Highly accomplished PhD in Engineering with expertise in DCDC converter design, analog circuits, and power management ICs for IoT applications, evidenced by a patent and multiple Q1 journal publications. Proven ability to innovate and optimize power solutions, achieving up to 95% peak efficiency and ultra-low quiescent currents. Seeking to leverage advanced research and development skills in a challenging role within microelectronics or power electronics.
Post Doctor
Zhuhai, Guangdong, China
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Summary
Accepted a forthcoming postdoctoral research position focusing on advanced microelectronics and power management solutions within a leading research institute.
Highlights
Engage in cutting-edge research and development projects, contributing to the advancement of power management ICs and IoT applications.
Collaborate with senior researchers and engineers to translate theoretical concepts into practical, high-performance designs.
Utilize advanced simulation tools and experimental setups to validate novel circuit architectures and system-level integrations.
Contribute to scientific publications and patent applications, furthering the institute's intellectual property portfolio and research impact.
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Ph.D.
Engineering
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B.Sc.
Engineering
Published by
IEEE Trans. Circuits Syst. I, vol. 70, no. 12, pp. 4719-4728
Summary
Published a Q1 journal paper in IEEE Transactions, presenting a novel continuous-output-current buck-boost converter design free of RHPZ for enhanced stability.
Published by
IEEE J. Solid-State Circuits, vol. 58, no. 11, pp. 3219-3230
Summary
Authored and published a Q1 journal paper in a prestigious IEEE journal, detailing a modified KY converter achieving 95% peak efficiency for IoT applications.
Published by
2021 IEEE Asian Solid-State Circuits Conference (A-SSCC), Busan, Korea, Republic of Korea, pp. 1-3
Summary
Presented research on a 95% peak efficiency modified KY converter for IoT applications at a leading international solid-state circuits conference.
Published by
Chinese Patent for Invention, Application, No. 202111202061.2
Summary
Co-invented a novel DC-DC boost conversion device, securing intellectual property rights for an innovative power electronics solution.
DCDC Converter Design, Analog Circuit Design, Power Management IC, Buck-Boost Converters, KY Converters, Power Efficiency Optimization, Low Quiescent Current Design, Output Voltage Ripple Reduction, Mode Transition Control, RHPZ Mitigation.
MATLAB, Cadence, Embedded System-STM32, Circuit Simulation, Data Analysis, System Modeling.
IoT Applications, Academic Research, Scientific Publication, Patent Application, Experimental Design, Problem Solving, Technical Innovation, Team Collaboration.
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Summary
Designed and implemented a novel DCDC converter structure, the COCBB converter, to enable smooth mode transitions and stable output current delivery.
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Summary
Developed a modified KY converter specifically designed for low-power IoT applications, focusing on enhanced efficiency and minimal power consumption.