ELE2111 NETWORKTHEORY
HoursperSemester / WeightedTotalMark / Weighted
ExamMark / Weighted Continuous AssessmentMark / Credit
Units
LH / PH / TH / CH / WTM / WEM / WCM / CU
45 / 30 / 00 / 60 / 100 / 60 / 40 / 4
Rationale:
Thecoursehelpsthestudenttounderstandtheprinciplesandmethodsusedtosimplifyelectric networks.
CourseObjectives:
Bytheendofthecoursestudentsshouldbeableto:
•Knowvarioustypesandcomponentsofnetworks
•Applynetworkconceptstobuild,simplifyandanalyseelectricandelectronicsystems.
DetailedCourseContent:
Networkelements,R,L,M,C:[10Hours] Reviewofthevolt‐ampereequationsforthesepassivecircuitelements.BehaviorofCandLatt=0 andt = ∞,Stepandimpulseresponses,Conceptofcoupling,andcouplingco‐efficient.
MatrixMethodsinNetworkAnalysis:Networktopology,planarandhingedgraphs,KVLandKCL¸
Meshandloopformulations,Cut‐sets,coupledCircuits
TwoPortNetworks:[8Hours]
Types of two‐port networks, y, z, h and ABCD parameters,image impedance, insertion loss, attenuationandphaseconstants.
NetworkFunctions:[9Hours] ReviewofLaplacetransforms.Simplefirstandsecondordercircuits,naturalresponses,natural frequencies. PolesandZeroFrequencyresponse,Bodeplots.Generals‐planetopics.Mathematical modelsandblockdiagrams;transientresponsecharacteristics:Second‐ordersystems:steady‐state characteristics:classificationofsystem,errorcriteria:analysisbyroot‐locus:BodeandNyquistplots, constantM‐contours,constant‐contours:Nicholschart
FourierTransformstheFourierIntegral:Convolutionintegral.Solutionofcircuitswithperiodic butnonsinusoidalinputs
NetworkStability:[8Hours] Reliability,stableandunstablenetworkfunction,realisingnetworkfunctions/polynomials, positive realnetworkfunctions.SynthesisofLC,RC,RLandRLCnetworks,Generalisedladdernetwork Stability and design procedures: Stability criteria; type of stability; characteristics frequency response testing; system identification; statistical considerations, time‐domain identification, frequencydomainidentification;design;correlationbetweenroot‐locusandfrequencyresponse. ElectricFilters: [10Hours] Classificationoffilters, passiveandactivefilter,Filtertransfer functionsButterworthandChebyshev filter,attenuationfunction,phasefunction,propagationconstant,Normalizedfilters.Magnitudeand frequencynormalization.Frequencytimefunctions.Denormalizedfilter
ComputerAidedNetworkAnalysisDesign
ModeofDelivery
Thecoursewillbetaughtbyusinglectures,tutorialsandassignments.
Assessment
Assignments,testsandfinalexamination.Theirrelativecontributionstothefinalgradeare:
RequirementPercentagecontribution
Coursework(Assignments,tests)40% Finalexamination60%
Total100% LearningOutcomes
Thecourseparticipantisabletoappreciatenetworkandsignaltheoryandtheirapplicationsto circuitdesign,filterdesignandcommunicationtheory.
MethodofTeaching/Delivery
Thecoursewillbetaughtbyusinglectures,tutorialsandassignments.
ModeofAssessment
Assignments,testsandfinalexamination.Theirrelativecontributionstothefinalgradeare:
RequirementPercentagecontribution
Coursework(Assignments,tests)40% Finalexamination60% Total100%
ReferenceMaterial
[1]AlanV.Oppenheim,AlanS.Willsky,S.NawabNawab,SyedHamidNawab,Signalsand
Systems(2ndEdition),Prentice‐Hall,1997
[2]S.S.SolimonandM.D.Srinath,ContinuousandDiscreteSignalsandSystems(2ndEdition), PrenticeHall,1998.
[3]S.HaykinandB. VanVeen,SignalsandSystems,JohnWielySons,1999
[4]L.Balmer,SignalsandSystems:AnIntroduction(2ndEdition),PrenticeHallEurope,1997
[5]B.P.Lathi,LinearSystemsandSignals,BerkeleyCambridge,1992.
PossibleLecturers:
Dr.E.Lugujjo Dr.M.K.Musaazi Mr.D.Sebbaale