Display Substrate and Display Device

Organization Name

chengdu boe optoelectronics technology co., ltd.

Inventor(s)

Ke Liu of Beijing (CN)

Ling Shi of Beijing (CN)

Zhu Wang of Beijing (CN)

Dan Guo of Beijing (CN)

Fei Fang of Beijing (CN)

Xiaoqi Ding of Beijing (CN)

Display Substrate and Display Device - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240215366 titled 'Display Substrate and Display Device

The patent application describes a display substrate with a base substrate, first-region light emitting elements, and first-region pixel circuits. The base substrate has a display region and a peripheral region, with the display region containing a transparent display area where the light emitting elements and pixel circuits are located. Some pixel circuits are connected to multiple light emitting elements emitting the same color.

• The display substrate includes a base substrate, first-region light emitting elements, and first-region pixel circuits.
• The base substrate has a display region and a peripheral region, with the display region being transparent.
• Multiple first-region light emitting elements and pixel circuits are located in the transparent display region.
• Some pixel circuits are connected to multiple light emitting elements emitting the same color.
• The patent aims to improve the display quality and efficiency of light emitting elements in a display substrate.

Potential Applications: - This technology can be used in the manufacturing of high-quality displays for electronic devices. - It may find applications in the development of advanced display panels for televisions, smartphones, and other consumer electronics.

Problems Solved: - Enhances the display quality by optimizing the connection between pixel circuits and light emitting elements. - Improves the efficiency of light emission in the display substrate.

Benefits: - Enhanced display quality and efficiency. - Improved performance of light emitting elements in the display. - Potential cost savings in the manufacturing process.

Commercial Applications: Title: Advanced Display Substrate Technology for Electronic Devices This technology can be commercially applied in the production of high-resolution displays for smartphones, televisions, monitors, and other electronic devices. It can lead to improved visual experiences for users and potentially reduce manufacturing costs for display panels.

Prior Art: Readers interested in exploring prior art related to this technology can start by researching display substrates, pixel circuit designs, and light emitting element technologies in the field of display technology.

Frequently Updated Research: Researchers in the field of display technology may be conducting studies on optimizing the performance of light emitting elements in display substrates, improving pixel circuit designs, and enhancing overall display quality. Stay updated on the latest advancements in this area for potential future developments.

Questions about Display Substrate Technology: 1. How does this technology improve the efficiency of light emitting elements in display substrates? - This technology optimizes the connection between pixel circuits and light emitting elements, leading to improved performance and efficiency in light emission. 2. What potential applications can this technology have in the consumer electronics industry? - This technology can be used in the manufacturing of high-quality displays for smartphones, televisions, monitors, and other electronic devices, enhancing visual experiences for users.

Original Abstract Submitted

disclosed is a display substrate, which includes a base substrate, a plurality of first-region light emitting elements and a plurality of first-region pixel circuit. the base substrate includes a display region and a peripheral region at least partially surrounding the display region, wherein the display region includes a transparent display region. a plurality of first-region light emitting elements and a plurality of first-region pixel circuits are located in the transparent display region. at least one first-region pixel circuit of the plurality of first-region pixel circuits is electrically connected with at least two first-region light emitting elements emitting light in a same color. an orthographic projection of at least one first-region pixel circuit on the base substrate is overlapped with an orthographic projection of at least one first-region light emitting element on the base substrate.