Hi dear all friends
I used of folded cascade Unity-gain Buffer as depicted in the attached pic(open loop gain is greater than 800). I have an input voltage that varies between 250mV and 750mV. As you can see only around 450mV of input voltage, output able to track input. I need a buffer that be able to track input with offset below than 0.5mV and this variation that depicted in attached pic(that depends on input) is not reasonable for me.
Dear Raviprasad_K, Thx for your reply,
when Vin=750mV, The output voltage=735mV, and it is so large offset!
i think your mean was 0.9mV offset, no 0.9V. if we use of this relation that you wrote, larger input results in lower offset, but if Vin=400mV then offset approximately is zero.i can't get it and mixed up.
vb1=1.06V, vb2=0.76V, Vb3=1.0V, Vb4=0.7V.
for Vin=750mV: Vth(M4)=5.707e-01 & Vth(M8 )=-5.105e-01
As voltage increases offset should increase. It is Vo/gain. Bias margins looks good enough.
What is the input voltage with which you have checked the gain? Did you check the gain with 250mV input and 750mV input? Are they above 800 in either case?
i think i can't apply 250mV(differentially) to input because with gain=800, output must be 200V! thus i applied:
"Vin+=dc 0.5 ac 1" & "Vin-=dc 0.5 ac 0" and then i read gain from .Lis file.
I have a question:what is important for buffer designing except gain, for example in this case: 250mV<Vin<750mV and fin=500MHz,
which spec should take into consideration?
In addition to the offset due to finite gain, you are observing the effect of common mode voltage on offset. Systematic offset is present as the output voltage is not the same at the voltage at the drain of M7(which must be around 470mV).
Any follower will have this offset, only the inverting amp is free from it.