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Wired Communication Media

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In computer networking and mechanism of data communication flow. Transmission media is defined as the total path through which data goes from sender to receiver. All the physical channels and cables that help data to go from one point to another point are transmission media.

In other words, when data is transmitted via electromagnetic waves Transmission media acts as a medium to transfer information from one part to the other and is defined as the communication channel to carry the data in a process. For better transmission media, there are some factors that should be taken care of as the bandwidth of the transmission media should be greater in order to have a stronger transmission media. The other factor is Interference whenever data communication flow takes place then chances of unwanted noise signals are there so to disrupt those signals interference is used. 

In the OSI model, the transmission media is available in the lowest layer (Physical layer). The quality of data flow in transmission media depends on the medium and the signal (Bandwidth).

There are two types of Transmission media:

  • Wired communication media (Also Known as Guided media)
  • Wireless communication media (Also Known as Unguided media)

What is Wired Communication Media?                                             

Wired communication media are also known as Guided media and are a type of Transmission media. This type of communication is the most stable which is why it is considered better than wireless. These connections are less prone to other outer interferences. In wired communication media, wire is used to transfer data from source to destination. Wired communication media is not better for public use but can be used for professional purposes as it more relies on wires and ports which is not the case with wireless networks, data can be accessed from anywhere. Also, the connection speed of wired media is more as compared to wireless. The whole setup of wired media is also expensive as the larger the distances more no. of cables and ports would be required and fiber optic cables are usually expensive.

The diagram given below shows the transmission media its types and its subtypes.

Twisted pair cable

As the name suggests these are two twisted pairs of cables or wires made up of insulated copper. These are twisted together in such a way that they run parallelly one wire is used for the transmission of data and the other wire is used for ground. Usually, these wires or cables are 1mm in diameter. The twisted-pair cable is made up of 2 copper wires (insulated) arranged in a spiral pattern. Noise interference is more often the problem in these cables but it can be handled by increasing the number of turns per foot of twisted pair cable. 

Working of twisted-pair cables: The twisted-pair cable has an outer jacket that keeps the wires together, a shield for the protection of the cable, color-coded plastic insulation to uniquely identify each conductor, and twisting of wires to cancel the electromagnetic waves that create noise interferences during the transmission of data. When current flows through the cable then a small circular magnetic field is created around the wire. For the connection between two devices connectors are needed at both ends like RJ45 for computer connection.

Types of Twisted pair cables are:-

  • Unshielded Twisted pair (UTP)
  • Shielded Twisted pair (STP)

Unshielded Twisted pair (UTP)

UTP cables are the most common twisted pair cables that are used in computer networks as well as in telecommunication. These cables are made up of 4 color-coded copper wires twisted together to cancel the disturbances from outer sources and electromagnetic interference. There are different categories of UTP cables used for telecommunication and other purposes. For example, some are used for telephone line services with good speed and some offer 4mbps to 16mbps speed some provide 20mbps speed and it is enough for communication for longer distances.

Connectors: The most common UTP connector is RJ45 (Here, RJ stands for registered jack), (There are two types of RJ45 male and RJ45 female cable). RJ45 is a keyed connector, which means that the connector can be connected in only one way. Its cables are mostly used on an ethernet connection. For example, Computers, Modems, Printers, and various network storage devices.

Merits

  • These cables are cheaper.
  • The maintenance cost is low.
  • It doesn’t require any ground wire.

Demerits

  • The transmission rate of data is slow.
  • Noise is high in these cables.

Shielded Twisted pair cables (STP)

In comparison, UTP’s Shielded twisted pair cables are costlier and consist of metal foil sometimes made up of insulated conductors. Metal foils help to improve the quality of the wire which otherwise will be affected by noise. These cables are used to reduce crosstalk and the interference caused due to electromagnetic waves. The company that first introduced these STP cables was IBM. These cables are used for both Analog and digital transmissions.

Merits

  • The transmission rate of data is fast.
  • Noise is slow in these cables.

Demerits

  • These cables are costlier.
  • The maintenance cost is higher.
  • It requires ground wire.

Applications 

Some applications of Twisted pair cables:

  1. Telephone systems: To provide voice and data channels.
  2. LANs use twisted-pair cables.
  3. The DSL lines used by telephone companies also use unshielded twisted pair cables to provide extremely high data rate connections.

Co-axial cable

The most common type of transmission media that is used in various applications like tv wires and ethernet connection setup also. This is a form of transmission media that consists of two conductors kept parallel to each other. It has a central core conductor of a solid copper wire enclosed in an insulating sheet and the middle core conductor is made up of copper mesh and lastly an outer metallic wrap that helps in noise cancellation. The whole cable is covered and protected by a plastic cover.

It is considered better than twisted-pair cables because of the higher frequency range. Coaxial cables are best suited for shorter distances as there are higher chances of data loss in more distances for fiber optic cables are best as fibers are capable of higher data transfer and with greater speed as compared to coaxial cables. Cost and maintenance are also less, unlike fiber optic cables. And the durability of these cables is more. 

The various types of coaxial cables:

  1. Triaxial Coaxial Cable
  2. RG-49Coaxial Cable
  3. RG-11 Coaxial Cable
  4. RG-6Coaxial Cable
  5. Hardline cable
  6. Rigid Coaxial Cable
  7. Semi-Rigid Coaxial Cable
  8. Formable Coaxial Cable
  9. Flexible Coaxial Cable

Working of Coaxial Cables: Coaxial cables are made up of copper wires for carrying higher frequency signals this wire is covered with an insulated foil cover whenever current flows it maintains a constant distance between the conductor and the next layer and then a shielded wire that prevents the interference of noise in between the transmission and at last the plastic cover that protects the whole cable from any outer disturbances. Hence, a coaxial cable carries a signal in a way that when the current enters the center copper wire as well as the metal shield. The metal conductors at that point generate a magnetic field. The insulators help the signals not to come in contact with each other, they also the signal from outside magnetic fields. In this way, the signal is carried over larger distances without much loss.

Coaxial Cable Standards: These cables are categorized by their radio government (RG) ratings and each RG number denotes a unique set of physical specifications. Example, 

RG-59        75 ohm           Cable TV

RG-58        50 ohm           Thin Ethernet

Application

Some applications of Coaxial cables:

  1. Digital telephone networks
  2. Analog telephone networks
  3. Cable TV networks
  4. Ethernet LANs

Merits

  • The cost of coaxial cables is less as compared to fiber optic cables.
  • It has a higher data transmission rate.
  • It can be used in both analog and digital transmissions.
  • Higher-frequency applications can use coaxial cables for better performance.

Demerits

  • For long distances, the cost of these cables will be higher.
  • The size of these cables is usually bulky because of various layers of metal as well as copper and plastic.
  • The data transmission over long distances is poor.

Fiber-optic cables

Also known as optic fiber cables are highly efficient and advanced data transmission cables that allow the transfer of data in a very large volume. Fiber optic cables allow data transmission with the help of electrical signals. These are thin pipes made up of glass or plastic known as optic fibers and data or information flows via light in these cables. With higher bandwidth and high-quality performance optic fiber cables are best suited for long-distance data transfer and communication.

Types of Fibre-Optic Cables;

  • Single-mode Fibres: It is capable of one-way transmission with a rate of almost 50 times more than multimode fibers. Used in small-scale companies and in local area networks also.
  • Multimode Fibres: It has higher bandwidth and cable of two-way transmission capable of higher data transmission. Used in local area networks, corporate sectors, and private networks also.

Working of fiber-optic cable: Fiber optic cables carry information via light so at the transmitting side the light source is first encoded with data or information and then the data starts flowing in the core of the fiber optic cable in a completely bouncing manner with a complete internal reflection then there is cladding that helps the light to remain inside the cable after reaching the receiver side the data is then decoded like the original. So basically fiber optic is a form of transmission media for the transfer of data via light with higher bandwidth and a higher rate of transmission.

It consists of five major parts named core, Cladding, Coating, Strengthening, and Outer jacket.

Here, the Core is a thin part of the glass of the optic fiber cable and cladding is the insulation around the core coating is the protective layer for the optical fiber the strengthening part allows protection to the core and at last outer jacket for the whole optic fiber tube.

Application 

Some applications of Fibre-optic cables.

  • One of the most popular and important uses of Fibre -optic cables is the INTERNET.
  • Television broadcasting These cables are very much suitable for transmitting signals for high-definition televisions because of their greater bandwidth and speed.
  • In surgical operations in medicine, these cables are used in various fields of medicine and research purposes as their cost is low as compared to other cables.
  • It is used in industries and in defense services also these cables are of great use.

Merits

  • Long durability: These have long durability of almost 100 years.
  • Low cost: Due to the cheaper cost these cables are in high demand usually of more use.
  • Greater bandwidth and speed: Higher speed and great bandwidth help in faster and even smoother data transmission.
  • Light signals: In the same fiber cable light signals of one fiber and the other do not interfere with each other which is not the case with other cables.

Demerits

  • Delicacy: Fibre-optic cables are more delicate as compared with copper wires. If bent too much these cables can be damaged easily.
  • Installation Cost: The installation process is cost-effective as it requires machines and a specialist team for the setup of the fiber cables.
  • Low power: Since data flows via light in these cables power supply is limited, and for high-power emitters cost would be more.

Comparison of Wired Communication Media

Properties

Twisted Pair

Co-axial Cable

Fiber optic cable

Cost Inexpensive Twice or Thrice than twisted pair Expensive
Installation Easy Easy Difficult
Attenuation More More Very Less
EMI Effect Maximum Minimum No effect
Bandwidth 1 to 100 Mbps/100m 500 Mbps/100m Gega bps/km
Signal Type Electrical Electrical Light Signals


Last Updated : 06 Jan, 2023
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