Master’s degree, at Chongqing University of Science and Technology, China.
Honglin Tang, is a highly accomplished scholar specializing in electrical engineering and power electronics. Currently pursuing his master’s degree in Electrical Engineering at Chongqing University of Technology, Honglin has demonstrated exceptional academic performance, ranking among the top 3% of his cohort. With a deep interest in power electronics, renewable energy systems, and control technologies, he has actively contributed to multiple prestigious research projects funded by the Chongqing Education Commission. His extensive experience includes developing innovative energy storage systems, photovoltaic inverters, and active battery balancing technologies. Honglin also possesses strong leadership skills, having served as the Chair of the Graduate Student Union, where he spearheaded numerous academic and cultural activities.
Profile
Scopus
Education 🎓
- Master’s Degree (2022-2025): Pursuing Electrical Engineering with a focus on power electronics at Chongqing University of Technology. Achieved a comprehensive ranking of top 3% (10/357).
Key Courses: Modern Power Electronics, Renewable Energy Control, and Electrical Control System Simulation.
- Bachelor’s Degree (2018-2022): Graduated in Electrical Engineering and Automation from Chengdu University of Technology Engineering Institute, ranking in the top 5%.
Undergraduate Focus: Power systems, energy management, and electronic circuit design.
His robust academic training reflects his commitment to innovation in the field of electrical and electronic engineering.
Experience 💼
- Chongqing Education Commission Major Projects: Led the design and modeling of quasi-Z source three-phase photovoltaic inverters, combining control strategies like virtual synchronous generator (VSG). Achievements include prototyping 1KW photovoltaic systems and enhancing grid stability.
- Chongqing Municipal Innovation Program: Developed sensorless MPPT algorithms for photovoltaic tracking systems, resulting in a 19.44% increase in energy generation efficiency.
- Battery Balancing Research: Proposed a finite state machine-based active balancing control strategy for lithium-ion batteries, significantly improving charging speed and system efficiency.
Honglin’s ability to bridge research and practical applications showcases his strong technical and problem-solving skills.
Research Interests 🔍
Honglin is deeply passionate about advancing renewable energy technologies, focusing on:
- Photovoltaic Systems: Design and control of quasi-Z source and isolation inverters under weak grid conditions.
- Energy Storage: Modeling of dynamic cross-scale coupling in lithium-ion batteries and active balancing strategies.
- Virtual Synchronous Generators: Enhancing grid stability through advanced compensation and damping control.
- Power Electronics: Simulation and prototyping of DC/DC and DC/AC converter topologies.
His research seeks to develop efficient, sustainable solutions for global energy challenges.
Awards 🏆
- National Graduate Student Scholarship (2024, Top 3%)
- Outstanding Graduate Cadre (2023, 2024)
- National Awards:
- “Huawei Cup” Mathematical Modeling Competition (2023, National Third Prize)
- “Zhaoyi Cup” Electronic Design Competition (2024, National Second Prize).
- Innovation and Service: Recognized as a “Science and Technology Innovation Advanced Individual” (2022, 2023) and “Social Service Advanced Individual” (2024).
Honglin’s awards highlight his academic excellence, leadership, and commitment to innovation.
Top Noted Publications 📚
- “Control of Transient Power Compensation for Virtual Impedance VSG in Quasi-Z-source Photovoltaic Grid Integration System”
(2023, Electric Power Systems Research)
Recognized with the Best Researcher Award. This paper explores the transient power compensation strategies using virtual impedance in quasi-Z-source photovoltaic grid systems.
Read here.
- “Improved VSG Control Strategy for Grid-connected and Off-grid Smooth Switching of Photovoltaic Systems”
(2023, Lecture Notes in Electrical Engineering, Springer)
Published in ACCES 2023 proceedings, this study focuses on enhancing VSG control for seamless operation in photovoltaic systems during grid-connected and off-grid transitions.
Read here.
- “Energy Storage Quasi-Z Source Photovoltaic Grid-connected Virtual Impedance VSG Control Strategy”
(2023, Journal of Power Electronics)
This article addresses virtual impedance strategies for energy storage in quasi-Z source grid-connected systems to improve stability and performance.
Read here.
- “Low-Voltage Ride-through Strategy in QZS-PV-VSG Systems”
(Chinese Journal of Scientific Instruments; under review)
The study proposes a coordination mechanism for virtual impedance and transient damping control in photovoltaic systems, targeting low-voltage ride-through challenges.
- “Energy Storage Damping Control for Photovoltaic Generation Systems”
(Electric Power Systems Research; under review)
Investigates the use of inertia damping and reactive power compensation in energy storage systems for photovoltaic power generation.
Conclusion
Tang Honglin is an exceptional candidate for the “Best Researcher Award,” with a robust record of technical expertise, research achievements, and leadership skills. His innovative contributions to renewable energy systems and active engagement in academic and extracurricular activities underscore his suitability for recognition. Strengthening global outreach, focusing on publishing in higher-tier journals, and enhancing language proficiency will further elevate his profile in the future. Overall, his candidacy aligns well with the award criteria.