Schneider Electric has launched the MasterPacT MTZ Active, a revolutionary new circuit breaker designed to set new benchmarks for safety, efficiency, and sustainability while ensuring business continuity.
In a world increasingly driven by electricity and digitization, MasterPacT MTZ Active enables customers to respond to complex daily challenges, including 24/7 uptime demands, spiraling energy costs, and urgent calls for sustainable practices.
“MasterPacT MTZ Active will empower operators to visualize and monitor their energy consumption in real time,” explains Nikhil Pathak, VP, Power Products and Digital Energy, Schneider Electric, Greater India. “This real-time insight will equip businesses to optimize energy management, reduce consumption, minimize waste, and ensure business continuity and enhance reliability.
“A more electric and digital world is key to addressing the energy and climate crises. In industries such as Healthcare, Food & Beverage, Life Sciences, Data Center, Building, etc, power is becoming more distributed and increasingly complex to manage. We have an existing legacy of 35+ years in designing and making air circuit breakers for safety and security. MasterPacT MTZ Active is our latest offering to accelerate energy efficiency coupled with high reliability, optimizing asset life without compromising on functionality or safety.”
This superior product comes equipped with features such as and Native ERMs (Energy Reduction Maintenance Settings), which sets a new benchmark enhancing the protection of maintenance operators against arc flash hazards.
In response to circuit breaker trips caused by overloads, short circuits, and equipment ground faults, the control unit of MasterPacT MTZ Active introduces a pioneering QR code solution. This innovative feature allows operators to swiftly access guidance tailored to the specific root cause of the trip by scanning the QR code. In the event of an overload, the solution provides clear instructions to evenly redistribute loads across circuits, eliminating the need for time-consuming manual searches.