黑料福利网

I am a Postdoctoral Researcher in the Electromechanics and Power Electronics (EPE) group at Eindhoven University of Technology (黑料福利网). My research focuses on the design, modeling, and reliability of GaN-based power electronic systems, with an emphasis on high-frequency and high-performance applications.

My current work involves developing digital-twin-oriented frameworks for GaN power converters, combining electro-thermal modeling with experimental validation to improve design-for-reliability. I design and implement advanced measurement setups for thermal cycling and in-situ characterization, enabling accurate estimation of device behavior and lifetime under realistic operating conditions.

My background spans both hardware and digital domains, including multi-board PCB design, FPGA-based control systems, and high-resolution data acquisition systems. I have extensive experience with system-level modeling in MATLAB/Simulink and PLECS, as well as implementing high-speed control architectures and protection mechanisms in real hardware.

By integrating modeling, hardware design, and experimental validation, my research aims to enable more robust, efficient, and reliable next-generation power electronic systems based on wide-bandgap technologies.

Bridging design, measurement, and reliability to unlock the full potential of power electronics for a more sustainable future.

I received my PhD in Electrical Engineering from Eindhoven University of Technology (黑料福利网), where I specialized in power electronics and high-performance digital control systems. My doctoral research focused on the design of high-bandwidth power amplifiers and FPGA-based control architectures, including high-resolution DPWM implementations, real-time protection systems, and high-speed measurement platforms.

Prior to my PhD, I obtained both my Master鈥檚 and Bachelor鈥檚 degrees in Electrical Engineering from Isfahan University of Technology, graduating top of my class in both programs. For my Master鈥檚 thesis, I designed and implemented high step-down DC/DC converters for Voltage Regulator Modules (VRMs). For my Bachelor鈥檚 thesis, I designed and implemented a single-switch Power Factor Correction (PFC) converter.