ELECTRONIC DEVICE

Organization Name

InnoLux Corporation

Inventor(s)

Jui-Chu Lai of Miaoli County (TW)

Huang-Cho Chen of Miaoli County (TW)

Shu-Lan Chen of Miaoli County (TW)

Po-Ting Yen of Miaoli County (TW)

ELECTRONIC DEVICE - A simplified explanation of the abstract

This abstract first appeared for US patent application 18527374 titled 'ELECTRONIC DEVICE

Simplified Explanation

An electronic device with both optical and non-optical modulation regions is described in the patent application. The device includes transparent electrode layers and different cell gaps in the two regions.

• The electronic device has an optical modulation region and a non-optical modulation region.
• It includes a first substrate, a first transparent electrode layer, and a second transparent electrode layer.
• The first transparent electrode layer is on the first substrate, and the second transparent electrode layer is on top of it with an opening.
• The optical modulation region overlaps the opening, while the non-optical modulation region overlaps both electrode layers.
• The cell gap of the optical modulation region is greater than the cell gap of the non-optical modulation region.

Key Features and Innovation

• Combination of optical and non-optical modulation regions in a single electronic device.
• Use of transparent electrode layers for improved performance.
• Different cell gaps in the two modulation regions for specific functionalities.

Potential Applications

The technology could be applied in:

• Display devices
• Optical communication systems
• Light modulation applications

Problems Solved

• Enhanced modulation capabilities
• Improved performance in optical applications
• Versatile functionality in electronic devices

Benefits

• Increased efficiency in optical modulation
• Enhanced display quality
• Versatile applications in various industries

Commercial Applications

Title: Advanced Optical Modulation Electronic Devices for Display Technology This technology could revolutionize the display industry by offering improved performance and functionality in electronic devices. It has the potential to be used in various commercial applications such as high-resolution displays, augmented reality devices, and optical communication systems.

Prior Art

Readers interested in prior art related to this technology can explore patents in the field of optical modulation devices, transparent electrode layers, and display technologies.

Frequently Updated Research

Researchers are constantly exploring new materials and techniques to further enhance the performance of optical modulation devices. Stay updated on the latest advancements in transparent electrodes and display technologies for potential breakthroughs in this field.

Questions about Optical Modulation Electronic Devices

What are the key advantages of using transparent electrode layers in electronic devices?

Transparent electrode layers offer improved visibility and performance in optical applications, making them ideal for display technologies and light modulation systems.

How does the different cell gap in the optical and non-optical modulation regions impact the functionality of the electronic device?

The varying cell gaps allow for specific modulation capabilities in different regions of the device, enabling versatile functionality and enhanced performance.

Original Abstract Submitted

An electronic device that has an optical modulation region and a non-optical modulation region is provided, and the electronic device includes a first substrate, a first transparent electrode layer, and a second transparent electrode layer. The first transparent electrode layer is disposed on the first substrate. The second transparent electrode layer is disposed on the first transparent electrode layer and has an opening. The optical modulation region overlaps the opening, and the non-optical modulation region overlaps the first transparent electrode layer and the second transparent electrode layer. A cell gap of the optical modulation region is greater than a cell gap of the non-optical modulation region.