PAM8304 Datasheet, PDF(6/11 Page) Diodes Incorporated

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PAM8304 Datasheet, PDF (6/11 Pages) Diodes Incorporated – 3W MONO CLASS D AUDIO AMPLIFIER

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Diodes Incorporated

PAM8304

Application Information

Input Capacitors (Ci )

In the typical application an input capacitor Ci is required to allow the amplifier to bias the input signal to the proper DC level for optimum

operation. In this case, Ci and the minimum input impedance Ri form a high-pass filter with the corner frequency determined in the follow equation:

ï½

ï¨2ï°

RiCiï©

It is important to consider the value of Ci as it directly affects the low frequency performance of the circuit. For example, when Ri is 150kâ¦ and the

specification calls for a flat bass response down to 150Hz. The equation is reconfigured as followed to determine the value of Ci:

ï½

ï¨ 2ï° Rifc

ï©

When input resistance variation is considered, if Ci is 7nF one would likely choose a value of 10nF. A further consideration for this capacitor is the

leakage path from the input source through the input network (Ci, Ri and Rf) to the load. This leakage current creates a DC offset voltage at the

input to the amplifier that reduces useful headroom, especially in high gain applications. For this reason, a low-leakage tantalum or ceramic

capacitor is the best choice. When polarized capacitors are used the positive side of the capacitor should face the amplifier input in most

applications as the DC level is held at VDD/2, which is likely higher than the source DC level. Please note that it is important to confirm the

capacitor polarity in the application.

Decoupling Capacitor (CS )

The PAM8304 is a high-performance CMOS audio amplifier that requires adequate power supply decoupling to ensure the output total harmonic

distortion (THD) as low as possible. Power supply decoupling also prevents the oscillations causing by long lead length between the amplifier and

the speaker.

Optimum decoupling is achieved by using two different types of capacitors that target different types of noise on the power supply leads. Higher

frequency transients, spikes or digital hash should be filtered with a good low equivalent-series-resistance (ESR) ceramic capacitor with a value of

typically 1Î¼F. This capacitor should be placed as close as possible to the VDD pin of the device. Lower frequency noise signals should be filtered

with a large ceramic capacitor of 10Î¼F or greater. It's recommended to place this capacitor near the audio power amplifier.

How to Reduce EMI

Most applications require a ferrite bead filter for EMI elimination as shown in Figure 1. The ferrite filter reduces EMI around 1MHz and higher.

When selecting a ferrite bead it should be chosen with high impedance at high frequencies but low impedance at low frequencies.

OUT+

OUT-

Ferrite Bead

200pF

Figure 1 Ferrite Bead Filter to Reduce EMI

PAM8304

Document number: DS36589 Rev. 1 - 2

6 of 11

www.diodes.com

October 2013

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