This document discusses different types of transmission media used for computer communications, including bounded and unbounded media. Bounded media, such as coaxial cable, twisted pair cable, and fiber optic cable, confine signals to a narrow path. Coaxial cable uses a central copper conductor surrounded by insulation and an outer copper shield. Twisted pair cable consists of pairs of copper wires twisted together. Fiber optic cable uses glass strands to transmit data via pulses of light. Unbounded media, also called wireless media, do not use physical connectors and can include radio waves, microwaves, and infrared waves for transmission.
My 4 Semester Networking Presentation,
Guided Media along with its types
Twisted pair
-Shield Twisted Pair
-Unshield Twisted Pair
Coaxial Cable
Fibre Optics
-SIngle Mode
-Multi Mode
-Graded Mode
Unguided Media along with its types
Radio Waves
Micro Waves
Infrared.
An optical fiber is a hair thin cylindrical fiber of glass or any transparent dielectric medium.
The fiber which are used for optical communication are wave guides made of transparent dielectrics.
Its function is to guide visible and infrared light over long distances.
Fiber-optic communication is a method of transmitting information from one place to another by sending pulses of light through an optical fiber. The light forms anelectromagnetic carrier wave that is modulated to carry information.
Optical fiber is used by many telecommunications companies to transmit telephone signals, Internet communication, and cable television signals.
The process of communicating using fiber-optics involves the following basic steps: Creating the optical signal involving the use of a transmitter, relaying the signal along the fiber, ensuring that the signal does not become too distorted or weak, receiving the optical signal, and converting it into an electrical signal.
Optical cable: It serves as transmission medium.
Optical detector: It is responsible for optical to electrical conversion of data and hence responsible for demodulation of the optical carrier. It may be a photodiodes, phototransistor, and photoconductors.
Electrical receiver: It is used for electrical interfacing at the receiver end of the optical link and to perform the signal processing electrically.
Destination: It is the final point at which we receive the information in the form of electrical signal.
Applications -In telecommunication field
In space applications
Broadband applications
Computer applications industrial applications
Mining applications
In medical applications
In military applications etc.
This slide shows information on Guided and Unguided media in data communication and networking. things like types of cables for guided media and wireless routers for unguided media transfers
Spread spectrum is a communication technique that spreads a narrowband communication signal over a wide range of frequencies for transmission then de-spreads it into the original data bandwidth at the receive.
My 4 Semester Networking Presentation,
Guided Media along with its types
Twisted pair
-Shield Twisted Pair
-Unshield Twisted Pair
Coaxial Cable
Fibre Optics
-SIngle Mode
-Multi Mode
-Graded Mode
Unguided Media along with its types
Radio Waves
Micro Waves
Infrared.
An optical fiber is a hair thin cylindrical fiber of glass or any transparent dielectric medium.
The fiber which are used for optical communication are wave guides made of transparent dielectrics.
Its function is to guide visible and infrared light over long distances.
Fiber-optic communication is a method of transmitting information from one place to another by sending pulses of light through an optical fiber. The light forms anelectromagnetic carrier wave that is modulated to carry information.
Optical fiber is used by many telecommunications companies to transmit telephone signals, Internet communication, and cable television signals.
The process of communicating using fiber-optics involves the following basic steps: Creating the optical signal involving the use of a transmitter, relaying the signal along the fiber, ensuring that the signal does not become too distorted or weak, receiving the optical signal, and converting it into an electrical signal.
Optical cable: It serves as transmission medium.
Optical detector: It is responsible for optical to electrical conversion of data and hence responsible for demodulation of the optical carrier. It may be a photodiodes, phototransistor, and photoconductors.
Electrical receiver: It is used for electrical interfacing at the receiver end of the optical link and to perform the signal processing electrically.
Destination: It is the final point at which we receive the information in the form of electrical signal.
Applications -In telecommunication field
In space applications
Broadband applications
Computer applications industrial applications
Mining applications
In medical applications
In military applications etc.
This slide shows information on Guided and Unguided media in data communication and networking. things like types of cables for guided media and wireless routers for unguided media transfers
Spread spectrum is a communication technique that spreads a narrowband communication signal over a wide range of frequencies for transmission then de-spreads it into the original data bandwidth at the receive.
Wireless communication is the transfer of information between two or more points that are not connected by an electrical conductor.
The most common wireless technologies use radio
A short ppt on transmission media with its pros cons guided unguided and other sub topics explained in a brief non technical manner so that it is easy to explain and answer questions upon... enjoy
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2. TRANSMISSION MEDIA
• The means through which data is
transformed from one place to another is
called transmission or communication
media.
• There are two categories of transmission
media used in computer communications.
4. BOUNDED MEDIA
• Bounded media are the physical links
through which signals are confined to
narrow path.
• These are also called guide media.
• Bounded media are made up a external
conductor (Usually Copper) bounded by
jacket material.
5. • Bounded media are great for LABS
because they offer high speed, good
security and low cast.
• However, some time they cannot be used
due distance communication.
• Three common types of bounded media
are used of the data transmission.
6. Types Of Bounded Media
Coaxial Cable
Twisted Pairs Cable
Fiber Optics Cable
7.
8. COAXIAL CABLE
• Coaxial cable is very common & widely
used commutation media.
• For example TV wire is usually coaxial.
• Coaxial cable gets its name because it
contains two conductors that are parallel
to each other.
• The center conductor in the cable is
usually copper.
• The copper can be either a solid wire or
stranded martial.
9. • Outside this central Conductor is a nonconductive material.
• It is usually white, plastic material used to
separate the inner Conductor form the
outer Conductor.
• The other Conductor is a fine mesh made
from Copper.
• It is used to help shield the cable form
EMI.
10. • The actual data travels through the center
conductor in the cable.
• There are different types of coaxial cable
vary by gauge & impedance.
• Gauge is the measure of the cable
thickness. It is measured by the Radio
grade measurement, or RG number.
• The high the RG number, the thinner the
central conductor core, the lower the
number the thicker the core.
11. Here the most common coaxial standards.
• 50-Ohm RG-7 or RG-11 : used with thick
Ethernet.
• 50-Ohm RG-58 : used with thin Ethernet
• 75-Ohm RG-59 : used with cable
television
• 93-Ohm RG-62 : used with ARCNET.
13. ADVANTAGES COAXIAL CABLE
Inexpensive
Easy to wire
Easy to expand
Moderate level of EMI immunity
DISADVANTAGE COAXIAL CABLE
Single cable failure can take down an entire
network
14. Twisted Pair
• The most popular network cabling is
Twisted pair.
• It is light weight, easy to install,
inexpensive and support many different
types of network.
• It also supports the speed of 100 mps.
• Twisted pair cabling is made of pairs of
solid or stranded copper twisted along
each other.
15. • The twists are done to reduce vulnerably
to EMI and cross talk.
• The number of pairs in the cable depends
on the type.
• The copper core is usually 22-AWG or 24AWG, as measured on the American wire
gauge standard.
• There are two types of twisted pairs
cabling
17. Unshielded twisted pair (UTP)
• UTP is more common.
• It can be either voice grade or data grade
depending on the condition.
• UTP cable normally has an impedance of
100 ohm.
• UTP cost less than STP and easily
available due to its many use.
• There are five levels of data cabling
18. Advantages of UTP
– Easy installation
– Capable of high speed for LAN
– Low cost
Disadvantages of UTP
– Short distance due to attenuation
19. Shielded twisted pair (STP)
• It is similar to UTP but has a mesh
shielding that’s protects it from EMI which
allows for higher transmission rate.
• IBM has defined category for STP cable.
20. Type 1
• STP features two pairs of 22-AWG
Type 2
• This type include type 1 with 4 telephone pairs
Type 6
• This type feature two pairs of standard shielded
26-AWG
Type 7
• This type of STP consist of 1 pair of standard
shielded 26-AWG
Type 9
• This type consist of shielded 26-AWG wire
21. Advantages of STP:
– Shielded
– Faster than UTP and coaxial
Disadvantages of STP:
– More expensive than UTP and coaxial
– More difficult installation
– High attenuation rate
23. • Fiber optic cable uses electrical signals to
transmit data.
• It uses light.
• In fiber optic cable light only moves in one
direction for two way communication to
take place a second connection must be
made between the two devices.
24. • It is actually two stands of cable. Each
stand is responsible for one direction of
communication.
• A laser at one device sends pulse of light
through this cable to other device.
• These pulses translated into “1’s” and
“0’s” at the other end.
25. • In the center of fiber cable is a glass stand
or core.
• The light from the laser moves through
this glass to the other device around the
internal core is a reflective material known
as CLADDING.
• No light escapes the glass core because
of this reflective cladding.
• Fiber optic cable has bandwidth more
than 2 gbps (Gigabytes per Second)
26. Advantages Of Fiber Optic Cable:
• Fast
• Low attenuation
• No EMI interference
Disadvantages Fiber Optics:
• Very costly
• Hard to install
27. UNBOUNDED / UN GUIDED
MEDIA
• Unbounded / Unguided media or
wireless media doesn't use any physical
connectors between the two devices
communicating.
• Usually the transmission is send through
the atmosphere but sometime it can be
just across the rule.
28. Three Types Of Wireless Media
– RADIO WAVES
– MICRO WAVES
– INFRARED WAVES
30. RADIO WAVES
• It has frequency between 10 K Hz to1 G
Hz. Radio waves has the following types.
Short waves
VHF (Very High Frequency)
UHF (Ultra High Frequency)
31. SHORT WAVES
• There are different types of antennas used for
radio waves.
• Radio waves transmission can be divided into
following categories.
• LOW POWER, SINGLE FREQUENCY.
• HIGH POWER, SINGLE FREQUENCY
• LOW POWER , SINGLE FREQUENCY:• As the name shows this system transmits from
one frequency and has low power out. The
normal operating ranges on these devices are
20 to 25 meter.
33. • Micro waves travels at high frequency
than radio waves and provide through put
as a wireless network media.
• Micro wave transmission requires the
sender to be inside of the receiver.
Following are the types of Micro waves.
• Terrestrial Micro waves
• ·Satellite Micro waves
34. Terrestrial Micro waves
• Terrestrial Micro waves are used are used
to transmit wireless signals across a few
miles.
• Terrestrial system requires that direct
parabolic antennas can be pointed to each
other.
• These systems operate in a low Giga
Hertz range.
36. • The main problem with aero wave
communication is the curvature of the
earth, mountains & other structure often
block the line of side.
• Due to this reason, many repeats are
required for long distance which increases
the cost of data transmission between the
two points.
• This problem is recommended by using
satellites.
37. • Satellite micro wave transmission is used
to transmit signals through out the world.
• These system use satellites in orbit about
50,000 Km above the earth.
• Satellite dishes are used to send the
signals to the satellite where it is again
send back down to the receiver satellite.
• These transmissions also use directional
parabolic antenna’ with in line of side.
38. • In satellite communication micro wave
signals at 6 GHz is transmitted from a
transmitter on the earth through the
satellite position in space.
• By the time signal reaches the satellites
becomes weaker due to 50,000 Km
distance.
• The satellite amplifies week signals and
transmits it back to the earth at the
frequency less than 6 GHz.
39. Infrared
• Infrared frequencies are just below visible
light.
• These high frequencies allow high sped
data transmission.
• This technology is similar to the use of a
remote control for a TV.
• Infrared transmission can be affected by
objects obstructing sender or receiver.
40. These transmissions fall into two categories.
• Point to point
• Broadcast
• (i) Point to Point: - Point to point infrared
transmission signal directly between two
systems. Many lap top system use point to
pint transmission. These systems require
direct alignment between many devices.
41. • Broad Cast: - These infrared transmission
use sprayed signal, one broad cast in all
directions instead of direct beam. This
help to reduce the problems of proper
alignment and abstraction. It also allows
multiple receiver of signal