LT1115_15 Datasheet, PDF(8/16 Page) Linear Technology – Ultralow Noise, Low Distortion, Audio Op Amp

English

English German Russian Spanish Italian Polish Chinese Japanese Korean French Portuguese	Language :

LT1115_15 Datasheet, PDF (8/16 Pages) Linear Technology – Ultralow Noise, Low Distortion, Audio Op Amp

◁

LT1115

APPLICATIO S I FOR ATIO

Therefore, to realize truly low noise performance it is

important to understand the interaction between voltage

noise (en), current noise (in) and resistor noise (rn).

Total Noise vs Source Resistance

The total input referred noise of an op amp is given by

et = [en2 + rn2 + (inReq)2]1/2

where Req is the total equivalent source resistance at

the two inputs

and rn = â4kTReq = 0.13âReq in nV/âHz at 25Â°C

As a numerical example, consider the total noise at 1kHz

of the gain of 1000 amplifier shown below.

100â¦

100k

100â¦

LT1115

LT1115 â¢ AI01

Req = 100â¦ + 100â¦||100k â 200â¦

rn = 0.13â200 = 1.84nV/âHz

en = 0.85nV/âHz

in = 1.0pA/âHz

et = [0.852 + 1.842 + (1.0 x 2.0)2]1/2 = 2.04nV/âHz

output noise = 1000 et = 2.04ÂµV/âHz

At very low source resistance (Req < 40â¦) voltage noise

dominates. As Req is increased resistor noise becomes the

largest termâas in the example aboveâand the LT1115âs

voltage noise becomes negligible. As Req is further

increased, current noise becomes important. At 1kHz,

when Req is in excess of 20kâ¦, the current noise

component is larger than the resistor noise. The Total

Noise vs Matched Source Resistance plot in the Typical

Performance Characteristics section, illustrates the above

calculations.

The plot also shows that current noise is more dominant

at low frequencies, such as 10Hz. This is because resistor

noise is flat with frequency, while the 1/f corner of current

noise is typically at 250Hz. At 10Hz when Req > 1kâ¦, the

current noise term will exceed the resistor noise.

When the source resistance is unmatched, the Total Noise

vs Unmatched Source Resistance plot should be con-

sulted. Note that total noise is lower at source resistances

below 1kâ¦ because the resistor noise contribution is less.

When Rs > 1kâ¦ total noise is not improved, however. This

is because bias current cancellation is used to reduce

input bias current. The cancellation circuitry injects two

correlated current noise components into the two inputs.

With matched source resistors the injected current noise

creates a common-mode voltage noise and gets rejected

by the amplifier. With source resistance in one input only,

the cancellation noise is added to the amplifierâs inherent

noise.

In summary, the LT1115 is the optimum amplifier for

noise performanceâprovided that the source resistance

is kept low. The following table depicts which op amp

manufactured by Linear Technology should be used to

minimize noiseâas the source resistance is increased

beyond the LT1115âs level of usefulness.

Best Op Amp for Lowest Total Noise vs Source Resistance

SOURCE RESISTANCE

(NOTE 1)

0 to 400â¦

400â¦ to 4kâ¦

4kâ¦ to 40kâ¦

40kâ¦ to 500kâ¦

500kâ¦ to 5Mâ¦

> 5M

BEST OP AMP

AT LOW FREQ (10Hz) WIDEBAND (1kHz)

LT1028/1115

LT1007/1037

LT1001*

LT1012*

LT1012* or LT1055

LT1055

LT1028/1115

LT1007/1037

LT1001*

LT1012*

LT1055

Note 1: Source resistance is defined as matched or unmatched, e.g.,

RS = 1kâ¦ means: 1kâ¦ at each input, or 1kâ¦ at one input and zero at the

other.

*These op amps are best utilized in applications requiring less bandwidth

than audio.

1115fa

▷