ZTE releases 2U high compact OLT based on TITAN platform

Created October 17, 2019
Technologies and Products

ZTE Corporation has launched a 2U compact Optical Line Terminal (OLT) based on TITAN platform. The ZXA10 C620 features powerful uplink aggregation capability to ensure non-blocking and high-bandwidth transmission of services, alleviating the load on the upper-layer network and effectively saving uplink fibres. The ZXA10 C620 provides a series of access modes, including GPON, XG(S)-PON, Combo PON and P2P, to meet access requirements in the gigabit era.

With a compact 2U design, the ZXA10 C620 dramatically saves space compared to large OLTs traditionally used in networks. It can be used in a wide range of scenarios, including equipment rooms with limited space, OLT deployment closer to end-users, remote networking, coverage in low-density areas, smart industrial parks, commercial buildings, and mobile transport, meeting operators’ requirements for flexible installation and rapid deployment.

Based on the high-end router architecture of the TITAN platform, the ZXA10 C620 supports a series of functions, such as fully distributed switching and separated control and forwarding, as well as Software Defined Networking (SDN) and Network Functions Virtualisation (NFV). The ZXA10 C620 addresses different scenarios, including ultra-high access, wholesale/multi-tenant, ultra-low latency and virtual operation.

To date, ZTE says it has obtained 25 commercial 5G contracts in major markets such as Europe, Asia Pacific, Middle East and Africa (MEA). ZTE commits 10 per cent of its annual revenue to research and development and has leadership roles in international standard-setting organisations.

For more information, visit www.zte.com


This article was written
by Peter Dykes

Peter Dykes is a independent telecoms and technology journalist who has over that last 30 years written for a wide range of B2B publications and companies. A former BT engineer, he specialises in networks and associated support systems. He is currently Editor of Optical Connections.