RF Design Engineer/ PHD Student, Synergy Microwave Corporation/ Brandenburg University of Technology, United States.
Trusha Kared is an experienced RF/Microwave Design Engineer and PhD scholar at Brandenburg University of Technology, Germany. With over five years of expertise in designing RF microwave products like hybrid couplers, power dividers, and filters, Trusha has made significant contributions in RF engineering for commercial platforms. Her hands-on knowledge in high-frequency components, coupled with research on active RF mixers, LNAs, and amplifiers, sets her apart in the field. As an active member of IEEE, Trusha’s dedication to advancing RF technologies, coupled with her clear communication and leadership skills, has allowed her to thrive in both research and commercial engineering environments. Trusha’s work aims to optimize performance, drive innovation, and push the boundaries of RF/Microwave engineering.
Profile 🧑‍🔬
Google Scholar
Education 🎓
Trusha is currently pursuing a Dr.Ing in Electrical and Electronics Engineering at Brandenburg University of Technology, Cottbus, Germany (2021–2025). She holds a Master of Science in Electrical and Electronics Engineering from Fairleigh Dickinson University, NJ (2016-2018). Trusha completed her Bachelor of Engineering in Instrumentation and Control Engineering from Gujarat Technological University, India, in 2015. Her academic background, combined with her industry experience, allows her to bridge theory and practice in the RF/Microwave sector. Trusha’s educational journey reflects her deep commitment to enhancing her technical expertise and understanding, driving forward innovation in the field of RF design and analysis.
Experience 🛠️
Trusha’s professional career includes a role as an RF/Microwave Design Engineer at Synergy Microwave Corporation since 2018. She designs high-power components and RF circuits for ultra-wideband systems, working on designs up to 18 GHz using tools like ADS and Ansys HFSS. Trusha has been instrumental in developing multi-section couplers, baluns, and impedance matching circuitry. Her early experience as an engineering intern provided hands-on exposure to RF product testing, troubleshooting, and failure analysis. Additionally, as a Graduate Research Assistant at Fairleigh Dickinson University, she developed code for Differential Pulse Code Modulation (DPCM), demonstrating her strong foundation in both theory and practical RF solutions.
Awards and Honors 🏆
Trusha Kared has earned accolades for her significant contributions to RF/Microwave engineering and research. Her research paper, “Design of a Fixed IF Down-Conversion Double-Balanced Mixer for UHF Band Applications,” has been widely cited, highlighting her valuable contributions to the field. Additionally, Trusha has excelled in high-pressure environments, maintaining a passing rate of over 95% in various design and testing projects. As a member of the IEEE, she has been recognized for her technical acumen and commitment to the advancement of engineering principles. Her research and technical proposals have been instrumental in solving complex engineering problems, making her a well-respected figure in the RF design community.
Research Focus 🔬
Trusha’s primary research focus is on the design and development of RF/Microwave components, including active mixers, power dividers, hybrid couplers, LNAs, and filters. She works on enhancing the performance of ultra-wideband RF circuits, with a particular interest in improving signal integrity and bandwidth in high-power applications. Her work also explores the characterization and modeling of active devices such as GaAs, GaN, and SiGe RFICs, focusing on optimizing efficiency and reducing signal loss. Trusha is committed to advancing RF systems for commercial and telecommunication applications, working to overcome the technical challenges of next-generation RF/Microwave design. Her research integrates cutting-edge tools and methodologies, from circuit simulators to performance analysis, to ensure her solutions meet industry demands.
Publications đź“š
- Design of a Fixed IF Down-Conversion Double-Balanced Mixer for UHF Band Applications – Sensors 25 (3), 608, 2025