Company Filing History:
Years Active: 2015
Title: Thipphaphone Lougiu: Innovator in Flexible Recharge Coil Techniques
Introduction
Thipphaphone Lougiu is a notable inventor based in Brooklyn Park, MN (US). She has made significant contributions to the field of implantable devices through her innovative patent. Her work focuses on enhancing the efficiency of rechargeable power sources for these devices.
Latest Patents
Thipphaphone Lougiu holds a patent for "Flexible recharge coil techniques." This invention is designed for use with recharging a rechargeable power source of an implantable device. One aspect of her patent involves providing a flexible primary coil that can be transcutaneously coupled to a secondary coil of the implantable device. The design includes multiple adjacent turns of the coil that are grouped via lacing to form bundles. These bundles are engineered to have at least one dimension that matches the predetermined thickness of the coil. In one embodiment, this dimension is the diameter of the bundle, while in another, it pertains to the length or width of the bundle. Additionally, insulating overmolding may be applied over the coil. The resulting antenna structure is bidirectional, ensuring that similar performance characteristics are achieved during recharge, regardless of which of the two major surfaces of the antenna is positioned near the patient.
Career Highlights
Thipphaphone Lougiu is currently employed at Medtronic, Inc., a leading company in medical technology. Her role involves developing innovative solutions that improve patient care and device functionality.
Collaborations
Thipphaphone has collaborated with notable colleagues, including John E Kast and Randy S Roles. These partnerships have contributed to her success in the field of medical device innovation.
Conclusion
Thipphaphone Lougiu's work in flexible recharge coil techniques exemplifies her commitment to advancing medical technology. Her innovative approach has the potential to significantly enhance the functionality of implantable devices, ultimately benefiting patients worldwide.