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AD1876

16-Bit 100 kSPS Sampling ADC

Analog Devices 

AD1876

VOLTAGE REFERENCE

The AD1876 requires the use of an external voltage reference.

The input voltage range is determined by the value of the refer-

ence voltage; in general, a reference voltage of n volts produces

an input range of ± n volts. Signal-to-noise performance is in-

creased proportionately with input signal range. The AD1876 is

specified with a 5.0 V reference and an analog input of ± 5 V. In

the presence of a fixed amount of system noise, increasing the

LSB size (which results from increasing the reference voltage)

will increase the effective S/(N+D) performance for input values

below the point where input distortion occurs. Figure 11 illus-

trates S/(N+D) as a function of input amplitude and reference

voltage.

During a conversion, the switched capacitor array of the

AD1876 presents a dynamically changing current load at the

voltage reference as the successive-approximation algorithm

cycles through various choices of capacitor weighting. The out-

put impedance of the reference circuitry must be low so that the

output voltage will remain sufficiently constant as the current

drive changes. In most applications, this requires that the output

of the voltage reference be buffered by an amplifier with low im-

pedance at relatively high frequencies. A (10 µF or larger) ca-

pacitor connected between VREF and AGND will reduce the

demands on the reference by decreasing the magnitude of high

frequency components.

The following two sections represent typical design approaches.

VOLTAGE REFERENCE—AUDIO APPLICATIONS

Audio applications require optimal ac performance over a rela-

tively narrow temperature range, with low cost being important.

Figure 4 shows one such approach towards attaining these goals.

A voltage reference, consisting of a Zener diode, capacitor, resis-

tor and op amp with typical component values, is shown. This

simple circuit has the advantage of low cost, but the reference

voltage value is sensitive to changes in the +12 V supply. Addi-

tionally, changes in the Zener value due to temperature varia-

tions will also be reflected in the reference voltage. ROPTION may

be required for other component selections if the Zener requires

more current than the op amp can supply.

+

R OPTION

1kΩ

+70°C range, the AD586L grade exhibits less than a 2.25 mV

output change from its initial value at +25°C. A noise-reduction

capacitor, CN, reduces the broadband noise of the AD586 out-

put, thereby optimizing the overall performance of the AD1876.

+12V

2

8 AD586 6

4

CN

1µF

11 VREF

+

47µF

AD1876

AGND

8 AGND

Figure 5.

For higher performance needs, the AD588 reference provides

improved drift, low noise, and excellent initial accuracy. The

AD588 uses a proprietary ion-implanted buried Zener diode in

conjunction with laser-trimmed thin-film resistors for low offset

and gain. The AD588 output is accurate to 0.65 mV from its

value at +25°C over the 0°C to +70°C range. The circuit shown

in Figure 6 includes a noise-reduction network on Pins 4, 6 and

7. The 1 µF capacitors form low-pass filters with the internal re-

sistance of the AD588 and external 3.9 kΩ resistor. This re-

duces the wide-band (to 1 MHz) noise of the AD588, providing

optimum performance of the AD1876.

+12V

1µF

1µF

3.9kΩ

NOISE

REDUCTION

7 643

2

1

0.1µF

0.1µF

AD588

9

10

16

11

–12V

58

NC NC

13 12

NC

47µF

11 VREF

8 AGND

AGND

AD1876

AD589

AD711

0.1µF

11 VREF

3kΩ

1kΩ

AD1876

Figure 4. Low Cost Voltage Reference Circuit

VOLTAGE REFERENCE—PRECISION MEASUREMENT

APPLICATIONS

In applications other than audio, parameters such as low drift

over temperature and static accuracy are important. Figure 5

shows a voltage reference circuit featuring the 5 V AD586. The

AD586 is a low cost reference which utilizes a buried Zener ar-

chitecture to provide low noise and drift. Over the 0°C to

Figure 6.

ANALOG INPUT

As previously discussed, the analog input voltage range for the

AD1876 is ± VREF. For purposes of ground drop and common-

mode rejection, the VIN and VREF inputs each have their own

ground. VREF is referred to the local analog system ground

(AGND), and VIN is referred to the analog ground sense pin

(AGND SENSE) which allows a remote ground sense for the

input signal. If AGND SENSE is not used, it should be con-

nected to the AGND pin at the package. The AGND SENSE

pin is intended to be tied to potentials within 100 mV of AGND

to maintain specified performance.

The AD1876 analog inputs (VIN, VREF and AGND SENSE)

exhibit dynamic characteristics. When a conversion cycle begins,

each analog input is connected to an internal, discharged 50 pF

capacitor which then charges to the voltage present at the

–8–

REV. A

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