Company Filing History:
Years Active: 1995
Title: John T Ebner: Innovator in Optical Power Conversion
Introduction
John T Ebner is a notable inventor based in Portland, OR (US). He has made significant contributions to the field of optical power conversion, showcasing his expertise through his innovative patent. His work is particularly relevant in the context of modern energy solutions.
Latest Patents
John T Ebner holds a patent for an optical power conversion circuit. This invention converts an optical energy signal from a source, such as a laser diode, into a regulated D.C. electrical voltage using a single photodetector. The circuit employs a buck-boost mechanism that utilizes electrical current from the photodetector in response to the optical energy signal. This process involves storing energy in an inductor and transferring it to an output capacitor, with the duty cycle of the control signal determining the regulated D.C. voltage. The design includes a switch drive circuit that generates a pulse width modulated control signal, which is AC coupled to FET switches in the buck-boost circuit. This innovative approach allows for efficient energy conversion and management.
Career Highlights
John T Ebner is currently associated with Tektronix, Inc., where he continues to develop and refine his inventions. His work at Tektronix has positioned him as a key player in the field of optical technologies. With a focus on practical applications, he has contributed to advancements that enhance the efficiency of optical power systems.
Collaborations
John has collaborated with Steven H Pepper, leveraging their combined expertise to push the boundaries of optical technology. Their partnership has resulted in innovative solutions that address complex challenges in the field.
Conclusion
John T Ebner's contributions to optical power conversion highlight his role as an influential inventor. His patent reflects a commitment to innovation and efficiency in energy management. Through his work at Tektronix, he continues to make strides in advancing optical technologies.