TP-3 9KW-18KW 207V
Three Phase

The core feature of a three-phase pure sine wave inverter/charger is its ability to produce a clean and stable sine wave AC output, replicating the power quality of the grid. This ensures compatibility with all types of electrical equipment, including sensitive devices like medical equipment, industrial machinery, and computer systems. The three-phase configuration enables the delivery of balanced power across three electrical phases, essential for high-powered motors and other industrial applications.

As a dual-purpose device, the inverter/charger seamlessly switches between inverting and charging modes. During normal operation, it converts DC power from batteries into AC to supply connected loads. When grid power or a generator is available, it switches to charging mode, replenishing the battery bank while simultaneously powering the loads. Modern inverter/chargers often include a Battery Management System (BMS) to optimize charging, prevent overcharging, and protect the battery bank.

A Three-Phase Off-Grid Inverter is an inverter specifically designed for off-grid solar or renewable energy systems that operate on a three-phase electrical system. Unlike single-phase systems, which provide a single alternating current (AC) wave, three-phase systems use three separate AC waves that are offset by 120 degrees, making them more efficient and capable of handling higher power loads. This type of inverter converts the direct current (DC) produced by solar panels or other renewable sources into three-phase alternating current (AC), which can then power equipment, machinery, and homes.

DC to AC Conversion: The inverter takes the DC power from solar panels or other renewable sources, and converts it into three-phase AC power.

Phase Synchronization: In a three-phase system, the inverter ensures that each of the three output AC waves is properly synchronized, with each phase offset by 120 degrees to provide continuous, stable power.

Off-Grid Operation: The system is not connected to the utility grid, meaning the inverter works independently, using stored energy from batteries or real-time generation from renewable sources. The inverter ensures that the three-phase power generated matches the required voltage and frequency for the connected loads.

Industrial and Commercial Systems: Ideal for industrial equipment, commercial buildings, and agricultural operations that require high power loads and three-phase electricity.

Off-Grid Homes: Larger off-grid homes that require three-phase power to run heavy appliances or systems like air conditioning, water pumps, and machinery.

Renewable Energy Systems: For use in off-grid solar or wind systems that aim to provide reliable three-phase AC power in areas without grid access.

Remote Locations: These inverters are often used in remote locations where access to the electrical grid is not available, but a reliable power supply is needed for large equipment or systems.

Higher Power Capacity: Three-phase systems can handle larger loads and are ideal for commercial, industrial, and agricultural applications.

More Efficient: They reduce the amount of energy loss and provide a smoother, more stable power supply, especially for large motors and high-demand equipment.

Continuous Power Supply: With the integration of battery storage, these inverters can provide a continuous and reliable power supply, even when renewable sources are not generating power.

Cost-Effective for Large Loads: Though they can be more expensive than single-phase inverters, three-phase inverters are more cost-effective for large applications, as they provide more efficient power and reduce the need for multiple single-phase systems.