17977983. DISPLAY DEVICE simplified abstract (Samsung Display Co., Ltd.)
Contents
DISPLAY DEVICE
Organization Name
Inventor(s)
DISPLAY DEVICE - A simplified explanation of the abstract
This abstract first appeared for US patent application 17977983 titled 'DISPLAY DEVICE
Simplified Explanation
The patent application describes a display device that includes various transistors and elements to control the display.
- The display device includes a light emitting element, driving transistors, switching transistors, compensation transistors, and initialization transistors.
- The driving transistors control the flow of current to the light emitting element.
- The switching transistor connects the data line to the first node, allowing data to be transmitted to the driving transistors.
- The compensation transistors receive compensation scan signals to adjust the performance of the driving transistors.
- The initialization transistors connect the control electrodes of the driving transistors to initialization voltage lines.
Potential applications of this technology:
- This display device can be used in various electronic devices such as smartphones, tablets, televisions, and computer monitors.
- It can provide high-quality and efficient display performance.
Problems solved by this technology:
- The display device addresses the need for precise control of the light emitting element to ensure accurate and clear display.
- The compensation transistors help in compensating for any variations or discrepancies in the performance of the driving transistors.
Benefits of this technology:
- The display device offers improved display quality with accurate and consistent brightness levels.
- It provides efficient power consumption by optimizing the performance of the driving transistors.
- The use of compensation transistors helps in reducing any potential display distortions or artifacts.
Original Abstract Submitted
A display device includes: a light emitting element; a first driving transistor between a first node and the light emitting element; a second driving transistor between the first node and the light emitting element; a switching transistor between a data line and the first node; a first compensation transistor between a first control electrode of the first driving transistor and a second node, and configured to receive a first compensation scan signal; a second compensation transistor between a second control electrode of the second driving transistor and the second node, and configured to receive a second compensation scan signal; a first initialization transistor between the first control electrode of the first driving transistor and a first initialization voltage line; and a second initialization transistor between the second control electrode of the second driving transistor and a second initialization voltage line.