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Lecture 17 : Analysis of simple non - linear circuit containing a MOSFET (Contd.)
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Analog Electronic Circuits
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- 1 Analog Electronic Circuits
- 2 Lecture 01 : Introduction to the course
- 3 Lecture 02 : Introduction to the constituent topics of the course and the Layout
- 4 Lecture 03 : Revisit to pre-requisite topics
- 5 Lecture 04 : Revisit to Pre- requisite Topics (Contd.)
- 6 Lecture 05 : Analysis of Simple Non-Linear Circuit
- 7 Lecture 06 : Analysis of Simple Non - linear Circuit (Contd.)
- 8 Lecture 07 : Revisiting BJT Characteristic
- 9 Lecture 08: Revisiting BJT Characteristic (Contd.)
- 10 Lecture 09 : Revisiting BJT Characteristic (Contd.)
- 11 Lecture 10 : Revisiting MOSFET
- 12 Lecture 11 : Revisiting MOSFET (Contd.)
- 13 Lecture 12 : Revisiting MOSFET (Contd.)
- 14 Lecture 13 : Revisiting MOSFET (Contd.)
- 15 Lecture 14 : Analysis of simple non - linear circuit containing a BJT
- 16 Lecture 15 : Analysis of simple non - linear circuit containing a BJT (Contd.)
- 17 Lecture 16 : Analysis of simple non - linear circuit containing a MOSFET
- 18 Lecture 17 : Analysis of simple non - linear circuit containing a MOSFET (Contd.)
- 19 Lecture 18 : Linearization of non - linear circuit containing BJT
- 20 Lecture 19 : Linearization of non - linear circuit containing BJT (Contd.)
- 21 Lecture 20 : Linearization of non - linear circuit containing MOSFET
- 22 Lecture 21 : Linearization of non-linear circuit containing MOSFET (Contd.)
- 23 Lecture 22 : Linear models of Amplifiers (Part A)
- 24 Lecture 23 : Linear models of Amplifiers (Part B)
- 25 Lecture 24 : Common Emitter Amplifier (Part A)
- 26 Lecture 25 : Common Emitter Amplifier (Part B)
- 27 Lecture 26 : Common Emitter Amplifier (contd.) (Part A)
- 28 Lecture 27 : Common Emitter Amplifier (contd.) (Part B)
- 29 Lecture 28 : Common Emitter Amplifier (contd.) - Numerical examples (Part A)
- 30 Lecture 29 : Common Emitter Amplifier (contd.) - Numerical examples (Part B)
- 31 Lecture 30 : Common Emitter Amplifier (contd.) - Design guidelines (Part A)
- 32 Lecture 31 : Common Emitter Amplifier (contd.) - Design guidelines (Part B)
- 33 Lecture 32 : Common Source Amplifier (Part A)
- 34 Lecture 33 : Common Source Amplifier (Part B)
- 35 Lecture 34 : Common Source Amplifier (contd.) Numerical examples and design guidelines (Part B)
- 36 Lecture 35 : Frequency Response of CE and CS Amplifiers (Part A)
- 37 Lecture 36 : Frequency Response of CE and CS Amplifiers (Part B)
- 38 Lecture 37 : Frequency Response of CE and CS Amplifiers (Part C)
- 39 Lecture 38 : Frequency Response of CE and CS Amplifiers (Contd.) (Part A)
- 40 Lecture 39 : Frequency Response of CE And CS Amplifiers (Contd.) (Part B)
- 41 Lecture 40 : Frequency Response of CE/CS Amplifiers Considering HF Models of BJT and MOSFET (Part A)
- 42 Lecture 41 : Frequency Response of CE/CS Amplifiers Considering HF Models of BJT and MOSFET (Part B)
- 43 Lecture 42 : Frequency Response of CE/CS Amplifiers Considering HF Models of BJT And MOSFET (Part C)
- 44 Lecture 43 : Limitation of CE and CS Amplifiers in Cascading
- 45 Lecture 44 : Common Collector and Common Drain Amplifiers
- 46 Lecture 45 : Common Collector and Common Drain Amplifiers (Contd.): Analysis (Part A)
- 47 Lecture 46 : Common Collector and Common Drain Amplifiers (Contd.): Analysis (Part B)
- 48 Lecture 47 : Common Collector and Common Drain Amplifiers (Contd.): Numerical Examples (Part A)
- 49 Lecture 48 : Common Collector and Common Drain Amplifiers (Contd.): Numerical Examples (Part B)
- 50 Lecture 49 : Common Base and Common Gate Amplifiers : Analysis (Part A)
- 51 Lecture 50 : Common Base and Common Gate Amplifiers : Analysis (Part B)
- 52 Lecture 51 : Common Base and Common Gate Amplifiers (Contd.) : Numerical Examples (Part A)
- 53 Lecture 52 : Common Base and Common Gate Amplifiers (Contd.) : Numerical Examples (Part B)
- 54 Lecture 53 : Common Base and Common Gate Amplifiers (Contd.) : Numerical Examples (Part C)
- 55 Lecture 54 : Common Base and Common Gate Amplifiers (Contd.) : Numerical Examples (Part D)
- 56 Lecture 55 : Multi-Transistor Amplifiers: Operation and Analysis (Part A)
- 57 Lecture 56 : Multi-Transistor Amplifiers: Operation and Analysis (Part B)
- 58 Lecture 57 : Multi-Transistor Amplifiers : Operation and Analysis (Part C)
- 59 Lecture 58 : Multi-Transistor Amplifiers (Contd.): Numerical Examples (Part A)
- 60 Lecture 59 : Multi-Transistor Amplifiers (Contd.): Numerical Examples (Part B)
- 61 Lecture 60 : Multi-Transistor Amplifiers (Contd.): Numerical Examples (Part C)
- 62 Lecture 61 : Multi-Transistor Amplifiers: Cascode Amplifier (Part A)
- 63 Lecture 62 : Multi-Transistor Amplifiers : Cascode Amplifier (Part B)
- 64 Lecture 63 : Multi-Transistor Amplifiers: Cascode Amplifier (Contd.) – Numerical Examples (Part A)
- 65 Lecture 64 : Multi-Transistor Amplifiers: Cascode Amplifier (Contd.) – Numerical Examples (Part B)
- 66 Lecture 65 : Multi-Transistor Amplifiers: Cascode Amplifier (Contd.) – Numerical Examples (Part C)
- 67 Lecture 66 : Multi-Transistor Amplifiers : Amplifier With Active Load (Part A)
- 68 Lecture 67 : Multi-Transistor Amplifiers : Amplifier With Active Load (Part B)
- 69 Lecture 68 : Multi-Transistor Amplifiers : Amplifier With Active Load (Contd.)
- 70 Lecture 69 :Multi-Transistor Amplifiers : Amplifier With Active Load (Contd.) –Numerical Examples(B)
- 71 Lecture 70 : Single - ended Vs. Differential Signaling and Basic Model of a Differential Amplifier
- 72 Lecture 71 : Single - ended Vs. Differential Signaling and Basic Model of a Differential
- 73 Lecture 72 : Single - ended Vs. Differential Signaling and Basic Model of a Differential
- 74 Lecture 73 : Single - ended Vs. Differential Signaling and Basic Model of a Differential Amplifier
- 75 Lecture 74 : Single - ended Vs. Differential Signaling and Basic Model of a Differential
- 76 Lecture 75 : Differential Amplifier : Basic Structure and Principle of Operation
- 77 Lecture 76 : Differential Amplifier : Basic Structure and Principle of Operation (Contd.)
- 78 Lecture 77 : Differential Amplifier : Analysis and Numerical Examples
- 79 Lecture 78 : Differential Amplifier : Analysis and Numerical Examples (Contd.)
- 80 Lecture 79 : Differential Amplifier : Analysis and Numerical Examples (Contd.)
- 81 Lecture 80 : Differential Amplifier : Analysis and Numerical Examples (Contd.)
- 82 Lecture 81 : CURRENT MIRROR CIRCUITS (PART-A)
- 83 Lecture 82 : CURRENT MIRROR CIRCUITS (PART-B)
- 84 Lecture 83 : Usage of current mirror (Part-A)
- 85 Lecture 84 : Usage of current mirror (Part-B)
- 86 Lecture 85 : Usage of current mirror (Part-C)
- 87 Lecture 86 : Numerical examples on current mirror and its applications (Part-A)
- 88 Lecture 87 : Numerical examples on current mirror and its applications (Part-B)
- 89 Lecture 88 : Numerical examples on current mirror and its applications (Part-C)
- 90 Lecture 89 : Numerical examples on current mirror and its applications (Part-D)
- 91 Lecture 90: Feedback system (Part-A)
- 92 Lecture 91: Feedback system (Part-B)
- 93 Lecture 92: Feedback system (Part-C)
- 94 Lecture 93: Feedback system (Part-D)
- 95 Lecture 94:Feedback system (Part-E)
- 96 Lecture 95:Effect of feedback on frequency response (Part-A)
- 97 Lecture 96: Effect of feedback on frequency response (Part-B)
- 98 Lecture 97: Applications of feedback in amplifier circuits (Part-A)
- 99 Lecture 98: Applications of feedback in amplifier circuits (Part-B)
- 100 Lecture 99: Applications of feedback in amplifier circuits (Part-C)
- 101 Lecture 04
- 102 Lecture 19
- 103 Lecture 52
- 104 Lecture 69
- 105 Lecture 26