The Axpert VM II 3K is a hybrid inverter charger designed for solar energy systems and off-grid applications. Here’s a brief explanation of the product
Inverter Capacity: 3,000 Watts (3K)
The Axpert VM II 3K has an inverter capacity of 3,000 watts, which means it can handle a maximum continuous power output of 3K.
The inverter is classified as a “hybrid” because it can work with both solar panels and batteries. It can convert direct current (DC) electricity from solar panels into alternating current (AC) electricity used in homes or businesses. Additionally, it can charge batteries using solar energy and also supply power to the connected loads.
The Axpert VM II 3K has a built-in battery charger that can charge batteries from different sources, such as solar panels or the grid. This feature allows the system to store excess solar energy in batteries for use during periods of low solar production or during power outages.
This inverter is capable of operating in off-grid mode, meaning it can work independently without being connected to the utility grid. It is suitable for remote areas or locations where there is no access to the main power grid.
LCD Display and Monitoring:
The inverter is equipped with an LCD display that provides real-time information about system performance, battery status, and input/output power. This allows users to monitor the system and make informed decisions.
The Axpert VM II 3K comes with various protection features, such as overvoltage protection, overcurrent protection, short-circuit protection, and temperature protection. These safeguards help protect the system from potential electrical issues.
The Axpert VM II 3K is a reliable and versatile inverter suitable for both residential and commercial applications. Its hybrid and off-grid capabilities make it a popular choice for solar energy systems that require energy storage and an uninterrupted power supply. As with any solar energy system, proper installation, maintenance, and sizing according to specific energy needs are essential for optimal performance and efficiency.