Electric Vehicle Auto Parts and EV Charge Components Manufacturer
Product Features:
1.Flexible custom design to realize high current and special structure
2.Low contact resistant, large current carrying capacity, low temperature rise
3.Better vibration performance and durable
4.Excellent and stable insertion and extraction force
5.High vibration resistance
Mechanical Performance:
Material: Brass, Copper
Contact material: Beryllium bronze
Plating Material: Gold or silver
Tips: Customized according to requirements
Electrical performance:
Mechanical life: ≧10,000 times
Operating temperature: -40℃~125℃
IEC AC terminal Type2 for IEC EV charging plug contact pin. AP IEC DC terminal developed for fast charging of CCS2 charging plug to meet IEC 62196-3 Combined Charging System standard. The IEC 62196 standard provides a variety of coupling methods between the plug of the charging pile and the socket of the electric vehicle. AC IEC terminal uses the brass material, and adopts the hard silver plating technology. The silver plating terminal ensures the long-term stability and efficiency of the power transmission, and maintains the excellent performance of the brass connector terminal. Generally T2 copper material is used for new energy high-current car charging, we provide customers with all kinds of new energy IEC 62196 Type 2 AC terminal processing customization.
IEC AC Terminal Electrical Connector Pin | |||||
Code | Type | Terminal diameter (mm) | Current(A) | Cables(mm²) | Pin Properties |
2001 | AP-IAC-FLNPE-032060 | 6 | 32/PE | 6 | Female pin |
2002 | AP-IAC-FLNPE-016060 | 6 | 16/PE | 2.5 | |
2003 | AP-IAC-FCP-000030 | 3 | CP | 1 | |
2011 | AP-IAC-MLN-032060 | 6 | 32 | 6 | Male pin |
2012 | AP-IAC-MLN-016060 | 6 | 16 | 6 | |
2013 | AP-IAC-MPE-032060 | 6 | 32 | 6 | |
2014 | AP-IAC-MPE-016060 | 6 | 16 | 6 | |
2015 | AP-IAC-MCP-000030 | 3 | CP | 1 | |
2016 | AP-IAC-MPP-000030 | 3 | PP | 1 | |
AUPINS specializes in providing one stop high-quality new energy electrical products for a wide range of applications, including electric vehicles, energy storage systems, and renewable energy infrastructure, EV Chargers, and electronic components. Our product line includes electrical connector CNC pins, EV charging connectors, battery energy storage connectors, Type 2, GB/T, Type1 J772, Tesla NACS AC DC electrical charging cables, and home AC chargers, Public DC chargers. All products are manufactured with precision, offering excellent conductivity, durability, and compatibility with global standards. Whether you are building an EV charging station or a battery storage system, AUPINS team ensure to supply safe, stable, and efficient hardware. AUPINS – a trusted partner in the future of clean energy Industry supply chain.
Yes. We have a professional Pre-sales service team and after-sales technical support. We are committed to customer-centered, and providing 24 / 7 effective response, quick response, flexibility, and reliability.
After we receive a deposit, we will arrange the sampling process. Our specialist will contact you and confirm the drawing, and arrange the production.
We will recommend our standard products according to your needs, and if they are not suitable, you can also customize them with separate drawings according to your needs.
Depending on the product and production capacity, the production cycle may vary. You can contact us to provide you with a detailed production cycle.
Our sales center is located in Nanjing, and manufacture factory facility is closely nearby.
Aupins manufacture facility owns the ISO 9001:2015 and TUV / CE certificates. Product quality is our responsibility to any customers.
Hyperboloid contacts are used in a variety of engineering and manufacturing applications, including aerospace, defense, telecommunications, and robotics.
They are particularly useful in applications requiring high load-bearing capabilities, stability, and resistance to wear and tear.
Hyperboloid contacts are often used in harsh environments where other contact mechanisms may fail, such as high temperatures, high pressures, and corrosive environments.
