Huawei TNF1LQM 4 x Multi-rate Ports Wavelength Conversion Board for DWDM OSN1800 Product Description The available hardware versions for the LQM are TNF1 and TNF2. Version: Table 1 describes the version mapping of the LQM board. Table 1 Version description of the LQM Board Product Applicable-Start Version-System Control Board TNF1LQM OptiX OSN 1800 I&II Compact-V100R001C01-TNF1SCC TNF2LQM OptiX OSN 1800 I&II Compact-V100R003C01-TNF1SCC Logical Names on the NMS Table 2 Logical names of the LQM boards on the NMS Board Logical Name on the NMS TNF1LQM LQM TNF2LQM F2LQM or F2LQM(STND) Differences Between Versions Table 3 lists differences between LQM board versions. Table 3 Differences between LQM board versions Item TNF1LQM TNF2LQM Service type Does not support CPRI option2 or CPRI option3 services. Supports CPRI option2 and CPRI option3 services. NOTE: F2LOM (STND) boards working in 1*AP4 ODU1 mode do not support CPRI option2 or CPRI option3 services. Regeneration function Regenerates one channel of OTU1 signal. Regenerates two channels of OTU1 signals. EVOA port Not supported. Supported. Synchronous Ethernet transparent transmission Not supported. Supported. Protection schemes Does not support ODUk SNCP protection. Supports ODUk (k = 0, 1) SNCP protection. Mapping path Supports ODU1-level mapping. Supports ODU0-level and ODU1-level mapping. Encapsulation mode Supports encapsulation of FE services in GFP-F mode. Supports encapsulation of GE services in GFP-F and GFP-T modes. Supports encapsulation of FE services in GFP-F and SLICE+BMP modes. Supports encapsulation of GE services in GFP-T and GE (TTT-GMP) modes. Guaranteed bandwidth for client-side GE services Supports this function when receiving GE services on the client side that are encapsulated in GFP-F mode. Not supported. Substitution Relationship Table 4 lists the substitution relationship for LQM boards. Table 4 Substitution relationship for LQM boards Original Board Substitute Board Substitution Rules TNF1LQM TNF2LQM The TNF2LQM board can be created as TNF1LQM on the NMS and function as a TNF1LQM board. After the substitution, the TNF2LQM board provides only part of TNF1LQM functions. The TNF2LQM board does not support GE (GFP-F) services on the client side. When it substitutes for a TNF1LQM board provisioned with GE (GFP-F) services, change the service type to GE (GFP-T) after the substitution. TNF2LQM boards do not guarantee bandwidths for client-side GE services even when they work as substitutes for TNF1LQM boards. When carrying FE services, TNF2LQM and TNF1LQM boards cannot interoperate with each other even when TNF2LQM boards work as substitutes for TNF1LQM boards because they apply different encapsulation modes. If two TNF1LQM boards interconnect with each other, do not use a TNF2LQM board to substitute for either of them. NOTE: If the NE software version is V100R003C01 or later, the NE software does not need to be upgraded during the substitution. If the NE software version is earlier than V100R003C01, the NE software needs to be upgraded to V100R003C01 or a later version. TNF2LQM None None NOTE: After board substitution, if the substitution board is inserted to another slot or NE: If no logical board is configured in the target slot, the substitution board logically functions as itself after going online. If a logical board has been configured in the target slot, the substitution board logically functions as the existing logical board. If delete the the logical board in the target slot, the substitution board logically functions as itself. Application: The LQM can be used in two different application scenarios: convergence of Any service signals and regeneration of OTU1 optical signals. Application Scenario 1: Implements the Convergence of Any Services The LQM board is mainly used to converge a maximum of four channels of Any (at a rate of 125 Mbit/s to 2.5 Gbit/s) signals to one channel of OTU1 signals and convert the converged OTU1 signals into signals borne on a standard DWDM wavelength compliant with ITU-T G.694.1 or signals borne on a standard CWDM wavelength compliant with ITU-T G. 694.2. At the same time, the board completes the reverse process. See Figure 1. Figure 1 Convergence of Any services implemented by the LQM board NOTE: The TNF1LQM board can converge four Any services. When used in 1 x AP4 ODU1 mode, the TNF2LQM board can converge four Any services. When used in 1 x AP2 ODU0 mode, the TNF2LQM board can converge two Any services. In the 1 x AP2 ODU0 mode, only ports TX1/RX1 and TX2/RX2 are available. Application Scenario 2: Implements the Regeneration of OTU1 Optical Signals The TNF1LQM board can regenerate one OTU1 service. Figure 2 shows the application of the TNF1LQM board as a regeneration board. When used in 1 x AP2 regeneration mode, the TNF2LQM board can regenerate two OTU1 services. When regenerating one OTU1 service, it supports dual feeding and selective receiving on the WDM side. Figure 3 and Figure 4 show the application of the TNF2LQM board as a regeneration board. Functions and Features: The main functions and features supported by the LQM are wavelength conversion, service convergence, ALS, and regeneration of OTU1 optical signals. For detailed functions and features, see Table 1. Table 1 Functions and features of the LQM We can offer all boards of Huawei OSN 1800 as below: TNF1CE6 TNF1CP6 TNF2CP6 TNF1CP8 TNF2ELOM (COMP) TNF2ELOM (STND) TNF2ELOM (C9LOG) TNF1ELQM TNF1LDE TNF1LDGF TNF1LDGF2 TNF2LDGF2 TNF1LDX TNF1LEG16 TNF1LEM18 TNF1LOE TNF1LQG TNF1LQM TNF2LQM TNF1LQM2 TNF2LQM2 (STND) TNF2LQM2 (C9LQM2) TNF2LQM2 (VA8) TNF1LQPL TNF1LQPU TNF1LSPL TNF1LSPR TNF1LSX TNF2LSX TNF1LWX2 TNF1TSP TNF1FC16Q TNF5TOA TNF5TQX TNF5TDX TNF5ND2 TNF5HUNQ2 TNF5HSNQ2 TNF5EM20 TNF1EF8F TNF1EM6F TNF1EG4C TNF1EX1 TNF1CQ1 TNF1MD1 TNF1FAN TND1FAN TNF5FAN TNC1PIU TND1PIU TNF5PIU TNF1APIU TNF5APIU TNF1MR4 TNF1MR4S TNF1MR8 TNF1SBM1 TNF1SBM2 TNF1SBM4 TNF1SBM8 TNF1DFIU01 TNF1DFIU02 TNF1DSFIU01 TNF1DSFIU02 TNF1FIU TNF2FIU TNF1X40 TNF1OBU TNF2OBU TNF1OPU TNF1CTL TNF1SCC TNF3SCC TNF1UXCL TNF1UXC TNF5UXCM TNF5UXCME TNF5XCH TNF1ST2 TNF1AUX TNF1SP3D TNF1PL3T TNF1SL1Q TNF1SL4D TNF5SLNO TNF5SL64D TNF1EGS4 TNF1EFS8 TNF1DMD1 TNF1DMD1S TNF1DMD2 TNF1DMD2S TNF1EMR2 TNF1EMR4 TNF1EMR8 TNF1MD8 TNF1MD8S TNF1MD8M TNF1MD16M TNF1MR1 TNF1MR1S TNF1MR2 TNF1MR2S TNF1OLP TNF1SCS TNF1LSPU Integrated with both OTN and WDM features, the OptiX OSN 1800 enables various services at the metropolitan network edge, such as FBB, leased line, and wireless services(MBB and front-haul), to share WDM network resources for unified transmission of services on the same network. The following issues of access and transport networks can be resolved: 1. How to realize unified transmission of multiple services ranging from 100 Mbit/s to 10Gbit/s~100 Gbit/s 2. How to provide networks with long-haul transmission features and fewer transmission nodes 3. How to slash maintenance and operation costs 4. How to effectively reduce the ever-increasing equipment power consumption and electricity costs 5. How to realize smooth upgrade of networks and safeguard investments OSN 1800 I OSN 1800 II Device Size 44(H)*435(W)*220(D) mm 88(H)*435(W)*220(D) mm Business Slot 3 Slots 7 Slots Capacity 4 wave access (OTM) 8 wave protection (OADM) Max Wave CWDM: 8 Wave , DWDM: 40 Wave Single channel maximum rate 100 Gbits/s (OTU4) Install mode 19/23 Cabinet , ETSI 300mm/600mm cabinet the wireless base station outdoor cabinet, FTTx outdoor cabinet, hanging wall, derrick Power supply mode AC: 110-220V OR DC: -48/-60V (Support 1+1 backup power input ) If you are interested, please let us know the specific model. We will provide the best service and the best price! Pr