ORGANIC LIGHT-EMITTING DISPLAY APPARATUS

Organization Name

Samsung Display Co., LTD.

Inventor(s)

Juwon Yoon of Yongin-si (KR)

IIjeong Lee of Yongin-si (KR)

Jiseon Lee of Yongin-si (KR)

Choongyoul Im of Yongin-si (KR)

ORGANIC LIGHT-EMITTING DISPLAY APPARATUS - A simplified explanation of the abstract

This abstract first appeared for US patent application 18658590 titled 'ORGANIC LIGHT-EMITTING DISPLAY APPARATUS

The abstract describes an organic light-emitting display apparatus with a compensation thin film transistor to improve performance.

• The apparatus includes an organic light-emitting diode, a driving thin film transistor, and a compensation thin film transistor.
• The compensation thin film transistor has a compensation gate electrode, a compensation semiconductor layer, a compensation source electrode, and a compensation drain electrode.
• The compensation gate electrode consists of a first gate electrode and a second gate electrode connected to the first one.
• The compensation drain electrode is linked to the driving gate electrode of the driving thin film transistor.
• The compensation semiconductor layer has a first semiconductor region overlapping the first gate electrode and a second semiconductor region overlapping the second gate electrode.

Potential Applications: - This technology can be used in the manufacturing of high-quality organic light-emitting displays. - It can enhance the performance and efficiency of display devices in various electronic products.

Problems Solved: - The compensation thin film transistor addresses issues related to the performance and stability of organic light-emitting displays. - It helps in achieving better control and optimization of the display output.

Benefits: - Improved display quality and efficiency. - Enhanced performance and stability of organic light-emitting displays. - Better control and optimization of display output.

Commercial Applications: Title: Enhanced Organic Light-Emitting Display Technology for Improved Performance This technology can be utilized in the production of smartphones, tablets, televisions, and other electronic devices requiring high-quality displays. It can benefit manufacturers looking to enhance the visual experience of their products.

Prior Art: Readers can explore prior research on organic light-emitting displays, thin film transistors, and display technologies to understand the evolution of this field.

Frequently Updated Research: Stay updated on advancements in organic light-emitting display technology, thin film transistors, and semiconductor materials to keep abreast of the latest developments in the industry.

Questions about Organic Light-Emitting Display Technology: 1. How does the compensation thin film transistor improve the performance of organic light-emitting displays?

  - The compensation thin film transistor enhances display quality and stability by optimizing the control of the organic light-emitting diode.

2. What are the key differences between the first and second semiconductor regions in the compensation thin film transistor?

  - The first semiconductor region overlaps the first gate electrode, while the second semiconductor region overlaps the second gate electrode and is positioned further from the compensation drain electrode.

Original Abstract Submitted

An organic light-emitting display apparatus including an organic light-emitting diode emitting visible light, a driving thin film transistor driving the organic light-emitting diode, and a compensation thin film transistor. The compensation thin film transistor includes a compensation gate electrode, a compensation semiconductor layer, a compensation source electrode, and a compensation drain electrode. The compensation gate electrode includes a first gate electrode, and a second gate electrode electrically connected to the first gate electrode. The compensation drain electrode is electrically connected to the driving gate electrode of the driving thin film transistor. The compensation semiconductor layer includes a first semiconductor region overlapping the first gate electrode and a second semiconductor region overlapping the second gate electrode and disposed further from the compensation drain electrode than the first semiconductor region, and an area of the first semiconductor region is different than an area of the second semiconductor region.