![]() ![]() The OPF CMOS Image Sensor Design Technology, in that, photoelectric-conversion part and a circuit part can be designed independently. The new technology has the following advantages.ġ. Therefore, this technology enables high-speed, high-precision, and wide-dynamic-range imaging and sensing. In addition to, synthesizing multiple exposures data which are captured at the different times is not necessary, so it enables accurate imaging of moving objects at high speed. The newly developed wide-dynamic-range technology enables accurate imaging and reproduce of richer color tone, even in high-contrast situations (in a backlit scene or under studio lighting). These technologies enable high-speed, high-precision imaging without time distortion in high-contrast scenes. And a sharp and texture-rich image can be reproduced even in dark situations. ![]() By utilizing this unique feature of the OPF CMOS image sensor, overexposure can be prevented in bright situations without time distortion against moving object. In OPF CMOS image sensor, charge-storage function and photoelectric-conversion function can be set independently. ![]() Osaka, Japan - Panasonic Corporation today announced that it has developed a new wide-dynamic-range technology which can improve simultaneous-capture wide dynamic range 100 times wider than the conventional results, using a CMOS image sensor with an organic photoconductive film (OPF) *2. This technology will contribute precisely image sensing of objects under backlit without time distortion. The new technology enables high performance of 123dB simultaneous-capture wide dynamic range. ![]()
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