Pioneering 3D MEMS
Pioneering 3D MEMS
Pioneering 3D MEMS
Omnitron’s proprietary topology allows MEMS design in 3D for the first time. The result is a denser, more powerful, and more sensitive MEMS chip.
Omnitron’s proprietary topology allows MEMS design in 3D for the first time. The result is a denser, more powerful, and more sensitive MEMS chip.
Omnitron’s proprietary topology allows MEMS design in 3D for the first time. The result is a denser, more powerful, and more sensitive MEMS chip.


Lower manufacturing costs

Lower manufacturing costs

Greater product yield

Greater product yield

Improved operational reliability

Improved operational reliability

Scalable process and assembly

Scalable process and assembly

Micro-Electro-Mechanical Systems (MEMS) are the sensory interfaces that allow machines to perceive and interact with their environment. These miniature devices convert physical phenomena into electrical signals, creating precise, microscopic movements and effects.
MEMS underpin countless modern technologies, yet innovation in this space has remained stagnant for decades—until now.
Micro-Electro-Mechanical Systems (MEMS) are the sensory interfaces that allow machines to perceive and interact with their environment. These miniature devices convert physical phenomena into electrical signals, creating precise, microscopic movements and effects.
MEMS underpin countless modern technologies, yet innovation in this space has remained stagnant for decades—until now.
Traditional MEMS
Aspect ratio
Omnitron
Aspect ratio
Traditional MEMS
Aspect ratio
Omnitron
Aspect ratio
Traditional MEMS
Aspect ratio
Omnitron
Aspect ratio
Where humans have five senses, machines have Omnitron.
Where humans have five senses, machines have Omnitron.
Where humans have five senses, machines have Omnitron.
10x sensing capacitance per unit area

Lower driving voltage requirements. Quicker, more precise movement.
10x sensing capacitance per unit area

Lower driving voltage requirements. Quicker, more precise movement.
10x sensing capacitance per unit area

Lower driving voltage requirements. Quicker, more precise movement.
Pre-tilted offset

Simpler system-level alignment. Lower assembly costs.
Pre-tilted offset

Simpler system-level alignment. Lower assembly costs.
Pre-tilted offset

Simpler system-level alignment. Lower assembly costs.
Robust design

Better withstands vibration and shock. Reduced temperature volatility.
Robust design

Better withstands vibration and shock. Reduced temperature volatility.
Robust design

Better withstands vibration and shock. Reduced temperature volatility.
In-plane isolation

Electrically separated driving and sensing elements. Eliminates signal drift.
In-plane isolation

Electrically separated driving and sensing elements. Eliminates signal drift.
In-plane isolation

Electrically separated driving and sensing elements. Eliminates signal drift.
True multi-axial control

Enables precision complex movement along multiple axes simultaneously.
True multi-axial control

Enables precision complex movement along multiple axes simultaneously.
True multi-axial control

Enables precision complex movement along multiple axes simultaneously.
Our IP Portfolio
MARCH 2025
High Fill Ratio Method for Fabrication of MEMS Device
JULY 2024
Optical Array with Self-Aligned Collimated Fibers and MEMS Mirrors
JANUARY 2024
Methods for Fabrication of MEMS Device
JUNE 2023
Locking Mechanism for Precision Offset
SEPTEMBER 2023
Dual-axis Scanning Mirror Gimbal Structure
MARCH 2023
Fabrication Method and system for precision MEMS device
Current Applications
Current Applications
Current Applications
Optical Circuit Sensors for AI Data Centers

Omnitron-enabled data centers parallel process more efficiently to accelerate AI workflows. They solve the bandwidth limitations, high power consumption and reliability issues that plague current infrastructures.

Optical Circuit Sensors for AI Data Centers

Omnitron-enabled data centers parallel process more efficiently to accelerate AI workflows. They solve the bandwidth limitations, high power consumption and reliability issues that plague current infrastructures.

Optical Circuit Sensors for AI Data Centers

Omnitron-enabled data centers parallel process more efficiently to accelerate AI workflows. They solve the bandwidth limitations, high power consumption and reliability issues that plague current infrastructures.

Robotic Sensors

Omnitron's high fidelity 3D scanner achieves the millimeter-level precision needed for robots to master their environments and perform the most delicate operations. Our compact 10mm MEMS mirrors enhance LiDAR in any lighting environment to deliver next level robotics, including in gaming tech and medical applications.

Robotic Sensors

Omnitron's high fidelity 3D scanner achieves the millimeter-level precision needed for robots to master their environments and perform the most delicate operations. Our compact 10mm MEMS mirrors enhance LiDAR in any lighting environment to deliver next level robotics, including in gaming tech and medical applications.

Robotic Sensors

Omnitron's high fidelity 3D scanner achieves the millimeter-level precision needed for robots to master their environments and perform the most delicate operations. Our compact 10mm MEMS mirrors enhance LiDAR in any lighting environment to deliver next level robotics, including in gaming tech and medical applications.

XR (AR/VR)

Our MEMS micro projectors overcome current XR display limitations to deliver exceptional image quality and broader field of view. With minimal size and power requirements, lightweight, all-day wearable AR is finally here.

XR (AR/VR)

Our MEMS micro projectors overcome current XR display limitations to deliver exceptional image quality and broader field of view. With minimal size and power requirements, lightweight, all-day wearable AR is finally here.

XR (AR/VR)

Our MEMS micro projectors overcome current XR display limitations to deliver exceptional image quality and broader field of view. With minimal size and power requirements, lightweight, all-day wearable AR is finally here.

Environmental Monitoring

Omnitron-powered laser spectrometry delivers unmatched sensitivity in a compact, energy-efficient package. Energy providers can remotely detect leaks faster in harsh environments while meeting stringent EPA emissions standards at lower costs.

Environmental Monitoring

Omnitron-powered laser spectrometry delivers unmatched sensitivity in a compact, energy-efficient package. Energy providers can remotely detect leaks faster in harsh environments while meeting stringent EPA emissions standards at lower costs.

Environmental Monitoring

Omnitron-powered laser spectrometry delivers unmatched sensitivity in a compact, energy-efficient package. Energy providers can remotely detect leaks faster in harsh environments while meeting stringent EPA emissions standards at lower costs.

Something so small, with the power to change the world. This is micromachine refinement.
Want to learn what other use cases Omnitron is exploring?
Something so small, with the power to change the world. This is micromachine refinement.
Want to learn what other use cases Omnitron is exploring?
