The MT9M001C12STM-DP is a high-performance CMOS image sensor from ON Semiconductor that brings together the sophistication of digital imaging technology with high-quality output suitable for a variety of applications. This sensor is designed to cater to the growing demand for high-resolution imaging in industrial, medical, and surveillance sectors, among others.

Key Features

• Resolution: The sensor boasts a 1.3 Megapixel resolution, providing clear and detailed images. It operates at 1280 x 1024 pixels, ensuring that the captured images have enough detail for most applications.
• Pixel Size: With a pixel size of 5.2 µm x 5.2 µm, the MT9M001C12STM-DP offers a good balance between sensitivity and image quality, making it suitable for both bright and low-light conditions.
• Shutter Type: The sensor features an electronic rolling shutter that allows for smooth capture of moving objects without the distortion typically associated with global shutters.
• Frame Rate: It supports a frame rate of up to 30 frames per second at full resolution, which is ideal for video applications or any scenario where capturing motion is crucial.
• Dynamic Range: The MT9M001C12STM-DP has an impressive dynamic range that ensures the capture of both bright and dark areas of an image without losing detail.
• Interface: The sensor is equipped with a parallel digital output, which simplifies integration with a wide range of processors and systems.

Applications

The versatility of the MT9M001C12STM-DP makes it well-suited for a broad spectrum of applications. These include:

• Industrial imaging and inspection systems
• Medical diagnostic equipment
• Security and surveillance cameras
• Scientific instrumentation
• Machine vision systems

Conclusion

The MT9M001C12STM-DP from ON Semiconductor is a reliable and versatile image sensor that delivers high-quality images with its 1.3 Megapixel CMOS sensor. Whether for industrial quality control, medical imaging, or security purposes, this sensor is designed to meet the rigorous demands of a variety of high-resolution imaging needs.