2. References
Main Textbook:
Jaeger, Richard C. & Blalock, Travis N., “Microelectronic Circuit Design”,
4th Edition, McGraw-Hill, 2011 (Chapters 4, 5, 13, and 14)
Other References:
Hambley, Allan R., “Electronics”, 2 Edition, Prentice Hall, 2000.nd
Naemen, Donald A., “Electronic Circuit Analysis and Design”, 2 Edition,nd
McGraw-Hill, 2002
EE2002 Analog Electronics Multi-Stage and Differential Amplifiers 2
3. Lesson Objectives
At the end of this lesson, you should be able to:
• Perform DC analysis to determine Q-point of each transistor in multi-stage
AC-Coupled amplifiers
• Draw AC equivalent circuit for multi-stage AC-Coupled amplifiers
• Determine the voltage gain, input resistance and output resistance of multi-
stage AC-Coupled amplifiers
• Identify the circuit structure of differential amplifier
• Draw DC, differential-mode and common-mode half-circuits of differential
amplifier
EE2002 Analog Electronics Multi-Stage and Differential Amplifiers 3
4. Lesson Objectives
(Cont.)
• Calculate the Q-point of the transistors of differential amplifier
• Calculate differential-mode and common-mode gains, input and output
resistances, and CMRR with single-ended or differential output
• Perform similar analysis for current source biased differential amplifier
EE2002 Analog Electronics Multi-Stage and Differential Amplifiers 4
5. Outline
• Analysis of AC-coupled Multi-stage Amplifiers
- Voltage Gain
- Input Resistance
- Output Resistance
- Small Signal Limitations
• Three-stage AC-coupled Amplifiers
• DC and AC Properties of Differential Amplifiers
EE2002 Analog Electronics Multi-Stage and Differential Amplifiers 5
6. AC Coupled Amplifier:
An Example of a 3-Stage Amplifier
C-C
amplifier
V
CC
C-S amplifier C-E amplifier
R
D1 R1 RC2R
G1 R3
RI C C3 C5
1 Q2
Q3
M1
C
6
R
in
RG2 +C
4
C
2
+
-
R2vi
R4RE2 RE3
R
S1 v
oR
L
R
out
-
Provides high Rin
and moderate Av
Provides high Av Gives low
high gain stage from low
R and buffersout
RL
• Input and output of overall amplifier is AC-coupled through capacitors C and C .1 6
• Bypass capacitors C and C are used to get maximum voltage gain from the2 4
two inverting amplifiers.
EE2002 Analog Electronics Multi-Stage and Differential Amplifiers 6
AC Coupled Amplifier:
An Example of a 3-Stage Amplifier
7. AC-Coupled Amplifier:
DC Equivalent Circuit
C-C
amplifier
V
CC
C-S amplifier C-E amplifier
R
C2R1
R
D1
R3
RI C C3 C
5
1 Q2
Q3
M1
C
6
RG1 +
C
2
C
4
+
-
R2vi
R4
R
S1 RE2 RE3
RL vo
-
Inter-stage coupling capacitors C and C transfer AC signals between amplifiers3 5
but provide isolation at DC, and prevent Q-points of Xtrs from being affected.
EE2002 Analog Electronics Multi-Stage and Differential Amplifiers 7
AC Coupled Amplifier:
DC Equivalent Circuit
8. AC-Coupled Amplifier:
Small-signal Equivalent Circuit
V
CC
4
R R R R R RB2 1 2 B3 3
R
1 RC2
R
D1
R3
RI C
3
C
5
C
1 Q2 Q3M1
C
6
RinRG1
+
+
-
C
2
C4
v
i R2 RE2
R
4
R
E3R
S1
vo
R
out
R
L
-
+ v -R
I
B3 3 E3G1 D1 B2 C2
++ + r
p3
g v g v
m2 2
m1 1
r
o1
R
out+
-
vi v2 rp2
g v
m3 3
vo
-
Rin
R v
1
R
B2 RE3 R
L
G1 RD1
ro2 RC2 RB3
ro3
- - C3S1 E2
R R RR R R I 2 C2 B3I1 D1 B2
EE2002 Analog Electronics Multi-Stage and Differential Amplifiers 8
AC Coupled Amplifier:
Small-signal Equivalent Circuit
9.
10.
11. AC-Coupled Amplifier:
Output Resistance
+ v -R
I
B3 3G1 D1 B2 C2 E3
++ + r
p3
g v g vm1 1 m2 2
+
-
R
out
R
L
vi v2 rp2 vo
-
RG1 v1
R
E3ro1 RI1
r
o2 RI2 g v
m3 3
ro3
- - C3S1 E2
R R R R R R
I 2 C2 B3
I1 D1 B2
r r Rp 3 o2 I 2
r r R r r R
p3 o2
I 2 r R p
3
o2 I 2
Rout 1 o3 E3 1 33
EE2002 Analog Electronics Multi-Stage and Differential Amplifiers 11
AC Coupled Amplifier:
Output Resistance
12.
13.
14. AC-Coupled Amplifier in General
v
N
R
I
v1 v2 v3
+
Stage
1
Stage
2
Stage v
o+
-
RLvi
R
in2Rin
N -R
outRout(N-1)
To find RoutTo find Rin To find Avt(i)
v
i+1
i
xix vi
Stage StageStage
1
+
-
+
-
v
x
v
x
R
in(i+1)
iRin2 Rout(N-1)
N
EE2002 Analog Electronics Multi-Stage and Differential Amplifiers 14
15. Differential Amplifiers
Piezoelectric Transducers
Strain GaugeCase
Epoxy
plotting
Backing
material
Electrodes
Piezoelectric
element
Thermal Couple
Thermocouple Lead
wire
Gage
A+
Vout
B
Target
surface
Ice bath
(known constant
temperature for
reference)
Reference
junctions
Ref.
EE2002 Analog Electronics Multi-Stage and Differential Amplifiers 15
16. Differential Amplifiers
V
CC
V
DD
RC vC1
Q1
RC
R
DRD
v
C2 vD1
v
D2
Q2 M1 M2
+
-
v1v1
+
- v2
+
-
+
-
v
2
R
EE R
SS
- VEE -VSS
• Differential amplifier forms the heart of operational amplifier.
• It contains two transistors in symmetrical configuration.
• It has two inputs and two outputs.
• Ideal differential amplifier uses perfectly matched transistors.
EE2002 Analog Electronics Multi-Stage and Differential Amplifiers 16
17.
18.
19.
20.
21.
22.
23. Common-mode Rejection Ratio (CMRR)
• Measures ability of amplifier to amplify desired differential-mode input signal
and reject undesired common-mode input signal.
• For differential output, since A = 0, CMRR = .cm-diff
• For single-ended output,
g Rm CA
dm-se 2CMRR g R
R m EE
A Ccm-se
2REE
EE2002 Analog Electronics Multi-Stage and Differential Amplifiers 23
24.
25.
26.
27. Bipolar Common-mode Half-Circuits
+VCC +VCC
+VCC +VCC
RC RC RC
R
C
R
C v
c1vC1 vC1v
C1 vC2
Q
1
Q
2
vev
IC vicvE
2REE
v
IC vIC 2REE
2R
EE
-VEE
(b) (c)2REE 2REE (a)
Q-point analysis
with no DC input
Large DC common-
mode input
Common-mode
signal analysis-VEE -VEE
All points on line of symmetry become open circuits.
• DC circuit with V set to zero is used to find amplifier’s Q-point.IC
• Half circuit (c) is used for common-mode signal analysis and represents
the C-E amplifier with emitter resistor 2R .EE
EE2002 Analog Electronics Multi-Stage and Differential Amplifiers 27
28. Biasing with Electronic Current Sources
• Differential amplifiers are biased using electronicV
CC
current sources to stabilise the operating pointRC RC
v
C1 vC2
and increase effective value of R to improveQ2 EEQ1
CMRR.v1
+
-
+
- v2
I
EE
- VEE
• Electronic current source has a DC current equal
to I (or I ) and an output resistance equal toV
DD
EE SS
R (or R ).EE SSRD RD
v
D2
v
D1
M1 M2
• DC model of the electronic current source is a
DC current source, I (or I ) while AC model isv1
+
-
+
v2
- EE SSI
SS
a resistance R (or R ).EE SS-VSS
EE2002 Analog Electronics Multi-Stage and Differential Amplifiers 28