DISPLAY PANEL AND FABRICATING METHOD THEREOF, LIGHT EMITTING APPARATUS AND DISPLAYING DEVICE

Organization Name

boe technology group co., ltd.

Inventor(s)

Xiaohu Li of Beijing (CN)

Weijie Wang of Beijing (CN)

Liangliang Kang of Beijing (CN)

Zhiqiang Jiao of Beijing (CN)

Lu Wang of Beijing (CN)

DISPLAY PANEL AND FABRICATING METHOD THEREOF, LIGHT EMITTING APPARATUS AND DISPLAYING DEVICE - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240244900 titled 'DISPLAY PANEL AND FABRICATING METHOD THEREOF, LIGHT EMITTING APPARATUS AND DISPLAYING DEVICE

The abstract of this patent application describes a display panel with a unique structure involving driving base plates and pixel units.

• The display panel consists of stacked driving base plates, each containing a substrate and a driving unit.
• The driving base plates are oriented in the same direction for consistency.
• Pixel units are arranged in an array, with each unit containing multiple sub-pixels.
• Light emitting regions of the sub-pixels within the same pixel unit do not overlap on the substrate.
• Each driving base plate has at least one sub-pixel on one side, away from the substrate, with the driving unit electrically connected to it.
• The number of driving base plates is equal to or less than the number of sub-pixels in a pixel unit.

Potential Applications: - This technology could be used in the manufacturing of high-resolution displays for various electronic devices. - It may find applications in the development of advanced signage systems for commercial use. - The unique structure could be beneficial in creating innovative lighting solutions for architectural and interior design purposes.

Problems Solved: - Provides a more efficient and organized way of driving pixel units in a display panel. - Ensures that light emitting regions do not overlap, leading to improved image quality. - Reduces the complexity of the overall display panel design.

Benefits: - Enhanced display performance with reduced overlap of light emitting regions. - Simplified structure for driving pixel units, leading to easier manufacturing processes. - Potential for higher resolution and improved image clarity in display panels.

Commercial Applications: Title: Innovative Display Panel Technology for High-Resolution Displays This technology could revolutionize the display industry by offering a more efficient and organized way of driving pixel units, leading to enhanced image quality and performance. It has the potential to be widely adopted in various electronic devices, signage systems, and lighting solutions for commercial and residential use.

Questions about Display Panel Technology: 1. How does the unique structure of this display panel improve image quality compared to traditional designs? - The unique structure ensures that light emitting regions of sub-pixels do not overlap, leading to clearer and more defined images on the display. 2. What are the potential cost implications of implementing this technology in display manufacturing processes? - The streamlined design of the display panel could potentially reduce manufacturing costs by simplifying the production process and improving overall efficiency.

Original Abstract Submitted

a display panel includes a plurality of driving base plates stacked, each of the driving base plates includes a substrate and a driving unit located on the substrate, orientations of the driving base plates are the same; a plurality of pixel units arranged in an array, each of the pixel units includes a plurality of sub-pixels, and orthographic projections on the substrate of light emitting regions of the sub-pixels in the same pixel unit do not overlap with each other; and each of the driving base plates is provided with at least one sub-pixel on one side away from the substrate, and the driving unit on each of the driving base plates is electrically connected to the at least one sub-pixel; and a quantity of the driving base plates is less than or equal to a quantity of the sub-pixels in one of the pixel units.