COLUMN INTERCHANGEABLE DEMULTIPLEXER STRUCTURE IN DISPLAYS

Organization Name

google llc

Inventor(s)

Sangmoo Choi of Palo Alto CA (US)

COLUMN INTERCHANGEABLE DEMULTIPLEXER STRUCTURE IN DISPLAYS - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240221632 titled 'COLUMN INTERCHANGEABLE DEMULTIPLEXER STRUCTURE IN DISPLAYS

The abstract of the patent application describes a display with subpixel emissive areas of three colors arranged in an array, along with scan lines, column lines, and electronic subpixel circuits. Each subpixel circuit is connected to a column line and receives signals from scan lines and column lines to drive light emission from the subpixel emissive areas. The display also includes demultiplexer switches to connect every other column line to multiple outputs from a column line driver.

• Subpixel emissive areas of three colors arranged in an array
• Electronic subpixel circuits connected to column lines and scan lines
• Demultiplexer switches for connecting column lines to multiple outputs
• Driving light emission from subpixel emissive areas
• Efficient control of subpixels for color display

Potential Applications: - High-resolution displays - Colorful signage and advertising - Advanced gaming monitors - Medical imaging devices - Automotive display systems

Problems Solved: - Precise control of subpixel emissive areas - Enhanced color accuracy and brightness - Efficient power consumption - Improved image quality and clarity

Benefits: - Vivid and accurate color reproduction - Energy-efficient display technology - Enhanced visual experience for users - Versatile applications in various industries - Improved overall display performance

Commercial Applications: Title: Advanced Color Display Technology for Enhanced Visual Experiences This technology can be utilized in high-end televisions, smartphones, tablets, and other electronic devices requiring high-quality color displays. The market implications include increased demand for premium display products and improved user satisfaction with visual content consumption.

Questions about Color Display Technology: 1. How does this technology improve color accuracy in displays? This technology enhances color accuracy by precisely controlling the emission of subpixels in the display, resulting in vivid and true-to-life color reproduction.

2. What are the potential cost implications of implementing this advanced display technology? The initial costs of implementing this technology may be higher due to the complexity of the circuitry involved, but the long-term benefits of improved display quality and energy efficiency can outweigh the initial investment.

Original Abstract Submitted

a display includes subpixel emissive areas of first, second, and third colors arranged in an array that includes rows and columns. the display also includes scan lines, column lines, and electronic subpixel circuits arranged in the array, with each subpixel circuit in a column of the array being electrically connected to a same column line and each electronic subpixel circuit configured for receiving electronic signals from a scan line and from a column line and for converting the received signals into a current signal provided to one of the subpixel emissive areas to drive light emission from the subpixel emissive area. the display further includes demultiplexer (demux) switches, where every other column line of the columns lines is configured to be connected to at least two outputs from a column line driver through the demux switches.