The development of fiber optics technology has revolutionized the way that data is transmitted over long distances. One of the most important advances in this field has been the Optical Carrier (OC), a Synchronous Optical Networking (SONET) type designed to transmit large amounts of digital information quickly and reliably. OC-level networks are used by telecommunications companies, cable providers, and other organizations to provide high-speed internet access, voice services, video streaming services, and more.
OC networks employ optical fibers as their medium for transmitting data signals at speeds up to 10 gigabits per second or higher depending on the particular network configuration. This makes them much faster than traditional copper cables, which can only reach speeds around 100 megabits per second or less due to physical limitations inherent in copper wires, such as attenuation and crosstalk interference issues caused by electromagnetic radiation from adjacent cables or devices operating nearby frequencies.
In addition to providing faster transmission rates compared with traditional copper wiring solutions; OC also offers enhanced reliability since it does not suffer from electrical interference like its metallic counterparts do when exposed to outside elements such as lightning strikes or power outages occur in an area where communications are taking place via these types of connections. Furthermore, because SONET protocols use multiplexing techniques that allow multiple channels within one single connection, they offer more excellent scalability options for businesses that need increased bandwidth capabilities without having invested heavily into additional infrastructure investments like new lines being laid down throughout their premises.
Finally, another key benefit offered by using an OC – the level network is its ability to support Quality Of Service (QoS ) features which enable administrators to prioritize certain types of traffic over others based on specific criteria defined beforehand so critical applications remain running uninterrupted. In contrast, nonessential ones may be throttled back if necessary during peak usage times to ensure everyone connected remains satisfied with performance levels even under heavy loads.