Bearing Currents – Understanding and solving high-frequency stray currents in electric motors
This 1-day training course provides an understanding of bearing currents, high-frequency stray currents, and their impact on electric motors driven by variable frequency drives (VFDs).
Modern electric motors are increasingly controlled by variable frequency drives, introducing new electrical phenomena that are often not visible with classical measurements. High-frequency stray currents can travel through a motor’s shaft and bearings, potentially causing severe damage in a short time. In this course you will learn how these currents originate, how they behave, and why they are often misinterpreted as purely mechanical issues. The focus is on understanding the interaction between the motor, drive, cabling, and grounding. You will be provided with a practical framework to detect these issues purposefully and solve them sustainably.
Inhoud
1. Interaction Between Motor and Drive
You will gain insight into how modern variable frequency drives influence the electrical behavior of electric motors. The course explains how common-mode voltages and fast switching frequencies arise — phenomena that often form the basis for the occurrence of high-frequency stray currents.
2. What Are Stray Currents and How Do They Originate?
This section covers the formation and behavior of bearing currents in electric motors. You will learn how these currents travel through the shaft and bearings and what damage patterns they cause. It also explains why such damage is often hard to detect at an early stage.
3. Detection and Measurement of Stray Currents
Recognizing stray currents requires a different perspective than classical maintenance measurements. You will learn which measurement principles and techniques are used to identify their presence. Emphasis is placed on correct interpretation of measurement results and avoiding incorrect conclusions.
4. Effective Measures and Solutions
Not every solution works in every situation. In this part you will learn which technical interventions are possible — such as grounding, filters, modified cabling, or special bearings. You will gain insight into how these measures work, along with useful tips to optimize EMC topology and extend machine service life.
Learning objectives
After completing this training, you will be able to:
- Understand how bearing currents are generated in VFD-driven motors
- Identify the physical behavior and damage mechanisms of high-frequency stray currents
- Recognize relevant measurement and detection techniques
- Apply effective, situation-specific mitigation measures
Target audience
This training is suitable for maintenance specialists who want to understand and solve high-frequency machine problems when classical mechanical explanations fall short.
The course is particularly relevant for those working with / on:
- Electric motors driven by variable frequency drives
- Pumps, fans, and compressors
- Conveyor systems and production lines
- Drive lines with long motor cables
- Installations where bearing damage occurs prematurely or repeatedly
Approach
This training is designed as a practical learning experience that deepens participants’ insight into machine maintenance and diagnosis:
- This course is designed as a practice-oriented learning experience that gives participants deeper insight into machine maintenance and diagnosis. Participants are actively involved in the learning process, which helps anchor knowledge and improves understanding of machine behavior and the causes of faults.
- Visualization: The training makes extensive use of visual supports such as illustrations, examples, and demonstrations. This enhances understanding of complex technical concepts and creates a more direct link between theory and practice.
You might also be interested in the following training courses
BEMAS and Orbits organize four individual training courses that can be followed on their own, or together as a coherent, practice-oriented learning package focused on machine diagnosis and reliable maintenance. The learning path combines early detection, deep analysis, structural understanding, and targeted mitigation. By following the courses step by step, you build an integrated understanding of machine behavior — from cause to solution — leading to better maintenance decisions, higher reliability, and less unplanned downtime. For those seeking maximum practical impact, it is recommended to follow all four courses.
Further information about these courses can be found on the respective dedicated pages.
About the trainers
Bram Corne is an expert in electrical machine diagnostics with a background in academic research and strong focus on industrial applications. As co-founder of ORBITS Machinery Diagnostics, he uses his extensive expertise to diagnose and optimize industrial machines. He is ISO 18436-2 CAT IV Vibration Analyst and trainer, with extensive experience solving industrial diagnostic problems across multiple sectors.
Bram Vervisch has a broad background in mechanical vibrations and is co-founder of ORBITS Machinery Diagnostics. He remains partially active in the academic world. Bram is ISO 18436-2 CAT III Vibration Analyst and trainer. At ORBITS, he now focuses on advising and guiding companies toward solutions for optimal performance and reliability of their electric motor systems.
Graag min. 14 dagen voor de start inschrijven. PO kan later bezorgd worden.
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