Huawei Atn 910d-a Datasheet
Advanced support for RSVP-TE, LDP, Seamless MPLS, and Segment Routing (SR-MPLS / SRv6) . SRv6 simplifies network protocols by eliminating LDP/RSVP-TE and leveraging IPv6 headers for source routing.
5G networks require ultra-precise time and phase synchronization to prevent dropped calls and inter-cell interference. Synchronous Ethernet (SyncE). Phase Sync: IEEE 1588v2 and ITU-T G.8275.1 profiles.
Approximately 220 mm (short-depth design for easy installation in shallow cabinets) Huawei Atn 910d-a Datasheet
Ethernet VPN over MPLS or SRv6 for unified L2/L3 service delivery.
Service providers demand "five-nines" (99.999%) availability. The ATN 910D-A is designed to deliver this through several mechanisms: Advanced support for RSVP-TE, LDP, Seamless MPLS, and
Seamless transition mechanisms including tunneling and native dual-stack routing.
The device supports a flexible mix of high-speed ports to satisfy diverse access and uplink requirements: 16 x 25GE/10GE/GE 8 x 10GE/GE/FE Key Features & Technologies Synchronous Ethernet (SyncE)
If you are a network engineer, procurement specialist, or solution architect looking for a detailed spec-by-spec breakdown, this guide is for you.
| Specification | Details | | :--- | :--- | | | 880 Gbps | | Port Configuration | 4 x 100GE/50GE (QSFP28) + 16 x 25GE/10GE/GE/FE (SFP28) + 8 x 10GE/GE/FE (SFP+) | | Form Factor | 1U | | Dimensions (W x D x H) | 442 mm × 220 mm × 44.45 mm | | Typical Power Consumption | 60 W | | Working Temperature | -40°C to +65°C | | Power Supply | AC and DC modules supported | | Supported Protocols | SR/SRv6, EVPN, L2/L3 MPLS VPN, FlexE, 1588v2, G.8275.1, SyncE, BFD, etc. | | Product Lifecycle | EOM: Dec 31, 2030 / EOS: Dec 31, 2035 | | Software Version | V800R024C00SPC500 |
As the world transitions fully into the 5G era, service providers are facing a monumental task: how to handle the explosion of data traffic without ballooning their physical footprint or energy costs. Enter the Huawei ATN 910D-A , a heavy hitter in the world of compact, high-capacity routing.