optical fiber communication system important paper
DESCRIPTION
دعواتكم يا الغالينTRANSCRIPT
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Design by : Rahul Ohlan INDIA
M.R.I.E.M
Topic: Optical Fiber
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Brief flow of presentation
1. Introduction2. What are Optical Fibers?3. Evolution of optical fiber4. Structure of optical fiber5. Workings principle of optical fiber6. Classification of optical fiber7. Optical fiber communication system8. Advantages / Disadvantages of Optical fiber9. Applications of Optical fiber10. Conclusion
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Evolution of optical fiber
• 1880 – Alexander Graham Bell• 1930 – Patents on tubing• 1950 – Patent for two-layer glass wave-guide• 1960 – Laser first used as light source• 1965 – High loss of light discovered• 1970s – Refining of manufacturing process• 1980s – OF technology becomes backbone of long
distance telephone networks in NA.
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What is optical Fiber?
• 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.
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Structure of optical fiber
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• Core – central tube of very thin size made up of optically transparent dielectric medium and carries the light form transmitter to receiver. The core diameter can vary from about 5um to 100 um.
• Cladding – outer optical material surrounding the core having reflecting index lower than core. It helps to keep the light within the core throughout the phenomena of total internal reflection.
• Buffer Coating – plastic coating that protects the fiber made of silicon rubber. The typical
diameter of fiber after coating is 250-300 um.
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Working principle
Total Internal Reflection
• When a ray of light travels from a denser to a rarer medium such that the angle of incidence is greater than the critical angle, the ray reflects back into the same medium this phenomena is called total internal reflection.
• In the optical fiber the rays undergo repeated total number of reflections until it emerges out of the other end of the fiber, even if the fiber is bent.
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The arrow and the bent pencil
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Total internal reflection in optical fiber
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Classification of optical fiber
• Optical fiber is classified into two categories based on :-
1) The number of modes, and2) The refractive index
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On the basis of number of modes:- on the basis of number of modes of propagation the optical
fiber are classified into two types:(i) Single mode fiber (SMF) and(ii) Multi-mode fiber (MMF)• Single-mode fibers – in single mode fiber only one mode
can propagate through the fiber. This type of fiber has small core diameter(5um) and high cladding diameter(70um) and the difference between the refractive index of core and cladding is very small. There is no dispersion i.e. no degradation of signal during travelling through the fiber.
• The light is passed through the single mode fiber through laser diode.
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• Multi-mode fiber :- • Multi mode fiber allows a large number of modes
for the light ray travelling through it.• The core diameter is (40um) and that of cladding
is(70um)• The relative refractive index difference is also larger
than single mode fiber.• There is signal degradation due to multimode
dispersion.• They are not suitable for long distance
communication due to large dispersion and attenuation of the signal.
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Refraction at a plane surface
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Refraction
Refraction is the changing direction of light when it goes into a material of different
density
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On the basis of Refractive index
• There are two types of optical fiber:-• (i) Step-index optical fiber• (ii) Graded-index optical fiber
• Step
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Step index fiber
• The refractive index of core is constant• The refractive index of cladding is also constant• The light rays propagate through it in the form of
meridiognal rays which cross the fiber axis during every reflection at the core cladding boundary.
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Graded Index fiber• In this type of fiber core has a non uniform
refractive index that gradually decrease from the centre towards the core cladding interface.
• The cladding has a uniform refractive index.• The light rays propagate through it in the form of
skew rays or helical rays. They do not cross the fiber axis at any time.
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How Optical Fiber’s are made??
• Three Steps are Involved in the manufacturing of the optical fiber which are given below:-
-Making a Preform Glass Cylinder-Drawing the Fiber’s from the preform-Testing the Fibre
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Optical Fiber Communication System
Information source
Electrical
source
Optical source
Optical fiber cable
Optical detector
Electrical
receive
Destination
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• Information source- it provides an electrical signal to a transmitter comprising an electrical stage.
• Electrical transmitter- It drives an optical source to give an modulation of the light wave carrier.
• Optical source- It provides the electrical-optical conversion .It may be a semiconductor laser or an LED.
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• 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.
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Attenuation
• Attenuation is the loss of the optical power.• Attenuation in optical fiber take place due to
elements like coupler, splices, connector and fiber itself.
• A fiber lower attenuation will allow more power to reach a receiver than with a higher attenuation.
• Attenuation may be categorised as – (i) Intrinsic(ii) Extrinsic
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Factor causing attenuation in Fiber
• Fig. shows the factor affecting the attenuation in fiber-
Attenuation
Intrinsic
Absorption Scattering
Extrinsic
Macrobending
Microbending
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Variation of specific attenuation with wavelength
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Attenuation & Wavelength
• The specific attenuation ( power loss in dB per unit length ) actually depends on the wavelength of the radiation travelling along the optic fibre
• The graph shows minima at 1310nm and 1550nm, which implies that these are desirable wavelengths for optimal transmission
• These are infra red wavelengths
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Advantage of optical fiber communication
1) The life of fiber is longer than copper wire2) Handling and installation costs of optical fiber is very
nominal3) It is unaffected with electromagnetic interference 4) Attenuation in optical fiber is lower than coaxial cable or
twisted pair.5) There is no necessity of additional equipment for
protecting against grounding and voltage problems.6) As it does not radiates energy any antenna or detector
cannot detects it hence provides signal security
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Disadvantage
1) Highly skilled staff would be required for maintenance
2) Only point to point working is possible on optical fiber
3) Precise and costly instruments would be required
4) Costly if under utilized. 5) Accept unipolar codes only.6) Jointing of fiber and splicing is also time
consuming.
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Applications
• In telecommunication field• In space applications• Broadband applications• Computer applications industrial applications • Mining applications• In medical applications• In military applications etc.
• Optical fiber have wider range of application in almost all field, some are been specified below
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• Optical fiber have wider range of application in almost all field, i.e. in medical, electronics, military etc .some are been specified below
• Medical
• Military
• Electronics
IBM microprocessors
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The Endoscope
There are two optical fibres
One for light, to illuminate the inside of the patient
One for a camera to send the images back to the doctor. Key hole surgery
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Conclusion
This concludes our study of optical fiber communications have looked at how they work and how they are made. We have examined the properties of fibers, and how fibers are joined together. Although this presentation does not cover all the aspects of optical fiber work it will have equipped you knowledge and skills essential to the fiber optic industry.
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