CRD44800-ST-FB Cirrus Logic Inc, CRD44800-ST-FB Datasheet - Page 10

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CRD44800-ST-FB

Manufacturer Part Number

CRD44800-ST-FB

Description

Audio Modules & Development Tools Ref Bd 8ch 115dB 192kHz PWM

Manufacturer

Cirrus Logic Inc

Datasheet

1.CRD44800-ST-FB.pdf (28 pages)

Specifications of CRD44800-ST-FB

Product

Audio Modules

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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10

2.3

The EMI challenges that face a maker of Class-D amplifiers are largely the same challenges

that have been faced by the switch mode power supply industry for many years. The numer-

ous EMI consulting firms that have arisen and the many books that have been written on the

subject indicate the scope of potential problems and available solutions. They should be con-

sidered a resource - most makers of switch mode equipment would benefit from developing

a working relationship with a qualified EMI lab and from bringing their experience to bear on

design issues, preferably early in the design process.

This reference design from Cirrus Logic is a board level solution which is meant to control

emissions by minimizing and suppressing them at the source in contrast to containing them

in an enclosure.

power supplies. Audio amplifiers are usually located in close proximity to radio receivers, par-

ticularly AM receivers which are notoriously sensitive to interference. Amplifiers also need to

operate with speaker leads of unpredictable length and construction which make it possible

for any high frequency currents that appear on the outputs to generate nuisance emissions.

The criteria for judging successful EMI control is not as well defined for amplifier design as it

is for power supplies. While the techniques of measuring conducted and radiated emissions

are similar for both types of products, power supplies have a number of clearly defined (and

legally imposed) thresholds that are useful mainly as guidelines when testing amplifiers.

The EMI requirements for an amplifier have added dimensions beyond those imposed on

Several techniques are used in the circuit design and board layout to minimize high fre-

quency fields in the immediate vicinity of the high power components. Specific techniques

include the following:

•

•

•

•

2.3.1

Electromagnetic Interference (EMI)

As was mentioned in Section 2.2, effective power supply decoupling of high frequency

currents, and minimizing the loop area of the decoupling loop is one aspect of minimiz-

ing EMI.

Each output of the STA500 includes “snubbing” components. For example, OUT1 of

U4 includes snubber components R10 (20 Ω), and C46 (330 pF). These components

serve to damp ringing on the switching outputs in the 30-50 MHz range. The snubbing

components should be as close as practical to the output pins to maximize their effec-

tiveness. Again, refer to Figure 11 for the preferred component layout.

A separate ground plane with a solid electrical connection to the chassis and which

surrounds the speaker output connector should be implemented. This allows the

speaker outputs to be RF decoupled to the chassis just before they exit the chassis

from the speaker connector. Again, refer to Figure 11 for the preferred component lay-

out.

Make use of source termination resistors on all digital signals whose traces are longer

than about 25 mm.

Suppression of EMI at the Source

CRD44800-ST-FB

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