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TN55NO2 Is Huawei OptiX OSN 8800 8 Port 10G OTN Service Processing Board
Huawei OptiX OSN 8800 8 Port 10G OTN Service Processing Board TN55NO2 Overview
The OptiX OSN 8800 Intelligent Optical Transport Platform (OptiX OSN 8800 for short) is a new generation of intelligent MS-OTN product. It is a future-proof product launched to address the IP-based metro network development trend. Using a new architecture, the product supports dynamic optical-layer grooming and flexible electrical-layer grooming. In addition, the product features high integration and reliability and supports multi-service transmission.
OptiX OSN 8800 Switching Platforms,Mid-range 10/40/100 GE platform for integrated OTN/WDM/SDH networking. Carrier-grade reliability with up to 8 Tbit/s capacity ideal for core networks and Metropolitan Area Networks in broadcast television, Smart Grid electric
The OptiX OSN 8800 equipments use the same software and hardware platforms and therefore they share most of the boards. However, each of them has its own highlights that address diverse network requirements.
The OptiX OSN 8800 system uses the L0 + L1 + L2 architecture. Ethernet/MPLS-TP switching is implemented on Layer 2, ODUk/VC switching on Layer 1, and wavelength switching on Layer 0.
The OptiX OSN 8800 use dense wavelength division multiplexing (DWDM) technologies to achieve transparent transmission with multiple services and large capacity.
The optical transport network (OTN) technology ensures flexible service cross-connections in an end-to-end manner, and enables services of different types to share bandwidth. With the help of numerous OTN overheads and easy operations on the NMS, users can easily maintain networks and locate faults.
The OTN + ROADM feature cross-connects a client service in any optical direction while ensuring high bandwidth utilization.
NO2: 8 x 10G Line Service Processing Board
The OptiX OSN 8800 provides an 8-wavelength CWDM transmission solution with a channel spacing of 20nm in the C band, which complies with ITU-T G.694.2, and can carry 2.5 Gbit/s or 5 Gbit/s services over a single wavelength.
DWDM wavelengths can be transported in the window of CWDM 1531 nm to 1551 nm to expand the CWDM system capacity.
OptiX OSN 8800 Platforms's Board Category as below:
The following types of boards are available for the system.
Optical transponder board
OTN Tributary board
OTN Line board
General Service Processing Board
Universal Line Board
Packet Service board
PID board
Submarine board
Optical multiplexer and demultiplexer board
Fixed optical add and drop multiplexing board
Reconfigurable optical add and drop multiplexing board
Optical amplifier board
Cross-connect board and system and communication board
Optical supervisory channel board
Optical protection board
Spectrum analyzer board
Variable optical attenuator board
Dispersion compensation board
Clock board
TDM board
Interface area board
ROPA subsystem board
OTN Line Board Overview
A tributary board receives client-side services, performs O-E conversion, maps the services into ODUk containers, and lastly sends the ODUk electrical signals to cross-connect board for centralized cross-connection. A line board multiplexes and maps ODUk electrical signals cross-connected from cross-connect board and performs conversion between OTUk optical signals and standard wavelengths.
TN55NO2 Is Huawei OptiX OSN 8800 8 Port 10G OTN Service Processing Board
TN55NO2: 8 x 10G Line Service Processing Board
The available functional version of the NO2 board is TN55.
As a type of line board, the TN55NO2 board converts 64 ODU0, 32 ODU1, or eight ODU2 into eight ITU-T G.694.1 OTU2 signals or converts eight ODU2e signals into eight ITU-T G.694.1 OTU2e signals. The board supports hybrid transmission of the ODU0 service, ODU1 service and the ODU2/ODU2e service.
The TN55NO2 board carries out cross-connection at the electrical layer, and provides the OTN interfaces and ESC.
The TN55NO2 board consists of the WDM-side optical module, OTN processing module, control and communication module, and power supply module.
There are indicators and interfaces on the front panel of the TN55NO2 board.
One slot houses one TN55NO2 board.
As a type of line board, the TN55NO2 board converts 64 ODU0, 32 ODU1, or eight ODU2 into eight ITU-T G.694.1 OTU2 signals or converts eight ODU2e signals into eight ITU-T G.694.1 OTU2e signals. The board supports hybrid transmission of the ODU0 service, ODU1 service and the ODU2/ODU2e service.
TN55NO2 Specifications
The TN55NO2 board carries out cross-connection at the electrical layer, and provides the OTN interfaces and ESC.
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Function and feature |
Description |
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Basic function |
NO2 converts signals as follows:
Supports hybrid transmission of the services mentioned above. |
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Cross-connect capabilities |
Supports the cross-connection of 64 channels of ODU0 signals or 32 channels of ODU1 signals or eight channels of ODU2/ODU2e signals between the NO2 board and the cross-connect board. |
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OTN function |
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WDM specification |
Supports DWDM specifications. |
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ESC function |
Supported |
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PRBS function |
Supports the PRBS function on the WDM side. |
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LPT function |
Not supported |
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FEC coding |
Supports ITU-T G.709-compliant forward error correction (FEC) on the WDM side. Supports ITU-T G.975.1-compliant AFEC-2 on the WDM side. NOTE: Boards that use different FEC modes cannot interconnect with each other. |
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Alarms and performance events monitoring |
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Regeneration board |
The WDM-side signals from one NO2 board can be regenerated by another TN12ND2/TN52ND2/TN53ND2/TN55NO2/TN53NQ2/TN54NQ2 board. |
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ALS function |
Not supported |
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Test frame |
Not supported |
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IEEE 1588v2 |
Not supported |
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Physical clock |
Not supported |
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Optical-layer ASON |
Supported |
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Electrical-layer ASON |
Supported |
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Protection scheme |
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Loopback |
WDM Side Loopback |
ODU0 Channel Loopback |
ODU1 Channel Loopback |
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Supported |
Supported |
Supported |
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