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Master's Thesis in Electrical Engineering / Systems Engineering / Energy Systems

Guth High Voltage GmbHSalach
On-site Full-time

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Experience Level

Entry Level

Qualifications

Master's degree in Electrical Engineering, Mechatronics, Automation Technology, Embedded Systems, Computer Science, or a related fieldBasic knowledge of industrial communication (Ethernet, Fieldbuses, Real-time fundamentals)Interest in systems thinking, architecture modeling, and distributed systemsInterest in data models, diagnosis, and monitoring conceptsIndependent, structured, and analytical working style

About the job

As part of our strategic initiative “Future Plant 2030”, we are developing a new modular platform composed of intelligent, digitally connected functional modules (Power Modules, HV Modules, Control/Communication Modules, Protection and Diagnostic Modules).

We are looking for a dedicated Master's student who will conceptualize a comprehensive architecture for systems, communication, and diagnosis/monitoring as part of their Master's thesis.

Master's Thesis: Design of a Modular System, Communication, and Diagnosis Architecture for High Voltage Generators (10…320 kV / up to 400 kW)

This thesis is designed as a scientifically grounded project with a high practical relevance. The aim is to develop architectural concepts, evaluation criteria, and a technical roadmap – not to implement a series product.

Background

Currently, our systems are primarily based on monolithic structures. However, the vision for the future plant is a modular, scalable, and digitized platform, where functional blocks operate independently but coordinate effectively.

Key requirements include:

  • Flexible expandability
  • Intelligent, distributed functional logic
  • Robust internal communication
  • A comprehensive diagnosis and monitoring concept

This Master's thesis integrates content originally planned as separate Bachelor and Master topics and connects system and communication architecture with diagnosis and monitoring concepts.

Objectives of the Thesis

Design a comprehensive architecture for a modular high-voltage platform, consisting of:

1. Digital System and Communication Architecture

  • Role model: central coordination vs. decentralized module intelligence
  • Topology variants and communication mechanisms
  • Data and object model (process, configuration, diagnosis)

2. Decentralized Diagnosis and Monitoring Concept

  • Local module diagnosis
  • System-wide aggregation, events, trends, and KPIs
  • Scalability, expandability, and future viability

3. Evaluation & Architecture Roadmap

  • Technology comparison
  • Migrations path towards greater decentralization
  • Perspectives for predictive and data-driven approaches

Optional:
A software mockup or conceptual demonstrator (e.g., architecture or communication simulation) to visualize the developed concepts.

Task Outline (Work Packages)

1. Analysis & Requirements Definition

  • Analyze existing system architecture
  • Derive key functional requirements...

About Guth High Voltage GmbH

Guth High Voltage GmbH is part of the XP Power Group, a leading provider of power supply solutions for critical applications in industries such as medical technology and technology sectors. XP Power operates in over 40 countries across North America, Europe, and Asia. At the XP location in Salach, we develop customized high-voltage generators in the power range of 10…320 kV and up to 400 kW.

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