Supports Flexible Ethernet (FlexE) to divide a single physical port into multiple logical slices. This ensures strict bandwidth isolation for different services, such as mission-critical industrial data vs. general consumer traffic.
As a part of the Huawei ATN Series , the 910D-A helps carriers lower the Total Cost of Ownership (TCO) by unifying 2G, 3G, 4G, and 5G transport on a single platform. Pricing for these units typically ranges from for basic configurations, though specialized high-anti-corrosion or high-capacity models can exceed $35,000 depending on the region and license packages. ATN910B - Huawei Carrier
Uses In-situ Flow Information Telemetry (iFIT) for millisecond-level in-band flow detection. This allows operators to visualize service quality and demarcate faults within minutes. Reliability and Deployment huawei+atn+910da+datasheet+exclusive
The Huawei ATN 910D-A (often searched with the variations like 910DA) is a high-performance, 1U fixed-box router designed specifically for 5G mobile backhaul and multi-service aggregation. Positioned at the access and aggregation layers, it provides the "last mile" connectivity for base station transport and high-end VIP private lines.
Supports dual DC/AC inputs with 1+1 backup. Core 5G-Ready Features Supports Flexible Ethernet (FlexE) to divide a single
Essential for 5G networks, it supports 1588v2, G.8275.1 (full-mode OC, TC, BC), and Synchronous Ethernet clocking.
The ATN 910D-A is engineered for carrier-grade reliability with millisecond-level fault detection. As a part of the Huawei ATN Series
The ATN 910D-A stands out in the for its massive switching capacity and high-density port configuration within a compact 1U form factor. Switching Capacity: 800 Gbps (bi-directional). Port Density: 4 x 100GE/50GE ports. 16 x 25GE/10GE/GE ports. 8 x 10GE/GE/FE ports. Dimensions: 442 mm × 220 mm × 44.45 mm (1U height). Weight: Approximately 4 kg. Power Consumption: 180W typical.
The router is built on a programmable NP architecture, ensuring it can adapt to future network requirements without hardware overhauls.