TDA8922CJ/N1,112 Datasheet TDA8922CJ/N1,112, TDA8922CTH/N1,118, TDA8922CTH/N1,112 | P4-P6

Product data sheet Rev. 01 — 7 September 2009 4 of 40

NXP Semiconductors

TDA8922C

2 × 75 W class-D power ampliﬁer

7. Pinning information

7.1 Pinning

Fig 2. Pin conﬁguration TDA8922CTH Fig 3. Pin conﬁguration TDA8922CJ

TDA8922CTH

VSSD VSSA

VDDP2 SGND

BOOT2 VDDA

OUT2 IN2M

VSSP2 IN2P

n.c. MODE

STABI OSC

VSSP1 IN1P

OUT1 IN1M

BOOT1 n.c.

VDDP1 n.c.

PROT n.c.

010aaa546

TDA8922CJ

OSC

IN1P

IN1M

n.c.

PROT

VDDP1

BOOT1

OUT1

VSSP1

STABI

VSSP2

OUT2

BOOT2

VDDP2

VSSD

VSSA

SGND

VDDA

IN2M

IN2P

MODE

010aaa547

Product data sheet Rev. 01 — 7 September 2009 5 of 40

NXP Semiconductors

TDA8922C

2 × 75 W class-D power ampliﬁer

7.2 Pin description

8. Functional description

8.1 General

The TDA8922C is a two-channel audio power ampliﬁer that uses Class D technology.

For each channel, the audio input signal is converted into a digital Pulse Width Modulation

(PWM) signal using an analog input stage and a PWM modulator; see Figure 1. To drive

the output power transistors, the digital PWM signal is fed to a control and handshake

block and to high- and low-side driver circuits. This level-shifts the low-power digital PWM

signal from a logic level to a high-power PWM signal switching between the main supply

lines.

A second order low-pass ﬁlter converts the PWM signal to an analog audio signal that can

be used to drive a loudspeaker.

Table 3. Pin description

Symbol Pin Description

TDA8922CTH TDA8922CJ

VSSA 1 18 negative analog supply voltage

SGND 2 19 signal ground

VDDA 3 20 positive analog supply voltage

IN2M 4 21 channel 2 negative audio input

IN2P 5 22 channel 2 positive audio input

MODE 6 23 mode selection input: Standby, Mute or Operating

mode

OSC 7 1 oscillator frequency adjustment or tracking input

IN1P 8 2 channel 1 positive audio input

IN1M 9 3 channel 1 negative audio input

n.c. 10 4 not connected

n.c. 11 5 not connected

n.c. 12 6 not connected

PROT 13 7 decoupling capacitor for protection (OCP)

VDDP1 14 8 channel 1 positive power supply voltage

BOOT1 15 9 channel 1 bootstrap capacitor

OUT1 16 10 channel 1 PWM output

VSSP1 17 11 channel 1 negative power supply voltage

STABI 18 12 decoupling of internal stabilizer for logic supply

n.c. 19 - not connected

VSSP2 20 13 channel 2 negative power supply voltage

OUT2 21 14 channel 2 PWM output

BOOT2 22 15 channel 2 bootstrap capacitor

VDDP2 23 16 channel 2 positive power supply voltage

VSSD 24 17 negative digital supply voltage

Product data sheet Rev. 01 — 7 September 2009 6 of 40

NXP Semiconductors

TDA8922C

2 × 75 W class-D power ampliﬁer

The TDA8922C single-chip Class D ampliﬁer contains high-power switches, drivers,

timing and handshaking between the power switches, along with some control logic. To

ensure maximum system robustness, an advanced protection strategy has been

implemented to provide overvoltage, overtemperature and overcurrent protection.

Each of the two audio channels contains a PWM modulator, an analog feedback loop and

a differential input stage. The TDA8922C also contains circuits common to both channels

such as the oscillator, all reference sources, the mode interface and a digital timing

manager.

The two independent ampliﬁer channels feature high output power, high efﬁciency, low

distortion and low quiescent currents. They can be connected in the following

conﬁgurations:

• Stereo Single-Ended (SE)

• Mono Bridge-Tied Load (BTL)

The ampliﬁer system can be switched to one of three operating modes using pin MODE:

• Standby mode: featuring very low quiescent current

• Mute mode: the ampliﬁer is operational but the audio signal at the output is

suppressed by disabling the voltage-to-current (VI) converter input stages

• Operating mode: the ampliﬁer is fully operational, de-muted and can deliver an output

signal

A slowly rising voltage should be applied (e.g. via an RC network) to pin MODE to ensure

pop noise-free start-up. The bias-current setting of the (VI converter) input stages is

related to the voltage on the MODE pin.

In Mute mode, the bias-current setting of the VI converters is zero (VI converters are

disabled). In Operating mode, the bias current is at a maximum. The time constant

required to apply the DC output offset voltage gradually between Mute and Operating

mode levels can be generated using an RC network connected to pin MODE. An example

of a circuit for driving the MODE pin, optimized for optimal pop noise performance, is

shown in Figure 4. If the capacitor was omitted, the very short switching time constant

could result in audible pop noises being generated at start-up (depending on the DC

output offset voltage and loudspeaker used).

Fig 4. Example of mode selection circuit

010aaa583

SGND

MODE

mute/

operating

10 µF

5.6 kΩ

+5 V

470 Ω

standby/

operating

S2S1

5.6 kΩ

TDA8922C

P1-P3 P4-P6 P7-P9 P10-P12 P13-P15 P16-P18 P19-P21 P22-P24 P25-P27 P28-P30 P31-P33 P34-P36 P37-P39 P40-P40

TDA8922CJ/N1,112

Mfr. #:

Buy TDA8922CJ/N1,112

Manufacturer:

NXP Semiconductors

Description:

Audio Amplifiers 1CH Mono/2CH Stereo Audio Amp Speaker

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New from this manufacturer.

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TDA8922CJ/N1,112

TDA8922CJ/N1,112

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