Compare and contrast cat. 6 unshielded twisted pair (UTP), coaxial, and single mode fiber optic cabling types. Describe one or two of the advantages and/or disadvantages associated with using each cable type for a business’s network infrastructure.  Consider the (a) cost per foot or meter; (b) termination/installation cost; (c) bandwidth; (d) cable length/transmission distance; (e) end point devices (i.e., workstation, wireless access point, switch, router, server, SAN, etc.); (f) use – in-building horizontal or vertical; and (g) conversion or interface equipment.  Be sure to support your information with the appropriate citation(s). The paper must use APA 6th ed., 7th printing formatting and contain a title page, 3 to 5 pages of content, and a minimum of three peer-reviewed references.  Use the link about to submit your paper. Your assignment will be graded based on the rubric, which can be viewed when clicking on the assignment link. : Requirements- Purchase the answer to view it Purchase the answer to view it Purchase the answer to view it Purchase the answer to view it

Cat. 6 unshielded twisted pair (UTP), coaxial, and single mode fiber optic cabling types are commonly used in network infrastructure. Each cable type has its own advantages and disadvantages, and understanding these can help businesses make informed decisions about their network infrastructure.

Cat. 6 UTP cables are widely used for Ethernet connections. They consist of four twisted pairs of copper wires and are known for their high bandwidth and ability to support high-speed data transmission. One advantage of using Cat. 6 UTP cables is their relatively low cost per foot or meter compared to other cable types. However, the termination and installation costs for Cat. 6 UTP cables can be higher due to the requirement for specialized connectors and tools.

Coaxial cables, on the other hand, have a central conductor surrounded by an insulating layer, a metallic shield, and an outer insulating layer. They are commonly used for television and broadband internet connections. One advantage of using coaxial cables is their ability to support higher bandwidth compared to Cat. 6 UTP cables. Coaxial cables also have a longer cable length or transmission distance compared to Cat. 6 UTP cables. However, they are more expensive per foot or meter compared to Cat. 6 UTP cables. The termination and installation costs for coaxial cables can also be higher due to the requirement for specialized connectors and tools.

Single mode fiber optic cables are made of a thin glass or plastic core surrounded by a cladding material. They are designed to transmit data using light signals, enabling higher bandwidth and longer transmission distances compared to both Cat. 6 UTP and coaxial cables. One advantage of using single mode fiber optic cables is their ability to support very high bandwidth, making them suitable for high-demand applications such as data centers. Single mode fiber optic cables also have the advantage of long cable lengths or transmission distances, allowing for network connections over longer distances. However, single mode fiber optic cables are the most expensive per foot or meter compared to both Cat. 6 UTP and coaxial cables. The termination and installation costs for single mode fiber optic cables can also be higher due to the requirement for specialized connectors and tools.

When considering which cable type to use for a business’s network infrastructure, several factors should be taken into account. First, the cost per foot or meter of the cable is an important consideration, as it will impact the overall budget for the network installation. Second, the termination and installation costs should be considered, as they can add to the overall cost of the network infrastructure. Third, the required bandwidth should be evaluated to ensure that the chosen cable type can support the desired network performance. Fourth, the cable length or transmission distance is important, especially if the network connections need to span larger distances. Fifth, the types of end point devices that will be connected to the network, such as workstations, switches, and servers, should be taken into account, as different cable types may be more suitable for different devices. Sixth, the intended use of the cable, whether in-building horizontal or vertical, should be considered, as this may impact the choice of cable type. Finally, the need for any conversion or interface equipment should also be considered, as this can add to the complexity and cost of the network infrastructure.