ltc6401cud-8-trpbf Linear Technology Corporation, ltc6401cud-8-trpbf Datasheet - Page 12

ltc6401cud-8-trpbf

Manufacturer Part Number

ltc6401cud-8-trpbf

Description

1.3ghz Low Noise, Low Distortion Differential Adc Driver For 140mhz If

Manufacturer

Linear Technology Corporation

Datasheet

1.LTC6401CUD-8-TRPBF.pdf (16 pages)

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APPLICATIONS INFORMATION

LTC6401-20

Output Common Mode Adjustment

The LTC6401-20’s output common mode voltage is set

by the V

output common mode voltage is capable of tracking V

in a range from 1V to 1.6V. Bandwidth of V

typically 15MHz, which is dominated by a low pass ﬁ lter

connected to the V

mon mode noise generation at the outputs. The internal

common mode feedback loop has a –3dB bandwidth

around 300MHz, allowing fast common mode rejection at

the outputs of the LTC6401-20. The V

tied to a DC bias voltage where a 0.1μF bypass capacitor

is recommended. When interfacing with A/D converters

such as the LT22xx families, the V

connected to the V

Driving A/D Converters

The LTC6401-20 has been speciﬁ cally designed to inter-

face directly with high speed A/D converters. In Figure 7,

an example schematic shows the LTC6401-20 with a

single-ended input driving the LTC2208, which is a 16-bit,

130Msps ADC. Two external 10Ω resistors help eliminate

potential resonance associated with stray capacitance of

PCB traces and bond wire inductance of either the ADC

input or the driver output. V

connected to V

a single-ended input signal can be converted to differential

signal via a balun and fed to the input of the LTC6401-20.

The balun also converts input impedance to match 50Ω

source impedance.

OCM

pin, which is a high impedance input. The

of the LTC2208 at 1.25V. Alternatively,

OCM

pin of the ADC.

pin and is aimed to reduce com-

OCM

of the LTC6401-20 is

OCM

can be normally

OCM

pin should be

control is

OCM

Test Circuits

Due to the fully-differential design of the LTC6401 and

its usefulness in applications with differing characteristic

speciﬁ cations, two test circuits are used to generate the

information in this datasheet. Test Circuit A is DC987B,

a two-port demonstration circuit for the LTC6401 family.

The schematic and silkscreen are shown below. This

circuit includes input and output transformers (baluns)

for single-ended-to-differential conversion and imped-

ance transformation, allowing direct hook-up to a 2-port

network analyzer. There are also series resistors at the

output to present the LTC6401 with a 375Ω differential

load, optimizing distortion performance. Due to the input

and output transformers, the –3dB bandwidth is reduced

from 1.3GHz to approximately 1.1GHz.

Test Circuit B uses a 4-port network analyzer to measure

S-parameters and gain/phase response. This removes the

effects of the wideband baluns and associated circuitry,

for a true picture of the >1GHz S-parameters and AC

characteristics.

Figure 7. Single-Ended Input to LTC6401-20 and LTC2208

IF IN

66.5Ω

29Ω

0.1μF

+IN

–IN

ENABLE

LTC6401-20

OCM

+OUT

–OUT

+OUTF

–OUTF

20dB GAIN

0.1μF

10Ω

1.25V

AIN

LTC2208 130Msps

–

LTC2208

16-Bit ADC

640120 F07

640120f

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