M1_Introduction to Electrical Systems MLA.pdf

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Introduction to
Electrical
Systems
LECTURE MODULE #01
ABUTLI2S
 Definition – Electricity is the flow of
electrical power or charge.

Using electricity, we can transfer energy in
ways that allow us to do simple chores.
Its best-known form is the flow of
electrons through conductors such as
Fundamentals copper wires.
of Electricity The word "electricity" is sometimes used
to mean "electrical energy".
Basic Concepts of
Electricity
Voltage (V)
Also called electromotive force, it is the
force that makes electrons flow.
It's a difference in potential energy
between two different points in a circuit.
The amount of voltage is indicated by a
unit known as the volt (V)
Voltage can be compared to the water
pressure in a plumbing system. Just as
water flows from high pressure to low
pressure, electric current flows from
higher voltage to lower voltage in a circuit.
Basic Concepts of
Electricity
Current (I)
This Photo by Unknown Author is licensed under CC BY-SA
The rate at which electrons flow past a point
in a complete electrical circuit
At its most basic, current = flow. An ampere
(AM-pir), or amp, is the international unit
used for measuring current.
Think of electric current like the flow of water
in a pipe. The more water flows through the
pipe per unit of time, the higher the flow rate.
Similarly, the more charge (electrons) that
flows through a wire per unit of time, the
higher the electric current.
 Basic Concepts of
Electricity
Resistance (R)
The measure of the opposition to current flow in an
electrical circuit.
Resistance is measured in ohms, symbolized by the
Greek letter omega (Ω).
Ohms are named after Georg Simon Ohm (1784-
1854), a German physicist who studied the
relationship between voltage, current and
resistance.
Imagine resistance as a narrowing in a water pipe. When
water flows through a narrow section of the pipe, it
encounters greater resistance, and the flow rate
decreases. Similarly, in an electrical circuit, higher
resistance limits the flow of current.
The resistance in electrical components is affected by
various factors, including the material’s conductivity,
length, cross-sectional area, and temperature.
Understanding these factors is vital when working with
electrical circuits.
Basic Concepts of
Electricity
Power (P)
The rate at which an electric circuit
transfers electrical energy.

Its S.I. unit is the watt (W), the general unit
of power, defined as one joule per second.

Standard prefixes apply to watts as with
other S.I. units: thousands, millions and
billions of watts are called kilowatts,
megawatts and gigawatts respectively.
Basic Concepts of
Electricity

Ohm’s Law

V = IR
the voltage across a conductor is
directly proportional to the current
flowing through it, provided all
physical conditions and
temperatures remain constant.
Basic Concepts of
Electricity

Importance of Ohm’s Law
In electrical installation projects, ensuring the safe
and efficient flow of electricity is paramount.
Ohm’s Law provides the necessary tools to
calculate and predict how electrical components
will behave in a circuit.
This knowledge is essential for designing circuits
that meet safety standards and function as
intended.
Basic Concepts of
Electricity
Practical Applications of Ohm’s Law

1.Determining Wire Size: Selecting the
right wire size to carry the expected current
without overheating
2.Circuit Protection: Determining rating of circuit
breakers; designed to interrupt the flow of current
when it exceeds safe limits, preventing electrical
fires and equipment damage
3.Voltage Regulation: Designing voltage regulators
that provide stable voltage outputs, crucial for
sensitive electronics
4.LED Lighting: Calculating the current-limiting
resistor value to prevent LED burnout
 Alternating Current
AC vs DC Direct Current
What is AC?

Alternating Current (AC) is an
electric current that reverses
direction periodically.
It is the form of electricity
commonly used in homes and
businesses.
AC is generated by power
plants and transmitted over
long distances.
What is DC?

Direct Current (DC) is
an electric current
flowing in one direction
only.
It is commonly used in
batteries and electronic
devices.
DC is known for its
stability and is used in
many applications
requiring precise
voltage control.
AC vs DC - Key Differences

Direction - AC changes Transmission - AC is more
direction periodically; DC efficient for long-distance
flows in one direction. transmission.

Usage - AC is used for
Devices - AC is used in
general power distribution;
home appliances; DC is
DC is used in batteries and
used in electronic circuits.
electronic devices.
Contributions of Faraday,
Tesla, and Edison

Michael Faraday - Discovered
electromagnetic induction, essential for Thomas Alva Edison Michael Faraday
AC power generation (1847 –1931) (1791 –1867)
Nikola Tesla - Developed AC power
systems and the Tesla coil,
revolutionizing electricity distribution.
Thomas Edison - Advocated for DC
power and developed the first practical
electric light bulb, initiating the 'War of
the Currents.'

Nikola Tesla
(1856 –1943)
How Electricity is
Transmitted
Basics of Power Generation and Distribution

Power Generation Power Distribution
Thermal Power Plants Transmission Lines – High-voltage
Hydroelectric Power Plants power lines that transport electricity
Solar Power Plants over long distances.
Wind Farms Substations – Transform voltage levels
for safe distribution.
Distribution Lines – Deliver electricity
to homes and businesses.
Basics of Power Generation and Distribution
Alternative
and
Renewable
energy
sources

RENEWABLE ENERGY
Alternative and
Renewable energy
sources
Solar energy

Wind energy

Geothermal energy

Hydropower

Ocean energy

Bioenergy
Solar Energy
Type of energy generated by the sun

Photovoltaic – common technology in harnessing
solar energy

Utilizes solar panels which consists of solar
cells

Can be used on large- or small-scale application

Advantages: renewable, environmentally friendly,
can be used in small-scale application

Disadvantages: high initial costs, solar battery is
expensive, dependent on sunlight
 Harnessed by wind turbines

Individual or clustered together – wind farms

Wind farms – can act as power stations

Typically located along coastlines, offshore, on
mountains, and on fields
Wind Energy
Advantages: lowest environmental impact, wind
farms occupy zero to minimal land

Disadvantages: not common in small-scale
use, typically found in large-scale use, varies in
location
Geothermal Energy
Natural resource of heat energy from within the Earth

Used for cooking, bathing, heating of spaces, and
electrical power generation

Harnessing this energy for electricity production is
challenging

Resources are limited to parts of the world: recent
volcanic activities, along plate boundaries, or within
crystal hot spots

Philippines – largest single geothermal power plant

Advantages: power plants have low carbon foot-print,
sustainable and stable – available at all times, huge
potential

Disadvantages: production of electricity is for large-
scale only – via power plants
Hydropower
Harnesses energy of water moving from
higher to lower elevation.
Oldest and largest sources of renewable
energy
Usually associated with dams: an
enormous facility that harnesses the power
of an entire river behind its walls
Uses turbines to generate electricity
Advantages: clean and renewable, also
brings benefits outside electricity
generation: flood control, irrigation
support, and water supply
Disadvantages: generating electricity is on
a large-scale basis – via dams
Ocean Energy

Also known as wave energy

A form of renewable energy that is harnessed
through the movement of waves

Waves create kinetic energy – energy
through motion

Utilizes turbines to generate electricity

Advantages: huge potential

Disadvantages: energy generated depends on
size, height, length, and density of waves; for
large-scale use only; development is far behind
all other renewable energies
Bioenergy
Form of renewable energy derived from
recently living organic materials known as
biomass
Used to produce fuels, heat, electricity, and
products
Energy is produced by burning biomass fuel
Electricity is generated by burning biomass in
a boiler to produce high-pressure steam
which flows over a series of turbine blades
causing them to rotate
Advantages: abundant resource, helps reduce
waste, reliable
Disadvantages: costs, large-scale application
in generating electricity, adverse environmental
impacts
Renewable and Non-renewable Sources

Usage of renewable energy (by
2050) as proposed by the Institute
for Sustainable Energy Policies
(ISEP)

ISEP is an independent, non-profit
research organization founded in
2000 by energy experts and
climate change campaigners.