Provides reliable, SLA-backed Layer 2/Layer 3 VPN endpoints at enterprise premises.

This section extracts the core technical data equivalent to an official Huawei datasheet.

The ATN 910D‑A is designed for a wide range of high‑bandwidth, latency‑sensitive scenarios:

If you need a specific or software version for this router: Tell me your current firmware version (e.g., V800R012).

Reaches hundreds of Mpps (Million Packets Per Second), tailored to handle tiny packets characteristic of real-time voice and low-latency 5G control planes.

The ATN 910D family offers variations tailored for specific layers of the Metorpolitan Area Network (MAN). Below is a look at how the 910D-A compares to its sibling, the 910D-C router: Huawei ATN 910D-A Huawei ATN 910D-C Primary Target Placement Base Station Access & Cell Site Backhaul Primary Target Placement Government, ISP, & Finance Aggregation Layers Max Switching Capacity Max Switching Capacity Uplink Port Densities 4 × 100GE/50GE Uplink Port Densities Up to 4 × 100GE + 4 × 50GE + 4 × 40GE Downlink/Access Ports 16 × 25G/10G/GE + 8 × 10G/GE/FE Downlink/Access Ports 16 × 25GE + 24 × 10GE + 24 × GE Operating Temp Range -40°C to +65°C Operating Temp Range -20°C to +60°C Typical Power Load Approximately ~120W - 130W Typical Power Load Operational Deployment Scenarios 1. 5G Multi-Service Access Backhaul

: Transporting 2G/3G/4G and 5G traffic from base stations to the core network with high reliability and low latency.

Traffic was shunted onto the secondary fiber link in under 50 milliseconds.

This allows for a total of . The device boasts a massive 880 Gbps switching capacity , allowing it to process high volumes of traffic without bottleneck. This feature is critical for 5G backhaul and business VPN aggregation, where bandwidth demand is exceptionally high.

Provides secure, high-bandwidth access for corporate campuses and government institutions requiring gigabit-rate dedicated lines.