Company Filing History:
Years Active: 2013-2015
Title: **Innovations of Kristoffer Koch: Pioneering Low Power Capacitive Touch Detection**
Introduction
Kristoffer Koch is an inventive mind based in Trondheim, Norway, known for his significant contributions to the field of capacitive touch technology. With a total of three patents to his name, Koch's work showcases his ability to blend creativity with technical expertise, resulting in practical solutions for modern applications.
Latest Patents
Among his latest advancements, Koch has developed a low power capacitive touch detector. This innovative device includes a mechanism to measure and detect touch on capacitive sensors effectively. By implementing sophisticated signal processing techniques, the detector suppresses noise and enhances sensitivity. Notably, the design does not depend on dedicated analog circuitry, allowing for seamless integration into microcontroller systems. Furthermore, the detector's scalable architecture enables the addition of a larger number of capacitive sensors without a significant increase in silicon costs, marking a significant advancement in cost-effective design.
Career Highlights
Koch currently works at Atmel Corporation, where he continues to push the boundaries of technology. His work at Atmel involves leveraging his extensive knowledge of capacitive sensing to address contemporary challenges in electronics. The innovative solutions he has developed not only benefit his company but also contribute to the broader tech industry.
Collaborations
Throughout his career, Koch has collaborated with talented individuals like Frode Milch Pedersen and Ronan Barzic. These partnerships in innovation have fostered an environment of creativity and advanced problem-solving, leading to noteworthy advancements in the field of touch sensing technologies.
Conclusion
Kristoffer Koch exemplifies the spirit of innovation in the realm of capacitive touch technology. With his impressive portfolio of patents and collaborations, he continues to make strides in enhancing the functionality and efficiency of electronic devices. As technology evolves, Koch's contributions are likely to play a pivotal role in shaping the future of user interfaces and interaction methods.