For too long, semiconductor innovation has been trapped by the limits of packaging techniques.
What if you could leapfrog from the wide-ranging limitations of static silicon packaging to achieve unprecedented flexibility and compact size in your semiconductor and MEMS devices?
What if you could create more flexible designs that can be precisely adjusted to function optimally in variable conditions?
Omnitron Sensors has developed and fabricated a new way to create dynamically controlled 3D structures, such as ratcheting systems and offsets, paving the way for major performance advancements in the next generation of microelectronics.
In practical terms, what might this mean for your application?
Telecom—Design arrays of mirrors that can be precisely adjusted for improved signal direction and strength.
Optical Systems—Realize the benefits of offsets that simplify the alignment process in optical systems, reducing complexity and enhancing performance.
Biomedical Devices—Tailor micropumps and microvalves for specific medical applications to gain precise control in drug delivery systems and diagnostic tools.
Augmented Reality—Create enhanced projectors that offer better control over light projection, improving the user experience in AR applications.
Origami for Microelectronics
Using principles similar to origami, where paper is transformed into beautiful 3D artwork, Omnitron has transformed simple silicon frames into complex, adaptable 3D structures. Our approach enhances device performance and operational flexibility, breaking through old packaging paradigms in semiconductor and MEMS manufacturing.
Join Us
We invite industry partners and innovators to join us in exploring the full potential of these dynamic 3D structures. Together, we can leverage these advanced technologies to help you achieve everything you’ve envisioned for your application.
An annual technical conference hosted by SEMI-MEMS & Sensors Industry Group, MSTC (May 1-2, 2024, Los Angeles, Calif.) offers a fantastic opportunity to delve into the latest advancements and trends shaping the MEMS and sensors industry.
We’re eager to connect with other industry professionals, share insights, and explore potential collaborations. If you’re attending MSTC and would like to learn more about Omnitron Sensors or discuss partnership opportunities, we’d love to meet up!
Schedule an onsite meeting with our team: MSTC meeting.
The Internet of Things (IoT) is revolutionizing our interactions with our surroundings – and the high-level functioning of businesses around the world. At the root of this technological transformation are tiny microelectromechanical systems (MEMS) that sense environmental stimuli and integrate them with AI learnings, driving exponential innovation that enables companies to continuously optimize operations.
In a TED-style talk at the 2023 Dubai Business Forum, Omnitron Sensors Co-founder & CEO Eric Aguilar explained the critical role of sensor systems in robotics and autonomous platforms — which are systems that analyze data from connected devices to assist global industries in making informed decisions.
In describing his unique set of skills and experiences, which combine expertise in sensor development with the design of autonomous systems, Eric gave Dubai Forum attendees an overview of his professional journey to date: Having started his career building sensors for drones at US Navy Research Labs, Eric moved to a startup that licensed Navy IP to build a revolutionary motion sensor. This led to an acquisition by Google, where Eric transitioned to developing autonomous systems. As the avionics lead at X, Eric actualized development for Google project Wing, an autonomous drone delivery service. Then it was off to Telsa where he led firmware and sensor integration efforts for the Model 3.
Having witnessed firsthand the potential of LiDAR in the vision systems used in cars and other autonomous robotics, Eric also experienced the frustration of being handed a technology that was saddled with limitations. Undaunted, he and his founding team launched Omnitron Sensors in 2019 to fix LiDAR — which also required a kickstarting innovation in the MEMS industry.
As one of 32 speakers across 24 sessions addressing and interacting with 2,000+ delegates from 49 countries, Eric was delighted to present at the Dubai Business Forum, a curated audience featuring expert panels, visionary speakers and deal opportunities designed to shape the future of international business. For more information, visit https://dubaibusinessforum.com/
LOS ANGELES — December 14, 2023 — The market for light detection and ranging (LiDAR) subsystems is surging toward $6.3B by 2027[1], in part driven by the automotive industry’s thirst for a precise optical technology that provides real-time 3D vision in all weather and lighting conditions. Omnitron Sensors, a semiconductor startup co-founded by a team with roots at Tesla and Google, today announced a series of milestone achievements in targeting this massive market with the first microelectromechanical systems (MEMS) step-scanning mirror that meets the rigors of LiDAR in automotive advanced driver assistance systems (ADAS), robotic cars and aerial drones.
Fueled by its lead investor L’ATTITUDE Ventures, an investor in early-stage US Latina(o)-owned startups with high-growth potential, Omnitron has raised a total of $11M in venture capital since its founding in 2019.
Oscar Munoz, former CEO and chairman of United Airlines and a general partner at L’ATTITUDE Ventures, cited the unique attributes of Omnitron Sensors Co-founder & CEO Eric Aguilar in expanding his firm’s investment in the company.
“Eric’s technical experience in developing sensors, combined with his leadership experience in building autonomous systems for companies such as Tesla — where he led a team of 300 engineers building the firmware for Model 3 — and X, where he helped to develop the autonomous-delivery drone service, Google project Wing, make Omnitron a company to watch,” said Munoz.
In late Q3 2023, Omnitron revealed Silex Microsystems — the world’s largest pure-play MEMS foundry — as its foundry partner, signifying market-readiness to deliver the first MEMS scanner that meets the accuracy, reliability, size, cost and volume requirements of LiDAR in diverse applications. See press release: Omnitron Sensors Selects Silex Microsystems for Reliable MEMS Scanner for LiDAR (September 12, 2023).
Omnitron has also forged partnerships with key players in the LiDAR ecosystem — established suppliers that are eager to use Omnitron’s MEMS mirror in their systems.
“As the first MEMS mirror that aligns to a LiDAR system’s sub-micron-level tolerances without constant recalibration — and which is priced for cars instead of billion-dollar satellites — Omnitron’s sensor has attracted the attention of tier 1 automotive suppliers,” said Aguilar. “With the capital in hand to manufacture our MEMS mirror and with Silex as our proven high-volume foundry partner, we’ve cleared the way to satisfy future demand from LiDAR suppliers.”
As a tech entrepreneur increasingly recognized on the global stage, Aguilar presented at two prestigious innovation conferences during the past year. He engaged with an international community of business leaders at the Bogotá Chamber of Commerce (BCC) and the ICC World Chambers Federation (WCF) conference in Bogotá, Colombia on March 1, 2023. On November 2, 2023, he addressed an audience of innovators from global corporations and fast-growth businesses at Dubai Business Forum 2023 in Dubai, UAE.
About Omnitron Sensors
Founded in 2019 by a core group of MEMS industry innovators, Omnitron Sensors has invented a new topology for MEMS — IP that improves device performance and reliability, and that streamlines assembly to produce MEMS sensors for price-sensitive, high-volume markets, such as ADAS, drones, robotics, smartphones, and other intelligent connected electronics that are part of our daily lives. For more information, email info@omnitronsensors.com or visit https://omnitronsensors.com/contact-us/.
The Omnitron Sensors logo is a registered trademark of Omnitron Sensors. All other product and company names are trademarks or registered trademarks of their respective holders.
