Transcript 1237848339

How LEDs Work
LEDs (Light Emitting Diodes)
Why are LEDs important?
• Most lamps emit light by using an electric current to heat a
filament wire to a high temperature (white hot)
• This is very inefficient, so to generate the electricity needed
a relatively large amount of carbon dioxide is released into
the atmosphere from power stations
What is an LED?
“New Lamps for Old”
• An LED is a small lamp that uses electricity to generate light
without getting hot
• LEDs operate with low voltages and currents, although
some can have built in electronics to allow them to be used
on the mains
• In an LED an electric current can generate light very
efficiently, so that much less energy is consumed and less
greenhouse gases are released
What do LEDs offer us?
Efficient conversion of electricity to light
• LEDs are available in many colours, including white
• LEDs can be made that emit invisible Infrared and Ultra
Violet light
• LEDs are now used in cars, traffic lights, domestic and
industrial lighting and many other applications
• White LEDs are already more efficient than compact
fluorescent lamps
• Research indicates that they can still improve by a factor of
5 beyond this
Anything else?
Other characteristics
• The intensity of the light is proportional to the current
flowing
• An LED can continue to emit light for over 20 years with
little change
• The light from an LED can follow changes in the current
very rapidly, up to millions of times a second (because they
don’t need to heat up and cool down) – this means that their
light can carry information
• As their numbers grow, then their price will fall substantially
How do LEDs Work?
Basic principles of electricity and LEDs
Electric currents
electrons
electrons
• An electric current is due to the flow of billions upon billions upon
billions of tiny particles called electrons.
• Electrons flow from a region of low (or negative) voltage to one with a
higher (or positive) voltage (this can be created by a battery).
Electrons
Meet an electron.
It is part of a vast family where everyone looks identical.
Each electron is a tiny particle that causes electricity.
Electrons are found in every material.
Like most family members electrons need their own space and
repel other family members if they get too close.
Electrical Materials
Conductors and Insulators
• In an electrical conductor electrons are free to move
about easily. Metals are electrical conductors.
• In an electrical insulator electrons are not able to move
about easily. Materials such as gases, plastics, rubber
and glass are common electrical insulators.
Electrical Materials
Semiconductors.
• A semiconductor is a funny material where some electrons may
have enough energy to travel about freely, but only if they are
warm enough, or in a bright light.
• As its name suggests, a semiconductor has properties in
between those of an electrical conductor and an electrical
insulator.
Electrons and semiconductors
• When two semiconductors are joined, they can form a step.
• For the electrons to flow around the circuit they must gain
energy to flow through the wire to the top of the step.
• This energy can come from a battery or power supply
WIRE
BATTERY
STEP
+
WIRE
LEDs are made of semiconductors
• An LED can be made from two semiconductors
joined in this way and connected to a battery, or
power supply.
• Light is emitted as each electron falls down the step
• More falling electrons means a brighter light
BASIC
OPERATING
PRINCIPLE
OF A RED
LED
RED LIGHT NEEDS
A SMALL STEP
LIGHT
LED
+
BASIC
OPERATING
PRINCIPLE
OF A GREEN
LED
GREEN LIGHT
NEEDS A MEDIUM
STEP
LIGHT
LED
+
BASIC
OPERATING
PRINCIPLE
OF A BLUE
LED
BLUE LIGHT
NEEDS A LARGE
STEP
LIGHT
LED
+
Other types of LED
LEDs can emit many different colours of light
• The height of the step required increases as the colour of the light moves
through the spectrum from Red to Blue and Violet
 Red<Orange<Yellow<Green< Turquoise< Blue<Violet
LEDs can also emit invisible light
• Infrared light needs a smaller step than Red light
• Ultra violet light needs a larger step than Blue light
White LEDs actually emit Blue light but include a material called a
PHOSPHOR that converts some of this to Red and Green light
• Red + Green + Blue light is seen as White light
Polarity of Battery or DC Supply
For an LED to emit light
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it must be correctly connected to the battery, or power supply
The voltage applied must be more than the minimum for the colour emitted
It will not emit light (and may be damaged) if the voltage is connected the wrong
way round, as shown below
WIRE
STEP
-
+
BATTERY
NO LIGHT
WIRE
The circuit symbol for an LED is
The head of the “arrow” shape must always point to the negative terminal for light to be emitted
The long lead on an LED should be connected to the positive terminal of the supply +
In order to limit the current, a resistor is always used in series with an LED to
prevent it overheating (+
-) although this may be built into some lamps
What are LEDs used for?
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White LEDs are used in torches, as
backlights for LCDs, and as room
lights, underwater lights and vehicle
headlights
Coloured LEDs are used in indicator
lights, in traffic lights, tail/signal lights
in vehicles and decorative lights
Coloured LEDs are also used in
digital scanners and autofocus
lights in digital cameras
They are also used in computer mice
and simple displays
Infrared LEDs are used in remote
controls, webcams, sensors & security
cameras
Ultraviolet LEDs are used to reveal
secret signatures and security
markings on property & banknotes
Many other things
Summary
• An LED converts electrical energy to light energy.
• They can be made in many colours, including white
• They already have many useful applications
• They are much more efficient than filament lamps and
“environmentally friendly” compact fluorescent lamps
• They generate much less heat and can last for >20 years
• They generate their light by electrons falling down a step.
• They will become much more affordable as more of them
are sold