Fiber Optics

FIBER OPTICS INSTALLATIONS

Fiber-Optic Speed

Fiber-optic internet is generally faster than other types of internet. Fiber-optic technology allows for more data to be transferred in a shorter amount of time than older internet technologies. For internet users, this higher data-transfer rate results in faster load times, higher-quality streaming, and a better internet experience overall.

Applications of Fiber Optic Cable

Computer Networking

Using fiber optic cables, data transformation between computers in one same building or some nearby places become faster and easier than copper medium. This make computer network users can receive and read information and files less than a second which incredibly saved time and enhanced efficiency.

Computer Networking

Using fiber optic cables, data transformation between computers in one same building or some nearby places become faster and easier than copper medium. This make computer network users can receive and read information and files less than a second which incredibly saved time and enhanced efficiency.

Cable Television

Over the years, optical fiber cables are widely applied to cable television from the aspect of speed and price. With the higher and great bandwidth and speed, the optical fiber cables are optimal solutions for high definition televisions. Besides, the fiber cables are cost effective choices compared to the same quantity of copper wire.

Internet

Unlike copper cable, fiber optic cables are less bulky, more flexible and carry more data. They can transmit large amounts of data at very high speeds. Therefore, they have been extensively used in Internet cables.

Fiber optic cables provide a convenient, cost-effective and easy solution to many applications of industries, and they have been penetrated almost every walk of life.

.

SINGLE MODE

  • Single-mode fiber gives you a higher transmission rate and up to 50 times more distance than multimode, but it also costs more.
  • Single-mode fiber has a much smaller core than multimode. The small core and single light-wave virtually eliminate any distortion that could result from overlapping light pulses, providing the least signal attenuation and the highest transmission speeds of any fiber cable type.
  • Single-mode fiber gives you a higher transmission rate and up to 50 times more distance than multimode, but it also costs more.
  • Single-mode fiber has a much smaller core than multimode. The small core and single light-wave virtually eliminate any distortion that could result from overlapping light pulses, providing the least signal attenuation and the highest transmission speeds of any fiber cable type.
  • Single-mode optical fiber is an optical fiber in which only the lowest order bound mode can propagate at the wavelength of interest typically 1300 to 1320nm.

MULTI MODE

  • Multimode cable is made of of glass fibers, with a common diameters in the 50-to-100 micron range for the light carry component (the most common size is 62.5).
  • POF is a newer plastic-based cable which promises performance similar to glass cable on very short runs, but at a lower cost.
  • Multimode fiber gives you high bandwidth at high speeds over medium distances. Light waves are dispersed into numerous paths, or modes, as they travel through the cable‚Äôs core typically 850 or 1300nm.
  • Typical multimode fiber core diameters are 50, 62.5, and 100 micrometers. However, in long cable runs (greater than 3000 feet [914.4 ml), multiple paths of light can cause signal distortion at the receiving end, resulting in an unclear and incomplete data transmission.
Menu