This lecture
note explains the following topics: International System of Units, Negative and
Positive Polarities of battery, Potential difference, Resistance in Series,
Inductance, Capacitance, Types of sources : Ideal voltage source - Ideal current
source, Current divider with two parallel resistances, Kirchhoff's Laws
Kirchhoff's Current Law, Application of Nodal Analysis, Applications of Loop
Analysis, Applications of Loop Analysis, Matrices and determinants,
Superposition Theorem, Source Transformation and examples, Thevenin's Theorem
and examples, Small Signal Model and its applications, Norton's Theorem with
examples, PN Junction Diode, Terminal characteristics of the Junction diodes,
Small Signal Model and its applications, Filters, Bipolar Junction Transistor (BJT)
and Emitter.
This lecture note explains the following topics: DC Circuits, Ac Circuits, 3 Phase AC
Circuits, Transient Response Analysis, Resonance and Coupled Circuits.
Author(s): Sathyabama Institute of Science and
Technology
This online book covers the following
topics related to Circuit Theory : Introduction, Circuit Basics, Transistors,
Circuit Analysis, Steady State Response, Circuit Analysis Tips and Tricks,
Transient Response, State Variables, Filters, Control, Power.
This note introduces the
fundamentals of the lumped circuit abstraction. Topics covered includes:
resistive elements and networks; independent and dependent sources, switches and
MOS transistors, digital abstraction, amplifiers, energy storage elements;
dynamics of first- and second-order networks, design in the time and frequency
domains; and analog and digital circuits and applications.
This lecture
note explains the following topics: International System of Units, Negative and
Positive Polarities of battery, Potential difference, Resistance in Series,
Inductance, Capacitance, Types of sources : Ideal voltage source - Ideal current
source, Current divider with two parallel resistances, Kirchhoff's Laws
Kirchhoff's Current Law, Application of Nodal Analysis, Applications of Loop
Analysis, Applications of Loop Analysis, Matrices and determinants,
Superposition Theorem, Source Transformation and examples, Thevenin's Theorem
and examples, Small Signal Model and its applications, Norton's Theorem with
examples, PN Junction Diode, Terminal characteristics of the Junction diodes,
Small Signal Model and its applications, Filters, Bipolar Junction Transistor (BJT)
and Emitter.
This
book explains the following topics: electric circuits, integrated circuit
devices and technology, CMOS digital integrated circuits, Node-Voltage
Circuit Analysis Method, Resistors in series, Diode Analysis and applications,
The Capacitor, The Inductor, Synthesis of logic circuits, Modern IC Fabrication
Technology.
The note provides
an introduction to electronics with a focus on measurement and signals. The
prerequisites are courses in differential equations, as well as electricity and
magnetism. Topics covered includes: Signals and Systems, Sampling and Aliasing,
KVL and KCL Analysis, Superposition Method, Norton Equivalent Circuits,
Dependent Sources, Capacitors and Inductors, Sinusoidal Steady State with
Impedance Method, Transient Response of Circuits, Design and Build a Heart Rate
Monitor.
Author(s): Prof.
David Cory, Prof. Ian Hutchinson and Prof. Manos Chaniotakis