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Chapter 172. MOSFET smallsignal equivalent circuit

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gd = drain or channel conductance. Any ac signal in VG or VDS will result in corresponding ac ... gd = 0. Note: The parameters depend on the dc bias, VG and VDS ... – PowerPoint PPT presentation

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Title: Chapter 172. MOSFET smallsignal equivalent circuit


1
Chapter 17-2. MOSFET small-signal equivalent
circuit
Last class, we discussed the dc characteristics
of MOSFETs. The dc characteristics for NMOS are
reviewed below.


Saturation region
Linear region
2
MOSFET ac response
MOSFET ac response is routinely expressed in
terms of small- signal equivalent circuits. This
circuit can be derived from the two-port network
shown below
G
D
MOSFET
input
output
S
S
The input looks like an open circuit, except for
the presence of the gate capacitor.
At output, we have a current ID which is
controlled by VG and VDS.
ID f (VG, VDS )
3
MOSFET small-signal equivalent circuit
Any ac signal in VG or VDS will result in
corresponding ac variation in ID
and
where
gm trans-conductance gd drain or channel
conductance
Note id, vg and vd are small-signal ac currents
and voltages. They are different from ID, VG and
VDS which are dc currents and voltages.
4
Small-signal equivalent circuit
So, the equivalent circuit at low-frequency looks
like (neglecting the gate capacitance low
frequency)
For high-frequency, we have to include the
capacitive effects
5
MOSFET small-signal parameters
When VDS lt VDS,sat (i.e., below pinch-off or
linear region)
When VDS gt VDS,sat (i.e., above pinch-off or
saturation region)
gd 0
Note The parameters depend on the dc bias, VG
and VDS
6
Frequency response of MOSFET
The cut-off frequency fT is defined as the
frequency when the current gain is 1.
vG here is ac signal CGS is approximately equal
to the gate capacitance, ? Z L Cox
Input current
Output current
So, at fT,
So,
7
CG-VG characteristics MOS-C versus MOSFET
CG vs. VG characteristics of a MOSFET at high
frequency looks similar to the low-frequency
response (unlike the MOS-C). This is because,
even at high frequency, the source and drain can
supply the minority carriers required for the
structure to follow the ac fluctuations in the
gate potential when the device is inversion
biased.
CG vs. VG characteristics of a MOSFET with VDS 0
8
Enhancement mode MOSFETs
The devices we discussed so far are called
enhancement-mode MOSFETs.
For NMOS, VT is positive and one has to apply a
positive gate voltage to turn on the device. At
zero gate voltage, the device will be off.
For PMOS, VT is negative and one has to apply a
negative gate voltage to turn on the device. At
zero gate voltage, the device will be off.
Exercise Draw the ID-VDS characteristics for
NMOS and PMOS enhancement-mode devices.
Next class, we will discuss depletion-mode
devices.
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