Radim Spetik
About Radim Spetik
Radim Spetik is a Silicon Development Engineer at ON Semiconductor, where he has worked for 20 years. He holds a Ph.D. in Electrical Engineering and Information Technology and has expertise in silicon technologies, high-voltage particle detectors, and time-frequency analysis.
Work at Onsemi
Radim Spetik has been employed at ON Semiconductor since 2004, serving as a Silicon Development Engineer. His role involves defining and designing process architecture and integration for various silicon technologies, including bipolar, CMOS, and BCD. He has contributed to the development and release of silicon technologies specifically tailored for the automotive industry. His responsibilities also extend to process and device simulation using TCAD, defining design rules, and conducting reliability testing.
Education and Expertise
Radim Spetik obtained his Doctor of Philosophy (Ph.D.) in Electrical Engineering and Information Technology from the Faculty of Electrical Engineering at Czech Technical University in Prague, where he studied from 2002 to 2009. Prior to that, he earned a master's degree with honors (Inženýr, Ing.) in Electronics from the same institution, completing his studies from 1996 to 2002. His educational background provides a strong foundation for his expertise in silicon technology and process architecture.
Background
Radim Spetik's academic journey in Electrical Engineering began at the Faculty of Electrical Engineering, Czech Technical University in Prague. His studies focused on Electrical Engineering Theory, which laid the groundwork for his future work in silicon technologies. He has accumulated extensive experience in the field, particularly in designing high-voltage particle detectors for radiation applications, showcasing his diverse skill set within the engineering domain.
Achievements
Radim Spetik is recognized as the principal author of the Discrete Zolotarev Transform and the Approximate Discrete Zolotarev Transform. These contributions are significant in the field of time-frequency analysis of non-stationary signals. His work in this area reflects his commitment to advancing methodologies in signal processing, further establishing his expertise in electrical engineering.