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TDA8933 Datasheet, PDF (7/47 Pages) NXP Semiconductors – Class-D audio amplifier
NXP Semiconductors
TDA8933
Class-D audio amplifier
8.2 Mode selection and interfacing
The TDA8933 can be switched to one of four operating modes using pins POWERUP and
ENGAGE:
• Sleep mode: with low supply current
• Mute mode: the amplifiers are switching idle (50 % duty cycle), but the audio signal at
the output is suppressed by disabling the Vl-converter input stages. The capacitors on
pins HVP1 and HVP2 have been charged to half the supply voltage (asymmetrical
supply only)
• Operating mode: the amplifiers are fully operational with an output signal
• Fault mode
Both pins POWERUP and ENGAGE refer to pin CGND.
Table 4 shows the different modes as a function of the voltages on the POWERUP and
ENGAGE pins.
Table 4. Mode selection for the TDA8933
Mode
Pin
POWERUP[1]
Sleep
< 0.8 V
Mute
2 V to 6 V
Operating
2 V to 6 V
Fault
2 V to 6 V
ENGAGE[1]
< 0.8 V
< 0.8 V
3 V to 6 V
undefined
DIAG
undefined
>2V
>2V
< 0.8 V
[1] When there are symmetrical supply conditions, the voltage applied to pins POWERUP and ENGAGE must
never exceed the supply voltage (VDDA, VDDP1 or VDDP2).
If the transition between Mute mode and Operating mode is controlled via a time constant,
the start-up will be pop free since the DC output offset voltage is applied gradually to the
output between Mute mode and Operating mode. The bias current setting of the
VI-converters is related to the voltage on pin ENGAGE.
• Mute mode: the bias current setting of the VI-converters is zero (VI-converters
disabled).
• Operating mode: the bias current is at maximum.
The time constant required to apply the DC output offset voltage gradually between Mute
mode and Operating mode can be generated by applying a decoupling capacitor on pin
ENGAGE. The value of the capacitor on pin ENGAGE should be 470 nF.
TDA8933_1
Preliminary data sheet
Rev. 01 — 15 May 2007
© NXP B.V. 2007. All rights reserved.
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