SGTL5000XNAA3R2 Freescale, SGTL5000XNAA3R2 Datasheet - Page 13

SGTL5000XNAA3R2

Manufacturer Part Number

SGTL5000XNAA3R2

Description

Manufacturer

Freescale

Datasheet

1.SGTL5000XNAA3R2.pdf (73 pages)

Specifications of SGTL5000XNAA3R2

Single Supply Voltage (typ)

1.8/2.5/3.3V

Lead Free Status / RoHS Status

Compliant

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Table 6. Synchronous MCLK Rates

Using the PLL - Asynchronous SYS_MCLK input

any clock from 8.0 to 27 MHz to be connected to SYS_MCLK.

This can help save system costs, as a clock available

elsewhere in the system can be used to derive all audio

clocks using the internal PLL. In this case, the clock input to

SYS_MCLK can be asynchronous with the sampling

frequency needed in the system. For example, a 12 MHz

MCLK, for a 48 kHz frame clock

SYS_MCLK < 17 MHz

(196.608 MHz/12 MHz) = 16 (decimal)

12 MHz) - 16) * 2048 = 786 (decimal)

Analog Integrated Circuit Device Data

Freescale Semiconductor

Notes

System Master Clock (SYS_MCLK)

Sampling Frequency (Fs)

An integrated PLL is provided in the SGTL5000 that allows

For example, when a 12 MHz digital signal is placed on

CHIP_CLK_TOP_CTRL->INPUT_FREQ_DIV2 = 0 //

CHIP_PLL_CTRL->INT_DIVISOR = FLOOR

CHIP_PLL_CTRL->FRAC_DIVISOR = ((196.608 MHz/

Refer to PLL programming

For a sampling frequency of 96 kHz, only 256 Fs SYS_MCLK is supported

CHIP_CLK_TOP _CTRL->INPUT_FREQ_DIV2 = 1

PLL_INPUT_FREQ = SYS_MCLK/2

CHIP_PLL_CTRL->INT_DIVISOR = FLOOR (PLL_OUTPUT_FREQ/INPUT_FREQ

CHIP_PLL_CTRL->FRAC_DIVISOR = ((PLL_OUTPUT_FREQ/INPUT_FREQ) - INT_DIVISOR) * 2048

CLOCK

PLL_OUTPUT_FREQ=180 .6336 MHz

PLL

Configuration.

Figure 9. PLL Programming Flowchart

Yes

SYS_MCLK>17MHz?

256, 384, 512

8, 11.025, 16, 22.5, 32, 44.1, 48, 96

Frequency =

44.1kHz?

Sampling

clock from the system processor could be used as the clock

input to the SGTL5000.

the PLL. They are CHIP_PLL_CTRL->INT_DIVISOR,

CHIP_PLL_CTRL->FRAC_DIVISOR and

CHIP_CLK_TOP_CTRL->INPUT_FREQ_DIV2.

shows a flowchart that shows how to determine the values to

program in the register fields.

the signal flow from input to output. Any single input can be

routed to any single or multiple outputs.

(DAP). The output of the DAP (an input to the audio switch)

can in turn be routed to any physical output. The output of the

DAP can not be routed into itself. Refer to

Processing, for DAP information and configuration.

to headphone output does not go through the audio switch.

AUDIO SWITCH (SOURCE SELECT SWITCH)

PLL_OUTPUT_FREQ=196 .608 MHz

CHIP_CLK_TOP_CTRL->INPUT_FREQ_DIV2 = 0

PLL_INPUT_FREQ = SYS_MCLK

Three register fields need to be configured to properly use

The audio switch is the central routing block that controls

Any signal can be routed to the Digital Audio Processor

It should be noted that the analog bypass from Line input

SUPPORTED RATES

FUNCTIONAL INTERNAL BLOCK DESCRIPTION

(6)

FUNCTIONAL DESCRIPTION

kHz

Digital Audio

UNITS

Figure 9

SGTL5000

SGTL5000XNAA3R2 Freescale, SGTL5000XNAA3R2 Datasheet - Page 13

SGTL5000XNAA3R2

Specifications of SGTL5000XNAA3R2

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