LTC2393-16_1 LINER [Linear Technology], LTC2393-16_1 Datasheet - Page 12

LTC2393-16_1

Manufacturer Part Number

LTC2393-16_1

Description

16-Bit, 1Msps SAR ADC With 94db SNR

Manufacturer

LINER [Linear Technology]

Datasheet

1.LTC2393-16_1.pdf (24 pages)

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ANALOG INPUT

LTC2393-16

APPLICATIONS INFORMATION

INPUT DRIVE CIRCUITS

A low impedance source can directly drive the high imped-

ance inputs of the LTC2393-16 without gain error. A high

impedance source should be buffered to minimize settling

time during acquisition and to optimize the distortion

performance of the ADC.

For best performance, a buffer amplifier should be used

to drive the analog inputs of the LTC2393-16. The am-

plifier provides low output impedance to allow for fast

settling of the analog signal during the acquisition phase.

It also provides isolation between the signal source and

the ADC inputs which draw a small current spike during

acquisition.

Input Filtering

The noise and distortion of the buffer amplifier and other

circuitry must be considered since they add to the ADC

noise and distortion. 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.

Large filter RC time constants slow down the settling at

the analog inputs. It is important that the overall RC time

constants be short enough to allow the analog inputs to

completely settle to 16-bit resolution within the acquisi-

tion time (t

High quality capacitors and resistors should be used in the

RC filter since these components can add distortion. NPO

and silver mica type dielectric capacitors have excellent

linearity. Carbon surface mount resistors can generate

0V TO 4.096V

Figure 4a. Recommended Single-Ended-to-Differential

Conversion Circuit Using the LT6350 ADC Driver

ACQ

TO-DIFFERENTIAL

SINGLE-ENDED-

LT6350

DRIVER

249Ω

2200pF

–

LTC2393-16

239316

F04a

0V TO 4.096V

distortion from self heating and from damage that may

occur during soldering. Metal film surface mount resistors

are much less susceptible to both problems.

Single-to-Differential Conversion

For single-ended input signals, a single-ended-to-differ-

ential conversion circuit must be used to produce a dif-

ferential signal at the ADC inputs. The LT6350 ADC driver is

recommended for performing a single-ended-to-differential

conversion, as shown in Figure 4a. Its low noise and good

DC linearity allows the LTC2393-16 to meet full data sheet

specifications. An alternative solution using two op amps

is shown in Figure 4b. Using two LT1806 op amps, the

circuit achieves 94.1dB signal-to-noise ratio (SNR). For a

20kHz input signal, the input of the LTC2393-16 has been

bandwidth limited to about 25kHz.

ADC REFERENCE

A low noise, low temperature drift reference is critical to

achieving the full data sheet performance of the ADC. The

LTC2393-16 provides an excellent internal reference with

a ±20ppm/°C (max) temperature coefficient. For better

accuracy, an external reference can be used.

The high speed, low noise internal reference buffer is used

for both internal and external reference applications. It

cannot be bypassed.

Figure 4b. Alternative Single-Ended-to-Differential Conversion

Circuit Using Two LT1806 Op Amps

COMMON

VOLTAGE

ANALOG

MODE

INPUT

–

LT1806

301Ω

249Ω

0.013μF

–

LTC2393-16

239316f

239316 F04b

LTC2393-16_1 LINER [Linear Technology], LTC2393-16_1 Datasheet - Page 12

LTC2393-16_1

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