lme49810tb National Semiconductor Corporation, lme49810tb Datasheet - Page 15

lme49810tb

Manufacturer Part Number

lme49810tb

Description

200v Audio Power Amplifier Driver With Baker Clamp

Manufacturer

National Semiconductor Corporation

Datasheet

1.LME49810TB.pdf (22 pages)

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can eliminate the trim pot and virtually eliminate crossover

distortion. The V

output stage) can be set by following formula:

When using a bipolar output stage with the LME49810 (as in

Figure 1), the designer must beware of thermal runaway.

Thermal runaway is a result of the temperature dependence

of V

increases, V

a bipolar transistor heats up the transistor, which lowers the

peats. If the system is not designed properly this positive

feedback mechanism can destroy the bipolar transistors used

in the output stage. One of the recommended methods of

preventing thermal runaway is to use the same heat sink on

the bipolar output stage transistor together with V

transistor. When the V

same heat sink as the bipolar output stage transistors, it tem-

perature will track that of the output transistors. Its V

dependent upon temperature as well, and so it will draw more

current as the output transistors heat up, reducing the bias

voltage to compensate. This will limit the base current into the

output transistors, which counteracts thermal runaway. An-

other widely popular method of preventing thermal runaway

is to use low value emitter degeneration resistors (R

creases, which decreases the voltage across the base and

. This in turn increases the current gain, and the cycle re-

). As current increases, the voltage at the emitter also in-

(an inherent property of the transistor). As temperature

decreases. In practice, current flowing through

BIAS

voltage of Q

= V

multiplier transistor is mounted to the

(1+R

MULT

) (V)

(also called BIAS of the

multiplier

and

(7)

emitter. This mechanism helps to limit the current and coun-

teracts thermal runaway.

LAYOUT CONSIDERATION AND AVOIDING GROUND

LOOPS

A proper layout is virtually essential for a high performance

audio amplifier. It is very important to return the load ground,

supply grounds of output transistors, and the low level (feed-

back and input) grounds to the circuit board common ground

point through separate paths. When ground is routed in this

fashion, it is called a star ground or a single point ground. It

is advisable to keep the supply decoupling capacitors of

0.1μF close as possible to LME49810 to reduce the effects of

PCB trace resistance and inductance. Following the general

rules will optimize the PCB layout and avoid ground loops

problems:

a) Make use of symmetrical placement of components.

b) Make high current traces, such as output path traces, as

wide as possible to accomodate output stage current require-

ment.

c) To reduce the PCB trace resistance and inductance, same

ground returns paths should be as short as possible. If pos-

sible, make the output traces short and equal in length.

d) To reduce the PCB trace resistance and inductance,

ground returns paths should be as short as possible.

e) If possible, star ground or a single point ground should be

observed. Advanced planning before starting the PCB can

improve audio performance.

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lme49810tb National Semiconductor Corporation, lme49810tb Datasheet - Page 15

lme49810tb

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