LRE
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Power Electronics for Renewable Power Systems [E2G807] electrical power system as interface for renewable energies, practical knowledge of power electronics, power electronics in conventional and renewable power systems, requirements on grid integration for renewable energies, control methods and controller design for power electronics, inverter modules for photovoltaic systems, battery inverters, HVDC transmission systems, FACTS in power systems
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MAT
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Advanced Mathematics [P100] vector analysis: scalar and vector fields, gradient, conservative vector fields, curl and divergence, surface integrals, theorems of Green, Stokes and Gauß, numerical methods: systems of non-linear equations, numerical treatment of differential equations, probability theory: discrete and continuous distributions, statistical tests: χ2-test
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MAT1
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Mathematics 1 [E3B104] Basics of linear algebra, calculus with one real variable.
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MAT2
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Mathematics 2 [E3B105] Calculus with several real variables, ordinary differential equations, basic concepts in numerics and probability.
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MAX
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Theory of Electric and Magnetic Fields [P101] Basics (grad, div, rot), Maxwell's Equations, stationary and static fields (electro static field, magneto static field, stationary current field), quasistationary electromagnetic fields, electromagnetic waves
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MCS
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Microcomputer Systems [E3G414] Integrated development systems, development of small application projects for sensors and actuators with timer/counters, analogue to digital converters, pulse-width modulation, parallel and serial bus interfaces.
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MDS
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Modelling of Discret Event Systems [M222] Description, analysis and simulation of systems by petri nets and comparable techniques.
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MEK
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Pattern Recognition [M221] Hough transformationen and RANSAC, statistical decision theory, Fourier-descriptors, classifiers and learning strategies, neural networks, sequential data analysis, hidden Markov models.
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MES
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Measurement Engineering [E3B113] Mathematical methods and terms. Function and application of measuring methods and devices.
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MRT
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Microcomputer Technology [E3G112] Structure and function of microcomputers and peripheral components, programming and application of microcomputers.
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MSD
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Mixed Signal IC-Design [E2G614] CAD tools for analog circuit design, technology for analog devices, basic analog circuits, operational amplifiers, MOS transistors as analog switches, ADC and DAC, PLL.
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NAE
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Nanoelectronics [E3G422] Technology, theory and simulation of nanoelectronic devices.
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NAT
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Communication engineering [E2G201] Quadripole theory, linear and non-linear circuits, noise, frequency conversion, fundamentals of transmission line theory, principles of receivers.
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NGN
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Next Generation Networks [E620] Fundamentals of modern telecommunication networks, physical layer (DSL, FTTx, PDH, SDH, WDM, OTH), data Link Layer (HDLC, PPP, Ethernet, Fast Ethernet, Gigabit Ethernet, 10 Gigabit Ethernet, 40 / 100M Ethernet Gigabit LAN links, carrier-grade Ethernet), network layer (IPv4, ICMP, IPv6, routing and forwarding, router architectures, traffic engineering, QoS and DiffServ), shim Layer (MPLS, MPLS-TE, MPLS services, MPLS FRR).
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NRE
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Grid Integration and Control for Renewable Energy Systems [E3G807] Power electronic components, switching topologies, control principles for PV inverter, battery power converter, power control of PV and wind turbines, frequency control, islanding operation.
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