Company Filing History:
Years Active: 2000-2001
Title: The Innovative Contributions of Donald G. Huvaere
Introduction
Donald G. Huvaere is a notable inventor based in Palatine, IL (US). He has made significant contributions to the field of technology, holding a total of four patents. His work primarily focuses on electronic ballasts and refrigerant handling systems, showcasing his expertise in electrical engineering and innovation.
Latest Patents
One of Huvaere's latest patents is the "Light Modulating Electronic Ballast." This invention features a digitally controlled electronic ballast that can optically transmit its identification signature or other data through continuous wave modulation of the luminosity of connected lamps. The ballast momentarily interrupts the lamp current to signal the beginning and end of data transmission, representing logic one or zero. Each ballast is uniquely identified, and a receiver monitors the lamp's luminosity to detect data periods.
Another significant patent is the "Isolated Refrigerant Identifier." This invention includes a refrigerant handling system with a cabinet housing recycling and recharging apparatus. It features two service ports and two sample ports, along with solenoid-actuated valves for efficient operation. The design allows for seamless coupling to automotive air conditioners, enhancing the efficiency of refrigerant management.
Career Highlights
Throughout his career, Huvaere has worked with several companies, including Energy Savings, Inc. and Snap-on Tools Company. His experience in these organizations has contributed to his development as an inventor and innovator in the field.
Collaborations
Some of Huvaere's notable coworkers include Ming Liang Wu and Peter W. Shackle. Their collaboration has likely fostered an environment of innovation and creativity, leading to advancements in their respective fields.
Conclusion
Donald G. Huvaere's contributions to technology through his patents and career experiences highlight his role as a significant inventor. His work continues to influence the fields of electronic ballasts and refrigerant handling systems.