noise
DESCRIPTION
Noise. Resistor Thermal Noise. Example. Vnr1sqr=2.3288 x 10 -19 Vnr3sqr=7.7625 x 10- 20 Vnoutsqr =3.1050 x10 -19. Analytical Versus Simulation. Popular Interview Question. Noise Spectrum Shaping by a Low Pass Filter. As R increases, 4kTR increases, but the bandwidth decreases. - PowerPoint PPT PresentationTRANSCRIPT
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Noise
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Resistor Thermal Noise
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Example
Vnr1sqr=2.3288 x 10-19
Vnr3sqr=7.7625 x 10-20
Vnoutsqr=3.1050 x10-19
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Analytical Versus Simulation
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Popular Interview Question
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Noise Spectrum Shaping by a Low Pass Filter
As R increases, 4kTR increases, but the bandwidth decreases.Therefore, the bandwidth is constant.Pn,out can only be decreased by increasing C.
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Alternative Representation of Resistor Thermal Noise
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MOSFETS
(Typically 2/3, not to be confused with body effect coefficient)
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as a function of length
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Noise Voltage Generated Per Device
gm/ID gm(mS) gm/gds Vn(nV/sqrt(Hz)) Gamma
5 0.5 12.045 84.83 1.4976
10 1 15.707 64.5 1.018
15 1.5 17.19 52.40 0.84
20 2 17.55 44.27 0.76
25 2.5 17.05 38.22 0.76
VDS=0.6I1=100 uA
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Flicker Noise
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Flicker Noise Model
The flicker noise is modeled as a voltage source in series with the gate:
The trap-and-release phenomenon associated with the danglingbond occurs at low frequencies more often.
Device area can be increased todecrease noise due to flicker noise.
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Corner Frequency
• Definition: the frequency at which the thermal noise equals the flicker noise.
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Corner Frequency (fco)
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fco as a function of length
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Representation of Noise in Circuits
• Output noise• Input noise– Voltage noise source– Current noise source
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Output Noise
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Problem of Output Noise
• Output noise depends on the gain of the amplifier, for example.
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Input-Referred Noise Voltage
Problem: only valid for when source impedance is low.
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Input Voltage Calculation
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Calculation of Input-Referred Noise
Low sourceimpedance
High source impedance
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Input Current
More significant atHigh frequencies!
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Noise in Single Stage Amplifier
• Equivalent CS Stages• CS• CG• SF• Cascode• Differential Pairs
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Equivalent CS Stages
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Common Source Amplifier
The transconductance of M1 must be maximized in order tominimize input-referred noise.
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Input Referred Thermal Noise Voltage
M2 acts as the current source.The gm of M2 should be minimized.
M1 acts as the amplifier.The gm of M1 should be maximized.
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Noise Simulation
Thermal noise
3.758 nV/sqrt(Hz)
Av=28.711
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Noise Simulation
3.126 nV/sqrt(Hz)
Av=33.42
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Comparison
Av=33.42(simulated input-referred thermal noise)
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Flicker Noise
Dominated byFlicker noise Dominated by
Thermal noise
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Common Gate Amplifier
• Need to consider– Input referred voltage source– Input referred current source
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Gain of CG
If RS=0 and channel length modulation is ignored, Av is
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Input-Referred Voltage Source
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Input-Referred Current Source
Does not producea current to the output
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Input-Referred Thermal Noise
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Input-Referred Flicker Noise
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Design Example
Design criteria:gm/ID=5 for M0, M2, M3 and M4.gm/ID=20 for M1.I1=10 uAI2=10 uAI(M1)=40 uA
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Source Follower with a NMOS CS Load (Review)
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Source Followers
High Input impedance, noise current source is negligible.
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Cascode Stage (At Low Frequencies)
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Cascode Stage(At High Frequencies)
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Differential Pair
(negligible)
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Analysis