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Establish dynamic models in different forms (differential equations, state space equations, transfer functions, block diagrams) to analyse the dynamic behaviour and a mechanical system in both the time as well as the frequency domain (step- and impulse response, Bode plot) As well as, to carry out an analysis on an electrical and electro-mechanical (constituent equations of electrical components, Kirchhoffs’ laws)
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This is a part of Module 5, ME 5 Dynamic Systems of the Bachelor Mechanical Engineering . See here for the compete description of this module.
System Analysis provides the basis for the design and control of mechatronic systems. More specific: for the modelling and analysis of the dynamics of multi-domain systems, i.e. (combined) mechanical and electrical systems. Discrete parameter systems are considered that are linear time invariant. Four model types of dynamic systems are considered: the differential equation, transfer function, state space equations and block diagram. Hence, both the time and frequency domains are considered. These are used to analyse the performance of a system (in the time domain and frequency domain) and are the basis for the design of controllers.
Non-ME students can take this course if they meet the entry requirements.
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