max98089 Maxim Integrated Products, Inc., max98089 Datasheet - Page 123

max98089

Manufacturer Part Number

max98089

Description

Low-power, Stereo Audio Codec With Flexsound Technology

Manufacturer

Maxim Integrated Products, Inc.

Datasheet

1.MAX98089.pdf (131 pages)

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Traditional Class D amplifiers require an output filter to

recover the audio signal from the amplifier’s output. The

filters add cost, increase the solution size of the amplifier,

and can decrease efficiency and THD+N performance.

The traditional PWM scheme uses large differential output

swings (2 x V

currents. Any parasitic resistance in the filter components

results in a loss of power, lowering the efficiency.

The IC does not require an output filter. The device relies

on the inherent inductance of the speaker coil and the

natural filtering of both the speaker and the human ear

to recover the audio component of the square-wave out-

put. Eliminating the output filter results in a smaller, less

costly, more efficient solution.

Because the frequency of the IC’s output is well beyond

the bandwidth of most speakers, voice coil movement

due to the square-wave frequency is very small. Although

this movement is small, a speaker not designed to handle

the additional power can be damaged. For optimum

results, use a speaker with a series inductance > 10FH.

Typical 8I speakers exhibit series inductances in the

20FH to 100FH range.

GSM radios transmit using time-division multiple access

(TDMA) with 217Hz intervals. The result is an RF signal

with strong amplitude modulation at 217Hz and its har-

monics that is easily demodulated by audio amplifiers.

The IC is designed specifically to reject RF signals; how-

ever, PCB layout has a large impact on the susceptibility

of the end product.

Table 38. Example Startup Sequence

SEQUENCE

Ensure SHDN = 0

Configure clocks

Configure digital audio interface

Configure digital signal processing

Load coefficients

Configure mixers

Configure gain and volume controls

Configure miscellaneous functions

Enable desired functions

Set SHDN = 1

peak to peak) and causes large ripple

�� Maxim Integrated Products 123

Filterless Class D Operation

RF Susceptibility

DESCRIPTION

Low-Power, Stereo Audio Codec

with FlexSound Technology

In RF applications, improvements to both layout and com-

ponent selection decrease the IC’s susceptibility to RF

noise and prevent RF signals from being demodulated into

audible noise. Trace lengths should be kept below 1/4 of

the wavelength of the RF frequency of interest. Minimizing

the trace lengths prevents them from functioning as anten-

nas and coupling RF signals into the IC. The wavelength

(l) in meters is given by: l = c/f where c = 3 x 10

f = the RF frequency of interest.

Route audio signals on middle layers of the PCB to allow

ground planes above and below to shield them from RF

interference. Ideally, the top and bottom layers of the

PCB should primarily be ground planes to create effec-

tive shielding.

Additional RF immunity can also be obtained by rely-

ing on the self-resonant frequency of capacitors as it

exhibits a frequency response similar to a notch filter.

Depending on the manufacturer, 10pF to 20pF capaci-

tors typically exhibit self resonance at the RF frequencies

of interest. These capacitors, when placed at the input

pins, can effectively shunt the RF noise to ground. For

these capacitors to be effective, they must have a low-

impedance, low-inductance path to the ground plane.

Avoid using microvias to connect to the ground plane

whenever possible as these vias do not conduct well at

RF frequencies.

To ensure proper device initialization and minimal click-

and-pop, program the IC’s SHDN = 1 after configuring all

registers. Table 38 lists an example startup sequence for

the device. To shut down the IC, simply set SHDN = 0.

Startup/Shutdown Sequencing

0x51

0x10 to 0x13, 0x19 to 0x1B

0x14 to 0x17, 0x1C to 0x1F

0x18, 0x20, 0x3F to 0x46

0x52 to 0xC9

0x22 to 0x2D

0x2E to 0x3E

0x47 to 0x4B

0x4C, 0x50

0x51

MAX98089

REGISTERS

m/s, and

max98089 Maxim Integrated Products, Inc., max98089 Datasheet - Page 123

max98089

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