Mr. Jindong Zhang | Radio Frequency | Best Researcher Award

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Mr. Jindong Zhang | Radio Frequency | Best Researcher Award 

Mr. Jindong Zhang, Beijing University of Posts and Telecommunications, China

Zhang Jindong is a master’s candidate at Beijing University of Posts and Telecommunications, specializing in radio frequency power amplifiers. His research focuses on developing innovative designs for dual-band power amplifiers with enhanced efficiency and bandwidth for mobile communications. He has published an SCI-indexed journal paper in Microelectronics Journal and contributed to a project funded by the National Natural Science Foundation of China. Zhang has also filed a patent on an advanced output matching network for dual-band power amplifiers. His work has demonstrated significant improvements in drain efficiency and linearity, making valuable contributions to the field of RF circuit design for 5G applications.

Professional Profile:

ORCID

Suitability Summary for Best Researcher Award – Zhang Jindong

Zhang Jindong is an emerging researcher in radio frequency power amplifiers, currently pursuing his master’s degree at Beijing University of Posts and Telecommunications. His contributions to dual-band power amplifier design, participation in a National Natural Science Foundation of China (NSFC) project, and SCI journal publication highlight his research potential.

🎓 Education:

  • Master’s Candidate in Electrical Engineering (Specialization in Radio Frequency Power Amplifiers)
    Beijing University of Posts and Telecommunications (BUPT), China

💼 Work & Research Experience:

  • Postgraduate Researcher at BUPT, focusing on power radio frequency amplifiers

  • Contributed to National Natural Science Foundation of China (NSFC) projects

  • Publication 📄: SCI-indexed paper in Microelectronics Journal

  • Patent Pending 🔬: “An Output Matching Network for Dual-Band Power Amplifiers” (Application No.: 202411228542.4)

🏆 Achievements & Recognitions:

  • Developed a novel dual-band matching network integrating harmonic control

  • Designed a high-efficiency power amplifier achieving 60.1%–71.8% drain efficiency and 41.5/41.4 dBm output power

  • Demonstrated exceptional bandwidth, linearity, and efficiency with 5G NR signals

  • SCI Journal Publication 📖: Microelectronics Journal (2025, Vol. 156, Article 106552)

🎖 Awards & Honors:

  • Contributor to NSFC-funded research projects 🏅

  • Recognized for innovations in radio frequency circuit design 🔧

  • Patent Filing for advancements in dual-band power amplifier technology 📜

Publication Top Notes:

A novel dual-band power amplifier with integrated harmonic control based on dual transmission lines