Circuit-Simulation-Based Design Optimization of 3.5 GHz Doherty Power Amplifier via Multi-Objective Evolutionary Algorithm and Unified Optimization Framework

机译：基于多目标进化算法和统一优化框架的3.5 GHz Doherty功率放大器基于电路仿真的设计优化

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A circuit-simulation-based optimization technique is utilized to automatically design a HEMT-based Doherty power amplifier (PA) at 3.5 GHz. The newly proposed approach integrates a multi-objective evolutionary algorithm and ADS® circuit simulator running on the platform of the unified optimization framework. In terms of several key factors of the explored PA including layout constraints, we can optimize the power-added efficiency, the output power, and the gain simultaneously, where the remarkable 51.3%, 43.7 dBm, and 7.5 dB, have been achieved correspondingly.

机译：利用基于电路仿真的优化技术来自动设计3.5 GHz的基于HEMT的Doherty功率放大器（PA）。新提出的方法将多目标进化算法和ADS®电路仿真器集成在统一优化框架的平台上运行。在探索的功率放大器的几个关键因素（包括布局约束）方面，我们可以同时优化功率附加效率，输出功率和增益，分别达到了显着的51.3％，43.7 dBm和7.5 dB。

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《IEEE International Symposium on Radio-Frequency Integration Technology》|2020年|76-78|共3页
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Chao-Hsuan Chen; Ya-Shu Yang; Chieh-Yang Chen; Yun-Che Hsieh; Zuo-Min Tsai; Yiming Li;
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Doherty Power amplifier; HEMT; Power amplifier; Design automation; M.ulti-objective evolutionary algorithm; Unified optimization framework; Simulation-based optimization technique;

机译：Doherty功率放大器; HEMT;功率放大器;设计自动化; M。多目标进化算法;统一优化框架;基于仿真的优化技术;

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Circuit-Simulation-Based Design Optimization of 3.5 GHz Doherty Power Amplifier via Multi-Objective Evolutionary Algorithm and Unified Optimization Framework

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