Lecture 1 - Wireless communication overview
Lecture 2 - Frequency Translation
Lecture 3 - Basic wireless transceiver
Lecture 4 - Channel selection - digital domain
Lecture 5 - Channel selection - analog domain
Lecture 6 - Image rejection
Lecture 7 - Basics of direct conversion receiver
Lecture 8 - Transmission Line Modeling
Lecture 9 - Input Impedance, Reflection Coefficient, and VSWR
Lecture 10 - Why 50 Ohm Matching?
Lecture 11 - Matching Networks Basics
Lecture 12 - Series - Parallel Impedance Transformation, L - Match
Lecture 13 - Cascaded L - Type Matching, π (Pi) Matching, T Matching
Lecture 14 - Understanding and Deriving S-Parameters
Lecture 15 - Introduction to the Smith Chart and How to Plot on It
Lecture 16 - Noise
Lecture 17 - Nonlinearity: Gain Compression
Lecture 18 - Nonlinearity: Intermodulation
Lecture 19 - On-Chip Inductor Design - Part 1
Lecture 20 - On-Chip Inductor Design - Part 2
Lecture 21 - On-Chip Capacitors and Resistors: Types and Design
Lecture 22 - MOSFET Noise Fundamentals and Analysis
Lecture 23 - LNA Architectures: Common-Source Amplifier
Lecture 24 - LNA Architectures: CSA with Shunt-Feedback, and Common-Gate
Lecture 25 - LNA Design: Common-Source with Inductive Degeneration
Lecture 26 - How to design a mixer?
Lecture 27 - Noise in the single balanced mixer
Lecture 28 - Effect of parasitics and Feed-through paths and their effects
Lecture 29 - Feeding LNA output to the mixer and architecture of passive current mode mixer
Lecture 30 - How to calculate noise figure of the mixer?
Lecture 31 - Quadrature mixer for image rejection and Double Balanced Quadrature passive mixer
Lecture 32 - Channel-Selection
Lecture 33 - Variable Gain Amplifier: Linearity and Trade-Offs
Lecture 34 - N-Path Filters: Part 1 - Architecture
Lecture 35 - N-Path Filters: Part 2 - Operation
Lecture 36 - Noise-Cancelling LNA
Lecture 37 - Transmitter Design: Introduction
Lecture 38 - Transmitter Design: Complex modulation
Lecture 39 - Transmitter Design: Upconversion mixer
Lecture 40 - Class A amplifier
Lecture 41 - Class B amplifier
Lecture 42 - Comparison of Amplifier Classes
Lecture 43 - Significance of Linearity in Power Amplifier
Lecture 44 - Maximizing Output Power in Power Amplifiers
Lecture 45 - Driver Amplifier : Introduction
Lecture 46 - Driver Amplifier : Design
Lecture 47 - Driver Amplifier : Stability
Lecture 48 - Power Mixer
Lecture 49 - RF-DAC : Part 1
Lecture 50 - RF-DAC : Part 2
Lecture 51 - Digital PA : Introduction
Lecture 52 - Digital PA : Architecture and Digital Control
Lecture 53 - Out-Phasing
Lecture 54 - Oscillators : Basics
Lecture 55 - Cross-Coupled LC Oscillator
Lecture 56 - Amplitude Optimization in Cross-Coupled LC Oscillators
Lecture 57 - Cross-Coupled LC Oscillator: Feedback Perspective
Lecture 58 - Negative Resistance Using a Single Transistor
Lecture 59 - Single Transistor Oscillator
Lecture 60 - Phase noise
Lecture 61 - Impact of Phase Noise on Receiver
Lecture 62 - Impact of Phase Noise on Transmitter
Lecture 63 - Phase Noise Analysis of LC Oscillators
Lecture 64 - Leeson’s Equation and the Role of Q in Phase Noise
Lecture 65 - LTI vs LPTV Modeling of LC Oscillators with ISF Insight
Lecture 66 - Introduction to Voltage-Controlled Oscillators and Tunable Inductance
Lecture 67 - Tunable Capacitors in VCOs
Lecture 68 - LC VCO with Varactors and Capacitor Bank Tuning
Lecture 69 - Phase Noise in LC Cross-Coupled VCO
Lecture 70 - Complete LO Generation in RF Systems
Lecture 71 - VCO Case Study Part 1 - Phase-Noise Targets for IEEE 80211g
Lecture 72 - VCO Case Study Part 2 - Design and Simulation in 45nm CMOS Process
Lecture 73 - Rx Case Study Part 1 - Noise Figure and Linearity Targets for IEEE 80211g
Lecture 74 - Rx Case Study Part 2 - LNA Design and Simulation in 45nm CMOS Process
Lecture 75 - Tx Case Study Part 1 - Output Power and Compression Targets for IEEE 80211g
Lecture 76 - PA Case Study Part 2 - PA Design and Simulation in 45nm CMOS Process
