AN1149-4 Lumileds Lighting, LLC, AN1149-4 Datasheet - Page 2
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)
Importance of Thermal Management
for High Power LED Assemblies
Temperature Induced Effects on LED Light Output
The junction temperature of the LED affects the
device’s luminous flux, the color of the device,
and its forward voltage. Junction temperature
can be affected by the ambient temperature
and by self heating due to electrical power
dissipation.
The equation for luminous flux as a function of
temperature (°C) is given below:
Φ
Where:
Φ
Φ
k = temperature coefficient
∆
Table 4.1
T
V
V
V
j
(T
(T
(T
= change in junction temperature (T
2
1
2
)= luminous flux at junction temperature T
)= luminous flux at junction temperature T
) =
Φ
V
(T
1
)e
–k
∆
Temperature Coefficient for High-Brightness LED Materials.
Tj
AS AlInGap, Red-Orange
TS AlInGap, Red-Orange
LED Material Type
AS AlInGap, Amber
TS AlInGap, Amber
2
T
1
).
1
2
Figure 4.1 Luminous flux versus ambient
temperature for a typical red-orange AS/TS AlInGap
LED when operated at a constant current.
Typical temperature coefficients for various high
brightness LEDs are listed in Table 4.1.
The degradation of flux as a function of
increasing temperature for a typical red orange,
absorbing substrate (AS) or transparent
substrate (TS) AlInGaP LED is shown in Figure
4.1. Note, luminous flux has been normalized at
25°C.
This graph shows the profound affect that
temperatures within the normal operating
guidelines can have on luminous flux. As shown,
an increase in the junction temperature of 75°C
can cause the level of luminous flux to be
reduced to one half of its room temperature
value. From this, it is clear that temperature
effects on luminous flux must be accounted for
in the design of a LED assembly.
Temperature Coefficient,
9.52 x 10
1.11 x 10
9.52 x 10
9.52 x 10
-3
-2
-3
-2
k
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