This was an issue with some Panasonic cameras. Normally, MFT cameras capture 12 bit raw files. However, it was discovered that on some Panasonic bodies, when using the e-shutter it changed to 10-bit. The reduction from 12 bit to 10 bit reduces the dynamic range. The probable reason is to increase the readout speed from the sensor. Many sensors have a slow readout speed. This becomes an issue when using the fully electronic shutter as this creates rolling shutter issues. So perhaps dropping to a lower bit-depth it is possible to increase the readout speed and reduce the rolling shutter effect. Essentially a trade off.
In one of Robin Wong's videos on "sharpness" he claims you get slightly better sharpness than e-shutter.
Yeah, it usually comes down to the sensor used but also how it's configured which can vary from body to body. No clue about the OM-1 but this was actually not an issue with the Sony sensor(s) on most previous Oly bodies. The OM-1's is a whole different beast tho so I dunno.
I think the G9 does it at a certain (high) ISO level? Or was that the GH5? It won't at lower ISO tho. All the GF(GX8##) bodies still do, technically those came after the G85 IIRC, and they also force e-shutter with any manual glass since Pana disables EFCS for those lenses (and said bodies don't have a front curtain to do a fully mechanical shutter)... But yeah the GX9 & G95 don't AFAIK.
Sometimes increased readout speed leading to more noise is the reason.
Probably not. The Mark II doesn't show any difference in PhotonsToPhotos testing.
I've read about it, too - but don't understand.
Not sure as we don't have a knowledge of the inner workings of the sensors and processors involved. However, the sensor might be able to work in different readout modes. We do know for example that when recording video, many cameras can often output 10-bit video rather than the higher bit depth used for stills. Perhaps when running in higher speed output mode (for example in video or in high speed e-shutter) the sensor produces more noise which raises the noise floor and therefore there is no point in outputting more than 10-bit.
Reply from OM tech support when I asked about bit depth and any variance between mechanical and electronic shutter:Sometimes increased readout speed leading to more noise is the reason.
This may also be accompanied with a decrease in bit depth.
Probably not. The Mark II doesn't show any difference in PhotonsToPhotos testing.
The bottleneck is not the communication but the Analog to Digital Conversion itself.
Although it does not matter in this case I would point out that a 12-bit file does not mean 12-bit data.
Been saying this for some time now. But there are the non believers I guess.
This. If you look at Sony sensors https://www.sony-semicon.com/en/products/is/camera/index.html then IMX472 (presumably used in OM-1) can do 121 fps in 12-bit mode but almost 160 in10-bit mode.
Robin's comments were from a video that proceeded the release of OM-1 and was only for Olympus cameras in general. I haven't tested to see if it was true.
As others have said, there could be a trade off of dynamic range in order to get the data off the sensor more quickly. The spec sheet says the OM-1 uses 12 bit raw files - there is no direct info in the review about stills, but the video readouts are either 8 or 10 bit... so it is not impossible that it is dropping to 10 bit.
