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 2021/22Engineering> Fundamentals of Electrical Engineering ILV Applied Electronics moreFundamentals of Electrical Engineering ILVLector: FH-Prof. DI Christian Halter4SWS6ECTSLanguageGerman> Basics of Electronics and Electrical Engineering I… High Tech Manufacturing moreBasics of Electronics and Electrical Engineering ILVLector: FH-Prof. DI Christian Halter3SWS4ECTSLecture 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 methodsContinWritten tests in the middle and at the end of the semesteruous assessments throughout the course and final examTeaching methodsLecture with Laptop, Beamer and additional explanations on whiteboardLanguageGerman> Selected Chapters of Electronics I SE Applied Electronics moreSelected Chapters of Electronics I SELector: FH-Prof. DI Christian Halter3SWS4ECTSLanguageGerman> Design of Elelectronic Apparatuses II UE Applied Electronics moreDesign of Elelectronic Apparatuses II UELector: FH-Prof. DI Christian Halter, FH-Prof. DI Rudolf Oberpertinger, MBA, FH-Prof. Dipl.-Ing. Herbert Paulis, Eveline Prochaska, BSc MSc, DI Gerald Renner, FH-Prof. Dipl.-Ing. Markus Wellenzohn, Hubert Wimmer, MSc1.5SWS5ECTSLecture contents- Design of an electronic device based on the previously acquired procedures, including simulation of the essential functions using suitable simulation software. - The development of the device concept takes place in small groups, with own division of tasks under the guidance of the lecturer. - Consideration of the requirements regarding interference immunity (electromagnetic compatibility (EMC) and electrostatic charging and discharging (ESD)) in the device design. Interaction of the different competences, skills and tasks in a development team or in individual work on the basis of a concrete task.Assessment methodsImmanent examination natureTeaching methodsUELanguageGerman> HDL Programming ILV Electronic Systems Engineering moreHDL Programming ILVLector: FH-Prof. DI Christian Halter3SWS6ECTSLanguageGerman> Conception of medical-technical devices ILV Health Assisting Engineering moreConception of medical-technical devices ILVLector: FH-Prof. DI Christian Halter, FH-Prof. Dipl.-Ing. Herbert Paulis1SWS3ECTSLecture contents- Practical realisation of a sub-area of an electronic device and/or overall device concept. - Getting to know the procedure for creating/fixing and maintaining functional and device requirements, - Consideration of the requirements regarding interference immunity, magnetic compatibility and electrostatic charging (EMC, ESD), - Consideration of the special requirements for devices in the medical sector - In small groups, device concepts are developed and also partially realized - thus the students are taught the structured procedure by means of a practical exercise.Assessment methodsContinuous assessment 50% specifications 30% presentations 20% Completeness of 2-week reportsTeaching methodsLecture and practical group workLanguageGermanPublications 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 ILV Applied Electronics moreFundamentals of Electrical Engineering ILVLector: FH-Prof. DI Christian Halter4SWS6ECTSLanguageGerman
> Basics of Electronics and Electrical Engineering I… High Tech Manufacturing moreBasics of Electronics and Electrical Engineering ILVLector: FH-Prof. DI Christian Halter3SWS4ECTSLecture 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 methodsContinWritten tests in the middle and at the end of the semesteruous assessments throughout the course and final examTeaching methodsLecture with Laptop, Beamer and additional explanations on whiteboardLanguageGerman
> Selected Chapters of Electronics I SE Applied Electronics moreSelected Chapters of Electronics I SELector: FH-Prof. DI Christian Halter3SWS4ECTSLanguageGerman
> Design of Elelectronic Apparatuses II UE Applied Electronics moreDesign of Elelectronic Apparatuses II UELector: FH-Prof. DI Christian Halter, FH-Prof. DI Rudolf Oberpertinger, MBA, FH-Prof. Dipl.-Ing. Herbert Paulis, Eveline Prochaska, BSc MSc, DI Gerald Renner, FH-Prof. Dipl.-Ing. Markus Wellenzohn, Hubert Wimmer, MSc1.5SWS5ECTSLecture contents- Design of an electronic device based on the previously acquired procedures, including simulation of the essential functions using suitable simulation software. - The development of the device concept takes place in small groups, with own division of tasks under the guidance of the lecturer. - Consideration of the requirements regarding interference immunity (electromagnetic compatibility (EMC) and electrostatic charging and discharging (ESD)) in the device design. Interaction of the different competences, skills and tasks in a development team or in individual work on the basis of a concrete task.Assessment methodsImmanent examination natureTeaching methodsUELanguageGerman
> HDL Programming ILV Electronic Systems Engineering moreHDL Programming ILVLector: FH-Prof. DI Christian Halter3SWS6ECTSLanguageGerman
> Conception of medical-technical devices ILV Health Assisting Engineering moreConception of medical-technical devices ILVLector: FH-Prof. DI Christian Halter, FH-Prof. Dipl.-Ing. Herbert Paulis1SWS3ECTSLecture contents- Practical realisation of a sub-area of an electronic device and/or overall device concept. - Getting to know the procedure for creating/fixing and maintaining functional and device requirements, - Consideration of the requirements regarding interference immunity, magnetic compatibility and electrostatic charging (EMC, ESD), - Consideration of the special requirements for devices in the medical sector - In small groups, device concepts are developed and also partially realized - thus the students are taught the structured procedure by means of a practical exercise.Assessment methodsContinuous assessment 50% specifications 30% presentations 20% Completeness of 2-week reportsTeaching methodsLecture and practical group workLanguageGerman