Dynotech maintains an extensive library of standard fiber optic cable designs for your use in testing ideas or solving simple problems.
We closely work with Fiberoptics Technology Inc., a leading global supplier of standard and custom-designed OEM non-telecom fibre optic components.
Our customers benefit from economies of scale and quick turnaround, and we benefit from the trust and confidence you develop in our supply source. We innovate to keep up with the latest technologies in the fibre optics field and bring those advancements to our customers at value-driven prices.
It is engineered and manufactured to provide consistent uniform lighting with minimum loss.
Fiber optic ring lights provide 360º of shadow free, on-axis, uniform, high intensity illumination.
A standard glass bundle length of 36″ (914mm) is suitable for most applications, preferably for machine vision.
Light line lengths of .125″ (3mm) or less up to lines 4 feet (122cm) long with various sizes & shapes.
Fiber optic cables are used mainly for their advantages over copper cables which include the following:
a. They support higher bandwidth capacities.
b. Light can travel further without needing as much of a signal boost.
c. They are less susceptible to interference, such as electromagnetic interference.
d. They can be submerged in water.
e. Fiber optic cables are stronger, thinner and lighter than copper wire cables.
f. They do not need to be maintained or replaced as frequently.
Fiber optical technology is ideal when transmitting video, audio, and control signals over long distances. Long-distance transmission makes fiber optic products ideal for installation in stadiums, college campuses, medical facilities, corporate campuses, performing arts centres, concert halls, and office buildings.
Made of ultra-pure silica, it is a solid material that can handle exposure to temperature and pressure extremes. The tensile strength (resistance to pulling) of optical fiber exceeds 600,000 pounds per square inch—making it stronger than copper or steel strands of the same diameter. When cabled, glass fiber is protected and further strengthened by aramid or fiberglass yarns, a fiberglass rod, and/or an outer jacket constructed of non-conductive materials.
The fiber optic technology refers to transmitting light down the thin glass (sometimes plastic) strands. Fiber optic cables transfer information from one end to another.
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