ON Semiconductor AR0141CS2M00SUEA0-DR-E CMOS Image Sensor

The ON Semiconductor AR0141CS2M00SUEA0-DR-E is a high-performance CMOS image sensor designed for a wide range of imaging applications that demand high quality and reliability. This sensor is a part of ON Semiconductor's AR0141CS series, which is well-known for its exceptional image quality, low-light performance, and versatility.

Featuring a 1/4-inch optical format, the AR0141CS2M00SUEA0-DR-E sensor is equipped with a 1.0 Megapixel resolution, translating to a pixel array of 1280 x 800. This sensor utilizes ON Semiconductor's advanced DigitalClarity technology, which significantly improves image quality through reduced noise levels and enhanced sensitivity, making it an ideal choice for automotive, surveillance, and industrial applications.

The sensor's pixel size of 3.75 µm x 3.75 µm ensures excellent sensitivity, capturing high-quality images even in challenging lighting conditions. Moreover, its capability to operate in both rolling shutter and global reset release modes adds to its flexibility, allowing users to choose the best mode for their specific application requirements.

ON Semiconductor's AR0141CS2M00SUEA0-DR-E is designed with advanced features such as automatic exposure control, automatic gain control, automatic white balance, and a flexible region of interest (ROI) readout. These features make the sensor highly adaptable to varying lighting conditions and enable it to deliver optimal performance without the need for extensive post-processing.

The sensor supports a wide range of data interfaces, including MIPI CSI-2 and parallel, which ensures easy integration into existing systems and compatibility with a variety of processors and FPGAs. This versatility is further enhanced by the sensor's capability to operate over a wide temperature range, making it suitable for outdoor and in-vehicle environments.

In summary, the ON Semiconductor AR0141CS2M00SUEA0-DR-E CMOS image sensor provides designers and engineers with a robust imaging solution that combines high resolution, superior low-light performance, and operational flexibility to meet the demands of various high-end applications.