Company Filing History:
Years Active: 2005-2006
Introduction
Andreas Kemna, an accomplished inventor based in Düsseldorf, Germany, has made significant contributions to the field of electrical measurement technologies. With a total of two patents to his name, his work focuses on enhancing the accuracy and efficiency of electrical conductivity measurements in various samples.
Latest Patents
Kemna's most recent patents include a groundbreaking device for the simultaneous application of electrical signals and measurement of the electrical potential in a sample. This innovative electrode features a large-area jacket tailored for applying excitation currents, along with a small-area tip that is electrically decoupled from the jacket, enabling precise potential measurements.
Another notable patent addresses the method and apparatus for rapid tomographic measurements of the electrical conductivity distribution of samples. This technology employs current or voltage excitations through electrodes, measuring associated potential differences or magnetic field strengths. The data collected can be analyzed using advanced techniques such as Fourier analysis, thus allowing for quick and accurate assessments of conductivity.
Career Highlights
Andreas Kemna is affiliated with Forschungszentrum Jülich GmbH, a renowned research center that focuses on cutting-edge scientific advancements. His work there has positioned him as a key figure in the development of innovative electrical measurement technologies that serve various practical applications.
Collaborations
Throughout his career, Kemna has collaborated with distinguished colleagues, including Egon Zimmermann and Walter Glaas. These collaborations highlight his engagement with other experts in the field, further enhancing the impact and reach of his innovations.
Conclusion
As an inventor, Andreas Kemna continues to break new ground in electrical measurement technologies, contributing to advancements that benefit research and industry alike. His latest patents showcase his commitment to improving the precision of electrical conductivity measurements, making significant strides in the field.