Summary of Contents for Alcatel-Lucent 1850 TSS-320
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Alcatel-Lucent 1850 TRANSPORT SERVICE SWITCH 320 (TSS-320) | RELEASE 2.0 TURN-UP AND COMMISSIONING GUIDE PN 8DG08136CAAA MARCH 2008 ISSUE 1...
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In rare instances, unauthorized individuals make connections to the telecommunications network through the use of remote access features. In such an event, applicable tariffs require that the customer pay all network charges for traffic. Alcatel-Lucent cannot be responsible for such charges and will not make any allowance or give any credit for charges that result from unauthorized access.
Contents About this document Purpose ................................ ix Reason for reissue ............................ix Intended audience ............................ix How to use this document ........................... ix Safety information ............................ix Related information ............................x Document support ............................x Technical support ............................x How to order ..............................xi How to comment ............................
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Cross-connection between a local and a remote data port ..............4-12 Standard procedures to turn the laser OFF then ON ................4-14 SFP and XFP modules optical characteristics ..................4-16 1850 TSS-320 Test Report Sheet Modules Equipment acceptance sheet ........................5-2 Technical Support Glossary ....................................................
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List of figures Initial Turn-up and Provisioning Hyperterm setup .......................... 2-7 OMD/OTS assignment ......................... 2-9 Tests and Measurements Common cards connection points position .................. 3-5 Free-running frequency check ....................3-10 Test on multi-demultiplexing and AIS for optical tributaries ............ 3-13 OC-36/OC-192 ports test ......................
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List of figures ......................................................................................................PN 8DG08136CAAA Issue 1 March 2008...
Equipment acceptance sheet ......................5-2 On-Site 1850 TSS-320 Final Test ....................5-3 On-Site 1850 TSS-320 Final Test: SONET/SONET Local Measurements ......... 5-4 On-Site 1850 TSS-320 Final Test: Data Local Measurements ............ 5-5 On-Site 1850 TSS-320 Final Test: DWDM Local Measurements ..........5-6 On-Site 1850 TSS-320 Final TEst: DWDM Link Measurements ..........
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List of tables ......................................................................................................v i i i PN 8DG08136CAAA Issue 1 March 2008...
The other chapters provide instructional steps for personnel needing additional detail or background information. This document describes the 1850 TSS-320 operations. Refer to the Table of Contents to locate specific information by chapter. Safety information This information contains hazard statements for your safety.
.................................................... Electrostatic discharge (ESD) • You must be properly grounded when making contact with the 1850 TSS-320 frame and handling circuit packs, disk drives, and tapes. Wrist strap ground cords should be routinely tested for the minimum 1-megohm resistance. Plug-in storage •...
For more information regarding collection and recovery of packaging and packaging waste within specific jurisdictions, please contact the Alcatel-Lucent Field Services/Installation - Environmental Health and Safety organization. For installations not performed by Alcatel-Lucent, please contact the Alcatel-Lucent Customer Support Center at: Technical Support Services, Alcatel-Lucent Within the United States: 1 (866) 582-3688, prompt 1 •...
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Alcatel-Lucent will offer to provide for the collection and treatment of Alcatel- Lucent products at the end of their useful life. Alcatel-Lucent will also offer to provide for the collection and treatment of existing products displaced by Alcatel-Lucent equipment.
Safety Overview Purpose This chapter provides important information and safety instructions the for 1850 TSS-320 Release 2.0 equipment. Contents This chapter covers these topics. Introduction Safety rules .................................................... 1 - 1 PN 8DG08136CAAA Issue 1 March 2008...
Introduction Description The current procedure defines the commissioning modality for the 1850 TSS-320 equipment. Particular attention is given to the fact that each component utilized on the link is tested at the factory’s final acceptance dept. during the system test phase.
The safety rules describe the operations and/or precautions to observe to safeguard operating personnel during the working phases and to guarantee equipment safety. Please read the 1850 TSS-320 Safety Guide before starting each task. CAUTION Carefully read the front-panel warning labels prior to working on any connections.
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Initial Turn-up and Provisioning Overview Purpose This chapter lists the instructions that must be sequentially carried out as well as additional information. Contents This chapter covers these topics. Introduction Safety rules .................................................... 2 - 1 PN 8DG08136CAAA Issue 1 March 2008...
Verify all electrical and power cable and ground connections as specified in the • Installation Guide. Note: For additional information see the Alcatel-Lucent 1850 TSS-320 Installation Guide..................................................... 2 - 2 PN 8DG08136CAAA Issue 1 March 2008...
It is also required that any firewalls running on the PC be disabled. Software download at the first installation For the 1850 TSS-320 connection points, refer to Figure 1 on page 27. To perform the SW download procedure, it is required that an FTP server application be installed and running.
Initial Turn-up and Provisioning Startup procedure .................................................... Mini USB male Signal SUB-D 9 pin female Pin 1 Pin 4 b. On PC, select Start -> Programs -> Accessories -> Communication -> Hyperterminal -> and use the following settings (it is suggested to save these settings to have a faster access in the following connections).
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Click ‘OK” to accept and “OK” to exit the LAN Properties e. # ifconfig eth1 151.98.152.196 (to configure the IP address of the ETH1 port on the 1850 TSS-320). f. Start the FTP server application. g. # StartApp DWL 1850TSS320M 1850TSS320M V1.1.17 151.98.15.35 0 /d1-17...
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# reboot wait 5- 10 minutes for reboot to finish f. # ifconfig eth1 151.98.152.196 (to configure the IP address of the ETH1 port of 1850 TSS-320). Proceed to Initial Provisioning. It is now possible to start the CT application. (see the Craft Terminal Operations Guide for additional information).
The scope of this procedure is to provide the steps required for initial shelf and equipment provisioning of the 1850 TSS-320 shelf using TL1 commands. See the 1850 TSS-320 R2.0 TL1 Operations Guide for additional information. Note: It is also possible to use the Craft Terminal to provision the system. See the Craft Terminal Operation Guide for details on provisioning the NE using the Craft Terminal.
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Initial Turn-up and Provisioning Initial Provisioning .................................................... d. Issue the following command to set the new Site Identifier (SID) (In this example, SET-SID is used to set the SID to 1850-1.) SET-SID:::::1850-1; DWDM shelf provisioning The default shelf type is a TDM shelf. Perform the following additional steps if the shelf being provisioned is intended to be equipped as a DWDM shelf (ILA, UILA, or ROADM).
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This example provisions bidirectional channel 9600 to/from the OMD designated as SHELF-1-2-1 to the WR pack in slot-1-1-2. See the 1850 TSS-320 R2.0 TL1 Operations Guide for additional information on other circuit types. c. Use one of the following commands to provision the client side optics.
Tests and Measurements Overview Purpose This chapter lists the instructions that must be sequentially carried out as well as additional information. Contents This chapter covers these topics. Instruments, accessories and related documents Connection points position Local measures list and operating sequence Point-to-point measures list and operating sequence 3-56 ....................................................
Tests and Measurements Instruments, accessories and related documents .................................................... Ref. Accessories Qty. Characteristics Shielded pair Termination: Instrument (F)/(A) SUB.D 37-pin male connector for 2 Mbit/s SUB.D 50-pin male connector for service channels RJ45 for Ethernet ports Optical loop Terminations dependent on unit/pack/ODF connectors PC cable Refer to the Product Information Guide.
Tests and Measurements Instruments, accessories and related documents .................................................... Table 3-4 Craft Terminal cable pinout Signal RJ45 SubD 9PIN Pair Color DATA CARRIER DETECT(DCD) White/blue ring OUTPUT SERIAL DATA LINE Blue (RXD) INPUT SERIAL DATA LINE (TXD) White/orange ring DATA TERMINAL READY (DTR) Orange GROUND (GND) White/green ring...
Tests and Measurements Connection points position .................................................... Connection points position Description See the Alcatel-Lucent 1850 TSS-15 Product Information Guide for the correct views. Figure 3-1 Common cards connection points position H O U SEK EEPI N G PSFA PSFB SH ELF I D...
Tests and Measurements Connection points position .................................................... Access Point Slot Function Power Supply (Battery A) Connections Power Supply (Battery B) Connections Alarms and Remote Inventory “Step-up” A Connector Alarms and Remote Inventory “Step-up” A Connector Auxiliary Alarms Connections 37, 39 Power Supply (Input Battery) Connections 37, 39 T3 (2MHz) / T6 (2Mbps) Input Synchronization Signal...
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Tests and Measurements Connection points position .................................................... Card Slot Function 4P2G5SO 02 to 09 2.5-Gbps (OC-36/OC-48) optical card with optical connections on SFP modules. 12 to 19 21 to 28 29 to 36 8PSO 02 to 09 155- / 622-Mbps (OC-3/OC-3 - STM4/OC-12) optical card with optical connections on SFP modules.
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Tests and Measurements Connection points position .................................................... Card Slot Function SS-11, SI-11, On the relevant OC-3, OC-12, OC-36, multi-rate, GbE, B&W SFP SL-12, SS-41, board, PIM modules providing optical connections to the cards and SL-41, SL-42, PIMs on which they are plugged. SS161, SL-161, SL-162, 1000B XI-641, XS-642,...
Tests and Measurements Local testing and operating sequence .................................................... Local testing and operating sequence Purpose The purpose this section is to check the correct operating mode of the equipped units. They are detailed in the following paragraphs. Free-running frequency check Purpose: Verify the correct value of the frequency of the oscillator on the MATRIX.
Tests and Measurements Local testing and operating sequence .................................................... Test Bench Figure 3-2 Free-running frequency check BLOCK DIAGRAM 1850 TSS-320 PSF320 FREQUENCY COUNTER PSFA PSFB HOUSE KEEPING SHELF ID STUPA STUPB AUX CHANNELS Note FREQUENCY D BG COUNTER LN K...
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Tests and Measurements Local testing and operating sequence .................................................... Traceability Unknown,” “Stratum 2,” “Transit Node Clock,” “Stratum 3E,” “Stratum 3,” “SONET minimum clock,” “Stratum 4,” “Do Not Use,” “Failed state” and “Not Assigned,” Sync Messaging = “Yes” (Y) “No” (N) and Revertive = “Yes” (Y) “No” (N)............................................
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Tests and Measurements Local testing and operating sequence .................................................... Check that the “free-running” indication is present in the timing reference block • dedicated to the internal oscillator G.783. If the “Hold-Over” indication is displayed, first switch the equipment off and then back on again. Afterwards repeat all the procedures.
Tests and Measurements Local testing and operating sequence .................................................... OC-3/OC-12 ports test Figure 3-3 Test on multi-demultiplexing and AIS for optical tributaries BLOCK DIAGRAM 1850 TSS-320 Matrix Pattern Generator Loop Optical port "n" Error Detector PSFA PS FB HO USE KEE PI N G...
Tests and Measurements Local testing and operating sequence .................................................... CT Procedure By means of CT applications program the ALS-Enabling on the looped optical port (see Chapter “Standard procedures to turn the laser OFF then ON” (p. 4-14). PTx power test ............................................
Tests and Measurements Local testing and operating sequence .................................................... TL1 Procedure By means of CT applications program the ALS-Enabling on the looped optical port (see Chapter “Standard procedures to turn the laser OFF then ON” (p. 4-14). PTx power test ............................................
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Tests and Measurements Local testing and operating sequence .................................................... CLI Procedure By means of CT applications program the ALS-Enabling on the looped optical port (see Chapter “Standard procedures to turn the laser OFF then ON” (p. 4-14). PTx power test ............................................
OC-3/OC-12 port and STM-n ports” (p. 4-6). Figure 3-4 OC-36/OC-192 ports test Note: Insert x-dB fixed attenuator, according to the optical characteristics of instruments and boards. BLOCK DIAGRAM 1850 TSS-320 Loop LINE port "A" Matrix Pattern Generator STS-3c STM-1...
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Tests and Measurements Local testing and operating sequence .................................................... By means of CT applications program the Laser-forced-ON on the optical port under test (see Chapter “Standard procedures to turn the laser OFF then ON” (p. 4-14). PTx power test ............................................Connect power meter to the optical port output being tested.
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Tests and Measurements Local testing and operating sequence .................................................... PTx power test ............................................Connect power meter to the optical port output being tested. Check LOS alarm on error detector. • Check that the optical power is within the range stated on the table reported in Chapter •...
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Tests and Measurements Local testing and operating sequence .................................................... PTx power test ............................................Connect power meter to the optical port output being tested. – Check LOS alarm on Error Detector. – Check that the optical power is within the range stated on the table reported in Chapter “SFP and XFP modules optical characteristics”...
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Tests and Measurements Local testing and operating sequence .................................................... Purpose: Check if the Virtual concatenated ETS cross-connection works properly at maximum • capacity of the Virtual concatenation group VC4-xV. Let through data to check if the ports are properly connected to ODF •...
Tests and Measurements Local testing and operating sequence .................................................... Figure 3-5 Test of GbE transport on VC3-xV BLOCK DIAGRAM 1850 TSS-320 Loop Matrix Multi- SONET Pattern Generator service / SDH port port Error Detector P SFA P SFB H O U SE KE EP I N G...
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Tests and Measurements Local testing and operating sequence ..............................................................................................Cross-connect the VC4-7V to one port of the 10 x 1 GbE PIM (PIM1GE), as shown in Chapter “Cross-connection between a local and a remote data port” (p. 4-12)............................................Start transmitting at 100% of the available bandwidth Pattern generator / Error Detector setup Port type...
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Tests and Measurements Local testing and operating sequence .................................................... Connect the Pattern Generator/Error Detector and check that the LOS alarm • disappears (green square) and that the on-board led related to the GbE port under test is green. Open the SONET loop to check the presence of the TSF alarm on the remote port, as •...
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Tests and Measurements Local testing and operating sequence ..............................................................................................Start transmitting at 100% of the available bandwidth Pattern generator / Error Detector setup Port type Auto-negotiation Frame length 1518 bytes Bandwidth 100% Optical interfaces (SFP) types (refer to Chapter “SFP and XFP modules optical characteristics”...
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Tests and Measurements Local testing and operating sequence .................................................... Open the SONET loop to check the presence of the TSF alarm on the remote port, as • described in the following. – Select a remote port. From the pop-up menu, select “Configure Ethernet port.” –...
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Tests and Measurements Local testing and operating sequence .................................................... Frame length 1518 bytes Bandwidth 100% Optical interfaces (SFP) types (refer to Chapter “SFP and XFP modules optical characteristics” (p. 4-16) for details) GbE SFP interface types (on PIM1GE) B&W = 1000 Base SX / 1000 Base LX / 1000 Base CWDM = APD (C8L1-1D2) for long haul, PIN (C8S1-1D2) for short haul ............................................
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Tests and Measurements Local testing and operating sequence .................................................... – Select the remote port again, open the pop-up menu and select “Ethernet Port Properties.” Open the “Alarms” tag and check the presence of the TSF alarm (red square). Connect the instrument and check that the alarms (LOS and TSF) disappear. •...
Tests and Measurements Local testing and operating sequence .................................................... Figure 3-6 Test of 10 GbE transport on VC4-xV BLOCK DIAGRAM 1850 TSS-320 Loop Matrix Multi- SONET Pattern Generator service / SDH port port Error Detector PSFA P SFB H O U SE K EEP I N G...
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Tests and Measurements Local testing and operating sequence ..............................................................................................Cross-connect the VC4-7V to the 10 GbE PIM (PIM10GE), as shown in Chapter “Cross-connection between a local and a remote data port” (p. 4-12)............................................Start transmitting at 10% of the available bandwidth Pattern generator / Error Detector setup Port type Auto-negotiation...
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Tests and Measurements Local testing and operating sequence .................................................... Connect the Pattern Generator/Error Detector and check that the LOS alarm • disappears (green square) and that the on-board led related to the 10 GbE port under test is green. Open the SONET loop to check the presence of the TSF alarm on the remote port, as •...
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Tests and Measurements Local testing and operating sequence ..............................................................................................Start transmitting at 10% of the available bandwidth Pattern generator / Error Detector setup Port type Auto-negotiation Frame length 1574 bytes Bandwidth Optical interfaces (XFP) types (refer to Chapter “SFP and XFP modules optical characteristics”...
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Tests and Measurements Local testing and operating sequence .................................................... Open the SONET loop to check the presence of the TSF alarm on the remote port, as • described in the following. – Select a remote port. From the pop-up menu (click on the right button of the mouse), select “Configure Ethernet port.”...
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Tests and Measurements Local testing and operating sequence .................................................... Auto-negotiation Frame length 1574 bytes Bandwidth Optical interfaces (XFP) types (refer to Chapter “SFP and XFP modules optical characteristics” (p. 4-16) for details) 10 GbE XFP interface types (on PIM10GE) B&W = 10Gbase-E / 10Gbase-S / 10Gbase-L DWDM = APD for long haul ............................................
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Tests and Measurements Local testing and operating sequence .................................................... – Select the remote port again, open the pop-up menu and select “Ethernet Port Properties. Open the “Alarms” tag and check the presence of the TSF alarm (red square). Connect the instrument and check that the alarms (LOS and TSF) disappear. •...
Tests and Measurements Local testing and operating sequence .................................................... Figure 3-7 Q-Bridge VLAN switching test, untagged frames BLOCK DIAGRAM 1850 TSS-320 Matrix Pattern Generator port Error Detector port PSFA PSFB HO U SEK EEPI N G SH ELF I D...
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Tests and Measurements Local testing and operating sequence ..............................................................................................Select one of the two ETB Ethernet local ports. From the pop-up menu, select “Configure Ethernet port.” In “Ethernet port Configuration” window, select “Configuration” tag and set “Up” in • “Admin.
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Tests and Measurements Local testing and operating sequence ..............................................................................................Connect the pattern generator/error detector and check that no errors are read Pattern generator / Error Detector setup Port type Auto-negotiation Frame length 1518 bytes Bandwidth 100% VLAN TAG Value set via CT, i.e. 10 Optical interfaces (SFP) types (refer to Chapter “SFP and XFP modules optical...
Tests and Measurements Local testing and operating sequence .................................................... Figure 3-8 Commissioning example Terminal ROADM/ILA Terminal For the local test optimization the two operators have to move along the link nodes route, as in the following example: They must be able to perform the local tests on all nodes; •...
Line traffic LDTXA/B Mesh I/O In an ILA (in-line amplifier) configuration, the 1850 TSS-320 connects to an optical fibre DWDM line in each direction: Line Drivers (LDRXA and LDRXB), with the OSC • The ILA consists of two optical double-stage ILAs providing bi-directional wide band amplification in order to boost the optical power of the aggregate DWDM signal avoiding any optical to electrical conversion.
Tests and Measurements Local testing and operating sequence .................................................... Figure 3-10 ILA configuration in DWDM systems LDRXB Line Line LDRXA The ROADM is a NE configuration that brings the capabilities to add and drop one or more wavelengths to/from the aggregate signal in more than one direction. The schematic representation of the ROADM configuration is shown in Figure 3-11 on 3-42.
OMD44 OMD44 Client end traffic DWDM local tests Local test in line terminal configuration in DWDM systems Figure 3-12 Local test in line terminal configuration in DWDM systems BLOCK DIAGRAM 1850 TSS-320 11GBAR Pattern Generator LDTXA 11GUAR Error Detector OMD44...
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Tests and Measurements Local testing and operating sequence .................................................... Note: B&W ports are provided by PIM10GE (on PP20G), 4P2G5SO, 8PSO, 1P10GSO, units. Note: DWDM ports are provided by 11GUAR and 11GBAR units [also refer to “DWDM Commissioning Overview” (p. 3-39)]. Note: Insert an X-dB optical attenuator, according to the client/B&W interface used.
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Tests and Measurements Local testing and operating sequence ..............................................................................................Verify the insertion loss of each DEMUX channel, connecting the Power Meter to each DEMUX output one-by-one, and checking the optical power each time............................................Connect each fiber to the related DEMUX output, then disconnect the other end from each DWDM XFP, Rx side.
Tests and Measurements Local testing and operating sequence .................................................... Local tests in OADM configuration in DWDM systems Figure 3-13 Local test in OADM configuration in DWDM systems BLOCK DIAGRAM 1850 TSS-320 Through Channels LDRXA LDTXA Drop LDTXA Drop LDRXA Drop...
Tests and Measurements Local testing and operating sequence .................................................... Link tests in DWDM systems Figure 3-14 Link test in DWDM system CH2,CH3 STM-N STM-N STATION B Pattern Generator Error STM-N STM-N Detector SPAN 1 SPAN 2 STM-N STM-N STATION A STATION C a.
Tests and Measurements Local testing and operating sequence .................................................... d. End-to-end stability test On ODF, perform a physical loop (station C, user side) on all the channels with the same bit rate. Referring to the example ofFigure 3-15, and assuming CH1 and CH2 are OC-192 and CH3 is 10 GbE, on ODF, perform a physical loop on CH1 and CH2 client side in Station C.
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Table 3-2, “Accessories” (p. 3-2) Optical loop (K) • Single-mode single-fiber splices (I) or (Q), according to the interface type • Craft terminal cable (L) • Test Bench: BLOCK DIAGRAM 1850 TSS-320 Loop LINE port "A" Matrix Pattern Generator STS-3c STM-1...
"B" Note: The figure can change depending on the type of tributary port and on the line port selected. For the 1850 TSS-320 shelf configuration, refer to Figure 3-5 on p. 3-22. Procedure Perform the same cross connection used for the previous SNCP protection test.
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• Craft Terminal cable (L) • Single-mode single-fiber splices (I) or (Q) according to the SFP/XFP type • Test Bench Figure 3-17 Synchronism priority and holdover BLOCK DIAGRAM 1850 TSS-320 Matrix "A" Loop Pattern Generator STS-3c LINE STM-1 port port "A"...
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Tests and Measurements Local testing and operating sequence .................................................... Note: Connect the generator to wire-wrap terminals RXP and RXN if timing wire- wrap adapter is used Procedure Note: EML-USM — Select the “Synchronization” option from the “Views” menu............................................Select a reference clock for each timing reference block (T0) in the following way: ............................................
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Tests and Measurements Local testing and operating sequence ..............................................................................................Check on the craft terminal that the signal T0 is derived from the “Int. Oscillator G.813" timing reference block” (full line is visible) and that hold-over is written............................................The hold-over state is possible only if the other reference clock has been present for at least 30 minutes.
Vtest must not exceed 72V, and the output current from the pin must not exceed 50 mA. Further, the LED used should bear a 10-mA current. Test Bench Figure 3-18 Alarms check BLOCK DIAGRAM GENTRU 1850 TSS-320 VBATT 1 STEPUP "A" PSF 320 "A" VBATT 2 STEPUP "B"...
Tests and Measurements Local testing and operating sequence .................................................... 1. Primary power supply alarm check Procedure a. Switch-OFF one Primary power supply (Breaker A). – Verify that the Green LED on the Step-up 1 turns OFF. – Verify that the NURG indication at the top of the rack (rack lamps) lights ON. –...
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Tests and Measurements Local testing and operating sequence .................................................... #Pin Signals Description RA_ORBATT Fault or loss of one station battery RA_URG Urgent alarm RA_ANC Fault or loss of both equipment-internal service power supplies RA_NURG Not urgent alarm RA_ORC Fault or loss of one equipment-internal service power supply RA_INT Internal alarm RA_IND...
Tests and Measurements Local testing and operating sequence .................................................... 4. Housekeeping (HK) alarms check (if present) Procedure Refer to Figure 3-1 on p. 3-5 and Figure 27on page 72 and Table 10 on page 71 HK connector location and pinout. EML-USM —...
Tests and Measurements Local testing and operating sequence .................................................... #Pin Signals Description HK_IN3 # 3 Input HK_IN4 # 4 Input HK_IN5 # 5 Input HK_IN6 # 6 Input HK_IN7 # 7 Input HK_IN8 # 8 Input HK_REF Voltage reference of input housekeeping case Electrical ground - Case Figure 3-19 Back panel electrical connectors location and pinout...
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Tests and Measurements Local testing and operating sequence .................................................... Final checks Purpose Check that the equipment has been properly configured. • Test instruments [see Table 3-1, “Instruments” (p. 3-2)] Craft Terminal (E) • Accessories: [see Table 3-2, “Accessories” (p. 3-2)] Cable for Craft Terminal (L) •...
Point to point error-monitoring check • Rx Optical “line port” power check Purpose Verify the optical power of the signal received from the remote 1850 TSS-320 (Station • B on the test bench). Test instruments [see Table 3-1, “Instruments” (p.
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Tests and Measurements Point-to-point measures list and operating sequence .................................................... Test Bench Station - A Station - B 1850TSS 1850TSS STM-N STM-N port port C.T. RADIOMETER Rx line optical cable Procedure ............................................Disconnect the Rx optical cable line from the ODF and connect it to the power meter input.
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Tests and Measurements Point-to-point measures list and operating sequence .................................................... Optical “line port” link margin Purpose Verify the margin between the Rx optical power (in normal line condition) and the • minimum received optical power (by introducing line attenuation) related to fixed bit error rate.
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Tests and Measurements Point-to-point measures list and operating sequence .................................................... Test Bench Figure 3-20 Optical “line port” link margin Station - A Station - B 1850TSS 1850TSS STM-N STM-N STM-N STM-N port port port port loop C.T. VARIABLE ATTENUATOR RADIOMETER RX line cable ERROR DETECTOR...
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Tests and Measurements Point-to-point measures list and operating sequence .................................................... STATION-A ............................................With the pattern generator, send a fixed PRBS sequence ............................................Check that the error detector has read no errors............................................Increase the optical attenuation till errors are read on the error detector............................................
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Procedure STATION-A ............................................Connect the Pattern Generator output to the 1850 TSS-320 “port” input and the pattern generator input to the 1850 TSS-320 “port” output; all the connection must be made on the ODF..................................................... 3 - 6 4 PN 8DG08136CAAA...
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Point-to-point measures list and operating sequence .................................................... STATION-B ............................................On the ODF loop the 1850 TSS-320 “port” concerned with the point to point connection. STATION-A ............................................Set the pattern generator according to the 1850 TSS-320 “port” characteristics and send a fixed PRBS sequence.
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Procedure STATION-A ............................................Connect the pattern generator output to the 1850 TSS-320 “port” input and the Pattern Generator input to the 1850 TSS-320 “port” output; all the connection must be made on the ODF. STATION-B ............................................On the ODF loop the 1850 TSS-320 “port” concerned with the point-to-point connection.
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Point-to-point measures list and operating sequence .................................................... STATION-A ............................................Set the pattern generator according to the 1850 TSS-320 “port” characteristics and send a fixed PRBS sequence............................................After a certain period of time check that no errors are read on the error detector.
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Tests and Measurements Point-to-point measures list and operating sequence ......................................................................................................3 - 6 8 PN 8DG08136CAAA Issue 1 March 2008...
Connections, Configurations, and Characteristics Overview Purpose This chapter provides detailed lists of procedures and steps typically created with craft terminal configurations. This chapter also contains optical characteristics. Contents This chapter covers these topics. STN-n cross-connection — Matrix looped STM-n Bi-directional protected unstructured cross-connection: OC-3 and OC-3 port Bi-directional protected cross-connection: OC-3/OC-12 port and STM-n ports Unprotected, bi-directional cross-connect: Concatenated group (VC4-7V) and STM-N port...
Connections, Configurations, and Characteristics STN-n cross-connection — matrix looped STM-n .................................................... STN-n cross-connection — matrix looped STM-n Description BLOCK DIAGRAM 1850 TSS-320 Matrix Pattern Generator Loop STS.n Port STM-n Error Detector Procedure From EML-USM, select “Cross-Connection Management” from “Configuration” on the EML-USM window.
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Connections, Configurations, and Characteristics STN-n cross-connection — matrix looped STM-n ..............................................................................................Select the AU4 concerned and press “OK.” The “Main Cross Connection” window will be displayed. The selected AU4 will be inserted in the input box............................................Click on “Choose” output. The “Search for cross-connection output” window will be displayed.
Connections, Configurations, and Characteristics Bi-directional protected unstructured cross-connection: OC-3 and OC-3 port .................................................... Bi-directional protected unstructured cross-connection: OC-3 and OC-3 port Description BLOCK DIAGRAM 1850 TSS-320 Loop LINE port "A" Matrix Pattern Generator STS-3c STM-1 port Error Detector Loop LINE port "A"...
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Connections, Configurations, and Characteristics Bi-directional protected unstructured cross-connection: OC-3 and OC-3 port ..............................................................................................Click on “Search TPs”; in the “Termination points” field, two AU4 relevant to the two ports of the selected SLOT are displayed............................................Select the AU4 port #m, and click on “OK”; the “TP search” window is closed............................................
Connections, Configurations, and Characteristics Bi-directional protected cross-connection: OC-3/OC-12 port and STM-n ports .................................................... Bi-directional protected cross-connection: OC-3/OC-12 port and STM-n ports Description BLOCK DIAGRAM 1850 TSS-320 Loop LINE port "A" Matrix Pattern Generator STS-3c/12 STM-1/ 4 port Error Detector Loop...
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Connections, Configurations, and Characteristics Bi-directional protected cross-connection: OC-3/OC-12 port and STM-n ports ..............................................................................................Click on “Search”; all the available TPs are displayed in the “Termination points” field i.e., up to 16 or 64 TPs for the port #A (if OC-48 or OC-192 board)............................................
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Connections, Configurations, and Characteristics Bi-directional protected cross-connection: OC-3/OC-12 port and STM-n ports ..............................................................................................Select the AU4, and click on “OK”; the “Search for Cross-Connection Output” window is closed............................................In the “Main Cross-Connection” window, click on “OK.” ............................................Click on “Search” in the “Cross-Connection Management” window to see all cross- connections performed.
Connections, Configurations, and Characteristics Unprotected, bi-directional cross-connect: concatenated group (VC4-7V) and STM-N port .................................................... Unprotected, bi-directional cross-connect: concatenated group (VC4-7V) and STM-N port Procedure This procedure is performed on an OC-48 port. In case a OC-192 port is used, the same. From EML-USM, select “Configuration”...
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Connections, Configurations, and Characteristics Unprotected, bi-directional cross-connect: concatenated group (VC4-7V) and STM-N port ..............................................................................................Click on “Choose” to select the input TP of the cross-connection. In “Search for Cross- connection input” window, double-click on Rack and Subrack (S320-1)............................................Select “PP20G”...
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Connections, Configurations, and Characteristics Unprotected, bi-directional cross-connect: concatenated group (VC4-7V) and STM-N port ..............................................................................................Repeat the same procedure for all the other six (6) virtual concatenated TPs............................................To check the connections made, access “Configuration -> Cross-connection Management” and click on “Search.” All the connections made will be displayed............................................
“Add Data Board.” Choose the board from the list and click on “OK.” ............................................In the “1850 TSS-320 User Service Management..” window, double-click on the board (i.e., r1sr1/board#2). The local and remote data ports are displayed............................................
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Connections, Configurations, and Characteristics Cross-connection between a local and a remote data port ..............................................................................................In the “Port Ingress” field of the “Create ETS XC One Step” window, the selected local port is displayed............................................Select “Port Egress” by clicking on the relevant square. The “Filtered search” window appears.
Connections, Configurations, and Characteristics Standard procedures to turn the laser OFF then ON .................................................... Standard procedures to turn the laser OFF then ON Safety rules CAUTION Laser hazard When disconnecting the optical fiber, follow the procedure stated below to avoid laser radiation.
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Connections, Configurations, and Characteristics Standard procedures to turn the laser OFF then ON ..............................................................................................Check the laser status. a. Check in the message area port view that the message “ALS current state inactive” is present............................................ALS enable. From EML-USM, select the board and click twice. a.
1850 TSS-320 Test Report Sheet Modules Overview Purpose This chapter provides detailed test report sheet modules for the 1850 TSS-320. Contents. This chapter covers these topics. Equipment acceptance sheet .................................................... 5 - 1 PN 8DG08136CAAA Issue 1 March 2008...
1850 TSS-320 Test Report Sheet Modules Equipment acceptance sheet .................................................... Equipment acceptance sheet Acceptance sheet Table 5-1 Equipment acceptance sheet EQUIPMENT ACCEPTANCE SHEET CONTRACT N. SITE RING EQUIPMENT LOCATION Row/Rack/Subrack SW Version Addresses AUTH AREA Local SYSTEM ID ETHERNET ADDRESS...
1850 TSS-320 Test Report Sheet Modules Equipment acceptance sheet .................................................... Table 5-2 On-Site 1850 TSS-320 Final Test ON-SITE1850TSS-320 FINAL TEST Units Types Serial Numbers SHELF SERIAL NUMBER SLOT 1 SLOT 2 SLOT 3 SLOT 4 SLOT 5 SLOT 6 SLOT 7...
1850 TSS-320 Test Report Sheet Modules Equipment acceptance sheet .................................................... Table 5-3 On-Site 1850 TSS-320 Final Test: SONET/SONET Local Measurements ON-SITE 1850 TSS-320 FINAL TEST: SDH/SONET LOCAL MEASUREMENTS Expected Value and Measure Measure Tolerance Value Unit 2048 + 4.6 ppm Free-running frequency check 1552 + x.x ppm...
1850 TSS-320 Test Report Sheet Modules Equipment acceptance sheet .................................................... Table 5-4 On-Site 1850 TSS-320 Final Test: Data Local Measurements ON-SITE 1850TSS-320 FINAL TEST: DATA LOCAL MEASUREMENTS Expected Value Measure Measure and Tolerance Value Unit DATA Port Interface Optical ports test...
1850 TSS-320 Test Report Sheet Modules Equipment acceptance sheet .................................................... Table 5-5 On-Site 1850 TSS-320 Final Test: DWDM Local Measurements ON-SITE 1850TSS-320 FINAL TEST: DWDM LOCAL MEASUREMENTS Expected Value Measured Measure and Tolerance Value Units DWDM Optical Ports Port Port...
1850 TSS-320 Test Report Sheet Modules Equipment acceptance sheet .................................................... Table 5-6 On-Site 1850 TSS-320 Final TEst: DWDM Link Measurements ON-SITE 1850TSS-320 FINAL TEST: DWDM LINK MEASUREMENTS Expected Value Measured Measure and Tolerance Value Unit Port Port Interface DWDM Optical Ports Test...
1850 TSS-320 Test Report Sheet Modules Equipment acceptance sheet .................................................... Table 5-7 On-Site Multiservice Node Final Test: Local Measurements ON-SITE MULTISERVICE NODE FINAL TEST: LOCAL MEASUREMENTS Expected Value and Measured Measure Tolderance Value Unit Matrix check Check Quantity of matrix units...
1850 TSS-320 Test Report Sheet Modules Equipment acceptance sheet .................................................... Table 5-8 On-Site Multiservice Node Final Test: Point-to-Point Measures ON-SITE MULTISERVICE NODE FINAL TEST: POINT-TO-POINT MEASURES SITE 1 SITE 2 EQUIPMENT TYPE EQUIPMENT RELEASE Expected value and Measured Measure tolderance...
Technical Support Overview Purpose This chapter provides important technical assistance information for the 1850 TSS-320. Contents This appendix contains the following sections. Technical assistance Accessing and navigating the On-Line Customer Support (OLCS) web site Other technical support services A-13 ....................................................
Repair and Replacement (R&R) - technical support services for device repair/return or • parts replacement. Alcatel-Lucent On-Line Customer Support (OLCS) - online access to information and • services that can help resolve technical support requests. Note: Technical Support Services are available 24 hours a day, 7 days a week.
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Alcatel-Lucent product technical issue. When additional assistance is required, the Alcatel-Lucent Welcome Center is the first point of contact. An Alcatel-Lucent Welcome Center operator can direct the request to engineers that are highly trained and skilled in resolving issues, involving Alcatel-Lucent products.
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OLCS web site and view ARs 24 hours a day, 7 days a week. Data Drop Box The Data Drop Box feature allows Alcatel-Lucent support technicians to provide customers with a quick method to share files. The Data Drop Box allows a technician to provide or receive a file from a customer quickly.
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Technical Support Technical assistance .................................................... – Modification Implementation Procedure (MIP) – User Guide – Alarm Messaging and Trouble Clearing Guide (AMTCG) – Framework User Guide – Graphical User Interface (GUI) Guide – Maintenance Guide, Provisioning Guide – User Operations Guide (UOG) Technical Notes •...
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Note: This may not apply to all products. The RMA area provides a list of contact information on all Alcatel-Lucent products. There is a “request an RMA number” on-line for most Alcatel-Lucent products. An RMA number is required for all returned parts and this feature provides you with an easy method to obtain the RMA number.
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(if necessary), and navigate to each feature listed in this document. Accessing the OLCS web site To access the Alcatel-Lucent OLCS web site, enter: www.alcatel-lucent.com/support. Once you are at this web page, select Lucent Global Support. This will bring you to the web site where you can log in to gain access to the entitled products.
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Technical Support Accessing and navigating the on-line customer support (OLCS) web site .................................................... Need Help while registering? From the U.S. 1 (866) 582 3688, prompt 7 From outside the U.S. +1 (630) 218 7688 In Asia/Pacific Please contact the in-country technical support hotline.
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“My Bookmarks” section (if Data Drop Box has been added there). Click the “Upload a file” button in the Data Drop Box window to send a file to the Alcatel-Lucent support technician. An email address can also be entered so that the ....................................................
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Alcatel-Lucent technician will be notified when the file has been sent. Click the “Download a file” button from the Data Drop Box if the Alcatel-Lucent technician has sent a file to be downloaded. These files will remain on the site for 7 days.
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You can access Alcatel-Lucent Alerts from the left column on the Customer Support homepage (unless this view has been changed), from the “Technical Support” section in the center of the page, or from the “My Bookmarks” section (if Alcatel-Lucent Alerts is added there).
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Generally, customers should have a basic understanding of digital fundamentals and lightwave transmission systems. In addition, customers should have taken a previous Alcatel-Lucent Operating & Maintenance course or have equivalent experience with operations and maintenance issues related to the product...
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Technical Support Other technical support services .................................................... Workshop Location: This workshop will be delivered in the Customer Advocate System Test Labs in Westford, MA. The format is 75% hands-on lab exercises, reinforced with 25% classroom instruction. How to Sign Up: To enroll in the training course: Within the United States, •...
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Technical Support Other technical support services ......................................................................................................A- 1 4 PN 8DG08136CAAA Issue 1 March 2008...
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Glossary Symbols A wild card character used to represent any character. Numerics 5E-XC Applications that provide the capacity and converged networking capabilities that exisitng networks need to implement Accelerate Voice over IP solutions to rapidly deliver next-generation services that enterprises and consumers want. Application Programming Interface.