• Remote Energy Sector Network Coverage
    SEESUO introduces a dedicated network coverage solution for remote energy facilities (oil/gas fields, wind farms, solar plants), combining ruggedized design, long-range communication, and intelligent O&M systems. This solution enables real-time equipment monitoring, secure data transmission, and emergency command coordination, accelerating digital transformation in the energy sector.
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SOLUTION
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SOLUTION ADVANTAGE
  • Ultra-Reliable Connectivity
    Dual-link redundancy with millisecond-level failover ensures continuous operation in isolated areas.
  • Extensive Coverage
    Hybrid satellite-LoRa networking supports low-power sensor data transmission across 50km+ ranges.
  • Harsh Environment Resistance
    Devices operate in -40°C to 70°C temperatures with IP67 protection against sand/dust and humidity.
  • Low-Power Longevity
    Solar-powered systems with energy-saving protocols extend terminal battery life to 5+ years.
TECHNICAL POINTS
  • Layered Hybrid Networking
    Industrial switches with EMI shielding at core layer, satellite backhaul at aggregation layer, and LoRa gateways at access layer.
  • Data Compression Engine
    Custom algorithm reduces bandwidth usage by 30%, enabling simultaneous video surveillance and SCADA data transmission.
  • Edge Computing Nodes
    Field-deployed edge servers preprocess local data, minimizing core network load.
  • SM4 Encryption
    Chinese commercial cryptography standard protects production data via APN private networks.
  • AI-Driven Maintenance
    Predictive analytics generate work orders, reducing manual inspection frequency by 40%.
  • Self-Sustaining Power
    Solar-wind hybrid systems with lithium storage ensure 72-hour uptime during outages.
RELEVANT PRODUCTS
  • Copper SFP

    Port Type:RJ-45 Port

    Rate:1000M, 10/100/1000M

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    • Up to 1.25Gb/s data links
    • Hot-pluggable SFP footprint
    • Fully metallic enclosure for low EMI
    • Low power dissipation (1.05 W typical)
    • Compact RJ-45 connector assembly
    • Access to physical layer IC via 2-wire serial bus
    • 1000 BASE-T operation in host systems with SERDES interface
    • 10/100/1000Mbps or 1000Mbps compliant in host systems with SGMII interface
    • Operating case temperature: Standard:  0 to +70°C
  • 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
OUR CASE
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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 has been deployed in an oilfield monitoring project, reducing equipment downtime by 45% and inspection costs by 60%, while providing stable network infrastructure for remote energy operations.
Site Survey & Requirement Analysis
Map facility distribution, test terrain signal propagation, and define sensor types/data frequencies.

Hardware Deployment & Testing
Install ruggedized switches/LoRa gateways, align satellite dishes, and validate ≤100ms failover.

Software Integration
Configure NMS with compression rules and encryption policies, verify edge-core network communication.

Optimization & Handover
Conduct 30-day stress testing, monitor power consumption/network stability, and refine AI thresholds before final documentation.

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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