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Course Information
Course Name
Turkish
Elektroniğin Temelleri
English
Fundamentals of Electronics
Course Code
EEE 262E
Credit
Lecture
(hour/week)
Recitation
(hour/week)
Laboratory
(hour/week)
Semester
-
4
4
-
-
Course Language
English
Course Coordinator
Sheıda Farajı
Course Objectives
togivethefollowingabilitiestothestudents:
1) Conductionmechanisminsolidmaterials,
2) Transistormodelsandbiasing,
3) Calculationmethodologiesofthegain,input,andoutputresistancesofBJTandMOSFETamplifiers
4) Discussionandanalysisofbasicanalogamplifierstages
Course Description
FundamentalsofElectronicscoursecoversstructureandoperatingprinciplesofelectroniccomponents.
Firstpartof thecoursefocusesonFundamentalsof solid-statephysics,propertiesof semiconductor
materials,currentcarriers,driftanddiffusionmechanisms.Secondpartofthecoursefocusesonthe
diode. Structureof thepn-junctiondiode, diodemodelsused incircuit analysis, diodecircuitsand
differentdiodetypesarecovered.Thirdpartofthelecturefocusesontransistors.Differenttransistor
types,theirbehavior,secondaryeffects,andtransistorcircuitsarecovered.Amplificationandthegain
concept,amplifiertypesandcircuitmodels,conceptualfunctionofthetransistorinamplificationwillbe
discussed.DCandthermalsensitivityanalysisoftransistor(BJT,MOSFET)circuitswillbeshown.Small
signalequivalentsofBJTandMOSFETaswellastheACanalysisofBJTandMOSFETamplifierswillbe
conducted.Gainandinput/outputresistanceofbasicamplifierstageswillbefoundandtheanalysisof
cascade(direct/capacitively-coupled)amplifiersisdone.Thecascodestructure,Darlingtonstructure,the
differential amplifiers, differential andcommon-modegains, commonmode rejection ratiowill be
explained. Current sources, active-loaded circuits, effect of non-idealities on thebehaviorwill be
discussed.Finally,thelinearandnonlinearapplicationsofidealandnon-idealoperationalamplifierswill
beconsidered.
Course Outcomes
Students who pass the course will be able to:
I. Analyze conduction problems in solid materials.
II. Analyze diode circuits using diode models.
III. Analyze electronics circuits using BJT models and BJT DC biasing.
IV. Analyze electronics circuits using MOS models and MOSFET DC biasing.
V. Derive the small-signal model for BJTs and MOSFETs from their physical fundamentals.
VI. Understand how to realize the biasing of BJT and MOSFET amplifiers
VII. Learn how to perform small-signal analysis on BJT and MOSFET amplifiers thereby
calculating the gain, input, and output resistances.
VIII. Grasp different configurations of BJTs and MOSFETs (e.g. cascode) built to perform a
specific task (current source, current mirror, etc.)
IX. Understand the biasing and small-signal analysis of differential amplifiers
X. Learn the nonidealities and their consequences in differential amplifiers
XI. Investigate the properties and the applications of operational amplifiers
Pre-requisite(s)
Required Facilities
Other
Textbook
1. A.S. Sedra, K.C. Smith, "Microelectronic Circuits", 7th edition, Oxford
University Press, 2015.
2. B. Razavi, “Microelectronics”, 2nd edition, Wiley, 2015
3. Mehmet Sait Türköz, “Elektronik”, Birsen Yayınevi, 2009.
Other References
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