High Current and stable temperature: The EV Connector Pin Female D6 Brass with Plating IEC system reaches up to 10,000 mating cycles. It is able to withstand high current loads and high temperatures. The Plated Brass Contact pins ensure a stable connection even in high current pinholes.
Reliability: Reliable transmission can be achieved, and a high degree of vibration resistance is guaranteed.
Specification:
Current | Wire section | Wire diam. | AWG | D1 | D2 |
16A | 4mm² | 2.3mm | 11 | 4.5mm | 2.5mm |
32A | 6mm² | 3.9mm | 9 | 6mm | 4mm |
Dimensions:
Manufacturing EV Charger Pins
The manufacturing of EV Connector Pin Female D6 Brass with Plating IEC begins with selecting high-quality brass. Precision machining shapes it to meet International Electrotechnical Commission (IEC) standards, ensuring compatibility. Following shaping, the brass pins undergo plating to enhance conductivity and resist corrosion. Rigorous quality control ensures adherence to specifications and standards. Once produced, the pins are ready for use in EV charging infrastructure worldwide. They play a crucial role in facilitating the efficient transfer of power from charging stations to electric vehicles.
The use of the Car Charger Pins
The connector pins are carefully mounted in the charger handle and connected to the internal wiring of tha car charger. EV owners simply insert the connector pin into their vehicle’s charging port. The brass material guarantees excellent conductivity, maximizing charging efficiency. The plating protects against corrosion, ensuring long-lasting performance and reliability. As the demand for electric vehicles grows, reliable charging infrastructure becomes increasingly important. The EV Connector Pin contributes to this infrastructure’s reliability and efficiency. Its high-quality construction and meticulous production process make it a trusted component in EV charging systems globally. In conclusion, the production and use of EV Connector Pin Female D6 Brass with Plating IEC ensure seamless and efficient electric vehicle charging experiences.