DISPLAY PANEL AND DRIVING METHOD THEREFOR, GAMMA TUNING METHOD, AND DISPLAY DEVICE

Organization Name

chengdu boe optoelectronics technology co., ltd.

Inventor(s)

Yong Yu of Beijing (CN)

Zhenwen Hu of Beijing (CN)

DISPLAY PANEL AND DRIVING METHOD THEREFOR, GAMMA TUNING METHOD, AND DISPLAY DEVICE - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240212595 titled 'DISPLAY PANEL AND DRIVING METHOD THEREFOR, GAMMA TUNING METHOD, AND DISPLAY DEVICE

Simplified Explanation: The patent application describes a display panel and a driving method for the panel, along with a gamma tuning method, and a display device. The display panel consists of pixels arranged in an array, with multiple display sub-regions in a row direction. The panel includes scan lines with multiple scan sub-lines controlling the same pixel row, each corresponding to a display sub-region. Switch circuits are connected between adjacent scan sub-lines in the same scan line, allowing for different frequencies of scan signals to be output to some scan sub-lines when the switch circuit is in an off state.

• The patent application introduces a display panel with multiple display sub-regions in a row direction.
• It includes scan lines with multiple scan sub-lines controlling the same pixel row, corresponding to the display sub-regions.
• Switch circuits are used to adjust the frequencies of scan signals to some scan sub-lines in the same scan line.
• The innovation allows for precise control over the display panel's performance and image quality.
• By tuning the gamma of the display, the technology enhances color accuracy and overall visual experience.

Potential Applications: This technology can be applied in various display devices such as TVs, monitors, and smartphones to improve image quality and color accuracy. It can also be used in medical imaging equipment, automotive displays, and virtual reality devices.

Problems Solved: The technology addresses the need for precise control over display performance, particularly in terms of color accuracy and image quality. By adjusting the frequencies of scan signals, it enhances the overall visual experience for users.

Benefits: - Improved color accuracy and image quality - Enhanced visual experience for users - Precise control over display performance - Versatile applications in various display devices

Commercial Applications: The technology can be utilized in the manufacturing of high-quality display panels for consumer electronics, medical equipment, automotive displays, and other industries requiring advanced visual technology. It can lead to the development of innovative products with superior image quality and color accuracy, catering to the demands of discerning consumers.

Questions about Display Panel Technology: 1. How does the technology of adjusting scan signal frequencies impact the overall performance of the display panel? 2. What are the potential market implications of implementing this innovative display panel technology in various industries?

Original Abstract Submitted

provided are a display panel and a driving method therefor, a gamma tuning method, and a display device. pixels in the display panel are arranged in an array. the display panel includes multiple display sub-regions in a row direction of the array. the display panel further includes: scan lines, including multiple scan sub-lines that control a same pixel row, the multiple scan sub-lines having a one-to-one correspondence to the multiple display sub-regions; scan driving circuits, configured to provide scan signals to corresponding pixel rows; and switch circuits. each switch circuit is electrically connected between two adjacent scan sub-lines in a same scan line. when the switch circuit is configured to be in an off state, frequencies of scan signals output by the scan driving circuits to at least some scan sub-lines in the same scan line are different.