![]() By way of comparison, a 1.3 megapixel interline with similarly small pixels achieves only ~1800:1 dynamic range at 16 fps. ![]() Furthermore, the architecture of scmos allows for high dynamic range by offering a large well depth, despite the small pixel size. The low noise readout is complemented by a high dynamic range of : 1. Greater speed is available through selection of region of interest sub-windows, such that the field of view can be traded off to achieve extreme temporal resolution. By way of comparison, the lowest noise interline CCD, reading out only 1.3 megapixels at ~ 16 fps would do so with ~ 10 electrons readout noise. Furthermore, the sensor is capable of achieving 100 full fps with a readout noise < 3 electrons rms. The fact that the scmos device can achieve < 2 electrons rms readout noise while reading out 5.5 megapixels at 30 fps renders it truly extraordinary in the market. High-resolution, slow-scan CCDs are typically characterized by seconds per frame rather than frames per second (fps). Only slow-scan CCDs are capable of this level of read noise performance. ![]() The read noise in itself is exceptional, even when compared to the highest performance CCDs. 4 SCIENTIFIC CMOS pco.edge The 5.5 megapixel scmos sensor offers a large field of view and high resolution, without compromising read noise or frame rate. ![]()
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