Company Filing History:
Years Active: 2023
Title: Martin Schaefer: Innovating Engine Performance in Böblingen
Introduction
Martin Schaefer is a notable inventor based in Böblingen, Germany, who has made significant contributions to the field of internal combustion engines. With a keen focus on efficiency and performance, Schaefer has developed innovative solutions to enhance engine operation.
Latest Patents
Schaefer holds a patent for a "Method for adapting a fuel quantity to be injected in an internal combustion engine." This inventive method aims to optimize the performance of internal combustion engines through precise lambda regulation. By establishing a fuel quantity that aligns with a predefined setpoint lambda value at specific times, Schaefer's invention allows for advanced approaches to fuel tank ventilation and filter cleaning operations. The adaptation of lambda regulation involves real-time adjustments based on the operating variables of the engine, ensuring optimized performance during varying conditions.
Career Highlights
Martin Schaefer works at Robert Bosch GmbH, a prominent company known for its innovations in automotive technology. His role at Bosch emphasizes the importance of research and development in creating efficient engine systems. Schaefer's work not only showcases his expertise but also highlights the company's commitment to advancing automotive solutions.
Collaborations
During his tenure at Robert Bosch GmbH, Schaefer has collaborated with talented colleagues such as Alexander Perless and Cam Lai Ngo. These collaborations foster a dynamic environment for innovation, where experienced professionals work together to push the boundaries of engineering in the automotive sector.
Conclusion
Martin Schaefer is a remarkable inventor whose work is paving the way for advancements in internal combustion engine technology. Through his innovative patent and collaborative efforts at Robert Bosch GmbH, Schaefer's contributions illustrate the critical role of inventors in enhancing automotive performance and efficiency.