DISPLAY DEVICE

Organization Name

Samsung Display Co., LTD.

Inventor(s)

BON-YONG Koo of Yongin-si (KR)

SEON YOUNG Choi of Yongin-si (KR)

YU-JIN Jeon of Yongin-si (KR)

SEUNGHAN Jo of Yongin-si (KR)

DISPLAY DEVICE - A simplified explanation of the abstract

This abstract first appeared for US patent application 18496112 titled 'DISPLAY DEVICE

The abstract of the patent application describes a display device that includes a normal semiconductor pattern in a normal display area and a compensation semiconductor pattern in a luminance compensation display area. The device also features inorganic insulating layers, shielding electrodes, and conductive layers to facilitate the operation of the display.

• The display device includes a normal semiconductor pattern and a compensation semiconductor pattern.
• Inorganic insulating layers are used to cover the semiconductor patterns.
• Shielding electrodes are placed between the insulating layers and directly contact the compensation conductive region.
• Normal and compensation conductive layers are present, with parts of each layer directly contacting specific regions through through-holes.

Potential Applications: - This technology can be used in various types of display devices, such as LCD screens or OLED displays. - It can improve the luminance compensation capabilities of displays, leading to better image quality.

Problems Solved: - The technology addresses issues related to luminance compensation in display devices. - It ensures proper functioning of the display by providing a structured layout for the semiconductor patterns.

Benefits: - Enhanced image quality and luminance compensation in display devices. - Improved overall performance and reliability of the display technology.

Commercial Applications: Title: Advanced Display Technology for Enhanced Image Quality This technology can be applied in consumer electronics, medical devices, automotive displays, and other industries where high-quality displays are essential. The market implications include improved user experience, increased demand for advanced display technologies, and potential partnerships with manufacturers to integrate this innovation into their products.

Prior Art: Further research can be conducted in the field of display technologies, specifically focusing on semiconductor patterns and luminance compensation methods in display devices.

Frequently Updated Research: Researchers are continuously exploring new materials and techniques to enhance display technologies, including advancements in semiconductor design and insulating layer materials.

Questions about Display Device Technology: 1. How does the shielding electrode impact the performance of the display device? The shielding electrode helps to improve the functionality of the display by directly contacting the compensation conductive region, enhancing luminance compensation capabilities.

2. What are the key differences between the normal semiconductor pattern and the compensation semiconductor pattern in the display device? The normal semiconductor pattern is located in the normal display area, while the compensation semiconductor pattern is in the luminance compensation display area, serving different functions in the operation of the display.

Original Abstract Submitted

A display device includes: a normal semiconductor pattern disposed in a normal display area and including a normal driving channel region and a normal conductive region adjacent to the normal driving channel region, a compensation semiconductor pattern disposed in a luminance compensation display area and including a compensation driving channel region and a compensation conductive region, a first inorganic insulating layer array disposed to cover the normal semiconductor pattern and the compensation semiconductor pattern, a second inorganic insulating layer array disposed on the first inorganic insulating layer array, a shielding electrode disposed between the first inorganic insulating layer array and the second inorganic insulating layer array and directly contacting the compensation conductive region through a through hole, a normal conductive layer disposed on the second inorganic insulating layer array, wherein a part of the normal conductive layer overlapping the normal conductive region in a plan view directly contacts the normal conductive region through a through hole, and a compensation conductive layer wherein a part of the compensation conductive layer overlapping the compensation conductive region in the plan view directly contacts the shielding electrode through a through hole.