PHOTOELECTRIC CONVERSION DEVICE

Organization Name

CANON KABUSHIKI KAISHA

Inventor(s)

KAZUNORI Matsuyama of Kanagawa (JP)

NORIYUKI Shikina of Tokyo (JP)

PHOTOELECTRIC CONVERSION DEVICE - A simplified explanation of the abstract

This abstract first appeared for US patent application 18411483 titled 'PHOTOELECTRIC CONVERSION DEVICE

Simplified Explanation: The patent application describes a photoelectric conversion device that includes a light receiving unit with pixels generating signals based on incident light, and a frequency distribution generation unit associating time information with light reception frequency by accumulating results from the light receiving unit multiple times.

Key Features and Innovation:

• Light receiving unit with pixels generating signals based on incident light
• Frequency distribution generation unit associating time information with light reception frequency
• Operation in either a first mode for generating frequency distribution from one pixel or a second mode for multiple pixels
• Second accumulation number of light reception results in the second mode is less than the first accumulation number in the first mode

Potential Applications: This technology can be applied in various fields such as:

• Solar panels
• Image sensors
• Optical communication systems

Problems Solved: The technology addresses the following issues:

• Efficient conversion of light into electrical signals
• Accurate time information associated with light reception frequency

Benefits: The benefits of this technology include:

• Improved efficiency in photoelectric conversion
• Enhanced accuracy in time information associated with light reception frequency

Commercial Applications: Title: Advanced Photoelectric Conversion Device for Enhanced Efficiency This technology can have commercial applications in:

• Renewable energy sector
• Surveillance systems
• Medical imaging devices

Prior Art: Readers can explore prior art related to this technology in the field of photoelectric conversion devices, light receiving units, and frequency distribution generation units.

Frequently Updated Research: Researchers are continually exploring advancements in photoelectric conversion devices, light receiving units, and frequency distribution generation units to enhance efficiency and accuracy.

Questions about Photoelectric Conversion Devices: 1. How does this technology improve the efficiency of photoelectric conversion? 2. What are the potential commercial applications of this advanced photoelectric conversion device?

Original Abstract Submitted

A photoelectric conversion device including: a light receiving unit including pixels each generates a signal based on incident light; and a frequency distribution generation unit generating a frequency distribution in which time information on a time from light emission of a light emitting device to light reception of the light receiving unit is associated with a frequency of light reception by accumulating light reception results at the light receiving unit a plurality of times. The frequency distribution generation unit operates in either a first mode for generating the frequency distribution from the light reception results of one of the pixels, or a second mode for generating the frequency distribution in which the light reception results of multiple pixels are accumulated. A second accumulation number of the light reception results in the second mode is less than a first accumulation number of the light reception results in the first mode.