Company Filing History:
Years Active: 2018
Title: The Innovative Contributions of Eric Winger
Introduction
Eric Winger is a notable inventor based in Campbell, California. He has made significant contributions to the fields of semiconductor fabrication and medical technology. With a total of 2 patents, Winger's work showcases his innovative spirit and dedication to advancing technology.
Latest Patents
Winger's latest patents include a "Linear wafer drive for handling wafers during semiconductor fabrication." This modular cluster tool features a wafer transfer station that includes a first vacuum chamber for storing multiple semiconductor wafers. The system is designed with an equipment front end module interface and two or more shuttle lock interfaces, enhancing efficiency in semiconductor processing.
Another notable patent is the "Adjustable hair transplantation chair." This convertible chair allows for patient movement during procedures while keeping the patient's head substantially stationary. It includes a head support and various body supports that can be mounted on a base or a cradle. The chair is particularly useful for robotic hair transplantation procedures, as it can be automated or assisted with pneumatics, motors, and foot pumps.
Career Highlights
Throughout his career, Eric Winger has worked with several prominent companies, including Restoration Robotics, Inc. and Brooks Automation GmbH. His experience in these organizations has contributed to his expertise in developing innovative solutions in his fields of interest.
Collaborations
Winger has collaborated with notable individuals such as Mark Duncan Brinkerhoff and Robert A. Hines. These partnerships have likely played a role in enhancing his inventive capabilities and expanding his professional network.
Conclusion
Eric Winger's contributions to technology through his patents reflect his innovative mindset and commitment to improving processes in semiconductor fabrication and medical procedures. His work continues to influence advancements in these critical areas.