NSC LM4810MAX, LM4810MA, LM4810LDX, LM4810MM Datasheet

LM4810

Dual 105mW Headphone Amplifier with Active-High
Shutdown Mode

General Description

The LM4810 is a dual audio power amplifier capable of
delivering 105mW per channel of continuous average power
into a 16Ω load with 0.1% (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. Since the LM4810 does not require
bootstrap capacitors or snubber networks, it is optimally
suited for low-power portable systems.

The unity-gain stable LM4810 can be configured by external
gain-setting resistors.

The LM4810 features an externally controlled, active-high,
micropower consumption shutdown mode, as well as an
internal thermal shutdown protection mechanism.

Key Specifications

n THD+N at 1kHz, 105mW continuous average power into

16Ω 0.1% (typ)

n THD+N at 1kHz, 70mW continuous average power into

32Ω 0.1% (typ)

n Shutdown Current 0.4µA (typ)

Features

n Active-high shutdown mode
n LLP, MSOP, and SO surface mount packaging
n "Click and Pop" suppression circuitry
n Low shutdown current
n No bootstrap capacitors required
n Unity-gain stable

Applications

n Cellular Phones
n Personal Computers
n Microphone Preamplifier
n PDA’s

Typical Application

Boomer®is a registered trademark of National Semiconductor Corporation.

20008901

*Refer to the Application Information Section for information concerning proper selection of the input and output coupling capacitors.

FIGURE 1. Typical Audio Amplifier Application Circuit

November 2002

LM4810 Dual 105mW Headphone Amplifier with Active-High Shutdown Mode

© 2002 National Semiconductor Corporation DS200089 www.national.com

Connection Diagrams

MSOP Package SO Package

20008902

Top View

Order NumberLM4810MM

See NS Package Number MUA08A

20008902

Top View

Order NumberLM4810MA

See NS Package Number M08A

LLP Package MSOP Marking

20008986

Top View

Order NumberLM4810LD

See NS Package Number LDA08B

20008991

SO Marking LLP Marking

20008992 20008993

LM4810

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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 6.0V

Storage Temperature −65˚C to +150˚C

ESD Susceptibility (Note 4) 3.5kV

ESD Machine Model (Note 8) 250V

Junction Temperature (T

J

) 150˚C

Soldering Information (Note 1)

Small Outline Package

Vapor Phase (60 sec.) 215˚C

Infrared (15 sec.) 220˚C

Thermal Resistance

θ

JA

(SO) 170˚C/W

θ

JC

(SO) 35˚C/W

θ

JA

(MSOP) 210˚C/W

θ

JC

(MSOP) 56˚C/W

θ

JA

(LLP) 117˚C/W (Note 9)

θ

JA

(LLP) 150˚C/W (Note 10)

θ

JC

(LLP) 15˚C/W

Operating Ratings (Note 2)

Temperature Range

T

MIN

≤ TA≤ T

MAX

−40˚C ≤ TA≤ 85˚C

Supply Voltage (V

CC

2.0V ≤ VCC≤ 5.5V

Note 1: See AN-450 “Surface Mounting and their Effects on Product Reli­ability” for other methods of soldering surface mount devices.

Electrical Characteristics (Notes 2, 3)

The following specifications apply for VDD= 5V unless otherwise specified, limits apply to TA= 25˚C.

Symbol Parameter Conditions LM4810 Units

(Limits)

Typ

(Note 5)

Limit

(Note 7)

V

DD

Supply Voltage 2.0 V (min)

5.5 V (max)

I

DD

Supply Current VIN= 0V, IO= 0A 1.3 3 mA(max)

I

SD

Shutdown Current VIN= 0V, V

SHUTDOWN

=V

DD

0.4 2 µA(max)

V

OS

Output Offset Voltage VIN= 0V 4.0 50 mV(max)

P

O

Output Power THD+N = 0.1%, f = 1kHz

R

L

=16Ω 105 mW

R

L

=32Ω 70 65 mW(min)

THD+N Total Harmonic Distortion P

O

= 50mW, RL=32Ω

f = 20Hz to 20kHz

0.3 %

Crosstalk Channel Separation R

L

=32Ω;PO= 70mW 70 dB

PSRR Power Supply Rejection Ratio C

B

= 1.0µF; V

RIPPLE

= 200mVPP,

f = 1kHz; Input terminated into 50Ω

70 dB

V

SDIH

Shutdown Voltage Input High 0.8 x V

DD

V (min)

V

SDIL

Shutdown Voltage Input Low 0.2 x V

DD

V (max)

Electrical Characteristics (Notes 2, 3)

The following specifications apply for VDD= 3.3V unless otherwise specified, limits apply to TA= 25˚C.

Symbol Parameter Conditions LM4810 Units

(Limits)

Typ

(Note 5)

Limit

(Note 7)

I

DD

Supply Current VIN= 0V, IO= 0A 1.0 mA

I

SD

Shutdown Current VIN= 0V, V

SHUTDOWN

=V

DD

0.4 µA

V

OS

Output Offset Voltage VIN= 0V 4.0 mV

P

O

Output Power THD+N = 0.1%, f = 1kHz

R

L

=16Ω 40 mW

R

L

=32Ω 28 mW

THD+N Total Harmonic Distortion P

O

= 25mW, RL=32Ω

f = 20Hz to 20kHz

0.4 %

Crosstalk Channel Separation RL=32Ω;PO= 25mW 70 dB

LM4810

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Electrical Characteristics (Notes 2, 3) (Continued)

The following specifications apply for VDD= 3.3V unless otherwise specified, limits apply to TA= 25˚C.

Symbol Parameter Conditions LM4810 Units

(Limits)

Typ

(Note 5)

Limit

(Note 7)

PSRR Power Supply Rejection Ratio C

B

= 1.0µF; Vripple = 200mVPP,

f = 1kHz; Input terminated into 50Ω

70 dB

V

SDIH

Shutdown Voltage Input High 0.8 x V

DD

V (min)

V

SDIL

Shutdown Voltage Input Low 0.2 x V

DD

V (max)

Electrical Characteristics (Notes 2, 3)

The following specifications apply for VDD= 2.6V unless otherwise specified, limits apply to TA= 25˚C.

Symbol Parameter Conditions LM4810 Units

(Limits)

Typ

(Note 5)

Limit

(Note 7)

I

DD

Supply Current VIN= 0V, IO= 0A 0.9 mA

I

SD

Shutdown Current VIN= 0V, V

SHUTDOWN

=V

DD

0.2 µA

V

OS

Output Offset Voltage VIN= 0V 4.0 mV

P

O

Output Power THD+N = 0.1%, f = 1kHz

R

L

=16Ω 20 mW

R

L

=32Ω 16 mW

THD+N Total Harmonic Distortion P

O

= 15mW, RL=32Ω

f = 20Hz to 20kHz

0.6 %

Crosstalk Channel Separation R

L

=32Ω;PO= 15mW 70 dB

PSRR Power Supply Rejection Ratio C

B

= 1.0µF; Vripple = 200mVPP,

f = 1kHz; Input terminated into 50Ω

70 dB

V

SDIH

Shutdown Voltage Input High 0.8 x V

DD

V (min)

V

SDIL

Shutdown Voltage Input Low 0.2 x V

DD

V (max)

Note 2: Absolute Maximum Ratings indicate limits beyond which damage to the device may occur.

Note 3: All voltages are measured with respect to the ground pin, unless otherwise specified.

Note 4: Human body model, 100pF discharged through a 1.5kΩ resistor.

Note 5: Typical specifications are specified at +25OC and represent the most likely parametric norm.

Note 6: Tested limits are guaranteed to National’s AOQL (Average Outgoing Quality Level).

Note 7: Datasheet max/min specification limits are guaranteed by design, test, or statistical analysis.

Note 8: Machine Model ESD test is covered by specification EIAJ IC-121-1981. A 200pF cap is charged to the specified voltage, then discharged directly into the

IC with no external series resistor (resistance of discharge path must be under 50Ohms).

Note 9: The given θ

JA

is for an LM4810 packaged in an LDA08B with the Exposed-Dap soldered to a printed circuit board copper pad with an area equivalent to

that of the Exposed-Dap itself.

Note 10: The given θ

JA

is for an LM4810 packaged in an LDA08B with the Exposed-Dap not soldered to any circuit board copper.

LM4810

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External Components Description (Figure 1)

Components Functional Description

1. R

i

The inverting input resistance, along with Rf, set the closed-loop gain. Ri, along with Ci, form a high
pass filter with f

c

= 1/(2πRiCi).

2. C

i

The input coupling capacitor blocks DC voltage at the amplifier’s input terminals. Ci, along with Ri,
create a highpass filter with f

c

= 1/(2πRiCi). Refer to the section, Selecting Proper External

Components, for an explanation of determining the value of C

i

.

3. R

f

The feedback resistance, along with Ri, set closed-loop gain.

4. C

S

This is the supply bypass capacitor. It provides power supply filtering. Refer to the Application
Information section for proper placement and selection of the supply bypass capacitor.

5. C

B

This is the BYPASS pin capacitor. It provides half-supply filtering. Refer to the section, Selecting
Proper External Components, for information concerning proper placement and selection of C

B

.

6. C

O

This is the output coupling capacitor. It blocks the DC voltage at the amplifier’s output and forms a high
pass filter with R

L

at fO= 1/(2πRLCO)

Typical Performance Characteristics

THD+N vs Frequency THD+N vs Frequency

20008985 20008964

THD+N vs Frequency THD+N vs Frequency

20008965 20008966

LM4810

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Typical Performance Characteristics (Continued)

THD+N vs Frequency THD+N vs Frequency

20008967 20008968

THD+N vs Frequency THD+N vs Frequency

20008969 20008970

THD+N vs Frequency THD+N vs Frequency

20008971 20008972

LM4810

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