Laminated Inverter Busbars are advanced power connection components engineered for high-performance inverter systems. By integrating multiple layers of metal conductors and insulating materials, they enable efficient power transmission, compact system integration, and optimal electrical performance.
Core advantages and features
Low Inductance & EMI Suppression: laminated structure minimizes parasitic inductance, reducing voltage spikes during switching and suppressing electromagnetic interference (EMI).
High Current-Carrying & Thermal Efficiency: Parallel multi-layer conductors boost current capacity, while optimized thermal paths maintain low temperature rise under high-power density.
Compact Integration & Space Savings: Replaces discrete busbars with an integrated, lightweight design, simplifying wiring, reducing assembly complexity, and saving space. Modular layouts enable rapid system integration.
Customization Flexibility: Tailored to inverter topologies (3-phase full-bridge, multilevel), power ratings, and form factors. Supports prototyping to mass production, aligning with diverse application needs.
Applications
Electric Vehicles (EV/HEV): Drive inverters, onboard chargers (OBC), DC-DC converters
Renewable Energy: Solar inverters (centralized/string), wind converters.
Industrial Automation: Variable-frequency drives (VFDs), servo amplifiers.
Energy Storage & Grid: Battery energy storage systems (ESS), bidirectional inverters, microgrid controllers.
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