Solid-State Transformers (SST) – Game Changing Innovation

Intelligent Power Conversion for the Future Energy Grid

Solid-State Transformers (SSTs) are advanced power electronic systems that replace traditional line-frequency transformers with compact, intelligent, high-efficiency energy conversion technology. Designed for next-generation energy infrastructure, SSTs enable flexible AC/DC power conversion, renewable energy integration, energy storage connectivity, and intelligent power distribution across data centers, EV charging stations, renewable energy systems, and smart grids.

Built on modular high-frequency architecture, SST systems deliver superior performance, reduced footprint, simplified deployment, and enhanced operational intelligence compared with conventional transformer-based solutions.

Key Features

• High-frequency solid-state power conversion architecture
• Modular and scalable cabinet-based design
• Integrated AC/DC energy routing and bidirectional power flow
• Intelligent digital control and real-time monitoring
• Plug-and-play modular maintenance
• Integrated harmonic mitigation and reactive power compensation
• Renewable energy and battery storage ready
• Compact, high power-density construction

Technical Performance

• System efficiency: >97.5%
• Full-link system efficiency: >90%
• Waveform control: THDi <2%
• Current control accuracy: ≤ ±1%
• Equipment redundancy: 25% redundancy design
• Module redundancy: Hot-standby bypass architecture for uninterrupted operation
• Voltage architecture: Supports 13.8kV AC / 400-1,000V DC integrated distribution
• Flexible modular capacity: 1.5MW–3MW expandable architecture

Core Benefits

Space Saving

• Up to 60% smaller footprint compared with traditional UPS and transformer systems
• High integration significantly reduces equipment room requirements

High Efficiency

• Reduced conversion stages minimize power loss
• Zero no-load loss compared with conventional line-frequency transformers
• Lower cooling and thermal management requirements

Reliability & Redundancy

• Redundant modular design with automatic fault bypass
• Hot-standby modules maintain uninterrupted operation during failures
• Optimized airflow and thermal management improve long-term reliability

Fast Deployment

• Prefabricated integrated systems reduce installation and commissioning time by up to 75%
• Simplified busbar wiring minimizes on-site construction complexity

Renewable Energy Integration

• Native support for photovoltaic systems, battery storage, and DC loads
• Enables “PV–Storage–Charging” and hybrid AC/DC energy ecosystems
• Reduces renewable energy access losses by more than 60%

Intelligent Grid Interaction

• Supports reactive power compensation and harmonic control
• Enables intelligent energy flow optimization and active grid support
• Compatible with future smart-grid and energy-router architectures

Main Applications

• Data center power systems
• EV charging and battery swapping stations
• Renewable energy and photovoltaic integration
• Energy storage systems
• Smart grids and hybrid AC/DC distribution networks
• Industrial and mission-critical power infrastructure

Solid-State Transformer technology represents the transition from conventional passive electrical infrastructure to intelligent, software-defined energy systems — enabling cleaner, more efficient, and more flexible power delivery for the future energy economy.