Positive Displacement Pump Basics
A. Definitions and Terms
Density
Density is the mass of a substance per unit volume. Generally, we express density in units of pounds per
cubic inch.
Specific Gravity
Specific gravity is used to compare the density of a p
Lecture 19
In this lecture, We introduce the concept of transfer functions Solve three examples demonstrating how to find transfer functions. This includes electronic circuits also We introduce the concept of poles and zeroes Solve several examples showin
Lecture 16 Parallel Resonant Circuit with Non-ideal Circuit Elements
The following items are covered: Conversion of a practical tank circuit, with coil resistance, to an equivalent parallel resonant circuit with ideal elements Derivation of the expression
Lecture 13 General Rules for Writing Circuit State Equations
This lecture contains the following material Concepts of graph, tree, cut-set, etc. in circuit analysis Concept on fundamental loop and fundamental cut-set General rules for writing state equati
Lecture 10
State Equations and Computer aided circuit Analysis
This lecture will cover the following topics. Introduction to the zero-input circuit. Definition of state variables. The matrix state equation. After finishing this lecture, you should be able
Lecture 11 This lecture covers the following topics 1) Introduction to the non zero-input circuit. 2) Derivation of the state matrix equation for circuits with nonzero inputs. 3) State equation analysis for nonzero input circuits After finishing this lect
EE 205 Dr. Chokri. Belhaj Ahmed
Electric Circuits II
Balanced Three Phase Circuits
Lecture # 09
Measuring Average Power in Balanced Three Phase Circuits
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EE 205 Dr. Chokri. Belhaj Ahmed
Summer of chapter 8 of the text book :
The Characteristic equation
EE 205 Dr. Chokri. Belhaj Ahmed
Electric Circuits II
Balanced Three Phase Circuits
Lecture # 02
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EE 205 Dr. Chokri. Belhaj Ahmed
Objective of this lecture is as follows: o Three-phase Voltage source connections. o The single phase equivalent circuit o
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Electric Circuits II
THE NATURAL AND STEP RESPONSE OF A SERIES RLC CIRCUITS
Lecture #6
1
2
The material to be covered in this lecture is as follows: o The Natural response of a series RLC circuit o The step response of a series RLC circuit o Analysis of
EE 205 Dr. Chokri. Belhaj Ahmed
Electric Circuits II
Balanced Three Phase Circuits
Lecture # 03
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EE 205 Dr. Chokri. Belhaj Ahmed
Objective of this lecture is as follows: Transformation from Delta to Why. Transformation from Why to Delta. The single-pha
EE 205 Dr. Chokri. Belhaj Ahmed
Electric Circuits II
Balanced Three Phase Circuits
Lecture # 05
Measuring Average Power in Balanced Three Phase Circuits
-1-
EE 205 Dr. Chokri. Belhaj Ahmed
The material to be covered in this lecture is as follows: Introduc
EE 205 Dr. Chokri. Belhaj Ahmed
Electric Circuits II
Balanced Three Phase Circuits
Lecture # 04
Power Calculation in Balanced Three Phase Circuits
-1-
EE 205 Dr. Chokri. Belhaj Ahmed
The material to be covered in this lecture is as follows: Average power
1
Electric Circuits II
Natural Response of a Parallel RLC Circuit
Lecture #4
1
2
The material to be covered in this lecture is as follows:
o Introduction to the natural response of a parallel RLC circuit o The general solutions of the second order differe
Lecture 18 Parallel Resonant Circuit with Non-ideal Circuit Elements
The following items are covered: Conversion of a practical tank circuit, with coil resistance, to an equivalent parallel resonant circuit with ideal elements Derivation of the expression
Lecture 17 The following topics are covered in this lecture A damped sinusoid Special cases of damped sinusoid Example with damped sinusoidal input Comparison with sinusoidal excitation RLC circuit representation for damped sinusoidal excitation
A Damped
EE 205 Dr. A. Zidouri
E Circuits II e l ctric
Two-Port Circuits Interconnected Two-Port Circuits Lecture #32
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EE 205 Dr. A. Zidouri
The material to be covered in this lecture is as follows: o o o o Terminated Two-Port circuit Terminal Behavior The Six
EE 205 Dr. A. Zidouri
E Circuits II e lric c t
Two-Port Circuits Two-Port Parameters Lecture #30
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EE 205 Dr. A. Zidouri
The material to be covered in this lecture is as follows: o o o o Introduction to two-port circuits The Terminal Equations The Two-P
EE 205 Dr. A. Zidouri
E Circuits II e l ctric
Two-Port Circuits Hybrid and Transmission Parameters Lecture #31
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EE 205 Dr. A. Zidouri The material to be covered in this lecture is as follows: o o o o The Two-Port Hybrid parameters The Two-Port Transmis
EE 205 Dr. A. Zidouri
Electric Circuits II The Ideal Transformer Lecture #24
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EE 205 Dr. A. Zidouri The material to be covered in this lecture is as follows: o o o o The Ideal Transformer Determining the Voltage and Current Ratios Rules For Assigning P
EE 205 Dr. A. Zidouri
Electric Circuits II Frequency Selective Circuits (Filters) Low and High Pass Filters Lecture #27
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EE 205 Dr. A. Zidouri The material to be covered in this lecture is as follows: o o o o o Series RC Circuit as a Low Pass filter Re
EE 205 Dr. A. Zidouri
Electric Circuits II Frequency Selective Circuits (Filters) Bandstop Filters Lecture #29
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EE 205 Dr. A. Zidouri The material to be covered in this lecture is as follows: o o o o Introduction to Bandstop filters Center Frequency, B
EE 205 Dr. A. Zidouri
Electric Circuits II Frequency Selective Circuits (Filters) Bandpass Filters Lecture #28
-1-
EE 205 Dr. A. Zidouri The material to be covered in this lecture is as follows: o o o o Introduction to Bandpass filters Center Frequency, B
EE 205 Dr. A. Zidouri
Electric Circuits II Frequency Selective Circuits (Filters) Low Pass Filter Lecture #26
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EE 205 Dr. A. Zidouri The material to be covered in this lecture is as follows: o o o o Introduction to the Low Pass filter The Series RL Cir
EE 205 Dr. A. Zidouri
Electric Circuits II More about Mutual Inductance Lecture #22
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EE 205 Dr. A. Zidouri The material to be covered in this lecture is as follows: o o o o Mutual Inductance in Terms of Self Inductance Mesh Current Analysis of magnetic
Lecture 20 In this lecture the following material is covered: We explore the complex frequency (s) plane Natural response of a circuit is obtained from pole location Examples are worked to find the complete response (forced and natural) through complex fr
EE 205 Dr. A. Zidouri
Electric Circuits II Mutual Inductance Lecture #21
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EE 205 Dr. A. Zidouri
The material to be covered in this lecture is as follows: o o o o Review of Self Inductance Concept of Mutual Inductance Magnetic coupling Dot Convention
Af
EE 205 Dr. A. Zidouri
Electric Circuits II The Transformer Lecture #23
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EE 205 Dr. A. Zidouri The material to be covered in this lecture is as follows: o Introduction to Transformers o Analysis of a Linear Transformer Circuit o Reflected Impedance
Afte
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Electric Circuits II
The Step response of a Parallel RLC Circuit
Lecture #5
1
2
The material to be covered in this lecture is as follows:
o The step response of a parallel RLC circuit o The general solutions of the second order differential equation o T
EE 205 Dr. Chokri. Belhaj Ahmed
Electric Circuits II
Balanced Three Phase Circuits
Lecture # 01
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EE 205 Dr. Chokri. Belhaj Ahmed
Objective of this lecture is as follows: o Introduction of three-phase circuit concept o Balance Three Phase Voltages. o Po
EE 205 Dr. A. Zidouri
Electric Circuits II
Frequency Selective Circuits (Filters)
Some Preliminaries
Lecture #25
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EE 205 Dr. A. Zidouri
The material to be covered in this lecture is as follows:
o
o
o
o
Introduction to Filters
The Main Four Types of Fil