List of courses
CESE4090 Reconfigurable Computing Design (5 EC)
EE1C31 Amplifiers and instrumentation (5 EC)
(not running) This course introduces the basics of electronic circuits for processing and amplification of information-carrying signals, and the basics of electronic instrumentation.
EE1G1 Introduction to Electrical Engineering (5 EC)
Introduction to Electrical Engineering (EE) and the EE BSc programme at TU Delft
EE1L21 EPO-2: Smart Robot Challenge (5 EC)
(not running) Build, program and operate a functional autonomous mobile robot
EE1P11 Classical and Quantum Mechanics (5 EC)
(not running) "Classical and Quantum Mechanics" (EE1P11) teaches the basic elements of physics that are required to become an electrical engineer.
EE2C1 Transistor Circuits (5 EC)
Analysis and design of digital integrated circuits (electronics and systems aspects)
EE2G1 Electrical Engineering for the Next Generation (10 EC)
BSc 2nd year project
EE4520 Analog CMOS design I (3 EC)
Design of basic analog circuits in modern CMOS technology
EE4525 Analog CMOS design II (3 EC)
EE4575 Electronics for quantum computation (5 EC)
Concepts of quantum computing with focus on practical implementation for a quantum computer
EE4610 Digital IC design (3 EC)
Analysis and design of digital systems with full comprehension of its performance, power dissipation, size and reliability.
EE4736 Introduction imaging sensors (4 EC)
EE4C08 Measurement and instrumentation (5 EC)
A broad introduction to measurement and instrumentation systems
EE4C10 Analog circuit design fundamentals (5 EC)
EEX05 Chip Design (5 EC)
BSc 2nd year elective
ET4260 Microsystem integration (4 EC)
ET4278 Over-sampled data converters (4 EC)
Design of sigma-delta modulators for communication and instrumentation
ET4351 Digital VLSI Systems on Chip (4 EC)
How to design, connect and implement large macro IP blocks that constitutes a system on chip
QIST4400 Quantum computer architecture (5 EC)
TM12001 Advanced Signal Acquisition (5 EC)
Instrumentation for technical medicine
