Our laboratory is dedicated to the research of power electronics technology, with a particular focus on innovation and application in the areas of DC/DC converters, battery technologies, and solar power generation. We strive to explore and develop efficient, reliable, and scalable power electronics conversion technologies to meet the growing demands of modern energy systems.
Research Focus 1: DC/DC Converters
DC/DC converters are critical components in modern power electronics systems, widely used in electric vehicles, renewable energy systems, and various electronic devices. Our lab focuses on the design and optimization of new high-performance DC/DC converters, including LLC resonant and bidirectional converters. Our research encompasses the entire process, from basic circuit design and switching strategy optimization to control methodologies, with a particular emphasis on achieving high conversion efficiency. Additionally, we explore the application of new materials and components, such as wide bandgap semiconductors (GaN, SiC), in high-frequency converters to further enhance system performance and reliability.
Research Focus 2: Battery Technologies
With the rapid development of renewable energy and electric transportation, battery technology has become the core of energy storage and conversion. Our lab conducts in-depth research on batteries, covering areas such as battery state estimation, charging, and balancing techniques. We are actively exploring various types of battery technologies, including lithium-ion, solid-state, and metal-air batteries, to find the best application scenarios and management solutions. Advanced algorithms, including Kalman filtering, machine learning, and data-driven models, are employed to achieve precise state monitoring and management.
Research Focus 3: Solar Power Generation Technologies
As one of the most promising renewable energy sources, solar power is a key focus of our lab. We conduct extensive research on improving the efficiency and reliability of photovoltaic systems, with an emphasis on developing new solar converters and the effective integration of grid and storage systems. Our research includes micro-inverters, maximum power point tracking (MPPT) technology, solar hybrid systems, and intelligent photovoltaic systems. Additionally, the lab is focused on the control and optimization of distributed photovoltaic systems, aiming to enhance adaptability and stability under various environmental conditions to maximize energy efficiency.
Laboratory Equipment and Team
Our laboratory is equipped with advanced experimental tools, including power analyzers, oscilloscopes, signal generators, battery testing systems, and various power electronics measurement devices, capable of meeting a wide range of experimental needs. Led by experienced professors, our team is committed to innovation and optimization in the fields of power electronics and energy systems. We also maintain close collaborations with leading domestic companies to jointly advance the development of power electronics technology.
Overall, in response to the energy transition, our lab prioritizes the development of green energy technologies. In the future, we look forward to continuing to create technological breakthroughs in the field of power electronics and applying our research outcomes to practical solutions.