ON Semiconductor MT9J003I12STCV2-DP Digital Image Sensor

The ON Semiconductor MT9J003I12STCV2-DP is a state-of-the-art digital image sensor that offers an exceptional 10 megapixel (MP) resolution with a 1/2.3-inch optical format. This high-performance sensor is designed to deliver superior image quality in a wide range of lighting conditions, making it an ideal choice for advanced imaging applications.

Key Features:

• High Resolution: With a 10MP resolution, this sensor captures images at a stunning 3856 x 2764 pixels, providing crisp and detailed photos.
• Optical Format: The 1/2.3-inch optical format ensures a good balance between high resolution and compact lens design, suitable for various applications including surveillance, scanning, and industrial imaging.
• Pixellated Color Filter: The MT9J003I12STCV2-DP features a sophisticated color filter array, which enhances color accuracy and image quality.
• High Frame Rate: It supports a high frame rate, enabling smooth video capture and quick image processing, which is essential for applications requiring dynamic imaging.
• Low-Light Performance: The sensor's advanced pixel technology provides excellent performance even in low-light conditions, ensuring reliable operation in various environments.

Applications:

This versatile image sensor can be used in a range of applications, including:

• Security and Surveillance Cameras
• Industrial Imaging and Inspection Systems
• Medical Imaging Devices
• Scanning and Document Imaging
• Digital Still and Video Cameras

Technical Specifications:

• Resolution: 10 Megapixels
• Optical Format: 1/2.3 inch
• Pixel Size: 1.67 µm x 1.67 µm
• Shutter Type: Electronic Rolling Shutter
• Interface: Parallel, MIPI (Mobile Industry Processor Interface)

The ON Semiconductor MT9J003I12STCV2-DP is a cutting-edge solution that provides the perfect blend of high resolution, speed, and performance for demanding imaging applications. With its advanced features and flexible interface options, this sensor is ready to meet the needs of both current and future imaging technologies.