Samsung's 3-Stack ISOCELL Fast 2L3 CMOS Image Sensor introduced in Southern Korea: specs, Features
Samsung on Monday revealed the launch of its latest 3-stack ISOCELL Fast 2L3 CMOS picture sensor in Southern Korea. At this time in size production, the image sensor has actually size of 1.4-microns and a 12-megapixel quality. It’s incorporated two-gigabit LPDDR4 vibrant Random Access Memory (DRAM) that promises to provide fast information readout speeds helping capture images in super-slow motion and photos with less sound and distortion.
Speaing frankly about its super-slow motion abilities, the image sensor can record video footage at up to 960 fps (FPS) aside from taking a full-frame chance within 1/ 120th of an extra. Aside from super-slow motion image capturing, the sensor promises to lessen image distortion especially when acquiring shots of fast-moving objects. It aids 3-Dimensional Noise decrease (3DNR) for low light and real time HDR shots.
The image sensor additionally is sold with Samsung’s double Pixel autofocus technology, which is a sophisticated type of state Detection car Focus (PDAF). An additional DRAM layer on the sensor allows the sensor to read information quicker than before.
“Samsung’s ISOCELL picture detectors are making great leaps within the generations, with technologies such as for example ISOCELL for large shade fidelity and Dual Pixel for ultra-fast autofocusing, taking the smartphone camera previously nearer to DSLR-grade photography. With an additional DRAM level, Samsung’s brand-new 3-stack ISOCELL Quick 2L3 will allow users to produce even more unique and mesmerizing content,” said Ben K. Hur, vice-president of program LSI Marketing at Samsung Electronics.
Last month, Samsung had revealed plans of a fresh dual camera technology that will allow the business to create functions like bokeh result and low light photography to budget smartphones. The South Korean monster normally looking to offer this means to fix other OEMs to allow them to launch spending plan phones with your functions.
Posted at Mon, 26 Feb 2018 13:09:06 +0000