RF Integrated Circuits
RF Integrated Circuits. Instructor: Dr. Shouribrata Chatterjee, Department of Electrical Engineering, IIT Delhi. This course will develop electronic circuits for radio frequency applications, specific to CMOS integrated circuits. As the course title suggests, the course will be specific to CMOS integrated circuits, and specific to radio frequencies. In particular, the course will focus on circuits for radio front-ends for mobile phone handsets. The course will cover low noise amplifiers, mixers, power amplifiers, frequency synthesizers (and phase locked loops). The course will also cover several modern radio architectures.
(from nptel.ac.in )
Lecture 25 - Multiplier Fundamentals
VIDEO
Go to the Course Home or watch other lectures:
Introduction
Lecture 01 - RF System: Basic Architectures
Lecture 02 - Transmission Media and Reflection
Lecture 03 - Maximum Power Transfer
Passive RLC Networks
Lecture 04 - Parallel RLC Tank, Q (Quality Factor)
Lecture 05 - Matching
Lecture 06 - Other Matching Networks
Passive IC Components
Lecture 07 - Resistors, Capacitors
Lecture 08 - Inductors
Lecture 09 - Inductors and Wires
Lecture 10 - Wires
Lecture 11 - Transmission Lines
Review of MOS Device Physics
Lecture 12 - MOS Device Review
Lecture 13 - MOS Capacitances
High Frequency Amplifier Design
Lecture 14 - Bandwidth Estimation using Open Circuit Time Constants
Lecture 15 - Bandwidth Estimation using Open Circuit Time Constants (cont.)
Lecture 16 - Bandwidth Estimation using Short Circuit Time Constants
Wideband Amplifier Design
Lecture 17 - Bandwidth, Group Delay, and Peaking
Lecture 18 - Shunt Series Amplifier
Lecture 19 - Shunt Series Amplifier (cont.)
Noise
Lecture 20 - Various Noise Sources: Sampled Noise on a Capacitor, Noise in a MOS Device
Lecture 21 - Noise in a MOSFET
Low Noise Amplifier Design
Lecture 22 - Motivation, First Cut Design
Lecture 23 - Motivation, First Cut Design (cont.)
Lecture 24 - LNA Noise: Other Possible LNA Topologies
Mixers
Lecture 25 - Multiplier Fundamentals
Lecture 26 - Mixer Non-Idealities
Lecture 27 - Mixer Non-Idealities (cont.), Oscillator Introduction
Oscillators
Lecture 28 - A Tank Based Oscillators
Lecture 29 - Phase Noise in Oscillators
Lecture 30 - Other Oscillator Topologies
Frequency Synthesis
Lecture 31 - Phase Locked Loop Basics
Lecture 32 - Charge Pump
Lecture 33 - PLL Dynamics: Integer N Frequency Synthesis
Lecture 34 - Spurious Frequencies (cont.), Fractional N Synthesis
Lecture 35 - Fractional Spurs
Lecture 36 - Delta and Sigma Modulation in Fractional Synthesis
RF Power Amplifiers
Lecture 37 - Class A, B, C Power Amplifiers
Lecture 38 - Class B, C, D Power Amplifiers
Lecture 39 - Class C, D, PWM Amplifiers, Linearization
Lecture 40 - Course Summary and Conclusion