MAX9760ETI-T Maxim Integrated, MAX9760ETI-T Datasheet - Page 21

MAX9760ETI-T

Manufacturer Part Number

MAX9760ETI-T

Description

Audio Amplifiers

Manufacturer

Maxim Integrated

Datasheet

1.MAX9763ETI.pdf (31 pages)

Specifications of MAX9760ETI-T

Output Type

2-Channel Stereo

Output Power

3 W x 2 at 3 Ohms, 0.2 W x 2 at 16 Ohms

Thd Plus Noise

0.01 % at 4 Ohms at 2 W, 0.002 % at 16 Ohms at 125 mW

Operating Supply Voltage

5 V

Maximum Power Dissipation

1667 mW

Maximum Operating Temperature

+ 85 C

Mounting Style

SMD/SMT

Package / Case

TQFN EP

Audio Load Resistance

32 Ohms

Input Signal Type

Single

Minimum Operating Temperature

- 40 C

Output Signal Type

Differential, Single

Supply Type

Single

Supply Voltage - Max

5.5 V

Supply Voltage - Min

4.5 V

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depending on the status of the gain control input. The

stereo MAX9760/MAX9761 feature two gain options per

channel. The mono MAX9762/MAX9763 feature two

gain options per single-ended channel, and a single

gain option for the mono speaker amplifier (see Tables

1a and 1b for the gain-setting options).

The MAX9762 defaults to GAINM in speaker mode and

can switch between GAINA and GAINB in headphone

mode.

Headphones typically have a poor low-frequency

response due to speaker and enclosure size limitations.

A bass boost circuit compensates the poor low-frequen-

cy response (Figure 9). At low frequencies, the capaci-

tor C

the feedback loop (R

At the frequency:

where the impedance, C

high frequencies, the C

impedance of the feedback loop is:

Figure 9. Bass Boost Circuit

is an open circuit, and the effective impedance in

F EFF

(

______________________________________________________________________________________

Stereo 3W Audio Power Amplifiers with

F(EFF)

BIAS

)

πR C

) is R

is a short circuit. Here the

begins to decrease, and at

F(EFF)

Bass Boost Circuit

= R

Headphone Drive and Input Mux

Assuming R

twice that of R

Thus, the amplifier has more gain at lower frequencies,

boosting the system’s bass response. Set the gain roll-

off frequency based upon the response of the speaker

and enclosure.

Good PC board layout is essential for optimizing perfor-

mance. Use large traces for the power-supply inputs

and amplifier outputs to minimize losses due to para-

sitic trace resistance, as well as route heat away from

the device. Good grounding improves audio perfor-

mance, minimizes crosstalk between channels, and

prevents any digital switching noise from coupling into

the audio signal. If digital signal lines must cross over

or under audio signal lines, ensure that they cross per-

pendicular to each other.

The MAX9760–MAX9763 QFN and TSSOP-EP pack-

ages feature exposed thermal pads on their under-

sides. This pad lowers the package’s thermal

resistance by providing a direct heat conduction path

from the die to the printed circuit board. Connect the

pad to signal ground by using a large pad, or multiple

vias to the ground plane.

Figure 10. Bass Boost Response

GAIN

= R

F(EFF)

, then R

at high frequencies (Figure 10).

2π R

Layout and Grounding

F(EFF)

at low frequencies is

FREQUENCY

MAX9760ETI-T Maxim Integrated, MAX9760ETI-T Datasheet - Page 21

MAX9760ETI-T

Specifications of MAX9760ETI-T

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