Fully integrated all-outdoor, sub-6 GHz, LTE-ready, microwave system targets rural/private networks
With a form factor of only 7.5 inches square including antenna, the sub-6 GHz point-to-point microwave radio supports both licensed and unlicensed spectrum and is ideally suited for non-line-of-sight (NLOS) scenarios where obstructions are found between link endpoints. The unit offers full scalability and is designed within rugged outdoor specifications to ensure reliable performance and longevity in the field.
The Harmony Radio Lite is a single, all-outdoor unit and includes standard Ethernet interfaces and an integrated antenna, making it easy to install and bring online. With DragonWave’s comprehensive network management system, the Harmony Radio Lite can easily be configured and monitored remotely, helping lead to a quick return-on-investment for operators. Streamlined functionality is further complimented by low power consumption (under 15 W), PoE compatibility, reduced cabling requirements and low delay. Synchronization through 1588v2 and SynchE eliminates the need for an external synchronization source. The high capacity and low latency capabilities of the Harmony Radio Lite make it one of the first LTE-ready NLOS systems.
“DragonWave clearly understands what’s needed to provide cost-effective connectivity for utilities, enterprises and rural municipalities and communities,” said Richard Webb, Directing Analyst of Infonetics Research. “By offering an affordable and easily deployed solution such as the Harmony Radio Lite, verticals and rural deployments can more easily be supported and enhanced utilizing a radio that has extremely notable low latency performance and reliability, while also saving on costs by utilizing unlicensed sub-6 GHz spectrum.”
Harmony Radio Lite links can be deployed using a tree topology, with macrocell traffic aggregation points on rooftops, or with tail, chain or small hub microsites at street level, which reduces interference and offers more flexible network connectivity, as well as simplifying network expansion and helping to ensure protected network architectures.
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