Archivio Istituzionale della RicercaThis paper presents the design and linearity characterization of an integrated Doherty amplifier for 5G applications in the FR1 bands, implemented on a 150 nm GaN/SiC HEMT technology. It achieves 5G real-case-scenario performance over a 41% state-of-the-art fractional bandwidth, with 37 dBm saturated output power, 19 dB small-signal gain, and power-added efficiency above 20% over 6 dB back-off. The impact of the wideband combiner strategy on the linearity of the amplifier is analyzed in terms of baseband impedance and AM/PM. The characterization is then presented, with continuous wave and modulated signals for 100 MHz and 200 MHz instantaneous bandwidths. In presence of a 256-QAM 200 MHz input signal, the predistorted amplifier presents at 4.15 GHz an EVM of 2.9%.
Impact on Linearity of a Wideband Design Strategy for an Integrated GaN Doherty Power Amplifier / Bartolotti, Giulia; Piacibello, Anna; Camarchia, Vittorio. - ELETTRONICO. - (2025), pp. 1-4. (Intervento presentato al convegno 2025 International Workshop on Integrated Nonlinear Microwave and Millimetre-Wave Circuits (INMMIC) tenutosi a Torino (Ita) nel 10-11 April 2025) [10.1109/inmmic64198.2025.10975383].
Impact on Linearity of a Wideband Design Strategy for an Integrated GaN Doherty Power Amplifier
Bartolotti, Giulia;Piacibello, Anna;Camarchia, Vittorio
2025
Abstract
This paper presents the design and linearity characterization of an integrated Doherty amplifier for 5G applications in the FR1 bands, implemented on a 150 nm GaN/SiC HEMT technology. It achieves 5G real-case-scenario performance over a 41% state-of-the-art fractional bandwidth, with 37 dBm saturated output power, 19 dB small-signal gain, and power-added efficiency above 20% over 6 dB back-off. The impact of the wideband combiner strategy on the linearity of the amplifier is analyzed in terms of baseband impedance and AM/PM. The characterization is then presented, with continuous wave and modulated signals for 100 MHz and 200 MHz instantaneous bandwidths. In presence of a 256-QAM 200 MHz input signal, the predistorted amplifier presents at 4.15 GHz an EVM of 2.9%.
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Impact_on_Linearity_of_a_Wideband_Design_Strategy_for_an_Integrated_GaN_Doherty_Power_Amplifier.pdf
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https://hdl.handle.net/11583/2999657