Contents - UPRM

COLLEGE OF ENGINEERING Undergraduate Bulletin of Information 2001-2002Voltage, current electrical and mechanical powermeasurements and other parameters related tothe operation of single phase, three phase, anddirect current equipment.ELEG 4102. ELECTRICAL SYSTEMSANALYSIS II. Three credit hours. Three hoursof lecture per week. Prerequisites: ELEG4211and (PHCS 3172 or PHCS 3162) andGEEG 3016. Co-requisite: ELEG 4115 andMATH 4009.Network functions; circuit analysis by Laplacetransforms and Fourier series; two-portnetworks; Butterworth and Chebyshev filters;computer-aided analysis of these systems.ELEG 4103. ELECTRICAL SYSTEMSANALYSIS III. Three credit hours. Threehours of lecture per week. Prerequisites: MATH4009, ELEG 4102 and ELEG 4151.Analysis of magnetic circuits and polyphasebalanced systems; transformers; powertransmission lines; computer-aided analysis oftheir systems.ELEG 4115. ELECTRICALMEASUREMENTS LABORATORY. Onecredit hour. One two-hour laboratory per week.Co-requisite: ELEG 4201 and ELEG 3105.Experiments with electronic components andequipment; measurement techniques.ELEG 4146. IONOSPHERIC RADIO WAVESPROPAGATION. Three credit hours. Threehours of lecture per week. Prerequisite: ELEG4152.Introduction to magnetoionic theory ofionospheric radio wave propagation; physics ofthe ionosphere; the dispersion equation in theionosphere; ray theory; nonlinear processes anddiscussion of some ionospheric experiments.ELEG 4151. ELECTROMAGNETICS I. Threecredit hours. Three hours of lecture per week.Prerequisites: (MATH 3063 or MATH 3185)and (PHCS 3172 or PHCS 3162). Co-requisite:MATH 4009.Static and time-varying electric and magneticfields; dielectric, magnetic and conductingmaterials; capacitance, inductance andconductivity; magnetic circuits; dielectric andmagnetic hysteresis; Maxwell's equations; waveequation.ELEG 4152. ELECTROMAGNETICS II.Three credit hours. Three hours of lecture perweek. Prerequisites: MATH 4009 and ELEG4151.Maxwell equations and the wave equation; planeelectromagnetic waves in dielectric andconducting media; energy flow and the Poyntingvector; wave polarization, reflection, refractionand diffraction. Guided waves; transmissionlines; conductive and dielectric wave guides;Smith chart; impedance matching, cavityresonators; single antenna.ELEG 4201. ELECTRONICS I. Three credithours. Three hours of lecture per week.Prerequisites: ELEG 3105 and (PHCS 3172 orPHCS 3162).Semiconductor device characteristics;semiconductor diodes, bipolar junctiontransistors and field effect transistors; analysis ofbasic digital circuits; analysis and designconsiderations of transistor amplifiers;introduction to integrated circuits.ELEG 4202. ELECTRONICS II. Three credithours. Three hours of lecture per week.Prerequisite: ELEG 4201 and ELEG 4102.Analysis and design of multi-stage amplifiers,wave generation and power circuits; operationalamplifier characteristics and applications.ELEG 4205. LOGIC CIRCUITS. Three credithours. Three hours of lecture per week.Prerequisite: GEEG 3016. Co-requisite: ELEG4201.Boolean algebra, its theorems and postulates.Design of combinational circuits; minimizationand reduction techniques, use of medium or largescale integration (MSI/LSI) in digital circuitdesign; analysis and design of sequential circuits;practical design considerations.ELEG 4206. MICROPROCESSORS. Threecredit hours. Three hours of lecture per week.Prerequisite: ELEG 4205 and ELEG 4201.Architecture, organization and operation ofmicroprocessors and their supporting devices;design of microprocessor-based systems.285