What is the main focus of EN 50122-1?

EN 50122-1 focuses on the protective provisions against electric shock in railway fixed installations. It defines the limits for touch voltages and specifies how earthing and bonding should be designed to protect people.

What is a VLD in railway earthing?

A VLD (Voltage Limiting Device) is a protection component that connects accessible metal parts to the return circuit or earth only when the voltage difference exceeds a pre-set safety limit. It allows for stray current isolation during normal operation while ensuring safety during faults.

How does EN 50122-1 differ from EN 50122-2?

EN 50122-1 deals with electrical safety and shock prevention (protecting people). EN 50122-2 deals with protection against stray current corrosion (protecting infrastructure and buried pipes).

Grounded in Safety: Decoding EN 50122-1 and Railway Earthing

Master EN 50122-1, the critical standard for railway electrical safety. Learn about earthing systems, permissible touch voltages, and return circuit protection in fixed installations.

December 30, 2023 7:25 pm

What is EN 50122-1?

EN 50122-1 is the European Standard titled “Railway applications – Fixed installations – Electrical safety, earthing and the return circuit – Part 1: Protective provisions against electric shock.” It is the primary regulation governing how railway infrastructure (stations, bridges, masts, and fences) must be grounded to prevent electrocution.

In electric traction systems, the rails act as the return conductor for the current. This causes the “Rail Potential” to rise relative to the earth. EN 50122-1 defines the limits for Touch Voltages—the voltage difference a person can bridge between a conductive structure and the ground—to ensure that passengers and staff are not harmed during normal operations or short-circuit conditions.

Permissible Touch Voltage ($U_{tp}$)

The standard does not set a single safe voltage limit (like 50V) but rather uses a time-dependent curve. The human body can withstand higher voltages for very short durations but only low voltages for longer periods.

Long Duration (> 300s): The permissible touch voltage is typically limited to 60V DC or 60V AC.
Short Duration (< 0.1s): During a short-circuit fault, higher voltages (e.g., hundreds of volts) are permissible because the protective breakers will trip almost instantly, limiting the exposure time.

The Conflict: Safety vs. Stray Current

A major challenge in DC railways is balancing safety (EN 50122-1) with corrosion protection (EN 50122-2).

For Safety (Part 1): You want to connect everything to the rails/earth to prevent shock.
For Corrosion (Part 2): You want to isolate the rails from the earth to prevent stray currents from eating away at buried pipes and rebar.

To solve this, EN 50122-1 introduces the use of Voltage Limiting Devices (VLDs). These devices keep the structure isolated (Open Traction Earth) under normal conditions but short-circuit to the ground/rail (Closed Traction Earth) if the voltage rises to dangerous levels, instantly bonding the system for safety.

Comparison: Earthing Concepts

Feature	Direct Earthing (Closed System)	Open Traction Earthing (with VLD)
Connection	Structures are permanently bonded to the return rail.	Structures are insulated from the rail/earth.
Safety	High (Continuous potential equalization).	High (VLD activates only when needed).
Stray Current Risk	High (Direct path for current leakage).	Low (Path is blocked during normal ops).
Typical Application	AC Systems (25kV) where stray current is less critical.	DC Systems (Metros/Trams) to prevent corrosion.

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