First of its kind which Sony today announced industry’s foremost 3-layer stacked CMOS image sensor with DRAM for mobile smartphones. Here are the details.
Sony’s latest DRAM layer added to the conventional 2-layer stacked CMOS image sensor with a layer of back-illuminated structure pixels and a chip affixed with mounted circuits to enable single-processing.
The newly introduced CMOS sensor promises faster data read speeds, making it possible to capture still images of fast-moving objects with a minimal focal point distortion as well as super slow motion movies at up to 1,000 frames per second in full HD 1920-by-1080 pixels on smartphones, which definitely lack a mechanical shutter for controlling exposure time.
In order to identify the higher-speed readouts, the circuit has used to convert the analog video signal from pixels to a digital signal that has been doubled from a 2-tier construction to a 4-tier construction in order to improve the ability of the progression.
For several other technical issues, the new sensor includes solution in the latest design such as reduction o the noise generated between the circuits on each of the three layers.
- Effective pixel count – 5520 (H) x 3840 (V) 21.2 megapixels
- Image size (Diagonal) – 7.73mm (Type 1/2.3)
- Unit cell size – 1.22μm (H) x 1.22μm (V)
- Frame rate Still images – 30fps 4:3 19.3 megapixels / 16:9 17.1 megapixels
- Movies – 4K (3840 x 2160) at 60fps, Full HD / 720p at 240fps
- Reading speed – 8.478 ms (4:3 19.3 megapixels) / 6.962 ms (16:9 17.1 megapixels)
- Power supply 2.5V / 1.8V / 1.1V
- Image format – Bayer RAW
- Output – MIPI (CSI2) D-PHY 2.2Gbps/lane / C-PHY 2.0Gsps/lane
- DRAM capacity – 1G bit
Here’s how the Slow Motion Movie taken by 3-Layer Stacked CMOS Image Sensor with DRAM in action: