LTC1414 Linear Technology, LTC1414 Datasheet - Page 11

LTC1414

Manufacturer Part Number

LTC1414

Description

14-Bit/ 2.2Msps/ Sampling A/D Converter

Manufacturer

Linear Technology

Datasheet

1.LTC1414.pdf (20 pages)

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Input Filtering

The noise and the distortion of the input amplifier and

other circuitry must be considered since they will add to

the LTC1414 noise and distortion. The small-signal band-

width of the sample-and-hold circuit is 40MHz. Any noise

or distortion products that are present at the analog inputs

will be summed over this entire bandwidth. Noisy input

circuitry should be filtered prior to the analog inputs to

minimize noise. A simple 1-pole RC filter is sufficient for

many applications.

For example, Figure 9 shows a 500pF capacitor from A

to ground and a 100 source resistor to limit the input

bandwidth to 3.2MHz. The 500pF capacitor also acts as a

charge reservoir for the input sample-and-hold and iso-

lates the ADC input from sampling glitch-sensitive cir-

cuitry. High quality capacitors and resistors should be

used since poor quality components can add distortion.

NPO and silver mica type dielectric capacitors have excel-

lent linearity. Carbon surface mount resistors can also

generate distortion from self heating and from damage

that may occur during soldering. Metal film surface mount

resistors are much less susceptible to both problems.

APPLICATIONS

Figure 8. If a Transformer Coupled Input is Required,

this Circuit Provides a Simple Solution

Figure 9. An RC Filter Reduces the ADC’s 40MHz

Bandwidth to 3.2MHz and Filters Out Wideband Noise

Which May Be Present in the Input Signal

ANALOG

INPUT

1:N

100

INFORMATION

10 F

500pF

1 F

10 F

500pF

REFCOMP

AGND

REF

–

LTC1414

REFCOMP

AGND

LTC1414 • F09

REF

–

LTC1414

LTC1414 • F08

Input Range

The 2.5V input range of the LTC1414 is optimized for low

noise and low distortion. Most op amps also perform best

over this same range, allowing direct coupling to the

analog inputs and eliminating the need for special transla-

tion circuitry.

Some applications may require other input ranges. The

LTC1414 differential inputs and reference circuitry can

accommodate other input ranges often with little or no

additional circuitry. The following sections describe the

reference and input circuitry and how they affect the input

range.

Internal Reference

The LTC1414 has an on-chip, temperature compensated,

curvature corrected, bandgap reference that is factory

trimmed to 2.500V. It is connected internally to a reference

amplifier and is available at V

2k resistor is in series with the output so that it can be

easily overdriven by an external reference or other cir-

cuitry. The reference amplifier multiplies the voltage at the

voltage. This provides buffering between the V

the high speed capacitive DAC. The reference amplifier

compensation pin, REFCOMP (Pin 4) must be bypassed

with a capacitor to ground. The reference amplifier is

stable with capacitors of 1 F or greater. For the best noise

performance, a 10 F ceramic or 10 F tantalum in parallel

with a 0.1 F ceramic is recommended.

REF

pin by 1.625 to create the required internal reference

4.0625V

2.500V

Figure 10. LTC1414 Reference Circuit

10 F

REFCOMP

AGND

REF

64k

REFERENCE

REF

40k

AMP

(Pin 3), see Figure 10. A

–

LTC1414

REFERENCE

BANDGAP

LTC1414

REF

1414 F10

pin and

LTC1414 Linear Technology, LTC1414 Datasheet - Page 11

LTC1414

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