ON Semiconductor MT9P031I12STC-DR Image Sensor

The MT9P031I12STC-DR from ON Semiconductor is a high-performance 5-megapixel CMOS image sensor that delivers superior image quality with low-light performance, making it an ideal choice for a wide range of imaging applications. This sensor features a 1/2.5-inch optical format and provides a resolution of 2592 x 1944 pixels.

At the heart of the MT9P031I12STC-DR sensor is ON Semiconductor's advanced digitalClarity® technology, which combines on-chip camera functions with outstanding image quality through reduced noise and enhanced dynamic range. The sensor's versatile pixel design allows for multiple readout modes, including binning and sub-sampling, which provides flexibility for various frame rates and resolutions.

The sensor operates on a 3.3V digital supply and a 2.8V analog supply, with a nominal power consumption that makes it suitable for portable devices. Its electronic rolling shutter mechanism simplifies the design of the camera system by eliminating the need for a mechanical shutter.

Key features of the MT9P031I12STC-DR include:

• 5-megapixel resolution (2592 x 1944)
• 1/2.5-inch optical format
• Advanced digitalClarity® technology
• Multiple readout modes for high frame rates
• Electronic rolling shutter
• Low power consumption
• High sensitivity for low-light conditions
• Integrated programmable gain amplifier (PGA)
• On-chip 12-bit analog-to-digital converter (ADC)

The MT9P031I12STC-DR sensor is designed to be highly flexible, supporting a variety of interfaces including parallel and serial outputs, making it easy to integrate into a wide range of camera systems. Its compact design and high integration level enable slim and sophisticated camera designs for applications such as surveillance, scanning, industrial, automotive, and medical imaging.

With its combination of high image quality, low power consumption, and advanced features, the MT9P031I12STC-DR image sensor from ON Semiconductor is a perfect solution for those seeking a reliable and versatile imaging component.