LM2612 National Semiconductor Corporation, LM2612 Datasheet - Page 18

LM2612

Manufacturer Part Number

LM2612

Description

LM2612 - Miniature, Programmable, Step-down DC-DC Converter For Ultra Low-voltage Circuits, Package: Microsmd, Pin Nb=10

Manufacturer

National Semiconductor Corporation

Datasheet

1.LM2612.pdf (19 pages)

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Application Information

Do not use or power-up the LM2612 while subjecting it to

high intensity red or infrared light, otherwise degraded, un-

predictable or erratic operation may result. Examples of light

sources with high red or infrared content include the sun and

halogen lamps. Package the circuit in a case opaque to red

or infrared light.

Board Layout Considerations

PC board layout is an important part of DC-DC converter

design. Poor board layout can disrupt the performance of a

DC-DC converter and surrounding circuitry by contributing to

EMI, ground bounce, and resistive voltage loss in the traces.

These can send erroneous signals to the DC-DC converter

IC, resulting in poor regulation or instability. Poor layout can

also result in reflow problems leading to poor solder joints

between the micro SMD package and board pads. Poor

solder joints can result in erratic or degraded performance.

Good layout for the LM2612 can be implemented by follow-

ing a few simple design rules:

1. Place the LM2612 on 6.7mil pads for micro SMD pack-

2. Place the LM2612, inductor and filter capacitors close

3. Arrange the components so that the switching current

age. As a thermal relief, connect to each pad with a 6mil

wide trace (micro SMD), 6mils long or longer, then in-

crementally increase each trace to its optimal width over

a span so that the taper extends beyond the edge of the

package. The important criterion is symmetry to ensure

re-flow occurs evenly (see Micro SMD Package Assem-

bly and Use ).

together and make the traces short. The traces between

these components carry relatively high switching cur-

rents and act as antennas. Following this rule reduces

radiated noise. Place the capacitors and inductor within

0.2in (5mm) of the LM2612.

loops curl in the same direction. During the first part of

each cycle, current flows from the input filter capacitor,

through the LM2612 and inductor to the output filter

capacitor and back through ground, forming a current

(Continued)

4. Connect the ground pins of the LM2612 and filter ca-

5. Use wide traces between the power components and for

6. Route noise sensitive traces, such as the voltage feed-

7. Place noise sensitive circuitry, such as radio IF blocks,

In mobile phones, for example, a common practice is to

place the DC-DC converter on one corner of the board,

arrange the CMOS digital circuitry around it (since this also

generates noise), and then place sensitive preamplifiers and

IF stages on the diagonally opposing corner. Often, the

sensitive circuitry is shielded with a metal pan and power to

it is post-regulated to reduce conducted noise, using

low-dropout linear regulators, such as the LP2966.

loop. In the second part of each cycle, current is pulled

up from ground, through the LM2612 by the inductor, to

the output filter capacitor and then back through ground,

forming a second current loop. Routing these loops so

the current curls in the same direction prevents mag-

netic field reversal between the two part-cycles and

reduces radiated noise.

pacitors together using generous component-side cop-

per fill as a pseudo-ground plane. Then, connect this to

the ground-plane (if one is used) with several vias. This

reduces ground-plane noise by preventing the switching

currents from circulating through the ground plane. It

also reduces ground bounce at the LM2612 by giving it

a low-impedance ground connection.

power connections to the DC-DC converter circuit. This

reduces voltage errors caused by resistive losses across

the traces.

back path, away from noisy traces between the power

components. The voltage feedback trace must remain

close to the LM2612 circuit and should be direct but

should be routed away from to noisy components. This

reduces EMI radiated onto the DC-DC converter’s own

voltage feedback trace.

away from the DC-DC converter, CMOS digital blocks

and

noise-sensitive circuitry in the system can be reduced

through distance.

other

noisy

circuitry.

Interference

with

LM2612 National Semiconductor Corporation, LM2612 Datasheet - Page 18

LM2612

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