Advanced Protection for Your Electrical System with the Maxge EPRi-4P Series
As a top supplier of electrical solutions, Maxge provides a wide array of cutting-edge goods to guarantee the dependability and safety of your electrical system. The EPRi-4P series residual breaker is a testament to this commitment, providing advanced protection for circuits with a rated voltage of 240V for two poles, 415V for four poles, and a rated current of up to 80A.
Enhanced Safety with Advanced Features
The EPRi-4P series residual breaker is designed to protect your equipment and circuit by swiftly cutting off faulty power when there is an electric shock. This advanced residual breaker incorporates several powerful features to ensure maximum safety and reliability.
One of the key features is its ability to trip under various currents, ensuring a rapid response to potential hazards. The durable T3Y2 material moving contacts with AgC4 silver dots provide excellent conductivity and resistance to wear, ensuring long-lasting performance and reliable operation. The EPRi-4P series also features clear printing on the handle for easy on-off indication, simplifying operation, and enhancing user experience.
Comprehensive Protection for Your Electrical System
The EPRi-4P series residual breaker offers comprehensive protection for your electrical system, safeguarding against a wide range of potential hazards. Its advanced features, which minimize downtime and increase system efficiency, include tripping under a range of currents and durable moving contacts that guarantee quick response and dependable operation.
Conclusion
The Maxge EPRi-4P series residual breaker is a reliable and efficient solution for protecting your electrical system from potential hazards. Its advanced features, including tripping under various currents, durable moving contacts, and clear on-off indication, ensure maximum safety and reliability. By investing in the EPRi-4P series, you can ensure the safety and efficiency of your electrical system, providing peace of mind and maximizing operational performance.