Location History:
- Munich, DE (1994)
- Unterhaching, DE (2002 - 2008)
Company Filing History:
Years Active: 1994-2008
Title: Innovations by Werner Nitsche in X-ray Reading Technology
Introduction
Werner Nitsche is a notable inventor based in Unterhaching, Germany, known for his contributions to the field of X-ray technology. He holds five patents, showcasing his commitment to innovation and excellence in engineering.
Latest Patents
One of Nitsche's significant inventions is a device for reading out X-ray information stored in a phosphor layer. This device utilizes an irradiation apparatus to stimulate the phosphor layer with light, allowing it to emit emission light that is then collected by a detector. The innovation enhances reliability and resolution by incorporating multiple analogue to digital converters, enabling the conversion of the analogue signal into different digital values. Another recent patent involves equipment for reading out X-ray information stored in a stimulatable phosphor layer, which includes a control unit that regulates the intensity of light sources to ensure consistency and homogeneity in readings.
Career Highlights
In his professional journey, Werner Nitsche has made significant strides in the industry, particularly during his tenure at Agfa-Gevaert Healthcare GmbH and Agfa-Gevaert AG. His work has directly impacted the advancement of medical imaging technologies, particularly in optimizing how X-ray information is processed and read.
Collaborations
Throughout his career, Nitsche has collaborated with notable professionals in the field, including Wolfram Betzold and Friedrich Stumpf. These partnerships have fostered a collaborative environment for innovation, leading to the development of cutting-edge technologies in radiology.
Conclusion
Werner Nitsche's contributions to X-ray reading technology exemplify the spirit of invention. With multiple patents to his name and a career dedicated to enhancing medical imaging, he continues to influence the world of healthcare technology. His work not only improves diagnostic capabilities but also sets a foundation for future innovations in the field.