Our digital staggered HDR technology and single-frame HDR technology, that is, an image is successively read out with 2 to 3 exposures of different degrees, which improves the dynamic range of the image (the maximum dynamic range can reach 120dB) and ensures that the image sensor can cope with the complex and changeable light environment. At the same time, compared with the traditional HDR algorithm, it can improve motion artifacts by moving objects.

Traditional rolling shutter image sensors have a jelly effect that affects the quality of the application. Our global shutter technology can improve high quality images, distortion-free restoration of high-speed moving targets, while supporting high-speed high frame rate image transmission, which can provide intelligent solutions for machine vision, artificial intelligence and smart industrial cameras.

"Our company adopts a high-speed/low-noise-high-precision ADC reading structure with Digital/Analog CDS system to achieve high-speed and high frame rate pixel reading while improving image signal-to-noise ratio. High-speed interface technology supports MIPI DPHY (2.5Gbps / Lane) / CPHY (4.5Gsps / Trio) high-speed interface transmission to achieve large size and high frame rate image output."

Near-infrared enhancement (NIR+) dramatically improves the sensor's quantum efficiency (QE) in the near-infrared band without sacrificing color fidelity in the visible band, resulting in outstanding image quality and low-light performance for brighter, sharper images in challenging lighting conditions.