Company Filing History:
1 out of 290 
1 out of 31 Years Active: 1977-1986
Title: Hugh C. Webber: Innovator in Vibration Sensors and Electronic Ignition Systems
Introduction
Hugh C. Webber is a notable inventor based in Detroit, MI, recognized for his contributions to the fields of vibration sensors and electronic ignition systems. With a total of two patents to his name, Webber has made significant advancements in automotive technology.
Latest Patents
Webber's latest patents include a vibration sensor and the method of and apparatus for manufacture thereof. This invention provides an improved method for creating vibration sensors, particularly for automotive applications. The design features a piezoelectric element affixed to a flexing plate mounted on a support stem in an 'umbrella' fashion. The desired resonant vibrating frequency is achieved by progressively working a neck portion of the support stem, which effectively decreases the vibrating radius of the plate. This process increases the resonant frequency toward a desired level, monitored until the target frequency is attained. Additionally, he developed a magnetic circuit apparatus for an electronic ignition system of a combustion engine. This apparatus includes a magnetically permeable frame supporting a field magnet and a Hall Effect pulse generator, which produces timed pulses in relation to the engine's speed.
Career Highlights
Throughout his career, Hugh C. Webber has worked with prominent companies such as United Technologies Automotive Inc. and Essex International, Inc. His experience in these organizations has contributed to his expertise in developing innovative technologies.
Collaborations
Webber has collaborated with various professionals in his field, including David V. Tinder, enhancing his work through shared knowledge and expertise.
Conclusion
Hugh C. Webber's contributions to vibration sensors and electronic ignition systems highlight his innovative spirit and dedication to advancing automotive technology. His patents reflect a commitment to improving the efficiency and functionality of automotive components.