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This study introduces a cost-effective power amplifier designed for satellite communication applications. The amplifier employs a low-cost surface-mount packaged transistor, typically reserved for low-duty cycle pulsed test conditions, but uniquely adapted here for continuous wave (CW) operation. To mitigate the risk of thermal overload, the design process prioritized efficiency. This was achieved through the implementation of a harmonic tuning approach, with particular attention given to the real part of the impedances experienced by the transistor. Simulations and empirical measurements confirmed the amplifier’s robust performance, delivering a minimum output power of 40 dBm, a drain efficiency ranging from 32% to 42%, and a power gain of 7 to 10 dB across the full bandwidth of 7.25-7.75 GHz, which is allocated for space-to-earth communication links.

Sadeghi-Fard, A., Javid-Hosseini, S., Nayyeri, V., Colantonio, P. (2024). Low-cost 10-Watt CW power amplifier for satellite communication. In 2024 19th European Microwave Integrated Circuits Conference (EuMIC) (pp.399-402). Piscataway : IEEE [10.23919/eumic61603.2024.10732249].

Low-cost 10-Watt CW power amplifier for satellite communication

Colantonio, Paolo
Membro del Collaboration Group
2024-01-01

Abstract

This study introduces a cost-effective power amplifier designed for satellite communication applications. The amplifier employs a low-cost surface-mount packaged transistor, typically reserved for low-duty cycle pulsed test conditions, but uniquely adapted here for continuous wave (CW) operation. To mitigate the risk of thermal overload, the design process prioritized efficiency. This was achieved through the implementation of a harmonic tuning approach, with particular attention given to the real part of the impedances experienced by the transistor. Simulations and empirical measurements confirmed the amplifier’s robust performance, delivering a minimum output power of 40 dBm, a drain efficiency ranging from 32% to 42%, and a power gain of 7 to 10 dB across the full bandwidth of 7.25-7.75 GHz, which is allocated for space-to-earth communication links.
19th European Microwave Integrated Circuits Conference (EuMIC)
Parigi, Francia
2024
19
Rilevanza internazionale
contributo
2024
Settore ING-INF/01
Settore IINF-01/A - Elettronica
English
Satellite; Continuous Wave; Power Amplifier;Impedance; Design Process; Output Power; Minimum Power; Low Duty Cycle; Wireless; Frequency Band; Fabrication Process; Input Power; Heat Sink; Constant Power; Matching Network; Optimal Region; Inaccurate Model; Entire Band; Junction Temperature; Design Frequency; Harmonic Level
Intervento a convegno
Sadeghi-Fard, A., Javid-Hosseini, S., Nayyeri, V., Colantonio, P. (2024). Low-cost 10-Watt CW power amplifier for satellite communication. In 2024 19th European Microwave Integrated Circuits Conference (EuMIC) (pp.399-402). Piscataway : IEEE [10.23919/eumic61603.2024.10732249].
Sadeghi-Fard, A; Javid-Hosseini, S; Nayyeri, V; Colantonio, P
02 - Intervento a convegno
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/2108/389305
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