> 2. 123dB simultaneous-capture wide dynamic range (that is 100x wider than that of common silicon image sensors*3), while maintaining the conventional chip size, due to our original " simultaneous-capture structure ".
I'd like to see a concrete product. Even if the dynamic range data is right, there might be catches marketing conveniently forgot to mention.
123 dB, so 20.4 stops? 100x corresponds to 6.6 stops. Most consumer level DSLRs have about 12-15 stops, so the math is about right.
If it's really this wide dynamic range, it's pretty trivial to get a good exposure with a camera with this sensor in. At least it's going to be hard to burn details short of pointing this at a bright light source, such as the sun.
I'd like to see a concrete product. Even if the dynamic range data is right, there might be catches marketing conveniently forgot to mention.
123 dB, so 20.4 stops? 100x corresponds to 6.6 stops. Most consumer level DSLRs have about 12-15 stops, so the math is about right.
If it's really this wide dynamic range, it's pretty trivial to get a good exposure with a camera with this sensor in. At least it's going to be hard to burn details short of pointing this at a bright light source, such as the sun.
To understand what this means on a concrete level, here's a EV (stop) value table with typical (lighting) scenes: https://en.wikipedia.org/wiki/Exposure_value#Tabulated_expos...