Crina Vlad

Title: Crina Vlad – Innovator in Internal Combustion Engine Technology

Introduction

Crina Vlad is a notable inventor based in Stuttgart, Germany, known for her contributions to the field of internal combustion engine technology. With three patents to her name, she has made significant advancements that enhance engine performance and reliability.

Latest Patents

Among her latest patents, one is titled "Method for Operating an Internal Combustion Engine." This innovative method involves modifying the operating point of the engine to maintain the air-fuel ratio above a defined value when fuel outgasses from engine oil in the crankcase. This pivotal change helps improve engine efficiency and reduce potential emissions.

Another significant patent is for a "Signal Processing Device and Control Unit for Cooperating with a Signal Processing Device." This invention focuses on processing knocking signals from internal combustion engines, utilizing knocking sensors to perform comprehensive error checks. The system checks filter coefficients for consistency and ensures that messages exchanged between the control unit and the processing device are free of transmission errors. If any discrepancies are detected, the device initiates alternative measures to address the issues.

Career Highlights

Crina Vlad is employed at Robert Bosch GmbH, a leader in automotive technology and engineering. Throughout her career, she has demonstrated exceptional expertise in her field, contributing to innovative solutions that address complex challenges in engine management systems.

Collaborations

In her endeavors, Crina collaborates with notable colleagues, including Oskar Torno and Carsten Kluth. Together, they work towards pushing the boundaries of technology and improving automotive systems, showcasing the power of teamwork and collaboration in driving innovation.

Conclusion

Crina Vlad’s work exemplifies commitment to innovation in the automotive industry. Her patents not only advance the functionality of internal combustion engines but also promote environmental sustainability through improved efficiency. As she continues to develop groundbreaking technologies, her influence on the future of automotive engineering remains significant.