OPA4872 Datasheet, PDF(16/27 Page) Texas Instruments

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OPA4872 Datasheet, PDF (16/27 Pages) Texas Instruments – 4:1 High-Speed Multiplexer

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OPA4872

SBOS346C â JUNE 2007 â REVISED MARCH 2011

NOISE PERFORMANCE

The OPA4872 offers an excellent balance between

voltage and current noise terms to achieve low output

noise. The inverting current noise (19pA/âHz) is

significantly lower than earlier solutions, while the

input voltage noise (4.5nV/âHz) is lower than most

unity-gain stable, wideband, voltage-feedback op

amps. As long as the ac source impedance looking

out of the noninverting node is less than 100â¦, this

current noise will not contribute significantly to the

total output noise. The op amp input voltage noise

and the two input current noise terms combine to give

low output noise under a wide variety of operating

conditions. Figure 34 shows the OPA4872 noise

analysis model with all the noise terms included. In

this model, all noise terms are taken to be noise

voltage or current density terms in either nV/âHz or

pA/âHz.

ENI

OPA4872

IBN

ERS

Ã4kTRS

4kT

Ã4kTRF

IBI

4kT

1.6

at 290K

www.ti.com

The total output spot noise voltage can be computed

as the square root of the sum of all squared output

noise voltage contributors. Equation 9 shows the

general form for the output noise voltage using the

terms shown in Figure 35.

Ã( ) 2

EO = ENI + (IBNRS) + 4kTRS NG + (IBIRF) + 4kTRFNG

(9)

Dividing this expression by the noise gain (NG = (1 +

RF/RG)) gives the equivalent input-referred spot noise

voltage at the noninverting input, as shown in

Equation 10.

Ã ( ) EO =

ENI2 + (IBNRS)2 + 4kTRS +

IBIRF

4kTRF

NG NG

(10)

Evaluating these two equations for the OPA4872

circuit and component values (see Figure 27) gives a

total output spot noise voltage of 14.2nV/âHz and a

total equivalent input spot noise voltage of 7.1nV/âHz.

This total input-referred spot noise voltage is higher

than the 4.5nV/âHz specification for the OPA4872

voltage noise alone. This voltage reflects the noise

added to the output by the inverting current noise

times the feedback resistor. If the feedback resistor is

reduced in high-gain configurations, the total

input-referred voltage noise given by Equation 10

approaches only the 4.5nV/âHz of the op amp itself.

For example, going to a gain of +10 using RF = 178â¦

gives a total input-referred noise of 4.7nV/âHz.

Figure 34. Op Amp Noise Analysis Model

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