Course Description:
The huge advance in communication systems leads to a parallel needs for data transmission actions in transmission media to full file with the high speeds in data transmission for different sites and environments.
Advanced communication systems have created the world’s most advanced telecommunication networks suite, including designing, planning, and management of the optical networks.
This course ranges from revision of communication to telecommunication systems needs to fiber optics for data transfer, and its use in power utilities needs for local and remote measurement ad control for different sites.
Course Goal:
To provide practical knowledge tools of design, analysis and implementation of both conventional and advanced communication and telecommunication systems, and perform the fiber optics as a good tool to transfer data of measurement and control.
Course Objectives:
By the end of this course, the participant will be able to:
- Review the different communication systems
- Define the optics characteristics
- Know the different methods optical systems transfer
- Be familiar with cables, transmission lines
- Design fiber optics systems
- Be familiar with fiber sensor systems
- Apply fiber optics system to power utilities
Course Outlines:
- Introduction To Fiber Optics
- Transmitting Data By Light
- Terminology Of Light Transmission
- Light Wave Communication
- Refraction And Reflection
- Microwave-Satellite Versus Fiber Optics
- Fiber Optics Cables And Transmission
- Simple Fiber Optics Cable
- Dispersion Of Light
- Multimode Fiber Optics Cables
- Mcirobening
- Fiber Optics Cables Insulation
- Introduction
- Definitions
- Pulling From Reels
- Fiber Cables Slicing
- Testing
- Digital Fiber Optics System Applications
- IBM Fiber Optics Channel Extension
- Data Multiplexing
- Links
- T3 Fiber Optics Transmission
- MSP
- UPSP
- BLSR
- SNCP