New energy connectors come in various types and are widely used in electric vehicles, photovoltaic power generation, energy storage systems, and wind power generation to meet the demands for high current, high voltage, environmental resistance, and stability. Common types of new energy connectors include:

· High-Voltage Connectors for Electric Vehicles: Used in battery packs, motors, inverters, and other systems, these connectors offer high-temperature resistance and anti-vibration properties, complying with standards such as CCS, GB/T, and CHAdeMO.

· Charging Pile Connectors: Designed for new energy vehicle charging equipment, these connectors support both AC slow charging and DC fast charging, ensuring safe and efficient power transmission.

· Photovoltaic Connectors: Such as MC4 connectors, which are widely used in solar power plants. They provide high-temperature resistance, UV protection, and waterproof and dustproof features.

· Energy Storage System Connectors: Used for power transmission between battery modules and storage devices, featuring high-voltage tolerance, short-circuit protection, and overload prevention to ensure stable operation.

· Wind Power Generation Connectors: Used for power transmission and signal connections in wind turbines, these connectors are designed to withstand moisture, vibrations, and salt spray corrosion, making them suitable for harsh environments.

· Intelligent Signal Connectors: Used for data transmission and remote monitoring in new energy equipment, including CAN bus connectors and Ethernet interfaces, enhancing system intelligence and management capabilities.

· Quick-Plug Connectors: Suitable for applications where battery replacement is frequent, such as battery swapping stations and energy storage systems. These connectors offer efficient plug-and-play functionality, improving maintenance convenience.

As the new energy industry continues to evolve, connector technology is advancing toward higher power capacity, miniaturization, and increased intelligence to meet the growing demand for efficient, safe, and stable connections, ultimately driving the adoption and development of sustainable energy solutions.