CXA1304-0000-000C00C230F 查看數據表（PDF） - Unspecified

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CXA1304-0000-000C00C230F

Cree® XLamp® CXA1304 LED

Unspecified 

XLAMP® CXA1304 LED

THERMAL DESIGN

The CXA family of LED arrays can include over a hundred different LED die inside one package, and thus over a hundred different junction

temperatures (TJ). Cree has intentionally removed junction-temperature-based operating limits and replaced the commonplace maximum

TJ calculations with maximum ratings based on forward current (IF) and case temperature (Tc). No additional calculations are required to

ensure that the CXA LED is being operated within its designed limits. LES temperature measurement provides additional verification of

good thermal design. Please refer to page 2 for the Operating Limit specifications.

There is no need to calculate for TJ inside the package, as the thermal management design process, specifically from TSP to ambient (Ta),

remains identical to any other LED component. For more information on thermal management of Cree XLamp LEDs, please refer to the

Thermal Management application note. For CXA soldering recommendations and information on thermal interface materials (TIM), LES

temperature measurement, and connection methods, please refer to the Cree XLamp CX Family LEDs soldering and handling document.

The CX Family LED Design Guide provides basic information on the requirements to use Cree XLamp CXA LEDs successfully in luminaire

designs.

To keep the CXA1304 LED at or below the maximum rated Tc, the case to ambient temperature

thermal resistance (R_c-a) must be at or below the maximum R_c-a value shown on the following

graphs, depending on the operating environment. The y‑axis in each graph is a base 10 logarithmic

scale.

R_j-c

Tc

R_j-c

Tc

As the figure at right shows, the R_c-a value is the sum of the thermal resistance of the TIM (R_tim)

plus the thermal resistance of the heat sink (R_hs).

CXA1304-9V

100.00

R_tim

R_hs

Ta

R_c-a

Ta

10.00

1.00

0.10

9V

Ta = 25 °C

Ta = 55 °C

Ta = 85 °C

Ta = 105 °C

0.01

200

300

400

500

600

700

800

900

1000

Current (mA)

Copyright © 2013-2018 Cree, Inc. All rights reserved. The information in this document is subject to change without notice. Cree®, the Cree logo, XLamp® and EasyWhite® are registered trademarks of Cree,

Inc. UL® and the UR logo are registered trademarks of UL LLC.

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