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Course Criteria
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3.00 Credits
Introduction to data structures, object-oriented programming and abstract data types for programmers; data structures: arrays, vectors, lists, stacks, and queues; dynamic memory allocation; problems of efficiency and complexity of algorithms; searching and sorting; standard libraries dedicated to data structures and algorithms. Prerequisite: EE 102 or CS 106 with minimum grade of C.
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3.00 Credits
Time and frequency domain analysis of linear systems. Lumped, distributed, time-varying, and discrete-time systems; network topology, state variable techniques; stability. Prerequisite: EE 206; EE or EEC major.
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3.00 Credits
Sampling theorem, digital filters, probability theory, statistics, random variables, probability density functions, auto- and cross-correlation functions, power spectral density of random processes, analysis of linear time invariant systems with random inputs in time domain and in frequency domain, simulation of random experiments. Prerequisite: EE 301.
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3.00 Credits
Circuit analysis and design of macro-electronic circuits using operational amplifiers, diodes, and logic gates. Design process covering top-down methods and software simulation. Prerequisites: EE 206; EE or EEC major.
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3.00 Credits
Modeling of discrete bipolar and field effect transistors. Circuit analysis and design of macro-electronic circuits using discrete bipolar and field effect transistors. Design process covering top-down methods and software simulation. Prerequisite: EE 303 with minimum grade of C.
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3.00 Credits
Introduction to logic design with focus on the following topics: fundamentals of Boolean algebra and minimization techniques, logic realizations of SOP and POS functions, multiple function synthesis using PLDs, combinational circuit design as it applies to computers, sequential circuit elements, flip flops, counters and shift-registers, clock generation circuits, algorithmic state machine method of designing sequential circuits, and VHDL design and synthesis. Not open to students with credit in EE 101 or EE 201.
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3.00 Credits
Analysis of circuits; transient and steady state phenomena; general analysis techniques. Open to non-electrical engineering students only. Prerequisite: MTH 224.
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3.00 Credits
Electronics; magnetic fields and circuits; magnetic coupling; energy conversion; electromechanics; rotating devices; digital techniques; control systems. Prerequisite: EE 327.
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3.00 Credits
The student performs top-down design and analysis of analog and digital electronic circuits. Integral to the design work is the use of software programs, and software simulation packages are used to verify their design. In addition, students develop hardware and software troubleshooting and testing skills. The design experience culminates in a multi-week task that requires the students to integrate information from EE 205, EE 206, and EE 303 to synthesize a multi-faceted, specification- driven project. Prerequisites: EE 206 with a minimum grade of C; EE or EEC major. Corequisites: EE 303, EE 365.
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2.00 Credits
Junior Laboratory II is a continuation of EE 331. In addition to the usual design efforts, a directed, microcomputer-based, multiweek task challenges the students to use a microcontroller in a project. The students' experience culminates in a multi-week, student-chosen project that showcases their design abilities. Prerequisites: EE 301, EE 303, EE 331, EE 365 each with a minimum grade of C. Corequisites: EE 302, EE 304, EE 381.
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