WEBINAR Diseño de redes FTTH
Summary
The webinar discusses the growing demand for connectivity and speed in Latin America and worldwide, emphasizing the role of fiber optic networks in meeting these needs. It compares the advantages of fiber optic over copper cables, such as higher capacity, lower interference risk, and longer lifespan. Different network topologies like bus, star, ring, tree, and mesh are explored, along with the use of optical splitters for power distribution in datacenter designs, emphasizing the importance of dual redundancy in ring topologies. Considerations such as transmitter power, connector types, and splicing methods are detailed for optimizing fiber optic setups in datacenters to enhance client capacity and service delivery. Additionally, the webinar addresses factors like loss factor, evenly distributed power levels, and the number of divisions required to maintain signal strength and reliability in fiber optic installations.
Chapters
Introducción al webinar
Crecimiento de la conectividad durante la pandemia
Ventajas de la fibra óptica
Consideraciones en el diseño de redes FTH
Tipos de topologías de red
PLC con balanceados
Divisor óptico 95/5 S5
Potencia y distribución
Doble redundancia en anillo
Diseño de red y divisiones
Pérdida en divisor óptico
Potencia de transmisor y divisores ópticos
Cantidad de divisiones y potencia
Capacidad de clientes en data center
Distancia lineal vs óptica
Introducción al webinar
Se da la bienvenida al webinar sobre diseño de redes FTH y se destacan las crecientes necesidades de conectividad y velocidad en Latinoamérica y el mundo.
Crecimiento de la conectividad durante la pandemia
Se discute el aumento de la demanda de ancho de banda durante la pandemia y la importancia de la fibra óptica en este contexto.
Ventajas de la fibra óptica
Se detallan las ventajas de la fibra óptica en comparación con el cobre, incluyendo mayor capacidad, menor riesgo de interferencias y mayor vida útil.
Consideraciones en el diseño de redes FTH
Se analizan los puntos clave a considerar en el diseño de una red FTH, como el tipo de información a transmitir, la velocidad de transmisión y la pérdida óptica.
Tipos de topologías de red
Se exploran diferentes tipos de topologías de red, como el tipo bus, estrella, anillo, árbol y malla, destacando sus características y aplicaciones.
PLC con balanceados
Explanation of using balanced PLC with optical splitters for power distribution in a datacenter design.
Divisor óptico 95/5 S5
Introduction of a 95/5 optical splitter and its use in power distribution within a datacenter.
Potencia y distribución
Discussion on power distribution in relation to the number of divisions and desired power levels in a datacenter design.
Doble redundancia en anillo
Importance of dual redundancy in a ring topology for datacenter networks.
Diseño de red y divisiones
Explanation of network design determining the number of divisions at first and second levels in a datacenter setup.
Pérdida en divisor óptico
Addressing the loss factor in optical splitters and considerations for selecting the appropriate divisor in a datacenter environment.
Potencia de transmisor y divisores ópticos
Explanation of transmitter power, optical splitters, connectors, and splicing considerations in datacenter fiber optic setups.
Cantidad de divisiones y potencia
Determining the number of divisions based on power levels and the impact on signal strength in fiber optic installations.
Capacidad de clientes en data center
Recommendation to enhance client capacity in a datacenter through descriptive levels of division for improved service delivery.
Distancia lineal vs óptica
Comparison of linear distance and optical considerations in budgeting for fiber optic installations in a network setup.
FAQ
Q: What are the advantages of using fiber optics over copper?
A: Fiber optics offer advantages such as higher capacity, lower risk of interference, and longer lifespan compared to copper.
Q: What are some key factors to consider in designing a Fiber-To-The-Home (FTTH) network?
A: Key factors to consider in designing an FTTH network include the type of information to be transmitted, transmission speed, and optical loss.
Q: What are some common network topologies discussed in the file and their characteristics?
A: Common network topologies mentioned include bus, star, ring, tree, and mesh. Each has unique characteristics and applications.
Q: How is balanced PLC with optical splitters used in power distribution in a datacenter design?
A: Balanced PLC with optical splitters is used for power distribution in datacenters. It includes the use of a 95/5 optical splitter for efficient power distribution.
Q: Why is dual redundancy important in a ring topology for datacenter networks?
A: Dual redundancy in a ring topology ensures network reliability and minimizes the risk of downtime in datacenter networks.
Q: What considerations are involved in determining the number of divisions at different levels in a datacenter setup?
A: Determining the number of divisions involves factors like power levels, signal strength impact, and client capacity needs in a datacenter setup.
Q: How do optical splitters, connectors, and splicing impact datacenter fiber optic setups?
A: Optical splitters, connectors, and splicing methods play a crucial role in ensuring smooth data transmission in fiber optic setups within datacenters.
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