Analog IC Design

Analog IC Design. Instructor: Dr. Nagendra Krishnapura, Department of Electronics and Communication Engineering, IIT Madras. This course deals with design of analog integrated circuits with emphasis on the design of feedback circuits at the transistor level. This course is for first year postgraduate students and final year undergraduate students who have already taken a course on analog circuit design. Topics covered in this course include: negative feedback systems and stability, Op-Amp at the block level, operational amplifiers, components available on an IC, noise in resistors and MOS Transistors, basic amplifier stages, single-ended Op-Amp design, fully differential Op-Amp design, phase locked loop, reference voltage and current generators, low dropout regulators, continuous time filters, and switched capacitor filters. (from

Lecture 33 - Telescopic Cascode Op-Amp

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Lecture 01 - Course Introduction: Negative Feedback Control
Negative Feedback Systems and Stability
Lecture 02 - Negative Feedback Amplifier
Lecture 03 - Step Response, Sinusoidal Steady State Response
Lecture 04 - Loop Gain and Unity Loop Gain Frequency; Op-Amp
Lecture 05 - Op-Amp Realization using Controlled Sources; Delay in the Loop
Lecture 06 - Negative Feedback Amplifier with Ideal Delay - Small Delays
Lecture 07 - Negative Feedback Amplifier with Ideal Delay - Large Delays
Lecture 08 - Negative Feedback Amplifier with Parasitic Poles and Zeros
Lecture 09 - Negative Feedback Amplifier with Parasitic Poles and Zeros; Nyquist Criterion
Lecture 10 - Nyquist Criterion; Phase Margin
Lecture 11 - Phase Margin
Op-Amp at the Block Level; Frequency Compensation
Lecture 12 - Single Stage Op-Amp Realization
Lecture 13 - Two Stage Miller Compensated Op-Amp
Lecture 14 - Two Stage Miller Compensated Op-Amp (cont.)
Lecture 15 - Two and Three Stage Miller Compensated Op-Amps; Feedforward Compensated Op-Amp
Lecture 16 - Feedforward Compensated Op-Amp
Lecture 17 - Feedforward Compensated Op-Amp (cont.)
Lecture 18 - Feedforward Compensated Op-Amp; Typical Op-Amp Datasheet
Operational Amplifiers
Lecture 19 - Op-Amp Offset and CMRR; Transimpedance Amplifier using an Op-Amp
Components available on an IC
Lecture 20 - Components available in a CMOS Process
Lecture 21 - MOS Transistors: Basics
Lecture 22 - MOS Transistors: Parasitic Mismatch
Lecture 23 - MOS Transistors: Mismatch, Speed
Noise in Resistors and MOS Transistors
Lecture 24 - Noise in Resistors
Lecture 25 - Noise in MOS Transistors; Input and Output Referred Noise
Lecture 26 - Noise Scaling; Basic Amplifier Stages - Common Source, Common Gate
Review of Basic Amplifier Stages
Lecture 27 - Basic Amplifier Stages - Common Drain; Frequency Response of Amplifiers
Lecture 28 - Common Source Amplifier Frequency Response; Differential Amplifier
Single-ended Op-Amp Design
Lecture 29 - Differential and Common Mode Half Circuits; Differential Pair with Active Load
Lecture 30 - Differential Pair with Current Mirror Load
Lecture 31 - Single Stage Op-Amp Characteristics
Lecture 32 - Op-Amp with Single and Dual Supplies; Single Stage Op-Amp Tradeoffs
Lecture 33 - Telescopic Cascode Op-Amp
Lecture 34 - Telescopic Cascode Op-Amp; Folded Cascode Op-Amp
Lecture 35 - Folded Cascode Op-Amp
Lecture 36 - Two Stage Op-Amp
Lecture 37 - Two Stage Op-Amp; Three Stage and Triple Cascode Op-Amps
Operation Amplifiers
Lecture 38 - Common Mode Rejection Ratio - Example
Fully Differential Op-Amp Design
Lecture 39 - Fully Differential Circuits
Lecture 40 - Fully Differential Single Stage Op-Amp
Lecture 41 - Common Mode Feedback
Lecture 42 - Fully Differential Single Stage Op-Amp
Lecture 43 - Fully Differential Two Stage Op-Amp; Fully Differential vs Pseudo-Differential Circuits
Lecture 44 - Circuit Simulators and Analyses
Phase Locked Loop
Lecture 45 - Phase Locked Loop as Frequency Multiplier
Lecture 46 - Phase Domain Model
Lecture 47 - Type I PLL Transfer Function and Reference Feedthrough
Lecture 48 - Type II PLL
Lecture 49 - Type II PLL Transfer Function; Implementation
Lecture 50 - Type II PLL - Extra Poles; Random Noise in the PLL
Lecture 51 - Oscillator Phase Noise
Lecture 52 - PLL Phase Noise; LC and Ring Oscillators
Reference Voltage and Current Generators
Lecture 53 - Bias Current Generation
Lecture 54 - Reducing Supply Sensitivity; Bandgap Voltage Reference
Lecture 55 - Fractional Bandgap Reference; Low Dropout Regulators
Low Dropout Regulators
Lecture 56 - Low Dropout Regulators; Continuous Time Active Filters
Continuous Time Filters
Lecture 57 - Continuous Time Active Filters
Lecture 58 - Continuous Time Active Filters (cont.)
Switched Capacitor Filters
Lecture 59 - Discrete Time Active Filters
Circuit Simulators; Summary
Lecture 60 - Transistor Size in Practice; Course Summary