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การไบอสัทรานซิสเตอร์Transistors Biasing
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Biasing
Biasing: Applying DC voltages to a transistor in order
to turn it on so that it can amplify AC signals.
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Operating Point
The DC input
establishes an
operating or
quiescent point
called the Q-point.
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The Three Operating Regions
• Active or Linear Region Operation
• Base–Emitter junction is forward biased
• Base–Collector junction is reverse biased
• Cutoff Region Operation
• Base–Emitter junction is reverse biased
• Saturation Region Operation
• Base–Emitter junction is forward biased
• Base–Collector junction is forward biased
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DC Biasing Circuits
• Fixed-bias circuit
• Emitter-stabilized bias circuit
• Collector-emitter loop
• Voltage divider bias circuit
• DC bias with voltage feedback
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Fixed Bias
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The Base-Emitter Loop
From Kirchhoff’s voltage
law:
Solving for base current:
+VCC – IBRB – VBE = 0
B
BECCB
R
VVI
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Collector-Emitter Loop
Collector current:
From Kirchhoff’s voltage law:
BC II
CCCCCE RIVV
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Saturation
When the transistor is operating in saturation, current
through the transistor is at its maximum possible value.
CR
CCV
CsatI
VCE
V 0
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Load Line Analysis
ICsat
IC = VCC / RC
VCE = 0 V
VCEcutoff
VCE = VCC
IC = 0 mA
The Q-point is the operating point where the value of RB sets the
value of IB that controls the values of VCE and IC .
The load line end points are:
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The Effect of VCC on the Q-Point
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The Effect of RC on the Q-Point
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The Effect of IB on the Q-Point
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Emitter-Stabilized Bias Circuit
Adding a resistor
(RE) to the emitter
circuit stabilizes
the bias circuit.
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Base-Emitter Loop
From Kirchhoff’s voltage law:
01 EBBBCC R)I(βRIV
0 RIVRIV EEBEEECC
EB
BECCB
)R(βR
VVI
1
Since IE = ( + 1)IB:
Solving for IB:
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Collector-Emitter Loop
From Kirchhoff’s voltage law:
0 VR I V R I CCCCCEEE
Since IE IC:
) R (R – I V V ECCCCCE
Also:
EBEBRCCB
CCCCECEC
EEE
VV R – I V V
RIVV V V
R I V
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Improved Biased Stability
Stability refers to a condition in which the currents and
voltages remain fairly constant over a wide range of
temperatures and transistor Beta () values.
Adding RE to the emitter improves
the stability of a transistor.
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Saturation Level
VCEcutoff: ICsat:
The endpoints can be determined from the load line.
mA0 I
V V
C
CCCE
ERCR
CCV
CI
VCE
V0
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Voltage Divider Bias
The currents and
voltages are nearly
independent of any
variations in .
This is a very stable bias circuit.
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Approximate Analysis
Where IB << I1 and I1 I2 :
Where RE > 10R2:
From Kirchhoff’s voltage law:
21
CC2B
RR
VRV
E
EE
R
VI
BEBE VVV
EECCCCCE RI RI V V
)R (RIV V
II
ECCCCCE
CE
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Voltage Divider Bias Analysis
Transistor Saturation Level
EC
CCCmaxCsat
RR
VII
Cutoff: Saturation:
mA0 I
VV
C
CCCE
V0 VCE
ER
CR
CCV
CI
Load Line Analysis
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DC Bias With Voltage Feedback
Another way to improve
the stability of a bias
circuit is to add a
feedback path from
collector to base.
In this bias circuit the
Q-point is only slightly
dependent on the
transistor beta, .
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Base-Emitter Loop
)Rβ(RR
VVI
ECB
BECCB
From Kirchhoff’s voltage law:
0EEBEBBCCCC R–I–VR–IRI – V
Where IB << IC: CBCC IIII'
Knowing IC = IB and IE IC, the
loop equation becomes:
0 EBBEBBCBCC RβIVRIR – β–V
Solving for IB:
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Applying Kirchoff’s voltage law:
IE + VCE + I’CRC – VCC = 0
Since IC IC and IC = IB:
IC(RC + RE) + VCE – VCC =0
Solving for VCE:
VCE = VCC – IC(RC + RE)
Collector-Emitter Loop
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Base-Emitter Bias Analysis
Transistor Saturation Level
EC
CCCmaxCsat
RR
VII
Cutoff Saturation
mA0 I
VV
C
CCCE
V0 VCE
ER
CR
CCV
CI
Load Line Analysis
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Transistor Switching Networks
Transistors with only the DC source applied can be
used as electronic switches.
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Switching Time
Transistor switching times:
dron ttt
fsoff ttt
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Switching Circuit Calculations
C
CCCsat
R
VI
dc
CsatB
β
II
Csat
CEsatsat
I
VR
CEO
CCcutoff
I
VR
Saturation current:
To ensure saturation:
Emitter-collector
resistance at
saturation and cutoff:
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Troubleshooting Hints
Approximate voltages
Test for opens and shorts with an ohmmeter.
Test the solder joints.
Test the transistor with a transistor tester or a curve tracer.
Note that the load or the next stage affects the transistor
operation.
VBE .7 V for silicon transistors
VCE 25% to 75% of VCC
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PNP Transistors
The analysis for pnp transistor biasing circuits is
the same as that for npn transistor circuits. The
only difference is that the currents are flowing in
the opposite direction.