The stacked CMOS sensor isolates the photodiodes and light-helping pixels.
Sony has uncovered another sort of stacked CMOS sensor that employments "two-layer semiconductor pixels" to twofold the light assembling capacity. Normal picture sensors have the light-delicate photodiodes and pixel semiconductors that control and enhance the sign on a similar layer. In any case, the new plan puts the photodiodes on top and the pixel semiconductors beneath, "roughly multiplying immersion signal levels," Sony said.
Sony spearheaded stacked sensors that put quick memory and other hardware straightforwardly under the sensor, considering quicker readout paces and in this manner fast burst shooting and diminished moving screen (jello impact) on cameras and cell phones. This most recent sensor utilizes a comparable thought, yet packs the pixel semiconductors onto a different substrate under the photodiode layer.
That implies each layer could be enhanced, permitting Sony to twofold the sensor's light immersion (well profundity), or the measure of charge every pixel can hold. That thus considers around twofold the light-catching ability.
Sony takes note of that on the grounds that the semiconductor pixels sit on a different layer, it had the option to support the enhancer semiconductors in size. That takes into account a greater sign lift, diminishing commotion when shooting evening or different pictures in dull areas. The expanded unique reach will take into account "top caliber, low-commotion pictures even in low-light," as indicated by Sony.
Sony explicitly expressed that the tech will consider greater cell phone photography. With twofold the light assembling ability, it will consider significantly better light affectability even in generally little, high-megapixel sensors. Sony still can't seem to say when this tech will make it to cell phone or cameras, yet it intends to additionally work on the plan for both enormous and little sensors.
