Schneider Electric Conext XW-MPPT 80-600 80A MPPT Solar Charge Controller
In Stock & Ready to Ship
All orders are shipped within 1-2 business days. Product ETA 7-14 business days.
Description
The Schneider Electric Conext XW-MPPT 80-600 is a high-performance Maximum Power Point Tracking (MPPT) solar charge controller designed to optimize the charging of batteries in off-grid and hybrid solar power systems. As part of the Conext XW system, Schneider Electric's MPPT charge controller is engineered to deliver efficient and reliable solar energy harvesting for residential, commercial, and industrial applications.
MPPT Technology: The Conext XW-MPPT 80-600 utilizes Maximum Power Point Tracking technology, which dynamically adjusts the operating point of the solar array to maximize energy harvest. This ensures that the solar panels operate at their peak efficiency, optimizing the charging process and increasing overall system performance.
High Charging Capacity: With an impressive charging capacity of 80 amps, this MPPT charge controller is capable of handling substantial solar power input. This high charging capacity is especially beneficial for larger solar installations or systems with higher power demands.
Wide Voltage Range: The charge controller supports a wide input voltage range, allowing flexibility in the choice of solar panel configurations and configurations with varying numbers of panels or strings.
Compatibility with Conext XW System: The Conext XW-MPPT 80-600 is specifically designed to integrate seamlessly with the Conext XW inverter/charger system from Schneider Electric. This ensures a coordinated and optimized energy management solution for off-grid and hybrid solar systems.
Advanced Charging Algorithms: The MPPT charge controller employs advanced charging algorithms, including multi-stage charging with bulk, absorption, float, and equalization stages. These algorithms optimize the charging process, extending battery life and ensuring reliable energy storage.
Temperature Compensation: The charge controller is likely equipped with temperature compensation features, adjusting charging parameters based on the temperature to enhance battery charging efficiency and lifespan.
LCD Display and User Interface: Featuring an LCD display, the charge controller provides users with real-time information about system status, battery voltage, charging current, and other relevant metrics. The user-friendly interface allows for easy configuration and monitoring.
Multiple Communication Ports: The Conext XW-MPPT 80-600 includes multiple communication ports, enabling seamless integration with monitoring and control systems. This allows users to remotely monitor and manage the charge controller for optimal system performance.
Durable Construction: Built with durability in mind, the charge controller is designed to withstand various environmental conditions, ensuring reliable performance over the lifespan of the solar power system.
Parallel Operation Capability: The charge controller may support parallel operation, allowing for the connection of multiple units to increase charging capacity. This scalability is beneficial for systems with higher power requirements.
Comprehensive Protection Features: Schneider Electric incorporates comprehensive protection features, including overcharge protection, short-circuit protection, over-temperature protection, and reverse polarity protection, ensuring the safety of the charge controller and the connected battery bank.
Global Compliance: Schneider Electric is committed to meeting global standards for safety and performance. The Conext XW-MPPT 80-600 is likely certified to comply with relevant industry standards and regulations.
The Schneider Electric Conext XW-MPPT 80-600 is a robust and intelligent charge controller designed to maximize the efficiency of solar energy utilization in off-grid and hybrid solar power systems. With its advanced MPPT technology, high charging capacity, compatibility with the Conext XW system, and user-friendly features, this charge controller is a key component for achieving optimal performance and reliability in solar installations.
