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Transcript
10/19/2004
Drain Output Resistance.doc
1/5
Drain Output Resistance
I fibbed!
I have been saying that for a MOSFET in saturation, the
drain current is independent of the drain-to-source voltage
vDS. I.E.:
iD = K (vGS −Vt )
2
In reality, this is only approximately true!
Due to a phenomenon known as channel-length modulation, we
find that drain current iD is slightly dependent on vDS . We
find that a more accurate expression for drain current for a
MOSFET in saturation is:
iD = K (vGS −Vt ) (1 + λ vDS )
2
Where the value λ is a MOSFET device parameter with units
of 1/V (i.e., V-1). Typically, this value is small (thus the
dependence on vDS is slight), ranging from 0.005 to 0.02 V-1.
Often, the channel-length modulation parameter λ is
expressed as the Early Voltage VA, which is simply the inverse
value of λ:
Jim Stiles
The Univ. of Kansas
Dept. of EECS
10/19/2004
Drain Output Resistance.doc
VA =
1
λ
2/5
[V ]
Thus, the drain current for a MOSFET in saturation can
likewise be expressed as:
⎛
iD = K (vGS −Vt ) ⎜ 1 +
2
⎝
vDS ⎞
⎟
VA ⎠
Now, let’s define a value ID, which is simply the drain current
in saturation if no channel-length modulation actually
occurred—in other words, the ideal value of the drain
current:
2
ID K (vGS −Vt )
Thus, we can alternatively write the drain current in
saturation as:
⎛ v ⎞
iD = ID ⎜ 1 + DS ⎟
⎝ VA ⎠
This explicitly shows how the drain current behaves as a
function of voltage vDS. For example, consider a typical case
case where vDS =5.0 V and VA = 50.0 V. We find that:
Jim Stiles
The Univ. of Kansas
Dept. of EECS
10/19/2004
Drain Output Resistance.doc
⎛
iD = ID ⎜ 1 +
3/5
vDS ⎞
⎟
VA ⎠
⎝
5.0 ⎞
⎛
= ID ⎜ 1 +
⎟
⎝ 50.0 ⎠
= ID (1 + 0.1 )
= 1 .1 ID
In other words, the drain current is 10% larger than its
“ideal” value ID.
We can thus interpret the value vDS VA as the percent
increase in drain current iD over its ideal (i.e., no channel2
length modulation) saturation value ID = K (vGS −Vt ) .
Thus, as vDS increases, the drain current iD will increase
slightly.
Now, let’s introduce a third way (i.e. in addition to λ,VA ) to
describe the “extra” current created by channel-length
modulation. Define the Drain Output Resistance ro:
ro VA
1
=
ID λ ID
Using this definition, we can write the saturation drain
current expression as:
Jim Stiles
The Univ. of Kansas
Dept. of EECS
10/19/2004
Drain Output Resistance.doc
⎛
iD = ID ⎜ 1 +
⎝
4/5
vDS ⎞
⎟
VA ⎠
ID
v
VA DS
v
= ID + DS
ro
= ID +
= K (vGS −Vt ) +
2
vDS
ro
Thus, we interpret the “extra” drain current (due to channellength modulation) as the current flowing through a drain
output resistor ro.
Jim Stiles
The Univ. of Kansas
Dept. of EECS
10/19/2004
Drain Output Resistance.doc
5/5
Finally, there are three important things to remember about
channel-length modulation:
* The values λ and VA are MOSFET device parameters, but
drain output resistance ro is not (ro is dependent on ID!).
* Often, we “neglect the effect of channel-length
modulation”, meaning that we use the ideal case for
saturation--iD=K(vGS-Vt)2. Effectively, we assume that λ = 0 ,
meaning that VA = ∞ and ro = ∞ (i.e., not VA = 0 and ro = 0 !).
* The drain output resistance ro is not the same as channel
resistance rDS! The two are different in many, many ways:
iD = K (vGS −Vt ) +
2
iD =
vDS
rDS
vDS
ro
for a MOSFET in saturation
for a MOSFET in triode and vDS small
∴ ro ≠ rDS
Jim Stiles
!!!!!!!
The Univ. of Kansas
Dept. of EECS