The Emparro range by Murrelektronik offers a comprehensive and innovative solution to ensure reliability and efficiency in energy distribution within industrial environments. With energy efficiency rates of up to 95%, these power supplies adapt to a wide variety of applications thanks to their diverse product variants. The Emparro 1~ and 3~ modules deliver optimal performance even in challenging conditions. The Power Boost feature, providing up to 150%, enables quick startup of heavy loads, while the compact design and resistance to voltage fluctuations make them ideal for global systems. They offer an average lifespan (MTBF) of up to 1,000,000 hours. For more complex applications, the Emparro ACCUcontrol module protects against power interruptions by automatically switching to battery mode, preventing downtime. Predictive maintenance allows monitoring of battery status and scheduling timely interventions, improving operational continuity. The Emparro Cap module uses ultracapacitors to provide an immediate energy reserve, ideal for structured shutdowns or applications sensitive to power interruptions. With a width of just 65 mm, it is a maintenance-free solution suited to tight spaces. For harsh environments, the Emparro HD module ensures reliable performance under extreme conditions, such as high vibrations, temperature fluctuations from -40°C to +80°C, and high humidity. Meanwhile, the Emparro67 modules are designed for decentralized installations, reducing power losses through direct voltage conversion near the end devices. The Emparro20 Advanced and Pro variants provide advanced functionalities. The Emparro20 Advanced ensures protection against overvoltages and inrush currents, while the Emparro20 Pro integrates IO-Link for real-time remote monitoring and comprehensive diagnostics, making it perfect for automated and complex applications. Finally, the Emparro MEF module, an EMI filter, safeguards industrial systems from electromagnetic interference. Its compact and robust structure provides effective shielding in environments with high device density, enhancing the overall stability of the system.
