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Course Criteria
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3.00 Credits
Introduction to the fields of computer, electrical, and optical engineering. Students will become familiar with modern computational and design tools, engineering ethics, and modern library resources tools. Introduction to the fundamentals of voltage, current, power, Boolean algebra, binary arithmetic, logic gates, computer architecture, computer networks, and optics. Lab work provides hands-on experience with electrical, computer, and optical systems. Oral and written presentation of projects are required. Prerequisite: None. Corequiste: EE 100L.
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0.00 - 3.00 Credits
Corequiste: EE 100.
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3.00 Credits
Engineering approaches to design and analysis of digital logic circuits. Boolean algebra, Karnaugh maps, design using MSI and LSI components, algorithmic state and machine design of sequential circuits. Prerequisite: EE 100 and CPE 112. 148
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1.00 - 3.00 Credits
Experiments in applying Boolean logic concepts to digital design. The course introduces students to small-scale prototyping and simulation techniques that are used to implement and evaluate digital combinational and sequential logic designs. Course is normally taken the semester following the successful completion of EE 202. Prerequisite: EE 202
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3.00 Credits
Circuit elements, voltage-current characteristics for circuit elements; independent and dependent sources; Kirchhoff's laws and circuit equations. Source transformations; Thevenin's and Norton's theorems and superposition. Introductionto operational amplifiers. Transient and forced response of RC, RL, and RLC circuits. Introduction to sinusoidal steady-state, phasors, and impedance. Prerequisites: PH 112; Prerequisite or parallel: MA 238, 244 or CHE 224 or MAE 285.
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3.00 Credits
Experimental exercises in use of laboratory instruments. Voltage, current, impedance, frequency, and waveform measurements. Frequency and transient response. Elements of circuit modeling and design. Prerequisite or parallel: EE 213.
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1.00 - 3.00 Credits
Experiments in the measurement of electronic device characteristics. Design of biasing networks, small signal amplifiers and switching circuits. Prerequisites: EE 213, 214. Prerequisite or parallel EE 315.
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3.00 Credits
Basic concepts of electrostatics, electric potential theory, electric fields and currents, fields of moving charge, magnetic fields, time varying electromagnetic fields, Maxwell's equations. Prerequisite: EE 213, MA 238, 244.
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3.00 Credits
Basic physical processes occurring in solids. Schrodinger equation and its applications. Energy bands and charge carriers in semiconductors, excess carriers in semiconductors, introduction to semiconductor junctions, the bipolar junction transistor, the metal-insulator- semiconductor field-effect transistors. Prerequisite: PH 112. Prerequisite or parallel: MA 238.
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3.00 Credits
Continuation of EE 213. Use of phasors and impedance to analyze linear circuits at steady state. AC steady-state power for single and polyphase circuits. Properties and practical uses of resonant circuits, magnetically coupled circuits, and transformers for AC steady state. Introduction to two-port networks and low and high pass filter design. Prerequisite: EE 213.
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