The splice-on connector (SOC), a component widely available from fiber-optic suppliers, has established itself as a popular option for data center applications. Quick installation and improving cost-efficiency make the SOC a desirable option for many.
Este webinar cubre la teoría básica de la transmisión de fibra óptica, las opciones de conectores, su inspección y mantenimiento. También cubre las pruebas de confiabilidad de los cables, su importancia y qué significa para la implementación de la red.
Al inspeccionar los conectores de fibra óptica, se encuentran que numerosos proveedores de conectores y cables que ofrecen muchas opciones. Un hecho relevante es que los usuarios finales han descubierto, en los últimos años, que “no todos los conectores son iguales. La calidad, confiabilidad y rendimiento de los componentes ópticos y los productos de ensamblaje de cables se aseguran seleccionando los mejores componentes desde su terminación y pulido, utilizando las mejores prácticas y equipos. El producto final debe cumplir o superar los requisitos de todas las especificaciones relevantes de la industria, como las normas GR-326 y GR-1435 reconocidas internacionalmente.
How Connectors Influence Fiber Optics Network Reliability
This webinar covers basic fiber optic transmission theory, connectors options, inspection and maintenance. It also covers assemblies’ reliability testing, why it is important, and what it means for network deployment.
When looking at fiber optic connectors, one will find numerous connector and cable suppliers offering many options. One key fact that end users have discovered in recent years is that ‘not all connectors are created equal’. The quality, reliability, and performance of optical components and cable assembly products are assured by selecting the best components and by terminating and polishing it using the best practices and equipment. The final product must meet or exceed the requirements of all relevant industry specifications, such as the internationally recognized GR-326 and GR-1435 standards.
The use of MPO (Multi-Fiber Push on) Connectors is growing in today’s Wireless networks. 5G is driving this change by requiring more bandwidth and fibers throughout the Mobility network. Traditional Fiber architectures include simplex and/or duplex Fiber connectors, these new MPO connectors present new and unique challenges to installation and maintenance at the Tower. This session will review the emergence of these new connectors, their place in 5G network architecture, new test requirements and challenges presented.
The performance of a fiber optic system depends heavily on the cleanliness of the interfaces. Dirt particles, grease, dust, etc. can have a highly negative impact on the transmission characteristics. They can actually destroy a fiber optic connection depending on the circumstances. If the connector is plugged in without first being tested, it could well be too late. The high pressure in the connection means that particles are immediately pressed in and this causes irreversible damage. This is why it is becoming increasingly important to test all connectors and adapters, and, if necessary, to clean them before they are mated – even new products that have just come out of the packing.
Comprehensive Introduction to MPO/MTP Fiber Cable Parameters and Connection Instructions…
AFL has received five new U.S. patents over the past quarter for technology and developments in the area of connectivity and fiber-optic cable. Four patents were received for connectivity, two of which coincide with AFL’s ASCEND high-density platform.
The introduction of 400 Gbits/sec and now 800 Gbits/sec has created greater efficiencies to provide low-latency network access with significantly increased bandwidth, critical for hyperscale and cloud-scale organizations. The resulting new transceiver and connector options along with fiber constructions help to deliver data where you need it, when you need it, cost-effectively. These changes have architectural and on-site implications that involve network, cable infrastructure, installation and testing. This panel presentation and discussion will address these technology trends from different perspectives across the data center ecosystem.
The Broadband Forum’s TR-419: Fiber Access Extension over Existing Copper Infrastructure report shows how fiber-based access can be provided to customers by utilizing existing copper infrastructure as opposed to the installation of fiber to end-users’ premises, which may not be economically or physically viable. FTTep (Fiber to the extension point) lets service providers deploy fiber-grade services by leveraging the last meters of copper to extend the fiber network without lowering quality when compared to complete FTTH (Fiber to the home) networks.
Leviton’s new LC Unibody fiber connector will enable data center operators and enterprise network managers to better perform in higher density, extended reach environments, with an increasing number of physical connections.
With the rapid development of data centers, super-large data centers are planning to move from 100G to 400G. High-density data center is becoming the director of the next-generation data center.