Archivio Istituzionale della RicercaThis contribution presents a 3.5W MMIC power amplifier in GaAs HBT technology operating at 5 V supply conceived for Wi-Fi 6 applications in the 5-6 GHz frequency range. A 3-stage corporate architecture is selected to evaluate the technology capability in terms of power, linearity and efficiency. In simulation, the designed amplifier shows a saturated output power in excess of 35 dBm with associated gain and efficiency above 27 dB and 36 %, respectively. At -26 dB of EVM (Error Vector Magnitude, MCS0 standard) the best efficiency achievable, with simple bias tuning, is 17 % with an associated output power of 29 dBm. The small-signal characterization shows a very good agreement between measurements and simulations.
MMIC Power Amplifier in GaAs HBT Technology for Wi-Fi 6 Applications / Ramella, Chiara; Florian, Corrado; Manni, Francesco; Angelotti, Alberto Maria; Gibiino, Gian Piero; Giofrè, Rocco; Pirola, Marco; Colantonio, Paolo. - (2025), pp. 1-4. (Intervento presentato al convegno 2025 International Workshop on Integrated Nonlinear Microwave and Millimetre-Wave Circuits, INMMiC 2025 tenutosi a Torino (Ita) nel 10-11 April 2025) [10.1109/inmmic64198.2025.10975473].
MMIC Power Amplifier in GaAs HBT Technology for Wi-Fi 6 Applications
Ramella, Chiara;Pirola, Marco;
2025
Abstract
This contribution presents a 3.5W MMIC power amplifier in GaAs HBT technology operating at 5 V supply conceived for Wi-Fi 6 applications in the 5-6 GHz frequency range. A 3-stage corporate architecture is selected to evaluate the technology capability in terms of power, linearity and efficiency. In simulation, the designed amplifier shows a saturated output power in excess of 35 dBm with associated gain and efficiency above 27 dB and 36 %, respectively. At -26 dB of EVM (Error Vector Magnitude, MCS0 standard) the best efficiency achievable, with simple bias tuning, is 17 % with an associated output power of 29 dBm. The small-signal characterization shows a very good agreement between measurements and simulations.
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https://hdl.handle.net/11583/3004914