Elektrotechnik und Informationstechnologie Master |
Master-Studium (Studienreglement 2008) |
Fächer der Vertiefung
Insgesamt 42 KP müssen im Masterstudium aus Vertiefungsfächern erreicht werden. Der individuelle Studienplan unterliegt der Zustimmung eines Tutors. |
Electronics and Photonics |
Empfohlene Fächer
Diese Fächer sind eine Empfehlung. Sie können Fächer aus allen Vertiefungsrichtungen wählen. Sprechen Sie mit Ihrem Tutor. |
Nummer | Titel | Typ | ECTS | Umfang | Dozierende |
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227-0121-00L | Kommunikationssysteme | W | 6 KP | 4G | |
227-0121-00 G | Kommunikationssysteme | | | 4 Std. | | A. Wittneben |
227-0157-00L | Semiconductor Devices: Physical Bases and Simulation | W | 4 KP | 3G | |
227-0157-00 G | Semiconductor Devices: Physical Bases and Simulation
Falls alle Hörende es wünschen, kann die Vorlesung auch auf Deutsch gehalten werden. | | | 3 Std. | | A. Schenk |
227-0166-00L | Analog Integrated Circuits | W | 6 KP | 2V + 2U | |
227-0166-00 V | Analog Integrated Circuits | | | 2 Std. | | Q. Huang |
227-0166-00 U | Analog Integrated Circuits
Some of the exercise lessons will take place in computer room ETZ D61.1. To be announced during the course lessons. | | | 2 Std. | | Q. Huang |
227-0377-00L | Physics of Failure and Failure Analysis of Electronic Devices and Equipment | W | 3 KP | 2V | |
227-0377-00 V | Physics of Failure and Failure Analysis of Electronic Devices and Equipment | | | 2 Std. | | U. Sennhauser |
227-0468-00L | Analog Signal Processing and Filtering Suitable for Master Students as well as Doctoral Students. | W | 6 KP | 2V + 2U | |
227-0468-00 V | Analog Signal Processing and Filtering | | | 2 Std. | | H. Schmid |
227-0468-00 U | Analog Signal Processing and Filtering | | | 2 Std. | | H. Schmid |
227-0617-00L | Solar Cells | W | 4 KP | 3G | |
227-0617-00 G | Solar Cells | | | 3 Std. | | A. N. Tiwari,
S. Bücheler,
Y. Romanyuk |
227-0618-00L | Modeling, Characterization and Reliability of Power Semiconductors | W | 6 KP | 4G | |
227-0618-00 G | Modeling, Characterization and Reliability of Power Semiconductors | | | 4 Std. | | M. P. M. Ciappa |
227-0620-00L | Characterization of the Electronic Properties of Materials for Semiconductor Devices | W | 4 KP | 3G | |
227-0620-00 G | Characterization of the Electronic Properties of Materials for Semiconductor Devices
Findet dieses Semester nicht statt. | | | 3 Std. | | |
227-0627-00L | Angewandte Computer Architektur | W | 6 KP | 4G | |
227-0627-00 G | Angewandte Computer Architektur | | | 4 Std. | | A. Gunzinger |
227-0659-00L | Integrated Systems Seminar | W | 1 KP | 1S | |
227-0659-00 S | Integrated Systems Seminar | | | 1 Std. | | A. Schenk |
227-0665-00L | Battery Integration Engineering Number of participants limited to 30.
Enrolment possible until September 28, 2018.
Students are required to have attended one of the following courses: 227-0664-00L Technology and Policy of Electrical Energy Storage / 529-0440-00L Physical Electrochemistry and Electrocatalysis / 529-0191-01L Renewable Energy Technologies II, Energy Storage and Conversion / 529-0659-00L Electrochemistry (Exception for PhD students)
Priority given to Electrical and Mechanical Engineering students | W | 3 KP | 2V + 1U | |
227-0665-00 V | Battery Integration Engineering | | | 2 Std. | | T. J. Patey |
227-0665-00 U | Battery Integration Engineering | | | 1 Std. | | T. J. Patey |
227-2037-00L | Physical Modelling and Simulation | W | 6 KP | 4G | |
227-2037-00 G | Physical Modelling and Simulation | | | 4 Std. | | J. Smajic |
151-0601-00L | Theory of Robotics and Mechatronics | W | 4 KP | 3G | |
151-0601-00 G | Theory of Robotics and Mechatronics | | | 3 Std. | | P. Korba,
S. Stoeter |
151-0605-00L | Nanosystems | W | 4 KP | 4G | |
151-0605-00 G | Nanosystems
The exercises will take place in the laboratories. | | | 4 Std. | | A. Stemmer |
151-0620-00L | Embedded MEMS Lab | W | 5 KP | 3P | |
151-0620-00 P | Embedded MEMS Lab
- Distribution of the script / class material and first part of the introduction lecture (compulsory): Monday 24.09.2018 at13-18h - Second part of the introduction lecture (compulsory): Monday 01.10.2018 at 13-18h - Practical portion of the course: 7 consecutive Monday’s from 13:00 (exact) during the semester weeks. Starting days for groups are staggered. - Attendance is required at all meetings of the course. | | | 45s Std. | | C. Hierold,
S. Blunier,
M. Haluska |
151-0911-00L | Introduction to Plasmonics | W | 4 KP | 2V + 1U | |
151-0911-00 V | Introduction to Plasmonics | | | 2 Std. | | D. J. Norris |
151-0911-00 U | Introduction to Plasmonics | | | 1 Std. | | D. J. Norris |
327-2132-00L | Multifunctional Ferroic Materials: Growth, Characterisation, Simulation | W | 2 KP | 2G | |
327-2132-00 G | Multifunctional Ferroic Materials: Growth and Characterization | | | 2 Std. | | M. Trassin,
M. Fiebig |
363-0389-00L | Technology and Innovation Management | W | 3 KP | 2G | |
363-0389-00 G | Technology and Innovation Management | | | 2 Std. | | S. Brusoni |