CDB4385 Cirrus Logic Inc, CDB4385 Datasheet - Page 28

CDB4385

Manufacturer Part Number

CDB4385

Description

BOARD EVAL FOR CS4385 DAC

Manufacturer

Cirrus Logic Inc

Datasheets

1.CS4385-CQZ.pdf (55 pages)

2.CDB4385.pdf (32 pages)

Specifications of CDB4385

Number Of Dac's

Number Of Bits

Outputs And Type

8, Differential

Sampling Rate (per Second)

192k

Data Interface

Serial

Dac Type

Voltage

Voltage Supply Source

Analog and Digital

Operating Temperature

-40°C ~ 85°C

Utilized Ic / Part

CDB4385

Description/function

Audio D/A

Operating Supply Voltage

5 V

Product

Audio Modules

For Use With/related Products

CS4385

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

598-1154

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4.8

Direct Stream Digital (DSD) Mode

In Software Mode, the DSD/PCM bits (Reg. 02h) are used to configure the device for DSD Mode. The

DSD_DIF bits (Reg 04h) then control the expected DSD rate and MCLK ratio.

The DIR_DSD bit (Reg 04h) selects between two proprietary methods for DSD-to-analog conversion. The

first method uses a decimation-free DSD processing technique which allows for features such as matched

PCM-level output, DSD volume control, and 50kHz on-chip filter. The second method sends the DSD data

directly to the on-chip switched-capacitor filter for conversion (without the above-mentioned features).

The DSD_PM_EN bit (Reg. 04h) selects Phase Modulation (data plus data inverted) as the style of data

input. In this mode, the DSD_PM_mode bit selects whether a 128Fs or 64x clock is used for phase modu-

lated 64x data (see

the CS4385, but may lower the sensitivity to board-level routing of the DSD data signals.

The CS4385 can detect errors in the DSD data which does not comply with the SACD specification. The

STATIC_DSD and INVALID_DSD bits (Reg. 04h) allow the CS4385 to alter the incoming invalid DSD data.

Depending on the error, the data may either be attenuated or replaced with a muted DSD signal (the

MUTEC pins would be set according to the DAMUTE bit (Reg. 08h)).

More information for any of these register bits can be found in

The DSD input structure and analog outputs are designed to handle a nominal 0 dB-SACD (50% modulation

index) at full rated performance. Signals of +3 dB-SACD may be applied for brief periods of time, however;

performance at these levels is not guaranteed. If sustained +3 dB-SACD levels are required, the digital vol-

ume control should be set to -3.0 dB. This same volume control register affects PCM output levels. There

is no need to change the volume control setting between PCM and DSD in order to have the 0dB output

levels match (both 0 dBFS and 0 dB-SACD will output at -3 dB in this case).

(64Fs)

BCKA

DSD Normal Mode

DSD_SCLK

Not Used

DSDAx,

DSDBx

Figure

Figure 22. DSD Phase Modulation Mode Diagram

22). Use of Phase Modulation Mode may not directly affect the performance of

Section 7. “Filter Plots” on page

DSDAx,

DSD_SCLK

DSDBx

Not Used

Modulation Mode

DSD Phase

CS4385

48.

(64Fs)

BCKD

(128Fs)

DS671F2

BCKA

CDB4385 Cirrus Logic Inc, CDB4385 Datasheet - Page 28

CDB4385

Specifications of CDB4385

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