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System design consideration OC.pptx
- 1. System design considerations optical communication Ms.P.Monisha
- 2. Components of Optical Communication Systems Optical Fiber: The choice of optical fiber is a fundamental consideration. Single-mode fibers are preferred for long-distance communication due to lower dispersion and attenuation. Multi-mode fibers may be used for shorter distances but have limitations in terms of data rate and distance.
- 3. Components of Optical Communication Systems Light Sources: Laser diodes or light-emitting diodes (LEDs) are used as light sources. Laser diodes provide a narrower spectrum, allowing for higher data rates and longer distances. Proper selection of the light source is critical for system performance.
- 4. Components of Optical Communication Systems Photodetectors: A photodetector at the receiver end converts optical signals back into electrical signals. High-speed and low-noise photodetectors are essential for maintaining signal quality and integrity.
- 5. Components of Optical Communication Systems Connectors and Splices: The quality of connectors and splices affects signal loss. Proper alignment and cleanliness are essential to minimize signal degradation.
- 6. Signal Modulation Techniques Modulation Formats: Different modulation formats, such as amplitude modulation (AM), frequency modulation (FM), or phase modulation (PM), are used to encode information on the optical signal. Quadrature amplitude modulation (QAM) is widely used for high-capacity transmission.
- 7. Signal Modulation Techniques Modulation Speed: The modulation speed, often measured in gigabits per second (Gbps) or terabits per second (Tbps), affects the data rate. Higher speeds require advanced modulation techniques and components.
- 8. Dispersion Managemen Chromatic Dispersion: Chromatic dispersion occurs when different wavelengths of light travel at different speeds in the fiber, causing signal distortion. Dispersion compensation modules or dispersion-shifted fibers are used to manage chromatic dispersion.
- 9. Dispersion Managemen Polarization Mode Dispersion (PMD): PMD can cause signal degradation due to polarization variations in the fiber. Specialized fibers and polarization controllers are employed to mitigate PMD effects.
- 10. Network Architecture Point-to-Point vs. Wavelength-Division Multiplexing (WDM): Optical networks can be point-to-point or use WDM to transmit multiple wavelengths on a single fiber. WDM increases network capacity significantly and is commonly used in long-haul communication.
- 11. Network Architecture Network Topology: The choice of network topology (e.g., ring, mesh, or star) affects network resilience and scalability. Mesh topologies are often preferred for redundancy and fault tolerance.
- 12. Network Architecture Network Management and Monitoring: Real-time monitoring and management tools are essential for detecting and addressing network issues promptly. Optical performance monitoring and fault localization systems are crucial for maintaining network reliability.