Generac RXG24SHA1 24-Circuit 100 Amp Load Center SE ATS The Generac RXG24SHA1 is a high-performance 24-circuit 100 Amp Load Center designed specifically for seamless automatic transfer switch (ATS) applications. Built to meet the demands of both residential and commercial environments, this load center is engineered to provide reliable power distribution, ensuring your generator operates efficiently during outages. With a durable NEMA 1 enclosure, it is suitable for indoor use, providing optimal protection for electrical components.

Key Features

• High Capacity: Supports up to 24 circuits with a 100 Amp capacity, accommodating a wide range of electrical loads.

• Automatic Transfer Switch Compatible: Designed for integration with Generac’s automatic transfer switches, allowing for seamless switching between utility and generator power.

• NEMA 1 Enclosure: Constructed with a sturdy NEMA 1 rating, ensuring protection against dust and indirect water contact for indoor installations.

• UL Listed: Meets rigorous safety standards with UL certification, guaranteeing reliability and compliance with industry regulations.

• User-Friendly Design: Features a clear labeling system for circuits, facilitating easy identification and maintenance.

Applications

• Residential Power Backup: Ideal for homes requiring reliable backup power solutions during outages, ensuring essential circuits remain powered.

• Commercial Use: Suitable for small businesses or commercial properties where uninterrupted power is critical for operations and safety.

• Generator Integration: Specifically designed to work with Generac generators, enhancing the overall efficiency and performance of your power generation system.

Benefits

• Enhanced Reliability: Provides consistent power distribution, minimizing downtime during outages and ensuring critical systems remain operational.

• Improved Safety: UL-listed design and robust construction reduce risks associated with electrical failures and ensure safe operation.

• Efficient Power Management: Allows for effective load management, ensuring that all circuits are optimally powered without overloading the system.