QMOS^TM sensors can be used for detecting vein maps because they capture the clear difference between veins, skin, and blood, producing sharper and more accurate vein patterns.

QMOS^TM sensors  also allow vein mapping across different lighting or skin conditions, making it ideal for secure biometric authentication in access control and identity verification systems.

Sensors with QMOS^TM technology can noninvasively scan fingertips and continuously measure glucose levels.

QMOS^TM  sensors offer high sensitivity, enabling the detection of X-rays without the need for a scintillator, while also operating without high power demands to produce crisp, high-contrast images.

Their smaller footprint and compact size allow for easy integration into smaller devices, which is essential for applications such as medical diagnostics, dental imaging, and industrial inspection. In addition, these sensors permit lower X-ray exposure, further strengthening their suitability for sensitive, high-performance environments.

   

QMOS^TM pulse oximetry detects blood oxygen levels by measuring the differential absorption between Hb and HbO₂ in 640nm and 1050nm. Due to high sensitivity of NIR light of 1050nm, QMOS^TM enables even more accurate detection of SpO₂.

The high dynamic range of the QMOS^TM sensor enables accurate detection of indoor subjects such as people and equipment. It clearly captures environmental elements like doors, spills, or clutter to support safer and smarter indoor operations.

Outdoors, the same precision allows reliable recognition of vehicles, pedestrians, and traffic controls such as pylons and lights. Even road hazards like black ice are clearly defined, ensuring dependable performance in all lighting and weather conditions.

With an integration time in the nano-seconds, QMOS^TM technology allows for lag less imaging that instantly adjusts to changing scenery. With the potential for faster integration time, the sensor can easily detect and resolve even thin, fast-moving objects without any motion blur, such as pylons and other critical traffic objects or road hazards.

With advanced imaging performance, the QMOS^TM sensor minimizes blowout and maintains contrast, delivering precise visibility of vehicles, lanes, and traffic features in every scene.

QMOS^TM technology enables SWIR-based depth detection on a Silicon CMOS image sensor. 3D depth sensing is crucial for several use cases including facial recognition, motion detection, and automated robots.

The high dynamic range and fast integration time of QMOS^TM enables rapid and accurate detection of license plate letters and digits.

       

As most objects radiate heat through infrared light, SWIR light detection can be used to gather temperature information about an object, even when there is no visible indication. Thermal detection is critical in machine vision and industrial or scientific inspection purposes.

 

Certain materials that are opaque under visible light can become transparent under SWIR, enabling the verification of inner contents of packages and containers for noninvasive inspection and differentiation purposes.

QMOS^TM technology utilizes SWIR's ability to penetrate through wafer as well as detecting discrepancies, which is crucial in industrial applications for inspection, quality control, sorting, and manufacturing.

Revolutionize the cameras on handheld consumer technology by utilizing the instant low-light capabilities of QMOS^TM technology. Our patented quantum technology enables SWIR vision on a standard CMOS image sensor, reducing components by allowing for dual functionality on a single chip. Furthermore, the nano-second integration time allows for near instant adjustment between light and dark conditions, as well as quick and secure recognition of user finger veins for authentication purposes.

Sensors with QMOS^TM technology enable excellent distance measurement and motion gesture tracking due to nano-second integration time and high dynamic range, with applications in virtual reality, advanced surgery, or providing touchless commands in consumer products.

   

QMOS^TM technology exhibits high sensitivity to NIR light, allowing Si-CMOS image sensors to detect pose and movement even in dark conditions.

QMOS^TM also enables 3D facial recognition which allows for more accurate in-cabin driver and occupant monitoring or XR (extended reality).

Sensors with QMOS^TM technology enable excellent distance measurement and motion gesture tracking due to nano-second integration time and high dynamic range, with applications in virtual reality, advanced surgery, or providing touchless commands in consumer products.