Willt
Member level 5
Hi friends,
At the moment, I'm studying channel length modulation (CLM) in
MOSFET. Simply speaking, when a n-channel transistor is in
saturation region and Vds is increased with fixed Vgs, Id increases
linearly due to CLM. This is because the depletion region depth of
the reverse-bias diode across the drain and the substrate gets
larger and larger with increasing Vds, causing shorter effective
length ~ Leff = 1/(1+Lamda*Vds).
My questions are:
(1) As the effective length of transistor decreases, would it cause velocity saturation? :?:
(2) If so, would it in turn make Id constant with increasing Vds because the effect of velocity saturation compensates the effect of channel length modulation? :?:
Channel length modulation: Id increases cos Leff decreases =>
larger electric field (exceed critical electric field) =>
mobility decreases (velocity saturation) => Id decreases =>
Total effect: Id keeps constant
Any comment would be very appreciated ~
Will
At the moment, I'm studying channel length modulation (CLM) in
MOSFET. Simply speaking, when a n-channel transistor is in
saturation region and Vds is increased with fixed Vgs, Id increases
linearly due to CLM. This is because the depletion region depth of
the reverse-bias diode across the drain and the substrate gets
larger and larger with increasing Vds, causing shorter effective
length ~ Leff = 1/(1+Lamda*Vds).
My questions are:
(1) As the effective length of transistor decreases, would it cause velocity saturation? :?:
(2) If so, would it in turn make Id constant with increasing Vds because the effect of velocity saturation compensates the effect of channel length modulation? :?:
Channel length modulation: Id increases cos Leff decreases =>
larger electric field (exceed critical electric field) =>
mobility decreases (velocity saturation) => Id decreases =>
Total effect: Id keeps constant
Any comment would be very appreciated ~
Will