Location History:
- Marine on Saint Croix, MN (US) (2013)
- Stillwater, MN (US) (2007 - 2014)
- Marine on St. Croix, MN (US) (2014 - 2016)
Company Filing History:
Years Active: 2007-2016
Title: The Innovative Contributions of Karen M. Kramer
Introduction
Karen M. Kramer is a prominent inventor based in Stillwater, MN (US). She has made significant contributions to the field of medical technology, particularly in the area of implantable medical devices. With a total of 7 patents to her name, her work has had a profound impact on the way medical devices communicate and manage power.
Latest Patents
Among her latest patents are "Methods and systems for providing multiple access within a network" and "Methods and apparatuses for implantable medical device telemetry power management." The first patent focuses on enabling master and slave nodes of a network to communicate using the same carrier while avoiding transmission collisions. This innovation is particularly noteworthy as it includes implantable devices as slave nodes, allowing for efficient data exchange sequences initiated by master nodes. The second patent outlines a method for managing power in implantable medical devices, which involves detecting wireless signals to control power coupling to telemetry circuits. This advancement is crucial for enhancing the functionality and longevity of medical devices.
Career Highlights
Karen M. Kramer is currently associated with Cardiac Pacemakers, Inc., where she continues to develop innovative solutions in the medical device sector. Her work has not only advanced technology but has also improved patient care through more reliable and efficient medical devices.
Collaborations
Throughout her career, Karen has collaborated with notable colleagues such as Thomas J. Harris and Joseph E. Bange. These partnerships have contributed to the successful development and implementation of her patented technologies.
Conclusion
Karen M. Kramer exemplifies the spirit of innovation in the medical technology field. Her contributions through her patents have paved the way for advancements that enhance the functionality of implantable medical devices. Her work continues to inspire future innovations in the industry.