150kW Smart Microgrid Inverter with 165kVA Capacity and Quad MPPT

Intelligent Power Hub for Large-Scale Energy Systems

This 150kW three-phase hybrid inverter represents the pinnacle of commercial-scale energy management, combining ultra-high power density with advanced grid intelligence. Designed as the central controller for campus microgrids and industrial parks, it delivers 165kVA peak output while supporting quad MPPT tracking for maximum solar harvest.

Key Features & Benefits

1. Unmatched Power Capacity

150kW continuous output (165kVA peak)

• Powers mid-sized factories, hospital complexes, or 150+ residential units with utility-grade three-phase power.

• 120% short-term overload (180kW for 1 minute) handles heavy industrial equipment startups.

Quad MPPT inputs (1,000V max PV voltage)

• Four independent trackers with 180-240kW PV input capacity, enabling:

  • Mixed-orientation solar arrays (east/west/north-south)

  • Dual-voltage string configurations (600V + 800V systems)

• 420-850V MPPT range with 99.6% tracking efficiency.

2. Next-Gen Battery & Grid Interaction

420-850V ultra-high voltage battery support

• Direct integration with 800V lithium systems, eliminating DC-DC conversion losses.

• 165kW charging power refills 1MWh battery banks in 6 hours.

Advanced grid-forming capabilities

• Black start functionality to reboot entire microgrids.

• <3% voltage regulation in island mode - critical for precision manufacturing.

3. Military-Grade Reliability

-30°C to 55°C operational range

• Cold-weather package maintains full output at -25°C.

• Desert-rated cooling sustains 100% capacity up to 45°C.

IP20 enclosure with seismic reinforcement

• 8mm steel frame withstands 0.5g seismic activity (Zone 4 compliance).

• Corrosion-resistant coating for coastal/offshore installations.

4. Smart Microgrid Control

Central controller functionality

• Manages up to 12 parallel units (1.8MW total) with <1% load imbalance.

• Predictive load forecasting using AI algorithms.

Dual-grid operation

• Simultaneous connection to main grid + backup diesel generators.

• Automatic fuel optimization reduces generator runtime by 40%.

Technical Specifications

Certifications

• IEC 62109-1/2: Enhanced safety for megawatt-scale systems

• IEEE 1547-2018: Full grid-support functionality

• EN 50549-1: European grid compliance

Implementation Scenarios

1. University Campuses

   • Manages 500kW solar + 2MWh storage microgrid

   • Reduces energy costs by 60% via TOU optimization

2. Industrial Parks

   • <20ms transition during grid failures

   • Participates in wholesale energy markets

3. Military Bases

   • EMP-hardened communication ports

   • 100% energy independence capability