Recently, it is becoming increasingly evident that the fiber optic cable is replacing the copper cable step by step as a way of communication. One reason is that fiber optic cable can increase the distance between local telephone systems and network systems, including university campuses, office buildings, industrial plants, and electric utility companies. In addition, the present fiber optic cable is capable of functioning at an impressive rate to satisfy the ever-growing requirements of company infrastructure. In this post, we will demonstrate the performance of the fiber optic cable, which includes the speed introduction of single mode fiber and multimode fiber.


Fiber Optic Cable Speed

Fiber optic cable includes optically pure glass strands. They are thicker than a human hair for the glasses and can carry digital data over a long distance. Digital signals are transmitted as pulses of light without interference or restriction. The digital transport system is thus quicker and more efficient. Fiber optic technology enables more information to be transmitted in a shorter period than older internet technology, such as cable and DSL. The greater data rate will lead to quicker fiber optic cable velocity, greater quality streaming, and a better internet experience for internet users.


Single Mode and Multimode Fiber Optic Cable

Fiber optic cable comes in two kinds: single-mode fiber and multimode fiber. There are many sub-branches under these two kinds, such as the single-mode LC fiber for long-distance transmission and the multimode LC fiber for short-distance transmission. However, they also have the respective fiber optic cable speed for distinct kinds of cables.

Single Mode Fiber Optic Cable Speed

Single mode cable is a single glass fiber strand with a comparatively small diameter, about 8.3 to 10 microns. Usually, it has one mode of transmission that propagates at 1310 nm and 1550 nm wavelength. There will therefore be little light reflection when the light goes through the fiber core of the single mode. It will therefore decrease fiber attenuation and optimize the velocity for transmitting signals. For single-mode fiber optic cable velocity, the transmission range can reach up to 5 km, regardless of the data rate at 100 Mbit / s or Gbit / s. In that situation, it is generally used for transmission of long distance signals.

Multimode Fiber Optic Cable Speed

Multimode fiber is produced of 50 to 100 micron glass fiber with a diameter size. With a bigger core, it can simultaneously direct many modes. This provides rise to more data transit through the core of the multimode fiber. It will also give greater levels of light reflection, dispersion, and attenuation. Multimode fiber offers greater bandwidth at greater fiber optic cable speeds. It is mostly used for short-distance communication, such as within a building or on a campus. Multimode fiber optic cable speed and transmitting range limits are typically 100 Mbit / s for distance up to 2 km (100BASE-FX), Gbit / s up to 1000 m, and 10 Gbit / s up to 550 m.

Fiber optic cable is the fastest broadband technology mode available today. It sets an outstanding example for companies looking forward to optimizing their system efficiency with greater bandwidth. In particular, single-mode fiber with a much lower core provides you a greater transmission rate than multimode fiber. From this article, you would have a deeper understanding of fiber optic cable speeds for both single mode fiber and multimode fiber.