Chapter1: Taking the next step in GaN: bulk GaN substrates and GaN-on-Si epitaxy for electronics.- Chapter2: Lateral GaN HEMT structures.- Chapter3: Vertical GaN Transistors for Power Electronics.- Chapter4: Reliability of GaN-based Power devices.- Chapter5: Validating GaN robustness.- Chapter6: Impact of Parasitics on GaN Based Power Conversion.- Chapter7: GaN in AC/DC Power Converters.- Chapter8: GaN in Switched Mode Power Amplifiers.
Gaudenzio Meneghesso is full professor at the University of Padova, Department of Information engineering. His research interests involve electrical characterization, modeling and reliability of semiconductors devices.
Matteo Meneghini is researcher at the University of Padova, Department of Information engineering. His research interests involve electrical characterization, modeling and reliability of semiconductors devices.
Enrico Zanoni is full professor at the University of Padova, Department of Information engineering. His research interests involve electrical characterization, modeling and reliability of semiconductors devices.
This book demonstrates to readers why Gallium Nitride (GaN) transistors have a superior performance as compared to the already mature Silicon technology. The new GaN-based transistors here described enable both high frequency and high efficiency power conversion, leading to smaller and more efficient power systems. Coverage includes i) GaN substrates and device physics; ii) innovative GaN -transistors structure (lateral and vertical); iii) reliability and robustness of GaN-power transistors; iv) impact of parasitic on GaN based power conversion, v) new power converter architectures and vi) GaN in switched mode power conversion.
Provides single-source reference to Gallium Nitride (GaN)-based technologies, from the material level to circuit level, both for power conversions architectures and switched mode power amplifiers;
Demonstrates how GaN is a superior technology for switching devices, enabling both high frequency, high efficiency and lower cost power conversion;
Enables design of smaller, cheaper and more efficient power supplies.