5962-9152101MXA Datasheet, PDF(6/16 Page) Analog Devices – LC2MOS 4-Channel, 12-Bit Simultaneous Sampling Data Acquisition System

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5962-9152101MXA Datasheet, PDF (6/16 Pages) Analog Devices – LC2MOS 4-Channel, 12-Bit Simultaneous Sampling Data Acquisition System

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AD7874

CONVERTER DETAILS

The AD7874 is a complete 12-bit, 4-channel data acquisition

system. It is comprised of a 12-bit successive approximation

ADC, four high speed track/hold circuits, a four-channel analog

multiplexer and a 3 V Zener reference. The ADC uses a succes-

sive approximation technique and is based on a fast-settling,

voltage switching DAC, a high speed comparator, a fast CMOS

SAR and high speed logic.

Conversion is initiated on the rising edge of CONVST. All four

input track/holds go from track to hold on this edge. Conversion

is first performed on the Channel 1 input voltage, then Channel

2 is converted and so on. The four results are stored in on-chip

registers. When all four conversions have been completed, INT

goes low indicating that data can be read from these locations.

The conversion sequence takes either 78 or 79 rising clock edges

depending on the synchronization of CONVST with CLK. In-

ternal delays and reset times bring the total conversion time

from CONVST going high to INT going low to 32.5 Âµs maxi-

mum for a 2.5 MHz external clock. The AD7874 uses an im-

plicit addressing scheme whereby four successive reads to the

same memory location access the four data words sequentially.

The first read accesses Channel 1 data, the second read accesses

Channel 2 data and so on. Individual data registers cannot be

accessed independently.

INTERNAL REFERENCE

The AD7874 has an on-chip temperature compensated buried

Zener reference which is factory trimmed to 3 V Â± 10 mV (see

Figure 3). The reference voltage is provided at the REF OUT

pin. This reference can be used to provide both the reference

voltage for the ADC and the bipolar bias circuitry. This is

achieved by connecting REF OUT to REF IN.

VDD

TEMPERATURE

COMPENSATION

AD7874

VSS

REF OUT

Figure 3. AD7874 Internal Reference

The reference can also be used as a reference for other compo-

nents and is capable of providing up to 500 ÂµA to an external

load. In systems using several AD7874s, using the REF OUT of

one device to provide the REF IN for the other devices ensures

good full-scale tracking between all the AD7874s. Because the

AD7874 REF IN is buffered, each AD7874 presents a high im-

pedance to the reference so one AD7874 REF OUT can drive

several AD7874 REF INs.

The maximum recommended capacitance on REF OUT for

normal operation is 50 pF. If the reference is required for other

system uses, it should be decoupled to AGND with a 200 â¦ re-

sistor in series with a parallel combination of a 10 ÂµF tantalum

capacitor and a 0.1 ÂµF ceramic capacitor.

EXTERNAL REFERENCE

In some applications, the user may require a system reference or

some other external reference to drive the AD7874 reference in-

put. Figure 4 shows how the AD586 5 V reference can be used

to provide the 3 V reference required by the AD7874 REF IN.

+15V

+VIN

GND

AD586

VIN1

VOUT

10kâ¦

1kâ¦

REF

7R*

2.1R*

TO INTERNAL

COMPARATOR

TRACK/HOLD 1

3R*

15kâ¦

AGND

TO ADC

REFERENCE

CIRCUITRY

AD7874**

*R = 3.6kâ¦ TYP

**ADDITIONAL PINS OMITTED FOR CLARITY

Figure 4. AD586 Driving AD7874 REF IN

TRACK-AND-HOLD AMPLIFIER

The track-and-hold amplifier on each analog input of the

AD7874 allows the ADC to accurately convert an input sine

wave of 20 V p-p amplitude to 12-bit accuracy. The input band-

width of the track/hold amplifier is greater than the Nyquist rate

of the ADC even when the ADC is operated at its maximum

throughput rate. The small signal 3 dB cutoff frequency occurs

typically at 500 kHz.

The four track/hold amplifiers sample their respective input

channels simultaneously. The aperture delay of the track/hold

circuits is small and, more importantly, is well matched across

the four track/holds on one device and also well matched from

device to device. This allows the relative phase information be-

tween different input channels to be accurately preserved. It also

allows multiple AD7874s to sample more than four channels

simultaneously.

The operation of the track/hold amplifiers is essentially transpar-

ent to the user. Once conversion is initiated, the four channels

are automatically converted and there is no need to select which

channel is to be digitized.

ANALOG INPUT

The analog input of Channel 1 of the AD7874 is as shown in

Figure 4. The analog input range is Â± 10 V into an input resis-

tance of typically 30 kâ¦. The designed code transitions occur

midway between successive integer LSB values (i.e., 1/2 LSB,

3/2 LSBs, 5/2 LSBs, . . . FS â 3/2 LSBs). The output code is

2s complement binary with 1 LSB = FS/4096 = 20 V/4096 =

4.88 mV. The ideal input/output transfer function is shown in

Figure 5.

â6â

REV. C

▷