max9796 Maxim Integrated Products, Inc., max9796 Datasheet - Page 17

max9796

Manufacturer Part Number

max9796

Description

Max9796 2.3w, High-power Class D Audio Subsystem With Directdrive Headphone Amplifiers

Manufacturer

Maxim Integrated Products, Inc.

Datasheet

1.MAX9796.pdf (28 pages)

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due to amplifier offset. However, the offset of the

MAX9796 is typically 1.4mV, which, when combined

with a 32Ω load, results in less than 44nA of DC current

flow to the headphones.

In addition to the cost and size disadvantages of the

DC-blocking capacitors required by conventional head-

phone amplifiers, these capacitors limit the amplifier’s

low-frequency response and can distort the audio sig-

nal. Previous attempts at eliminating the output-cou-

pling capacitors involved biasing the headphone return

(sleeve) to the DC bias voltage of the headphone

amplifiers. This method raises some issues:

1) The sleeve is typically grounded to the chassis.

2) During an ESD strike, the driver’s ESD structures are

3) When using the headphone jack as a lineout to other

The MAX9796 features a low-noise charge pump. The

switching frequency of the charge pump is half the

switching frequency of the Class D amplifier, regard-

less of the operating mode. The nominal switching fre-

quency is well beyond the audio range, and thus does

not interfere with the audio signals, resulting in an SNR

of 93dB. Although not typically required, additional

high-frequency noise attenuation can be achieved by

increasing the size of C2 (see the Typical Application

Circuit ). The charge pump is active in both speaker

and headphone modes.

The audio inputs of the MAX9796 (INA, INB, and INC)

are preamplified and then mixed by the input mixer to

create three internal signals: left (L), right (R), and mono

(M). Tables 5a and 5b show how the inputs are mixed to

create L, R, and M. These signals are then independent-

ly volume adjusted by the L, R, and M volume control

and routed to the output mixer. The output mixer mixes

the internal L, R, and M signals to create a variety of

audio mixes that are output to the headphone, speaker,

Using the midrail biasing approach, the sleeve must

be isolated from system ground, complicating prod-

uct design.

the only path to system ground. Thus, the amplifier

must be able to withstand the full ESD strike.

equipment, the bias voltage on the sleeve may con-

flict with the ground potential from other equipment,

resulting in possible damage to the amplifiers.

2.3W, High-Power Class D Audio Subsystem

______________________________________________________________________________________

with DirectDrive Headphone Amplifiers

Charge Pump

Signal Path

and the mono receiver amplifiers. Figure 6 shows the

signal path that the audio signals take.

Signal amplification takes place in three stages. In the

first stage, the inputs (INA, INB, and INC) are preampli-

fied. The amount by which each input is amplified is

determined by the bits INA+20dB (B4 in the Input Mode

Control Register) and IN+6dB (B3 in the Global Control

input mixer to create the internal signals L, R and M.

In the second stage of amplification, the internal L, R,

and M signals are independently volume adjusted.

Finally, each output amplifier has its own internal gain.

The speaker, headphone, and mono receiver amplifiers

have fixed gains of 12dB, 3dB and 3dB, respectively.

Figure 5. Traditional Amplifier Output vs. MAX9796 DirectDrive

Output

OUT

CONVENTIONAL DRIVER-BIASING SCHEME

DirectDrive BIASING SCHEME

GND

-V

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max9796 Maxim Integrated Products, Inc., max9796 Datasheet - Page 17

max9796

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