Lecture

Interfaces for Metabolites

Related lectures (33)

Explores CMOS circuits for metabolites detection in fixed-voltage cells, covering operational amplifier features, saturation risks, temperature compensation, and current measurement techniques.

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Covers the design of CMOS operational amplifiers for driving electrochemical cells and discusses the importance of input and output impedance.

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

OTA Design: Small-signal Analysis

Explores OTA and OPAMP design principles, small-signal analysis, and compensation techniques for stability and performance.

Low-power Analog IC Design: Amplifiers

Covers the design of low-power analog integrated circuits, focusing on operational transconductance amplifiers (OTAs) and operational amplifiers (OPAMPs).

Operational Amplifier: Comparator and Differential Amplifier

Explores the operational amplifier as a comparator and differential amplifier with practical applications.

Operational Amplifiers: Basics and Applications

Explores operational amplifiers, covering ideal model, feedback, configurations, differential amplifier, and integrator circuits.

Operational Amplifiers: Basics and Applications

Explores the basics and applications of operational amplifiers, covering ideal models, feedback, configurations, and circuit examples.

CMOS Building Blocks

Explores CMOS building blocks, impedance, operational amplifiers, and noise issues in electrochemical cells.

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