Company Filing History:
Years Active: 2019
Title: Shajan Gunamony: Innovator in MRI Technology
Introduction
Shajan Gunamony is a notable inventor based in Tuebingen, Germany. He has made significant contributions to the field of magnetic resonance imaging (MRI). His innovative work focuses on enhancing the functionality and efficiency of MRI apparatuses.
Latest Patents
Shajan Gunamony holds a patent for a transmit/receive switch, a transmit coil array, and a receive coil array for MRI. This invention relates to an MRI apparatus designed for magnetic resonance imaging of a subject. It comprises a coil arrangement for transmitting an excitation signal into the subject and for receiving a response signal from the subject. The apparatus includes a high-power radio-frequency amplifier for generating the excitation signal and a low-noise amplifier (LNA) for amplifying the response signal. The invention features a transmit/receive switch that can operate in either transmit mode or receive mode. In transmit mode, the switch transmits the excitation signal to the coil arrangement while protecting the LNA from the outgoing excitation signal. In receive mode, the switch routes the incoming response signal to the LNA. This innovation enhances the overall performance of MRI systems.
Career Highlights
Shajan Gunamony is associated with the Max Planck Society for the Advancement of Science. His work at this prestigious institution has allowed him to focus on cutting-edge research in MRI technology. His contributions have been instrumental in advancing the capabilities of medical imaging.
Collaborations
Shajan has collaborated with esteemed colleagues such as Jens Hoffmann and Klaus Scheffler. These collaborations have fostered a productive environment for innovation and research in the field of MRI.
Conclusion
Shajan Gunamony's work in MRI technology exemplifies the impact of innovative thinking in medical imaging. His patent for a transmit/receive switch significantly enhances the functionality of MRI systems. His contributions continue to influence the field and improve diagnostic capabilities.