Flexible broadband upgrade solutions for hotels, apartments, MDUs, campuses, and legacy buildings.
Westala broadband access solutions support both coaxial reuse and fiber-to-the-room deployment models — helping operators, property owners, and system integrators modernize buildings with lower disruption, faster rollout, and scalable high-speed connectivity.
G.hn over coax enables high-speed service using existing in-building coaxial wiring.
XGSPON delivers future-ready fiber access for rooms, units, offices, and campus buildings.
User-side devices support PoE-out options for wallplate APs, phones, and connected edge devices.
Designed to reduce construction work, cabling cost, and service interruption during upgrades.
Ideal for legacy hotels, apartments, student housing, and older commercial buildings, G.hn over coax reuses existing coaxial cabling and splitter topology to deliver gigabit-class data service to each room without major renovation or new Ethernet cabling.
Upgrade older buildings by leveraging existing coaxial cable paths and splitters instead of pulling new Ethernet to every room.
24-port and 8-port coaxial headend options support centralized distribution to rooms, units, and service areas.
User-side G.hn modem provides 1 GE data port and 1 GE PoE-out port for wallplate AP, phone, camera, or room devices.
Connect wallplate APs, TVs, IPTV, IP phones, and connected guest devices at the room edge.
For new builds and fiber-ready properties, Westala XGSPON enables high-performance fiber-to-the-room access with scalable 8-port and 16-port OLT options and 4-port wallplate ONTs with PoE-out support for phones, APs, and room devices.
Dedicated optical access supports high bandwidth, low latency, and long-term infrastructure growth.
Scalable OLT options support deployments from small properties to large hotels, MDUs, and campus buildings.
Room-side ONT provides 4 Ethernet ports, including 2 PoE-out ports for phones, APs, and connected devices.
Designed for WiFi 7, IPTV, cloud applications, managed services, and growing bandwidth requirements.