ON Semiconductor MT9P001I12STCH-B-GEVB Product Overview

The MT9P001I12STCH-B-GEVB is a high-performance digital image sensor board from ON Semiconductor, designed to cater to a wide range of imaging applications. This evaluation board showcases the capabilities of the MT9P001 sensor, a 1/2.5-inch CMOS active-pixel digital image sensor with an active imaging pixel array of 2592H x 1944V. It incorporates sophisticated camera functions and is programmable through a simple two-wire serial interface.

Key Features

• High-Quality Imaging: The MT9P001I12STCH-B-GEVB features a 5-megapixel sensor that delivers exceptional image quality with low-light performance, making it suitable for a variety of lighting conditions.
• Flexibility: With its electronic rolling shutter and advanced features like binning and windowing, this sensor board is highly versatile and can be adapted to different applications and scenarios.
• Easy Integration: The evaluation board is designed for plug-and-play functionality, simplifying the process of integrating the sensor into existing systems.
• Programmable Controls: Users can access a range of settings including exposure, gain, frame rate, and more, allowing for precise control over imaging parameters.

Applications

The MT9P001I12STCH-B-GEVB is ideal for a variety of applications where high-resolution image capture is required. These include:

• Security and Surveillance
• Machine Vision and Industrial Imaging
• Medical Imaging
• Scanning and Document Imaging
• Consumer Electronics

Technical Specifications

The MT9P001 sensor on the evaluation board boasts impressive technical specifications that ensure high performance in a compact form factor:

• Resolution: 5 Megapixel (2592 x 1944)
• Sensor Size: 1/2.5-inch format
• Pixel Size: 2.2 µm x 2.2 µm
• Shutter Type: Electronic Rolling Shutter
• Interface: Two-wire serial interface for easy programming

The MT9P001I12STCH-B-GEVB from ON Semiconductor represents a robust imaging solution, providing high-quality imaging capabilities with the flexibility and control required for advanced imaging systems.