CS5571_08 Datasheet, PDF(15/34 Page) Cirrus Logic – ±2.5 V / 5 V, 100 kSps, 16-bit, High-throughput ΔΣ ADC

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CS5571_08 Datasheet, PDF (15/34 Pages) Cirrus Logic – ±2.5 V / 5 V, 100 kSps, 16-bit, High-throughput ΔΣ ADC

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3/25/08

10:56

CS5571

3.3 Voltage Reference

The voltage reference for the CS5571 can range from 2.4 volt to 4.2 volts. A 4.096 volt reference is re-

quired to achieve the specified signal-to-noise performance. Figure 6 and Figure 7 illustrate the connec-

tion of the voltage reference with either a single +5 V analog supply or with Â±2.5 V.

For optimum performance, the voltage reference device should be one that provides a capacitor connec-

tion to provide a means of noise filtering, or the output should include some type of bandwidth-limiting fil-

ter.

Some 4.096 volt reference devices need only 5 volts total supply for operation and can be connected as

shown in Figure 6 or Figure 7. The reference should have a local bypass capacitor and an appropriate

output capacitor.

Some older 4.096 voltage reference designs require more headroom and must operate from an input volt-

age of 5.5 to 6.5 volts. If this type of voltage reference is used ensure that when power is applied to the

system, the voltage reference rise time is slower than the rise time of the V1+ and V1- power supply volt-

age to the converter. An example circuit to slow the output startup time of the reference is illustrated in

Figure 5.

5.5 to 15 V

10ÂµF

VIN

VOUT

4.096 V

GND

Refer to V1- and VREF1 pins.

Figure 5. Voltage Reference Circuit

3.4 Analog Input

The analog input of the converter is single-ended with a full-scale input of Â±2.048 volts, relative to the

ACOM pin.. This is illustrated in Figure 6 and Figure 7. These diagrams also illustrate a differential buffer

amplifier configuration for driving the CS5571.

The capacitors at the outputs of the amplifiers provide a charge reservoir for the dynamic current from the

A/D inputs while the resistors isolate the dynamic current from the amplifier. The amplifiers can be pow-

ered from higher supplies than those used by the A/D but precautions should be taken to ensure that the

op-amp output voltage remains within the power supply limits of the A/D, especially under start-up condi-

tions.

DS768PP1

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