2004-2005 Academic Catalog

97 Engineering School of Engineering, Nursing, and Science EGCP-4950 1-3 hours AdvancedTopics inComputer Engineering Selected topics in computer engineering at the 4000-level that expand the depth of existing 3000- and 4000-level courses or expose the students to advanced concepts not taught in other courses. Topics may be proposed by the engineering faculty or students. Prerequisite: instructor’s permission. Electrical Engineering Courses EGEE-2010Circuits –Sp 5 hours Introduction to basic circuit analysis using Ohm’s law, Kirchoff’s laws, independent and dependent sources, Thévenin and Norton equivalency and source transformations, transient responses in RC, RL, and RLC circuits, phasor analysis of RLC circuits, power in AC circuits, introduction to 3-phase circuits, mutual inductance, frequency response, Transforms, Laplace circuit analysis, Fourier Series, and introduction to transfer functions. Computer simulations and bread-board circuits are constructed and evaluated in the laboratory. Four lecture hours and one two-hour laboratory per week. Design project required. Prerequisites: PHYS-2120 General Physics II; MATH-2740 Differential Equations. (Fee: $100) EGEE-2050Circuitsand Instrumentation –Sp 4 hours Introduction to basic circuit analysis using Ohm’s law, Kirchoff’s laws, independent and dependent sources, Thévenin and Norton equivalency and source transformations, transient responses in RC, RL, and RLC circuits, operational amplifiers, and introduction to polyphase AC circuits. Circuit applications for transducers such as resistance strain gages, piezoelectric load cells, piezoelectric accelerometers, and thermocouples are emphasized along with measurement uncertainty analysis and statistical methods. Circuits are designed, simulated, constructed and tested in the laboratory. Three lecture hours and one two-hour laboratory per week. Prerequisites: PHYS- 2120 General Physics II; MATH-2740 Differential Equations. (Fee: $100) EGEE-3110 Linear Systems –Fa 3 hours Introduction to linear time-invariant analysis of continuous and discrete-time systems, using both time and frequency domain methods that include convolution, Fourier Series, Fourier, Laplace, and Z transforms; classical and computer solution methods are utilized. Prerequisite: EGEE-2010 Circuits . EGEE-3150AnalogFilters –Sp 3 hours Introduction to theory, design, and how to implement passive and active analog filters; basic filter structures, passive network synthesis, operational amplifier limitations, multiple-amplifier filters, and filter realization methods. Prerequisite: EGEE-3110 Linear Systems . (odd years) EGEE-3210Electronics I –Fa 3 hours Introduction to the analysis of semiconductor electronic device theory and application, diodes, bipolar-junction transistors (BJTs), field-effect transistors (FETs), and the non-ideal characteristics of operational amplifiers. Two lecture hours and one two-hour lab or recitation period per week. Prerequisite: EGEE-2010 Circuits. (Fee: $100) EGEE-3220Electronics II –Sp 5 hours Continuation of EGEE-3210 Electronics I to include differential amplifiers, frequency response of amplifier circuits, multi-stage amplifiers, power amplifiers, feedback circuits, power supplies, filters, digital logic families, and oscillators. Four lecture hours and one two-hour lab per week. Prerequisite: EGEE-3210 Electronics I. (Fee: $100) EGEE-3310Electromagnetics –Fa 3 hours Engineering applications of vector calculus, phasors and Maxwell’s equations to electrostatic, magnetostatic and time varying fields, transmission lines, Smith Chart, propagation of uniform plane waves, and single-stub matching. Laboratory exercises introduce field-plotting, transmission line concepts using wave guides, single stub-tuning, introduction to the network analyzer, polarization, and radiation fields. Two lecture hours and one two-hour laboratory or recitation period per week. Prerequisites: MATH-2710 Calculus III; EGEE-2010 Circuits. (Fee: $100) EGEE-3330CommunicationsTheory –Sp 4 hours Introduction to analog and digital communications theory. Probability and random processes are developed to facilitate noise analysis in modulation techniques. Three lecture hours and one two-hour laboratory per week; design project required. Prerequisite: EGEE-3110 Linear Systems. (Fee: $100) EGEE-3370 3 hours Probability and Random Processes for Engineers –Sp Introduction to sample points, sample spaces, probability, random variables, random vectors, statistical averages, linear transformations, random processes, linear system response to stochastic input, spectral analysis with application of the central- limit theorem, and Gaussian processes to engineering problems. May be used to satisfy the mathematics elective requirement for electrical engineers. Prerequisite: EGEE-3330 Communications Theory. EGEE-3510 Power Electronics –Sp 3 hours Introduction to the fundamentals of power electronics, characteristics and application of semiconductor switches, motor control, device applications, and power processing design. Design project required. Prerequisite: EGEE-3210 Electronics I. (Fee: $50) (odd years) EGEE-3530Electrical Machines –Fa 3 hours Introduction to the fundamentals of power circuits and the principles of analysis and characteristics of transformers and AC and DC rotating machines. Two lecture hours and one two- hour laboratory per week. Prerequisite: EGEE-2010 Circuits; or EGEE-2050 Circuits and Instrumentation. (Fee: $100) In the championship 300-meter sprint pitting the three fastest boats, Brian Morgan (BSME ’04) steers the Cedarville Boat past Cal Poly (foreground) in the final 50 meters to cinch first place in the 2004 Solar Splash Sprint. When combined with 3 rd place in solar endurance, 2 nd place in solar slalom and 3 rd place in the technical report, Cedarville was named the 2004 World Champions! The team also received the Outstanding System Design Trophy. Details of the competition are posted at www.solarsplash.com .