ELECTRONIC INK SCREEN AND METHOD FOR MANUFACTURING THE SAME

Organization Name

BOE TECHNOLOGY GROUP CO., LTD.

Inventor(s)

Li Cheng of Beijing (CN)

Jianming Huang of Beijing (CN)

Hailong Yu of Beijing (CN)

Yabin Lin of Beijing (CN)

Chuanhe Jing of Beijing (CN)

Wanping Pan of Beijing (CN)

Xianjuan Jin of Beijing (CN)

ELECTRONIC INK SCREEN AND METHOD FOR MANUFACTURING THE SAME - A simplified explanation of the abstract

This abstract first appeared for US patent application 17044005 titled 'ELECTRONIC INK SCREEN AND METHOD FOR MANUFACTURING THE SAME

Simplified Explanation

The patent application describes an electronic ink screen and a method for manufacturing it. Here are the key points:

• The electronic ink screen includes a display module with pixel units that can display using electronic ink.
• It also includes a control module that can convert touch signals into changes in electric signals of corresponding pixel units.
• This is achieved through an electrode microstructure, which consists of sub-electrode microstructures.
• Each sub-electrode microstructure has a first nano electrode and a second nano electrode made of different materials.
• The first and second nano electrodes are arranged at intervals and can be in mutual friction contact when a touch signal is received.
• This friction contact generates charge transferring, leading to a change in the display state of the corresponding pixel units.

Potential applications of this technology:

• E-readers and electronic paper devices: The electronic ink screen can be used to create high-resolution displays for reading digital content.
• Smartphones and tablets: The touch-sensitive capabilities of the screen can enhance user interaction and provide a more intuitive interface.
• Wearable devices: The lightweight and low-power consumption of electronic ink screens make them suitable for wearable technology, such as smartwatches or fitness trackers.

Problems solved by this technology:

• Enhanced touch sensitivity: The electrode microstructure allows for precise touch detection and conversion into display changes.
• Improved display quality: The use of electronic ink and the ability to change pixel states result in clear and high-resolution visuals.
• Energy efficiency: Electronic ink screens consume less power compared to traditional LCD or OLED screens, leading to longer battery life.

Benefits of this technology:

• Enhanced user experience: The touch-sensitive capabilities and high-resolution display contribute to a more immersive and interactive user experience.
• Energy-efficient: The low power consumption of electronic ink screens helps to extend the battery life of devices.
• Versatile applications: The technology can be applied to various devices, ranging from e-readers to smartphones, expanding its potential market reach.

Original Abstract Submitted

An electronic ink screen and a method for manufacturing the same are provided. The electronic ink screen includes: a display module including pixel units configured to display by using electronic ink; and a control module configured to convert a touch signal applied from outside into a change of electric signal of corresponding one or more pixel units through an electrode microstructure, so that a display state of the corresponding one or more pixel units is changed from an initial state; the electrode microstructure includes sub-electrode microstructures, each sub-electrode microstructure includes a first nano electrode and a second nano electrode which are made of different materials, the first nano electrode and the second nano electrode are arranged at intervals and configured to be in mutual friction contact in response to that the touch signal applied from the outside is received, so as to generate charge transferring.