max9725betct Maxim Integrated Products, Inc., max9725betct Datasheet - Page 8

max9725betct

Manufacturer Part Number

max9725betct

Description

Max9725 1v, Low-power, Directdrive, Stereo Headphone Amplifier With Shutdown

Manufacturer

Maxim Integrated Products, Inc.

Datasheet

1.MAX9725BETCT.pdf (19 pages)

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The MAX9725 stereo headphone driver features Maxim’s

patented DirectDrive architecture, eliminating the large

output-coupling capacitors required by conventional sin-

gle-supply headphone drivers. The MAX9725 consists of

two 20mW class AB headphone drivers, shutdown con-

trol, inverting charge pump, internal gain-setting resistors,

and comprehensive click-and-pop suppression circuitry

(see the Functional Diagram). A negative power supply

(PV

Powering the drivers from V

dynamic range of the drivers to almost twice that of other

1V single-supply drivers. This increase in dynamic range

allows for higher output power.

The outputs of the MAX9725 are biased about GND

(Figure 1). The benefit of this GND bias is that the driver

outputs do not have a DC component, thus large DC-

blocking capacitors are unnecessary. Eliminating the

DC-blocking capacitors on the output saves board

space, system cost, and improves frequency response.

Conventional single-supply headphone drivers have their

outputs biased about a nominal DC voltage (typically half

the supply) for maximum dynamic range. Large coupling

capacitors are needed to block the DC bias from the

headphones. Without these capacitors, a significant

amount of DC current flows to the headphone, resulting

in unnecessary power dissipation and possible damage

to both headphone and headphone driver.

Maxim’s DirectDrive architecture uses a charge pump

to create an internal negative supply voltage. This

allows the MAX9725 outputs to be biased about GND,

increasing the dynamic range while operating from a

single supply. A conventional amplifier powered from

1.5V ideally provides 18mW to a 16Ω load. The

MAX9725 provides 25mW to a 16Ω load. The

DirectDrive architecture eliminates the need for two

large (220µF, typ) DC-blocking capacitors on the out-

put. The MAX9725 charge pump requires two small

ceramic capacitors, conserving board space, reducing

cost, and improving the frequency response of the

headphone driver. See the Output Power vs. Charge-

Pump Capacitance and Load Resistance graph in the

Typical Operating Characteristics for details of the possi-

ble capacitor sizes.

1V, Low-Power, DirectDrive, Stereo Headphone

Amplifier with Shutdown

_______________________________________________________________________________________

) is created by inverting the positive supply (V

Detailed Description

and PV

DirectDrive

increases the

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 raises some issues:

•

Figure 1. Traditional Driver Output Waveform vs. MAX9725

Output Waveform (Ideal Case)

The sleeve is typically grounded to the chassis.

Using this biasing approach, the sleeve must be

isolated from system ground, complicating product

design.

During an ESD strike, the driver’s ESD structures

are the only path to system ground. The driver must

be able to withstand the full ESD strike.

When using the headphone jack as a line out to

other equipment, the bias voltage on the sleeve may

conflict with the ground potential from other equip-

ment, resulting in possible damage to the drivers.

OUT

CONVENTIONAL DRIVER-BIASING SCHEME

DirectDrive BIASING SCHEME

GND

-V

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