David Allan Aho

Title: David Allan Aho: Innovator in Gas Insulated Switchgear Systems

Introduction

David Allan Aho is a notable inventor based in Waukesha, WI (US). He has made significant contributions to the field of electrical engineering, particularly in the development of modular gas insulated switchgear systems. With a total of two patents to his name, Aho's work has had a substantial impact on the industry.

Latest Patents

Aho's latest patents include "Modular gas insulated switchgear systems and related cabling modules." This invention provides a gas insulated switchgear (GIS) system that consists of at least two separate modules. These modules are independent of one another and can be assembled into the GIS system at a destination. One or more of these modules includes cabling and a solid insulated bus bar, which connects the GIS system to an electrical power system at the destination. Another significant patent is for "Interchangeable switchgear modules and related systems." This innovation features modular switchgear systems that include at least two separate modules, with one being a stationary module and the others being removable. This design allows for easy engagement and disengagement from the stationary module and an electrical power system.

Career Highlights

David Allan Aho is currently employed at Eaton Intelligent Power Limited, where he continues to innovate in the field of electrical power systems. His work focuses on enhancing the efficiency and reliability of switchgear systems, which are crucial for managing electrical power distribution.

Collaborations

Aho has collaborated with notable colleagues, including Michael Patrick Culhane and Marten Binnendijk. These collaborations have contributed to the advancement of technology in the electrical engineering sector.

Conclusion

David Allan Aho is a distinguished inventor whose work in modular gas insulated switchgear systems has made a significant impact on the industry. His innovative patents reflect his commitment to improving electrical power systems.