Course syllabi
The syllabi listed on this page are examples that provide students an in-depth understanding of what to expect in terms of content, assignments, grading and course objectives. These are designed to help you familiarize yourself with the structure and expectations of the courses you will be taking.
- ASU 101 — The ASU Experience
- FSE 100 — Introduction to Engineering Design
- EEE 120 — Digital Design Fundamentals
- CSE 230 — Computer Organization and Assembly Language
- EEE 202 — Circuits I
- EEE 203 — Signals and Systems I
- EEE 241 — Fundamentals of Electromagnetics
EEE 241 — Fundamentals of Electromagnetics: for George Trichopoulos’ Spring 2024 class
George Trichopoulos’ class is beginning use of a new textbook. If you are taking his class, please download the syllabus designed for it. - EEE 304 — Signals and Systems II
- EEE 333 — Hardware Design Languages and Programmable Logic
- EEE 334 — Circuits II
- EEE 335 — Analog and Digital Circuits
- EEE 341 — Electromagnetic Fields and Waves
- EEE 350 — Random Signal Analysis
- EEE 352 — Properties of Electronic Materials
- EEE 360 — Energy Systems and Power Electronics
- EEE 394 — Topic: Quantum Mechanics for Quantum Information Science
- EEE 404 — Real-Time DSP Systems
- EEE 405 — Machine Learning Basics with Deployment to FPGAs
- EEE 407 — Digital Signal Processing
- EEE 419 — Python for Rapid Engineering Solutions
- EEE 425 — Digital Systems and Circuits
- EEE 433 — Analog Integrated Circuits
- EEE 434 — Quantum Mechanics for Engineers
- EEE 435 — Fundamentals of CMOS and MEMS
- EEE 436 — Fundamentals of Solid-State Devices
- EEE 437 — Optoelectronics
- EEE 439 — Semiconductor Facilities and Cleanroom Practices
- EEE 443 — Antennas for Wireless Communications
- EEE 445 — Microwaves
- EEE 448 — Fiber Optics
- EEE 455 — Communication Systems
- EEE 459 — Communication Networks
- EEE 460 — Nuclear Power Engineering
- EEE 463 — Electrical Power Plants
- EEE 465 — Photovoltaic Energy Conversion
- EEE 470 — Electric Power Devices
- EEE 471 — Power System Analysis
- EEE 472 — Power Electronics and Power Management
- EEE 473 — Electrical Machinery
- EEE 480 — Feedback Systems
- EEE 481 — Computer-Controlled Systems
- EEE 488–489 — Senior Design Laboratory I & II
- EEE 498 — Augmented Reality and Virtual Reality Systems
- EEE 498 — Emerging Technology in Automotives and Transportation
- EEE 498 — Foundations of Machine Learning: From Theory to Practice
- EEE 498 — Instrumentation for Extreme Environment Systems
- EEE 498 — Introduction to Quantum Information and Quantum Computing
- EEE 498 — Introduction to RF and Wireless Radio Design
- EEE 498 — Lithium-Ion Battery Technology for Automotive Electrification
- EEE 498 — Manufacturing Science of Solar Cells
- EEE 498 — Networking for Big Data
- EEE 498 — Nuclear Proliferation, Security and Safeguards
- EEE 498 — Quantum Optics and Quantum Information
- EEE 498 — Renewable Energy Technology and Systems
- EEE 498 — Science and Technology of Solar Cell Fabrication
- EEE 498 — Solar Energy
- EEE 498 — Spycraft: Tradecraft, Technology, & Engineering