PIXEL CIRCUIT AND DRIVING METHOD THEREOF, DISPLAY SUBSTRATE, AND DISPLAY DEVICE

Organization Name

CHENGDU BOE OPTOELECTRONICS TECHNOLOGY CO., LTD.

Inventor(s)

Gang Wang of Beijing (CN)

Kai Zhang of Beijing (CN)

Xinyu Wei of Beijing (CN)

Xingrui Cai of Beijing (CN)

Qiang Fu of Beijing (CN)

PIXEL CIRCUIT AND DRIVING METHOD THEREOF, DISPLAY SUBSTRATE, AND DISPLAY DEVICE - A simplified explanation of the abstract

This abstract first appeared for US patent application 18548974 titled 'PIXEL CIRCUIT AND DRIVING METHOD THEREOF, DISPLAY SUBSTRATE, AND DISPLAY DEVICE

Simplified Explanation

The patent application describes a pixel circuit and its driving method, along with a display substrate and device. The pixel circuit includes a data writing circuit and a reset circuit to control connections between various lines and terminals under the control of scanning signals.

• The pixel circuit includes a data writing circuit and a reset circuit.
• The data writing circuit controls the connection between the data line and the driving circuit.
• The reset circuit controls the connection between the reset voltage line and the driving circuit.
• The reset circuit is coupled to the third scanning line, reset voltage line, and the first terminal of the driving circuit.
• The reset circuit controls the connection between the reset voltage line and the first terminal of the driving circuit.

Key Features and Innovation

• Pixel circuit with data writing and reset circuits.
• Control connections between data line, reset voltage line, and driving circuit.
• Utilizes scanning signals for control.

Potential Applications

This technology can be used in various display devices such as LCDs, OLEDs, and other types of screens that require precise control of pixel circuits.

Problems Solved

This technology addresses the need for efficient and accurate control of pixel circuits in display devices, improving overall performance and image quality.

Benefits

• Enhanced control over pixel circuits.
• Improved display performance.
• Better image quality.

Commercial Applications

Title: Advanced Pixel Circuit Technology for High-Performance Displays This technology can be applied in the manufacturing of high-resolution displays for smartphones, TVs, monitors, and other electronic devices requiring high-quality screens.

Prior Art

There is prior art related to pixel circuits and driving methods in display technologies. Researchers and developers can explore existing patents and publications in the field for further information.

Frequently Updated Research

Researchers are continually exploring advancements in pixel circuit technology to enhance display performance and efficiency. Stay updated on the latest developments in this field for potential future applications.

Questions about Pixel Circuit Technology

What are the key components of a pixel circuit?

A pixel circuit typically includes a data writing circuit, reset circuit, and driving circuit to control connections between various lines and terminals.

How does the reset circuit function in a pixel circuit?

The reset circuit controls the connection between the reset voltage line and the driving circuit under the control of scanning signals, ensuring proper operation of the pixel circuit.

Original Abstract Submitted

A pixel circuit and a driving method thereof, a display substrate, and a display device are provided. In the pixel circuit, a data writing circuit is configured to control a connection between a data line and a second terminal of a driving circuit under control of a first scanning signal provided by a first scanning line; a reset circuit is configured to control a connection between a reset voltage line and the second terminal of the driving circuit under control of a third scanning signal provided by a third scanning line; or the reset circuit is coupled to the third scanning line, the reset voltage line and a first terminal of the driving circuit, and is configured to control a connection between the reset voltage line and the first terminal of the driving circuit under control of the third scanning signal.