Basic Definitions & Basic Laws

Dr. Mohamed Refky Amin

Electronics and Electrical Communications Engineering Department (EECE)

Cairo University

elc.n102.eng@gmail.com

http://scholar.cu.edu.eg/refky/

Outline of this Lecture

• Course Contents, References, Course Plan

• Basic Definitions

• Topology of Electric Circuit

• Basic Laws

– Ohm’s Law

– Kirchhoff's Voltage Law

– Kirchhoff's Current Law

• Power and Energy

Dr. Mohamed Refky 2

References

• Textbook:

– “Fundamentals of Electric Circuits”, Alexander and Sadiku, 5th

edition

• References:

– J. W. Nilsson and S. Riedel, Electric Circuits. 8th Edition, Prentice Hall,

2008.

– Syed A. Nasar, “Electric Circuits,” Schaum’s Solved Problems Series,

Mcgraw-Hill, New York, 1988.

– Cunningham Stuller, “Circuit Analysis,” John Wiley & Sons Inc., New

York, 1995.

Dr. Mohamed Refky 3

Course Plan

• Instructor:

• TA:

• Grading:

– 40% Activity

• Quizzers

• Assignments

• Attendance

– 20 % Midterm

– 40% Final Exam

• Office Hours: TBA

Prof. Mohamed Fathy

Dr. Mohamed Refky

Dr. Mohamed Refky

TBA

4

Course Contents

Dr. Mohamed Refky

Week Topic

1 Basic Definitions & Basic Laws

2

Methods of solution of DC circuits3

4

8Network Theorems

6

Midterm

7 Introduction to Capacitors and Inductors

8Sinusoids and phasors

9

10Sinusoidal steady state analysis

11

12 Three Phase Circuits

5

Introduction

Dr. Mohamed Refky

For an electrical engineering

student, basic electric circuit

theory is an essential to

understand several other courses.

Many branches of electrical

engineering, such as power,

electric machines, electronics,

and instrumentation, are based on

electric circuit theory.

Importance of this Course

6

Outline of this Lecture

• Course Contents, References, Course Plan

• Basic Definitions

• Topology of Electric Circuit

• Basic Laws

– Ohm’s Law

– Kirchhoff's Voltage Law

– Kirchhoff's Current Law

• Power and Energy

Dr. Mohamed Refky 7

Basic Definitions

Dr. Mohamed Refky

In general, electrical engineering is interested in transferring

electrical energy from one point to another.

Introduction

Transfer of electrical energy requires an

interconnection of electrical component.

The interconnection is referred to as an

electric circuit, and each component of

the circuit is known as a circuit element.

8

Basic Definitions

Dr. Mohamed Refky

Generally, any electrical circuits has three main components:

▪ Source of power (Battery)

▪ Load (Lamp)

▪ Connecting wires

▪ Switch

Elements of Electrical Circuits

Electrical circuits are modeled using a

simple schematic to represent the circuit

components.

The circuit load such as lamp, speaker, …

is usually modeled as a resistor.

9

Basic Definitions

Dr. Mohamed Refky

Elements of Electrical Circuits

Electrical Circuit

Active Elements Passive Elements

Voltage

Source

Current

Source

Resistor Capacitor Coil

Active elements are the components that are capable of

generating energy. On the other hand, passive elements are the

component that are not capable of generating energy

10

Basic Definitions

Dr. Mohamed Refky

Elements of Electrical Circuits

Electrical Circuit

Active Elements Passive Elements

Voltage

Source

Current

Source

Resistor Capacitor Coil

Independent

Source

Dependent

Source

An independent source is the source

whose value is independent of any

signal (voltage/current) in the

circuit.

11

Basic Definitions

Dr. Mohamed Refky

Elements of Electrical Circuits

Electrical Circuit

Active Elements Passive Elements

Voltage

Source

Current

Source

Resistor Capacitor Coil

Independent

Source

Dependent

Source

A dependent source is the source

whose value depends on another

signal (voltage/current) in the

circuit.

12

Basic Definitions

Dr. Mohamed Refky

Elements of Electrical Circuits

Electrical Circuit

Active Elements Passive Elements

Voltage

Source

Current

Source

Resistor Capacitor Coil

Independent

Source

Dependent

Source

Voltage dependent Source

Current dependent Source

13

Basic Definitions

Dr. Mohamed Refky

Elements of Electrical Circuits

Electrical Circuit

DC Circuit AC Circuit

DC Active

elements

Passive

element

AC Active

elements

Passive

element

In Direct Current (DC) circuits, currents and voltages are

constant with time. While in Alternating Current (AC) circuits,

current and voltage are time varying.

14

Basic Definitions

Dr. Mohamed Refky

Elements of Electrical Circuits

Electrical Circuit

DC Circuit AC Circuit

DC Active

elements

Passive

element

Resistor Capacitor Coil

AC Active

elements

Passive

element

Resistor

15

Basic Definitions

Dr. Mohamed Refky

Elements of Electrical Circuits

Passive

element

independent

Sources

Dependent

Sources

16

Basic Definitions

Dr. Mohamed Refky

Basic Quantities

Quantity Symbol Unit

Charge

Time

Work

Current

Voltage

Power

17

Basic Definitions

Dr. Mohamed Refky 18

Basic Definitions

Dr. Mohamed Refky

The conservation of charge law states that

Charge can neither be created nor destroyed, only transferred

Thus the algebraic sum of the electric charges in a system does

not change.

19

Basic Definitions

Dr. Mohamed Refky 20

Basic Definitions

Dr. Mohamed Refky

A battery causes current to flow in

a resistor.

Current flows in a resistor from

high voltage to low voltage.

Important: the direction of the conventional current

is opposite to the direction of the electrons flow.

21

Basic Definitions

Dr. Mohamed Refky 22

Outline of this Lecture

• Course Contents, References, Course Plan

• Basic Definitions

• Topology of Electric Circuit

• Basic Laws

– Ohm’s Law

– Kirchhoff's Voltage Law

– Kirchhoff's Current Law

• Power and Energy

Dr. Mohamed Refky 23

Topology of Electric Circuit

Dr. Mohamed Refky

An electric circuit consists of

Electric Circuit

Branches Nodes Loops

24

Topology of Electric Circuit

Dr. Mohamed Refky

Branch

25

Topology of Electric Circuit

Dr. Mohamed Refky

NodeA node is a common terminal between two or more elements.

• Simple node is a common terminal inside a branch 1,4,5,6

• Non-simple node is a common terminal of more than two

branches 2, 3, 0

26

Topology of Electric Circuit

Dr. Mohamed Refky

A Loop is a set of branches making a closed path.

• Independent loops 12501, 23052, 34603

• Non-independent loops 12301, 1234601, 2346052

Loop

27

Topology of Electric Circuit

Dr. Mohamed Refky

Branch, Nodes and Loops

28

Outline of this Lecture

• Course Contents, References, Course Plan

• Basic Definitions

• Topology of Electric Circuit

• Basic Laws

– Ohm’s Law

– Kirchhoff's Voltage Law

– Kirchhoff's Current Law

• Power and Energy

Dr. Mohamed Refky 29

Basic Laws

Dr. Mohamed Refky

Ohm’s low

30

Basic Laws

Dr. Mohamed Refky

Kirchhoff's Current Law (KCL)Kirchhoff's Current Law (KCL) states that

The algebraic sum of the currents entering any node is zero

To do an algebraic sum, algebraic sign corresponding to a

reference direction must be assigned to every current at the node

31

Basic Laws

Dr. Mohamed Refky

Kirchhoff's Current Law (KCL)Kirchhoff's Current Law (KCL) states that

The algebraic sum of the currents entering any node is zero

To do an algebraic sum, algebraic sign corresponding to a

reference direction must be assigned to every current at the node

32

Basic Laws

Dr. Mohamed Refky

Kirchhoff's Current Law (KCL)Kirchhoff's Current Law (KCL) states that

33

Basic Laws

Dr. Mohamed Refky

Kirchhoff's Current Law (KCL)

KCL is usually applied only for

non-simple node.

34

Basic Laws

Dr. Mohamed Refky

Kirchhoff's Voltage Law (KVL)

35

Basic Laws

Dr. Mohamed Refky

Kirchhoff's Voltage Law (KVL)

36

Basic Laws

Dr. Mohamed Refky

For loop 2:

For loop 3:

Kirchhoff's Voltage Law (KVL)

37

Basic Laws

Dr. Mohamed Refky

Series Connection

38

Basic Laws

Dr. Mohamed Refky

Series Connection

39

Basic Laws

Dr. Mohamed Refky

Series Connection

The series combination of resistors results in increasing the total

resistance40

Basic Laws

Dr. Mohamed Refky

Parallel Connection

41

Basic Laws

Dr. Mohamed Refky

Parallel Connection

42

Basic Laws

Dr. Mohamed Refky

Parallel Connection

43

Basic Laws

Dr. Mohamed Refky

Parallel Connection

44

Basic Laws

Dr. Mohamed Refky

Parallel Connection

45

Basic Laws

Dr. Mohamed Refky

Voltage DividerWhen resistors are connected in series, the total voltage across

these resistors is divided between them with a ratio that depends

on the values of theses resistors.

46

Basic Laws

Dr. Mohamed Refky

Voltage DividerWhen resistors are connected in series, the total voltage across

these resistors is divided between them with a ratio that depends

on the values of theses resistors.

47

Basic Laws

Dr. Mohamed Refky

Current DividerWhen resistors are connected in parallel, the total current is

divide between these resistor with a ratio that depends on the

values of theses resistors.

48

Basic Laws

Dr. Mohamed Refky

Current DividerWhen resistors are connected in parallel, the total current is

divide between these resistor with a ratio that depends on the

values of theses resistors.

49

Outline of this Lecture

• Course Contents, References, Course Plan

• Basic Definitions

• Topology of Electric Circuit

• Basic Laws

– Ohm’s Law

– Kirchhoff's Voltage Law

– Kirchhoff's Current Law

• Power and Energy

Dr. Mohamed Refky 50

Power and Energy

Dr. Mohamed Refky

Definition

51

Power and Energy

Power Calculations

Passive Sign Convention

Power is

absorbed

Power is

absorbed

Power is

delivered

Dr. Mohamed Refky

Power is

delivered

52

Power and Energy

Dr. Mohamed Refky

Power Calculations

Passive Sign Convention

53

Power and Energy

Dr. Mohamed Refky

For a source, power is either delivered or absorbed

Power Calculations

Passive Sign Convention

Power is delivered

Power is absorbed

54

Power and Energy

Dr. Mohamed Refky

Power Balance

The total delivered power to the circuit equal to the

total power dissipated

55

Power and Energy

Dr. Mohamed Refky

Power Balance

The total delivered power to the circuit equal to the

total power dissipated

56