max9709etntd Maxim Integrated Products, Inc., max9709etntd Datasheet - Page 14

max9709etntd

Manufacturer Part Number

max9709etntd

Description

Max9709 25w/50w, Filterless, Spread-spectrum, Stereo/mono, Class D Amplifier

Manufacturer

Maxim Integrated Products, Inc.

Datasheet

1.MAX9709ETNTD.pdf (24 pages)

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25W/50W, Filterless, Spread-Spectrum,

Stereo/Mono, Class D Amplifier

The supply voltage range for the MAX9709 is from 10V

to 22V to achieve high-output power. An internal linear

regulator reduces this voltage to 6.3V for use with

small-signal and digital circuitry that does not require

high-voltage supply. Bypass a 0.01µF capacitor from

REG to GND.

All of the digital logic inputs and output have an

absolute maximum rating of +12V. If the MAX9709 is

operating with a supply voltage between 10V and 12V,

digital inputs can be connected to PV

outputs must be connected to a digital system supply

lower than 12V.

The MAX9709 features a differential input structure,

making them compatible with many CODECs, and

offering improved noise immunity over a single-ended

input amplifier. In devices such as flat-panel displays,

noisy digital signals can be picked up by the amplifier’s

inputs. These signals appear at the amplifiers’ inputs as

common-mode noise. A differential input amplifier

amplifies only the difference of the two inputs, while any

signal common to both inputs is attenuated.

The MAX9709 can be configured as a single-ended

input amplifier by capacitively coupling either input to

GND and driving the other input (Figure 4).

An input capacitor, C

impedance of the MAX9709, forms a highpass filter that

removes the DC bias from an incoming signal. The AC-

coupling capacitor allows the amplifier to bias the signal

to an optimum DC level. Assuming zero-source imped-

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

______________________________________________________________________________________

and V

Applications Information

are greater than 12V, digital inputs and

−

, in conjunction with the input

Linear Regulator (REG)

2 π

Component Selection

R C

IN IN

Single-Ended Input

Input Amplifier

Differential Input

Logic Inputs

Input Filter

or V

. If

Choose C

quency of interest. Setting f

low-frequency response of the amplifier. Use capaci-

tors with dielectrics that have low-voltage coefficients,

such as tantalum or aluminum electrolytic. Capacitors

with high-voltage coefficients, such as ceramics, may

result in increased distortion at low frequencies.

The MAX9709 does not require an output filter.

However, output filtering can be used if a design is fail-

ing radiated emissions due to board layout or cable

length, or the circuit is near EMI-sensitive devices. See

the MAX9709 evaluation kit for suggested filter topolo-

gies. The tuning and component selection of the filter

should be optimized for the load. A purely resistive load

(8Ω) used for lab testing requires different components

than a real, complex load-speaker load.

The MAX9709 has an internal charge-pump converter

that produces a voltage level for internal circuitry. It

requires a flying capacitor (C1) and a holding capacitor

(C2). Use capacitors with an ESR less than 100mΩ for

optimum performance. Low-ESR ceramic capacitors

minimize the output resistance of the charge pump. For

best performance over the extended temperature

range, select capacitors with an X7R dielectric. The

capacitors’ voltage rating must be greater than 36V.

Figure 4. Single-Ended Input Connections

so that f

1µF

Charge-Pump Capacitor Selection

-3dB

is well below the lowest fre-

INR+

INR-

-3dB

MAX9709

too high affects the

Output Filter

max9709etntd Maxim Integrated Products, Inc., max9709etntd Datasheet - Page 14

max9709etntd

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