The ON Semiconductor LC99262GL-TP is a high-performance, low-power CMOS image sensor designed for a wide range of imaging applications. This sophisticated sensor is part of ON Semiconductor's extensive lineup of imaging solutions, known for their reliability and cutting-edge technology.

Key Features

• Resolution: The LC99262GL-TP boasts a high-resolution imaging capability, making it ideal for capturing detailed images in various applications, from industrial automation to security systems.
• Pixel Size: With its small pixel size, this sensor provides high image quality with excellent detail, while still maintaining a compact form factor suitable for space-constrained applications.
• Low Power Consumption: Designed with energy efficiency in mind, the LC99262GL-TP minimizes power usage, thereby extending battery life in portable devices and reducing the overall energy footprint in wired systems.
• High Dynamic Range (HDR): The sensor supports HDR imaging, which allows it to capture clear images even in challenging lighting conditions, with both bright and dark areas in the scene.
• High Frame Rate: It offers a high frame rate operation, enabling smooth video capture and the ability to handle fast-moving scenes without motion blur.

Applications

The versatile nature of the LC99262GL-TP makes it suitable for a variety of applications, including:

• Security and surveillance cameras
• Automotive vision systems
• Industrial and medical imaging
• Machine vision
• Drone and robotics cameras

Technical Specifications

The LC99262GL-TP sensor is built with advanced technology that ensures superior image capture. Its technical specifications include:

• Optimized spectral sensitivity for accurate color reproduction
• Robust anti-blooming capabilities to prevent image washout
• Programmable exposure control for precise image capture
• On-chip analog-to-digital converter (ADC) for direct digital output

ON Semiconductor's commitment to excellence is evident in the LC99262GL-TP image sensor, offering a perfect blend of performance, power efficiency, and versatility for today's demanding imaging requirements.