This note covers the following topics: Ideal Op. Amp, Feedback, Real Operational Amplifier, DC Error, Differential
Stage of Real OpAmp, DC Errors, Input Impedances, CMRR, SPICE, Compensation,
External Compensation, SPICE, Slew Rate, Noise, Zin, Zout, Instrumentation
Amplifier, Precision Rectifier, Comparator, Multivibrator and Multiple amplifier
circuits.
This note covers PN Junctions and Bipolar Junction Transistors, Field
Effect Transistors and Transistors Amplifier, Feedback and Oscillator Circuits
and Operational Amplifiers, Number Systems and Boolean Algebra and analysis and
design of Combinational Logic.
Author(s): Sathyabama Institute of Science and
Technology
This note explains the following
topics: Initial Lecture on System Design, Circuit Concepts for System Design,
ADC Architectures, Current DACs, Comparitors, Algorithmic ADC, pipeline ADCs,
Comparitors, Filter Topologies, Ladder Filters.
This note is
focused on analog electronics with an emphasis on transistor level design of
integrated circuits. Topics to be covered includes transistor amplifiers,
integrated circuit biasing techniques, output stage design and IC amplifier
building blocks, frequency response of amplifiers, stability and compensation
techniques for amplifiers using negative feedback.
This
note explains the following topics: Incremental analysis of a nonlinear
circuit, Incremental 2-port analysis, MOSFET transconductance, Swing limits of
CSA, MOSFET output impedance, Bias Stabilization, Source feedback, Negative
feedback, Drain-source feedback, MOSFET-based VCCS, CCCS and CCVS, CMOS
inverter, Differential amplifier, Single-stage Opamp, Frequency response of CS
Amplifier, Phase and gain margin of feedback systems, Dominant pole compensation
in two-stage opamps, The Bipolar Junction Transistor.
This
note explains the following topics: Miller Theorem and BJT CE Amplifiers,
Feedback Amplifiers, Common Base, Common Collector, Two Ports, Cascaded
amplifiers, Active filters and Bode Plots.
Introductory experimental laboratory explores the design,
construction, and debugging of analog electronic circuits. It investigates the
performance characteristics of semiconductor devices and functional analog
building blocks, including single stage amplifiers, op amps, small audio
amplifier, filters, switch mode power supplies, sensor circuits and medical
electronics .
This note
explains the following topics: Resistors and simple network analysis, Full
network analysis, Complex impedance, Filters, Diodes, Operational amplifiers,
Useful circuits with Op-Amps, Computer Assisted Design, Feedback, Comparators,
Non ideality of OpAmps, Transistors and digital electronics.
This note covers the following topics:
Voltage dividers, Thevenin theorem, linear devices, AC circuits and
calculations, complex impedance, Frequency domain calculations, transistor
circuits, Differential amplifiers, Op-amps, radio modulation and detection,
AM, phase, and FM, phase locked loops.
This note explains the Fundamentals of analog elecronics. This course
note is structured on a scenario of designing and constructing a HF radio
transceiver. It covers the following topics: Signals And Communications, Circuit
Theory Primer, Audio Circuits, Tuned Circuits, Filters, Diodes in
Telecommunications and Frequency Conversion.
This note covers the following
topics: Models for Integrated-Circuit Active Devices, Bipolar, MOS, and BiCMOS IC
Technology, Single-Transistor and Multiple-Transistor Amplifiers, Transistor
Current Sources and Active Loads, Common source stage, Common emitter stage, Source follower, Emitter follower, Common source stage,
Push-Pull MOS, Push-Pull BJT, Compensation of Op Amps, Simple CMOS Op Amps, CMOS
analog IC circuit analysis, Op amps with cascoding in the first stage and Op
amps with cascoding in the second stage.