Design of High-Efficiency Multioctave Power Amplifier Based on a New Load Design Space

Design of High-Efficiency Multioctave Power Amplifier Based on a New Load Design Space

In this letter, a new load design space is presented based on extended series of continuous inverse modes (ESCIMs) for designing a high-efficiency power amplifier (PA) with multioctave. The proposed load design space is acquired by adding a phase shift parameter into the current waveform formula of...

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Veröffentlicht in:IEEE microwave and wireless technology letters (Print) 2024-06, Vol.34 (6), p.635-638
Hauptverfasser: Xuan, Xuefei, Cheng, Zhiqun, Gong, Tingwei, Zhang, Zhiwei, Hayes, Brendan, Zhao, Ziming, Le, Chao
Format: Artikel
Sprache:eng
Schlagworte:
Bandwidth
Broadband amplifiers
Design parameters
Gallium nitrides
Harmonic analysis
High-efficiency
load design space
multioctave
Parameter estimation
phase shift parameter
Phase shifters
power amplifier (PA)
Power amplifiers
Power measurement
Voltage control
Waveforms
Wireless communication
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Beschreibung
Zusammenfassung:In this letter, a new load design space is presented based on extended series of continuous inverse modes (ESCIMs) for designing a high-efficiency power amplifier (PA) with multioctave. The proposed load design space is acquired by adding a phase shift parameter into the current waveform formula of ESCIMs to generate a wider complex fundamental and second harmonic admittance spaces, further expanding the operating bandwidth. As a proof of concept, a multioctave PA is designed by using a gallium nitride (GaN) device. The measured results indicate that a drain efficiency (DE) of 60.3%-73.5%, an output power of 39.1-42 dBm, and a gain of 9.1-12 dB can be achieved over 0.8-3.6 GHz with a relative bandwidth of 127.3%.
ISSN:2771-957X
2771-9588
DOI:10.1109/LMWT.2024.3392839