
Why Starry Sky Light Constellation set is a very economic solution?
Starry Sky Light Constellation set is a very economic solution, because the use of LED illuminator consumption of energy is only 4 W. Delicate light will be a great decoration for small rooms . With this set we can create beautiful starry sky in ceiling just above our heads. This product is least expensiv in our offer.
Light Constellation with white light.
This set is equipped in White LED illuminator , so all the "stars" shine with the white light .
Light Constellation with blue-white light.
This set is equipped in LED illuminator with built-in modern microprocessor. Through the use of this illuminator, colours of light are changing automatically between white and blue . It highlights another fiberoptics and creates effect of flashing stars.
Light Constellation with RGB light.
This set is equipped in LED illuminator with built-in modern microprocessor with infrared receiver. 16 buttons remote allows You to decide what color will starry sky illuminate. You can also turn lights on and of , choose automatic color change, dim or brighten the stars . To install this set You need to lower Your ceiling 3 cm only.
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what's about Fiber Optic Adapters
Fiber optic adapter is also called fiber optic coupler. It is used to provide a cable to cable fiber connection. People sometimes also name them to be mating sleeves and hybrid adaptors. Mating sleeves means this fiber optic adapter is used to connect the same type fiber optic connectors, while hybrid adaptors are the fiber optic cable adaptor types used to connect different kinds of fiber optic connectors. Hwaying provide a complete line of adapters for fiber optic connection, like POF ST, POF SC, POF FC, POF LC, POF MTRJ, POF MPO and MU style fiber optic adapters for both multimode and single-mode fiber applications. We also can offer fiber adapter plates for POF ST, POF SC, POF MTRJ- or POF LC-type connections.
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What is Fiber Optic Luminaries?
Fiber optic lighting uses optical fiber as “light pipe,” transmitting light from a source through the fiber to a remote location.
It’s ideal for accent and mood lighting in commercial & residential settings, where extremely miniaturized non-electric illumination is the best solution. It is a safer alternative, suitable to light niche locations such as jewelry cases, pools, parks, exhibit cases, decorative down light, landscape lighting etc.
Generally there are three (3) types of fiber optic lighting;
End Light
Light is directed from the luminaire through optic fiber where it is emitted to the end.
Side Light
Fiber optic also emit light from the side as well as the end.
This type of lighting is best suited for pools and architectural illumination.
Environment Light
Fluorescent fiber absorb light from the environment and emit to its ends. This is a special fiber particularly used in sights for rifles, bows, decorative displays and sensors.
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Why use Fiber Optics for lighting?
The most noteworthy advantage of using fiber optic lighting systems is that the light is separated from the electricity that generates light. This makes it possible to illuminate areas, such as pools, spas, fountains, or in environmentally sensitive industrial situations. The reason: fiber optic light produces no electrical shocks and will not become a fire hazard.
A side glow fiber can be used in places where the potential of breakage or of contact with a high voltage transformer that makes a neon light hazardous. In addition, fiber optic systems use both heat (infrared or IR) and ultraviolet (UV) filters in the light source. As a result, the light emitted contains no UV and no heat. This is particularly desirable for lighting retail displays containing basically, dyes and oil paints won’t fade, chocolate won’t melt, and fresh flowers won’t wilt.
The use of fiber optic lighting systems can also lead to improved energy efficiency in some cases, particularly through the use of metal halide light sources. Because a single lamp can drive many fibers and produce multiple points or lines of light, maintenance costs can be reduced and maintenance tasks simplified, particularly for the hard-to-reach lamp. In addition there is overall, fiber optic lighting systems can be used in almost any lighting situation.
With several vibrant colors available, it is feasible to change colors gradually or have dramatic color switch effects plus sparkling animations that mimic starlight patterns on ceilings. This versatility lends itself to a creative and innovative lighting applications.The most noteworthy advantage of using fiber optic lighting systems is that the light is separated from the electricity that generates light. This makes it possible to illuminate areas, such as pools, spas, fountains, or in environmentally sensitive industrial situations. The reason: fiber optic light produces no electrical shocks and will not become a fire hazard.
A side glow fiber can be used in places where the potential of breakage or of contact with a high voltage transformer that makes a neon light hazardous. In addition, fiber optic systems use both heat (infrared or IR) and ultraviolet (UV) filters in the light source. As a result, the light emitted contains no UV and no heat. This is particularly desirable for lighting retail displays containing basically, dyes and oil paints won’t fade, chocolate won’t melt, and fresh flowers won’t wilt.
The use of fiber optic lighting systems can also lead to improved energy efficiency in some cases, particularly through the use of metal halide light sources. Because a single lamp can drive many fibers and produce multiple points or lines of light, maintenance costs can be reduced and maintenance tasks simplified, particularly for the hard-to-reach lamp. In addition there is overall, fiber optic lighting systems can be used in almost any lighting situation.
With several vibrant colors available, it is feasible to change colors gradually or have dramatic color switch effects plus sparkling animations that mimic starlight patterns on ceilings. This versatility lends itself to a creative and innovative lighting applications.
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What makes a good illuminator?
Light engine must perform three separate tasks with a degree of efficiency. Firstly must house a lamp and its power source, transformer, ballast,igniter and wiring in a correct and safe manner.
Secondly,it must focus the light of the lamp in the most efficient way to ensure an adequate performance.
Thirdly, it must create a suitable environment to guarantee the long life of the common end,this being the union with the fiber optics. With this last task in mind, a light engine must be designed to minimize the thermal load on the screen by all possible means, filters, forced ventilation, air duction and deflectors.[
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What is an illuminator?
An illuminator, light source or generator is a box with a lamp inside, pointing towards an opening where fiber optics are secured. Naturally, this is an over-simplification,although in reality a large number of the illuminators available in the industry are little more than this.[
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What is an illuminator?
An illuminator, light source or generator is a box with a lamp inside, pointing towards an opening where fiber optics are secured. Naturally, this is an over-simplification,although in reality a large number of the illuminators available in the industry are little more than this.[
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Is there any way to improve side-emitting viewing?
A side emitting light guide is viewed optimally when the contrast between the optic and background is maximized. If the light guide is placed on a white track or against a tight opaque white back the light is more apparent.
This does not mean that the optic issues more light,only that the illuminance falling on the background improves the overall luminance of the optic.[
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Are the side-emitting fibers with reflection core more luminous?
To answer this question honestly is very much like trying to determine the sex of the angles. If a side emitting light guide has a center reflecting core it would issue more light omni directionally, this is to say: if the light guide was suspended in mid-air and viewed from any angle.
The problem with that argument is that those optics are, normally attached to a support and viewed from fixed angles. The opaque centerpiece, in this case, would impede the passage of light from behind the core and hence the optic would have less light available to the viewer.
Side-emitting light guides are sheathed in a transparent cover and the viewer, by transparency, has the benefit of the light escaping not only from the individual fibers placed directly in front of his line of vision but also from the ones behind.
If we take a glass tube filled with a clored liquid and light it up from one end, we could view the whole of the mass as a lit-up cylinder. If we then place a concentric opaque core, from a given dierction we would have less vision of the cylinder mass. The same would hold true with any transparent cylinder.
To prove this argument is a practical impossibility since it would require two optics, with and without core of the same size and optical properties, placed exactily on the same spot in an illuminator. In my opinion, no matter the patents, the so-called center reflecting cores do not add more light to a guide and probably rests light to the viewer and the system as a whole.
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Are the side-emitting fibers with reflection core more luminous?
To answer this question honestly is very much like trying to determine the sex of the angles. If a side emitting light guide has a center reflecting core it would issue more light omni directionally, this is to say: if the light guide was suspended in mid-air and viewed from any angle.
The problem with that argument is that those optics are, normally attached to a support and viewed from fixed angles. The opaque centerpiece, in this case, would impede the passage of light from behind the core and hence the optic would have less light available to the viewer.
Side-emitting light guides are sheathed in a transparent cover and the viewer, by transparency, has the benefit of the light escaping not only from the individual fibers placed directly in front of his line of vision but also from the ones behind.
If we take a glass tube filled with a clored liquid and light it up from one end, we could view the whole of the mass as a lit-up cylinder. If we then place a concentric opaque core, from a given dierction we would have less vision of the cylinder mass. The same would hold true with any transparent cylinder.
To prove this argument is a practical impossibility since it would require two optics, with and without core of the same size and optical properties, placed exactily on the same spot in an illuminator. In my opinion, no matter the patents, the so-called center reflecting cores do not add more light to a guide and probably rests light to the viewer and the system as a whole.
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Are the side-emitting fibers with reflection core more luminous?
To answer this question honestly is very much like trying to determine the sex of the angles. If a side emitting light guide has a center reflecting core it would issue more light omni directionally, this is to say: if the light guide was suspended in mid-air and viewed from any angle.
The problem with that argument is that those optics are, normally attached to a support and viewed from fixed angles. The opaque centerpiece, in this case, would impede the passage of light from behind the core and hence the optic would have less light available to the viewer.
Side-emitting light guides are sheathed in a transparent cover and the viewer, by transparency, has the benefit of the light escaping not only from the individual fibers placed directly in front of his line of vision but also from the ones behind.
If we take a glass tube filled with a clored liquid and light it up from one end, we could view the whole of the mass as a lit-up cylinder. If we then place a concentric opaque core, from a given dierction we would have less vision of the cylinder mass. The same would hold true with any transparent cylinder.
To prove this argument is a practical impossibility since it would require two optics, with and without core of the same size and optical properties, placed exactily on the same spot in an illuminator. In my opinion, no matter the patents, the so-called center reflecting cores do not add more light to a guide and probably rests light to the viewer and the system as a whole.
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Can light be made to move or chase along a side emitting optic?
With roped or braided multicore fiber and special process at the common end optics can be made to chase in both directions and display multiple colors at same time.
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