Innovation in MEMS Starts with Its Topology

The first iPhone rolled out in mid-2007. It had a single MEMS device—a 3-axis accelerometer—and one each of a simple proximity sensor and ambient light sensor. The iPhone 14, on the other hand, has multiple MEMS microphones, a LiDAR sensor for face recognition, a high dynamic-range gyro and high-g accelerometer, a barometric pressure sensor, a haptic touch sensor, a proximity sensor and dual ambient light sensors. While approximately $1B of the $6+B overall MEMS market came from consumer and mobile in 2007, analysts predict that by 2026, $11.27B of the overall $18.2B will come from consumer and mobile.

That’s just consumer and mobile, of course. The first major commercial MEMS design was an Analog Devices accelerometer used in automotive crash-detection air bags in the mid-1990s. And now, MEMS technology is ubiquitous in automotive advanced driver assistance systems (ADAS) and will soon become the core enabling component in LiDAR sensors.

Still, given the many attributes of MEMS, why hasn’t its growth trajectory mirrored that of the semiconductor industry? MEMS, after all, offers unprecedented sensory intelligence in a small package, making it highly attractive for almost every application.

We’ve asked ourselves why MEMS hasn’t come farther, faster so many times over the years, and we’ve always come to the same conclusion: The slow growth of MEMS has nothing to do with its capabilities and everything to do with its manufacturing challenges. Solving those challenges was a catalyst for launching Omnitron Sensors.

At Omnitron we’ve developed a new topology for MEMS. We started by developing test structures and process steps with our foundry partners. We forged ahead to make significant improvements in capacitance to produce robust, rugged devices. The good news is that we’ve verified our process through fabrication, and are on the path to build hundreds of millions of low-cost, reliable, repeatable MEMS devices at commercial MEMS foundries.

Interested in learning more? On May 23, 2023, our co-founder & CEO, Eric Aguilar, will present Omnitron’s new topology for MEMS at MEMS & Sensors Technical Congress 2023, SEMI’s annual technical event on designing, building, and using sensors. MSTC is a phenomenal event for technical execs and engineers who want to learn about the latest innovations in MEMS technology. Register now.

If you can’t attend MSTC but would like more information on Omnitron, email us today.

Connect with CEO Eric Aguilar at MSTC 2023

And other MEMS & sensors industry technical execs