CS35L00 Datasheet, PDF(17/34 Page) Cirrus Logic – 2.7 W Mono Class-D Audio Amplifier with Low Idle Current

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CS35L00 Datasheet, PDF (17/34 Pages) Cirrus Logic – 2.7 W Mono Class-D Audio Amplifier with Low Idle Current

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CS35L00

ZIN = Input impedance of the device being used (See âElectrical Characteristics - SD Modeâ on page 10,

âElectrical Characteristics - FSD Modeâ on page 11, âElectrical Characteristics - HD Modeâ on page 12, or

âElectrical Characteristics - FHD Modeâ on page 13 for this value.)

ZEXT = Value of the resistor added in series with the inputs

AV = Original gain of the device being used (See âElectrical Characteristics - All Operational Modesâ on

page 9 for this value.)

5.3 Output Filtering with the CS35L00

The CS35L00 is specifically designed to minimize radiated electromagnetic interference (EMI) signals. All

of the devices are capable of meeting all stated data sheet performance numbers with no special filtering

required. Additionally, the device has shown to be below the compliance limits of both FCC and CISPR test-

ing with no external filtering required.

Ultimately, compliance with any radiated emissions requirements depends significantly on the entire system

under test. In applications were system-level trade-offs, such as compromised component layout or lengthy

speaker wires, have increased emissions levels, a passive output filter can be added to the outputs of the

device in order to decrease EMI levels.

5.3.1

Reduced Filter Order with the CS35L00

In applications which require an output filter, the unique design of the CS35L00 allows a much smaller,

less expensive output filter to be used than what is normally found in Class D amplifiers. In contrast to a

second order filter implemented with a series inductive element (traditional inductor or ferrite beads) and

a shunt capacitive element, basic filtering for the CS35L00 is accomplished by a single-order capacitive

element attached to the OUTx terminals. This is highlighted in Figure 5 below. Of course, if the system

requires more aggressive filtering, a ferrite bead can be added in series with the outputs to further atten-

uate system level noise.

OUT+ x

LFILT

OUT- x

LFILT

CFILT

OUT+ x

CFILT

OUT- x

CFILT

Traditional 2nd Order Optional Filtering

CS35L00âs Minimized Optional Filtering

Figure 5. Optional Output Filter Components

5.3.2

Filter Component Selection

Usually, the need for output filtering is determined after the system under test has failed EMI testing. Dur-

ing this testing, problem frequencies are easily identified by the peaks which appear in the spectral plots

gathered in the EMI testing.

Selection of the filter components should ensure that shunt elements (i.e. CFILT in Figure 5 on page 17)

present a very low impedance at the frequency corresponding to the tallest peak in the spectral plot. If

needed, series components such as ferrite beads (i.e. LFILT in Figure 5 on page 17) should be chosen to

present a very high impedance at the frequency corresponding to the tallest peak in the spectral plot.

Careful attention should be paid to the current carrying capabilities of any included ferrite beads and the

impedance of the ferrite beads in the audio band. A proper trade-off in ferrite bead selection is one that

DS906A2

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