CDB4272 Cirrus Logic Inc, CDB4272 Datasheet - Page 5

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CDB4272

Manufacturer Part Number

CDB4272

Description

EVAL BOARD CS4272 STEREO CODEC

Manufacturer

Cirrus Logic Inc

Datasheet

1.CDB4272.pdf (29 pages)

Specifications of CDB4272

Main Purpose

Audio, CODEC

Utilized Ic / Part

CS4272

Product

Audio Modules

Lead Free Status / RoHS Status

Contains lead / RoHS non-compliant

Secondary Attributes

-

Embedded

-

Primary Attributes

-

Lead Free Status / Rohs Status

Lead free / RoHS Compliant

Other names

598-1004

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1.4

1.5

1.6

Oscillator Y1 provides a System Clock (OMCK) to the CS8416. This clock can be routed

through the CS8416 and out the RMCK pin by simply disconnecting the S/PDIF input. To use

the canned oscillator as the source of the MCLK signal, configure the board to receive MCLK

from the CS8416 using either the MCLK[1:0] positions on S1 or the GUI, and remove the

input S/PDIF stream. Care should be taken to ensure that the crystal (Y2) is removed when

the board is configured to receive MCLK from the canned oscillator.

The oscillator is mounted in pin sockets, allowing easy removal or replacement. The board is

shipped with a 12.000 MHz crystal oscillator stuffed at Y1. Please refer to the CS8416 data

sheet for details on OMCK operation.

XLR connectors supply the CS4272 analog inputs through unity gain, AC-coupled differential

circuits. A 2 Vrms differential signal will drive the CS4272 inputs to full scale.

The CDB4272 was designed for use with not only the CS4272, but also the CS421 with a

simple change of assembly options. For this reason, the input buffer schematic shown in

Figure 8 reflects only the configuration assembled on the CDB4272. For a complete sche-

matic of the analog input buffer printed on the PCB, refer to Figure 19

The CS4272 analog output is routed through a differential to single-ended, unity-gain low

pass filter, which is AC-coupled to an RCA phono jack (see Figure 9). The analog output filter

on the CDB4272 has been designed to add flexibility when evaluating the CS4272 DAC out-

puts. The output filter was designed in a two stage format, with the first stage being an op-

tional instrumentation amplifier, and the second stage a 2-pole butterworth low pass filter.

The 2-pole low pass filter provides an example of an inexpensive circuit with good distortion

and dynamic range performance. It is designed to have the in-band impedance matched be-

tween the positive and negative legs. It also provides a balanced to single-ended conversion

for standard un-balanced outputs. Evaluate this circuit by placing the FILT jumpers (three per

output channel) to position 1 (selectable by J13, J14 & J15 for AOUTR, etc.).

The instrumentation amplifier is optionally inserted before the LPF by changing the FILT

jumpers to position 2. The instrumentation amplifier incorporates a 5x gain (+14 dB) which

effectively lowers the noise contribution of the following 2-pole LPF. This improves the overall

dynamic range of the system. The gain of this stage is determined from the

following equation:

Canned Oscillator

Analog Input

Analog Outputs

Gain

=

1

+

2 R

----------- -

R 2

CDB4272

5

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