MAX97220CETE+ Maxim Integrated, MAX97220CETE+ Datasheet - Page 12

MAX97220CETE+

Manufacturer Part Number

MAX97220CETE+

Description

Audio Amplifiers DirectDrive LDriver Headphone Amplifier

Manufacturer

Maxim Integrated

Datasheet

1.MAX97220DETE.pdf (19 pages)

Specifications of MAX97220CETE+

Rohs

yes

Product

Class-AB

Output Type

2-Channel Headphone

Output Power

125 mW x 2 at 32 Ohms

Thd Plus Noise

0.0035 %

Operating Supply Voltage

2.5 V to 5.5 V

Supply Current

5 mA

Maximum Power Dissipation

1.667 W

Maximum Operating Temperature

+ 85 C

Mounting Style

SMD/SMT

Package / Case

TQFN-16

Common Mode Rejection Ratio (min)

45 dB

Minimum Operating Temperature

- 40 C

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MAX97220A–MAX97220E

Differential Input DirectDrive

Line Drivers/Headphone Amplifiers

The MAX97220_ is a fully differential input line driver/

headphone amplifier for set-top boxes, LCD TV, and

home theater applications where audio fidelity is of pri-

mary importance. Power consumption of the amplifier is

reduced while maintaining high SNR and THD+N per-

formance. The MAX97220A/MAX97220B/MAX97220E

require external input and feedback resistors to set

amplifier gain. The MAX97220C/MAX97220D feature

internal input and feedback resistors for a set gain of

+6dB. Output swings of 3V

applications.

High fidelity is maintained through the differential input

connection. An output noise voltage of 7FV

for 112dB SNR when powered from 5V and 109dB SNR

when powered from 3.3V. The IC has better than 90dB

THD+N across the entire audio bandwidth.

The MAX97220_ operates from a single supply ranging

from 2.5V to 5.5V. An on-chip charge pump inverts the

positive supply (PVDD), creating an equal magnitude

Figure 1. Conventional Driver Output Waveform vs.

MAX97220_ Output Waveform

RMS

with a 3.3V supply are perfect for line driver

OUT

CONVENTIONAL DRIVER-BIASING SCHEME

DirectDrive BIASING SCHEME

Detailed Description

RMS

with a 5V supply and

PVDD

PVDD/2

PGND

+PVDD

PGND

-PVDD

RMS

allows

negative supply (PVSS). The headphone amplifiers

operate from bipolar supplies with their outputs biased

about PGND (Figure 1). The benefit of this PGND bias is

that the amplifier outputs do not have a DC component,

typically PVDD/2. The large DC-blocking capacitors

required with conventional headphone amplifiers are

unnecessary, thus conserving board space, reducing

system cost, and improving frequency response. Output

power of 125mW into 32I is achievable from a 5V sup-

ply. The device features an undervoltage lockout that

prevents operation from an insufficient power supply

and click-and-pop suppression that eliminates audible

transients on startup and shutdown.

The IC can be configured as differential or pseudo-

differential input amplifiers (Figures 2 and 3), making

it compatible with all codecs. A differential input offers

improved noise immunity over a single-ended input. In

devices such as cellular phones, high-frequency signals

from the RF transmitter can couple into the amplifier’s

input traces. The signals appear at the amplifier’s inputs

as common-mode noise. A differential input amplifier

amplifies the difference of the two inputs while signals

common to both inputs are cancelled. Configured dif-

ferentially, the gain of the MAX97220A/MAX97220B/

MAX97220E is set by:

The common-mode rejection ratio (CMRR) is limited by

the external resistor matching, and if used, input capaci-

tor matching at low frequencies. For example, the worst-

case variation of 1% tolerant resistors results in 40dB

CMRR, while 0.1% resistors result in 60dB CMRR. For

best matching, use resistor arrays.

Figure 2. Differential Input Configuration

IN+

IN-

IN1

= R

AND R

IN2

, R

ARE INTERNAL FOR MAX97220C/MAX97220D

= R

IN1*

IN2

= R

F1*

Differential Input

Maxim Integrated

OUT

MAX97220CETE+ Maxim Integrated, MAX97220CETE+ Datasheet - Page 12

MAX97220CETE+

Specifications of MAX97220CETE+

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