MAX9724CETC+T Maxim Integrated Products, MAX9724CETC+T Datasheet - Page 11

MAX9724CETC+T

Manufacturer Part Number

MAX9724CETC+T

Description

IC AMP AUDIO .063W STER 12TQFN

Manufacturer

Maxim Integrated Products

Series

DirectDrive™r

Type

Class ABr

Datasheet

1.MAX9724CETC.pdf (19 pages)

Specifications of MAX9724CETC+T

Output Type

Headphones, 2-Channel (Stereo)

Max Output Power X Channels @ Load

63mW x 2 @ 32 Ohm

Voltage - Supply

2.5 V ~ 5.5 V

Features

Depop, Short-Circuit and Thermal Protection, Shutdown

Mounting Type

Surface Mount

Package / Case

12-TQFN Exposed Pad

For Use With

MAX9724AEVKIT+ - EVALUATION KIT FOR MAX9724A/BMAX9724DEVKIT+ - KIT EVAL FOR MAX9724D

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

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°C/W as specified in the Absolute Maximum Ratings

section. For example, θ

+68°C/W, and 154.2°C/W for the UCSP package.

The MAX9724C/MAX9724D have two power dissipation

sources; a charge pump and the two output amplifiers.

If power dissipation for a given application exceeds the

maximum allowed for a particular package, reduce

temperature, or add heatsinking to the device. Large

output, supply, and ground traces decrease θ

ing more heat to be transferred from the package to the

surrounding air.

Thermal-overload protection limits total power dissipa-

tion in the MAX9724C/MAX9724D. When the junction

temperature exceeds +150°C, the thermal protection

circuitry disables the amplifier output stage. The ampli-

fiers are enabled once the junction temperature cools

by approximately 12°C. This results in a pulsing output

under continuous thermal-overload conditions.

Dynamic range is the difference between the noise floor

of the system and the output level at 1% THD+N.

Determine the system’s dynamic range before setting the

maximum output gain. Output clipping occurs if the out-

put signal is greater than the dynamic range of the sys-

tem. The DirectDrive architecture of the MAX9724C/

MAX9724D has increased the dynamic range compared

to other single-supply amplifiers.

If the output load impedance is greater than 1kΩ, the

MAX9724C/MAX9724D can swing within a few millivolts

of their supply rail. For example, with a 3.3V supply, the

output swing is 2V

a low 0.003% THD+N. If the supply voltage drops to

3V, the same 2.83V peak has only 0.05% THD+N.

Internal device structures limit the maximum voltage

swing of the MAX9724C/MAX9724D when operated at

supply voltages greater than 4.35V. The output must not

be driven such that the peak output voltage exceeds the

Table 2. Suggested Capacitor Manufacturers

phone Amplifier with 1.8V Compatible Shutdown

Taiyo Yuden

TDK

Murata

Low RF Susceptibility DirectDrive Stereo Head-

, increase load impedance, decrease the ambient

SUPPLIER

RMS

______________________________________________________________________________________

, or 2.83V peak while maintaining

Maximum Output Swing

Output Dynamic Range

of the thin QFN package is

800-348-2496

847-803-6100

770-436-1300

PHONE

< 4.35V

> 4.35V

, allow-

opposite supply voltage by 9V. For example, if V

5V, the charge pump sets PVSS = -5V. Therefore, the

peak output swing must be less than ±4V to prevent

exceeding the absolute maximum ratings.

The MAX9724C/MAX9724D feature an undervoltage

lockout (UVLO) function that prevents the device from

operating if the supply voltage is less than 2.5V. This fea-

ture ensures proper operation during brownout condi-

tions and prevents deep battery discharge. Once the

supply voltage exceeds the UVLO threshold, the

MAX9724C/MAX9724D charge pump is turned on and

the amplifiers are powered, provided that SHDN is high.

The input capacitor (C

resistor (R

DC bias from an incoming signal (see the Functional

Diagram/Typical Operating Circuits ). The AC-coupling

capacitor allows the device to bias the signal to an opti-

mum DC level. Assuming zero-source impedance, the

-3dB point of the highpass filter is given by:

Choose the C

frequency of interest. Setting f

device’s low-frequency response. Use capacitors

whose dielectrics have low-voltage coefficients, such

as tantalum or aluminum electrolytic. Capacitors with

high-voltage coefficients, such as ceramics, can result

in increased distortion at low frequencies.

Use ceramic capacitors with a low ESR for optimum

performance. For optimal performance over the extend-

ed temperature range, select capacitors with an X7R

dielectric. Table 2 lists suggested manufacturers.

The value of the flying capacitor (see the Functional

Diagram/Typical Operating Circuits ) affects the charge

847-925-0899

847-390-4405

770-436-3030

FAX

), forms a highpass filter that removes the

such that f

−

Charge-Pump Capacitor Selection

), in conjunction with the input

2π

-3dB

R C

Component Selection

Input-Coupling Capacitor

IN IN

www.component.tdk.com

-3dB

is well below the lowest

Flying Capacitor (C1)

www.t-yuden.com

www.murata.com

too high affects the

WEBSITE

UVLO

MAX9724CETC+T Maxim Integrated Products, MAX9724CETC+T Datasheet - Page 11

MAX9724CETC+T

Specifications of MAX9724CETC+T

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