Implements Strict Priority (SP), Weighted Round Robin (WRR), and CoS-based traffic shaping to prioritize voice, video, and critical mobile telemetry data over general internet traffic. Clock Synchronization
If you need to verify specific , compatible SFP optical modules , or ordering codes for your network design, please let me know. I can also help you compare this model's capabilities with other routers in the ATN series like the ATN 910C or ATN 950B . Share public link
The Huawei ATN 910D-A is a next-generation cell site aggregation gateway designed specifically for the IP RAN (Radio Access Network) and mobile backhaul scenarios. Unlike its predecessors, the “D” series introduces enhanced synchronization features and higher port density. Huawei Atn 910d-a Datasheet
Approximately 220 mm (short-depth design for easy installation in shallow cabinets)
EVPN, L3VPN, VLL (Virtual Leased Line), and VPLS deployments for multi-tenant network virtualization. Reliability and OAM Implements Strict Priority (SP), Weighted Round Robin (WRR),
Two ATN 910D-As placed at headquarters and remote branch, running MACsec on the WAN link to encrypt all inter-office traffic without performance degradation.
The device runs . Supported features include: Share public link The Huawei ATN 910D-A is
In the world of transport networks, not every application requires a massive, power-hungry chassis. Sometimes, you need a device that is rugged, compact, and discreet—yet still packs the punch of carrier-grade routing.
Reaches hundreds of Mpps (Million Packets Per Second), tailored to handle tiny packets characteristic of real-time voice and low-latency 5G control planes.
One of the defining strengths of the ATN 910D-A is its flexible port density, which allows smooth migration from legacy 10GE links to high-speed 5G transport rates. Supported Port Types
The wide operating temperature range (-40°C to +65°C) allows installation in unconditioned outdoor cabinets. This makes it suitable for traffic control systems, video surveillance aggregation, and utility networks.