Title: What is BS EN 61730-2: 2016 and BS EN 61788-12: 2016?
As the popularity of electric vehicles (EVs) continues to grow, the need for standardization in the EV charging industry is more critical than ever. Two recent European standards, BS EN 62196-2: 2017 and BS EN 61788-12: 2016, have the potential to revolutionize EV charging by ensuring interoperability between charging infrastructure components. In this article, we will provide a comprehensive understanding of both standards and their significance in the field of EV charging.
BS EN 62196-2: 2017: Understanding the Dimensional Compatibility and Interchangeability Requirements
BS EN 62196-2: 2017, also known as "Plugs, socket-outlets, vehicle connectors, and vehicle inlets – Conductive charging of electric vehicles – Part 2, " is a crucial standard for ensuring the dimensional compatibility and interchangeability of alternating current (a.c.) pin and contact-tube accessories used in EV charging systems.
The primary objective of BS EN 62196-2: 2017 is to enable easy and reliable connections between EVs and charging stations. By defining the physical dimensions and tolerances for plugs, socket-outlets, vehicle connectors, and vehicle inlets, this standard ensures that components from different manufacturers can be interoperable.
BS EN 61788-12: 2016: The Standard for Superconductivity
BS EN 61788-12: 2016, also known as "Superconductivity – Determination of the critical current of superconducting composite wires, " is a technical standard that focuses on superconductivity, the phenomenon observed in certain materials when they exhibit zero electrical resistance below a critical temperature.
This standard provides guidelines and specifications for determining the critical current of superconducting composite wires, which are essential for high-power EV charging applications.
Conclusion:
BS EN 62196-2: 2017 and BS EN 61788-12: 2016 are two significant European standards that have the potential to revolutionize the EV charging industry. By ensuring interoperability between EV charging infrastructure components and providing guidelines for superconductivity, these standards will contribute to the safety, quality, and reliability of EV charging systems. Understanding the dimensional compatibility and interchangeability requirements of these standards is critical for the success of any EV charging infrastructure.
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