Company Filing History:
Years Active: 1995-1997
Title: Michael S DeBruzzi: Innovator in High Power Density Electro-Mechanical Transducers
Introduction
Michael S DeBruzzi is a notable inventor based in Golden, Colorado. He has made significant contributions to the field of electro-mechanical transducers, particularly in the design and construction of stator cores for electric motors and generators. With a total of two patents to his name, DeBruzzi's work showcases his innovative approach to enhancing power density in electrical systems.
Latest Patents
DeBruzzi's latest patents include a method of constructing a stator and a stator core for rotary high power density electro-mechanical transducers. The stator core is designed with multiple segments that feature a plurality of radially oriented teeth. This innovative design allows for the creation of a cylindrical stator or armature that can be used in electric motors or generators. The segments can be wound with wire in various configurations, either when aligned linearly, arranged circumferentially on a jig, or around a cylinder. The resulting wound stator can accommodate both outside and inside rotors, enhancing its versatility and efficiency.
Career Highlights
Michael S DeBruzzi is currently employed at Unique Mobility, Inc., where he continues to develop cutting-edge technologies in the field of electro-mechanical systems. His work has been instrumental in advancing the capabilities of high power density applications, making significant strides in the efficiency and performance of electric motors and generators.
Collaborations
Throughout his career, DeBruzzi has collaborated with talented individuals such as Hao Huang and Thomas A Riso. These partnerships have contributed to the innovative solutions and advancements in technology that DeBruzzi is known for.
Conclusion
Michael S DeBruzzi stands out as an influential inventor in the realm of electro-mechanical transducers. His patents reflect a commitment to innovation and efficiency in electric motor design. His contributions continue to shape the future of high power density applications in the industry.