Company Filing History:
Years Active: 2025
Title: Matthew Schneider - Innovator in Microgrid Technology
Introduction
Matthew Schneider is an accomplished inventor based in Florham Park, NJ (US). He has made significant contributions to the field of electrical engineering, particularly in the development of systems that enhance the reliability and efficiency of power supply.
Latest Patents
One of Schneider's notable inventions is the Automatic Isolation Switch for a Microgrid. This innovative system is designed to control the supply of electrical power to a load. The system comprises a switch and a controller. The switch connects a first power system to the load and also links the first power system to a second power system. The first power system includes a grid, while the second power system consists of a power source and an inverter coupled to that power source. The controller is adept at detecting adverse power conditions on the first power system. In response to such conditions, it isolates the first power system from both the load and the second power system. Subsequently, it activates the inverter of the second power system to ensure a continuous supply of electrical power to the load.
Career Highlights
Matthew Schneider is currently employed at Asco Power Technologies, L.P., where he continues to innovate and develop advanced power solutions. His work focuses on enhancing the reliability of power systems, which is crucial for various applications, including microgrids.
Collaborations
Some of Schneider's coworkers include Jonathan Hastings and Victor E Bonachea. Their collaborative efforts contribute to the innovative environment at Asco Power Technologies.
Conclusion
Matthew Schneider's contributions to microgrid technology exemplify the importance of innovation in electrical engineering. His patent for the Automatic Isolation Switch showcases his commitment to improving power supply systems. Through his work at Asco Power Technologies, Schneider continues to make strides in the field, ensuring a more reliable future for electrical power distribution.