17795785. PHOTOELECTRIC DETECTION CIRCUIT, METHOD OF CONTROLLING PHOTOELECTRIC DETECTION CIRCUIT, AND PIXEL UNIT simplified abstract (BOE TECHNOLOGY GROUP CO., LTD.)
Contents
- 1 PHOTOELECTRIC DETECTION CIRCUIT, METHOD OF CONTROLLING PHOTOELECTRIC DETECTION CIRCUIT, AND PIXEL UNIT
- 1.1 Organization Name
- 1.2 Inventor(s)
- 1.3 PHOTOELECTRIC DETECTION CIRCUIT, METHOD OF CONTROLLING PHOTOELECTRIC DETECTION CIRCUIT, AND PIXEL UNIT - A simplified explanation of the abstract
- 1.4 Simplified Explanation
- 1.5 Key Features and Innovation
- 1.6 Potential Applications
- 1.7 Problems Solved
- 1.8 Benefits
- 1.9 Commercial Applications
- 1.10 Prior Art
- 1.11 Frequently Updated Research
- 1.12 Questions about Photoelectric Detection Circuit
- 1.13 Original Abstract Submitted
PHOTOELECTRIC DETECTION CIRCUIT, METHOD OF CONTROLLING PHOTOELECTRIC DETECTION CIRCUIT, AND PIXEL UNIT
Organization Name
BOE TECHNOLOGY GROUP CO., LTD.
Inventor(s)
PHOTOELECTRIC DETECTION CIRCUIT, METHOD OF CONTROLLING PHOTOELECTRIC DETECTION CIRCUIT, AND PIXEL UNIT - A simplified explanation of the abstract
This abstract first appeared for US patent application 17795785 titled 'PHOTOELECTRIC DETECTION CIRCUIT, METHOD OF CONTROLLING PHOTOELECTRIC DETECTION CIRCUIT, AND PIXEL UNIT
Simplified Explanation
The patent application describes a photoelectric detection circuit that generates a current in response to an optical signal, stores energy, integrates signals, and is controlled by a control sub-circuit.
- The detection sub-circuit generates a current in response to an optical signal.
- The storage sub-circuit stores energy based on the current generated by the detection sub-circuit.
- The integrator sub-circuit integrates signals based on the potential of input terminals.
- The control sub-circuit controls the operation of the circuit based on a control signal.
Key Features and Innovation
- Generation of current in response to optical signals.
- Energy storage capability.
- Signal integration functionality.
- Control sub-circuit for managing circuit operation.
Potential Applications
This technology can be used in:
- Image sensors
- Optical communication systems
- Light detection and ranging (LiDAR) systems
Problems Solved
- Efficient detection of optical signals
- Energy storage for improved performance
- Signal integration for data processing
Benefits
- Enhanced sensitivity to optical signals
- Improved energy efficiency
- Signal processing capabilities
Commercial Applications
Title: "Advanced Photoelectric Detection Circuit for Optimal Signal Processing" This technology can be applied in:
- Surveillance cameras
- Medical imaging devices
- Industrial automation systems
Prior Art
Information on prior art related to this technology is not provided in the abstract.
Frequently Updated Research
There is no information on frequently updated research related to this technology.
Questions about Photoelectric Detection Circuit
Question 1
How does the integration of signals in the circuit improve overall performance?
Integration of signals helps in processing data more effectively and accurately, leading to better analysis and interpretation of optical signals.
Question 2
What are the potential challenges in implementing this technology in real-world applications?
Potential challenges may include optimizing energy storage efficiency, ensuring compatibility with existing systems, and addressing any signal interference issues that may arise.
Original Abstract Submitted
A photoelectric detection circuit, a method of controlling the photoelectric detection circuit and a pixel unit are provided. The photoelectric detection circuit includes: a detection sub-circuit configured to generate a current flowing between a bias voltage signal terminal and a input node in response to an optical signal; a storage sub-circuit connected between the bias voltage signal terminal and the input node, and configured to store energy based on the current generated by the detection sub-circuit; an integrator sub-circuit having a first input terminal, a second input terminal and an output terminal, and configured to integrate a signal of the first input terminal based on a potential of the second input terminal to generate an integrated signal and output the integrated signal at the output terminal; and a control sub-circuit connected to a control signal terminal, the input node and the first input terminal of the integrator sub-circuit.