Download Optical Fiber Design PDF

Related PDFs (76)

Amplifier Characteristics
Formulas : 21   Size : 433 kb
Amplifier Functions and Network
Formulas : 15   Size : 386 kb
Amplitude Modulation Characteristics
Formulas : 18   Size : 384 kb
Analog Noise and Power Analysis
Formulas : 14   Size : 361 kb
Antenna Theory Parameters
Formulas : 24   Size : 417 kb
Array Datapath Subsystem
Formulas : 19   Size : 363 kb
Basics of Image Processing
Formulas : 17   Size : 421 kb
BJT Circuit
Formulas : 20   Size : 398 kb
BJT Differential Amplifiers
Formulas : 19   Size : 371 kb
BJT Microwave Devices
Formulas : 15   Size : 349 kb
Cellular Concepts
Formulas : 16   Size : 326 kb
Charge Carrier Characteristics
Formulas : 16   Size : 413 kb
CMOS Circuit Characteristics
Formulas : 15   Size : 356 kb
CMOS Delay Characteristics
Formulas : 13   Size : 319 kb
CMOS Design Characteristics
Formulas : 24   Size : 395 kb
CMOS Inverters
Formulas : 16   Size : 379 kb
CMOS Power Metrics
Formulas : 17   Size : 370 kb
CMOS Special Purpose Subsystem
Formulas : 20   Size : 346 kb
CMOS Time Characteristics
Formulas : 17   Size : 319 kb
Common Stage Amplifiers
Formulas : 26   Size : 427 kb
Common Stage Amplifiers Gain
Formulas : 13   Size : 310 kb
Continuous Time Signals
Formulas : 15   Size : 344 kb
CV Actions of Common Stage Amplifiers
Formulas : 18   Size : 384 kb
Data Analysis
Formulas : 15   Size : 307 kb
Data Transmissions and Error Analysis
Formulas : 14   Size : 298 kb
Devices with Optical Components
Formulas : 14   Size : 420 kb
Digital Communication
Formulas : 25   Size : 439 kb
Digital Switching System
Formulas : 15   Size : 330 kb
Diode Characteristics
Formulas : 16   Size : 394 kb
Discrete Time Signals
Formulas : 14   Size : 352 kb
Electromagnetic Radiation and Antennas
Formulas : 13   Size : 366 kb
Electrons and Holes
Formulas : 18   Size : 399 kb
Electrostatic Parameters
Formulas : 14   Size : 387 kb
Electrowave Dynamics
Formulas : 21   Size : 461 kb
Embedded System
Formulas : 19   Size : 371 kb
Energy Band and Charge Carrier
Formulas : 20   Size : 380 kb
Frequency Reuse Concept
Formulas : 16   Size : 332 kb
Fundamentals of Analog Communications
Formulas : 24   Size : 425 kb
Geostationary Orbit
Formulas : 14   Size : 340 kb
Information Theory And Coding
Formulas : 15   Size : 337 kb
Lasers
Formulas : 12   Size : 374 kb
Low Frequency Response Amplifiers
Formulas : 13   Size : 360 kb
Magnetron Oscillator
Formulas : 17   Size : 401 kb
MESFET Characteristics
Formulas : 13   Size : 323 kb
Mobile Radio Propogation
Formulas : 16   Size : 342 kb
MOS IC Fabrication
Formulas : 15   Size : 435 kb
MOSFET Amplifiers
Formulas : 20   Size : 430 kb
MOSFET Characterstics
Formulas : 16   Size : 369 kb
Multi Stage Amplifiers
Formulas : 20   Size : 385 kb
Multi Stage Transistor Amplifiers
Formulas : 15   Size : 352 kb
Negative Feedback Amplifiers
Formulas : 15   Size : 328 kb
Non Linear Circuits
Formulas : 16   Size : 381 kb
Operational Amplifiers
Formulas : 18   Size : 0 kb
Output Stages and Power Amplifiers
Formulas : 17   Size : 375 kb
Parametric Devices
Formulas : 13   Size : 324 kb
Photonics Devices
Formulas : 13   Size : 398 kb
Power Filters
Formulas : 15   Size : 345 kb
Radar and Antenna Specifications
Formulas : 24   Size : 403 kb
Radio Wave Propagation
Formulas : 14   Size : 352 kb
RF Microelectronics
Formulas : 19   Size : 0 kb
Satellite Orbital Characteristics
Formulas : 16   Size : 347 kb
Schmitt Trigger
Formulas : 15   Size : 303 kb
Semiconductor Carriers
Formulas : 15   Size : 389 kb
Semiconductor Characteristics
Formulas : 13   Size : 376 kb
Sideband and Frequency Modulation
Formulas : 21   Size : 391 kb
Signal and IC Amplifiers
Formulas : 17   Size : 391 kb
Special Antennas
Formulas : 34   Size : 513 kb
Special Purpose Radars
Formulas : 21   Size : 391 kb
SSD Junction
Formulas : 16   Size : 380 kb
Telecommunication Traffic System
Formulas : 22   Size : 351 kb
Television Engineering
Formulas : 17   Size : 308 kb
Transistor Amplifier Characteristics
Formulas : 18   Size : 375 kb
Transistor Operating Parameters
Formulas : 13   Size : 321 kb
Transmission Line and Antenna Theory
Formulas : 15   Size : 372 kb
Transmission Line Characteristics
Formulas : 15   Size : 383 kb
Wave Propagation
Formulas : 16   Size : 368 kb

Contents of the Optical Fiber Design PDF

List of 31 Optical Fiber Design Formulas

Beat Length
Brillouin Shift
Delta Parameter
Diameter of Fiber
Effective Interaction Length
External Quantum Efficiency
Fiber Attenuation Coefficient
Fiber Length
Gaussian Pulse
Graded Index Length of Fiber
Group Delay
Group Velocity
Modal Birefringence Degree
Non Linear Phase Shift
Normalised Propagation Constant
Normalized Frequency
Number of Modes
Number of Modes using Normalized Frequency
Numerical Aperture
Optical Dispersion
Optical Pulse Duration
Phase Shift of Jth Channel
Phase Velocity in Optic Fiber
Photo Current Generated to Incident Optical Power
Plane Wave Velocity
Power Loss in Fiber
Ray Optics Critical Angle
Rayleigh Scattering
Refractive Index of Cladding
Refractive Index of Fiber Core
Total Amplifier Gain for EDFA

Variables used in Optical Fiber Design PDF

  1. b Normalised Propagation Constant
  2. Bm Modal Birefringence Degree
  3. C Fiber Constant
  4. D Diameter of Fiber (Micrometer)
  5. Dopt Optical Fiber Dispersion (Square Second per Meter)
  6. G Total Amplifier Gain for an EDFA
  7. I Photo Current Generated to Incident Optical Power (Ampere)
  8. L Length of Fiber (Meter)
  9. Lb Beat Length (Meter)
  10. Leff Effective Interaction Length (Meter)
  11. m Range of Other Channels Except J
  12. N Number of Channels
  13. Mode Index
  14. N1 Population Density of Lower Energy Level (Hundred per Square Meter)
  15. N2 Population Density of Higher Energy Level (Hundred per Square Meter)
  16. ngr Grade Index Fiber
  17. NM Number of Modes
  18. x Mode Index X
  19. y Mode Index Y
  20. NA Numerical Aperture
  21. ØNL Non Linear Phase Shift (Radian)
  22. ØjNL Phase Shift Jth Channel (Radian)
  23. Pin Input Power (Watt)
  24. Pj Power of Jth signal (Watt)
  25. Pm Power of Mth signal (Watt)
  26. Pm Power of Mth Channel (Watt)
  27. Pn Power in Nth Channel (Watt)
  28. Pα Power Loss Fiber (Watt)
  29. P[z] Optical Power (Watt)
  30. rcore Radius of Core (Micrometer)
  31. Rm Photodetector Responsivity for Channel M (Ampere per Watt)
  32. Rn Photodetector Responsivity for Channel N (Ampere per Watt)
  33. Td Group Delay (Second)
  34. Tf[x] Fresnel Transmissivity
  35. Tmn Filter Transmittivity for Channel N
  36. V Normalized Frequency (Hertz)
  37. va Acoustic Velocity (Meter per Second)
  38. Vg Group Velocity (Meter per Second)
  39. vph Phase Velocity (Meter per Second)
  40. Vplane Plane Wave Velocity (Meter per Second)
  41. α Attenuation Loss
  42. αp Attenuation Coefficient
  43. αR Rayleigh Scattering (Decibel per Meter)
  44. β Propagation Constant (Radian per Meter)
  45. γ Non Linear Parameter (Decibel per Meter)
  46. Γs Confinement Factor
  47. Δ Delta Parameter
  48. ηclad Refractive Index of Cladding
  49. ηcore Refractive Index of Core
  50. ηeff Effective Index of Mode
  51. ηext External Quantum Efficiency
  52. ηi Refractive Index Incident Medium
  53. ηr Refractive Index Releasing Medium
  54. θ Critical Angle (Degree)
  55. θc Cone of Acceptance Angle (Radian)
  56. λ Wavelength of Light (Micrometer)
  57. λp Pump Wavelength (Micrometer)
  58. νb Brillouin shift (Hertz)
  59. σg Gaussian Pulse (Second per Meter)
  60. σλ Optical Pulse Duration (Second)
  61. σsa Absorption Cross Section (Square Meter)
  62. σse Emission Cross Section (Square Meter)
  63. ω Angular Velocity (Radian per Second)

Constants, Functions and Measurements used in Optical Fiber Design PDF

  1. Constant: pi, 3.14159265358979323846264338327950288
    Archimedes' constant
  2. Constant: [c], 299792458.0
    Light speed in vacuum
  3. Function: exp, exp(Number)
    n an exponential function, the value of the function changes by a constant factor for every unit change in the independent variable.
  4. Function: int, int(expr, arg, from, to)
    The definite integral can be used to calculate net signed area, which is the area above the x -axis minus the area below the x -axis.
  5. Function: modulus, modulus
    Modulus of a number is the remainder when that number is divided by another number.
  6. Function: sin, sin(Angle)
    Sine is a trigonometric function that describes the ratio of the length of the opposite side of a right triangle to the length of the hypotenuse.
  7. Function: sqrt, sqrt(Number)
    A square root function is a function that takes a non-negative number as an input and returns the square root of the given input number.
  8. Function: sum, sum(i, from, to, expr)
    Summation or sigma (∑) notation is a method used to write out a long sum in a concise way.
  9. Measurement: Length in Meter (m), Micrometer (μm)
    Length Unit Conversion
  10. Measurement: Time in Second (s)
    Time Unit Conversion
  11. Measurement: Electric Current in Ampere (A)
    Electric Current Unit Conversion
  12. Measurement: Area in Square Meter (m²)
    Area Unit Conversion
  13. Measurement: Speed in Meter per Second (m/s)
    Speed Unit Conversion
  14. Measurement: Power in Watt (W)
    Power Unit Conversion
  15. Measurement: Angle in Radian (rad), Degree (°)
    Angle Unit Conversion
  16. Measurement: Frequency in Hertz (Hz)
    Frequency Unit Conversion
  17. Measurement: Wavelength in Micrometer (μm)
    Wavelength Unit Conversion
  18. Measurement: Angular Velocity in Radian per Second (rad/s)
    Angular Velocity Unit Conversion
  19. Measurement: Population Density in Hundred per Square Meter (Hundred/m²)
    Population Density Unit Conversion
  20. Measurement: Attenuation in Decibel per Meter (dB/m)
    Attenuation Unit Conversion
  21. Measurement: Propagation Constant in Radian per Meter (rad/m)
    Propagation Constant Unit Conversion
  22. Measurement: Presement in Second per Meter (s/m)
    Presement Unit Conversion
  23. Measurement: Presity in Square Second per Meter (s²/m)
    Presity Unit Conversion
  24. Measurement: Responsivity in Ampere per Watt (A/W)
    Responsivity Unit Conversion

Free Optical Fiber Design PDF

Get Free Optical Fiber Design PDF for Download today. Examples are included after each Formula with a link to a live Calculator! All the Formulas and Calculators support Unit Conversion as well. This PDF features 31 calculators from Engineering. Inside, you'll discover a list of formulas such as Number of Modes using Normalized Frequency, Diameter of Fiber and 31 more formulas!. The Variables, Functions and Constants are summarized at the end. Explore and share Optical Fiber Design PDFs!

Let Others Know
Facebook
Twitter
Reddit
LinkedIn
Email
WhatsApp
Let Others Know
Facebook
Twitter
Reddit
LinkedIn
Email
WhatsApp
Copied!