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LM4901 1.6 Watt Audio Power Amplifier with Selectable Shutdown Logic Level

July 2006

LM4901

1.6 Watt Audio Power Amplifier with Selectable

Shutdown Logic Level

General Description

The LM4901 is an audio power amplifier primarily designed

for demanding applications in mobile phones and other por-

table communication device applications. It is capable of

delivering 1 watt of continuous average power to an 8Ω BTL

load and 1.6 watts of continuous avearge power to a 4Ω BTL

load with less than 1% distortion (THD+N) from a 5V

power supply.

Boomer audio power amplifiers were designed specifically to

provide high quality output power with a minimal amount of

external components. The LM4901 does not require output

coupling capacitors or bootstrap capacitors, and therefore is

ideally suited for mobile phone and other low voltage appli-

cations where minimal power consumption is a primary re-

quirement.

The LM4901 features a low-power consumption shutdown

mode. To facilitate this, Shutdown may be enabled by either

logic high or low depending on mode selection. Driving the

shutdown mode pin either high or low enables the shutdown

pin to be driven in a likewise manner to enable shutdown.

The LM4901 contains advanced pop & click circuitry which

eliminates noise which would otherwise occur during turn-on

and turn-off transitions.

The LM4901 is unity-gain stable and can be configured by

external gain-setting resistors.

Key Specifications

Improved PSRR at 217Hz & 1KHz

Power Output at 5.0V, 1% THD, 4Ω

Power Output at 5.0V, 1% THD, 8Ω

Power Output at 3.0V, 1% THD, 4Ω

Power Output at 3.0V, 1% THD, 8Ω

Shutdown Current

62dB

1.6W (typ)

1.07W (typ)

525mW (typ)

390mW (typ)

0.1µA (typ)

Features

Available in space-saving packages: LLP and MSOP

Ultra low current shutdown mode

BTL output can drive capacitive loads

Improved pop & click circuitry eliminates noise during

turn-on and turn-off transitions

2.0 - 5.5V operation

No output coupling capacitors, snubber networks or

bootstrap capacitors required

Unity-gain stable

External gain configuration capability

User selectable shutdown High or Low logic Level

Applications

Mobile Phones

PDAs

Portable electronic devices

Typical Application

20019801

FIGURE 1. Typical Audio Amplifier Application Circuit

Boomer

is a registered trademark of National Semiconductor Corporation.

DS200198

www.national.com

LM4901

Connection Diagrams

Mini Small Outline (MSOP) Package

MSOP Marking

20019871

20019836

Top View

G - Boomer Family

C1 - LM4901MM

Top View

Order Number LM4901MM

See NS Package Number MUB10A

LLP Package

LLP Marking

200198B4

Top View

Z - Plant Code

XY - Date Code

TT - Die Traceability

Bottom Line - Part Number

200198B3

Top View

Order Number LM4901LD

See NS Package Number LDA10B

www.national.com

LM4901

Absolute Maximum Ratings

(Note 2)

If Military/Aerospace specified devices are required,

please contact the National Semiconductor Sales Office/

Distributors for availability and specifications.

Supply Voltage (Note 10)

Storage Temperature

Input Voltage

Power Dissipation (Notes 3, 11)

ESD Susceptibility (Note 4)

ESD Susceptibility (Note 5)

Junction Temperature

Thermal Resistance

6.0V

−65˚C to +150˚C

−0.3V to V

+0.3V

Internally Limited

2000V

200V

150˚C

(MSOP)

(LLP)

Soldering Information

56˚C/W

190˚C/W

63˚C/W (Note 12)

12˚C/W (Note 12)

See AN-1187 "Leadless Leadframe Package (LLP)."

Operating Ratings

Temperature Range

MIN

≤

MAX

Supply Voltage

−40˚C

≤

85˚C

2.0V

≤

5.5V

(Notes 1, 2)

The following specifications apply for the circuit shown in Figure 1, unless otherwise specified. Limits apply for T

= 25˚C.

LM4901

Symbol

Parameter

Conditions

= 0V, I

= 0A, No Load

= 0V, I

= 0A, 8Ω Load

= V

MODE

Mode

Electrical Characteristics V

= 5V

Typical

(Note 6)

0.1

1.5

1.3

1.5

1.3

8.5

Limit

(Notes 7, 8)

2.0

Units

(Limits)

mA (max)

µA (max)

V (min)

V (max)

V (min)

V (max)

SDIH

SDIL

SDIH

SDIL

OUT

Quiescent Power Supply Current

Shutdown Current

Shutdown Voltage Input High

Shutdown Voltage Input Low

Shutdown Voltage Input High

Shutdown Voltage Input Low

Output Offset Voltage

Resistor Output to GND (Note 9)

Output Power (8Ω)

Wake-up time

Total Harmonic Distortion+Noise

Power Supply Rejection Ratio

= V

= GND

9.7

7.0

0.9

mV (max)

kΩ (max)

kΩ (min)

W (min)

mS (max)

THD+N

PSRR

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

1.07

1.6

100

0.2

60 (f =

217Hz)

64 (f = 1kHz)

(4Ω) (Notes 12, 13) THD = 1% (max); f = 1 kHz

= 0.5 Wrms; f = 1kHz

ripple

= 200mV sine p-p

Input terminated with 10Ω

dB (min)

(Notes 1, 2)

The following specifications apply for the circuit shown in Figure 1, unless otherwise specified. Limits apply for T

= 25˚C.

LM4901

Symbol

Parameter

Conditions

= 0V, I

= 0A, No Load

= 0V, I

= 0A, 8Ω Load

= V

MODE

Mode

Electrical Characteristics V

= 3V

Typical

(Note 6)

0.1

1.1

0.9

1.3

1.0

8.5

Limit

(Notes 7, 8)

2.0

Units

(Limits)

mA (max)

µA (max)

V (min)

V (max)

V (min)

V (max)

SDIH

SDIL

SDIH

SDIL

OUT

Quiescent Power Supply Current

Shutdown Current

Shutdown Voltage Input High

Shutdown Voltage Input Low

Shutdown Voltage Input High

Shutdown Voltage Input Low

Output Offset Voltage

Resistor Output to GND (Note 9)

= V

= GND

9.7

7.0

mV (max)

kΩ (max)

kΩ (min)

www.national.com

LM4901

Electrical Characteristics V

= 3V

(Notes 1, 2)

The following specifications apply for the circuit shown in Figure 1, unless otherwise specified. Limits apply for T

25˚C. (Continued)

LM4901

Symbol

Parameter

Output Power (8Ω)

(4Ω)

Wake-up time

Total Harmonic Distortion + Noise

Power Supply Rejection Ratio

= 0.25 Wrms; f = 1kHz

ripple

= 200mV sine p-p

Input terminated with 10Ω

Conditions

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

Typical

(Note 6)

THD+N

PSRR

390

525

0.1

62 (f =

217Hz)

68 (f = 1kHz)

Limit

(Notes 7, 8)

Units

(Limits)

mS (max)

dB (min)

(Notes 1, 2)

The following specifications apply for the circuit shown in Figure 1, unless otherwise specified. Limits apply for T

= 25˚C.

LM4901

Symbol

Parameter

Conditions

= 0V, I

= 0A, No Load

= 0V, I

= 0A, 8Ω Load

= V

MODE

Mode

Electrical Characteristics V

= 2.6V

Typical

(Note 6)

2.0

3.0

0.1

1.0

0.9

1.2

1.0

8.5

Limit

(Notes 7, 8)

Units

(Limits)

mA (max)

µA (max)

V (min)

V (max)

V (min)

V (max)

SDIH

SDIL

SDIH

SDIL

OUT

THD+N

PSRR

Quiescent Power Supply Current

Shutdown Current

Shutdown Voltage Input High

Shutdown Voltage Input Low

Shutdown Voltage Input High

Shutdown Voltage Input Low

Output Offset Voltage

Resistor Output to GND (Note 9)

Output Power ( 8Ω )

( 4Ω )

Wake-up time

Total Harmonic Distortion + Noise

Power Supply Rejection Ratio

= V

= GND

9.7

7.0

mV (max)

kΩ (max)

kΩ (min)

mS (max)

dB (min)

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

= 0.15 Wrms; f = 1kHz

ripple

= 200mV sine p-p

Input terminated with 10Ω

275

340

0.1

51 (f =

217Hz)

51 (f = 1kHz)

Note 1:

All voltages are measured with respect to the ground pin, unless otherwise specified.

Note 2:

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. Specifications are not guaranteed for parameters where no limit

is given, however, the typical value is a good indication of device performance.

Note 3:

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

JMAX

, and the ambient temperature T

. The maximum

allowable power dissipation is P

DMAX

= (T

JMAX

–T

)/θ

or the number given in Absolute Maximum Ratings, whichever is lower. For the LM4901, see power derating

curves for additional information.

Note 4:

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

Note 5:

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

Note 6:

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

Note 7:

Limits are guaranteed to National’s AOQL (Average Outgoing Quality Level).

Note 8:

Datasheet min/max specification limits are guaranteed by design, test, or statistical analysis.

Note 9:

ROUT

is measured from the output pin to ground. This value represents the parallel combination of the 10kΩ output resistors and the two 20kΩ resistors.

Note 10:

If the product is in Shutdown mode and V

exceeds 6V (to a max of 8V V

), then most of the excess current will flow through the ESD protection circuits.

If the source impedance limits the current to a max of 10mA, then the device will be protected. If the device is enabled when V

is greater than 5.5V and less than

6.5V, no damage will occur, although operation life will be reduced. Operation above 6.5V with no current limit will result in permanent damage.

Note 11:

Maximum power dissipation in the device (P

DMAX

) occurs at an output power level significantly below full output power. P

DMAX

can be calculated using

Equation 1 shown in the

Application Information

section. It may also be obtained from the power dissipation graphs.

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