Optical fiber is the promising technology of the future. In the United States, the most extensive fiber-optic network utilization belongs to AT&T Inc. and Verizon Communications Inc., together producing over 2.2 million route miles. For several years, the demand for fiber optic services has been steadily increasing, making it worthwhile to get acquainted with optical fibers’ dynamics, their types, and construction. The practical use of optical fibers during installation works requires more technical knowledge and precision than standard twisted-pair cables.Get more news about Fiber Jumper,you can vist our website!
It is said that optical fiber is the melody of the future. Its use in telecommunications services is continuously growing, allowing recipients to use high-speed data transmission, previously unattainable on traditional lines. Optical fibers are reaching an increasing number of households in the United States.
What are fiber optic jumpers?
Fiber optic jumpers also referred to as fiber patch cords are flexible cables consisting of single optical fibers to connect devices and systems based on optical fiber transmission. The jumper is often used in a system with frames or panels connected by multiple patch cables. Each has numerous jumpers that may be located near similar frames or panels, creating confusion in cable management.
Fiber optic jumper cables are generally long and extend across different rooms. Communication hubs use fiber patch cords to connect optical fibers in one place to other optical fibers at a remote location.
To put it simply, a fiber patch cord is a cable used to transmit optical signals. Typically, it consists of a wire that has a standardized length. On each side, the cable has tips compatible with a specific technology. We use fiber optic jumpers primarily in connecting active elements, such as switches and routers.
Each telecommunications company and manufacturer of fiber optic equipment takes user safety very seriously. The protection of health and safety is ensured by numerous international research and regulatory organizations.
The safety of residents, such as in single-family housing, is not endangered by fiber optic technology. There are no scientifically documented cases of exposure to health or life from installing fiber-optic networks in a residential building. There are also no premises indicating the need for additional research and analysis of the issue.
The above considerations completely ignore the risk that may arise in the case of improper fastening or execution of network elements. The risk of fiber-optic technology is related to inadequate protection of the equipment, installation methods, or selection of components, not the result of the network’s nature. It’s essential to use the highest quality products from proven manufacturers to build safe fiber-optic networks.