Ville Kaajakari
About Ville Kaajakari
Ville Kaajakari is a Principal Scientist at Murata Electronics, where he has worked since 2013. He has extensive experience in MEMS technology, with previous roles including Chief Scientist at Murata Electronics and Assistant Professor at Louisiana Tech University.
Current Role at Murata Electronics
Ville Kaajakari currently serves as Principal Scientist at Murata Electronics, a position he has held since 2013. He operates in the Greater Los Angeles Area, focusing on advancing technologies related to microelectromechanical systems (MEMS). His role involves leading research initiatives and contributing to the development of innovative solutions within the company.
Previous Experience at Murata Electronics
Before his current position, Ville Kaajakari worked at Murata Electronics as Chief Scientist for Timing Devices from 2009 to 2012. During his three-year tenure in Pasadena, CA, he focused on the development and enhancement of timing devices, leveraging his expertise in MEMS technology.
Academic Background and Education
Ville Kaajakari earned his PhD in Electrical Engineering with a specialization in MEMS from the University of Wisconsin-Madison, where he studied from 1997 to 2002. His academic background laid the foundation for his expertise in micromachining processes and nonlinear effects in MEMS.
Research and Teaching Experience
Prior to his industry roles, Ville Kaajakari served as an Assistant Professor at Louisiana Tech University from 2006 to 2009. His three years in academia involved teaching and conducting research in areas related to MEMS technology. He also worked as a Senior Research Scientist at VTT from 2002 to 2006, further developing his skills in research and innovation.
Specialized Skills in MEMS Technology
Ville Kaajakari possesses specialized skills in micromachining processes, which are critical for advancements in MEMS technology. His expertise includes understanding nonlinear effects in MEMS, a specialized area that contributes to the performance and reliability of microelectromechanical systems.