Inducteur à anneaux fer-silicium à courant élevé pour onduleurs solaires

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Inducteur à anneaux fer-silicium à courant élevé pour onduleurs solaires

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July 31, 2025

Category Connection: inducteur

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Les étiquettes:

#Inducteur toroïdal de noyau d'aimant de puissance #Inducteur audio de noyau d'aimant #Inducteur de noyau d'aimant d'obstruction de puissance

Brief: Discover the high-current iron-silicon ring inductor designed for solar inverters, featuring a flat copper wire design for superior performance. This toroidal inductor ensures efficient energy storage and filtering, reducing magnetic leakage and energy loss. Perfect for photovoltaic systems, it handles high current output and boosts inverter conversion efficiency to over 96%. Learn more about its compact design and high-temperature resistance for reliable operation in extreme environments.

Related Product Features:

High-efficiency power conversion with low-loss Fe-Si core, ideal for high-current applications in photovoltaic inverters.
Flat copper wire winding reduces skin effect and improves heat dissipation, lowering temperature rise by 20%-30%.
High current handling capacity, supporting continuous currents from 50A to 200A, customizable for higher needs.
La conception du noyau à double anneau permet un ajustement flexible des valeurs d'inductivité et offre une résistance mécanique élevée.
Optimized for 20kHz-100kHz switching frequencies, ensuring stable performance in photovoltaic systems.
Operational temperature range from -40°C to +150°C with H-class insulation for reliable outdoor use.
Toroidal structure minimizes electromagnetic interference, enhancing EMI performance.
30% more compact than conventional inductors, saving installation space without compromising power rating.

FAQ:

What makes the flat copper wire design superior to round wire in this inductor?

The flat copper wire design reduces skin effect, ensuring uniform current distribution at high frequencies, and offers better heat dissipation with a 20%-30% lower temperature rise compared to round wires.
How does this inductor improve photovoltaic inverter efficiency?

The inductor's low-loss Fe-Si core and flat copper wire winding minimize energy loss and heat generation, boosting inverter conversion efficiency to over 96% and ensuring stable performance in high-current applications.
What are the key benefits of the toroidal core structure?

The toroidal core structure efficiently concentrates the magnetic field, reducing magnetic leakage and energy loss, while also minimizing electromagnetic interference (EMI) for cleaner power conversion.

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