XGSPON OLT (Optical Line Terminal)
Next-Generation Fiber Access Platform
The Westala XGSPON OLT is a high-performance access
network device designed for next-generation fiber-optic
broadband networks. It supports XGSPON (10-Gigabit-capable
Symmetrical Passive Optical Network) technology,
delivering symmetrical 10 Gbps upstream and downstream
throughput.
The platform is fully backward compatible with GPON
and EPON networks, making it ideal for scalable
deployments and seamless network upgrades.
GPON OLT (Optical Line Terminal)
Compact Fiber Access Platform for Gigabit Deployments
The Westala GPON OLT is a high-performance access device
built for gigabit-class fiber broadband deployments. It
leverages GPON (Gigabit-capable Passive Optical Network)
technology to ensure reliable, high-efficiency
connectivity across last-mile networks.
Housed in a compact, box-type form factor, this OLT
is engineered for space-constrained environments such as
central offices, data centers, and MDU (multi-dwelling
unit) telecom closets—delivering exceptional performance
in minimal rack space.
Westala SMART AP
High-Density Converged Access Switch with Intelligent
Management
The Westala SMART AP is a high-capacity converged access
switch designed for enterprise networks. It acts as a
central aggregation point between smart equipment rooms,
edge devices, and wireless access points (APs).
A key feature is its integration with the Westala
Unify OMC, enabling automated device discovery,
configuration, and monitoring for streamlined operations.
Features:
24× 1G/10G downlink
ports for connecting APs and other access-layer devices
8× 10G/25G uplink ports for network aggregation,
business convergence, and upstream connectivity to Access
Controllers (AC) and Zone Controllers (ZC)
It also
supports local service clustering, making it ideal for
scalable and intelligent enterprise deployments.
Westala G.hn Head-End Device
High-Speed Coaxial Access Platform for IoT & MDU Deployments
G.hn is a standardized protocol suite for data transmission over existing power lines, telephone lines, and coaxial cables.
Built on this standard, the Westala G.hn Head-End enables efficient reuse of legacy cabling infrastructure—expanding IoT access, network coverage, and terminal connectivity in hard-to-wire environments.
The device features an innovative pluggable cassette design with up to 88 Gbps switching capacity
Features:
24× G.hn Wave 2 coaxial downlink ports
4× SFP+ uplink ports
The WS-DPU-GCX24 model includes 24 coaxial interfaces, each capable of delivering 48VDC power to connected CPEs (Customer Premises Equipment) over coax, with a maximum PoX output of 30 watts per port.
Westala G.hn Head-End Device
High-Speed Phone Line Access Platform for IoT & MDU Deployments
G.hn is a standardized protocol suite for data transmission over existing power lines, telephone lines, and coaxial cables.
Built on this standard, the Westala G.hn Head-End enables efficient reuse of legacy cabling infrastructure—expanding IoT access, network coverage, and terminal connectivity in hard-to-wire environments.
The device features an innovative pluggable cassette design with up to 88 Gbps switching capacity
Features:
24× G.hn Wave 2 Phone Line downlink ports
4× SFP+ uplink ports
The WS-DPU-GCX24 model includes 24 Phone Line interfaces, each capable of delivering 48VDC power to connected CPEs (Customer Premises Equipment) over the Phone Line, with a maximum PoX output of 30 watts per port.
Modular DPU Chassis
Flexible Access Platform for Mixed Network Environments
The Westala DPU chassis supports up to six modular card slots, enabling flexible integration of multiple access technologies—such as coaxial, telephone line, and Ethernet port modules—within a single system.
This hybrid architecture allows service providers to deploy a variety of access network types in one chassis. Future upgrades will further expand compatibility with additional access methods, offering customers enhanced scalability and deployment convenience.
G.hn (Gigabit Home Networking)
Unified Standard High-Speed Networking Over Existing Wires
G.hn is a high-speed home networking standard developed by the ITU-T (International Telecommunication Union – Telecommunication Standardization Sector).
It enables the creation of a unified, high-performance LAN within homes or buildings by utilizing existing wiring—such as coaxial cables, power lines, and telephone lines—to deliver fast and reliable connectivity without requiring new infrastructure.
G.hn (Gigabit Home Networking)
Unified Standard High-Speed Networking Over Existing Wires
G.hn is a high-speed home networking standard developed by the ITU-T (International Telecommunication Union – Telecommunication Standardization Sector).
Its goal is to deliver a unified, high-performance local area network (LAN) within homes and buildings by leveraging existing wired infrastructure—including coaxial cables, power lines, and telephone lines—eliminating the need for new cabling.
G.hn (Gigabit Home Networking)
Unified Standard High-Speed Networking Over Existing Wires
G.hn is a high-speed home networking standard developed by the ITU-T (International Telecommunication Union – Telecommunication Standardization Sector).
It enables the creation of a unified, high-performance local area network (LAN) by utilizing existing in-building wiring—such as coaxial cables, power lines, and telephone lines—to deliver fast, reliable connectivity without new cabling.
G.hn (Gigabit Home Networking)
Unified Standard High-Speed Networking Over Existing Wires
G.hn is a high-speed home networking standard developed by the ITU-T (International Telecommunication Union – Telecommunication Standardization Sector).
It is designed to deliver unified, high-performance local area networking (LAN) within homes and buildings by leveraging existing wired infrastructure—such as coaxial cables, power lines, and telephone lines—without the need for new cable installation.
