The course introduces the fundamentals of the lumped circuit
abstraction. It covers the following topics: Basic circuit analysis method,
Superposition, Thevenin and Norton, The digital abstraction, Inside the digital
gate, Nonlinear analysis, Incremental analysis, Dependent sources and
amplifiers, MOSFET amplifier large signal analysis, Small signal circuits,
Capacitors and first-order systems, Digital circuit speed, State and memory,
Second-order systems, Sinusoidal steady state, The impedance model, Filters, The
operational amplifier abstraction, Operational amplifier circuits, Op-amps
positive feedback, Energy and power, Energy, CMOS, Power conversion circuits and
diodes, Violating the abstraction barrier.
This PDF
book covers the following topics related to Electronic Circuits : Introduction,
Basic Concepts and Test Equipment, Dc Circuits, Ac Circuits, Discrete
Semiconductor Circuits, Analog Integrated Circuits, Digital Integrated Circuits,
555 Timer Circuits.
This note
covers the following topics: Electronic Packaging, Specifications of Discrete
Components, Power Supply Circuits, Understanding Op Amp Specifications, Single
Supply Op Amp Circuits, Interfacing with Sensors, Interfacing with Actuators,
Comparators and Analog-to-Digital Converters, Microprocessors, Communicating
with a Computer, PCB Assembly and Testing.
This note covers the following topics: Diode circuit,
Transistor, Transistor at low frequency, Junction FET and its V-I
characteristics, Classification of amplifier, voltage- series, The basic
operational amplifier, IC-OPAMP, differential DC amplifier, AC amplifier.
Author(s): Veer Surendra Sai University Of
Technology,Burla
This note is focused on analog
electronics with an emphasis on transistor level design of integrated circuits.
Topics 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 covers the
following topics: Diode Models and Circuits, Important Circuit Theorems,
Rectifiers, Bipolar Transistors/Amplifiers, BJT Biasing Circuits, BJT Amplifier
Topologies, MOS Transistors, MOSFET Biasing, MOSFET Small Signal Model, CMOS
Amplifiers, Operational Amplifiers, Frequency Response and Opamps.
The course introduces the fundamentals of the lumped circuit
abstraction. It covers the following topics: Basic circuit analysis method,
Superposition, Thevenin and Norton, The digital abstraction, Inside the digital
gate, Nonlinear analysis, Incremental analysis, Dependent sources and
amplifiers, MOSFET amplifier large signal analysis, Small signal circuits,
Capacitors and first-order systems, Digital circuit speed, State and memory,
Second-order systems, Sinusoidal steady state, The impedance model, Filters, The
operational amplifier abstraction, Operational amplifier circuits, Op-amps
positive feedback, Energy and power, Energy, CMOS, Power conversion circuits and
diodes, Violating the abstraction barrier.