LM391N-100 National Semiconductor, LM391N-100 Datasheet - Page 7

LM391N-100

Manufacturer Part Number

LM391N-100

Description

IC AMP AUDIO PWR MONO AB 16DIP

Manufacturer

National Semiconductor

Type

Class ABr

Datasheet

1.LM391N-100.pdf (12 pages)

Specifications of LM391N-100

Output Type

1-Channel (Mono)

Features

Shutdown, Thermal Protection

Mounting Type

Through Hole

Package / Case

16-DIP (0.300", 7.62mm)

Lead Free Status / RoHS Status

Contains lead / RoHS non-compliant

Voltage - Supply

Max Output Power X Channels @ Load

Other names

*LM391N-100
LM391N100

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Part Number:

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Manufacturer:

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Application Hints

TRANSIENT INTERMODULATION DISTORTION

There has been a lot of interest in recent years about tran-

sient intermodulation distortion Matti Otala of University of

Oulu Oulu Finland has published several papers on the

subject The results of these investigations show that the

open loop pole of the power amplifier should be above 20

kHz

To do this with the LM391 is easy Put a 1 M

pin 3 to the output and the open loop gain is reduced to

about 46 dB Now the open loop pole is at 30 kHz The

current in this resistor causes an offset in the input stage

that can be cancelled with a resistor from pin 4 to ground

The resistor from pin 4 to ground should be 910 k

than 1 M

correctly The slight difference in resistors results in about

15 mV of offset The 40W 8

the hookup of these two resistors

BRIDGE AMPLIFIER

A switch can be added to convert a stereo amplifer to a

single bridge amplifer The diagram below shows where the

switch and one resistor are added When operating in the

bridge mode the output load is connected between the two

outputs the input is V

Typical Applications

Output Transistors Selection Guide

20W

30W

40W

60W

Output

Power

to insure that the shutdown circuitry will operate

1 and V

(Continued)

amplifier schematic shows

MJE711

MJE171

D43C8

MJE712

MJE172

D43C11

(Continued)

PNP

2 is disconnected

Driver Transistor

resistor from

Bridge Circuit Diagram

rather

Table A

MJE721

MJE181

D42C8

MJE722

MJE182

D42C11

NPN

OSCILLATIONS

Most power amplifiers work the first time they are turned on

They also tend to oscillate and have excess THD Most os-

cillation problems are due to inadequate supply bypassing

and or ground loops A 10

power supply will stop supply-related oscillations However

if the signal ground is used for these bypass caps the THD

is usually excessive The signal ground must return to the

power supply alone as must the output load ground All

other grounds bypass output R-C protection etc can tie

together and then return to supply This ground is called

high frequency ground On the 40W amplifier schematic all

the grounds are labeled

Capacitive loads can cause instabilities so they are isolated

from the amplifier with an inductor and resistor in the output

lead

AB BIAS CURRENT

To reduce distortion in the output stage all the transistors

are biased ON slightly This results in class AB operation

and reduces the crossover (notch) distortion of the class B

stage to a low level (see performance curve THD vs AB

bias) The potentiometer R

give about 25 mA of current in the output stage This current

is usually monitored at the supply or by measuring the volt-

age across R

GROUNDING

TIP42A

2N6490

2N5882

PNP

Output Transistor

from pins 6– 7 is adjusted to

F 50V electrolytic on each

TIP41A

2N6487

2N5880

NPN

TL H 7146– 7

LM391N-100 National Semiconductor, LM391N-100 Datasheet - Page 7

LM391N-100

Specifications of LM391N-100

Available stocks

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