2016
DOI: 10.1109/tmtt.2016.2544318
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Highly Efficient Broadband Continuous Inverse Class-F Power Amplifier Design Using Modified Elliptic Low-Pass Filtering Matching Network

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Cited by 142 publications
(64 citation statements)
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“…Practically, it is very difficult to keep the third harmonic impedance at the short circuit in a wide band and the effect of the third harmonic impedance on the efficiency is far less than the fundamental and second harmonic impedance, which means that even if the third harmonic impedance is matched at the short circuit precisely the efficiency enhancement is very small and it will increase the design difficulty and complexity of output matching network greatly. Hence, the fundamental and second harmonic impedance condition should be satisfied primarily, meanwhile, the third harmonic impedance is kept near the short circuit point as much as possible . Satisfactory efficiency performance can also be obtained this way.…”
Section: Design Philosophymentioning
confidence: 99%
See 1 more Smart Citation
“…Practically, it is very difficult to keep the third harmonic impedance at the short circuit in a wide band and the effect of the third harmonic impedance on the efficiency is far less than the fundamental and second harmonic impedance, which means that even if the third harmonic impedance is matched at the short circuit precisely the efficiency enhancement is very small and it will increase the design difficulty and complexity of output matching network greatly. Hence, the fundamental and second harmonic impedance condition should be satisfied primarily, meanwhile, the third harmonic impedance is kept near the short circuit point as much as possible . Satisfactory efficiency performance can also be obtained this way.…”
Section: Design Philosophymentioning
confidence: 99%
“…In practice, the main work of designing continuous PA is the accurate matching of fundamental and harmonic impedance, which determines the performance of the continuous power amplifiers definitively . Many methods have been applied to fulfill the requirements of fundamental and harmonic impedance: Chebyshev low‐pass filtering matching network, stepped‐impedance filtering matching network, elliptic low‐pass filtering matching network, and simplified real frequency technique . Unfortunately, simplified real frequency technique is based on complex function analysis or algorithm operation, which increases the design difficulty significantly.…”
Section: Introductionmentioning
confidence: 99%
“…Consequently, to design extended continuous Class‐B/J PA better, this transistor nonlinear model CGH40010F provided by Cree is used. Meanwhile, the simplified model used for simulation, extracted from datasheet and from the transistor model provided by manufacturer, is shown in Figure . The simplified nonlinear model consists of two elements: drain equivalent current source and parasitic component equivalent model.…”
Section: Design Of Multioctave Bandwidth Extended Continuous Class‐b/mentioning
confidence: 99%
“…The linearity of conventional overdriven inverse Class‐F PA is studied, and good linearization results are achieved by adopting the digital pre‐distortion (DPD) technique. Compared with the conventional transmitter, the DLM transmitter can enhance the efficiency performance at the cost of moderate degradation in linearity .…”
Section: An Example Of Lm Inverse Class‐f Pasmentioning
confidence: 99%