May 18, 2022
The incredible power of MEMS technology and sensor applications has been elevated onto the world stage in recent times, given how they help enable technology and applications that are literally changing lives, from health to transportation, from robotics to AI, from edge to cloud, and from 5G to beyond.
During this SEMI MSIG webinar, ASE’s Dr. Chris Huang will elaborate and put a spotlight on the role that packaging technologies play and the innovation evolving to progress miniaturization and integration, both key attributes within the MEMS and Sensors arena.
He will present unique approaches required to overcome MEMS and Sensor packaging and test challenges and achieve highest possible performance when responding and interacting with any external or environmental stimuli.
Q&A will follow.
Time
8:00 am - 9:00 am
Location
Virtual, Online,
United States
About the Speaker
Dr. Chris Huang currently serves as Deputy Project Manager for MEMS & Photonics Engineering at ASE. In his current role, he is focused on MEMS and optical sensor packaging in automotive applications, as well as smart sensor and smart system technologies for emerging applications. Since joining ASE over four years ago, he has gained significant experience in the fields of sensor and actuator design, MEMS device and wafer manufacturing, and sensor packaging, including extensive work in the field of microfabrication of piezoresistive MEMS sensors and wafer bonding process.
Prior to ASE, he worked as an R&D Technologist at Asia Pacific Microsystems Inc., a pure-play MEMS foundry, where he managed the development of standard fabrication platforms for customizable sensors, such as MEMS optical actuators/piezoresistive pressure and force sensors. Dr. Huang has published over thirty-five technical SCI journal papers and international conference papers and holds eight worldwide patents on MEMS and sensor applications. Dr. Huang received his Ph.D. from National Tsing Hua University, Taiwan, where he also completed work as a post-doctoral researcher within the Department of Power Mechanical Engineering