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3G-NODE-B MIGRATION TO

3G-NODE-B MIGRATION TO. ETHERNET BACKHAUL. Introduction. At present , Node-Bs are using TDM backhaul for the connectivity with the RNC. The bandwidth used are nXE1 where n varies from 3 to 12. In order to provide higher bandwidth to customers, we need to migrate to Ethernet backhaul.

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3G-NODE-B MIGRATION TO

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  1. 3G-NODE-BMIGRATION TO ETHERNET BACKHAUL BB UNIT

  2. Introduction • At present , Node-Bs are using TDM backhaul for the connectivity with the RNC. The bandwidth used are nXE1 where n varies from 3 to 12. • In order to provide higher bandwidth to customers, we need to migrate to Ethernet backhaul. • Currently, there are 1126 Node-Bs and 13 RNCs. Out of 1126 Node-Bs, 699 are working on OFC. Agenda

  3. Advantages and challenges Advantages • Ethernet can provide higher bandwidth . • Cheap and better economy of scale. • Efficient transport. Challenges • Lacks simple and reliable synchronization functionality of TDM. Solution • IEEE 1588 PTP –for synchronization Agenda

  4. 3G- NETWROK DETAILS BB UNIT

  5. 3G-Line Diagram-Data 1+1 GE 4 GE Node-B RNC SGSN GGSN Unchannelised STM-1. To be upgraded to match with the Ethernet backhaul upgradation. FE 100 Mbps NME-1

  6. Interfaces-Node B and RNC • SFPs are required to support FE optical at Node-B end. • There are 13 RNCs with 3 different types. GE port which will be made available by vendor are: • Synchronization requirement will be met M/s Huawei supplied IEEE 1588 server. This will be used to distribute synch signals through Ethernet backhaul. Agenda

  7. RNC-Node-B Details-1 Agenda

  8. RNC-Node-B Details-2 A4: 3 GoU Boards, 6+6 A3: 2 GoU Board, 4+4 A2: 1 GoU Board, 2+2 Agenda

  9. RNC andTier1/2 Location Details-1 Agenda

  10. RNC andTier1/2 Location Details-2 Agenda

  11. BB- NETWROK DETAILS BB UNIT

  12. BB AGGREGATION NETWORK-1 NME-1

  13. BB AGGREGATION NETWORK-2 NME-1

  14. BB AGGREGATION NETWORK-3 NME-1

  15. BB AGGREGATION NETWORK-4 NME-1

  16. INTERFACE DETAILS BB UNIT

  17. Interfaces-3G • FE ELECTRICAL • OR • b) FE OPTICAL SFP NODE-B RNC GE OPTICAL SFP NME-1

  18. Interfaces-Broadband GE: GE-LH-40 UTSTARCOM 1XX0878700-H(as seen in Vellore) RPR Tier 1/Tier2 FE: FE-FX-PHY-UTSTARCOM 1XX0924906-F(as seen in Vellore) Availability of SFPs to be checked OCLAN FE: 155Mbps,2Km,850 nm Rodevices make (as seen in Vellore) GE: 1.25Gbps,30Km,1550nm Rodevices make (as seen in Vellore) *4 ports of GE can be made as Electrical also NME-1

  19. Interfaces-TRANSMISSION WTD RTXM 139-400 WHTD 004201 155m,15Km,1310nm-SM-ESFP(as seen in Vellore) CPE-8 Availability of SFPs to be checked MADM-16 FIBER XON 1310nm 155m SFP(as seen in Vellore) FTTH-ONT NME-1 4 FE electrical

  20. OPTIONS AND CHALLENGES BB UNIT

  21. Various Options and its challenges-1 • Riding over BB Aggregation Ring i.e RPR Ring. RPR are mostly intra city rings. The rings are not available in all SSAs and very few of them are 10G. Already, NME-University(155 Mbbs), GPON/GEPON, WiMaX, IPTAX,IPTV,VPN use this ring for transport. This is apart from the DATAONE Traffic the purpose for which the ring has been designed originally. • Some Tier2 switches do not support FE interfaces. The availability of SFPs are very limited. Agenda

  22. Various Options and challenges-2 • Capitalizing on FTTH services :GPON and GEPON based FTTH services are available at following locations only. Agenda

  23. Various Options and challenges-3 • Using the combination of MADM-16 Rings with CPE-8. SFP availability limited. • Using the combination of FTTH and CPE-8. • Using the combination of Tier2 and CPE-8. SFP availability to be checked. • Using E1-FE converter /WDM splitter. • Using the MADM-16 Rings. Agenda

  24. SCENARIOS POSSIBLE-1 • Using RPR Ring • Node-Bs co-located with RPR Tier1/Tier2. • Node-Bs Nearer to Tier1/Tier2: Drive distance of SFP and availability of fibre pair are critical. If not WDM splitter may be used. • Node-Bs which are built-Up to Nearest Tier1/Tier2 station using CPE-8 sytems : Use 1310 nm SFP at Tier1/Tier2end. • Using FTTH ONU-s which have FE electrical. • Using the combination of FTTH and CPE-8: Use FE electrical interfaces available at both ends. • . • Using the MADM-16 Rings. Agenda

  25. SCENARIOS POSSIBLE-2 • Using the MADM-16 Rings • Node-Bs co-located with MADM-16 terminal: Use FE electrical available at both ends. • Node-Bs which are built-up to the nearest MADM-16 Station by using CPE-8 Systems: Use FE electrical available at both ends. • Using the Aggregation Switch : Built media upto Aggregation switch which should be located at RNC end. • Using E1-FE converter /WDM splitter Agenda

  26. DIRECT CONNECTIVITY USING SFP • If Tier 1 or Tier 2 are located within the drive distance of SFP and spare fibre is available from Node-B location to Tier1/2 location, 1310nm SFP at Node-B end can be used. Please ensure 1310 nm SFP at Tier1/2 end which may be available spare from CPE-8/MADM-16 systems. BB UNIT

  27. CONNECTIVITY USING CPE-8 system • If Tier 1 or Tier 2 location is used as Built-up stations for distant end Node-Bs (using CPE-8 systems), put the 1310nm SFP at Tier 1 or Tier2 and provide connectivity. BB UNIT

  28. USING MADM RING • MADM-16 Ring Nodes can also be used to carry FE traffic from CPE-8/Node-Bs. MADM terminal in the ring which is co-located at RNC end can also be used to aggregate FE to GE. BB UNIT

  29. AGGREGATION SWITCH • Aggregation switch can be deployed at RNC location for aggregating Node-B traffic in FE interfaces and then make it as GE towards RNC. BB UNIT

  30. ISSUES-1 • Node-Bs generate about 3X14.4 ~ 50Mbps traffic. Hence, riding over RPR ring shall be attempted only in 10G ring locations(8) viz CBE,ERD,MA, PY,SLM,TR,TVL and VLR. (CBE no FE I/F) • FTTH is available at the cities of CBE,TUP,VLR,SLM,PY,TR and MA. Node-Bs at CBE may be connected using GPON as there are 35+ OLTs and are of protected configuration. • Though FE/GE ports are available in BB/TX nodes, very few SFPs are available. Those too, are required for upcoming BB expansion project. Agenda

  31. ISSUES-2 • It is not clear whether SFPs will be made available to all Node-Bs. • RNC interfaces, both uplink and downlinks shall suitably be upgraded. To derive the max benefit, all the connectivity in the chain shall be augmented. • Replaced CPE-21 shall be properly reused. ODF/FDF,Patch cords, connectors, SM-MM convertor(modal conditioning patch cords) etc are required depending on the site conditions. Agenda

  32. ISSUES-3 • Synchronizations to be ensured; otherwise call will drop.(No handover with adjacent cell possible ) • RNCs located at CBE,TNJ,TT,TVL and PY serve adjacent SSA also. In that scenario, separate 1+1 GE interface to be allocated at RNC end for connecting the adjacent SSA Node-Bs. • The present traffic of MADM-16 Ring shall be studied before attempting to use it. Agenda

  33. CASE STUDY-PY BB UNIT

  34. RNC-CONNECTIVITY-PY(LOGICAL) 1310,GE,SM,LC 1550,GE,SM,LC RNC TIER 1 ODF In the case of PY SSA, both RNC and Tier 1 are co-located in the same floor. One ODF was also availabe in the MSC SWITCH ROOM which is used for interconnection. 1+1 GE interfaces available in both RNC and Tier1 are used for interconnection. Though wavelength is different, it will work since the receiver in both ends will normally be Wideband but the range will be limited to the lower of the two. NME-1

  35. PY MADM –RPR-RNC-LOGICAL LSP NNR MUP ENR RBN MADM RING 1 MADM RING 2 OKP KET PY MAIN RNC TKM ARK AVE PY PY GE GE FE FE PY MADM RING 5 GE T1 KIU MADM RING 3 PY PY T2 MTP VIN T1 T2 LSP BHR RPR T1/T2 MKM VIN TCM T2 T2 OKP BB UNIT

  36. CO-LOCATED NODE-B(WITH Tier 1 or 2) 850nm,FE/GE,MM,LC Node-B 850nm,FE,MM,LC Tier 1 or 2 MM PATCH CORD BB UNIT

  37. OTHER NODE-Bs • Pl refer to the Ann-1(Excel sheet) BB UNIT

  38. THANKS TRANSMISSION UNIT BSNL-TAMILNADU CIRCLE http://www.bsnl.co.in rbabusrinivas@bsnl.co.in THE END

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