max9779etit Maxim Integrated Products, Inc., max9779etit Datasheet - Page 11

max9779etit

Manufacturer Part Number

max9779etit

Description

Max9779 2.6w Stereo Audio Power Amplifier And Directdrive Headphone Amplifier

Manufacturer

Maxim Integrated Products, Inc.

Datasheet

1.MAX9779ETIT.pdf (19 pages)

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allows the MAX9779 headphone amplifier output to be

biased about GND, almost doubling the dynamic range

while operating from a single supply. With no DC compo-

nent, there is no need for the large DC-blocking capaci-

tors. Instead of two large capacitors (220µF typ), the

charge pump requires only two small ceramic capacitors

(1µF typ), conserving board space, reducing cost, and

improving the frequency response of the headphone

amplifier. See the Output Power vs. Charge-Pump

Capacitance and Load Resistance graph in the Typical

Operating Characteristics for details of the possible

capacitor values.

Previous attempts to eliminate the output-coupling

capacitors involved biasing the headphone return

(sleeve) to the DC bias voltage of the headphone

amplifiers. This method raised some issues:

1) The sleeve is typically grounded to the chassis. Using

2) During an ESD strike, the amplifier’s ESD structures

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

In addition to the cost and size disadvantages, the DC-

blocking capacitors limit the low-frequency response of

the amplifier and distort the audio signal:

1) The impedance of the headphone load to the DC-

this biasing approach, the sleeve must be isolated

from system ground, complicating product design.

are the only path to system ground. 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 large ground-loop current and possible

damage to the amplifiers.

blocking capacitor forms a highpass filter with the

-3dB point determined by:

where R

The highpass filter is required by conventional sin-

gle-ended, single-supply headphone amplifiers to

block the midrail DC component of the audio signal

from the headphones. Depending on the -3dB point,

the filter can attenuate low-frequency signals within

the audio band. Larger values of C

attenuation but are physically larger, more expen-

sive capacitors. Figure 3 shows the relationship

between the size of C

quency attenuation. Note that the -3dB point for a

OUT

is the value of the DC-blocking capacitor.

is the impedance of the headphone and

______________________________________________________________________________________

−

2.6W Stereo Audio Power Amplifier and

OUT

2π

Low-Frequency Response

R C

L OUT

and the resulting low-fre-

DirectDrive Headphone Amplifier

OUT

reduce the

2) The voltage coefficient of the capacitor, the change

The combination of low-frequency attenuation and fre-

quency-dependent distortion compromises audio

reproduction. DirectDrive improves low-frequency

reproduction in portable audio equipment that empha-

sizes low-frequency effects such as multimedia lap-

tops, and MP3, CD, and DVD players.

The MAX9779 features a low-noise charge pump. The

550kHz switching frequency is well beyond the audio

range, and does not interfere with the audio signals. The

switch drivers feature a controlled switching speed that

minimizes noise generated by turn-on and turn-off tran-

sients. Limiting the switching speed of the charge pump

minimizes the di/dt noise caused by the parasitic bond

wire and trace inductance. Although not typically

required, additional high-frequency ripple attenuation

can be achieved by increasing the size of C2 (see the

Block Diagram).

Figure 3. Low-Frequency Attenuation of Common DC-Blocking

Capacitor Values

16Ω headphone with a 100µF blocking capacitor is

100Hz, well within the audio band.

in capacitance due to a change in the voltage

across the capacitor, distorts the audio signal. At

frequencies around the -3dB point, the reactance of

the capacitor dominates, and the voltage coefficient

appears as frequency-dependent distortion. Figure

4 shows the THD+N introduced by two different

capacitor dielectrics. Note that around the -3dB

point, THD+N increases dramatically.

-10

-15

-20

-25

-30

-35

-5

LOW-FREQUENCY ROLLOFF

FREQUENCY (Hz)

= 16Ω)

100

DirectDrive

330µF

220µF

100µF

33µF

Charge Pump

1000

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