DISPLAY APPARATUS

Organization Name

LG DISPLAY CO., LTD.

Inventor(s)

Sanghun Yoon of Paju-si (KR)

DISPLAY APPARATUS - A simplified explanation of the abstract

This abstract first appeared for US patent application 18422053 titled 'DISPLAY APPARATUS

The abstract describes a display apparatus with multiple transistors for controlling the operation of a light emitting element.

• The driving transistor receives a high-potential driving voltage and provides a driving current to the light emitting element.
• The first transistor controls the light emitting element based on a light emitting control signal.
• The second transistor receives the light emitting control signal or a scanning signal for operation.
• The compensation transistor is activated when a compensation scan signal is applied at a low level.

Potential Applications: - This technology can be used in various display devices such as televisions, monitors, and digital signage. - It can also be applied in wearable technology, smart devices, and automotive displays.

Problems Solved: - Efficient control of light emitting elements in display devices. - Precise adjustment of brightness and color accuracy. - Improved overall display performance and energy efficiency.

Benefits: - Enhanced display quality with accurate color representation. - Energy-efficient operation leading to longer battery life in portable devices. - Customizable display settings for optimal viewing experience.

Commercial Applications: Title: Advanced Display Technology for Enhanced Visual Experience This technology can revolutionize the display industry by offering superior performance and energy efficiency. It can cater to a wide range of commercial applications including consumer electronics, automotive displays, and professional monitors.

Prior Art: Readers interested in exploring prior art related to this technology can start by researching patents in the field of display technology, transistor control systems, and light emitting element optimization.

Frequently Updated Research: Researchers are constantly working on improving display technologies to achieve higher resolutions, faster refresh rates, and better color accuracy. Stay updated on the latest advancements in display technology for potential future applications.

Questions about Display Apparatus: 1. How does the driving transistor in the display apparatus contribute to the overall performance of the light emitting element? The driving transistor plays a crucial role in providing the necessary voltage and current to the light emitting element, ensuring optimal operation and brightness levels.

2. What are the key differences between the first transistor and the second transistor in the display apparatus? The first transistor is primarily responsible for controlling the light emitting element based on a specific control signal, while the second transistor can receive either the light emitting control signal or a scanning signal for operation.

Original Abstract Submitted

A display apparatus includes a driving transistor including a gate electrode, and a first electrode for receiving a high-potential driving voltage and a second electrode for providing a driving current to a light emitting element, a first transistor including a gate electrode to which a light emitting control signal is applied, a first electrode connected to the second electrode of the driving transistor, and a second electrode connected to an anode electrode of the light emitting element, a second transistor including a gate electrode to which the light emitting control signal or a scanning signal is applied, and a first electrode for receiving an initialization voltage and a second electrode, and a compensation transistor including a gate electrode to which a compensation scan signal is applied, a first electrode connected to the second electrode of the second transistor, and a second electrode connected to the anode electrode of the light emitting element, and when the compensation scan signal at a low level is applied, the compensation transistor is turned on.