Archivio Istituzionale della RicercaThis paper presents a broadband 3 GHz–3.7GHz class-J Doherty power amplifier exploiting second harmonic tuning in the output network. Furthermore, the output impedance inverter is eliminated and its effect is embedded in the main device’s output matching network, thus trading off among bandwidth, efficiency, and gain. The proposed amplifier adopts two 10W packaged GaN transistors, and it achieves in measurement 60–74%, and 46–50% drain efficiency at saturation and 6 dB output back-off, respectively, with a saturated output power of 43 dBm–44.2dBm and a small-signal gain of 10 dB–13 dB. The proposed DPA exhibits a simulated adjacent channel power ratio less than 30 dBc at 36dBm average output power when a 16-QAM modulation with 5 MHz bandwidth is applied to the 3.5 GHz carrier.
Broadband Class-J GaN Doherty Power Amplifier / Nasri, Abbas; Estebsari, Motahhareh; Toofan, Siroos; Piacibello, Anna; Pirola, Marco; Camarchia, Vittorio; Ramella, Chiara. - In: ELECTRONICS. - ISSN 2079-9292. - ELETTRONICO. - 11:4(2022), p. 552. [10.3390/electronics11040552]
Broadband Class-J GaN Doherty Power Amplifier
Abbas Nasri;Motahhareh Estebsari;Anna Piacibello;Marco Pirola;Vittorio Camarchia;Chiara Ramella
2022
Abstract
This paper presents a broadband 3 GHz–3.7GHz class-J Doherty power amplifier exploiting second harmonic tuning in the output network. Furthermore, the output impedance inverter is eliminated and its effect is embedded in the main device’s output matching network, thus trading off among bandwidth, efficiency, and gain. The proposed amplifier adopts two 10W packaged GaN transistors, and it achieves in measurement 60–74%, and 46–50% drain efficiency at saturation and 6 dB output back-off, respectively, with a saturated output power of 43 dBm–44.2dBm and a small-signal gain of 10 dB–13 dB. The proposed DPA exhibits a simulated adjacent channel power ratio less than 30 dBc at 36dBm average output power when a 16-QAM modulation with 5 MHz bandwidth is applied to the 3.5 GHz carrier.
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https://hdl.handle.net/11583/2955197