Company Filing History:
Years Active: 2023
Title: Martin Kroh: Innovator in Photoacoustic Sensing Technology
Introduction
Martin Kroh, an innovative inventor based in Lübeck, Germany, has made significant contributions to the field of sensing technologies. With one patent to his name, Kroh has demonstrated his expertise in developing cutting-edge solutions for gas detection.
Latest Patents
Kroh's notable patent is titled "Photoacoustic sensor with replacement gas and detection process using such a sensor." This invention describes a photoacoustic sensor capable of detecting a predefined target gas in an area. The sensor operates through a process that involves a sample chamber that holds the gas sample to be tested. Electromagnetic waves from a radiation source pass through both the sample chamber and the detection chamber, where an acoustic effect is generated. This effect is then measured by an acoustic sensor, and its correlation with the concentration of the target gas allows for precise detection. The detection chamber is fluid-tightly sealed, filled with a replacement gas that has a spectral response similar to that of the target gas within a predefined wavelength range.
Career Highlights
Martin Kroh is a part of Drägerwerk AG & Co. KGaA, a distinguished company known for its contributions to medical and safety technology. His work in developing innovative sensing solutions aligns with the company’s mission to enhance safety and health through advanced technology.
Collaborations
Throughout his career, Kroh has collaborated with notable colleagues such as Ralf Buchtal and Gerd Peter. These partnerships have likely contributed to the advancement of his work in photoacoustic sensing and interdisciplinary research innovations.
Conclusion
Martin Kroh's work exemplifies the innovative spirit within the field of gas detection technology. His patent for a photoacoustic sensor stands as a testament to his commitment to enhancing detection processes for target gases. As technology continues to evolve, Kroh's contributions will undoubtedly play a crucial role in the development of improved sensing methods.