Workersbee NACS DC Charging Connector 350A 1000V Fast Charger for Electric Vehicles

The NACS DC Charging Connector is designed for high-power electric vehicle (EV) charging, supporting up to 350A and 1000V. This connector is ideal for public charging stations, offering fast and reliable energy transfer. Its compact and lightweight design provides easy use, while its durability ensures long-lasting performance, even in high-frequency charging environments. Built with silver-plated contacts, it delivers superior conductivity and ensures the connector remains reliable after thousands of charging cycles. The NACS DC Charging Connector is compatible with multiple EV models, making it versatile for various charging stations.

Safety is a key feature of the NACS DC Charging Connector, incorporating smart temperature control to prevent overheating and fire-resistant materials that comply with UL94 V-0 standards. Additionally, its IP67-rated housing protects against dust and water, allowing outdoor installations in various environmental conditions. With certifications such as UL 2251 and SAE J1772, this connector meets global safety standards, ensuring a safe and efficient charging experience for both operators and EV owners. Whether for fast-charging networks or local installations, the NACS DC Charging Connector delivers top-tier performance with robust safety features.

WORKERSBEE EV Connectors are manufactured with accuracy and efficiency by fully automatic production lines. The 360-degree visual inspections are carried out at each stage of the production. Attention to detail is paid to production lines to ensure that every plug produced meets the highest quality standards and has no defects. The quality control system was designed to ensure the best possible end product so that customers are assured of receiving a safe and reliable product.

High-Power Charging Capacity

The NACS DC Charging Connector supports up to 350A of current and 1000V, making it ideal for high-power fast charging at public stations. This capacity significantly reduces charging time, allowing EV owners to quickly recharge their vehicles during busy schedules. Its high output makes it a great choice for large-scale charging networks, offering efficient service to meet the needs of modern electric vehicles.

Long-Term Durability

The NACS DC Charging Connector is built to last, supporting over 10,000 mating cycles. This durability makes it suitable for high-usage environments like public charging stations, where connectors are used frequently. The silver-plated contacts ensure that conductivity remains consistent, even after years of use.

UL 2251 and SAE J1772 Compliant

The connector complies with key safety standards like UL 2251 and SAE J1772, ensuring that it meets global safety requirements. This compliance makes it a trusted solution for both personal and commercial use, providing confidence in its safety and performance.

Customizable Design for ODM Projects

The NACS DC Charging Connector can be customized to meet specific customer requirements, offering flexibility for Original Design Manufacturing (ODM) projects. Whether for a new charging station setup or for integrating the connector into an existing infrastructure, this level of customization makes it a valuable solution for various applications.

Environmental Sustainability

The NACS DC Charging Connector supports environmental sustainability initiatives. By facilitating the use of electric vehicles, it contributes to reducing greenhouse gas emissions. EVs produce less pollution compared to traditional gasoline-powered vehicles. The widespread adoption of the NACS connector can accelerate the transition to cleaner transportation options. This shift is essential for achieving global sustainability goals. By promoting electric mobility, stakeholders can help mitigate climate change and promote a healthier environment for future generations.

Easy Installation with Ultrasonic Welding

The NACS DC Charging Connector uses ultrasonic welding for assembly, which provides a strong, reliable bond between components. This method of construction ensures that the connector is both durable and resistant to mechanical stress, making it suitable for high-demand public charging stations. The easy installation process also helps reduce maintenance and downtime for operators.