Jin Lee

Title: Innovations by Jin Lee in Energy Efficient Lighting Systems

Introduction

Jin Lee is an accomplished inventor based in Lake Villa, Illinois, known for her contributions to energy-efficient lighting systems. With a total of two patents to her name, she has made significant strides in the field of illumination control.

Latest Patents

One of Jin Lee's latest patents is for a Hybrid Closed Loop Daylight Harvesting Control system. This innovative lighting system includes one or several luminaires that adjust based on the natural light available in a given area. When the area is vacant, the system measures the light level while the luminaires are on and sets them to a low dim level. If the measured light level exceeds a predetermined threshold, the luminaires are turned off for a specified time period. After this time, the light level is measured again to determine the amount of natural light present.

Another notable patent is the Illumination Control System for Motion and Daylight in Large Structures. This cost-effective system calculates motion and daylight inputs, particularly in large buildings where light distribution can be uneven. The system divides the structure into zones, each capable of independently controlling lighting levels based on occupancy and background light levels. This coordinated approach ensures uniform lighting throughout the entire structure.

Career Highlights

Jin Lee is currently employed at Kenall Manufacturing Company, where she continues to develop innovative lighting solutions. Her work focuses on creating systems that enhance energy efficiency and improve the overall quality of lighting in various environments.

Collaborations

Throughout her career, Jin has collaborated with talented individuals such as Kevin Dahlen and Michael Gleason, contributing to the advancement of lighting technology.

Conclusion

Jin Lee's innovative patents and her work at Kenall Manufacturing Company highlight her commitment to developing energy-efficient lighting systems. Her contributions are paving the way for more sustainable and effective illumination solutions in various settings.