Distributed antenna system (DAS) requirements are shifting: sectorization schemes change, new frequencies on existing bands are being utilized, SISO/MIMO approaches are modified, and new bands are being deployed. Supporting large, high-rise buildings, or campus-style deployments, the Corning® Optical Network Evolution (ONE™) DAS solution can manage it all. Our modular ONE DAS solutions provide cost-optimized, multiband coverage and capacity support for multiple operators, with a single, simplified fiber optic infrastructure to end the rip-and-replace upgrade cycle. Composite cabling can be used as a forward-facing transport to enhance 4G today, and 5G tomorrow, while at the same time reducing installation costs and deployment time. With autodiscovery of all network components and built-in system testing, both setup and commissioning are simplified. And with the availability of slide-in amplifiers for new bands and the ability to add MIMO for more capacity and resectorize as needed, the scalable platform leaves plenty of room for growth and serviceability. Stay connected today and tomorrow with our ONEDAS solutions, providing services for a range of cellular frequencies and technologies
The Corning ONE DAS Solution provides a flexible in-building multi-operator cellular RF and network digital coverage solution based on a fiber optic transport backbone.
The fiber optics infrastructure is easily deployable via a wide range of preterminated (or one-half preterminated) composite cables and advanced end-to-end equipment. Easy to design, plug-and-play connectors significantly reduce installation cost and deployment time. This Corning distributed anteanna system is an ideal fit for large, high-rise buildings, or campus-style deployments. It generates significant CapEx savings and OpEx savings through the use of user configurable service distribution groups and an infrastructure that is simple to deploy and efficient in usage.
Dynamic service distribution group management allows precise service distribution control to meet changing density needs and provides further savings by enabling sharing of equipment at various levels for service providers. Radio source agnostic remote units can be used as network extenders. Ethernet capability with dedicated fiber link for Wi-Fi offload brings a higher level of granularity and support for devices and applications with very high-speed requirements.