Lano Photonics LANO 990/991 Use-Cases
Ranked Nr. 238 of 126 2D Vision Systems
Lano Photonic's LANO 990/991 cameras are best suited for various applications that require high-sensitivity imaging in the short-wavelength infrared (SWIR) range, which is not visible to the human eye. The cameras employ Sony's original SenSWIR technology, in which photodiodes are formed on an indium gallium arsenide (InGaAs) compound semiconductor layer, allowing for high sensitivity over a broad range of wavelengths.
The LANO 990/991 cameras are particularly useful for material selection, contaminant inspection, and semiconductor inspection. These applications require high-resolution and high-sensitivity imaging, which the cameras can deliver with their advanced InGaAs sensors. The cameras' ability to capture images in the invisible light spectrum of the SWIR range makes them ideal for detecting and analyzing materials that are not visible in the visible light spectrum.
Another advantage of the LANO 990/991 cameras is their compact size. The cameras feature a smaller pixel pitch, made possible by the Cu-cu connection technology, resulting in the industry's smallest square sum pixel size. This design enables the cameras to maintain high-resolution imaging while reducing camera size. The reduced camera size and high-resolution imaging make the LANO 990/991 cameras suitable for various industrial applications, including those that require high-precision testing.
Additionally, the LANO 990/991 cameras can achieve low FPN noise and low defect pixel ratios, thanks to the Cu-co interconnect technology used in their sensors. This technology makes the cameras ideal for applications that require long exposure times. For applications that require even longer exposure times, the liquid cooling version of the camera is recommended to minimize the sensor's dark current.
In summary, Lano Photonic's LANO 990/991 cameras are best suited for various applications that require high-sensitivity imaging in the SWIR range, such as material selection, contaminant inspection, and semiconductor inspection. Their compact size and high-resolution imaging make them ideal for various industrial applications, including those that require high-precision testing. Additionally, their low FPN noise and low defect pixel ratios make them ideal for applications that require long exposure times.