Electronics ─ Circuits, Amplifiers And Gates

Introduced more than a decade ago, the first edition of D.V. Bugg's Electronics: Circuits, Amplifiers and Gates became widely popular for its comprehensive yet concise coverage of all the major introductory topics in electronics. Today, semiconductor chips and integrated circuits are used universally. This second edition was revised and streamlined to focus on the basic principles required to apply this extensive technology.Electronics: Circuits, Amplifiers and Gates, Second Edition offers a complete introduction to the fundamentals of AC and DC circuits along with complex numbers, bandwidth, and operational amplifiers. It includes a description of the working principles of transistors, outlining doping and the operation of the diode, bipolar transistor, and field effect transistor. The book also features a section on digital logic and concludes with more advanced chapters describing resonance and transients and their relation through Fourier analysis.Updated to reflect advances in the field over the past decade, Electronics: Circuits, Amplifiers and Gates, Second Edition is fully illustrated throughout with numerous worked examples and sample problems.

VOLTAGE, CURRENT AND RESISTANCEBasic NotionsWaveformsOhm's LawDiodesKirchhoff's LawsNode VoltagesEARTHSSuperpositionSummaryTHEVENIN AND NORTONThevenin's TheoremHow to Measure VEQ and REQCurrent SourcesNorton's TheoremGeneral Remarks on Thevenin's Theorem and Norton'sMatchingAmplifiersSystemsSummaryCAPACITANCECharge and CapacitanceEnergy Stored in a CapacitorThe Effect of a DielectricCapacitors in ParallelCapacitors in SeriesThe CR TransientAC Coupling and Baseline ShiftStray CapacitanceIntegration and DifferentiationThevenin's Theorem AgainSummaryALTERNATING CURRENT (AC): BANDWIDTHIntroductionPower in a Resistor: RMS QuantitiesPhase RelationsResponse of a Capacitor to ACSimple Filter CircuitsPower FactorAmplifiersBandwidthNoise and BandwidthSummaryINDUCTANCEFaraday's LawSelf-inductanceLR TransientEnergy Stored in an InductorStray InductanceResponse of an Inductor to Alternating CurrentPhasorsSummaryCOMPLEX NUMBERS: IMPEDANCEComplex NumbersAC Voltages and CurrentsInductanceSummary on ImpedanceImpedances in SeriesImpedances in ParallelPowerBridgesOPERATIONAL AMPLIFIERS AND NEGATIVE FEEDBACKIntroductionSeries Voltage FeedbackApproximations in Voltage FeedbackShunt FeedbackThe Analogue AdderThe Differential AmplifierGain-Bandwidth ProductOffset Voltage and Bias CurrentComplex Feedback LoopsImpedance TransformationInput and Output Impedances with FeedbackStabilised Current SuppliesInput Impedance with Shunt FeedbackOscillationINTEGRATION AND DIFFERENTIATIONIntegrationThe Miller EffectCompensationDifferentiationThe Charge Sensitive AmplifierTHE DIODE AND THE BIPOLAR TRANSISTORConductorsSemiconductors and DopingThe pn Junction DiodeThe Diode as a SwitchThe npn Bipolar TransistorSimple Transistor CircuitsVoltage AmplificationBiasingTHE FIELD EFFECT TRANSISTOR (FET)Gate ActionSimple FET AmplifiersMOSFETsFabrication of Transistors and Integrated CircuitsCMOSEQUIVALENT CIRCUITS FOR DIODES AND TRANSISTORSIntroduction: The DiodeAn Equivalent Circuit for the Bipolar TransistorThe Hybrid-p Equivalent CircuitThe FETThe Common Emitter AmplifierPerformance of the Common Emitter AmplifierEmitter FollowerFETsGATESIntroductionLogic Combinations of A and BBoolean AlgebraDe Morgan's TheoremsThe Full AdderThe Karnaugh MapDon't Care or Can't Happen ConditionsProducts of Karnaugh MapsProducts of SumsUse of NOR and NAND GatesDecoders and EncodersMultiplexingSEQUENTIAL LOGICThe RS Flip-FlopClocksThe JK Flip-FlopA Scale-of-4 CounterState DiagramsTrapping Sequences: Pattern RecognitionThe MonostableThe Pulse GeneratorRESONANCE AND RINGINGIntroductionResonance in a Series LCR CircuitTransient in a CL CircuitTransient in the Series LCR CircuitParallel LCRPoles and ZerosFOURIER'S THEOREMIntroductionA Square Wave Applied to a CR FilterHow to Find Fourier CoefficientsThe Heterodyne PrincipleBroadcastingFrequency Modulation (FM)Frequency MultiplexingTime Division MultiplexingFourier Series Using Complex ExponentialsFourier TransformsResponse to an impulseFourier Analysis of a Damped OscillatorThe Perfect FilterTRANSFORMERS AND 3-PHASE SUPPLIESIntroductionEnergy Stored in a TransformerCircuit Equations and Equivalent CircuitsThree Phase SystemsBalanced LoadsAPPENDIX A: THEVENIN'S THEOREMAPPENDIX B: EXPONENTIALSINDEX