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Alcatel 1692MSE 8 Channels CWDM System 1692MSE REL 2.0

1. 1 0 Function Connectors Front Back 1310nm Add East MU SPC Front b 1310 Drop East MU SPC Front 1310nm Add West MU SPC Front d 1310nm Drop West MU SPC Front 1 Input East MU SPC Front 2 Output East MU SPC Front 3 Add East MU SPC Front 4 Drop East MU SPC Front 5 Add2 East MU SPC Front 6 2 East MU SPC Front 7 Add3 East MU SPC Front 8 Drop3 East MU SPC Front 9 Add4 East MU SPC Front 10 4 East MU SPC Front 11 Express Ch In East MU SPC Front 12 O Express Ch Out East MU SPC Front 13 Input West MU SPC Front 14 Output West MU SPC Front 15 Add1 West MU SPC Front 16 Drop West MU SPC Front 17 Add2 West MU SPC Front 18 2 West MU SPC Front 19 Add3 West MU SPC Front 20 Drop3 West MU SPC Front 21 Add4 West MU SPC Front 22 Drop4 West MU SPC Front 23 Express Ch In West MU SPC Front 24 O Express Ch Out West MU SPC Front ED 02 3AL 97765 AAAA 107 125 v ALCATEL 3 4 OADM2 units C OAD2 The following C OAD2 boards are used Unidirectional 1 Add amp Drop C OAD2 with 1310nm filter C OAD2 E U 1 XX S Unidirectional 1 Add amp Drop C OAD2 without 1310nm filter C OAD2 U 1 XX Unidirectional 2 Add amp Drop C OAD2 with 1310nm filter C OAD2 E U 2 XXXX S Unidirectional 2 Add amp Drop C OAD2 without 1310nm filter
2. 3 UNITS DESCRIPTION B FI P AT CTI ES p nnn XM ME es i 20 is A U VA TTT re JP TIN UNITS LPS STO T ate rop T E cw a M M xc ec iro dae zen AES rp eco e Em ED 02 RL 3AL 97765 AAAA 2 125 All rights reserved Passing and copying of this document use and communication of its contents not permitted without written authorization 3 2 4 C MDX2 E 2 XX S 3 3 OADM UNITS C OAD C A MELOS C ipM cA uM e b RIEN Emm loc are ike iri doa UD rn re BG he aiquet a en idum dde ut dob GADNA UMTS ICO AD PEE tesa T MALA Wk ous Harc a cr nu d B lp AS Em mE MG B iw Ure eee esd qud SAO EDEN 3 4 5 02 5 Cr be HE IOAN er MAINTENANCE E 4 M
3. 86 Table 39 0 1 5 optical characteristics 88 Table 40 Front panel wiring of C OAD E U 1 XX S board 88 Table4l C QAD U T XX optical characterisfies uice eerte tnt th pner etn tena 91 Table 42 Front panel wiring of C OAD U 1 XX 91 Table 43 2 channel C OAD modules for unidirectional 92 Table 44 C OAD E U 2 J000 8 optical characteristics usce erro e eer t Cusen 94 Table 45 Front panel wiring of C OAD E U 2 XXXX S board sene 94 Table 46 C OAD U 2 XXXX optical characteristics 97 Table 47 Front panel wiring of C OAD U 2 XXXX 97 Table 48 C OAD modules for bidirectional application eer teen 98 Table 49 1 5 optical 100 Table 50 Front panel wiring of C OAD B 1 XX S board 100 Table51 C OAD B 1 XX optical characteristics ccccccccsssssnnsscacccessnsnessscsccccsanssanessnceneaanse 103 Table 52 Front panel wiring of C OA D B T XX board uico eo eee Rad Fette neg 103 Table 53 Add amp drop channels sequence cette einn are reto pn Ie Fraga 104 ED 02 RL 3AL 97765 AAAA 6 125 All rights reserved Passing and copying of this document use and communication of its contents not permitted without
4. 48 Figure28 example for slot allocations in unidirectional OADM application 4 channels uel Cp Lent USES E MUR RS a bM RV A Due 48 Figure29 example for slot allocations in bidirectional OADM application 48 Figure30 example for slot allocations in 2 channel CPE 48 Figure31 Climatogram for hazard level 1 2 no temperature controlled storage location 52 Figure32 Climatogram for hazard level 3 2 partly temperature controlled locations 54 Figure33 Radiated electric field immunity Requirement Field Calibration 55 Figure34 Ambient temperature and humidity 58 Piguiaas OFGPWEOTIDI s core code tier tret ais te DI 60 Shelf dim6ngolis ouest i on ZETA RR ERA 60 7 Shel rani view oth Gavel ou Cole aa Va vb OR Oda C DOR FU d er HA 61 Figure38 C MDX2 E U 5 board front 62 Figure39 2 2 5153 5 board front 62 Figure40 C OAD2 E U 1 4747 S board front 62 Figured C OADZ E U 2 4749 5 board front Mew es teer eee c Deve a GR 62 Figure42 0 4 47495153 5 board front 62 Figure43 dummy front panel view iis 62 Figured optica
5. pue asn si Jo pue uo pamasa RL 3AL 97765 AAAA 02 ED ALCATEL USYUM you US UOD JO pue asn si Jo pue uo pamasa HANDBOOK GUIDE 9 125 RL 3AL 97765 AAAA 02 ED v ALCATEL 1 HANDBOOK STRUCTURE AND CONFIGURATION CHECK 1 1 General information 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 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 not permitted without written authorization COPYRIGHT NOTIFICATION All rights reserved Passing on and copying of this document use and communication of its contents The technical information of this manual is the property of ALCATEL and must not be copied reproduced or disclosed to a third party
6. 3AL 97765 AAAA 30 125 ALCATEL USYUM you US UOD JO pue asn si Jo pue uo pamasa RL 3AL 97765 AAAA 02 ED ALCATEL USYUM you US UOD JO pue asn si Jo pue uo pamasa DESCRIPTIONS 32 125 RL 3AL 97765 AAAA 02 ED All rights reserved Passing and copying of this document use and communication of its contents not permitted without written authorization v ALCATEL 1 FUNCTIONAL DESIGN The 1692MSE product release 2 0 is passive CWDM equipment intended for the metro access enterprise and metro core in the small cities It is compliant with both ETSI and NEBS level3 standards The 1692MSE release 2 0 has been designed to offer the following functions Multiple configurations and multiple network architectures The 1692MSE R2 0 can be configured as a line terminal a back to back terminal a CPE an Optical Add and Drop Multiplexer These basic configurations cover both point to point and ring network applications Multi rate client signals The 1692MSE R2 0 is equipped with multi rate transponders which support client signals from
7. pue uo pamasa MAINTENANCE 122 125 RL 3AL 97765 AAAA 02 ED All rights reserved Passing and copying of this document use and communication of its contents not permitted without written authorization v ALCATEL 4 MAINTENANCE 4 1 Introduction The maintenance procedures consist of the following steps gt Preventive Maintenance gt Unit replacement with a spare Attaching the units and modules into the subrack 2 Y Caution fo avoid equipment damage The screw tightening torque for attaching the units and modules if any and if fixed by screws into the shelf must be 2 8 kg x cm 0 28 Newton x m 10 90 Exceeding this value may result in the screw breaking 4 2 Maintenance Definitions DEFINITION OF PREVENTIVE MAINTENANCE Preventive maintenance consists of carrying out a number of operations to minimize the risk of a failure on a link These operations can be scheduled or initiated by the equipment supervision system DEFINITION OF THE TECHNICAL LEVEL OF THE MAINTENANCE AGENT It is mandatory for the technicians in charge of the equipment maintenance to be familiar with the measurement techniques used on equipment fitted with optical connectors 4 3 PREVENTIVE MAINTENANCE The ALCATEL1692MSE equipment requires no systematic preventive maintenance 4 3 1 Routine maintenance every year It is suggested to carry out the fol
8. si Jo pue uo pamasa RL 3AL 97765 AAAA 02 ED All rights reserved Passing and copying of this document use and communication of its contents not permitted without written authorization ALCATEL 2 2 Boards description 2 2 1 C MDXQ2 E U S board example Figure38 C MDX2 E U S board front view 2 2 2 C MDX2 E 2 5153 S board example 2i 8 Eum C OAD2 E U 1 4747 S board front view Figure40 2 2 4 C OAD2 E U 2 4749 S board example QE M E DM LC LIC gt lt Figure41 C OAD2 E U 2 4749 S board front view 2 2 5 C OAD H U 4 47495153 S board example E T T 1 1 5 _ Figure42 C OAD H U 4 47495153 S board front view 2 2 6 18mm dummy front panel Figure43 18mm dummy front panel view ED 02 RL 3AL 97765 AAAA 62 125 All rights reserved Passing and copying of this document use and communication of its contents not permitted without written authorization v ALCATEL 2 3 Power consumption and weight of the units Table 23 Maximum power consumption of the units Unit Maximum Power Consumption W Weight Indication kg OAD 0 1 2 MDX 0 1 2 18mm Dummy Front Panel 0 06 N B 1692MSE R2 0 is passive CWDM equipment so the power consumption i
9. ED 02 RL 3AL 97765 AAAA 115 125 All rights reserved Passing and copying of this document use and communication of its contents not permitted without written authorization 3 4 5 4 Front panel wiring v ALCATEL Table 61 Front panel wiring of C OAD2 E U 4 XXXXXXXX S board Name Signal OSC Add East East OSC signal input From OSC board OSC Drop East East OSC signal output to OSC board OSC Add West West OSC signal input From OSC board OSC Drop West West OSC signal output to OSC board Input East East Line signal input from line Output East East Line signal output to line Add A East East A nm signal add from corresponding transponder Drop A East East A nm signal drop to corresponding transponder Add B East East B nm signal add from corresponding transponder Drop B East East B nm signal drop to corresponding transponder Add C East East C nm signal add from corresponding transponder Drop C East East C nm signal drop to corresponding transponder Add D East East D nm signal add from corresponding transponder Drop D East East D nm signal drop to corresponding transponder Express Ch In East Express Ch Out East East express signal input East express signal output Input West West Line signal input from line Output West West Li
10. All rights reserved Passing and copying of this document use and communication of its contents not permitted without written authorization v ALCATEL 3 1 3 3 Optical characteristics Table 30 C MDX B S optical characteristics Insertion Losses Value Unit lt gt channel 1310nm Mox 2 dB CHI 1470nm 1 4 dB lt gt 2 1490nm Max 1 7 dB 2CH3 1510nm 2 0 dB lt gt 1530nm Max 2 3 dB lt gt 5 1550nm Max 2 6 dB lt gt CH6 1570nm Max 2 9 dB lt gt CH7 1590nm Max 3 2 dB lt gt 1610nm Max 3 5 dB Channel passband at 0 5dB include channel center 14 wavelength 6 8 range Fiber Specs Type Fiber type 0 9 2mm SMF28 Connector type MU Reflectance Value Unit All input ports Mox 40 dB 3 1 3 4 Front panel wiring Table 31 Front panel wiring of C MDX B S board Name Signal OSC Tx in Supervision transmission input signal from OSC board OSC Rx out Supervision reception output signal to OSC board Line Line signal from to line Not used nm signal in or out WDM signal from to corresponding transponder N B means from 1470 to 1610 ED 02 RL 3AL 97765 AAAA 73 125 All rights reserved Passing and copying of this document use and comm
11. 22 EUCTROSLATES DISCHARGERS ESD eee e P a TA 22 4 2 SUGGESTIONS NOTES AND eee Y FkSERN QN SR EERER VAYAN ROO AN AN RAO 23 AS LABS APFIMED TO 23 S EHSTOFABBREVIATIONS EIFE T NNI E MA FENCE 26 GENERAL ALCATEL CUSTOMER 27 6 1 PRODUCTS PRODUCT RELEASES VERSIONS AND CUSTOMER DOCUMENTATION 27 2 HANDBOOK SUPPLE TO CUSTOMERS 27 6 3 AIMS OF STANDARD CUSTOMER DOCUMENTATION cecceeceeeceecceeccueceucceeceeceuceueceusceseeeseuesenees 27 Bab PI TW Sua S od UR cand Ma iai ek iam m taie i E AE 28 6 4 1 Changes introduced in the same product release same handbook P N 28 6 1 2 Changes due to a new 2 rh 28 6 5 CUSTOMER DOCUMENTATION SUPPLY ON CD ROM eua EE ERR RE dd 29 6 5 1 Contents creation and production of a CD ROM nre thi pna re bee t RR a ndis 29 652 CDROM cepi a meng te 29 o GRE SI I S o 0 o 0o oS tom 30 Ads
12. C OAD2 U 1 4949 3AL 97653 C OAD2 U 1 5151 3AL 97653 AC C OAD2 U 1 5353 3AL 97653 AD ED 02 RL 3AL 97765 AAAA 44 125 All rights reserved Passing and copying of this document use and communication of its contents not permitted without written authorization v ALCATEL C OAD2 U 1 5555 3AL 97653 C OAD2 U 1 5757 3AL 97653 AF C OAD2 U 1 5959 C OAD2 U 1 6161 3AL 97653 AG 3AL 97653 AH 1 unidirectional OADM2E with 1310nm filter C OAD2 E U 1 4747 S 3AL 97771 AA C OAD2 E U 1 4949 S 3AL 97771 C OAD2 E U 1 5151 S 3AL 97771 C OAD2 E U 1 5353 S 3AL 97771 AD C OAD2 E U 1 5555 S 3AL 97771 AE C OAD2 E U 1 5757 S 3AL 97771 AF C OAD2 E U 1 5959 S 3AL 97771 C OAD2 E U 1 6161 S 3AL 97771 2 channel unidirectional OADM without 1310nm filter C OAD U 2 47474949 3AL 97539 PA C OAD U 2 51515353 3AL 97539 QA C OAD U 2 55555757 3AL 97539 RA C OAD U 2 59596161 3AL 97539 SA 2 channel unidirectional OADME with 1310nm filter 0 2 47474949 5 3AL 97770 BA C OAD E U 2 51515353 S 3AL 97770 BB C OAD E U 2 55555757 S 3AL 97770 C OAD E U 2 59596161 S 3AL 97770 BD 2 channel unidirectional OADM2 without 1310nm f
13. All rights reserved Passing and copying of this document use and communication of its contents not permitted without written authorization v ALCATEL 3 3 3 3 Optical characteristics Table 44 C OAD E U 2 XXXX S optical characteristics Insertion Losses Value Unit IN Exp Ch OUT 1 5 dB Exp Ch IN 2 OUT 1 5 dB IN gt DROP Max 1 8 dB ADD gt OUT Max 1 8 dB IN gt OSC DROP Max 1 dB OSC ADD gt OUT Max 1 dB Fiber Specs Type Fiber type 0 9 2mm SMF28 Connector type MU Reflectance Value Unit All input ports Max 40 dB 3 3 3 4 Front panel wiring Table 45 Front panel wiring of C OAD E U 2 XXXX S board Name Signal East OSC Tx in East Supervision transmission input signal from OSC board East OSC Rx out East Supervision reception output signal to OSC board West OSC Tx in West Supervision transmission input signal from OSC board West OSC Rx out West Supervision reception output signal to OSC board East Line Rx in East Line Reception input signal from line East Line Tx out East Line Transmission output signal to line East YY nm signal add East YY nm signal add from corresponding transponder East YY nm signal drop East YY nm signal drop to corresponding transponder East ZZ nm signal add East ZZ nm signal add from corresponding transponder Eas
14. 02 RL 3AL 97765 AAAA 35 125 All rights reserved Passing and copying of this document use and communication of its contents not permitted without written authorization v ALCATEL 1 2 Network architectures 1692MSE R2 0 is a pure passive solution without wavelength adaptor it must be used together with other equipments which provide signals complying with ITU T G 695 e g ALCATEL DSLAM equipment 1692MSE R2 0 equipment can be used in Point to Point Linear Add Drop Ring and CPE applications as shown in the follows 1 2 1 Point to point links A point to point link based on 1692MSE is obtained with A 1692MSE in line terminal configuration at each end of the link eventually one or more 1692MSE in OADM configuration Figure9 1692MSE in point to point application 1 2 2 Linear application Terminal OADM Terminal oo 05 1 2 3 Ring application A two fibers ring network is obtained with 1692MSE equipment in back to back terminal and OADM configurations ED 02 RL 3AL 97765 AAAA 36 125 All rights reserved Passing and copying of this document use and communication of its contents not permitted without written authorization v ALCATEL Back to Back terminal OADM Figure1l 1692MSE in ring application 1 2 4 CPE application For CPE there are two configurations for 1692 R2 0 1 channel and 2 chan
15. 1 2 dB CH3 In gt LINE OUT 1510nm Mox 1 5 dB In gt LINE OUT 1530nm Mox 1 8 dB CH5 In gt OUT 1550nm Mox 21 dB CH6 In gt LINE OUT 1570nm 24 dB CH7 In gt LINE OUT 1590nm 2 7 dB CH8 In LINE OUT 1610nm 3 dB Channel passband at 0 5dB include channel center 14 Es wavelength 6 8 range DEMUX Side Insertion Losses Value Unit LINE IN gt CH1 Out 1470nm Max 0 9 dB LINE IN gt CH2 Out 1490nm Max 3 dB LINE IN gt CH3 Out 1510nm Mox 27 dB LINE IN gt CH4 Out 1530nm 24 dB LINE IN CH5 Out 1550nm 21 dB LINE IN gt CH6 Out 1570nm Max 1 8 dB LINE IN gt CH7 Out 1590nm Max 1 5 dB LINE IN gt CH8 Out 1610nm 12 dB Channel passband at 0 5dB include channel center 14 wavelength 6 8 range Fiber Specs Type Fiber type 0 9 2mm SMF28 Connector type MU Reflectance Value Unit All input ports Max 40 dB 3 1 2 4 Front panel wiring Table 29 Front panel wiring of C MDX U board Name Signal Line Rx in Line Reception input signal from line Line Tx out Line Transmission output signal to line nm signal in WDM transmission input signal from corresponding transponder nm signal out WDM reception output signal to corresponding transponder N B means from 1470 to 1610 ED 02 RL 3AL 97765 AAAA 70 125 All rights reserved Passing and copy
16. A product is defined by the network hierarchical level where it can be inserted and by the whole of performance and services for which it is meant A product evolves through successive product releases which are the real products marketed for their delivery at a certain product release availability date Therefore a product release defines a set of hardware components that as a whole identify the possible network applications and the equipment performance which the specific product release has been designed engineered and marketed for A product release has its own standard Customer Documentation composed by one or more handbooks A new version of a product release may or may not produce a change in the status of the Customer Documentation set as described in para 6 4 6 2 Handbook supply to Customers Handbooks are not automatically delivered together with the equipment they refer to The number of handbooks per type to be supplied must be decided at contract level 6 3 Aims of standard Customer Documentation Standard Customer Documentation referred to hereafter must be always be meant as plant independent Plant dependent documentation if envisaged by the contract is subjected to commercial criteria as far as contents formats and supply conditions are concerned plant dependent documentation is not described here Standard hardware documentation is meant to give the Customer personnel the possibility
17. 3AL 97765 AAAA 83 125 All rights reserved Passing and copying of this document use and communication of its contents not permitted without written authorization v ALCATEL 3 2 4 3 Optical characteristics Table 36 Optical parameter of C MDX2 E 2 XX S MUX Side Insertion Losses Value Unit OSC In 2 MUX 1310nm Max 1 dB CH1 2 In gt MUX Max 1 8 dB Channel passband at O 5dB include channel center 14 nm wavelength 6 8 range DEMUX Side Insertion Losses Value Unit DEMUX OSC Out 1310nm Max 1 5 dB DEMUX gt CH1 2 Out 2 3 dB Channel passband at 0 5dB include channel center 14 nm wavelength 6 8 range Fiber Specs Type Fiber type 0 9 2mm SMF28 Connector type MU Reflectance Value Unit All input ports Max 40 dB 3 2 4 4 Front panel wiring Table 37 Front panel wiring of C MDX2 E 2 XX S board Name Signal 1310nm signal input Supervision transmission input signal from OSC board or other1310nm input 1310nm signal output Supervision reception output signal to OSC board or other1310nm output signal input Line Reception input signal from line MUX signal output Line Transmission output signal to line CH1 signal input WDM transmission input signal from corresponding transponder CH1 signal output WDM reception output signal to corresponding transponder CH2 signal inp
18. Refer to para 1 6 ED 02 RL 3AL 97765 AAAA 21 125 All rights reserved Passing and copying of this document use and communication of its contents not permitted without written authorization 3 4 Moving mechanical parts The following warning label is affixed next to fans or other moving mechanical parts Before carrying out any maintenance operation sees that all the moving mechanical parts have stopped 4 OTHER NORMS AND LABELS 4 1 Electrostatic Dischargers ESD ALCATEL Before removing the ESD protections from the monitors connectors etc observe the precautionary measures stated Make sure that the ESD protections have been replaced after having terminated the maintenance and monitoring operations Most electronic devices are sensitive to electrostatic discharges To address this concern the following warning label has been affixed Observe the precautionary measures stated when having to touch the electronic parts during the installation maintenance phases Workers are supplied with antistatic protection devices consisting of gt elastic band worn around the wrist Acoiled cord connected to the elastic band and to the stud on the shelf 02 RL 3AL 97765 AAAA 22 125 All rights reserved Passing and copying of this document use and communication of its contents not permitted without written authorization v
19. happen at higher rates than calculated FITs due either to incorrect installation or to the presence of weak components It is reasonable to assume that during the first 6 months of operation the observed failure rate can be up to twice the predicted value gt lt do not take into account punctual defects that cannot be predicted like a wrong component lot batch coming from our suppliers manufacturing process ED 02 RL 3AL 97765 AAAA 63 125 All rights reserved Passing and copying of this document use and communication of its contents not permitted without written authorization 2 5 Equipment connections ALCATEL Only the optical external connection is used in 1692MSE R2 0 In 1692MSE 2 0 one kind of optical connector is used MU SPC They are for all passive boards 3 UNITS DESCRIPTION This chapter describes the cards and units of the 1692MSE Release 2 0 It gives for each card gt A functional diagram and description Table 25 Optical connections in 1692MSE Board MU SPC Direction OAD 45 inclined MDX 45 inclined gt Optical characteristics gt Front panel description PC optical connectors ED 02 RL 3AL 97765 AAAA 64 125 All rights reserved Passing and copying of this document use and communication of its contents not permitted without written authorization v ALCATEL 3 1 MUX
20. not permitted without written authorization AIR TEMPERATURE 0C ABSOLUTEAIR HUMIDITY g m3 All rights reserved Passing on and copying of this document use and communication of its contents WRNNMENMNIT 0 3 30 40 50 60 1 Ju RELATIVE AIR HUMIDITY 9 Figure32 Climatogram for hazard level 3 2 partly temperature controlled locations Table 14 Main climatic conditions Environmental Parameter Unit Value Low air temperature C 25 High air temperature C 55 Low relative humidity 96 10 High relative humidity 96 100 Low absolute humidity G m 0 5 High absolute humidity G m 29 Rate of change of temperature C min 0 5 Low air pressure kPa 70 High air pressure kPa 106 Solar radiation W m 700 Heat radiation W m 600 Movement of the surrounding air m s 5 Condition of condensation Yes Condition of wind driven rain snow No Condition of icing Yes Solar radiation W m 1200 Heat radiation W m 600 ED 02 RL 3AL 97765 AAAA 54 125 v ALCATEL 1 7 2 NEBS compliancy 1692MSE R2 0 equipments meet NEBS level3 requirements The NEBS Level3 criteria provide the highest assurance of product operability Level 3 criteria are suited for equipment applications which demand minimal service interruptions over the equipment s life 1 7 2 1 Immunity It is a conditional requirement see Section 3 1 2 for the condition tha
21. 125 Mbit s to 2 67 Gbit s gt Up to 8 optical channels in a single NE There are up to 8 optical channels in a single NE Each channel is associated to a CWDM channel The channels are 1470nm 1490nm 1510nm 1530nm 1550nm 1570nm 1590nm and 1610nm N B Normally the central wavelengths of laser under normal temperature 25 degree C are 1470nm 1490nm 1510nm 1530nm 1550nm 1570nm 1590nm and 1610nm Due to the specific technology of CWDM no temperature control the wavelength of system under the whole temperature range 0 70 degree C should be 1471nm 1491nm 1511nm 1531nm 1551nm 1571nm 159 1nm and 1611nm with 7 deviation ED 02 RL 3AL 97765 AAAA 33 125 All rights reserved Passing and copying of this document use and communication of its contents not permitted without written authorization v ALCATEL 1 1 Basic Equipment configurations The 1692MSE R2 0 there are 3 kinds of basic configurations of the equipment gt Line Terminal gt Optical Add and Drop Multiplexer OADM gt CPE 1 1 1 Line terminal In line terminal configuration the 1692MSE R2 0 collects distributes up to 8channel CWDM signals to from single optical fiber At the same time 1310nm signals can multiplexed demultiplexed into from the line fiber CWDM signals Up to 8 channels 1310nm signal Line fiber 1310nm signal Unidirectional transmission Figure 1692MSE R
22. 14 2 a 1 85 Nofeson Release 12A EDO LL e artes ox 15 zs de TZATED auia EI lo RS i Rab oor ERRE 18 15 7 Notes Release au aiiud na At 15 LoS 20 ED sa 16 1 59 MNoteson Releose 20 ED ui s ie di pni Cada Fa c E E E nik 16 2 COMPLIANCE WITH EUROPEAN NORM eee eee eee eee eee eese eee nee 17 EE ng 17 2 2 ENVIRONMENTAL CONSTRAINTS 17 3 SAFETY NORMS AND LABELS rb tiir xb kl rii edi rb a a a P ERN a OUR Rib e ER E EUN RN 18 SENE CH 2 Aui SR c PE 18 3 2 LABELS INDICATING DANGER FORBIDDANCE COMMAND ccccssscesseeesceessecssseessessseessseesseesseeees 19 SS SAAS eec 20 Sal 20 sabet general 21 3 3 3 Optical safety equipment specifi d I ete tio re e rd 21 241 MECHANICAL PARIS MEAS 22 4 OTHER NORMS AND LABELS eee oro re pero PAS Ex FEIN FORT REE VOY E SER FERRE ON ORT En RUTAS YE RERO UM PRU
23. 1530nm signal in 1530nm signal out 1550nm signal in 1550nm signal out 1570nm signal in 1570nm signal out zi 1590nm signal in 1590nm signal out GH 1610nm signal in 1610nm signal out Extraction Handle Figure46 Front panel of C MDX E U S board ED 02 RL 3AL 97765 AAAA 66 125 All rights reserved Passing and copying of this document use and communication of its contents not permitted without written authorization v ALCATEL 3 1 1 3 Optical characteristics Table 26 C MDX E U S optical characteristics MUX Side Insertion Losses Value Unit OSC In 1310nm gt Line out 1 dB CHI In gt LINE OUT 1470nm 14 dB CH2 In gt LINE OUT 1490nm 1 7 dB CH3 In gt LINE OUT 1510nm 2 0 dB In gt LINE OUT 1530nm 2 3 dB CH5 In gt LINE OUT 1550nm Mox 2 6 dB 6 In gt LINE OUT 1570nm Mox 2 9 dB CH7 In gt LINE OUT 1590nm 3 2 dB CH8 In gt LINE OUT 1610nm Mox 3 5 dB Channel passband at 0 5dB include channel center 14 wavelength 6 8 range DEMUX Side Insertion Losses Value Unit LINE IN gt OSC Out 1310nm Max 1 dB LINE IN gt CH1 Out 1470nm Mox 14 dB LINE IN 2 CH2 Out 1490nm Max 3 5 dB LINE IN gt CH3 Out 1510nm 3 2 dB LINE IN gt CH4 Out 1530nm Mox 2 9 dB LINE I
24. C OAD2 U 2 XXXX Unidirectional 4 Add amp Drop C OAD2 with 1310nm filter C OAD2 E U 4 XXXXXXXX S Unidirectional 4 Add amp Drop C OAD2 without 1310nm filter C OAD2 U 4 XXXXXXXX VVVVVV 3 4 1 C OAD2 E U 1 XX S All rights reserved Passing on and copying of this document use and communication of its contents not permitted without written authorization Drop Express Ch Express Ch Add Channel Output Input Channel P _ UW West to East 9596 1310nm Filter 1310nm Filter West to East in 15 O1 02 H ace E osc Add 4 Drop OSC OSC East to West i i 95 ast to West 1310nm Filter 1310nm Filter 5 95 TAP East to West out O3 O4 a Add Express Ch Express Drop Channel Input Output Channel Figure74 C OAD2 E U 1 XX S block diagram ED 02 RL 3AL 97765 AAAA 108 125 All rights reserved Passing and copying of this document use and communication of its contents not permitted without written authorization v ALCATEL 3 4 1 1 Description This board C OAD2 E U 1 XX S is used to add and drop ONE Channel per direction in the unidirectional CWDM system the added dropped channel is to from the transponder board The other channels are passed through the C OAD2 board The OSC 1310nm signal is also added dropped by this board The dropped OSC signal is sent to the O
25. referred to GR63 8 GR1089 N B GR 63 CORE Network Equipment Building System NEBS Requirements Physical Protection issue 1 October 1995 N B GR 1089 CORE Electromagnetic Compatibility and Electrical Safety Generic Criteria for Network Telecommunication equipment issue 2 December 1997 ED 02 RL 3AL 97765 AAAA 59 125 All rights reserved Passing and copying of this document use and communication of its contents not permitted without written authorization ALCATEL 2 MECHANICAL DESCRIPTION In 1692MSE release 2 0 only the 1RU shelf can be used in a NE A fully loaded 1692MSE system can be housed in a single standard ETSI or ANSI rack 2 1 Shelf Only the 1RU shelf can be managed in a 1692MSE NE 2 1 1 Empty shelf 2 1 1 1 Shelf organization The 1RU shelf is divided into 2 unit slots gt Slotl gt Slot2 Figure35 Shelf organization 2 1 1 2 Shelf dimensions The size of 1692MSE Compact shelf is Width 446 2mm gt Depth 274mm with cover Height 44mm Depth is compliant with the 300 mm deep ETSI rack no limitation in ANSI rack 446 2mm Figure36 Shelf dimensions ED 02 RL 3AL 97765 AAAA 60 125 ALCATEL 2 1 2 Shelf front view with cover Shelf front view with cover Figure37 ou juojuoo Jo pue asn
26. 1 5159 S 3AL 97539 DA C OAD B 1 5361 S 3AL 97539 EA N B The boards named with E can be used under harden temperature such as C MDX E U S 1 4 3 Slot allocations The slot allocations are shown as follows Table 7 Slot allocations and configuration of 1U Shelf Unit Allowed Unit Types in slot C MDX U C MDX E U S C MDX B C MDX B S C MDX2 U C MDX2 E U S C MDX2 E 1 S C MDX2 E 2 XX S C OAD U 1 XX C OAD E U 1 XX S C OAD2 U 1 XX C OAD2 E U 1 XX S C OAD U 2 XXXX C OAD E U 2 XXXX S C OAD2 U 2 XXXX C OAD2 E U 2 XXXX S C OAD B 1 XX C OAD B 1 XX S C OAD2 U 4 XXXXXXXX C OAD2 E U 4 XXXXXXXX S C OAD H U 4 XXXXXXXX S 18mm Dummy Front Panel X x DX px x px xxm x means the unit type be plugged in the slot ED 02 RL 3AL 97765 AAAA 46 125 All rights reserved Passing and copying of this document use and communication of its contents not permitted without written authorization v ALCATEL 1 5 System Configuration 1 5 1 Configuration criteria The basic configuration of the 1692 MSE relies on the following criteria gt network architecture and the position of the equipment in the network define the NE type line terminal OADM or CPE gt Optical power budget limitations of CWDM channels and 1310nm channel
27. 4 C OAD2 E LI 1 XX 5 block diagram hd Ria nea enu Figure75 C OAD2 U 1 XX block Figere 6 C QAD2 E U 2 2000 5 block diagram iet eet tren nte 7 C OAD2 U 2 XXXX block Figure78 2 0 4 5 block Figure79 Front panel of C OAD2 E U 4 XXXXXXXX S board Figure80 2 0 4 block diagram sse Figure81 Front panel of C OAD2 U 4 XXXXXXXX board seen 2 Repair Oianone i o p i nU I ade n oiu E ED 02 RL 3AL 97765 AAAA 5 125 All rights reserved Passing and copying of this document use and communication of its contents not permitted without written authorization v ALCATEL TABLES Table 1 Handbooks related to the product s hardware Table 2 on L O R wiley Table 3 Blandbesk eonfiauretinn Shelter a UR YU taeda NND Table 4 References and 5 6 Shelf and boards designation and Table
28. 7 Slot allocations and configuration of 1U Shelf Table 8 Wavelength combination for 2 channel unidirectional 47 Table 9 Wavelength combination for 4 channel unidirectional 48 Table 10 Wavelength combination for a bidirectional 48 Table 11 Valid tests and compliance criteria for immunity 50 Table 12 climatice 51 Table 13 Mein eliraatie condis s ERR E Ev Xe HR HE ERE dx c Ad 53 Table T4 climolie condifiam sce Eaa 54 Table 15 Low temperature exposure and thermal shock sess 56 Table 16 High temperature exposure and thermal 56 Table 17 High temperature exposure and thermal shock esses 56 Table 18 Category A container packaged equipment Shock 57 Table 19 Category B container packaged equipment shock criteria 57 Table 20 Unpackaged equipment shock 57 Table 21 Ambient temperature and humidity limits sss 57 Toble 22 coriammngnt levels ici
29. 97765 AAAA 101 125 All rights reserved Passing and copying of this document use and communication of its contents not permitted without written authorization 3 3 6 2 Front panel description Extraction Handle Extraction Handle Figure70 v ALCATEL Hardware Failure LED S 5 S W Voa West YY nm signal add West YY nm signal drop YY East ZZ signal add East ZZ signal drop express signal 2 express signal 1 Optical Safety Label Electrostatic Discharge Label Front panel of C OAD B 1 XX board ED 02 RL 3AL 97765 AAAA 102 125 v ALCATEL 3 3 6 3 Optical characteristics Table 51 C OAD B 1 XX optical characteristics Insertion Losses Value Unit IN lt gt Exp Ch OUT Max dB IN gt DROP Max 1 3 dB ADD gt OUT Max 1 3 dB Fiber Specs Type Fiber type 0 9 2mm SMF28 Connector type MU Reflectance Value Unit All input ports Max 40 dB All rights reserved Passing on and copying of this document use and communication of its contents not permitted without written authorization 3 3 6 4 Front panel wiring Table 52 Front panel wiring of C OAD B 1 XX board Name Signal Line I O 2 Line signal 2 from to line Line I O 1 Line signal 1 from to line West YY nm signal add West YY nm signal add from correspon
30. Add E a Drop OSC OSC East to West J E Filter d Filter gt 5 95 B East to West out in VN 1 i C M Ma M _ Ch E Ch Add Add Drop Figure76 C OAD2 E U 2 XXXX S block diagram 3 4 3 1 Description This board C OAD2 E U 2 XXXX S is used to add and drop TWO Channels per direction in the unidirectional CWDM system and the added dropped channels are to from the transponder board The other channels are passed through the 2 board The OSC 1310nm signal is also added dropped by this board The dropped OSC signal is sent to the OSC board the added OSC signal comes from the OSC board There are 4 types of 2 channel C OAD2 boards the wavelengths are defined as the following table There are two OADM modules one OADM modules for each direction in the C OAD2 board At each receiving direction a 5 95 TAP is used to split the line signal into two channels One 9596 is sent to the 1310nm filter splitter the other 596 is sent to a PIN amp amplification circuit for LOS detection As R2 0 is passive CWDM equipment the LOS detection circuit is not available Table 57 2 channel C OAD2 module for unidirectional application Number XX 47474949 51515353 55555757 59596161 Add Drop Channels nm 1470 1490 1510 1530 1550 1570 1590 1610 The front panel and front panel wiring are the same as in
31. DEMUX units C MDX The following C MDX boards are used MUX DMX with 1310nm filter for unidirectional system C MDX E U S MUX DMX without 1310nm filter for unidirectional system C MDX U MUX DMX with 1310nm filter for bidirectional system C MDX B S MUX DMX without 1310nm filter for bidirectional system C MDX B VVVV 3 1 1 C MDX E U S Line Tx out OSC Rx out 1470 1490 1510 1530 1550 1570 1590 1610 Figure45 C MDX E U S block diagram 3 1 1 1 Description MUX side The MUX component multiplexes 8 channels CWDM grid signals into an optical fiber The 1310nm filter couples the MUX out signal and OSC signal into the line fiber b DEMUX side ED 02 RL 3AL 97765 AAAA 65 125 All rights reserved Passing and copying of this document use and communication of its contents not permitted without written authorization v ALCATEL At the receive side the 1310nm filter splits the line signal into two channel signals One is sent to the OSC board the other is demultiplexed into 8 channel signals by a DEMUX component 3 1 1 2 Front panel description Extraction Handle AO Hardware Failure LED A Optical Safety Label e Electrostatic Discharge Label OSC Tx in Rx out Line Rx in Line Tx out L3 a 1470nm signal in 1470nm signal out zi 1490nm signal in 1490nm signal out Ein 1510nm signal in 1510nm signal out
32. GM 30 DESCRIPTIONS PS 32 ED 02 RL 3AL 97765 AAAA 1 125 All rights reserved Passing and copying of this document use and communication of its contents not permitted without written authorization v ALCATEL T FUNCTIONAL DESIGN 1 1 BASIC EQUIPMENT CONFIGURATIONS LPS E dO ESL 1 12 Onmtieal Add and Drop Multiplexer OADM Fe HR e i ERR Re UN AED e E ME MEOR SEC BUTEC TUBES uL oy dessa Dra REBEL LER E KEV e OD DR EYE OI RA LAIL nk eiit UN p UR RMR RUE Dp OE CHI GEL aae ops ten Eu Ea E bs ERU RN AU n poem A eae KS JBESCRPIONOQETHERONCEONS Cete PI MR mE M ER RR AE 1 3 1 Main function in different oer ERR Ka 1 23 2 LDeseuglion or the TUB hg n ena Le BEIC DECIPI N casia datae COSE gt 1 4 2 Shelf and boards designation and Peter drank E od de rab ae rd D Pd ena Rd L31 LO en enn a
33. OAD2 U 1 XX is used to add and drop ONE Channel per direction in the unidirectional CWDM system and the added dropped channel is to from the transponder board The other channels are passed through the C OAD2 board The OSC 1310nm signal is NOT added and dropped by this board All channels can be added and dropped There are 8 different 1 channel C OAD2 boards according to the different wavelengths the wavelengths are defined the same as in Table 56 There are two OADM modules one OADM module for each direction in the C OAD2 board At each receiving direction a 5 95 TAP is used to split the line signal into two channels One 9596 is sent to the OADM module the other 596 is sent to a PIN amp amplification circuit for LOS detection As R2 0 is passive CWDM equipment the LOS detection circuit is not available The front panel and front panel wiring are the same as C OAD U 1 XX unit ED 02 RL 3AL 97765 AAAA 110 125 All rights reserved Passing and copying of this document use and communication of its contents not permitted without written authorization v ALCATEL 3 4 3 C OAD2 E U 2 XXXX S Drop Drop Add Chl Ch2 Expres Ch ExpressCh Ch Output Input C I Y 3 i 95 1310nm Filter 1310nm Filter West to East 1 5 95 TAP Ol 02 West to East in out Drop Add OSC r3 osc
34. checks are made in order to have a virus free product After a complete functional check the CD ROM image is electronically transferred to the archive of the Production Department so that the CD ROM can be produced and delivered to customers 6 5 2 Use of the CD ROM The CD ROM can be used both in PC and UNIX environments The minimum configuration for World View rel 2 2 2 utilization on a PC is Operative System Windows 2000 Processor Pentium RAM 128Mbyte Free disk space 20Mbyte VVVV The set up procedure is present in the booklet included in the CD ROM box After the set up procedure which installs the viewer in the PC or Unix WS environment the customer is allowed to read the handbooks on the PC WS screen using the navigation and zooming tools included in the viewer and to print selected parts of the documentation through a local printer ED 02 RL 3AL 97765 AAAA 29 125 All rights reserved Passing and copying of this document use and communication of its contents not permitted without written authorization v ALCATEL N B Copyright notification WorldView Copyright 1981 1996 INTERLEAF Inc All rights reserved The use of WorldView is permitted only in association with the files contained in the CD ROMs officially supplied by Alcatel Alcatel documents All rights reserved Passing and copying of documents and files contained in the CD ROMs officially supplied by
35. depending on the client equipments interfacing with 1692MSE R2 0 gt Need for upgradeability The initial cost 1 5 2 Terminal configuration C MDX U C MDX E U S C MDX2 U C MDX2 E U S and C MDX B S can be used in 1692R2 0 terminal configuration including unidirectional and bidirectional application The figure below shows the configuration 18mm Dummy Front Panel Slot 2 C MDX2 E U S Slot 1 Figure25 An example for slot allocations in unidirectional Terminal application 1 5 3 OADM configuration 1 5 3 1 1 channel OADM Any wavelength among the 8 CWDM wavelengths can be added and dropped So there are eight types of 1 channel OADM boards according to the different wavelength C OAD U 1 XX C OAD E U 1 XX S and C OAD2 U 1 XX C OAD2 E U 1 XX S can be used in this configuration 18mm Dummy Front Panel Slot 2 EE C OAD2 E U 1 XX S Figure26 An example for slot allocations in unidirectional OADM application 1 channel add drop 1 5 3 2 2 channel OADM In this case only 2 channels per direction can be added and dropped According to different wavelength combinations there are four kinds of 2 channel OADM boards C OAD U 2 XXXX 2 5 and C OAD2 U 2 XXXX C OAD2 E U 2 XXXX S can be used in this configuration Table 8 Wavelength combination for 2 channel unidirectional application Number 1 2 3 4 Channels nm 1470 1490 1510 1530 1550 1570 1590
36. face in carrying out an operation and of the necessary measure to reduce or minimize the danger to themselves and to others The Service Personnel can only replace the faulty units with spare parts The Service Personnel are not allowed to repair hence the access to the parts not specified is not prohibited Forthe eventual cleaning of the external parts of the equipment absolutely do not use any inflammable substance or substances which in some way may alter the markings inscriptions etc tis recommended to use slightly damp cleaning cloth The Safety Rules stated in the handbook describe the operations and or precautions to observe to safeguard service personnel during the working phases and to guarantee equipment safety i e not exposing persons animals and things to the risk of being injured damaged The safety rules described in this handbook are distinguished by the following symbol and statement SAFETY RULES ED 02 RL 3AL 97765 AAAA 18 125 All rights reserved Passing and copying of this document use and communication of its contents not permitted without written authorization v ALCATEL 3 2 Labels indicating Danger Forbiddance Command It is of utmost importance to follow the instructions printed on the labels affixed to the units and assemblies The labels are fully compliant with International Norms ISO 3846 1984 The symbols or statements are enclosed
37. gt Exp Ch OUT Max 23 dB Exp Ch IN OUT Max 1 7 dB In gt CH1 Drop Max 2 3 dB In gt CH2 Drop Max 2 0 dB In gt CH3 Drop Max 1 7 dB In gt CH4 Drop Max 1 4 dB CH1 Add gt Out Max 0 9 dB CH2 Add gt Out Max 1 2 dB CH3 Add gt Out Max 1 5 dB CH4 Add gt Out Max 1 8 dB Fiber Specs Type Fiber type 0 9 2mm SMF28 Connector type MU Reflectance Value Unit All input ports Max 40 dB 02 RL 3AL 97765 AAAA 119 125 3 4 6 4 Front panel wiring v ALCATEL Table 65 Front panel wiring of C OAD2 U 4 XXXXXXXX board Name Signal Input East East Line signal input from line Output East East Line signal output to line Add A East East A nm signal add from corresponding transponder Drop A East East A nm signal drop to corresponding transponder Add B East East B nm signal add from corresponding transponder Drop B East East B nm signal drop to corresponding transponder Add C East East C nm signal add from corresponding transponder Drop C East East C nm signal drop to corresponding transponder Add D East East D nm signal add from corresponding transponder Drop D East East D nm signal drop to corresponding transponder Express Ch In East East express signal input not permitted without written authorization Express Ch Out East East express signal output All rights reserved Passing on and copying of this document use a
38. in geometric shapes ISO 3864 1984 CONTAINS A SYMBOL STATEMENT INDICATES FORBIDDANCE WHITE BACKGROUND WITH RED RIM BLACK SYMBOL OR STATEMENT IT IS A COMMAND BLUE BACKGROUND WHITE SYMBOL OR STATEMENT CONTAINS A SYMBOL INDICATES WARNING OR DANGER YELLOW BACKGROUND BLACK SYMBOL AND RIM CONTAINS A STATEMENT PROVIDING INFORMATION OR INSTRUCTION YELLOW BACKGROUND BLACK STATEMENT AND RIM The labels have been affixed to indicate a dangerous condition They may contain any standard known symbol or any statement necessary to safeguard users and service personnel against the most common dangers specifically gt Harmful optical signals gt Moving mechanical parts Pay attention to the information stated in the following and proceed as instructed The symbols presented in para 3 3 through 3 4 are all the possible symbols that could 2 be present on Alcatel equipment but are not all necessarily present on the equipment this handbook covers ED 02 RL 3AL 97765 AAAA 19 125 All rights reserved Passing and copying of this document use and communication of its contents not permitted without written authorization v ALCATEL 3 3 Harmful optical signals 3 3 1 Labeling If the assembly or unit is fitted with a LASER the labels must comply with the IEC 60825 1 1993 International Norms The symbol indicates the presence of a LASER beam Danger level is sta
39. nm signal drop East B nm signal add East B nm signal drop East C nm signal add East C nm signal drop East D nm signal add East D nm signal drop East express signal add East express signal drop Optical Safety Label Electrostatic Discharge Label Extraction Handle Figure81 v ALCATEL Line West in Line West out West A nm signal add West A nm signal drop West B nm signal add West B nm signal drop West C nm signal add West C nm signal drop West D nm signal add West D nm signal drop West express signal add Front panel of C OAD2 U 4 XXXXXXXX board West express signal drop ED 02 RL 3AL 97765 AAAA 118 125 All rights reserved Passing and copying of this document use and communication of its contents not permitted without written authorization v ALCATEL 3 4 6 3 Optical characteristics The C OAD2 U 4 XXXXXXXX unit s add amp drop channels sequence is defined by the following table Table 63 Add amp Drop channels Sequence Add amp Drop Wavelength nm Channel C OAD2 U 4 4747494951515353 C OAD2 U 4 5555575759596161 Number 1470 1550 1 1490 1570 2 1510 1590 3 1530 1610 4 The optical characteristics of the board are as follows Table 64 C OAD2 U 4 XXXXXXXX board optical characteristics Insertion Losses Value Unit IN
40. or 4 channels channels Add amp Drop Add amp Drop Insertion CWDM CWDM line line west Extraction East inm LEGEND Optical link Function 1310nm 1310nm Figurel5 Functional synopsis in unidirectional OADM configuration CWDM signals West East 1 channel 1 channel Add amp Drop Add amp Drop Extraction Insertion st ir d CWDM ine ine west East LEGEND Optical link Function 1310nm 1310nm Figurel Functional synopsis in bidirectional OADM configuration 1 3 1 3 CPE configuration In the CPE configuration there are two configurations 1 channel and 2 channel CPE ED 02 RL 3AL 97765 AAAA 39 125 All rights reserved Passing and copying of this document use and communication of its contents not permitted without written authorization v ALCATEL 1 CWDM signals 1310nm Figurel7 1 channel CPE configuration 2 CWDM signals CWDM line Optical link 1310nm Figure18 gt 2 channel CPE configuration 1 3 2 Description of the functions 1 3 2 1 Wavelength division multiplexing demultiplexing The optical multiplexer receives the CWDM signals directly from client equipment and multiplexes them into a fiber The optical demultiplexer receives the CWDM line signal then demultiplexes it into several CWDM signals and sends them to the client equipment 1 3 2 1 1 Optical multiplexing The multiplexer function may be obtained with the
41. potra eR ERES Pn IHRER I IR ERA R EEE EREE 59 Table 23 Maximum power consumption of the 63 Table 24 63 Table 25 Opicalconnechons 1359 2M BE 64 Table 26 C MDX E LI S optical chargcteristics ssec ce tr etre a hee PIRE Re tees EU MERE 67 Table 27 Front panel wiring of C MDX E U S board 67 Table 26 C MDXUopiical 70 Table 29 Front panel wing of C NDXAJ as ceci idoneis o addant de OO OE RR 70 Table 30 COMDX B S optical characteristics tte etra et th AR e eU EH 73 Table 31 Front panel wiring of C MDX B S board seen 73 Table 32 optical e Eon Pea SEES EUN HIS RF 76 Table 33 Front panel wiring of C MDX B board iui REA AR Ex 76 Table 34 C MDX2 E 1 S optical characteristics ni orti hp Ren ek eI 81 Table 35 Front panel wiring of C MDX2 E 1 S 81 Table 36 Optical parameter of C MDX2 E 2 XX 8 84 Table 37 Front panel wiring of C MDX2 E 2 XX S 84 Table 38 1 C OAD module for unidirectional application
42. single mode optical fiber cable 2 ITU T Recommendation G 653 04 97 Characteristics of dispersion shifted optical fiber cable 3 ITU T Recommendation G 655 10 96 Characteristics of non zero dispersion shifted optical fiber cable 4 ITU T Recommendation G 664 03 99 Optical safety procedures and requirements for optical transport systems 5 ITU T Recommendation G 694 2 10 03 Spectral Grids for WDM Applications CWDM Wavelength Grid 6 ITU T Recommendation G 695 10 03 Optical interfaces for Coarse Wavelength Division Multiplexing applications 7 Al Environmental conditions and environmental tests for Ble 0125151 05 94 telecommunication equipment 8 ETS 300 119 01 94 European Telecommunication Standards for Equipment Practice 9 Transmission and multiplexing Optical interfaces for equipment and m sepa fl 06 73 systems relating to the Synchronous Digital Hierarchy 10 Public Telecommunication Network Equipment Electro Magnetic BIS SUE 1224 Compatibility Requirements IEC 950 04 99 Safety of Information Technology Equipments 12 Network Equipment Building System NEBS Requirements Physical GR 63 CORE 10 95 Protection 13 _ Electromagnetic Compatibility and Electrical Safety Generic Criteria for 19 27 Network Telecommunication equipment 14 Television Bit Serial Digital Interface for High Definition Television SMPTE 292M 1998 98 2 1 Safety The equipment operates in the
43. without written consent 1 2 Handbook applicability This handbook applies to the following product release Product Release Version ANV P N Factory P N 1692MSE 2 0 01 3AL 97502 BAAA ED 02 RL 3AL 97765 AAAA 10 125 All rights reserved Passing and copying of this document use and communication of its contents not permitted without written authorization v ALCATEL 1 3 Product release handbooks AN The list of handbooks given here below is valid on the issue date of this Handbook and AN Some of the handbooks listed here below may not be available on the issue date of this Handbook The standard Customer Documentation in the English language for the equipment whose product release version is stated on the manual s front page consists of the following handbooks Table 1 Handbooks related to the product s hardware Factory This Ref Handbook Part No Part No HDBK 1692MSE Rel 2 0 Technical Handbook Provides information regarding Equipment description Maintenance documentation 1692MSE Rel 2 0 Installation Handbook 2 Provides step by step procedural instructions for unpacking inspecting Alcatel Part Number assembling mounting and wiring bays sub frames panels ancillary items and cabling 1692MSE Rel 2 0 Turn Up amp Commissioning 3AL 97767 AAAA 3 Handbook Provides procedures to support module installation Alcatel Part Numbe
44. 1610 ED 02 RL 3AL 97765 AAAA 47 125 v ALCATEL 18mm Dummy Front Panel Slot ME C OAD2 E U 2 XXXX S Figure27 An example for slot allocations in unidirectional OADM application 2 channels add drop 1 5 3 3 4 channel OADM In this case only 4 channels per direction can be added and dropped According to different wavelength combinations there are two kinds of OADM boards C OAD2 U 4 XXXXXXXX C OAD2 E U 4 XXXXXXXX S and C OAD H U 4 XXXXXXXX S can be used in this configuration Table 9 Wavelength combination for 4 channel unidirectional application Number 1 2 Channels nm 1470 1490 1510 1530 1550 1570 1590 1610 not permitted without written authorization All rights reserved Passing on and copying of this document use and communication of its contents C OAD2 E U 4 XXXXXXXX S Figure28 An example for slot allocations in unidirectional OADM application 4 channels add drop 1 5 3 4 Bidirectional OADM In this case only 1 channel per direction can be added and dropped Depending on different wavelength combinations there are four kinds of OADM boards Table 10 Wavelength combination for a bidirectional application Number 1 2 3 4 Channels nm 1470 1550 1490 1570 1510 1590 1530 1610 MEE 18mm Dummy Front Panel Slot 2 mE C OAD B 1 XX Slot 1 Figure29 An example for slot allocations i
45. 2 0 in line terminal configuration 1 1 2 Optical Add and Drop Multiplexer OADM In OADM configuration the 1692MSE R2 0 may add and drop 1310nm signal and a part of the traffic of an optical CWDM line in both directions In this configuration the equipment takes place as linear add and drop multiplexer in gt Point to point links Ring networks ED 02 RL 3AL 97765 AAAA 34 125 All rights reserved Passing and copying of this document use and communication of its contents not permitted without written authorization v ALCATEL CWDM signals x channels Add amp drop 1310nm 1310nm East line West line E gt d x channels Add amp drop CWDM signals Unidirectional transmission with x x 1 2 or 4 channels add amp drop Figure7 1692MSE R2 0 in OADM configuration N B In this document the definition about East and West is as follows East From west to east West From east to west East is in the right side of pages while west in the left side 1 1 3 CPE For the CPE application there are two configurations 1 channel and 2 channel CPE which is used to transmit 1 or 2 CWDM channels The 1310nm signal can be multiplexed demultiplexed in this configuration CWDM signals 2 channels 1310nm signal L 1310nm signal Unidirectional transmission Figure8 Block diagram of CPE ED
46. 25 to lt 50 55 1 110 2 Ib 525 20 7 in Two person carrying 50 to lt 100 110 2 220 5 Ib 450 18 5 in Two person carrying Category B Containers The packaged equipment shall not sustain any physical damage or deteriorate in functional performance when subjected to shock levels of the following table Table 19 Category B container packaged equipment shock criteria Mass kg Drop Height mm 450 992 Ib 300 11 8 in 450 or greater 992 Ib 150 5 9 in Unpackaged Equipment Shock Criteria The unpackaged equipment shall not sustain any physical damage or deteriorate in functional performance when subjected to applicable shock levels of the following table Minor cosmetic damage such as scratches dings and nicks do not necessarily constitute nonconformance Table 20 Unpackaged equipment shock criteria Mass kg Drop Height mm 0 to lt 10 0 22 Ib 100 3 9 in 10 to 25 22 55 1 Ib 75 3 in 25 to lt 50 55 1 110 2 Ib 50 2 in 50 or greater 110 2 Ib 25 1 in 1 7 2 4 Operating conditions Operating Temperature and Humidity Criteria The following table amp figure provide the normal operating temperature humidity levels and short term operating temperature humidity levels in which network equipment shall operate The test levels in this document are based on the short term levels The equipment shall not sustain any damage or deterioratio
47. 5 Add Express Express Ch Ch Ch2 Input Output Ch2 Chl Figure 5 C OAD U 2 XXXX block diagram Drop Drop 3 3 4 1 Description This board C OAD U 2 XX is used to add and drop TWO Channels per direction in the unidirectional CWDM system and the added dropped channels are to from the transponder board The other channels are passed through the C OAD board The OSC 1310nm signal is NOT added dropped by this board There are 4 types of 2 channel C OAD boards the wavelengths are defined the same as in Table 43 There are two OADM modules one OADM modules for each direction in the C OAD board ED 02 RL 3AL 97765 AAAA 95 125 All rights reserved Passing and copying of this document use and communication of its contents not permitted without written authorization 3 3 4 2 Front panel description Extraction Handle Extraction Handle Figure66 v ALCATEL Optical Safety Label Label n 9 gt East line Rx in East line Tx out East YY nm signal add East YY nm signal drop YY E East ZZ nm signal add East ZZ nm signal drop East express signal add East express signal drop West line Rx in West line Tx out West YY nm signal add West YY nm signal drop West ZZ nm signal add West ZZ nm signal drop West express signal add West express signal drop Front panel of C OAD U 2 XXXX board Hardware Failure
48. 70 C 158 F Temperature soak 72 hr minimum 70 C to 23 158 to 73 F Temperature transition Less than 5 minutes Any humidity or uncontrolled humidity High Relative Humidity Exposure The packaged equipment shall not sustain any damage or deteriorate in functional performance after it has been exposed to the environment described in the following table Table 17 High temperature exposure and thermal shock Temperature Event Duration Rate of Change ay d 1558 Temperature transition 30 C hr 54 F hr 40 104 F Transition to 9096 to 9596 RH Ahr 40 104 9096 to 9596 RH Temperature humidity soak 96 hr 40 to 23 5 o RH 104 F to 73 F Temperature transition 30 C hr 54 F hr Transportation Category A Containers The packaged equipment shall not sustain any physical damage or deteriorate in functional performance when subjected to free fall shock levels of the following table ED 02 RL 3AL 97765 AAAA 56 125 All rights reserved Passing and copying of this document use and communication of its contents not permitted without written authorization v ALCATEL Table 18 Category A container packaged equipment Shock criteria Mass kg Drop Height mm Handling Mode Oto lt 10 0 22 Ib 750 29 5 in One person throwing 10 to lt 25 22 55 1 Ib 600 23 6 in One person carrying
49. AINTENANCE 4 INTRODUCTION 4 2 MAINTENANCE DEFINITIONS 4 3 PREVENTIVE MAINTENANCE Routine maintenance every year 4 3 2 Other routine maintenance 4 4 UNIT REPLACEMENT WITH SPARE 4 5 REPAIR FORM 4 3 1 v ALCATEL 0000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000000 02 RL 3AL 97765 AAAA 3 125 All rights reserved Passing and copying of this document use and communication of its contents not permitted without written authorization v ALCATEL FIGURES Figurel Labels tor pride with siiftenming DIE Figure2 Label epac bang seria Blau asiste kept Ine nere Fh Rot rae no uc n an o c eid 24 Figure3 Label identifying label an isse CU eee OG R EEKE ARS 25 Figure4 Labels specifying hazard level 25 Figure5 Labels on the shelf 25 Figure 1692MSE R2 0 in line terminal configuration cie cet 34 Figure7 Tee ZMSE R20 in OADM sius cm aser pad RR 35 Figure8 Block diagram pl 35 Figure9 1692MSE in point to point 36 Figure10 169 2 in linea
50. AL 97765 AAAA 24 125 v ALCATEL ANV ICS P N Bar code of ANV ICS P N Figure3 Label identifying label on catalogue All rights reserved Passing on and copying of this document use and communication of its contents not permitted without written authorization CLASS 1 ASER PRODUC Figure4 Labels specifying hazard level Front panel Extraction handle Figure5 Labels on the shelf example 3AL 97765 AAAA 25 125 All rights reserved Passing and copying of this document use and communication of its contents not permitted without written authorization v ALCATEL 5 LIST OF ABBREVIATIONS ADM Add amp Drop Multiplexing CPE Customer Premise Equipment CWDM Coarse Wavelength Division Multiplexing IL Insertion Loss MPE Maximum Permissible Exposure NE Network Element OADM Optical Add Drop Multiplexer OCH Optical Channel OTN Optical Transmission Network SDH Synchronous Digital Hierarchy SMF Single Mode Fiber WDM Wavelength Division Multiplexing ED 02 RL 3AL 97765 AAAA 26 125 All rights reserved Passing and copying of this document use and communication of its contents not permitted without written authorization v ALCATEL 6 GENERAL ON ALCATEL CUSTOMER DOCUMENTATION 6 1 Products product releases versions and Customer Documentation
51. ALCATEL 4 2 Suggestions notes and cautions Suggestions and special notes are marked by the following symbol Suggestion or note Cautions to avoid possible equipment damage are marked by the following symbol Title Caution to avoid equipment damage Statement 4 3 Labels affixed to the Equipment This paragraph indicates the positions and the information contained on the identification and serial labels affixed to the equipment Labeling depicted hereafter is for indicative purposes and could be changed without any notice Table 5 Label references Ref No Name of Label 1 Label specifying item on catalogue P N 2 Serial number of item specified on catalogue 3 Final test certificate 4 Simple label adhered on extraction handle 5 Hazard level label On contract basis customized labels can be affixed to the equipment Standard labels can be affixed to any position on the equipment as required by the customer However for each of the above are applied the rules defined by each individual customer ED 02 RL 3AL 97765 AAAA 23 125 All rights reserved Passing and copying of this document use and communication of its contents not permitted without written authorization v ALCATEL Figurel Labels for units with stiffening bar Serial No Bar code of the serial No Figure2 Label specifying serial No RL 3
52. Alcatel use and communication of its contents are not permitted without written authorization from Alcatel 6 5 3 CD ROM identification Each CD ROM is identified By the following external identifiers that are printed both the booklet and the CD ROM upper surface gt The name of the product release s and version when the CD ROM is applicable to the versions starting from it but not to the previous ones A writing indicating the language s The CD ROM P N The CD ROM edition usually first edition 01 b And internally by the list of the source handbooks and documents P Ns and editions by whose collection and processing the CD ROM itself has been created 6 5 4 CD ROM updating The list of source handbook document P Ns editions indicated in section 6 5 3 point 2 in association with the CD ROM s own P N edition is also loaded in the Alcatel Information System as a structured list Whenever a new edition of any of such handbooks documents is released in the Alcatel archive system the Alcatel Information System automatically raises a warning toward the Customer Documentation Department indicating the list of CD ROMs that must be updated to include the new editions of these handbooks documents This causes the planning and creation of a new edition of the CD ROM Updating of CD ROMs always follows with a certain delay the updating of the single handbooks composing the collection ED 02 RL
53. D U 1 XX Drop Express Ch Express Ch Add Channel Output Input Channel West to East in East to West out Add Express Ch Express Ch Drop Channel Input Output Channel Figure l C OAD U 1 XX block diagram 3 3 2 1 Description This board C OAD U 1 XX is used to add and drop ONE Channel per direction in the unidirectional CWDM system and the added dropped channel is from to the transponder board The other channels are passed through the C OAD board The OSC 1310nm signal is NOT added and dropped by this board All channels can be added and dropped There are 8 different 1 channel C OAD boards according to the different wavelengths the wavelengths are defined the same as in Table 38 There are two OADM modules one OADM module for each direction in the C OAD board ED 02 RL 3AL 97765 AAAA 89 125 All rights reserved Passing and copying of this document use and communication of its contents not permitted without written authorization v ALCATEL 3 3 2 2 Front panel description Extraction Handle Hardware Failure LED 4 9 East line Rx in East line Tx out YY E East YY nm signal add 7 East nm signal drop East express signal add e East express signal drop a West line Rx in 6 West line Tx out West YY nm signal add West YY nm signal drop West express signal add West express signal drop Optical Safety Label Electrostatic Discharge Label E
54. L 3AL 97765 AAAA 112 125 All rights reserved Passing and copying of this document use and communication of its contents not permitted without written authorization v ALCATEL 3 4 5 C OAD2 E U 4 XXXXXXXX S Drop Add Chl 4 Express Ch Express 4 Output Input Fon rer v ____ 596 95 West to East 5 95 TAP 1310nm Filter 1310nm Filter West to East in out Drop Add Osc 3 OSC Add OSC OSC Eost to West ng Filter 1310nm Filter 5 95 TAP East to West out 04 596 1 m cum 1 PIN AMP 844 i Add Express Ch Express Ch Drop Chl 4 Input Output Chl 4 Figure78 C OAD2 E U 4 XXXXXXXX S block diagram 3 4 5 1 Description This board C OAD2 E U 4 XXXXXXXX S is used to add and drop FOUR Channels per direction in the unidirectional CWDM system and the added dropped channels are to from the transponder board The other channels are passed through the C OAD2 E U 4 XXXXXXXX S board The OSC 1310nm signal is also added dropped by this board The dropped OSC signal is sent to the OSC board the added OSC signal comes from the OSC board At each receiving direction a 5 95 TAP is used to split the line signal into two channels One 9596 is sent to the OADM module the other 596 is sent to
55. L 3AL 97765 AAAA 13 125 All rights reserved Passing and copying of this document use and communication of its contents not permitted without written authorization v ALCATEL 1 5 2 Notes on Release 1 0 ED 01 Release 1 0 Ed 01 created on May 15th 2003 is the first validated and officially released issue This document contains the technical documentation and the user manual for the 1692MSE release 1 0 1 5 3 Notes on Release 1 0A3 ED 01 Release 1 0A3 01 created on November 29th 2003 is the second validated and officially released issue for 1692MSE system This document contains the technical documentation and the user manual for the 1692MSE release 1 0A3 The release 1 0A3 contains the same features contained in release 1 0 plus the following features gt House keeping and Remote alarm interface management gt New Wavelength adapter management gt OMDX and OADM management The following contents have been modified compared to Release 1 0 01 gt Configuration in Operator s handbook gt Alarm handling in Operator s handbook 1 5 4 Notes on Release 1 1 ED 01 Release 1 1 ED 01 created on January 3rd 2004 is the third validated and officially released issue for 1692MSE system This document contains the technical documentation and the user manual for the 1692MSE release 1 1 The release 1 1 contains the same features contained in release 1 0A3 plus the followi
56. LED Electrostatic Discharge ED 02 RL 3AL 97765 AAAA 96 125 v ALCATEL All rights reserved Passing on and copying of this document use and communication of its contents not permitted without written authorization 3 3 4 3 Optical characteristics Table 46 C OAD U 2 XXXX optical characteristics Insertion Losses Value Unit Ch OUT Max 1 0 dB Exp Ch OUT Max 1 0 dB IN DROP Max 1 3 dB ADD OUT Max 1 3 dB Fiber Specs Type Fiber type 0 9 2mm SMF28 Connector type MU Reflectance Value Unit All input ports Max 40 dB 3 3 4 4 Front panel wiring Table 47 Front panel wiring of C OAD U 2 XXXX board Name Signal East Line Rx in East Line Reception input signal from line East Line Tx out East Line Transmission output signal to line East YY nm signal add East YY nm signal add from corresponding transponder East YY nm signal drop East YY nm signal drop to corresponding transponder East ZZ nm signal add East ZZ nm signal add from corresponding transponder East ZZ nm signal drop East ZZ nm signal drop to corresponding transponder East express signal add East express signal add from East express signal drop East express signal drop East express signal drop West Line Rx in West Line Reception input signal from line West Line Tx out West
57. Line Transmission output signal to line West YY nm signal add West YY nm signal add from corresponding transponder West YY nm signal drop West YY nm signal drop to corresponding transponder West ZZ nm signal add West ZZ nm signal drop West ZZ nm signal add from corresponding transponder West ZZ nm signal drop to corresponding transponder West express signal add West express signal add from West express signal drop West express signal drop West express signal drop N B YY ZZ is one of the CWDM wavelengths combinations 1470 1490 1510 1530 1550 1570 1590 1610 N B East means from west to east while West means from east to west ED 02 RL 3AL 97765 AAAA 97 125 All rights reserved Passing and copying of this document use and communication of its contents not permitted without written authorization v ALCATEL 3 3 5 C OAD B 1 XX S Drop East Add Drop West OSC West OSC OSC East OSC Add Drop OSC Add Drop OSC 1310nm Filter 02 Line I O 1 Line I O 2 Express Ch Express Ch Drop Add yo Drop Add East Ch West Ch West Ch East Ch Figure 7 1 5 block diagram 3 3 5 1 Description This board C OAD B 1 XX S is used to add and drop only ONE channel per direction in the Bidirectional CWDM system A west added dropped channel is to from a transpon
58. MDX2 E 2 XX S block Figure58 Front panel of C MDX2 E 2 XX 5 C OAD E U 1 4 8 block dIGBFEF oo ert RO eee eX I C eoe eens Figure60 Front panel of C OAD E U 1 XX S board C OAD U T XX black roe t ettet nd e Ee bebe kk n Pe bera ER Figure62 Front panel of C OAD U T XX phot etin reb ER C OAD E LE2 200005 Block uos eod eto bt RD TER Ge eid E ever d Figure 4 Front panel of C OAD E U 2 XXXX S board Figure 5 C OAD U 2 XXXX block Figure66 Front panel of C OAD U 2 XXXX board enne enn Foure block ca E geben dodo videbo dida a Gb End Figure6s Front of C OAD B 1 XX 5 board Figure 9 C OAD B T XX block diagram nennen nth eerta EAS Figure70 Front panel of C OAD B T XX board ires nter Figure71 C OAD H U 4 J0000000 5 block diagram en Figure72 Front panel of C OAD H U 4 XXXXXXXX S isses nennen nennen Figure73 Front panel ports of C OAD H U 4 000000X S csse Figure
59. N gt CH5 Out 1550nm 2 6 dB LINE IN gt CH6 Out 1570nm 2 3 dB LINE IN gt CH7 Out 1590nm 2 0 dB LINE IN gt CH8 Out 1610nm 1 7 dB Channel passband at 0 5dB include channel center 14 wavelength 6 8 range Fiber Specs Type Fiber type 0 9 2mm SMF28 Connector type MU Reflectance Value Unit All input ports Max 40 dB 3 1 1 4 Front panel wiring Table 27 Front panel wiring of C MDX E U S board Name Signal OSC Tx in Supervision transmission input signal from OSC board OSC Rx out Supervision reception output signal to OSC board Line Rx in Line Reception input signal from line Line Tx out Line Transmission output signal to line nm signal in WDM transmission input signal from corresponding transponder nm signal out WDM reception output signal to corresponding transponder N B means from 1470 to 1610 ED 02 RL 3AL 97765 AAAA 67 125 All rights reserved Passing and copying of this document use and communication of its contents not permitted without written authorization 3 1 2 C MDX U v ALCATEL 1470 1490 1510 1530 Line Tx 1550 1570 1590 1610 1470 1490 1510 1530 1550 1570 1590 1610 Figure47 C MDX U block diagram 3 1 2 1 Description a MUX side The MUX component multiplexes 8 channel CWDM grid signals into an optical fiber b DEMUX
60. OAD B 1 XX S board ED 02 RL 3AL 97765 AAAA 99 125 All rights reserved Passing and copying of this document use and communication of its contents not permitted without written authorization 3 3 5 3 Optical characteristics v ALCATEL Table 49 C OAD B 1 XX S optical characteristics Insertion Losses Value Unit lt gt Ch I O Max 1 5 dB O gt DROP Max 1 8 dB ADD gt 1 O Max 1 8 dB Insertion loss I O gt OSC Drop OSC Add gt 1 O Max 2 dB Fiber Specs Type Fiber type 0 9 2mm SMF28 Connector type MU Reflectance Value Unit All input ports Max 40 dB 3 3 5 4 Front panel wiring Table 50 Front panel wiring of C OAD B 1 XX S board Name Signal East OSC Tx in East Supervision transmission input signal from OSC board East OSC Rx out East Supervision reception output signal to OSC board West OSC Tx in West Supervision transmission input signal from OSC board West OSC Rx out West Supervision reception output signal to OSC board Line I O 2 Line signal 2 from to line Line 1 Line signal 1 from to line West YY nm signal add West YY nm signal add from corresponding transponder West YY nm signal drop West YY nm signal drop to corresponding transponder East ZZ nm signal add East ZZ nm signal add from corresponding transpon
61. RIAL NUMBER FAULTY UNIT SOFTWARE VERSION FAULT PHASE REASON FOR REPAIR PRESUMED CAUSE INSTALLATION CLEAR FAULT DROP IN PERFORMANCE L INTERNAL TURN ON LIGHTNING OPERATION INTERMITTENT FAULT UPGRADE QUALITY EXTERNAL AIR COND MAINTENANCE TEMPERATURE FAULT NAME OF SENDER P NAI COMMENTS FAULT STILL PRESENT AFTER REPAIR PROCESSING FAULTS DETECTED FAULTS FOUND UPGRADE COMPONENT ADJUSTMENT FA STANDARD REPAIRING L NOT REPAIRABLE MECHANICAL L PRINTED Y REJECTED T CIRCUIT BOARD si 3 v1 SOLDERING WIRING vi re SUBSTITUTED QUALITY ALERT Ba CORROSION OTHER 5 v NOTE LETTERS ARE FOR TORY USE COMMENTS DATE REPAIRING NUMBER REPAIRING CENTRE NAME OF REPAIR OPERATOR pap ee ee S Figure82 Repair form ED 02 RL 3AL 97765 AAAA 124 125 ALCATEL USYUM you US UOD JO pue asn si Jo pue uo pamasa END OF DOCUMENT RL 3AL 97765 AAAA 02 ED
62. SC board the added OSC signal comes from the OSC board All channels can be added and dropped There are 8 different 1 channel C OAD2 boards according to the different wavelengths the wavelengths are defined as in the following table Table 56 1 channel C OAD2 module for unidirectional application Number XX 4747 4949 5151 5353 5555 5757 5959 6161 Add Drop Channels nm 1470 1490 1510 1530 1550 1570 1590 1610 There are two OADM modules one OADM module for each direction in the board At each receiving direction a 5 95 TAP is used to split the line signal into two channels One 9596 is sent to the 1310nm filter splitter the other 596 is sent to a PIN amp amplification circuit for LOS detection As R2 0 is passive CWDM equipment the LOS detection circuit is not available The front panel and front panel wiring are the same as C OAD E U 1 XX S unit ED 02 RL 3AL 97765 AAAA 109 125 All rights reserved Passing and copying of this document use and communication of its contents not permitted without written authorization v ALCATEL 3 4 2 C OAD2 U 1 XX Drop Express Ch Express Ch Add Channel Output Input Channel West to East in 5 95 TAP out East to West out Add Express Ch Express Drop Channel Input Output Channel Figure75 C OAD2 U 1 XX block diagram 3 4 2 1 Description This board C
63. T CHA filter DRO ADD CH CH2 CH3 filter DRO ADD CH CH3 CH2 filter DRO ADD CHI CH4 CH1 filter DRO ADD EXP out EXP in Figure23 4 ch add drop function In 1692MSE R2 0 16ch upgradbility has been reserved through a CWDM band splitter which is named 1310nm filter it s different to the one used in 1692MSE previous releases It has not only 1310nm signal multiplexing demultiplexing functionality but also can pass through 1260 1450nm wavelength and reflect 1470 1610nm wavelength This function can be used for upgrading current 8ch CWDM system to 16ch CWDM system in the future Figure24 output 1310nm filter 1470 1610nm input ED 02 RL 3AL 97765 AAAA 43 125 All rights reserved Passing and copying of this document use and communication of its contents not permitted without written authorization v ALCATEL 1 4 Device description 1 4 1 Shelf list The shelf for 1692MSE R2 0 is new designed item which is 1 unit high and has 2 slots 1 4 2 Shelf and boards designation and reference Table 6 Shelf and boards designation and reference Name Mnemonic ALCATEL Code 1692MSE shelf 3AL 97732 AA 18mm Dummy Front Panel 3AL 97733 AA Unidirectional MUX DEMUX without 1310nm filter C MDX U 3AL 97538 AB Unidirectional MUX DEMUXE with 1310nm filter C MDX E U S 3AL 97769 AA Bidirectional MUX DEMUX without 1310n
64. Technical Handbook Alcatel 1692MSE uonezuoupne ueni you juojuoo sj Jo uoneoiunuduloo pue asn si Jo pue uo pamasa 8 Channels CWDM System 1692MSE REL 2 0 v ALCATEL tv 006 7000 1000 VV L 3AL 97765 AAAA ED 02 uonezuoupne ueni you juojuoo sj Jo uoneoiunuduloo pue asn si Jo pue uo pamasa v ALCATEL 7 006 7000 1000 VV L 3AL 97765 AAAA ED 02 v ALCATEL 1692MSE REL 2 0 TECHNICAL HANDBOOK 22 CONTENTS Zog 255 HANDBOOK GUIDE 9 EN as 5 1 HANDBOOK STRUCTURE AND CONFIGURATION CHECK 10 NEC TOR Der gt RTT T EUER 10 s32 L2 rra Qul 10 258 SSE ARIE CHARS seas copi ADI D MERE II S MR IM RM MAR adu i 11 RES LA oe ANNETTE DERE 12 8 Lc COUT CHECK nice dd c ec EIE PIS MEAS bu MERE HI ARM eI ERR EMT oM TRETEN 13 9 g 1 8 1 Listoftiheedhons and poris cni kn Rd d 13 S 1 5 2 Notes on Release 1 0 ui eire rtt dedi 14 855 12533 on TIAS EDD 14 855 1 84 Noteson Release 1 1 BDI iuit
65. a C OAD E U 2 XXXX S unit ED 02 RL 3AL 97765 AAAA 111 125 All rights reserved Passing and copying of this document use and communication of its contents not permitted without written authorization v ALCATEL 3 4 4 C OAD2 U 2 XXXX Drop Drop Ex Ch E Ch Add press xpress Ch Ch West to East out West to East in East to West out 5 95 TAP 596 PIN AMP Add ExpressCh Express Ch Drop Drop Chl Ch2 Input Output Ch2 Chl Figure77 C OAD2 U 2 XXXX block diagram 3 4 4 1 Description This board C OAD2 U 2 XXXX is used to add and drop TWO Channels per direction in the unidirectional CWDM system and the added dropped channels are to from the transponder board The other channels are passed through the 2 board The OSC 1310nm signal is NOT added dropped by this board There are 4 types of 2 channel C OAD2 boards The wavelengths are defined the same as in Table 57 There are two OADM modules one OADM modules for each direction in the C OAD2 board At each receiving direction a 5 95 TAP is used to split the line signal into two channels One 95 is sent to the OADM module the other 5 is sent to a PIN amp amplification circuit for LOS detection As R2 0 is passive CWDM equipment the LOS detection circuit is not available The front panel and front panel wiring are the same as in a C OAD U 2 XXXX unit ED 02 R
66. a PIN amp amplification circuit for LOS detection As R2 0 is passive CWDM equipment the LOS detection circuit is not available There are 2 types of 4 channel C OAD2 boards the wavelengths are defined in the following table The 000000 can be the values listed in the following table Table 58 4 channel C OAD2 module for unidirectional application Number 4747494951515353 5555575759596161 Add Drop Channels nm 1470 1490 1510 1530 1550 1570 1590 1610 Thus there are two kinds of C OAD2 E U 4 XXXXXXXX S board ED 02 RL 3AL 97765 AAAA 113 125 All rights reserved Passing and copying of this document use and communication of its contents not permitted without written authorization 3 4 5 2 Front panel description Extraction Handle Hardware Failure LED East OSC add East OSC drop West OSC add West OSC drop Line East in Line East out East A nm signal add East A nm signal drop East B nm signal add East B nm signal drop East C nm signal add East C nm signal drop East D nm signal add East D nm signal drop East express signal add East express signal drop Optical Safety Label Electrostatic Discharge Label Extraction Handle Figure79 v ALCATEL Line West in Line West out West A nm signal add West A nm signal drop West B nm signal add West B nm signal drop West C nm signal add West C nm signal drop W
67. and the information necessary for installing commissioning operating and maintaining the equipment according to Alcatel Laboratory design choices ED 02 RL 3AL 97765 AAAA 27 125 All rights reserved Passing and copying of this document use and communication of its contents not permitted without written authorization v ALCATEL 6 4 Handbook Updating The handbooks associated to with the product release are listed in para 1 3 Each handbook is identified by The name of the product release and version when the handbook is applicable to the versions starting from it but not to the previous ones The handbook name The handbook P N The handbook edition usually first edition 01 The handbook issue date The date on the handbook does not refer to the date of print but to the date on which the handbook source file has been completed and released for the production VVVV 6 4 1 Changes introduced in the same product release same handbook P N The edition and date of issue might change on future handbook versions for the following reasons gt Only the date changes pointed out in the Table of Contents when modifications are made to the editorial system resulting no change the technical contents of the handbook gt edition hence the date is changed because modifications made concern technical contents In this case The chapters modified with re
68. closed 1 7 2 2 Emission As the 1692MSE R2 0 equipment has just pure passive board such as CWDM MUX DEMUX without any management It will not be powered on So there is no emission ED 02 RL 3AL 97765 AAAA 55 125 All rights reserved Passing and copying of this document use and communication of its contents not permitted without written authorization v ALCATEL 1 7 2 3 Storage amp transportation Storage Low Temperature Exposure and Thermal Shock The packaged equipment shall not sustain any damage or deteriorate in functional performance after it has been exposed to the environment described in the following table Table 15 Low temperature exposure and thermal shock Temperature Event Duration Rate of Change 40 C to 23 40 F to 73 F Temperature transition 30 C hr 54 F hr 40 40 F Temperature soak 72 hr minimum 40 C to 23 40 F to 73 F Temperature transition Less than 5 minutes Any humidity or uncontrolled humidity High Temperature Exposure and Thermal Shock The packaged equipment shall not sustain any damage or deteriorate in functional performance after it has been exposed to the environment described in the following table Table 16 High temperature exposure and thermal shock Temperature Event Duration Rate of Change 23 C to 70 73 F to 158 F Temperature transition 30 C hr 54 F hr
69. der East ZZ nm signal drop East ZZ nm signal drop to corresponding transponder Express signal I O 2 Express signal 2 add drop connected with express signal I O 1 Express signal I O 1 Express signal I O 1 add drop N B YY ZZ is one of the CWDM wavelengths combinations 1470 1550 1490 1570 1510 1590 1530 1610 N B East means from west to east while West means from east to west 02 RL 3AL 97765 AAAA 100 125 v ALCATEL 3 3 6 C OAD B 1 XX 7 7 7 7 77 7 Line All rights reserved Passing on and copying of this document use and communication of its contents not permitted without written authorization Drop Add Express Ch Express Ch Drop Add Eas Ch West Ch East Ch Figure69 C OAD B 1 XX block diagram 3 3 6 1 Description This board C OAD B 1 XX is used to add and drop only ONE channel per direction in the Bidirectional CWDM system A west added dropped channel is to from a transponder board and an east added dropped channel is to from a transponder board The other channels are passed through the C OAD board The OSC 1310nm signal is NOT added and dropped by this board There are 4 types of Bidirectional C OAD boards the wavelengths are defined the same as in Table 48 There is only one 2 channel C OAD module one add 8 drop channel for each direction in the board ED 02 RL 3AL
70. der board and an east added dropped channel is to from a transponder board The other channels are passed through the C OAD board The OSC 1310nm signals including east and west directions are also added and dropped by this board The east west added OSC signals come from the east west OSC modules and the east west dropped OSC signals are sent to the east west OSC modules There are 4 types of Bidirectional C OAD boards The wavelengths are defined as in the following table There is only one 2 channel C OAD module one add amp drop channel for each direction in the board Table 48 C OAD modules for bidirectional application Number XX 4755 4957 5159 5361 Add Drop Channels nm 1470 1550 1490 1570 1510 1590 1530 1610 ED 02 RL 3AL 97765 AAAA 98 125 All rights reserved Passing and copying of this document use and communication of its contents not permitted without written authorization 3 3 5 2 Front panel description Extraction Handle Extraction Handle Figure 68 v ALCATEL Hardware Failure LED East OSC Tx in East OSC Rx out 9 West OSC Tx in 5 West OSC Rx out Line I O 2 9 Line 1 West YY nm signal add West YY nm signal drop YY East ZZ signal add East ZZ signal drop express signal 2 express signal 1 Optical Safety Label Electrostatic Discharge Label Front panel of C
71. ding transponder West YY nm signal drop West YY nm signal drop to corresponding transponder East ZZ nm signal add East ZZ nm signal add from corresponding transponder East ZZ nm signal drop East ZZ nm signal drop to corresponding transponder Express signal I O 2 Express signal 2 add drop connected with express signal I O 1 Express signal I O 1 Express signal I O 1 add drop N B YY ZZ is one of the CWDM wavelengths combinations 1470 1550 1490 1570 1510 1590 1530 1610 N B East means from west to east while West means from east to west ED 02 RL 3AL 97765 AAAA 103 125 All rights reserved Passing and copying of this document use and communication of its contents not permitted without written authorization v ALCATEL 3 3 7 C OAD H U 4 XXXXXXXX S 1310nm Filter OSC Drop East OSC Add East Add1 East Add4 East Express Ch EE Express Ch Out East In East Output West Input West OSC Add West P OSC Drop West Add1 West Drop1 West Add4 West Drop4 West Express Ch Out West Express Ch In West Figure71 C OAD H U 4 XXXXXXXX S block diagram 3 3 7 1 Description C OAD H U 4 XXXXXXXX S board is designed for 4ch OADM application which can add drop Ach CWDM channels for 2 directions 1310nm signal can be inserted extracted with this board w
72. e eT Aere I m anidadid nad I CHER AD E Rc aq lu ka a o e 1 5 1 General Le TOTOE en dtr rea rH fie RD on ERR hg ENVIRONMENTAL sa e I PP LG ETS empiece eee Pacte ih rade eee pl bu eai eH LEX JAMEBSsomplohey x ie ttr Lira bond 2 MECHANICAL RENEMERURERREN NP RNEKERUE ER KENN EE T 2 1 1 Emily Shell coute _ DS 2 12 Shell front vieni Seul uui eed MU obl te ed bonu EET vn do dad ER OG EDO RN 2 1 BOARDS DESCRIP O Ges Ez Np M IMP 2 2 1 C MDX2 E U S board 2 2 2 C MDX2 E 2 5153 5 board example eter brin S niiina aai 22 3 QC QADZ E 1 474758 boord example We evt ARE CE ERAN URN 2 2 4 2 0 2 4749 5 board example 2 2 5 C OAD H U 4 47495153 S board example sse 2 2 5 dummy Trent peinel oo eb DER 2 3 POWER CONSUMPTION AND WEIGHT OF THE UNITS 2 UEM 2 5 EQUIPMENT CONNECTIONS
73. e80 C OAD2 U 4 XXXXXXXX block diagram 3 4 6 1 Description This board C OAD2 U 4 XXXXXXXX is used to add and drop FOUR Channels per direction in the unidirectional CWDM system and the added dropped channels are to from the transponder board The other channels are passed through the 2 board At each receiving direction a 5 95 TAP is used to split the line signal into two channels One 9596 is sent to the OADM module the other 596 is sent to a PIN amp amplification circuit for LOS detection As R2 0 is passive CWDM equipment the LOS detection circuit is not available There are 2 types of 4 channel C OAD2 boards the wavelengths are defined in the following table There are two OADM modules one OADM modules for each direction in the C OAD2 board The can be the values listed in the following table Table 62 4 channel C OAD2 modules for unidirectional application Number XXXXXXXX 4747494951515353 5555575759596161 Add Drop Channels nm 1470 1490 1510 1530 1550 1570 1590 1610 Thus there are two kinds of C OAD2 U 4 XXXXXXXX boards ED 02 RL 3AL 97765 AAAA 117 125 All rights reserved Passing and copying of this document use and communication of its contents not permitted without written authorization 3 4 6 2 Front panel description Extraction Handle Hardware Failure LED Line East in Line East out East A nm signal add East A
74. ements of ETSI Stand The functionality of the Equipment Vs Temperature is in compliance with ETSI EN 300 019 2 3 1999 hazard level 3 3 Hazard level 3 3 Not temperature controlled locations This hazard level applies to locations Where installed equipment may be exposed to solar radiation and heat radiation They may also be exposed to movements of the surrounding air due to draughts in buildings e g through open windows They may be subjected to condensed water and to water from sources other than rain and icing They are not subjected to precipitation gt Where mould growth or attacks by animals except termites may occur gt With normal levels of contaminants experienced in urban areas with industrial activities scattered over the whole area and or with heavy traffic gt In close proximity to sources of sand or dust With vibration of low significance e g for products fastened to light supporting structures subjected to negligible vibrations The conditions of this hazard level may be found in Entrances and staircases of buildings Garages Cellars Certain workshops Buildings in factories and industrial process plants Unattended equipment stations Certain telecommunication buildings VVVVVVV V Ordinary storage rooms for frost resistant products and farm buildings ED 02 RL 3AL 97765 AAAA 53 125 v ALCATEL 50 45 40 NL nH
75. eserved Passing and copying of this document use and communication of its contents not permitted without written authorization v ALCATEL From West side To East side To West side From East side Figure21 1 ch add and drop function in unidirectional transmission This scheme has been chosen to implement the extraction and the insertion of chX from and into the WEST or EAST side of a CWDM protected network In figure it s shown only the OADM working on the WEST side 1 3 2 2 2 2ch add drop The 2ch add drop OADM function may be obtained with the following scheme From West side To East side To West side From East side Mux Chx Chy Figure22 2 ch add and drop function in unidirectional transmission This scheme has been chosen to implement the extraction and the insertion of chX Y from and into the WEST or EAST side of a CWDM protected network In figure it s shown only the OADM working on the WEST side 1 3 2 2 3 4ch add drop The OADM is used to Add drop four CWDM signals to from a multi wavelength signal on a single fiber transmission ED 02 RL 3AL 97765 AAAA 42 125 All rights reserved Passing and copying of this document use and communication of its contents not permitted without written authorization 1 3 2 3 1310nm filter ALCATEL v 4 ch Add Drop Module CH CHI OU
76. est D nm signal add West D nm signal drop West express signal add West express signal drop Front panel of C OAD2 E U 4 XXXXXXXX S board ED 02 RL 3AL 97765 AAAA 114 125 All rights reserved Passing and copying of this document use and communication of its contents not permitted without written authorization v ALCATEL 3 4 5 3 Optical characteristics The C OAD2 E U 4 XXXXXXXX S unit s add amp drop channels sequence is defined by the following table Table 59 Add amp Drop Channels Sequence Add amp Drop Wavelength nm Channel C OAD2 E U 4 4747494951515353 S C OAD2 E U 4 5555575759596161 S Number 1470 1550 1 1490 1570 2 1510 1590 3 1530 1610 4 The optical characteristics of the board are as follows Table 60 C OAD2 E U 4 XXXXXXXX S board optical characteristics Insertion Losses Value Unit IN gt Exp Ch OUT Max 2 7 dB Exp Ch IN gt OUT Max 2 2 dB In gt CH1 Drop Max 2 8 dB In gt CH2 Drop Max 2 5 dB In gt CH3 Drop Max 2 2 dB In gt CH4 Drop Max 1 9 dB CH1 Add gt Out Max 1 4 dB CH2 Add gt Out Max 1 7 dB CH3 Add Out Max 2 0 dB Add Out Max 2 3 dB IN gt OSC DROP Max 1 5 dB OSC ADD gt OUT Max 1 dB Fiber Specs Type Fiber type 0 9 2mm SMF28 Connector type MU Reflectance Value Unit All input ports Max 40 dB
77. following 8 1 optical MUX ED 02 RL 3AL 97765 AAAA 40 125 All rights reserved Passing and copying of this document use and communication of its contents not permitted without written authorization v ALCATEL Add channels 1 8 CWDM mux Figurel9 CWDM MUX side The multiplexer is able to multiplex 8 channels signals in CWDM grid issued from the transponder function into one multi wavelength single fiber transmission This device it s a 9 fibers passive optic component 8 channels add inputs 1 output common The multiplexer can be used in unidirectional line terminal configuration 1 3 2 1 2 Optical demultiplexing The demultiplexer function may be obtained with the following 1 8 optical DMUX Drop channels 1 8 input CWDM demux Figure20 CWDM DMUX side The demultiplexer is able to demultiplex an input aggregate signal n channels into 8 channels signals in CWDM grid and send to the transponder 1 3 2 2 Optical add drop multiplexing In line OADM configuration 1692MSE R2 0 supports unidirectional or bidirectional transmission 1ch add drop 2ch add drop or 4ch add drop OADM module can be used in unidirectional transmission while only a 2 ch add drop OADM module can be used in a bidirectional transmission 1 3 2 2 1 1ch add drop The 1ch add drop OADM function may be obtained with the following scheme ED 02 RL 3AL 97765 AAAA 41 125 All rights r
78. following environment Telecommunication center gt Outdoor Cabinet Compliancy to Safety Norms is claimed in that the equipment satisfies standardized Norms gt IEC 60950 1993 A2 A3 4 2 2 Environmental constraints Compliancy to Environmental Norms is claimed in that the equipment satisfies standardized Norms gt ETSI EN 300 019 2 1 2000 hazard level 1 2 Storage ETSI EN 300 019 2 2 1999 hazard level 2 2 Transportation ETSI EN 300 019 2 3 1999 hazard level 3 3 Operating condition ED 02 RL 3AL 97765 AAAA 17 125 All rights reserved Passing and copying of this document use and communication of its contents not permitted without written authorization 3 3 1 General rules v ALCATEL SAFETY NORMS AND LABELS Before carrying out any installation turn up tests amp operation and maintenance operations carefully read the relevant Handbooks and chapters Observe safety rules While equipment is operating no one is allowed to have access to the equipment parts that are protected by Cover Plate Shields that are removable with tools In the case of absolute need to have access to the equipment parts while it is operating ONLY service personnel are allowed such access By Service Personnel or Technical assistance it is meant Personnel which have adequate technical knowledge and experience necessary to be aware of the danger that they might
79. g climatic atmospheric and mechanical conditions are specified in the ETS 300 019 The following environmental hazard levels of this standard apply ED 02 RL 3AL 97765 AAAA 50 125 All rights reserved Passing and copying of this document use and communication of its contents not permitted without written authorization v ALCATEL Storage The equipment meets the following requirements Vs Storage ETSI EN 300 019 2 1 2000 hazard level 1 2 Hazard level 1 2 Weatherproofed not temperature controlled storage location This hazard level applies to weatherproofed storage having neither temperature nor humidity control The location may have openings directly to the open air i e it may be only partly weatherproofed This hazard level applies to storage locations gt Where equipment may be exposed to solar radiation and temporarily to heat radiation They may also be exposed to movements of the surrounding air due to draughts e g through doors windows or other openings They may be subjected to condensed water dripping water and to icing They may also be subjected to limited wind driven precipitation including snow gt Where mould growth or attacks by animals except termites may occur gt With normal levels of contaminants experienced in urban areas with industrial activities scattered over the whole area and or with heavy traffic gt n areas with sources of sand or dust inc
80. gnal drop West YY nm signal drop to corresponding transponder West express signal add West express signal add from West express signal drop West express signal drop West express signal drop N B YY is one of the CWDM wavelengths 1470 1490 1510 1530 1550 1570 1590 1610 N B East means from west to east while West means from east to west 02 RL 3AL 97765 AAAA 91 125 All rights reserved Passing and copying of this document use and communication of its contents not permitted without written authorization v ALCATEL 3 3 3 C OAD E U 2 XXXX S Drop Drop Add Ch2 Express Ch Chl Ch2 Output Input 1310nm Filter 1310nm Filter Pow West to East in Drop Add OSC OSC Add Drop OSC OSC East to West out East to West in 1310nm Filter 1310nm Filter jem em lt ap am Add Add Express Ch Express Ch B B Input Output Urop Chl Ch2 Ch2 Chl Figure 3 C OAD E U 2 XXXX S block diagram 3 3 3 1 Description This board C OAD E U 2 XXXX S is used to add and drop TWO Channels per direction in the unidirectional CWDM system and the added dropped channels are to from the transponder board The other channels are passed through the C OAD board The OSC 1310nm signal is also added d
81. hat equipment operate reliably within the gaseous contamination levels expressed in the following table ED 02 RL 3AL 97765 AAAA 58 125 ALCATEL Table 22 Outdoor contaminant levels All rights reserved Passing on and copying of this document use and communication of its contents not permitted without written authorization Contaminant Concentration Airborne Particles TSP Dichot 15 90 mg m Coarse Particles 50 mg m Fine Particles 50 mg m Water Soluble Salts 30 mg m Sulfate 30 mg m Nitrites 12 mg m Volatile Organic Compounds boiling 400 ppb point gt 30 1600 mg m Sulfur Dioxide 150 ppb Hydrogen Sulfide 40 ppb Ammonia 50 ppb Oxides of Nitrogen NO 500 ppb NO2 250 ppb HNO3 50 ppb Ozone 250 ppb Gaseous Chlorine 2 6 TSP Dichot 15 total suspended particulates determined using a dichotomous sampler with a 15 mm inlet mg m micrograms per cubic meter ppb parts per billion Outside Plant Equipment It is a requirement that equipment intended to function in outdoor air such as cabinets installed on pads or poles with little or no filtration should operate reliably for the intended service life at the contaminant levels listed in Table 22 The values listed in this table are based on Bellcore field measurements EPA reports and reviews of published air quality studies The technical data of this chapter are where it is possible
82. hich can be used for 1310nm legacy service transmission The operating temperature range is from 40 to 85 degree The C OAD H U 4 XXXXXXXX S unit s add drop channels sequence is defined by the following table Table 53 Add amp drop channels sequence Add amp Drop Wavelength nm Channel C OAD H U 4 47495153 S C OAD H U 4 55575961 s Number 1470 1550 1 1490 1570 2 1510 1590 3 1530 1610 4 ED 02 RL 3AL 97765 AAAA 104 125 All rights reserved Passing and copying of this document use and communication of its contents not permitted without written authorization 3 3 7 2 Front panel description Extraction Handle Hardware Failure LED OSC Add East OSC Drop East OSC Add West OSC Drop West Input East Output East Add1 East Drop East 2 East Drop2 East Add3 East Drop3 East Adda Drop4 East Express Ch In East Express Ch Out East Extraction Handle Figure72 28 61 11979 94199 Front panel of C OAD H U 4 XXXXXXXX S Input West Output West Add West Drop West Add2 West Drop2 West Add3 West Drop3 West Add4 West Drop4 West Express Ch In West Express Ch Out West Optical Safety Label ED 02 RL 3AL 97765 AAAA 105 125 All rights reserved Passing and cop
83. hout written authorization 1310nm signal input 1310nm signal output signal input MUX signal output signal input CH1 signal output Optical Safety Label Electrostatic Discharge Label Extraction Handle Figure56 Front panel of C MDX2 E 1 S board ED 02 RL 3AL 97765 AAAA 80 125 All rights reserved Passing and copying of this document use and communication of its contents not permitted without written authorization v ALCATEL 3 2 3 3 Optical characteristics Table 34 C MDX2 E 1 S optical characteristics MUX Side Insertion Losses Value Unit OSC In gt MUX 1310nm Max 1 dB CHI In gt MUX Max 0 9 dB DEMUX Side Insertion Losses Value Unit DEMUX gt OSC Out 1310nm Mox 1 5 dB DEMUX CHI Out Max 1 9 dB Fiber Specs Type Fiber type 0 9 2mm SMF28 Connector type MU Reflectance Value Unit All input ports Max 40 dB 3 2 3 4 Front panel wiring Table 35 Front panel wiring of C MDX2 E 1 S board Name Signal 1310nm signal input Supervision transmission input signal from OSC board or other1310nm input 1310nm signal output Supervision reception output signal to OSC board or other1310nm output DMX signal input Line Reception input signal from line MUX signal output Line Transmission output signal to line CHI signal input WDM transmission inp
84. ilter C OAD2 U 2 47474949 3AL 97653 BE C OAD2 U 2 51515353 3AL 97653 C OAD2 U 2 55555757 3AL 97653 C OAD2 U 2 59596161 3AL 97653 BH 2 channel unidirectional OADM2E with 1310nm filter C OAD2 E U 2 47474949 S 3AL 97771 BA C OAD2 E U 2 51515353 S 3AL 97771 C OAD2 E U 2 55555757 S 3AL 97771 C OAD2 E U 2 59596161 S 3AL 97771 BD 4 channel unidirectional OADM2 without 1310nm filter C OAD2 U 4 47495153 3AL 97653 C OAD2 U 4 55575961 3AL 97653 CC 4 channel unidirectional OADM2E with 1310nm filter C OAD2 E U 4 47495153 S 3AL 97771 C OAD2 E U 4 55575961 S 3AL 97771 CB OADM 4 ch harden temperature unidirectional with 1310nm filter C OAD H U 4 47495153 S 3AL 97653 KB C OAD H U 4 55575961 S 3AL 97653 KD 1 channel bidirectional OADM without 1310nm filter C OAD B 1 4755 3AL 97539 FA C OAD B 1 4957 3AL 97539 GA C OAD B 1 5159 3AL 97539 HA C OAD B 1 5361 3AL 97539 JA 02 RL 3AL 97765 AAAA 45 125 All rights reserved Passing and copying of this document use and communication of its contents not permitted without written authorization v ALCATEL C OAD B 1 4755 S 3AL 97539 BA 1 channel bidirectional OADM with 1310nm filter Soe ORLA C OAD B
85. in the relevant installation turn up and commissioning maintenance documents and the following general rules a Laser radiation is not visible by the naked eye or with laser safety glasses Although it cannot be seen laser radiation may be present b Never look directly into a not terminated fiber optic connector or into a broken optical fiber cable unless it is absolutely known that no laser radiation is present c Never look at an optical fiber splice cable or connector unless it is absolutely known that no laser radiation is present d All optical connectors terminating either fibers or transmitters receivers are provided with protective covers that must always be used as soon as possible when any optical link is disconnected for installation test maintenance purposes or whatever operation e Never look directly into a not terminated fiber optic connector or into a broken optical fiber cable by means of magnifiers microscopes unless it is absolutely known that no laser radiation is present magnifier microscope greatly increases the damage hazard to the eyes f Never point a not terminated optical fiber splice cable or connector at other person unless it is absolutely known that no laser radiation is present g Wearing of laser safety goggles or eye shield is recommended for every person working on optical devices whenever the above listed rules cannot be followed 3 3 3 Optical safety equipment specific data
86. ing of this document use and communication of its contents not permitted without written authorization v ALCATEL 3 1 3 C MDX B S out 1310nm Circulator 1310nm Filter Figure49 C MDX B S block diagram 3 1 3 1 Description As mentioned before the 8 1 multiplexer can also be used in bidirectional line terminal configuration multiplex demultiplex signals In this application 1310nm circulators are used to multiplex demultiplex bidirectional 1310nm wavelengths of the OSC An extra 1310 30nm filter is also used to avoid the 1310nm multiplexing affecting the 1550nm transmission ED 02 RL 3AL 97765 AAAA 71 125 All rights reserved Passing and copying of this document use and communication of its contents not permitted without written authorization v ALCATEL 3 1 3 2 Front panel description Extraction Handle Hardware Failure LED OSC Tx in OSC Rx out LINE Not used 076 1470 nm signal in or out 1490 nm signal in or out 1510 nm signal in or out 1530 nm signal in or out 1550 nm signal in or out 1570 nm signal in or out 1590 nm signal in or out 1610 nm signal in or out a Optical Safety Label e Electrostatic Discharge Label Extraction Handle Figure50 Front panel of C MDX B S board ED 02 RL 3AL 97765 AAAA 72 125
87. ity requirements for the system are specified in the ETS 300 386 The following features are applicable gt Environmental class 1 gt Normal priority of service 1 7 1 1 Immunity The following table specifies the valid tests and their compliance criteria for immunity All the items make reference to the chapters of the pr ETS 300 386 Table 11 Valid tests and compliance criteria for immunity Coupling Test Compliance Phenomenon Port Method Test Level Criterion Electrostatic _ _ A kV contact 4 kV air NP Discharge 6 kV contact 8 kV air LFS Electrical Fast Not Applicable Radiated _ _ 3 V m NP Electromagnetic Field 10 V m LFS Continuous Conducted Signals INGUADBIEBBIS NP Normal performance within specified limits LFS Loss of function self recovery Nocorruption of data management Temporary loss of function following application of test Self recovery to normal performance occurs at the cessation of the test 1 7 1 2 Emission As the 1692MSE R2 0 equipment has just pure passive board such as CWDM MUX DEMUX without any management It will not be powered on So there is no emission 1 7 1 3 Storage amp transportation The technical data of this chapter are where it is possible referred to ITU T Recommendations or ETSI Standards The system is designed for outdoor operation without controlled air temperature The complete environmental conditions includin
88. l sean cer PERI ERR SLATE n 64 Fgure4s Block dide ERR UH DER ERR wi 65 Figureds Front panel of C MEXE U S board ree aat ether te sidera 66 Black eit reet erneuert E Pepe bI RR E betur x iee eee 68 Figures Prontgonel ef C MDDX U 69 BI rbi ooo een detti X ER ern 71 FiguresO Front panel of C MDX B 5 board eiii tete b esses asa corio ee pesa dee ce 72 ED 02 RL 3AL 97765 AAAA 4 125 All rights reserved Passing and copying of this document use and communication of its contents not permitted without written authorization v ALCATEL gems Block ee RT EE dE ERE Ee ngers52 Froni panel ot CMDX B Dodi EYES UP HH e cr p Figures COMDX2 EAJ 5 block diagram de eee ur Figuves4 C MDX2 U block eiagrorm uices eco tedsn et Eb QE I ete eR black eigens scott E Heo en vnd enda EO Figure56 Front panel of C MDX2 E 1 S 9 Figure57 _ C
89. lowing operations yearly gt Make sure that the shelf has been tightly fastened to the rack with screws to guarantee grounding the rack is connected to the station ground 4 3 2 Other routine maintenance When there is much dust attached on the shelf it will confine equipment working It is suggested to clean the shelf every month 4 4 Unit replacement with a spare No particular direction is given as to spares handling which is left to the Maintenance Administration When the replacement procedures are executed set the spare unit exactly as the unit to be replaced ED 02 RL 3AL 97765 AAAA 123 125 rights reserved Passing and copying of this document use and communication of its contents not permitted without written authorization 4 5 Repair Form v ALCATEL To facilitate repair operation data on the faulty unit must be reported on the form shown in the following figure The repair form must be filled in with as much data as possible and returned to Alcatel together with the faulty unit TO BE FILLED IN BY THE SENDER TO BE FILLED IN BY THE REPAIR OPERATOR ALCATEL REPAIR FORM Fill in this form and affix it to the faulty unit to be returned to Alcatel CUSTOMER NAME ORDER NUMBER CONTRACT NUMBER BRANCHIUNITICOUNTRY SYSTEM EQUIPMENT PRODUCT RELEASE EQUIPMENT SOFTWARE PART NUMBER SUBRACK MNEMONIC ALCATEL PART NUMBER SE
90. luding urban areas With vibration of low significance and insignificant shock The conditions of this hazard level may occur in gt Unattended buildings gt Some entrances of buildings gt Some garages and shacks Table 12 Main climatic conditions Main Climatic Conditions Unit Value Low air temperature 25 High air temperature C 55 Low relative humidity 96 10 High relative humidity 96 100 Low absolute humidity G m 0 5 High absolute humidity G m 29 Rain intensity mm min No Rate of change of temperature C min 0 5 Low air pressure kPa 70 High air pressure kPa 106 Solar radiation W m 1120 Movement of the surrounding air m s 30 Condition of condensation Yes Condition of precipitation Yes wind driven precipitation Condition of icing and frosting Yes ED 02 RL 3AL 97765 AAAA 51 125 All rights reserved Passing and copying of this document use and communication of its contents not permitted without written authorization 50 40 30 20 tc 10 a E 10 20 30 40 Figure31 Transportation v ALCATEL Se fit dt HA HH _ _ 1 tT NNI 80 20 ou U oU 0 90 100 RELATIVE AIR HUMIDITY ABSOLUTE AIR HUMIDITY g m3 Climatogram for hazard level 1 2 no temperature c
91. m filter C MDX B 3AL 97538 AC Bidirectional MUX DEMUX with 1310nm filter C MDX B S 3AL 97538 AD Unidirectional MUX DEMUX2 without 1310nm filter C MDX2 U 3AL 97654 AA Unidirectional MUX DEMUX2E with 1310nm filter C MDX2 E U S 3AL 97772 AA 1 channel unidirectional MUX DEMUX2E with 1310nm C MDX2 E 1 S 3AL 97772 filter 2 channel unidirectional MUX DEMUX2E with 1310nm filter 2 2 4749 5 3AL 97772 2 2 5153 5 3AL 97772 2 2 5557 5 3AL 97772 2 2 5961 5 3AL 97772 1 channel unidirectional OADM without 1310nm filter C OAD U 1 4747 3AL 97539 C OAD U 1 4949 3AL 97539 AC C OAD U 1 5151 3AL 97539 C OAD U 1 5353 3AL 97539 AE C OAD U 1 5555 3AL 97539 AF C OAD U 1 5757 3AL 97539 AG C OAD U 1 5959 3AL 97539 AH C OAD U 1 6161 3AL 97539 1 channel unidirectional OADME with 1310nm filter C OAD E U 1 4747 S 3AL 97770 C OAD E U 1 4949 S 3AL 97770 AB C OAD E U 1 5151 S 3AL 97770 C OAD E U 1 5353 S 3AL 97770 C OAD E U 1 5555 S 3AL 97770 C OAD E U 1 5757 S 3AL 97770 C OAD E U 1 5959 S 3AL 97770 C OAD E U 1 6161 S 3AL 97770 AH 1 channel unidirectional OADM2 without 1310nm filter C OAD2 U 1 4747 3AL 97653 AA
92. n bidirectional OADM application 1 5 4 CPE configuration There are two types of CPE configurations 1 channel and 2 channel CPE C MDX2 E 1 S and C MDX2 E 2 XX S can be used in this configuration 18mm Dummy Front Panel C MDX2 E 2 XX S Figure30 An example for slot allocations in 2 channel CPE application 3AL 97765 AAAA 48 125 All rights reserved Passing and copying of this document use and communication of its contents not permitted without written authorization v ALCATEL 1 6 Optical safety 1 6 1 General information 1 6 1 1 Hazard level The laser level of 1692 R2 0 is Class 1 Hazard level 1 according to IEC 60825 1 1998 and IEC 60825 2 2000 requirements can be assigned to all ports of the system Class 1 Lasers that are safe under reasonably foreseeable conditions of operation including the use of optical instruments for intrabeam viewing Class 1 laser product Any laser product that does not permit human access to laser radiation in excess of the accessible emission limits of Class 1 for applicable wavelength and emission durations N B The Class 1 laser products should be used for demonstration display or entertainment in unsupervised areas The use of other classes of lasers for such purposes should be permitted only when the laser operation is under the control of an experienced well trained operator and or when spectators are
93. n of functional performance during its operating life when operated within the conditions of follow table Table 21 Ambient temperature and humidity limits Conditions Limits Temperature Operating 5 C to 40 C 41 F to 104 F Short term 5 C to 50 C 23 F to 122 F Rate of temperature change 30 C hr 54 F hr Relative Humidity Operating 596 to 8596 Short term 5 to 9096 but not to exceed 0 024 kg water kg of dry air ED 02 RL 3AL 97765 AAAA 57 125 All rights reserved Passing and copying of this document use and communication of its contents not permitted without written authorization v ALCATEL N B a Ambient refers to conditions at a location 1 5 m 59 in above the floor and 400 mm 15 8 in in front of the equipment b Short term refers to a period of not more than 96 consecutive hours and a total of not more than 15 days in 1 year This refers to a total of 360 hours in any given year but no more than 15 occurrences during that 1 year period 100 Constant Humidity Ratio of 0 024 kg Water kg Dry air 90 80 70 60 Short Term Conditions for 50 Equipment Shelves Operating Conditions 40 Relative Humidity Short Term Conditions 30 20 10 0 5 0 5 10 15 20 25 30 35 40 45 50 55 Dry Bulb Temperature Figure34 Ambient temperature and humidity limits Contamination Levels It is an objective t
94. nd communication of its contents Input West West Line signal input from line Output West West Line signal output to line Add A West West A nm signal add from corresponding transponder Drop A West West nm signal drop to corresponding transponder Add B West West B nm signal add from corresponding transponder Drop B West West B nm signal drop to corresponding transponder Add C West West C nm signal add from corresponding transponder Drop C West West C nm signal drop to corresponding transponder Add D West West D nm signal add from corresponding transponder Drop D West West D nm signal drop to corresponding transponder Express Ch In West West express signal input Express Ch Out West West express signal output N B A B C and D can respectively be 1470 1490 1510 and 1530 or 1550 1570 1590 and 1610 N B East means from west to east while West means from east to west ED 02 RL 3AL 97765 AAAA 120 125 ALCATEL USYUM you US UOD JO pue asn si Jo pue uo pamasa RL 3AL 97765 AAAA 02 ED ALCATEL USYUM you US UOD JO pue asn si Jo
95. ne signal output to line Add A West West A nm signal add from corresponding transponder Drop A West West A nm signal drop to corresponding transponder Add B West West B nm signal add from corresponding transponder Drop B West West B nm signal drop to corresponding transponder Add C West West C nm signal add from corresponding transponder Drop C West West C nm signal drop to corresponding transponder Add D West West D nm signal add from corresponding transponder Drop D West West D nm signal drop to corresponding transponder Express Ch In West West express signal input Express Ch Out West West express signal output N B A B C and D can respectively be 1470 1490 1510 and 1530 or 1550 1570 1590 and 1610 N B East means from west to east while West means from east to west ED 02 RL 3AL 97765 AAAA 116 125 All rights reserved Passing and copying of this document use and communication of its contents not permitted without written authorization v ALCATEL 3 4 6 C OAD2 U 4 XXXXXXXX Drop Add Chl 4 Express Express Ch 4 Output Input 5 95 TAP 596 out in PIN AMP di i i i i West East 4 bes East East to West M East to West i i i i i i r Add Express Ch Express Ch Drop 4 Input Output Chl 4 Figur
96. nel CPE CPE CPE gt gt Figure12 1692MSE in CPE application 3AL 97765 AAAA 37 125 All rights reserved Passing and copying of this document use and communication of its contents not permitted without written authorization v ALCATEL 1 3 Description of the functions This section describes the main functions of 1692MSE R2 0 1 3 1 Main function in different configuration 1 3 1 1 Terminal configuration For the Terminal both the unidirectional and bidirectional applications are supported CWDM signals CWDM line LEGEND link C Function 1310nm Figure13 Functional synopsis in unidirectional Line Terminal configuration CWDM signals CWDM line LEGEND D link C Function 1310nm Figurel4 Functional synopsis in bidirectional Line Terminal configuration 1 3 1 2 OADM configuration For the OADM it is the same situation as Terminal The following configurations are supported Unidirectional OADM with 1310nm channel gt Bidirectional OADM with 1310nm channel There are up to 4 channels for add drop per direction ED 02 RL 3AL 97765 AAAA 38 125 rights reserved Passing and copying of this document use and communication of its contents not permitted without written authorization v ALCATEL CWDM signals West 1 2 or 4 East 1 2
97. ng and copying of this document use and communication of its contents not permitted without written authorization v ALCATEL gt About the Graphical User Interface in Operator s handbook gt Configuration in Operator s handbook gt Alarm handling in Operator s handbook 1 5 8 Notes on Release 2 0 ED 01 Release 2 0 ED 01 created on June 1st 2005 is a new validated and officially released issue for 1692MSE system This document contains the technical documentation for the 1692MSE release 2 0 The release 2 0 can be operated under hardened temperature The following contents have been modified compared to release 1 4 gt Unit configuration mechanical configuration and function design gt Routing maintenance 1 5 9 Notes on Release 2 0 ED 02 Ed 02 created on May 25 2006 is the second validated and officially released issue of this Handbook The following content are upgraded Applications for R2 0 Description of OAD and MDX boards used in R2 0 FlTinformation 02 RL 3AL 97765 AAAA 16 125 All rights reserved Passing and copying of this document use and communication of its contents not permitted without written authorization v 2 COMPLIANCE WITH EUROPEAN NORMS Table 4 References and standards Ref Standard Document Date Description 1 ITU T Recommendation G 652 04 97 Characteristics of
98. ng features gt ntershelf link master and intershelf link slave management New Wavelength adapter management New OMDX and OADM management Multi shelves managed as one NE gt B amp W SFP module used in C 4xANY gt Performance monitoring gt Back to back configuration as 1 NE gt Security management gt backup Restore gt Alarm Severity configurability The following contents have been modified compared to Release 1 0A3 gt Configuration in Operator s handbook gt Alarm handling in Operator s handbook Function design and system configuration in technical handbook ED 02 RL 3AL 97765 AAAA 14 125 All rights reserved Passing and copying of this document use and communication of its contents not permitted without written authorization v ALCATEL 1 5 5 Notes on Release 1 2A ED 01 Release 1 2A 01 created on August 10th 2004 is the fourth validated and officially released issue for 1692MSE system This document contains the technical documentation and the user manual for the 1692MSE release 1 2 The release 1 2A contains the same features contained in the release 1 1 plus the following features gt application of low cost named gt application of Centre Office shelf for short CO shelf gt Laser force on off The following contents have been modified compared to Release 1 1 gt Configuration in O
99. o the DEMUX component the other 596 is sent to a PIN amp amplification circuit for LOS detection The DEMUX component demultiplexes the line signal into 8 channel signals As R2 0 is passive CWDM equipment the LOS detection circuit is not available The front panel and front panel wiring are the same as the C MDX U unit 02 RL 3AL 97765 AAAA 78 125 v ALCATEL 3 2 3 C MDX2 E 1 S CHI input ra 1310nm 1310nm E Filter input 1310nm Filter 95 1310nm output Demux 1310nm input Fa Filter CH1 output All rights reserved Passing on and copying of this document use and communication of its contents not permitted without written authorization Figure55 2 1 5 block diagram 3 2 3 1 Description The 2 1 5 boards are only for the CPE application This board is designed to multiplex demultiplex one channel wavelengths to from a fiber It provides insertion extraction of the 1310nm OSC signal or the 1310nm SDH signal Input optical signal LOS detection is integrated into the unit but this detection function is not available in R2 0 which is a passive equipment ED 02 RL 3AL 97765 AAAA 79 125 v ALCATEL 3 2 3 2 Front panel description Extraction Handle Hardware Failure LED All rights reserved Passing on and copying of this document use and communication of its contents not permitted wit
100. on Handle Figure60 v ALCATEL Hardware Failure LED 22 East OSC Tx in East OSC Rx out TT West OSC Tx in West OSC Rx out East line Rx in East line Tx out m o SLO East YY nm signal add East YY nm signal drop East express signal add East express signal drop West line Rx in West line Tx out West YY nm signal add West YY nm signal drop West express signal add West express signal drop Optical Safety Label Label Front panel of C OAD E U 1 XX S board Electrostatic Discharge ED 02 RL 3AL 97765 AAAA 87 125 All rights reserved Passing and copying of this document use and communication of its contents not permitted without written authorization v ALCATEL 3 3 1 3 Optical characteristics Table 39 C OAD E U 1 XX S optical characteristics Insertion Losses Value Unit IN Exp Ch OUT 1 3 dB Exp Ch IN 2 OUT 1 3 dB IN gt DROP Max 1 5 dB ADD gt OUT Max 1 5 dB IN gt OSC DROP Max 1 dB OSC ADD gt OUT Max 1 dB Fiber Specs Type Fiber type 0 9 2mm SMF28 Connector type MU Reflectance Value Unit All input ports Max 40 dB 3 3 1 4 Front panel wiring Table 40 Front panel wiring of C OAD E U 1 XX S board Name Signal East OSC Tx in East Supervision transmission input
101. ontrolled storage location The equipment meets the following requirements vs transportation ETSI EN 300 019 2 2 1999 hazard level 2 2 Hazard level 2 2 Careful transportation This hazard level applies to transportation where special care has been taken e g with respect to low temperature and handling Hazard level 2 2 covers the condition of hazard level 2 1 transportation in all types of lorries and trailers in areas with well developed road system In addition hazard level 2 2 includes It also includes transportation by ship and by train specially designed shock reducing buffers Manual loading and unloading of to 20 Kg is included ED 02 RL 3AL 97765 AAAA 52 125 All rights reserved Passing and copying of this document use and communication of its contents not permitted without written authorization v ALCATEL Table 13 Main climatic conditions Environmental Parameter Unit Value Low air temperature 25 High air temperature air in unventilated enclosures 70 High air temperature air in ventilated enclosures or outdoor air 40 Relative humidity 96 95 Absolute humidity g m 60 Low air pressure kPa 70 Movement of the surrounding air m s 20 Rain intensity mm min 6 Solar radiation W m 1120 Heat radiation W m 600 Condition of condensation Yes 1 7 1 4 Operating conditions The Equipment meets the requir
102. perator s handbook gt Function design and system configuration in technical handbook 1 5 6 Notes on Release 1 2A1 ED 01 Release 1 2A1 01 created on December 10th 2004 is a new validated and officially released issue for 1692MSE system This document contains the technical documentation and the user manual for the 1692MSE release 1 2 1 The release 1 2A1 contains the same features contained in the release 1 2A plus the following features gt application of B SNCP gt The application of user defined SFP The following contents have been modified compared to release 1 2 gt Functional design gt Operator s handbook 1 5 7 Notes on Release 1 4 ED 01 Release 1 4 ED 01 created on March 10th 2005 is a new validated and officially released issue for 1692MSE system This document contains the technical documentation and the user manual for the 1692MSE release 1 4 The release 1 4 contains the same features contained in release 1 2A1 plus the following features Abnormal conditions List forced Protection Loopback and forced Laser State Editing field 39 bytes long for all the SFP Display indication about main and spare ports of protection Loopback warning message for adding removing confirmation The application of WLA2 in CO shelf VVVVV The following contents have been modified compared to release 1 2A1 ED 02 RL 3AL 97765 AAAA 15 125 All rights reserved Passi
103. plies the equipment description and specifications i e system mechanical and optical MAINTENANCE It contains the periodic checks and restoration to normal operation through the removal of faulty units and their replacement with spares ED 02 RL 3AL 97765 AAAA 12 125 All rights reserved Passing and copying of this document use and communication of its contents not permitted without written authorization v ALCATEL 1 5 Handbook configuration check 1 5 1 List of the editions and modified parts The following table indicates the handbook parts new or modified with respect to the previous edition Legend N M Modified part changed applicable A m Table 3 Handbook configuration check Rell 0 Rel1 0 Rell 1 Rell 2 Rell 2 Rell 4 Rel2 0 Rel2 0 SPITION 01 A301 01 Aol 101 01 01 02 DESCRIPTIONS N M M M M M M M 1 FUNCTIONAL DESIGN N M M M M M 2 MECHANICAL DESCRIPTION N M M M M 3 UNITS DESCRIPTION N M M M M M M OPERATOR S HANDBOOK N M M M M M 4 1692MSE MANAGEMENT N M M M THE GRAPHICAL 5 USER INTERFACE N M M M M M 6 CONFIGURATION N M M M M M 7 SUPERVISION N M M M 8 ALARM HANDLING N M M M M PERFORMANCE N M MONITORING MAINTENANCE N M M M M M 10 MAINTENANCE N M M M M M 11 OPERATION ADVICES N M M M ANNEX N M M ED 02 R
104. prevent from exposure to levels exceeding the applicable MPE N B Lasers of Class 1 should be used for surveying alignment and leveling applications whenever practicable There may be situations however where high ambient light levels require the use of lasers of higher output power 1 6 1 2 Location type The equipment shall be installed in restricted location industrial and commercial premises or controlled locations optical cable ducts and switching centers 1 6 1 3 Labeling The labels reported below are put during factory settings The labels are affixed on all front covers that protect optical connectors located on the front side plate of all the units involved in optical transmission HAZARD symbol Example of EXPLANATORY label CLASS 1 LASER PRODUCT 1 6 2 1692MSE R2 0 specific requirement In order to meet the requirement of safety the CWDM signals input in the 1692 R2 0 should not be higher than 5dBm In doing so it can avoid optical power becoming too high after the CWDM signals being multiplexed ED 02 RL 3AL 97765 AAAA 49 125 All rights reserved Passing and copying of this document use and communication of its contents not permitted without written authorization v ALCATEL 1 7 Environmental characteristics The 1692MSE is designed to be compliant with both ETSI and NEBS level 3 standards 1 7 1 ETSI compliancy The electromagnetic compatibil
105. r 36 Figurel1 169 ZMSE 1n at as 37 Figure12 169 2MSE in CPE RS EF aeeie 3f Figurel3 Functional synopsis in unidirectional Line Terminal configuration 38 Figurel4 Functional synopsis in bidirectional Line Terminal configuration 38 Figurel5 Functional synopsis in unidirectional OADM 39 Figurel Functional synopsis in bidirectional OADM 39 Figurel7 tehannel Hp t ERRER 40 CPE eonfieguPolo esses 40 Figure19 Narr mE 41 Figure20 CWDM AEn dr TT 41 Figure21 1 ch add and drop function in unidirectional transmission 42 Figure22 2 ch add and drop function in unidirectional transmission 42 Pgure23 Ach cided Tisielign sad esce enki ul GU EU LE KU Rr Ce HR ARR KE KR 43 Figure24 ce 43 Figure25 example for slot allocations in unidirectional Terminal application 47 Figure26 example for slot allocations in unidirectional OADM application 1 channel uer AEG EE SIS 47 Figure27 example for slot allocations in unidirectional OADM application 2 channels Cer goo s TT Tp
106. r and provisioning 3AL 97765 AAAA 1 3AL 97766 AAAA Table 2 Documentation on CD ROM Ref Handbook ANV Part No Factory This Part No HDBK 1692MSERel 2 0 CD ROM DOC EN 3AL 97768 AAAA 4 Contains in electronic format the following handbooks REF 1 to 3 Envisaged after the release of all handbooks ED 02 RL 3AL 97765 AAAA 11 125 All rights reserved Passing and copying of this document use and communication of its contents not permitted without written authorization v ALCATEL 1 4 Handbook Structure This handbook has been edited according to the suggestions given by the Code of Practice for Instruction Handbooks issued by the European Broadcasting Union EBU RECC R29 82 This handbook is divided into the following main topics as described in the table of contents HANDBOOK GUIDE This section gives information on the whole handbook application composition and evolution Moreover it lists the handbooks that the Operator should have in order to carry out the tasks allowed by the specific product release this handbook refers to It contains general information on safety norms and type of labels that might be affixed to the equipment DESCRIPTION It contains all the equipment s general and detailed system features including its application in the telecommunication network Furthermore it sup
107. ropped by this board The dropped OSC signal is sent to the OSC board the added OSC signal comes from the OSC board There are 4 types of 2 channel C OAD boards The wavelengths are defined as in the following table There are two OADM modules one OADM modules for each direction in the C OAD board Table 43 2 channel C OAD modules for unidirectional applications Number XX 47474949 51515353 55555757 59596161 Add Drop Channels nm 1470 1490 1510 1530 1550 1570 1590 1610 ED 02 RL 3AL 97765 AAAA 92 125 All rights reserved Passing and copying of this document use and communication of its contents not permitted without written authorization 3 3 3 2 Front panel description v ALCATEL Extraction Handle Hardware Failure LED Optical Safety Label Electrostatic Discharge Label East OSC Tx in East OSC Rx out West OSC Tx in West OSC Rx out East line Rx in East line Tx out East YY nm signal add East YY nm signal drop East ZZ nm signal add East ZZ nm signal drop East express signal add East express signal drop West line Rx in West line Tx out West YY nm signal add West YY nm signal drop West ZZ nm signal add West ZZ nm signal drop West express signal add West express signal drop Extraction Handle Figure64 Front panel of C OAD E U 2 XXXX S board ED 02 RL 3AL 97765 AAAA 93 125
108. s Value Unit lt gt CH1 1470nm Max 0 9 dB lt gt 2 1490nm 1 2 dB lt gt CH3 1510nm 1 5 dB lt gt CH4 1530nm 1 8 dB lt gt CH5 1550nm 24 dB lt gt CH6 1570nm Max 2 4 dB lt gt CH7 1590nm Max 2 7 dB lt gt 1610nm Max 3 dB Channel passband at 0 5dB include channel center 14 wavelength 6 8 range Fiber Specs Type Fiber type 0 9 2mm SMF28 Connector type MU Reflectance Value Unit All input ports 40 dB 3 1 4 4 Front panel wiring Table 33 Front panel wiring of C MDX B board Name Signal Line Line signal from to line Not used nm signal in or out WDM signal from to corresponding transponder N B means from 1470 to 1610 ED 02 RL 3AL 97765 AAAA 76 125 v ALCATEL 3 2 MUX DEMUX units C MDX2 The following C MDX2 boards are used MUX DMX2 with 1310nm filter for unidirectional system C MDX2 E U S MUX DMX2 without 1310nm filter for unidirectional system C MDX2 U 1 channel MUX DMX2 with 1310nm filter for unidirectional system C MDX2 E 1 S 2 channel MUX DMX2 with 1310nm filter for unidirectional system C MDX2 E 2 XX S 1310nm Line Tx Filter out OSC Rx out VVVV 3 2 1 C MDX2 E U S All rights reserved Passing on and copying of this document use and communication of its contents not permitted witho
109. s always 0 2 4 FIT of 1692 MSE The following table lists the FIT of main boards Table 24 FIT of 1692 MSE Unit FIT Unit FIT C MDX U 387 C OAD U 2 XXXX 307 C MDX E U S 427 C OAD E U 2 XXXX S 387 C MDX B 299 C OAD2 U 2 XXXX 456 C MDX B S 343 C OAD2 E U 2 XXXX S 537 C MDX2 U 480 C OAD B 1 XX 257 C MDX2 E U S 510 C OAD B 1 XX S 350 2 1 5 325 C OAD2 U 4 XXXXXXXX 547 C MDX2 E 2 XX S 375 C OAD2 E U 4 XXXXXXXX S 627 C OAD U 1 XX 262 C OAD H 4 XXXXXXXX S 339 C OAD E U 1 XX S 342 Shelf 0 C OAD2 U 1 XX 406 18mm dummy front panel 0 C OAD2 E U 1 XX S 491 N B 4 main contributions are not taken into account in the FIT calculation Mechanical damage These failures could be caused for example by poor handling wrong packaging or incorrect transportation gt Problems of diagnostic leading to NFF No Failure Found A certain number or units returned to Alcatel have been declared in failure after an error of diagnostic These units are not in failure and are declared NFF after the reparation process From our experience of major networks this NFF rate is generally around 2096 of returns A higher NFF rate would mean that the diagnostic process has to be revised gt values do not apply to Installation Commissioning failures and to the first months of the network operation During this period failures reported as early life failures or infant mortality
110. side The DEMUX component demultiplexes the line signal into 8 channel signals ED 02 RL 3AL 97765 AAAA 68 125 All rights reserved Passing and copying of this document use and communication of its contents not permitted without written authorization v ALCATEL 3 1 2 2 Front panel description Extraction Handle AO Hardware Failure LED IN Optical Safety Label e Electrostatic Discharge Label Line Rx in OH Line Tx out m Bin 1470nm signal in 1470nm signal out 1490nm signal in 1490nm signal out 1510 i li nm signal in 1510nm signal out E 1530 ignal i nm signal in 1530nm signal out zi 1550 ignal i nm signal in 1550nm signal out 1570nm signal in Eis 1570nm signal out 1590 ignal i nm signal in Eis 1590nm signal out 1610nm signal in 1610nm signol out Extraction Handle Figure48 Front panel of C MDX U board ED 02 RL 3AL 97765 AAAA 69 125 All rights reserved Passing and copying of this document use and communication of its contents not permitted without written authorization v ALCATEL 3 1 2 3 Optical characteristics Table 28 C MDX U optical characteristics MUX Side Insertion Losses Value Unit CHI In gt LINE OUT 1470nm 0 9 dB CH2 In gt LINE OUT 1490nm
111. signal from OSC board East OSC Rx out East Supervision reception output signal to OSC board West OSC Tx in West Supervision transmission input signal from OSC board West OSC Rx out West Supervision reception output signal to OSC board East Line Rx in East Line Reception input signal from line East Line Tx out East Line Transmission output signal to line East YY nm signal add East YY nm signal add from corresponding transponder East YY nm signal drop East YY nm signal drop to corresponding transponder East express signal add East express signal add from East express signal drop East express signal drop East express signal drop West Line Rx in West Line Reception input signal from line West Line Tx out West Line Transmission output signal to line West YY nm signal add West YY nm signal add from corresponding transponder West YY nm signal drop West YY nm signal drop to corresponding transponder West express signal add West express signal add from West express signal drop West express signal drop West express signal drop N B YY is one of the CWDM wavelengths 1470 1490 1510 1530 1550 1570 1590 1610 N B East means from west to east while West means from east to west ED 02 RL 3AL 97765 AAAA 88 125 All rights reserved Passing and copying of this document use and communication of its contents not permitted without written authorization v ALCATEL 3 3 2 C OA
112. spect to the previous edition are listed in Table 4 n affected chapters revision bars on the left of the page indicate modifications in text and drawings Changes concerning the technical contents of the handbook cause the edition number increase e g from Ed 01 to Ed 02 Slight changes e g for corrections maintain the same edition but with the addition of a version character e g Ed 02 to Ed 02A Version character can be used for draft or proposal editions Moreover should the screen prints included in the handbook contain the product release s version marking they are not replaced in the handbooks related to a subsequent version if the screen contents are unchanged 6 4 1 1 Supplying updated handbooks to Customers Supplying updated handbooks to Customers who have already received previous issues is submitted to commercial criteria By updated handbook delivery it is meant the supply of a complete copy of a complete copy of the new handbook supplying errata corrige sheets are not envisaged 6 4 2 Changes due to a new product release A new product release change the handbook P N and the edition start from In this case the modified parts of the handbook are not listed ED 02 RL 3AL 97765 AAAA 28 125 All rights reserved Passing and copying of this document use and communication of its contents not permitted without written authorization v ALCATEL 6 5 Cus
113. t ZZ nm signal drop East ZZ nm signal drop to corresponding transponder East express signal add East express signal add from East express signal drop East express signal drop East express signal drop West Line Rx in West Line Reception input signal from line West Line Tx out West Line Transmission output signal to line West YY nm signal add West YY nm signal add from corresponding transponder West YY nm signal drop West YY nm signal drop to corresponding transponder West ZZ nm signal add West ZZ nm signal add from corresponding transponder West ZZ nm signal drop West ZZ nm signal drop to corresponding transponder West express signal add West express signal add from West express signal drop West express signal drop West express signal drop N B YY ZZ is one of the CWDM wavelengths combinations 1470 1490 1510 1530 1550 1570 1590 1610 N B East means from west to east while West means from east to west 02 RL 3AL 97765 AAAA 94 125 rights reserved Passing and copying of this document use and communication of its contents not permitted without written authorization v ALCATEL 3 3 4 C OAD U 2 XXXX Drop Drop Express Ch Express Ch Add Add Output Input Ch Ch2 Chl 2 West to East West to East i out in East to West East to West out
114. t the EUT perform properly when subjected to the calibration electric fields of 138 6 dBmV m 8 5 V m RMS value of the unmodulated test signal over the frequency range of 0 01 through 10 000 MHz During the test the test signal shall be modulated In general performance criteria are given in the applicable Bellcore technical reference examples of particular performance criteria are found in Section 3 5 3 This test is to be performed with all the EUT cabinet doors closed All rights reserved Passing on and copying of this document use and communication of its contents not permitted without written authorization E Field E Field 150 20 0 140 l 38 6 10 0 50 130 124 6 120 0 024 0 12 100 107 107 100 10 107 10 104 FREQUENCY MHZ Figure33 Radiated electric field immunity Requirement Field Calibration The EUT shall perform properly when it is subjected to calibration electric field of 138 6 dBmV m 8 5 V m RMS value of the unmodulated test signal over the frequency range of 0 01 through 10 000 MHz During the test the test signal shall be modulated In general performance criteria are found in the applicable Bellcore technical reference examples of particular performance criteria are found in Section 3 5 3 This test shall be done with all the EUT cabinet doors open except for doors that are not intended to be opened during EUT operation maintenance and or repair which may remain
115. ted within a rectangular label If the LASER is a class 1 product the label depicting the symbol within a triangle is not compulsory The rectangular shaped label bears all the information needed i e gt LASER class gt Power emitted gt Wavelength gt Ref Norm gt Precautionary measures taken depend on LASER class gt Indications given on openings panels and safety interlocks Take Class 3A as an example CAUTION LASER RADIATION DO NOT STARE INTO BEAM OR VIEW LASER RADIATION WHEN OPEN DIRECTLY WITH OPTICAL INSTRUMENTS DO NOT STARE INTO BEAM OR VIEW CLASS 3A LASER PRODUCT DIRECTLY WITH OPTICAL INSTRUMENTS P MAX 31m 1300mm IEC 825 1993 Example of power and length ED 02 RL 3AL 97765 AAAA 20 125 All rights reserved Passing and copying of this document use and communication of its contents not permitted without written authorization v ALCATEL 3 3 2 Optical safety general rules When handling optical equipments or units or cables always check that laser labels are properly affixed and that the system complies with applicable optical standards DANGER Possibility of eyes damage Invisible infrared radiations emitted by the fiber optic transmitters can cause eyes damage Carefully observe the specific procedures for installation turn up and commissioning maintenance of units containing laser devices or cables transporting optical signals described
116. tomer documentation supply on CD ROM In the following CD ROM means Customer Documentation on CD ROM 6 5 1 Contents creation and production of a CD ROM In most cases a CD ROM contains the documentation of one product release version in a certain language In some other cases the same CD ROM can contain the documentation of different product release version s in a certain language As a general rule gt CD ROMs for Network Management products do not contain e The Installation Guides e The documentation of system optional features that customers could not buy from Alcatel together with the main applicative SW gt CD ROMs for Network Elements products do not contain The documentation of system optional features e g System Installation Handbooks related to racks that customers could not buy from Alcatel together with the main equipment e The Installation and Turn up amp Commissioning handbooks A CD ROM is obtained collecting various handbooks processing them Interleaf World View Press after the manual addition of some hyperlinks which make the navigation through the various handbooks easier No additional information is added to each handbook so thot the documentation present in the CD ROMs is exactly the same the customer would receive on paper The files processed in this way are then transferred on a PC where the viewer Interleaf World View is added and a master CD ROM is recorded Suitable
117. unication of its contents not permitted without written authorization v ALCATEL 3 1 4 C MDX B CH 1 CH 2 CH 3 CH 4 CH 5 CH 6 CH 7 CH 8 Figure51 C MDX B block diagram 3 1 4 1 Description The 8 1 multiplexer can be used in bidirectional line terminal configuration to multiplex demultiplex signals ED 02 RL 3AL 97765 AAAA 74 125 All rights reserved Passing and copying of this document use and communication of its contents not permitted without written authorization v ALCATEL 3 1 4 2 Front panel description Extraction Handle Hardware Failure LED 0570 Not used 1470 nm signal in or out 1490 nm signal in or out 1510 nm signal in or out 1530 nm signal in or out 1550 nm signal in or out 1570 nm signal in or out 1590 nm signal in or out 1610 nm signal in or out A Optical Safety Label Electrostatic Discharge Label Extraction Handle Figure52 Front panel of C MDX B board ED 02 RL 3AL 97765 AAAA 75 125 All rights reserved Passing and copying of this document use and communication of its contents not permitted without written authorization v ALCATEL 3 1 4 3 Optical characteristics Table 32 C MDX B optical characteristics Insertion Losse
118. ut Channel Figure59 C OAD E U 1 XX S block diagram ED 02 RL 3AL 97765 AAAA 85 125 All rights reserved Passing and copying of this document use and communication of its contents not permitted without written authorization 3 3 1 1 Description v ALCATEL This board C OAD E U 1 XX S is used to add and drop ONE Channel per direction in the unidirectional CWDM system the added dropped channel is from to the transponder board The other channels are passed through the C OAD board The OSC 1310nm signal is also added dropped by this board The dropped OSC signal is sent to the OSC board the added OSC signal comes from the OSC board All channels can be added and dropped There are 8 different 1 channel C OAD boards according to the different wavelengths the wavelengths are defined as in the following table Table 38 1 channel C OAD module for unidirectional application Number XX 4747 4949 5151 5353 5555 5757 5959 6161 Add Drop Channels nm 1470 1490 1510 1530 1550 1570 1590 1610 There are two OADM modules one OADM module for each direction in the board ED 02 RL 3AL 97765 AAAA 86 125 All rights reserved Passing and copying of this document use and communication of its contents not permitted without written authorization 3 3 1 2 Front panel description Extraction Handle Extracti
119. ut WDM transmission input signal from corresponding transponder CH2 signal output WDM reception output signal to corresponding transponder N B CHI can be 1470nm 1510nm 1550nm or 1590nm 2 can be 1490nm 1530nm 1570nm or 1610nm ED 02 RL 3AL 97765 AAAA 84 125 All rights reserved Passing and copying of this document use and communication of its contents not permitted without written authorization v ALCATEL 3 3 OADM units C OAD The following C OAD boards are used Unidirectional 1 Add amp Drop C OAD with 1310nm filter C OAD E U 1 XX S Unidirectional 1 Add amp Drop C OAD without 1310nm filter C OAD U 1 XX Unidirectional 2 Add amp Drop C OAD with 1310nm filter C OAD E U 2 XXXX S Unidirectional 2 Add amp Drop C OAD without 1310nm filter C OAD U 2 XXXX Bidirectional 1 Add Drop C OAD with 1310nm filter C OAD B 1 XX S Bidirectional 1 Add Drop C OAD without 1310nm filter C OAD B 1 XX Unidirectional 4 Add amp Drop C OAD with 1310nm filter for harden temperature C OAD H U 4 XXXXXXXX S VVVVVVV 3 3 1 C OAD E U 1 XX S Drop Express Ch Express Add Channel Output Input Channel 1310nm Filter 1310nm Filter O2 West to East West to East em In out Dro Add Ou E osc Add E Drop OSC OSC East to West East to West 1310 Filt 1310 Filt Add Express Ch Express Ch Drop Channel Input Outp
120. ut signal from corresponding transponder CHI signal output WDM reception output signal to corresponding transponder ED 02 RL 3AL 97765 AAAA 81 125 v ALCATEL 3 2 4 C MDX2 E 2 XX S CHI input CH2 input MUX output OSC input All rights reserved Passing on and copying of this document use and communication of its contents not permitted without written authorization DEMUX input 3 2 4 1 Description The C MDX2 E 2 XX S boards are only for the CPE application This board is designed to multiplex demultiplex two channels wavelengths to from a fiber It provides insertion extraction of the 1310nm OSC signal or the 1310nm SDH signal Input optical signal LOS detection is integrated into the unit but this detection function is not available in R2 0 which is a passive equipment ED 02 RL 3AL 97765 AAAA 82 125 All rights reserved Passing and copying of this document use and communication of its contents not permitted without written authorization v ALCATEL 3 2 4 2 Front panel description Extraction Handle Hardware Failure LED 1310nm signal input 1310nm signal output DMX signal input MUX signal output CHI signal input CHI signal output CH2 signal input CH2 signal output Optical Safety Label Electrostatic Discharge Label Extraction Handle Figure58 Front panel of C MDX2 E 2 XX S board ED 02 RL
121. ut written authorization 1470 1490 1510 1530 1550 1570 1590 1610 5 95 TAP PIN AMP Figure53 C MDX2 E U S block diagram 3 2 1 1 Description MUX side The MUX component multiplexes 8 channel CWDM grid signals into an optical fiber The 1310nm filter couples the MUX out signal and OSC signal into the line fiber b DEMUX side At the receive side the 5 95 TAP splits the line signal into two channels One 9596 is sent to 1310nm filter splitter the other 596 is sent to a PIN amp amplification circuit for LOS detection The 1310nm filter splits the input signal into two channel signals One is sent to OSC board the other is demultiplexed into 8 channels signals by the DEMUX component As R2 0 is passive CWDM equipment the LOS detection circuit is not available The front panel and front panel wiring are the same as the C MDX E U S unit ED 02 RL 3AL 97765 AAAA 77 125 v ALCATEL All rights reserved Passing on and copying of this document use and communication of its contents not permitted without written authorization 3 2 2 C MDX2 U 1470 1490 1510 1530 Line Tx 1550 1570 1590 1610 54 C MDX2 U block diagram 3 2 2 1 Description MUX side The MUX component multiplexes 8 channel CWDM grid signals into an optical fiber b DEMUX side At the receive side the 5 95 TAP splits the line signal into two channels One 9596 is sent t
122. written authorization v ALCATEL Table 54 C OAD H U 4 XXXXXXXX S optical characteristics Table 55 Optical ports allocation of C OAD H U 4 XXXXXXXX S 107 Table 56 1 C OAD2 module for unidirectional application 109 Table 57 2 channel C OAD2 module for unidirectional application 111 Table 58 4 channel C OAD2 module for unidirectional application 113 Table 59 amp Drop Channels Seguente 115 Table 60 2 0 4 5 board optical 115 Table 61 Front panel wiring of C OAD2 E U 4 XXXXXXXX S 116 Table 62 4 channel C OAD2 modules for unidirectional 117 Table 63 _ Add amp Drop channels Sequence 119 Table 64 C OAD2 U 4 XXXXXXXX board optical 119 Table 65 Front panel wiring of C OAD2 U 4 XXXXXXXX 120 ED 02 RL 3AL 97765 AAAA 7 125 ALCATEL USYUM you US UOD JO
123. xtraction Handle Figure62 Front panel of C OAD U 1 XX board ED 02 RL 3AL 97765 AAAA 90 125 v ALCATEL 3 3 2 3 Optical characteristics Table 41 C OAD U 1 XX optical characteristics Insertion Losses Value Unit IN gt Exp Ch OUT Max 0 8 dB Exp Ch IN gt OUT Max 0 8 dB IN gt DROP Max 1 dB ADD gt OUT Max 1 dB Fiber Specs Type Fiber type 0 9 2mm SMF28 Connector type MU Reflectance Value Unit All input ports Max 40 dB All rights reserved Passing on and copying of this document use and communication of its contents not permitted without written authorization 3 3 2 4 Front panel wiring Table 42 Front panel wiring of C OAD U 1 XX board Name Signal East Line Rx in East Line Reception input signal from line East Line Tx out East Line Transmission output signal to line East YY nm signal add East YY nm signal add from corresponding transponder East YY nm signal drop East YY nm signal drop to corresponding transponder East express signal add East express signal add from East express signal drop East express signal drop East express signal drop West Line Rx in West Line Reception input signal from line West Line Tx out West Line Transmission output signal to line West YY nm signal add West YY nm signal add from corresponding transponder West YY nm si
124. ying of this document use and communication of its contents not permitted without written authorization v ALCATEL 3 3 7 3 Optical characteristics Table 54 C OAD H U 4 XXXXXXXX S optical characteristics From To Chl Drop Ch2 Drop Ch3 Drop 1310nmOut West amp East Express Out MWest amp East West amp East West amp East West amp East West amp East West amp East Ch1 Add _ _ _ _ 16 Mest amp East Ch2 Add _ _ _ _ _ 19 West amp East Insertion MAR s 2 2 West amp East Loss dB Add West amp East 1310nm IN _ _ _ _ 10 West amp East Mest amp East IN 2 5 2 2 1 9 1 6 1 0 2 4 Express In Mest amp East Pass Band 0 5dB X 7nm 7 X2 G 694 2 Grids Adjacent Isolation dB 2240 Non Adjacent Isolation dB 2 45 Express Isolation dB gt 15 Optical Interface MU SPC 3 3 7 4 Front view and port identification i E par 11212 21212 314 5 7 9101112 13 14 Figure73 Front panel ports of C OAD H U 4 XXXXXXXX S ED 02 RL 3AL 97765 AAAA 106 125 All rights reserved Passing and copying of this document use and communication of its contents not permitted without written authorization v ALCATEL Table 55 Optical ports allocation of C OAD H U 4 XXXXXXXX S

Alcatel 1692MSE 8 Channels CWDM System 1692MSE REL 2.0

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