Lecture Plan 1. Contents Mode Queries Remarks. Verbal BB/PPT min min
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1 Lecture Plan 1 Objective:-Review of PN junction Intruduction of P and N junction 1) What is p junction 2) Doping in p junction 3) What is N junction 4) Doping in Njunction 5) PN junction diode. Page 1
2 Lecture Plan 2 Objective:-Overviewof PN junction as an rectifier. Interoduction of rectifier 1)What is rectifier 2) Half wave rectifier 3)RMS and DC and Rippel factor of Half wave. Page 2
3 Objective:-Overview of Full Wave Rectifier. Lecture Plan 3 of Full Wave Rectifier 1)Types of full wave rectifier 2)Center tap Rectifier 3)Weinbridge Rectifier 4)RMS, DC value of voltage and current 5)Rippel Factor Page 3
4 Lecture Plan 4 Objective:-Overview of switching characterstics of PN junction diode and diode as a circuit element. Iteroduction about switching 1)Explain switching characterstics of diode 2) How diode can be used as element Page 4
5 Lecture Plan 5 Objective:-Overview of load line concept and clipping circuit. Interoduction of load line and clipping. 1)AC load line 2)DC load line 3)Serial Clipping 4)Parral clipping 5) Examples of clipping Page 5
6 Lecture Plan 6 Objective:-Overview of filter cicuits and clamping circuit. Interoduction of filter and clamping 1) Filter Interoduction and types of filter 2) Clamping circuit 3) Diode in series clamper 4) Diode in parrlal clamper Page 6
7 Lecture Plan 7 Objective:-Overview of peak to peak detector and voltage multipliers. Interoduction of peak detectors and voltage multipliers 1) Peak to peak detectors 2) Voltage multipliers 3) Different circuit of voltage doubler, trippler and quadruple circuits. Page 7
8 Lecture Plan 8 Objective:-Overview 0f BJT. Interoduction about BJT 1) Construction of BJT 2) Working of BJT 3) Application of BJT 4) VI Characterstics of BJT Page 8
9 Lecture Plan 9 Objective:-Overview of CB,CE and CC Construction. Interoduction of CB,CE and CC configuration 1) Circuit diagram of CB, CE and CC Configuration 2) VI Characterstics of every configuration 3) Current amlification factor 4) Relation between alpha and beeta Page 9
10 Lecture Plan 10 Objective:-Overview of BJT at DC and load line concept. Interoduction about what I will cover in this lecture 1) Circuit diagram of BJT at DC 2) AC load line 3) DC load line 4) Quesent poin concept 5) Numerical problems Page 10
11 Lecture Plan 11 Objective:-Overviewof BJT as an amplifier,switch and biasing of BJT. Interoduction about what I will cover in this lecture 1) Circiut diagram of BJT as an amplifier 2) Working and application of amplifier 3) How BJT work as switch 4) Interduction about biasing of BJT Page 11
12 Lecture Plan 12 Objective:-Overview of different types of biasingand smallsignal model and operation. Interoduction of the above topics 1) Ciruit diagram of fixed bias, emitter bias and voltage devider bias configuration? 2) Small signal model and calculation of different parameter? Page 12
13 Lecture Plan 13 Objective:-Overview of single stage BJT amplifier and internal capactances of BJT. Interoduction of amplifier and internal capacitance. 1) Circuit diagram of single stage amplifier and multistage amplifier. 2) Calculation of gain of these configuration. 3) Parasitic capacentances of amlifier Page 13
14 Lecture Plan 14 Objective:-Overview of high frequency model and frequency response of CE Configuration. Interoduction of high frequency response and high frequency model. 1) High frequency model and calculation of parameters. 2) Frequency response at low frequency. 3) Frequency response at high frequency. Page 14
15 Lecture Plan 15 Objective:-Overview of MOSFET. Interoduction about MOSFET. 1) Construction of MOSFET. 2) Working of MOSFET. 3) VI Characterstics of MOSFET 4) Application of MOSFET. Page 15
16 Lecture Plan 16 Objective:-Overview of Mosfet as an amplifier and switch. Interoduction about amplifier and switch. 1) Circuit diagram of amplifier. 2) Working of amplifier 3) Circuit diagram of MOSFET as switch and its working Page 16
17 Lecture Plan 17 Objective:-Overview of small signal model of MOSFET and biasing of MOSFET. Interoduction of small signal model and biasing. 1) Circuit diagram of small signalmodel 2) Calculation of different parameters 3) Interoduction About Biasing Page 17
18 Lecture Plan 18 Objective:-Overview of Different Biasing and numerical problems. Interoduction of different biasing. 1) Circuit diagram of fixed bias, emitter bias and voltage devider configuration and working of these. 2) Numerical problem on these configuration. Page 18
19 Lecture Plan 19 Objective:-Overview of single stage MOSFET amplifier and internal capactances. Interoduction of MOSFET as an amplifier. 1) Circuit diagram of MOSFET as an amplifier. 2) Working of the circuit. 3) Gain of the circuit. 4) Parasitic capacentances of MOSFET. Page 19
20 Lecture Plan 20 Objective:-Overview of High frequency model and frequency response of CS configuration. Interoduction of high frequency model and frquency response. 1) Circuit diagram of high frequency model 2) Working and parameter of above Model. 3) Frequency response of CS Configuration. Page 20
21 Lecture Plan 21 Objective:-Overview of OP-AMP and concept of inverting and non inverting amplifier. Interoduction of OP-AMP, inverting and noninverting congiguration. 1) Block Diagram of OP- AMP. 2) Circuit of inverting and noninverting configuratiom. 3) Working of above configuration 4) Application of these configuration. Page 21
22 Lecture Plan 22 Objective:-Overview of Differencial configuration and effect of finite open loop gain and bandwidth. Interoduction of above topics. 1) Circuit diagram of diffrential amplifier and its working. 2) Calculation of open loop gain annd its effect. 3) Calculation of bandwidth its effect Page 22
23 Lecture Plan 23 Objective:-Overview of large signal operation of OP-AMP. Interoduction of large signal operation. 1) Different operation of OP-AMP like adder, subtractor, integrator, differenciator etc. and explanation of that. 2) Circuit diagram and working of these? Page 23
24 Lecture Plan 24 Objective:-Overview of feedback and properties of negative feedback. of fedback and elobrate properties of feedback 1) Concept of feedback 2) Positive feedbak 3) Negative feedback 4) Comparison of positive and negative feedback 5) Advantage of negative feedback Page 24
25 Lecture Plan 25 Objective:-Overview of different types of feedback. of different types of feedback. 1) Block diagram of series shunt feedback. 2) Calculation of open loop gain and feedback gain. 3) Effect of gain on input resistance, output resistance and bandwidth etc. Page 25
26 Lecture Plan 26 Objective:-Overview of series-series feedback. of series series feedback. 1) Block diagram of series series feedback. 2) Calculation of open loop gain and feedback gain. 3) Effect of gain on input resistance, output resistance and bandwith. Page 26
27 Lecture Plan 27 Objective:-Overview of shunt-shunt and shunt- series feedback. Interoduction of shuntshunt and shunt-series feedback 1) Block diagram and circuit diagram of shunt-shunt and shuntseries feedback. 2) Working of these block diagram and circuit diagram. 3) Application of these confi guration. Page 27
28 Lecture Plan 28 Objective:-Overview of differential amplifier and MOS diffrential pair. of differential amplifier and MOS diffrential pair. 1) Block diagram and circuit diagram of differential amplifier and MOS diffrential pair. 2) Working of above circuits. 3) Numerical Problem. Page 28
29 Lecture Plan 29 Objective:-Overview of small signal operation of MOS differential pair. of small signal operation of MOS differential pair. 1) Block diagram and circuit diagram of small signal operation of MOS differential pair. 2) Working of above circuit. 3) Utility of these. Page 29
30 Lecture Plan 30 Objective:-Overview of BJT differential pair. of BJT differential pair. 1) Block diagram and circuit diagram of BJT Differntial pair. 2) Working of above circuit diagram. 3) Utility of this. Page 30
31 Lecture Plan 31 Objective:-Overview of non ideal characterstics of differential amplifier. of non-ideal characterstics. 1) Concept of non-ideal differentia amplifier. 2) How the graph will be plotted. 3) Analysis of graph. Page 31
32 Lecture Plan 32 Objective:-Overview of differential amplifier with active load. of active load. 1) Block diagram and circuit diagram of differential amplifier with active load. 2) Working of the above circuit. 3) Utility of this. Page 32
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