Company Filing History:
Years Active: 2021
Title: **Innovator Spotlight: Melissa Amoree - Pioneering Non-Contact Voltage Sensing Technology**
Introduction
Melissa Amoree, an innovative inventor based in Sherwood, Oregon, has made significant strides in the field of energy metering technology. Her groundbreaking invention focuses on enhancing the safety and efficiency of electrical systems, showcasing her dedication to advancing electrical engineering.
Latest Patents
Melissa holds a patent for a **Non-Contact Voltage Sensing System**, which represents a novel approach to energy metering. This system comprises multiple current sensors designed to detect current levels in various power conductors, each producing a signal that indicates the respective current levels. Additionally, it includes several non-contact voltage sensors that monitor voltage levels and provide corresponding signals. A sophisticated monitoring device processes these signals to determine if a circuit breaker has tripped, significantly contributing to electrical safety.
Career Highlights
Melissa is currently affiliated with Schneider Electric USA, Inc., a global leader in energy management and automation. In her role, she collaborates with a talented team to drive forward-thinking energy solutions. She is recognized not only for her contributions to product development but also for her commitment to improving the electrical safety practices within the industry.
Collaborations
Throughout her career, Melissa has partnered with notable colleagues, including Aaron Parker and Girish Thorat. Together, they share a passion for innovation and have contributed to various projects that push the boundaries of current technology.
Conclusion
Melissa Amoree's contributions to the field of energy metering technology underscore her status as an inspiring inventor. With her innovative non-contact voltage sensing system, she enhances electrical safety and efficiency. As she continues her work at Schneider Electric USA, Inc., her future promises to further innovations that can shape the way we interact with electrical systems.