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OPA1611 Datasheet, PDF (12/21 Pages) Texas Instruments – High-Performance Bipolar-Input AUDIO OPERATIONAL AMPLIFIERS
OPA1611
OPA1612
SBOS450A – JULY 2009 – REVISED AUGUST 2009........................................................................................................................................................ www.ti.com
Figure 32 illustrates both inverting and noninverting
op amp circuit configurations with gain. In circuit
configurations with gain, the feedback network
resistors also contribute noise. The current noise of
the op amp reacts with the feedback resistors to
create additional noise components. The feedback
resistor values can generally be chosen to make
these noise sources negligible. The equations for
total noise are shown for both configurations.
Noise in Noninverting Gain Configuration
R2
R1
EO
RS
VS
Noise at the output:
2
2
EO2 =
1+
R2
R1
en2 + e12 + e22 + (inR2)2 + eS2 + (inRS)2
1+
R2
R1
Where eS = Ö4kTRS ´
1+
R2
R1
= thermal noise of RS
e1 = Ö4kTR1 ´
R2
R1
= thermal noise of R1
e2 = Ö4kTR2 = thermal noise of R2
Noise in Inverting Gain Configuration
R2
R1
RS
EO
VS
Noise at the output:
2
EO2 =
1 + R2
R1 + RS
en2 + e12 + e22 + (inR2)2 + eS2
Where eS = Ö4kTRS ´
R2
R1 + RS
= thermal noise of RS
e1 = Ö4kTR1 ´
R2
R1 + RS
= thermal noise of R1
e2 = Ö4kTR2 = thermal noise of R2
For the OPA161x series op amps at 1kHz, en = 1.1nV/√Hz and in = 1.7pA/√Hz.
Figure 32. Noise Calculation in Gain Configurations
12
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