In 2001, Abidi published a paper of "A 6-b 1.3-Gsample/s A/D Converter in 0.35-um CMOS".

Only 6-bit resolution is required, however, Abidi and Michael Choi added 1pF as input sampling capacitor. The thermal noise due to KT/C is only about 2mV, which is much lower than LSB quantization noise. Why they put so much capacitance there and pay the cost for high power?

thanks,
Neo

Hi Neo,

I think it is probably charge-injection and parasitic issues which are
probably responsible in this case. If you look at Fig. 5 of this paper, you
can see that the authors also use a dummy switch to prevent a jump in the
common-mode level when going from track-to-hold phase. This switch
is also useful in  partially compensating for charge-injection.

There are of course other ways of designing a sample-and-hold for less power
consumption, but for this case (6-bit flash), it was probably the best way to do
it this way.

Be aware though that sometimes people may choose the cap size arbitrarily, and often
the choice is 1 pF. Not in this case I think.

However, I disagree with loose-electron when he says that noise is the last consideration for
cap sizing. If you are making high-resolution circuits, it is often the first one, but for low-res,
it may be the last.

Regards
Vivek

vivkr wrote on Jul 10^th, 2007, 11:15pm:


Thanks for your reply. However, i do not agree with charge injection part. Pls see my last reply. Thanks. Neo

Hi Neo,

I guess that in the proposed design they don't use dummy switches. They choose C=1pF in order to be sure that the charge injection has no effect.