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FIBER OPTIC WAVEGUIDE.

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Presentation on theme: "FIBER OPTIC WAVEGUIDE."— Presentation transcript:

1 FIBER OPTIC WAVEGUIDE

2 Outline of Talk OF communication system
Advantages and limitations of OFC What is an optical fiber? Types of optical fiber How fibers works ?

3 Optical fiber communication system
Attenuation, Dispersion, crosstalk & noise Optical Transmitter Comm. Channel (Optical fiber) Receiver Input Output

4 Advantages of OFC Greater bandwidth Low attenuation
Electrical immunity (no RFI, EMI) Greater security Flexibility Falling cost Long repeater spacing Smaller size and weight than copper cables

5 What is an Optical Fiber?
An optical fiber is a waveguide for light Consists of : Core: inner part where wave propagates Cladding: outer part used to keep wave in core Buffer : protective coating Jacket: outer protective shield SiO2 doped with GeO2 Low n High n

6 Types of fiber optic waveguide
According to the refractive index profile Step index fiber Graded index fiber According to the mode of propagation Single mode fiber (SM) Multimode fiber (MM)

7 Specification and Performance Ch. of MM step index fiber
Fiber diameter Step change in refractive index Typical structure of MM step index fiber Refractive index n1 n2 Structure: Core diameter : 50 ~ 400 m Cladding dia : 125 ~ 500 m Buffer jacket dia.:250 ~ 1000 m NA : 0.16 ~ 0.5

8 Specification and Performance Ch. of SM step index fiber
Fiber diameter Step change in refractive index Typical structure of SM step index fiber Refractive index n1 n2 Structure: Core diameter : 5 ~ 10 m Cladding dia : generally 125 m Buffer jacket dia.: 250 ~ 1000 m NA : 0.08 ~ 0.15, around 0.1

9 Types of OF with specification and Performance Ch.
Fiber diameter Gradual change in refractive ind. Typical structure of MM Graded index fiber Refractive index n1 n2 Structure: Core diameter : 30 ~ 100 m Cladding dia : 100 ~ 150 Buffer jacket dia.: 250 ~ 1000 NA : 0.2 ~ 0.3

10 How Fibers Work

11 The General Principle The classical understanding of fiber optics comes from Snell’s Law! Step index fibers: Total Internal Reflection GRIN fibers: layered changes in refractive index

12 Total Internal Reflection
According to Snell’s Law t = 900 low index, n2 Exit rays high index, n1 i i Incident rays c

13 Step Index Fiber n1 > n2 Escapes core (freedom!) n2 Cladding n1
Escapes from core Cladding n1 Core i Stuck in core c i i c = Critical Angle, i  c for total internal reflection

14 Graded Index Fiber n2 n varies Gradually n1 n2

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