TNV7T402

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SKU2016091
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Huawei OptiX OSN 9800 TNV7T402 2*100G Tributary Service Processing Board(QSFP28)

Description

TNV7T402 overview

 

TNV7T402 2*100G Tributary Service Processing Board(QSFP28) 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 TNV7T402 board has only one variant: TNV7T402Q01.

 

 

Front panel of the TNV7T402 board

TNV7T402

Front panel of the TNV7T402 board

 

Valid slots for the TNV7T402 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 IU12
OptiX OSN 9800 U32 Enhanced 1 IU1 to IU32 IU1 to IU32
OptiX OSN 9800 U32 Standard 1 IU1 to IU32 IU1 to IU32
OptiX OSN 9800 U64 Enhanced 1 IU1 to IU64 IU1 to IU64
OptiX OSN 9800 U64 Standard 1 IU1 to IU64 IU1 to IU64

 

Item TNV7T402
Backplane capacity The total bandwidth is 200 Gbit/s.
NOTE:
Supports backplane cross-connections of two ODU4/ODU3/ODUflex signals from/to the cross-connect board.
Client-side service type
  • 100G FlexE unaware: The rate is 103.125 Gbit/s
  • OTU4: The rate is 111.81 Gbit/s
  • 40GE: The rate is 41.25 Gbit/s
  • 100GE: The rate is 103.125 Gbit/s
Service mapping mode 100GE service: Supports Bit Transparent Mapping ODU4, MAC Transparent Mapping ODU4, and MAC Transparent Mapping ODUFlex.
FEC coding
  • Supports ITU-T G.709-compliant forward error correction (FEC) when the client-side service type is OTU4.
  • When the client-side service type is 100GE/FlexE, only RS_FEC coding is supported.
OTN overhead
  • ODUflex layer: supports PM overhead processing.
  • ODU3 layer: supports PM overhead processing.
  • ODU4 layer: When the client-side service type is 100GE, supports PM overhead processing.
  • ODU4 layer: When the client-side service type is OTU4, supports PM and TCM overhead processing, and non-intrusive monitoring of PM and TCM overheads.
  • OTU4 layer: supports SM overhead processing.
NOTE:
Supports overhead processing defined by ITU-T G.709. The service mapping process complies with ITU-T G.709 and G.Sup43.
Maximum frame length for a port 1518 to 9600 Bytes, supports a jumbo frame with a maximum length of 9600 bytes.
LPT Not supported
Client 1+1 protection Supported
NOTE:
  • Does not support client 1+1 protection when an MPO optical module is used on the client side to receive services.
  • Does not support client 1+1 protection when FlexE services are received on the client side.
ODUk SNCP Supported
NOTE:
  • The board supports ODUk SNCP when k = 3, 4, flex.
  • When FlexE services are received on the client side, ODUk SNCP protection groups in a FlexE group must be bound to implement unified switching of multiple ODUk SNCP protection groups.
Tributary SNCP Supported
Electrical-layer ASON Supported
L1 service encryption Supports setting the encryption function by port.
NOTE:
When receiving OTU4 services on the client side, the board does not support the encryption.
ALS Supported on the client side when non-OTN services are received.
LLDP When the client-side service type is 40GE/100GE, the board supports the LLDP function.
NOTE:
When the service mapping mode is MAC transparent mapping, the LLDP mode of the port is the Receive mode by default. In this case, LLDP packets are not transparently transmitted.
Physical clock
  • Bit Transparent Mapping ODU4: Supports synchronous Ethernet transparent transmission
  • Mac Transparent Mapping ODU4: Supports synchronous Ethernet processing
IEEE 1588v2 Supports this function when receiving100GE(MAC transparent mapping) services on the client side.
ITU-T G.8275.1 Supports this function when receiving100GE(MAC transparent mapping) services on the client side.
ITU-T G.8273.2 Supported
NOTE:
The board does not support ITU-T G.8273.2 when the system control board is U2CTU.
Outband DCN Supported communication over ESCs when the client-side service type is OTU4.
Test frame When the client-side service type is 40GE/100GE, the board supports test frame.
NOTE:
For Ethernet test frames, only one interface can be used to send them at a time.
PRBS Supported
NOTE:
  • When the board receives OTU4 services, the PRBS test function is supported in both the optical port direction and the backplane direction.
  • When the board receives 40GE/100GE services, the PRBS test function is supported only in the backplane direction.
Latency measurement
  • When non-OTN services are received on the client side of the board, the PM section latency measurement is supported in the backplane direction (upstream direction).
  • When OTN services are received on the client side of the board, the TCM section latency measurement is supported in the optical port direction (downstream direction).
Channel loopback Not supported
Alarm and performance event monitoring
  • Monitors BIP8 bytes (Bursty mode) to help locate line failures.
  • Monitors OTN alarms and performance events.
  • Monitors parameters such as the bias current, temperature, and optical power of the laser.
  • Provides remote monitoring (RMON) of the Ethernet service.
Dimensions (H x W x D)
  • 477.30 × 30.50 × 220.00 (mm)
  • 18.81 × 1.20 × 8.67 (in.)
Weight
  • 3.00 kg
  • 6.61 lb.

Additional information

Brand
Lead Time
Ship From
Warranty
Condition
Item TNV7T402
Backplane capacity The total bandwidth is 200 Gbit/s.
NOTE:
Supports backplane cross-connections of two ODU4/ODU3/ODUflex signals from/to the cross-connect board.
Client-side service type
  • 100G FlexE unaware: The rate is 103.125 Gbit/s
  • OTU4: The rate is 111.81 Gbit/s
  • 40GE: The rate is 41.25 Gbit/s
  • 100GE: The rate is 103.125 Gbit/s
Service mapping mode 100GE service: Supports Bit Transparent Mapping ODU4, MAC Transparent Mapping ODU4, and MAC Transparent Mapping ODUFlex.
FEC coding
  • Supports ITU-T G.709-compliant forward error correction (FEC) when the client-side service type is OTU4.
  • When the client-side service type is 100GE/FlexE, only RS_FEC coding is supported.
OTN overhead
  • ODUflex layer: supports PM overhead processing.
  • ODU3 layer: supports PM overhead processing.
  • ODU4 layer: When the client-side service type is 100GE, supports PM overhead processing.
  • ODU4 layer: When the client-side service type is OTU4, supports PM and TCM overhead processing, and non-intrusive monitoring of PM and TCM overheads.
  • OTU4 layer: supports SM overhead processing.
NOTE:
Supports overhead processing defined by ITU-T G.709. The service mapping process complies with ITU-T G.709 and G.Sup43.
Maximum frame length for a port 1518 to 9600 Bytes, supports a jumbo frame with a maximum length of 9600 bytes.
LPT Not supported
Client 1+1 protection Supported
NOTE:
  • Does not support client 1+1 protection when an MPO optical module is used on the client side to receive services.
  • Does not support client 1+1 protection when FlexE services are received on the client side.
ODUk SNCP Supported
NOTE:
  • The board supports ODUk SNCP when k = 3, 4, flex.
  • When FlexE services are received on the client side, ODUk SNCP protection groups in a FlexE group must be bound to implement unified switching of multiple ODUk SNCP protection groups.
Tributary SNCP Supported
Electrical-layer ASON Supported
L1 service encryption Supports setting the encryption function by port.
NOTE:
When receiving OTU4 services on the client side, the board does not support the encryption.
ALS Supported on the client side when non-OTN services are received.
LLDP When the client-side service type is 40GE/100GE, the board supports the LLDP function.
NOTE:
When the service mapping mode is MAC transparent mapping, the LLDP mode of the port is the Receive mode by default. In this case, LLDP packets are not transparently transmitted.
Physical clock
  • Bit Transparent Mapping ODU4: Supports synchronous Ethernet transparent transmission
  • Mac Transparent Mapping ODU4: Supports synchronous Ethernet processing
IEEE 1588v2 Supports this function when receiving100GE(MAC transparent mapping) services on the client side.
ITU-T G.8275.1 Supports this function when receiving100GE(MAC transparent mapping) services on the client side.
ITU-T G.8273.2 Supported
NOTE:
The board does not support ITU-T G.8273.2 when the system control board is U2CTU.
Outband DCN Supported communication over ESCs when the client-side service type is OTU4.
Test frame When the client-side service type is 40GE/100GE, the board supports test frame.
NOTE:
For Ethernet test frames, only one interface can be used to send them at a time.
PRBS Supported
NOTE:
  • When the board receives OTU4 services, the PRBS test function is supported in both the optical port direction and the backplane direction.
  • When the board receives 40GE/100GE services, the PRBS test function is supported only in the backplane direction.
Latency measurement
  • When non-OTN services are received on the client side of the board, the PM section latency measurement is supported in the backplane direction (upstream direction).
  • When OTN services are received on the client side of the board, the TCM section latency measurement is supported in the optical port direction (downstream direction).
Channel loopback Not supported
Alarm and performance event monitoring
  • Monitors BIP8 bytes (Bursty mode) to help locate line failures.
  • Monitors OTN alarms and performance events.
  • Monitors parameters such as the bias current, temperature, and optical power of the laser.
  • Provides remote monitoring (RMON) of the Ethernet service.
Dimensions (H x W x D)
  • 477.30 × 30.50 × 220.00 (mm)
  • 18.81 × 1.20 × 8.67 (in.)
Weight
  • 3.00 kg
  • 6.61 lb.

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TNV7T402

0 Reviews Write a review
AvailabilityIn Stock
WarrantyUp to 36 months i
×
Warranty Policy
We provide a comprehensive warranty policy.
Refer to the table for more details.

Huawei OptiX OSN 9800 OTN Tributary Boards TNV7T402

Description

TNV7T402 overview

This topic describes the substitution relationship between OTN tributary boards.

Unless otherwise specified, a substitute board can be created as the logical board of the original board on the NMS and substitutes for the original board. The board substitution does not require any software upgrade. After the board substitution, the substitute board has only the functions of the original board.

Board substitution

 
Original Board Substitute Board Using the Version Replacement Function Substitution Rule
TNV7T402 TNV8T402
  • During board substitution using the version replacement function, the NE where the original board resides does not need to be upgraded.
  • The substitute board can be created as the logical board of the original board on the NMS and replace the original board. The substitute board has only the functions of the original board.
  • During board substitution using the version replacement function, because the original board and substitute board support the same optical modules, the optical modules of the original board can still be used.
Substitution Relationship between 10G OTN Tributary Boards
Original Board Substitute Board Using the Version Replacement Function Substitution Rule
TNV1T130 TNV3T230 For details about board substitution, see the general description.
TNV1T210 TNV3T230 When a TNV3T230 board substitutes for a TNV1T210 board by using the version replacement function, only ports TX1/RX1 to TX10/RX10 can be used.
TNV2T210 TNV3T210 For details about board substitution, see the general description.
TNV2T210 TNV3T230 When a TNV3T230 board substitutes for a TNV2T210 board by using the version replacement function, only ports TX1/RX1 to TX10/RX10 can be used.
TNV2T220 TNV3T230 When a TNV3T230 board substitutes for a TNV2T220 board by using the version replacement function, only ports TX1/RX1 to TX20/RX20 can be used.
TNV2T220 TNV7T220
  • When a TNV7T220 board substitutes for a TNV2T220 board using the version replacement function, only the TNU2UXCS/TNS1UXCS cross-connect board is supported.
  • The power consumption of the TNV7T220 board is higher than that of the TNV2T220 board. To use a TNV7T220 board to substitute for a TNV2T220 board, ensure that the subrack power supply has a sufficient margin. If the nominal power consumption of the TNV7T220 board exceeds the available power supply capability of the subrack, the TNV7T220 board will not be powered on, and the logical board and related services cannot be created. As a result, the board substitution fails.
TNV3T220 TNV7T220
  • When a TNV7T220 board substitutes for a TNV3T220 board using the version replacement function, only the TX11/RX11 to TX14/RX14 ports can be used to receive FC1600 services.
  • The power consumption of the TNV7T220 board is higher than that of the TNV3T220 board. To use a TNV7T220 board to substitute for a TNV3T220 board, ensure that the subrack power supply has a sufficient margin. If the nominal power consumption of the TNV7T220 board exceeds the available power supply capability of the subrack, the TNV7T220 board will not be powered on, and the logical board and related services cannot be created. As a result, the board substitution fails.
  • When a TNV7T220 board substitutes for a TNV3T220 board using the version replacement function, the Service Type is set to Any in ODU1 convergence mode, the TNV7T220 board does not support end-to-end client-side interconnection with the peer TNV3T210/TNV3T220/TNV3T230/TNG1T206/TNG1T212/TNG1A212/TNG2A212/TNG1M210D board.
TNV1T216 TNV3T230 When a TNV3T230 board substitutes for a TNV1T216 board by using the version replacement function, only ports TX1/RX1 to TX16/RX16 can be used.
TNV6T220 TNV7T220
  • The power consumption of the TNV7T220 board is higher than that of the TNV6T220 board. To use a TNV7T220 board to substitute for a TNV6T220 board, ensure that the subrack power supply has a sufficient margin. If the nominal power consumption of the TNV7T220 board exceeds the available power supply capability of the subrack, the TNV7T220 board will not be powered on, and the logical board and related services cannot be created. As a result, the board substitution fails.
  • When a TNV7T220 board substitutes for a TNV6T220 board using the version replacement function, the Service Type is set to Any in ODU1 convergence mode, the TNV7T220 board does not support end-to-end client-side interconnection with the peer TNV3T210/TNV3T220/TNV3T230/TNG1T206/TNG1T212/TNG1A212/TNG2A212/TNG1M210D board.
Substitution Relationship between 100G and beyond-100G OTN Tributary Boards
Original Board Substitute Board Using the Version Replacement Function
TNV1T401 TNV3T401
TNV1T402 TNV3T402
TNV1T402 TNU1G402
TNV5T402 TNV8T402
TNV7T402 TNV8T402
TNV2T404 TNV3T404
TNV2T404 TNV5T404
TNV2T404 TNV8T404
TNV2T404 TNU1G404
TNV3T404 TNV5T404
TNV3T404 TNV8T404
TNV5T404 TNV8T404
TNV1T402/TNV3T402 TNV1T502
TNV1T601 TNV2T601

Additional information

Brand

Huawei

Lead Time

3-5 days

Ship From

Shenzhen Warehouse

Substitution Relationship between 10G OTN Tributary Boards
Original Board Substitute Board Using the Version Replacement Function Substitution Rule
TNV1T130 TNV3T230 For details about board substitution, see the general description.
TNV1T210 TNV3T230 When a TNV3T230 board substitutes for a TNV1T210 board by using the version replacement function, only ports TX1/RX1 to TX10/RX10 can be used.
TNV2T210 TNV3T210 For details about board substitution, see the general description.
TNV2T210 TNV3T230 When a TNV3T230 board substitutes for a TNV2T210 board by using the version replacement function, only ports TX1/RX1 to TX10/RX10 can be used.
TNV2T220 TNV3T230 When a TNV3T230 board substitutes for a TNV2T220 board by using the version replacement function, only ports TX1/RX1 to TX20/RX20 can be used.
TNV2T220 TNV7T220
  • When a TNV7T220 board substitutes for a TNV2T220 board using the version replacement function, only the TNU2UXCS/TNS1UXCS cross-connect board is supported.
  • The power consumption of the TNV7T220 board is higher than that of the TNV2T220 board. To use a TNV7T220 board to substitute for a TNV2T220 board, ensure that the subrack power supply has a sufficient margin. If the nominal power consumption of the TNV7T220 board exceeds the available power supply capability of the subrack, the TNV7T220 board will not be powered on, and the logical board and related services cannot be created. As a result, the board substitution fails.
TNV3T220 TNV7T220
  • When a TNV7T220 board substitutes for a TNV3T220 board using the version replacement function, only the TX11/RX11 to TX14/RX14 ports can be used to receive FC1600 services.
  • The power consumption of the TNV7T220 board is higher than that of the TNV3T220 board. To use a TNV7T220 board to substitute for a TNV3T220 board, ensure that the subrack power supply has a sufficient margin. If the nominal power consumption of the TNV7T220 board exceeds the available power supply capability of the subrack, the TNV7T220 board will not be powered on, and the logical board and related services cannot be created. As a result, the board substitution fails.
  • When a TNV7T220 board substitutes for a TNV3T220 board using the version replacement function, the Service Type is set to Any in ODU1 convergence mode, the TNV7T220 board does not support end-to-end client-side interconnection with the peer TNV3T210/TNV3T220/TNV3T230/TNG1T206/TNG1T212/TNG1A212/TNG2A212/TNG1M210D board.
TNV1T216 TNV3T230 When a TNV3T230 board substitutes for a TNV1T216 board by using the version replacement function, only ports TX1/RX1 to TX16/RX16 can be used.
TNV6T220 TNV7T220
  • The power consumption of the TNV7T220 board is higher than that of the TNV6T220 board. To use a TNV7T220 board to substitute for a TNV6T220 board, ensure that the subrack power supply has a sufficient margin. If the nominal power consumption of the TNV7T220 board exceeds the available power supply capability of the subrack, the TNV7T220 board will not be powered on, and the logical board and related services cannot be created. As a result, the board substitution fails.
  • When a TNV7T220 board substitutes for a TNV6T220 board using the version replacement function, the Service Type is set to Any in ODU1 convergence mode, the TNV7T220 board does not support end-to-end client-side interconnection with the peer TNV3T210/TNV3T220/TNV3T230/TNG1T206/TNG1T212/TNG1A212/TNG2A212/TNG1M210D board.
Substitution Relationship between 100G and beyond-100G OTN Tributary Boards
Original Board Substitute Board Using the Version Replacement Function
TNV1T401 TNV3T401
TNV1T402 TNV3T402
TNV1T402 TNU1G402
TNV5T402 TNV8T402
TNV7T402 TNV8T402
TNV2T404 TNV3T404
TNV2T404 TNV5T404
TNV2T404 TNV8T404
TNV2T404 TNU1G404
TNV3T404 TNV5T404
TNV3T404 TNV8T404
TNV5T404 TNV8T404
TNV1T402/TNV3T402 TNV1T502
TNV1T601 TNV2T601

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