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Characterization, Modeling, and Compensation of the Dynamic Self-Biasing Behavior of GaN HEMT-Based Power Amplifiers

Pedro M. Tome, Filipe M. Barradas, Luís C. Nunes, João L. Gomes, Telmo R. Cunha, José C. Pedro

2020IEEE Transactions on Microwave Theory and Techniques20 citationsDOI

Abstract

Charge-trapping phenomena in radio-frequency (RF) power amplifiers (PAs) based on GaN high-electron-mobility transistor (HEMT) technology are understood to be responsible for the dynamic self-biasing behavior that leads to a seemingly intractable slow dynamic residual nonlinearity in communications applications. For this reason, and based on recent developments in the characterization and modeling of charge-trapping phenomena, in this article we demonstrate how the dynamic self-biasing behavior of GaN HEMT-based PAs can be characterized, modeled, and compensated. First, we describe a method for the accurate characterization of the capture and emission dynamics of charge-trapping phenomena using transient two-tone large-signal RF measurements. Then, we demonstrate that the accurate modeling of these phenomena is contingent on the capture process being described by a state-variable time constant, rather than a fixed near-instantaneous time constant as is typically assumed. Finally, we propose a fully analog electronic circuit that implements an approximation of the Shockley-Read-Hall (SRH) statistics-based physical model of charge trapping to compensate the dynamic self-biasing behavior of a 15 W GaN HEMT-based PA.

Topics & Concepts

High-electron-mobility transistorBiasingAmplifierGallium nitrideTransient (computer programming)TransistorTime constantElectronic circuitMaterials scienceTransient responseOptoelectronicsVoltageElectronic engineeringPhysicsElectrical engineeringComputer scienceEngineeringNanotechnologyCMOSOperating systemLayer (electronics)GaN-based semiconductor devices and materialsRadio Frequency Integrated Circuit DesignSemiconductor Quantum Structures and Devices
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