NSC LM4843MHX Datasheet

LM4843

Stereo 2W Audio Power Amplifiers
with DC Volume Control

General Description

The LM4843 is a monolithic integrated circuit that provides
DC volume control, and stereo bridged audio power amplifi­ers capable of producing 2W into 4Ω (Note 1) with less than

1.0% THD or 2.2W into 3Ω (Note 2) with less than 1.0%
THD.

Boomer

®

audio integrated circuits were designed specifically
to provide high quality audio while requiring a minimum
amount of external components. The LM4843 incorporates a
DC volume control with stereo bridged audio power amplifi­ers making it optimally suited for multimedia monitors, por­table radios, desktop, and portable computer applications.

The LM4843 features an externally controlled, low-power
consumption shutdown mode, and both a power amplifier
and headphone mute for maximum system flexibility and
performance.

Note 1: When properly mounted to the circuit board, the LM4843MH will
deliver 2W into 4Ω. See the Application Information section for LM4843MH
usage information.

Note 2: LM4843MH that has been properly mounted to the circuit board and
forced-air cooled will deliver 2.2W into 3Ω.

Key Specifications

n POat 1% THD+N
n into 3Ω 2.2W (typ)
n into 4Ω 2.0W (typ)
n into 8Ω 1.1W (typ)
n Shutdown current 0.7µA (typ)

Features

n Acoustically Enhanced DC Volume Control Taper
n Stereo bridged power amplifiers
n “Click and pop” suppression circuitry
n Thermal shutdown protection circuitry

Applications

n Portable and Desktop Computers
n Multimedia Monitors
n Portable Radios, PDAs, and Portable TVs

Block Diagram

Boomer®is a registered trademark of NationalSemiconductor Corporation.

20038389

FIGURE 1. LM4843 Block Diagram

July 2002

LM4843 Stereo 2W Audio Power Amplifiers with DC Volume Control

© 2002 National Semiconductor Corporation DS200383 www.national.com

Connection Diagram

Standard LM4843MH

20038387

Top View

Order Number LM4843MH

See NS Package Number MXA20

LM4843

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Absolute Maximum Ratings (Note 10)

If Military/Aerospace specified devices are required,
please contact the National Semiconductor Sales Office/
Distributors for availability and specifications.

Supply Voltage 6.0V

Storage Temperature -65˚C to +150˚C

Input Voltage −0.3V to V

DD

+0.3V

Power Dissipation Internally limited

ESD Susceptibility (Note 12) 2000V

ESD Susceptibility (Note 13) 200V

Junction Temperature 150˚C

Soldering Information

Small Outline Package

Vapor Phase (60 sec.) 215˚C

Infrared (15 sec.) 220˚C

See AN-450 “Surface Mounting and their Effects on
Product Reliability” for other methods of soldering surface
mount devices.

θ

JC

(typ) —MXA20A 2˚C/W

θ

JA

(typ) —MXA20A (exposed

DAP) (Note 4)

41˚C/W

θ

JA

(typ) —MXA20A (exposed

DAP) (Note 3)

54˚C/W

θ

JA

(typ) —MXA20A (exposed

DAP) (Note 5)

59˚C/W

θ

JA

(typ) —MXA20A (exposed

DAP) (Note 6)

93˚C/W

Operating Ratings

Temperature Range

T

MIN

≤ TA≤T

MAX

−40˚C ≤TA ≤ 85˚C

Supply Voltage 2.7V≤ V

DD

≤ 5.5V

Electrical Characteristics for Entire IC

(Notes 7, 10) The following specifications apply for VDD= 5V unless otherwise noted. Limits apply for TA= 25˚C.

Symbol Parameter Conditions

LM4843

Units

(Limits)

Typical

(Note 14)

Limit

(Note 15)

V

DD

Supply Voltage 2.7 V (min)

5.5 V (max)

I

DD

Quiescent Power Supply Current VIN= 0V, IO= 0A 15 30 mA (max)

I

SD

Shutdown Current V

shutdown

=V

DD

0.7 2.0 µA (max)

Electrical Characteristics for Volume Attenuators

(Notes 7, 10) The following specifications apply for VDD= 5V. Limits apply for TA= 25˚C.

Symbol Parameter Conditions

LM4843

Units

(Limits)

Typical

(Note 14)

Limit

(Note 15)

C

RANGE

Attenuator Range (Note 16) Attenuation with V

DCVol

= 5V, No Load

±

0.75 dB (max)

Attenuation with V

DCVol

= 0V -75 dB (min)

A

M

Mute Attenuation V

mute

= 5V, Bridged Mode (BM) -78 dB (min)

LM4843

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Electrical Characteristics for Bridged Mode Operation

(Notes 7, 10) The following specifications apply for VDD= 5V, unless otherwise noted. Limits apply for TA= 25˚C.

Symbol Parameter Conditions

LM4843

Units

(Limits)

Typical

(Note 14)

Limit

(Note 15)

V

OS

Output Offset Voltage VIN= 0V, No Load 10

±

50 mV (max)

P

O

Output Power THD+N=1.0%; f=1kHz; RL=3Ω

(Note 8)

2.2 W

THD+N=1.0%; f=1kHz; R

L

=4Ω

(Note 9)

2W

THD = 1% (max);f = 1 kHz;
R

L

=8Ω

1.1 1.0 W (min)

THD+N = 10%;f = 1 kHz; R

L

=8Ω 1.5 W

THD+N Total Harmonic Distortion+Noise P

O

= 1W, 20 Hz<f<20 kHz,

R

L

=8Ω,AVD=2

0.3 %

P

O

= 340 mW, RL=32Ω 1.0 %

PSRR Power Supply Rejection Ratio C

B

= 1.0 µF, f = 120 Hz,

V

RIPPLE

= 200 mVrms; RL=8Ω

74 dB

SNR Signal to Noise Ratio V

DD

= 5V, P

OUT

= 1.1W, RL=8Ω,

A-Wtd Filter

93 dB

X

talk

Channel Separation f=1kHz, CB= 1.0 µF 70 dB

Note 3: The θJAgiven is for an MXA20A package whose exposed-DAP is soldered to an exposed 2in2piece of 1 ounce printed circuit board copper.

Note 4: The θ

JA

given is for an MXA20A package whose exposed-DAP is soldered to a 2in2piece of 1 ounce printed circuit board copper on a bottom side layer

through 21 8mil vias.

Note 5: The θ

JA

given is for an MXA20A package whose exposed-DAP is soldered to an exposed 1in2piece of 1 ounce printed circuit board copper.

Note 6: The θ

JA

given is for an MXA20A package whose exposed-DAP is not soldered to any copper.

Note 7: All voltages are measured with respect to the ground pins, unless otherwise specified. All specifications are tested using the typical application as shown
in Figure 1.

Note 8: When driving 3Ω loads from a 5V supply the LM4843MH must be mounted to the circuit board and forced-air cooled.

Note 9: When driving 4Ω loads from a 5V supply the LM4843MH must be mounted to the circuit board.

Note 10: Absolute Maximum Ratings indicate limits beyond which damage to the device may occur. Operating Ratings indicate conditions for which the device is

functional, but do not guarantee specific performance limits. Electrical Characteristics state DC and AC electrical specifications under particular test conditions which
guarantee specific performance limits. This assumes that the device is within the Operating Ratings. Marshall Chiu feels there are better ways to obtain ’More
Wattage in the Cottage.’ Specifications are not guaranteed for parameters where no limit is given, however, the typical value is a good indication of device
performance.

Note 11: The maximum power dissipation must be derated at elevated temperatures and is dictated by T

JMAX

, θJA, and the ambient temperature TA. The maximum

allowable power dissipation is P

DMAX

=(T

JMAX−TA

)/θJA. For the LM4843MH, T

JMAX

= 150˚C, and the typical junction-to-ambient thermal resistance, when board

mounted, is 80˚C/W for the MHC20 package.

Note 12: Human body model, 100 pF discharged through a 1.5 kΩ resistor.

Note 13: Machine Model, 220 pF–240 pF discharged through all pins.

Note 14: Typicals are measured at 25˚C and represent the parametric norm.

Note 15: Limits are guaranteed to National’s AOQL (Average Outgoing Quality Level). Datasheet min/max specification limits are guaranteed by design, test, or

statistical analysis.

Note 16: Refers only to the internal Volume Attenuation steps. Overall gain is determined by R

in

(AandB) and RF(AandB) plus another 6dB of gain in the BTL output

stage.

LM4843

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Typical Application

20038388

FIGURE 2. Typical Application Circuit

LM4843

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Typical Performance Characteristics

LM4843MH

THD+N vs Output Power

LM4843MH

THD+N vs Output Power

20038370

20038372

THD+N vs Output Power THD+N vs Output Power

20038324 20038325

THD+N vs Output Power THD+N vs Output Power(Note 17)

20038329

20038330

LM4843

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