Huawei MA5683T
Huawei MA5683T chassis with 5U height 6 service slots, 2xSCUN main control board, 2xPRTE DC power board, support EPON, GPON, 10G PON, P2P service
Huawei
3-5 days
Shenzhen Warehouse
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Description
Huawei MA5683T Overview
SmartAX MA5600T is the global first OLT which integrates the functionality of aggregation switch and edge router.
It can provide high-density GPON, 10GPON and Ethernet P2P optical access, triple-play service, TDM/ATM/Ethernet leased line services for business customers and high precision clock, and high density GE/10GE interfaces for cascading remote access equipment.
MA5600T helps to simplify network architecture, to improve network reliability and lower TCO essentially.
The MA5680T/MA5683T/MA5608T is a series of integrated fiber-copper access devices. They support ADSL2+, VDSL2, Vectoring, SuperVector, 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: MA5680T with 16 slots for service boards(ETSI)/14 slots for service boards(IEC)
- Medium-capacity device: MA5683T with 6 slots for service boards
- Small-capacity device: MA5608T with 2 slots for service boards
The MA5683T is an integrated fiber-copper access device, and can serve as a DSLAM, OLT, or MDU.
Huawei MA5683T chassis with 5U height 6 service slots, 2xSCUN main control board, 2xPRTE DC power board, support EPON, GPON, 10G PON, P2P service.
- The MA5683T, 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 MA5683T, if serving as a DSLAM, supports ADSL2+, VDSL2, Vectoring, SuperVector, SHDSL, and POTS access modes.
- The MA5683T, if serving as an MDU, supports ADSL2+, VDSL2, Vectoring, SuperVector, SHDSL, and POTS access modes and transmit packets upstream to the OLT through a PON/GE/10 GE port.
MA5683T is PRTE DC power based, recommend AC/DC power converter ETP48100-B1-A1, ETP4860-B1A12 to change power solution.
Supported Main Control Board and Service Board
Board Type | Name and Version | Description |
Main control boards | SCUN | the most applications main control board, which comes with 4 GE uplink ports |
SCUH | supports 4 GE/10GE uplink ports | |
SCUK | supports 4 GE optical uplink ports | |
Power Board | H801PRTA | Huawei SmartAX MA5600 Power Transfer Board |
H801PRTE | ||
H801PRTG | ||
Upstream boards | X2CS | 2-10GE optical interface board |
GICF | 2-GE optical interface board | |
GICG | 2-port GE electrical interface bard | |
GPON Board | GPBD/GPBH | 8 GPON ports interface board |
GPFD | 16 GPON ports interface board | |
XG-PON Board | XGBD | 8 XGPON ports interface board |
Epon Board | EPBD | 8 EPON ports interface board |
EPFD | 16 EPON ports interface board | |
10G EPON Board | XEBD | 8 XEPON ports interface board |
Huawei MA5683T Layout
EOM Announcement for Huawei MA5600T ,MA5608T ,MA5603T ,MA5616
Table 1 End of Life Milestones and Dates for Huawei SmartAX MA5616 &SmartAX MA5600T &SmartAX MA5603T &SmartAX MA5608T
Milestone | Definition | Date |
EOM | End of Marketing. The EOM date is the date from which the acceptance of the POs will be rejected. The product is not sold any longer after the date |
December.31.2019 |
EOS | End of Service & Support. It refers to the last date of the service. After the EOS date, Huawei does not provide any service for the product. | Plan:
December.31.2024 |
Table2 Replacement Product
End of Life Product | Replacement Product |
SmartAX MA5600T(21 inch) | FTTH:SmartAX MA5800-X17 |
Copper:SmartAX MA5800C-X16 | |
SmartAX MA5600T(19 inch) | SmartAX MA5800-X15 |
SmartAX MA5603T | FTTH:SmartAX MA5800-X7 |
Copper:SmartAX MA5800C-X6 | |
SmartAX MA5608T | SmartAX MA5801/SmartAX MA5800-X2 |
SmartAX MA5616 | SmartAX MA5818 |
MA5683T Datasheet
Item | MA5683T |
Backplane bus switching capacity | 1.5 Tbit/s |
System L2 packet forwarding rate Power | SCUB: 72 Mpps SCUN: 726 Mpps(Active/Standby mode), 1452 Mpps(Load-sharing mode) SCUK: 726 Mpps(Active/Standby mode), 1452 Mpps(Load-sharing mode) SCUF: 190 Mpps SCUH: 1428 Mpps(Active/Standby mode), 2856 Mpps(Load-sharing mode) |
Control board switching capacity | SCUB: 48 Gbit/s SCUN: 480 Gbit/s(Active/Standby mode), 960Gbit/s(Load-sharing mode) SCUK: 480 Gbit/s(Active/Standby mode), 960Gbit/s(Load-sharing mode) SCUF: 128 Gbit/s SCUH: 960 Gbit/s(Active/Standby mode), 1920Gbit/s(Load-sharing mode) |
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. |
BER in full load | BER of port when transmitting data in full load < 10 e-7 |
System performance | |
System | Redundant configuration |
System availability in typical configuration | >99.999% |
Mean Time Between Failures (year) | ≈45 |
Configuration | |
Maintenance port | Number of 10 Mbit/s/100 Mbit/s maintenance Ethernet ports: 1 Number of serial ports for local/remote maintenance: 1 |
Monitoring port | Number of environment monitoring serial ports: 1 |
Maximum number of GPON ports in a subrack | 96 |
Maximum number of 10G GPON ports in a subrack | 24 |
Maximum number of P2P FE ports in a subrack | 288 |
Maximum number of P2P GE ports in a subrack | 288 |
Maximum number of upstream ports (GE ports in the GIU slot) in a subrack | 8 |
Maximum number of upstream ports (10GE ports in the GIU slot) in a subrack | 4 |
Management ports | |
Outband management Ethernet port (RJ-45) | SCUB/SCUN/SCUF/SCUH control board: 1 Port Board |
Local serial port (Console) | SCUB/SCUN/SCUF/SCUH control board: 1 Port Board |
Upstream ports | |
GE electrical port | GICE: 4 Ports Board GICG: 2 Ports Board |
GE optical port | GICF/GICK: 2 Ports Board SCUB/SCUN/SCUH/GICD/GSCA: 4 Ports Board ETHB/SPUA/SPUF: 8 Ports Board SPUC: 40 Ports Board |
10GE optical port | X2CS/SPUA: 2 Ports Board SPUC: 4 Ports Board SPUF: 8 Ports Board |
E1 port | TOPA: 16 Ports Board |
STM-1 upstream optical port | TOPA: 2 Ports Board |
PON upstream optical port | P2CA: 2 Ports Board (One PON port is available and the other is backup.) |
Service ports | |
GPON port | GPBD/GPBH: 8 Ports Board GPFD: 16 Ports Board |
10G GPON port | XGBC: 4 Ports Board XGBD: 8 Ports Board |
P2P GE optical port | OPGD/OPGE: Single-fiber bi-directional: 48 Ports Board, Two-fiber bi-directional: 24 Ports Board |
P2P FE optical port | OPFA: 16 Ports Board OPGD/OPGE: Single-fiber bi-directional: 48 Ports Board, Two-fiber bi-directional: 24 Ports Board |
Ethernet optical port | ETHB: 8 Ports Board |
E1 port | H802EDTB: 16 Ports Board |
Device Specifications | |
Dimensions (W x D x H excluding mounting brackets) | 442.00 mm x 283.20 mm x 263.90 mm |
Dimensions (W x D x H, including mounting brackets) | 535.00 mm x 283.20 mm x 263.90 mm, for ETSI cabinet 482.60 mm x 283.20 mm x 263.90 mm, for IEC cabinet |
Weight (empty chassis) | 7.0kg |
Working environment temperature | For an indoor cabinet Configured with 1 subrack: -25°C to +65°C Configured with 2 subracks: -25°C to +55°C |
Working environment humidity | 5% RH to 95% RH |
Atmosphere pressure | 61 kPa to 106 kPa |
Altitude | < 4000 m |
Additional information
Weight | 26.0000 kg |
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Dimensions | 57.0000 × 48.0000 × 45.0000 cm |
Comparison of Huawei MA5600T OLT chassis
Item | MA5680T (ETSI) | MA5680T (IEC) | MA5683T | MA5608T |
---|---|---|---|---|
Supported cabinet | Indoor cabinet: N63E-22, N66E-18
Outdoor cabinet: F01T500 |
Indoor cabinet: N66E-22
Outdoor cabinet: none |
Indoor cabinet: N66E-18
Outdoor cabinet: F01S300, F01T500, 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/SCUV: 960 Gbit/s in active/standby mode or 1920 Gbit/s in load-sharing mode |
MCUD/MCUD1/MCUE: 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/SCUV: 1428 Mpps in active/standby mode or 2856 Mpps in load-sharing mode |
MCUD/MCUD1/MCUE: 190 Mpps in active/standby mode or 380 Mpps in load-sharing mode | ||
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. | |||
BER in full load | BER of a port when the port transmits data in full load < 10 e-7 | |||
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 SuperVector ports in a subrack | N/A | N/A | 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 | SCUB/SCUF: 4 x GE (in the active/standby mode)
SCUN/SCUK: 8 x GE (in the load-sharing mode) SCUH/SCUV: 8 x 10GE/GE (in the load-sharing mode) |
MCUD/MCUE: 8 x GE (in the load-sharing mode)
MCUD1: 4 x GE + 2 x 10GE/GE (in the load-sharing mode) |
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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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Comparison of GPON board
Board | GPON Type | Port Quantity | Optical Module | Maximum Split Ratio |
H807GPBD | 1G-GPON | 8 | SFP (Class B+ and Class C+/Class C++) | 1:128 |
H805GPBD/H806GPBD | 1G-GPON | 8 | SFP (Class B+ and Class C+/Class C++) | 1:128 |
H802GPFD | 1G-GPON | 16 | SFP (Class B+ and Class C+/Class C++) | 1:128 |
H805GPFD | 1G-GPON | 8 | SFP (Class B+ and Class C+/Class C++) | 1:128 |
H802XGBC | 10G-GPON | 4 | SFP (Class B+ and Class C+/Class C++) | 1:128 |
Differences between GPON B+, GPON C+, and GPON C++ transceivers
B+ Module | C+ Module | C++ Module | |
Type | One-fiber bi-directional optical module, class B+ | One-fiber bi-directional optical module, class C+ | One-fiber bi-directional optical module, class C++ |
Operating Wavelength | Tx: 1490 nm Rx: 1310 nm |
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Encapsulation Type | SFP | ||
Port Rate | Tx:2.49Gbit/s
Rx:1.24Gbit/s |
Tx:2.488Gb/s
Rx:1.244Gb/s |
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Minimum Output Optical Power | 1.50 dBm | 3.00 dBm | 6.00 dBm |
Maximum Output Optical Power | 5.00 dBm | 7.00 dBm | 10.00 dBm |
Maximum Receiver Sensitivity | -28.00 dBm | -32.00 dBm | -35.00 dBm |
Optical Connector Type | SC/PC | SC/UPC | |
Optical Fiber Type | Single-mode | ||
Reach | 20.00km | ||
Overload Optical Power | -8.0 dBm | -12.0 dBm | -15.0 dBm |
Extinction Ratio | 8.2 dB |
Q: What is the difference between MA5683T and MA5603T?
A: MA5603T is based on multi-service, MA5603T can support ADSL, VDSL, GPON and other services; while MA5683T is just an OLT, MA5683T only supports GPON, P2P and other services, their hardware and configuration commands are the same.
Q: What is the difference between MA5683T and MA5680T?
A: The difference lies in the capacity. The MA5683T supports a maximum of 6 service slots, and the MA5680T supports a maximum of 16 service slots.
Q: Can the SCUH main control board be provided?
A: SCUH has limited resources in the market, if you need it, please contact our sales team: [email protected].
Q: Do you provide configuration manual to me if I purchase MA5683T from Telecomate.com?
A: Yes, you may contact our sales team to get related documents.
Q: Does MA5683T support AC power supply?
A: No, but you can purchase one AC/DC power converter, we recommend ETP48100-B1-50A.
Q: Which 10G GPON boards can the MA5680T be configured with?
A: XGBC, XGBD.
Q: What is the difference between SCUN and SCUH?
SCUN main board is the most applications main control board, which comes with 4 GE uplink ports; the SCUH main board provides supports 4 GE/10GE uplink ports.
For more details, please check the article: MA5600T main control board SCUN VS SCUH.
Q: Can the MA5683T main control board SCUN be used as an uplink board?
A: The SCUN board on the Huawei MA5683T is the main control board. It provides system control, cross-connect switching, and upstream port functions. According to the product documentation, the SCUN board does support upstream transmission function and can be used as an upstream interface for the OLT.
However, using the SCUN board as the uplink interface may have some limitations and trade-offs to consider:
- Limited number of upstream ports: The SCUN board usually has fewer upstream ports than dedicated uplink boards such as GTGH or ETGH. Depending on your network requirements, you may need to add additional SCUN boards to satisfy the number of required upstream ports.
- Shared bandwidth: When using the SCUN board as an upstream interface, its bandwidth will be shared with other services and functions, such as system control and cross-connect switching. This means that the available upstream bandwidth may be limited or impacted by other traffic.
- Flexibility and scalability: Dedicated uplink boards offer more flexibility and scalability than the SCUN board. They can provide higher bandwidth, support different types of interfaces (such as copper or fiber), and enable hot-swappable modules for easy expansion or maintenance.
Martin –
The price is good and the date is new.
John –
It’s all good except that it’s heavy.
Edisson –
Refurbished MA5683T chassis, but looks like new.
Gordon –
Buy 4 units for my client, fast delivery, good!