiers (TWAs) offer the advantage of broadband amplification and a closed set of equations that allow deriving the RF gain by means of treating TWAs as discrete transmission line approximations. Up to now, however, the significant losses associated with CMOS integrated inductors have been neglected. This work presents a new approach for determining the transmission line losses and phase constants that will bring about an enhanced gain prediction accuracy. The theory is verified by means of a realized design example. The working principle of the integrated DC supply inductor is discussed, whose performance is based on the inductors self-resonance effect. When applying a supply voltage Vdd of 2.4V, the measured compression point P1dB and the power added efficiency PAE at 2.4GHz amount to 16.9dBm and 19.6%, respectively. At 5.5GHz, a value of 16.6dBm for P1dB and an associated PAE of 13.9% are achieved. The peak RF gain for these output power values reaches 11dB, and values greater than 8dB are obtained up to 7GHz

机译：行波放大器（TWA）提供了宽带放大和封闭式方程组的优点，这些方程式允许通过将TWA视为离散传输线近似值来导出RF增益。但是，到目前为止，与CMOS集成电感器相关的重大损失已被忽略。这项工作提出了一种确定传输线损耗和相位常数的新方法，这将带来增强的增益预测精度。通过一个实际的设计实例验证了该理论。讨论了集成直流电源电感器的工作原理，其性能基于电感器的自谐振效应。当施加2.4V的电源电压Vdd时，在2.4GHz处测得的压缩点P1dB和功率附加效率PAE分别为16.9dBm和19.6％。在5.5GHz处，P1dB值为16.6dBm，相关的PAE为13.9％。这些输出功率值的峰值RF增益达到11dB，在高达7GHz的频率下可获得大于8dB的值

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Carls, Joerg; Ellinger, Frank; Zhang, Yulin; Joerges, Udo; Wehrli, Silvan;
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年度 2017
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正文语种 eng
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2. Integrated Design of a Compact and Lightweight S-Band Traveling-Wave Tube Amplifier for a New Class of Microwave Power Module [J] . Heather Song, Leslie Tekamp, Frank Francisco, Journal of Electromagnetic Analysis and Applications . 2013,第3期

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4. Design and analysis of a 2.4 GHz fully integrated 1.8V power amplifier in TSMC 180nm CMOS RF process for wireless communication [C] . Patil Santosh B., Kanphade Rajendra D. 2015 International Conference on VLSI Systems, Architecture, Technology and Applications . 2015

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5. Highly Efficient and Linear Reconfigurable Mm-Wave CMOS Power Amplifiers for 5g Mobile Communications [D] . Ali, Sheikh Nijam 2018

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7. Integrated Design of a Compact and Lightweight S-Band Traveling-Wave Tube Amplifier for a New Class of Microwave Power Module [O] . Ming-Chieh Lin, Peter H. Stoltz, Jin Joo Choi, 2013

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Analysis and design of an efficient, fully integrated 1-8GHz traveling wave power amplifier in 180nm CMOS

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