SolarCap
is based on newly developed technologies to deliver
the outstanding performance of decorative lighting and
traffic lighting for no-maintenance, no-energy-cost,
semi-permanent product life span. SolarCap adopted "Solid-State
Lighting" technology to achieve the best performance
for decorative and traffic lighting with the least efforts
and money. The major components are solar cells, LED,
and ultracapacitor.
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Lighting
applications that use Light Emitting Diodes (LEDs) are
commonly referred to as Solid-State Lighting. Major
benefits of solid-state lighting systems include: |
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¡Ü
Long life - reduced maintenance cost
¡Ü Reduced energy consumption - especially when colored
light is needed
¡Ü Better quality light output - minimum ultraviolet (UV)
and infrared (IR) radiation
¡Ü Intrinsically safe - low voltage
¡Ü Smaller flexible light fixtures - useful for lighting
tight spaces
¡Ü Durable - no filament to break. |
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Solar
cells convert sunlight directly into electricity. Solar
cells are the one that are often used to power calculators
and watches. Solar cells are made of semiconducting
materials similar to those used in computer chips. When
sunlight is absorbed by these materials, the solar energy
knocks electrons loose from their atoms, allowing the
electrons to flow through the material to produce electricity.
This process of converting light (photons) to electricity
(voltage) is called the photovoltaic effect. |
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The
performance of a PV cell is measured in terms of its
efficiency at turning sunlight into electricity. Only
sunlight of certain energies will work efficiently to
create electricity, and much of it is reflected or absorbed
by the material that make up the cell. |
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The
LED (Light Emitting Diode) is basically a really fancy
diode. Diodes only let current (electricity) to flow
in one direction and not the other. LEDs are diodes
too, but they have the unique "side effect"
of producing light while electricity is flowing through
them. |
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LEDs
are different from ordinary light bulbs because they
do not have a filament to break or burn out. They operate
on very low voltage from 2-3 volts, generate very little
heat, and are ideal for putting lights into portable
equipments and self-contained solar lighting devices.
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In
the simplest terms, an LED is made with two different
kinds of semiconductor material: one type that has too
many free electrons roaming around inside, and another
that doesn't have enough. When an electron from one
material (the donor) gets pushed across a thin barrier
and gets into tiny spaces in the other (the holes),
a photon or particle of light is produced. |
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The
color of light depends on a number of factors, including
the type of material they make the LED with and the
material's quantum bandgap (how much energy each electron
needs to pack in order to cross the barrier). A smaller
bandgap that fairly weak electrons can cross gives you
infrared or red light, while a large bandgap that needs
really strong electrons gives you light that has a blue
or violet color to it.
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Ultracapacitor
is a newly developed technology positioned between the
conventional capacitors and the rechargeable batteries.
Ultracapacitors offer a shift in thought, circumventing
the battery scramble, and instead attempt to elicit
greater efficiency from existing power sources. Ultracapacitors
are free from the characteristic battery problems of
limited cycle life, cold intolerance, and critical charging
rates. It is also environmentally friendly, helps conserve
energy, and enhances the performance and portability
of consumer devices. |
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Ultracapacitors
can replace batteries in outdoor solar-lighting products.
Although its energy less compared to a battery, it's
enough to light up the garden, drive away, garden path
or any place. The ultracapacitor is much well suited
over batteries in solar lighting products: Because an
ultracapacitor transfers electrical charges between
conducting materials, it can be charged and discharged
almost indefinitely, which lead to remove annoying maintenance
problem, whereas few batteries, using chemical reactions,
can last 1000 cycles. In addition, the ultracapacitor
can also be charged effectively regardless of weather
condition. |
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Ultracap-based
SolarCap Lighting |
Battery-based
Solar Lighting |
12V
low volt lighting |
120V
lighting |
Installation |
DIY
installation
anywhere without
wiring |
DIY
installation
anywhere without wiring |
DIY
installation
with wiring |
installation
by
the licensed electrical contractor |
Wiring |
no wiring
needed |
no wiring
needed |
hidden
cable underground |
wire
to be buried
18 inches in a
protective conduit |
Maintenance |
no maintenance
over 10 years |
regular
battery
change 2-3 years |
regular
bulb change
every year |
regular
bulb change
every year |
operating
cost |
no cost |
battery
change cost |
low
energy cost |
high
energy cost |
Temperature |
-40¢µ~167¢µ |
32¢µ
~ 113¢µ |
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water-proof |
water-proof |
water-proof
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designed
for wet locations |
all
fixtures and connectors should be waterproof. |
lighting
fixtures |
any
size, shape for installation
anywhere |
any
size, shape for installation
anywhere |
small
lamps and fixtures
and less obtrusive in the landscape |
large
lamps and
larger fixture to
house them |
lighting
effect |
decorative
lighting
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decorative
lighting |
low
wattage, many
beam spreads,
precise lighting
effect |
higher
wattage, one
or two bream
spreads, lack of
beam control, glare problem |
transformer |
no transformer |
no transformer |
transformer
needed
to convert from
120V to 12V,
voltage drop to
occur |
no transformer |
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