biasing using a current source
TRANSCRIPT
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Current Source Biasing• Integrated circuits have transistors which are manufactured
simultaneously with the same device parameters (parameters from chipto chip will vary)
• As a result, different bias techniques are employed than in discretedesigns
• One common technique is current source biasing, which allows thedesigner to take advantage of matched devices
• We will begin by looking at some simple current source circuits
• A current source is not a “naturally” occurring device. It can besimulated by a network of transistors and circuit elements.
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The voltage across RE is approximately constant.∴ IE is held at a constant value
IV V
REEE BE
E
=− −
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Problem: For the previous circuits find the bias values IC and VCE for each transistor
SolutionAssume D1 and D2 forward biases (I1 > IB2)
V V V
V V I R
V V
IVR
I I
I I
B EE F
F BE E
BE F
EF
C E
C C
= + = − + = −
= +
≅
= = ≅
≅= =
2 10 2 0 7 8 6
0 7180
37
39
2 2 2
2
22
1 2
V V) V
Using KVL around loop A
2
Since
VmA
Since
mA
( . .
..
.
Ω
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Check that D1 and D2 are forward biased for a worstcase minimum βF = 20
II
IV V
R
V V I R
V V V
V V V
V V V
V V V
BC
F
CC B
C CC C C
E B BE
E C BE
CE C E
CE C E
22
11
1 1
2 2
1 2 1
1 1 1
2 2 2
019
10 8 650
0 37
10 39 61
8 6 0 7 9 3
0 0 7
61 0 7 6 8
0 7 9 3 8 6
= ≅
=−
=− −
=
= − = − =
= − = − − = −
= = − = −
= − = − − =
= − = − − − =
β.
( . ).
( . ) .
. . .
.
. ( . .
. ( . .
mA
V Vk
mA
V mA)(1k V
V V V
V V
V V) V
V V) V
Ω
Ω
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Current Mirrors• Current mirrors also take advantage of matched transistors but require
a minimal number of resistors. They are also well suited for circuitswith more than one stage.
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Basic BJT Current Mirror
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IV V V
RV V V
R
I I I I
I I I I
I I
ACC CE EE
A
CC BE EE
A
A REF B B
B REF B REF
REF A
=− +
=− −
= + +
<< <<
≅
( )1 1
1 2
1 2IF is large Fβ
ProblemFor the following circuit IC3 = 3 mA andVCE = 5.4 V. Find the quiescent (DC bias) power dissipated in each transistor.
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I I I I
IV VR
RV V
I
V V V
V V
R
C o REF A
AF EE
A
AF EE
REF
E CE C
CC C
C
3
0
0 7 1031
0 7 5 4 4 7
10 4 7 53
533
18
≅ = ≅
=− +
=− −
=− − −
=
= − = =
− = − =
= =
V
V V)3mA
k
V; To achieve V V
V V V
VmA
k
( )
. (.
. . , .
. .
..
Ω
Ω
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The DC power in each transistor is given by:
P I V I V I V
P
P
P
Q C CE B BE C CE
Q
Q
Q
= + ≅
= =
= − − − ≅
= =
1
2
3
3 0 7 0 2
3 0 7 10 28
3 16
( ( . .
( . (
(
mA) V) mW
mA)[ V V)] mW
mA)(5.4V) mW
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MOSFET Current Mirror
Advantage: IREF = IA
Gate current is negligible
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Widlar Current Source
• The basic current mirror requires that the bias current and referencecurrent be equal
• The wildar current source sets the mirrored current to a value smallerthan IREF by using an extra resistor
• The widlar current source allows you to establish small bias currents(µA) without using large resistor values
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IV V V
R
V V I R
I I e I e
V VII
VII
VII
I R
I R VII
REFCC EE BE
A
BE BE E
E EO
VV
EO
VV
BE TE
EO
TE
EOT
E
EOE
E TE
E
BE
T
BE
T
≅− −
= +
= −
≅
=
= +
=
1
1 2 2 2
1 12 2
2 21
2
1η η
η
η η
η
ln
ln ln
ln
Assuming matched BJTs
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I I I I
IVR
II
E REF E o
oT REF
o
1 2
2
≅ ≅
=η
ln
• Equation difficult to solve in closed form. Usesuccessive iteration or trial and error
• When you know the desired Io then IREF can befound directly
I II R
VREF oo
T
=
exp 2
η
Problem:Using a widlar current source find the values of RA and RB that will produce Io = 100 µA. GivenVCC = 10 V, VEE = -10 V, VF = 0.7 V andη = 1.
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Solution:
Select a value of R2 such that
I R Vo T2 ≅ η
To keep exponent from becoming too large
η
µ µ
V
I R R
I
IV V V
R
R
T
o
REF
REFCC EE F
A
A
=
= ∴ =
=
=
=− −
=− − −
=
25
100 1
100100
0 0255 46
10 10 0 7354
2 2
mV
Choose mV k
AA)(1k
VmA
V V) V5.46 mA
k
Ω
Ω
Ω
( )exp( )
..
( ..
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Wilson Current Source
• Refined Widlar source that can produce IO > IREF
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• The balance between VBE1 and VBE2 is set by theratio of R1 to R2
Assuming
Assuming matched devices
I I
V I R V I R
VII
I R VI
II R
IVR
II
IRR
C E
BE REF BE o
TREF
EOREF T
o
EOo
oT REF
oREF
≅
+ = +
+ = +
= +
1 1 2 2
11
22
2
1
2
η η
η
ln ln
ln
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Small Signal Modeling of Three Terminal Devices
• Incremental signals
• Piecewise linear models
• Incremental circuit models– BJT
– FET
• Refinements to incremental model– Output resistance
– Input resistance
– Alternative BJT representation
• Two - port representations
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Small Signal Modeling of Three Terminal Devices
• Related to PWL concept in which the V-I characteristics are modeledby a straight line tangent to the curve at a particular operating point
• With three terminal devices the relationship between the output portand input port must be taken into account. This generally leads to aPWL model with a linearly dependent source.
• Circuits containing small signal models can be analyzed using linearcircuit theory under proper conditions
• The terms small-signal and incremental will be used interchangeably
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Incremental Signals
• Any transient, periodic or AC fluctuation in a voltage or current
• An incremental signal is small in magnitude compared to the biasvoltages or currents in the circuit
• Incremental signal carries the signal information processed by thecircuit
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PWL Models of Three Terminal Devices
• Formation of small signal model begins with PWL model
• PWL model can be applied to three terminal device if the dependencyof the output port is considered
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rvi
VIBE
be
b V I
T
BBE B
= =∂∂
η
,
• Model valid only in constant current region• If the circuit in which the BJT is connected
produces a signal as well as a bias component to iB
then:
i t i tc b( ) ( )= βο
• where ic and ib are inc• remental signals and βο is the incremental current
gain
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• Since βF is fairly constant it is possible to assume βο = βF in manycases
• The symbols hFE and hfe are sometimes used instead of βF and βο whenusing h-parameter analysis
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Incremental Circuit Model
In analyzing the small signal performance of acircuit it is customary to ignore the DC componentsof the model once the bias conditions have beenestablished.
This can be accomplished by the followingprocedure:
1. Find the DC bias point and determine anappropriate PWL model
2. Set all bias values to zero by setting all DC sourcesto zero (including those in the PWL model)
3. Solve the desired variables using linear circuittheory
4. Superimpose the signal variables onto thecorresponding DC bias voltages and currents toobtain the total voltage and current values
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IV V
R
I I
V V V I R
BBB F
B
C F B
OUT CE CC C C
=−
=−
=
= = =
= = − = − =
1 0 710
30
100 30 3
10 3 7
V Vk
A
A mA
V mA)(1k V
.
( )( )
( )
Ω
Ω
µ
β µ
• Transistor operates in constant current therefore wecan use PWL model developed earlier
rVIbe
T
B
= = ≅η
µ1 0 02530
833( . )
AΩ
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iv
R rv i R
vR
R rv v v
RR r
V V v t v t
bs
B beo b C
oC
B bes s s
C
B be
OUT CE o s
=+
= −
=−
+=
−+
≅ −
−+
= + = −= +
β
β
β
ο
ο
ο
100 110 0 833
9 2
7 9 2
( ).
.
( ) . ( )
kk k
is the incremental or small - signal voltage gain
V
Total Bias Incremental
Voltage Voltage Signal
ΩΩ Ω
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Problem:
For the following circuit find the incremental components of vc and ve.
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Note: vs connection does not represent typical amplifier design.
KVL around the input loop for incremental signal
( )
vR
R Ri R R i r i R
iv R
R R
R R r R
v i RR R
R R v
R R r R
v i RR R
R R v
R R r R
s b b b E
b
s
E
e b E
E s
E
c b C
C s
E
1
1 21 2
1
1 2
1 2
1
1 2
1 2
1
1 2
1 2
1
1
11
1
1
+= + + +
=+
+ + +
= + =+ +
+ + +
= − = −+
+ + +
( ) ( )
( )
( ) ( )
( )( )
( ) ( )
( )( )
( ) ( )
π ο
π ο
ο
ο
π ο
ο
ο
π ο
β
β
ββ
β
ββ
β
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In the limit R R R
r R
vR
R Rv
vRR
RR R
v
E
E
e s
cC
Es
1 2
1
1 2
1
1 2
1
1
1
<< +
+ ≅<< +
≅+
≅ −+
( )
( )
ββ β
β
ο
ο ο
π ο
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Incremental Model of MOSFET
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[ ]gi
v vk V V k V V
V VIk
g k I
mD
GS V I GSGS TR V I GS TR
GS TRD
m D
GS DGS D
= = − = −
− =
=
∂∂
∂∂,
,
/
( ) ( )2
1 2
2
2
Assume constant current operation
Similar expression can be derived for JFET
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• An incremental description for a FET can also be defined for triode(resistive) region
• It can be shown that the incremental model is as follows
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( )r
k V Vg k Vds
GS TRm DS=
−=
1
22
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Problem:(A) Find the small signal componont of VOUT for the
following circuitd vs = 0.1 Sin ωt, k = 0.2 mA/V2,
VTR = -2 V.
(B) Find the Thevenin circuit between VOUT and ground
..
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The bias values can be found to be
mA VI V I RD GS D E≅ = − = −0 47 0 47. .
Applying KVL to output loop
V V I R RDS DD D D E= − + = − =( ) ( . .10 0 47 8 6V mA)(3k) V
• Since VDS > (VGS −VTR) = 1.53 V the deviceoperates in the constant current region
The incremental transconductance gm is given by
[ ]g k V Vm GS TR= −
= − − −
≅
2
2 0 2 0 47 2
0 61
2
( )
( . ) . (
.
mA / V V V)
mA / V
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• The signal component of vOUT can be found by substituting the PWLmodel and setting all DC sources to zero
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Applying KVL to the output loop
Note feedback limits the fraction of v that appears
as v
mA / V)(2 k
1+ (0.61mA / V)(1k
t) = t
s
gs
v v i R v g v R
vvg R
v i R g v R
vg Rg R
v
av
vg Rg R
v a v
gs s d E s m gs E
gss
m E
OUT d D m gs D
OUTm D
m Es
VOUT
s
m D
m E
OUT V s
= − = −
=+
∴
= − = −
=−+
= =−+
=−
= −
= = − −
( )
( . )
).
( . )( . sin . sin
1
1
1
0 610 76
0 76 01 0 076
ΩΩ
ω ω
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• Since vOUT is computed with no load it represents the incremental opencircuit Thevenin voltage
• The incremental rth can be found by setting vs to zero and applyingvTEST
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v g v R
ivR
rvi
R
gs m gs E
testtest
D
thtest
testD
= =
=
= =
can only be satisfied if v gs 0