GARCIA VITE, PEDRO MARTIN
INGENIERÍA · Nivel 1
Desde 2004 es Maestro en Ciencias en Instituto Tecnológico de Cd. Madero
Pedro M. Garcia-Vite received the B.S. degree in electronics and the M.S. degree in electrical engineering from Instituto Tecnológico de Cd. Madero in 2004 and 2006, respectively, and his Ph.D. degree in electrical engineering from the Centro de Investigación y...
Pedro M. Garcia-Vite received the B.S. degree in electronics and the M.S. degree in electrical engineering from Instituto Tecnológico de Cd. Madero in 2004 and 2006, respectively, and his Ph.D. degree in electrical engineering from the Centro de Investigación y de Estudios Avanzados del Instituto Politécnico Nacional, Guadalajara, México, in 2012. He is currently with the Tecnológico Nacional de México-Instituto Tecnológico de Cd. Madero. His research interests include modeling and control of
power electronic converters and their application to utility scale power systems.
Información*
| Nombre | PEDRO MARTIN GARCIA VITE |
|---|---|
| Área | INGENIERÍAS Y DESARROLLO TECNOLÓGICO |
| Campo | INGENIERÍA |
| Disciplina | INGENIERÍA ELÉCTRICA |
| Especialidad | INGENIERÍA ELÉCTRICA |
| CVU | 227310 |
| Institución | TECNOLOGICO NACIONAL DE MEXICO |
|---|---|
| Dependencia | INSTITUTO TECNOLOGICO DE CIUDAD MADERO |
| Entidad | TAMAULIPAS |
| Nivel | 1 |
| Estímulo | 7 UMAs |
| Vigencia | Inicio: 1/1/2022 |
| Fin: 12/31/2026 |
* Información del primer trimestre de 2025.
Fuente: SECIHTI.
Últimas publicaciones Scopus
- 2026
- A Partial Power Processing SEPIC Converter for Photovoltaic Applications Energies · Vol. 19 Article
- 2025
- Kinetics Study of Hydrogen Production by Aluminum Alloy Corrosion in Aqueous Acid Solutions: Effect of HCl Concentration Processes · Vol. 13 Article
- Ripple-Free Input Current Quadratic Converter Based on Watkin–Johnson Topology Iet Power Electronics · Vol. 18 Article
- 2024
- Quadratic Boost Converter with Optimized Switching Ripple Based on the Selection of Passive Components Electricity · Vol. 5 Article
- Commutation strategy for reduced output voltage ripple in alternative cascaded boost converter International Journal of Circuit Theory and Applications · Vol. 52 Article