Certain new energy vehicles are equipped with onboard photovoltaic charging systems that utilize solar panels installed on the vehicle surface to partially replenish electrical energy.

Within these systems, photovoltaic inductors process the electricity generated by the solar panels, converting it into voltage and current levels suitable for charging the vehicle battery. At the same time, they protect the vehicle’s electrical system by suppressing electromagnetic interference and mitigating overcurrent conditions, ensuring stable and reliable operation.

In photovoltaic power generation systems, inductors are primarily used for voltage boosting, current regulation, and filtering. Photovoltaic inductors effectively stabilize output voltage and current, enabling the system to deliver reliable power under fluctuating solar irradiance conditions.

Within inverters, photovoltaic inductors support power conversion and output filtering, ensuring that the generated alternating current meets grid-connection standards while improving overall conversion efficiency and system reliability.

In wind power converters, amorphous cores significantly enhance energy conversion efficiency while reducing core losses.

Similarly, in solar photovoltaic power generation systems, amorphous cores are widely applied in key components such as inverters and transformers to improve system efficiency, thermal performance, and operational stability.

Common-mode chokes are primarily used for electromagnetic interference (EMI) suppression. In photovoltaic inverters, the conversion of direct current to alternating current involves high-frequency switching, which generates common-mode noise. Common-mode chokes effectively attenuate this interference, ensuring compliance with EMC requirements and reliable grid-connected operation.

Transformers provide flexible voltage conversion to accommodate the operating requirements of energy storage systems across different voltage levels. They play a critical role in ensuring efficient power transmission, system compatibility, and safe operation within new energy storage and conversion architectures.