What are you going to learn?
Content
Analyze and design multistage amplifiers with feedback. Understand and use the concepts of stability in designing feedback amplifiers. Analyze and design discrete and integrated oscillators. Analyze and design active filters using feedback techniques
Chapter 1. Integrated Circuit (IC) Amplifiers
Introduction
The Basic Cell Gain
Common Gate/Base Amplifier as Current Buffers
Cascade Amplifier
IC Source Follower
Current Mirror Circuits
Chapter 2. Differential and Multistage Amplifiers
Introduction
Common Mode Rejection
DC Offset
The Differential Amplifier with a Current Mirror Load
Multistage Amplifiers
Chapter 3. Frequency Response
Introduction
High Frequency Transistors Models
CS and CE Amplifiers
Common Gate and Cascade Amplifiers
Source and Emitter Followers
Low Frequency of Discrete CS and CE Amplifiers
Chapter 4. Principles of Feedback
Introduction
Feedback Structure
Negative Feedback Properties
Feedback Voltage Amplifier
Systematic Analysis of Feedback Voltage Amplifiers
Other Feedback Amplifiers Method
Stability
Amplifiers Poles
Bodie Plots Analysis
Frequency Compensation
Chapter 5. Output Stages and Power Amplifiers
Introduction
Class A
Class B
ClasAB
Biasing Class AB Circuit
CMOS Output Stages
Power Transistors
Chapter 6. Operational Amplifier Circuits
Introduction
The Two Stages CMOS Op Amp
The Folded Cascade CMOS Op Amp
BJT Op Amp Techniques
Chapter 7. Filters
Introduction
The Filter Transfer Function
Butterworth and Chebyshev Filters
Second Order Passive Filters Based on the LCR Resonator
Second Order Active Filters Based on Inductance Simulation
Second Order Active Filters Based on the Two Integrator Loop
Second Order Active Filters Using a Single Op Amp
Swotched Capacitors Filters
Chapter 8. Oscillators
Introduction
Sinusoidal Oscillator Principles
Op Amp RC Oscillator Circuits
LC and Crystal Oscillators
Nonlinear Oscillators or Function Generators
Bibliography
Sedra, A. S.,and K. Smith. Microelectronics Circuits. 8th ed.Oxford University Press, New York and Oxford, 2020.
Boylestad, R. R.,and L. Nashelsky. Electronics Devices and Circuit Theory. 11th ed. Pearson.
Floyd, T. L., and D. M. Buchla. Analog Fundamentals A System Approach. Pearson, 2013.
