What is BS EN 61788-12: 2016 ?

Title: A Comprehensive Guide to BS EN 61788-12: 2016 and BS EN 62196-2: 2017

Electric vehicles (EVs) have gained significant popularity in recent years due to their environmental benefits and the growing demand for clean transportation. However, the rapid growth of the EV charging infrastructure has led to a diverse range of charging systems, making it essential to have a clear and standardized framework for EV charging systems. This article will provide a comprehensive guide to two key European standards that play a critical role in ensuring the compatibility and interchangeability of EV charging components: BS EN 61788-12: 2016 and BS EN 62196-2: 2017.

What is BS EN 61788-12: 2016?

BS EN 61788-12: 2016 is a technical standard that provides guidelines for the design, dimensions, and performance of RF connectors. This standard is applicable to coaxial connectors used in broadcast, telecommunications, and other high-frequency applications. It defines a set of criteria for the mechanical, electrical, and environmental characteristics of these connectors.

The main purpose of BS EN 61788-12: 2016 is to ensure compatibility and interchangeability of coaxial connectors across different manufacturers and equipment. By adhering to this standard, companies can guarantee that their products will work seamlessly with other compliant connectors, thereby contributing to the overall smooth integration and efficient operation of EV charging systems.

Furthermore, BS EN 61788-12: 2016 establishes performance requirements such as voltage standing wave ratio (VSWR), impedance, and return loss. These specifications help assess the signal quality and transmission efficiency of coaxial connectors, ensuring reliable and high-quality data transfer.

What is BS EN 62196-2: 2017?

BS EN 62196-2: 2017 is a comprehensive standard that covers various aspects of EV charging, including the dimensional compatibility and interchangeability requirements for 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 ensure interoperability between EV charging infrastructure components, regardless of the manufacturer. By defining the physical dimensions and tolerances for plugs, socket-outlets, vehicle connectors, and vehicle inlets, this standard enables easy and reliable connections between EVs and charging stations.

Key Benefits of BS EN 61788-12: 2016 and BS EN 62196-2: 2017:

Compatibility: Both BS EN 61788-12: 2016 and BS EN 62196-2: 2017 are designed to ensure compatibility between different manufacturers and equipment, thereby reducing the risk of compatibility issues and increasing the flexibility of EV charging systems.

Interchangeability: By defining a set of criteria for the mechanical, electrical, and environmental characteristics of connectors, BS EN 61788-12: 2016 and BS EN 62196-2: 2017 promote interchangeability between different connectors, making it easier for companies to replace or upgrade their EV charging infrastructure.

Performance: Both standards establish performance requirements such as VSWR, impedance, and return loss, which help assess the signal quality and transmission efficiency of EV connectors. This, in turn, ensures reliable and high-quality data transfer between the connector and the charging infrastructure.

Conclusion:

BS EN 61788-12: 2016 and BS EN 62196-2: 2017 are two crucial standards that play a critical role in ensuring the compatibility and interchangeability of EV charging components. By defining clear criteria for the mechanical, electrical, and environmental characteristics of connectors, these standards contribute to the overall smooth integration and efficient operation of EV charging systems. Adhering to these standards can help companies ensure reliable and high-quality data transfer between EVs and charging stations, making EV charging infrastructure more accessible and user-friendly for a wider range of customers.