Fujifilm and Panasonic developed organic CMOS image sensor achieves performance beyond that of conventional image sensors
Fujifilm and Panasonic have developed an organic CMOS image sensor technology that uses an organic photoelectric conversion layer with a photoelectric conversion property at the light receiving section of an image sensor to achieve performance beyond that of conventional image sensors. Applying this technology to the image sensors of digital cameras and other imaging devices expands its dynamic range and enhances sensitivity further to prevent highlight clipping in bright scenes and capture a dark subject with vivid colors and rich textures. The two companies will promote the application of this organic CMOS image sensor technology to a wide range of products including security cameras, in-vehicle cameras, mobile device and digital cameras.
The industry has put into continuous efforts to explore image sensor technologies for increasing their number of pixels. This has dramatically improved sensor resolutions, but, in order to further boost image quality, it is necessary to expand the dynamic range, enhance sensitivity and prevent cross-talk or color mixing between pixels. Panasonic took advantage of its semiconductor device technology to boost image quality for its high-performance image sensors. Fujifilm, on the other hand, has developed highly-reliable organic photoelectric conversion layer with high absorption coefficient to be used on a sensor’s light receiving section instead of silicon photodiode in its effort to build a new image sensor technology.
In the latest collaboration, Fujifilm and Panasonic have combined Fujifilm’s organic photoelectric conversion layer technology with Panasonic’s semiconductor device technology to jointly develop an organic CMOS image sensor that outperforms conventional image sensors. The new organic CMOS image sensor offers the industry’s highest dynamic range of 88dB, advanced sensitivity 1.2 times more sensitive than conventional sensors and broader range of incident angle to enable the production of more sensitive and compact cameras with better image quality.