• Rural Broadband Services
    This solution focuses on rural broadband access needs, leveraging the "Guidelines for the Construction of the Digital Village Standard System" policy framework to establish a hybrid "fiber + wireless + satellite" networking model. It achieves full coverage of gigabit access in administrative villages and over 95% coverage of 300M bandwidth in natural villages. The solution integrates 5.8GHz wireless bridge long-distance transmission, 2.4GHz wireless AP omnidirectional coverage, and FTTH (Fiber To The Home) technologies to adapt to complex terrains of plains, hills, and mountains. Through shared infrastructure mechanisms for base stations and pipelines, coupled with intelligent operation systems and disaster-resistant designs, it supports digital applications such as remote education, livestreaming e-commerce, and smart agriculture.
    Project consultation
SOLUTION
网络拓图
SOLUTION ADVANTAGE
  • Cost Efficiency
    Adopting a "wireless-dominant, fiber-auxiliary" deployment strategy reduces per-household construction costs in mountainous areas by 60%. Plains regions achieve zero installation fees through government-enterprise collaboration models, shortening investment payback periods by 3-5 years compared to traditional approaches.
  • Rapid Scalable Coverage
    5.8GHz wireless bridges support 10km point-to-point transmission, with single base stations covering 3km², enabling village-level network activation within 30 days—4 times faster than fiber construction.
  • High Reliability
    Dual-link backup and intelligent switching technologies ensure 99.9% online availability. Wide-temperature devices (-40℃ to 65℃) adapt to harsh environments, with a mountainous area case demonstrating network fault rates below 0.5%.
  • Scalable Upgrade Capacity
    Reserved 5G/satellite interfaces support smooth bandwidth expansion from 100M to 10G. Desert-edge villages achieve livestreaming e-commerce via satellite broadband, with dynamic bandwidth adjustment response times under 30 seconds.
TECHNICAL POINTS
  • Hybrid Networking Architecture
    Plains adopt FTTH (300M+), hills deploy FTTB+DSL (50M), and mountains use 5.8GHz wireless bridges + 2.4GHz APs (20M), forming a tiered coverage system. A plains case shows 300M broadband supports 4K livestreaming.
  • Plains adopt FTTH (300M+), hills deploy FTTB+DSL (50M), and mountains use 5.8GHz wireless bridges + 2.4GHz APs (20M), forming a tiered coverage system. A plains case shows 300M broadband supports 4K livestreaming.
    Outdoor fiber joints use triple-layer waterproof sealing, overhead lines feature anti-rodent spikes and height warnings, and base stations include UPS and lightning protection. A flood-stricken region case shows network interruption time under 2 hours.
  • Intelligent Operation System
    Deployed AI fault diagnosis platforms monitor 12 metrics including optical attenuation and packet loss. Users resolve 90% of issues via a self-service APP, with a pilot case reducing OPEX by 45%.
  • Shared Infrastructure Model
    Reused power poles and broadcast pipelines save 32,000 yuan per kilometer in line costs. A western province pilot achieved 78% base station co-construction rates.
  • Energy-Saving Solutions
    Base stations use solar + mains dual-mode power supply, consuming 0.8 kWh daily. A central province case saved 120,000 yuan in annual electricity costs.
  • Security Protection
    Deployed quantum encryption modules pass Level 3 cybersecurity certification. A coastal province case blocked 137 cyberattacks in 2025.
RELEVANT PRODUCTS
  • 1.25G Dual Fiber SFP

    Wavelength:850nm,1310nm, 1550nm

    Distance:550m,2km,10km,20km,40km,80km,120km,Customized

    Port Type:LC Port

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    • Dual data-rate of 1.25Gbps/1.063Gbps operation
    • 850nm VCSEL laser transmitter and PIN photo detector for 550m transmission
    • 1310nm FP laser transmitter and PIN photodetector for 10km/20km transmission
    • 1550nm DFB laser transmitter and PIN photo detector for 80km transmission
    • 1550nm DFB laser transmitter and APD photo detector for 120km transmission
    • Compliant with SFP MSA and SFF-8472 with duplex LC receptacle
    • Hot-Pluggable
    • Digital Diagnostic Monitoring
    • Compatible with SONET OC-24-LR-1
    • Compatible with RoHS
    • +3.3V single power supply
    • Operating case temperature: Standard:  0 to +70°C
  • 1.25G BiDi SFP

    Wavelength:Tx1310nm/Rx1550nm, Tx1550nm/Rx1310nm,Tx1490nm/Rx1550nm,Tx1550nm/Rx1490nm, Tx1310nm/Rx1490nm,Tx1490nm/Rx1310nm

    Distance:2km,10km,20km,40km,80km,120km,Customized

    Port Type:LC Port, SC Port

    Learn more
    • Dual data-rate of 1.25Gbps/1.063Gbps operation
    • 1310nm FP laser transmitter and 1550nm PIN photo-detector for 10/20km transmission
      1310nm DFP laser transmitter and 1550nm PIN photo-detector for 40km transmission
      1550nm DFB laser transmitter and 1310nm PIN photo detector for10/20/40km transmission
      1490nm DFB laser transmitter and 1550nm APD photo detector for 80km/120km transmission
      1550nm DFB laser transmitter and 1490nm APD photo detector for 80km/120km transmission
    • Compliant with SFP MSA and SFF-8472
    • Hot-Pluggable
    • Digital Diagnostic Monitoring
    • Compatible with SONET OC-24-LR-1
    • Compatible with RoHS
    • +3.3V single power supply
    • Operating case temperature: Standard:  0 to +70°C
OUR CASE
ISP FTTX Date center School
Our team
SEESUO combines professional knowledge with innovation to provide tailored technical support and advanced solutions for clients, meeting their needs and ensuring precision in network design, system optimization, and troubleshooting. The technical team at SEESUO consistently stays at the forefront of technology.
  • This solution effectively addresses rural broadband challenges of high costs, maintenance complexity, and scalability limitations, providing a replicable infrastructure model for digital village strategy implementation.
Demand Assessment
Collaborate with local authorities to map 3D terrain and mark building distributions/obstacles.Conduct bandwidth demand surveys, prioritizing high-traffic users like livestreamers.

Infrastructure Construction
Lay 6mm armored fiber along plains fields; erect 30m towers for mountain base stations.Install secondary splitters every 50 households, with optical distribution boxes at ≥2.5m height.

Intelligent System Deployment
Install network management platforms and user APPs, completing 50-site device commissioning. Train villagers on device connections and self-troubleshooting, focusing on livestreaming tools.

Validation & Optimization
Conduct three full-process speed tests, requiring 90% of users to meet bandwidth standards.Establish 24/7 support with on-site troubleshooting for coverage gaps in the first month.

CONSULTATION PROCESS
01
Demand consultation
Describe business needs and submit demand consultation
02
Initial communication
Answer questions about needs, align core demands, and determine cooperation intentions
03
Solution Exchange
Conduct online or offline discussions on relevant plans
04
Business Process
After the plan is finalized, the business process begins
TECHNICAL SUPPORT
Get solutions or consultation from the technical team.
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