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TDA8932B_15 Datasheet, PDF (11/48 Pages) NXP Semiconductors – Class-D audio amplifier
NXP Semiconductors
TDA8932B
Class-D audio amplifier
8.5 Diagnostic input and output
Whenever a protection other than TF is triggered, pin DIAG is forced LOW level (see
Table 6). An internal reference supply will pull-up the open-drain DIAG output to
approximately 2.4 V. This internal reference supply can deliver approximately 50 µA.
Pin DIAG refers to pin CGND. The diagnostic output signal during different short
conditions is illustrated in Figure 6. Using pin DIAG as input, a voltage < 0.8 V will put the
device into Fault mode.
Vo
2.4 V
Vo
2.4 V
amplifier
restart
0V
0V
≈ 50 ms ≈ 50 ms
shorted load
no restart
short to
supply line
001aad759
Fig 6. Diagnostic output for different short-circuit conditions
8.6 Differential inputs
For a high common-mode rejection ratio and a maximum of flexibility in the application,
the audio inputs are fully differential. By connecting the inputs anti-parallel, the phase of
one of the two channels can be inverted, so that the amplifier can operate as a mono BTL
amplifier. The input configuration for a mono BTL application is illustrated in Figure 7.
In SE configuration it is also recommended to connect the two differential inputs in
anti-phase. This has advantages for the current handling of the power supply at low signal
frequencies and minimizes supply pumping (see also Section 14.8).
audio
input
IN1P
IN1N
OUT1
IN2P
IN2N
Fig 7. Input configuration for mono BTL application
OUT2
001aad760
8.7 Output voltage buffers
When pin POWERUP is set HIGH, the half supply output voltage buffers are switched on
in asymmetrical supply configuration. The start-up will be pop free since the device starts
switching when the capacitor on pin HVPREF and the SE capacitors are completely
charged.
TDA8932B_4
Product data sheet
Output voltage buffers:
Rev. 04 — 18 December 2008
© NXP B.V. 2008. All rights reserved.
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