INTENDED AUDIENCE : Students, PhD scholars, teachers, industryPREREQUISITES : A basic course in electrical engineering (KCL, KVL, network theorems, AC analysis)
Basic Electronics
Indian Institute of Technology Bombay and NPTEL via Swayam
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170
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Overview
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The course is about basic electronic circuits, both analog and digital. In the analog part, diode circuits, BJT amplifiers, Op Amp circuits will be covered. In the digital part, combinatorial and sequential circuits will be covered. A unique feature of the course is extensive use of circuit simulation results in order to give a realistic picture of the circuit operation and waveforms. Assignments are designed to help the students to test their understanding of the concepts being covered. A circuit simulation package will be made available (as free download) to enable students to simulate circuits covered in the course and gain further insight in their functioning.
INTENDED AUDIENCE : Students, PhD scholars, teachers, industryPREREQUISITES : A basic course in electrical engineering (KCL, KVL, network theorems, AC analysis)
INTENDED AUDIENCE : Students, PhD scholars, teachers, industryPREREQUISITES : A basic course in electrical engineering (KCL, KVL, network theorems, AC analysis)
Syllabus
COURSE LAYOUT
Week 1 : Lecture 1 : A brief history of electronicsLecture 2 : SuperpositionLecture 3 : Useful circuit techniques-1Lecture 4 : Useful circuit techniques-2Lecture 5 : Phasors-1Lecture 6 : Phasors-2Week 2 : Lecture 7 : RC/RL circuits in time domain-1
Lecture 8 : RC/RL circuits in time domain-2Lecture 9 : RC/RL circuits in time domain-3Lecture 10 : RC/RL circuits in time domain-4Lecture 11 : RC/RL circuits in time domain-5Lecture 12 : Simulation of RC circuit
Week 3 : Lecture 13 : Diode circuits-1Lecture 14 : Diode circuits-2Lecture 15 : Diode circuits-3Lecture 16 : Diode circuits-4Lecture 17 : Diode circuits-5Lecture 18 : Diode circuits-6
Week 4 : Lecture 19 : Diode rectifiers-1Lecture 20 : Diode rectifiers-2Lecture 21 : Diode rectifiers-3Lecture 22 : Bipolar Junction Transistor-1Lecture 23 : Bipolar Junction Transistor-2Lecture 24 : Bipolar Junction Transistor-3
Week 5 : Lecture 25 : BJT amplifier-1Lecture 26 : BJT amplifier-2Lecture 27 : BJT amplifier-3Lecture 28 : BJT amplifier-4Lecture 29 : BJT amplifier-5Lecture 30 : BJT amplifier-6
Week 6 : Lecture 31 : BJT amplifier-7Lecture 32 : Introduction to op-ampsLecture 33 : Op-amp circuits-1Lecture 34 : Op-amp circuits-2Lecture 35 : Op-amp circuits-3Lecture 36 : Difference amplifier
Week 7 : Lecture 37 : Instrumentation amplifier-1Lecture 38 : Instrumentation amplifier-2Lecture 39 : Op-amp nonidealities-1Lecture 40 : Op-amp nonidealities-2Lecture 41 : Bode plots-1Lecture 42 : Bode plots-2
Week 8 : Lecture 43 : Bode plots-3Lecture 44 : Op-amp filtersLecture 45 : Simulation of op-amp filterLecture 46 : Precision rectifiers-1Lecture 47 : Precision rectifiers-2Lecture 48 : Precision rectifiers-3
Week 9 : Lecture 49 : Simulation of triangle-to-sine converterLecture 50 : Schmitt triggers-1Lecture 51 : Schmitt triggers-2Lecture 52 : Schmitt triggers-3Lecture 53 : Sinusoidal oscillators-1Lecture 54 :Sinusoidal oscillators-2
Week 10 : Lecture 55 : Introduction to digital circuitsLecture 56 : Boolean algebraLecture 57 : Karnaugh mapsLecture 58 : Combinatorial circuits-1Lecture 59 : Combinatorial circuits-2Lecture 60 : Combinatorial circuits-3
Week 11 : Lecture 61 : Introduction to sequential circuitsLecture 62 : Latch and flip-flopLecture 63 : JK flip-flopLecture 64 : D flip-flopLecture 65 : Shift registersLecture 66 : Counters-1
Week 12 : Lecture 67 : Counters-2Lecture 68 : Simulation of a synchronous counterLecture 69 : 555 timerLecture 70 : Digital-to-analog conversion-1Lecture 71 : Digital-to-analog conversion-2Lecture 72 : Analog-to-digital conversion
TEACHING ASSISTANT
https://drive.google.com/file/d/1TkYtrAuoj_f6p3giLtVi11B1qK8QWIkg/view?usp=sharing