Jorge Julián Moreno Rubio scite author profile

This paper presents a novel technique for the design of broadband Doherty power amplifiers (DPAs), supported by a simplified approach for the initial bandwidth estimation that requires linear simulations only. The equivalent impedance of the Doherty inverter is determined by the value of the output capacitance of the power device, and the Doherty combiner is designed following this initial choice and using a microstrip network. A GaN-based single-input DPA designed adopting this method exhibits, on a state-of-the-art bandwidth of 87% (1.5-3.8 GHz), a measured output power of around 20 W with 6 dB back-off efficiency between 33% and 55%, with a gain higher than 10 dB. System-level measurements prove the linearizability of the designed Doherty amplifier when a modulated signal is applied.Index Terms-Broadband matching networks, GaN-based FETs, wideband microwave amplifiers.

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Microwave V-I transmission matrix formalism for the analysis of photonic circuits: application to fiber Bragg gratings

Capmany

Muriel

Sales

et al. 2003

J. Lightwave Technol.

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A 4-W Doherty Power Amplifier in GaN MMIC Technology for 15-GHz Applications

Quaglia

Camarchia

Rubio

et al. 2017

IEEE Microw. Wireless Compon. Lett.

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This letter presents an integrated Doherty power amplifier (PA) in 0.25-µm GaN on SiC process. Designed for 15-GHz point-to-point radios, the PA exhibits an output power of 36 ± 0.5 dBm between 13.7 and 15.3 GHz, while at 14.6 GHz, it shows a 6-dB output back-off efficiency higher than 28%. Modulated signal measurements applying digital predistortion demonstrate the compatibility of the amplifier with point-to-point radio requirements. To the best of our knowledge, this PA has the highest back-off efficiency for the 15-GHz band, and is the first GaN Doherty in the Ku-band.Index Terms-Doherty, gallium nitride, microwave monolithic integrated circuit (MMIC).

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New Formulation of Cardiff Behavioral Model Including DC Bias Voltage Dependence

Azad¹,

Bell²,

Quaglia³

et al. 2022

IEEE Microw. Wireless Compon. Lett.

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A 0.6–3.8 GHz GaN Power Amplifier Designed Through a Simple Strategy

Rubio

Camarchia

Quaglia

et al. 2016

IEEE Microw. Wireless Compon. Lett.

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This letter presents the design strategy for an ultrawideband, high-efficiency hybrid power amplifier based on a commercial GaN-HEMT. The measurement results demonstrate a state-of-the-art fractional bandwidth of 145.5%, with saturated output power higher than 10 W from 0.6 to 3.8 GHz and power added efficiency exceeding 46% in the whole band, thus covering most of the mobile frequencies and making this device suitable for small-base station applications. The simple design approach exploits a N-section transformer, and allows for a priori estimation of the bandwidth: in the proposed case, a good agreement between estimated and measured bandwidth is obtained.

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