An LED (Light Emitting Diode) is a solid state
electronic device that consists of several
layers of semiconductor material, in contrast
to a lamp that consists of a glass envelope
and electrodes assembled into a base. The
mechanically robust nature and low voltage
operation inherent in LED technology makes it
attractive to use in many lighting applications.
LED benefits
LED Technology has enormous benefits for
the mining industry, the most obvious being
the reduction in maintenance requirements
of our “fit and forget” design principle that
reduces vehicle servicing down times, as
there are no globes to burn out or holders to
corrode.
Hella LED lamps are pre-wired for easy
installation and manufactured to offer
maximum impact resistance and high
tolerance to chemicals, salt spray and
cleaning fluids. Most of the LED products
offered can survive shock impulses of 200G,
and operate over a much wider range of
ambient temperatures than normal products.
LED technology
Unlike conventional lamps that produce a
broad spectrum of colours (white light), an
LED emits light only in a particular single
colour. The specific colour is dependent on
the semiconductor material system used
(AllnGaP and InGaN) and ranges from red
through amber, green and blue. Creating a
coloured light signal from a conventional
globe requires the use of a filter (generally a
coloured lens) that absorbs most of the light
and passes through only the desired colour
spectrum. The filter losses normally range
from 30% to 80% depending on the colour
and intensity requirements. LED technology
eliminates this inefficient process. Hella LED
signal and warning lamps operate with up to
60% less current draw than comparable globe
lamps.
White light from an LED is produced by one of
two methods. The most common is a process
of luminescence conversion where a blue LED
light excites a phosphor to emit yellow light,
the mixture resulting in white light. The other
process of RGB colour mixing uses individual
red, green and blue LEDs and by altering the
relative mix of the three primary colours, any
other colour including white can be created.
The efficiency of white LEDs has risen
considerably over the past few years; values
of 50 lm/W and more are now being achieved.
It is now possible to produce white LED
lights that are more efficient than Halogen
and incandescent lamps, but still significantly
less efficient than gas discharge lamps. The
relatively high cost of high-efficiency white
LEDs still limits their use to applications where
a small amount of light with minimal heat is
required, areas where mechanical damage
due to shock and vibration destroys other
lights, or where the safety of low voltage
operation is paramount.
LED temperature behaviour
The amount of light emitted by an LED
reduces as the temperature rises:
yellow LEDs are more affected by high
temperatures than green and blue
LEDs. Loss of output as a result of high
temperature reverses when the LED
cools down and should not be confused
with degradation which happens over a
long time or in lamps in which LEDs are
operated beyond
their design current.
LED product
design
The high efficiency,
low power demand
that Hella LED lamps
are known for is not
an automatic result of
using LED technology.
Many competitor
products are no more
efficient or durable than conventional
lights. Hella invests considerable time and
diligence into the four most significant
aspects of LED product design, thereby
producing award winning, class-leading,
innovative products that set new standards
and receive worldwide recognition.
The most important issue relates to the
selection and optimum application of LED
devices suited to each task. Like all electronic
components, LEDs are mass-produced, with
each production batch yielding LEDs that vary
enormously in efficiency and colour. As one
of the largest global users of high intensity
LEDs, Hella has developed sophisticated
techniques that enable us to select only the
most efficient LEDs that fall within very tight
colour specification parameters.
The second aspect depends on maximising
optical system efficiency. Individual LED
devices typically produce a hundred times
less light than a conventional light globe.
To use the light effectively requires highly
meticulous optical system design.
The third aspect relates to effective power
supply and control circuit designs. LEDs
are much more sensitive to heat and
electrical issues than conventional lamps.
The development of robust, efficient circuits
that manage the operation of LEDs is just as
important as the optical aspects. Years of
experience gained through the production
and worldwide use of millions of LED
lights, enables Hella to keep
delivering
innovative and
effective solutions
to the challenges
faced by LED
systems.
The final aspect is
the physical product
design. All the
mechanical, thermal
management and operational environment
and production requirements are integrated
into a robust product that is expected to
remain fully operational under severe cold,
heat and humidity, while also being subjected
to high levels of vibration. Hella backs up
our innovative physical design and assembly
processes with a large investment in extensive
in-house test and development facilities to
prove all of our products meet the demands
placed on them in the field.
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LED Technology