LM48510SDE/NOPB National Semiconductor, LM48510SDE/NOPB Datasheet - Page 13

LM48510SDE/NOPB

Manufacturer Part Number

LM48510SDE/NOPB

Description

IC AMP AUDIO PWR 1.9W MONO 16LLP

Manufacturer

National Semiconductor

Series

Boomer®, PowerWise®r

Type

Class Dr

Datasheet

1.LM48510SDNOPB.pdf (20 pages)

Specifications of LM48510SDE/NOPB

Output Type

1-Channel (Mono)

Max Output Power X Channels @ Load

1.9W x 1 @ 4 Ohm

Voltage - Supply

2.7 V ~ 5 V

Features

Depop, Differential Inputs, PWM, Short-Circuit and Thermal Protection, Shutdown

Mounting Type

Surface Mount

Package / Case

16-LLP

Operational Class

Class-D

Audio Amplifier Output Configuration

1-Channel Mono

Output Power (typ)

1.9x1@4OhmW

Audio Amplifier Function

Speaker

Total Harmonic Distortion

0.06@8Ohm@500mW%

Single Supply Voltage (typ)

Dual Supply Voltage (typ)

Not RequiredV

Power Supply Requirement

Single

Rail/rail I/o Type

Power Supply Rejection Ratio

89dB

Single Supply Voltage (min)

2.7V

Single Supply Voltage (max)

Dual Supply Voltage (min)

Not RequiredV

Dual Supply Voltage (max)

Not RequiredV

Operating Temp Range

-40C to 85C

Operating Temperature Classification

Industrial

Mounting

Surface Mount

Pin Count

For Use With

LM48510SDBD - BOARD EVALUATION LM48510SD

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Other names

LM48510SDE

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FET on resistance increases at V

the internal N-FET has less gate voltage in this input voltage

range (see Typical Performance Characteristics curves).

Above V

5V.

The maximum peak switch current the device can deliver is

dependent on duty cycle. For higher duty cycles, see Typical

Performance Characteristics curves.

INDUCTOR SUPPLIERS

Recommended suppliers of inductors for the LM48510 in-

clude, but are not limited to Taiyo-Yuden, Sumida, Coilcraft,

Panasonic, TDK and Murata. When selecting an inductor,

make certain that the continuous current rating is high enough

to avoid saturation at peak currents. A suitable core type must

be used to minimize core (switching) losses, and wire power

losses must be considered when selecting the current rating.

PCB LAYOUT GUIDELINES

High frequency boost converters require very careful layout

of components in order to get stable operation and low noise.

All components must be as close as possible to the LM48510

device. It is recommended that a four layer PCB be used so

that internal ground planes are available.

Some additional guidelines to be observed:

1. Keep the path between L1, D1, and Co extremely short.

Parasitic trace inductance in series with D1 and Co will in-

crease noise and ringing.

2. The feedback components R1, R2 and C

close to the FB pin to prevent noise injection on the FB pin

trace.

3. If internal ground planes are available (recommended) use

vias to connect directly to ground at pin 2 of U1, as well as the

negative sides of capacitors C

GENERAL MIXED-SIGNAL LAYOUT RECOMMENDATION

This section provides practical guidelines for mixed signal

PCB layout that involves various digital/analog power and

= 5V, the FET gate voltage is internally clamped to

1 and Co.

values below 5V, since

must be kept

ground traces. Designers should note that these are only

"rule-of-thumb" recommendations and the actual results will

depend heavily on the final layout.

Power and Ground Circuits

For two layer mixed signal design, it is important to isolate the

digital power and ground trace paths from the analog power

and ground trace paths. Star trace routing techniques (bring-

ing individual traces back to a central point rather than daisy

chaining traces together in a serial manner) can have a major

impact on low level signal performance. Star trace routing

refers to using individual traces to feed power and ground to

each circuit or even device. This technique will take require a

greater amount of design time but will not increase the final

price of the board. The only extra parts required may be some

jumpers.

Single-Point Power / Ground Connection

The analog power traces should be connected to the digital

traces through a single point (link). A "Pi-filter" can be helpful

in minimizing high frequency noise coupling between the ana-

log and digital sections. It is further recommended to place

digital and analog power traces over the corresponding digital

and analog ground traces to minimize noise coupling.

Placement of Digital and Analog Components

All digital components and high-speed digital signals traces

should be located as far away as possible from analog com-

ponents and circuit traces.

Avoiding Typical Design / Layout Problems

Avoid ground loops or running digital and analog traces par-

allel to each other (side-by-side) on the same PCB layer.

When traces must cross over each other do it at 90 degrees.

Running digital and analog traces at 90 degrees to each other

from the top to the bottom side as much as possible will min-

imize capacitive noise coupling and crosstalk.

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LM48510SDE/NOPB National Semiconductor, LM48510SDE/NOPB Datasheet - Page 13

LM48510SDE/NOPB

Specifications of LM48510SDE/NOPB

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