MICROELECTRONIC WORKPIECE PROCESSING SYSTEMS AND ASSOCIATED METHODS OF COLOR CORRECTION

Organization Name

MICRON TECHNOLOGY, INC.

Inventor(s)

Kevin Tetz of Boise ID (US)

Charles M. Watkins of Eagle ID (US)

MICROELECTRONIC WORKPIECE PROCESSING SYSTEMS AND ASSOCIATED METHODS OF COLOR CORRECTION - A simplified explanation of the abstract

This abstract first appeared for US patent application 18464789 titled 'MICROELECTRONIC WORKPIECE PROCESSING SYSTEMS AND ASSOCIATED METHODS OF COLOR CORRECTION

Simplified Explanation

The patent application describes various semiconductor systems and methods for color corrections. One embodiment involves producing a light emitting diode (LED) by forming it on a substrate, measuring its base emission characteristic, and selecting a phosphor based on this measurement. The selected phosphor is then introduced onto the LED using inkjet printing to achieve white light emission.

• Method for producing a light emitting diode (LED)
• LED is formed on a substrate
• Base emission characteristic of the LED is measured
• Phosphor is selected based on the measured base emission characteristic
• Selected phosphor is introduced onto the LED using inkjet printing
• Combined emission from the LED and phosphor approximates white light

Potential Applications

• Lighting systems
• Display technologies
• Automotive lighting
• Backlighting for electronic devices

Problems Solved

• Achieving accurate color correction in LED lighting
• Enhancing the quality of white light emission
• Improving the efficiency of LED production

Benefits

• Accurate color correction for LED lighting
• Improved quality of white light emission
• Cost-effective and efficient LED production
• Versatile application in various industries

Original Abstract Submitted

Several embodiments of semiconductor systems and associated methods of color corrections are disclosed herein. In one embodiment, a method for producing a light emitting diode (LED) includes forming an (LED) on a substrate, measuring a base emission characteristic of the formed LED, and selecting a phosphor based on the measured base emission characteristic of the formed LED such that a combined emission from the LED and the phosphor at least approximates white light. The method further includes introducing the selected phosphor onto the LED via, for example, inkjet printing.