Cree Xhp90 Datasheet

The Cree Xhp90 Datasheet is the key to understanding and effectively utilizing one of the most powerful single-die LEDs available. This document provides crucial information about the Xhp90’s performance characteristics, electrical properties, thermal management requirements, and application guidelines. Whether you’re designing a high-intensity flashlight, a robust work light, or any other application demanding exceptional brightness, the Cree Xhp90 Datasheet is an indispensable resource.

Decoding the Cree Xhp90 Datasheet An In-Depth Look

The Cree Xhp90 Datasheet is more than just a list of numbers it’s a comprehensive guide to harnessing the full potential of this high-output LED. It contains detailed information about the LED’s forward voltage, current ratings, luminous flux (brightness), color temperature, and color rendering index (CRI). Understanding these parameters is essential for selecting the right power supply, designing an efficient thermal management system, and achieving the desired light output and color quality for your application. Think of it as the blueprint for building a light-emitting powerhouse!

Specifically, within the datasheet, you’ll find key sections. These sections help you to understand and use the product properly:

• Absolute Maximum Ratings: These are the limits beyond which the LED could be damaged. NEVER exceed these ratings.
• Optical and Electrical Characteristics: These sections define how the LED behaves under various operating conditions, including forward voltage versus forward current and luminous flux versus forward current.
• Chromaticity Characteristics: Describes the color output of the LED, often including CIE color coordinates.
• Thermal Resistance: Crucial for designing effective heat sinks.

Datasheets are used by engineers and hobbyists alike to properly design lighting systems. Here are some examples of how the information within the datasheet might be used:

1. Selecting the correct driver: The forward voltage and current requirements will dictate the specification of the LED driver.
2. Designing a heat sink: The thermal resistance will inform the size and type of heat sink needed to keep the LED within its operating temperature range.
3. Predicting light output: The luminous flux data allows designers to predict the brightness of the final product.

Understanding thermal management is vital. The following table represents the importance of understanding the right temperature:

Ready to unlock the full potential of your project? Dive deep into the Cree Xhp90 Datasheet, available in the link below, and transform your lighting dreams into reality.