LTC6403-1 Linear Technology, LTC6403-1 Datasheet - Page 17

LTC6403-1

Manufacturer Part Number

LTC6403-1

Description

Low Power Fully Differential Input/Output Amplifier/Driver

Manufacturer

Linear Technology

Datasheet

1.LTC6403-1.pdf (20 pages)

Current page: 17 of 20
Download datasheet (260Kb)

www.DataSheet4U.com

APPLICATIONS INFORMATION

resistor values (but still less than 2k) will result in higher

output noise, but improved distortion due to less loading

on the output. The optimal feedback resistance for the

LTC6403-1 runs between 400Ω to 2k.

The differential ﬁ ltered outputs +OUTF and –OUTF will have

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

to the two 100Ω resistors which contribute 1.3nV/√ ⎯ H ⎯ z

each), but actually will provide superior signal-to-noise

ratios in noise bandwidths exceeding 69.4Mhz due to the

noise-ﬁ ltering function the ﬁ lter provides.

Layout Considerations

Because the LTC6403-1 is a very high speed ampliﬁ er, it is

sensitive to both stray capacitance and stray inductance.

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 distortion

performance. It is critical that close attention be paid to

supply bypassing. For single supply applications (Pins

3, 9 and 12 grounded) it is recommended that 3 high

quality 0.1μF surface mount ceramic bypass capacitor be

placed between pins 2 and 3, between pins 11and 12, and

between pins10 and 9 with direct short connections. Pins

3, 9 and 10 should be tied directly to a low impedance

ground plane with minimal routing. For dual (split) power

Figure 10. LTC6403-1 Output Spot Noise vs Spot Noise

Contributed by Feedback Network Alone

100

TOTAL (AMPLIFIER AND

FEEDBACK NETWORK)

OUTPUT NOISE

FEEDBACK RESISTOR

NETWORK NOISE ALONE

= R

(Ω)

64031 F10

10k

supplies, it is recommended that at least two additional

high quality, 0.1μF ceramic capacitors are used to bypass

pin V

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 sum-

ming junctions +IN, and –IN should be kept to an absolute

minimum even if it means stripping back the ground plane

away from any trace attached to this node. This becomes

especially true when the feedback resistor network uses

resistor values >2k in circuits with R

peaking in the frequency response can be mitigated by

adding small amounts of feedback capacitance around

LTC6403-1, and that it is critical that the load impedances

seen by both outputs (stray or intended) should be as bal-

anced and symmetric as possible. This will help preserve

the natural balance of the LTC6403-1, which minimizes

the generation of even order harmonics, and preserves

the rejection of common mode signals and noise.

It is highly recommended that the V

tied to a low impedance ground plane (in split supply

applications), or bypassed 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 feed-

back networks. It is also recommended that the resistive

feedback networks comprise 1% resistors (or better) to

enhance the output common mode rejection. This will also

prevent the V

common mode ampliﬁ er path (which cannot be ﬁ ltered)

from being converted to differential noise, degrading the

differential noise performance.

. Always keep in mind the differential nature of the

to ground and V

OCM

-referred common mode noise of the

–

to ground, again with minimal

OCM

LTC6403-1

pin be either hard

= R

. Excessive

64031f

LTC6403-1 Linear Technology, LTC6403-1 Datasheet - Page 17

LTC6403-1

Related parts for LTC6403-1