Lectures in course MICRO-211: Analog circuits and systems

Analog Circuits and Systems: The Laplace Transform

Covers the basics and applications of the Laplace transform in analyzing linear analog circuits.

OPAMP Circuits: Analysis and Design

Covers the analysis and design of operational amplifier circuits, including filters and amplifier configurations.

Feedback Amplifiers: Stability Analysis

Covers stability analysis of feedback amplifiers and Butterworth and Chebyshev filter design.

Laplace Transforms: Circuit Analysis

Explores Laplace transforms in circuit analysis, emphasizing pole-zero diagrams and s-domain concepts.

Filters Fundamentals: Chebyshev Polynomials and Filter Design

Covers Chebyshev polynomials, all-pole filter design, RLC filters, and active-RC and OTA-C filter implementations.

High-order Filters: LC Ladder Filters

Explores the design and simulation of high-order LC ladder filters using active-RC circuits and impedance normalization techniques.

S-Domain Circuit Analysis: Part 2

Delves into s-domain circuit analysis, covering theorems, analysis methods, and stability concepts.

Network Functions: Analysis and Design

Explores network functions in s-domain circuit analysis, covering stability, poles, responses, and design.

RC Oscillator Circuits: Phase-Shift Oscillator

Explores RC oscillator circuits, focusing on the Phase-Shift oscillator and astable multivibrators, including function generators and timers.

Rectifiers and Amplifiers

Explores rectifiers, amplifiers, peak detectors, and sample-and-hold circuits in analog systems.

Frequency Response: Network Functions

Explores network functions, frequency-response descriptors, Bode diagrams, and RLC circuit frequency responses.

Filters Fundamentals: LP-to-HP Transformation

Covers LP-to-HP and LP-to-BP transformations, design considerations, and impedance changes in passive LC filters.

Frequency Response of RLC Circuits

Explores the frequency response of RLC circuits, Bode diagrams, OPAMP history, and modern engineering applications.

Analysis of Circuits with Dependent Sources

Explores the analysis of circuits with dependent sources, node-voltage analysis, Thévenin equivalent circuits, and OPAMP fundamentals.

OPAMP Non-idealities: Analysis & Applications

Explores the impact of non-idealities in operational amplifiers on amplifier circuits, including frequency-dependent gain and limitations like slew-rate and settling time.

Feedback and Stability

Explores negative feedback in analog circuits, focusing on desensitizing gain, reducing distortion, controlling noise, and extending bandwidth.

Analog Circuits: Core Network Functions and Dependent Sources

Explores core network functions, inverting amplifiers, s-domain analysis, and circuits with dependent sources.