Company Filing History:
Years Active: 1988
Title: The Innovative Contributions of Karen M Biesel
Introduction
Karen M Biesel is a notable inventor based in Sandy, Utah, recognized for her significant contributions to the field of medical technology. She holds a patent for a dynamic calibration system designed for mobile X-ray machines. Her work has advanced the capabilities of X-ray technology, enhancing its precision and reliability.
Latest Patents
Karen M Biesel's most recent patent is titled "Dynamic Calibration for an X-ray Machine." This invention features a dynamic calibration and self-check circuit that regulates the peak anode voltage and the X-ray filament current. The system utilizes a high voltage regulator circuit that provides dynamic regulation, ensuring accurate X-ray tube current control. The invention includes a voltage sensor that continuously monitors the anode voltage, allowing for real-time adjustments. A processor selects predetermined values for pulse width duration, which are compared against actual sensed values to generate error signals. These signals dynamically adjust the peak high voltage and filament drive signals, maintaining optimal performance during X-ray exposure cycles.
Career Highlights
Karen M Biesel has made significant strides in her career, particularly through her work at Diasonics, Inc. Her innovative approach to X-ray technology has positioned her as a leader in the field. With a focus on enhancing medical imaging, her contributions have been vital in improving patient care and diagnostic accuracy.
Collaborations
Throughout her career, Karen has collaborated with esteemed colleagues, including James R Harvey and Richard Larry Anderton. These partnerships have fostered an environment of innovation and have led to advancements in medical technology.
Conclusion
Karen M Biesel's work exemplifies the impact of innovation in medical technology. Her patent for dynamic calibration in X-ray machines showcases her commitment to improving healthcare through engineering advancements. Her contributions continue to influence the field and enhance the capabilities of medical imaging.