Fundamentals of Electrical Engineering and Vehicle Electrical and Electronic Systems
FT08
P242-0056, P242-0057
fz3
3
V
1
U
5
2
yes
German
Written exam 100 min.
FT08
Automotive Engineering
2
mandatory course
FT08
Automotive Engineering
2
mandatory course
FT08
Automotive Engineering
2
mandatory course
FT08
Automotive Engineering
2
mandatory course
60 class hours (= 45 clock hours) over a 15-week period.The total student study time is 150 hours (equivalent to 5 ECTS credits).There are therefore 105 hours available for class preparation and follow-up work and exam preparation.
FT20
Electric Vehicle Drive Systems
FT24.2
Data Communication
FT60
Prof. Dr. Hans-Werner Groh
hwg
Prof. Dr. Hans-Werner Groh
hwg
After successfully completing this course, students will be able to:
- work confidently with the basic electrotechnical variables and describe resistors, capacitors, coils, diodes, transistors as well as their function and exemplary application.
- apply different model descriptions of electrical components and networks in a problem-adapted way and thus, be able to perform simple calculations by themselves.
- analyze and calculate simple problems in electromagnetic fields and applications of the law of induction.
- name, correctly apply and interpret basic electrical and electronic equations.
- recognize and explain the interaction between electrical and magnetic circuits.
- name an application of the theory in a vehicle and explain it.
Basics
Physical quantity and measurement systems, SI units
Direct current:
Electrical charge, current, source, voltage, electrical circuit; ohmic resistance: Temperature behavior, designs, standard series, interconnections, Kirchhoff"s mesh and point rule, current and voltage divider
Electric field:
Variables: Field strength, displacement density, fundamental laws; field calculation: Point, line, surface charge, superposition; potential, voltage, boundary layer behavior; capacitors; dielectric layers
Magnetic field:
Variables, fundamental laws, boundary-layer behavior; field calculation; Faraday"s law of induction, applications; self inductance, energy, moving charges; transformer, RL circuit, switching operations
Alternating/three-phase current theory:
Periodic function, characteristics of the sinusoidal alternating quantity, mathematical; operations, basic bipoles R, L, C, power, pointer calculation, complex calculation, circuit calculation with image function: complex resistance, network calculation, symmetrical 3-phase system, low and high pass
Exercises:
Sample calculations on the above topics
Lecture and tutorials
- Gerd Hagmann: Grundlagen der Elektrotechnik, 16., durchges. u. korr. Aufl., AULA-Verlag, Wiebelsheim, 2013, ISBN 978-3-89104-779-8
- Gerd Hagmann: Aufgabensammlung zu Grundlagen der Elektrotechnik, 16., durchges. u. korr. Aufl., AULA-Verlag, Wiebelsheim, 2013, 978-3-89104-771-2
- Georg Bosse: Grundlagen der Elektrotechnik, Band I _ IV, VDI-Verlag, Düsseldorf, 1996, ISBN 3-18-401573-4, ISBN 3-18-401547-5, 3-18-401574-2, 3-18-401575-0
Thu Mar 28 13:43:21 CET 2024, CKEY=fgvefux, BKEY=fz3, CID=[?], LANGUAGE=en, DATE=28.03.2024