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引用次数: 24
摘要
本文提出了一种利用传统基频负载拉动式调谐器设计大功率高效扩音器的方法。利用可调预匹配电路和封装寄生的全波有限元建模,实现了虚拟漏极处的谐波阻抗控制。使用该方法对TriQuint公司的10mm栅极外围GaN晶体管进行了表征,并给出了负载-拉力轮廓,说明了变化的二次谐波端接的巨大影响。为了满足f -1类负载拉动的条件,增加了一个三次谐波终端,从而比最佳情况下的二次谐波终端效率提高了8%。通过对2.14GHz频率下36w f -1类PA样机的设计和测量,验证了该方法的有效性,脉冲工作时漏极效率为81%,增益为14.5 dB (PAE为78%)。
Harmonic load pull of high-power microwave devices using fundamental-only load pull tuners
This paper presents a high-power high-efficiency PA design method using traditional fundamental-frequency load pull tuners. Harmonic impedance control at the virtual drain is accomplished through the use of tunable pre-matching circuits and full-wave FEM modeling of package parasitics. A 10-mm gate periphery GaN transistor from TriQuint is characterized using the method, and load-pull contours are presented illustrating the dramatic impact of varying 2nd harmonic termination. A 3rd harmonic termination is added to satisfy conditions for class-F-1 load pull, resulting in an 8% efficiency improvement over the best-case 2nd harmonic termination. The method is verified by design and measurement of a 36-W class-F-1 PA prototype at 2.14GHz with 81% drain efficiency and 14.5 dB gain (78% PAE) in pulsed operation.
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