Using multi-radio, multi-frequency wireless mesh infrastructure from Aeromesh Systems provides higher throughput and a cost effective alternative approach to terrestrial-based wired networks. No matter what type of customer or vertical market, Aeromesh can exponentially reduce CapEx and OpEx, which is critical to today’s growing demands for network connectivity, retrofit or new expansion, and migration to new applications for enhanced services and efficiencies.

The Access/One® HSX5800 Outdoor Wireless System with Hotspot Accessone provides high throughput over multiple hops and is built for capacity. It supports multiple radio frequencies (2.4 GHz, 4.9 GHz, 5 GHz) concurrently from each unit and is uniquely designed for simultaneous support of multiple applications, VLAN segmented networks, real-time and low latency voice, and high resolution video applications and services.

Aeromesh’s foundational architecture from its inception has clearly distinct advantages over other wireless solutions. It is a true dedicated multi-radio Layer 2 switching wireless mesh backbone providing near full duplex RX and TX and it also combines multiple dedicated radios for client access all simultaneously from each unit. This provides exponentially greater sustainable throughput and lower latency over multiple hops compared to other mesh solutions that employ a store and forward single radio for backhaul, which results in high latency and 50% or greater degradation of available bandwidth.

Wireless Specifications

  • Wireless Standards – G/A/N/AC
  • Frequency Bands:
    802.11G/N
  • 802.11G/N
  • 2.4 – 2.462 GHz (Americas, FCC)
  • 2.4 – 2.472 GHz (Europe, ETSI)
  • 2.4 – 2.497 GHz (Japan, MKK)
  • 802.11A/N/AC
  • 5.15 – 5.25 GHz
  • 5.25 – 5.35 GHz
  • 5.25 – 5.35 GHz
  • 5.725 – 5.850 GHz
  • 802.11A/J/4.9
  • 4.94 – 4.99 GHz (USA)
  • 4.92 – 5.08 GHz (Japan)
  • Receiver Sensitivity Rates
    • 802.11a/g/n HT20: -71dBm @MCS7
    • 802.11a/g/n HT40: -71dBm @MCS7
    • 802.11a/g: -77dBm @ 54 Mbps
    • 802.11a/n/ac HT20: -69 dBm @MCS8
    • 802.11a/n/ac HT40: -66 dBm @MCS9
    • 802.11a/n/ac HT80: -66 dBm @MCS9
    • 802.11a: -78dBm @54Mbps
  • Transmit Power
    • Up to 23 dBm
    • 16 dBm
  • Modulations
    • 802.11a/g: 16-QAM, QPSK, BPSK
    • 802.11b: CCK, DQPSK, DBPSK
    • 802.11n: 16-QAM, 64-QAM, QPSK, BPSK
    • 802.11ac: 16-QAM, 64-QAM, 256-QAM, QPSK, BPSK
  • Supported Channel Widths1, 2
    • 5, 10, 20, 40, and 80 MHz
  • Dynamic Frequency Selection
  • 2.4 GHz External Omni Antenna
    • MIMO: 2X2, 9 dBi
  • 5 GHz Internal Antenna
    • MIMO: 2X2, 14 dBi

Features

  • High Bandwidth – Low Cost Alternative to Cabled Solutions
  • Higher Capacity and Performance
  • Layer 2 Switching Architecture
  • Easier Large Scale Deployments & Network Management
  • Failover & Reliability
  • High Speed Mobility
  • Security & Optimization
  • Applications
  • WISP ,Carriers, Telcos and Cable Operators
  • Military and Disaster Management
  • Police, fire, and emergency medical services
  • Video Surveillance ,Mobility Solutions, Critical Infrastructure
  • Integrated Highway Management, High Speed Rail Network
  • Industries, mining, construction sites, Ports etc
  • Shopping malls and hot-spots (Coffee shops, book stores etc).
  • Hotels, conference and convention centers and resorts .
  • Automatic Meter Reading,SCADA
  • Hospitals ,Universities and college campuses