max9712eub Maxim Integrated Products, Inc., max9712eub Datasheet - Page 12

max9712eub

Manufacturer Part Number

max9712eub

Description

Max9712 500mw, Low Emi, Filterless, Class D Audio Amplifier

Manufacturer

Maxim Integrated Products, Inc.

Datasheet

1.MAX9712EUB.pdf (18 pages)

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Part Number:

MAX9712EUB

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500mW, Low EMI, Filterless,

Class D Audio Amplifier

the power conversion of the class D amplifier. For exam-

ple, an 8mV DC offset across an 8Ω load results in 1mA

extra current consumption in a class AB device. In the

class D case, an 8mV offset into 8Ω equates to an addi-

tional power drain of 8µW. Due to the high efficiency of

the class D amplifier, this represents an additional quies-

cent current draw of: 8µW/(V

order of a few microamps.

The MAX9712 features a differential input structure,

making it compatible with many CODECs, and offering

improved noise immunity over a single-ended input

amplifier. In devices such as cellular phones, high-fre-

quency signals from the RF transmitter can be picked

up by the amplifier’s input traces. The signals appear at

the amplifier’s inputs as common-mode noise. A differ-

ential input amplifier amplifies the difference of the two

inputs, any signal common to both inputs is canceled.

The MAX9712 can be configured as a single-ended

input amplifier by capacitively coupling either input to

GND, and driving the other input (Figure 6).

The input amplifier can accept DC-coupled inputs that

are biased within the amplifier’s common-mode range

(see the Typical Operating Characteristics). DC cou-

pling eliminates the input-coupling capacitors, reduc-

ing component count to potentially one external

component (see the System Diagram). However, the

low-frequency rejection of the capacitors is lost, allow-

ing low-frequency signals to feedthrough to the load.

An input capacitor, C

impedance of the MAX9712 forms a highpass filter that

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

coupling capacitor allows the amplifier to bias the sig-

nal to an optimum DC level. Assuming zero-source

impedance, the -3dB point of the highpass filter is

given by:

Choose C

of interest. Setting f

quency response of the amplifier. Use capacitors

whose dielectrics have low-voltage coefficients, such

as tantalum or aluminum electrolytic. Capacitors with

______________________________________________________________________________________

so f

-3dB

−

-3dB

is well below the lowest frequency

, in conjunction with the input

2π

too high affects the low-fre-

Component Selection

R C

IN IN

/100η), which is on the

Single-Ended Input

Input Amplifier

DC-Coupled Input

Differential Input

Input Filter

Figure 6. Single-Ended Input

high-voltage coefficients, such as ceramics, may result

in increased distortion at low frequencies.

Other considerations when designing the input filter

include the constraints of the overall system and the

actual frequency band of interest. Although high-fidelity

audio calls for a flat-gain response between 20Hz and

20kHz, portable voice-reproduction devices such as

cellular phones and two-way radios need only concen-

trate on the frequency range of the spoken human

voice (typically 300Hz to 3.5kHz). In addition, speakers

used in portable devices typically have a poor response

below 150Hz. Taking these two factors into considera-

tion, the input filter may not need to be designed for a

20Hz to 20kHz response, saving both board space and

cost due to the use of smaller capacitors.

The MAX9712 does not require an output filter. The

device passes FCC emissions standards with 100mm

of unshielded speaker cables. However, output filtering

can be used if a design is failing radiated emissions

due to board layout or cable length, or the circuit is

near EMI sensitive devices. Use an LC filter when radi-

ated emissions are a concern, or when long leads are

used to connect the amplifier to the speaker.

Proper power-supply bypassing ensures low distortion

operation. For optimum performance, bypass VDD to

GND and PVDD to PGND with separate 0.1µF capaci-

tors as close to each pin as possible. A low-imped-

ance, high-current power-supply connection to PVDD is

assumed. Additional bulk capacitance should be

added as required depending on the application and

power-supply characteristics. GND and PGND should

be star connected to system ground. Refer to the

MAX9712 Evaluation Kit for layout guidance.

Two MAX9712s can be configured as a stereo amplifier

(Figure 7). Device U1 is the master amplifier; its unfil-

SINGLE-ENDED

AUDIO INPUT

1µF

IN+

IN-

Supply Bypassing/Layout

Stereo Configuration

MAX9712

Output Filter

max9712eub Maxim Integrated Products, Inc., max9712eub Datasheet - Page 12

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