TDA8922 Datasheet, PDF(7/36 Page) NXP Semiconductors – 2 x 25 W class-D power amplifier

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TDA8922 Datasheet, PDF (7/36 Pages) NXP Semiconductors – 2 x 25 W class-D power amplifier

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Philips Semiconductors

2 Ã 25 W class-D power ampliï¬er

Objective speciï¬cation

TDA8922

8 FUNCTIONAL DESCRIPTION

8.1 General

The TDA8922 is a two channel audio power amplifier using

class-D technology. A detailed application reference

design is shown in Fig.10. Typical application schematics

are shown in Figs 37 and 38.

The audio input signal is converted into a digital Pulse

Width Modulated (PWM) signal via an analog input stage

and PWM modulator. To enable the output power

transistors to be driven, this digital PWM signal is applied

to a control and handshake block and driver circuits for

both the high side and low side. In this way a level shift is

performed from the low power digital PWM signal

(at logic levels) to a high power PWM signal which

switches between the main supply lines.

A 2nd-order low-pass filter converts the PWM signal to an

analog audio signal across the loudspeakers.

The TDA8922 one-chip class-D amplifier contains high

power D-MOS switches, drivers, timing and handshaking

between the power switches and some control logic. For

protection a temperature sensor and a maximum current

detector are built-in.

The two audio channels of the TDA8922 contain two

PWMs, two analog feedback loops and two differential

input stages. It also contains circuits common to both

channels such as the oscillator, all reference sources, the

mode functionality and a digital timing manager.

The TDA8922 contains two independent amplifier

channels with high output power, high efficiency (90%),

low distortion and a low quiescent current. The amplifier

channels can be connected in the following configurations:

â¢ Mono Bridge-Tied Load (BTL) amplifier

â¢ Stereo Single-Ended (SE) amplifiers.

The amplifier system can be switched in three operating

modes with pin MODE:

â¢ Standby mode; with a very low supply current

â¢ Mute mode; the amplifiers are operational, but the audio

signal at the output is suppressed

â¢ Operating mode; the amplifiers fully are operational with

output signal.

An example of a switching circuit for driving pin MODE is

illustrated in Fig.4.

For suppressing plop noise, the amplifier will remain

automatically in the mute mode for approximately 150 ms

before switching to the operating mode (see Fig.5).

During this time, the coupling capacitors at the input are

fully charged.

+5 V

handbook, halfpage

standby/

mute

mute/on

MODE pin

SGND

MBL463

Fig.4 Example of mode selection circuit.

2003 Mar 20

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