Huawei MA5800-X7
Huawei MA5800-X7 OLT chassis with 2*MPLA/MPLB 10GE Main Control Board, 2*PILA DC Power Board, 19 inch and 6U height, and supports 7 service slots, 200G throughput each slot.
Huawei
In Stock
Shenzhen Warehouse
- Description
- DATASHEET
- Packing info
- Comparison
- FAQ
- Similar Products
- Download
- Reviews (10)
Description
Huawei MA5800-X7 OLT Overview
The MA5800-X7 belongs to the Huawei MA5800 series optical line terminal (OLT), and the MA5800 supports four types of subracks. The only difference between these subracks relies on the service slot quantity (they have the same functions and network positions). and the MA5800 series includes:
- MA5800-X2, which supports 2 service slots with a small capacity.
- MA5800-X7, which supports 7 service slots with medium capacity.
- MA5800-X15, which supports 15 service slots with large capacity.
- MA5800-X17, which supports 17 service slots with large capacity.
- If the space of your cabinet is only 1U, and the number of ONTs/ONUs to be connected does not exceed 1024, you can also choose MA5801-GP08-H3.
Note: MA5800-X17 is compatible with ETSI standard cabinet, and the other three can be used in IEC standard cabinet.
The MA5800 is the industry’s first smart aggregation OLT with distributed architecture. It is positioned as the next-generation OLT for NG-PON(GPON/EPON/XG-PON/XGS-PON). The product is designed to help carriers build networks with larger bandwidths, higher speeds, and smarter connectivity to deliver a better service experience.
- Providing GPON, 10G PON (including XG-PON and XGS-PON), and P2P 10GE/GE access, the MA5800 supports deployment on FTTH, FTTD, FTTB, and FTTC networks. This makes it applicable to home access, enterprise access, mobile backhaul, and Wi-Fi hotspot backhaul scenarios to aggregate all services on one fiber network.
- The MA5800 functions as a large-capacity aggregation device on the network to aggregate the traffic from ONTs, MDUs, and campus switches, thereby simplifying the network architecture and reducing the OPEX.
Providing GPON, 10G GPON(including XG-PON and XGS-PON), P2P, GE, and 10GE access, the MA5800 supports deployment on FTTH, FTTD, FTTB, FTTC, and distributed converged cable access platform (D-CCAP)networks. This makes it applicable to home access, enterprise access, mobile backhaul, and Wi-Fi hotspot backhaul scenarios to aggregate all services on one fiber network.
The MA5800 functions as a large-cap aggregation device on the network to aggregate the traffic from ONTs, MDUs, and campus switches, thereby simplifying the network architecture and reducing the OPEX.
Huawei MA5800-X7 OLT Appearance
Huawei MA5800-X7 OLT Features
Access features: | GPON/XG(S)-PON Access | 10GE/GE P2P Access | ||
Layer 2 features: | VLAN+MAC forwarding | SVLAN+CVLAN forwarding | PPPoE+ | DHCP option82 |
Layer 3 features: | Static route | RIP/RIPng | OSPF/OSPFv3 | IS-IS |
DHCP relay | VRF | BGP/BGP4+ | ARP | |
Multicast: | IGMP v2/v3 | IGMP Proxy/Snooping | MLD v1/v2 (V100R016C10 and later versions) | MLD Proxy/Snooping (V100R016C10 and later versions) |
VLAN-based IPTV multicast | IPv4 PIM and PIM-SSM (V100R017C00 and later versions) | |||
QoS: | traffic classification | Priority processing | traffic shaping | HQoS |
trTCM-based traffic policing | WRED | PQ/WRR/PQ+WRR | ACL | |
MPLS PWE3: | MPLS LDP | MPLS RSVP-TE | MPLS OAM | MPLS BGP IP VPN |
PW protection switching | Tunnel protection switching | tdM/ETH PWE3 | ||
IPv6: | IPv4/IPv6 dual stack | IPv6 L2 and L3 forwarding | DHCPv6 relay | |
System reliability: | GPON type B/type C protection | ERPS (G.8032) | Monitor Link (V100R018C10 and later versions) | Intra-board and inter-board LAG |
BFD (V100R016C10 and later versions) | 10G GPON type B/type C protection | Service overload control | MSTP | |
2 control boards and 2 power boards for redundancy protection | In-service board fault detection and rectification | In-service software upgrade (ISSU) of the control board | ||
Application security: | 802.1x | AAA |
Main Control Boards and Service Boards Supported by Huawei MA5800-X7 OLT
Board Type | Name and Version | Description |
Main control boards | H901MPLA/H902MPLA/H903MPLA/H905MPLA | 4-port 10GE Uplink Main Processing Board, Bandwidth: 100G |
H901MPLB/H902MPLB/H903MPLB/H905MPLB | 4-port 10GE Uplink Main Processing Board, Bandwidth: 200G | |
Upstream boards | H901NXED/H902NXED/H905NXED | 8-port Enhanced 10GE Uplink Interface Board |
H902NCEB | 2-port Enhanced 100GE Uplink Interface Board | |
GPON Boardshttps://www.telecomate.com/h902gphf.html | H901GPHF/H902GPHF/H903GPHF | 16-port Advanced GPON OLT Interface Board |
H901GPSF/H902GPSF/H903GPSF | 16-port GPON OLT Interface Board | |
H901GPUF/G902GPUF | 16-port GPON OLT Interface Board | |
H901GPLF | 16-port GPON OLT Interface Board | |
XG-PON Boards/XG-PON Combo Boards | H901XGHD | 8-port Advanced XG-PON OLT Interface Board |
H901XGSF | 16-port XG-PON OLT Interface Board | |
H901CGHF/H902CGHF/H906CGHF | 16-port XG-PON GPON Combo OLT Interface Board | |
H901CGID | 8-port XG-PON GPON Combo OLT Interface Board | |
H902CGHD | 8-port Advanced XG-PON GPON Combo OLT Interface Board | |
XGS-PON Boards/XGS-PON Combo Boards | H901XSHF/H902XSHF/H903XSHF/H905XSHF | 16-port Advanced XGS-PON OLT Interface Board |
H902XSHD | 8-port Advanced XGS-PON OLT Interface Board | |
H901TWED/H902TWED | 8-port Enhanced TWDM PON OLT Interface Board | |
H901CSHF/H902CSHF/H903CSHF/H905CSHF | 16-port XGS-PON GPON Combo OLT Interface Board | |
H902CSHD | 8-port Advanced XGS-PON GPON Combo OLT Interface Board | |
XG-PON Plus Interface Board | H901FGHF | 16-port XG PON Plus OLT Interface Board |
Flexible Pon Board | H901FLHF/H902FLHF/H903FLHF/H905FLHF | 16-port Flex-PON OLT Interface Board |
Huawei MA5800-X7 OLT Layout
Huawei MA5800-X7 OLT Bulletins
EOS Announcement for huawei SmartAX MA5800 V100R016C00 ,SmartAX MA5800 V100R016C10
Huawei MA5800-X7 OLT Compatible ONT
Type | Model | Description |
Bridge type | HG8310M | 1*GE |
HG8010H | 1*GE | |
EG8120L | 1*GE+1*FE+1*POTS | |
HG8321R | 1GE+1FE+1POTS | |
F601 | 1*GE | |
F612 | 1GE+1FE+1POTS | |
AN5506-01-A | 1*GE | |
I-010G | 1*GE | |
2.4G WIFI | HG8546M | 1*GE+3*FE+1*POTS+1*USB+WIFI 5dbi |
HG8545M5 | 1*GE+3*FE+1*POTS+1*USB+WIFI 5dbi | |
EG8141A5 | 1*GE+3*FE+1*POTS+1*USB+WIFI 5dbi | |
F660 V8.0 | 1*GE+3*FE+1*POTS+1*USB+WIFI 5dbi | |
F660 V7.1 | 1*GE+3*FE+1*POTS+1*USB+WIFI 5dbi | |
F660 V9.0 | 1*GE+3*FE+1*POTS+1*USB+WIFI 5dbi | |
G-140W-MD | 1*GE+3*FE+1*POTS+1*USB+WIFI 5dbi | |
G-140W-MH | 1*GE+3*FE+1*POTS+1*USB+WIFI 5dbi | |
HG6543C4 | 1*GE+3*FE+1*POTS+1*USB+WIFI 5dbi | |
M320 | 1*GE+3*FE+1*POTS+1*USB+WIFI 5dbi | |
M325 | 1*GE+3*FE+1*POTS+1*USB+WIFI 5dbi | |
M329 | 1*GE+3*FE+1*POTS+1*USB+WIFI 5dbi | |
2.4/5G WIFI | HG8245Q2 | 4*GE+1*POTS+2*USB+2.4G/5G WIFI, CE label |
HS8145V5 | 4*GE+1*POTS+1*USB+2.4G/5G WIFI | |
HS8546V5 | 4*GE+1*POTS+2*USB+2.4G/5G WIFI (5dbi) | |
EG8145V5 | 4*GE+1*POTS+2*USB+2.4G/5G WIFI (5dbi) | |
F673AV9a | 4GE+1POTS+2USB+2.4G/5G WIFI | |
F670L-V9.0 | 4*GE+1*POTS+1*USB+2.4G/5G WiFi, 4*antennas | |
F670L | 4*GE+1*POTS+1*USB+2.4G/5G WiFi, 5dBi | |
HG6143D | 4*GE+1*POTS+2USB+2.4G/5G WIFI (5dBi) | |
HG6143D1-4 Antennas | 4GE+2USB+POTS+WI-FI 2.4/5G 5dBi 4 antennas | |
G-240W-C | 4GE+2POTS+2.4G/5G WIFI | |
G-140W-C | 4*GE+1*POTS+2USB+2.4G/5G WIFI (2dbi) | |
G-140W-ME | 4GE+1POTS+2USB+2.4G/5G WIFI | |
G-140W-MF | 4GE+1POTS+2USB+2.4G/5G WIFI (2dbi) | |
G-1425-MA | 4GE+2USB+1POTS+2.4G/5G Dual band WI-FI 5 | |
M520 | 4GE+POTS+2*USB+2.4/5G WIFI+4 antennas 5 dBi | |
M528 | 4GE+2USB+POTS+WI-FI 2.4/5G 5dBi 4 antennas | |
WIFI6 | EG8146X6 | 4GE+1POTS+2USB+2.4G 5G 11ax WiFi6 (5dBi) |
HS8145X6 | 4GE+1POTS+2USB+2.4G 5G 11ax WiFi6 (5dBi) | |
K662c | 3GE+2.4GHz 5GHz Wi-Fi 6128MB Flash,256MB RAM | |
G-1426-MA | 4GE+2USB+1POTS+2.4G/5G Dual band WI-FI 6 AX1800 | |
CATV | HG8321V | 1GE+1FE+1POTS+CATV |
EG8247H5 | 1*GE+3*FE+1*POTS+1*USB+1*CATV, 2.4G WIFI 5dBi | |
F601C | 1GE+CATV | |
F630 | 1GE+3FE+2USB+CATV+2.4/5G WIFI 5dBi | |
M454 | 4GE+1POTS+1USB+CATV+2.4G/5G WIFI, 4 antenna | |
EG8143A5 | 1*GE+3*FE+1*POTS+1*USB+CATV+WiFi , 5dbi | |
XG-PON | HN8346V5 | XG-PON ONT, 4GE+1POTS+2USB+2.4G/5G Wi-Fi (5dBi) |
HN8546X6 | XG-PON ONT, 4GE+2USB+1POTS, 2.4G 5G Wi-Fi 6 | |
F2866 | 4*GE+2*POTS+2*USB+2.4G/5G WiFi | |
F7010C | 4GE+1POTS+Bridge | |
F7600T | 4GE+1POTS+WIFI6 |
Huawei MA5800-X7 Datasheet
Item | Huawei MA5800-X7 |
Switching capacity of the system | H90xMPLA: 3.6 Tbit/s
H90xMPLB: 7 Tbit/s *x refers to the end number of the version number of the hardware, such as 1, 2, 3, 5, etc |
Maximum bandwidth per slot | MPLB: 200 Gbit/s MPLA: 100 Gbit/s |
Maximum number of MAC addresses | 262144 |
Maximum number of ARP/routing entries | 131072 |
Maximum number of concurrent 4K video users | 8000 |
GPON ports | 112 |
XG-PON ports | 112 |
XGS-PON ports | 56 |
GE/FE ports | 336 |
10GE ports | 56 |
Cabinet supported | N63E-22 |
Control Board Supported | |
H901MPLB | It provides 4 GE/10GE upstream transmission ports and supports load sharing. By default, MA5800 connects to the upstream network through the control board |
H901MPLA/H902MPLA | |
H901CKUA | Supports stratum-3 clock functions by working with MPLB and MPLA |
Upstream interface board Supported | |
H901NXED | Enhanced 8-port 10GE upstream interface board, supporting 10GE/GE Ethernet upstream transmission. NXED is used when upstream ports currently provided in MA5800 are not enough. |
Universal interface board Supported | |
H901CIUA | Provides synchronous time/clock signal input&output interfaces, alarm parameter/Boolean value input&output interface. RS485 serial ports, and provides transparent transmission Ethernet ports. |
Service Board Supported | |
H901GPHF | Provides 16 GPON ports for access services |
H901GPSF | Provides 16 GPON ports for home access services |
H901XGHD | Provides 8 asymmetric 10G GPON ports for access services. |
H901TWED | Provides 8 symmetric 10G GPON ports for access services. |
H901EDSH | 32-channel E1 upstream board, supporting native TDM mode. |
H901OGHK | 48-port aggregated GE/FE optical interface board, supporting up to 48 channels of GE/FE |
H901OXHD | 8-port aggregated 10GE optical interface board, supporting GE/10GE Ethernet aggregation. |
Power board Supported | |
H901PILA | Provides -48V DC input |
Fan Monitoring Board Supported | |
H901FMLA | Supplier power to fans; controls and monitors the fans |
H901FMMA | Supplier power to fans; controls and monitors the fans |
Dimensions (W x D x H) (mm) |
6 U high and 19 inches wide Excluding mounting brackets: 442×268.7×263.9 Including IEC mounting brackets: 482.6×268.7×263.9 Including ETSI mounting brackets:535×268.7×263.9 |
Maximum weight(including mounting brackets) | 26 kg |
Maximum input current | 40 A |
Power supply | Power supply mode: DC Working voltage range: -38.4 V to -72 V Rated voltage: -48 V / -60 V |
Ambient temperature | -40°C to +65°C The MA5800 can start up at a lowest The MA5800 can start up at the lowest temperature of -25°C and run at -40°C. Note: The 65°C temperature refers to the highest temperature measured at the air intake vent of the service subrack. |
Ambient humidity | 5% RH to 95% RH |
Additional information
Weight | 24.0000 kg |
---|---|
Dimensions | 58.0000 × 39.0000 × 42.0000 cm |
Comparison of Huawei MA5800 OLT chassis
Item | MA5800-X17 | MA5800-X15 | MA5800-X7 | MA5800-X2 |
Supported cabinet | N63E-22, N66E-18 | N66E-22 | N63E-22, N66E-22 | N63E-22 |
Board configuration | Control board slots: 9, 10 | Control board slots: 8, 9 | Control board slots: 8,9 | Control board slots: 3,4 |
Service board or upstream interface board slots: 1–8, 11–19 | Service board or upstream interface board slots: 1–7, 10–17 | Service board or upstream interface board slots: 1–7 | Service board or upstream interface board slots: 1–2 | |
Universal interface board slot: 0 | Universal interface board slot: 0 | Universal interface board slot: 0 | Does not support the universal interface board. | |
Power board slots: 20, 21 | Power board slots: 18,19 | Power board slots: 10, 11 | Power board slot: 0 | |
Dimensions (W x D x H) (mm) | Excluding mounting ears: 493 x 287 x 486 | Excluding mounting ears: 442 x 287 x 486 | Excluding mounting ears: 442 x 268.7 x 263.9 | Excluding mounting ears: 442 x 268.7 x 88.1 |
Including mounting ears: 535 x 287 x 486 | Including mounting ears: 482.6 x 287 x 486 | Including IEC mounting ears: 482.6 x 268.7 x 263.9 Including ETSI mounting ears: 535 x 268.7 x 263.9 | Including IEC mounting ears: 482.6 x 268.7 x 88.1 Including ETSI mounting ears: 535 x 268.7 x 88.1 | |
Maximum weight (including mounting brackets) | 45 kg | 35 kg | 26 kg | 9.4 kg |
Maximum input current | 60 A | 60 A | 40 A | DC power supply: 20 A AC power supply: 8 A |
Power supply mode | DC power support (dual backup) | DC power support (dual backup) AC power supply + battery for backup | ||
Working voltage range | –38.4 V DC to –72 V DC | DC power supply: –38.4 V to –72 V AC power supply: 100–240 V | ||
Rated voltage | –48 V/–60 V | DC power supply: –48 V/–60 V AC power supply: 110 V/220 V | ||
Ambient temperature | –40°C to +65°C The MA5800 can start up at a lowest temperature of –25°C. NOTE: The +65°C temperature refers to the highest temperature measured at the air intake vent of a service subrack. | |||
Ambient humidity | 5%–95% RH | |||
Atmospheric pressure | 70–106 kPa | |||
Altitude | < 4000 m. The air density varies with the altitude and will affect the heat dissipation of a device. Therefore, the working environment temperature of the MA5800 varies with the altitude. | |||
Payload switching capacity of the control board (load sharing mode) | MPLA: 3.6 Tbit/s | MPSA/MPSG: 248 Gbit/s | ||
MPLB: 7 Tbit/s | ||||
MPLG: 7.3 Tbit/s | ||||
Maximum payload bandwidth per service slot (load sharing mode) | MPLA: 100 Gbit/s | MPSA/MPSG: 40 Gbit/s | ||
MPLB/MPLG: 200 Gbit/s | ||||
Maximum number of concurrent 4K video users | 17000 | 7000 | 2000 | |
Maximum number of MAC addresses | 262143 | |||
Maximum number of IPv4 routing tables | 65536 | |||
Maximum number of IPv6 routing tables | 16384 | |||
Maximum number of ARP tables | 131072 | 32768 | ||
Switching/Forwarding delay | Short forwarding delay: The 100 Mbit/s Ethernet port sends the 64-byte Ethernet packets at a delay shorter than 20 μs. | |||
Bit error rate (BER) in full load | A BER smaller than 10 e-10 for a port that transmits data in full load | |||
System reliability specifications | System availability for the typical configuration: > 99.999% Mean time between failures (MTBF): about 45 years NOTE: Due to different network environments and different boards used by devices, the preceding MTBF (45 years) of the MA5800 is only for reference. The average repair time for field replaceable units (FRUs) is about 2 hours. The preceding values are only for reference. For details, contact the related Huawei engineers. | |||
Upstream ports | MPLA/MPLB: 8 x 10GE/GE | MPSA/MPSG: 4 x 10GE/GE + 4 x GE | ||
(dual control boards for upstream transmission) | MPLG: 2 x 100GE + 4 x 10GE/GE | |||
GPON ports | 272 | 240 | 112 | 32 |
XG-PON ports | 272 | 240 | 112 | 32 |
XGS-PON ports | 272 | 240 | 112 | 32 |
GE ports | 816 | 720 | 336 | 96 |
10GE ports | 408 | 360 | 168 | 16 |
Comparison of MA5800 OLT control boards
Board Specifications | H901MPLA | H902MPLA | H903MPLA | H901MPLB | H902MPLB | H901MPSC | H901MPSA |
Bandwidth per slot (load balancing mode) | 100 Gbit/s | 100 Gbit/s | 100 Gbit/s | 200 Gbit/s | 200 Gbit/s | 80 Gbit/s | 40 Gbit/s |
Upstream or cascading port | 4 x 10GE/GE ports | 4 x 10GE/GE ports | 4 x 10GE/GE ports | 4 x 10GE/GE ports | 4 x 10GE/GE ports | 4 x 10GE/GE ports | 2 x 10GE/GE ports 2 x GE ports |
ALM port | No | No | No | No | No | Yes (7 Boolean value inputs and 1 Boolean value output) | Yes (7 Boolean value inputs and 1 Boolean value output) |
BITS/TOD port | No | No | No | No | No | Yes (1 external clock/time input and output) | Yes (1 external clock/time input and output) |
MAC address table size | 262143 | 262143 | 262143 | 262143 | 262143 | 262143 | 262143 |
Access ONTs | 17408 | 17408 | 17408 | 17408 | 17408 | 4096 | 4096 |
Multicast users | 17408 | 17408 | 17408 | 17408 | 17408 | 4096 | 4096 |
Static programs | 4096 (earlier than V100R017C00) 8192 (V100R017C00 and later versions) | 8192 | 8192 | 4096 (earlier than V100R017C00) 8192 (V100R017C00 and later versions) | 8192 | 8192 (V100R017C10 and later versions) | 8192 |
IPv4 routing table size | 65536 | 65536 | 65536 | 65536 | 65536 | 65536 | 65536 |
IPv6 routing table size | 16384 | 16384 | 16384 | 16384 | 16384 | 16384 | 16384 |
Service ports | 139264 | 139264 | 139264 | 139264 | 139264 | 32768 | 32768 |
ND table size | 16384 | 16384 | 16384 | 16384 | 16384 | 16384 | 16384 |
ARP table size | 66048 (earlier than V100R017C10) 98816 (V100R017C10) 131072 (V100R018C00 and later versions) | 66048 (V100R017C00) 98816 (V100R017C10 version) 131072 (V100R018C00 and later versions) | 131072 | 66048 (earlier than V100R017C10) 98816 (V100R017C10) 131072 (V100R018C00 and later versions) | 131072 | 98816 (V100R017C10) 131072 (V100R018C00 and V100R018C10 versions) 32768 (V100R019C00 and later versions) | 32768 |
Ethernet synchronization | Yes | Yes | Yes | Yes | Yes | Yes | Yes |
1588v2 | Yes | Yes | Yes | Yes | Yes | Yes | Yes |
1588ACR | Yes | Yes | Yes | Yes | Yes | No | No |
NOTE:
- In the preceding table, the IPv4 routing table and ARP table share the same storage space, and the IPv6 routing table and the ND table share the same storage space.
- H901MPLA, H902MPLA, and H903MPLA are slot compatible.
- H901MPLB and H902MPLB are slot compatible.
- H901MPSC and H901MPSA are not slot compatible.
Q: Which services can be provided by MA5800 series OLT, like MA5800-X7?
A: For operators/ISP companies, the MA5800 series OLT can provide superior 4K/8K/VR video services, gigabit broadband services, CATV/IPTV, support massive physical connections for smart homes and all-optical campuses, and offers a unified way to connect home user, enterprise user, and Internet of Things (IoT) services.
Q: How can I use an MA5800 OLT to deploy XG(S)-PON network?
A: Please refer to the article: Huawei XG(S)-PON FTTH Solution.
Q: Can the same PON port of the 10GEPON board XSHF of the MA5800 be plugged with ONUs with symmetrical and asymmetrical bandwidths? How to identify them?
A: The 10GEPON board XSHF of MA5800 can support mixed access of ONU (10g/10g) with symmetric bandwidth and ONU (10g/2.5g) with asymmetric bandwidth under the same PON port.
Allocate bandwidth after automatic identification by the OLT according to the registration message
The ONT/ONU type can be manually modified through the ont-type command.
Q: Are the Default User Name and Password of the MA5800-X7 the Same as those of the MA5600T series OLT?
A: According to the latest password security policy, the default user name and password of the MA5800 are root and admin123. The default user name and password of the MA5600T are changed from root and admin to root and admin123 from V800R017C00. To enhance security, you are advised to change the password upon your first login.
Q: What can I do if I forget the password to the MA5800 account?
A: Method 1: If you remember the read and write community names of the device, use an SNMP tool (for example, net-snmp) to deliver a command to change the password of the root user. For example, change the password of the root user to admin123.
snmpset -c community name -v2c device IP address .1.3.6.1.4.1.2011.6.3.10.1.1.2.114.111.111.116 x “01 92 02 3a 7b bd 73 25 05 16 f0 69 df 18 b5 00”
Method 2: If you remember the BIOS password, enter the BIOS interface and load the blank database of the corresponding version or the database version whose root password is available.
Q: What is the IP address of the maintenance network port on the MA5800?
A: The default IP address of the maintenance Ethernet port (ETH port on the control board) of the MA5800 is 10.11.104.2.
Q: Why does a newly deployed MA5800 fail to be logged in through Telnet?
A: By default, the Telnet protocol is disabled. You can run the sysman service telnet enable command to enable the Telnet service if needed. (NOTE: Telnet has security risks due to protocol limitations. You are advised to use Stelnet.)
Q: Can users adjust the transmit optical power of the MA5800 optical module?
A: The transmit optical power of an optical module is commissioned before delivery. The device cannot control the transmitted optical power of an optical module using commands.
Q: Does the MA5800 support active/standby mode?
A: The MA5800 does not support active/standby mode, but only load-sharing mode. The MA5800 has a distributed architecture. When two control boards are configured, the active and standby control boards carry services at the same time to effectively utilize the bandwidth of two control boards.
Each control board consists of the control module and the switching module.
- The control modules of two control boards always work in active/standby mode. If the control module of a control board is in the active state, this board is an active control board; if the control module of a control board is in the standby state, this board is a standby control board. When abnormalities such as faults or reset occur in the control module of the active control board, services on the active control board are automatically switched over to the control module of the standby control board, to ensure that the functions of control boards and relevant services are not interrupted.
- The switching modules of two control boards always work in load-sharing mode, and the maximum switching bandwidth of the system is the maximum switching capacity of two control boards. When one control board is removed, or the switching module of one control board is faulty, traffic of the faulty control board is automatically switched over to the other control board. The maximum switching bandwidth of the system is the maximum switching capacity of one control board.
The MA5800 does not support active/standby mode, so it does not support:
- The protection between the active and standby control boards.
- The protection between the ports on the active and standby control boards.
- The protection between the aggregation groups on the active and standby control boards.
Q: Can the boards on the MA5600T be used on the MA5800?
A: The MA5800 has a brand-new hardware structure, so the boards on the MA5600T can not be used.
Q: Can the 10G PON board work with the PON ONU?
A: 10G GPON board can not work with the GPON ONU. Therefore, the services of the GPON ONU cannot be migrated to the 10G GPON port.
Q: How to switch 10GE upstream transmission to GE upstream transmission of the upstream port on the MA5800?
A: On the MA5800, both the control board and the upstream board can be used for 10GE/GE upstream transmission. By default, the device uses 10GE for upstream transmission. You can set the upstream port by running speed command. To avoid communication failures, the rate of the upstream port must be the same as that of the port on the interconnected device.
Q: Can the power distribution box on the live network be installed on the MA5800 that is placed in the cabinet housing the MA5600T?
A: Can not be completely matched. The power consumption is limited. When both MA5600T and MA5800 are installed in the same cabinet, service boards are configured according to the remaining power supply of the entire cabinet.
Q: How to handle the issue if the upgrade progress of an MA5800 is consistently 99%?
A: During the upgrade, run the display progress load command to query the package file loading progress. The progress stays at 99% for a period of time. Please wait patiently.
Q: What are the differences between options always-on and once-on in the password authentication of an ONU?
A:
always-on: If this option is selected, an ONU is authenticated in the password mode before it goes online each time, and the MAC address/SN parameter is not required in ONU registration. After the ONU is authenticated, you can modify its SN or MAC address.
once-on: If this option is selected, an ONU is authenticated in the password mode within a specified period before it goes online for the first time. After successful authentication, the ONU is bound to the MAC address/SN. Thus, the ONU is authenticated by MAC address/SN but not by password next time it goes online. After the ONU is authenticated, you cannot modify its SN or MAC address
Q: Is there any MA5800 model that only has 1U height?
A: If you need 1U box-shaped Huawei OLT, you can choose MA5801-GP16-H2, MA5801-GP08-H3, MA5801-FL16-H1, MA5801-GP16, MA5801-GP08-H2.
Brand | Model | Slot Number | XG(S)-PON Supported | Power Input |
ZTE | ZTE ZX10 C650 | 5 | Yes | DC |
Fiberhome | Fiberhome AN6000-7 | 7 | Yes | DC |
Nokia | Nokia Alcatel-lucent 7360 FX-8 | 8 | Yes | DC |
Anisha –
I chose MPLB main control board for MA5800-X7, because MPLB has bigger bandwidth than MPLA, ready for evolution to 10GPON service.
Arzolay –
Test assured, one year warranty, reliable supplier!
Mohammad –
New MA5800-X7 chassis, and i bought CGHF XG-PON and GPON board to test.
Víctor –
El suministro ha sido difícil desde que se suspendió el MA5603T, y ahora el MA5800-X7 es nuestra mejor opción.
David –
I chose MA5800-X7 for this expansion, and I am making excessive preparations for entering the 10GPON era.
Johan –
Delivered to me together with the test report, telecomate.com is a very professional team.
Enrique –
I purchased 3 sets of MA5800-X7 OLT from Telecomate.com. They recommend I use air transport to save on my shipping cost, which is nice. I got my packages yesterday, and the test report shows the devices are usable, also the equipment is totally new and original from Huawei.
Carlos –
Estoy acostumbrado a comprar equipos en Telecomate.com, y en esta entrega me regalaron 8 unidades transceptores ópticos para OLT uplink, tanto el MA5800-X7 como las 4 pzs tarjetas GPHF que llevan son nuevos a estrenar.
Salvador Pizado –
Soy un pequeño ISP en Chile, compré 1 und de Huawei MA5800-X7 y 2 GPHF C++ de Telecomate.com.
Además, probé sus OME ONUs M458 y M329, y decidimos usar su ONUs para futuras implementaciones de red, lo cual es muy rentable.
Daniel –
High quality and reasonable price.