Railway applications - Rolling Stock - Three-phase shore (external) supply system for rail vehicles and its connectors; German version EN 50546:2024
Abstract
The shore supply system is used while the rolling stock is standing still within depots and sidings location for providing power to the AC auxiliary loads (which can include battery charging) when the primary power supply (contact line) is not available or used. This document: — specifies requirements to the shore supply and to the rolling stock for safe operation on shore supply operation; — specifies the requirements to ensure compatibility of class C0 and C1 train types as given in CLC/TS 50534 systems and three-phase shore power supply systems; — provides a complete system design for 63 A/125 A shore supplies including the interfaces (power and control loop) between shore supply and rolling stock; — specifies the requirements with regards to interoperability with AC and DC fed traction systems in order to prevent undesired stray currents and adverse interaction with signalling systems when operating on shore supply; — defines the electrical characteristics of the shore power supply; — defines intermateable connectors for the 63 A/125 A and 600 A systems to provide interoperability for rolling stock that is to run across borders; — can be used for other type of rail vehicles and purposes, if agreed by the manufacturer and customer; — does not apply to shore supplies to move the rolling stock; — does not describe the 600A shore supply system.
Begin
2023-06-20
Planned document number
DIN EN 50546
Project number
02231626
Responsible national committee
draft standard
Railway applications - Rolling Stock - Three-phase shore (external) supply system for rail vehicles and its connectors; German and English version prEN 50546:2023
2023-12
Order from DIN Media
previous edition(s)
Order from DIN MediaRailway applications - Rolling Stock - Three phase shore (external) supply system for rail vehicles and its connectors; German version EN 50546:2020
2020-12
Order from DIN Media