| Obtaining Power Gain - Need for Nonlinearity |
| Lecture 01 - Course Introduction |
| Lecture 02 - Obtaining Power Gain |
| Lecture 03 - Obtaining Power Gain using a Linear Two Port |
| Lecture 04 - One Port (Two Terminal) Nonlinear Element |
| Lecture 05 - Nonlinear Circuit Analysis |
| Lecture 06 - Small Signal Incremental Analysis - Graphic View |
| Lecture 07 - Small Signal Incremental Analysis |
| Lecture 08 - Incremental Equivalent Circuit |
| Lecture 09 - Large Signal Characteristics of a Diode |
| Lecture 10 - Analysis of Diode Circuits |
| Lecture 11 - Small Signal Model of a Diode |
| Lecture 12 - Two Port Nonlinearity |
| Lecture 13 - Small Signal Equivalent of a Two Port Network |
| Lecture 14 - Small Signal Equivalent Circuit of a Two Port Network |
| MOS Transistor; Common Source Amplifier |
| Lecture 15 - Gain of a Two Port Network |
| Lecture 16 - Constraints on Small Signal Parameters to Maximize the Gain |
| Lecture 17 - Constraints on Large Signal Characteristics to Maximize the Gain |
| Lecture 18 - Implications of Constraints in terms of the Circuit Equivalent |
| Lecture 19 - MOS Transistor - Description |
| Lecture 20 - MOS Transistor Large Signal Characteristics |
| Lecture 21 - MOS Transistor Large Signal Characteristics - Graphical View |
| Lecture 22 - MOS Transistor Small Signal Characteristics |
| Lecture 23 - Linear (Triode) Region of the MOS Transistor |
| Lecture 24 - Small Signal Amplifier using the MOS Transistor |
| Lecture 25 - Basic Amplifier Structure |
| Lecture 26 - Problems with the Basic Amplifier Structure |
| Lecture 27 - Adding Bias and Signal - AC Coupling |
| Lecture 28 - Common Source Amplifier with Biasing |
| Lecture 29 - Common Source Amplifier: Small Signal Equivalent Circuit |
| Lecture 30 - Common Source Amplifier Analysis: Effect of Biasing Components |
| Lecture 31 - Constraint on the Input Coupling Capacitor |
| Lecture 32 - Constraint on the Output Coupling Capacitor |
| MOS Output Conductance; Biasing a Transistor at a Constant Current; Drain Feedback Bias |
| Lecture 33 - Dependence of Id on Vds |
| Lecture 34 - Small Signal Output Conductance of a MOS Transistor |
| Lecture 35 - Effect of gds on a Common Source Amplifier, Inherent Gain Limit of a Transistor |
| Lecture 36 - Variation of gm with Transistor Parameters |
| Lecture 37 - Variation of gm with Constant Vgs and Constant Drain Current Bias |
| Lecture 38 - Negative Feedback Control for Constant Drain Current Bias |
| Lecture 39 - Types of Feedback for Constant Drain Current Bias |
| Lecture 40 - Sense at the Drain and Feedback to the Gate-Drain Feedback |
| Lecture 41 - Intuitive Explanation of Low Sensitivity with Drain Feedback |
| Lecture 42 - Common Source Amplifier with Drain Feedback Bias |
| Lecture 43 - Constraint on the Gate Bias Resistor |
| Lecture 44 - Constraint on the Input Coupling Capacitor |
| Lecture 45 - Constraint on the Output Coupling Capacitor |
| Lecture 46 - Input and Output Resistances of Common Source Amplifier with Constant VGS Bias |
| Current Mirror Bias; Source Feedback Bias; Common Source Amplifiers |
| Lecture 47 - Current Mirror |
| Lecture 48 - Common Source Amplifier with Current Mirror Bias |
| Lecture 49 - Constraint on Coupling Capacitors and Bias Resistance |
| Lecture 50 - Diode Connected Transistor |
| Lecture 51 - Source Feedback Biasing |
| Lecture 52 - Common Source Amplifier with Source Feedback Bias |
| Lecture 53 - Constraints on Capacitor Values |
| Lecture 54 - Sensing at the Drain and Feeding Back to the Source |
| Lecture 55 - Sensing at the Source and Feeding Back to the Gate |
| Lecture 56 - Ensuring that Transistor is in Saturation |
| Lecture 57 - Using a Resistor instead of Current Source for Biasing |
| Lecture 58 - Quick Tour of Amplifying Devices |
| Controlled Sources using a MOS Transistor |
| Lecture 59 - Controlled Sources using a MOS Transistor - Introduction |
| Lecture 60 - Voltage Controlled Voltage Source |
| Lecture 61 - VCVS using a MOS Transistor |
| Lecture 62 - VCVS using a MOS Transistor - Small Signal Picture |
| Lecture 63 - VCVS using a MOS Transistor - Complete Circuit |
| Lecture 64 - Source Follower: Effect of Output Conductance; Constraints on Coupling Capacitors |
| Lecture 65 - Voltage Controlled Current Source using a MOS Transistor |
| Lecture 66 - VCCS using a MOS Transistor: Small Signal Picture |
| Lecture 67 - VCCS using a MOS Transistor: Complete Circuit |
| Lecture 68 - VCCS using a MOS Transistor: AC Coupling the Output |
| Lecture 69 - Source Degenerated CS Amplifier |
| Lecture 70 - Current Controlled Current Source using a MOS Transistor |
| Lecture 71 - CCCS using a MOS Transistor: Small Signal Picture |
| Lecture 72 - CCCS using a MOS Transistor: Complete Circuit |
| Controlled Sources; Negative Feedback and Virtual Short |
| Lecture 73 - Current Controlled Voltage Source using a MOS Transistor |
| Lecture 74 - CCVS using a MOS Transistor: Gain |
| Lecture 75 - CCVS using a MOS Transistor: Input and Output Resistances |
| Lecture 76 - CCVS using a MOS Transistor: Complete Circuit |
| Lecture 77 - Voltage Controlled Voltage Source using an Op-Amp |
| Lecture 78 - Current Controlled Voltage Source using an Op-Amp |
| Lecture 79 - Negative Feedback and Virtual Short in an Op-Amp |
| Lecture 80 - Negative Feedback and Virtual Short in a Transistor |
| Lecture 81 - Constraints on Controlled Sources using Op-Amps and Transistors |
| Lecture 82 - Summary of Basic Amplifiers |
| Lecture 83 - Signal Swing Limits in Amplifiers |
| Lecture 84 - Swing Limit due to Transistor Entering Triode Region |
| Lecture 85 - Swing Limit due to Transistor Entering Cutoff Region |
| Lecture 86 - Swing Limit Calculation Example |
| Lecture 87 - Swing Limits - More Calculations |
| pMOS Transistor |
| Lecture 88 - pMOS Transistor |
| Lecture 89 - Small Signal Model of the pMOS Transistor |
| Lecture 90 - Common Source Amplifier using the pMOS Transistor |
| Lecture 91 - Swing Limits of the pMOS Common Source Amplifier |
| Lecture 92 - Biasing a pMOS Transistor at a Constant Current; pMOS Current Mirror |
| Lecture 93 - Converting nMOS Transistor Circuits to pMOS |
| Lecture 94 - Bias Current Generation |
| Lecture 95 - Examples of More Than One Transistor in Feedback |