Company Filing History:
Years Active: 2008-2011
Title: **Innovator Thomas H. Kannally, Jr. – Pioneering Electrical Connector Technology**
Introduction
Thomas H. Kannally, Jr., based in Northborough, MA, is a notable inventor in the field of electrical and optical connector technology. With a commendable portfolio of six patents, Kannally has made significant contributions to innovations that enhance connector functionality and usability.
Latest Patents
Among his latest innovations is a patent titled "Method of Mounting a Connector Assembly." This invention introduces a connector for electrical or optical conduits, featuring a field-configurable keying system for the insulator plugs. This unique mechanism allows flexibility in how the plugs are arranged relative to each other and the connector casings. Furthermore, the design incorporates an independent keying means that operates separately from the casing's keying or locating mechanism, enhancing its versatility. Another noteworthy aspect of the connector is the retention means, exemplified by a one-way snap apron, which securely retains the insulator within the receptacle case.
Career Highlights
Thomas H. Kannally, Jr. is currently associated with Hypertronics Corporation, where he continues to drive innovation through his engineering expertise. His work focuses on advancing electrical connectivity solutions essential for various applications across industries.
Collaborations
Throughout his career, Kannally has collaborated with talented coworkers, including Francesco A. Nania and Christopher D. Coughlan, who contribute to the development and enhancement of connector technologies alongside him.
Conclusion
Thomas H. Kannally, Jr. exemplifies the spirit of innovation through his extensive work on electrical and optical connectors. His advances not only reflect his individual talent but also underline the collaborative efforts within his team at Hypertronics Corporation. With a dedication to improving connector technology, Kannally's contributions are poised to influence the future of electrical connectivity.