FH-Prof. DI Christian Halter Academic Staff Head of Works Council christian.halter@fh-campuswien.ac.at T: +43 1 606 68 77-2113 F: +43 1 606 68 77-2119 Room: B.3.02 Favoritenstraße 226 1100 WienLectures 2022/23Engineering> Fundamentals of Electrical Engineering 1 ILV Applied Electronics moreFundamentals of Electrical Engineering 1 ILVLector: FH-Prof. DI Christian Halter4SWS6ECTSLecture contentsSI units, charge, current density, definition of current and voltage, ohmic resistance, ohmic law, electrical power, electrical work, voltage source, current source, real vs. ideal sources, resistor networks, Kirchhoff's rules, network calculations, superposition principle, equivalent sources, controlled sources, power matching. resistors: construction, selection criteria, labelling/colour code, equivalent circuit, temperature dependence, thermal resistance, non-linear resistors Transient processes with capacitors and coils diode: Doping, pn junction, rectifier circuits, Z diode, LEDs, photodiode, capacitance diode. transistor: bipolar transistor, FET, structure, function, characteristics, transistor as switch, thyristorAssessment methodsContinuous assessment Immanent examination characterTeaching methodsILVLanguageGerman> Fundamentals of Electronics and Electrical Enginee… High Tech Manufacturing moreFundamentals of Electronics and Electrical Engineering I ILVLector: FH-Prof. DI Christian Halter, DIin Irene Schrutek3SWS4ECTSLecture contentsBasic electrical properties of active components (semiconductor; diode, structure and operating principles, types of diodes, rectifier circuits, bipolar and fieldeffect-transistors, structure and operating principles) and passive components (resistor, coil/inductor and capacitors). Introduction, fundamental terms and definitions; electrical charge, currents, voltages and power; electrical resistance, Ohm's law; electrical circuits, Kirchhoff's circuit laws, electric circuits elements, resistor networks, network analysis, electrical field, electrical properties of materials, capacitor, magnetic field, magnetic properties of materials, inductance, coil, transformer; Structure and properties of real resistors, capacitors, coils, transformers; Main properties of electromagnetical fields Accompanying to the theoretical nature of the lectures, practical examples are shown in the exercisesAssessment methodsFinal exam Final written examTeaching methodsLecture with laptop and beamer, additional explanations on the whiteboard, calculation exercisesLanguageGermanPublications The publications of Christian Halter written at FH Campus Wien can be found in our publication database, others in the personal web space.
> Fundamentals of Electrical Engineering 1 ILV Applied Electronics moreFundamentals of Electrical Engineering 1 ILVLector: FH-Prof. DI Christian Halter4SWS6ECTSLecture contentsSI units, charge, current density, definition of current and voltage, ohmic resistance, ohmic law, electrical power, electrical work, voltage source, current source, real vs. ideal sources, resistor networks, Kirchhoff's rules, network calculations, superposition principle, equivalent sources, controlled sources, power matching. resistors: construction, selection criteria, labelling/colour code, equivalent circuit, temperature dependence, thermal resistance, non-linear resistors Transient processes with capacitors and coils diode: Doping, pn junction, rectifier circuits, Z diode, LEDs, photodiode, capacitance diode. transistor: bipolar transistor, FET, structure, function, characteristics, transistor as switch, thyristorAssessment methodsContinuous assessment Immanent examination characterTeaching methodsILVLanguageGerman
> Fundamentals of Electronics and Electrical Enginee… High Tech Manufacturing moreFundamentals of Electronics and Electrical Engineering I ILVLector: FH-Prof. DI Christian Halter, DIin Irene Schrutek3SWS4ECTSLecture contentsBasic electrical properties of active components (semiconductor; diode, structure and operating principles, types of diodes, rectifier circuits, bipolar and fieldeffect-transistors, structure and operating principles) and passive components (resistor, coil/inductor and capacitors). Introduction, fundamental terms and definitions; electrical charge, currents, voltages and power; electrical resistance, Ohm's law; electrical circuits, Kirchhoff's circuit laws, electric circuits elements, resistor networks, network analysis, electrical field, electrical properties of materials, capacitor, magnetic field, magnetic properties of materials, inductance, coil, transformer; Structure and properties of real resistors, capacitors, coils, transformers; Main properties of electromagnetical fields Accompanying to the theoretical nature of the lectures, practical examples are shown in the exercisesAssessment methodsFinal exam Final written examTeaching methodsLecture with laptop and beamer, additional explanations on the whiteboard, calculation exercisesLanguageGerman