TDA8588J Datasheet, PDF(12/54 Page) NXP Semiconductors – I2C-bus controlled 4 x 50 Watt power amplifier and multiple voltage regulator

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TDA8588J Datasheet, PDF (12/54 Pages) NXP Semiconductors – I2C-bus controlled 4 x 50 Watt power amplifier and multiple voltage regulator

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Philips Semiconductors

I2C-bus controlled 4 Ã 50 Watt power

ampliï¬er and multiple voltage regulator

Product speciï¬cation

TDA8588J; TDA8588xJ

(V)

VBUCAP

VO(REG2)

tbackup

out of regulation

t (sec)

mdb512

tbackup

ï£«

ï£

V-----P----â-----V----O----(--R-I-L-E---G----2---)---â-----0---.--5--ï£¸ï£¶

Fig.5 Backup capacitor function.

Reset output

A reset pulse is generated at pin RST when the output

voltage of regulator 2 rises above the reset threshold

value. The reset output is a push-pull output that both

sources and sinks current. The output voltage can switch

between ground and VO(REG2), and operates at a low

regulator 2 voltage or VBUCAP. The RST signal is controlled

by a low-voltage detection circuit which, when activated,

pulls pin RST LOW (reset active) when VO(REG2) is

â¤ Vth(rst). If VO(REG2) â¥ Vth(rst), pin RST goes HIGH. The

reset pulse is delayed by 40 Âµs internally. To extend the

delay and to prevent oscillations occurring at the threshold

voltage, an external capacitor can be connected to

pin RESCAP. Note that a reset pulse is not generated

when VO(REG2) falls below the reset threshold value.

Reset delay capacitor

A Reset Delay Capacitor (RDC) connected to

pin RESCAP can be used to extend the delay period of the

reset pulse and to ensure that a clean reset signal is sent

to the microcontroller. The RDC is charged by a current

source. The reset output (pin RST) will be released

(pin RST goes HIGH) when the RDC voltage crosses the

RDC threshold value.

Power switches

There are two power switches that provide an unregulated

DC voltage output for amplifiers and an aerial motor

respectively. The switches have internal protection for

over-temperature conditions and are activated by setting

bits D2 and D3 of instruction byte IB1 to logic 1. The

regulated outputs will supply pulsed current loads that can

contaminate the line with high frequency noise, so it is

important to prevent any cross-coupling between the

regulated outputs, particularly with the 8.3 V audio supply,

and the unregulated outputs.

In the ON state, the switches have a low impedance to the

battery voltage. When the battery voltage is higher than

22 V, the switches are switched off. When the battery

voltage is below 22 V the switches are set to their original

condition.

2004 Feb 24

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