AN1149-4 Lumileds Lighting, LLC, AN1149-4 Datasheet - Page 9

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AN1149-4

Manufacturer Part Number

AN1149-4

Description

Thermal Management Considerations for SuperFlux LEDs

Manufacturer

Lumileds Lighting, LLC

Datasheet

1.AN1149-4.pdf (14 pages)

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The resistors should be located in a remote

portion of the PCB (away from the LEDs), on a

separate PCB, or in the wire harness if possible.

If this is not possible, the resistors should be

distributed evenly along the PCB to distribute

the heat generated. In addition, the traces from

resistors to metallized areas surrounding

cathode leads on the LEDs should be

LED Spacing

Most of the electrical power in an LED is

dissipated as heat. Tighter LED spacing

provides a smaller area for heat dissipation,

resulting in higher PCB temperatures and thus

higher junction temperatures. The LEDs should

be spaced as far apart as packaging and

Lamp Housing Design and Mounting of the LED Array

LED lamp housings should be designed to

provide a conductive path from the backside of

the PCB to the lamp housing. This is typically

accomplished by mounting the backside of the

PCB directly to the lamp housing such that they

are contacting one another across the entire

length of the PCB. This mounting scheme can

be improved by applying a thermally conductive

pad between the PCB and the lamp housing.

The thermally conductive pad conforms to the

features on the backside of the PCB and

provides a larger contact area for conduction.

Often the PCB is mounted to the lamp housing

on top of raised bosses. In this case, the area

for conduction into the lamp housing is reduced

to the contact area on the top side of the

bosses, greatly reducing its effectiveness.

Another common configuration mounts the

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minimized to prevent resistors from heating

adjacent LEDs. This can be accomplished by

thinning down these traces, or by having

metallized areas contacting the LEDs and

resistors only contact the anode leads of the

LED. A portion of an LED CHMSL PCB depicting

the design concepts discussed is shown in

Figure 4.6.

optical constraints will allow. Most CHMSL

applications use only a single row of LEDs at

spacing greater than 15 mm which is ideal, as

opposed to many amber turn signal applications

which use a tightly spaced (less than 10 mm) x y

array of LEDs.

PCB along its top and bottom edges to slots in

the side of the lamp housing. Again, the area for

conduction into the lamp housing is reduced to

the contact areas of the slots, which reduces the

effectiveness of conduction.

If the PCB is mounted in such a way that

conduction to the lamp housing is not effective

(trapped air is a very poor conductor of heat),

then allowances for convective cooling should be

made. The most common technique to take

advantage of natural convection is to put holes in

the top and bottom side of the lamp housing to

allow for vertical air flow over the PCB. However,

where the lamp housing must be sealed for

environmental reasons, this type of approach is

impractical.

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