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Course Criteria
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3.00 Credits
Overview of the fields of electrical engineering and computer engineering. Various sub-fields within EE and CoE are explored, with emphasis on how they are interrelated. Issues relevant to careers in EE and CoE (e.g., typical tasks done by EEs and CoEs) are explored. Prerequisite: sophomore standing in EE or CoE program. fall, 1 cr.
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3.00 Credits
Provides an introduction to continuous-time and discrete-time signals and linear systems. Topics covered include time-domain descriptions (differential and difference equations, convolution) and frequency-domain descriptions (Fourier series and transforms, transfer function, frequency response, Z transforms and Laplace transforms). Prerequisites: EECE 260 and MATH 371. fall, 4 cr.
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3.00 Credits
Introduction to electronics, concentrating on the fundamental devices (diode, transistor, operational amplifier, logic gate) and their basic applications; modeling techniques; elementary circuit design based on devices. Laboratory exercises. Prerequisites: EECE 260 and EECE 251. fall, 4 cr.
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3.00 Credits
Fundamentals of electromagnetic fields, Maxwell?s Equations, plane waves, reflections. Application to transmission lines, antennas, propagation, electromagnetic interference, electronics packaging, wireless communication. Prerequisites: EECE 301 and MATH 323. spring, 4 cr.
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3.00 Credits
Basic theory of semiconductors, p-n junctions, bipolar junction transistors, junction and MOS field effect devices; device design and modeling, fabrication. Prerequisite: PHYS 132. Corequisite: EECE 315. fall, 3 cr.
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3.00 Credits
Synchronous sequential circuit design. Algorithmic state machine method; state reduction; control-datapath circuit partitioning. Design of sequential arithmetic circuits. Memory interfacing; bus-based design. Specification and synthesis of digital systems using hardware description language and implementation using programmable logic devices. Simulation, analysis, testing and verification of digital systems. Laboratory exercises. Prerequisite: EECE 252. fall, 4 cr.
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3.00 Credits
Computer architecture, pipelined architecture, RISC machines and instruction sets. Static and dynamic scheduling of instructions. Instruction-level parallelism, advanced pipelining, superscalar and super-pipelined processors. Virtual memory organization, memory hierarchies, input-output and cache memory. Compiler issues. Prerequisite: EECE 351. spring, 3 cr.
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3.00 Credits
Introduction to analysis, design and modeling of control systems. Fourier and Laplace transforms, frequency response, transfer functions and transient analysis. Systems block diagrams and signal-flow graphs. Concepts of stability. Numerical simulation and design of simple control systems. Introduction of discrete-time control. Prerequisite: EECE 301. spring, 3 cr.
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3.00 Credits
Fundamentals of communications systems. Modulation and demodulation methods. Characteristics of modern analog and digital communications methods. Prerequisites: EECE 301 and ISE 261. spring, 3 cr.
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3.00 Credits
Provides an overview of the professional aspects of the fields of electrical engineering and computer engineering. Topics to be covered include: typical career paths in EECE, engineering ethics, resume writing and job search techniques, preparing for graduate school, professional engineer license, etc. Prerequisite: junior standing in EE or CoE program. spring, 1 cr.
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