ISL54004 Datasheet, PDF(8/13 Page) Intersil Corporation – Integrated Audio Amplifier Systems

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ISL54004 Datasheet, PDF (8/13 Pages) Intersil Corporation – Integrated Audio Amplifier Systems

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ISL54004

Low Power Shutdown

With a logic â1â at the SD control pin the device enters the

low power shutdown state. When in shutdown the BTL and

headphone amplifiers go into an high impedance state and

IDD supply current is reduced to 26ÂµA (typ).

In shutdown mode before the amplifiers enter the high

impedance/low current drive state, the bias voltage of VDD/2

remains connected at the output of the amplifiers through a

100kÎ© resistor.

This resistor is not present during active operation of the

drivers but gets switched in when the SD pin goes high. It

gets removed when the SD pin goes low.

Leaving the DC bias voltage connected through a 100kÎ©

resistor while going into and out of shutdown reduces the

transient at the speakers to a small level preventing clicking

or popping in the speakers.

Note: When the SD pin is High it overrides all other logic

pins.

QFN Die Attach Paddle Considerations

The QFN package features an exposed thermal pad on its

underside. This pad lowers the packageâs thermal resistance

by providing a direct heat conduction path from the die to the

PCB. Connect the exposed thermal pad to GND by using a

large copper pad and multiple vias to the GND plane. The

vias should be plugged and tented with plating and solder

mask to ensure good thermal conductivity.

Best thermal performance is achieved with the largest

practical copper ground plane area.

PCB Layout Considerations and Power

Supply Bypassing

To maintain the highest load dissipation and widest output

voltage swing the power supply PCB traces and the traces

that connect the output of the drivers to the speaker loads

should be made as wide as possible to minimize losses due

to parasitic trace resistance.

Proper supply bypassing is necessary for high power supply

rejection and low noise performance. A filter network

consisting of a 10ÂµF capacitor in parallel with a 0.1ÂµF

capacitor is recommended at the voltage regulator that is

providing the power to the ISL54004 IC.

Local bypass capacitors of 0.1ÂµF should be put at each VDD

pin of the ISL54004 device. They should be located as close

as possible to the pin, keeping the length of leads and traces

as short as possible.

A 1ÂµF capacitor from the REF pin (pin 10) to GND is needed

for optimum PSRR and internal bias voltage stability.

Typical Performance Curves TA = +25Â°C, Unless Otherwise Specified

1.0

0.9

0.8

VDD = 5V

0.7

BTL

0.6

RL = 8Î©

0.5

PO = 800mW

1.0

0.9

0.8 VDD = 3.6V

0.7 BTL

0.6

RL = 8Î©

PO = 200mW

0.5

0.4

0.3

0.2

0.1

50 100 200 500 1k 2k 5k

FREQUENCY (Hz)

FIGURE 1. THD+N vs FREQUENCY

10k 20k

0.1

50 100 200 500 1k 2k

FREQUENCY (Hz)

FIGURE 2. THD+N vs FREQUENCY

10k 20k

FN6513.2

October 30, 2007

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