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CMOS Device made of semiconductors that functions as an “electronic eye.”The amount of light, from bright to dark, is recorded by image sensors without colour information.
Since CMOS picture sensors are ‘partially blind’, a channel before the sensor permits the sensor to dole out variety tones to every pixel.
A colour filter, which only lets one colour from the visible spectrum into each pixel, is typically used to identify color. A Bayer filter pattern is typically used to arrange the colour filter in order to average the colours.
In digital cameras, digital video cameras, and digital CCTV cameras, images are produced by CMOS (complementary metal oxide semiconductor) sensors.
Scanners, barcode readers, and astronomical telescopes all use CMOS. The separate filtered intensities contain information about the colour of the light because the colour filters filter the light along a wavelength range.
For instance, the image of the Bayer filter provides data on the intensity of light in the red, green, and blue (RGB) wavelength regions.
The Global Color CMOS image sensor market accounted for $XX Billion in 2023 and is anticipated to reach $XX Billion by 2030, registering a CAGR of XX% from 2024 to 2030.
The first ultra-high resolution image sensor from SmartSens, a leading supplier of advanced colour CMOS image sensors, was recently introduce.
To enable excellent imaging performance, the new product uses SmartSens’ numerous proprietary technologies, such as Smart Clarity technology, SFCPixel technology, and PixGain HDR technology, as well as the advanced HKMG Stack process.
It also has a high-speed data transmission interface and can use AllPix ADAF technology to cover every pixel and direction.
In terms of night vision, full-colour imaging, high dynamic range, and low power consumption, the product is made to meet the needs of the main camera of a flagship smartphone.
Premium imaging performance is made possible by cutting-edge technologies. It has an ultra-high resolution.
The sensor, which is based on the cutting-edge HKMG Stack process, combines the one-of-a-kind SFCPixel technology of SmartSens with the High Gain in PixGain technology and the 2×2 SmartQCell macro-lens design to further increase the light acquisition rate of a single pixel, resulting in superior sensitivity performance with the same specifications.
The sensor can produce images with a quality that is comparable to that of a movie when shooting at night thanks to these technologies, as well as a new colour process and reading circuit with low noise.
