METHOD OF CONTROLLING SERIALLY-CONNECTED LIGHTING DEVICES

Organization Name

Lutron Technology Company LLC

Inventor(s)

Ryan M. Bocock of Austin TX (US)

Richard S. Burberry of Austin TX (US)

Christopher M. Green of Austin TX (US)

Jivan J. Luu of Austin TX (US)

Ananthanag Nemmani of Austin TX (US)

Jaykrishna A. Shukla of Mays Landing NJ (US)

METHOD OF CONTROLLING SERIALLY-CONNECTED LIGHTING DEVICES - A simplified explanation of the abstract

This abstract first appeared for US patent application 18517150 titled 'METHOD OF CONTROLLING SERIALLY-CONNECTED LIGHTING DEVICES

Simplified Explanation

The lighting device described in the abstract is an innovative system that includes multiple emitter printed circuit boards with emitter modules mounted on them, controlled by a control circuit to emit light. Each circuit board is equipped with a total internal reflection lens to diffuse the emitted light.

• The lighting device includes an elongated housing with a cavity for multiple emitter printed circuit boards.
• Each circuit board has emitter modules mounted on it and is controlled by a control circuit to emit light based on messages received.
• A total internal reflection lens is included for each circuit board to diffuse the emitted light.

Potential Applications

The technology described in this patent application could be used in various lighting applications such as:

• Indoor lighting systems
• Outdoor lighting fixtures
• Automotive lighting

Problems Solved

This technology helps in:

• Efficiently controlling and emitting light
• Providing uniform and diffused lighting
• Integrating multiple emitter modules in a single device

Benefits

The benefits of this technology include:

• Energy efficiency
• Customizable lighting options
• Long-lasting and durable lighting solution

Potential Commercial Applications

The potential commercial applications of this technology could be in:

• Commercial buildings
• Residential lighting solutions
• Automotive industry

Possible Prior Art

One possible prior art for this technology could be LED lighting systems with diffuser lenses for uniform light distribution.

Unanswered Questions

How does this technology compare to traditional lighting systems in terms of energy efficiency?

This article does not provide a direct comparison between this technology and traditional lighting systems in terms of energy efficiency. It would be interesting to see a study or analysis that compares the energy consumption of this lighting device with traditional lighting systems to understand the potential energy savings.

What are the potential maintenance requirements for this lighting device compared to other lighting solutions?

The article does not address the maintenance requirements of this lighting device. It would be beneficial to know if this technology requires less maintenance compared to other lighting solutions, as lower maintenance requirements could be a significant advantage for commercial and residential applications.

Original Abstract Submitted

A lighting device may include an elongated housing that defines a cavity. The lighting device may include plurality of emitter printed circuit boards configured to be received within the cavity. Each of the plurality of emitter printed circuit boards may include a plurality of emitter modules mounted thereto. Each of the plurality of emitter printed circuit boards may include a control circuit configured to control the plurality of emitter modules mounted to the respective emitter printed circuit board based on receipt of one or more messages. The lighting device may include a total internal reflection lens for each of the plurality of emitter printed circuit boards. The total internal reflection lens may be configured to diffuse light emitted by the emitter modules of the plurality of emitter printed circuit boards.