: Implements IEEE 1588v2 and Synchronous Ethernet (SyncE) to provide the ultra-precise phase and time synchronization required by 5G ultra-reliable low-latency (URLLC) base stations. Industrial and Resilient Hardware Design
In the evolving landscape of transport networks, the demand for high-density, energy-efficient aggregation switches has never been greater. For network engineers and ISPs looking to optimize their Metro Ethernet infrastructure, the stands out as a robust solution. If you have been searching for the Huawei ATN 910DA datasheet top specifications—focusing on the most critical performance metrics, hardware variants, and real-world deployment scenarios—this comprehensive guide is for you. huawei atn 910da datasheet top
The ATN 910D-A is built on a programmable NP (Network Processor) architecture, allowing it to transition from traditional MPLS to future-ready (Segment Routing over IPv6) and EVPN protocols. It features a substantial 800Gbps switching capacity in a compact, 220mm deep chassis. Key Technical Specifications System Capacity 800Gbps (bidirectional) Interface Density 4 x 100GE/50GE + 16 x 25GE/10GE/GE + 8 x 10GE/GE/FE Operating Temp : Implements IEEE 1588v2 and Synchronous Ethernet (SyncE)
With a depth of only 220mm, this device is designed to fit easily into space-constrained sites (1U height), including pole-mounted cabinets or crowded operator sites. SRv6 & EVPN Support ATN 910D-A Go to product viewer dialog for this item. If you have been searching for the Huawei
The ATN 910Da (often referenced as the "ATN 910D-A") is a 1U (1 Rack Unit) high, fixed-form-factor router that is part of Huawei's broader ATN series, also known as multi-service access routers. Its primary role is to operate at the edge of metropolitan area networks (MANs), providing high-density, high-performance service access for scenarios like mobile base station backhaul and enterprise private line services. This device is built on Huawei's advanced routing architecture, intended to help carriers build reliable, carrier-class packet transport networks (PTNs) while reducing total cost of ownership (TCO).