AK4367 Datasheet, PDF(19/38 Page) Asahi Kasei Microsystems – OUTPUT MIXER & HP

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AK4367 Datasheet, PDF (19/38 Pages) Asahi Kasei Microsystems – OUTPUT MIXER & HP - AMP 24 BIT 2 CH DAC

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ASAHI KASEI

[AK4367]

Â Headphone Output

Power supply voltage for the Headphone-amp is supplied from the HVDD pin and centered on the MUTET voltage. The

Headphone-amp output load resistance is min.16â¦. When the MUTEN bit is â1â at PMHPL=PMHPR= â1â, the common

voltage rises to 0.45 x VDD. When the MUTEN bit is â0â, the common voltage of Headphone-amp falls and the outputs

(HPL and HPR pins) go to VSS.

A capacitor between the MUTET pin and ground reduces pop noise at power-up/down. It is

recommended that the capacitor with small variation of capacitance and low ESR (Equivalent Series

Resistance) over all temperature range, since the rise and fall time in Table 9 depend on the

capacitance and ESR of the external capacitor at MUTET pin.

tr: Rise Time up to VCOM/2

tf: Fall Time down to 0V

In case only one path is connected,

DAC or LIN/RIN/MIN.

100k x C (typ)

200k x C (typ)

Table 9. Headphone-Amp Rise/Fall Time

In case both paths are connected,

DAC and LIN/RIN/MIN.

120k x C (typ)

150k x C (typ)

[Example] : A capacitor between the MUTET pin and ground = 1.0ÂµF, and only DAC path is connected:

Time constant of rise time: tr = 100kâ¦ x 1ÂµF = 100ms(typ)

Time constant of fall time: tf = 200kâ¦ x 1ÂµF = 200ms(typ)

When PMHPL and PMHPR bits are â0â, the Headphone-amp is powered-down, and the outputs (HPL and HPR pins) go

to VSS.

PMHPL/R bit

MUTEN bit

VCOM

HPL/R pin VCOM/2

(1) (2)

(3)

(4)

Figure 15. Power-up/Power-down Timing for Headphone-amp

(1) Headphone-amp power-up (PMHPL and PMHPR bits = â1â). The outputs are still VSS.

(2) Headphone-amp common voltage rises up (MUTEN bit = â1â). Common voltage of Headphone-amp is rising. This

rise time depends on the capacitor value connected with the MUTET pin. The rise time up to VCOM/2 is tr = 100k x

C(typ) when the capacitor value on MUTET pin is âCâ.

(3) Headphone-amp common voltage falls down (MUTEN bit = â0â). Common voltage of Headphone-amp is falling to

VSS. This fall time depends on the capacitor value connected with the MUTET pin. The fall time down to 0V is tf =

200k x C(typ) when the capacitor value on MUTET pin is âCâ.

(4) Headphone-amp power-down (PMHPL, PMHPR bits = â0â). The outputs are VSS. If the power supply is switched off

or Headphone-amp is powered-down before the common voltage goes to VSS, some pop noise occurs.

MS0247-E-01

- 19 -

2004/11

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