OPTICAL SENSOR

Organization Name

Japan Display Inc.

Inventor(s)

Kazuki Matsunaga of Tokyo (JP)

Shigesumi Araki of Tokyo (JP)

Yasushi Tomioka of Tokyo (JP)

OPTICAL SENSOR - A simplified explanation of the abstract

This abstract first appeared for US patent application 18679466 titled 'OPTICAL SENSOR

The optical sensor described in the patent application is capable of obtaining multiple types of information using various wavelengths in a short amount of time.

• The sensor includes a light receiving part with multiple pixels arranged in a plane to capture light from a measuring object.
• An interposer is placed on top of the light receiving part, with through holes that align with the pixels.
• A first wavelength selecting unit transmits light in a specific wavelength band through the through holes of a first group of pixels.
• A second wavelength selecting unit transmits light in a different wavelength band through the through holes of a second group of pixels.

Potential Applications: - Medical imaging - Environmental monitoring - Industrial quality control

Problems Solved: - Efficient collection of multiple types of information - Quick data acquisition from different wavelengths

Benefits: - Enhanced data accuracy - Faster data processing - Versatile applications in various industries

Commercial Applications: Title: Advanced Optical Sensor for Multi-Wavelength Data Collection This technology can be used in medical devices, environmental monitoring systems, and industrial inspection equipment. It has the potential to improve data accuracy and processing speed, leading to more efficient operations in these sectors.

Prior Art: Researchers can explore prior patents related to optical sensors, multi-wavelength data collection, and light receiving technologies to understand the existing landscape in this field.

Frequently Updated Research: Researchers in the field of optical sensors and multi-wavelength data collection may find relevant studies on advancements in sensor technology, data processing algorithms, and applications in different industries.

Questions about Optical Sensor with Multi-Wavelength Data Collection: 1. How does the interposer enhance the performance of the optical sensor? The interposer aligns with the pixels to optimize light transmission and improve data collection efficiency.

2. What are the key advantages of using multiple wavelengths in data acquisition? Using multiple wavelengths allows for the collection of diverse information from the measuring object, enhancing the overall data quality and analysis capabilities.

Original Abstract Submitted

Provided is an optical sensor capable of obtaining a plurality of types of information by a plurality of wavelengths in a short time. The optical sensor includes a light receiving part that includes a plurality of pixels disposed in a plane surface and receives light from a measuring object, an interposer that includes a plurality of through holes and is disposed on an upper side of the light receiving part such that one or plurality of the through holes overlap each of the pixels, a first wavelength selecting unit that transmits light in a first wavelength band and overlaps each of the plurality of through holes belonging to a first group, and a second wavelength selecting unit that transmits light in a second wavelength band and overlaps the plurality of through holes belonging to a second group, which is different from the first group.