Find a university to explore its courses and reviews.
Browse all 132 Electrical Engineering courses at University at Buffalo. Read student reviews, compare difficulty ratings, and find the best classes for your schedule.
Digital Principles
Circuit Analysis
“The exams are curved heavily but the problem sets are hard and take a while.”
Electronic Devices and Circuits
Electronic Circuits Laboratory
Taken any of these courses?
Your review helps thousands of students pick the right classes. Anonymous, 2 minutes.
Applied Electromagnetics
Fundamentals of Energy Systems
Electronic Circuits Lab
Signal Processing
Communications Systems I
RF and Microwave Circuits I
Senior Seminar
Senior Design Implementation
Electronic Instrument Design I
Nanophotonics
Communication Electronics
Quantum Mechanics For Engineers
Industrial Control Systems
Embedded Systems
Fundamentals of Semiconductor Devices 1
Nanotechnology & Science
Machine Learning Over Wireless Edge Networks
Electrical Devices I
Fundamentals of Semiconductor Devices
Introduction to Optofluidics
Principles of Networking
Principle of Information Theory and Coding
Introductory Energy Storage
Nanoscale Communication Networks
Principles of Cellular Communication Networks: From 5G to the next generations
Digital Communications Systems Design and Implementation
Microelectronic Device Fabrication
Analog Integrated Circuit Layout
Power Systems Engineering
Intro to 2D Electronics
Microfabrication Lab
Photonic Devices
Quantum Structure Devices: Optical and Optoelectronic Properties of Nanostructures
Special Topics in Electrical Engineering
Intro to MRI
Principles of Medical and Radar Imaging
Power Electronics
Renewable Distributed Generation and Storage
Sustainable Energy Systems
VLSI Design
Biomedical Electronics
Principles of Modern Digital Communication
Fundamentals of Modern VLSI Devices
Lasers and Photonics
Consumer Optoelectronics
Analog Integrated Circuits
“This course is too advance for UB undergraduate students given the only prerequisites that we had to take were EE310 and E311. These…”
Internship
Undergraduate Research and Creative Activity
Independent Study
Special Topics
Electrical Devices
Quant Mthds in Mat Charctrztn
Electron Instrmt Design 1
Prob in Biomedical Engrg
Nanophotonics
Communication Electronics
Microelectromech Systems
Introduction to DSP
Divide & Conquer Algorithms in DSP
Quantum Mechanics for Eng
Industrial Control Systems
Quantum Computing and Devices
Nanostructure Materials
Nanotechnology & Science
Wearable and Implantable Sensors
Fundamentals of Semiconductor Devices 2
Prob & Stoc Procs for Eng
Principles of Networking
Antennas and Propagation
Princ Mod Digital Comm
Principal Information Theory and Coding
Special Topics
Advanced Energy Grid Systems I
Advanced Energy Grid Systems 2
Nanoscale Communication Networks
Principles of Cellular Communication Networks
Microeltrn Dvc Fabrctin
Analog Integ Circ Layout
Special Topics
Microelectronic Fab Lab
Photonic Devices
Quantum Structure Devices: Optical and Optoelectronic Properties of Nanostructures
Special Topics
Introduction to Magnetic Resonance Imaging
Princ Medical Radar Imag
Fundamentals of Semiconductor Devices 1
Video Communications
Power Electronics
Renewable Distributed Generation and Storage
Sustainable Energy
Rf/Microwave Circuits 2
High Voltage Engineering
Biomedical Electronics
EE Graduate Seminar
EE Graduate Seminar
Funds of Mod VLSI Devices
Lasers & Photonics
Consumer Optoelectronics
Analog Circuits
Individual Problems
Masters Research
Special Topics
Special Topics
Graduate Internship
Smart Grid: Economics, Policy, and Engineering Aspects
Smart Antennas
Technical Synthesis and Communication
Sequ & Codes in DSP Apps
Mimo Wireless Comm
Detection & Estimation 1
Magnetic Materials & Technology
Dissertation
Special Topics
Taken a class at UB?
Help other UB students decide. Share your honest experience. It takes 2 minutes, it's fully anonymous, and you don't need an account.