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How the MOSFET threshold voltage varies with corner cases?

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terryssw

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track cornering analysis

Do anyone has some experience on how the threshold voltage of MOSFET varies with different corner cases? I have simulated a source follower to perform a level shift in corner analysis, but I found that the Vth variations can be as large as 300-400 mV. Is it normal or not? How can we achieved accurate level shift with such large variations? (amount of level shift = Vgs = Vth+Vov where Vov is mainly fixed by current)
 

Re: corner analysis of Vth

For TSMC 0.5u process VTO variation for corner is +/- 120mV.
For TSMC 0.35u - +/- 100mV (Vcc=3V).

But actually deviations are smaller.
 

Re: corner analysis of Vth

That means your VGS can have also such large variations. So how can one design level shifter using source follower with such large VGS variations?
 

corner analysis of Vth

mostly, if your vth falls it's due to thin oxide and it means both NMOS and PMOS are affected. now even though your level shift has lower vgs and lower level shift, you other thresholds shift and track it.

what you're trying to do is called design margining. as a given parameter varies, how can you balance the input and output in order to cancel it as much as possible.

In this case, you're saved by the fact that Vth usually tracks well between NMOS and PMOS. In fact, I almost never see skews between NMOS and PMOS, and in my opinion is a sign your fab is not in control.

You should margin using your ff/ss cases, and in case something is falling apart and you can't tell what, use the skew cases (fs or sf) to tell you whether NMOS or PMOS is the culprit.
 

Re: corner analysis of Vth

That's means that sf/fs case is seldom appeared in real chips?
 

Re: corner analysis of Vth

Greetings....

If you are design a source follower (common drain), you must put attention to body effect. This efect consists in a shift of threshold voltage, according to voltage between source and body (substrate). You may avoid it, putting this source at the least voltage in circuit (e.g: common source).

Mathematically:

Vth=Vt0+gamma*(sqrt(2*phi+Vsb)-sqrt(2*phi))
 

Re: corner analysis of Vth

do not disregard the sf/fs cases, as they will tell you which variety of transistor is causing the most variation in your circuit performance, but yes, skew cases (of that extreme) are uncommon in production.

yes, you should expect some skew between your NMOS and PMOS as the body of each is a different well, but usually the variance in skew is small compared to the overall fast/slow trend.

think of the n-well process. substrate doping varies quite a bit. n-well doping varies less, but still is significant. s/d implants are usually better controlled, threshold adjust is about the same as s/d implant, and gate oxide thickness varies depending on fab - some are very good, some have lots of variation.

substrate doping affects both NMOS & PMOS in a trend, where as n-well only affects PMOS - one source of skew. s/d implant may cause rds skew but not Vt, threshold adjust affects both at the same time, and finally tox skews both at the same time.

now you can see it would be odd to have high threshold on one device and low threshold on the other - most CMOS processes are pretty resistant to that.
 

Re: corner analysis of Vth

terryssw said:
Do anyone has some experience on how the threshold voltage of MOSFET varies with different corner cases? I have simulated a source follower to perform a level shift in corner analysis, but I found that the Vth variations can be as large as 300-400 mV. Is it normal or not? How can we achieved accurate level shift with such large variations? (amount of level shift = Vgs = Vth+Vov where Vov is mainly fixed by current)

-don't expect level shifter to have absolute shifting
-you haven't choosen the right sizing of your level shifter.
 

Re: corner analysis of Vth

Thanks very much for all of your replys. I have one more questions in corner simulation is, usually how much margins (in mV) do you leaved to ensure the MOSFET in saturation region in terms of Vgs-Vth and Vds-Vdsat under typical and worst case corner situations? Is it difference required margins for PMOS and NMOS?
 

Re: corner analysis of Vth

Vth is also related to the channel DC bias. MOSIS only supports N-Well, so for a NMOSFET, the channel is always tired to ground. So the threshold voltage may be a lot higher than Vth0, when the source is not grounded.
 

Re: corner analysis of Vth

How can you look on the value of Vdsat? by Vgs-Vth or by vdsat directly from DC operating point parameters? which one is more accurate? Also, how about the margin for Vds-Vdsat to keep it in satauration?
 

Re: corner analysis of Vth

I use ADS2003, so you can get the device info my "detailed device ...". If you use HSpice, there is a commond to extract the DC parameters and put in the *.lis file.

Usually the input signal bias is not decided by the Vdsat of a current mirror underneath, but it does effect the output swing. For a large transistor, the Vdsat can be smaller than 0.1V, so not a big deal.
 

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