The AR0143ATSC00XUEA0-DPBR is a high-performance CMOS digital image sensor from ON Semiconductor's renowned portfolio. This sensor is designed to deliver exceptional image quality with advanced pixel technology, making it an ideal choice for a wide range of imaging applications such as surveillance, machine vision, and automotive systems.

With a resolution of 1.2 Megapixels, the AR0143ATSC00XUEA0-DPBR captures images at 1280 x 960 pixels, ensuring crisp and clear visuals. The sensor operates on a versatile 3.3V supply voltage, providing compatibility with various system designs. Moreover, it features a 3.0 µm pixel size, which contributes to its excellent low-light performance and high dynamic range, enabling it to perform reliably in challenging lighting conditions.

This sensor comes in a compact CSP-BGA package, making it suitable for space-constrained applications. Additionally, it offers a maximum frame rate of 45 frames per second at full resolution, allowing for smooth video capture and real-time monitoring. The AR0143ATSC00XUEA0-DPBR also supports multiple interfaces, including MIPI CSI-2, which is a widely used interface in mobile and embedded systems for high-speed data transfer.

The AR0143ATSC00XUEA0-DPBR is equipped with advanced features such as automatic exposure control, automatic white balance, and automatic black level calibration, which simplify the integration process and reduce the need for additional components. Its electronic shutter and programmable controls for frame rate, mirror and flip, cropping, and windowing offer designers the flexibility to customize the sensor's operation to meet specific application requirements.

ON Semiconductor's commitment to quality ensures that the AR0143ATSC00XUEA0-DPBR is a reliable and durable choice for developers looking to incorporate high-quality imaging capabilities into their products. With its powerful features and adaptability, this image sensor stands out as a top-tier solution for any project demanding high-resolution imaging and robust performance.