LTC6405 Linear Technology, LTC6405 Datasheet - Page 20

LTC6405

Manufacturer Part Number

LTC6405

Description

Rail-to-Rail Input Differential Amplifier/Driver

Manufacturer

Linear Technology

Datasheet

1.LTC6405.pdf (24 pages)

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APPLICATIONS INFORMATION

LTC6405

The LTC6405’s input referred voltage noise contributes the

equivalent noise of a 155Ω resistor. When the feedback

network is comprised of resistors whose values are less

than this, the LTC6405’s output noise is voltage noise

dominant (see Figure 11):

Feedback networks consisting of resistors with values

greater than about 200Ω will result in output noise which

is resistor noise and ampliﬁ er current noise dominant.

Lower resistor values (<100Ω) always result in lower noise

at the penalty of increased distortion due to increased load-

ing of the feedback network on the output. Higher resistor

values (but still less than <500Ω) will result in higher

output noise, but typically improved distortion due to less

loading on the output. The optimal feedback resistance for

the LTC6405 runs in between 100Ω to 500Ω.

The differential ﬁ ltered outputs +OUTF and –OUTF will

have a little higher noise than the unﬁ ltered outputs (due

to the two 50Ω resistors which contribute 0.9nV/√Hz

each), but can provide superior signal-to-noise due to the

output noise ﬁ ltering.

Layout Considerations

Because the LTC6405 is a very high speed ampliﬁ er, it is

sensitive to both stray capacitance and stray inductance.

In the QFN package, three pairs of power supply pins are

provided to keep the power supply inductance as low

as possible to prevent any degradation of ampliﬁ er 2nd

harmonic performance. It is critical that close attention be

paid to supply bypassing. For single supply applications

it is recommended that high quality 0.1μF surface mount

ceramic bypass capacitor be placed directly between each

should be tied directly to a low impedance ground plane

with minimal routing. For dual (split) power supplies, it is

and V

≈ e

≈ 2 •

–

pin with direct short connections. The V

• 1+

⎛

⎝ ⎜

(

• R

⎞

⎠ ⎟

)

+ 1+

⎛

⎝ ⎜

⎞

⎠ ⎟

• 4 • k • T • R

–

pins

recommended that additional high quality, 0.1μF ceramic

capacitors are used to bypass V

ground, again with minimal routing. For driving large loads

(<200Ω), additional bypass capacitance may be needed for

optimal performance. Keep in mind that small geometry

(e.g., 0603) surface mount ceramic capacitors have a much

higher self resonant frequency than do leaded capacitors,

and perform best in high speed applications.

Any stray parasitic capacitances to ground at the summing

junctions, +IN and –IN, should be minimized. This becomes

especially true when the feedback resistor network uses

resistor values >500Ω in circuits with R

in mind the differential nature of the LTC6405, and that it

is critical that the load impedances seen by both outputs

(stray or intended), should be as balanced and symmetric

as possible. This will help preserve the natural balance

of the LTC6405, which minimizes the generation of even

order harmonics, and improves the rejection of common

mode signals and noise.

It is highly recommended that the V

to ground with a high quality ceramic capacitor whose

value exceeds 0.01μF . This will help stabilize the common

mode feedback loop as well as prevent thermal noise from

the internal voltage divider and other external sources of

noise from being converted to differential noise due to

divider mismatches in the feedback networks. It is also

recommended that the resistive feedback networks be

comprised of 1% resistors (or better) to enhance the

output common mode rejection. This will also prevent

mode ampliﬁ er path (which cannot be ﬁ ltered) from being

converted to differential noise, degrading the differential

noise performance.

Feedback factor mismatch has a weak effect on distortion.

Using 1% or better resistors will limit any mismatch from

impacting ampliﬁ er linearity. However, in single supply

level shifting applications where there is a voltage differ-

ence between the input common mode voltage and the

output common mode voltage, resistor mismatch can

make the apparent voltage offset of the ampliﬁ er appear

worse than speciﬁ ed.

OCM

input referred common mode noise of the common

to ground and V

OCM

= R

pin be bypassed

. Always keep

–

6405fa

LTC6405 Linear Technology, LTC6405 Datasheet - Page 20

LTC6405

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