CDB42528 Cirrus Logic Inc, CDB42528 Datasheet - Page 4
CDB42528
Manufacturer Part Number
CDB42528
Description
BOARD EVAL FOR CS42528/CS49300
Manufacturer
Cirrus Logic Inc
Datasheets
1.CS42528-CQZ.pdf
(91 pages)
2.CS493105-CLZR.pdf
(90 pages)
3.CDB42528.pdf
(50 pages)
4.CDB42528.pdf
(38 pages)
Specifications of CDB42528
Main Purpose
Audio, Audio Processing
Embedded
Yes, DSP
Utilized Ic / Part
CS49300, CS42528
Primary Attributes
8 Single-Ended Analog Inputs and Outputs, 4 S/PDIF Inputs and 2 S/PDIF Outputs
Secondary Attributes
Parallel, RS422, RS232, UDSP Interfaces
Product
Audio Modules
Lead Free Status / RoHS Status
Contains lead / RoHS non-compliant
Lead Free Status / RoHS Status
Lead free / RoHS Compliant, Contains lead / RoHS non-compliant
Other names
598-1503
1. SYSTEM OVERVIEW
The CDB42528 demonstration board is an excellent means for evaluating the CS42528/26 family of highly integrat-
ed CODEC-S/PDIF receivers. Analog and digital audio signal interfaces are provided, as well as a DB-25 computer
parallel port interface for use with the supplied Windows configuration software.
The CDB42528 schematic set has been partitioned into 13 pages as shown in Figures 6 through 18.
1.1
A complete description of each member of the CS42528/26 family is included in each respective product data sheet.
1.2
The CS8406 S/PDIF transmitter on the demonstration board (see Figure 8) allows the performance of the CS42528
to be measured digitally. Either the CS42528 CODEC (CX) port or the Serial Audio Interface (SAI) port can be mul-
tiplexed to the CS8406. The CS8406 transmitter is configured to operate in slave mode only, and will receive the
required clocks from the CS42528. The data format for the CS8406 is selectable and must match that of its source.
The CS8406 must be configured using the supplied software.
1.3
There are two CS5361 A/D converters on the CS42528 demonstration board (see Figures 9 and 10). These con-
verters supply the CS42528 ADCIN signals, and must operate in left-justified, 24-bit mode only. Their serial data
outputs are used when supporting the CS42528 One Line Mode of operation.
RCA analog connectors supply the inputs to each CS5361 channel through a unity gain, AC-coupled, single-to-
differential circuit. Each CS5361 input circuit is biased to 1/2 VA, and a 1V
scale. The CS5361 converters are set to operate in slave mode and will receive their clocks from the CS42528. The
SCLK and LRCK signals can be provided from either the CS42528 CX or SAI port, and must be selected using the
configuration software.
1.4
Oscillator Y1 (see Figure 7) provides the System Clock (OMCK) for the CS42528. The crystal oscillator on the board
is mounted in pin sockets that allow it to be removed or replaced. The board is shipped with a 24.000 MHz crystal
oscillator stuffed at Y1. Please refer to the CS42528/26 data sheet for details on OMCK operation.
The buffer on the output of the oscillator provides for signal level shifting to the proper VLS supply. This buffer can
be removed if the oscillator is powered from the same VLS voltage source as the codec.
1.5
RCA phono connectors supply the CS42528 analog inputs through unity gain, AC-coupled single-to-differential cir-
cuits (see Figure 11). Each input circuit is biased to match the 2.7V
the CS42528 converter to full scale.
1.6
Each CS42528 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 Figures 12 through 15). The analog output filter on the CDB42528 has been
designed to add flexibility when evaluating the CS42528 DAC outputs. The output filter was designed in a two stage
format, with the first stage being an optional 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 per-
formance. It is designed to have the in-band impedance matched between 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 J9, J10 & J11 for OUTA1, etc.).
4
CS42528
CS8406
CS5361
Crystal Oscillator
Analog Input
Analog Outputs
DC
VQ, and a 1V
RMS
signal will drive the converter to full
RMS
differential signal will drive
CDB42528
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