My Cart

Mini Cart

TN19LSCT51(100G/OTU4 10 km CFP2)

TN19LSCT51(100G/OTU4 10 km CFP2)

PN: 02312HQJ
80 100 1
RFQ

Huawei OSN8800 OSN6800 100Gbit/s Wavelength Conversion Board (SDFEC2, Coherent, Tunable, Extended C Band), 1*100G-4x28-1310nm-10km-SM-CFP2 client-side pluggable module

- +
Hardware Tested

Hardware Tested x

In order to avoid hardware malfunction, each equipment will be strictly tested before delivery and the test report will be packed inside equipment and delivered together.Learn More

Hardware Compatibility

Hardware Compatibility x

Backed up by our experienced pre-sales support team, and volume documentation, to avoid purchasing incompatible hardware.

Software Compatibility

Software Compatibility x

Software compatibility test between active/standby system board, main control board and service board, mother/sub-card; system commissioning test to prevent all software conflicts.

Huawei WDM-OTN Equipment Test Procedure

In this topic, we take Huawei OSN 8800 as example to show you how to test the WDM/OTN equipment (Huawei OSN 6800 etc)

Overview

100Gbit/s wavelength conversion board, apply to Huawei OSN 8800 and OSN6800.

Available functional versions of LSC are TN12, TN13, TN15, TN17 TN18 and TN19.

TN12 and TN13 versions use different front panels, TN13 and TN15 versions use the same front panel. TN12LSC occupies four slots, N13LSC/TN15LSC/TN17LSC occupies two slots, TN18LSC/TN19LSC board occupies one slot.

Provides the OTU4 interface on WDM-side.

Supports OTN frame format and overhead processing compliant with ITU-T G.709.

Supports PM function when the client-side service type is 100GE in ODU4 layer.

Supports PM and TCM functions, PM and TCM non-intrusive monitoring functions when the client-side service type is OTU4 in ODU4 layer.

Supports SM function in OTU4 layer.

Supports ITU-T G.694.1-compliant DWDM specifications.

Supports ESC function

Supports SDFEC2

Supports ALS function on the client side when client services are non-OTN services.

Supports only when the client-side service type is 100GE.

Supports Optical-layer ASON.

Support bit transparent Mapping ODU4 and Mac Transparent Mapping ODU4. 

Supports client 1+1 protection.

Supports intra-board 1+1 protection (when working with the OLP/DCP/QCP board).

Support loopback on client side and WDM side

 

TN19LSCT51 is a 100Gbit/s wavelength conversion board applied to Huawei OSN8800 OSN6800, equipped with pluggable 100000ps/nm-Extended C band-Tunable Wavelength-ePDM-QPSK(SDFEC2, SLH, T51)-100G CFP on WDM side and pluggable (100GBASE-4×25G)/(OTU4-4×28G)-10km-CFP2 on client side. If you need other client side or WDM side modules, please contact thunder-link.com

Tech Specs
Front Panel

There are indicators and interfaces on the front panel of the TN19LSC board.

tn19lsc

Valid Slot

OptiX OSN 8800 T64 subrack: IU1-IU8, IU11-IU18, IU19-IU26, IU27-IU34, IU35-IU42, IU45-IU52, IU53-IU60, IU61-IU68.

OptiX OSN 8800 T32 subrack: IU1-IU8, IU12-IU19, IU20-IU27, IU29-IU36.

OptiX OSN 8800 T16 subrack: IU1-IU18.

OptiX OSN 8800 universal platform subrack:IU1-IU16.

OptiX OSN 6800 subrack:IU1-IU17 

Client-side pluggable optical module specifications (100GE/OTU4 services)
Parameter Value
Optical Module Type (100G BASE-4×25G)/(OTU4-4×28G)-10 km-CFP2
Line code format NRZ
Transmitter parameter specifications at point S
Signaling Speed per Lane(Gbit/s)

100GE: 25.78125

OTU4: 27.952493

Signaling Speed Accuracy(ppm)

100GE: -100 to 100

OTU4: -20 to 20

Minimum Lane Center Wavelength(nm)

1294.53 

1299.02 

1303.54 

1308.09 

Maximum Lane Center Wavelength(nm)

1296.59 

1301.09 

1305.63 

1310.19 

Total Average Launch Power(Min) (dBm)

100GE: 1.7

OTU4: 3.5

Total Average Launch Power(Max)(dBm)

100GE: 10.5

OTU4: 10

Average Launch Power per Lane(Min)(dBm)

100GE: -4.3

OTU4: -2.5

Average Launch Power per Lane(Max)(dBm)

100GE: 4.5

OTU4: 4.0

Transmit OMA per Lane(Min)(dBm)

-1.3 (Only for 100GE)

Transmit OMA per Lane(Max)(dBm) 4.5 (Only for 100GE)
Eye pattern mask

100GE: IEEE 802.3ba - compliant

OTU4: ITU-T G.959 - compliant

Optical Extinction Ratio(Min)(dB)

100GE: 4

OTU4: 4(ITU-T G.959 - compliant)

Side Mode Suppression Ratio(Min)(dB)

30

Receiver parameter specifications at point R
Receiver type PIN
Signaling Speed per Lane (Gbit/s )

100GE: 25.78125

OTU4: 27.952493

Signaling Speed Accuracy(ppm )

100GE: -100 to 100

OTU4: -20 to 20

Minimum Lane Center Wavelength(nm)

1294.53 

1299.02 

1303.54 

1308.09

Maximum Lane Center Wavelength(nm)

1296.59 

1301.09 

1305.63 

1310.19 

Receiver Power per Lane(Min)(dBm)

100GE: -10.6

OTU4: -6.9

Receiver Power per Lane(Max)(dBm)

100GE: 4.5

OTU4: 2.9

Minimum receiver overload (OMA) per Lane(dBm) 4.5 (Only for 100GE)
Receiver sensitivity (OMA) per Lane(dBm) -8.6 (Only for 100GE)
Receiver equivalent sensitivity per Lane(dBm) -8.4 (Only for OTU4)
Minimum receiver overload per Lane(dBm) 2.9 (Only for OTU4)
Maximum reflectance(dB) -26
WDM-side pluggable optical module specifications
Parameter Value
Optical Module Type 100000ps/nm-Extended C band-Tunable Wavelength-ePDM-QPSK(SDFEC2, SLH, T51)-100G CFP
Line code format 100G ePDM-QPSK (SDFEC2, SLH, T51)) 
Transmitter parameter specifications at point S
Center frequency(THz) 191.3 to 196.05
Maximum mean launched power(dBm) 0
Minimum mean launched power(dBm) -5
Center frequency deviation(GHz) ±1.5
Maximum -10 dB spectral width(nm) 0.4
Maximum -3 dB spectral width(nm) 0.3
Dispersion tolerance(back-to-back) (ps/nm) 100000
Receiver parameter specifications at point R
Receiver type PIN
Operating wavelength range(nm) 1529 to 1568
Receiver sensitivity(dBm) -16
Minimum receiver overload(dBm) 0
Maximum reflectance(dB) -27
Mechanical Specifications
Dimensions(mm) 264.6 (H) x 25.4 (W) x 220 (D)
Weight(kg) 1.9

 

Q&A

Q: Can I configure TN19LSC on OSN 6800 subrack?

A: OSN6800 can support TN19LSC, but please make sure that your OSN 6800 software version is at least V100R013C10 or newer version.

Note: When the TN19LSC is installed in OSN 6800 subrack, the first generation T5U, T62, and T65 pluggable modules without heat dissipation holes are not supported.

 

Q: How many hardware version does LSC have?

A: LSC is available in TN12, TN13, TN15, TN17, TN18 and TN19. The mappings between the board and equipment are as below:

Board Initial Versiona(a) General 8800 T64 Subrack Enhanced 8800 T64 Subrack General 8800 T32 Subrack Enhanced 8800 T32 Subrack 8800 T16 Subrack 8800 Universal Platform Subrack 6800 Subrack 3800 Chassis
TN12LSC

V100R006C03

Y Y Y Y Y Y Y

Yb

TN13LSC

V100R008C00

Y Y Y Y Y Y N

Yb

TN15LSC

V100R008C10

Y Y Y Y Y Y N

T01: Yb

The others: N

TN17LSC V100R010C00 Y Y Y Y Y Y Y N
TN18LSC

V100R011C00

Y Y Y Y Y Y N N
TN19LSC

V100R013C10

Y Y Y Y Y Y

Ya

N

a: When the TN19LSC board is installed in an OSN 6800 subrack, the first generation T5U, T62, and T65 pluggable modules without heat dissipation holes are not supported.

b: To use a TN12LSC/TN13LSC/TN15LSCT01 board in the OptiX OSN 3800 chassis, meet the following requirements:

  • TN12LSC: The OptiX OSN 3800 chassis can be DC powered. The air intake vent temperature of the chassis is within the range of 5°C (41°F) to 45°C (113°F) during long-term operation and is within the range of -5°C (23°F) to 50°C (122°F) during short-term operation.

  • TN13LSC: The OptiX OSN 3800 chassis can be AC or DC powered, and the operating temperature requirements of the chassis using TN13LSC are the same as those of the chassis using TN12LSC. The OptiX OSN 3800 chassis can be equipped with at most one TN13LSCT11 board or two TN13LSCT01 boards.

  • TN15LSCT01: The OptiX OSN 3800 chassis can be AC or DC powered and has no special requirements on the operating temperature. It can be equipped with at most one TN15LSCT01 board.

  • TN12LSC/TN13LSC/TN15LSCT01: The system control board TN23SCC must be configured.

 

Q: What are the differences of different hardware version?

A: Function:

Board FEC Encoding
TN12LSC

HFEC/SDFEC

TN13LSC

HFEC/SDFEC

TN15LSC

HFEC/SDFEC2

TN17LSC

SDFEC2

TN18LSC

SDFEC2/HFEC PLUS

TN19LSC

SDFEC2

 

Specification:

Board

Client-Side Pluggable Optical Module

WDM-Side Fixed Optical Module

WDM-Side Pluggable Optical Module

TN12LSC

100G BASE-10×10G-10 km-CFP

100G BASE-LR4-10 km-CFP

(100G BASE-4×25G)/(OTU4-4×28G)-10 km-CFP

40000 ps/nm-C Band-Tunable Wavelength-ePDM-QPSK(HFEC)-PIN

55000 ps/nm-C Band-Tunable Wavelength-ePDM-QPSK(SDFEC)-PIN

N/A

TN13LSC

100G BASE-LR4-10 km-CFP

100G BASE-10×10G-10 km-CFP

(100G BASE-4×25G)/(OTU4-4×28G)-10km-CFP

40000 ps/nm-C Band-Tunable Wavelength-ePDM-QPSK(HFEC)-PIN

55000 ps/nm-C Band-Tunable Wavelength-ePDM-QPSK(SDFEC)-PIN

N/A
TN15LSC

100G BASE-LR4-10 km-CFP

100G BASE-10×10G-10 km-CFP

(100G BASE-4×25G)/(OTU4-4×28G)-10km-CFP

 

40000 ps/nm-C Band-Tunable Wavelength-ePDM-QPSK(HFEC)-PIN

150000 ps/nm-C Band-Tunable Wavelength-ePDM-QPSK(SDFEC2, wDCM-Enhanced)-PIN

150000 ps/nm-C Band-Tunable Wavelength-ePDM-QPSK(SDFEC2)-PIN

55000 ps/nm-C Band-Tunable Wavelength-ePDM-QPSK(SDFEC2)-PIN

40000 ps/nm-C Band-Tunable Wavelength-ePDM-QPSK(SDFEC2)-PIN

150000 ps/nm-C Band-Tunable Wavelength-ePDM-QPSK(SDFEC2, wDCM)-PIN

12000 ps/nm-C Band-Tunable Wavelength-ePDM-QPSK(SDFEC2,wDCM-Metro)-PIN

N/A
TN17LSC

100G BASE-LR4-10 km-CFP

100G BASE-10×10G-10 km-CFP

(100G BASE-4×25G)/(OTU4-4×28G)-10 km-CFP

 

150000 ps/nm-C Band-Tunable Wavelength-ePDM-QPSK(SDFEC2)-PIN

55000 ps/nm-C Band-Tunable Wavelength-ePDM-QPSK(SDFEC2)-PIN

40000 ps/nm-C Band-Tunable Wavelength-ePDM-QPSK(SDFEC2)-PIN

150000 ps/nm-C Band-Tunable Wavelength-ePDM-QPSK(SDFEC2, wDCM)-PIN

12000 ps/nm-C Band-Tunable Wavelength-ePDM-QPSK(SDFEC2,wDCM-Metro)-PIN

120000 ps/nm-C Band-Tunable Wavelength-ePDM-QPSK(SDFEC2)-PIN

120000 ps/nm-C Band-Tunable Wavelength-ePDM-QPSK(SDFEC2, wDCM)-PIN

40000 ps/nm-C Band-Tunable Wavelength-ePDM-QPSK(SDFEC2, wDCM, LH)-PIN

150000 ps/nm-C Band-Tunable Wavelength-ePDM-QPSK(SDFEC2, Enhanced)-PIN

N/A
TN18LSC

(100 GBASE-4×25G)/(OTU4-4×28G)-10 km-CFP2

100G BASE-ER4-40 km-CFP2

100G BASE-SR10-100 m-CFP2

QSFP28-100G(4x25G)-850nm(SR4)-MMF-0.1kma

(100GBASE-4×25G)-CLR4-2km-QSFP28a

N/A

40000ps/nm-Extended C band-Tunable Wavelength-ePDM-QPSK(SDFEC2, ULH+, T5U)-100G CFP

40000ps/nm-Extended C band-Tunable Wavelength-ePDM-QPSK(SDFEC2 , wDCM, LH, T62)-100G CFP

12000ps/nm-Extended C band-Tunable Wavelength-ePDM-QPSK(SDFEC2 , wDCM-Metro, T65)-100G CFP

40000ps/nm-Extended C band-Tunable Wavelength-ePDM-QPSK (configurable FEC, coherent/wDCM, ULH+, TxA)-100G CFP

NOTE:

  • Configurable FEC types: SDFEC2, HFEC PLUS.

  • In a coherent network, the recommended modulation format for the TxA module is QPSK.

  • In a wDCM network, the modulation format can only be QPSK wDCM for the TxA module.

  • The QPSK and QPSK wDCM modulation formats cannot interconnect with each other.

TN19LSC

(100GBASE-4×25G)/(OTU4-4×28G)-10km-CFP2

100GBASE-ER4-40km-CFP2

100GBASE-SR10-100m-CFP2

QSFP28-100G(4x25G)-850nm(SR4)-MMF-0.1kma

(100GBASE-4×25G)-CLR4-2km-QSFP28a

N/A

100000ps/nm-Extended C band-Tunable Wavelength-ePDM-QPSK(SDFEC2, SLH+, T50)-100G CFP

100000ps/nm-Extended C band-Tunable Wavelength-ePDM-QPSK(SDFEC2, SLH, T51)-100G CFP

100000ps/nm-Extended C band-Tunable Wavelength-ePDM-QPSK(SDFEC2, SLH, high optical power, T51)-100G CFP

55000ps/nm-Extended C band-Tunable Wavelength-ePDM-QPSK(SDFEC2, ULH, T52)-100G CFP

55000ps/nm-Extended C Band-Tunable Wavelength-ePDM-100G QPSK(SDFEC2, ULH, High optical power, T52)-CFP

40000ps/nm-Extended C band-Tunable Wavelength-ePDM-QPSK(SDFEC2, LH, T53)-100G CFP

40000ps/nm-Extended C Band-Tunable Wavelength-ePDM-100G QPSK(SDFEC2, LH, High optical power, T53)-CFP

CFP-100G-(1529.17nm to 1567.1nm)(DWDM,Tunable, T5U)-SMF

100000ps/nm-Extended C band-Tunable Wavelength-ePDM-QPSK(SDFEC2, wDCM, ULH, T61)-100G CFP

100000ps/nm-Extended C band-Tunable Wavelength-ePDM-QPSK(SDFEC2, wDCM, ULH, high optical power, T61)-100G CFP

CFP-100G-(1529.17nm to 1567.1nm)(DWDM,Tunable, T62)-SMF

16000ps/nm-Extended C band-Tunable Wavelength-ePDM-QPSK(SDFEC2 , wDCM, Metro+, T63)-100G CFP

16000ps/nm-Extended C Band-Tunable Wavelength-ePDM-100G QPSK wDCM(SDFEC2, Metro+, High optical power, T63)-CFP

CFP-100G-(1529.17nm to 1567.1nm)(DWDM,Tunable, T65)-SMF

 

Q: What's the board substitution relation among different versions?

A:

Original Board Substitute Board Substitution Rules
TN12LSC

TN13LSC

TN15LSC

TN13LSC can be created as 12LSC on the NMS. The former can substitute for the latter, without any software upgrade. After the substitution, the TN13LSC board functions as the TN12LSC board.

TN15LSC can be created as 12LSC on the NMS. The former can substitute for the latter, without any software upgrade. After the substitution, the TN15LSC board functions as the TN12LSC board.

A TN13LSC/TN15LSC board occupies two slots, and a TN12LSC board occupies four slots. To use a TN13LSC/TN15LSC board to substitute for a TN12LSC board, install the TN13LSC/TN15LSC board into the left-side slot of the four slots that the TN12LSC board originally occupies and keep the right-side slot of them vacant.

NOTE:

When both the receive and transmit boards use HFEC, the TN12LSC board can be replaced with the TN15LSC board.

In an OptiX OSN 6800 subrack, the TN12LSC board cannot be replaced with the TN13LSC board.

In an OptiX OSN 6800 subrack, the TN12LSC board cannot be replaced with the TN15LSC board.

TN13LSC

TN15LSC

TN15LSC can be created as 13LSC on the NMS. The former can substitute for the latter, without any software upgrade. After the substitution, the TN15LSC board functions as the TN13LSC board.

NOTE:

When both the receive and transmit boards use HFEC, the substitution applies.

TN15LSC TN17LSC

TN17LSC can be created as 15LSC on the NMS. The former can substitute for the latter, without any software upgrade. After the substitution, the TN17LSC board functions as the TN15LSC board.

NOTE:

When both the receive and transmit boards use SDFEC2, the substitution applies.

The TN15LSC board cannot be replaced with the TN17LSCT62 and TN17LSCT50 boards.

TN15LSC TN19LSC

TN19LSC can be created as 15LSC on the NMS. The former can substitute for the latter, without any software upgrade. After the substitution, the TN19LSC board functions as the TN18LSC board.

A TN15LSC board occupies two slots, and a TN19LSC board occupies one slot. To use a TN19LSC board to substitute for a TN15LSC board, install the TN19LSC board into the left-side slots of the two slots that the TN15LSC board originally occupies and keep the right-side slot of them vacant.

TN17LSC TN19LSC TN19LSC can be created as 17LSC on the NMS. The former can substitute for the latter, without any software upgrade. After the substitution, the TN19LSC board functions as the TN17LSC board.

A TN17LSC board occupies two slots, and a TN19LSC board occupies one slot. To use a TN19LSC board to substitute for a TN17LSC board, install the TN19LSC board into the left-side slots of the two slots that the TN17LSC board originally occupies and keep the right-side slot of them vacant.

TN18LSC TN19LSC

TN19LSC can be created as 18LSC on the NMS. The former can substitute for the latter, without any software upgrade. After the substitution, the TN19LSC board functions as the TN18LSC board.

TN19LSC None

-

 

Q: Can I return/exchange board if not compatible with my system?

A: Yes, please tell our sales team your system and main control board version, before purchase.


Q: The board is new or refurbished?

A: It is original new, not been used.


Q: What is the lead time for TN19LSCT51 (100G/OTU4 10 km CFP2) board?

A: In normal condition is 5 days, better to confirm with our sales team before your purchase.

Matching Products

Reviews(1)

1 review

4.0

80.0%
5 start 5 0
4 start 4 1
3 start 3 0
2 start 2 0
1 start 1 0
  1. Spain
    Value
    80%
    Our OSN8800 already configured one TN18LSC which ordered last year, now we buy a TN19LSC for backup, it cansubstitute for TN18LSC without any software upgrade.
Write Your Own Review
You're reviewing:TN19LSCT51(100G/OTU4 10 km CFP2)
Your Rating:
Why Thunder-link.com
  •  

  •  

  •  

  •  

  •  

  •  

  •  

  •  

  •