Промышленные трансиверы SFP+ DWDM LS-DW4010-40I для систем LTE

Содержание
Industrial SFP+ DWDM Transceivers LS-DW4010-40I for LTE Systems

① Введение

In LTE and emerging 5G networks, optical connectivity forms the backbone of fronthaul and backhaul infrastructure. To meet rising data demands, operators rely on DWDM SFP+ transceivers that deliver high bandwidth, long-distance reach, and fiber efficiency.
This article explores how LINK-PP’s LS-DW4010-40I SFP+ DWDM Transceiver supports LTE systems through reliable, high-capacity optical links.

② Understanding LTE Fronthaul and Backhaul

В типичной LTE network architecture, baseband units (BBUs) and remote radio heads (RRHs) are connected via optical fibers. These connections—known as fronthaul links—carry critical CPRI or eCPRI data between centralized and remote units.
As operators centralize BBUs in C-RAN (Cloud Radio Access Network) deployments, fiber resources become limited and transmission distances increase—making DWDM (плотное волновое мультиплексирование) an ideal technology for 10G SFP+ optical transceivers.

③ Why DWDM SFP+ Transceivers Matter in LTE Systems

  1. Maximize Fiber Utilization
    DWDM enables multiple 10G channels over a single fiber pair, saving infrastructure costs and boosting scalability.

  2. Long-Reach Transmission
    Корпус LS-DW4010-40I поддерживает до 40 км reach on SMF, ideal for distributed LTE fronthaul and backhaul links.

  3. Carrier-Grade Reliability
    Built for –40 °C to +85 °C operation, this industrial SFP+ module ensures stable performance in outdoor cabinets or tower sites.

  4. CPRI/eCPRI Compatibility
    The transceiver supports protocols used in mobile fronthaul transport, ensuring smooth integration with LTE and C-RAN equipment.

  5. DOM Monitoring
    цифровой оптический мониторинг (DOM)
    provides real-time diagnostics on transmit/receive power, temperature, and voltage—critical for carrier networks.

④ Product Spotlight: LINK-PP LS-DW4010-40I

SFP+ DWDM Modules

Параметр

Спецификация

Форм-фактор

SFP+ (Hot-Pluggable)

Скорость передачи данных

10 Gbps Max

Длина волны

1545.32 nm (C-Band, 100 GHz Spacing)

Тип волокна

Одномодовое оптоволокно (SMF)

Дальность передачи

До 40 км

Тип разъёма

Дуплексные разъёмы LC/UPC

Рабочий диапазон температур

–40 °C to +85 °C (Industrial Grade)

Поддержка протоколов

SFP+ MSA, CPRI/eCPRI

Поддержка DOM

Да

Совместимость

Switches, Routers, LTE BBUs/RRHs

Корпус LINK-PP LS-DW4010-40I объединяет high data throughput, DWDM channel density, and rugged industrial design, making it an excellent fit for telecom operators, OEM equipment vendors, and data transport integrators.

Upgrade your LTE fronthaul with LINK-PP’s LS-DW4010-40I.

Contact our optical experts to get the best DWDM transceiver solution for your network.

⑤ How DWDM SFP+ Modules Optimize LTE Deployment

В C-RAN architecture, multiple RRHs connect to a central BBU pool. Using модули DWDM SFP+ как LS-DW4010-40I on each link allows operators to multiplex numerous 10G optical channels over one fiber pair via a DWDM Mux/Demux device.
This reduces the need for new fiber deployment while maintaining low latency, high throughput, and network scalability.

Example Scenario:

  • Each RRH equipped with an LS-DW4010-40I transceiver connects back to a BBU pool 40 km away.

  • A 100 GHz DWDM Mux/Demux combines up to 80 wavelengths on a single fiber pair.

  • Operators monitor signal health via DOM for proactive maintenance and fault isolation.


⑥ Benefits for LTE and Beyond

  • Reduced OPEX and CAPEX through efficient fiber usage.

  • Масштабируемая пропускная способность for LTE-Advanced and 5G migration.

  • Reliable connectivity in harsh industrial environments.

  • Future-proof compatibility с eCPRI and Ethernet-based transport.


⑦ Заключение

Корпус LINK-PP LS-DW4010-40I SFP+ DWDM Transceiver is a robust solution for LTE fronthaul and backhaul applications requiring long-distance, high-capacity optical connectivity.
Его 10G performance, DWDM channel flexibility, and industrial reliability make it a cornerstone component in modern C-RAN and LTE transport networks.

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