Page 1 9500 MPR Indoor: MSS-8/MSS-4 + Outdoor: ODU300 / MPT-HC / MPT- HC V2 / MPT-MC Rel. 3.1 User Manual 3DB18809AAAA Issue 1 May 2011...
Page 2 Alcatel, Lucent, Alcatel-Lucent and the Alcatel-Lucent logo are trademarks of Alcatel-Lucent. All other trademarks are the property of their respective owners. The information presented is subject to change without notice. Alcatel-Lucent assumes no responsibility for inaccuracies contained herein. Copyright © 2011 Alcatel-Lucent...
Page 3: Table Of Contents
History............................Change notes ..........................Handbook Structure ........................General on Alcatel-Lucent Customer Documentation ............1 SAFETY, EMC, EMF, ESD NORMS AND EQUIPMENT LABELLING ........1.1 Declaration of conformity to CE marking and Countries List ......... 1.2 Specific label for MPR-E equipment ..................
Page 4 2.8.22 Synchronization for PDH/SDH/DATA................211 2.8.23 Synchronization for E1 ports with ASAP unit ..............218 2.8.24 Synchronization distribution from 9500 MPR to 9400 AWY.......... 218 2.8.25 Synchronization connection in Stacking configuration with Core protection ....219 3 NE MANAGEMENT BY SOFTWARE APPLICATION ..............221 3.1 WebEML start ........................
Page 5 3.14.1 EAS Domain ......................... 424 3.15 Ethernet Ring Configuration View..................428 3.15.1 ERP Configuration ......................428 3.15.2 ERP Configuration procedure ..................434 3.15.3 Configuration example of an Ethernet ring ..............440 User Manual 9500 MPR Rel. 3.1 Table of Contents 3DB18809AAAA Issue 1 3/980...
Page 6 3.23.5 Menu bar........................558 3.23.6 CS (Community String) ....................560 4 INSTALLATION..........................563 4.1 Hardware Installation......................563 4.1.1 Power consumption ......................564 4.1.2 Rack Installation ......................565 9500 MPR Rel. 3.1 User Manual 4/980 3DB18809AAAA Issue 1 Table of Contents...
Page 7 6.8.2 1+1 HSB Static Modulation and 1+1 EPS to 1+0 Static Modulation ....... 929 6.8.3 1+1 FD to 1+0 ......................... 929 6.9 Downgrade from Protected to a Not Protected Radio (with MPT-HC/MPT-HC V2 or MPT-MC) User Manual 9500 MPR Rel. 3.1 Table of Contents 3DB18809AAAA Issue 1 5/980...
Page 8 7.7 Commissioning station B – Phase 2 (acceptance Test) ........... 971 7.8 Final operations ........................971 7.9 Annex A: fine antenna alignment ..................971 ABBREVIATIONS ..........................973 CUSTOMER DOCUMENTATION FEEDBACK................979 9500 MPR Rel. 3.1 User Manual 6/980 3DB18809AAAA Issue 1 Table of Contents...
Page 9: List Of Figures
Figure 43. 32xE1 Local Access unit....................126 Figure 44. PDH Access unit......................127 Figure 45. 2xSTM-1 Local Access unit ..................... 127 Figure 46. STM-1 Access unit......................128 User Manual 9500 MPR Rel. 3.1 List of Figures 3DB18809AAAA Issue 1 7/980...
Page 10 Figure 97. Radio LAG ........................193 Figure 98. Ethernet LAG ........................193 Figure 99. QoS in the Core-E unit..................... 194 Figure 100. QoS in the Modem unit ....................196 9500 MPR Rel. 3.1 User Manual 8/980 3DB18809AAAA Issue 1 List of Figures...
Page 11 Figure 151. Radio-Ethernet configuration dialog ................275 Figure 152. Completed Radio-Ethernet cross-connection ..............275 Figure 153. ASAP-Ethernet configuration dialog ................276 Figure 154. Completed ASAP-Ethernet cross-connection..............277 User Manual 9500 MPR Rel. 3.1 List of Figures 3DB18809AAAA Issue 1 9/980...
Page 12 Figure 206. 1+1 Hot Standby block diagram (Radio units) (with Core-E protection) ......362 Figure 207. 1+0 block diagram (MPT-ACC unit) (without Core-E protection) ........363 Figure 208. 1+0 block diagram (MPT-ACC unit) (with Core-E protection) ........363 9500 MPR Rel. 3.1 User Manual 10/980...
Page 13 Figure 258. ASAP E1 Layer view...................... 476 Figure 259. ASAP IMA Layer view....................477 Figure 260. IMA Link Monitoring ....................... 478 Figure 261. IMA Group Monitoring....................478 Figure 262. ATM Interface type......................479 User Manual 9500 MPR Rel. 3.1 List of Figures 3DB18809AAAA Issue 1 11/980...
Page 14 Figure 313. Custom View........................543 Figure 314. ATM Interface Statistics ....................544 Figure 315. Logical VPs Statistics Monitoring ................... 545 Figure 316. Not Logical VPs Statistics Monitoring ................546 9500 MPR Rel. 3.1 User Manual 12/980 3DB18809AAAA Issue 1 List of Figures...
Page 15 Figure 367. 32xE1 PDH Access Card....................591 Figure 368. 16xE1 ATM ASAP Card ....................591 Figure 369. AUX Peripheral Card ..................... 591 Figure 370. STM-1 Access Card....................... 591 User Manual 9500 MPR Rel. 3.1 List of Figures 3DB18809AAAA Issue 1 13/980...
Page 16 Figure 410. Terminal 1+1 32E1 Radio protected (1 PBA PDH) towards internal DDF 75 Ohms 1.0/2.3 1U Figure 411. Terminal 1+1 32E1 Radio protected (1 PBA PDH) towards internal DDF 120 Ohms 3U 614 9500 MPR Rel. 3.1 User Manual...
Page 17 Figure 455. Views of MPT-HC with embedded diplexer (6 GHz) ............659 Figure 456. Composition of MPT-HC with external diplexer ............. 660 Figure 457. MPT-HC TRANSCEIVER and BRANCHING boxes coupling surfaces ......661 User Manual 9500 MPR Rel. 3.1 List of Figures 3DB18809AAAA Issue 1 15/980...
Page 18 Figure 506. Label affixed on the MPT-HC V2 and MPT-HC V2 TRANSCEIVER box ....... 723 Figure 507. Label affixed inside the MPT-HC V2 BRANCHING box..........724 Figure 508. LC/Q-XCO to LC Fiber cord................... 726 9500 MPR Rel. 3.1 User Manual 16/980...
Page 19 Figure 556. Checking Feedhead Flange with a Spirit level............... 773 Figure 557. Indicative head-on signal pattern for a parabolic antenna ..........776 Figure 558. Example Tracking Path Signals ..................777 User Manual 9500 MPR Rel. 3.1 List of Figures 3DB18809AAAA Issue 1 17/980...
Page 20 Figure 610. Enabling Modem Card ....................846 Figure 611. Enabling Modem Card on the same row (to implement protected configuration) ..847 Figure 612. Enabling Modem Card protection .................. 847 9500 MPR Rel. 3.1 User Manual 18/980 3DB18809AAAA Issue 1...
Page 21 Figure 664. Test bench for tributary functionality check with MPT-HC/MPT-HC V2/MPT-MC... 957 Figure 665. Test bench for hop stability test with ODU300 ............... 961 Figure 666. Test bench for tributary functionality check with MPT-HC/MPT-HC V2/MPT-MC... 961 User Manual 9500 MPR Rel. 3.1 List of Figures 3DB18809AAAA Issue 1 19/980...
Page 22 Figure 671. Test bench for optional Ethernet Data Channel functionality with 2 Ethernet Data Analyzers ........................ 967 Figure 672. Test bench for ATM traffic ....................969 Figure 673. Test bench for 64 kbit/s Service Channel functionality check ........970 9500 MPR Rel. 3.1 User Manual 20/980 3DB18809AAAA Issue 1...
Page 23: List Of Tables
Table 49. MPT-HC Output flanges with external antenna ..............707 Table 50. 6-7-8GHz Flextwist waveguide..................708 Table 51. 11-38GHz Flextwist waveguide ..................708 Table 52. MPT-HC V2 external interfaces ..................719 User Manual 9500 MPR Rel. 3.1 List of Tables 3DB18809AAAA Issue 1 21/980...
Page 24 Table 58. MPT Access Peripheral Card and MPT-HC/MPT-HC V2 Alarm Matrix ......908 Table 59. MPT Access Peripheral Card and MPT-MC Alarm Matrix..........913 Table 60. TMN Network Troubleshooting ..................919 Table 61. Test and commissioning instruments ................934 9500 MPR Rel. 3.1 User Manual 22/980 3DB18809AAAA Issue 1...
Page 25: Preface
Access to the Equipment Access to the Equipment in use must be restricted to Service Personnel only. Safety Rules Recommended safety rules are indicated in Chapter 1 from page 31. User Manual 9500 MPR Rel. 3.1 Preface 3DB18809AAAA Issue 1 23/980...
Page 26: Applicability
MSS-8/MSS-4 + ODU300/MPT-HC/MPT-HC V2/MPT-MC 3.1.0 Scope This document aims to describe the hardware and software functionalities of the 9500 MPR-E. This document is intended to the technicians involved in Planning, in Operation and Maintenance and in Commissioning of the 9500 MPR-E.
Page 27: Change Notes
Change notes Handbook Structure This handbook has been edited according to the Alcatel-Lucent standardized “drawing-up guides" com- plying with such suggestion. This handbook is divided into the main topics described in the table of contents: PREFACE It contains general information as preliminary information, hand- book scope, history.
Page 28: General On Alcatel-Lucent Customer Documentation
A “product” is defined by the network hierarchical level where it can be inserted and by the whole of performances and services that it is meant for. E.g. 9500 MPR-E is a product. Product-releases A ”product” evolves through successive “product–releases”, which are the real products marketed for their delivery at a certain ”product–release”...
Page 29 Supplying updated handbooks to Customers who have already received previous issues is submitted to commercial criteria. By updated handbook delivery it is meant the supply of a complete copy of the handbook new issue (sup- plying errata-corrige sheets is not envisaged). User Manual 9500 MPR Rel. 3.1 Preface 3DB18809AAAA Issue 1 27/980...
Page 30 • the documentation of system optional features (e.g. System Installation Handbooks related to racks that Customers could not buy from Alcatel-Lucent together with the main equipment). A CD-ROM is obtained collecting various handbooks and documents in .pdf format. Bookmarks and hyperlinks make the navigation easier.
Page 31 CD-ROM's own P/N-edition, is also loaded in the Alcatel-Information-System as a structured list. Whenever a new edition of any of such handbooks/documents is released in the Alcatel-Lucent archive system, a check in the Alcatel-Information-System is made to identify the list of CD-ROMs that must be updated to include the new editions of these handbooks/documents.
Page 32 9500 MPR Rel. 3.1 User Manual 30/980 3DB18809AAAA Issue 1 Preface...
Page 33: Safety, Emc, Emf, Esd Norms And Equipment Labelling
Applicable standards and recommendations – Safety Rules – Electromagnetic Compatibility (EMC norms) – Equipment protection against electrostatic discharges – Cautions to avoid equipment damage User Manual 9500 MPR Rel. 3.1 Safety, EMC, EMF, ESD Norms and Equipment Label- 3DB18809AAAA Issue 1 31/980...
Page 34: Declaration Of Conformity To Ce Marking And Countries List
- Norway (NO) –Poland (PL) – Portugal (PT) - Romania (RO) – Spain (SP) - Sweden (SE) - Slovenia (SI) - Slovak Republic (SK) -United Kingdom (UK) Indication of the intended use of the equipment: Point to Point PDH/Ethernet Transport radio Link 9500 MPR Rel. 3.1 User Manual 32/980...
Page 35: Specific Label For Mpr-E Equipment
Electrostatic Device Logo NB1: – 40.5V / - 57.6V ; 10.2A / 7.2A NB2: – 40.5V / - 57.6V ; 7.2A / 5.0A User Manual 9500 MPR Rel. 3.1 Safety, EMC, EMF, ESD Norms and Equipment Label- 3DB18809AAAA Issue 1 33/980...
Page 36: Applicable Standards And Recommendations
The keys and/or the tools used to open doors, hinged covers to remove parts which give access to compartments in which are present high dangerous voltages must belong exclusively to the service personnel. 9500 MPR Rel. 3.1 User Manual 34/980...
Page 37: Labels Indicating Danger, Forbiddance, Command
Dangerous Electrical Voltages Labeling The following warning label is affixed next to dangerous voltages (>42.4 Vp; >60 Vdc). User Manual 9500 MPR Rel. 3.1 Safety, EMC, EMF, ESD Norms and Equipment Label- 3DB18809AAAA Issue 1 35/980...
Page 38 Therefore, slits or apertures are made to let air circulate freely and allow dangerous gasses to down flow (battery-emitted hydrogen). A 417-IEC-5641 Norm. compliant label is affixed next to it indicating that the openings must not be covered up. 9500 MPR Rel. 3.1 User Manual 36/980...
Page 39 / turn-up and commissioning / maintenance documents and the following general rule: Personal injury can be caused by heat. Avoid touching powered terminals with any exposed part of your body. User Manual 9500 MPR Rel. 3.1 Safety, EMC, EMF, ESD Norms and Equipment Label- 3DB18809AAAA Issue 1 37/980...
Page 40 2 meters high). – Install the antenna as far as possible from other existing equipment emitting RF power. Anyway remind that someone standing in front of the 9500 MPR-E antenna may cause traffic shutdown. Place the relevant stickers: EMF emission warning sign On the site when applicable (when people can cross the compliance boundaries and/or the transmission area of the antenna, i.e.
Page 41: Electromagnetic Compatibility (Emc Norms)
(contact springs and connection points, etc.) • Clean the dummy covers of the spare units as well. • Screw fasten the units to the subrack. User Manual 9500 MPR Rel. 3.1 Safety, EMC, EMF, ESD Norms and Equipment Label- 3DB18809AAAA Issue 1 39/980...
Page 42: Equipment Protection Against Electrostatic Discharges
Exceeding this value may result in screw breaking. MSS-ODU cable disconnection / connection Before to disconnect or connect the MSS-ODU cable (at MSS or ODU side) switch off the corre- sponding MSS Unit. 9500 MPR Rel. 3.1 User Manual 40/980 3DB18809AAAA Issue 1...
Page 43: Product Information And Planning
Indoor items (par. 2.7.1 on page 92) • ODU300 (with internal lightning surge suppressor) (par. 2.7.2 on page 96) • MPT-HC with internal diplexer (par. 2.7.3 on page 110) User Manual 9500 MPR Rel. 3.1 Product information and planning 3DB18809AAAA Issue 1 41/980...
Page 44 Radio Transmission Features with MPT-HC/MPT-HC V2/MPT-MC (par. 2.8.12 on page 168) – Frequency Agility (par. 2.8.12.1 on page 168) – Automatic Transmit Power Control (ATPC) (par. 2.8.12.2 on page 168) 9500 MPR Rel. 3.1 User Manual 42/980 3DB18809AAAA Issue 1 Product information and planning...
Page 45 • Synchronization for E1 ports with ASAP unit (par. 2.8.23 on page 218) • Synchronization distribution from 9500 MPR to 9400 AWY (par. 2.8.24 on page 218) • Synchronization connection in Stacking configuration with Core protection (par. 2.8.25 on page...
Page 46: Purpose And Function
The 9500 Microwave Packet Radio (MPR) is a microwave digital radio that supports PDH, SDH and packet data (Ethernet) for migrating to IP. The 9500 MPR-E provides a generic, modular IP platform for multiple network applications (including 2G/3G/HSDPA/WiMAX backhauling to Metro Ethernet areas) to accommodate broadband services.
Page 47: Figure 2. Service Awareness
9500 MPR-E aggregates and carries over a COMMON PACKET LAYER: TDM 2G, 3G and IP/Ethernet. This allows sharing of common packet transmission infrastructures, regardless of the nature of carried traffic. Due to the nature of Ethernet, each service can be discriminated based on several parameters like quality of service.
Page 48: Figure 3. Packet Node
Address new data services in the best way: packet natively Figure 3. Packet Node 9500 MPR-E offers a SINGLE PACKET MATRIX able to switch, aggregate and handle any of the possible incoming traffic types with virtually no capacity limits (up to 10 GBps).
Page 49: Description
2.1.2 Description The 9500 MPR-E consists of a Microwave Service Switch (MSS) and Outdoor Unit (ODU). Figure 5. Naming Convention For the interconnections between the MSS and the Outdoor Units refer to paragraph 2.1.10 on page 58. Note: Another type of MSS is available (MSS-1c), which is described in a dedicated User Manual.
Page 50: Mss Purpose, Function And Description
GigaEthernet interface for Ethernet traffic (Note: for port#5 and port#6 the optional SFP must be installed); to be used to connect an MPT: MPT-HC or MPT-MC to port#1 to port#4; an MPT-HC only to port#5 and port#6. 9500 MPR Rel. 3.1 User Manual 48/980 3DB18809AAAA Issue 1...
Page 51 3 or 4 for MSS-4) can be used to power supply the MSS for +24 Vdc office applications. A simplified block diagram of the MSS is shown in Figure 8. for MSS-8 and in Figure 9. for MSS-4. User Manual 9500 MPR Rel. 3.1 Product information and planning 3DB18809AAAA Issue 1...
Page 52: Figure 8. Mss-8 Block Diagram
1 GbEth ETHERNET SWITCH 4x10/100/1000 2 Electrical/Optical electrical SFPs Ethernet ports (port #5 to port #6) (port #1 to port #4) Figure 9. MSS-4 block diagram 9500 MPR Rel. 3.1 User Manual 50/980 3DB18809AAAA Issue 1 Product information and planning...
Page 53: Stacking Configuration
Core protection. To enable this functionality the “Ethernet LOS Criteria” feature has to be enabled (refer to Menu System Setting in par. 3.4.4). User Manual 9500 MPR Rel. 3.1 Product information and planning 3DB18809AAAA Issue 1 51/980...
Page 54: Figure 11. Stacking Configuration With 3 Mss With Core Protection
Shelf 1 Shelf 2 Shelf 3 Figure 11. Stacking configuration with 3 MSS with Core protection 9500 MPR Rel. 3.1 User Manual 52/980 3DB18809AAAA Issue 1 Product information and planning...
Page 55: Odu300
Power is provided by -48Vdc from the MSS to the ODU300 DC-DC converter. The ODU300 is frequency dependent. Figure 12. ODU300 User Manual 9500 MPR Rel. 3.1 Product information and planning 3DB18809AAAA Issue 1 53/980...
Page 56: Mpt-Hc
By using the Power Extractor (refer to par. 2.1.9) the MPT-HC can be connected to the MSS by using only one cable carrying Ethernet traffic and power supply. The MPT-HC is frequency dependent. Figure 13. MPT-HC (11-38 GHz on the left side; 6 GHz on the right side) 9500 MPR Rel. 3.1 User Manual 54/980 3DB18809AAAA Issue 1...
Page 57: Mpt-Mc
MPT-MC is medium capacity – MPT-MC is natively Ethernet powered through a proprietary PFoE – MPT-MC cannot be connected in optical -> 100m length cable limitation. Figure 14. MPT-MC User Manual 9500 MPR Rel. 3.1 Product information and planning 3DB18809AAAA Issue 1 55/980...
Page 58: Mpt-Hc V2
Power Supply and one optical cable for the Ethernet Traffic (as MPT-HC) – MPT-HC V2 is XPIC-ready by the installation of a dedicated module. Figure 15. MPT-HC V2 9500 MPR Rel. 3.1 User Manual 56/980 3DB18809AAAA Issue 1 Product information and planning...
Page 59: Power Extractor
The Power Extractor has 3 connectors: – DC+DATA In (PFoE from the MPT Access unit) – DC Out (Power Supply to MPT-HC) – Data Out (Ethernet traffic to MPT-HC) User Manual 9500 MPR Rel. 3.1 Product information and planning 3DB18809AAAA Issue 1 57/980...
Page 60: Mss To Outdoor Unit Interconnections
311 MHz IQ modulated signal from the ODU300 Radio Interface (transmit IF) – Rx telemetry – 126 MHz IQ modulated signals from the ODU (receive IF) Figure 17. MSS to ODU300 interconnection 9500 MPR Rel. 3.1 User Manual 58/980 3DB18809AAAA Issue 1 Product information and planning...
Page 61: Figure 18. Mss To Mpt-Hc Interconnection
The Ethernet electrical cable is provided with connectors to be mounted on site with the specific RJ45 tool (1AD160490001). The Ethernet optical cable is preassembled and available in different lengths. Figure 18. MSS to MPT-HC interconnection User Manual 9500 MPR Rel. 3.1 Product information and planning 3DB18809AAAA Issue 1 59/980...
Page 62 Figure 19. MSS to MPT-HC interconnection 9500 MPR Rel. 3.1 User Manual 60/980 3DB18809AAAA Issue 1 Product information and planning...
Page 63: Figure 20. Mss To Mpt-Hc Interconnection
Feed over Ethernet (Ethernet traffic and Power Supply on the same cable). The Power Extractor then sep- arates the Power Supply from the Ethernet traffic, which are separately send to the MPT-HC. Figure 20. MSS to MPT-HC interconnection User Manual 9500 MPR Rel. 3.1 Product information and planning 3DB18809AAAA Issue 1 61/980...
Page 64: Figure 21. Mss To Mpt-Hc Interconnection
Note: MPT-HC must be connected to a fuse or a breaker on a customer power distribution box. The recommended value is 3 Amps. For the connection to the station battery refer to paragraph 2.1.10.4 on page 70. 9500 MPR Rel. 3.1 User Manual 62/980...
Page 65: Figure 22. Mpt-Hc Connection Through The Power Injector Box
The Power Injector box is an indoor device to be installed in a 19”/21” rack. The Power Injector plug-in is a unit to be installed in an MSS. Figure 22. MPT-HC connection through the Power Injector Box User Manual 9500 MPR Rel. 3.1 Product information and planning 3DB18809AAAA Issue 1 63/980...
Page 66: Figure 23. Mpt-Hc Connection Through The Power Injector Plug-In Installed In The Mss
Figure 23. MPT-HC connection through the Power Injector Plug-in installed in the MSS 9500 MPR Rel. 3.1 User Manual 64/980 3DB18809AAAA Issue 1 Product information and planning...
Page 67: Figure 24. Mss To Mpt-Hc V2 Interconnection
The Ethernet electrical cable is provided with connectors to be mounted on site with the specific RJ45 tool (1AD160490001). Figure 24. MSS to MPT-HC V2 interconnection User Manual 9500 MPR Rel. 3.1 Product information and planning 3DB18809AAAA Issue 1 65/980...
Page 68 The Ethernet optical cable is preassembled and available in different lengths (up to 450 m). Note: A special cord adapter must be connected to the coaxial cable on the MPT-HC V2. Figure 25. MSS to MPT-HC V2 interconnection 9500 MPR Rel. 3.1 User Manual 66/980 3DB18809AAAA Issue 1...
Page 69: Figure 26. Mss To Mpt-Hc V2 Interconnection
Note: MPT-HC V2 must be connected to a fuse or a breaker on a customer power distribution box. The recommended value is 3 Amps. For the connection to the station battery refer to paragraph 2.1.10.4 on page 70. User Manual 9500 MPR Rel. 3.1 Product information and planning 3DB18809AAAA Issue 1 67/980...
Page 70: Figure 27. Mpt-Hc V2 Connection Through The Power Injector Box
The Power Injector box is an indoor device to be installed in a 19”/21” rack. The Power Injector plug-in is a unit to be installed in the MSS. Figure 27. MPT-HC V2 connection through the Power Injector Box 9500 MPR Rel. 3.1 User Manual 68/980...
Page 71: Figure 28. Mpt-Hc V2 Connection Through The Power Injector Plug-In Installed In The Mss
Figure 28. MPT-HC V2 connection through the Power Injector Plug-in installed in the MSS User Manual 9500 MPR Rel. 3.1 Product information and planning 3DB18809AAAA Issue 1 69/980...
Page 72: Figure 29. Mpt-Hc/Mpt-Hc V2 Directly Connected To The Battery
Lightning arrestor with its grounding cable – Low pass filter – Cable N to two wires ("pigtail") Figure 29. MPT-HC/MPT-HC V2 directly connected to the battery 9500 MPR Rel. 3.1 User Manual 70/980 3DB18809AAAA Issue 1 Product information and planning...
Page 73: Figure 30. Mss To Mpt-Mc Interconnection
The max cable length is 100 m. The Ethernet electrical cable is provided with connectors to be mounted on site with the specific RJ45 tool (1AD160490001). Figure 30. MSS to MPT-MC interconnection User Manual 9500 MPR Rel. 3.1 Product information and planning 3DB18809AAAA Issue 1 71/980...
Page 74: Figure 31. Mpt-Mc Connection Through The Power Injector Box
The Power Injector box is an indoor device to be installed in a 19”/21” rack. The Power Injector plug-in is a unit to be installed in a MSS. Figure 31. MPT-MC connection through the Power Injector Box 9500 MPR Rel. 3.1 User Manual 72/980...
Page 75: Antennas
Antenna mounts are designed for use on industry-standard 114 mm OD pipe-mounts. An ODU can also be used with standard antennas via a remote-mount kit and flexible waveguide. User Manual 9500 MPR Rel. 3.1 Product information and planning 3DB18809AAAA Issue 1...
Page 76: Radio Capacity, Channelling And Modulation
256 QAM 137 E1 315,2 Mbit/s 16 QAM 72 E1 166,4 Mbit/s 56 MHz 128 QAM 136 E1 313,6 Mbit/s 256 QAM 150 E1 345,6 Mbit/s 9500 MPR Rel. 3.1 User Manual 74/980 3DB18809AAAA Issue 1 Product information and planning...
Page 77: Table 2. Radio Capacity, Channelling Scheme And Modulation (Adaptive Modulation)
When the Admission Control is disabled, the check is performed taking into account the capacity of the highest modulation scheme for the relevant Channel Spacing (64 QAM for 4-16-64 QAM range or 16 QAM for 4-16 QAM range). User Manual 9500 MPR Rel. 3.1 Product information and planning 3DB18809AAAA Issue 1 75/980...
Page 78: Mpt-Hc/Mpt-Hc V2/Mpt-Mc
16 QAM 84,2 Mbit/s 16 QAM 4 (NB1) 87,9 Mbit/s 32 QAM 107,7 Mbit/s 64 QAM 129,0 Mbit/s 128 QAM 152,4 Mbit/s 256 QAM (NB3) 180,7 Mbit/s 9500 MPR Rel. 3.1 User Manual 76/980 3DB18809AAAA Issue 1 Product information and planning...
Page 79 MPT-MC does not support this Channel Spacing. N.B.3: MPT-MC does not support this FCM mode. N.B.4: Applicable only for 6 GHz and 11 GHz RF bands. User Manual 9500 MPR Rel. 3.1 Product information and planning 3DB18809AAAA Issue 1 77/980...
Page 80: Table 4. Modem Profiles For High Capacity Application
# E1 # STM-1 Typical mean Ethernet Spacing Mode Class (TDM2TDM) (SDH2SDH) Throughput (MHz) (any length: 64-1518 bytes) 128 QAM 153,3 Mbit/s 128 QAM 306,0 Mbit/s 9500 MPR Rel. 3.1 User Manual 78/980 3DB18809AAAA Issue 1 Product information and planning...
Page 81: Table 7. Radio Capacity, Channelling Scheme And Modulation (Adaptive Modulation)
32 QAM to 256 QAM 196,2 Mbit/s 64 QAM 64 QAM to 256 QAM 252,6 Mbit/s N.B.1: MPT-MC does not support this Channel Spacing. N.B.2: New ETSI mask. User Manual 9500 MPR Rel. 3.1 Product information and planning 3DB18809AAAA Issue 1 79/980...
Page 82: Standard Features
– Ethernet Ring – Electrical and optical GE interfaces – Software-based configuration – Multiservice Switching Capacity greater than 16 Gb/s – No single point of failure 9500 MPR Rel. 3.1 User Manual 80/980 3DB18809AAAA Issue 1 Product information and planning...
Page 83: Radio Configurations
Local Access, 2 Haul Links and 2 Back Links (Figure 38.) N.B. Radio LAG and Ethernet LAGs can be created to increase the capacity and availability. User Manual 9500 MPR Rel. 3.1 Product information and planning 3DB18809AAAA Issue 1 81/980...
Page 84: Figure 33. Pdh/Atm Over Ethernet Packet Node - Mapping Of 32 E1 And
Figure 33. PDH/ATM Over Ethernet Packet Node - Mapping of 32 E1 and 16 E1 ATM on Ethernet Figure 34. PDH/SDH/ATM and Ethernet Terminal Packet Transport 32 E1, 2xSTM-1 and 16 E1 ATM Access, 1 Radio Direction 9500 MPR Rel. 3.1 User Manual 82/980 3DB18809AAAA Issue 1...
Page 85: Figure 35. Pdh/Sdh/Atm And Ethernet Add/Drop Packed Node-Ethernet And 32 E1, 2Xstm-1 And
16 E1 ATM Local Access, 1 Back Link, 1 Haul Link Figure 36. PDH/SDH/ATM and Ethernet Terminal Packet Node-Ethernet and 32 E1, 2xSTM-1 and 16 E1 ATM Local Access, 2 Back Links User Manual 9500 MPR Rel. 3.1 Product information and planning 3DB18809AAAA Issue 1 83/980...
Page 86: Figure 37. Pdh/Sdh/Atm And Ethernet Add/Drop Packet Node-Ethernet And 32 E1, 2Xstm-1 And
16 E1 ATM Local Access, 1 Back Link and 2 Haul Links Figure 38. PDH/SDH/ATM and Ethernet Add/Drop Packet Node-Ethernet and 32 E1, 2xSTM-1 and 16 E1 ATM Local Access, 2 Haul Links and 2 Back Links 9500 MPR Rel. 3.1 User Manual 84/980...
Page 87: Environmental And Electrical Characteristics
Non Protected, 1+0 Protected Hot Standby, 1+1 Space Diversity, 1+1 Frequency Diversity, 1+1 XPIC 1+0/1+1 (with MPT-HC V2) Radio LAG with four radio channels (with MPT-HC/MPT-HC V2/MPT-MC) User Manual 9500 MPR Rel. 3.1 Product information and planning 3DB18809AAAA Issue 1 85/980...
Page 88 Support Tool Routing Protocols supported Static routing and dynamic routing (OSPF) TMN In-band 2 interfaces Network Management Alcatel-Lucent 1350 OMS Alcatel-Lucent 1352 Compact Alcatel-Lucent 5620 SAM 9500 MPR Rel. 3.1 User Manual 86/980 3DB18809AAAA Issue 1 Product information and planning...
Page 89: Odu300
(WR42) (WR28) (WR28) (WR28) Flange Type UBR220 UBR220 UBR220 UBR320 UBR321 UBR320 Mating Flange Type PBR220 PBR220 PBR220 PBR320 PBR321 PBR320 Guaranteed power consumption 30 W User Manual 9500 MPR Rel. 3.1 Product information and planning 3DB18809AAAA Issue 1 87/980...
Page 90: Mpt-Hc/Mpt-Hc V2
T-R Spacings supported MHz 308-315- 1008- 1008, 1008 1260 322, 420, 1010, 1050- 490, 644, 1560, 340 1200- 1232 Antenna Interface Waveguide Type WR62 WR42 WR42 WR42 WR28 9500 MPR Rel. 3.1 User Manual 88/980 3DB18809AAAA Issue 1 Product information and planning...
Page 91: Mpt-Mc
208; 213,5; 266; 294; 305; 311.32 Antenna Interface Waveguide Type WR137 WR137 WR112 WR113 WR75 WR62 Typical power consumption 38 W Guaranteed power consumption 40 W User Manual 9500 MPR Rel. 3.1 Product information and planning 3DB18809AAAA Issue 1 89/980...
Page 92: Radio Performances
ETS 300 019 2-1, Class 1.2 Transportation ETS 300 019 2-2, Class 2.3 Safety EN 60950 Environmental Operating Temperature -40° to +65° C (Guaranteed) Humidity 0 to 95%, non condensing (Guaranteed) 9500 MPR Rel. 3.1 User Manual 90/980 3DB18809AAAA Issue 1 Product information and planning...
Page 93: General Characteristics (Power Extractor)
ETS 300 019 2-2, Class 2.3 Safety EN 60950 Environmental Operating Temperature -40° to +65° C (Guaranteed) Start up temperature from low -40° C temperature Humidity 0 to 100% (Guaranteed) User Manual 9500 MPR Rel. 3.1 Product information and planning 3DB18809AAAA Issue 1 91/980...
Page 94: Parts Lists
SFP plug-in STM-1 S1.1 1AB194670007 To be installed in the STM-1 Access card (option) SFP plug-in STM-1 Copper 1AB210170001 To be installed in the STM-1 Access card (option) 9500 MPR Rel. 3.1 User Manual 92/980 3DB18809AAAA Issue 1 Product information and planning...
Page 95: Table 9. Power Injector Item Codes
3DB18661ABAA R/10Cap040/2Cap080 MPR Memory M6TD-210 3DB18662ABAA R/6Cap040/6Cap080 MPR Memory H1TD-210 3DB18663ABAA R/11Cap040/1Cap100 MPR Memory H2TD-210 3DB18664ABAA R/10Cap040/2Cap100 MPR Memory H6TD-210 3DB18666ABAA R/6Cap040/6Cap100 MPR Memory V1TD-210 3DB18667ABAA R/11Cap040/1Cap150 User Manual 9500 MPR Rel. 3.1 Product information and planning 3DB18809AAAA Issue 1 93/980...
Page 96 3DB18691ABAA R/6Cap040/6Cap060/TDM2Eth/ATM2Eth MPR Memory A1TD-210 3DB18692ABAA R/11Cap040/1Cap130 MPR Memory A2TD-210 3DB18693ABAA R/10Cap040/2Cap130 MPR Memory A6TD-210 3DB18694ABAA R/6Cap040/6Cap130 MPR Memory A1SA-210 3DB18695ABAA R/11Cap040/1Cap130/TDM2Eth/ATM2Eth MPR Memory A2SA-210 3DB18696ABAA R/10Cap040/2Cap130/TDM2Eth/ATM2Eth 9500 MPR Rel. 3.1 User Manual 94/980 3DB18809AAAA Issue 1 Product information and planning...
Page 97 MPR Memory M2SA-210A 3DB18709ABAA R/10Cap040/2Cap080/TDM2Eth/ATM2Eth/12modAdp MPR Memory M6SA-210A 3DB18710ABAA R/6Cap040/6Cap080/TDM2Eth/ATM2Eth/12modAdp MPR Memory V1SA-210A 3DB18711ABAA R/11Cap040/1Cap150/TDM2Eth/ATM2Eth/12modAdp MPR Memory D6SA-210A 3DB18719ABAA R/6Cap040/6Cap350/TDM2Eth/ATM2Eth/12modAdp MPR Memory D6TD-210A 3DB18720ABAA R/6Cap040/6Cap350/12modAdp SW 3.1.0 SWP 9500 MPR-E 3.1.0 3DB18867AAAA Hybrid Operating System SWP9500 MPR-E 3.1.0 3DB18868AAAA Packet Operating System MPR-E 3.1.0...
Page 98: Odu300 (With Internal Lightning Surge Suppressor)
ODU 300, 06GHz, T-R 252MHz, 6241-6332MHz, HP, TX HIGH 3DB23215HCXX 6078-6168 ODU 300, 06GHz, T-R 252MHz, 6078-6168MHz, HP, TX 3DB23215HFXX 6330-6421 ODU 300, 06GHz, T-R 252MHz, 6330-6421MHz, HP, TX HIGH 9500 MPR Rel. 3.1 User Manual 96/980 3DB18809AAAA Issue 1 Product information and planning...
Page 99 ODU 300, 07GHz, T-R 154/161/168MHz, 7637-7705MHz, HP, TX HIGH 3DB23026HCXX 7512-7568 ODU 300, 07GHz, T-R 154/161/168MHz, 7512-7568MHz, HP, TX LOW 3DB23026HFXX 7666-7729 ODU 300, 07GHz, T-R 154/161/168MHz, 7666-7729MHz, HP, TX HIGH User Manual 9500 MPR Rel. 3.1 Product information and planning 3DB18809AAAA Issue 1 97/980...
Page 100 ODU 300, 07GHz, T-R 161/168MHz, 7494,5-7554MHz, HP, TX HIGH 3DB23189HAXX 7 GHz 7428-7512 ODU 300, 07GHz, T-R 245MHz, 7428-7512MHz, HP, TX 3DB23189HBXX 7673-7757 ODU 300, 07GHz, T-R 245MHz, 7673-7757MHz, HP, TX HIGH 9500 MPR Rel. 3.1 User Manual 98/980 3DB18809AAAA Issue 1 Product information and planning...
Page 101 ODU 300, 07GHz, T-R 150MHz, 7620-7680MHz, HP, TX HIGH 3DB23221HAXX 7515-7575 ODU 300, 07GHz, T-R 150MHz, 7515-7575MHz, HP, TX 3DB23222HAXX 7665-7725 ODU 300, 07GHz, T-R 150MHz, 7665-7725MHz, HP, TX HIGH User Manual 9500 MPR Rel. 3.1 Product information and planning 3DB18809AAAA Issue 1 99/980...
Page 102 ODU 300, 08GHz, T-R 151MHz, 8355-8426MHz, HP, TX HIGH 3DB23030HBXX 8273-8345 ODU 300, 08GHz, T-R 151MHz, 8273-8345MHz, HP, TX 3DB23030HDXX 8425-8496 ODU 300, 08GHz, T-R 151MHz, 8425-8496MHz, HP, TX HIGH 9500 MPR Rel. 3.1 User Manual 100/980 3DB18809AAAA Issue 1 Product information and planning...
Page 103 ODU 300, 08GHz, T-R 208MHz, 8099-8197MHz, HP, TX 3DB23031HDXX 8307-8405 ODU 300, 08GHz, T-R 208MHz, 8307-8405MHz, HP, TX HIGH 3DB23031HEXX 8148-8246 ODU 300, 08GHz, T-R 208MHz, 8148-8246MHz, HP, TX User Manual 9500 MPR Rel. 3.1 Product information and planning 3DB18809AAAA Issue 1 101/980...
Page 104 TX HIGH 3DB23255HGXX 10542.5- ODU 300, 10GHz, T-R 91MHz, 10542.5-10558.3MHz, EP, 10558.3 TX LOW 3DB23255HHXX 10633.5- ODU 300, 10GHz, T-R 91MHz, 10633.5-10649.3MHz, EP, 10649.3 TX HIGH 9500 MPR Rel. 3.1 User Manual 102/980 3DB18809AAAA Issue 1 Product information and planning...
Page 105 10665-10675 ODU 300, 10GHz, T-R 65MHz, 10665-10675MHz, EP, TX HIGH 3DB23253HAXX 10605-10615 ODU 300, 10GHz, T-R 65MHz, 10605-10615MHz, EP, TX 3DB23254HAXX 10670-10680 ODU 300, 10GHz, T-R 65MHz, 10670-10680MHz, EP, TX HIGH User Manual 9500 MPR Rel. 3.1 Product information and planning 3DB18809AAAA Issue 1 103/980...
Page 106 14942-15103 ODU 300, 15GHz, T-R 315MHz, 14942-15103MHz, HP, TX HIGH 3DB23037HBXX 14760-14914 ODU 300, 15GHz, T-R 315MHz, 14760-14914MHz, HP, TX 3DB23037HDXX 15075-15229 ODU 300, 15GHz, T-R 315MHz, 15075-15229MHz, HP, TX HIGH 9500 MPR Rel. 3.1 User Manual 104/980 3DB18809AAAA Issue 1 Product information and planning...
Page 107 3DB23062HCXX 18 GHz 1560 17700 - 18140 ODU 300, 18GHz, T-R 1560MHz, 17700-18140MHz, HP, TX 3DB23062HDXX 19260 - 19700 ODU 300, 18GHz, T-R 1560MHz, 19260-19700MHz, HP, TX HIGH User Manual 9500 MPR Rel. 3.1 Product information and planning 3DB18809AAAA Issue 1 105/980...
Page 108 22675-23045 ODU 300, 23GHz, T-R 1200/1232MHz, 22675-23045MHz, HP, TX HIGH 3DB23045HCXX 21750-22120 ODU 300, 23GHz, T-R 1200/1232MHz, 21750-22120MHz, HP, TX LOW 3DB23045HGXX 22950-23320 ODU 300, 23GHz, T-R 1200/1232MHz, 22950-23320MHz, HP, TX HIGH 9500 MPR Rel. 3.1 User Manual 106/980 3DB18809AAAA Issue 1 Product information and planning...
Page 109 25825-26185 ODU 300, 26GHz, T-R 1008MHz, 25825-26185MHz, HP, TX HIGH 3DB23259HEXX 25085-25445 ODU 300, 26GHz, T-R 1008MHz, 25085-25445MHz, HP, TX 3DB23259HFXX 26093-26453 ODU 300, 26GHz, T-R 1008MHz, 26093-26453MHz, HP, TX HIGH User Manual 9500 MPR Rel. 3.1 Product information and planning 3DB18809AAAA Issue 1 107/980...
Page 110 32963-33213 ODU 300, 32GHz, T-R 812MHz, 32963-33213MHz, HP, TX HIGH 3DB48245HIXX 32319-32590 ODU 300, 32GHz, T-R 812MHz, 32319-32590MHz, HP, TX HIGH 3DB48245HLXX 33131-33402 ODU 300, 32GHz, T-R 812MHz, 33131-33402MHz, HP, TX HIGH 9500 MPR Rel. 3.1 User Manual 108/980 3DB18809AAAA Issue 1 Product information and planning...
Page 111 38511-38786 ODU 300, 38GHz, T-R 1260MHz, 38511-38786MHz, HP, TX HIGH 3DB23258HMXX 37058-37478 ODU 300, 38GHz, T-R 1260MHz, 37058-37478MHz, HP, TX 3DB23258HNXX 38318-38738 ODU 300, 38GHz, T-R 1260MHz, 38318-38738MHz, HP, TX HIGH User Manual 9500 MPR Rel. 3.1 Product information and planning 3DB18809AAAA Issue 1 109/980...
Page 112: Mpt-Hc With Internal Diplexer
3DB20467ABXX 14759-14899 3DB20469ABXX 15074-15215 420-475 3DB20373ABXX 14500-14724 3DB20423ABXX 14920-15144 3DB20422ABXX 14710-14941 3DB20424ABXX 15130-15361 3DB20425ABXX 14400-14635 3DB20427ABXX 14890-15125 3DB20426ABXX 14625-14860 3DB20428ABXX 15115-15350 640-644-728 3DB20448ABXX 14500-14700 3DB20449ABXX 15144-15348 9500 MPR Rel. 3.1 User Manual 110/980 3DB18809AAAA Issue 1 Product information and planning...
Page 113 3DB20375ABXX 22000-22315 3DB20471ABXX 23008-23323 3DB20470ABXX 22300-22600 3DB20472ABXX 23308-23608 1008 3DB20376ABXX 24540-24997 3DB20554ABXX 25548-26005 3DB20553ABXX 24994-25448 3DB20555ABXX 26002-26456 1260 3DB20458ABXX 37050-37620 3DB20460ABXX 38310-38880 3DB20459ABXX 37619-38180 3DB20461ABXX 38879-39440 User Manual 9500 MPR Rel. 3.1 Product information and planning 3DB18809AAAA Issue 1 111/980...
Page 114: Mpt-Hc V2 With Internal Diplexer
3DB20467BAXX 14759-14899 3DB20469BAXX 15074-15215 420-475 3DB20373BAXX 14500-14724 3DB20423BAXX 14920-15144 3DB20422BAXX 14710-14941 3DB20424BAXX 15130-15361 3DB20425BAXX 14400-14635 3DB20427BAXX 14890-15125 3DB20426BAXX 14625-14860 3DB20428BAXX 15115-15350 640-644-728 3DB20448BAXX 14500-14700 3DB20449BAXX 15144-15348 9500 MPR Rel. 3.1 User Manual 112/980 3DB18809AAAA Issue 1 Product information and planning...
Page 115 38879-39440 N.B.1: The MPT-HC V2 is a Tx High Power version vs. MPT-HC. Take in account it when MPT-HC V2 is used as spare of MPT-HC. User Manual 9500 MPR Rel. 3.1 Product information and planning 3DB18809AAAA Issue 1 113/980...
Page 116: Mpt-Mc With Internal Diplexer
3DB20823AAXX 14710-14941 3DB20825AAXX 15130-15361 3DB20826AAXX 14400-14635 3DB20828AAXX 14890-15125 3DB20827AAXX 14625-14860 3DB20829AAXX 15115-15350 1560 3DB20864AAXX 17700-18140 3DB20865AAXX 19260-19700 1008-1010 3DB20860AAXX 17700-18201 3DB20862AAXX 18710-19211 3DB20861AAXX 18180-18690 3DB20863AAXX 19190-19700 9500 MPR Rel. 3.1 User Manual 114/980 3DB18809AAAA Issue 1 Product information and planning...
Page 117 3DB20830AAXX 22000-22315 3DB20832AAXX 23008-23323 3DB20831AAXX 22300-22600 3DB20833AAXX 23308-23608 1008 3DB20854AAXX 24540-24997 3DB20856AAXX 25548-26005 3DB20855AAXX 24994-25448 3DB20857AAXX 26002-26456 1260 3DB20870AAXX 37050-37620 3DB20872AAXX 38310-38880 3DB20871AAXX 37619-38180 3DB20873AAXX 38879-39440 User Manual 9500 MPR Rel. 3.1 Product information and planning 3DB18809AAAA Issue 1 115/980...
Page 118: Part Lists Of Mpt-Hc/Mpt-Hc V2/Mpt-Mc With External Diplexer
Table 15. 7 GHz MPT-HC codes with external diplexer Band (GHz) Shifter (MHz) Tx sub-band APR codes Tx frequency (MHz) Lower 3DB20454ADXX 7107 - 8370 Upper 3DB20456ADXX 7261 - 8496 9500 MPR Rel. 3.1 User Manual 116/980 3DB18809AAAA Issue 1 Product information and planning...
Page 119: Table 16. 7 Ghz Mpt-Hc V2 Codes With External Diplexer
7665,0 7549,5 7619,5 7710,5 7780,5 3DB 06784 AAXX ... CH1–1P P.SH.161_E MHz 7735,0 7619,5 7689,5 7780,5 7850,5 3DB 06784 ABXX ... CH2–2P P.SH.161_E MHz 7690,0 7574,5 7644,5 7735,5 7805,5 3DB 06785 AAXX ... CH1–1P P.SH.161_F MHz User Manual 9500 MPR Rel. 3.1 Product information and planning 3DB18809AAAA Issue 1 117/980...
Page 120: Table 19. 8 Ghz Mpt-Mc Codes With External Diplexer
Table 21. 8 GHz MPT-HC V2 codes with external diplexer Band (GHz) Shifter (MHz) Tx sub-band APR codes Tx frequency (MHz) Lower 3DB20454BAXX 7107 - 8370 Upper 3DB20456BAXX 7261 - 8496 9500 MPR Rel. 3.1 User Manual 118/980 3DB18809AAAA Issue 1 Product information and planning...
Page 121: Mpt-Hc Optical Interface (Mandatory For 1+1 Configuration)
APR Codes Remarks SFP 1000Base-Sx Transceiver 1AB383760001 Optical SFP module to be installed optionally in the MPT-HC to provide the optical interface SFP 1000Base-Lx Transceiver 1AB187280040 User Manual 9500 MPR Rel. 3.1 Product information and planning 3DB18809AAAA Issue 1 119/980...
Page 122: Mpt-Hc V2 External Modules (Option)
7.1-8.5 GHz 3 dB coupler AWY MPT 3CC14536ABAA 13-15 GHz 3 dB coupler AWY MPT 3CC13472AAXX 18-23-25 GHz 3 dB coupler AWY-MPT 3CC13473AAXX 28-32-38 GHz 3 dB coupler AWY MPT 3CC13474AAXX 9500 MPR Rel. 3.1 User Manual 120/980 3DB18809AAAA Issue 1 Product information and planning...
Page 123: Functional Description
EAS Module: provides the access of up to 8 Ethernet traffic interfaces. In the right part of the MSS shelf there are two sub-D 2-pole power supply connectors. User Manual 9500 MPR Rel. 3.1 Product information and planning 3DB18809AAAA Issue 1...
Page 124: Figure 39. Power Distribution Architecture
Batt. B -48 Vdc +15%/-20% -48 Vdc +15%/-20% Core-E (Spare) FAN UNIT Core-E (MAIN) 32E1/ASAP/ STM-1 Access ODU300 MODEM BACK PLANE Figure 39. Power Distribution Architecture 9500 MPR Rel. 3.1 User Manual 122/980 3DB18809AAAA Issue 1 Product information and planning...
Page 125: Figure 40. +24 Vdc/-48 Vdc Converter Unit
The same PDU power cables are used to connect between the PDU and the power converter. Keyed power cables are used to connect between the power converter and the MSS-4/8 shelf. Figure 40. +24 Vdc/-48 Vdc Converter unit User Manual 9500 MPR Rel. 3.1 Product information and planning 3DB18809AAAA Issue 1 123/980...
Page 126: Figure 41. Core-E Unit
Selection of the synchronization Ck to be distributed to all plug-in. The Core-E unit has the option to equip two SFPs(in port #5, port #6. These ports can be also used to connect directly an MPT-HC. 9500 MPR Rel. 3.1 User Manual 124/980...
Page 127 For the correct operation of the EoSDH SFP it is necessary to disable the autonegotiation via WebEML or via the Configuration File (refer to paragraph 4.2 of the Configuration File User Manual). User Manual 9500 MPR Rel. 3.1 Product information and planning 3DB18809AAAA Issue 1 125/980...
Page 128: Figure 42. Core-E Unit
Ethernet packet that is sent to the Core-E card(s). In the RX direction, the E1 Access card extracts data from the Ethernet data packets and processes the data to provide up to 32 E1 output lines. 9500 MPR Rel. 3.1 User Manual 126/980...
Page 129: Figure 44. Pdh Access Unit
2.8.1.5 2xSTM-1 Local Access unit Figure 45. 2xSTM-1 Local Access unit This unit can manage up to 2xSTM-1 by installing two optional STM-1 SFP plug-ins (electrical or optical). User Manual 9500 MPR Rel. 3.1 Product information and planning 3DB18809AAAA Issue 1 127/980...
Page 130: Figure 46. Stm-1 Access Unit
The unit communicates with the Core-E modules through two GbEth Serial copper bi-directional interfaces on the backplane. Optional SFP (electrical or optical) Figure 46. STM-1 Access unit 9500 MPR Rel. 3.1 User Manual 128/980 3DB18809AAAA Issue 1 Product information and planning...
Page 131 The radio QoS (= radio tails) and QoS ATM (=policing and shaping) is managed only at VP level. N.B. The sum of VP + VC configured on a single ASAP card must be <128. User Manual 9500 MPR Rel. 3.1 Product information and planning 3DB18809AAAA Issue 1 129/980...
Page 132: Figure 47. Asap Simplified Block Diagram
The right-hand side is the backplane with the 1 Gb bus shared among the other slots and hence common with the other units (PDH units and Modem units). Figure 47. ASAP simplified block diagram 9500 MPR Rel. 3.1 User Manual 130/980...
Page 133: Figure 48. Asap Unit
Digital Framer – Classification of incoming packets from the Core-E (QoS) – Fragmentation – Air Frame Generation (synchronous with NE clock) Digital Modulator User Manual 9500 MPR Rel. 3.1 Product information and planning 3DB18809AAAA Issue 1 131/980...
Page 134: Figure 50. Modem Unit
– Carrier & CK recovery – Equalisation – Error Correction Digital Deframer – RPS (hitless) – Defragmentation Transmitter connected to the antenna Figure 50. Modem unit 9500 MPR Rel. 3.1 User Manual 132/980 3DB18809AAAA Issue 1 Product information and planning...
Page 135: Figure 51. Mpt Access Unit (With Pfoe) Block Diagram
Provide the Power Feed over Ethernet function – Lightning and surge protection – Ethernet and power interface supervision – EPS/HSB management function – Clock distribution function User Manual 9500 MPR Rel. 3.1 Product information and planning 3DB18809AAAA Issue 1 133/980...
Page 136: Figure 52. Mpt Access Unit (With Pfoe)
1 laser source. The laser source is placed in the left side of the SFP plug-in. According to the IEC 60825-1 the explanatory label is not sticked on the equipment due to the lack of space. 9500 MPR Rel. 3.1 User Manual 134/980...
Page 137: Figure 53. Eas Unit Block Diagram
An embedded 10 Gbit/sec L2 switch is present on the unit. There are 4 Electrical 10/100/1000 base-T electrical ports and 4 optical SFP (LX and SX). Figure 53. EAS unit block diagram Figure 54. EAS unit User Manual 9500 MPR Rel. 3.1 Product information and planning 3DB18809AAAA Issue 1 135/980...
Page 138: Power Extractor
– Insertion of the DC voltage on two Ethernet streams to power two MPT units – Surge protection on both Ethernet output ports (K44 & K45) 9500 MPR Rel. 3.1 User Manual 136/980 3DB18809AAAA Issue 1 Product information and planning...
Page 139: Figure 56. Power Injector Plug-In
Two RJ45 for the data + DC out (DC+DATA) LEDs – Two LEDs indicate the presence of DC voltage on each Ethernet output. Figure 58. Power Injector front panel User Manual 9500 MPR Rel. 3.1 Product information and planning 3DB18809AAAA Issue 1 137/980...
Page 140: Odu300
The ODUs include a waveguide antenna port, type-N female connector for the ODU cable, a BNC female connector (with captive protection cap) for RSSI access, and a grounding stud. The ODUs, are designed for direct antenna attachment via a 9500 MPR-E-specific mounting collar supplied with the antennas.
Page 141: Figure 60. Odu Block Diagram
The offset of the transmit frequencies at each end of the link is determined by the required Tx/Rx split. The split options provided are based on ETSI plans for each frequency band. The actual frequency range per band and the allowable Tx/Rx splits are range-limited within 9500 MPR-E to prevent incorrect user selection.
Page 142: Table 27. Rssi Table
PDR. 6-hole or 8-hole flange with gasket groove and clear holes. – PBR. 4-hole flange with a gasket groove and clear holes. All fastening hardware is metric. 9500 MPR Rel. 3.1 User Manual 140/980 3DB18809AAAA Issue 1 Product information and planning...
Page 143 The coupler can be equal type (3 dB/3 dB insertion loss) or unequal type (1.5 dB on the main path/6 dB on the secondary path). The couplers are connected between the cabinets and the antenna. User Manual 9500 MPR Rel. 3.1 Product information and planning 3DB18809AAAA Issue 1 141/980...
Page 144: Mpt-Hc
BRANCHING assembly and another for the RF TRANSCEIVER assembly. To read the BRANCHING assembly identification label it is necessary to separate the BRANCHING assembly from the RF TRANSCEIVER assembly. 9500 MPR Rel. 3.1 User Manual 142/980 3DB18809AAAA Issue 1...
Page 145: Figure 61. Mpt System
If the optical port has/have to be used (data and/or RPS port), the cor- responfing SFP plug-in must be installed by opening the Cobox. Figure 62. 11-38 GHz MPT-HC housing Figure 63. 6 GHz MPT-HC housing User Manual 9500 MPR Rel. 3.1 Product information and planning 3DB18809AAAA Issue 1 143/980...
Page 146: Figure 64. 7-8 Ghz Mpt-Hc Housing
Figure 64. 7-8 GHz MPT-HC housing 2.8.5.1 MPT-HC block diagram Figure 65. MPT-HC block diagram 9500 MPR Rel. 3.1 User Manual 144/980 3DB18809AAAA Issue 1 Product information and planning...
Page 147 One optical SFP device for 1+1 protection interface with the associated MPT-HC. In order to reach 500m the MPT-HC uses an SFP multimode 805 nm with a 50/125 fibre. User Manual 9500 MPR Rel. 3.1 Product information and planning 3DB18809AAAA Issue 1...
Page 148 In 1+1, switch of the Rx modem frame between the local and the one coming from second MPT-HC depending on the traditional RPS position and the modem frames quality – Enhanced RPS 9500 MPR Rel. 3.1 User Manual 146/980 3DB18809AAAA Issue 1...
Page 149: Figure 66. 7/8 Ghz Mpt-Hc Architecture
For the second one (used for all other MPT-HC bands) there are three frequency conversions The block diagrams of these two architectures are shown hereafter. Figure 66. 7/8 GHz MPT-HC architecture User Manual 9500 MPR Rel. 3.1 Product information and planning 3DB18809AAAA Issue 1 147/980...
Page 150: Figure 67. 11 To 38 Ghz Mpt-Hc Architecture
• First IF down conversion • Second IF amplification and filtering (not present in 7/8 GHz) • Quadrature demodulator • Base band filter and AGC loop 9500 MPR Rel. 3.1 User Manual 148/980 3DB18809AAAA Issue 1 Product information and planning...
Page 151: Table 28. Waveguide Flange Data
The coupler can be equal type (3 dB/3 dB insertion loss) or unequal type (1 dB on the main path/10 dB on the secondary path). The couplers are connected between the MPT and the antenna. User Manual 9500 MPR Rel. 3.1 Product information and planning 3DB18809AAAA Issue 1 149/980...
Page 152: Mpt-Hc V2
BRANCHING assembly identification label it is necessary to separate the BRANCHING assembly from the RF TRANSCEIVER assembly. Figure 68. MPT-HC V2 housing (6 GHz and 11 GHz to 38 GHz) 9500 MPR Rel. 3.1 User Manual 150/980 3DB18809AAAA Issue 1...
Page 153: Mpt-Mc
BRANCHING assembly identification label it is necessary to separate the BRANCHING assembly from the RF TRANSCEIVER assembly. Figure 69. 6 GHz and from 11 to 38 GHz MPT-MC housing Figure 70. 7-8 GHz MPT-MC housing User Manual 9500 MPR Rel. 3.1 Product information and planning 3DB18809AAAA Issue 1 151/980...
Page 154 The coupler can be equal type (3 dB/3 dB insertion loss) or unequal type (1 dB on the main path/10 dB on the secondary path). The couplers are connected between the MPT and the antenna. 9500 MPR Rel. 3.1 User Manual 152/980...
Page 155: Protection Schemes
– MSS-ODU cable loss – ODU TX chain alarm (this is an OR of the following alarms: LOS at ODU input, modFail, txFail, ODU card fail). User Manual 9500 MPR Rel. 3.1 Product information and planning 3DB18809AAAA Issue 1 153/980...
Page 156: Figure 71. Mpt-Hc/Mpt-Hc V2 Protection Schemes
EPS protects the MPT-HC/MPT-HC V2 and the cables connecting it to the MSS. HSB-TPS (Hot StandBy - Transmission Protection Switch) • Spare ODU module is squelched. Figure 71. MPT-HC/MPT-HC V2 protection schemes 9500 MPR Rel. 3.1 User Manual 154/980 3DB18809AAAA Issue 1 Product information and planning...
Page 157 Inter-MPT coupling link failure. Where there is a cross configuration (EPS on Spare & TPS on main), HSB (TPS) will switch and align with EPS position, if there is an inter-MPT coupling link failure. User Manual 9500 MPR Rel. 3.1 Product information and planning 3DB18809AAAA Issue 1...
Page 158: Figure 72. Mpt-Mc Protection Schemes
EPS protects the MPT-MC and the cables connecting it to the MSS. HSB-TPS (Hot StandBy - Transmission Protection Switch) • Spare ODU module is squelched. Figure 72. MPT-MC protection schemes 9500 MPR Rel. 3.1 User Manual 156/980 3DB18809AAAA Issue 1 Product information and planning...
Page 159 – ICP alarm – Incompatible Shifter alarm – Incompatible Frequency alarm – Incompatible Power alarm – Incompatible Modulation Parameters alarm – Mated MPT Access card Failure User Manual 9500 MPR Rel. 3.1 Product information and planning 3DB18809AAAA Issue 1 157/980...
Page 160 Core protection restoration mode The restoration mode is always non revertive: the Core main becomes active as soon as it has recovered from failure or when a switch command is released. 9500 MPR Rel. 3.1 User Manual 158/980 3DB18809AAAA Issue 1...
Page 161 If in the Port #5 and/or port #6 a 2xE1 SFP or EoSDH SFP has been installed, the protection is implemented by using special splitters (refer to paragraph 4.1.3.3 on page 584 and paragraph 4.1.3.4 on page 584). User Manual 9500 MPR Rel. 3.1 Product information and planning 3DB18809AAAA Issue 1 159/980...
Page 162: Stacking For Eas Unit/Mpt Access Unit
2.8.10.1.5 R-APS Protocol An APS protocol, called R-APS (Ring Automatic Protection Switching), is used to coordinate the protec- tion actions over the ring. 9500 MPR Rel. 3.1 User Manual 160/980 3DB18809AAAA Issue 1 Product information and planning...
Page 163: Figure 73. Normal Operation (No-Fault)
Under a ring failure condition, the RPL owner is responsible to unblock the RPL, allowing the RPL to be used for traffic. Figure 73. Normal Operation (No-fault) User Manual 9500 MPR Rel. 3.1 Product information and planning 3DB18809AAAA Issue 1 161/980...
Page 164: Figure 74. Single Link Failure
Ethernet PHY (ETY) layer in 1+0 configuration. Since the ERPS instances operate “per VLAN” on a logical ring protecting a set of VLANs, this set must consequently be configured. 9500 MPR Rel. 3.1 User Manual 162/980 3DB18809AAAA Issue 1...
Page 165: Figure 75. Multiple Erps Instances (Normal No-Fault Operation)
Figure 75. Multiple ERPS instances (Normal No-fault Operation) Figure 76. Multiple ERPS instances (Single Link Failure) User Manual 9500 MPR Rel. 3.1 Product information and planning 3DB18809AAAA Issue 1 163/980...
Page 166: Radio Transmission Features With Odu300
This is achieved through a multi-tap equalizer consisting of two registers, one with feed-forward taps, the other with feed-back taps. Each of these registers multiply successive delayed samples of the received signal by weighting-coefficients to remove propagation induced inter-symbol interference. 9500 MPR Rel. 3.1 User Manual 164/980...
Page 167: Figure 77. Single 2+0 Xpic
Adaptive Modulation and ATPC are not supported with the XPIC function. Radio configuration supported: – Single 2+0 XPIC – Double 1+1 HSB co-channel XPIC Figure 77. Single 2+0 XPIC User Manual 9500 MPR Rel. 3.1 Product information and planning 3DB18809AAAA Issue 1 165/980...
Page 168: Figure 78. Double 1+1 Hsb Co-Channel Xpic
The digital frame incorporates link identity coding capabilities to prevent the capture of an unwanted signal. Link identifier management can be enabled or disabled by the management systems. 9500 MPR Rel. 3.1 User Manual 166/980 3DB18809AAAA Issue 1...
Page 169: Figure 79. Available Loopbacks
TDM2ETH flows: before transmitting the packets towards the switch, the FPGA looking the VLAN will rebuild the right Ethernet header. – The Ethernet flows are dropped. User Manual 9500 MPR Rel. 3.1 Product information and planning 3DB18809AAAA Issue 1 167/980...
Page 170: Radio Transmission Features With Mpt-Hc/Mpt-Hc V2/Mpt-Mc
2.8.12.5 Adaptive Equalization Adaptive equalization (AE) is employed to improve reliability of operation under dispersive fade conditions, typically encountered over long and difficult paths. 9500 MPR Rel. 3.1 User Manual 168/980 3DB18809AAAA Issue 1 Product information and planning...
Page 171: Figure 80. Available Loopbacks
For ATM PW flows the loopback works only if the Inbound and Outbound PW Labels are the same, in case they are different the loopback doesn't work. User Manual 9500 MPR Rel. 3.1 Product information and planning 3DB18809AAAA Issue 1...
Page 172 A default time-out period may be suggested at the operator interface, even if it could be modified on user- needs basis. After the NE reset, the activation of each loopback point is lost and must be recreated again if needed, starting with a new time-out period. 9500 MPR Rel. 3.1 User Manual 170/980 3DB18809AAAA Issue 1...
Page 173: Tmn Interfaces
2.8.13 TMN interfaces On 9500 MPR-E Network Element the following types of TMN communication interfaces are present: – TMN channel carried by Ethernet frames in the dedicated TMN port (on the front panel of the Core- E module) (this port is normally used to connect the WebEML);...
Page 174: Figure 81. Example Of Traffic In Case Of 28Mhz Bandwidth And Admission Control Enabled
When the modulation is degraded from 64QAM to 16QAM (Figure 82.), the E1 flows are kept whilst the Ethernet traffic with lowest priority (Fast Ethernet traffic #2) is reduced. 9500 MPR Rel. 3.1 User Manual 172/980...
Page 175: Figure 82. Example Of Traffic In Case Of 28Mhz Bandwidth And Modulation Downgraded To 16Qam
4QAM. To secure provisioning and commissioning operations, the admission control check at WebEML level has been inserted, avoiding a possible mistake from the user to provision a number of E1’s that are not fitting inside16QAM bandwidth. User Manual 9500 MPR Rel. 3.1 Product information and planning 3DB18809AAAA Issue 1 173/980...
Page 176: Figure 84. Example Of Traffic In Case Of 28Mhz Bandwidth And Admission Control Disabled
Other kinds of traffic are transmitted according to the available capacity and the priority defined beyond them. When the modulation is downgraded to 16QAM, all E1 flows are kept whilst the other traffic is reduced. 9500 MPR Rel. 3.1 User Manual 174/980...
Page 177: Figure 85. Example Of Traffic In Case Of 28Mhz Bandwidth And Modulation Downgraded To 16Qam
When the modulation is further degraded to 4QAM, all E1 flows are dropped whilst the other traffic is reduced to fit the remaining available bandwidth. Figure 86. Example of traffic in case of 28MHz bandwidth and modulation downgraded to 4QAM User Manual 9500 MPR Rel. 3.1 Product information and planning 3DB18809AAAA Issue 1 175/980...
Page 178: Managed Services And Profiles
– ATM to ATM – This profile allows the management of the ATM services inside a 9500 MPR network. E1s IMA/ATM are terminated/reconstructed at the borders of the 9500 MPR cloud; encapsulation/ extraction of ATM streams into/from ATM PW packets is performed according to RFC 4717.
Page 179 3G base station is requested. “ATM2ETH” flow – Definition: 9500 MPR terminates the native IMA/ATM and ATM traffic, encapsulated in Ethernet frames, is transported into IP/MPLS Core Network. – Application: Typical microwave 3G backhauling application, in which transport of Ethernet packets coming from 3G basestation is requested.
Page 180: Tdm And Ethernet Traffic Management
Case 2 The E1 stream is inserted in Node 1 and extracted in Node 2. One IWF is inside the 9500 MPR-E, but the second IWF is external to the 9500 MPR-E network. The Circuit Emulation Service is TDM2ETH in Node 1 and Node 2.
Page 181: Figure 88. Traffic Profiles
E1 stream; in case 5 the packets are native Ethernet packets. None of the IWFs belongs to the 9500 MPR-E network. The Circuit Emulation Service is ETH2ETH in Node 1 and Node 2. No Cross connections must be implemented. The path is automatically implemented with the standard auto- learning algorithm of the 9500 MPR-E Ethernet switch.
Page 182: Figure 89. E1 Traffic
Bandwidth guaranteed (according to QoS o Highest Queue Priority association) No flooding-autolearning necessary Both the IWFs belong to 9500 MPR-E and the packets are not supposed to exit the 9500 MPR-E network. The IWF parameters listed above, have predetermined values and don’t need to be provisioned.
Page 183: Figure 90. E1 Traffic
Bandwidth guaranteed (according to QoS o Highest Queue Priority association) Destination MAC added before going into whole network (MEF8 compliant) Only one of the IWFs belongs to 9500 MPR-E and the packets are supposed to exit the 9500 MPR-E network.
Page 184: Figure 91. Stm-1 Traffic
Bandwidth guaranteed (according to QoS o Highest Queue Priority association) No flooding-autolearning necessary Both the IWFs belong to 9500 MPR-E and the packets are not supposed to exit the 9500 MPR-E network. The IWF parameters listed above, have predetermined values and don’t need to be provisioned.
Page 185: Atm Traffic Management
ATM PW encapsulation and air frame structure. Figure 93. ATM Traffic Management - General block diagram In Figure 94 is shown a more detailed block diagram of the ASAP unit in Ingress. User Manual 9500 MPR Rel. 3.1 Product information and planning 3DB18809AAAA Issue 1 183/980...
Page 186: Figure 94. Block Diagram For Atm Ingress (Atm -> Packet) Direction
In/out profile is a dynamic assignment, based on CIR/PIR conformance for packet queue, and FC type (expedited vs best effort). The mapping of the 802.1p bits is shown in Table 31. It is mapped to 802.1p bits in the following manner: 9500 MPR Rel. 3.1 User Manual 184/980...
Page 187: Table 31. 802.1P Mapping
A Weighted Round Robin is instead applied for all VPs/VCs that are not shaped. The weights are based on the value of configured MDCR in the egress ATM Traffic Descriptor value accord- ing to below table: User Manual 9500 MPR Rel. 3.1 Product information and planning 3DB18809AAAA Issue 1 185/980...
Page 188: Table 32. Rr Weights
(including declaration of traffic descriptors). However, configurations where ATM PW flows are cross-connected between a Radio-Ethernet terminal and an ATM-Ethernet terminal will require NE reconfiguration, as different MAC Address need to be provisioned. 9500 MPR Rel. 3.1 User Manual 186/980 3DB18809AAAA Issue 1...
Page 189: Figure 95. Atm Traffic Management On Modem Card - Block Diagram
For network deployment where both terminations of ATM traffic is carried out by MPR NEs, in order to save radio bandwidth it will be possible to have the ATM PW Service using the ATMoMPLS protocol stack with- out the MPLS Tunnel Label. User Manual 9500 MPR Rel. 3.1 Product information and planning 3DB18809AAAA Issue 1 187/980...
Page 190 IP/MPLS network -> MPR network direction: the Inbound PW Label value – for egress, MPR network -> IP/MPLS network direction: ATM PW CoS (to reduce numbers of "rules" used for such mapping). 9500 MPR Rel. 3.1 User Manual 188/980 3DB18809AAAA Issue 1...
Page 191 20-bit Tunnel Label will be provisioned by ECT/NMS – EXP bits are copied from PW Label Exp bits – BoS bit is set to 0 – TTL field is set to 255 User Manual 9500 MPR Rel. 3.1 Product information and planning 3DB18809AAAA Issue 1 189/980...
Page 192: Ethernet Traffic Management
IEEE 802.1X PAE address Discard 01-80-C2-00-00-04 - Reserved for future standardization Discard 01-80-C2-00-00-0D 01-80-C2-00-00-0E IEEE 802.1AB LLDP multicast address Discard 01-80-C2-00-00-0F Reserved for future standardization Discard 9500 MPR Rel. 3.1 User Manual 190/980 3DB18809AAAA Issue 1 Product information and planning...
Page 193 GVRP Address (IEEE 802.1Q) Forward 01-80-C2-00-00-22 - Reserved for GARP Application Forward 01-80-C2-00-00-2F 01-80-C2-00-00-30 - CCM and LTM Group Destination MAC Peer/Forward 01-80-C2-00-00-3F Addresses (IEEE 802.1ag) User Manual 9500 MPR Rel. 3.1 Product information and planning 3DB18809AAAA Issue 1 191/980...
Page 194: Lag (Link Aggregation Group)
Protection. In case of a failure of one of the three channels, all the traffic is redirected on the remain- ing link (with a throughput of around 0.35 Gbit/sec). The discarded or dropped traffic is the one with lower priority: high priority traffic is still running on the remaining active channels. 9500 MPR Rel. 3.1 User Manual 192/980...
Page 195: Figure 97. Radio Lag
Warning: the other port of the MPT Access unit must be DISABLED. – The identifying number a LAG must be in the range 1-14. User Manual 9500 MPR Rel. 3.1 Product information and planning 3DB18809AAAA Issue 1 193/980...
Page 196: Quality Of Services (Qos)
2.8.20 Quality Of Services (QoS) The QoS function inside 9500 MPR-E is the result of a distributed implementation in the switch and Radio Interface module. Both those QoS functions are properly configured in order to get the wished behavior on Ethernet flows that will be transmitted towards the Radio.
Page 197 ATM PW flows will be assigned to Ethernet switch egress priority queues according to their CoS , as below reported: ATM PW CoS Switch Egress Queue Guaranteed (CBR) Q7 (higher priority) Best Effort (UBR+) BackGround (UBR) User Manual 9500 MPR Rel. 3.1 Product information and planning 3DB18809AAAA Issue 1 195/980...
Page 198: User Manual
– Queue 8 is assigned to TDM2TDM traffic – Queue 7 is assigned to TDM2Eth traffic – Queue 6 is assigned to TMN 9500 MPR Rel. 3.1 User Manual 196/980 3DB18809AAAA Issue 1 Product information and planning...
Page 199: 9500 Mpr Rel. 3.1
111000, 110000, 101110, 101000 Q5 (higher priority) 100110, 100100, 100010, 100000 011110, 011100, 011010, 011000 010110, 010100, 010010, 010000 001010, 001100, 001010, 001000, 000000 All remaining values User Manual 9500 MPR Rel. 3.1 Product information and planning 3DB18809AAAA Issue 1 197/980...
Page 200 The set of MPT Radio QoS features is the same of the one specified for the Modem unit (refer to par. 2.8.20.2) with the exception of the ATM CBR and UBR+ CoS: in MPT-HC/PT-MC they are sent to queue #5 and queue #4 respectively (and not to queue #7 and queue #6). 9500 MPR Rel. 3.1 User Manual 198/980...

Alcatel-Lucent 9500 MPR User Manual

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