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1
Studio 8 & 9 Review• Operational Amplifier– Stability– Compensation– Miller Effect– Phase Margin– Unity Gain Frequency– Slew Rate Limiting
• Reading: Razavi ch. 9, 10– Lab 8, 9 op-amp is Fig. 10.34 in sec. 10.5.1– (see also Johns & Martin sec 5.2 pp. 232-242)
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2
Two-stage op-amp
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3
Analysis Strategy• Recognize sub-blocks• Represent as cascade of simple stages
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4
Total op-amp model
Input differential pair Common source stage
rO2||rO4 rO5||rO8
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5
DC operating point
ID[!A] VGS-VTH
M1 25 0.235
M2 25 0.235
M3 25 0.247
M4 25 0.247
M5 50 0.350
M6 50 0.332
M7 50 0.332
M8 50 0.332
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6
Small signal parameters
ID[µA] VGS-VTH gm[µA/V] rO M1 25 0.235 208 M2 25 0.235 800kΩ M3 25 0.247 M4 25 0.247 1.43MΩ M5 50 0.350 285 715kΩ M6 50 0.332 M7 50 0.332 M8 50 0.332 400kΩ Note: n= 0.050 V-1 ; p= 0.028 V-1
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7
Total op-amp model: Low frequency gain
Input differential pair Common source stage
!
av1 = gm1 rO2 rO4( )
av1 = 208µA V( ) 800k" 1.43M"( )av1 =106
!
av2 = gm2 rO5 rO8( )
av2 = 285µA V( ) 400k" 715k"( )av2 = 73
rO2||rO4 rO5||rO8
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8
Total op-amp model with capacitances
Gate of M5 Load: scope probe ≈10pFCg = (900µm)(10µm) 4.17E ! 4
F
m2
" #
$ %
Cg = 3.74 pF
rO2||rO4 rO5||rO8
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9
Total op-amp model with capacitances
First stage pole Second stage pole
!
f p1 =1
2" rO2 rO4( )Cg5
f p1 =1
2" 800k# 1.43M#( ) 3.74 pF( )
f p1 = 82kHz
!
f p1 =1
2" rO5 rO8( )CL
f p1 =1
2" 400k# 715k#( ) 10pF( )
f p1 = 61kHz
rO2||rO4 rO5||rO8
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10
Open loop transfer function• Product of individual stage transfer functions
!
A( j") =gm1 rO2 rO4( )
1066 7 4 8 4
gm5 rO5 rO8( )736 7 4 8 4
1+ j" rO2 rO4( )Cg5[ ] 1+ j" rO5 rO8( )CL[ ]
!
A( j") =7738
1+ jf
82kHz
#
$ %
&
' (
)
* +
,
- . 1+ j
f
61kHz
#
$ %
&
' (
)
* +
,
- .
• Numerically (using ω = 2πf)
• Check Bode plot simulation; predicts:– DC gain = 20log(7738) = +78dB– Unity gain frequency ~ 6.2 MHz
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11
Two-stage op-amp: Simulation Schematic
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12
DC Operating Point Simulation
SystematicOffset!
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Bode plot
• Magnitude, phase on log scales• Pole: Root of denominator polynomial
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14
Open loop Bode plot• Product of terms : Sum on log-log plot
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15
Open Loop Bode Plot Simulation
Note: AC source at input also needs DC component to account for systematic offset!
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16
Check Open Loop Bode Plot Simulation
√ DC gain ~ +78dB
Unity gain ~ 16MHz
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17
Stability example: Closed loop follower
• Negative feedback:Output connected to inverting input
• Gain should be ~ 1
!
vout
= A vin" v
out( )
vout
A +1( ) = Avin
vout
=A
A +1
#
$ %
&
' (
) 1as A >> 1
1 2 3
vin
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18
Unity gain: Why bother?
• With buffer:No current requiredfrom source
vout =RL
RL + RS
!
" # $
% & vin vout = vin
• No buffer:Voltage divider
• Signal reduced due tovoltage drop across RS
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19
Lab 9 Problem: Instability• Oscillation superimposed on desired output!?!
vIN
vOUT
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Lab 9 Problem: Instability• Ground vin: Output for zero input?!?• Why? Need...
vIN
vOUT
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Controls: ES3011 in 20 minutes• General framework
A: Forward Gainβ: Feedback Factor fraction of output fed back to input
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22
Example: Op-amp, Noninverting GainA: Forward Gain
Op-amp open loop gainVout=A(V+-V-)Transfer function A(jω)
β: Feedback Factor
! =R1
R1 + R2
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23
Closed Loop Gain• Output
• Solve for vout/vin
vout = A vin !"vout( )v+ ! v!
1 2 4 3 4
vout = Avin ! A"vout
1 + A"( )vout = Avin
vout
vin
=A
1 + A"
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24
Op-amp with negative feedback• If Aβ >> 1
• Closed loop gain determined only by β• Advantage of negative feedback:
Open loop gain A can be ugly (nonlinear,poorly controlled) as long as it's large!
vout
vin
=A
1 + A!"A
A!#
vout
vin
"1
!
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25
Example: Op-amp, Noninverting Gainβ: Feedback Factor
Closed loop gain
! =R1
R1 + R2
vout
vin
=R1 + R2
R1
=1
!
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Reexamine closed loop transfer function• Output with no input:
infinite gain• Infinite when 1+Aβ = 0• Condition for oscillation:
1+Aβ = 0• In general A, β functions of ω• If there's a frequency ω at which 1+Aβ = 0:
Oscillation at that frequency!
vout
vin
=A
1 + A!
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27
Example: follower
• Use A(jω),solve for 1+A = 0
• No thanks!
! = 1 "vout
vin
=A
1 + A
!
A( j") =gm1 rO2 rO4( )gm5 rO5 rO8( )
1+ j" rO2 rO4( )Cg5[ ] 1+ j" rO5 rO8( )CL[ ]
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Reexamine condition for oscillation1+Aβ = 0 → Aβ = -1
Magnitude and phase condition:|Aβ| = 1 AND ∠Aβ = -180°
• Easier to get from Bode plot
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Look at original Aβ for 2 stage op-amp• Find ω at which |Aβ| = 1; Check ∠Aβ -180° ?
Trouble!
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Simulation Aβ for 2 stage op-amp
> 180° phase lag at unity loop gain!
Unity loop gain at ~ 16MHz
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Compensation: “Dominant Pole”
• Move one pole tolower frequency
• How?
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Compensation: “Dominant Pole”
• Need to increasecapacitanceby ≈ 1000X:BAD! Die area cost
rO2||rO4 rO5||rO8
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Miller Effect• Impedance across inverting gain stage G• Reduced by factor equal to (1+G)
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Math for Miller effect
• Impedance across inverting gain stage G• Reduced by factor equal to (1+G)
!
ix =vx " ("Gvx )
Z
ix =vx 1+ G( )
Z
vx
ix
= Zin =Z
1+ G( )
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Example: Impedance is capacitive• Capacitance multiplied by (1+G)
• Equivalent capacitance higher by factor 1+G• Problem for high bandwidth amplifiers• Opportunity for compensation ...
Zin =Z
1+G( )
Z =1
sC! Zin =
1
s 1 +G( )C
Ceq
1 2 4 3 4
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Miller Compensation• Need effect of large capacitance• Use Miller effect to multiply small on-chip
capacitance to higher effective value• Effect of large capacitance
without die area cost of large capacitance
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New schematic• Add CC across 2nd stage
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New loop gain transfer function
125° phase lag at unity loop gain
Unity loop gain at ~65kHz
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New step response• No oscillation!
vIN
vOUT
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40
New step response with CC
• Zoom in on small-signal step response:Some overshoot and ringing
vIN
vOUT
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41
Reason: RHP zero in complete transfer function
• Complete transfer function looks like:
• See Razavi 10.5, Johns & Martin 5.2
Effect of RHP zero:additional phase lag
Open loop gain A with only 2 poles
!
A( j") =A01# j " "Z( )[ ]
1+ j " " p1( )[ ] 1+ j " " p2( )[ ]
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42
"Phase margin"• How stable is new
transfer function?• Phase margin =Phase lag at |Aβ| = 1
minus (-180°)
• Usually want atleast 60° for stablestep response
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43
Phase margin of op-amp with CC
125° phase lag at unity loop gain
Unity loop gain at ~65kHz
Phase margin = 55°
-180°
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44
Solution to RHP zero problem• Add RZ in series with CC
Moves RHP zero to much higher frequency
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New step response with RZ, CC
• Zoom in on small-signal step response:No overshoot, ringing: phase margin improved
vIN
vOUT
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46
Large signal step response• Slew Rate Limiting!?!
vIN
vOUT
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Dominant pole op-amp model
• Simpler model with dominant pole from CC
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Approximate dominant pole transfer function
!
A( j") #gm1 rO2 rO4( )A2
1+ j" rO2 rO4( )A2CC[ ]
A2 = gm5 rO5 rO8( )
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Unity gain frequency• Depends only on– Input stage
transconductance gm1– Compensation
capacitor CC
!
A( j") #gm1 rO2 rO4( )A2" rO2 rO4( )A2CC[ ]
A( j") =1 at "T
"T #gm1
CC
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Slew rate• I= C dV/dt• Only limited current IBIAS available to charge,
discharge CC
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Slew rate
• I= C dV/dt ⇒ =CC
IBIASdVdt
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Summary Op-amp:• Stability• Compensation• Miller effect• Phase Margin• Unity gain frequency• Slew Rate Limiting