DRIVING CIRCUIT, DRIVING MODULE, DRIVING METHOD AND DISPLAY DEVICE

Organization Name

BOE Technology Group Co., Ltd.

Inventor(s)

Longfei Fan of Beijing (CN)

Pengcheng Lu of Beijing (CN)

DRIVING CIRCUIT, DRIVING MODULE, DRIVING METHOD AND DISPLAY DEVICE - A simplified explanation of the abstract

This abstract first appeared for US patent application 17926959 titled 'DRIVING CIRCUIT, DRIVING MODULE, DRIVING METHOD AND DISPLAY DEVICE

The driving circuit described in the abstract includes various control circuits and output circuits to manage the flow of signals and voltages within the circuit.

• The first node control circuit is responsible for connecting or disconnecting the first node and the first voltage terminal based on control signals.
• The on-off control circuit manages the connection between the first node and the first output control terminal under the influence of a voltage signal.
• The first output circuit controls the connection between the driving signal output terminal and the first clock signal terminal based on the potential of the first output control terminal.

Key Features and Innovation:

• Integration of multiple control circuits to efficiently manage signal flow within the driving circuit.
• Use of different control signals to regulate the connection and disconnection of various terminals.
• Precise control over the output circuit to ensure proper signal transmission.

Potential Applications:

• Automotive industry for controlling various functions in vehicles.
• Industrial automation for managing machinery and equipment.
• Consumer electronics for regulating power distribution within devices.

Problems Solved:

• Efficient management of signal flow within a driving circuit.
• Precise control over connections and disconnections of terminals.
• Optimization of power distribution within electronic systems.

Benefits:

• Improved performance and reliability of electronic systems.
• Enhanced control over signal transmission.
• Increased efficiency in managing power distribution.

Commercial Applications:

• This technology can be utilized in the automotive industry for controlling various functions in vehicles, in industrial automation for managing machinery and equipment, and in consumer electronics for regulating power distribution within devices.

Prior Art: Prior art related to this technology may include patents or research papers on driving circuits, control circuits, and signal transmission systems.

Frequently Updated Research: Researchers may be exploring advancements in control circuit technology, signal transmission efficiency, and power distribution optimization in electronic systems.

Questions about the Driving Circuit Technology: 1. How does the integration of multiple control circuits improve the efficiency of signal flow within the driving circuit? 2. What are the potential challenges in implementing this technology in different industries?

Original Abstract Submitted

A driving circuit includes a driving signal output terminal, a first node control circuit, an on-off control circuit and a first output circuit. The first node control circuit controls to connect or disconnect the first node and the first voltage terminal under the control of a first control signal, and control to connect or disconnect the first node and the first voltage terminal under the control of a first clock signal; the first control terminal is different from the first clock signal terminal. The on-off control circuit controls to connect or disconnect the first node and the first output control terminal under the control of a second voltage signal; the first output circuit controls to connect or disconnect the driving signal output terminal and the first clock signal terminal under the control of a potential of the first output control terminal.