All-Outdoor IP Multi-Gigabit MW Transmission

OmniBAS™-BX, the leading generation of single-core, all-outdoor radios of the OmniBAS™ Point-to-Point MW family, addresses the operator need for advanced, cost-effective, multi-Gigabit IP transmission solutions. It is ideal for both 4G/5G MW backhaul and for a wide range of enterprise wireless connectivity applications. Featuring an ultra-slim and low-weight mechanical design, OmniBAS™-BX covers a wide range of MW frequencies from 11 GHz to 38 GHz.

OmniBAS™-BX offers market-leading modulations up to 4096-QAM and channels up to 112 MHz (per unit), while employing advanced radio and traffic processing functionality to demonstrate exceptional MW radio performance. OmniBAS™-BX is compatible with both OmniBAS™ split-mount OmniBAS-BXd all-outdoor units. A broad range of peripherals and integrated antennas (0.3 / 0.6 / 0.8 / 1.2 / 1.8 m) complements the OmniBAS™-BX offering for complete MW link installations.

OmniBAS-BX Radio

Being compatible with OmniBAS™ split-mount (IDU - ODU) links and also being manageable through the same powerful uni|MS™ system, OmniBAS™-BX offers unparalleled deployment flexibility for a wide variety of applications such as last-mile mobile network backhaul and other enterprise wireless connectivity links

Benefits

  • Future-proof all-outdoor Gigabit IP MW solution for advanced MW transmission requirements.
  • Market-leading modulation 4096-QAM (in channels up to 112 MHz per unit) and radio throughput.
  • Support of XPIC 2+0 (using two units)
  • Support of RLA 2+0 (using two units)
  • Ideal for last-mile backhaul and all-outdoor small cells.
  • Cost-efficient zero-footprint IP transmission for utilities, outside plants and rural communication networks.
  • Compatible with both OmniBAS™ split-mount (IDU - ODU), and all-outdoor OmniBAS-BXd units.
  • Powerful end-to-end service & network management.
  • Environmentally-friendly.
  • Part of Dual-Band all-outdoor solution (with UltraLink™-GX80).

Being integral part of the OmniBAS™ MW portfolio, OmniBAS™-BX offers market-leading radio performance, excessive IP capacity and advanced traffic handling and control functionality.

Radio Features & Configurations

  • Hitless adaptive modulation (4-QAM to 4096-QAM).
  • Channels up to 112 MHz (per unit).
  • Leading, full-duplex 1 Gbit/s radio throughput over a single 112 MHz channel.
  • Leading 2 Gbit/s radio throughput over a single XPIC link of 112 MHz.
  • Pre-Distortion (PD) for extended range support and high availability even at higher modulations.
  • LDPC and Reed Solomon FEC for robust operation.
  • Configurations:
    • 1+0
    • 2+0 RLA (using two units)
    • 1+1 HSB (using two units)
    • XPIC 2+0(using two units)

NMS

  • Managed by state-of-the-art element / network / service unified management suite (uni|MS™).
  • Embedded Web Node Manager.
  • SNMPv3, RMON and G.826 Statistics
  • Radio Link Quality Monitoring (RLQM)
  • SDN (NETCONF/YANG) capable platform

Ethernet, QoS & System Features

  • IEEE 802.1Q (Virtual LAN) & IEEE 802.1p (QoS)
  • IEEE 802.1ad (provider bridging, Q in Q)
  • Packet classification per VLAN / P-Bits / DSCP / MPLS exp / IPv6 QoS
  • Eight QoS queues; two-rate, three-color policer (2R3CP)
  • SP / WRR / WFQ scheduling
  • Jumbo Frames: 9,600 bytes
  • MEF 9 & MEF 14 compliant for EPL and ELAN
  • H-QoS
  • Automatic ETH-BNM (G.8013 / Y.1731)
  • IP / MPLS capable platform
  • ITU-T G.8032v2 (Ethernet Ring Protection)
  • IEEE 802.1w (RSTP), IEEE 802.1s (MSTP)
  • IEEE 802.3ad (link aggregation ), static and LACP
  • WRED congestion control
  • Egress traffic shaping per port
  • Encryption AES 256 (FIPS-197)
  • LLDP
  • System synchronization:
    • Synchronous Ethernet (ITU-T G.8261 / G.8262. G.8264 (ESMC))
    • IEEE 1588v2 TC
  • Efficient Ethernet OAM , for end-to-end management.
    • IEEE 802.1ag (CFM), ITU-T Y.1731 (PM), IEEE 802.3ah (EFM)
OmniBAS-BX diagram
Typical OmniBAS-BX Application: Last-mile mobile backhaul

OmniBAS™-BX implements a large variety of network topologies for meeting the transmission requirements of:

  • Last-mile mobile 4G/5G IP backhaul networks.
  • All-outdoor small-cell deployments.
  • All-outdoor IP MW transmission networks for Competitive Local Exchange Carriers (CLECs).
  • Zero-footprint IP transmission for utilities, outside plants and rural communication networks.
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