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Course Criteria
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3.00 Credits
Sinusoidal excitation and phasors. AC steady-state circuit analysis using phasors. Complex frequency, network functions, pole-zero analysis, frequency response, and resonance. Two-port networks, transformers, mutual inductance, AC steady-state power, RMS values, introduction to three-phase systems and Fourier series. Design-oriented experiments include counters, finite state machines, sequential logic design, impedances in AC steady-state, resonant circuits, two-port networks, and filters. A final project incorporating concepts from analog and digital circuit design will be required. Prerequisites: ECE 211 with a grade C or better. 4. 000 Credit Hours 3. 000 Lecture hours 3. 000 Lab hours Levels: Undergraduate Schedule Types: Lecture/Lab, Lab, Lecture Armour College of Engineering College Electrical & Computer Engrg Department
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1.00 Credits
Design-oriented experiments including counters, finite state machines, sequential logic design, impedances in AC steady-state, resonant circuits, two-port networks, and filters. A final project incorporating concepts from analog and digital circuit design will be required. 1. 000 Credit Hours 3. 000 Lab hours Levels: Undergraduate Schedule Types: Lab Armour College of Engineering College Electrical & Computer Engrg Department Course Attributes: Communications Requirement, Lab Safety Instruction
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3.00 Credits
Ohm's Law, Kirchoff's Laws, and network element voltage-current relations. Application of mesh and nodal analysis to circuits. Dependent sources, operational amplifier circuits, superposition, Thevenin's and Norton's Theorems, maximum power transfer theorem. Transient circuit analysis for RC, RL, and RLC circuits. Introduction Laplace Transforms. Note: ECE 215 is for non-ECE majors. 3. 000 Credit Hours 3. 000 Lecture hours 0. 000 Lab hours Levels: Undergraduate Schedule Types: Lecture Armour College of Engineering College Electrical & Computer Engrg Department
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3.00 Credits
Sinusoidal excitation and phasors. AC steady-state circuit analysis using phasors. Complex frequency, network functions, pole-zero analysis, frequency response, and resonance. Two-port networks, transformers, mutual inductance, AC steady-state power, RMS values, introduction to three-phase systems and Fourier series. Note: ECE 216 is for non-ECE majors. 3. 000 Credit Hours 3. 000 Lecture hours 0. 000 Lab hours Levels: Non Credit, Undergraduate Schedule Types: Lecture Armour College of Engineering College Electrical & Computer Engrg Department
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3.00 Credits
Number systems and conversions, binary codes, and Boolean algebra. Switching devices, discrete and integrated digital circuits, analysis and design of combinational logic circuits. Karnaugh maps and minimization techniques. Counters and registers. Analysis and design of synchronous sequential circuits. Concurrent registration in ECE 211 and ECE 212 is strongly encouraged. 3. 000 Credit Hours 3. 000 Lecture hours Levels: Undergraduate Schedule Types: Lecture Armour College of Engineering College Electrical & Computer Engrg Department
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3.00 Credits
Basic concepts in computer architecture, organization, and programming, including: integer and floating point number representations, memory organization, computer processor operation (the fetch/execute cycle), and computer instruction sets. Programming in machine language and assembly language with an emphasis on practical problems. Brief survey of different computer architectures. 3. 000 Credit Hours 3. 000 Lecture hours Levels: Undergraduate Schedule Types: Lecture Armour College of Engineering College Electrical & Computer Engrg Department
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4.00 Credits
Analysis of circuits using distributed network elements. Response of transmission lines to transient signals. AC steady-state analysis of lossless and lossy lines. The Smith Chart as an analysis and design tool. Impedance matching methods. Vector analysis applied to static and time-varying electric and magnetic fields. Coulomb's Law, electric field intensity, flux density and Gauss's Law. Energy and potential. Biot-Savart and Ampere's Law. Maxwell's equations with applications including uniform-plane wave propagation. 4. 000 Credit Hours 4. 000 Lecture hours Levels: Undergraduate Schedule Types: Lecture Armour College of Engineering College Electrical & Computer Engrg Department
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3.00 Credits
Time and frequency domain representation of continuous and discrete time signals. Introduction to sampling and sampling theorem. Time and frequency domain analysis of continuous and discrete linear systems. Fourier series convolution, transfer functions. Fourier transforms, Laplace transforms, and Z-transforms. 3. 000 Credit Hours 3. 000 Lecture hours Levels: Undergraduate Schedule Types: Lecture Armour College of Engineering College Electrical & Computer Engrg Department
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4.00 Credits
Physics of semiconductor devices. Diode operation and circuit applications. Regulated power supplies. Bipolar and field-effect transistor operating principles. Biasing techniques and stabilization. Linear equivalent circuit analysis of bipolar and field-effect transistor amplifiers. Laboratory experiments reinforce concepts. 4. 000 Credit Hours 3. 000 Lecture hours 3. 000 Lab hours Levels: Undergraduate Schedule Types: Lecture/Lab, Lab, Lecture Armour College of Engineering College Electrical & Computer Engrg Department Course Attributes: Communications Requirement, Lab Safety Instruction
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4.00 Credits
Analysis and design of amplifier circuits. Frequency response of transistor amplifiers. Feedback amplifiers. Operational amplifiers: internal structure, characteristics, and applications. Stability and compensation. Laboratory experiments reinforce concepts. 4. 000 Credit Hours 3. 000 Lecture hours 3. 000 Lab hours Levels: Undergraduate Schedule Types: Lecture/Lab, Lab, Lecture Armour College of Engineering College Electrical & Computer Engrg Department Course Attributes: Communications Requirement, Lab Safety Instruction
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