Is it really the off-sensor ADC?

Started Jul 18, 2013 | Questions thread
OP TTMartin Veteran Member • Posts: 7,304
Re: Is it really the off-sensor ADC?

David Hull wrote:

If some other component were introducing read noise prior to the ADC, then the read noise should not decrease as ISO increases.

A camera is just like a satellite receiver. Let's say you have a LNA (low Noise Amplifier) in the front end that has a noise figure of 1 dB (very low noise) and its gain is 40 dB. This amplifier is followed by a subsequent stage that has a noise figure of 25 dB (lots of noise). In this case the effective noise figure of the cascaded stages will be 1.107 dB.

If you now reduce the gain of that first stage to 5 dB (think of that first stage as the ISO amplifier and you are turning its gain down) the effective noise figure of the chain is now 20 dB.

This is known as Friis Formula or more generally as the "cascade Noise Figure Formula" it is fundamental receiver lineups -- this is radio engineering 101.

Looking at the 5DIII, you have 22 MPix sampled at 6 FPS, so the converter needs to run at 132 MSPS. In this camera there are 8 channels so each of the converters will be running at 16.5 MSPS. They are probably using 20 MSPS or 40 MSPS converters. You can look these up yourself if you want (ADI-9257 might be a good one). You can look at the data sheet for these things and you will see that the SINAD rating is in the range of 73-75 dB (depending on the speed and quality of the part). This equates to an ENOB [ENOB=(SINAD-1.76)/6.02] of 11.8 to 12.2 dB.

Basically what you are doing is amplifying the front end noise to the point where it dominates over the back end noise when you increase the gain. Let’s say that you have a very weak signal but your front end is very quiet (very low noise) you pass that directly (unamplified) to a second stage that has 10 times the noise. That second stage noise will be dominant and will swamp out your signal and your noise. Now let’s say you increase the gain of that very quiet amplifier to 1000. Now the noise (and the signal) out of that first stage is 100 times the noise of the second stage. The SNR of the first stage dominates and the noise of the second one is rendered irrelevant.

Essentially you have a noise floor of 74 dB in the back end, it will never get any better than that.

Thanks Dave,

I'll have to look into most of this in the morning.

My initial thought reading it, is that would seem to hold true if the signal being received remained constant, then increasing the amplifier would do exactly what you are saying.

But, with the camera, the ISO is really only increased to compensate for less signal (less light), so the front end non-noise signal keeps going down, relative to the amplification, so the amount of non-noise signal reaching the later stage noise source remains relatively constant.

Again, I'll look into it all, more in the morning.

I appreciate your taking the time to talk this through with me.

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