Piezoresistive Sensors: Strain Gauges

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Operational Amplifiers: Imperfections and Limitations

Explores the imperfections and limitations of operational amplifiers, including offset voltage, finite gain, bandwidth restrictions, and slew rate.

Operational Amplifiers: Fundamentals & Circuits

Explores operational amplifiers' fundamentals, circuits, and non-idealities, including feedback paths and basic OPAMP configurations.

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.

Differential Amplifier Basics

Explores the basics of differential amplifiers, covering transfer characteristics, voltage gain calculation methods, and small signal behavior.

Imperfections of Operational Amplifiers: Offset and Amplification Chain

Explores the imperfections of operational amplifiers, focusing on offset voltage, amplification chain, and bandwidth limitations.

Analysis of Circuits with Dependent Sources

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

Feedback and Stability

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

Voltage Follower: Applications and Frequency Response

Explores the voltage follower circuit, its applications, and frequency response in electronic systems.

Feedback and Stability: General Structure and Analysis

Explores the fundamentals of feedback and stability in amplifier design, covering negative feedback advantages, loop gain, and systematic analysis.

Chopper Stabilization Techniques

Explores Chopper Stabilization (CHS) technique in Analog IC Design, focusing on noise reduction and offset minimization.