Company Filing History:
Years Active: 2021-2024
Title: Reut Wizenberg: Innovator in Radio-Frequency Technology
Introduction
Reut Wizenberg is a notable inventor based in Tel Aviv, Israel. He has made significant contributions to the field of radio-frequency technology, holding two patents that showcase his innovative approach to solving complex engineering challenges.
Latest Patents
Wizenberg's latest patents include advancements in loss compensation in radio-frequency filters. His Q-enhanced radio-frequency filter features loss-compensating circuits with controllable values to optimize loss compensation. This invention cleverly avoids instabilities by temporarily introducing a reflection at a port, such as through short-circuiting, and testing for the onset of oscillations. Additionally, he has developed negative-resistance circuits for loss compensation, which include cross-coupled transistor pairs and adjustable capacitance. Another significant patent is for a self-contained radio-frequency device that utilizes multiple overlapping coupled coil inductors in a planar configuration. This design allows for a compact, space-saving form-factor suitable for various applications, including filters, baluns, transformers, and amplifier stages.
Career Highlights
Wizenberg is currently employed at Vayyar Imaging Ltd., where he continues to push the boundaries of radio-frequency technology. His work is characterized by a focus on creating efficient and effective solutions that address the needs of modern electronic devices.
Collaborations
Throughout his career, Wizenberg has collaborated with talented individuals such as Naftali Chayat and Nadav Mazor. These partnerships have contributed to the development of innovative technologies and have enhanced the impact of his work in the industry.
Conclusion
Reut Wizenberg stands out as a prominent inventor in the field of radio-frequency technology. His patents reflect a commitment to innovation and a deep understanding of engineering principles. His contributions are likely to influence the future of radio-frequency applications significantly.