Funcionamiento sencillo y elevadas propiedades mecánicas.
Los productos son 100% conformes a las normas internacionales CEI
Diseñe productos para diferentes escenarios según los distintos entornos de construcción para ayudar a mejorar la eficacia del trabajo y reducir la dificultad de la construcción.
Modern data centers are rapidly moving toward higher port density and faster upgrade cycles driven by 100G/400G/800G (and beyond) network architectures. To support these deployments, cabling systems must deliver consistent optical performance, simplified cable management, and scalable high-density connectivity across switches, servers, and structured cabling zones.
At Rayoptic, we provide a complete portfolio of data center cabling and high-density fiber connectivity, covering MPO/MTP jumper, harness, and trunk assemblies, as well as end-to-end infrastructure components like Fiber Optic Patch Panel solutions and Rack Panel integration for clean and efficient deployments.
MPO/MTP jumpers are ideal for short interconnects between active equipment and patch panels, helping reduce clutter while maintaining organized routing in high-density racks.
Trunk cables deliver scalable backbone connectivity between patch panels, MDA/HDA/EDA zones, and cross-connect areas. They are commonly used for structured cabling builds and fast expansion of spine-leaf networks.
Harness cables (also known as breakout cables) bridge MPO/MTP a LC, SN, o CS interfaces—perfect for migrating from parallel optics to duplex connectivity, or for connecting high-density switch ports to duplex server links.
We support common configurations such as:
MPO/MTP to LC harness
MPO/MTP to SC harness
MPO/MTP to SN harness
Trunk + cassette + LC/SN/SC patching architectures
To meet demanding insertion loss and reliability expectations, we offer connector options aligned with high-density data center requirements, including:
Senko MPO-PLUS® Standard Connector (for MPO/MTP assemblies)
Conector SN (VSFF high-density duplex)
Conector CS (VSFF duplex for high-density panels)
LC Uniboot Connector (reduced cable diameter, improved polarity management, cleaner routing)
These options help optimize space utilization and airflow within racks while enabling fast, technician-friendly moves/adds/changes.
As data centers push beyond traditional LC density limits, VSFF connectivity becomes increasingly important. SN and CS connectors provide a compact interface that helps increase patching density and improve cable management in crowded environments—especially for high port-count leaf switches and high-density cross-connect fields.
VSFF cabling is well-suited for:
High-density switch patching
Zone distribution areas
Migration planning for future higher-density architectures
Cabling performance depends on infrastructure design. In addition to cable assemblies, we support structured cabling builds with:
Fiber Optic Patch Panel solutions (high-density management for trunks, jumpers, and breakouts)
Rack Panel integration for organized patching, clear labeling, and simplified maintenance
Options for trunk termination, cassette-style deployments, and mixed-interface patching (MPO/MTP + LC/SN/CS)
This combination helps reduce installation time, improves serviceability, and supports clean cable routing for long-term operations.
Our data center cabling solutions are widely used in:
Leaf-spine switch architectures
100G/400G/800G backbone deployments
Structured cabling (MDA/HDA/EDA, cross-connect & interconnect)
Server-to-switch interconnects
Migration from legacy duplex to high-density parallel optics
High-density patching fields using VSFF (SN/CS)
Every data center has different rack layouts, routing distances, and polarity standards. We support customization for:
Fiber type (singlemode / multimode)
Length, labeling, and routing requirements
Connector combinations (MPO/MTP, LC Uniboot, SN, CS)
Harness/trunk configurations based on your patching architecture
Packaging options for export and jobsite-friendly installation
El cableado de centros de datos puede definirse como la red de cables utilizada en un centro de datos típico. Existen dos tipos principales de cables para centros de datos: estructurados y no estructurados.
El diseño del cableado estructurado utiliza normas de cableado predefinidas para centros de datos, con puntos de conexión y rutas preestablecidos. Suele comenzar con pruebas para garantizar un buen rendimiento y, a continuación, los cables se organizan y etiquetan. Aunque un sistema de cableado estructurado puede tardar más en instalarse y ser inicialmente más costoso que un enfoque no estructurado, los costes operativos generales son menores y la vida útil del sistema más larga.
El cableado no estructurado no utiliza normas de cableado, puntos de conexión o vías predefinidas para centros de datos. El coste energético puede ser mayor y la gestión del cableado puede resultar difícil.
Las conexiones a Internet procedentes del exterior se realizarán con fibras monomodo. La fibra multimodo, ya sea OM3 o las nuevas fibras de gran ancho de banda OM4 y OM5, se utilizará probablemente para las conexiones MM.
Los conectores SN,CS,LC se utilizan en los transceptores por su menor tamaño. Las ópticas paralelas y los conjuntos de cables prefabricados utilizan el conector MPO/MTP, que tiene 12 o 24 fibras por conector.
Gracias a nuestra experiencia en conectividad de fibra óptica, ofrecemos soluciones fiables, escalables y a medida para ayudarle a mantenerse a la cabeza en un mercado en rápida evolución.
3F, Edificio E, Parque Científico Dahong,
Comunidad de Baihua, distrito de Guangming,
Shenzhen, Guangdong 518107, China
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