AWY user manual

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QUESTA PAGINA NON VA INSERITA NEL MANUALETHIS PAGE MUST NOT BE INCLUDED IN THE HANDBOOK

COD.MANUALE HDBK P/N: 3DB 05653 EAAA Ed.029400AWY Rel.1.0LINE UP GUIDE

INFORMAZIONI PER IL CENTRO STAMPA - ASSEMBLY INSTRUCTIONS

– COMPOSIZIONE ED ASSIEMAGGIO DEL MANUALE:HANDBOOK COMPOSITION AND ASSEMBLY:

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LINE UP GUIDE 7.571

TEST RESULT 1.612

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WTDSite

Originators

VIMERCATE

:

Domain

Division

Rubric

TypeDistribution Codes Internal External

::::

9400AWY Rel.1.0LINE UP GUIDE 9400AWY REL.1.0 LINE UP GUIDE

:

O.BENAGLIAE.CORRADINIG.ZILIANI (RTT)

Approvals

NameApp.

App.Name

R.DIAZZI

A.BESTETTI

WARNING FOR A-UNITS OTHER THAN A-ITALY

• Labels are done according to A-Italy binder format.• Source files and printable files of this handbook are archived in ePDM:

– Source file: MSWORD2000 ARCHIVED BY WINZIPN.B. the cat.arc file contains the source interleaf file for this assembly document and

the handbook front page– Printable file: PDF file must be opened with ACROBAT Reader Version 5.0 at least.

3DB 05653 EAAAEd.029400AWY Rel.1.0

11–13–15–18–23–25–28–32–38 GHzshort–haul low/medium capacity digital microwave radio linksLINE UP GUIDE

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9400AWY Rel.1.0

11–13–15–18–23–25–28–32–38 GHz

short–haul low/medium capacity digital microwave radio links

LINE UP GUIDE

3DB 05653 EAAA Ed.02

VOL.1/1

9400AWY Rel.1.0

11–13–15–18–23–25–28–32–38 GHzshort–haul low/medium capacity digital microwave radio links

LINE UP GUIDE


VOL.1/1

9400AWY Rel.1.011–13–15–18–23–25–28–32–38 GHz

short–haul low/medium capacity digital microwave radio links

3DB 05653 EAAA Ed.02 LINE UP GUIDE VOL.1/1

9400AWY Rel.1.011–13–15–18–23–25–28–32–38 GHz short–haul low/medium capacity digital microwave radio links


9400AWY Rel.1.0

11–13–15–18–23–25–28–32–38 GHzshort–haul low/medium capacity digital microwave radio links


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FINE DEL DOCUMENTO INTERNO – END OF INTERNAL DOCUMENT


Line Up Guide

Alcatel 9400AWY

Rel.1.011–13–15–18–23–25–28–32–38 GHz

Short–haul low/medium capacity digital microwave radio links


Documentation set for 9400AWY Rel.1.0

Handbook ANV P/N

9400AWY Technical Handbook 3DB 05653 BAAA

9400AWY Installation Handbook 3DB 05653 DAAA

9400AWY Line–up Guide 3DB 05653 EAAA this handbook

9400 AWY/FSO CT Operator’s Handbook SWP 1.0 3DB 05653 CAAA

9400 AWY/FSO CT Operator’s Handbook SWP 1.1 3DB 05653 FAAA

1320CT Rel.3.x Basic Operator’s Handbook 3AL 79551 AAAA

1330AS Rel.6.5 Operator’s Handbook 3AL 88876 AAAA

ELB Rel.2.x Operator’s Handbook 3AL 88877 AAAA

HISTORY

ED DATE CHANGE NOTE APPRAISAL AUTHORITY ORIGINATOR

01 040419 R.DIAZZI O.BENAGLIA

02 041222 S404110401 A.BESTETTI G.ZILIANI

This handbook is composed of two independent parts:

PART ED NO of pages

LINE UP GUIDE 02 100

TEST RESULT 01 24

02 22/12/2004 S404110401 A.Bestetti G.Ziliani, F. Fass

01 19/04/2004 O. Benaglia


9400 AWY - Rel.1.0 (SWP version up to V.1.0.2)

Short-haul low/medium capacity digital microwave radio links Line-Up Guide

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9400 AWY Rel.1.0 (SWP version up to V.1.0.2)

Short-haul low/medium capacity digital microwave radio links

Line-up Guide

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TABLE OF CONTENTS

1. COPYRIGHT NOTIFICATION...................................................................................................................7 2. WARNING AND SAFETY INSTRUCTIONS.............................................................................................7 3. NOTICE .....................................................................................................................................................9 4. SCOPE AND RELATED DOCUMENTS...................................................................................................9

4.1. Instruments and Accessories ..............................................................................................................10 5. GLOSSARY OF FREQUENTLY USED TERMS ....................................................................................11 6. GENERAL DESCRIPTION OF THE PRODUCT ....................................................................................19 7. CONFIGURATIONS................................................................................................................................21 8. PANEL AND CONNECTION DESCRIPTIONS (IDU & ODU)................................................................25

8.1. Numbering, and functions referred to the Connection Points .............................................................26 8.2. Summary and type connectors usage.................................................................................................27 8.3. LEDs meaning.....................................................................................................................................28 8.4. Power Supply connector, On/Off switch..............................................................................................29 8.5. Outdoor Unit (ODU).............................................................................................................................30 8.6. ODU Cable for antenna pointing via Voltmeter ...................................................................................31 8.7. ODU Rx power monitoring cable.........................................................................................................31 8.8. IDU Craft terminal RS232 / F interface cable....................................................................................31 8.9. ETH1 & ETH2 Data cable description................................................................................................31

9. TECHNICAL SPECIFICATIONS.............................................................................................................33 9.1. General characteristics........................................................................................................................33

9.1.1. Transmitted Power at antenna port (ETSI and FCC) .................................................................34 9.1.2. BER Receiver thresholds (ETSI and FCC) ................................................................................35

10. COMMISSIONING (TURN-UP) FOR A RADIO LINK.............................................................................37 10.1. Introduction..........................................................................................................................................37 10.2. Summary of the commissioning phases .............................................................................................38 10.3. CT & windows platform software compatibility....................................................................................39

10.3.1. Correspondence between : NE name, SW Packet and Version and Windows versions:...39 10.4. Hardware (HW) Presettings ................................................................................................................39 10.5. Software environment .........................................................................................................................39

11. COMMISSIONING (TURN-UP) STATION A (PHASE 1)........................................................................41 11.1. Turn-on preliminary operations ...........................................................................................................41 11.2. Powering up the IDU ...........................................................................................................................42 11.3. Starting the CT ....................................................................................................................................43 11.4. NE Software Key check.......................................................................................................................44 11.5. Quick configuration Procedure............................................................................................................44 11.6. Transmitter frequency check-set.........................................................................................................59 11.7. Transmitter power output check-set....................................................................................................59 11.8. DS1 Line Length, Signal Mode, Line Coding ......................................................................................59 11.9. 1+0 System Near End Loopback Functionality Check.......................................................................60

11.9.1. Near End Tributary Loopback.....................................................................................................60 11.9.2. Near End IDU Cable Loopback ..................................................................................................60 11.9.3. Near End ODU Cable Loopback ................................................................................................60 11.9.4. Near End RF Loopback ..............................................................................................................60

11.10. 1+1 system Near END Loopback Functionality check ..............................................................62 12. COMMISSIONING STATION B (PHASE 1) ...........................................................................................65 13. COMMISSIONING THE LINK FROM STATION A (PHASE 2)..............................................................67

13.1. Transmitter frequency check-set........................................................................................................67 13.2. Transmitter power output check-set...................................................................................................67 13.3. DS1 Line Length, Signal Mode, Line Coding ......................................................................................68

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13.4. 1+0 system Near END Loop Back Functionality check ..................................................................... 69 13.5. 1+1 system Near End Loop Back Functionality check ...................................................................... 70 13.6. ANTENNA POINTING ........................................................................................................................ 71 13.7. Received power .................................................................................................................................. 73 13.8. 1+0 System Test Functionality Check ................................................................................................ 74

13.8.1. Tributary functionality check....................................................................................................... 74 13.8.2. Ethernet Data Interface functionality check (not yet implemented) ........................................... 75

13.9. 1+1 system test functionality check .................................................................................................... 76 13.9.1. Tributary functionality check....................................................................................................... 76 13.9.2. Ethernet Data Interface functionality check (not yet implemented) ........................................... 77

13.10. Craft Terminal REMOTE NE acquisition check ..................................................................... 78 13.10.1. Craft Terminal REMOTE NE acquisition NMS Radio side check.............................. 78 13.10.2. Craft Terminal REMOTE NE acquisition NMS Line side check ................................ 80 13.10.3. 64Kbit/s Service Data channel configuration and check ................................................... 82

13.11. 1+1 System Switching Function................................................................................................. 83 13.12. 1+0 SYSTEM Far End Loopback Functionality check ............................................................... 84 13.13. 1+1 SYSTEM Far End Loopback Functionality check ............................................................... 85 13.14. Engineering Orderwire (EOW) functionality Check................................................................... 86

13.14.1. Orderwire Connections...................................................................................................... 86 13.14.2. Using Handset connected to BB ....................................................................................... 87 13.14.3. Ways of Calling.................................................................................................................. 87

13.15. ATPC Functionality (not yet implemented) ................................................................................ 88 13.16. BER intrusive Functionality ........................................................................................................ 88 13.17. BER Stability test........................................................................................................................ 88 13.18. End of Commissioning in Station A............................................................................................ 88 13.19. End of Commissioning in Station B............................................................................................ 88

ANNEXES........................................................................................................................................................ 89 ANNEX A TROUBLESHOOTING............................................................................................................... 89

A.1. Analog measurements ........................................................................................................................ 89 A.2. NMS 64 kbit/s V.11 and G.703 ........................................................................................................... 89 A.3. Loopbacks........................................................................................................................................... 89 A.4. Empty USM icon in NES..................................................................................................................... 90 A.5. NE unreachable .................................................................................................................................. 90 A.6. Configuration change from 4 QAM to 16 QAM................................................................................... 90 A.7. Quick configuration menu correct use ................................................................................................ 90

ANNEX B PRESETTINGS.......................................................................................................................... 91 ANNEX C HOUSEKEEPING ALARMS/CONTROL FRONT PANEL CONNECTOR DESCRIPTION ...... 92 ANNEX D AUXILIARY CHANNEL FRONT PANEL CONNECTOR DESCRIPTION ................................ 93 ANNEX E BASE BAND - EOW TELEPHONE NUMBER SW SETTING................................................... 94 ANNEX F RX POWER MONITORING CABLE OPERATIVE INFORMATION ......................................... 95 ANNEX G SOFTWARE DOWNLOAD VIA C.T. (WHEN MEMORY IS ALREADY WRITTEN)......... 96 ANNEX H SOFTWARE DOWNLOAD VIA SIBDL (WHEN MEMORY IS EMPTY ) .............................. 97 ANNEX I REPAIR FORM ........................................................................................................................ 100

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LIST OF FIGURES

Tables Table 1 - Instruments List.................................................................................................................................10 Table 2 - Accessories List ................................................................................................................................10 Table 3 - Numbering, and functions referred to the Connection Points...........................................................26 Table 4 - 9400 AWY family...............................................................................................................................33 Table 5 - General characteristics .....................................................................................................................33 Table 6 - Equipment .........................................................................................................................................38 Table 7 - Markets, capacity and modulations...................................................................................................46 Table 8 - SIBDL Cable pin out and RS 232 Cable...........................................................................................97

Figures Figure 1 - 9400 AWY (1+0) compact................................................................................................................21 Figure 2 - 9400 AWY (1+0) Extendable (1+1) two antennas (second antenna not shown) ............................22 Figure 3 - 9400 AWY (1+0) Extendable (1+1) one antenna ............................................................................22 Figure 4 - 9400 AWY (1+1) HST-SD or FD used in configuration with 2 antennas.........................................23 Figure 5 - 9400 AWY (1+1) HST or FD used in configuration with 1 antenna.................................................23 Figure 6 - Front view IDU .................................................................................................................................25 Figure 7 - LEDs meanings................................................................................................................................28 Figure 8 - Power supply connections ...............................................................................................................29 Figure 9 - ODU rear and front views ................................................................................................................30 Figure 10 - Relative positions of stations A and B ...........................................................................................37 Figure 11 - NES window...................................................................................................................................43 Figure 12 - Equipment view..............................................................................................................................43 Figure 13 - Quick Installation Procedure: NE Configuration (Step 1) ..............................................................45 Figure 14 - Quick Installation Procedure: Frame Configuration (Step 2) .........................................................47 Figure 15 - Quick Installation Procedure: Tributaries Configuration (Step 3) ..................................................48 Figure 16 - Quick Installation Procedure: Tributaries Configuration (Step 4) ..................................................49 Figure 17 - Quick Configuration Procedure: Channels Configuration (Step 5)................................................50 Figure 18 - Quick Configuration Procedure: Local IP Address (Step 6) ..........................................................51 Figure 19 - Quick Installation Procedure: OSPF Area Configuration (Step 7).................................................52 Figure 20 - Quick Installation Procedure: IP Static Router Configuration (Step 8) ..........................................53 Figure 21 - Quick Configuration Procedure: NMS–RF Interface Configuration (Step 9) .................................54 Figure 22 - Quick Configuration Procedure: NMS–V11 Interface Configuration (Step 10) .............................55 Figure 23 - Quick Configuration Procedure: NMS–G703 Interface Configuration (Step 11) ...........................56 Figure 24 - Quick Installation Procedure: Ethernet Configuration (Step 12)....................................................57 Figure 25 - Quick Configuration Procedure: Summary (Step 13) ....................................................................58 Figure 26 - C.T. Local Loopback Point Block Diagram ....................................................................................61 Figure 27 - C.T. Local Loopback Point Block Diagram ....................................................................................62 Figure 28 - C.T. Local Loopback Point Block Diagram ..................................................................................69 Figure 29 - C.T. Local Loopback Point Block Diagram ..................................................................................70 Figure 30 - Integrate pole mounting screw for Horizontal and Vertical alignment ...........................................71 Figure 31 - Test bench for functionality check .................................................................................................74 Figure 32 - Test bench for Ethernet channel functionality check .....................................................................75 Figure 33 - Test bench for functionality check .................................................................................................76 Figure 34 - Test bench for Ethernet channel functionality check .....................................................................77 Figure 35 - Test bench for functionality check .................................................................................................78 Figure 36 - NES window...................................................................................................................................78 Figure 37 - Equipment view..............................................................................................................................79 Figure 38 - Test bench for functionality check .................................................................................................80 Figure 39 - NES window...................................................................................................................................80 Figure 40 - Equipment view...........................................................................................................................81

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Figure 41 - Test bench for Service Data channels functionality check............................................................ 82 Figure 42 - C.T. switching schematic diagram................................................................................................. 83 Figure 43 - C.T. Loopback Point Block Diagram ............................................................................................. 84 Figure 44 - C.T. Loopback Point Block Diagram ............................................................................................. 85 Figure 45 - Alarms-Housekeeping connections............................................................................................... 92 Figure 46 - SERVICE CHANNEL connections ................................................................................................ 93 Figure 47 - Rx power monitoring cable............................................................................................................ 95

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1. COPYRIGHT NOTIFICATION The technical information of this manual is property of ALCATEL and must not be copied, reproduced or disclosed to a third party without written consent.

2. WARNING AND SAFETY INSTRUCTIONS ALCATEL makes no warranty of any kind with regards to this manual, and specifically disclaims the implied warranties of merchantability and fitness for a particular purpose. ALCATEL will not be liable for errors contained herein or for damages, whether direct, indirect, consequential, incidental, or special, in connection with the furnishing, performance, or use of this material.

SAFETY INSTRUCTIONS

Equipment emitting RF power (Reminder from site preparation procedure):

- The site must be compliant with ICNIRP guidelines or local regulation if more restrictive.

- The following rules should be strictly applied by Customer:

- Non authorized persons should not enter the compliance boundaries, if any, for the general public.

- Compliance RF boundaries, if any, related to Electro Magnetic Field exposure must be marked.

- Workers should be allowed to switch-off the power if they have to operate inside compliance boundaries.

- Assure good cable connection.

- Install the antenna as high as possible from floor or area with public access (if possible the cylinder delimitating the compliance boundaries, if any, or the cylinder corresponding to the transmission area directly in front of antenna with the same diameter as the antenna, more than 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 9400AWY 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. roof top installation) - Warning label «Do not stand on the antenna axis» On the mast (front side) - EMF emission warning sign (Yellow and black) to be placed at bottom of antenna, visible by someone moving in front of the antenna (roof top installation) On the antenna (rear side)

– EMF emission warning sign, placed on the antenna.

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3. NOTICE The product specification and/or performance levels contained in this document are for information purposes only and are subject to change without notice. They do not represent any obligation on the part of ALCATEL.

ED DATE COMMENTS

01 19/04/2004 First Edition for R1.0

02A 27/10/2004 Draft Edition for R1.0

02B 21/12/2004 Draft Edition for R.1.0 V.1.0.2

02 22/12/2004 Released Edition for R.1.0 V.1.0.2 with corrections & improvements.

4. SCOPE AND RELATED DOCUMENTS The scope of this document is to provide the user with the information needed to connect, power on, and perform a minimum turn-up of an equipment of the 9400 AWY family.

It is assumed that the mechanical installation of the INDOOR and OUTDOOR units is completed and the antennas are installed and pre-positioned. Moreover, the IF cable has been allocated but not connected to the IDU. Any information needed to complete the above mentioned operations are out of the scope of this document.

All the cables and measurement kits as described in the following are supposed to be available.

The Alcatel Software package 9400 AWY & FSO R.1.0 V.1.0.x must already be installed in the PC used as the Craft Terminal (CT) and the software already downloaded in the equipment.

For additional detailed information refer to the following related 9400 AWY handbooks:

1 3DB 05653 BAAA TECHNICAL HANDBOOK

2 3DB 05653 CAAA CRAFT TERMINAL OPERATOR HANDBOOK

3 3DB 05653 DAAA INSTALLATION HANDBOOK

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4.1. Instruments and Accessories

Table 1 - Instruments List

REF. INSTRUMENTS QTY CHARACTERISTICS (A) Craft terminal (Personal Computer) 1 It can be supplied by ALCATEL. (B)

E1 PDH Pattern Generator/Error Detector (DS1 Test Set) DS1 PDH Pattern Generator/Error Detector (DS1 Test Set) ETH Pattern Generator/Error Detector

2 Signals available: E1 (120/75 ohms) DS1 (100 ohms) G.957 compliant STM-1 electrical/optical Signals available: ETH code HDB3 (100 ohms)

(C) Data Tester 2 Tx rate up to 64 kbit/s contra-directional CCITT interface V11, G.703 co-directional

Table 2 - Accessories List

REF. ACCESSORIES QTY CHARACTERISTICS (I) Coaxial Cables 2 terminations:

• instrument side depending on (B) • equipment side depending on type of DDF

(L) Coaxial Cables 2 termination: • Micro-Siemens connector both side

(M) Shielded pair 2 termination: • instrument side depending on (C)

(N) Craft Terminal cable 1 • PC connector (F interface) (O) Telephone set 2 Telephone set with connector

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5. GLOSSARY OF FREQUENTLY USED TERMS

ABBREVIATION MEANING A

ABIL Enabling ABN Abnormal AC Alternate Current ACSE Association Control Service Element ADC - A/D Analog to Digital Converter AE Access Enable AF Atomic Function ADM Add and Drop Multiplexer AGC Automatic Gain Control AIS Alarm indication Signal AMI Alternate Mark Inversion AND Alarm on both station batteries ANSI American National Standard Institute AP Alternate Polarization API Access Point Identifier APS Automatic Protection Switching ASAP Alarm Severity Assignment Profile ASE Application Service Element ASIC Application Specific Integrated Circuit AT Attended Alarm ATL Far Terminal Alarm ATM Asynchronous Transfer Mode ATPC Automatic Transmit Power Control ATTD ATTendeD (alarm storing) AUX AUXiliary

B BATT Battery BB Base Band BBE Background Block Error BCA Common Battery Dial Pulsing (Telephone Set) BER Bit Error Rate BNC Bayonet Not Coupling BSC Base Station Controller BTS Base Transceiver Station

C CAND All power supply units are faulty CCDP Co-Channel Dual Polarized (Frequency re-use) CCITT International Telephone and Telegraph Consultative Committee CE European Conformity C/I Carrier to Interference ratio CK Clock CLA Common Loss Alarm CLEC Competitive Local Exchange Carrier CLK Clock

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ABBREVIATION MEANING CMISE Common Management Information Service Element CMISS Card Missing CO Central Office COAX Coaxial CP Co-polar CPE Customer premises equipment CPI Incoming parallel contacts CPO Outgoing parallel contacts CPU Central Processor Unit CRC-n Cyclic Redundancy Check - n CS (Item) Change Status CT Craft Terminal CTP Connection Termination Point

D DA Distant Alarm DAC Digital to Analog Converter DAV Distinguishing Attribute Value D/A Digital to Analog (converter/conversion) DC Direct Current DCE Data Circuit Terminating Equipment DCN Data Communication Network DDF Digital Distribution Frame DEFEC FEC Decoder DEM Demodulator DEMUX Demultiplexer DF Dialog Failure DIV Diversity DM Degraded Minute DRRS Digital Radio Relay System DTE Data Terminal Equipment DTI Department of Trade and Industry DTMF Dual Tone Multi Frequency

E EB Errored Block EBC Errored Block Count EBU European Broadcasting Union EC Equipment Controller ECC Embedded Communication Channel ECS External Communication Service ECT Equipment Craft Terminal EE Equipment Engineering EF Equipment Failure EFD Event Forwarding Discriminator EIA Electronic Industries Association EMC ElectroMagnetic Compatibility EMI Electromagnetic interference EOW Engineering Order Wire EPS Equipment Protection Switching ES Errored Second

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ABBREVIATION MEANING ESD Electrostatic discharges ETR European Telecommunication Report ETS European Telecommunication Standard ETSI European Telecommunication Standard Institute EW Early Warning EWH Early Warning High EWL Early Warning Low EXC-BER Excessive BER

F F Interface F (for Craft Terminal) or Fuse FCC Federal Communications Commission FD Frequency Diversity FE Front End FEC Forward Error Correction (Code) FIT Failure In Time (e.g. falures/106 hrs) FPGA Field Programmable Gate Array FR ’Failure Rate’ or ’Frequency Reuse’ FSO Free Space Optics

G GA General Alarm or Gate Array GND Ground GNE Gateway Network Element GSM Global System for Mobile Communications

H H Horizontal (polarization) HBER High Bit Error Rate HDBK Handbook HDB3 High Density Binary 3 HDLC High level Data Link Control HET HETerofrequency or Frequency Diversity HEW High Early Warning HK HouseKeeping HST Hot Standby HW Hardware HWP Hardware Protection

I ID IDentifier IDU InDoor Unit IEC International Electro technical Commission IEEE Institute of Electrical and Electronic Engineering IF Intermediate Frequency IN Input IND Indicative alarm INT Internal Local Alarms I/O Input/Output IP Internet Protocol IRC International Radiotechnical Commission ISO International Standards Organization ITU-R (*) International Telecommunication Union - Radiocommunication ITU-T (*) International Telecommunication Union – Telecommunication

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ABBREVIATION MEANING L

LAN Local Area Network LBER Low Bit Error Rate LC Loss of Configuration LDI LED Light Emitting Diode LEW Low Early Warning LMDS Local Multipoint Distribution System LO Local Oscillator LOF Loss Of Frame LOM Loss Of Multiframe LOS Loss Of Signal LS Low Speed

M MAJ Major (alarm) MCF Message Communication Function MDT Mean Dawn Time MEM Memorization MIB Management Information Base MIN Minor (alarm) MOC Managed Object Class MOD Modulator MTBF Mean Time Between Failures MTTR Mean Time To Repair MUX Multiplexer

N NBF Narrow Band Filter NDS Near-end Defect Second NA or N/A Not Applicable NE Network Element NEBC Near-end Errored Block Count NF Noise Figure NFD Net Filter Discrimination NG Not Urgent NMS Network Management System NRZ Non Return to Zero NSA Non Service Aff. NTP Network Time Protocol NURG Not urgent alarm

O OCT Office Craft Terminal ODF Optical Distribution Frame ODU OutDoor Unit OFS Out of Frame Second OH OverHead O&M Operation and Maintenance OIRT Russian Regulatory Body OOF Out Of Frame OOS Out Of Service

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ABBREVIATION MEANING OR Logic sum/Loss of only one station battery ORALIM OR’ing of station power supply alarm OS Operation System OSI Open Systems Interconnection OSPF Open Shortest Path First OUT Output OVF Overflow OW Order Wire

P PABX Private Automatic Branch Exchange PBX Private Branch Exchange PC Personal Computer PDH Plesiochronous Digital Hierarchy PFAIL Power supply failure PI Physical Interface PLL Phase Locked Loop PM Performance Monitoring PPI Plesiochronous Physical interface ppm parts per million PPP Point to Point Protocol PRx Received power PRBS Pseudo Random Binary Signal P/S Parallel/Serial converter PSA Protection Switch Actual PSA C Protection Switch Count PSA D Protection Switch Actual Duration PSK Portable Service Kit PSR Protection Switch Request PSU Power Supply Unit PTx Transmitted power

Q QAM Quadrature Amplitude Modulation QOS Quality Of Service

R RAI Remote Alarm Indication RAM Random Access Memory RAPS Radio Automatic Protection Switch RC Radio Controller RCK Received clock RCL Received Carrier Level RCIM Radio Channel Identifier Mismatch RDI Remote Defect Indication RECC Recommendation RECT Remote Equipment Craft Terminal REI Remote Error Indication REF Reference REL Release RF Radio Frequency RI Remote Inventory RL Received Level

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ABBREVIATION MEANING RLTS Received Level Threshold Second RMS Root Mean Square RNURG Not urgent Alarm command. Lights up the relative rack red LED RPI Radio Physical Interface RPS Radio Protection Switching RSPI Radio Synchronous Physical Interface RT Transceiver RTF Remote Terminal Failure RURG Urgent Alarm command. Lights up the relative rack red LED Rx Receiver/Received

S SA Service Affecting or Service Alarm SC Service Channel or System Controller SD Space Diversity SES Severly Errored Second SF Signal Fail SIBDL Software Image Binary Download program SNMP Simple Network Management Protocol SP Splitter SQ Squelch S/P Serial to Parallel SSF Server Signal Fail STBY Standby SU Supervisory Unit SW "Switch" or "Software" SWP Software Package

T TA Remote Alarm TCP Transmission Control Protocol TD Layout drawing TDM Time Division Multiplexer TEM Transversal Electric Mode TIM Trace Identifier Mismatch TL Transmitted Level TLTS Transmitted Level Threshold Second TM Transmission and Multiplexing TMN Telecommunication Management Network TPH Telephone TP Termination Point TR TRansceiver TRIB Tributary TRU Top Rack Unit Tx Transmitter/Transmitted

U U Unavailability UAS UnAvailable Second UAT UnAvailable Time UDR Unpressurized Rectangular Waveguide Type UG Urgent Alarm UMTS Universal Mobile Telecommunications System

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ABBREVIATION MEANING URG Urgent URU Underlying Resource Unavailable USY Urban Haul Synchronous split mount Radio System UT Unavailability Time UTRAN Universal Terrestrial Radio Access Network

V V Vertical (polarization) VCO Voltage Controlled Oscillator VF Voice Frequency VSWR Voltage Standing Wave Ratio

W WAN Wide Access Network WBF Wide Band Filter WIP Wireless IP WLT Wireless Line Terminal WS Work Station

X XCVR Transceiver XPD Cross Polar Discrimination XPOL Cross Polar/Polarization NOTES:

(*) Owing to change of name, all documents issued by the two ITU committees (CCIR and CCITT) in 1992 (and in some cases even before then) are classified as ITU-R and ITU-T, respectively.

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6. GENERAL DESCRIPTION OF THE PRODUCT

The 9400 AWY family consists of an Indoor Unit (IDU) and an Outdoor Unit (ODU) designed to support outdoor transceivers in frequency ranges from 13 GHz to 38 GHz. A very light cabinet houses the outdoor transceiver(s) and can accommodate a 300 to 600mm (12 to 24 in) integrated antenna. With a non-integrated configuration the antenna can have a larger diameter. A 300m (1148 ft) cable between IDU and ODU can be supported.

ODU

2x2 to 16x2 Mbit/s34 Mbit/s

IDU

300 m

4x1.5 to 16x1.5 Mbit/s45 Mbit/s

ODU IDU

300 m 2x2 to 16x2 Mbit/s34 Mbit/s

4x1.5 to 16x1.5 Mbit/s45 Mbit/s

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7. CONFIGURATIONS

The configurations available are:

1) Unprotected configurations

- 1+0 COMPACT - 1+0 EXTENDABLE

2) Protected configurations

- 1+1 HST - 1+1 HST SD - 1+1 FD CP - 1+1 FD AP - 1+1 FD DA

Note: CP = Co-polar AP = Alternate polar DA = Dual antenna

Figure 1 - 9400 AWY (1+0) compact

1+0 Compact IDU

Antenna

ODU

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Figure 2 - 9400 AWY (1+0) Extendable (1+1) two antennas (second antenna not shown)

Figure 3 - 9400 AWY (1+0) Extendable (1+1) one antenna

1+0 Extendable IDU

ODU

Antenna

ODU (1)

ODU (0)

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Figure 4 - 9400 AWY (1+1) HST-SD or FD used in configuration with 2 antennas

Figure 5 - 9400 AWY (1+1) HST or FD used in configuration with 1 antenna

For more detail on configuration refer to the Technical Handbook.

1+1 IDU

Antenna (1)

ODU (1)

Antenna (2)

ODU (0)

1+1 IDU

Antenna

ODU (1)

ODU (0)

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8. PANEL AND CONNECTION DESCRIPTIONS (IDU & ODU) The IDU front panel access point for 1+0, 1+0 extendible, 1+1 are shown in Figure 6 on page 25.

I/O 1/8(1)

I/O 9/16(1)

NMSV11Audio1

(2)

NMSG703Audio2

(3)E3/DS3

(7)ESC (5)

TPH(4)

ALM (6)

ACCESS UNIT

MAIN UNIT

ECT(13)

OS(11)

IND (12)

Eth 1(10)

Eth2(10)

Battery(16)

I/OIDU/ODU (14)

R(15)

On/Off(17)

M(8)

LT(9)

Front view interconnections IDU (1+0)

Not Used

Front Cover (18)

ACCESS UNIT

MAIN UNIT

EXTENSION

I/O 1/8(1)

I/O 9/16(1)

NMSV11Audio1

(2)

NMSG703Audio2

(3)E3/DS3

(7)ESC (5)

TPH(4)

ALM (6)

ECT(13)

OS(11)

IND (12)

Eth 1(10)

Eth2(10)

Battery(16)

I/OIDU/ODU (14)

R(15)

On/Off(17)

M(8)

LT(9)

Front view interconnections IDU (1+0) Extendable

I/O 1/8(1)

I/O 9/16(1)

NMSV11Audio1

(2)

NMSG703Audio2

(3)E3/DS3

(7)ESC (5)

TPH(4)

ALM (6)

ACCESS UNIT

MAIN UNIT

EXTENSION

Not Used

Cover(18)

ECT(13)

OS(11)

IND(10)

Eth2(10)

Battery(16)

I/O R(15)

On/Off(17)

M(8)

LT(9) (12)

Eth 1

Front view interconnections IDU (1+1)

Figure 6 - Front view IDU

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8.1. Numbering, and functions referred to the Connection Points

Ref Figure 6

FROM BOARD TO Or TO

(1) Access TRIB 1/8 Mini distributor frame (MDF) or Customer Distributor (CDF)

(1) Access TRIB 9/16 Mini distributor frame (MDF) or Customer Distributor (CDF)

(2) Access NMS V11 AUDIO1 (EOW) Adjacent AWY N.E. Access NMS_V11- AUDIO 1 (EOW)

(3) Access NMS G703 Audio2 (EOW) Adjacent AWY N.E. Access NMS_G703 + Audio 2 (EOW)

(5) Access Service Channel Mini distributor frame (MDF) or Station Distributor

(6) Access Alarms Housekeeping Mini distributor frame (MDF) or Station Distributor

(7) Access E3/DS3 Customer Distributor (CDF)

(10) Main Ethernet / / /

(11) Main OS (or CT) Craft Terminal or T.M.N.

(12) Main Debug Only for internal use

(13) Main ECT Craft Terminal

(14) Main / Extension N ODU

(16) Main / Extension Battery T.R.U or Power Supply Battery

Table 3 - Numbering, and functions referred to the Connection Points

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8.2. Summary and type connectors usage

Refer to Figure 6 on

page 25 Interface Connector Type

(1) 16 E1/DS1 – 64 Wires 2 x SubD 37 Female

(2) NMS_V11 + Audio 1 (EOW) SubD 15 Female

(3) NMS_G703 + Audio 2 (EOW) SubD 15 Female

(4) Telephone Jack

(5) User Service Channel SubD 15 Female

(6) Alarms – Housekeeping SubD 15 Female

ACCESS

(7) E3/DS3 2 x (1.0/2.3)

LEDs 6 Led

(8) M Push – Button

(9) LT Lamp Test / Push – Button

(10) Ethernet user data RJ45

(11) OS RJ45

(12) IND RJ45

(13) ECT SubD 9 Female

(14) IDU – ODU Cable N

(15) Reset Push – Button

(16) Battery Input SubD 3 Male

IDU Main Unit

(17) ON – OFF Switch Two position switch

Interface Interface Connector Type

LEDs 6 Led

(8) M Push – Button Not used

(9) LT Lamp Test / Push – Button

(10) Ethernet user data 1/2 RJ45 Not used

(11) OS RJ45 Not used

(12) IND RJ45 Not used

(13) ECT RS 232 Not used

(14) IDU – ODU Cable N

(15) Reset Not used

(16) Battery Input SubD 3 Male

(17) ON – OFF Switch Two position switch

IDU Extension Unit

(18) Fans / /

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8.3. LEDs meaning

1 2 3

5 6 7 8

4

LEDs

LT (9)

M (8)

Figure 7 - LEDs meanings

The M pushbutton turns off the LEDs alarms (not used on 1+1 extension board).

The LT (Lamp Test) pushbutton (when pressed) verifies that the alarms LEDs are operational.

The following LEDs are present on the front panels of the Main and Extender boards.

LED MEANINGS

POS. LED MEANING/MAIN MEANING/EXT COLOUR

1 ON Power –on Power –on Green

2 RDI Remote Defect Indication

Not Used Red

3 MIN Minor alarm Not Used Red

4 EOW Engineering Order wire / RPS

Position

Not Used Yellow (Busy), Green (Free) / RPS (Green)

5 ODUW ODU working ODU working Green

6 LDI Local Defect Indication

Not Used Red

7 MAJ Major Alarm Not Used Red

8 ATTD Attended Not Used Yellow

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8.4. Power Supply connector, On/Off switch

BATTERY(15)

ON/OFFSwitch(16)

The PSU is an integral part of the IDU “Main/extension Board”.

It contains DC/DC converters and filters. If the PSU fails, the entire board must be replaced. Two versions are foreseen:

1) Floating (48-60) V nom. ±20%; 2) Floating full range (24-60) V nom. ±20%.

Very high currents are possible in the case of a short circuit at the battery power inputs. It is essential that the battery power distribution line contain short circuit back-up protection with adequate breaking capacity.

Battery Pin Function A1 + BATTERY A2 GROUND A3 - BATTERY

Figure 8 - Power supply connections

SAFETY RULES

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8.5. Outdoor Unit (ODU) The ODU locking and access points are shown in Figure 9 on page 30.

LOCKINGHOOK

LOCKINGHOOK

I/O CABLE IDU/ODU

GROUNDING POINTPORTABLESERVICE KEY

ODU REAR VIEW

PORTABLE SERVICE KEY

I/O CABLE IDU/ODU

ODU FRONT VIEW

Figure 9 - ODU rear and front views

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8.6. ODU Cable for antenna pointing via Voltmeter Cable cord Cod.1AB128500002 to connect between ODU and voltmeter for PRx AGC reading during antenna alignment

8.7. ODU Rx power monitoring cable By using the Rx power monitoring cable (P/N 3CC 13477 AAAA) (connected to the ODU, to the PSK and to a multi-meter) a fast measurement of the Rx field by means of a multi-meter can be performed. The use of this cable is suggested during the antenna final alignment.

PRx levels readings via millimeter has the same CT SW tolerance:

PRx = Real Value +/- 5dB

8.8. IDU Craft terminal RS232 / F interface cable IDU Craft terminal RS232 / F interface 9-pins connectors Pin to Pin cabled:

PC Com N (Serial Port interface RS232) port to BB Main IDU F interface connection

8.9. ETH1 & ETH2 Data cable description

ETH 1 & ETH 2 data channel cable assembling description

SIDE A (RJ45) M1 SIDE B (RJ45) M2

1 1 2 2 3 3 6 6 8 8

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9. TECHNICAL SPECIFICATIONS Data indicated must be considered as standard values. Data indicated in the contract must be considered as guaranteed values.

This chapter describes the technical characteristics of the 9400 AWY in the following RF band configurations.

Table 4 - 9400 AWY family

SYSTEM BAND (GHz) 9413AWY 13 9415AWY 15 9418AWY 18 9423AWY 23 9425AWY 25 9428AWY 28 9432AWY 32 9438AWY 38

9.1. General characteristics

Table 5 - General characteristics Version SPLIT MOUNT (IDU+ODU) Station type Terminal Configuration 1+0 Compact / 1+0 Exp. / 1+1 HST / 1+1 FD / 1+1 FD DA Transmission capacity

ETSI: 2xE1, 4xE1, 8xE1, 16xE1, E3 FCC: 2xDS1, 4xDS1, 8xDS1, 16xDS1, DS3

ATPC range 20 dB (Pmax / Pmax-20 dB) RTPC range 30 dB (Pmax / Pmax-30 dB) (ETSI mask compliance till Pmax-20 dB) Tx level with Tx mute ON

< -30 dBm

RF frequency stability

+/- 10 ppm

Synthesizer step 250 kHz RF spectrum masks Compliant with the relevant ETSI/FCC standards Spurious emissions Compliant with the relevant ETSI/FCC standards

Compliant with ERC Rec. 74-01 Rx max input level -20 dBm (for a BER of 10-3)

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9.1.1. Transmitted Power at antenna port (ETSI and FCC)

Refer to tables listed into the Line UP - TRS document: - in attach



Test Result

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9.1.2. BER Receiver thresholds (ETSI and FCC)

Refer to tables listed into the Line UP - TRS document: - in attach



Test Result

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10. COMMISSIONING (TURN-UP) FOR A RADIO LINK

10.1. Introduction To simplify the description of actions, the following symbols are in use:

Symbol used Meaning

Manual action

Check/Verify

CT On Craft terminal Select

Select a Menu item

Sub Menu item

On Instrument operate

The commissioning operations described in this guide are for a link between a station A and a station B.

If the network includes supervision, station A is the one located between the supervisory station and station B (see figure below). Installation and commissioning begin at station A.

Figure 10 - Relative positions of stations A and B

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10.2. Summary of the commissioning phases

Before proceeding with this operation ensure that you have the equipment and accessories required for that purpose. All these materials should be present in the service bag.

The commissioning procedure is summarized as follows:

• Station A, roughly point the antenna towards station B

• Commission station A (phase 1)

• Commission station B (phase 1)

• At station B point the antenna towards station A

• Commission station A (phase 2):

- fine tune pointing of antenna,

- carry out all commissioning checks (switching to local supervision mode),

- check out link,

- connect tributaries and engineering service channels.

• Station B, repeat all steps performed in station A (phase 2).

Table 6 - Equipment

INSTRUMENTS QTY CHARACTERISTICS Portable PC running the supervisory software

1 HW configuration: - CPU: Pentium III 850 MHz - RAM: 256 MBytes (512 MBytes suggested for Windows XP) - Hard disk space: 4 GBytes - Display resolution: 1024 x 768 pixel - CD-Rom drive: 24X - Primary Interface: Serial Port RS-232-C 9.6 to 57.5 kbits/sec. - Optional Interface: Ethernet Card 10/100 Mbits/sec.

Additional requirements: - Java 2 Run Time Environmental versions from 1.3.1-06 to 1.4.1-04 Each specified Java version could require minimal Windows SP installation

PDH Analyzer -Pattern Generator

1 See System configuration

Ethernet Data Analyzer 1 See System configuration V.11-G.703 Data Analyzer 1 If foreseen by Plant Documentation Telephone set 2 Telephone set with connector

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10.3. CT & windows platform software compatibility

10.3.1. Correspondence between : NE name, SW Packet and Version and Windows versions:

NE Name SWP Name and Versions Windows

NT Windows

2000 Windows

XP ULS R1.0 SWP REG. 9400AWY R1.0 V1.0.0 SP3 to SP6 Till SP4 Till SP1 V1.0.1/V1.0.2 SP3 to SP6 Till SP4 Till SP1

10.4. Hardware (HW) Presettings Every unit is factory preset, so setting is not required.

In case of doubt verify that the equipment is preset according to plant requirements.

Presettings options may be of hardware (HW) or software (SW) type.

Detailed information on the HW setting options can be found in the Technical Handbook; refer to the HARDWARE SETTING section.

For the SW setting options, refer to the Operator Handbook.

10.5. Software environment In the following it is assumed that the CT SW applications are already installed in the PC and that the NE software download has already been done at the factory.

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11. COMMISSIONING (TURN-UP) STATION A (PHASE 1) WARNINGS

• Where necessary, before disconnecting the earth connection, switch OFF the power supply.

• Do not connect instruments directly to the IDU/ODU cable connector since the connector carries 48 vdc used to feed the ODU.

• Do not connect the IF cable between IDU and ODU while the IDU is powered up.

11.1. Turn-on preliminary operations

WARNING ALL THESE OPERATIONS ARE PERFORMED WITH THE POWER OFF. For IDU connection refer to chapter 8 on page 25. For ODU connection refer to paragraph 8.5 on page 30.

The antenna of station A is roughly pointed towards station B.

The configuration of the equipment corresponds to the expected one; if this condition is true no HW/SW set up of the INDOOR and OUTDOOR units is needed because the equipment is preset at the factory.

Make visual inspection for subrack installation and cabling:

- the subrack allocation (or wall/table installation) according to the station lay-out

- the IDU rack and subrack ground connections

- the ODU ground connections

- The IDU / ODU interconnection cable is disconnected from IDU

- the power supply voltage is present (48 V dc) with the correct polarity at the power supply input

- In the case of a non-integrated antenna, the antenna and the ODU must be ground connected.

If the equipment is provided with wide band filters for frequency agility, particular attention must be paid that the ODU frequency configuration is properly set. Check the TRS document (Test Report Sheet).

NB: Make sure that IDU-ODU cable connection is removed in order to verify via CT the System. PTx, Power and Frequency Tx. settings as foreseen by Plant Documentation before powering up the ODU.

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11.2. Powering up the IDU Note: Since the IDU-ODU cable connection has NOT been established, when

powering up the IDU the ODU will not be operating, therefore, the IDU will display the relative Alarms.

Power-on equipment via rack or wall circuit breakers and power supplies switches.

See Access Point of View drawing for LED locations

the green "ON" LEDs (no.1) on the IDUs come on.

the green EOW(free) LED (no.4) is on.

the red “LDI” LED (no.8) is on.

wait 3 minutes for :

Led No.2 - red “RDI” to come on.

Led No.3 - red “MIN” to come on.

Led No.7 - red “MAJ” to come on.

Perform a Lamp Test by pressing push button LT (9) on the front panel.

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11.3. Starting the CT Connect the serial cable of the PC to the CT (“F” interface) connector on the IDU.

START the “1320 CT” application.

wait until the NES window appears.

Wait for LLMan to connect.

Figure 11 - NES window

CT Select the NE icon

Supervision START or right click on NE icon

The NE icon turns green and the question mark next to the equipment’s name disappears

Supervision Show Equipment or right click on NE Show Equipment

wait until the “Main View” mask appears.

Figure 12 - Equipment view

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11.4. NE Software Key check Purpose: Verify via CT the NE software key: Required Instruments: PC with test software Procedure: Connect CT to IDU Verify via CT the NE software key:

CT ⇒ Supervision ⇒ SW Key ⇒

⇒Report the Software Key Number type into the TRS

⇒Report the Software Key Code type into the TRS ⇒ Close

11.5. Quick configuration Procedure

Purpose: This procedure allows a full system configuration through a guided process, based on a reduced set of screens. The related windows will be displayed by a “Wizard Tool” according to a specific order.

Required Instruments: PC with test software

Procedure: Connect CT to IDU. To start this application, select the “Quick Configuration” option from the “Configuration” menu. The window in Figure 13 on page 45 will appear. This window is the first step of the procedure.

The procedure consists of different steps according to the configuration:

– 1+0 configuration:

- 6 steps for the simplified configuration

- 12 steps for the advanced configuration (the advanced configuration can be activated in step 5)

– 1+1 configuration:

- 7 steps for the simplified configuration

- 13 steps for the advanced configuration (the advanced configuration can activated in step 6)

Note on the use of the buttons available in the screens:

– Back: by clicking on this button the procedure goes back to the previous step

– Next: by clicking on this button the procedure goes on the next step

– Finish: this button is active only in the last step. By clicking on this button the operator confirms the configuration and the new parameters are sent to the equipment.

– Cancel: by clicking on this button the operator quits the procedure without any change in the configuration.

– Help: by clicking on this button the operator calls the help–on line.

In the following is explained step by step the most complete procedure for 1+1 configuration. WARNING: At the first configuration (i.e. with a flash card with an empty MIB) at the end of the configuration the "Restart NE" must be performed.

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Step 1

Figure 13 - Quick Installation Procedure: NE Configuration (Step 1)

The first step provides a screen to configure two NE parameters:

– Market (ETSI or ANSI); – Select configuration.

The possible selections for the NE Type are:

– Radio application: - 1+0 (PSU24 or PSU4860): unprotected configuration - 1+1 HST (PSU24 or PSU4860): Hot Standby protected configuration - 1+1 FD (PSU24 or PSU4860): Frequency Diversity protected configuration - 1+0 HST EXP (PSU24 or PSU4860): Hot Standby extendable configuration - 1+0 FD EXP (PSU24 or PSU4860): Frequency Diversity extendable configuration

The market choice implies a first selection of possible frame structure. The type definition implies the equipment configuration and other related functions: for example, the protection schemes supported.

WARNING: Should during this procedure to be selected a wrong type (i.e. PSU4860 instead of PSU24), to insert the correct type enter the System Settings menu NE configuration tab panel; select the correct type; click on Apply and then restart the EC by entering menu Supervision and by activating command "Restart NE".

N.B. for V 1.0.2 only: For the Remote NE in this step the Type and the Market cannot be modified. To modify them the System Settings menu must be used.

To go to step 2 click on button “Next”.

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Step 2

The screen shown in Figure 14 on page 47 provides the fields to set the Structure of the Frame configuration (Capacity and Modulation).

The capacity implies the choice of modulation; for example, if the tributary structure is 2E1 (for ETSI market) only 4QAM modulation scheme is supported.

N.B. the association between Capacity and Modulation is shown in Table 7 below.

Table 7 - Markets, capacity and modulations

Market Capacity Modulation

2xE1 4QAM

4xE1 4QAM / 16QAM

8xE1 4QAM / 16QAM

16xE1 4QAM / 16QAM

ETSI

1xE3 4QAM / 16QAM

4xDS1 4QAM

8xDS1 4QAM / 16QAM

16xDS1 4QAM / 16QAM ANSI

1xDS3 4QAM / 16QAM

If the tributary selected is E1 the Impedance also must be selected in the Tributary Port Configuration (unbalance 75 ohm or balance 120 ohm).

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Figure 14 - Quick Installation Procedure: Frame Configuration (Step 2)

In the screen displayed in Figure 14 on page 47 (and in the following Steps), the “Back” button is enabled also. It allows the operator to turn back and change the parameters configured in the previous screen.

N.B. for V 1.0.2 only: For the Remote NE in this step the Capacity and the Modulation cannot be modified. To modify them the System Settings menu must be used.

To go to the next step click on button “Next”.

To go back to the previous step click on button “Back”.

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Step 3

Step 3 allows the operator to choose, for each tributary configured, the signal mode or disable it (Figure 15 on page 48).

Figure 15 - Quick Installation Procedure: Tributaries Configuration (Step 3)

By clicking on the one facility button (“All Framed”, “All Unframed” and “All Disabled”), the operator can configure all the tributaries with the same values; otherwise he can apply all configuration for each tributary by selecting the related value from the relevant scroll list.

NB Trib. access to be loaded, has to be configured.



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Step 4

NOTE: This screen does not appear for the 1+0 configuration.

Step 4 allows the operator to choose the restoration criteria (revertive or not revertive for the 3 possible protections available in the 1+1 configuration (Figure 16 on page 49):

– Radio protection (Rx EPS)

– Mux protection (Tx EPS)

– HST Tx protection (RF Hot Stand–by)

Figure 16 - Quick Installation Procedure: Tributaries Configuration (Step 4)



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Step 5

Step 5 allows the operator to define the basic parameters for each configured channel. The related screen is shown in the Figure 17 on page 50:

Figure 17 - Quick Configuration Procedure: Channels Configuration (Step 5)

In the Channel Configuration area is present the ATPC selection. In the current SWP version the ATPC is not implemented. Verify that the ATPC is "Disabled".

In the RTPC area (with the ATPC "Disabled") the power (constantly transmitted) can be selected by writing the suitable value in the Tx power field.

In the Frequency Value area the Tx operating frequency must be written in the Tx Freq field.

The Rx Frequency is automatically changed according to the frequency shifter available with the ODU.

All the values must be selected according to the relevant allowed ranges (shown between brackets).

N.B. for V 1.0.2 only: The Tx Frequency value can be changed only on the Local NE (To change the Tx frequency for the Remote NE use the Radio menu).

N.B. In case of 1+1HST the choices will be applied to both “channels”. In case of 1+1FD, the same screen will be reproposed for channel 0 with the same choices applied for channel 1, with the possibility to change the frequency, but without any possibility to change ATPC/RTPC selection.



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Step 6

Step 6 performs the network configuration (Figure 18 on page 51). This window allows to enter to IP address associated to the F interface of the NE.

N.B. for V 1.0.2 only: The IP Address can be changed only on the Local NE (To change the IP Address for the Remote NE use the menu Configuration Network Configuration Local Configuration.

Figure 18 - Quick Configuration Procedure: Local IP Address (Step 6)

For an advanced network configuration the operator must select the “Advanced Configuration” flag.

If the flag has been selected, the screens in the next steps allow the operator to perform a complete configuration of all the Network parameters.



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Step 7

Step 7 allows to configure one or more OSPF Areas (3 areas max.) (Figure 19 on page 52).

Figure 19 - Quick Installation Procedure: OSPF Area Configuration (Step 7)

To create a new area write a number in the Area Id field, in the IP address field write the address and in the Range Mask field enter the range associated to the OSPF area and click on Add button.

If the OSPF area must be a stub area, make the selection in the Stub Area check box.

In the upper part of the screen the new OSPF area will appear.

To remove or change an OSPF Area Configuration select the Area in the upper part and click on Remove or Change button.

WARNING: Area 0 is not managed.



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Step 8

The following windows for Network Configuration allow the complete IP configuration.

Step 8 configures one or more Static Routers (Figure 20 on page 53).

Figure 20 - Quick Installation Procedure: IP Static Router Configuration (Step 8)

The following fields and data are present:

[1] Host Address: allows to define the IP address necessary to reach a specific Host.

[2] Network Address: it is in alternative to the Host Address; allows to define the IP Mask to reach a network.

[3] Gateway Address: allows to define the address of the next hop gateway.

[4] PPP: it allows to use the point to point interfaces (the 3 NMS channels) available with the NE.



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Step 9

Step 9 allows the configuration of the NMS–RF channel (Figure 21 on page 54):

Figure 21 - Quick Configuration Procedure: NMS–RF Interface Configuration (Step 9)

The “NMS–RF” interface is a communication interface based on the use of an inframe RF proprietary 64 kbit/s channel. Through the “NMS–RF” interface the NE can exchange management messages with a remote OS (or Craft Terminal) station.

The NMS–RF channel can be Enabled or Disabled by selection in the NMS RF field.

If enabled, in the Remote Address field will appear the IP address of the remote connected NE.

In the Routing IP Protocol field enter the used IP protocol and in case of OSPF protocol select also the associated OSPF area.



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Step 10

Step 10 allows the configuration of the NMS–V11 interface (Figure 22 on page 55):

Figure 22 - Quick Configuration Procedure: NMS–V11 Interface Configuration (Step 10)

Through the “NMS–V11” interface the NE can exchange management messages with an OS (or Craft Terminal) in the same station.

The NMS–V11 channel can be Enabled or Disabled by selection in the NMS V11 field.

If enabled, in the Remote Address field will appear the IP address of the remote connected NE.

In the Routing IP Protocol field enter the used IP protocol and in case of OSPF protocol select also the associated OSPF area.

In the PPP_MODE field the following selections can be made:

– DTE mode: to interface an SDH service channel, where DCE mode is not available because of the common

synchronization of the SDH network.

– Co–directional mode: to allow the routing of the LUX40 NMS, avoiding the needed V11/Eth adapter or to link adjacent AWY. Note: For the correct operation the NMS V.11 channel has to be configured in one station as "DTE" and

in the other station as "Codirectional".



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Step 11

Step 11 allows the configuration of the NMS–G703 interface (Figure 23 on page 56):

Figure 23 - Quick Configuration Procedure: NMS–G703 Interface Configuration (Step 11)

Through the “NMS–G703” interface the NE can exchange management messages with an OS (or Craft Terminal) in the same station. The NMS–G703 channel can be Enabled or Disabled by selection in the NMS G703 field. If enabled, in the Remote Address field will appear the IP address of the remote connected NE. In the Routing IP Protocol field enter the used IP protocol and in case of OSPF protocol select also the associated OSPF area. In the PPP_MODE field the following selections can be made:

– DTE mode: to interface an SDH service channel, where DCE mode is not available because of the common

synchronization of the SDH network.

– Co–directional mode: to link adjacent AWY or to interface MUX based on 64 kbit/s, avoiding any V.11/G.703 adapter.

– In frame E1–DS1 mode: as alternative mode is possible to drop in the G703 64 kbit/s in Tributary 1, Time Slot 1 allowing the

transport of supervision messages along the traffic path. Note: For the correct operation the NMS G.703 channel has to be configured in one station as "DTE"

and in the other station as "Codirectional".

To go to the next step click on button “Next”. To go back to the previous step click on button “Back”.

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Step 12

Step 12 (Figure 24 on page 57) allows to configure the Ethernet Interface.

Figure 24 - Quick Installation Procedure: Ethernet Configuration (Step 12)

The Ethernet interface can be Enabled or Disabled by selection in the Ethernet configuration field.

If enabled, in the relevant fields below enter the IP address, the IP mask and select the Routing IP protocol. If the selected routing protocol has been OSPF, select also the area number in the Associated OSPF Area field.



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Step 13

Step 13 is the last step. The screen shown summarizes all the parameters configured during this procedure and some relevant parameters with default values (Figure 25 on page 58).

Figure 25 - Quick Configuration Procedure: Summary (Step 13)

All the parameters can still be changed by clicking on the “Back” button. The operator can navigate back to the desired screen and set the new values.

At the end the operator can confirm the selections by pressing the “Finish” button. All the parameters will be stored and sent to the NE.

NB: Reestablish the IDU-ODU cable connection in order to power ON the System ODU PTx Power.

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11.6. Transmitter frequency check-set Purpose: Verify via CT the ODU transmitted frequency. Required Instruments: PC with test software Procedure: Connect CT to IDU NB: Not required if already performed during Quick Configuration

CT ⇒ Views RADIO

In left panel select channel.

In lower right panel select frequency tab

Verify Tx frequency value (change if required).

11.7. Transmitter power output check-set Purpose: Verify /Set via CT the ODU transmitted power output. Required Instruments: - PC with test software Procedure: - Connect CT to IDU NB: Not required if already performed during Quick Configuration

CT ⇒ Views RADIO From the left panel select Channel 0 or Channel 1 From the lower right panel select RTPC & ATPC Note: ATPC must be "Disabled"

Check transmitter power levels for nominal value + 2 dB via C.T. (refer to value found in para. 9 on page 33, Checking for Nominal Power).

Set PTx value.

CT ⇒ Power Meas Start show detail on graph box

Check the received power levels

+ 4 dB from -20 dBm to -35 dBm.

+ 3 dB from -35 dBm to threshold.

Note: ATPC must be "Disabled"

Repeat for channel “1”

11.8. DS1 Line Length, Signal Mode, Line Coding Purpose: Verify the DS1 line length, signal mode, and line coding at the DDF distributor Required Instruments: - PC with test software, Pattern Gen./ Error Det (DS1 Test Set). Procedure: - Connect CT to IDU and Test Set to DDF I/O access

Verify Via CT the DS1 Line Length, Signal Mode, and Line Coding CT ⇒ Views ⇒ Line Interface Select DS n Port View Line Length, Signal Mode, and Line

Coding (change if required) Record the value into the TRS

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11.9. 1+0 System Near End Loopback Functionality Check Purpose: Verify via CT the Local Station functionality. Required Instruments: - PC with test software, -E1/DS1-or E3/ DS3 Test Set Procedure: Connect CT to IDU - Connect to IDU access the Data Patter Gen. / Error detector (Test Set) System Functionality test must be performed at the DDF. Perform the following local loopbacks, one after the other, and verify the channel functionality: WARNING: Before to activate any type of loopback force the channel or perform the channel lockout.

11.9.1. Near End Tributary Loopback

CT ⇒ Views ⇒ Loopback

Select Tributaries DS1 Port# n

Under Configuration window at Activation, select Active Apply

CT ⇒ Diagnose ⇒ Summary Block Diagram View (on screen, loopback point is yellow).

11.9.2. Near End IDU Cable Loopback


Select IDU CABLE



11.9.3. Near End ODU Cable Loopback


Select ODU CABLE



11.9.4. Near End RF Loopback


Select RF


CT ⇒ Diagnose ⇒ Summary Block Diagram View (on screen, loopback point is yellow)

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Loopback Points Description

IDU ODU

TRIB MUXDEMUX

MODDEMOD

1 2 3 416 E1/DS1E3/DS3

16 E1/DS1 E3/DS3

NOTE:

1 Near End Tributary Loopback Point

2 Near End IDU Cable Loopback Point

3 Near End ODU Cable Loopback Point

4 Near End RF Loopback Point

Figure 26 - C.T. Local Loopback Point Block Diagram

⇒While performing loop back stability tests, verify coaxial cable connectors’ assembly quality by performing some percussion stress on cable access points and IDU/ODU cables. Verify 0 ERRORS on the error detector to check installation quality.

Record the result into the TRS.

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11.10. 1+1 system Near END Loopback Functionality check Purpose: Verify via CT the Local Station functionality . Required Instruments: PC with test software , -E1/DS1-or D3/ DS3 Data Patter Gen. / Error detector Procedure: - Connect CT to IDU Connect to IDU access the Data Patter Gen. / Error detector

To perform the following tests from point A disable Mux / HST / Radio Protection by means of CT.

A) System Functionality test must be performed at the DDF.

Perform the following Local Loopbacks one after the other and verify the channel functionality: WARNING: Before to activate any type of loopback force the channel or perform the channel lockout.

CT ⇒ Views ⇒ Protection Schemes

⇒Select Protection ⇒Select Ch. ⇒Select Ch Command ( Forced )

CT ⇒ Views ⇒ Equipment ⇒ Loops back

Select Loopback Point ⇒ Under Configuration Windows Select “Activation” ⇒ Apply

Loopback Point Description

IDU ODU

TRIB MUXDEMUX

MODDEMOD

1 2 3 416 E1/DS1E3/DS3

16 E1/DS1 E3/DS3

NOTE:

1 Near End Tributary Loopback Point

2 Near End IDU Cable Loopback Point

3 Near End ODU Cable Loopback Point

4 Near End RF Loopback Point


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Repeat the tests on Ch 0 from point ( A )

Perform the following Local Loop Backs one after the other and verify the channel functionality:

CT ⇒ Views ⇒ Protection Schemes⇒Select Protection ⇒Select Ch. ⇒Select Ch Command Lockout

Record the value into the TRS.

Restore the original protection scheme condition.

⇒While performing loop back stability tests, verify coaxial cable connectors’ assembly quality by performing some percussion stress on cable access points and IDU/ODU cables. Verify 0 ERRORS on the error detector to check installation quality.


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12. COMMISSIONING STATION B (PHASE 1)

To commission station B perform the same operations as commissioning for station A (Phase 1)

as described in the previous paragraphs.

NB: Before performing “SYSTEM LOOPBACK FUNCTIONALITY CHECK, “

power off the PTx in the opposite station by disconnecting the IDU/ODU cable connection IDU side station in order to avoid any possible RF, Rx interference.

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13. COMMISSIONING THE LINK FROM STATION A (PHASE 2) Checking the Radio Transmission Parameters

Repeat the Quick Configuration Procedure

NB: Reestablish the IDU-ODU cable connection to power on the System ODU PTx Power.

13.1. Transmitter frequency check-set Purpose: Verify via CT the ODU transmitted frequency. Required Instruments: PC with test software Procedure: Connect CT to IDU NB: Not required if already performed during Quick Configuration

CT ⇒ Views RADIO

In left panel select channel.

In lower right panel select frequency tab

Verify Tx frequency value (change if required).

13.2. Transmitter power output check-set Purpose: Verify /Set via CT the ODU transmitted power output. Required Instruments: PC with test software Procedure: Connect CT to IDU NB: Not required if already performed during Quick Configuration

CT ⇒ Views RADIO From the left panel select Channel 0 or Channel 1 From the lower right panel select RTPC & ATPC Note: ATPC must be "Disabled"

Check transmitter power levels for nominal value + 2 dB via C.T. (refer to value found in para. 9 on page 33, Checking for Nominal Power).

Set PTx value.

CT ⇒ Power Meas Start show detail on graph box

Check the received power levels

+ 4 dB from -20 dBm to -35 dBm.


Note: ATPC must be "Disabled"

Repeat for channel “1”

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13.3. DS1 Line Length, Signal Mode, Line Coding Purpose: Verify the DS1 line length, signal mode, and line coding at the DDF distributor Required Instruments: PC with test software, Pattern Gen./ Error Det (DS1 Test Set). Procedure: Connect CT to IDU and Test Set to DDF I/O access

Verify Via CT the DS1 Line Length, Signal Mode, and Line Coding

CT ⇒ Views ⇒ Line Interface Select DS n Port View Line Length, Signal Mode, and Line Coding (change if required)

Record the value into the TRS

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13.4. 1+0 system Near END Loop Back Functionality check Purpose: Verify via CT the Local Station functionality. Required Instruments: PC with test software, -E1/DS1-or E3/ DS3 Data Patter Gen. / Error detector (DS1/DS3 Test Set) Procedure: Connect CT to IDU Connect the Data Patter Gen. / Error detector (DSn Test Set) to IDU access System Functionality test can be performed only on one out of N, E1 / T1 at the DDF. Perform the following local loopbacks, one after the other, and verify the channel functionality: WARNING: Before to activate any type of loopback force the channel or perform the channel lockout.

CT ⇒ Views ⇒ Equipment ⇒ Loopback

Select Loopback Point ⇒ under Configuration windows select “Activate” ⇒ Apply Loopback Point Description

IDU ODU

TRIB MUXDEMUX

MODDEMOD

1 2 3 416 E1/DS1E3/DS3

16 E1/DS1 E3/DS3

NOTE:

1 Near End Tributary Loopback Point 2 Near End IDU Cable Loopback Point 3 Near End ODU Cable Loopback Point 4 Near End RF Loopback Point


⇒While performing loop back stability tests, verify coaxial cable connectors’ assembly quality by performing some percussion stress on cable access points and IDU/ODU cables. Verify 0 ERRORS at the error detector to check installation quality.


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13.5. 1+1 system Near End Loop Back Functionality check Purpose: Verify via CT the Local Station functionality . Required Instruments: PC with test software, -E1/DS1-or E3/ DS3 Data Pattern Gen. / Error detector (DS1/DS3 Test Set) Procedure: Connect CT to IDU Connect Data Pattern Gen. / Error detector (DSn Test Set) to IDU access

To perform the following tests from point A disable Mux / HST / Radio Protection by means of CT.

A) System Functionality test must be performed at the DDF.

Perform the following Local Loopbacks one after the other and verify the channel functionality: WARNING: Before to activate any type of loopback force the channel or perform the channel lockout.

CT ⇒ Views ⇒ Protection Schemes

⇒Select Protection ⇒Select Ch. ⇒Select Ch Command ( Forced )

CT ⇒ Views ⇒ Equipment ⇒ Loopback

Select Loopback Point ⇒ under Configuration windows select “Activate” ⇒ Apply

Loopback Point Description

IDU ODU

TRIB MUXDEMUX

MODDEMOD

1 2 3 416 E1/DS1E3/DS3

16 E1/DS1 E3/DS3

NOTE:

1 Near End Tributary Loopback Point 2 Near End IDU Cable Loopback Point 3 Near End ODU Cable Loopback Point 4 Near End RF Loopback Point


⇒Record the result into the TRS. Repeat the tests on Ch 0 from point (A)

Perform the following Local Loopbacks one after the other and verify the channel functionality: CT ⇒ Views ⇒ Protection Schemes⇒Select Protection ⇒Select Ch. ⇒Select Ch Command Lockout Record the value into the TRS. Restore the original protection scheme condition.

⇒While performing loop back stability tests, verify coaxial cable connectors’ assembly quality by applying percussion stress on cable access points and IDU/ODU cables. Verify 0 ERRORS at error detector. Record the result into the TRS.

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13.6. ANTENNA POINTING ANTENNA POINTING - STATION B Purpose: POINTING THE ANTENNA Required Instruments: PC with test software, Procedure: Connect CT to IDU NB_ preliminary operations: - Disconnect the IDU / ODU Cable. - Power ON the IDU units. - Via CT make sure that on both stations the ODU frequency and Output power are settled as shown by plant documentation. - Power OFF the IDU units. - Connect IDU / ODU cable. - Power ON the IDU units. - Set all transceivers “ATPC disabled” and “Power Output - in nominal PTx Output”.

Antenna fine adjusting points are shown in the following Figure 30 on page 71.

ANTENNA MECHANICAL PRE-POINTING Overall antenna steer (with turnbuckles set to the “maximum“) is: - Bearing: 360 degrees, - Elevation: + 25 degrees. The steer obtained by the turnbuckles are: - Elevation: + 25 degrees, - Bearing: + 10 degrees.

Y H

Z

X Q

R

Figure 30 - Integrate pole mounting screw for Horizontal and Vertical alignment

Y) Horizontal position fine alignment X) Vertical position fine alignment Z) Fixing screw of horizontal position coarse alignment H) Fixing screw of horizontal position fine alignment (Y) Q) Fixing screw of vertical position fine alignment R) Fixing screws of vertical position coarse alignment (X)

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First horizontal pre-pointing (azimuth)

Horizontally place the antenna according to the direction set down in the “plant documents“ where, among the various indication are indicated those concerning the “reference points“ (Position of the tower or of the building with respect to true north) in order to point the antenna in the set direction. There are various procedures and technical means to adopt in order to mechanically pre-point the antenna, and they can be implemented in various ways according to the various configurations and to the various system conditions. Geographical Antenna pointing - The standard instrumentation is the compass.

Second vertical pre-pointing (zenith)

Place the antenna vertically nearest to its operating angle. The technical and operative procedure adopted to vertically point the antenna is as previously implemented to horizontally pre-point. Note

a ) At the end of the pre-pointing operation, slowly block all the horizontal and vertical regulating system of the antenna taking care not to modify dish direction

b ) Perform final antenna pointing (or connection) only after all antenna and ODU systems are fully installed.

(azimuth) Fine tuning Antenna pointing – Swipe the antenna from left to right side monitoring the PRx and reaching the maximum PRx level.

(zenith) Fine tuning Antenna pointing – Swipe the antenna from top to bottom side monitoring the PRx and reaching the maximum PRx level.

PRx level Monitoring:

Monitor the ODU PRx – AGC level by connecting the Multimeter through the supplied special ODU cable interface to the Outdoor Unit. For the use of this cable refer to Annex F on page 95.

The Rx received power can be measured also using a special cable, see paragraph 8.7 on page 31.

With the turnbuckles, fine tune the elevation and bearing settings until you obtain the maximum Rx power from station A.

Tighten the side-mounted elevation locking screw.

Received power level displayed on the PSK is greater than –70 dBm.

POINTING THE ANTENNA - STATION A

Adjust the orientation of the antenna in the same way as for station B.

After this operation the radio link between the two stations should be present; perform the following actions to test the functionality of this link.

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13.7. Received power Purpose: Once the antenna alignment is completed, perform the PRx level Required Instruments: PC with test software, Procedure: Connect CT to IDU

CT RADIO Power measurement select channel (“0”) OK select Show details

select channel (“1”) OK select Show details

Check that received power levels match the nominal received power indicated on the hop calculation document to within: + 4 dB from -20 dBm to -35 dBm.


Record PRx values into the TRS.

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13.8. 1+0 System Test Functionality Check

13.8.1. Tributary functionality check

Purpose: Verify the Point to Point tributary functionality check Required Instruments: PC with test software, Pattern Generator / Error Detector (DS1/DS3 Test Set) Procedure: Connect CT to IDU and Pattern to IDU Access IN/OUT

Set up a SW or HW remote loop:

Verify that the ATPC has been disabled in both station A and B.

Check that no alarms and no manual operations are active.

Set up a SW remote loop

CT Views Loopback

Select Tributaries Select Port Select Active Apply

Set up a HW remote loop

The operator at the remote station must set up the loopback through a cable loop, Figure 31 on page 74,

F Interf.

ODU

Com 1

IDU

REMOTE STATION

ODU

LOOPBACK

ERROR DETECTOR

PATTERN GEN.

E1 signal

N.B.ERROR DETECTOR

PATTERN GEN.

E3 signal

N.B.

N.B.: As alternative.

Figure 31 - Test bench for functionality check

CHECK: The PDH analyzer detects no error. -

Perform the present test on each E1/DS1–or–E3/DS3 access for a few minutes to verify the system functionality.

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13.8.2. Ethernet Data Interface functionality check (not yet implemented)

Purpose: Verify the Point to Point Ethernet Data functionality check Required Instruments: PC with test software, Ethernet Data Pattern Generator / Error Detector Procedure: Connect CT to IDU and Pattern to IDU Ethernet Data Access IN/OUT

Use the same test bench shown in paragraph 13.8.1 on page 74 (Figure 31 on page 74) and insert the Ethernet signal as shown in Figure 32 on page 75.



ETHERNET DATA

ANALYZER

Figure 32 - Test bench for Ethernet channel functionality check

CHECK: The Ethernet Analyzer detects no error; perform the present test for a few minutes.

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13.9. 1+1 system test functionality check

13.9.1. Tributary functionality check

Purpose: Verify the Point to Point tributaries functionality Required Instruments: PC with test software, Pattern Gen./ Error Det. Procedure: Connect CT to IDU and Pattern Gen./ Error Det. to DDF I/O access

Set up a SW or HW remote loop:



Set up a SW remote loop

CT⇒ Views Loopsback

⇒ Select Tributaries Select Port Select Active Apply

Set up a HW remote loop

The operator at the remote station must set up the loop back through a cable (Figure 33 on page 76).

F Interf.

ODU

Com 1

IDU

REMOTE STATION

ODU

LOOPBACK

ERROR DETECTOR

PATTERN GEN.

ODU ODU

E1 signal

N.B.ERROR DETECTOR

PATTERN GEN.

E3 signal

N.B.

N.B.: As alternative.


CHECK: The Pattern Gen./ Error Detector analyzer detects no error.

Perform the present test on each E1/DS1–or–E3/DS3 access for a few minutes to verify the system functionality.

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13.9.2. Ethernet Data Interface functionality check (not yet implemented)

Purpose: Verify the Point to Point Ethernet Data Interface functionality Required Instruments: PC with test software, Pattern Gen./ Error Detector Procedure: Connect CT to IDU and Pattern Gen./ Error Detector to BB I/O access Use the same test bench shown in paragraph 13.9.1 on page 76 (Figure 33 on page 76) and insert the Ethernet signal as shown in Figure 34 on page 77.



ETHERNET DATA

ANALYZER

Figure 34 - Test bench for Ethernet channel functionality check

CHECK: The Ethernet Analyzer detects no error; perform the present test for a few minutes.

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13.10. Craft Terminal REMOTE NE acquisition check

13.10.1. Craft Terminal REMOTE NE acquisition NMS Radio side check

Purpose: Verify via CT the REMOTE NE acquisition Radio side functionality Required Instruments: PC with test software, Procedure: Connect CT to IDU

Verify via local CT on both sides the Local NE – NMS Radio Side Enabling Configuration

Connect the serial cable of the PC to the CT ( “F” interface) connector on the IDU.

START the “1320 CT” application. wait until the NES window appears.

CT⇒Select the remote NE icon ⇒ Supervision START

⇒Select Configuration Network Configuration IP Configuration IP Add. Conf. Point to Point


Create NE to supervise into the CT Map - See Operator Handbook--


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The Map lamp on the CT turns gray and the question mark next to the equipment’s name disappears

⇒ Supervision Show Equipment wait until the “Main View” mask appears.


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13.10.2. Craft Terminal REMOTE NE acquisition NMS Line side check

Purpose: Verify via CT the REMOTE NE acquisition Line side functionality Required Instruments: PC with test software, Procedure: Connect CT to IDU

Verify via local CT on both NE the Local NE – NMS Line Side Enabling Configuration

Connect the serial cable of the PC to the CT ( “F” interface) connector on the IDU.

START the “1320 CT” application. wait until the NES window appears.


⇒Select Configuration Network Configuration IP Configuration IP Add. Conf. Point to Point

⇒Select V11 NMS Interface or G.703 NMS Interface Ch Configuration Enable


Create NE to supervise into the CT Map - See Operator Handbook-


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The Map lamp on the CT turns gray and the question mark next to the equipment’s name disappears

⇒ Supervision Show Equipment wait until the “Main View” mask appears.


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13.10.3. 64Kbit/s Service Data channel configuration and check

Purpose: Verify the point to point the 64Kbit/s service data Ch. functionality Required Instruments: PC with test software, 64Kbit/s Pattern Gen / Error Detector Procedure: Connect CT to IDU F Interface and Pattern Gen to IDU service data I/O

Craft Terminal setting: There are no SW configuration differences in configuring BB 1+0 & BB 1+1

- Interface V11 Data Ch CT Configuration

C.T. configuration System Setting Overhead

Auxiliary Interface Configuration ( Select Data Ch. “ V11 Co directional “ Interface )

Apply Close

- Interface G.703 Data Ch CT Configuration

C.T. configuration. System Setting Overhead

Auxiliary Interface Configuration (Select Data Ch. “G703 “Interface )

Select “Alarm Profile “( Primary Alarms )

Apply Close

Use the same test bench shown in paragraph 13.8.1 on page 74 (Figure 31 on page 74) and insert the Data channels signals as shown in Figure 41 on page 82.

Figure 41 - Test bench for Service Data channels functionality check

CHECK:

The V11 and G703 Data Analyzer detects no error; perform the test for a few minutes on Ch 0 / 1.

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13.11. 1+1 System Switching Function Purpose: Verify the data Ch. Switching Function Required Instruments: PC with test software, Pattern Gen / Error Detector Procedure: Connect CT to IDU F Interface and Pattern Gen to IDU service data I/O EPS Status: - To check channel status state activate:

CT ⇒ Diagnosis Summary Block Diagram View Switching: - Force channel 0/1 status

CT ⇒ Radio Protection Schemes Mux protection (EPS-Tx)

or Radio protection (EPS-Rx)

or HST Tx protection Perform the following operations to check switching function.

Forced Apply (to force CH0 into service)

None Apply (to remove forcing)

Lockout Apply (to force CH1 into service)

None Apply (to remove Lockout)

With Pattern Generator check the correct switch action.

Figure 42 - C.T. switching schematic diagram WARNING: The Summary Block Diagram View does not provide real time information. To update the information on the view (i.e. active loopbacks, performance, switch position, etc.) press the Refresh pushbutton.

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13.12. 1+0 SYSTEM Far End Loopback Functionality check Purpose: Verify the Far End Loopback Functionality Required Instruments: PC with test software, Pattern Gen / Error Detector Procedure: Connect CT to IDU F Interface and Pattern Gen to IDU service data I/O

CT ⇒ Views Equipment Loops back

⇒ Select Loop Back Point ⇒ under Configuration windows select “Activate” Apply WARNING: Before to activate any type of loopback force the channel or perform the channel lockout. Loopback Point description

- Far end IDU tributary loopback – internal – Channel # 0-1 / E1 Port # 1/16 – Ch 0-1 NE

Figure 43 - C.T. Loopback Point Block Diagram

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13.13. 1+1 SYSTEM Far End Loopback Functionality check Purpose: Verify the Far End Loopback Functionality Required Instruments: PC with test software, Pattern Gen / Error Detector Procedure: Connect CT to IDU F Interface and Pattern Gen to IDU service data I/O

CT ⇒ Views Equipment Loops back

⇒ Select Loop Back Point ⇒ under Configuration windows select “Activate” Apply WARNING: Before to activate any type of loopback force the channel or perform the channel lockout. Loopback Point description

- Far end IDU tributary loopback – internal – Channel # 0-1 / E1 Port # 1/16 – Ch 0-1 NE

Figure 44 - C.T. Loopback Point Block Diagram

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13.14. Engineering Orderwire (EOW) functionality Check

13.14.1. Orderwire Connections

Connect handset to EOW line on IDU at two different Stations. See section 8, Access Point View.

NOTE: On the handset, P = Pulse, T = Tone. Set DIAL LOCK switch to Dial and OFF ON switch to OFF prior to making a call.

IDU phone number at the CT at both stations. To change IDU phone number perform following:

CT Configuration System Settings Overhead (phone number) Apply

EOW connections at CT exist at both stations.

Perform the following tests:

Via Handset, call at station A IDU to handset at station B IDU, leave the EOW ON and perform Witch CT Views Protection Schemes Select Schemes Select Ch select Command Manual Apply

After protection, verify that EOW Ch functionality is again ON

ODU

Station A IDU

Station BIDU

P T DIAL LOCK

OFF ON

ODU

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13.14.2. Using Handset connected to BB

To Call From Handset:

1. Check that line is free (EOWfree green LED is on). 2. Handset OFF/ON switch to ON. 3. On keypad, press # to engage line. 4. Check that EOWbsy yellow LED on MAIN is on. 5. On keypad, dial two-digit number of station to be called. 6. Check that audio connection exists.

To Answer Call At Handset:

1. EOWbsy yellow LED flashes and audible tone is present. 2. Connect handset to IDU, set ON/OFF switch to ON, press # on keypad.

To End Call from Handset:

1. On keypad, press *. 2. Move ON/OFF switch to OFF.

13.14.3. Ways of Calling

NOTE: Two different ways of calling are possible:

• SELECTIVE: a connection between two users.

User number is programmable by software between 10 and 99.

• OMNIBUS: a unidirectional connection with all the users.

To place an omnibus call, dial digit 00.

NOTE: LEDs indication:

• GREEN: free line.

• YELLOW: busy line.

• Flashing YELLOW: received and recognized call.

NOTE: Telephone keyboard:

HEADSET PSK MEANING

Force unlocking of the line.

Engage line

*

#

RST

ENG

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13.15. ATPC Functionality (not yet implemented) Purpose: Verify the ATPC functionality Required Instruments: PC with test software, Pattern Gen / Error Detector Procedure: Connect CT to IDU F Interface and Pattern Gen to IDU service data I/O

CT ⇒ Radio RTPC & ATPC ATPC enable

link works with no errors with PRx level greater than max ATPC threshold,

PTx goes down at minimum level (See Hop calculation).

13.16. BER intrusive Functionality Purpose: Verify the BER intrusive Functionality Required Instruments: PC with test software, Pattern Gen / Error Detector Procedure: Connect CT to IDU F Interface and Pattern Gen to IDU service data I/O

NOT Available in the present version

13.17. BER Stability test Purpose: Verify over 12 H the Hop BER Stability test Required Instruments: PC with test software, Pattern Gen / Error Detector Procedure: Connect CT to IDU F Interface and Pattern Gen to IDU service data I/O NB1_ _BER stability test MUST be performed POINT to POINT, NO loops are allowed. NB2_ _BER stability test MUST be performed, on each radio path. settled in Lockout / Forced Condition NB3_ _During BER stability test, ATPC function must be settled enabled. NB4_ _During BER stability test, we suggest to monitor via CT the Hop PTx and the PRx levels. NB5_ _During BER stability test, we suggest to monitor via CT the Hop NEs Alarms condition. NB6_ _BER stability test result has to be referred to hop calculations. Disconnect Pattern Gen Tx to BB Access and verify Trib MAJ Al. Loss OS at the access Port via CT CT ⇒Views ⇒Line Interface ⇒Select Port . See Alarm Table into the Windows .

13.18. End of Commissioning in Station A End of commissioning on Station A

To terminate perform the following:

⇒ Remove any Local or Remote loop an Manual Operations CT ⇒ Exit local supervision mode.

13.19. End of Commissioning in Station B To terminate perform the following:

⇒ Remove any Local or Remote loop an Manual Operations CT ⇒ Exit local supervision mode.

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ANNEXES

Annex A Troubleshooting

A.1. Analog measurements

In case of two CT connected to the NE, as shown in the figure below, and at the same time both open on the menu Radio Power Meas, the analog measurements relevant to the PTx rem (Tx power of the Remote NE) and the PRx rem (Rx power of the Remote NE) could have some instabilities (i.e. an intermittent +99 dBm is reported for the PTx rem and -99 dBm is reported for the PRx rem).

A.2. NMS 64 kbit/s V.11 and G.703

For a correct operation the NMS channel has to be configured in one station as "DTE" and in the other station as "Codirectional".

This selection can be done in the Quick Configuration Procedure in Step 10 (for NMS V.11 channel) and in Step 11 (for NMS G.703 channel) or in the Menu Configuration Network Configuration IP Configuration

IP Point to Point Configuration.

A.3. Loopbacks

For a correct activation of every loopback (Loopback menu):

- the relevant tributary must be enabled (Quick Configuration Procedure Step 3)

- the local transmitter must be not muted (Menu Radio Configuration)

Note 1: The loopback will become active after 6-7 sec. approx. (24 sec. approx. for the RF loopback).

Note 2: The time for a new set is 120 to 160 sec. approx.

ODU

Station A IDU

Station B IDU

ODU

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A.4. Empty USM icon in NES

Enter Windows Task Manager and stop the process relevant to the empty USM. A.5. NE unreachable

Due to a deep fading the radio remote NE can be unreachable. In this condition in the USM will appear the following message:

- The USM must be closed.

In the NES will appear a broken icon and a red bullet.

- Wait for the automatic restarting of the Supervision (at the end of the fading conditions). The icon in NES will become whole and the bullet will take the color relevant to the alarms (if any) active in the NE.

- If the Supervision does not start, close and open again the CT.

- If the Supervision does not start, switch off and switch on the PC. A.6. Configuration change from 4 QAM to 16 QAM

With 16 QAM the max. Tx power must be typically 3 dB below the max. Tx power of the 4 QAM (refer to the attached Test Result Sheet). A.7. Quick configuration menu correct use

The Quick Configuration menu must be used during the first installation to configure completely the NE and also if some multiple configuration changes must be done (i.e. change of all the tributaries from "Framed" to "Unframed" or vice-versa for the E1 signal or from "Unframed" to "Framed SF" or "Framed ESF" or vice-versa for the DS1 signal both in the Local and Remote NE).

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Annex B Presettings

No hardware Presettings are present.

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Annex C Housekeeping Alarms/Control front panel connector description

C.T. housekeeping configuration and check:

USER LABEL Set CT⇒External points Select INPUT/OUTPUT Enter USER LABEL

HA INPUT CT⇒External points Select INPUT

HA OUTPUT CT⇒External points Select OUTPUT Select Polarity Select External State ON

ALM(6)

1

915

8

The “Alarms-Housekeeping” SubD15 connector is divided in: 3 summarizing discrete alarms – equipment outputs; 4 housekeeping controls – equipment outputs; 6 housekeeping alarms – equipment inputs; 1 common wire dedicated to equipment outputs; 1 common wire dedicated to equipment inputs.

Pin Connector Signal Direction 6 M2 HK_I1 INPUT

13 M2 HK_I2 INPUT 7 M2 HK_I3 INPUT

14 M2 HK_I4 INPUT 8 M2 HK_I5 INPUT

15 M2 HK_I6 INPUT 4 M2 HK_O1 OUTPUT

11 M2 HK_O2 OUTPUT 5 M2 HK_O3 OUTPUT

12 M2 HK_O4 OUTPUT 9 M2 COM 1 M2 A_1 OUTPUT 2 M2 A_2 OUTPUT 3 M2 A_3 OUTPUT

10 M2 GND /

Figure 45 - Alarms-Housekeeping connections

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Annex D Auxiliary Channel front panel connector description

ESC(5)

1

915

8

SERVICE channel provides external access for auxiliary channel by means a 15 pins SubD 15 connector female.

Pin # Connector Signal Direction

2 M1 COD_RXP INPUT 9 M1 COD_RXN INPUT 3 M1 COD_TXP OUTPUT 10 M1 COD_TXN OUTPUT 4 M1 RX_ASY INPUT 11 M1 TX_ASY OUTPUT 5 M1 CC_RXP INPUT 12 M1 CC_RXN INPUT 6 M1 RX_CKP BID 13 M1 RX_CKN BID 7 M1 CC_TXP OUTPUT 14 M1 CC_TXN OUTPUT 8 M1 CC_TCKP OUTPUT 15 M1 CC_TCKN OUTPUT 1 M1 GND /

Figure 46 - SERVICE CHANNEL connections

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Annex E Base Band - EOW telephone number SW setting

BB - EOW selecting call telephone phone number Software setting:

In order to set the BB telephone number, perform the following operations:

CT ⇒ Configuration ⇒ System Settings ⇒ Overhead

⇒ Enter two digits Phone Number ⇒ Apply ⇒ Close

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Annex F Rx power monitoring cable operative information

Figure herebelow shows this optional cable:

Figure 47 - Rx power monitoring cable

Connector usage:

- (A) LEMO connector, to be plugged into LEMO connector on ODU

- (B) LEMO connector, to connect, if necessary, the PSK’s connector LEMO (B)

- banana plugs (C) and (D) : output is a 0 to +3V dc voltage proportional to the radio Rx field. During equipment line–up, through a multi–meter it is possible to easily point the antenna until the measured voltage is the maximum, corresponding to the maximum radio Rx field. Actual Rx field value can be measured through Craft Terminal (see CT Operator’s Handbook).

- (E) RS232 connector, for ALCATEL internal use only.

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Annex G Software download via C.T. (when memory is already written) Purpose: Software download VIA CT Com N Serial Port the NE SW Required Instruments: PC with test software, Procedure: Connect CT to IDU F Interface and Pattern Gen to IDU service data I/O

Beware : This operation can be executed only if on Flash card is already present a SW packet.

IDU Craft terminal RS232 / F interface 9 Pins connectors Pin to Pin cabled:

PC Con. N (Serial Port interface RS232) port to BB Main IDU UNIT F interface Connection

NES ⇒ menu Select Supervision Files Administration SWP Administrator

Under SDH / WDM Install

Look For : Alcatel / ECT / SWDW / R94 AWY / SW V. XX / R94A Open

Close

EM-USM ⇒ Select SW Download on the EML-USM menu.

√ Check for the Download menu

⇒ Select “Init Download” on the download menu

√ Check for the “SW Download initiate” dialogue box

⇒ Select the server package and SW version to be loaded

→ Click on “Forced” →

→ Click on “Init Download” push button →

√ Wait till the end of the SW download

→ Click on the “Close” push button. →

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Annex H Software download VIA SIBDL (when memory is empty ) Purpose: Software download VIA SIBDL Required Instruments: PC with test software, Procedure: Connect CT to IDU F Interface and Pattern Gen to IDU service data I/O Notice : Operation to be performed when FLASH card memory is empty or CT SW Version is not responding

NB: The following procedure is not a standard systems installation requirement because the system is supplied with its equipped configured software.

1) Connect the PC (Ethernet output) to connector RJ45 related to Q3 10/100 base T OS IN / OUTPUT, present on the Main IDU UNIT inserted in slot 1, a cross connected cable must be used, the connection are shown in the following table:

SIDE A (RJ45) M1 SIDE B (RJ45) M2

1 3 2 6 3 1 6 2 8 8

As alternative a HUB module can be used, in this case the interconnecting cable is a pin to pin.

2) Connect the PC Com N (Serial Port interface RS232) to BB F interface connector present on the Main IDU UNIT inserted in slot 1, a 9 Pins - Pin to Pin – able connected cable must be used.

Table 8 - SIBDL Cable pin out and RS 232 Cable

2) Turn OFF the equipment.

3) To perform the SIBDL download, set the I2 placed on Main unit in the following HW configuration:

Main unit Mother Board I2 Setting

1 ON 2 ON

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4) Turn ON the equipment.

5) Connect CT to IDU F Interface and Ethernet interface

6) Activate the SIBDL download procedure as follows: ⇒Click “Start” →Click “Program” →Click “ALCATEL” →Click “SIBDL X.X” →Click “SIBDL” The SIBDL window is now open, from available comands chose → “Automatic mode” digit “8” and ENTER

7) When “SOURCE FILE” is displayed, act as follows: ⇒ Select “File manager” → Select the la directory “ALCATEL” →Click “JUSMw X.X.X ” →Click “ECT” swdw– R94AWY →Click “V.x.x.x” → Carry on the file “R94A.dsc” up to the window “Source File” → Click “ENTER”

8) When “NE _ IP _ Address” (PPP_TELNET) is displayed, digit :

- IF YOU CHOSE TELNET PROTOCOL; the download will go via Ethernet port and will take 5 minutes

Digit : = The simulated NE IP address = Your PC network IP Address number + 1 (Write your work station IP_address. Enter your IP (es 151.98.12.277) plus one = (es 151.98.12.278))

- IF YOU CHOSE PPP PROTOCOL; the download will go via RS232 serial port will take 20 minutes

Digit: = PPP

9) When “Format target flash Card” (Y/N) is displayed, chose Y . ENTER

10) When “Al information will be removed. Are you sure? ” (Y/N) is displayed, chose Y . ENTER

11) When “Verify checksum ” (Y/N) is displayed, chose Y . ENTER

11) The SIBDL program now will start the software download procedure.

11) When the download process finishes the equipment software is loaded.

12) Turn OFF the equipment.

13) Set the I2 placed on Main Unit in the original configuration:

Main Unit I2 Setting

1 OFF 2 OFF

14) 14) Turn ON the equipment.

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15) By means of equipment CT start the 1320 CT – and wait until the communication is enabled.

16) Operate the “Start up” procedure.

17) As soon as the dialogue between the NE and the Craft Terminal is restored: select the EML-JUSM window and click on the “SW Download” menu

From the “SW Download” menu →select “ Init SW Download → select the software release. →Click on OK (the operation will take few second and will load the .dsc on the flash card).

18) From the “SW Download” menu → select “SW Status” →Click on SW Unit Status (You can now verify the SW packet component’s release). 19) You can now start to SW configure the NE .

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Annex I Repair Form

END OF DOCUMENT

01 19/04/2004 O. Benaglia


9400 AWY - Rel.1.0 V.1.0.0

Short-haul low/medium capacity digital microwave radio links Test Result

ED 01 9400 AWY – Tests result

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9400 AWY Rel.1.0 V.1.0.0 Short-haul low/medium capacity

digital microwave radio links Test Result


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TEST RESULT

TESTS RESULT ACCEPTANCE PROTOCOL ..............................................................................3 1. SYSTEM INSTALLATION AND CABLING VISUAL INSPECTION........................................................5

1.1. INDOOR System installation and cabling visual inspection.................................................................5 1.2. OUTOOR System installation and cabling visual inspection ...............................................................6 1.3. LOCAL Config & Functionality TESTs RESULT SHEET: 94oo AWY...................................................7 1.4. HOP TESTS RESULT SHEET: 94oo AWY TRANSCEIVER...............................................................8 1.5. NE INTEGRATION TESTS RESULT SHEET: 94oo AWY TRANSCEIVER........................................9

2. SYSTEM INSTALLATION AND CABLING VISUAL INSPECTION......................................................10 2.1. INDOOR System installation and cabling visual inspection...............................................................10 2.2. OUTOOR System installation and cabling visual inspection .............................................................11 2.3. LOCAL Config & Functionality TESTs RESULT SHEET: 94oo AWY.................................................12 2.4. HOP TESTS RESULT SHEET: 94oo AWY TRANSCEIVER.............................................................13 2.5. NE INTEGRATION TESTS RESULT SHEET: 94oo AWY TRANSCEIVER......................................14 2.6. R.F. POWER Output level and Receiver threshold tables..................................................................15

3. BER INTRUSIVE THRESHOLDS...........................................................................................................16 3.1. ETSI BER INTRUSIVE Thresholds.....................................................................................................16 3.2. FCC BER INTRUSIVE Thresholds .....................................................................................................20


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TESTS RESULT ACCEPTANCE PROTOCOL

Ref. CCP: .........………………....…..…………………….……………………….... STATION “A” NAME :……………………………………….……………………... STATION “B” NAME :……………………………………….………….………….. SYSTEM TYPE:……………………………94………. AWY ………………..….. CONFIGURATION: .……………………… SYS Modulation.……….………….. SW Package VERSION: .………………………..……………….……………….. HOP PENDINGS:………….…….…………………………………….………….. - :………………….………………………………………………...………….. - :………………….………………………………………………...………….. - :………………….………………………………………………...………….. - :………………….………………………………………………...………….. - :………………….………………………………………………...………….. - :………………….………………………………………………...………….. - :………………….………………………………………………...………….. - :………………….………………………………………………...…………..

TESTS RESULT ACCEPTANCE SIGNATURE

Company Name / Signature

CUSTOMER: .....……………………………../……..…………….………............. CUSTOMER: .....……………………………../……..…………….………............. CONTRACTOR:.....………………………...../……..…………….………............. CONTRACTOR:.....……………………….…/……..…………….……….............


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DATE /….…...../….…..…/….…..…/


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1. SYSTEM INSTALLATION AND CABLING VISUAL INSPECTION

1.1. INDOOR System installation and cabling visual inspection

STATION “ A “ NAME :…………….…………….. / DIRECTION “ B “ NAME:…………….…………….. /

INDOOR CHECK LIST RADIO INDOOR INSTALLATION VISUAL INSPECTION CHECK - PASS FAIL Check Rack allocation according to the station layout. Check Sub-Rack allocation according to the station layout. Check TRU installation according to the AWY Installation Manual. Check Rack and Sub racks Ground connections. Check IDU / ODU Ch 0 Cable installation - DO NOT interconnect IDU / ODU cable to BB Check IDU / ODU Ch 1 Cable installation - DO NOT interconnect IDU / ODU cable to BB Check IDU / ODU Ch 0 Cable grounding connection – IDU side. Check IDU / ODU Ch 1 Cable grounding connection – IDU side. Check Ch 0 Power Supply Voltage , polarity and connection. Check Ch 1 Power Supply Voltage , polarity and connection. Check FLASH Card labelling identification presence on BB. Check E1/DS1 – 1 to 8 - interconnections and labelling identification from BB and DDF. Check E1/DS1 – 9 to 16 - interconnections and labelling identification from BB and DDF. Check E3/DS3 interconnections and labelling identification from BB and DDF. Check Ethernet 1 electrical interconnection and labelling identification from BB to DDF. Check Ethernet 2 electrical interconnection and labelling identification from BB to DDF. Check NE Physical System configuration (equipped units):according to Sys. Documentation Check House keeping control cabling - only if foreseen by plant doc and wired to DDF Check House keeping alarm cabling - only if foreseen by plant doc and wired to DDF Check service Data Ch. cabling - only if foreseen by plant doc and wired to DDF Check NMS supervision Data Ch. Connection - only if foreseen by plant doc and wired to DDF

Company Name / Signature CUSTOMER: .....……………………………../……..……………..………............. CONTRACTOR:.....……………………….…/……..…………….…..…….............

DATE /….…...../….…..…/….…..…/


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1.2. OUTOOR System installation and cabling visual inspection

STATION “ A “ NAME :…………….…………….. / DIRECTION “ B “ NAME:…………….…………….. /

OUTDOOR CHECK LIST

RADIO OUTDOOR INSTALLATION PARTS VISUAL INSPECTION CHECK - PASS FAIL Check NON Integrated Antenna installation Check NON Integrated Antenna PHOLE Mounting installation Check Integrated Antennas & Integrated PHOLE Mounting installation Check RF Coupler installation . Check NON integrated Antennas SYS grounding connection. Antennas grounding connection. Antennas Flex twist connection. ODU 0 grounding connection. ODU 1 grounding connection. RF Coupler grounding connection. Check integrated Antennas SYS grounding connection. Integrated PHOLE Mounting grounding connection. ODU 0 grounding connection. ODU 1 grounding connection. RF Coupler grounding connection. Check Antenna Polarisation according to the Plant documentation. Check IDU / ODU Ch 0 Cable grounding connection – Outdoor side. Check IDU / ODU Ch 1 Cable grounding connection - Outdoor side. Check On ODU side the presence of Vulcanising rubber tape on connector and Flex junctions Check Antennas EMF warning labelling presence .

Company Name / Signature CUSTOMER: .....……………………………../……..……………..………............. CONTRACTOR:.....……………………….…/……..…………….…..……............. DATE /….…...../….…..…/….…..…/


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1.3. LOCAL Config & Functionality TESTs RESULT SHEET: 94oo AWY STATION “ A “ NAME :…………….…………….. / DIRECTION “ B “ NAME:…………….…………….. /

IDU Characteristics reported on the Test Result Sheet are guaranteed in the -5 ÷ +50 °C temperature range. ODU Characteristics reported on the Test Result Sheet are guaranteed in the -45÷ +55 °C temperature range.

LOCAL TESTS MEASUREMENTS 1 NE SW Key Number NE SW Key Code NE Parameters Configuration Type Market

2 Frame Configuration & Impedance Capacity Modulation 3 Trib. 1 Config. Framed Unframed Trib. 9 Config. Framed Unframed Trib. 2 Config. Framed Unframed Trib. 10 Config. Framed Unframed Trib. 3 Config. Framed Unframed Trib. 11 Config. Framed Unframed Trib. 4 Config. Framed Unframed Trib. 12 Config. Framed Unframed

Trib. 5 Config. Framed Unframed Trib. 13 Config. Framed Unframed

Trib. 6 Config. Framed Unframed Trib. 14 Config. Framed Unframed Trib. 7 Config. Framed Unframed Trib. 15 Config. Framed Unframed Trib. 8 Config. Framed Unframed Trib. 16 Config. Framed Unframed4 Radio Protection Configuration Revertive Not Revertive Mux Protection Configuration Revertive Not Revertive HST Protection Configuration Revertive Not Revertive

5 POWER (dBm) Ch Config. ATPC Enabled ATPC Disabled RTPC - PTx NOMINAL POWER Tx 0 PTx POWER Tx 0 RTPC - PTx NOMINAL POWER Tx 1 PTx POWER Tx 1 ATPC - PTx MIN VALUE Tx 0 ATPC - PTx MAX VALUE Tx 0 ATPC - PTx MIN VALUE Tx 1 ATPC - PTx MAX VALUE Tx 1 ATPC – Rx 0 Threshold ATPC – Rx 1 Threshold RTX FREQUENCY Tx 0 RTX FREQUENCY Rx 0 RTX FREQUENCY Tx 1 RTX FREQUENCY Rx 1

6 IP Address Configuration Enabled Disabled 7 OSPF Config IP Add. and range Msk Area 1 Area 2 Area 3 8 Host Add. Net. Add G.teawy PPP Id 9 NMS Radio Side Configuration Enabled Disabled 10 NMS V11 Configuration Enabled Disabled 11 NMS G703 Configuration Enabled Disabled 13 ETH Configuration Enabled Disabled

ETH - IP Address ETH - IP Mask

14 LOCAL LOOP Near end Tributary PASS FAIL LOCAL LOOP Near end IDU Cable Ch1 PASS FAIL Ch0 PASS FAIL LOCAL LOOP Near end ODU Cable Ch1 PASS FAIL Ch0 PASS FAIL LOCAL LOOP Near end RF Ch1 PASS FAIL Ch0 PASS FAIL


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1.4. HOP TESTS RESULT SHEET: 94oo AWY TRANSCEIVER STATION “ A “ NAME :…………….…………….. / DIRECTION “ B “ NAME:…………….…………….. / IDU Characteristics reported on the Test Result Sheet are guaranteed in the -5 ÷ +50 °C temperature range. ODU Characteristics reported on the Test Result Sheet are guaranteed in the -45÷ +55 °C temperature range.

HOP TESTS MEASUREMENTS 1 Tributary E1/D1 or E3/DS3 or ETH1/2 BER test Ch0 CHECK PASS FAIL

Tributary E1/D1 or E3/DS3 or ETH1/2 BER test Ch1 CHECK PASS FAIL

Data Ch 64Kbit/s service data Ch. BER test Ch0 CHECK PASS FAIL


E1/DS1 or E3/DS3 or ETH1/2 BER intrusive test Ch0 CHECK PASS FAIL


REMOT NE acquisition NMS Radio side CHECK PASS FAIL

REMOT NE acquisition NMS Line side CHECK PASS FAIL

2 EPS MUX Prot. Functionality check on Ch 0 & Ch1 CHECK PASS FAIL

HST Tx Prot Functionality check on Ch 0 & Ch1 CHECK PASS FAIL

EPS Radio Prot. Functionality check on Ch 0 & Ch1 CHECK PASS FAIL

3 EOW Functionality check on Ch 0 & Ch1 CHECK PASS FAIL

EOW Protection Functionality check on Ch 0 & Ch1 CHECK PASS FAIL

PSK EOW from / to BB Functionality check on Ch 0 & Ch1 CHECK PASS FAIL

PSK PTx Reading Functionality check on Ch 0 & Ch1 CHECK PASS FAIL

PSK PRx Reading Functionality check on Ch 0 & Ch1 CHECK PASS FAIL

CH 0 CH 1

4 PTx LEVEL–Pow meas. By CT See Hop Calculation ± 2 dB

PRx LEVEL–Pow meas. By CT See Hop Calculation ± 5 dB

5 ATPC Functionality check CHECK

6 REMOT LOOP BACK Far end IDU Trib. check CHECK

IDU/ODU cable connectors BER test on connector percussion CHECK

7 1XE1/DS1 or E3/DS3 12 H. Sys. stability test Ch 0 Hop Calc PASS FAIL

1XE1/DS1 or E3/DS3 12 H. Sys. stability test Ch 1 Hop Calc PASS FAIL


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1.5. NE INTEGRATION TESTS RESULT SHEET: 94oo AWY TRANSCEIVER

STATION “ A “ NAME :…………….…………….. / DIRECTION “ B “ NAME:…………….…………….. / IDU Characteristics reported on the Test Result Sheet are guaranteed in the -5 ÷ +50 °C temperature range. ODU Characteristics reported on the Test Result Sheet are guaranteed in the -45÷ +55 °C temperature range.

NE INTEGRATION MEASUREMENTS CH 0 CH 1

1 NMS V11 Functionality check If foreseen by Plant Doc CHECK

2 NMS G703 Functionality check If foreseen by Plant Doc CHECK

3 ETHERNET port Functionality check If foreseen by Plant Doc CHECK

4 EOW Functionality Line side check If foreseen by Plant Doc CHECK

5 E1/DS1 or E3/DS3 - Line side Access Connection Alarm LOSS CHECK

6 Trib. 1 DS1 SW Equalization CHECK Trib. 9 DS1 SW Equalization CHECK Trib. 2 DS1 SW Equalization CHECK Trib. 10 DS1 SW Equalization CHECK Trib. 3 DS1 SW Equalization CHECK Trib. 11 DS1 SW Equalization CHECK Trib. 4 DS1 SW Equalization CHECK Trib. 12 DS1 SW Equalization CHECK

Trib. 5 DS1 SW Equalization CHECK Trib. 13 DS1 SW Equalization CHECK

Trib. 6 DS1 SW Equalization CHECK Trib. 14 DS1 SW Equalization CHECK Trib. 7 DS1 SW Equalization CHECK Trib. 15 DS1 SW Equalization CHECK Trib. 8 DS1 SW Equalization CHECK Trib. 16 DS1 SW Equalization CHECK

M2 House Keeping Alarms and Control Direction PASS FAIL 6 HK_I1 INPUT CHECK

13 HK_I2 INPUT CHECK 7 HK_I3 INPUT CHECK


15 HK_I6 INPUT CHECK 4 HK_O1 OUTPUT CHECK

11 HK_O2 OUTPUT CHECK 5 HK_O3 OUTPUT CHECK

12 HK_O4 OUTPUT CHECK 9 COM 1 A_1 BB Alarm OUTPUT CHECK 2 A_2 ODU 1 Alarm OUTPUT CHECK 3 A_3 ODU 0 Alarm OUTPUT CHECK

10 GND /

64KBit/s User Service data Ch, 1 Data Ch. Configuration Type


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2. SYSTEM INSTALLATION AND CABLING VISUAL INSPECTION

2.1. INDOOR System installation and cabling visual inspection

STATION “ B “ NAME :…………….…………….. / DIRECTION “ A “ NAME:…………….…………….. /

INDOOR CHECK LIST

RADIO INDOOR INSTALLATION VISUAL INSPECTION CHECK - PASS FAIL Check Rack allocation according to the station layout. Check Sub-Rack allocation according to the station layout. Check TRU installation according to the AWY Installation Manual. Check Rack and Sub racks Ground connections. Check IDU / ODU Ch 0 Cable installation - DO NOT interconnect IDU / ODU cable to BB Check IDU / ODU Ch 1 Cable installation - DO NOT interconnect IDU / ODU cable to BB Check IDU / ODU Ch 0 Cable grounding connection – IDU side. Check IDU / ODU Ch 1 Cable grounding connection – IDU side. Check Ch 0 Power Supply Voltage , polarity and connection. Check Ch 1 Power Supply Voltage , polarity and connection. Check FLASH Card labelling identification presence on BB. Check E1/DS1 – 1 to 8 - interconnections and labelling identification from BB and DDF. Check E1/DS1 – 9 to 16 - interconnections and labelling identification from BB and DDF. Check E3/DS3 interconnections and labelling identification from BB and DDF. Check Ethernet 1 electrical interconnection and labelling identification from BB to DDF. Check Ethernet 2 electrical interconnection and labelling identification from BB to DDF. Check NE Physical System configuration (equipped units):according to Sys. Documentation Check House keeping control cabling - only if foreseen by plant doc and wired to DDF Check House keeping alarm cabling - only if foreseen by plant doc and wired to DDF Check service Data Ch. cabling - only if foreseen by plant doc and wired to DDF Check NMS supervision Data Ch. Connection - only if foreseen by plant doc and wired to DDF



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2.2. OUTOOR System installation and cabling visual inspection

STATION “ B “ NAME :…………….…………….. / DIRECTION “ A “ NAME:…………….…………….. /

OUTDOOR CHECK LIST RADIO OUTDOOR INSTALLATION PARTS VISUAL INSPECTION CHECK - PASS FAIL Check NON Integrated Antenna installation Check NON Integrated Antenna PHOLE Mounting installation Check Integrated Antennas & Integrated PHOLE Mounting installation Check RF Coupler installation . Check NON integrated Antennas SYS grounding connection. Antennas grounding connection. Antennas Flex twist connection. ODU 0 grounding connection. ODU 1 grounding connection. RF Coupler grounding connection. Check integrated Antennas SYS grounding connection. Integrated PHOLE Mounting grounding connection. ODU 0 grounding connection. ODU 1 grounding connection. RF Coupler grounding connection. Check Antenna Polarisation according to the Plant documentation. Check IDU / ODU Ch 0 Cable grounding connection – Outdoor side. Check IDU / ODU Ch 1 Cable grounding connection - Outdoor side. Check On ODU side the presence of Vulcanising rubber tape on connector and Flex junctions Check Antennas EMF warning labelling presence .



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2.3. LOCAL Config & Functionality TESTs RESULT SHEET: 94oo AWY STATION “ B “ NAME :…………….…………….. / DIRECTION “ A “ NAME:…………….…………….. /

IDU Characteristics reported on the Test Result Sheet are guaranteed in the -5 ÷ +50 °C temperature range. ODU Characteristics reported on the Test Result Sheet are guaranteed in the -45÷ +55 °C temperature range.

LOCAL TESTS MEASUREMENTS 1 NE SW Key Number NE SW Key Code NE Parameters Configuration Type Market 2 Frame Configuration & Impedance Capacity Modulation 3 Trib. 1 Config. Framed Unframed Trib. 9 Config. Framed Unframed Trib. 2 Config. Framed Unframed Trib. 10 Config. Framed Unframed Trib. 3 Config. Framed Unframed Trib. 11 Config. Framed Unframed Trib. 4 Config. Framed Unframed Trib. 12 Config. Framed Unframed

Trib. 5 Config. Framed Unframed Trib. 13 Config. Framed Unframed

Trib. 6 Config. Framed Unframed Trib. 14 Config. Framed Unframed Trib. 7 Config. Framed Unframed Trib. 15 Config. Framed Unframed Trib. 8 Config. Framed Unframed Trib. 16 Config. Framed Unframed4 Radio Protection Configuration Revertive Not Revertive Mux Protection Configuration Revertive Not Revertive HST Protection Configuration Revertive Not Revertive 5 POWER (dBm) Ch Config. ATPC Enabled ATPC Disabled RTPC - PTx NOMINAL POWER Tx 0 PTx POWER Tx 0 RTPC - PTx NOMINAL POWER Tx 1 PTx POWER Tx 1 ATPC - PTx MIN VALUE Tx 0 ATPC - PTx MAX VALUE Tx 0 ATPC - PTx MIN VALUE Tx 1 ATPC - PTx MAX VALUE Tx 1 ATPC – Rx 0 Threshold ATPC – Rx 1 Threshold RTX FREQUENCY Tx 0 RTX FREQUENCY Rx 0 RTX FREQUENCY Tx 1 RTX FREQUENCY Rx 1 6 IP Address Configuration Enabled Disabled 7 OSPF Config IP Add. and range Msk Area 1 Area 2 Area 3 8 Host Add. Net. Add G.teawy PPP Id 9 NMS Radio Side Configuration Enabled Disabled

10 NMS V11 Configuration Enabled Disabled 11 NMS G703 Configuration Enabled Disabled 13 ETH Configuration Enabled Disabled

ETH - IP Address ETH - IP Mask

14 LOCAL LOOP Near end Tributary PASS FAIL LOCAL LOOP Near end IDU Cable Ch1 PASS FAIL Ch0 PASS FAIL LOCAL LOOP Near end ODU Cable Ch1 PASS FAIL Ch0 PASS FAIL LOCAL LOOP Near end RF Ch1 PASS FAIL Ch0 PASS FAIL


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2.4. HOP TESTS RESULT SHEET: 94oo AWY TRANSCEIVER STATION “ B “ NAME :…………….…………….. / DIRECTION “ A “ NAME:…………….…………….. / IDU Characteristics reported on the Test Result Sheet are guaranteed in the -5 ÷ +50 °C temperature range. ODU Characteristics reported on the Test Result Sheet are guaranteed in the -45÷ +55 °C temperature range.

HOP TESTS MEASUREMENTS 1 Tributary E1/D1 or E3/DS3 or ETH1/2 BER test Ch0 CHECK PASS FAIL

Tributary E1/D1 or E3/DS3 or ETH1/2 BER test Ch1 CHECK PASS FAIL





REMOT NE acquisition NMS Radio side CHECK PASS FAIL

REMOT NE acquisition NMS Line side CHECK PASS FAIL

2 EPS MUX Prot. Functionality check on Ch 0 & Ch1 CHECK PASS FAIL

HST Tx Prot Functionality check on Ch 0 & Ch1 CHECK PASS FAIL

EPS Radio Prot. Functionality check on Ch 0 & Ch1 CHECK PASS FAIL

3 EOW Functionality check on Ch 0 & Ch1 CHECK PASS FAIL

EOW Protection Functionality check on Ch 0 & Ch1 CHECK PASS FAIL

PSK EOW from / to BB Functionality check on Ch 0 & Ch1 CHECK PASS FAIL

PSK PTx Reading Functionality check on Ch 0 & Ch1 CHECK PASS FAIL

PSK PRx Reading Functionality check on Ch 0 & Ch1 CHECK PASS FAIL

CH 0 CH 1

4 PTx LEVEL–Pow meas. By CT See Hop Calculation ± 2 dB

PRx LEVEL–Pow meas. By CT See Hop Calculation ± 5 dB

5 ATPC Functionality check CHECK

6 REMOT LOOP BACK Far end IDU Trib. check CHECK

IDU/ODU cable connectors BER test on connector percussion CHECK

7 1XE1/DS1 or E3/DS3 12 H. Sys. stability test Ch 0 Hop Calc PASS FAIL

1XE1/DS1 or E3/DS3 12 H. Sys. stability test Ch 1 Hop Calc PASS FAIL


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2.5. NE INTEGRATION TESTS RESULT SHEET: 94oo AWY TRANSCEIVER

STATION “ B “ NAME :…………….…………….. / DIRECTION “ A “ NAME:…………….…………….. / IDU Characteristics reported on the Test Result Sheet are guaranteed in the -5 ÷ +50 °C temperature range. ODU Characteristics reported on the Test Result Sheet are guaranteed in the -45÷ +55 °C temperature range.

NE INTEGRATION MEASUREMENTS CH 0 CH 1

1 NMS V11 Functionality check If foreseen by Plant Doc CHECK

2 NMS G703 Functionality check If foreseen by Plant Doc CHECK

3 ETHERNET port Functionality check If foreseen by Plant Doc CHECK

4 EOW Functionality Line side check If foreseen by Plant Doc CHECK

5 E1/DS1 or E3/DS3 - Line side Access Connection Alarm LOSS CHECK

6 Trib. 1 DS1 SW Equalization CHECK Trib. 9 DS1 SW Equalization CHECK Trib. 2 DS1 SW Equalization CHECK Trib. 10 DS1 SW Equalization CHECK Trib. 3 DS1 SW Equalization CHECK Trib. 11 DS1 SW Equalization CHECK Trib. 4 DS1 SW Equalization CHECK Trib. 12 DS1 SW Equalization CHECK

Trib. 5 DS1 SW Equalization CHECK Trib. 13 DS1 SW Equalization CHECK

Trib. 6 DS1 SW Equalization CHECK Trib. 14 DS1 SW Equalization CHECK Trib. 7 DS1 SW Equalization CHECK Trib. 15 DS1 SW Equalization CHECK Trib. 8 DS1 SW Equalization CHECK Trib. 16 DS1 SW Equalization CHECK

M2 House Keeping Alarms and Control Direction PASS FAIL 6 HK_I1 INPUT CHECK



15 HK_I6 INPUT CHECK 4 HK_O1 OUTPUT CHECK

11 HK_O2 OUTPUT CHECK 5 HK_O3 OUTPUT CHECK

12 HK_O4 OUTPUT CHECK 9 COM 1 A_1 BB Alarm OUTPUT CHECK 2 A_2 ODU 1 Alarm OUTPUT CHECK 3 A_3 ODU 0 Alarm OUTPUT CHECK

10 GND /

64KBit/s User Service data Ch, 1 64K Bit/s Data Ch. Configuration Type


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2.6. R.F. POWER Output level and Receiver threshold tables


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3. BER INTRUSIVE THRESHOLDS

3.1. ETSI BER INTRUSIVE Thresholds


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3.2. FCC BER INTRUSIVE Thresholds


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END OF DOCUMENT

AWY user manual

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