AK4644 Datasheet, PDF(89/96 Page) Asahi Kasei Microsystems

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AK4644 Datasheet, PDF (89/96 Pages) Asahi Kasei Microsystems – Stereo CODEC with MIC/HP/RCV-AMP

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ASAHI KASEI

[AK4644]

Â Headphone-amp Output

FS3-0 bits 0,000

(Addr:05H, D5&D2-0)

DACH bit

(Addr:0FH, D0)

(1)

(2)

BST1-0 bits

(Addr:0EH, D3-2)

IVL/R7-0 bits

(Addr:09H&0CH, D7-0)

E1H

(3)

(4)

DVL/R7-0 bits

(Addr:0AH&0DH, D7-0)

PMDAC bit

(Addr:00H, D2)

PMMIN bit

(Addr:00H, D5)

18H

(5)

(6)

1,111

91H

28H

(13)

Example:

PLL, Master Mode

Audio I/F Format :MSB justified (ADC & DAC)

Sampling Frequency: 44.1kHz

Digital Volume: â8dB

Bass Boost Level :Middle

(1) Addr:05H, Data:27H

(12)

(2) Addr:0FH, Data:09H

(3) Addr:0EH, Data:19H

(4) Addr:09H&0CH, Data:91H

(5) Addr:0AH&0DH, Data:28H

(6) Addr:00H, Data:64H

(7) Addr:01H, Data:39H

(11)

(8) Addr:01H, Data:79H

Playback

PMHPL/R bits

(Addr:01H, D5-4)

HPMTN bit

(Addr:01H, D6)

(7)

(10)

(9) Addr:01H, Data:39H

(8)

(9)

(10) Addr:01H, Data:09H

(11) Addr:00H, Data:40H

HPL/R pins

Normal Output

(12) Addr:0EH, Data:11H

(13) Addr:0FH, Data:08H

Figure 80. Headphone-Amp Output Sequence

At first, clocks should be supplied according to âClock Set Upâ sequence.

(1) Set up a sampling frequency (FS3-0 bits). When the AK4644 is PLL mode, DAC should be powered-up in

consideration of PLL lock time after a sampling frequency is changed.

(2) Set up the path of âDAC â HP-Ampâ: DACH bit = â0â â â1â

(3) Set up the low frequency boost level (BST1-0 bits)

(4) Set up the input digital volume (Addr: 09H and 0CH)

When PMADL = PMADR bits = â0â, IVL7-0 and IVR7-0 bits should be set to â91Hâ(0dB).

(5) Set up the output digital volume (Addr: 0AH and 0DH)

When DVOLC bit is â1â (default), DVL7-0 bits set the volume of both channels. After DAC is powered-up,

the digital volume changes from default value (0dB) to the register setting value by the soft transition.

(6) Power up DAC and MIN-Amp: PMDAC = PMMIN bits = â0â â â1â

The DAC enters an initialization cycle that starts when the PMDAC bit is changed from â0â to â1â at PMADL

and PMADR bits are â0â. The initialization cycle time is 1059/fs=24ms@fs=44.1kHz. During the

initialization cycle, the DAC input digital data of both channels are internally forced to a 2's compliment, â0â.

The DAC output reflects the digital input data after the initialization cycle is complete. When PMADL or

PMADR bit is â1â, the DAC does not require an initialization cycle. When ALC bit is â1â, ALC is disable

(ALC gain is set by IVL/R7-0 bits) during an intialization cycle (1059/fs=24ms@fs=44.1kHz). After the

initialization cycle, ALC operation starts from the gain set by IVL/R7-0 bits.

(7) Power up headphone-amp: PMHPL = PMHPR bits = â0â â â1â

Output voltage of headphone-amp is still HVSS.

(8) Rise up the common voltage of headphone-amp: HPMTN bit = â0â â â1â

The rise time depends on HVDD and the capacitor value connected with the MUTET pin. When HVDD=3.3V

and the capacitor value is 1.0ÂµF, the time constant is Ïr = 100ms(typ), 250ms(max).

(9) Fall down the common voltage of headphone-amp: HPMTN bit = â1â â â0â

The fall time depends on HVDD and the capacitor value connected with the MUTET pin. When HVDD=3.3V

and the capacitor value is 1.0ÂµF, the time constant is Ï f = 100ms(typ), 250ms(max).

If the power supply is powered-off or headphone-Amp is powered-down before the common voltage goes to

GND, the pop noise occurs. It takes twice of Ïf that the common voltage goes to GND.

(10) Power down headphone-amp: PMHPL = PMHPR bits = â1â â â0â

(11) Power down DAC and MIN-Amp: PMDAC = PMMIN bits = â1â â â0â

(12) Off the bass boost: BST1-0 bits = â00â

(13) Disable the path of âDAC â HP-Ampâ: DACH bit = â1â â â0â

MS0477-E-01

- 89 -

2006/10

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