Company Filing History:
Years Active: 2016
Title: An Insight into the Innovations of Priscilla R. Trujillo
Introduction
Priscilla R. Trujillo, an accomplished inventor based in Troy, Michigan, has made significant contributions to the field of electrical engineering. With a focus on improving automotive technology, she holds a patent that showcases her innovative approach to electrical connections in vehicles.
Latest Patents
Priscilla's notable patent involves a Dual Thickness Double-Ended Male Blade Terminal. This design features a printed circuit board (PCB) assembly equipped with a double-ended male blade electrical terminal. The innovative terminal boasts a first blade of a uniform thickness and a second blade that includes an embossed mesial region, which provides a thicker effective measurement. This advancement is particularly valuable in motor vehicles, as it enhances the interconnection between female sockets in vehicle wiring harnesses and electronic devices, such as fuses or relays mounted on the PCB. She has also presented a method for manufacturing this double-ended terminal, underscoring her technical expertise.
Career Highlights
Priscilla R. Trujillo is currently employed at Delphi Technologies, Inc., where she has been able to utilize her skills and knowledge to drive innovation in automotive electrical systems. Her work has led to a patented solution that improves vehicle connectivity, an essential aspect of modern automotive design.
Collaborations
During her career, Priscilla has collaborated with talented colleagues such as Adrian Flores and Jesus R. Morales. Together, they have contributed to the development of new technologies and advances in the automotive industry, fostering an environment of teamwork and innovation.
Conclusion
Priscilla R. Trujillo's contributions to the field of electrical engineering and automotive technology are a testament to her innovative spirit and dedication. With her patented dual thickness double-ended male blade terminal, she continues to push the boundaries of what is possible in vehicle design, ensuring a more efficient and effective future for automotive electrical systems.