This paper presents the design and preliminary experimental characterization of a Monolithic Microwave Integrated Circuit (MMIC) Doherty Power Amplifier (DPA) conceived for satellite downlink Ka-band (17.3–20.3 GHz), manufactured in Gallium Nitride on Silicon (GaN-Si) High Electron Mobility Transistor technology with 0.1 µm gate length available at OMMIC foundry. The DPA is based on a three-stage architecture in which the devices in the output stage of both Carrier and Peaking branches are implemented in a stacked configuration. The MMIC shows preliminary experimental results in agreement with the simulations achieving a small signal gain larger than 25 dB and input and output return losses better than 10 dB. Expected nonlinear performances show a saturation output power of 38 dBm, a gain better than 22 dB, and a Power-Added Efficiency of 37%, which remains higher than 25% at 6 dB of output power back-off.

A Stacked Doherty Power Amplifier For Ka-Band Space Applications / Furxhi, Stela; Giofrè, Rocco; Piacibello, Anna; Camarchia, Vittorio; Colantonio, Paolo. - ELETTRONICO. - (2023), pp. 1-4. (Intervento presentato al convegno 2023 International Workshop on Integrated Nonlinear Microwave and Millimetre-Wave Circuits (INMMIC) tenutosi a Aveiro, Portugal nel 08-11 November 2023) [10.1109/INMMIC57329.2023.10321793].

A Stacked Doherty Power Amplifier For Ka-Band Space Applications

Piacibello, Anna;Camarchia, Vittorio;
2023

Abstract

This paper presents the design and preliminary experimental characterization of a Monolithic Microwave Integrated Circuit (MMIC) Doherty Power Amplifier (DPA) conceived for satellite downlink Ka-band (17.3–20.3 GHz), manufactured in Gallium Nitride on Silicon (GaN-Si) High Electron Mobility Transistor technology with 0.1 µm gate length available at OMMIC foundry. The DPA is based on a three-stage architecture in which the devices in the output stage of both Carrier and Peaking branches are implemented in a stacked configuration. The MMIC shows preliminary experimental results in agreement with the simulations achieving a small signal gain larger than 25 dB and input and output return losses better than 10 dB. Expected nonlinear performances show a saturation output power of 38 dBm, a gain better than 22 dB, and a Power-Added Efficiency of 37%, which remains higher than 25% at 6 dB of output power back-off.
2023
979-8-3503-2242-2
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11583/2984275