Matthew Zochert
About Matthew Zochert
Matthew Zochert is a Digital Design Engineer with a decade of experience at ON Semiconductor, where he specializes in RTL design and verification for automotive image sensors. He has previously held positions at Garmin International, Daimler Trucks North America, and Tualatin Hills Parks and Recreation District.
Current Role at ON Semiconductor
Matthew Zochert serves as a Digital Design Engineer at ON Semiconductor, a position he has held since 2014. In this role, he is actively involved in the design and validation processes of automotive image sensors. His focus includes MIPI and output datapath design and verification, where he specializes in RTL design and verification tailored for the automotive market. His contributions support the development of advanced imaging technologies used in various automotive applications.
Previous Experience in Hardware Design
Before joining ON Semiconductor, Matthew Zochert gained valuable experience as a Hardware Design Intern at Garmin International in 2013. During his six-month tenure in Salem, Oregon, he contributed to hardware design projects. Additionally, he worked as a Product Validation Engineer at Daimler Trucks North America in 2012 for five months, where he was involved in product validation processes. His early career also included a role as Head Guard at Tualatin Hills Parks and Recreation District from 2010 to 2011.
Educational Background in Electrical Engineering
Matthew Zochert earned a Bachelor of Science degree in Electrical and Electronics Engineering from Oregon State University. His studies spanned from 2008 to 2014, providing him with a solid foundation in engineering principles. This educational background has been instrumental in his career, particularly in his current role focused on digital design and validation in the automotive sector.
Expertise in Image Sensor Technology
Matthew Zochert specializes in RTL design and verification for image sensors and image signal processors (ISPs) specifically for the automotive market. His expertise in MIPI and output datapath design enhances the performance and reliability of automotive imaging systems. His work contributes to the advancement of technologies that are critical for modern automotive applications.