Electronic Circuits Laboratory
EE462G
462G
Simulation Lab #9
The BJT Differential Amplifier
p
Differential Amplifier
The object of the differential
amplifier is to amplify the difference
between Vin1 and Vin2 for output
p Vout.
VCC
RC1
Q1
Vin1
RC2
++ Vout -+
Vout1
Vout2
_
_
Q2
Vin2
RE
VEE
In manyy applications
pp
VEE = -VCC.
This can be obtained in the lab by
setting the one negative and positive
terminals of the dual ppower supply
pp y to
earth ground and then set the power
supply for the positive connection to
the circuit to VCC and the negative
connection to VEE.
Differential Amplifier Inputs
The ideal differential amplifier
suppresses the common mode input
given by:
VCC
RC1
Q1
Vin1
RC2
++ Vout -+
Vout1
Vout2
_
_
Q2
Vin2
RE
VEE
Vicm
 Vin1  Vin 2 


2


and amplifies differential mode input
given by:
Vidm  Vin1  Vin 2
Note that the input to this system is
uniquely
q y determined by
y the ((Vin1,
Vin2) pair or the (Vicm, Vidm) pair.
There are several types of gain that
can now be described for this
amplifier.
Differential Amplifier Gain
The
h gain
i between
b
Vidm andd Vout1 is
i
described as the single-ended ideal
differential gain given by:
VCC
RC1
Q1
Vin1
 Vout1 

Admse1  
 Vidm  Vicm
i 0
RC2
++ Vout -+
Vout1
Vout2
_
_
A similar gain is described for Vout2:
Q2
Admse
d
2
Vin2
RE
VEE
 Vout 2 

 
 Vidm  Vicm 0
Similar gains can be described for
the common mode input:
 Vout1 
 Vout 2 


Acmse1  
Acmse 2  
 Vicm  Vidm 0
 Vicm  Vidm 0
Differential Amplifier Gain
The single ended output can be computed from the previously defined gains using
superposition given by:
 Vin
 Vin

i
1
i
2
Vout1  Admse1Vidm  Acmse1Vicm  Admse1 Vin1  Vin 2   Acmse1

2


V
Vin 2 
 Vin1 
Vout 2  Admse 2Vidm  Acmse2Vicm  Admse 2 Vin1  Vin 2   Acmse2 

2


An important performance measure for differential amplifiers is the common
commonmode rejection ratio (CMRR) given by:
Admse
d
1  Admse
d
2
CMRR  20 log
Acmse1  Acmse 2
Small Signal Model
vout1
ib1
vout2
RC1
RC2
ib2
r
r
ib1
ib2
vin2
vin1
Circuits I
analysis methods
can be applied to
compute the
previously
described gains
and CMRR in
terms of circuit
parameters.
RE
Where are the Q1 and Q2 transistor
nodes on this model?
Large Signal Model
RC1
RC2
- Vout1 +
VBE
Vin1
Ib1
+ Vout2 -
Ib1
RE
Ib2
VCC
VBE
Ib2
Circuits
Ci
i I
analysis methods
can be applied to
compute
t the
th
quiescent points
in terms of
circuit
parameters.
VEE
Vin2
Where are the Q1 and Q2 transistor nodes on this model?
Crude Op Amp
A simple Op Amp can be create from the differential amp.
amp Most Op Amps have
additional stages to buffer the output (See http://www.williamsonlabs.com/480_opam.htm ).
Rf
15V
Rin = 50k
Rf = 100k
Crude operational
amplifier.
lifi
VCC
RC
RC
Rin
-
Q2
Q1
+
Vout
Vin
-
+
RE
VEE
-15V