AD1377JD(RevD) 查看數據表（PDF） - Analog Devices

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AD1377JD
(Rev.:RevD)

Complete, High Speed 16-Bit A/D Converters

Analog Devices 

AD1376/AD1377

HIGH RESOLUTION DATA ACQUISITION SYSTEM

The essential details of a high resolution data acquisition system

using a 16-bit sample-and-hold amplifier (SHA) and the

AD1376/AD1377 are shown in Figure 14. Conversion is

initiated by the falling edge of the CONVERT START pulse.

This edge drives the device’s STATUS line high. The inverter

then drives the SHA into hold mode. STATUS remains high

throughout the conversion and returns low once the conversion

is completed. This allows the SHA to re-enter track mode.

This circuit can exhibit nonlinearities arising from transients

produced at the ADC’s input by the falling edge of CONVERT

START. This edge resets the ADC’s internal DAC; the resulting

transient depends on the SHA’s present output voltage and the

ADC’s prior conversion result. In the circuit of Figure 15, the

falling edge of CONVERT START also places the SHA into hold

mode (via the ADC’s STATUS output), causing the reset

transient to occur at the same moment as the SHA’s track-and-

hold transition. Timing skews and capacitive coupling can cause

some of the transient signal to add to the signal being acquired

by the SHA, introducing nonlinearity.

+

10µF

ANALOG

INPUT

–10V TO +10V

10µF +

+

10µF

SHA

–10V TO +10V

30 21 28

26

27 AD1376/

24 AD1377

+15V

–15V

+5V

22

BITS

1–16

19

18

31

CONVERT

START

Figure 14. Basic Data Acquisition System Interconnections 16-Bit SHA

1

A much safer approach is to add a flip-flop, as shown in

Figure 15. The rising edge of CONVERT START places the

track-and-hold device into hold mode before the ADC reset

transients begin. The falling edge of STATUS places the SHA

back into track mode. System throughput will be reduced if a

long CONVERT START pulse is used. Throughput can be

calculated from

Throughput =

1

TACQ + TCONV + TCS

where:

TACQ is the track-and-hold acquisition time.

TCONV is the time required for the ADC conversion.

TCS is the duration of CONVERT START.

The combination of the AD1376 and a 16-bit SHA can provide

greater than 50 kHz throughput. No significant track-and-hold

droop error will be introduced, provided the width of

CONVERT START is small compared with the ADC’s

conversion time.

+

10µF

ANALOG

INPUT

–10V TO +10V

10µF +

+

10µF

SHA

–10V TO +10V

+15V

–15V

+5V

30 21 28

26

27 AD1376/

24 AD1377

22

BITS

1–16

19

18

31

+5V

S

JQ

HC112

KQ

R

CONVERT

START

Figure 15. Improved Data Acquisition System

Rev. D | Page 10 of 12

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