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Huawei SmartAX MA5608T multi-service access module which can be used as the mini olt.
MA5608T supports GPON, GE, and 10GE interface.
From here, you can find all the user manuals and user guides of MA5608T product, including the Product Documentation(hed
HUAWEI SmartAX MA5608T GPON OLT
Product Positioning
This topic describes the product positioning and network applications of the SmartAX MA5600T/MA5603T/MA5608T series devices.
The MA5600T/MA5603T/MA5608T is a series of integrated fiber-copper access devices. They support ADSL2+, VDSL2, Vectoring, SHDSL, POTS, GPON, 10G GPON, and P2P access modes and provide Internet access, voice, and video services to subscribers. As a series of large-/medium-/small-capacity devices, they share the same software platform and service boards.
- Large-capacity device MA5600T
- Medium-capacity device MA5603T
- Small-capacity device MA5608T
NOTE:
The MA5608T is mainly used in optical fiber access, and its applications in copper line access are sold in only specific markets. If you have copper line access requirements, contact the local Huawei sales engineers.
Application
The MA5600T/MA5603T/MA5608T is a series of large-/medium-/small-capacity devices that support integrated fiber-copper access and access-aggregation integration. Figure 1 shows their application network.
MA5600T
The MA5600T is an integrated fiber-copper access device, and can serve as a DSLAM, OLT, or aggregation OLT.
- The MA5600T, if serving as a large-capacity DSLAM, supports ADSL2+, VDSL2, Vectoring, SHDSL, and POTS access modes.
- The MA5600T, if serving as a large-capacity OLT, supports GPON, 10G GPON, and P2P access modes.
- The MA5600T, if serving as an aggregation OLT, supports FTTB/FTTC/DSLAM aggregation access, which simplifies the network architecture, reduces types and number of devices, and minimizes the CO equipment room space and energy consumption.
Figure 2 shows the appearance of the MA5600T.
MA5603T
The MA5603T is an integrated fiber-copper access device, and can serve as a DSLAM, OLT, or MDU.
- The MA5603T, if serving as an OLT, supports GPON, 10G GPON, and P2P access modes. It can be installed at a residential district or a street side, which reduces the usage of ODN backbone optical cables, lowers the ODN deployment cost and difficulty, and minimizes the CO equipment room space.
- The MA5603T, if serving as a DSLAM, supports ADSL2+, VDSL2, Vectoring, SHDSL, and POTS access modes.
- The MA5603T, if serving as an MDU, supports ADSL2+, VDSL2, Vectoring, SHDSL, and POTS access modes and transmit packets upstream to the OLT through a PON/GE/10 GE port.
Figure 3 shows the appearance of the MA5603T.
MA5608T
The MA5608T is an integrated fiber-copper access device, and can serve as a mini-OLT or mini-DSLAM.
- The MA5608T, if serving as a mini-OLT, supports GPON, 10G GPON, and P2P access modes. It can be installed at a residential district or a street side, which reduces the usage of ODN backbone optical cables, lowers the ODN deployment cost and difficulty, and minimizes the CO equipment room space.
- The MA5608T, if serving as a mini-DSLAM, supports ADSL2+, VDSL2, SHDSL, and POTS access modes and provides Internet access, voice, and video services.
Figure 4 shows the appearance of the MA5608T.
Product Highlight and Application
The MA5600T/MA5603T/MA5608T supports the integrated fiber-copper access, aggregation capability, and various access modes, making the heterogeneous access network (HetAN) a new trend. New topologies (such as vectoring, IPv6, and 10G GPON) revive copper lines and mature optical applications.
- HetAN
- The MA5600T/MA5603T/MA5608T serves as the CO OLT and supports multiple network construction modes and diversified access media to provide access for home users, mobile users, and enterprise users. Such a heterogeneous access network (HetAN) wins popularity.
- All in One
- The integrated fiber-copper access platform and the access-aggregation integration capability of the MA5600T/MA5603T/MA5608T effectively ensure the smooth evolution of the access network.
- Aggregation Management for Remote Sites
- The OLT supports aggregation management and plug-and-play for remote sites. This eliminates the needs of onsite software commissioning and OSS system integration, which simplifies device management.
- High-Bandwidth Copper Access
- New technologies, such as VDSL2 and vectoring, increase the bandwidth over the existing copper lines. This revives the cooper lines.
- Seamless Migration for PSTN Networks
- The MA5600T/MA5603T/MA5608T provides access for various traditional services, enabling a PSTN network seamlessly evolve to an IP network.
- Triple Protection
- The MA5600T/MA5603T/MA5608T provides 3 protection mechanisms on the network side, access side, and device to ensure that services are not interrupted.
- Environment-Friendly and Energy-Saving
- The MA5600T/MA5603T/MA5608T complies with the European Union's (EU's) Code of Conduct (CoC) standard. The MA5600T/MA5603T/MA5608T features the energy-saving design, optimizing power consumption, noise, and heat dissipation. This makes the MA5600T/MA5603T/MA5608T an environment-friendly device and minimizes the total cost of operation (TCO).
- Smooth Evolution from GPON to 10G GPON
- By adding the WDM1r component, the MA5600T/MA5603T/MA5608T can be smoothly upgraded from GPON to 10G GPON.
System Architecture
The MA5600T/MA5603T/MA5608T uses the system architecture containing three modules: M1, M2, and M3.
- The M1 service port module provides various service access ports, such as PON, P2P, POTS, and xDSL service ports.
- The M2 core processing module implements CPU processing, Ethernet switching, and service processing.
- The M3 uplink port module transmits service flows upstream to network-side devices.
In the preceding figure:
- The M1 service port module and M3 uplink port module connect to different boards. For details of working principles of each module, see board description in the Hardware Description.
- For details of service flow directions in the M1 service port module, see board working principles in the Hardware Description.
- The service flows processed by the M2 core processing module are classified into two types: One type of service flows are transmitted upstream after they are processed by the Ethernet switching module and the M3 uplink port module; the other type of service flows are transmitted upstream after they are processed by the Ethernet switching module, service processing module, and then Ethernet switching module again.
Subrack and Chassis
This topic dynamically demonstrates the subrack, and chassis of the MA5600T/MA5603T/MA5608T, helping you to quickly learn the structure of the device hardware.
Power Supply System
Hardware Description
This document describes the hardware of the SmartAX MA5600T/MA5603T/MA5608T Multi-service Access Module (MA5600T/MA5603T/MA5608T for short hereinafter), including the features of the cabinet, subrack, chassis, board, cable, and electromechanical device.
NOTE:
The hardware description of V800R008C01 and later versions is integrated to facilitate query of hardware support and implementation for various versions.
This document mainly describes the indoor cabinets. The outdoor cabinets are sold independently and therefore have their own product documents.
- Board
- This topic describes the function, front panel, port, daughter board, and pin assignments of the boards, and lists the specification of the boards.
- Cable
- This topic covers the appearance, pin assignments, applications, and technical specifications of the cables used by the device.
- Electromechanical Device
- This topic describes the function, front panel, and input and output terminals of the electromechanical device, and list the specification of the electromechanical device.
This document describes the hardware of the SmartAX MA5600T/MA5603T/MA5608T Multi-service Access Module (MA5600T/MA5603T/MA5608T for short hereinafter), including the features of the cabinet, subrack, chassis, board, cable, and electromechanical device.
NOTE:
The hardware description of V800R008C01 and later versions is integrated to facilitate query of hardware support and implementation for various versions.
This document mainly describes the indoor cabinets. The outdoor cabinets are sold independently and therefore have their own product documents.
- Board
- This topic describes the function, front panel, port, daughter board, and pin assignments of the boards, and lists the specification of the boards.
- Cable
- This topic covers the appearance, pin assignments, applications, and technical specifications of the cables used by the device.
- Electromechanical Device
- This topic describes the function, front panel, and input and output terminals of the electromechanical device, and list the specification of the electromechanical device.
Supporting Cabinets
|
Item |
MA5600T (ETSI) |
MA5600T (IEC) |
MA5603T |
MA5608T |
|---|---|---|---|---|
|
Appearance |
See Product Positioning. |
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|
Supported cabinet |
Indoor cabinet: N63E-22, N66E-18 Outdoor cabinet: F01T500, F01D2000 |
Indoor cabinet: N66E-22 Outdoor cabinet: none |
Indoor cabinet: N66E-18 Outdoor cabinet: F01T500, F01S300, F01T300 |
Indoor cabinet: N63E-22 Outdoor cabinet: F01S100, F01S200 |
|
Board configuration |
2 slots for control boards 16 slots for service boards 1 slot for the universal interface board 2 slots for upstream interface boards 2 slots for power interface boards. |
2 slots for control boards 14 slots for service boards 1 slot for the universal interface board 2 slots for upstream interface boards 2 slots for power interface boards. |
2 slots for control boards 6 slots for service boards 1 slot for the universal interface board 2 slots for upstream interface boards 2 slots for power interface boards. |
2 slots for control boards 2 slots for service boards 1 or 2 slots for the power interface board. |
|
Supported control board and its switching capacity |
SCUB: 48 Gbit/s SCUF: 128 Gbit/s SCUN/SCUK: 480 Gbit/s in active/standby mode or 960 Gbit/s in load-sharing mode SCUH: 960 Gbit/s in active/standby mode or 1920 Gbit/s in load-sharing mode |
MCUD/MCUD1: 128 Gbit/s in active/standby mode or 256 Gbit/s in load-sharing mode |
||
|
System Layer 2 packet forwarding rate |
SCUB: 72 Mpps SCUF: 190 Mpps SCUN/SCUK: 726 Mpps in active/standby mode or 1452 Mpps in load-sharing mode SCUH: 1428 Mpps in active/standby mode or 2856 Mpps in load-sharing mode |
MCUD/MCUD1: 190 Mpps in active/standby mode or 380 Mpps in load-sharing mode |
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|
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. |
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|
BER in full load |
BER of a port when the port transmits data in full load < 10 e-7 |
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|
System reliability specifications |
System: redundant configuration. 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 MA5600T/MA5603T/MA5608T 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. |
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|
Maximum number of ADSL2+ ports in a subrack |
1024 |
896 |
384 |
128 |
|
Maximum number of VDSL2 ports in a subrack |
1024 |
896 |
384 |
128 |
|
Maximum number of Vectoring ports in a subrack |
768 |
768 |
384 |
N/A |
|
Maximum number of EFM SHDSL ports in a subrack |
512 |
448 |
192 |
64 |
|
Maximum number of TDM SHDSL ports in a subrack |
256 |
224 |
96 |
32 |
|
Maximum number of POTS ports in a subrack |
1024 |
896 |
384 |
128 |
|
Maximum number of ISDN BRA ports in a subrack |
512 |
448 |
192 |
64 |
|
Maximum number of ISDN PRA ports in a subrack |
64 |
64 |
64 |
64 |
|
Maximum number of GPON ports in a subrack |
256 |
224 |
96 |
32 |
|
Maximum number of 10G GPON ports in a subrack |
128 |
112 |
48 |
16 |
|
Maximum number of P2P FE ports in a subrack |
768 |
672 |
288 |
96 |
|
Maximum number of P2P GE ports in a subrack |
768 |
672 |
288 |
96 |
|
Maximum number of upstream ports (GE ports in the GIU slot) in a subrack |
8 |
8 |
8 |
N/A |
|
Maximum number of upstream ports (10GE ports in the GIU slot) in a subrack |
4 |
4 |
4 |
N/A |
|
Maximum number of upstream ports (PON ports in the GIU slot) in a subrack |
1 |
1 |
1 |
N/A |
|
Maximum number of upstream ports (ports on the control board) in a subrack |
SCUN/SCUK: 8 x GE (in the load-sharing mode) SCUH: 8 x 10GE/GE (in the load-sharing mode) SCUB/SCUF: 4 x GE (in the active/standby mode) |
MCUD: 8 x GE (in the load-sharing mode) MCUD1: 4 x GE + 2 x 10GE/GE (in the load-sharing mode) |
||
|
Maximum number of extended subracks connected to a master subrack |
32 |
32 |
32 |
N/A |
|
Maximum number of ONUs supported by each subrack |
|
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