hung_wai_ming@hotmail.com
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cmos vdsat
Basically, we have a mindset of VDsat ~200mV in process >0.35um (maybe someone will say "NO", just an example here) and down to DSM, ppl said we can select a smaller VDsat ~100mV, as the headroom for voltage changes from 3.3V to 1.8V, 1.2V, so VDsat can't be too high for device saturation.
For low power design, as bias current is generally very small, so VDsat for a typical NMOS transistor between 0.1uA to 5uA can vary a lot for the same size, ppl will tend to increase the gate length to provide a larger VDsat.
My question here is
(1) How we should choose a proper VDsat value from what criteria?
(2) How we should approach low power design when generally bias current is very small, shall we desparately to increase gate length to fit enough VDsat?
(3) Same as (2) how we should approach low voltage design as headroom becomes less, too high VDsat can make device work properly.
Basically, we have a mindset of VDsat ~200mV in process >0.35um (maybe someone will say "NO", just an example here) and down to DSM, ppl said we can select a smaller VDsat ~100mV, as the headroom for voltage changes from 3.3V to 1.8V, 1.2V, so VDsat can't be too high for device saturation.
For low power design, as bias current is generally very small, so VDsat for a typical NMOS transistor between 0.1uA to 5uA can vary a lot for the same size, ppl will tend to increase the gate length to provide a larger VDsat.
My question here is
(1) How we should choose a proper VDsat value from what criteria?
(2) How we should approach low power design when generally bias current is very small, shall we desparately to increase gate length to fit enough VDsat?
(3) Same as (2) how we should approach low voltage design as headroom becomes less, too high VDsat can make device work properly.