TNU1N801

Huawei OptiX OSN 9800 TNU1N801 1*400G/600G/800G Line Service Processing Board

Huawei

In Stock

Shenzhen Warehouse

12 Months

SKU: 2016147 Category:

Description

TNU1N801 overview

 

TNU1N801 30 x 10G tributary service processing board tributary service processing board applied to Huawei OptiX OSN 9800 U64/U32/M24.

To meet ultra-large cross-connect capacity and bandwidth requirements, Huawei presents the OptiX OSN 9800 product series. The OptiX OSN 9800 product series include the OptiX OSN 9800 U64, U32, P18 and universal platform subracks. Applied at the electrical layer, the OptiX OSN 9800 U64 and U32 subracks share boards by using unified software and hardware platforms, and can work with the OptiX OSN 9800 universal platform subrack and P18 subrack, OptiX OSN 8800 platform subrack and T16 subrack, and OptiX OSN 6800 optical subracks in WDM and OTN systems.

The TNU1N801 board has only one variant: TNU1N801T7U.

 

 

Front panel of the TNU1N801 board

TNU1N801

Front panel of the TNU1N801 board

 

Valid slots for the TNU1N801 board in a U64/U32/M24 subrack

Device Number of Occupied Slots Physical Slot Logical Slot
OptiX OSN 9800 M24 2 (IU1, IU13), (IU2, IU14), ……, (IU11, IU23), (IU12, IU24) IU1 to IU5, IU8 to IU12
OptiX OSN 9800 U32 Enhanced 1 IU1 to IU32 IU1 to IU32
OptiX OSN 9800 U64 Enhanced 1 IU1 to IU64 IU1 to IU64
Item TNU1N801
Backplane capacity The maximum capacity is 800 Gbit/s.
WDM specification Supports the DWDM specifications.
Tunable wavelength The board supports tunable wavelengths of WDM-side optical signals in Super C band (1524 nm to 1573 nm).
FEC coding SDFEC3
Line modulation format 400G s16QAM

600G 16QAM

800G 64QAM

Typical channel spacing 400G s16QAM/600G 16QAM/800G 64QAM: 100GHz+n*6.25GHz(n=0,1,2…)

NOTE:

Due to high filtering penalty, the preceding modulation formats cannot be used with 100G optical-layer boards with fixed channel spacing, such as the TNG2D60 and TNG2M60.

OTN overhead protocol Supports the OTN frame format and overhead processing defined by ITU-T G.709.
OTN overhead
  • WDM-side OTUC4/OTUC6/OTUC8 layer: supports SM overhead processing.
  • ODUC4/ODUC6/ODUC8 layer: supports PM and TCM overhead processing.
  • ODUk (k=0, 1, 2, 2e, 3, 4, flex) layer: supports PM and TCM overhead processing.
  • ODUk (k=0, 1, 2, 2e, 3, 4, flex) layer: supports non-intrusive monitoring of PM and TCM overheads.
Intra-board 1+1 protection Supported

NOTE:

Supports intra-board 1+1 protection when working with optical protection boards.

ODUk SNCP Supported
Tributary SNCP Supported
Electrical-layer ASON Supported
Optical-layer ASON Supported

NOTE:

  • The board does not support optical-layer ASON in 800G mode.
  • Only ASON without optical parameters is supported in high SOP mode.
  • The flex ASON must be enabled for the modulation formats whose channel spacing is greater than 50 GHz.
Digital optical label When LS Ability is enabled, the board supports loading low-frequency pilot-tone modulation signals and overheads during wavelength conversion, and can work the optical-layer board that supports the digital optical label function to detect optical power and overheads and report optical performance data.
Physical clock Supported

NOTE:

  • When the ODU cross-connect granularity of an OTN line port is set to the maximum granularity supported by the port, physical clock synchronization is not supported. The physical clock can be used only after lower-order ODU cross-connections are configured.
  • The board does not support physical clock in 800G mode.
IEEE 1588v2 Not supported
ITU-T G.8275.1 Not supported
ITU-T G.8273.2 Not supported
Outband DCN Supported
Test frame Not supported
PRBS Supports the PRBS function on the WDM side.
Latency measurement Supports latency measurement in the WDM-side optical port direction (upstream direction):

  • When ODU4 higher order cross-connections are created on the board, the board supports the TCM latency measurement of the higher order ODU4 channel. When lower order ODUk cross-connections are established, the PM/TCM latency measurement of higher order ODU4 channels and TCM latency measurement of lower order ODUk channels is supported.
  • Supports PM and TCM latency measurement at the ODUCn layer.
Channel loopback Supports ODUk (k=0, 1, 2, 3, 4, flex) channel inloops and outloops.
Port loopback Supports WDM-side inloops and outloops.
Alarm and performance event monitoring
  • Supports the monitoring of BIP8 bytes (Bursty mode) to help locate line faults.
  • Supports the monitoring of the laser bias current.
  • Supports the laser temperature monitoring.
  • Supports the optical power monitoring.
  • Supports the monitoring of OTN alarms and performance events.

Functions and Features of the TNU1N801 Board (Regeneration)

Basic function Electrically regenerates optical signals at an electrical REG station.
Regeneration mode Unidirectional regeneration
Regeneration rate OTUC4

OTUC6

OTUC8

WDM specification Supports the DWDM specifications.
Tunable wavelength The board supports tunable wavelengths of WDM-side optical signals in Super C band (1524 nm to 1573 nm).
FEC coding SDFEC3
Line modulation format 400G s16QAM

600G 16QAM

800G 64QAM

Typical channel spacing 400G s16QAM/600G 16QAM/800G 64QAM: 100GHz+n*6.25GHz(n=0,1,2…)

NOTE:

Due to high filtering penalty, the preceding modulation formats cannot be used with 100G optical-layer boards with fixed channel spacing, such as the TNG2D60 and TNG2M60.

OTN overhead
  • The WDM side supports OTUC4, OTUC6, and OTUC8 interfaces.
  • OTUCn layer: supports SM overhead processing.
  • ODUCn layer: supports PM and TCM overhead processing.
Electrical-layer ASON Not supported
Optical-layer ASON Supported

NOTE:

  • The board does not support optical-layer ASON in 800G mode.
  • Only ASON without optical parameters is supported in high SOP mode.
  • The flex ASON must be enabled for the modulation formats whose channel spacing is greater than 50 GHz.
ALS Supported
Outband DCN Supported
Port loopback Not Supported
Alarm and performance event monitoring
  • Supports the monitoring of BIP8 bytes (Bursty mode) to help locate line faults.
  • Supports the monitoring of the laser bias current.
  • Supports the laser temperature monitoring.
  • Supports the optical power monitoring.
  • Supports the monitoring of OTN alarms and performance events.

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