Real-Time Redundancy for the 1.3 GHz Master Oscillator of the European-XFEL

TL;DR

This paper introduces an autonomous redundancy system for the European-XFEL's master oscillator, ensuring continuous, high-quality reference signals and maintaining precise synchronization critical for facility operations.

Contribution

The paper presents a novel autonomous redundancy solution for the 1.3 GHz master oscillator, enhancing reliability and reducing downtime in large-scale facilities.

Findings

Successful laboratory testing demonstrating continuous signal delivery

Effective handling of potential failures without interruption

Improved synchronization stability for the European-XFEL

Abstract

Many modern large-scale facilities, like European X-ray Free Electron Laser (E-XFEL), require precise synchronisation, often down to femtosecond level. Even a very short interruption or an excessive glitch in the reference signal might break the precise time relations between subsystems. In such event, a time-consuming resynchronization process is required that renders the facility not available for the users until it is completed. Therefore, such events are highly undesirable. In this paper, we present an autonomous redundancy solution for the European-XFEL's master oscillator that will guarantee a continuous delivery of the high-quality reference signal even in case of most of the potential failures. The concept and implementation are presented, as well as results from testing in the laboratory environment.