Bill R Simmons

Title: Innovator Spotlight: Bill R. Simmons

Introduction: Bill R. Simmons is a noteworthy inventor based in Chandler, AZ, who has made significant contributions to the field of implantable medical devices. With a total of two patents to his name, Simmons has played a crucial role in advancing technologies that improve patient care and device functionality.

Latest Patents: Simmons' latest patents include a groundbreaking protective feedthrough design for hermetically sealed implantable medical devices. This innovation features a metal case with an aperture and a feedthrough assembly consisting of a ferrule and a pin, both of which are essential for ensuring the device operates safely and effectively. The arrangement also allows for the connection of a protective device, such as a chip capacitor, which enhances the reliability of the electronics within these critical medical devices. Another patent involves an implantable medical device that encompasses a hermetic housing containing an electronic circuit, similar to those found in cardiac pacemakers. This design incorporates a connector module formed as part of a resilient molded shroud, enhancing the enclosure's durability and performance.

Career Highlights: Bill R. Simmons has developed a strong professional background through his work at Medtronic, Inc., a leader in medical technology. His contributions have significantly impacted the development of safe and efficient medical devices that are vital for patient health and well-being.

Collaborations: Throughout his career, Simmons has collaborated with talented coworkers such as Lynn M. Seifried and David A. Ruben. These collaborations underscore the importance of teamwork and shared expertise in driving innovation in complex fields like medical technology.

Conclusion: Bill R. Simmons is a prominent figure in the world of medical device innovation, with a focus on enhancing the safety and effectiveness of implantable technologies. His patents not only reflect his expertise but also contribute to the ongoing evolution of medical solutions that cater to patient needs. As the field continues to grow, Simmons' work will remain influential in shaping the future of medical devices.