18465072. PHOTOELECTRIC CONVERSION APPARATUS AND CAMERA simplified abstract (CANON KABUSHIKI KAISHA)
Contents
PHOTOELECTRIC CONVERSION APPARATUS AND CAMERA
Organization Name
Inventor(s)
Nobutaka Ukigaya of Yokohama-shi (JP)
Hideshi Kuwabara of Yamato-shi (JP)
PHOTOELECTRIC CONVERSION APPARATUS AND CAMERA - A simplified explanation of the abstract
This abstract first appeared for US patent application 18465072 titled 'PHOTOELECTRIC CONVERSION APPARATUS AND CAMERA
Simplified Explanation
The abstract describes a photoelectric conversion apparatus that includes an element isolating portion and a pixel isolating portion. The element isolating portion is made of an insulator and is located on the front surface of a semiconductor layer. The pixel isolating portion overlaps with an isolating region and is located between two semiconductor regions.
- The photoelectric conversion apparatus includes an element isolating portion made of an insulator.
- The element isolating portion is located on the front surface of a semiconductor layer.
- The apparatus also includes a pixel isolating portion that overlaps with an isolating region.
- The pixel isolating portion is located between two semiconductor regions.
- The semiconductor layer is continuous across semiconductor regions in an intermediate plane.
Potential applications of this technology:
- Solar panels: The photoelectric conversion apparatus can be used in solar panels to convert sunlight into electricity.
- Image sensors: The apparatus can be used in image sensors to convert light into electrical signals for capturing images.
- Photovoltaic devices: The technology can be applied in photovoltaic devices to generate electricity from light.
Problems solved by this technology:
- Isolation of elements: The element isolating portion helps in isolating different elements in the photoelectric conversion apparatus, preventing interference and improving performance.
- Pixel isolation: The pixel isolating portion ensures that each pixel in the apparatus is properly isolated, reducing cross-talk and improving image quality.
- Continuous semiconductor layer: The continuous semiconductor layer ensures efficient flow of electrons, enhancing the overall performance of the apparatus.
Benefits of this technology:
- Improved performance: The isolation of elements and pixels leads to improved performance and accuracy of the photoelectric conversion apparatus.
- Enhanced image quality: The pixel isolation reduces cross-talk, resulting in clearer and more accurate images.
- Efficient energy conversion: The continuous semiconductor layer allows for efficient conversion of light into electricity, maximizing energy output.
Original Abstract Submitted
A photoelectric conversion apparatus includes an element isolating portion that is disposed on a side of a front surface of a semiconductor layer and constituted by an insulator, and a pixel isolating portion. The pixel isolating portion includes a part that overlaps an isolating region in a normal direction. The semiconductor layer is continuous across semiconductor regions in an intermediate plane. The part is located between a semiconductor region and another semiconductor region.