Bachelor

Applied Electronics and Technical Informatics

Applied Electronics and Technical Informatics

part-time

 

Applied Electronics and Technical Informatics

From traffic light control via laptops down to Smartphones - electronics are everywhere and electronic devices pervade virtually all spheres of our lives, enhancing our quality of life. The Applied Electronics and Technical Informatics degree program will introduce you to all the technologies in which electronics are playing a role. You may specialize in environmental technology or in automation.

Department
Engineering
Topics
Technologies
Environment

Highlights

  • Specializations in Environmental Technology or Automation Technology

  • Top infrastructure: From the photovoltaic system on the roof of FH Campus Wien to the Phönix Contact Competence Center for automation

  • Additional offer: Certifications requested by the industry

     

    Facts

    Final degree

    Bachelor of Science in Engineering (BSc)

    Duration of course
    6 Semesters
    Organisational form
    part-time

    tuition fee per semester

    € 363,361

    + ÖH premium + contribution2

    ECTS
    180 ECTS
    Language of instruction
    German

    Application winter semester 2023/24

    1st October 2022 to 6th August 2023

    Study places

    35

    1 Tuition fees for students from third countries € 727,- per semester

    2 for additional study expenses (currently up to € 83,- depending on degree program and year)

    Before the studies

    You have an intrinsic interest in technical systems and their functionality. You are enthusiastic about electronics in general and its many applications in everyday life. You are convinced that the potential has not been exploited by far, which is why you enjoy tinkering with innovations. Subjects such as mathematics, C programming or the course in "Electronic equipment design" stimulate you to implement your ideas and offer practical experience to assist you in your professional challenges. The specialized courses in environmental technology or automation are sure to offer something of interest to you.

    Why you should study with us

    Participate in interdisciplinary student or research projects

    This way, fun and experience are guaranteed!

    Practical training on campus

    Modern laboratory equipment and high-tech research facilities enable practice-oriented teaching.

    Unique job opportunities


    Obtain additional certificates while still studying and increase your market value.

    Do you still have questions about the study?

    Make an appointment with our Secretary's office elektronik@fh-campuswien.ac.at for a a personal consultation via Zoom with the Head of the Degree Program.

    • General higher education entrance qualification:
      • University entrance qualification or degree from a general or vocational secondary school
      • University entrance exam (Berufsreifeprüfung)
      • Equivalent certificate from abroad
        Equivalence is determined by international agreements, validation or in individual cases a decision by the head of the academic section
    • University entrance qualification exam for Electrical Engineering or Information Technology
      Information and institutes offering courses in preparation for the university entrance exam (Studienberechtigungsprüfung) can be found on the portal Erwachsenenbildung.at of the Federal Ministry of Education, Science and Research
      Erwachsenenbildung.at
      Austrian Federal Ministry of Education, Science and Research
    • Relevant professional qualification and the required auxiliary exams
      You obtained your professional qualification in the field of apprenticeship groups for electrical disciplines, in secondary vocational schools or as a part-time graduate of the first phase of an HTL (Federal College of Engineering)

    Regulation for the admission of third country citizens (PDF 224 KB)

    Information for applicants with non-Austrian (school) certificates (PDF 145 KB)

    To apply you will require the following documents:

    • Birth certificate
    • Proof of citizenship
    • School leaving certificate / university entrance qualification exam (Studienberechtigungsprüfung) / verification of professional qualifications
    • An abridged CV with photograph

    Please note:
    It is not possible to save incomplete online applications. You must complete your application in one session. Your application will be valid as soon as you upload all of the required documents and certificates. In the event that some documents (e.g. certificates) are not available at the time you apply, you may submit these later via e-mail, mail or in person by no later than the start of the degree program.

    The admission procedure consists of a written test and an interview with the admission committee. 

    • Aim
      The aim is to ensure places are offered to those persons who complete the multi-level admission procedure with the best results. The tests are designed to assess the skills needed for the intended profession.
    • Procedure
      The written admission test comprises a number of tests to assess your logical thinking faculties and your basic scientific knowledge. (Duration of the written test: approx. 60 minutes) All applicants will then be invited to an admission interview for feedback on the results of their written test. You will also be queried about your personal circumstances, including your motivation for your choice of degree program. (Duration: approx. 15 minutes per candidate) Should you fail to meet the entry level requirements for the degree program, you will after admission be advised on how to best prepare yourself for the specific subject.
    • Criteria
      The criteria for acceptance are based solely on performance. Points are awarded for the written test results and the admission interview. The applicants will be ranked correspondingly. The geographical origin of the applicant has no influence on the admission decision. The admission requirements must be met in all cases. The process as a whole and all test and assessment results from the admission procedure are documented in a verifiable manner and archived.

    The date for the selection process will be communicated to the applicants in a timely manner by the secretary's office via e-mail.


    During the studies

    We cooperate closely with renowned companies in commerce and industry. You may benefit from this in many ways: Our research and development laboratories set up by Phoenix Contact, an internationally operating company in the field of electrical engineering and automation, are state-of-the-art. This guarantees diversified teaching and learning in automation technology. A number of interesting companies and cooperation partners are furthermore represented at our "Firmentag Technik" (Company day Technology) at the main FH Campus Vienna. Make use of the time between your courses to socialize, to establish ties for your professional future and to enter into discussions with potential employers. You will participate in R & D projects, helping to shape the dialog between practice and science at the FH. We will also gladly support you in finding contacts for your internship or studies abroad. You will in this respect benefit from our extensive networking with international universities. We will support you towards realizing your ideas for exciting projects and offer you a stage: We showcase the best projects to a wide audience in our Campus Innovation Lab at the Open House or at the BeSt trade fair. Practical relevance is also guaranteed through our Campus Lecture evenings which are open to all and offer contributions by prominent experts.

    The degree program's strong practical orientation is a defining advantage. We have extensive projects running in our laboratories and test and measurement facilities. In our environmental technology specialization field, students are working with a photovoltaic demonstration and research system. The panels are installed on the roof of the FH Campus Wien and inject renewable power into the local network. This offers our students the opportunity of learning and researching based on a practical photovoltaic system in operation. Another benefit offered to students is the facility of using computer simulations to carry out experiments and research projects at any time, irrespective of the weather.

    Our new Phoenix Contact Technology Competence Center will satisfy all your needs for learning and research in automation, the second field of specialization.

    Within the framework of this degree program, we also offer the opportunity of obtaining certifications such as the LabView Certificate, PMA Project Management Austria Level D or the Process Management Certificate, all of which are in high demand in industry.

    In addition to a thorough technically training, you will also learn about decision and leadership competency, so important in our industry. You will obtain the project management qualifications you need for complex and planning activities.

    • In three semesters of basic studies you will deal with the theoretical fundamentals of mathematics, electronics and electrical engineering as well as with economics, personal development and management. Business English is part of your basic competency.
    • In the fourth semester you will select you specialization (from the fourth to the sixth semester):
      • Automation: You will learn to develop automation systems for technical processes and deal with the basics of reliability, safety and process control. In seminar projects, you will deal with concrete examples of practical automation.
      • Environmental technology: You will learn more about processes and interrelationships, cycles of materials and variables affecting eco systems and will gain comprehensive insights into environmental framework conditions for the ecological design of electronic devices. Concepts for alternative generation and storage of electrical energy and the utilization of renewable energy round off this specialization field.
    • The sixth semester comprises an internship of seven weeks. An existing career in this field may qualify you for a credit.

    Curriculum

    Basics of Business English UE
    1 SWS
    2 ECTS

    Basics of Business English UE

    Lector: Dr.in Christa Blecha, Mag. Susanne Malacek

    1 SWS   2 ECTS

    Lecture contents

    The focus of the training is on the following four language competence areas:
    1) Listening (working with audio-visual media),
    2) Reading (text comprehension, working with newspaper articles in the field and business),
    3) Writing (business correspondence with emphasis on new media, text production, analysis, commentary, etc.),
    4) Speaking (students should be able to express themselves adequately, confidently and as accurately as possible in English in a professional environment).
    Students will learn to express themselves adequately in English in the following content areas:
    - Presentation techniques
    - Organisation: Talking about your company and company structure
    - Cultures and cultural awareness for business travellers
    - Social English
    - Telephoning

    Assessment methods

    Final exam
    Written exam
    Peer-presentation
    Classroom participation
    Distance Learning

    Teaching methods

    UE

    Language

    English

    Programming in C ILV
    3.5 SWS
    6 ECTS

    Programming in C ILV

    Lector: FH-Prof. Dipl.-Ing. Herbert Paulis, Eveline Prochaska, BSc MSc

    3.5 SWS   6 ECTS

    Lecture contents

    Without group division:
    Fundamentals of programming, concept of algorithm. Structure and conception of a computer system. Programming using C programming language, instruction set of C, static and dynamic data structures, basics pointers and simple application.
    In group division:
    Practical implementation of the taught basics through guided and independent solving of tasks on the computer, simple and more complex data structures, analysis of algorithms, use of library functions. Use of programming interfaces.

    Assessment methods

    Continuous assessment
    Immanent examination character

    Teaching methods

    ILV

    Language

    German

    Digital Technology ILV
    2.5 SWS
    4 ECTS

    Digital Technology ILV

    Lector: Hubert Wimmer, MSc

    2.5 SWS   4 ECTS

    Lecture contents

    - Number Representations
    - Boolean algebra (introduction)
    - Basic logic circuits and gates
    - KV diagram
    - Selected circuits of static logic
    - Switching circuits (counters, shift registers, state machines, ...)

    Assessment methods

    Final exam
    Immanent examination character

    Teaching methods

    ILV

    Language

    German

    Electronics Laboratory I UE
    3 SWS
    5 ECTS

    Electronics Laboratory I UE

    Lector: FH-Prof. DI Rudolf Oberpertinger, MBA, FH-Prof. Ing. Dipl.-Ing. Andreas Petz

    3 SWS   5 ECTS

    Lecture contents

    Practical applications of the contents covered in the theory courses "Fundamentals of Electronics" and "Digital Technology".
    For individual laboratory exercises, tasks are to be solved in the preparation phase, which are then to be practically implemented and metrologically verified during the laboratory exercise.
    For each laboratory exercise, the evaluated measurement results and findings are to be documented in a protocol.

    Assessment methods

    Final exam
    Written exam at the end of the course

    Teaching methods

    Exercices at the laboratory

    Language

    German

    Fundamentals of Electrical Engineering 1 ILV
    4 SWS
    6 ECTS

    Fundamentals of Electrical Engineering 1 ILV

    Lector: FH-Prof. DI Christian Halter

    4 SWS   6 ECTS

    Lecture contents

    SI 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, thyristor

    Assessment methods

    Continuous assessment
    Immanent examination character

    Teaching methods

    ILV

    Language

    German

    Learning strategies and working methods 1 ILV
    1 SWS
    3 ECTS

    Learning strategies and working methods 1 ILV

    Lector: Dr.in Christa Blecha, FH-Prof. DI Gerhard Engelmann

    1 SWS   3 ECTS

    Lecture contents

    The students reflect on the essential contents of the first semester and learn about different learning methods.
    They can try out these different learning methods and thus see which type and form of learning is best suited for each individual student.

    Assessment methods

    Continuous assessment
    The work of the individual students is reflected upon in a discussion.

    Teaching methods

    Integrated course

    Language

    German

    Mathematics I ILV
    3 SWS
    4 ECTS

    Mathematics I ILV

    Lector: Ao.Univ.Prof. Dr. Günther Karigl, DI Dr. Gabriel Maresch

    3 SWS   4 ECTS

    Lecture contents

    Natural numbers, real numbers, complex numbers
    Concept of functions, elementary functions: Polynomial functions, rational functions, exponential, logarithmic and trigonometric functions.
    Differential and integral calculus in one variable
    Taylor expansion
    Partial fraction decomposition
    Differentiation and integration in practice

    Assessment methods

    Continuous assessment
    Immanent examination character

    Teaching methods

    ILV

    Language

    German

    Digital Systems ILV
    2 SWS
    4 ECTS

    Digital Systems ILV

    Lector: FH-Prof. DI Gerhard Engelmann, Eveline Prochaska, BSc MSc

    2 SWS   4 ECTS

    Lecture contents

    - Logic families
    - Circuit technology of digital circuits
    - Memory technologies
    - Interface circuits
    - Analog-digital conversion, digital-analog conversion
    - Basics of network technology
    - OSI reference model
    - Data transmission (codecs, standards and test methods)

    Assessment methods

    Continuous assessment
    Immanent examination

    Teaching methods

    ILV

    Language

    German

    Electronics Laboratory 2 UE
    3 SWS
    4 ECTS

    Electronics Laboratory 2 UE

    Lector: FH-Prof. DI Rudolf Oberpertinger, MBA, FH-Prof. Ing. Dipl.-Ing. Andreas Petz

    3 SWS   4 ECTS

    Lecture contents

    Practical applications of the contents covered in the theory courses "Components of Electronics" and "Digital Systems".
    For individual laboratory exercises, tasks are to be solved in the preparation phase, which are then to be practically implemented and metrologically verified during the laboratory exercise.
    For each laboratory exercise, the evaluated measurement results and findings are to be documented in a protocol.

    Assessment methods

    Final exam
    Written exam at the end of the course.

    Teaching methods

    Exercices at the laboratory

    Language

    German

    Advanced C-Programming VO
    1 SWS
    1 ECTS

    Advanced C-Programming VO

    Lector: FH-Prof. Dipl.-Ing. Herbert Paulis

    1 SWS   1 ECTS

    Lecture contents

    Knowledge of advanced C programming, static and dynamic data structures, sorting techniques, mastery of pointer concepts and pointer arithmetic, pointers to functions and pointers to higher data structures, bit operators. Discussion of common errors in SW development and how to avoid them.

    Assessment methods

    Final exam
    LV final final examination

    Teaching methods

    Lecture

    Language

    German

    Advanced C-Programming UE
    1.5 SWS
    3 ECTS

    Advanced C-Programming UE

    Lector: FH-Prof. Dipl.-Ing. Herbert Paulis, Eveline Prochaska, BSc MSc

    1.5 SWS   3 ECTS

    Lecture contents

    Practical implementation of the taught basics through guided and independent solving of tasks in the area of pointer concepts and pointer arithmetic, pointers to functions and pointers to higher data structures as well as bit operations. Practical application of methods and principles of SW tests and source documentation.

    Assessment methods

    Continuous assessment
    Immanent examination character

    Teaching methods

    UE

    Language

    German

    Fundamentals of Electrical Engineering 2 ILV
    4 SWS
    6 ECTS

    Fundamentals of Electrical Engineering 2 ILV

    Lector: FH-Prof. DI Christian Halter

    4 SWS   6 ECTS

    Lecture contents

    Definition and quantification of alternating variables, arithmetic mean, rectifier, rms, capacitor, inductor, impedance, network calculations, transfer function, low pass, high pass.
    Capacitor and Coil: Construction, selection criteria, equivalent circuit
    Transistor: transistor amplifier, emitter circuit, collector circuit, B-amplifier
    OPV: ideal OPV, inverting amplifier, non-inverting amplifier, summer, impedance converter, comparator, integrator, differentiator, characteristics of real OPVs
    definition of magnetic field, characteristics of magnetic field, matter in magnetic field, induction, coupled inductances, transformer

    Assessment methods

    Continuous assessment
    Immanent examination character

    Teaching methods

    ILV

    Language

    German

    Intermediate Business English UE
    1 SWS
    2 ECTS

    Intermediate Business English UE

    Lector: Dr.in Christa Blecha, Mag. Susanne Malacek

    1 SWS   2 ECTS

    Lecture contents

    Students learn to express themselves adequately in English in the following content areas:
    - Recruitment,
    - job applications
    - CV and cover letter
    - Job interviews and salary negotiations
    Students will become familiar with recruitment methods and with the specifics of job applications and CVs in English-speaking countries.
    The students write application documents and actively go through the various application steps.

    Assessment methods

    Final exam
    Class participation
    Distance learning
    Final exam

    Teaching methods

    UE

    Language

    English

    Learning strategies and working methods 2 ILV
    0.5 SWS
    2 ECTS

    Learning strategies and working methods 2 ILV

    Lector: FH-Prof. DI Gerhard Engelmann

    0.5 SWS   2 ECTS

    Lecture contents

    The students reflect on the essential contents of the first semester and learn about different learning methods.
    They can try out these different learning methods and thus see which type and form of learning is best suited for each individual student.

    Assessment methods

    Continuous assessment
    The work of the individual students is reflected upon in a discussion.

    Teaching methods

    Integrated course

    Language

    German

    Mathematics II ILV
    2.5 SWS
    4 ECTS

    Mathematics II ILV

    Lector: DI Dr. Helmut Länger, Dr. Christian Steineder

    2.5 SWS   4 ECTS

    Lecture contents

    Calculating with vectors, matrices
    Introduction to a computer algebra system (e.g. MATLAB)
    Linear systems of equations with application to practical problems
    Functions in two and more variables, partial derivatives and gradients as well as the arithmetic operations divergence and rotation (in Cartesian coordinates as well as in cylindrical and spherical coordinates)
    Coordinate transformation (Cartesian coordinates, polar coordinates, cylinders and spherical coordinates)
    Basics of curve and range integrals
    Integration in 2 and 3 dimensions, integral theorem of Gauss and Stokes
    Determination of extreme values with and without constraints

    Assessment methods

    Continuous assessment
    Immanent examination character

    Teaching methods

    ILV

    Language

    German

    Physics and Sensor Technology I ILV
    2.5 SWS
    4 ECTS

    Physics and Sensor Technology I ILV

    Lector: FH-Prof. Dipl.-Ing. Markus Wellenzohn

    2.5 SWS   4 ECTS

    Lecture contents

    Basics of mechanics:
    Velocity and acceleration, forces, energy, work, power, conservation laws, friction, dynamics of rigid bodies; sound as well as hydrodynamics as well as the necessary mathematical principles;
    Basics of sensors as well as structure and functional principles of corresponding sensors (pressure, force, acceleration, displacement and angle sensors, etc...) Ultrasonic sensors, flow sensors, etc... with calculation exercises;
    Basics of thermodynamics:
    Basic quantities of thermodynamics, main theorems of thermodynamics, heat transport and heat transfer;
    Corresponding sensors (structure and mode of operation) for temperature measurement, humidity sensors, etc... are treated with calculation exercises;

    Assessment methods

    Continuous assessment
    Immanent examination character

    Teaching methods

    ILV

    Language

    German

    Applied Electronic Circuit Design ILV
    3 SWS
    5 ECTS

    Applied Electronic Circuit Design ILV

    3 SWS   5 ECTS

    Lecture contents

    Linear voltage regulator
    DC-DC Converter
    Signal theoretical consideration of amplifiers
    Power amplifier (push-pull output stage)
    Circuits with operational amplifiers (e.g. active filters, current sources/current sinks, active rectifiers, limiter circuits, linearization circuits, function generators, interface circuits)
    Non-ideal properties of operational amplifiers and circuit-technical measures
    Stability of operational amplifiers

    Assessment methods

    Final exam
    Final exam

    Teaching methods

    Lecture with Laptop, Beamer and explanations on whiteboard

    Language

    German

    Electrical Metrology ILV
    2.5 SWS
    4 ECTS

    Electrical Metrology ILV

    2.5 SWS   4 ECTS

    Lecture contents

    Measurement of direct and alternating currents/voltages
    Measurement of resistances and impedances
    Bridge circuits
    Two-/four-wire measurement
    Measurement uncertainty, measurement error, error propagation
    Measuring amplifier
    Time and frequency measurement
    Analogue-Digital-Converter, Digital-Analogue-Converter
    Oscilloscope
    Measurement of signal spectra
    Automated measurement systems
    Practical applications of the contents dealt with in the theory part, are set up and measured in laboratory exercises
    Documentation and interpretation of measurement results in laboratory protocols.

    Assessment methods

    Continuous assessment
    Immanent examination character

    Teaching methods

    ILV

    Language

    German

    Mathematical Methods of Electrical Engineering ILV
    2.5 SWS
    6 ECTS

    Mathematical Methods of Electrical Engineering ILV

    2.5 SWS   6 ECTS

    Lecture contents

    Signal and System Theory
    Fourier Series/Fourier Transform
    Laplace transform
    General theory of differential equations
    Solution methods for (ordinary) linear differential equations
    Numerics
    Applications in science and technology

    Assessment methods

    Continuous assessment
    Immanent examination character

    Teaching methods

    ILV

    Language

    German

    Physics and Sensor Technology II ILV
    2 SWS
    5 ECTS

    Physics and Sensor Technology II ILV

    2 SWS   5 ECTS

    Lecture contents

    Basics of electrostatics and magnetostatics as well as electrodynamics and the mathematical fundamentals;
    Contents are among others: electric and magnetic fields, Maxwell's equations, electrodynamic potentials, electric and magnetic flux, circulation, electric and magnetic voltage, electric and magnetic forces, flow law, Lorentz force, law of induction, electromagnetic waves in vacuum and in matter, radiation and propagation of electromagnetic waves (Hertzian dipole, multipole radiation, characteristic impedance, antennas....), electric currents, continuity equation, vector potential, Biot-Sarvat law etc...;
    Sensor technology: structure and function of inductive sensors, magnetic field sensors, capacitive sensors, measurement of electric and magnetic fields as well as corresponding computational exercises on the topics.

    Assessment methods

    Continuous assessment
    Immanent examination character

    Teaching methods

    ILV

    Language

    German

    Programming of Microprocessors VO
    1.5 SWS
    2 ECTS

    Programming of Microprocessors VO

    1.5 SWS   2 ECTS

    Lecture contents

    Introduction to the architecture of microcontrollers (µC). Modern 8- and 32-bit µC systems are introduced (Arduino and STM32) as well as common peripherals available on these µC (NVIC, DMA, GPIO, Timer, ADC, ...) and their functionalities. Special features and peculiarities of programming µC are discussed.

    Assessment methods

    Final exam
    Written exam at the end of the course.

    Teaching methods

    Lecture combined with distance learning

    Language

    German

    Programming of Microprocessors UE
    2 SWS
    3 ECTS

    Programming of Microprocessors UE

    2 SWS   3 ECTS

    Lecture contents

    Solve exercises with given Hardware (STM32 - ARM Cortex M4) by programming the controller in C. Fundamentals of microcontrollers, components of an actual microcontroller
    (timer, NVIC, ADC, UART,..) and LCD display.

    Assessment methods

    Continuous assessment
    Immanent examination character

    Teaching methods

    Hands on examples

    Language

    German

    Control Engineering ILV
    2.5 SWS
    5 ECTS

    Control Engineering ILV

    2.5 SWS   5 ECTS

    Lecture contents

    Introduction and basic terms
    Classification of controlled systems
    System identification
    Control loop structures
    Stability criteria
    Controller design (computer aided)
    Discontinuous controllers

    Assessment methods

    Continuous assessment
    Immanent examination character with final written exam.

    Teaching methods

    - Lecture notes
    - Presentation with beamer
    - Solving problems using MATLAB
    - Discussion
    - Step-by-step explanation of complex contents on the whiteboard

    Language

    German

    Actuators VO
    1 SWS
    2 ECTS

    Actuators VO

    1 SWS   2 ECTS

    Lecture contents

    Basics as well as classification and structure of actuators
    Functional and conversion principles of actuators
    Basics of power transmission and mechanical energy transmission with gears incl. spindle drives, efficiency, losses, self-locking ...
    General possibilities of energy and power transmission with actuators
    Linear actuators and rotary actuators
    Hydro-actuators (valves and motors)
    Thermoelectric actuators (Peltier element)
    Calculation principles of magnetic circuits for electrical machines and actuators (magnetic actuators, magnetic valves) as well as electromagnetic actuators
    Piezo actuators and piezo motors (piezoelectric injection valves, ultrasonic transducers, inchworm motors, Legs motors)
    Stepper motors (reluctance stepper motors, permanent magnet stepper motors, hybrid stepper motors) DC machine and basics of electric rotating field machines
    Micro-actuators as well as novel and unconventional actuators and their functional principles and structure

    Assessment methods

    Final exam

    Teaching methods

    VO

    Language

    German

    Applied Microcontroller Programming UE
    1 SWS
    4 ECTS

    Applied Microcontroller Programming UE

    1 SWS   4 ECTS

    Lecture contents

    Applied µC programming:
    read and interpret sensor data, implementaion and application of two-wire bus systems (I²C, SPI). Special tricks and techniques of µC programming are introduced and discussed.

    Assessment methods

    Continuous assessment
    permanent assessment

    Teaching methods

    practical exercise

    Language

    German

    Automation of Technical Processes I ILV
    1.5 SWS
    2 ECTS

    Automation of Technical Processes I ILV

    1.5 SWS   2 ECTS

    Lecture contents

    Basic terms, device and programming structure of a process automation system, procedure for creating software systems with real-time requirements, introduction to the handling of automation projects.
    Concept of a programmable logic controller, introduction to the creation of PLC programs, measures for efficient programming and shortening the engineering phase, diagnosing hardware faults (replacing modules), targeted troubleshooting, adapting machine/system to new conditions, rapid localization of faults (emergency operation), efficient programming, outlook on operating and monitoring, basis of decentralized peripherals,
    exercises: PLC programming

    Assessment methods

    Continuous assessment
    immanent assessment

    Teaching methods

    immanent assessment

    Language

    German

    Design of Electronic Devices 1 ILV
    2 SWS
    5 ECTS

    Design of Electronic Devices 1 ILV

    2 SWS   5 ECTS

    Lecture contents

    Introduction to the design process of electronic circuits / assemblies / products.
    Getting to know the procedure for creating / fixing and maintaining functional or device requirements.
    Types and context of documentation of development results.
    Typical divisions and functions of individual departments in a research and development company.
    Peripheral departments and their influence on development (e.g. service, life cycle support, etc.).

    Assessment methods

    Continuous assessment
    Immanent examination character

    Teaching methods

    ILV

    Language

    German

    Power Electronics ILV
    2 SWS
    3 ECTS

    Power Electronics ILV

    2 SWS   3 ECTS

    Lecture contents

    Power supplies, DC-DC converters, transistor bridges, motor control bridge, inverters, class-D amplifiers.
    Transistors and their switching behaviour, capacitors and inductors for power electronics
    Electromagnetic compatibility, layout and filtering
    Losses, thermal design and cooling

    Assessment methods

    Final exam
    LV final final final final final final final final final final final final final final final final final final final final final final final final final final final final final

    Teaching methods

    ILV

    Language

    German

    Photonics and Optoelectronics VO
    2 SWS
    4 ECTS

    Photonics and Optoelectronics VO

    2 SWS   4 ECTS

    Lecture contents

    Light as an electromagnetic wave as well as light as a particle (photon), interference, coherence, diffraction as well as dispersion of light, physical basics of optics, radiation evaluation especially the basics of photometry as well as radiation laws, interaction of light and matter, light generation in conventional light sources (incandescent lamps, gas discharge lamps, ...), light generation in semiconductors as well as semiconductor devices e.g.. LED, ..., light generation in lasers, optical radiation and effects of nonlinear optics, photo detection and optical components (components of optics and optoelectronics) as well as physical basics of optical sensors, overview of optical sensors (fiber optic sensors, ...) and their most important applications as well as corresponding calculation exercises (calculation examples) for the corresponding topics;
    Transmission of electromagnetic waves in optical fibers (generation, attenuation and detection)

    Assessment methods

    Final exam
    LV final final inspection

    Teaching methods

    VO

    Language

    German

    Circuit and System Design UE
    2.5 SWS
    4 ECTS

    Circuit and System Design UE

    2.5 SWS   4 ECTS

    Lecture contents

    - Introduction and basic concepts of computer-aided tools (EDA, CAD, CAE);
    - Computer simulation of electronic circuits with different complexity
    - Development of new simulation models for special components based on their specification
    - Computer aided circuit board design by means of a logic circuit, simulation and circuit board design software
    - Computer-aided system design

    Assessment methods

    Continuous assessment
    Immanent examination character

    Teaching methods

    Excercise

    Language

    German

    Circuit Design Laboratory UE
    2 SWS
    4 ECTS

    Circuit Design Laboratory UE

    2 SWS   4 ECTS

    Lecture contents

    Practical applications of selected contents of the theory course "Applied Circuit Technology". Documentation and interpretation of measurement results in laboratory protocols.

    Assessment methods

    Final exam
    LV final final examination

    Teaching methods

    Excercices at the laboratory

    Language

    German

    Technical English 1 UE
    1 SWS
    1 ECTS

    Technical English 1 UE

    1 SWS   1 ECTS

    Lecture contents

    Students learn how to present professional articles from different areas of Electronics in English. Thereby students learn the relevant professional vocabulary and get to know specific technical content.

    Assessment methods

    Final exam
    presentations
    class participation
    final exam

    Teaching methods

    UE

    Language

    English

    Scientific Research for Graduation Candidates VO
    1 SWS
    1 ECTS

    Scientific Research for Graduation Candidates VO

    1 SWS   1 ECTS

    Lecture contents

    - What is science
    - Scientific work
    - Scientific writing
    - Peer review
    - Code of ethics
    - Scientific presentations

    Assessment methods

    Final exam
    * Theory presentation

    Teaching methods

    - student presentations (distance learning)
    - discussion and additions by the lecturer

    Language

    German

    Propulsion systems VO
    1.5 SWS
    2 ECTS

    Propulsion systems VO

    1.5 SWS   2 ECTS

    Lecture contents

    Basics of electrical machines: DC machine, asynchronous machine, synchronous machine, reluctance motor, stepper motor. Design, function, operating behaviour, characteristic curves. Design and function of power converters, frequency converters and drives with EC motors.

    Assessment methods

    Final exam
    LV final final examination

    Teaching methods

    VO

    Language

    German

    Selected Chapters of Electronics I SE
    2 SWS
    3 ECTS

    Selected Chapters of Electronics I SE

    2 SWS   3 ECTS

    Lecture contents

    In-depth treatment of current, selected topics in applied electronics.
    In the context of this course, topics of guest lecturers or current research topics of the FH Campus Wien can also be treated. This course offers students the opportunity to participate in internationalisation activities.
    This course is a further development of the I@H project implemented in 2014.

    Assessment methods

    Continuous assessment
    intrinsic audit character

    Teaching methods

    SE

    Language

    German

    Electrical energy storage VO
    1 SWS
    2 ECTS

    Electrical energy storage VO

    1 SWS   2 ECTS

    Lecture contents

    Fundamentals and structure of electrical and electrochemical energy storage systems. Electrolytic double layer capacitors (EDLC), different secondary cells (lead-acid, lithium-ion, LiFePO4, nickel-metal hydride). Operating characteristics, charging and discharging procedures. Safety aspects, balancing, battery management systems.

    Assessment methods

    Final exam
    LV final final examination

    Teaching methods

    CO

    Language

    German

    Design of Electronic Devices I UE
    1.5 SWS
    6 ECTS

    Design of Electronic Devices I UE

    1.5 SWS   6 ECTS

    Lecture 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 methods

    Continuous assessment
    intrinsic audit character

    Teaching methods

    UE

    Language

    German

    Project Management ILV
    1 SWS
    2 ECTS

    Project Management ILV

    1 SWS   2 ECTS

    Lecture contents

    Introduction to the concept of project and the project management approach. Instruments and tools of project management such as delimitation and context analysis, project order, performance, schedule, cost/resource planning,
    project organisation and related communication structures.
    Getting to know the essential processes (assignment, start, controlling, closing, marketing) in project management as well as methods of design.
    Introduction to the basic concepts and fundamentals of organisations, in-depth knowledge of structural and process organisation, organisational culture, forms of work organisation (e.g. MbO, job rotation) group/teams as well as strategic management.

    Assessment methods

    Continuous assessment
    Immanent examination character

    Teaching methods

    ILV

    Language

    German

    Technical English 2 UE
    1 SWS
    2 ECTS

    Technical English 2 UE

    1 SWS   2 ECTS

    Lecture contents

    Students learn how to present professional articles from different areas of Electronics in English. Thereby students learn the relevant professional vocabulary and get to know specific technical content.

    Assessment methods

    Final exam
    presentations
    class participation
    final exam

    Teaching methods

    presentations, discussions, q+a

    Language

    English

    Economy ILV
    2 SWS
    3 ECTS

    Economy ILV

    2 SWS   3 ECTS

    Lecture contents

    Divisions of economics, general business administration; business administration techniques e.g. cost accounting; special business administration e.g. trade; functional business administration e.g. financing; definition and division of accounting (bookkeeping, accounting, cost accounting); areas of marketing, personnel, procurement - storage - production, investment and financing, management and organisation.
    Derivation of costs from accounting (cost-type accounting), allocation of costs to internal service areas (cost-centre accounting), determination of cost-covering prices (cost-unit accounting), determination of the cost-unit profit and the profit for the period.
    Determination of financing-related data from accounting, delimitation of the areas of financing and investment; internal and external financing; equity and debt financing, alternative forms of financing; basics of financial mathematics.

    Assessment methods

    Continuous assessment
    Immanent examination character

    Teaching methods

    ILV

    Language

    German

    Specialization Automatisierungstechnik

    Automation of Technical Processes II ILV
    3 SWS
    5 ECTS

    Automation of Technical Processes II ILV

    3 SWS   5 ECTS

    Lecture contents

    teaching the operations in an automation project, calculation of hard- and software cost as well as engineering and project management
    modelling of automation tasks, project management especially for automation-projects, special automation topics: weighing ...
    kpi and benchmarking, engineering tasks in an automation projects
    practical exercises

    Assessment methods

    Continuous assessment
    LV Immanent Examination Character

    Teaching methods

    ILV

    Language

    German

    Programmable Logic Control Systems and Control Systems ILV
    3 SWS
    5 ECTS

    Programmable Logic Control Systems and Control Systems ILV

    3 SWS   5 ECTS

    Lecture contents

    Design and implementation of distributed automation systems (component technology, OPC UA), operation and monitoring (local and via Internet), soft PLC, real-time behaviour, safety controllers,
    Exercises: PLC programming, maintenance diagnostics
    - In-depth PLC hardware and software.
    - Intelligent modules (counters, axis cards, ...)
    - Principle communication possibilities on process and field level
    - Presentation of the five IEC 61131 languages plus exercises for LD, FBD, ST and SFC
    - Design and dimensioning of central and distributed control systems in theory and practice.
    - Discussion of concrete hardware (Phoenix Contact)
    - Dimensioning calculation of a concrete project in the context of exercises

    Assessment methods

    Continuous assessment
    intrinsic audit character

    Teaching methods

    ILV

    Language

    German

    Specialization Umwelttechnik

    Energy efficiency and climate protection strategies ILV
    1.5 SWS
    2 ECTS

    Energy efficiency and climate protection strategies ILV

    1.5 SWS   2 ECTS

    Lecture contents

    Energy efficiency terms, 20-20-20 targets of the European Union, energy efficiency labelling of products, greenhouse gases and their impact on the global climate.
    World climate reports, CO2 balance of the energy supply chain, CO2 certificate trading, ecological footprint, energy management systems according to ISO50001, identification of energy saving potentials, rebound effect,
    smart technologies in the field of energy efficiency, economic aspects of energy efficiency and climate protection strategies, political instruments in the field of energy efficiency and climate protection strategies

    Assessment methods

    Final exam
    LV final

    Teaching methods

    ILV

    Language

    German

    Fundamentals of Renewable Energy Sources ILV
    2 SWS
    3 ECTS

    Fundamentals of Renewable Energy Sources ILV

    2 SWS   3 ECTS

    Lecture contents

    Energy section: Energy concept, different units in the energy economy, differentiation between exergy and anergy, systematisation of renewable energies, Carnot efficiency, energy balance in Austria
    Wind energy section: Power potential of moving air masses, measurement of wind speed, high-altitude wind profile, frequency distribution of wind speed, usable wind power (impulse theory according to Betz)
    Solar radiation section: Quantification of solar radiation, Earth's energy balance, Atmosphere as an optical filter, Radiation components (direct radiation, diffuse radiation), Sun position diagram, Radiation components on inclined surfaces, Tracking of receiving surfaces, PVGIS, Measurement of solar radiation.

    Assessment methods

    Final exam
    LV final

    Teaching methods

    ILV

    Language

    German

    Eco Design VO
    1 SWS
    2 ECTS

    Eco Design VO

    1 SWS   2 ECTS

    Lecture contents

    General introduction to the term eco-design, necessity of eco-design in sustainable product design with focus on electronic/electrotechnical products, characteristics of ecological product and process improvements, strategies to support systematic ecological product improvement (eco-design process), design for disassembly of electronic and electrotechnical products, disassembly processes, design for non-disassembly, recycling rate, introduction to the most important design guidelines for the selection of materials and surface treatments for electronic and electrotechnical products, environmentally friendly design of packaging. Best practice example of eco-design for electronic and electrotechnical products.

    Assessment methods

    Final exam
    LV final

    Teaching methods

    LV final final final final final final final final final final final final final final final final final final final final final final final final final final final final final

    Language

    German

    Environmental Protection in Production ILV
    1.5 SWS
    3 ECTS

    Environmental Protection in Production ILV

    1.5 SWS   3 ECTS

    Lecture contents

    The austrian way of environmental protection for producing companies in the electronic industry

    Assessment methods

    Final exam
    LV final

    Teaching methods

    ILV

    Language

    German

    Selected Chapters of Electronics II SE
    2 SWS
    3 ECTS

    Selected Chapters of Electronics II SE

    2 SWS   3 ECTS

    Lecture contents

    In-depth treatment of current, selected topics in applied electronics.
    Within the framework of this course, topics from guest lecturers or current research topics of the FH Campus Wien can also be dealt with.

    Assessment methods

    Continuous assessment
    Immanent examination character

    Teaching methods

    SE

    Language

    German-English

    Bachelor Thesis SE
    1 SWS
    8 ECTS

    Bachelor Thesis SE

    1 SWS   8 ECTS

    Lecture contents

    Writing a scientific paper in an area of electronics.

    Assessment methods

    Continuous assessment
    Immanent examination character

    Teaching methods

    Seminar

    Language

    German

    Professional Practical Training PR
    0.5 SWS
    10 ECTS

    Professional Practical Training PR

    0.5 SWS   10 ECTS

    Lecture contents

    The students carry out a relevant practical work in a company in the field of electronics/automation technology or environmental technology. The concrete procedure for carrying out the internship is agreed with the respective company in which the internship is carried out. The technical orientation of the work must be related to the contents of the degree programme.

    Assessment methods

    Continuous assessment
    Immanent examination character

    Teaching methods

    PR

    Language

    German

    Electro-Mobility VO
    1 SWS
    2 ECTS

    Electro-Mobility VO

    1 SWS   2 ECTS

    Lecture contents

    Storage technologies, storage management, energy use in driving, energy use for comfort functions, electric drives in e-vehicles, hybrid concepts, assistance systems in vehicles, charging technologies, mobility concepts, ecological aspects of electromobility, funding landscape for electromobility in Austria and internationally, interaction between people and mobility, current market overview in the field of electromobility

    Assessment methods

    Final exam
    LV final

    Teaching methods

    VO

    Language

    German

    Civil and Patent Law VO
    1 SWS
    1 ECTS

    Civil and Patent Law VO

    1 SWS   1 ECTS

    Lecture contents

    Basic structure of Austrian private law.
    The focus is on the contract as a central creative instrument, prerequisites for a valid conclusion of a contract, different types of contracts, special features of consumer protection law and their economic significance.
    Another focus is on tort law and product liability law. This includes the problem area of the relationship between producer and trader liability.
    Basic features of patent, trademark and design protection law as well as copyright law.
    The second subject area is the legal protection of intellectual property.

    Assessment methods

    Final exam
    Final Examination

    Teaching methods

    Lecture course

    Language

    German-English

    Product Life Cycle Management VO
    1 SWS
    2 ECTS

    Product Life Cycle Management VO

    1 SWS   2 ECTS

    Lecture contents

    - Introduction to the different lifecycle phases of an electronic component / assembly and a complete device.
    - Requirements of the production to the electronic assembly as well as its test and analysis structure. Consideration of these boundary conditions for a cost and resource efficient design of electronic assemblies and systems.
    - Influence of service & diagnostic requirements on the design of electronic assemblies and systems.
    - Modern test and analysis systems for electronic circuits and assemblies.
    - Recycling of electronic assemblies and devices (legal framework and design guidelines).
    - Banned Substances in the field of electronics - alternative products as well as application.

    Assessment methods

    Continuous assessment
    Immanent examination character, participation, attendance - 20% of the overall grade
    Term paper - 30% of the overall grade
    Written exam - 50% of the overall grade

    Teaching methods

    Lecture, term paper, exhibits, videos, elaboration of scientific terms.

    Language

    German-English

    Specialization Automatisierungstechnik

    Human Machine Interfaces ILV
    1.5 SWS
    2 ECTS

    Human Machine Interfaces ILV

    1.5 SWS   2 ECTS

    Lecture contents

    Operation of control systems
    - Control panel (text, semi-graphic, full-graphic, touch displays)
    Signalling options in control systems
    - conventional types of signalling (from light columns to LEDs)
    complex control systems, design guidelines for the creation of user interfaces

    Assessment methods

    Continuous assessment
    LV-immanent examination character

    Teaching methods

    ILV

    Language

    German

    Process Control Systems and Field Bus Technology ILV
    1.5 SWS
    2 ECTS

    Process Control Systems and Field Bus Technology ILV

    1.5 SWS   2 ECTS

    Lecture contents

    Requirements for the various levels of communication systems in automation technology, common representatives of industrial communication systems, fieldbuses, process automation and process control systems, planning the use of modern computer-aided design tools.
    Project planning, testing functions with variables, alarm logging, curve display, measured value archiving, data archiving.
    SCADA (Supervisory Control and Data Acquisition) basic design and training of a SCADA system based on the ATVISE platform incl. exercises, industrial data management such as reporting (drill-down reports), data processing, OPC server.

    Assessment methods

    Continuous assessment
    LV Immanent examination character

    Teaching methods

    ILV

    Language

    German

    Specialization Umwelttechnik

    Technologies for the Utilization of Renewable Energy Sources ILV
    1.5 SWS
    2 ECTS

    Technologies for the Utilization of Renewable Energy Sources ILV

    1.5 SWS   2 ECTS

    Lecture contents

    Sub-area of photovoltaic system technology:
    Function of solar cell, characteristics of solar cells, function, structure and properties of PV modules, PV generator, basic function of PV inverter, efficiency of PV inverter, PV inverter as grid manager, PV inverter concepts, planning principles and designs of grid-connected PV systems, coordination of PV generator with PV inverter, lightning protection of PV systems, current product and market overview of PV components.
    Sub-area wind power plant technology:
    Wind turbine concepts, aerodynamics of rotor, drag rotor, lift rotor, lightning protection of wind turbines, structure of rotor of wind turbines, power curve of wind turbines, power control of wind turbines, yield determination of wind turbines, tower designs of wind turbines, foundation variants, drive train, gearbox, generator concepts, grid integration of wind turbines, current market overview of wind turbines.
    Sub-areas to be worked out by the students:
    Seminar topics: Solar collectors, solar thermal systems, heat pumps, hydrogen, large-scale energy storage, large-scale and small-scale hydropower, biogas, biofuels.

    Assessment methods

    Continuous assessment
    Immanent examination character

    Teaching methods

    ILV

    Language

    German

    Environmental Metrology ILV
    1.5 SWS
    2 ECTS

    Environmental Metrology ILV

    1.5 SWS   2 ECTS

    Lecture contents

    Measurements of relevant environmental variables, physical measurement principles or measurement methods, market relevant measurement devices for the different measurement methods, accuracy of measurement methods, processing of measurement data, integration of sensors and measurement devices into existing networks.
    relevant environmental variables: Air quality and quality, CO2 and CO measurement, oxygen measurement, exhaust gas analysis, gas monitoring, gas analysis, dust measurements, aerosol measurement.
    humidity measurement, pH measurement, water analysis, pressure and differential pressure measurement, measurement of radioactive substances, sound level measurement, volume flow measurement, light measurement, temperature measurement

    Assessment methods

    Final exam
    LV final

    Teaching methods

    ILV

    Language

    German

    Number of teaching weeks
    18 per semester

    Schedule of the academic year
    Click here for the schedule

    Times
    Monday, Tuesday, Wednesday und Friday from 5.30 p.m. to 8.45 p.m. and on certain Saturdays from 8.30 a.m.-5.00 p.m

    Electives
    Selection and participation according to available places. There may be separate admission procedures.


    After graduation

    As a graduate of this program, a wide range of professional fields and career opportunities are open to you. Find out where your path can lead you.

    The fields of electronics, electrical and environmental technology are booming. The need for new products, services and applications is driving the creation of many jobs for well-qualified experts. The current demand of companies for FH degree program graduates exceeds supply by far. This will naturally facilitate your entry into this professional niche. The degree program is also a solid basis for the assumption of managerial responsibilities after your professional experience and continuing education.

    From equipment design to finished product, from concept to simulation - national and international project planning and handling in the field of electronics, electrical and information technology will characterize your future career. You will in future find yourself in the following fields of industry:

    • Communications technology

    • Telecommunications technology

    • Computers and system technology

      • Medical technology

      • Energy and environmental technology

      • Automation

        Master's degree programs

        Master

        Electronic Systems Engineering

        part-time

        Master

        Health Assisting Engineering

        part-time

        Master

        Safety and Systems Engineering

        part-time


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        Contact

        Head of Degree Program

        Secretary's office

        Mag. Andrea Winkelbauer

        Favoritenstraße 226, B.3.25
        1100 Vienna
        +43 1 606 68 77-2110
        +43 1 606 68 77-2119
        elektronik@fh-campuswien.ac.at

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