Salahaldein Ahmed Source Confirmed
Affiliation confirmed via AI analysis of OpenAlex, ORCID, and web sources.
Researcher
University of Arkansas at Fayetteville
faculty
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Biography and Research Information
OverviewAI-generated summary
Salahaldein Ahmed's research focuses on the development and characterization of electronic components for high-temperature applications. His work has involved the design of optocouplers and gate drivers integrated into high-density power modules, particularly those utilizing Silicon Carbide (SiC) and Low-Temperature Cofired Ceramic (LTCC) packaging. Ahmed has investigated the performance of these devices at temperatures up to 250°C, aiming to improve the reliability and efficiency of power electronics in demanding environments. His publications also include studies on DC-DC converters, such as buck converters, with a focus on optimizing their operation and eliminating issues like deadtime mismatch in GaN-based systems.
Ahmed collaborates with several researchers at the University of Arkansas at Fayetteville, including Zhong Chen, Pengyu Lai, Sudharsan Chinnaiyan, and Shui-Qing Yu, with whom he has co-authored multiple publications. His scholarly output includes 12 publications, with an h-index of 5 and a total of 42 citations.
Metrics
- h-index: 5
- Publications: 12
- Citations: 42
Selected Publications
- A 200 <sup>∘</sup>C SiC Phase-Leg Power Module With Integrated Gate Drivers: Development, Performance Assessment, and Path Forward (2025) DOI
- Design and Characterization of 1.2 kV Optically Isolated Half-Bridge Modules for High Temperature Operation (2024) DOI
- Electrical and thermal characterization of (250 °C) SiC power module integrated with LTCC-based isolated gate driver (2024) DOI
- Demonstration and Optimization of a 250°C LTCC-based Gate Driver for High Density, High-Temperature Power Modules (2023) DOI
- High-Temperature (250°C) SiC Power Module Integrated with LTCC-Based Isolated Gate Driver (2023) DOI
- Eliminating deadtime mismatch due to inserting storage capacitor of a GaN-based two-phase series-capacitor buck DC-DC converter (2022) DOI
- Development of High-Temperature Optocouplers for Gate Drivers Integrated in High-Density Power Modules (2022) DOI
- Automatic Current Sharing Mechanism in Two-phase Series Capacitor Buck DC-DC Converter (2-pscB) (2022) DOI
- Development of LTCC-packaged optocouplers as optical galvanic isolation for high-temperature applications (2022) DOI
- Investigating the CSM of a GaN-Based Two-Phase Series Capacitor Buck DC-DC Converter (2022) DOI
- A Comparison between Conventional Buck and 2-pscB DC-DC Converters (2021) DOI
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