The Siemens 6EP1931-2EC31 is a robust and reliable DC UPS module designed to ensure uninterrupted power supply for a wide range of industrial applications. This power supply module is engineered to provide a steady 24 V DC output with a substantial 15 A current, making it suitable for demanding environments where consistent performance is key.
Crafted with precision, the 6EP1931-2EC31 features a mains buffering system that utilises batteries, ensuring operations continue smoothly during power disruptions. The module offers two charging currents, 0.35 A and 0.7 A, to adapt to different battery capacities and maintain optimal charge levels.
With an impressive efficiency rate of 96.2% at nominal output voltage and current, this module is not only powerful but also energy-efficient. It boasts a minimal resistive loss of 14 W at nominal load, further enhancing its operational efficiency.
The 6EP1931-2EC31 is designed for easy installation, snapping onto a DIN rail with a compact footprint of 50 mm in width, 125 mm in height, and 125 mm in depth. It requires minimal spacing for installation, making it an excellent choice for space-constrained environments.
This module is equipped with screw-type terminals for secure electrical connections, accommodating a range of wire sizes for both input and output requirements. It also includes an interface for serial PC connection, expanding its versatility in system integration.
Built to withstand a variety of environmental conditions, the 6EP1931-2EC31 operates effectively within a temperature range of -25 to +60 °C and is classified under the Climate class 3K3, ensuring no condensation issues. Its robust design is reflected in its IP20 protection class, safeguarding the module's internal components from environmental factors.
Overall, the Siemens 6EP1931-2EC31 DC UPS module is a high-quality power solution that offers reliability and efficiency for industrial applications requiring continuous power supply. Its durable construction and advanced features make it a valuable asset for maintaining operational continuity and protecting against power inconsistencies.