SPLICING DISPLAY, DRIVING METHOD, AND SPLICING DISPLAY DEVICE

Organization Name

TCL CHINA STAR OPTOELECTRONICS TECHNOLOGY CO., LTD.

Inventor(s)

Qian Wang (US)

SPLICING DISPLAY, DRIVING METHOD, AND SPLICING DISPLAY DEVICE - A simplified explanation of the abstract

This abstract first appeared for US patent application 17597946 titled 'SPLICING DISPLAY, DRIVING METHOD, AND SPLICING DISPLAY DEVICE

Simplified Explanation

The present application describes a splicing display system that includes multiple sub-display panels. The size and number of the first sub-display panels are the same as the size and number of the second sub-display panels in either the horizontal or vertical directions. However, the first and second sub-display panels are intentionally misaligned by N rows/columns of sub-pixels in the horizontal or vertical directions.

• The splicing display system includes first and second sub-display panels.
• The size and number of the first sub-display panels are the same as the size and number of the second sub-display panels.
• The first and second sub-display panels are intentionally misaligned by N rows/columns of sub-pixels.
• Misaligning the sub-pixels improves the accuracy of the splicing display.
• Misalignment and blurring issues in splicing positions are prevented.

Potential applications of this technology:

• Video walls: The splicing display system can be used to create large video walls by seamlessly combining multiple sub-display panels.
• Digital signage: The technology can be utilized in digital signage displays to create visually appealing and high-resolution advertisements or information displays.
• Gaming displays: The splicing display system can enhance the gaming experience by providing a wider and more immersive display.

Problems solved by this technology:

• Misalignment: The intentional misalignment of sub-pixels helps to prevent misalignment issues that can occur when combining multiple display panels.
• Blurring: By accurately aligning the sub-pixels, blurring problems in splicing positions are eliminated.

Benefits of this technology:

• Increased accuracy: The intentional misalignment of sub-pixels improves the accuracy of the splicing display, resulting in a seamless and high-quality visual experience.
• Prevention of misalignment and blurring: The technology ensures that splicing positions are free from misalignment and blurring issues, enhancing the overall display quality.

Original Abstract Submitted

The present application provides a splicing display, a driving method, and a splicing display device. The splicing display includes first sub-display panels and second sub-display panels. A size and a number of the first sub-display panels are respectively same as a size and a number of the second sub-display panels in horizontal or vertical directions. The first sub-display panel and the second sub-display panel are misaligned by N rows/columns of sub-pixels in the horizontal or vertical directions. Misaligning N rows/columns of the sub-pixels can increase an accuracy of the splicing display, and splicing positions can be prevented from problems of misalignment and blurring.