College of Applied Science & Technology 113 writing contracts, conducting research, project design and construction, testing and analysis, project documentation, and design review presentations. Prerequisite: Permission from the department. EE 4020 - Senior Project II Credits: (2) Typically taught: Spring [Full Sem] Fall [Full Sem] A continuation of Senior Project I. Students will be required to complete a significant engineering project in a team environment. Project management and problem solving techniques will be emphasized. Topics to include goal setting, developing milestone charts, writing contracts, conducting research, project design and construction, testing and analysis, project documentation, and design review presentations. Prerequisite: EE 4010. EE 4100 - Control Systems Credits: (4) Typically taught: Fall [Full Sem] Topics related to control theory, analysis, and testing of systems in the time domain, frequency domain and state space. Lecture and lab combination. Prerequisite: EE 3120 and EE 3210. EE 4210 - Digital Signal Processing Credits: (3) Typically taught: Summer [Full Sem] Theory, application, and implementation of digital signal processing (DSP) concepts, from the design and implementation perspective. Topics include: Fast Fourier transforms, adaptive filters, state-space algorithms, random signals, and spectral estimation. Prerequisite: EE 3210. EE 4310 - Electromagnetics II Credits: (3) Typically taught: Spring [Full Sem] A study of intermediate electromagnetic issues common to circuits, systems, and communication networks. Prerequisite: EE 3310. EE 4410 - Communication Circuits and Systems Credits: (3) Typically taught: Fall [Full Sem] A study of communication circuits, modulation and decoding theory, spectrum usage, networks, and protocols. Prerequisite: EE 3210 and MATH 3410. EE 4510 - Power Systems Credits: (4) Typically taught: Spring [Full Sem] A study of AC and DC power systems and machines, including single and 3-phase power, power factor and correction, transformers, synchronous and induction machines, DC motors, power transmission lines, and analysis of power flow and faults. Lecture and Lab combination. Prerequisite: EE 2260. Prerequisite/Co requisite: EE 3310. EE 4710 - Real-Time Embedded Systems Credits: (4) Typically taught: Fall [Full Sem] An advanced course on real-time embedded system design. Topics include task concurrency, scheduling paradigms, synchronization, resource access control, and inter-process communication. Lecture and Lab combination. Prerequisite: EE 3710. EE 4800 - Individual Studies Credits: (1-4) The students will receive credit for approved studies in the Electrical Engineering program. A maximum of four credits can count as an elective course in the Electrical Engineering program. EE 4900 - Special Topics Credits: (1-4) A one-time special study course designed to introduce a new relevant topic that is not covered in the Electrical Engineering program. Lecture and lab combination. Laboratory activities support the selected course topic. A maximum of four credits can be counted for Electrical Engineering program. EE 6010 - Design Project Credits: (2-6) Students are required to complete a substantial engineering design project. Students must demonstrate proficiency in research, design, analysis, project planning, implementation, testing, presentation and documentation. Students must be enrolled when defending their project and documentation in a final design review. Prerequisite: Permission from the department. May be repeated up to 6 credit hours. EE 6110 - Digital VLSI Design Credits: (3) Introduction to Digital VLSI design. Includes the development of standard cell library of common CMOS circuits. Use of hardware description language and CAD tools for the design and simulation of custom large-scale digital systems. Students will understand the impacts and tradeoffs from speed, power consumption, and thermal properties of large-scale custom ICs. Prerequisite: EE 3610. EE 6120 - Advanced VLSI Design Credits: (3) Design of stable asynchronous VLSI systems. Course includes design, modeling, synthesis, optimization, and verifcation of asynchronous circuits and large-scale systems. Students will develop custom asynchronous libraries and utilize them for system design utilizing CAD programs. Prerequisite: EE 3610. Weber State University 2015-2016 Catalog