DIFFUSER AND LIGHTING APPARATUS

Organization Name

mitsubishi electric corporation

Inventor(s)

Satoru Okagaki of Tokyo (JP)

Masatoshi Nishimura of Tokyo (JP)

DIFFUSER AND LIGHTING APPARATUS - A simplified explanation of the abstract

This abstract first appeared for US patent application 20240264356 titled 'DIFFUSER AND LIGHTING APPARATUS

Simplified Explanation: Light is incident on a diffuser, which scatters the light. The diffuser has a light incident surface and a light transmitting surface. The intensity and color temperature of the transmitted light vary based on the direction of emergence.

• The diffuser scatters incident light in different directions.
• The diffuser has a light incident surface and a light transmitting surface.
• The intensity of transmitted light increases as it emerges closer to the incident direction.
• The color temperature of the transmitted light varies based on the direction of emergence.

Potential Applications: 1. Lighting fixtures for adjustable color temperature settings. 2. Photography and film lighting for creative effects. 3. Display screens for dynamic color temperature adjustments.

Problems Solved: 1. Providing variable color temperature lighting. 2. Enhancing creative lighting effects. 3. Improving visual display quality with dynamic color temperature.

Benefits: 1. Versatile lighting options. 2. Enhanced visual aesthetics. 3. Improved user experience in lighting and display applications.

Commercial Applications: Dynamic Color Temperature Diffusers for Lighting and Display Technologies

Prior Art: Research on light diffusers and color temperature control in lighting and display technologies.

Frequently Updated Research: Ongoing studies on light diffusion techniques and color temperature management in lighting applications.

Questions about Dynamic Color Temperature Diffusers: 1. How does the diffuser control the color temperature of the transmitted light? 2. What are the potential energy-saving benefits of using dynamic color temperature diffusers in lighting applications?

Original Abstract Submitted

first light (l) is incident on a diffuser (), and scattered light emerges from the diffuser (). the diffuser () includes one light incident surface () on which the first light (l) is incident in a first direction and a first light transmitting surface (). the light incident surface () is formed on an end surface of the diffuser (). first transmitted light (l) emerges from the first light transmitting surface (). second transmitted light (l) emerges from second light transmitting surface () that is a surface other than the first light transmitting surface () of the diffuser (). intensity of the first transmitted light (l) increases as a direction in which the first transmitted light (l) emerges approaches the first direction. correlated color temperature of the first light (l) is lower than correlated color temperature of the first transmitted light (l) and higher than correlated color temperature of the second transmitted light (l).