MA5800 Series

The new Next-Generation Optical Line Terminal (NG-OLT); Huawei’s SmartAX MA5800 multi-service access module uses a distributed architecture to support ultra-broadband, Fixed Mobile Convergence (FMC) services and smart capabilities such as SDN-based virtualization.

Item

MA5800-X17

MA5800-X15

MA5800-X7

MA5800-X2

Dimensions (W x D x H) 493 mm x 287 mm x 486 mm 442 mm x 287 mm x 486 mm 442 mm x 268.7 mm x 263.9 mm 442 mm x 268.7 mm x 88.1 mm
Maximum Number of Ports in a Subrack
  • 272 x GPON/EPON
  • 816 x GE/FE
  • 136 x 10G GPON/10G EPON
  • 136 x 10G GE
  • 544 x E1
  • 240 x GPON/EPON
  • 720 x GE/FE
  • 120 x 10G GPON/10G EPON
  • 120 x 10G GE
  • 480 x E1
  • 112 x GPON/EPON
  • 336 x GE/FE
  • 56 x 10G GPON/10G EPON
  • 56 x 10G GE
  • 224 x E1
  • 32 x GPON/EPON
  • 96 x GE/FE
  • 16 x 10G GPON/10G EPON
  • 16 x 10G GE
  • 64 x E1
Switching Capacity of the System 7 Tbit/s 480 Gbit/s
Maximum Number of MAC Addresses 262,143
Maximum Number of ARP/Routing Entries 64K
Ambient Temperature -40°C to 65°C

Note: The MA5800 can start up at a lowest temperature of -25°C and run at -40°C. The 65°C temperature refers to the highest temperature measured at the air intake vent

Working Voltage Range -38.4V DC to -72V DC DC power supply:

-38.4V to -72V

AC power supply:

100V to 240V

Layer 2 Features VLAN + MAC forwarding, SVLAN + CVLAN forwarding, PPPoE+, and DHCP option82
Layer 3 Features Static route, RIP/RIPng, OSPF/OSPFv3, IS-IS, BGP/BGP4+, ARP, DHCP relay, and VRF
MPLS & PWE3 MPLS LDP, MPLS RSVP-TE, MPLS OAM, MPLS BGP IP VPN, tunnel protection switching, TDM/ETH PWE3, and PW protection switching
IPv6 IPv4/IPv6 dual stack, IPv6 L2 and L3 forwarding, and DHCPv6 relay
Multicast IGMP v2/v3, IGMP proxy/snooping, MLD v1/v2, MLD Proxy/Snooping, and VLAN-based IPTV multicast
QoS Traffic classification, priority processing, trTCM-based traffic policing, WRED, traffic shaping, HqoS, PQ/WRR/PQ + WRR, and ACL
System Reliability GPON type B/type C protection, 10G GPON type B protection, BFD, ERPS (G.8032), MSTP, intra-board and inter-board LAG, In-Service Software Upgrade (ISSU) of the control board, 2 control boards and 2 power boards for redundancy protection, in-service board fault detection and rectification, and service overload control