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At Innoseis ST, we deliver the most sensitive and energy-efficient MEMS accelerometers in their class, designed not just for technical excellence, but to meet the growing demands of industries where every millisecond, microamp, and millimeter matters.
Our sensors are engineered for markets that demand more:
Precision at the edge, even in harsh environments.
Endurance over months or years of autonomous operation.
Scalability for integration into high-volume platforms, from seismic arrays to spacecraft constellations.
We’ve taken performance once limited to labs and turned it into a product platform that’s production-ready, integration-friendly, and globally competitive.
High-sensitivity seismic MEMS for subsurface insights
Low-noise, low-power seismic sensing in the most challenging environments. From remote field arrays to long-duration geothermal deployments. With a compact form factor and sub-10 μg bias stability, they’re built for microseismic detection, carbon storage monitoring, and dense subsurface networks where traditional solutions fall short.
Space-ready MEMS sensing for small platforms and big missions
From GNSS-denied navigation to propulsion control, Innoseis MEMS sensors deliver high-precision performance in ultra-compact, low-power form — ideal for LEO satellites, AOCS, and NewSpace systems with strict SWaP requirements.
High-performance sensing for predictive and embedded systems
Innoseis sensors bring high sensitivity and ultra-low power to industrial systems that require precision without complexity — from predictive maintenance to real-time robotics and embedded diagnostics.
MEMS precision, Einstein Telescope credibility
Innoseis sensors bring gravitational-wave-level sensitivity to scientific systems that demand data quality, low noise, and zero compromise.
From optical benches to mobile labs — we enable the next generation of discovery.
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