Transcript Slide 1

Chapter 3:
Bipolar Junction Transistors
Transistor Construction
There are two types of transistors:
• pnp
• npn
pnp
The terminals are labeled:
• E - Emitter
• B - Base
• C - Collector
npn
Electronic Devices and Circuit Theory, 10/e
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Transistor Operation
With the external sources, VEE and VCC, connected as shown:
• The emitter-base junction is forward biased
• The base-collector junction is reverse biased
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Currents in a Transistor
Emitter current is the sum of the collector and
base currents:
IE  IC  IB
The collector current is comprised of two
currents:
IC  IC
 I CO
majority
minority
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Common-Base Configuration
The base is common to both input (emitter–base) and
output (collector–base) of the transistor.
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Common-Base Amplifier
Input Characteristics
This curve shows the relationship
between of input current (IE) to input
voltage (VBE) for three output voltage
(VCB) levels.
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Common-Base Amplifier
Output Characteristics
This graph demonstrates
the output current (IC) to
an output voltage (VCB) for
various levels of input
current (IE).
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Operating Regions
•
Active – Operating range of the
amplifier.
•
Cutoff – The amplifier is basically
off. There is voltage, but little
current.
•
Saturation – The amplifier is full on.
There is current, but little voltage.
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Approximations
Emitter and collector currents:
I
C
I
E
Base-emitter voltage:
VBE  0.7 V (f orSilicon)
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Alpha (a)
Alpha (a) is the ratio of IC to IE :
IC
αdc 
IE
Ideally: a = 1
In reality: a is between 0.9 and 0.998
Alpha (a) in the AC mode:
αac 
Electronic Devices and Circuit Theory, 10/e
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ΔI C
ΔI E
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Transistor Amplification
Currents and Voltages:
Voltage Gain:
Vi
200mV
I E  Ii 

 10mA
Ri
20Ω
I
C
I
V
I
Av 
VL
Vi

50V
 250
200mV
E
L
 I  10 mA
i
L
 I R  (10 ma)(5 kΩ)  50 V
L
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Common–Emitter Configuration
The emitter is common to both input
(base-emitter) and output (collectoremitter).
The input is on the base and the
output is on the collector.
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Common-Emitter Characteristics
Collector Characteristics
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Base Characteristics
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Common-Emitter Amplifier Currents
Ideal Currents
IC = a IE
IE = IC + IB
Actual Currents
IC = a IE + ICBO
where ICBO = minority collector current
ICBO is usually so small that it can be ignored, except in high
power transistors and in high temperature environments.
When IB = 0 A the transistor is in cutoff, but there is some minority
current flowing called ICEO.
I CEO 
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I CBO
1 α
14
I B  0 μA
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Beta ()
 represents the amplification factor of a transistor. ( is
sometimes referred to as hfe, a term used in transistor modeling
calculations)
In DC mode:
βdc
IC

IB
In AC mode:
 ac 
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IC
IB
15
VCE constant
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Beta ()
Determining  from a Graph
(3.2m A  2.2 mA)
(30 μA  20 μA)
1mA

V  7.5
10 μA CE
 100
β AC 
2.7 m A
VCE  7.5
25 A
 108
β DC 
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Beta ()
Relationship between amplification factors  and a
α
β
β1
β
α
α 1
Relationship Between Currents
I C  βIB
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I E  (β  1)IB
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Common–Collector Configuration
The input is on the
base and the output is
on the emitter.
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Common–Collector Configuration
The characteristics are
similar to those of the
common-emitter
configuration, except the
vertical axis is IE.
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Operating Limits for Each Configuration
VCE is at maximum and IC is at
minimum (ICmax= ICEO) in the cutoff
region.
IC is at maximum and VCE is at
minimum (VCE max = VCEsat = VCEO) in
the saturation region.
The transistor operates in the active
region between saturation and cutoff.
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Power Dissipation
Common-base:
PCmax  VCBI C
Common-emitter:
PCmax  VCEI C
Common-collector:
PCmax  VCEI E
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Transistor Specification Sheet
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Transistor Specification Sheet
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Transistor Testing
•
Curve Tracer
Provides a graph of the characteristic curves.
•
DMM
Some DMMs measure DC or hFE.
•
Ohmmeter
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Transistor Terminal Identification
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