ADSP-BF523C AD [Analog Devices], ADSP-BF523C Datasheet - Page 10

ADSP-BF523C

Manufacturer Part Number

ADSP-BF523C

Description

Blackfin Embedded Processor 289-ball MBGA package

Manufacturer

AD [Analog Devices]

Datasheet

1.ADSP-BF523C.pdf (44 pages)

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ADSP-BF523C/ADSP-BF525C/ADSP-BF527C

Digital Filter Characteristics on Page

automatically configured depending on the sample rate chosen.

See

When the high-pass filter is enabled the dc offset is continu-

ously calculated and subtracted from the input signal. By setting

HPOR, the last calculated dc offset value is stored when the

high-pass filter is disabled and will continue to be subtracted

from the input signal. If the dc offset changes, the stored and

subtracted value will not change unless the high-pass filter is

enabled. The software control is shown in

Table 4. ADC Software Control

DAC Filters

The DAC filters perform true 24-bit signal processing to con-

vert the incoming digital audio data from the digital audio

interface at the specified sample rate to multi-bit oversampled

data for processing by the analog DAC.

DAC digital filter path.

The DAC digital filter can apply digital de-emphasis under soft-

ware control, as shown in

soft mute where the audio data is digitally brought to a mute

level. This removes any abrupt step changes in the audio that

might otherwise result in audible clicks in the audio outputs.

Table 5. DAC Software Control

Address

000 0101 0

Address

000 0101 2:1 DEEMP[1:0] 00

FROM DIGITAL

AUDIO INTERFACE

USB Mode Sample Rates on Page 23

Bit Label

ADCHPD 0

HPOR

DACMU

DIGITAL

DE EMPHASIS

DEEMP

Figure 10. DAC Filter

Default Description

Table

Default Description

DACMU

MUTE

5. The DAC can also perform a

ADC High Pass Filter Enable

1 = Disable High Pass Filter

0 = Enable High Pass Filter

Store DC Offset

When High Pass Filter Disabled

1 = Store Offset

0 = Clear Offset

De-emphasis Control (Digital)

11 = 48 kHz

10 = 44.1 kHz

01 = 32 kHz

00 = Disable

DAC Soft Mute Control (Digital)

1 = Enable Soft Mute

0 = Disable Soft Mute

39. The filter types are

Figure 10

more details.

DIGITAL

INTERPOLATION

FILTER

Table

illustrates the

Rev. PrC | Page 10 of 44 | June 2008

TO LINE

OUTPUTS

DAC

The CODEC uses a multi-bit sigma-delta oversampling digital-

to-analog converter as shown in

The DAC converts the multi-level digital audio data stream

from the DAC digital filters into high quality analog audio.

Line Outputs

The CODEC provides two low impedance line outputs LOUT

and ROUT, suitable for driving line loads with 10 kΩ imped-

ance and 50 pF capacitance. The line output is used to

selectively sum the outputs from the DAC and/or the line inputs

in bypass mode.

The LOUT and ROUT outputs are only available at a fixed line

output level that is not adjustable in the analog domain. The

level is fixed such that at the DAC full scale level the output is

1.0 V(rms) at AVDD = 3.3 volts. The DAC full scale level tracks

directly with AVDD.

The internal circuit is shown in

includes a low order audio low pass filter for removing out-of

band components from the sigma-delta DAC. Therefore no fur-

ther external filtering is required in most applications.

The DAC output, line input and microphone are summed into

the line output. In DAC mode only the output from the DAC is

routed to the line outputs. In bypass mode the line input is

summed into the line outputs. In sidetone mode the micro-

phone input is summed into the line output. These features can

FROM DAC

DIGITAL

FILTERS

FROM

MICROPHONE

INPUT

FROM

LINE

INPUTS

FROM

DAC

Figure 11. Multi-bit Oversampling Sigma Delta Schematic

Preliminary Technical Data

BYPASS

DACSEL

SIDETONE

Figure 12. Line Output

VMID

Figure

TO LINE OUTPUT

12. The line output

11.

TO HEADPHONE

AMPLIFIER

LINEOUT

ADSP-BF523C AD [Analog Devices], ADSP-BF523C Datasheet - Page 10

ADSP-BF523C

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