THS6012 Datasheet, PDF(23/35 Page) Texas Instruments – 500-mA DUAL DIFFERENTIAL LINE DRIVER

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THS6012 Datasheet, PDF (23/35 Pages) Texas Instruments – 500-mA DUAL DIFFERENTIAL LINE DRIVER

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THS6012

500-mA DUAL DIFFERENTIAL LINE DRIVER

SLOS226Câ SEPTEMBER 1998 â REVISED FEBRUARY 2000

APPLICATION INFORMATION

noise calculations and noise figure

Noise can cause errors on very small signals. This is especially true for the amplifying small signals. The noise

model for current feedback amplifiers (CFB) is the same as voltage feedback amplifiers (VFB). The only

difference between the two is that the CFB amplifiers generally specify different current noise parameters for

each input while VFB amplifiers usually only specify one noise current parameter. The noise model is shown

in Figure 42. This model includes all of the noise sources as follows:

â¢ en = Amplifier internal voltage noise (nV/âHz)

â¢ IN+ = Noninverting current noise (pA/âHz)

â¢ INâ = Inverting current noise (pA/âHz)

â¢ eRx = Thermal voltage noise associated with each resistor (eRx = 4 kTRx )

eRs

Noiseless

eni

eno

IN+

eRf

INâ

eRg

Figure 41. Noise Model

+ Ç¸Ç Ç ) Ç ) Ç ) Ç Ç Ã¸ ÇÇ ) ) Ç Ã¸ Ç The total equivalent input noise density (eni) is calculated by using the following equation:

eni

INâ RF RG

4 kTRs 4 kT RF RG

Where:

k = Boltzmannâs constant = 1.380658 Ã 10â23

T = Temperature in degrees Kelvin (273 +Â°C)

RF || RG = Parallel resistance of RF and RG

+ + Ç ) Ç To get the equivalent output noise of the amplifier, just multiply the equivalent input noise density (eni) by the

overall amplifier gain (AV).

eno eni AV

eni 1

(Noninverting Case)

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