Optical fiber communication is a technology that uses optical fiber to transmit data, images and other information. It is a type of wired communication that is faster and more reliable than traditional communication methods such as copper wire. Optical fiber communication is used in a variety of settings, including businesses, hospitals and schools.
The latest Optical Fiber Communication for PC has come up with a few updates that are better than the previous version. Want to know those? Here are they:
Optical Fiber Communication Andorid App Summary
Engineering Wale Baba has developed the Optical Fiber Communication for Android. You can find it under the Education category on Play Store. Since its inception, Optical Fiber Communication has got over 11451+ users on board. For the user rating, it is currently holding a 3.0 rating and the latest version of it is 1.6
The latest update of Optical Fiber Communication is May 19, 2021 for phones. You can’t use it on your PC directly. So, you have to use an Android emulator like BlueStacks Emulator, Memu Emulator, Nox Player Emulator, etc.
No worries, we will discuss the methods to run it on your computer using the emulators whether you use a PC or Mac. Follow the methods we’ve discussed below.
Optical Fiber Communication App Overview and Details
Optical Fiber Communication:
The app is a complete handbook of Optical Fiber Communication or Lasers and Fiber optics which covers important topics, notes, materials on the course.
This useful App lists 225 topics with detailed notes, diagrams, equations, formulas & course material, the topics are listed in 5 chapters. The app is must have for all the engineering science students & professionals.
The App is designed for quick learning, revisions, references at the time of exams and interviews.
This app cover most of related topics and Detailed explanation with all the basics topics.
Some of the topics Covered in the app are:
1. Historical development
2. Optical fiber communication system
3. Advantages of optical fiber communication
4. Ray Model
5. Attenuation
6. Carrier recombination:
7. Absorption
8. Linear scattering losses
9. Nonlinear scattering losses
10. Fiber bend loss
11. Dispersion
12. Overall fiber dispersion
13. Dispersion-modified single-mode fibers
14. Polarization
15. Nonlinear effects
16. Soliton propagation
17. Optical fiber splices
18. Optical connectors
19. Cylindrical ferrule connectors
20. Duplex and multiple-fiber connectors
21. Expanded beam connectors
22. GRIN-rod lenses
23. Fiber couplers
24. Three- and four-port couplers
25. Star couplers
26. Wavelength division multiplexing couplers
27. Optical isolators and circulators
28. Optical spectral filters
29. Wavelength Interference filter de-multiplexers
30. GRIN-rod lensed band-pass de-multiplexer
31. Interaction length
32. Fiber Bragg grating (FBG)
33. Arrayed waveguide grating (AWG)
34. “Constructive interference ”
35. Optical add/drop wavelength multiplexer using FBG
36. Optical Source
37. Laser action- General principles
38. The Einstein relations
39. Population inversion
40. Optical feedback and laser oscillation
41. Threshold condition for laser oscillation
42. Optical emission from semiconductors
43. Spontaneous emission
44. Other radiative recombination processes
45. Stimulated emission
46. Heterojunctions
47. The semiconductor injection laser
48. Stripe geometry of Injection laser
49. Laser modes in injection laser
50. Single-mode operation of the Injection laser
51. Gain-guided lasers
52. Index-guided lasers
53. Quantum-well lasers
54. Quantum-dot laser
55. Single-frequency injection lasers
56. Injection laser characteristics
57. Injection laser to fiber coupling
58. The Nd: YAG laser
59. Glass fiber lasers
60. Mid-infrared and far-infrared lasers
61. Long external cavity lasers
62. Fiber lasers
63. Integrated external cavity lasers
64. LED as Optical Source
65. LED power and efficiency
66. LED structures
67. LED characteristics
68. Optical detectors
69. Optical detection principles
70. P-N-Photodiodes
71. Absorption
72. Direct and indirect absorption: silicon and germanium
73. The PIN photodiode
74. Traveling-wave photodiodes
75. Unitraveling carrier (UTC) photodiode
76. Resonant cavity enhanced photodiode
77. Noise in PIN Photodiode
Each topic is complete with diagrams, equations and other forms of graphical representations for better learning and quick understanding.
All topics are not listed because of character limitations.
Features :
* Chapter wise complete Topics
* Rich UI Layout
* Comfortable Read Mode
* Important Exam Topics
* Very simple User Interface
* Cover Most Of Topics
* One click get related All Book
* Mobile Optimized Content
* Mobile Optimized Images
This app will useful for quick reference. The revision of all concepts can be finished within Several hour using this app.
Fiber-optic or Lasers and Fiber optics is part of engineering education courses and technology degree programs of various universities.
Instead of giving us a lower rating, please mail us your queries, issues and give us valuable Rating And Suggestion So we can consider it for Future Updates. We will be happy to solve them for you.
Features of Optical Fiber Communication for PC
emission
44. Stimulated emission
45. Einstein coefficient
46. stimulated Brillouin scattering
47. Four-wave mixing
48. Optical amplification- General principles
49. Raman amplification
50. Parametric amplification
Install “Optical Fiber Communication” on PC: Windows 10/8/7 & Mac
Installing Optical Fiber Communication on your PC won’t seem a big deal as it’s now, but only if you use NOX app player on your computer. It’s one of the most popular Android emulators you can use today. Let’s get you through the process of how to install Optical Fiber Communication on your PC using NOX:
- First off, you need to download the NOX player on your computer from here and install it by double clicking the installer.
- The installation will take a few minutes depending on how fast your PC is. Then, click on launch and run the emulator.
- Inside the emulator, you can see the Google Play store icon on the top right corner area. Click on it.
- Play store will ask you to log into your account. Here, use your Google email and password to log in.
- Then, you can see the play store interface. On the search bar, you need to type Optical Fiber Communication and hit enter to search for it.
- Once the results come up, you can see the Optical Fiber Communication as the first result. Hit install under this result and it will download and install on your PC.
- After installation, you can launch the app from the shortcut button or directly from the Play store form the Open button.
App Name: | Optical Fiber Communication On Your PC |
Devoloper Name: | Engineering Wale Baba |
Latest Version: | 1.6 |
Android Version: | 4.1 |
Supporting OS: | Windows,7,8,10 & Mac (32 Bit, 64 Bit) |
Package Name: | engg.hub.opticalfibre.comm |
Download: | 11451+ |
Category: | Education |
Updated on: | May 19, 2021 |
Get it On: |
Whats New In this Optical Fiber Communication?
Added New Data And Working Smoothly..
Conclusion
Optical fiber communication is a process of transmitting digital data over optical fibers. Optical fibers are made of glass and can transmit data at high speeds. They are used in telecommunications and networking applications.
So, did you find the guide on how to download the Optical Fiber Communication for PC above? If you did, or if you have any questions regarding it, do comment and let us know. We’re here to help.
Disclaimer
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