CS5371-BSZR Cirrus Logic Inc, CS5371-BSZR Datasheet - Page 12

CS5371-BSZR

Manufacturer Part Number

CS5371-BSZR

Description

IC MODULATOR LP/HP 1CH 24-SSOP

Manufacturer

Cirrus Logic Inc

Type

Modulatorr

Datasheet

1.CS5371-BSZR.pdf (22 pages)

Specifications of CS5371-BSZR

Sampling Rate (per Second)

512k

Data Interface

Serial

Voltage Supply Source

Analog and Digital, Dual ±

Operating Temperature

-40°C ~ 85°C

Mounting Type

Surface Mount

Package / Case

24-SSOP

For Use With

598-1778 - EVALUATION BOARD FOR CS5376

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Voltage - Supply

Resolution (bits)

Current page: 12 of 22
Download datasheet (329Kb)

over which voltage reference noise affects the

CS5371/72 modulator dynamic range.

6.1.

For a 2.5 V reference, the Linear Technology

LT1019-2.5 voltage reference yields low enough

noise if the output is filtered with a low pass RC fil-

ter as shown in Figure 6. The filtered version in

Figure 6 is acceptable for most spectral measure-

ment applications, but a buffered version with low-

er source impedance may be preferred for DC

measurement applications.

6.2.

The switched-capacitor input architecture of the

VREF+ pin causes the input current required from

the voltage reference to change any time MCLK is

changed. The input impedance of the voltage ref-

erence input is calculated similar to the analog sig-

nal input impedance as [1 / (f * C)] where f is the

modulator clock frequency, MCLK, and C is the in-

ternal sampling capacitor. A 2.048 MHz MCLK

yields a voltage reference input impedance of ap-

proximately [1 / (2.048 MHz)*(20 pF)], or about

24 kΩ.

6.3.

Gain accuracy of the CS5371/72 modulators is af-

fected by variations of the voltage reference input.

A change in the voltage reference input impedance

due to a change in MCLK could affect gain accura-

Voltage Reference Configurations

VREF Input Impedance

Gain Accuracy

+VA

-VA

10 µ F

0.1 µ F

2.5 REF

Figure 6. 2.5 Voltage Reference

10 Ω

0.1 µ F

cy when using the higher source impedance con-

figuration of Figure 6.

impedance and the external low-pass filter resistor

create a voltage divider for the output reference

voltage, reducing the effective voltage reference

input. If gain error is to be minimized, especially

when MCLK is to be changed, the voltage refer-

ence should have a low output impedance to mini-

mize the effect of the resistive voltage divider. A

buffered voltage reference configuration offers

lower output impedance and more stable gain

characteristics.

6.4.

Gain drift of the CS5371/72 modulators due to tem-

perature is around 5 ppm/°C, and does not include

the temperature drift characteristics of the external

voltage reference. Gain drift is not affected by the

modulator sample rate or by power supply varia-

tions.

7. DIGITAL FILTER INTERFACE

The CS5371/72 modulators are designed to oper-

ate with the CS5376A and CS5378 digital filters.

The digital filter generates the modulator clock and

synchronization

MSYNC), while receiving the modulator data and

over-range flag outputs (MDATA and MFLAG).

The modulators produce an oversampled ∆Σ serial

Gain Drift

100 µ F

signal

CS5371 CS5372

The VREF+ pin input

inputs

To VREF -

To VREF+

(MCLK

DS255F3

and

CS5371-BSZR Cirrus Logic Inc, CS5371-BSZR Datasheet - Page 12

CS5371-BSZR

Specifications of CS5371-BSZR

Related parts for CS5371-BSZR