TDA8512J Datasheet, PDF(6/24 Page) NXP Semiconductors – 26 W BTL and 2 x 13 W SE or 4 x 13 W SE power amplifier

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TDA8512J Datasheet, PDF (6/24 Pages) NXP Semiconductors – 26 W BTL and 2 x 13 W SE or 4 x 13 W SE power amplifier

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Philips Semiconductors

26 W BTL and 2 Ã 13 W SE or

4 Ã 13 W SE power ampliï¬er

Preliminary speciï¬cation

TDA8512J

8 FUNCTIONAL DESCRIPTION

The TDA8512J contains four identical amplifiers and can

be used in the configurations:

â¢ Two SE channels (fixed gain 20 dB) and one BTL

channel (fixed gain 26 dB)

â¢ Four SE channels.

(RL depends on the application).

8.1 Mode select switch

A special feature of the TDA8512J device is the mode

select switch (pin MODE), offering:

â¢ Low standby current (<100 ÂµA)

â¢ Low switching current (low cost supply switch)

â¢ Mute facility.

To avoid switch-on plops, it is advised to keep the amplifier

in the mute mode for longer than 100 ms to allow charging

of the input capacitors at pins INV1, INV2, INV3, INV3

and INV4. This can be achieved by:

â¢ Control via a microcontroller

â¢ An external timing circuit (see Fig.3).

The circuit slowly ramps up the voltage at the pin MODE

when switching on, and results in fast muting when

switching off.

handbook, halfpage VP

10 kâ¦

47 ÂµF

100 â¦

mode

select

switch

100 kâ¦

MGA708

Fig.3 Mode select switch circuitry.

8.2 Mode select

For the 3 functional modes; standby, mute and operate,

the pin MODE can be driven by a 3-state logic output

stage: e.g. microcontroller with some extra components for

DC level shifting. (see Fig.10).

Standby mode will be activated by a applying a low

DC level between 0 and 2 V. The power consumption of

the device will be reduced to less than 1.5 mW. The input

and output pins are floating: high impedance condition.

Mute mode will be activated by a applying a DC level

between 3.3 and 6.4 V. The outputs of the amplifier will be

muted (no audio output); however, the amplifier is

DC biased and the DC level of the input and output pins

stays on half the supply voltage.

Operating mode is obtained at a DC level between 8.5 V

and VP.

8.3 Built-in protection circuits

The device contains both a thermal protection, and a

short-circuit protection.

Thermal protection:

The junction temperature is measured by a temperature

sensor; at a junction temperature of about 160 Â°C this

detection circuit switches off the power stages.

Short-circuit protection (outputs to ground, supply and

across the load):

Short-circuit is detected by a so called Maximum Current

Detection circuit, which measures the current in the

positive, respectively negative supply line of each power

stage. At currents exceeding (typical) 6 A, the power

stages are switched off during some ms.

8.4 Short-circuit protection

When a short-circuit during operation to either GND or

across the load of one or more channels occurs, the output

stages are switched off for approximately 20 ms. After that

time, it is checked during approximately 50 Âµs to see

whether the short-circuit is still present. Due to this duty

factor of 50 Âµs per 20 ms, the average supply current is

very low during this short-circuit (approximately 40 mA,

see Fig.4).

2001 Nov 16

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