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Ingénierie Informatique (Academic Year 2018/2019) - Ingegneria Informatica

Basic circuit theory


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Materiale relativo all'intero insegnamento
n. 32.1 -
All About Circuits forum   (A.Y. 2012/2013)
electric circuits

Leçon n.1: Circuit Variables
Definitions
n. 1.1 -
Static electricity   (A.Y. 2009/2010)
electric circuits
The Concept of Electric Charge
n. 1.2 -
Conductors, insulators, and electron flow   (A.Y. 2009/2010)
electric circuits
The Voltage and the Current
n. 1.3 -
Voltage and current   (A.Y. 2009/2010)
electric circuits
n. 1.4 -
Electric circuits   (A.Y. 2012/2013)
electric circuits
Leçon n.2: Circuit Analysis
The Purpose of Circuit Analysis
n. 2.1 -
Voltage and current in a practical circuit   (A.Y. 2012/2013)
electric circuits
n. 2.2 -
Conventional versus electron flow   (A.Y. 2012/2013)
electric circuits
Resistance
n. 2.3 -
Resistance   (A.Y. 2009/2010)
electric circuits
Ohm’s Law
n. 2.4 -
An analogy for Ohm's Law   (A.Y. 2012/2013)
electric circuits
n. 2.5 -
How voltage, current, and resistance relate   (A.Y. 2012/2013)
electric circuits
Energy Dissipated
n. 2.6 -
Power in electric circuits   (A.Y. 2009/2010)
electric circuits
n. 2.7 -
Calculating electric power   (A.Y. 2009/2010)
electric circuits
Conductance
n. 2.8 -
Conductance   (A.Y. 2012/2013)
electric circuits
Leçon n.3: Kirchhoff s Current and Voltage Laws
Kirchhoff’s Current Law
n. 3.1 -
Kirchhoff's Current Law (KCL)   (A.Y. 2009/2010)
electric circuits
Kirchhoff’s Voltage Law
n. 3.2 -
Kirchhoff's Voltage Law (KVL)   (A.Y. 2009/2010)
electric circuits
Series Connection
n. 3.3 -
What are "series" and "parallel" circuits?   (A.Y. 2009/2010)
electric circuits
n. 3.4 -
Simple series circuits   (A.Y. 2009/2010)
electric circuits
Parallel Connection
n. 3.5 -
Simple parallel circuits   (A.Y. 2009/2010)
electric circuits
n. 3.6 -
Parallels using conductances   (A.Y. 2009/2010)
n. 3.7 -
Power calculations   (A.Y. 2009/2010)
electric circuits
n. 3.8 -
What is a series-parallel circuit   (A.Y. 2009/2010)
n. 3.9 -
Analysis technique   (A.Y. 2009/2010)
n. 3.10 -
Re-drawing complex schematics   (A.Y. 2009/2010)
Leçon n.4: Resistive Circuits
Illustrative Examples
n. 4.1 -
Building simple resistor circuits   (A.Y. 2012/2013)
electric circuits
n. 4.2 -
Voltage divider circuits   (A.Y. 2009/2010)
electric circuits
n. 4.3 -
Current divider circuits   (A.Y. 2009/2010)
electric circuits
Measuring Instruments
n. 4.4 -
What is a meter   (A.Y. 2009/2010)
n. 4.5 -
Voltmeter design   (A.Y. 2009/2010)
n. 4.6 -
Voltmeter impact on measured circuit   (A.Y. 2009/2010)
n. 4.7 -
Ammeter design   (A.Y. 2009/2010)
n. 4.8 -
Ammeter impact on measured circuit   (A.Y. 2009/2010)
n. 4.9 -
Ohmmeter design   (A.Y. 2009/2010)
Physical Resistor
n. 4.10 -
Resistors   (A.Y. 2009/2010)
electric circuits
Leçon n.5: Simultaneous Equations
Terminology
n. 5.1 -
What is network analysis   (A.Y. 2009/2010)
n. 5.2 -
Branch current method   (A.Y. 2009/2010)
Leçon n.6: Node-Voltage Tecnique
Node - Voltage Equations
n. 6.1 -
Node voltage method   (A.Y. 2009/2010)
Leçon n.7: Node-Voltage Method
Leçon n.8: Mesh Current Analysis
Mesh-Current Analysis
n. 8.1 -
Mesh current method   (A.Y. 2009/2010)
Y and DELTA Networks
n. 8.2 -
D-Y and Y-D conversions   (A.Y. 2009/2010)
Leçon n.9: Source Transformation Theorem
Leçon n.10: Thevenin s and Norton s Theorems
Thevenin’s Theorem
n. 10.1 -
Thevenin's Theorem   (A.Y. 2009/2010)
Norton Equivalent
n. 10.2 -
Norton's Theorem   (A.Y. 2009/2010)
Leçon n.11: Thevenin Equivalent and Maximum Power Transfer
Finding Thevenin Equivalent
n. 11.1 -
Thevenin-Norton equivalencies   (A.Y. 2009/2010)
Maximum Power Transfer
n. 11.2 -
Maximum Power Transfer Theorem   (A.Y. 2009/2010)
Leçon n.12: Millman s and Superposition Theorems
Millman’s Theorem
n. 12.1 -
Millman's Theorem   (A.Y. 2009/2010)
n. 12.2 -
Millman's Theorem revisited   (A.Y. 2009/2010)
Superposition Theorem
n. 12.3 -
Superposition Theorem   (A.Y. 2009/2010)
Leçon n.13: Indipendence of Equations
Leçon n.14: Link Current Method
Leçon n.15: Energy Storage Elements
Capacitors
n. 15.1 -
Electric fields and capacitance   (A.Y. 2009/2010)
n. 15.2 -
Capacitors and calculus   (A.Y. 2009/2010)
n. 15.3 -
Factors affecting capacitance   (A.Y. 2009/2010)
n. 15.4 -
Series and parallel capacitors   (A.Y. 2009/2010)
n. 15.5 -
Practical considerations about capacitors   (A.Y. 2009/2010)
Inductors
n. 15.6 -
Magnetic fields and inductance   (A.Y. 2009/2010)
n. 15.7 -
Inductors and calculus   (A.Y. 2009/2010)
n. 15.8 -
Factors affecting inductance   (A.Y. 2009/2010)
n. 15.9 -
Series and parallel inductors   (A.Y. 2009/2010)
n. 15.10 -
Practical considerations about inductors   (A.Y. 2009/2010)
Leçon n.16: Transient Analysis
Introduction To Transient Analysis
n. 16.1 -
Electrical transients   (A.Y. 2009/2010)
The Natural Response of an RL Circuit
n. 16.2 -
Inductor transient response   (A.Y. 2009/2010)
n. 16.3 -
Voltage and current calculations   (A.Y. 2009/2010)
Leçon n.17: Natural and Step Responses of RL and RC Circuits
The Natural Response of RC Circuits
n. 17.1 -
Capacitor transient response   (A.Y. 2009/2010)
Leçon n.18: The Step Responses of RC Circuits
General Solution for Step and Natural Responses
n. 18.1 -
Complex voltage and current calculations   (A.Y. 2009/2010)
n. 18.2 -
Complex circuits   (A.Y. 2009/2010)
n. 18.3 -
Solving for unknown time   (A.Y. 2009/2010)
Leçon n.19: Sinusoidal Source and Sinusoidal Response
Leçon n.20: The Phasor and V-I Relationships for Circuit Elements
Leçon n.21: Techniques of Circuit Analysis
Leçon n.22: Techniques of Circuit Analysis - part II
Leçon n.23: Sinusoidal Steady-State Power Calculation
Leçon n.24: Complex Power
Leçon n.25: Maximum Power Transfer
Leçon n.26: Basic concepts of circuit theory
Leçon n.27: Circuits' properties
Leçon n.28: N-Ports
Leçon n.29: Power in circuits
Leçon n.30: Resonance
Leçon n.31: Transients

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