Company Filing History:
Years Active: 2016
Title: Innovations by William D. Wildes in Power Regulation for Implantable Devices
Introduction
William D. Wildes is an accomplished inventor based in Minneapolis, MN (US). He has made significant contributions to the field of implantable devices, particularly in power regulation technologies. His innovative work has led to the development of a patent that enhances the functionality and efficiency of these devices.
Latest Patents
William D. Wildes holds a patent for an "Apparatus and methods facilitating power regulation for an implantable device." This invention presents methods configured to perform power regulation for an implantable device. The patent describes an implantable device that includes a substrate forming part of its body and a circuit disposed on or within the substrate. The circuit features a high load power regulator that provides a first current level to the device's components and a low load power regulator that supplies a second current level, which is lower than the first. Additionally, the circuit includes a regulator switch that enables or disables current draw based on the power state and requirements of the device's components.
Career Highlights
William D. Wildes is currently associated with Medtronic, Inc., a leading company in medical technology. His work at Medtronic has allowed him to focus on innovative solutions that improve patient care through advanced medical devices. His expertise in power regulation has positioned him as a key contributor to the development of next-generation implantable technologies.
Collaborations
Some of his notable coworkers include Charles R. Gordon and Shohan T. Hossain. Their collaborative efforts contribute to the innovative environment at Medtronic, fostering advancements in medical technology.
Conclusion
William D. Wildes exemplifies the spirit of innovation in the medical device industry. His patent for power regulation in implantable devices showcases his commitment to enhancing healthcare technology. His contributions continue to impact the field positively.