Sign upEuspenTraining Thermal effects in mechatronic systems

Mechatronics - tems1webgr

Course overview

This course focuses on the various aspects related to thermal effects that impact the performance (accuracy, life time or process quality) of precision modules/systems. Participants will acquire theoretical and practical background on design, simulation, measurement and compensation techniques that are essential in the development of precision modules/systems that are subject to internal or external thermal loads.

Read the interview (in Dutch) with lecturer Theo Ruijl: 'Geen nauwkeurige machine zonder nauwkeurige thermische huishouding'


€ 2.245,00 excl. VAT


3 consecutive days


19-03-2019 | 09:00 - 17:00
20-03-2019 | 09:00 - 17:00
21-03-2019 | 09:00 - 17:00




Tel. +31 85 401 3600


Certified by Euspen



After completion of the course, the participants understand the basic aspects, risks and concepts related to thermal effects and judge solutions and implications on system level.

vIntended for

Mechanical designers, mechatronics system engineers and mechatronic architects who are involved in the multi-disciplinary development of accurate motion modules/systems in which thermal aspects play an important role in the overall system performance.

Prerequisites: Technical education (BSc or higher), with at least two years of experience and preferably completion of the course "Mechatronics system design" (Metron Part 1), the former Philips-CTT course Metron or equivalent basic knowledge. Basic knowledge of matrix calculus is recommended but not essential.


Day 1

Basics: Thermal System Theory

  • Common Heat Source in Mechatronic systems;
  • Heat transfer mechanisms;
  • Thermally induced deformations;
  • Transient effects.

Basic Modelling

  • Lumped mass modelling;
  • Tooling;
  • Electrical analogy;
  • Hands-on exercise.

Day 2

Temperature Measuring / Thermal Experiments

  • Precies thermal measurement techniques;
  • Sensors;
  • Do's & don'ts.

Case Cryogenic Application

  • Lumped mass modelling;
  • Simulation.

Design for Thermal Stability

  • Main objectives and design considerations for precision equipment;
  • Thermal centre, thermal cancelling & shielding (low-pass, reduction of gradients);
  • Case: applying shielding. 

Day 3

Active Thermal Control

  • Frequency-thinking for thermal systems;
  • Thermal feedback control design;
  • Bandwidth estimation design rule;
  • Prediction performance of module under control (optional).

Advanced Topics

  • Model reduction;
  • Thermal modes;
  • Thermal compensation & sensor placement.


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Training Thermal effects in mechatronic systems

This course treats the essential theoretical and practical aspects of machine design, numerical simulation, measurement and compensation techniques.

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