Huawei Atn 910d-a Datasheet _top_ Here
Huawei ATN 910D-A Datasheet: Technical Overview, Specifications, and Architecture
| Feature | Detail | |---------|--------| | | 8 (strict priority + WRR/DWRR) | | Traffic classes | Up to 64 per system | | Shaping | Per port, per queue, per VLAN | | Policing | Two-rate three-color marker (RFC 2698) | | Congestion avoidance | WRED (Weighted Random Early Detection) | | Remarking | 802.1p, DSCP, EXP bits |
The ATN 910D-A is engineered for space-constrained environments, such as outdoor cabinets or crowded telecom racks. It features a compact 1U form factor with front-access maintenance to simplify field operations. Physical Parameters Specification
Strict Priority (SP), Weighted Round Robin (WRR), and SP+WRR mixed queuing. Huawei Atn 910d-a Datasheet
44.4 mm × 442 mm × 220 mm (1U Height, 19-inch standard width)
: Approximately 4.2 kg to 4.3 kg depending on the configuration. Interface Density : 4 x 100GE/50GE ports. 16 x 25GE/10GE/GE ports. 8 x 10GE/GE/FE ports.
: Built for harsh environments, including outdoor cabinet deployment. 8 x 10GE/GE/FE ports
5G networks demand precise synchronization to prevent dropped connections and interference. The ATN 910D-A incorporates comprehensive hardware-based clock and time sync features:
The ATN 910D‑A is a 1U, carrier‑grade multi‑service access router in Huawei’s ATN family, designed for base‑station access and VIP private‑line bearer services (2G/3G/4G/5G). It targets high‑density aggregation at access sites with high performance, precision timing, and modern transport features required by mobile networks.
The is a compact, high-capacity, 1U fixed case-shaped router engineered primarily for 5G mobile base station access and VIP enterprise private line services. It bridges the gap between traditional access infrastructure and next-generation, cloud-integrated telecom environments. Huawei ATN 910D-A Datasheet: Technical Overview
The router implements hardware-based Hierarchical Quality of Service (HQoS) to ensure critical voice and video traffic takes precedence over standard data: Five-level scheduling mechanisms.
Delivers ultra-low latency and massive bandwidth using 50GE and 100GE interfaces to aggregate multiple base station sectors.
Ethernet VPN over MPLS or SRv6 for unified L2/L3 service delivery.