Study

Computing

Electromechanics

  • Class 30
  • Practice 12
  • Independent work 108
Total 150

Course title

Electromechanics

Lecture type

Elective

Course code

183442

Semester

6

ECTS

5

Lecturers and associates

Course objectives

Classification of electromechanical interactions.
Network representation of electromechanical interactions.
Lossless electromechanical coupling.
Coenergy – an alternate energy function.
Basic capacitive transducer types.
Rotational transducers.
Practical devices.
Midterm exam.
Basic inductive transducer geometries.
Rotational magnetic transducers.
Permanent magnet transducers.
Practical devices.
Linearised transducers.
Circuit models; Stability considerations.
Final exam.

Required reading

Z. Haznadar, Ž. Štih (1997.), Elektromagnetizam 1, Školska knjiga Zagreb
D. Horvat (2005.), Fizika 1: Mehanika i toplina, HinusS. Berberović (1998.), Teorijska elektrotehnika – odabrani primjeri, Graphis Zagreb
H.H. Woodson, J.R. Melcher (1968.), Electromechanical Dynamics, John Wiley and Sons
L.J. Kamm (1996.), Understanding Electro-Mechanical Engineering, IEEE Press
S.E. Lyshevski (2001.), Nano- and Microelectromechanical systems, CRC P

Minimal learning outcomes

  • Identify the structure of an electromechanical system
  • Explain complexity of devices for electromechanical energy conversion
  • Apply fundamental principles of Newtonian mechanics to simple systems
  • Analyze simple systems by Lagrangean and Hamilton equations of motion
  • Prepare a circuit-based model of an electromechanical system
  • Analyze functioning of electromechanical devices
  • Assess a concept of an electromechanical device
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