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At Innoseis ST, we build sensing technology that brings laboratory-grade precision into a compact, scalable semiconductor platform. Our approach combines two core elements: a high-performance MEMS accelerometer and a custom-designed ASIC, engineered to work together as an integrated, ultra-efficient sensing system.
Our MEMS devices are among the most sensitive and energy-efficient accelerometers in their class, designed for industries where every millisecond, microamp, and millimetre matters. The mechanical architecture captures subtle vibrations with exceptional fidelity, while maintaining stability across harsh, unpredictable environments.
Together, our MEMS + ASIC system forms a fully integrated sensing platform that delivers:
Precision, even at the edge of detection limits,
Endurance, supporting long-term autonomous operation,
Scalability, enabling seamless integration into high-volume products, whether seismic arrays, distributed infrastructure networks, or spacecraft constellations.
We have taken sensing capabilities that were once only achievable in specialised research environments and transformed them into a platform that is production-ready, integration-friendly, and competitive on a global scale.
At 9x9x3mm and only 1.5 grams, our sensors are the smallest and lightest MEMS sensors of its class.
Unrivalled sensitivity and stability with a bandwidth from 0 to 200 Hz gives your application ultra-precise data.
Industry-leading ultra low-power consumption as low as 20mW offers efficient solutions.
Competitive per-unit costs through standardised, volume production manufacturing.
Seismic surveys depend on capturing subtle ground vibrations across large, distributed arrays to create accurate images of the subsurface. Our sensors help operators achieve higher-density measurements, more stable long-term deployments, and clearer seismic data, even in challenging terrain. This leads to better subsurface interpretation, more efficient surveys, and stronger support for geothermal, CCS, and exploration projects.
Infrastructure and industrial systems rely on continuous insight into machine health and structural behavior to prevent failures and optimize performance. Our sensing solutions support real-time monitoring and early fault detection, helping operators reduce downtime, extend asset life, and transition toward predictive maintenance strategies.systems, they enable a more data-driven approach to industrial performance and safety.
Aerospace missions require sensing technologies that remain reliable under vacuum, shock, vibration, and extreme thermal conditions. Our sensors provide stable, mission-critical performance under these constraints, supporting precise navigation, structural monitoring, and scientific instrumentation in both orbital and deep-space environments.
In scientific and research settings, measurement quality is everything. Our sensors offer the stability required for long-term experiments, the fidelity needed for precise monitoring, and the flexibility to integrate into complex setups. They serve as dependable components in environments where accuracy and repeatability define the success of the work.
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