HYBRID ARCHITECTURE FOR ZERO BORDER DISPLAY

Organization Name

Apple Inc.

Inventor(s)

Xiang Lu of Campbell CA (US)

Mahdi Farrokh Baroughi of Santa Clara CA (US)

Xiaofeng Wang of San Jose CA (US)

Derek K. Shaeffer of Redwood City CA (US)

Henry C. Jen of Los Altos CA (US)

Hopil Bae of Sunnyvale CA (US)

HYBRID ARCHITECTURE FOR ZERO BORDER DISPLAY - A simplified explanation of the abstract

This abstract first appeared for US patent application 18342979 titled 'HYBRID ARCHITECTURE FOR ZERO BORDER DISPLAY

Simplified Explanation

The abstract describes a patent application related to hybrid architectures and methods for operating a display panel. In this embodiment, row driver and pixel driver functions are combined in a group of backbone hybrid pixel driver chips. Global signal lines are distributed to these backbone chips, where the global signals are manipulated and distributed to a row of pixel driver chips.

• Hybrid architectures and methods for operating a display panel are described in the patent application.
• The embodiment combines row driver and pixel driver functions in a group of backbone hybrid pixel driver chips.
• Global signal lines are distributed to the backbone chips.
• The global signals are manipulated and distributed to a row of pixel driver chips.

Potential Applications:

• This technology can be applied in various display panels, such as LCD screens, OLED displays, or LED screens.
• It can be used in televisions, computer monitors, smartphones, tablets, and other electronic devices with display panels.

Problems Solved:

• The hybrid architecture and method solve the challenge of integrating row driver and pixel driver functions efficiently.
• It addresses the need for improved signal distribution and manipulation in display panels.

Benefits:

• The combination of row driver and pixel driver functions in backbone hybrid pixel driver chips simplifies the design and operation of display panels.
• The distribution of global signal lines to the backbone chips allows for more efficient signal manipulation and distribution.
• This technology can lead to improved performance, lower power consumption, and cost-effective manufacturing of display panels.

Original Abstract Submitted

Hybrid architectures and method methods of operating a display panel are described. In an embodiment, row driver and pixel driver functions are combined in a group of backbone hybrid pixel driver chips, wherein global signal lines are distributed to the backbone hybrid pixel driver chips, where the global signals are manipulated and distributed to a row of pixel driver chips.