A thin glass strand designed
for light transmission. A single hair-thin fiber is capable of transmitting trillions of
bits per second. In addition to their huge transmission capacity, optical fibers offer
many advantages over electricity and copper wire. Light pulses are not affected by random
radiation in the environment, and their error rate is significantly lower. Fibers allow
longer distances to be spanned before the signal has to be regenerated by expensive
"repeaters." Fibers are more secure, because taps in the line can be detected,
and lastly, fiber installation is streamlined due to their dramatically lower weight and
smaller size compared to copper cables.
For years, the telephone companies have used fibers extensively to rebuild their communications infrastructure. According to KMI Corporation, specialists in fiber optic market research, by the end of 1990 there were approximately eight million miles of fiber laid in the U.S. (this is miles of fiber, not miles of cable which can contain many fibers). By the end of 2000, there were 80 million miles in the U.S. and 225 million worldwide. Copper cable is increasingly being replaced with fibers for LAN backbones as well, and this usage is expected to increase substantially.
For glass fibers, there are two "optical windows" where the fiber is most transparent and efficient. The centers of these windows are 1300 nm and 1550 nm, providing approximately 18,000GHz and 12,000GHz respectively, for a total of 30,000GHz. This enormous bandwidth is potentially usable in one fiber. Plastic is also used for short-distance fiber runs, and their transparent windows are typically 650 nm and in the 750-900 nm range.
|There are two
primary types of fiber. Multimode fiber is very common for short distances and has a core
diameter from 50 to 100 microns. For intercity cabling and highest speed, singlemode fiber
with a core diameter of less than 10 microns is used.
Fiber Strands The fibers in this picture are being prepared for splicing in a wiring closet. These few strands can collectively transmit trillions of bits per second.
Fiber Vs. Copper Not only does optical fiber offer enormous bandwidth, but it takes a lot less room. Any one of these copper bundles can be replaced with one fiber strand (center).
Cable This Lucent fiber-optic cable holds 288 fibers, which was a record-high fiber
count in 1996. Cables with more than a thousand fibers have since been developed.
Laying Optical Fiber Embedding thousands of miles of fiber in the ground has been a Herculean feat undertaken by many companies. In time, all copper wires are expected to give way to fiber.