Our new patented MOx sensor technology from NANOZ MOxAi V4.2 with AI.
The Technology
NANOZ MOxAi V4.2 gas sensors with integrated artificial intelligence offer revolutionary technology with unlimited possibilities through these five components.
Die neuesten Nanoz-Gassensoren können in Uhren, Smartphones und andere Produkte integriert werden. Trotz ihrer kompakten Bauweise bieten unsere Sensoren eine viermal größere Detektionsreichweite als vergleichbare Modelle auf dem Markt.
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Sensor NANOZ MOxAi V4.2
Features:
◼︎ 4 Sensors + 2 Heating Elements
◼︎ Humidity + Temperature Measurement
◼︎ Dimensions: 2.8 mm x 2.8 mm x 1.6 mm
◼︎ Sensitivity: Example: Ozone detection from 1 to 1000 ppb
◼︎ High reliability
◼︎ 8-Pin QFN
◼︎ Selectivity: Single gas measurement and concentration in multi-gas environments
◼︎ Low power consumption
◼︎ Layers: SnO2, WO3, ZnO, CuO, NiO, CuO, TiO2
◼︎ Temperature -10°C bis 85°C
◼︎ Humidity 15% bis 90%
◼︎ Patented MOx-NANOZ Design
Data Collection
Optimized for specific customer use cases and individual applications, either in-house or by you.
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Training
Data preparation and adjustments for deep learning, taking several weeks depending on the amount of data or accuracy requirements.
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Learning
The training database is uploaded into our AI system for processing and will be trained for several days or months according to our specially developed system.
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Validation
After completing deep learning, the AI is tested by us for accuracy and performance speed. Once testing is completed, delivery to our customers follows.
5
This is how we build your Ai.
Sensor Layout
Unique in the field of gas detection. The NANOZ MOx sensor technology enables a new generation of gas detection devices for use in high volumes.
The NANOZ MOx sensor is distinguished by its exceptional ability to detect gases with precision. It is highly selective and can identify individual gases in complex multi-gas environments, measuring their exact concentrations. With its innovative E-Nose technology, the sensor uses a compact array to detect mixtures or unique gas signatures. Its sensitivity is remarkable, detecting concentrations as low as 1 to 1000 parts per billion (ppb) for specific gases like ozone. The sensor's design is both compact and efficient, measuring only 1.15 mm x 1.15 mm, making it one of the smallest sensors available. It operates with minimal power consumption, ensuring energy efficiency for long-term use. Additionally, it provides a practical solution for industries that require scalable gas detection technologies.
Nanoz.ai is a division of TSR Messtechnik AG, Schaffhausen.