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1. X101 X102 X103 X104 X105 X106 X107 X108 X109 X110 X111 X112 X113 X114 X115 X116 X117 X118 QD2 S1 QD2 S2 ext ECC QD2 Mo 1 3 2 a row LC 1 to 6 system 1 i a row LC 1 to 6 system 2 141 142 A A 1 1 o o 5 5 o 51 12 a a a a a a a amp amp amp amp 5 i iD iD iD iD iD iD i iD i i N Ei ON SUE addresses CUD 1156 1 16 8141211 c row LC 1 to 6 system 1 LC 1 to 6 system 2 100 Md 1 A 5 o p 8 8 5 S S S S S 5 18 18 5 5 8 8 o o o N N N N N N N N N N N N N N N N N o o o A 1N X119 X120 X121 X123 X124 X125 X126 X127 X128 X129 X130 X131 X132 X133 X134 X135 X136 X137 X138 X139 X140 T3ab T3an PB i ZA OH HDSL HDSL ches ud i i LT1 2 LT3 4 171 3 174 6 i 5 i pes 1 lt LE gt 54 Systemi 1 SP System 2 mE i f 1 ON
2. E e gt lt D Level e converter X101 X101 e 1 2 e Y i Y Y 1 1 LTx5 CUD 1 CUD 2 LTx6 8 Fig 3 23 519 Clock Distribution QD2 Access The internal wiring for operation and monitoring is shown in Fig 3 24 The TMN access for the subrack is the QD2 slave interface on connector X101 This leads to the QD2 slave port 1 of the SUE The T terminals of the QD2 slave interface 1 of the SUE are also accessible in the QD2 slave connector The SUE will be addressed via a DIL switch on the backplane The multiplexer including the various line cards forms the network element FMX2R3 TMN access to the FMX2R3 is the QD2 slave interface of the central unit with bitrates of 9 6 kbit s or 64 kbit s autodetect The network element is fix addressed by backplane coding with five bits for the CUD central unit It is possible to share the linecards in the shelf to two network elements FMX2R3 by equipping a second central unit CUD In this case each CUD takes over the control of the half from the shelf The QD2 slave ports of both CUDs are switched in parallel each CUD has its own QD2 address If one multiplexer with more than 6 line cards is needed a BEC can be plugged in at the second CUD slot This BEC connects automatically the both PCM busses and feeds the lin
3. 1 If the LTO is plugged into slot 206 it is not possible to use the neighboring slot 207 Thecentral units CUD required the FMX2R3 2 load 3 Pluggable modules of the LT2ME1 UK2mp G703sh SDSLmp SDSLop SDSL4op optionally with T4 module Pluggable modules of the CPF2 CIM V 24 CIM X 21 CIM V 35 CIM V 36 CIM nx64E Tab 3 32 MXS19C Equipping A50010 A3 C701 1 7618 95 UMN TED Information Flexible Multiplexer FMX2R3 2 96 3 3 3 3 3 4 E1 Interfaces Each CUD contains two E1 interfaces The E1 interfaces of both CUDs can be accessed at connector X110 which is located on the rear side connector panel The impedances of the E1 interfaces are adjustable by switches on the CUD between 120 Q balanced and 75 unbalanced The E1 interfaces of line termination units on the slot delivery connectors have to be connected with an external distribution frame via special cables see Section 3 3 4 To connect the 2 Mbit s signals with 75 coax cable the b pin should be connected to the shield of the coax cable GND It is necessary that no cable shield is connected to the shield of the grip plate because the voltage potential of the grip plate shield is GND_S For cross connection of the unbalanced cable or for changing from balanced to unbal anced cable it is advisable to use the Coax Distribution Field CDF S42023 A890 A75 Line Termination Interfaces The slots
4. 342 Terminal Multiplexer with 1 1 Protection Switching 342 Ethernet Connection Configuration 344 End to End Protection for Subrates and n x 64 kbit s 346 Timed Tasks for Connections 348 Signaling of the ISDN Line Cards 349 349 Leased ree 349 Clock Generation and Synchronization 350 101 10 11 EA EE 352 Network Management 352 A50010 A3 C701 1 7618 Information UMN TED Flexible Multiplexer FMX2R3 2 5 2 SISA Communication Network 353 5 3 Access to 354 5 4 Ghee OR ed Roe PO e RR ce a 356 5 5 Management in an SDH 357 5 5 1 SDH Overhead usce xe alee IR s 357 5 5 2 ACCESS via ECG Ser sem arm x aurea 359 5 5 3 DCN Decoupling via EGO toc a auia eee a ee a 360 5 5 4 Node iman SDH Ring 365 5 6 Management in a Line Network 366 5 6 1 Access of the Network Man
5. eal eee sn Ronde 47 3 1 4 ODZ ACCESS nra eur daw Dae best er eed doge us 48 3 1 5 213 A ae 48 3 1 6 Power SUDply anche tiie Mew ea dled hw ed RARE UR be Shoe eee 49 8 1 7 SWITCH 50 3 1 8 Connector 55 0 52 3 1 9 Technical Bata uos ed eheu RP REI E E 62 3 2 MX2S SUDIaCK iona de Boe ee wet Be 63 3 2 1 o E 64 3 2 2 Glock Synchronization e sei eee dae dcs 65 3 28 ACCESS stre meg dae aie ee eee ee 66 A50010 A3 C701 1 7618 Information UMN TED Flexible Multiplexer FMX2R3 2 3 2 4 su mene ra br ee he ees d x thea E 67 3 2 5 Power SUpply ss E eb HR e a cade Poy ae RA A ea 67 3 2 6 SWITCH Sellings cuis Redes d ga e RR 68 3 2 7 Connector ASsighiNent oi aita ata rrua ard foie eid 80 3 2 8 Technical ala Beth ones E AE 91 3 3 MX SIIC 5 CIPUE 93 3 3 1 Sgen c 93 3 9 2 ul Mer C P DR 95 3 9 9 El Interfaces X epe he eee necs 96 3 3 4 Line Termination Interfaces 96 99 5 Elektro Magnetic Compatibility 97 3 3 6 TakiSymchroniSation os 2 i heaton Yee R
6. Fig 3 14 FMX2S Clock Distribution 50010 701 1 7618 65 UMN TED Information Flexible Multiplexer FMX2R3 2 F IF 3 2 3 QD2 S QD2 M QD2 M QD2 S2 QD2 S1 T A 2 048 MHz clock can be fed to T3in1 and T3in2 a D sub plug in the termination panel The T3in1 clock supplies the line termination units and a level converter on the backplane A loop T3in2 supplies the two CUDs with the 2 048 MHz clock and passes the clock on to external facilities At another D sub connector in the termination panel T3out can be extracted from the two CUDs and T4out from LTx slots 5 and 6 QD2 Access The internal wiring for operation and monitoring is shown in Fig 3 15 The TMN access for the subrack is the QD2 slave plug in the termination panel This leads to the QD2 slave port 1 of the SUE The T terminals of the SUE are also accessible in the QD2 slave connector The internal QD2 bus can be connected via switches either to the QD2 master port of the SUE in standalone operation of the subrack or to QD2 access e g from COMPS2 within an ONU or SNU In standalone operation the QD2 bus connects the QD2 slave interfaces of the FMX2R3 2 to the QD2 master interface of the SUE supervision unit The QD2 slave port 2 is in the QD2 M connector Via this port one of the internal control channels can be connected using an appropriately assigned connector
7. 284 Controls of the V 36 296 Ubersichtsschaltplan CIM nx64E 298 Controls Ethernet 301 Operation and Monitoring via the SUE s QD2 Interface 311 Controls of SUE oe test t e S de aw ee 314 Connector 11 0f tlie Ehe e erc aes 317 Connector 10 ofthe SUE 318 Operation of the System Modules with OSU Example 321 Application of QD2 Master Ports 323 Controls OSU Rae RR rasa eot 324 Connector ot the OSU ues y RE Rs 326 Controls of the 5 eee 333 Contact Assignment of the F 334 Terminal Assignment of the 55 335 Connecting a 2 Mbit s 340 Tapping off and Inserting 64 kbit s 340 Digital Conference 341 Point Port 1 341 Point Port ETB to Multipoint 5 cr tb baa es 341 Point Time Slot to Multipoint 341 Broadcasting with E1A as 342 Broadcasting with ETB as POINT
8. 2 245 3 20 86 Technical 2d edad has 246 3 21 CPF2 Digital Signal Channel 248 39 21 1 ee eee tu pee Sew os keel 248 A50010 A3 C701 1 7618 7 UMN TED Information Flexible Multiplexer FMX2R3 2 3 21 2 3 21 3 3 21 4 3 21 5 3 21 6 3 21 7 3 21 8 3 21 9 3 21 10 3 21 11 9 21 12 3 21 13 3 21 14 3 21 15 3 22 3 22 1 3 22 2 3 22 3 3 22 4 3 22 5 3 23 3 23 1 3 23 2 3 23 3 3 23 4 3 23 5 3 24 3 24 1 3 24 2 3 24 3 3 24 4 3 24 5 4 1 4 1 1 4 1 2 4 1 3 4 1 4 4 2 4 3 4 4 4 4 1 4 4 2 4 5 54 Clock Synchronization rex ec hene RE RR PRESSE 249 Sub Bitrate Multiplexing desto t Re ieee 249 Point to Multipoint lt 5 250 Channel no Rte me aide e aes erc ee 250 Supervision and 515 251 een T EE DRAPER REDERE 253 Connector Assignment 254 Overview CIM Interface Modules 259 CIM X 21 Interface Module 260 CIM V 24 Interface Module 269 CIM V 35 Interface Module 278 CIM V 36 Interface Module ns inris e
9. 21 1 4 7 Protection against Foreign Voltages in the 21 1 4 8 Virus ar eee ten Mum RE 22 1 5 CE Declaration of Gonformlty csset a nce a ERE AR oe 22 1 6 Environmental prex e RO REED Wate ee ed s 22 2 System Description ha TEA 25 24 Applicaton ENT 25 22 System SIIUCIUFe isses er Rx eae ca BAUR RE ee eee Red 29 2 2 1 ea MD Er 29 2 2 2 Gentral Unit ze sare ache a eee Pee e RR Run den 30 2 2 3 Bus Extension Card 44228461 be spe aed 30 2 2 4 Units for Operation and Supervision 30 225 Line Cards Analog 31 2 2 6 Line Cards for ISDN Setvlces eers creek nte ae dee ber dase od 33 2 2 7 Line Cards for Digital 37 2 3 External Interfaees De dae wea wee 39 2 4 Internal Interfaces 40 2 5 SUDDly este ed reed PER eee sate ee FREE 08 41 3 COmponellts eee a ee e ERE RE de 42 3 1 SNUS SUBIACK bre Qe weve RR 42 3 1 1 e E 43 93 1 2 Internal Connections iue Ns done RE Reb We RE ew dad 46 9 1 9 06
10. EUER SR ee 195 Technical kr 196 Converter inst diode eee nice nee ER 198 OVeIVIBW etn ku e ue aue RO edd 198 Monitoring and Alarm 510 199 c 199 Connector 2 200 Signal Abbreviations 201 Technical Data isar ek sas em n hm EA nd EA eel e A 201 Analog Leased Line LLA102 104C 203 oT RM Pr 203 Supervision and Alarm 51 203 Connector 5 0 204 Techical aud craters as P Ode xul ar ipud Patmos E 205 ISBNIBSOP Line Card i uci em Ende RE IY 207 e E once ue e Re Relea 207 Time Slot Allocation and 208 Supervision and Alarm Signaling and Diagnostics 209 CONTOS E EE 210 A50010 A3 C701 1 7618 Information UMN TED Flexible Multiplexer FMX2R3 2 3 15 5 Connector 5 0 211 3415 6 Technical xh ir e dan than a ye de bas 212 3 16 IUL82C and IUL84C ISDN Line Cards 214 9 16 1 OVOIVIGW iiie o bh pean ap be Poi e 214 3 16 2 Time Slot Allocation a
11. 54 3 9 SNUS Connectors X122 X131 X138 X112 and 132 55 Tab 3 10 SNUS Connectors X103 to X108 X123 to X128 X103 X123 X107 X108 and X111 tr eene 56 Tab 3 11 SNUS Connectors X109 X110 X 113 X114 X129 X190 X188 X194 eked Sp ae es 57 Tab 3 42 SNUS Connectors X115 to X117 X135 to X137 58 Tab 3 13 SNUS Connectors X103 to X108 X123 to X128 Part 1 59 Tab 3 14 SNUS Connectors X103 to X108 X123 to X128 2 60 Tab 3 15 SNUS Connectors X103 to X108 X123 to X128 Part 3 61 3 16 EMX2S EgUlpplng uei n E sende eo o ul iei 64 Tab 3 17 FMX2S Overview of the 69 Tab 3 18 FMX2S Address Settings for the 5 69 Tab 3 19 FMX2S LC Connectors 80 3 20 FMX2S Connectors X105 to X110 X113 to X118 Part1 81 Tab 3 21 FMX2S Connectors X105 to X110 X113 to X118 Part 2 82 Tab 3 22 FMX2S Connectors X105 to X110 X113 to X118 3 83 Tab 3 23 FMX2S Connectors X123 to X128 X131 to X136 Part 1 84 Tab 3 24 FMX2S Connectors X123 to X128 X131 to X136 2 85 Tab 3 25 FMX2S Connectors X123 to X128 X131 to X136 3 86 Tab 3 26 FMX2S Connectors X101 to 104
12. 368 Fig 520 ECC inthe Central Station Xue dese 44 24 tree 368 Fig 5 21 in the Line Network and in the Remote Station 369 Fig 5 22 Overhead 9 6 5 369 Fig 5 23 Overhead Channel in the Central Station 370 Fig 5 24 Overhead Channel the Line 370 Fig 5 25 Overhead Channel in the Remote 5 371 Fig 5 26 Software Download Rb kx RE 373 A50010 A3 C701 1 7618 13 UMN TED Information Flexible Multiplexer FMX2R3 2 Tables Tab 1 1 Typographical Conventions 18 Tab 2 1 Interface Modules for Use on the CPF2 37 Tab 2 2 CPF2 Front Panel 38 Tab 3 1 SNUS FMX2R3 2 LTx 44 3 2 SNUS GMXG Equipping x eed 45 Tab 3 8 5 05 5 1 4 45 Tabs 3 4 SNUS DIL Switeh Settings de de 51 Tab 3 5 SNUS Units and 5 51 Tab 3 6 SNUS Connectors X141 and 142 53 Tab 3 7 SNUS 15 Contact Jacks X101 X102 121 53 Tab 3 8 SNUS 9 Contact Jacks X120 X143 and 144
13. Connectors in termination panel O I gt ECC 1 ECC 2 ECC 3 OH64 4 OH64 6 for LCT Fig 3 15 66 SUE QD2 bus CUD LTx CUD LTx LTx LTx LTx LTx QD2 bus 1 2 2 3 4 5 6 FMX2S QD2 Access The following internal control channels can be used ECC channels of SUE and CUD ECC 1 of SUE ECC 2 of CUD 1 slot 2 ECC 3 of CUD 2 slot 9 e OH64 overhead channels of LTx 4 slot 16 and LTx 6 slot 18 A50010 A3 C701 1 7618 Information UMN TED Flexible Multiplexer FMX2R3 2 3 2 4 Addressing All units in this subrack except SUE and CUD are assigned slot addresses For the ad dresses which are assigned to the slots see Section 3 2 6 The SISA address of the SUE is set using the DIL switch in the termination panel The addresses of the CUDs are set using the DIL switch in the backplane For line termination units in line card slots some address bits are given by the coding of the line cards This makes it necessary to change address bits to adapt the addressing if line termination units are installed in these slots The change is done using DIL switch es for fitting LCs or LTx see Section 3 2 6 3 2 5 Power Supply The 48 V input voltages are fed via two separate 3W3 plugs in the termination panel The positive p
14. ddan 342 Broadcasting with Time Slot as 342 Terminal Multiplexer 1 1 343 Ethernet Traffic in Different Timeslot Groups 344 Ethernet Traffic of 2 Timeslot 345 Ethernet Traffic in Star Configuration 345 End to end 346 Actions for Channel 347 CAS Signaling on ISDN Dial up Lines 349 FA Signaling on ISDN Dial up 349 Stand alone Operation with D Channel Signaling 349 FA Signaling in ISDN Leased Lines 349 Clock Control in Linear Network Available at both End Points 350 A50010 A3 C701 1 7618 Information UMN TED Flexible Multiplexer FMX2R3 2 Fig 5 1 Network Management of FMX2R3 2 Example 352 Fig 5 2 SISA Structure of FMX2R3 2 353 Fig 5 3 Example of a FMX2R3 354 Fig 5 4 Operation of System Modules in Standalone Operation ot SNUS Exaimpla i esee EE edu 355 Fig 5 5 DCN Transport via Overhead in an SDH Ring with One Management 358 Fig 5 6 DCN Transport v
15. 87 Tab 3 27 FMX2S Connectors X119 to X121 and 138 88 Tab 3 28 FMX2S Connectors X139 and 140 89 Tab 3 29 FMX2S Connectors X111 X112 X129 and X130 90 Tab 3 30 FMX2S Connector 137 91 Tab 3 31 FMX2S Connectors X141 142 91 Tabs 3 92 IMXS19C Equipping uu eee RR RR E a e nc 95 Tab 3 33 Minimization of EMC 97 Tab 3 34 MXS19C Plug in Units and 100 3 35 MXS19C Connector Overview 104 Tab 3 36 519 Steckverbinder 101 105 Tab 3 37 MXS19C Connector 10 106 Tab 3 38 519 Connectors X104 to X109 X112 to X117 General 107 14 A50010 A3 C701 1 7618 Information UMN TED Flexible Multiplexer FMX2R3 2 Tab 3 39 MXS19C Connectors X104 to X109 X112 to X117 Part1 108 Tab 3 40 MXS19C Connectors X104 to X109 X112 to X117 Part2 109 341 MXS19C Connectors X104 to X109 X112 to X117 Part3 110 Tab 3 42 MXS19C Connectors X110 and 111 111 Tab 343 MXS19C Connector 118 112 Tab 344 MXS19C 120 113 Tab 3 45 AMXMS
16. a a 117 Tab 3 46 Visual Signalizing of the 120 Tab 3 47 ONU 30 FTTB External 5 124 Tab 3 48 Connector X1 125 3 49 LED Displays on SV 65 W 12 V ABV 127 Tab 3 50 Equipping the ONU 20 135 Tab 3 51 DIL Switch Setting in the Central Terminal Panel 137 Tab 3 52 Central Terminal Panels on the ONU 20 138 Tab 3 53 Terminal Panels of Line Cards in ONU 20 138 Tab 3 54 5 151 3 55 Setting the DIL Switch 2 152 Tab 3 56 Table of Alarms of the 157 Tab 3 57 Signaling of the 160 Tab 3 58 Setting the Controls of the 161 Tab 3 59 Address Switch Settings on the CUD 162 Tab 3 60 SLX102 E Plug in Unit 180 Tab 3 61 Table of Alarms of the SLB62 182 Tab 3 62 System Connector of the UAC68 Internal Interface 188 Tab 3 63 Exchange Connector of the UAC68 External Interface 189 Tab 3 64 Table of Alarms for the
17. sue swale e 171 SUB102 Subscriber 172 eU I MC 172 Connector 5 0 173 Technical Data EUR REESE SEEN dae 174 SLX102 and SLX102E Subscriber Converters 177 OVEIVICW i aac Cine es pA Monge eee LAU ees Rd toa dee 177 Connector Assignment 2212243 aioe ke Ri x xh mE Rex RR vende 178 Technical Data esee Rm Rh Wa hn ose hom Re RA 179 SLB62 Subscriber 181 eI M 181 eui e PP ETT 182 Monitoring and Alarm 510 182 Connector 55 0 183 Wechmical vou ere ea n ook noel dealers Reste caen hc 184 UAC68 Universal Analog Line 186 COVEIVI GW acusa t ae Gin a AeA ee Reni dad ein a oos 186 ER 188 Connector 5 0 188 Ae ek me eire Run ete aw oa 191 SEM106C E amp M 193 WOOW oor krt See Pe Re eae Se ee eek RE 193 Monitoring and Alarm 194 TESIS PP CDL 194 Connector Assignment
18. 97 3 8 7 OZ 6 6 a a E eraa i R E ee eee 98 3 3 8 Addressing us daenna net AT AA GAG a tes 100 3 3 9 ALARMING a tie eee ER oe ee ee es 101 3 3 10 Stromversorgung und Verlustleistung des Einsatzes 101 3 311 Front Panels for Data Interfaces of the 2 102 3312 S 103 3 9 19 Gonnector Assignment eae dete ee A 104 3 3 14 TechniealData esce er to eer eee da dees ated ao dn ER ER 113 3 4 ONU SOR TIB ais reed ata Late 114 3 4 1 71 Dn 114 3 4 2 Shelf AMXMS i d e o OE uy EROR a Rc 116 3 4 3 Supervision Unit MSUE est oreet eem ben t ee en dus 118 3 4 4 Fan and Alarm Module 123 3 4 5 Power SUpply ete eek ER ei ved ed Rs ERO Ra ue P Edu 125 3 4 6 Management Access 128 3 4 7 Front Panel Gonnectols 2 2 21202502 ye ee ee 128 3 4 8 Technical Dal ew ed Yee e So e dia 129 3 5 NOM Lr 132 3 5 1 DESION doe 132 3 5 2 Configuration and 134 3 5 3 Hardware Settings 135 3 5 4 Terminal Panels rece e ee Re eed 138
19. 701 1 7618 For a DCN Data Communication Network these units implement a virtual concentrator SISA V in each case They possess QD2 slave and QD2 master interfaces for incor porating the FMX2R3 2 into a SISA communication network For local operation an F in terface is available at the supervision units The SUE can also signal external alarms e g door contact fan failure to the operating system OS Line Cards for Analog Services Converter SUB102 The SUB102 subscriber converter provides 10 a b interfaces and can be used for the following applications e Connection of conventional analog subscriber telephones or extension telephones to digital exchange Together with the SLX102 E for connection of conventional analog subscriber tele phones or extension telephones to analog exchange or to an analog subscriber ac cess of digital exchange F2 2 Mbit s CAS TE SUB102 FMX2R3 2 Fig 2 6 Subscriber Access to Digital Exchange F2 2 Mbit s F2 CAS TE SUB102 SLX102E FMX2R3 2 FMX2R3 2 EXCH Fig 2 7 Subscriber Access to Analog Exchange Converters SLX102 and SLX102E The SLX102 or SLX102E provides 10 a b interfaces and in conjunction with the SUB102 the SLX102 E connects conventional analog subscriber telephones or exten sion telephones to analog exchange or to an analog subscriber access of digital ex change see Fig 2 7 The grounding key function is transmitted for use in PA
20. TC1E3 PSD Tab 3 3 50010 701 1 7618 SNUS 5 1 4 Equipping 45 UMN TED Information Flexible Multiplexer FMX2R3 2 3 1 2 Internal Connections 2 Mbit s Connections The internal wiring of the 2 Mbit s connections is shown in Fig 3 4 o Connectors termination panel jur W w w du x x lt te 1 1 1 1 CUD LTx LTx LTx 5 PU16 PU16 5 TU 2 ADMI 1 2 3 4 4 4 4 ADM4 e 5 e 5 5 5 e 6 6 6 6 e 7 7 7 7 8 8 8 8 9 9 9 9 10 10 10 10 11 11 11 11 12 12 12 12 13 13 13 13 4 5 14 4 14 14 14 15 15 15 15 16 16 16 16 17 17 18 18 19 19 20 20 21 21 Fig 3 4 SNUS Internal 2 Mbit s Connections Subrack fitted with SMX1 4c PCI Connections Of the 12 PCI interfaces of a CUC the first 4 are fed to the left hand PU16 slot 10 as PCI from the active CUC slot 11 and as PCIS from the
21. 0 j ON ex LQ loo 2 o o e 55 lo io oj 2 2 S le N a N N a A N N NOS 94 19 N N x x EX x e8 s hes 7 B Bs s zi 075 2 89 BS 38 T amp o D BA BA ON ON ON 7 lt lt c 82 148 4 5 6 7 0 Hl bh be be rat gS O e Pr oO bed x x x x X lt X gt 5 ON BN a N o Be BS 03 22 P ON 5 L 11 Joke U L L SUE CUD 1014 LC2 1 LC3 1 LC4 1 1054 LC6 1 CUD 2 LC1 2 LC2 2 LC3 2 LC4 2 1052 LC6 2 LT4 LT5 LT6 LT1 BEC LT2 LT3 ic LT LC LT Label e 3 N Meaning Slot Item Switch 4 pin SUB according to parts list Fig 317 FMX2S Front View without Front Panel 68 A50010 A3 C701 1 7618 Information UMN TED Flexible Multiplexer FMX2R3 2 Switch Adaptation to the Equipment in the FMX2 Switch What is switched Contacts Position see also Fig 3 17 ADR SUE 4 13 12 I1 IO In the terminal panel QD2S IN OUT A B ONU standalone Between X201 and X301 ADR CUD1 A4 1 GND 1 A2 1 A1 1 A0 1 Between X202 and X302 LC6 LTx1 QD2M i To the right of X208 above LC6 LTx1 T3IN To the right of X208
22. z B STM 1 CMXII or FMX2R3 2 FMX2R3 2 4FMX eR3 2 STM optical 12 12 deed Subs Subs Subs Fig 2 3 Access via FMX2R3 2 Network to V5 1 V5 2 Exchange A50010 A3 C701 1 7618 Information UMN TED Flexible Multiplexer FMX2R3 2 50010 701 1 7618 Multiplexer FMX2R3 2 can be accomodated as follows e up to 2x in FMX2S Flexible Multiplexer Shelf e upto 2x in MXS19C Multiplexer Shelf 19 e in SNUS Service Network Unit Shelf in combination with the cross connect multi plexer CMXC and the FastLink system module SMX1 4c in ONU 30 FTTB or e in ONU 20 FTTO ONU 30 FTTB and ONU 20 FTTO each connect a multiplexer to the transmission net work by means of a line termination unit LTx It is possible to cascade several ONUs or to operate two ONUs in a point to point connection for fixed analog or digital connec tions Network termination units which are connected to the multiplexer enable one or two data interfaces to access the subscriber directly Network termination units for the basic ac cess connect remote ISDN subscribers via 4B3T 2B1Q to the multiplexer G 703 64 kbit s V 35 V 36 RS530 X 21 V 24 E Uko 2B1Q IUL82C Subrates NTU n x 64 kbit s n lt 2 8 up to n x 64 kbit s 2810 1 So NTBA n 64 kbit s n lt 2 IUL84C S d 4B3T 8 NTBA x 64 kbit s n
23. Tab 3 16 FMX2S Equipping 64 A50010 A3 C701 1 7618 Information UMN TED Flexible Multiplexer FMX2R3 2 Plug in unit Plug in place LC LTx LC1 2 210 Y LC2 2 211 9 1 3 2 212 D LC4 2 213 o LC5 2 214 4 LC6 2 215 LTx5 217 LTx6 218 V42256 Z82 M1 2 wire a b or LTx V42256 Z82 M2 4 wire c d or LTx IUL84C IAUKANTP CM 64 2 SLX102 E DSC104C DSC6nx64C CPF2 LT2ME1 LTO 1 Pay attention to switch positions at equipping variants 3 Up to 4 modules for CPF2 CIM V 24 CIM X 21 CIM V 35 CIM V 36 2 On these slots only one module for copper transmission up to 2 modules CIM nx64E lines can be equipped Uk2mp G703sh SDSLmp 4 Filter types according to LC types that must be plugged and SDSLop SDSL4op T4 module can be plugged screwed on to Sub D in terminal panel optionally on plug in places 216 to 218 Tab 3 16 FMX2S Equipping Cont 3 2 2 Clock Synchronization Connectors in 25 termination panel S r c e gt E lt T3in 1 z Lew Level l l Zle converter 8 2 d a 1 we e A e Y Y Y Y vy A W CUD 1 LTx 1 CUD 2 LTx 2 LTx 3 LTx 4 LTx 5 LTx 6
24. 296 Tab 3 98 Terminal Assignment of the V 36 Module Connector 297 Tab 3 99 CIM nx64E Module Connector X1 301 Tab 3 100 CIM nx64E Module Connector X2 302 Tab 3 101 Visual Signals Output by the SUE 313 3 102 LED Bisplays of OSU eme cg ac ehe doris 323 Tab 3 103 As delivered State of the Interfaces of the 50 324 Tab 3 104 DIL Switch on the OSU cia oes ser LER RR ER ee 325 Tab 3 105 DIL Switch on the 50 325 Tab 3 106 SISAK Transmission 330 Tab 3 107 SISAK Input and Output Stages for the Data Channels Clock ui acre ied soper nie aure ee Be 330 Tab 3 108 Interfaces and Bit Rates at the SISAK s Slave Ports 331 Tab 3 109 Interfaces and Bit Rates at the SISAK s Master Port 332 Tab 3 110 Settings by Control Elements of the SISAK 333 Tab 3 111 Optical Signalling of the 51 334 Tab 4 1 Priorities of Alarm Criteria for Protection Switching 343 Tab 4 2 Functions with Channel 346 Tab 5 1 DCN Channels for Remote Operation of the FMX2R3 2 356 16 A50010 A3 C701 1 7618 Information UMN TED Flexible Multiplexer FMX2R3 2
25. Copyright C Siemens AG 2005 Issued by the Communications Group Hofmannstra e 51 D 81359 M nchen Technical modifications possible Technical specifications and features are binding only insofar as they are specifically and expressly agreed upon in a written contract A50010 A3 C701 1 7618 Information UMN TED Flexible Multiplexer FMX2R3 2 50010 701 1 7618 Reason for Update Details First issue Chapter Section Reason for Update Issue History Date of issue Reason for Update UMN TED Information Flexible Multiplexer FMX2R3 2 This document consists of a total of 382 pages All pages are issue 1 Contents 1 General 17 T4 Structure of the Manual tees eee ex ERR ERR d 17 1 2 Typographical 18 1 3 Additional Documentation miaa euie a 18 1 4 Protection Measures 19 1 4 1 Protection Against Excessive High Contact Voltages 19 1 4 2 Protection Against Escaping Laser 19 1 4 3 Protection Against Fire in Racks or Housings 20 1 4 4 Components Subject to Electrostatic Discharge 20 1 4 5 Handling Modules General 21 1 4 6 Handling Optical Fiber Connectors and
26. GND S X132 External PCI interfaces of the CUC2 GND S A1 V11ETXD A1 PCI D P9 PCIS D P9 EOUT A1 V11ETXD B1 PCI U P9 PCIS U P9 ET A1 V11ERXD A1 GND GND EIN A2 V11ERXD B1 PCI D P10 PCIS D P10 EOUT A2 11 A2 PCI U P10 PCIS U P10 ET A2 V11ETXD B2 GND GND EIN V11ERXD A2 PCI D P11 PCIS D P11 NI 9 oy A EOUT V11ERXD_B2 PCI U P11 PCIS U 11 a EIN_A4 V11ETXC A GND GND Er EOUT A4 V11ETXC B PCI D P12 PCIS D P12 E EINCUD_A V11ERXC_A PCI U P12 PCIS U P12 E EOUTCUD_A V11ERXC_B CCUR_A CCURS_A B1 V11WTXD A1 PCI D N9 PCIS D N9 a EOUT B1 V11WTXD B1 PCI U N9 PCIS U N9 ET B1 V11WRXD A1 GND GND m N EIN_B2 V11WRXD_B1 PCI_D_N10 PCIS_D_ EOUT_B2 V11WTXD A2 PCI U N10 PCIS U a ET B2 V11WTXD B2 GND GND EIN B3 V11WRXD A2 PCI D N11 PCIS D N A EOUT B3 V11WRXD B2 PCI U N11 PCIS U N N EIN_B4 V11WTXC_A GND GND N EOUT_B4 V11WTXC_B PCI D N12 PCIS D N12 ER EINCUD B V11WRXC A PCI U N12 PCIS U N12 EOUTCUD_B V11WRXC_B CCUR_B CCURS B Tab 3 9 SNUS Connect
27. 1 H m 28 3 LC LTx A50010 A3 C701 1 7618 Information UMN TED Flexible Multiplexer FMX2R3 2 50010 701 1 7618 5208 3 Adapting to LC LTx Equipping in Slot 208 Warning If slot 208 is equipped with the LC card the switch must be open to exclude any mutual faults in the X139 SHDSL and X110 LC 6 system 1 sub D connectors S208 3 ON ON LC208A16_11B kN Ty H1 A1 208 1 e 1 His LC208A18 12B 1 1 208 LC208A20 6B SU 6 H2_A1_208 2 7 2 H2_B_208 2_ 1_208 puo 3 6 3 6 E1OUT_B_208 LI If LC is used open 4 _ 5 4 Ws If LTx is used closed ON LTx Switch separates lines from slot 208 to the X139 sub D connector LTx1 LTx2 LTx3 f r SHDSL If equipped with LC As delivered condition LC 75 UMN TED Information Flexible Multiplexer FMX2R3 2 Overview of Switches S208 3 S214 3 and S215 3 External connector slot 8 Sub D connector LC 6 system 1 a contacts X208 io LC208A16 11B 24 BK LC208A18 12B 2 25 110 NT LC208A20 6B 19 25 H2_B_208 ETQUT 208 26B X128 25 pin Slot 8 LC 6 system 1
28. 89 UMN TED Information Flexible Multiplexer FMX2R3 2 PIN CUD place 2 X111 GND_S Connectors X111 X112 X129 X130 2 Mbit s G 703 CUD plug in place 2 LTx LTx5 LTx6 X112 GND S LTx1 LTx2 X129 GND_S LTx3 LTx4 X130 GND_S E1 OUT21a E1 OUT181a E1 OUT81 a E1 OUT31 a E1 IN21 a E1 IN181 a E1 IN81 a E1 IN31 a E1 OUT22 a E1 OUT182 a E1 OUT82 a E1 OUT32 a E1 IN22 a E1 IN182 a E1 IN82 a E1 IN32 a E1 OUT91 a E1 OUT191 a E1 OUT151 a E1 OUT41 a E1 IN91 a E1 IN191 a E1 IN151 a E1 IN41 a E1 OUT92 a E1 OUT192 a E1 OUT152 a E1 OUT42 a a A 1 1 92 E1 IN192 a E1 IN152 a E1 IN42 a E N E a E1 OUT21 b E1 OUT181 b E1 OUT81 b E1 OUT81 b E1 IN21 b E1 IN181 b E1 IN81 b E1 IN31 b E1 OUT22 b E2 OUT182 b E1 OUT82 b E1 OUT32 b N E1 IN22 b E2 IN182 b E1 IN82 b E1 IN32 b E E1 OUT91 b E1 OUT191 b E2 OUT151 b E2 OUT41 b e 1 IN91 b E1 IN191 b E2 IN151 b E2 IN41 b E1 OUT92 b E2 OUT192 b E2 OUT152 b E2 OUT42 b N A E1 1 92 b E2 IN192 b E2 IN152 b E2 IN42 b N N N ER Tab 3 29 FMX2S Connectors X111 X112 X129 and X130 90
29. 106 194 Tab 3 65 Table of Alarms for the 199 Tab 3 66 Controls on the I8SOP 50 210 Tab 3 67 Restricted Time Slot Occupancy of the IAUK2NTP at 128 kbit s 222 Tab 3 68 Restricted Time Slot Occupancy of the I4UK4NTP at 128 kbit s 222 Tab 3 69 Table of Alarms for the 05 1040 233 Tab 3 70 Table of Alarms of the CM64 2 242 Tab 3 71 Controls of the 64 2 244 Tab 3 72 Interface Modules for Use on the 2 248 Tab 3 73 Assignment of the LEDs to the Ports of the Unit 251 Tab 3 74 LED Control when the Alarm 251 3 75 Connector Assignment X15 of the 2 254 Tab 3 76 Terminal Assignment X16 General of the CPF2 255 Tab 3 77 Connector Assignment X16 for X 21 Modules of the CPF2 256 Tab 3 78 Connector X16 with CIM nx64E Modules 257 Tab 3 79 Relationship between Number of Bits and Transmission Speed 260 Tab 3 80 Signal States at the X 21 Interface 263 Tab 3 81 Alarm Table CPF2 with X 21 264 Tab 3 82 Interface Signals X 21 at the Module 268 A50010 A3 C701 1 7618
30. 3 5 5 Clock Supply eade 148 3 5 6 Power SUDDly stes beh eS e dU Kevlar s 148 35 7 Operating Status Display 149 3 5 8 Local Operation of the ONU 20 FTTO 149 3 5 9 Control and Supervision Unit 50 149 95 10 Technical Data i ete tae eee Sa ee e Geach eee 153 3 6 CUD Central Unit 156 3 6 1 eu os oin cea toot cae naar wee en EUER as 156 3 6 2 Monitoring and Alarms eed dde en wae xA 157 3 6 3 woo pP 161 3 6 4 o err ea dd taurus 163 3 6 5 Technical Data cc wae aed rex e EP RED CEDERE EX eds 165 3 7 Bus Extension Unit sut rU IR wee Bae eee 168 A50010 A3 C701 1 7618 5 UMN TED Information Flexible Multiplexer FMX2R3 2 3 7 1 3 7 2 3 7 3 3 7 4 337 5 3 8 3 8 1 3 8 2 3 8 3 3 9 3 9 1 3 9 2 3 9 3 3 10 3 10 1 3 10 2 3 10 3 3 10 4 3 10 5 3 11 9 11 2 3 11 3 3 11 4 3 12 3 12 1 3 12 2 3 12 3 3 12 4 3 12 5 3 13 3 13 1 3 13 2 3 13 3 3 13 4 3 13 5 3 13 6 3 14 3 14 1 3 14 2 3 14 3 3 14 4 3 15 3 15 1 3 15 2 3 15 3 3 15 4 168 Monitoring and Alarm sanss iere Ey eh 24 Ren 168 GCONUOIS MET E 169 Connector Assignimernt vs xxr pie ke eU E dere 170 Technical
31. 3 65 Connector Assignment of IUL82C and 10184 216 Fig 3 66 Connector Assignment of IAUK2NTP 223 Fig 3 67 Connector Assignment of the IAUKANTP 225 A50010 A3 C701 1 7618 11 UMN TED Information Flexible Multiplexer FMX2R3 2 12 Fig Fig Fig Fig Fig Fig Fig Fig Fig Fig Fig Fig Fig Fig Fig Fig Fig Fig Fig Fig Fig Fig Fig Fig Fig Fig Fig Fig Fig Fig Fig Fig Fig Fig Fig Fig Fig Fig Fig Fig Fig Fig Fig Fig 3 68 3 69 3 70 3 71 3 72 3 73 3 74 3 75 3 76 3 77 3 78 3 79 3 80 3 81 3 82 3 83 3 84 3 85 3 86 3 87 3 88 3 89 3 90 3 91 4 1 4 2 4 3 4 4 4 5 4 6 4 7 4 8 4 9 4 10 4 11 4 12 4 13 4 14 4 15 4 16 4 17 4 18 4 19 4 20 Controls of the DSC104C6 n ee 231 Connector Assignment of the DSC104C 232 Connector Assignment of 5 6 64 237 Controls of the 6 9 ehe Ene ewe dene a 243 Connector Assignment of the Jacks 20 21 and 22 244 Connector Assignment of the 64 2 245 Controls of duet iad aw eal ed aue ae 253 Gontrols of the X 21 Module 25 rrr e Rd 268 Controls of the V 24 277 Controls of the V 35
32. 64 kbit s codirectional G 703 interfaces DSC6 nx64C digital signal channel n x 64 kbit s G 703 interfaces CPF2 digital signal channel with maximum of 4 interface modules for subrates up to 31 x 64 kbit s V 24 V35 V36 RS530 or X 21 interfaces protocol conversion X 50 X 51 to X 30 V 110 1 460 with maximum of 2 interface modules each interface module with 4 Ethernet 10 100Base T interfaces CM64 2 digital signal card 2 Mbit s channel multiplexer G 703 e Optionally a bus extension card BEC if up to 12 line cards are connected to the The multiplexer is operated and monitored the QD2 slave interface QD2 S of the central card which is connected to a supervision unit 1 only in MXS19C shelf and ONU 20 FTTO 2 only possible in the shelves FMX2S and MXS19C 50010 701 1 7618 29 UMN TED Information Flexible Multiplexer FMX2R3 2 F2 D2 subscriber interfaces Network intertaces System bus QD2 S F VF a b 2w 4w LC Alarms VF a b 2w LB 1 QD2 M VF E amp M 2w 4w QD2 bus ISDN 50 E1A G 703 QD2 S ISDN Uy 2810 LC l E1B G 703 ISDN 4B3T 6 Tin out n x 64 kbit s G 703 ZA B 5 5 to Sa8 CUD 2 Mbit s G 703 ECC lt 64 kbit s X 21 Lc 7 lt 64 kbit s V 35 lt 64 kbit s V 36 n x 64 kbit s V 35 n x 64 kbit s V 36 10 100Base T n x 64 kbit s X 21 1
33. QD2MIN T QD2SIN Master port QD2SOUT QD2SIN QD2MOUT Slave port SUE S3 CUD LTx Fig 3 25 QD2 Bus Switch over If the QD2 interface of the SISAK should be used an external cable connection is nec essary according to general cabling plan see also Section 5 7 The CUD can decouple an embedded control channel ECC which can be used for transmission of management data The ECC interfaces of both CUDs are led to the con nector X101 where a connection to the SISAK can be established A configured 64 kbit s time slot of one of the 4 possible E1 ports must be connected to the ECC port The shelf can be local operated via the F interface of the SUE The interface is acces sible after removing the front cover A50010 A3 C701 1 7618 99 UMN TED Information Flexible Multiplexer FMX2R3 2 3 3 8 Addressing All units in this shelf except SUE and SISAK are assigned the slot addresses as QD2 addresses For the addresses which are assigned to the slots see Tab 3 34 The SISA address of the SUE is set using the DIL switch S101 in the backplane For line termination units in line card slots some address bits are given by the coding of the line cards This makes it necessary to change address bits to adapt the addressing if line termination units are installed in these slots The change is done using DIL switch es see UMN LE2 Plug in place Slot address fix QD2 address DIL switch S101 on t
34. Remark E1 OUT81 a b output of the 1 interface of LTx1 E1 IN81 a b input of the 1 interface of LTx1 E1 OUT82 a b output of the 2 interface of LTx1 E1 IN82 a b input of the 2 interface of LTx1 E1 OUT151 a b output of the 1 interface of LTx2 E1 IN151 a b input of the 1 interface of LTx2 E1 OUT152 a b output of the 2 interface of LTx2 E1 IN152 a b input of the 2 interface of LTx2 E1 OUT31 a b output of the 1 interface of LTx3 E1 IN31 a b input of the 1 interface of LTx3 E1 OUT32 a b output of the 2 interface of LTx3 E1 IN32 a b input of the 2 interface of LTx3 E1 OUT41 a b output of the 1 interface of LTx4 E1 IN41 a b input of the 1 interface of LTx4 E1 OUT42 a b output of the 2 interface of LTx4 E1 IN42 a b input of the 2 interface of LTx4E1 E1 OUT181 a b output of the 1 interface of LTx5 E1 IN181 a b input of the 1 interface of LTx5 E1 OUT182 a b output of the 2 interface of LTx5 E1 IN182 a b input of the 2 interface of LTx5 E10UT191 a b output of the 1 interface of LTx6 11 191 a b input of the 1 interface of LTx6 E1OUT192 a b output of the 2 interface of LTx6 11 192 a b input of the 2 interface of LTx6 A50010 A3 C701 1 7618 Information UMN TED Flexible Multiplexer FMX2R3 2 Connector X137 ZA contacts Assignment PIN PIN Assignment Remark Shielded ground ZA_301 ZA contact from SUE ZAB_302 ZA contact from CUD plug in place 2 ZAB_309 ZA contact fro
35. V 36 X 21 is possible via separate traffic The number of line cards CPF2 is only limited by the shelf or ONU equipment rules Front Panel Connectors for the CPF2 Different front panel connectors are intended to simplify matters wiring of the CPF2 data interfaces with external data terminals see also installation manual UMN IMN The interfaces of the CPF2 are connected with the front panel connectors via special adapter cables V 35 V 35 V 36 X21 RS530 V 24 c 00000000 000000000 5 00000000 000000000 1 9 z P 2 Ethernet 1 pem oo Fig 2 19 Front Panel Connectors Front panel connectors Ordering number V 24 542023 862 512 21 542023 862 513 V 35 with Sub D connection 542023 862 514 36 542023 862 515 RS 530 542023 862 525 V 35 542023 862 526 Ethernet 10 100 542023 862 516 Tab 2 2 CPF2 Front Panel Connectors A50010 A3 C701 1 7618 Information UMN TED Flexible Multiplexer FMX2R3 2 2 3 A50010 A3 C701 1 7618 External Interfaces E1 Interfaces The E1 interfaces are on the CUD central unit drop insert and conform to ITU T Recom mendation G 70
36. 15 UMN TED Information Flexible Multiplexer FMX2R3 2 Tab 3 83 Terminal Assignment of the X 21 Module Connector 269 Tab 3 84 Signal States at the V interface Part 1 not for V 110 protocol 272 Tab 3 85 Signal States at the V Interface Part 2 V 110 protocol operation 273 Tab 3 86 Alarm Table CPF2 with V 24 Module 274 Tab 3 87 V 24 Interface Signals at the Module Connector 277 Tab 3 88 Terminal Assignment of the V 24 Module Connector 278 Tab 3 89 Signal States at the V Interface Part 1 not for V 110 protocol 282 Tab 3 90 Signal States at the V Interface Part 2 M 110 protocol Operation oce be ee mee RR RR 283 Tab 3 91 Alarm Table CPF2 with V 35 Module 284 Tab 3 92 V 35 Interface Signals at the Module Connector 285 Tab 3 93 Terminal Assignment of the V 35 Module Connector 285 Tab 3 94 Signal States at the V Interface Part 1 not for V 110 protocol 291 Tab 3 95 Signal States at the V Interface Part 2 V 110 protocol operation 292 Tab 3 96 Alarm Table CPF2 with V 36 Module 293 Tab 3 97 V 36 Interface Signals at the Module Connector
37. 202 203 204 205 206 215 216 and 217 can be equipped with line termina tion units The backplane of the MXS19C supports any connections on these slots to the management interfaces All needed connections are realized inside the shelf Each LTx and combined LC LTx slot contains two 4 wire interfaces E1 interfaces which can be used for the different balanced line interfaces SHDSL The interfac es available on the connectors X103 X104 X105 X106 X115 X116 and X117 have to be connected according to the pin assignment of the line termination unit To the E1 distribution frame DDF Line To the QD2 distribution frame Termination Unit From external clock reference LSA connecting strip for copper line interfaces Fig 3 22 External Interfaces of the Line Termination Units A50010 A3 C701 1 7618 Information UMN TED Flexible Multiplexer FMX2R3 2 3 3 5 Elektro Magnetic Compatibility The following Table summarizes the possibilities to minimize EMC disturbances per slot Line card LTx Shielded Unshielded With EMC planar Without EMC subscriber cable subscriber cable filter planar filter I8SOP CPF2 DSC6nx64C DSC104C LTO LT2ME1 68 SUB102 SLX102 E SLB62 SEM106C SEM108HC LLA102 104C IUL82C IUL84C IAUK2NTP IAUKANTP SUE Tab 3 33 Minimization of EMC Disturbances Only for LT slots it is not necessary to equip the DIN 41612
38. 3 1 7 48 A50010 A3 C701 1 7618 Information UMN TED Flexible Multiplexer FMX2R3 2 3 1 6 A50010 A3 C701 1 7618 Power Supply The 48 V input voltages are fed via two separate 3W3 plugs in the termination panel The positive poles of both voltages are connected to each other and to the backplane via a common filter and protection device as the operating ground GND The negative poles of both voltages are filtered separately and supply the units in the subrack as MUP1 and MUP2 They are fed separately to the SUE PSD and PU16 and connected to the units with reserve For CUD OTSU2M and the line termination units reserve di odes are arranged on the backplane The CUC units are each connected to one of the two voltages The line cards receive the required secondary voltages 5 V and 5 V from the CUD and also after protection on the CUD the KZU voltage MUKZU The PSD supplies the SMX1 4c with the secondary voltages 5 V and 5 V Without forced ventilation and with homogeneous distribution of heat sources in the sub rack about 105 W of power dissipation 1 25 W per 5 08 mm of basic grid are permitted Connectors in termination panel gt gt Ti EMC EMC EMC protection protection protection MUP 1 MUP 2 e e A AA AA RA AK KA 44 111 34 e
39. A B Master from the SUE QD2TIN A B T connections of slave1 from the SUE QD2TOUT A B A50010 A3 C701 1 7618 53 UMN TED Information Flexible Multiplexer FMX2R3 2 DAT CLK NRST SPI connections to the OSU for temperature monitoring A1P A8P Alarm inputs of the SUE AM Negative operating voltage for alarm contacts O64IN Overhead 64 kbit s from LTx plug in place 209 O64OUT T3 Interfaces X143 and X144 X143 X144 Connector T3out Connector T3in GND S GND S OUT1 a IN1 a OUT1 a T3 OUT2 a IN2 a T3 OUT2 a T3 OUT1 b IN1 b T3 OUT1 b T3 OUT2 b IN2 b OUT2 b 2 3 4 5 6 7 8 9 Tab 3 8 SNUS 9 Contact Jacks X120 X143 and X144 Signal Abbreviations GND Operation ground GND S Shielded ground T30UT_A1 T3OUT_B1 output from the CUC plug in places T3OUT_A2 TSOUT B2 T3 output from the CUD T3 IN1 a T3 IN1 b T3in1 input to the CUD LTx CUC plug in places T3 OUT1 a T3 OUT1 b T3in1 output for forwarding T3 IN2 a T3 IN2 b T3in2 input to the ADM T3 OUT2 a T3 OUT2b T3in2 output for forwarding 54 A50010 A3 C701 1 7618 Information Flexible Multiplexer FMX2R3 2 UMN TED ZA contacts ZA Contacts 122 ECC of CUC CUD 131 11 of ADM X138 and External PCI Interfaces of CUC X112 and X132 X122 X131 GND S ECC of the CUCs X138 V 11 of the ADM GND S X112 External PCI interfaces of the CUC1
40. A768 S56 144 Fig 846 Battery BIOCK big Seed aa tee a a 148 Fig 347 Supervision Unit COSU ecas reisis mre oem 151 Fig 9 48 Controls of the GUD Ret RR RE RR ES 161 Fig 3 49 Connector Assignment of the CUD 163 19 8 50 Controlsiof the 169 Fig 3 51 Connector Assignment BEC 170 Fig 3 52 Connector Assignment of SUB102 173 Fig 3 53 Connector Assignment of the SLX102 E 178 Fig 3 54 Controls of the 5 62 182 Fig 3 55 Connector Assignment of the 51862 183 Fig 3 56 Internal Sin Interface 187 Fig 3 57 Internal Interface Circuit of 52 193 Fig 3 58 Connector Assignment of the 106 195 Fig 3 59 Internal Interface Circuit of 52 198 Fig 3 60 Connector Assignment 200 Fig 3 61 Connector Assignment of 102 104 204 Fig 3 62 50 4 brane RR NS 209 Fig 3 63 Control Elements of the 850 210 Fig 3 64 Connector Assignment of 850 211 Fig
41. B LC Y C20 18B SN2 SCLK B YOUTA B LC Y C24 19B SN3 AB B YIN1 B LC Y C26 20B SN3 AN B YIN2 B LC Y C30 21B SN3 CNTL B YIN3 B LC Y C32 22B SN3 XCLK B YIN4 B LC Y C8 23B SN3 IND B Tab Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y LC Y C16 24B 3 24 FMX2S Connectors X123 to X128 X131 to X136 Part 2 SN3 SCLK B 85 UMN TED Information Flexible Multiplexer FMX2R3 2 LC connectors C row part 3 PIN General 50 SLB62 Not used SUB102 Not used IUL82C IUL84C Not used NI a A Tab 3 25 FMX2S Connectors X123 to X128 X131 to X136 Part 3 86 A50010 A3 C701 1 7618 Flexible Multiplexer FMX2R3 2 UMN TED Connectors X101 to X104 SUE and ECC of CUDs PIN QD2 slave1 and T Port QD2 slave2 and QD2 M Alarm inputs ECC of the of the SUE of the SUE of the SUE SUE and CUDs X101 X102 X103 X104 1 GND_S GND_S GND_S GND_S 2 QD2S1 OUT a QD2M INa AIN1 ECC2 IN a 3 QD2T1 OUT a QD2S2 OUT a AINS ECC1 IN a 4 251 QD2M OUT a AIN5 ECC2 OUT a 5 QD2T1INa QD2S2 IN a AIN7 ECC1 OUT a 6 ECC3 IN a 7 ECC3 OUT a 8 GND GND GND GND 9 QD2S1 OUT b QD2M IN b AIN2 EC
42. IN a2 62 OUT 63 T3 loops input or output CUD1 T4 OUT a5 T4 OUT b5 T3 output from LTx5 plug in place 17 T4 OUT a6 T4 OUT b6 T3 output from LTx6 plug in place 18 TS IN a1 T3 IN b1 T3 input to LT plug in places O64 OUT a1 064 IN b1 Overhead LTx4 plug in place 16 O64 OUT a2 064 IN b2 Overhead LTx6 plug in place 18 88 A50010 A3 C701 1 7618 Information UMN TED Flexible Multiplexer FMX2R3 2 Connectors X139 and X140 line interfaces PIN LTx places 1 2 3 LTx places 4 5 6 Signal Module Module Module Module X139 X140 G 703 SDSL T4 1 H1A1 E1IN A1 E1IN A1 SHDSL A1 T4ab A 2 H1B1 E1IN B1 E1IN B1 SHDSL B1 T4ab B 3 H2A1 E1OUT A1 E1OUT A1 4 H2B1 E1OUT B1 E1OUT B1 5 H1A2 E1IN A2 E1lIN A2 SHDSL A2 T4ab A 6 H1B2 E1IN B2 E1IN B2 SHDSL B2 T4ab B 7 H2A2 E1OUT 2 E1OUT A2 8 H2B2 1 B2 E1OUT B2 9 E a E 13 z N A N N N 3 1 only with 5085 4 Tab 3 28 FMX2S Connectors X139 and X140 Signal Abbreviations GND S H1A1_y H1B1_y H2A1_y H2B1_y y 1 6 H1A2 y 1 2 y H2A2 y H2B2 y y 1 6 e g H1A2 5 H2B2 5 A50010 A3 C701 1 7618 Shielded ground Interface 1 from LTx1 LTx6 Interface 2 from LTx1 LTx6 Interface 2 from 5 LTx place
43. Interface A50010 A3 C701 1 7618 Information UMN TED Flexible Multiplexer FMX2R3 2 2 2 6 Line Cards for ISDN Services 2 2 6 1 ISDN Line Card 1850 The I8SOP unit enables an ISDN basic access to be established for remote subscriber terminal equipment or PBXs with S port e With dial up connections between exchange and remote subscriber terminal equip ment or private branch exchanges with CAS FMX2R3 2 specific for lengthening from S to FA signaling Fig 2 10 and Fig 2 11 e With leased lines between subscriber terminal equipment or private branch ex changes with FA signaling Fig 2 12 e With leased lines in stand alone mode Fig 2 13 The I8SOP contains 8 independent 50 interfaces according to ITU T 1 430 that are used in NT mode or in TE mode Dial up connections with CAS signaling 2 Mbit s I8S0P NT mode 140 2 NT mode 2 Mbit 240581 tuLeac LT mode Fig 2 10 18S0P Dial up Connection with CAS Signaling Dial up connections with FA signaling IUL84C LT mode 1850 1850 NT mode NT mode TE mode FA e g multiplexer 2 Mbit s with DSC6 nx64C Fig 211 18S0P Dial up Connection Using FA Signaling 2 Mbit s 140 4 NT mode Mbit s A50010 A3 C701 1 7618 33 UMN TED Information Flexible Multiplexer FMX2R3 2 Leased line connections using FA signaling LT mode 2
44. LC1 1 X203 N 99 LC Y A30 9B LC Y C32 22B LC2 1 X204 N LC Y A32 10B LC Y C8 23B LC3 1 X205 LC Y A16 11B Y Y Y Y Y Y Y Y Y Y Y LC Y C15 24A Y Y Y Y Y Y Y Y Y Y LC Y C16 24B 04 1 X206 Y must be replaced by the respective number of connector LC1to LC6 correspond to the LC plug in places 1 to 6 A Row from X105 X106 X107 X108 X109 X110 X113 X114 X115 X116 X117 X118 C Row from X123 X124 X125 X126 X127 X128 X131 X132 X133 X134 X135 X136 Tab 3 19 FMX2S LC Connectors General If LTx are used on the plug in places 208 214 and 215 plug in places for LTx1 LTx2 and LTx3 it is not allowed to connect lines on the 25 contact Sub D Jacks X110 X117 and X118 and on X128 X135 and X136 A50010 A3 C701 1 7618 Information Flexible Multiplexer FMX2R3 2 UMN TED A50010 A3 C701 1 7618 LC connectors A row part 1 PIN General GND DSC6 nx64C GND DSC104C GND IAUKANTP IAUK2NTP GN UAC68 D 1A D2OUTA1 D2OUTA1 F2l N A1 LC Y A3 2A T21A1 D20UTA2 F2OUT A1 LC Y A7_3A T22A1 D2OUTA3 F2l N A2 LC Y A11 4A D2OUTA2 200 4 F2OUT A2 LC Y A13 5A T21A2 200 5 F2l N A3 LC Y A19 6A T22A2 D2OUTA6 F2OUT A3 LC Y A23 7A D2OUTA3 D2OUTA7
45. LJ e e i e i 5 S x x x 5 S S 5 2 5 5 a o o a o Fig 3 9 SNUS Power Supply 49 UMN TED Information Flexible Multiplexer FMX2R3 2 3 1 7 Switch Settings DIL switch settings according equipping L 5 M 9 T pn m 2 11 11 A J OW VON 6s Jo x CMXC Unit 2 lt gt Tri 12 2 2 Q2 52 m Mm 77 A e ae A3 M 2673 T nm e m m m m m lel fel JE m 717 M 1 M uu 1 8 S 8 9 8 S 201 202 204 205 206 207 208 209 210 211 212 213 244 215 26 217 SNUS sid 2 Iu Tc I 57 Ez 7 s Sy Vie 15 Teo 5 I 00 n nm 3 4n m 34 4 L r p LS d C L
46. LT mode J NT mode L FA e g multiplexer 2 Mbit s with DSC6 nx64C Fig 2 16 Leased Line Connections of the IUL84C with FA Signaling Leased line connections in stand alone mode In conjunction with card I8SOP the IUL82C or IUL84C implements in stand alone mode the conversion from 50 to in an ISDN connection see Fig 2 13 In addition to the permanent connection shown in Fig 2 13 the following applications can be implement ed V 24 X 21 V 24 X 21 V 35 V 36 V 35 V 36 IUL82C IUL82C LT mode LT mode Fig 217 Leased Line Connections of the IUL82C in Stand alone Mode 2 Mbit s IUL84C IUL84C LT mode LT mode Fig 2 18 Leased Line Connection of the IUL84C in Stand alone Mode 2 Mbit s 2 2 6 3 ISDN Line Cards I4UK2NTP and IAUKANTP ISDN line cards IAUK2NTP and I4UK4NTP with 4 interfaces provide the interface between multiplexer and ISDN switching equipment on the switching side The data from the I4UK2NTP is transmitted using the 2B1Q code and the data from the IAUKANTP is transmitted using the 4B3T code Dial up connections with CAS signalling Together with card I8SOP the I4UK2NTP implements in CAS dial up connections con version from to So see Fig 2 10 With IUL82C on the subscriber side unit 4UK2NTP exchange side operates in the transmit receive multiplexer see Fig 2 14 36 A50010 A3 C701 1 7618 Information UMN TED Flexible M
47. Mbit s So 2 Mbit s So 1850 1850 NT mode NT mode FA e g multiplexer 2 Mbit s with DSC6 nx64C Fig 2 12 1850 Leased line Connections Using FA Signaling Leased line connections for stand alone operation multiplexer 2 Mbit s 2 Mbit s IUL82C e g multiplexer IUL84C with DSC6 nx64C LT Mode So issop 2Mbi s 2 Mbit s So NT mode J 1850 NT Mode So 1850 1 2 Mbi e g multiplexer 7 NONS Bits C3 with DSC6 nx64C Fig 2 13 1850 Leased line Connections for Stand alone Operation 2 2 0 2 ISDN Line Cards IUL82C and IUL84C The IUL82C and IUL84C line cards with 8 interfaces are employed within digital transmission links between subscribers and switching equipment on the subscriber side when ISDN network termination units are to be connected to the multiplexer The IUL82C line card is used for 2B1Q code while the IUL84C line card implements the 4 code This allows the following applications e Dial up connections between exchange and subscriber terminal equipment with CAS signaling FMX2R3 2 specific in repeater mode or with FA signaling IUL84C only e Leased line connections in stand alone mode 34 A50010 A3 C701 1 7618 Information UMN TED Flexible Multiplexer FMX2R3 2 The ISDN interface conforms to standard TS 102 080 Data transmission is also possible in the format 128 kbit s via the B1 and B2 chann
48. OTSU2M Pay attention to switch positions according at different equipping variants 2 Modules for CPF2 that can be plugged CIM V 24 CIM X 21 CIM V 35 CIM V 36 CIM nx64E 3 Modules for LT2ME1 Uk2mp SDSLmp SDSLop SDSL4op optionally with T4 module G703sh 4 Onthese slots only one interface for copper transmission lines of each is wired to the Sub D in terminal panel means only one module Uk2mp SDSLmp SDSLop SDSL4op G703sh 5 Filter types according to LC types and to Sub D in terminal panel that must be plugged and screwed on Tab 3 1 SNUS FMX2R3 2 and LTx Equipping 44 A50010 A3 C701 1 7618 Information UMN TED Flexible Multiplexer FMX2R3 2 CMXC Interfaces Plug in places Plug in unit 210 211 212 213 Port unit 1 G 703 1 to 4 5 to 8 J1 J2 Port unit 1 G 703 9 to 12 13 to 16 K1 K2 Port unit 2 G 703 1 to 4 5 to 8 N1 N2 Port unit 2 G 703 9 to 12 13 to 16 P1 P2 PCI PCIS M1 M2 ECC L2 L2 PU16 1 CUC 1 CUC 2 PU16 2 Tab 3 2 SNUS CMXC Equipping Feeder SMX1 4c Interfaces Plug in unit Plug in places 216 48V 3W3 V 11 interface T2 2 Mbit s interface Q1 Q2 R1 R2 S1 52 STM 1 STM 4 interface V2 V3 W2 W3 E3 interface 101 14 1 S 1 1 ADM4o L 4 1 4 5 4 1 ADM1E 21 1 TC21E1R
49. SNO SCLK A SN1 AB A CO a A WwW m SN1_AN_A m SN1_CNTL_A SN1_XCLK_A N SN1 IND A SN1_SCLK_A A SNO_AN_B F2IN_A E SNO_CNTL_B F2OUT_A SNO_AB_B N SNO_XCLK_B YOUT2_A SNO_IND_B YOUT3_A SNO_SCLK_B YOUT4_A SN1 AB B YIN1 A N A SN1 AN B YIN2_A N SN1_CNTL_B YIN3_A SN1_XCLK_B YIN4_A N SN1 IND B n SN1_SCLK_B Attention YOUT1_A from CM64 2 is not laid to the Sub D jack Tab 3 21 FMX2S Connectors X105 to X110 X113 to X118 Part 2 A50010 A3 C701 1 7618 Information Flexible Multiplexer FMX2R3 2 UMN TED LC connectors A row part 3 PIN General 1850 51862 SUB102 IUL82C IUL84C NI a A WO Tab 3 22 FMX2S Connectors X105 to X110 X113 to X118 Part 3 A50010 A3 C701 1 7618 83 UMN TED Information Flexible Multiplexer FMX2R3 2 84 LC connectors C row part 1 PIN General DSC6 nx64C DSC104C GND IAUKANTP IAUK2NTP UAC68 GND D2INA1 F2IN_A4 D2INA2 F2OUT A4 D2INA3 F2IN A5 D21NA4 F2OUT A5 D21NA5 F2IN A6 D21NA6 F2OUT A6 D21N
50. Siemens AG 2002 ICN Wireline Access Networks Munich Greifswald A50010 A3 C701 1 7618 Information UMN TED Flexible Multiplexer FMX2R3 2 2 System Description 2 1 Application The flexible multiplexer FMX2R3 2 is a PCM30 system for building and extending flexi ble networks and is suitable for linear cascade and ring structures It is intended mainly for use in corporate networks but can also be used for subscriber side termination of a V5 1 V5 2 access network Companies and administrations like railway operators and utilities operate corporate networks along oil or gas pipelines railway tracks and radio links which are used for monitoring and maintenance purposes Due to the ongoing worldwide success of the Ethernet technology more and more control engineering components have been intro duced with an Ethernet interface FMX2R3 2 offers the possibility to use data interfaces based on Ethernet technology The FMX2R3 2 operates as terminal or drop insert multiplexer for the following services e POTS POTS with local battery e 150 50 with line code 4B3T 2810 also semipermanent e Analog 2 4 wire transmission as leased lines or with E amp M signaling e V 24 V 35 V 36 RS530 and X 21 data transmission with subrates up to 30 31 x 64 kbit s G 703 with 30 31 x 64 kbit s e Data transmission with up to 30 31 64 kbit s via Ethernet 10 1 00Base T The features and properties of the multiplexer correspond to ITU
51. an input signal is missing at the relevant op tical receiver e g if the connection is interrupted Note the laser safety shutdown must be always activated This preventive measure should also be followed to avoid any damage to health by mak ing sure that escaping laser light is not directed towards the eye When breaking laser connections the following procedure should be followed despite the presence of the laser shutdown circuit e Pull out the plug in unit about 5 cm e Disconnect optical fiber e Pull out unit completely Protection Against Fire in Racks or Housings If FMX2R3 2 shelves are used in housing the shelves must be performed the conditions for a fire protection housing according to DIN EN 60950 To comply with fire protection standards as defined in DIN EN 60950 a protective plate C42165 A320 C285 must be fitted into the floor of ETS and 19 inch standard racks The rack must also meet the requirements of a fire resistant housing as defined in DIN EN 60950 Components Subject to Electrostatic Discharge ESD symbol Slide in units bearing this symbol are equipped with components subject to electrostatic discharge that is to say the relevant safety provisions must be adhered to When packing or unpacking touching pulling or plugging plug in units bearing the ESD symbol it is essential to wear a grounding bracelet which should be grounded to a shel ter or rack when working on it This ensures that the units a
52. applied To remove and insert the units you should use the two levers fitted to the front of the unit A type label is fixed to one of the two levers providing information on the hardware and software version of the unit e When inserting and removing subracks and when transporting them take their weight into consideration Cables may never be disconnected by pulling on the cable Disconnection connec tion may only be undertaken by pushing in pulling out the connector involved Handling Optical Fiber Connectors and Cables Optical connectors are precision made components and must be handled accordingly To ensure faultless functioning the following points must be observed e The minimum bending radius for optical fibers is 30 mm e Mechanical damage to the surfaces of optical connectors impairs transmission qual ity by higher attenuation Forthis reason do not expose the connectors to impact and tensile load Always fit optical fiber connectors with protective caps to guard them against me chanical damage and contamination The protective dust caps should only be re moved immediately prior to installation Once the protective dust caps have been removed you must check the surfaces of the optical fiber connectors to ensure that they are clean and clean them if nec essary For cleaning the C42334 A380 A926 optical fiber cleaning tool or a clean lint free cellulose cloth or a chamois leather is suitable Isopropyl al
53. connector with an EMC pla nar filter because at these slots a shielded subscriber cable is used If a line card on the combined slots is used an EMC planar filter set part number 50034 H2 A1 can be equipped on the DIN 41612 connector in order to minimize EMC disturbance 3 3 6 Taktsynchronisation In principle the FMX2R3 2 will be operated synchronously A plesiochronous operating mode is not possible An internal clock source will be need for alarming purposes AIS The system clock of the multiplexer and the LTx will be derived from one of the following clock sources e One of the two E1 receive signals e The external reference clock T3in e An internal free running oscillator on CUD A50010 A3 C701 1 7618 97 UMN TED Information Flexible Multiplexer FMX2R3 2 98 3 3 7 The distribution of the clock information to the peripheral linecards will be realized over the PCM highway The frame alignment on the peripheral units will be established by elastic stores The MXS19C provides a balanced clock input T3in via the common delivery connector X101 for the T3 reference clock 2 048 MHz according to ITU T G 703 13 By using the external reference clock T3in both CUDs will be synchronized Both CUDs can derive a synchronization clock T4 from their receive signal to synchro nize other functional units The balanced clock signals T4 1 and T4 2 are connected on the delivery connector X101
54. drop insert A50010 A3 C701 1 7618 Information UMN TED Flexible Multiplexer FMX2R3 2 LC bus 4 xCTRL Lc ADO to AD7 2 5 Power Supply The multiplexer is supplied with an input voltage of 48 V 60 V Power supply modules on the central unit convert the 48 V 60 V input voltage into the necessary operating voltages 5 V and 5 V to supply the modules on the unit and LCs The 48 V 60 V input voltage is protected by 1 A replaceable fusible cartridge on the unit Additionally the power supply of the central unit switches the UKZU voltage 48 V 60 V to the LCs protected by a 2 A replaceable fusible cartridge 50010 701 1 7618 41 UMN TED Information Flexible Multiplexer FMX2R3 2 42 3 1 Components SNUS Subrack The SNUS is a subrack in 19 design and can be adapted to the fitting conditions for the ETSI housing and racks using adapters In the shelf SNUS the FMX2R3 2 multiplexer works on either a CMXC crossconnect or an STM 1 STM 4 SDH feeder Optionally a line termination device which transmits 2 x 2 Mbit s on one or two glass fibers 2 x 2 Mbit s signals SHDSL 2 wire 4 wire or HDB3 coded on 2 core local loops depending on the infrastructure can also be used Subscribers POTS 2 Mbit s 2 Mbit s 2 wire 4 wire LL E amp M G 703 G 703 ISD
55. infected You have to do the following task e You have to check every data carrier used data carriers as well as new ones for virus before reading data from it e You must ensure that a current valid virus scanning program is always available This program has to be supplied with regular updates by a certified software e tis recommended to make period checks against viruses in your OS e Atthe LCT itis recommended to integrate the virus scanning program into the start up sequence CE Declaration of Conformity The CE conformity of the product will be given if the construction and cabling is under taken in accordance with the manual and the documents listed there in e g mounting instructions cable lists Where necessary account should be taken of project specific documents Deviations from the specifications or unstipulated changes during construction e g the use of cable types with lower screening values can lead to violation of the CE require ments In such case the conformity declaration is invalidated and the responsibility pass es to those who have caused the deviations Environmental Passport The aim of this environmental passport is to provide you with the most important envi ronmentally relevant information for this product This means you can be sure that you have selected a supplier who develops produces packs and ships their products in an environmentally compatible way Product origination process Even at
56. lt 2 T Fig 2 4 Connecting the Network Termination Units to the Multiplexer The multiplexer supports the following network termination units e Network termination unit NTU for interfaces in accordance with G 703 64 kbit s V 24 Subbit rates 64 kbit s V 35 V 36 X 21 subbit rates 1 or 2 x 64 kbit s linked to the FMX2R3 2 Uyo 2B1Q e Network termination unit for basic access NTBA via 4B3T 2B1Q Operating modes of FMX2R3 2 The FMX2R3 2 multiplexer supports the following applications e Operating modes chosen from TMX2 x 30 terminal multiplexer which contains two complete multiplexers DIMX drop insert multiplexer with which individual channels of a signal which is connected between the two 2 Mbit s ports of the multiplexer can be tapped off and inserted TMX30 1 1 terminal multiplexer with 1 1 standby operation which switches a 2 Mbit s link to another on a fault The transmission capacity of the multiplexer in the TMX2x30 and DIMX operating modes is 60 channels each with 64 kbit s and in TMX30 1 1 operating mode it is 30 channels The assignment of timeslots to the two 2 Mbit s ports is independent of the channel plug in unit positions in the multiplexer If no signaling is transmitted up to 31 or 62 channels each with 64 kbit s are available e Port to port connections for 24 V 35 V 36 RS530 or X 21 interfaces e End to end protection on n x 64 kbit s level for analog 2 wire 4
57. medical help immediately 1 4 1 Protection Against Excessive High Contact Voltages When handling the power supply or working on it observe the safety measures de scribed in the specifications of the European Norm EN 50110 part 1 and part 2 Oper ation of electrical Systems and the valid national country specific standards Special warning labels on the shelves point to the dangers which can result from high contact voltages when they are not grounded ACHTUNG WARNING HOHER BERUHRUNGSSTROM HIGH LEAKAGE CURRENT Vor dem Anschluss an den Earth connection essential Versorgungsstromkreis oder an before connecting supply or making das Telekommunikationsnetz telecommunication network unbedingt Erdverbindung herstellen connections 1 4 2 Protection Against Escaping Laser Light When working on optical modules note the regulations covering radiation safety on la ser light units EN 60825 Modules equipped with laser light units carry the laser symbol The following points should be noted here For operation in closed systems the laser light units comply with Laser class 1 and such units can be identified by a stick on label as well as by a warning label Laser symbol Warning label A50010 A3 C701 1 7618 19 UMN TED Information Flexible Multiplexer FMX2R3 2 20 1 4 3 1 4 4 To guard against any possible hazards all optical transmitters are equipped with an au tomatic laser shutdown circuit This trips if
58. or LTx1 1 Not shown External connector slot 14 S208 3 E 1 8 H1 A1 208 1054 me H1A1_1 X139 214 2 7 H1 B1 208 22 H1B1 1 3 16 H2 1 208 11 LT1 25 1 20214416 11B 8214 3 4 H2 B1 208 23 16B 1 1 m8 H1_A1_214 6 H1A1 2 18A LC214A18_12B 2 Hi B1 214 18 iugi 2 EA LC214A20 6B 3 6 H2 A1 214 7 H2a1 2 LT2 SHDSL 248 H2B2 14 ETOUT B 214 oS 2 B1214 19 2 ETXI 22A E10UT 1 18 H1 A1215 2 26 2 _ 7 H1 B1 215 14 H1B1 3 3 6 H2 1 215 3 H2A1 3 LT3 LTx3 4 5 H2 B1 215 15 3 Connector 14 LC 5 system 2 E orLTx2 S215 3 External connector slot 15 LC 5 System 2 a contacts a X215 2A MIS LC215A16 11B l 25 X117 215 18 128 1 19 25 pin FDB LC215A20 6B 246 0 7 2 2 15 ETOUT B 215 26B X135 25 pin LC 5 system 2 contacts Slot 15 LC 6 system 2 tsh or LTx3 ot sho LC 6 system 2 a contacts 24 25 X118 19 25 pin If LC is used switch setting is open If LTx is used switch setting is closed ON IF LTx is used X110 and X128 and or X117 and X135 and or X118 and X136 cable must be removed X136 25 pin A clean separation at X139 is achieved by the switches if there is mixed LC and LTx equipping Either SHDSL and or HDB3 can be outputted for each card model used if LTx1 LTx2 and LTx3 are used 76 LC 6 system 2 c contacts Not shown A50010 A3 C701 1
59. redundant CUC slot 12 Connectors in 2 termination panel 8 S Oo n n CCUR CCURS 1 1 1 1 Pu16 2 2 clock 2 PCIS PCI 2 pute 3 3 4 synchr 2 3 3 4 4 4 4 1 5 5 1 2 PCIS PCI STSB 5 pois 3 7 7 3 4 8 8 4 9 CCUR 920 i CCURS e 12 12 Fig 3 5 SNUS Internal Wiring of PCI Interfaces 46 A50010 A3 C701 1 7618 Information UMN TED Flexible Multiplexer FMX2R3 2 Interfaces 5 to 8 are wired analogously as active and redundant interfaces to the right hand PU16 slot 13 The changeover signals for these internal interfaces CCUR from the active CUC CCURS from the redundant CUC are in asymmetrical form Interfaces 9 to 12 of the two CUCs are fed separately active redundant to one D sub connector each in the termination panel The required changeover signals CCUR and CCURS for these external interfaces are in the form of symmetrical control lines and also accessible in the connectors 34 Mbit s and STM 1 Connections The internal 34 Mbit s and STM 1 connections are shown in Fig 3 6 STMIIN1 Q4 OsSTMIIN2 STM10UT1 STM10UT2 TU 1 Fig 3
60. slave interface 1 of the SUE are also accessible in the QD2 slave connector 2 Ones Connectors in Q A Q termination panel 9 SPI jo 4 0 x y 5 go 2 bus FIF QD2 bus for LCT CUD LTx LTx LTx LTx LTx OTSU2M ADM1 PSD SUE 1 2 3 1 2 ADM4 Fig 3 8 SNUS QD2 Access The following internal DCN channels can be used ECC channel of CUD 4 x ECC channels of 1 CUC 2 The ECC terminations of the two CUC positions are connected in parallel Two of the four ECC interfaces are designed with clock transfer e Overhead channel of LTx on slot 3 V 11 channel of ADM1 ADM4 The QD2 slave port 2 of the SUE is in the QD2 M connector Via this port the DCN chan nel OH64 of the line termination unit LTx3 can be connected using an appropriately as signed connector 3 1 5 Addressing All units in this subrack except SUE and CUD are assigned slot addresses For the ad dresses which are assigned to the slots see Section 3 1 7 The SISA address of the SUE is set using the DIL switch in the termination panel The address of the CUD is set using the DIL switch in the backplane For line termination units in line card slots some address bits are given by the coding of the line cards This makes it necessary to change address bits to adapt the addressing if line termination units are installed in these slots The change is done using DIL switch es in the backplane see Section
61. subscriber building K 31 03 1993 ITC applications inside telecommunication building K 27 05 1996 Outdoor applications remote electronic sites K 35 05 1996 Units which are not meet the requirements above contain specific information about the foreign power protection see technical data of the line cards Power Supply Rated input voltage 48 V 60 V Permissible voltage range 36 V to 72 V A50010 A3 C701 1 7618 Information UMN TED Flexible Multiplexer FMX2R3 2 3 2 A50010 A3 C701 1 7618 FMX2S Subrack The FMX2S is a subrack in 19 construction and can be adapted to the fitting conditions for the ETSI housing and racks using adapters Shelf FMX2S serves to accommodate the units of up to FMX2R3 2 multiplexers up to 6 x 2 Mbit s line terminating units LTx as well as supervision unit SUE Fig 3 12 Shelf FMX2S without Front Panel The subrack can accept units in double Eurocard format and has a backplane board to connect the internal and external interfaces The FMX2S is equipped with a terminal panel which provides all external interfaces via the corresponding sub D connectors The exceptions are the optical interfaces of the corresponding units which are only present on the units themselves For mechanical routing of the optical fibers the FMX2S is equipped with FO clips Different front panel connectors are intended to simplify matters wiring of the CPF2 data interfaces with external data termin
62. the product origination stage we pursue the aim of minimizing the adverse ef fects on the environment e We systematically record all product related environmental requirements and take account of these both in the product definition and in its development Protecting the environment is a matter of course in our day to day work This in cludes minimizing the consumption of paper by using the latest technologies e g A50010 A3 C701 1 7618 Information UMN TED Flexible Multiplexer FMX2R3 2 Internet e mail database 4 1 paper printouts as well as multi separation heat in sulation and intelligent use of energy e We coordinate all environmental activities via a certified environmental manage ment system which complies with ISO 14001 It is checked in accordance with the German certification body DQS Deutsche Gesellschaft f r Zertifizierung von Man agementsystemen mbH quality and environment assessors Certificate registra tion No 66749 01 Naturally we at Siemens are conscious of the fact that expenditure for environmental protection measures must be kept within an economically justifiable framework After all we still want to offer you this product with a price performance ratio which is attractive Manufacturing Production facilities are equipped with the very latest environmentally friendly produc tion machinery Because of their minimal adverse effects on the environment these plants can be operated without th
63. to the 25 pin X110 X117 and X118 sub D connectors and likewise to X128 X135 and X136 This sometimes leads to the failure of the entire QD2 bus S208 1 QD2MOUT B1 LC208C4_14B ON ON QD2MOUT A1 alle LC208A4_2B 8 1 Hs QD2MIN B1 LC208C2 138 QD2MIN A1 5 083218 7 2 W7 Separation of sub D LC and QD2 bus 6 3 _ If LC is used open 4 B 5 4 If LTx is used closed ON As delivered condition LC LC LTx S214 1 Adapting to LC LTx Equipping in Slot 214 R Warning If LTxs are used in slots 208 214 and 215 slots for LTx 1 LTx 2 and LTx 3 no lines may be connected to the 25 pin X110 X117 and X118 sub D connectors and likewise to X128 X135 and X136 This sometimes leads to the failure of the entire QD2 bus S214 1 ON ON 1 8 QD2MOUT B1 LC214C4 14B herr QD2MOUT A1 LC214A4 2B QD2MIN B1 LC214C2 138 2 7 2 EV QD2MIN A1 LC214A2 1B 3 Hc 3 Mic Separation of sub D LC and QD2Bus 4 5 4 M5 if LC is used open if LTx is used closed ON LC LTx As delivered condition LC A50010 A3 C701 1 7618 73 UMN TED Information Flexible Multiplexer FMX2R3 2 S215 1 Adapting to LC LTx Equipping in Slot 215 Warning If LTxs are used in slots 208 214 and 215 slots for LTx 1 LTx 2 and LTx 3 no lines may be connected to the 25 pin X110 X117 and X118
64. wire interfaces with or without E amp M and for V 24 V 35 V 36 RS530 X 21 interfaces 27 UMN TED Information Flexible Multiplexer FMX2R3 2 28 1 Broadcasting for POTS with local battery analog 2 wire 4 wire leased lines and all digital interfaces Ethernet layer 2 switch Ethernet over TDM mirror Ethernet switch with 4 Ethernet ports and 1 or 2 TDM uplinks ports per module 2 modules per CPF2 possible TDM multiplexer as two times terminal or drop and insert mode Data rate at TDM 1 up to 31 time slots per E1 port L2 switch support for multiple address data bases on a per port for transparent router applications 4 Ethernet 10 100 PHYs according to IEEE802 3 and 802 3x Quality of service support with four traffic classes Flow control and back pressure automatic MDI MDIX crossover CLI interface for link status and control statistic counters Digital conference and point to multipoint operation Voice channel in common frequency radio networks This application is realized using system modules FMX2R3 2 with CUD and UAC68 and CMXC see also user manual UMN CMXC 1 1 protection switching of n x 64 kbit s and 2 Mbit s signals is not supported in this case IWU submodules of the CPF2 convert digital subscribers which are connected at a given customer network with X 50 X 51 data structures into one of the system inter nal data structures V 110 X 30 or 1 4607 Time
65. 1 1 Information Installation Commissioning Operation Maintenance A50010 A3 C701 1 7618 General Information This manual an overview about the components and their interworking in networks with the multiplexer FMX2R3 2 is given Functions commissioning operation and mainte nance of FMX2R3 2 are described in detail The operation is done via the graphical user interface of the AccessIntegrator domain manager version 8 2 ACI DM V8 2 or higher versions For the ACI DM V8 2 there is a separate documentation available see Sec tion 1 3 Structure of the Manual The manual consists of the following Registers e Information e Installation e Commissioning e Operation e Maintenance The register Information UMN TED gives a general overview about applications and the structure of the FMX2R3 2 and its components Shelves ONUs Optical Network Units and plug in units of FMX2R3 2 are described in detail including technical data controls and connector assignment At the end of the document there is a complete product overview of all components which can be plugged in the shelves or ONUs of the FMX2R3 2 The FMX2R3 2 shelves are offered stand alone They can be mounted in ETSI or 19 racks or shelters The ONUs are compact devices which can be mounted at the wall The necessary information for that are contained in the register Installation UMN IMN The register Commissioning UMN ITMN describes all the procedure
66. 117 and X135 sub D connectors both LC 5 system 2 5214 4 ON ON F2OUT2 B1 20536 F2OUTA2 B1 NS 10 16 1 Bite FeoUT2A1 2 9 2 A1 LC214C26 20B ee F2OUTB2 2 2 5 2 W5 LC214C24_19B 2 F2OUTB2 A2 JT 54 LC214A32 10B F2INA2 B1 LC214A30 9B 2 2 4 15 4 LC214A26 8B FeINB2 B2 5 12 5 12 LC214A24 7B 8 9 A2 m m 1 If LC is used open IN OUT from LT2 If LTx is used closed ON 0 7 Separates lines from slot 214 to sub D connector X129 e M LTx1 LTx2 for 2MBit E1 If equipped with LC LC LTx As delivered condition LC S215 4 Adapting to LC LTx Equipping in Slot 215 5 Warning IF slot 215 is equipped with the LTx card the switch must be open to exclude mutual faults to the X130 SHDSL X118 and X136 LC 6 system 2 sub D connectors S215 4 ON ON LC215A24 78 16 F2INB3_A2 ie 16 LC215A26 8B 15 B2 LC215A30 9B gt FANAS AL i 2 15 2 Wis LC215A32_10B F2INA3_B1 5 12 LC215C24 19B 5 E F2OUTB3 A2 Str LC215026 208 1 200 Ba d NIE 4 F20UT3 A1 F2OUTA3 A1 5 2 5 12 B1 8 9 OUT 0 mm If LC is used open IN OUT from LT3 If LTx is used closed ON 7 10 7 8 9 8 9 Separates lines from slot 214 to sub D connec
67. 2B 23 25 pin 5208 4 28B 28C 13716 F2INB1_A2 5 2 15 21 1 B2 17 IN2 3 14 F2INA1A1 3 If LC is used switch setting is open 4 2 13 F2INA1 B1 15 3129 If LTx is used switch setting is closed 5 12 1 A24 25 If ris ee ae X128 E 4 22 10 GE IER OUT2 and or an cable must be removed oe A clean separation at X129 is achieved by the switches if 8 9 1 there is mixed LC and LTx equipping 5 oe n ATE OU 2MBit Either SHDSL and or HDB3 can be outputted for each card 3 14 F20UTB2 B20 LTx1 model used if LTx1 and LTx2 are used 4 13 F2OUTB2 A28 OUT2 2 5 e 12 2 2 B1 19 LTx2 6 14 11 F2INA2 A1 7 IN1 7 42 10 21 2 B2 21 8 9 F2INB2 2 9 j IN2 External connector slot 14 5214 4 LC 5 System 2 a contacts X214 LC214A24_7B 20 IN LC214A26 8B 21 26 X117 LC214A30_9B 22 LC214A32_10B 23 25 pin Slot 14 LC 5 system 2 or LTx2 LC 5 system 2 c contacts LC214C24_19B 20 OUT LC214C26 20B 21 26C 22 X135 30C LC214C30 21B aoc LC214C82 228 23 25 pin 28 F2OUT2_A1 28B 28C F2OUT2_B1 78 A50010 A3 C701 1 7618 Information UMN TED Flexible Multiplexer FMX2R3 2 S214 4 Adapting to LC LTx Equipping in Slot 214 x Warning If slot 214 is equipped with LC the switch must be open to exclude faults to the X129 2Mbit E1 X
68. 3 Each E1 interface has a transmission rate of 2 Mbit s By setting a switch the interface can be terminated as desired with 120 O or 75 Q F2 D2 Subscriber Interfaces The F2 D2 subscriber interfaces are provided by the line cards They are used to con nect analog digital and ISDN subscribers The number of subscriber interfaces for each LC card type is different For detailed information on the line cards see Sections 2 2 5 to 2 2 7 10 100 Base T Ethernet Interfaces The 10 100Base T interfaces are provided from the Ethernet module on the line card CPF2 They are used to connect monitoring equipment with 10 100 Base T interfaces which data are transmitted via the time slot structure of a 2 Mbit s signal 4 Ethernet in terfaces are available per Ethernet module 2 modules can be equipped pre CPF2 T3 Interface The T3 interface is implemented by the central unit and conforms to ITU T G 703 13 An external 2048 kHz clock is fed in via the T3in interface The interface can be set to high or low resistance by a switch The 2048 kHz clock which is derived from the appropriate clock source is output at the T3out interface see Section 4 5 002 Interface The QD2 interface of the multiplexer is on the central unit and conforms to EIA RS485 It is in the form of a slave interface QD2 S and implements access to the FMX2R3 2 network element and to remote network termination units see also Section 2 10 ZA A and ZA B Interface The
69. 4_A YOUTA B D2OUT B6 B6 T22 B2 D2IN B3 YIN1 A YIN1 B B7 B7 D2OUT B3 D2IN B4 N A YIN2 A YIN2 B D2OUT B8 B8 D2OUT B4 B5 N N YIN3_A YIN3_B D2OUT B9 B9 D2OUT B5 D2IN B6 A YIN4 B D2OUT B10 D2IN_B10 D2OUT B6 TIN B ER Tab 315 SNUS Connectors X103 to X108 X123 to X128 Part 3 A50010 A3 C701 1 7618 61 UMN TED Information Flexible Multiplexer FMX2R3 2 3 1 9 1 3 1 9 2 3 1 9 3 62 Technical Data Environmental Conditions Environmental conditions acc to ETS 300 019 1992 Operation Class 3 1 acc to ETS 300 019 1 3 5 C to 40 C Transport Class 2 3 acc to ETS 300 019 1 2 40 C to 70 C Storage Class 1 3E acc to ETS 300 019 1 1 45 C to 45 C Product safety acc to EN 60950 1 Foreign Voltage Protection Protection against external voltages on the outdoor subscriber lines OTC applications is implemented in 2 stages within the entire system For further information see Section 1 4 7 and UMN IMN Classification for external voltage protection acc to EN 300 386 V1 3 2 05 2003 ITC applications according ITU T K 20 07 2003 basic level OTC applications according ITU T K 45 07 2003 basic level 1 On enquiry some line cards can also be used according enhanced level Compliance with the earth conditions according ITU T Indoor applications inside
70. 52 CO NI a A WwW LC Y A25 8A D2OUTA4 D2OUTA8 S20UT A1 LC Y A29 9A 200 5 200 9 521 N A2 LC Y A31 10A D2OUTA6 D2OUTA10 S20UT A2 Aa N LC Y A15_11A 521 N A3 99 LC Y A17 12A 5200 A 2 1B D2OUTB1 D2OUTB1 F2l N B1 RES 4 2B T21B1 D20UTB2 F2OUT B1 A LC Y A8 3B T22B1 D2OUTB3 F2l N B2 LC Y A12 4B D20UTB2 D2OUTB4 F2OUT B2 E LC Y A14 5B T21B2 D2O0UTB5 F2l N B3 a LC Y A20 6B T22B2 D2OUTB6 F2OUT B3 LC Y A24 7B D2OUTB3 D2OUTB7 521 _ 1 N A LC Y A26 8B D2OUTB4 D2OUTB8 5200 B1 N LC Y A30_9B D2OUTB5 D2OUTB9 S2l N B2 LC Y A32 10B D2OUTB6 D2OUTB10 S20UT B2 N LC Y A16 11B S2l N B3 Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y Y LC Y A18 12B S2OUT Tab 3 20 FMX2S Connectors X105 to X110 X113 to X118 Part 1 81 UMN TED Information Flexible Multiplexer FMX2R3 2 82 LC connectors A row part 2 PIN EF General CPF2 GND SLX102 E CM64 2 SNO AN A SNO CNTL A SNO AB A SNO XCLK A SNO IND A
71. 6 SNUS Internal 34 Mbit s and STM 1 Connections Clock Synchronization T3out 2 T3in 1 5 Connectors in amp 5 T3in2 termination panel 1 Ts CUD LTx LTx LTx cuc ADM1 2 3 1 2 ADM4 1 1 n 1 i l Y Fig 3 7 SNUS Clock Distribution Synchronous signals can be fed externally via connectors in the termination panel and reach the ADM1 ADMA as T3in 2 on CUD LE2 and CUC units and as T3in 1 The sub rack loops the T3in lines for onward connection to other subracks For synchronization purposes signals be extracted from the CUCs 1 or CUD T3out 2 A50010 A3 C701 1 7618 47 UMN TED Information Flexible Multiplexer FMX2R3 2 3 1 4 QD2 Access The internal wiring for operation and monitoring is shown in Fig 3 8 The TMN access for the subrack is the QD2 slave connector in the termination panel This leads to the QD2 slave port 1 of the SUE and to a changeover unit which switches the internal QD2 bus to either the QD2 master port of the SUE in standalone operation of the subrack or parallel to the QD2 slave port 1 of the SUE SNU operation The T terminals of the QD2
72. 7618 Information UMN TED Flexible Multiplexer FMX2R3 2 S214 3 Adapting to LC LTx Equipping in Slot 214 x Warning If slot 214 is equipped with the LC card the switch must be open to exclude mutual faults at the X139 SHDSL and X117 LC 5 system 2 sub D connectors S214 3 an eu LC214416 118 9 214 m Me LC214A18 1282 H1 B1 214 LC214A20 6B 2_ 1_214 2 7 2 M7 H2 214 1 42 H2 B1 214 c 3 6 3 6 E1OUT B 214 uH If LC is used open 5 5 ic If LTx is used closed LC LTx Separates lines from slot 214 to sub D connector X139 LTx1 LTx2 LTx3 for SHDSL If equipped with LC As delivered condition LC S215 3 Adapting to LC LTx Equipping in Slot 215 F Warning If slot 215 is equipped with the LC card the switch must be open to exclude mutual faults at the X139 SHDSL and X118 LC 5 system 2 sub D connectors S215 3 Lc215A16 118 1 8 A1 208 oN LC215A18 12B H1 B1 208 1 LC215A20 6B H2 A1 208 H2 B 215 4 B 208 2 2 M7 E1OUT B 215 3 5 If LC is used open 4 5 4 5 If LTx is used closed LI Separates lines from slot 215 to the X139 sub D connector LC LTx LTx1 LTx2 LTx3 for SHDSL If equipped with LC As delivered condition LC S208 4 Adapting to LC LTx Equipping in Slot 208 20
73. 8_4 ON ON LC208A24 78 1 16 poiNB1 A2 16 1 W6 1 208 26 88 2 15 F2NB1 go LC208A30 9B Pis 52 o 5 215 LC208A32 10B 5 IP F2INA1 B1 14 Bi LC208C24 198 7 5 F2OUTB1 A2 GS LC208C26 20B F2OUTB1_B2 4 F2OUT1 A1 F20UTA1 A1 5 12 5 12 Four 8 9 FeouTA1_Bit LE IN OUT from LT1 If LC is used open S H M 9 m If LTx is used closed ON 0 7 Separates lines from slot 208 to sub D connector X129 LTx1 LTx2 for 2MBit E1 If equipped with LC 8 9 e M As delivered condition LC LC LTx Warning IF slot 208 is equipped with LC the switch must be open to exclude mutual faults at the X129 2Mbit E1 X110 and X128 sub D connectors both LC 6 system 1 50010 701 1 7618 77 UMN TED Information Flexible Multiplexer FMX2R3 2 Overview of the S208 4 and S214 4 Switches External connector slot 8 Sub D connector LC 6 system 1 X208 a contacts LC208A24 7B 20 IN 26A LC208A26 8B 21 30A LC208A30 9B 22 X110 32A LC208A32 10B 23 25 pin Slot 8 LC 6 system 1 or LTx1 E LC 6 system 1 f c contacts LC208C24 19B 20 OUT 26C LC208C26 20B 21 30C LC208C30_21B 22 X128 32C LC208C32 2
74. 9 2 kbit s V 24 Lc 12 1 optional Fig 2 5 Overview Circuit Diagram of Multiplexer 2 2 2 Central Unit CUD The CUD forms the interface between the line cards of the multiplexer and the PCM sig nals at E1 ports E1A and E1B In a synchronous network it operates as a Terminal Mul tiplexer or as a drop insert multiplexer 2 2 3 Bus Extension Card BEC The BEC is used when more than 6 LCs are used e for full utilization of the 2 Mbit s signal since a few LCs have a limited number of interfaces fora comprehensive range of different subscriber interfaces A CUD can operate 6 LCs without a BEC with a BEC it can operate 12 LCs The number of time slots of the 2 Mbit s signal is not increased by a BEC The BEC connects the system bus to a further 6 LC slots and supplies these LCs with the necessary voltages 2 2 4 Units for Operation and Supervision The operation and supervision units include e Supervision unit SUE B1 in shelves SNUS FMX2S and MXS19C e Supervision unit MSUE in the ONU 30 FTTB e Supervision unit COSU in the ONU 20 FTTO e Supervision unit OSU for synchronous or asynchronous transmission of control in formation for remote equipment e SISA concentrator SISAK for asynchronous transmission of control information to remote equipment can only be installed in shelf MXS19C 30 A50010 A3 C701 1 7618 Information UMN TED Flexible Multiplexer FMX2R3 2 2 2 5 2 2 5 1 2 2 5 2 50010
75. A7 S2IN A4 oO a A D21NA8 S2OUT A4 eo D21NA9 S2IN A5 D2INA10 5200 A5 S2IN A6 5200 A6 D2INB1 F2IN B4 D2INB2 F2OUT B4 D2INB3 F2IN_B5 D2INB4 F2OUT B5 D2INB5 F2IN_B6 D2INB6 F2OUT B6 D21NB7 S2IN B4 D2INB8 amp S2OUT B4 D2INB9 S2IN B5 D2INB10 S2OUT B5 S2IN B6 S2OUT B6 Tab 3 23 FMX2S Connectors X123 to X128 X131 to X136 Part 1 Double assignments Pin 7 Sub D A and Pin 20 Sub D C E1OUT2 A E1OUT2 B Pin 19 Sub D A and Pin 21 Sub D C A50010 A3 C701 1 7618 Information Flexible Multiplexer FMX2R3 2 UMN TED A50010 A3 C701 1 7618 LC connectors C row part 2 PIN General GND CPF2 GND SLX102 E CM64 2 LC Y C1 13A SN2 AN A LC Y C3 14A 5 2 CNTL A LC Y C9 15A SN2 AB A LC Y C13 16A SN2 XCLK A LC Y C17 17A 2 IND A LC Y C19 18A SN2 SCLK A LC Y C23 19A SN3 AB A NI a A LC Y C25 20A 5 3 AN A LC Y C29 21A SN3 CNTL A LC Y C31 22A SN3 XCLK A LC Y C7 23A SN3 IND A LC Y C15 24A SN3 SCLK A LC Y C2 13B SN2 AN B F2IN B LC Y C4_14B SN2_CNTL_B F2OUT B LC Y C10 15B SN2 AB B YOUT1_B LC Y C14 16B 5 2 XCLK B YOUT2 B LC Y C18 17B 2 IND B YOUT3
76. Access to Analog 31 Fig 2 8 LLA102 104C in Leased Lines with 2 Wire Interface 32 Fig 2 9 LLA102 104C in Leased Lines with 4 Wire Interface 32 Fig 2 10 1850 Dial up Connection with CAS 33 Fig 2 11 1850 Dial up Connection Using FA 33 Fig 212 1850 Leased line Connections Using FA Signaling 34 Fig 2 13 1850 Leased line Connections for Stand alone Operation 34 Fig 2 14 Dial up Connection of the IUL82C or IUL84C with CAS Signaling in Repeater Mode risene crinita ea ERE PERRA IE PE X ER RENDER 35 Fig 2 15 Dial up Connection of the IUL84C with FA Signaling 35 Fig 2 16 Leased Line Connections of the IUL84C with FA Signaling 36 Fig 2 17 Leased Line Connections of the IUL82C in Stand alone Mode 36 Fig 2 18 Leased Line Connection of the IUL84C in Stand alone Mode 36 Fig 2 19 CPF2 Front Panel Connectors 38 Fig 3 1 Use of FMX2R3 2 Multiplexer in an SNU Shelf Example 42 Fig 3 2 Shelf SNUS without Front Panel 42 Fig 3 3 SNUS EQUIPPING s ute reed to rr 43 Fig 3 4 SNUS Internal 2 Mbit s Connections Subrack fitted with SMX1 4c 46 Fig 3 5 SNUS Internal Wiring of PCI Interfaces 46 Fig 3 6 SNUS Intern
77. Adaptation for LC LTx Equipping in Slot 214 S314 1 ON ON s 1 4 2 4 2 W LTx1 LC GND Warning Switches rotated As delivered condition LC Switching for addresses for LC 5 2 or LTx2 in slot 14 S314 2 Switching Internal Signals if LTx is Used in Slot 214 S314 2 Me 3 gt PB2 X114 B10 3 2 PB2LTK12 5 NO NO LTx1 LC Warning Switches rotated As delivered condition LC Switch over LC 5 2 PB2 or LTx2 LTK1 in slot 14 315 Switching Internal Signals if LTx is used in Slot 215 Warning The switch is used to switch over internal signals If an LTx is used in slot 215 it must always be open S315 gt 3 gt 2 115 10 3 2 3 PB2LTK13 IN E LTx1 LC Warning Switch rotated As delivered condition LC Switch over LC 6 2 PB2 or LTx3 LTK1 in slot 15 72 A50010 A3 C701 1 7618 Information UMN TED Flexible Multiplexer FMX2R3 2 218 T3in Terminator with 120 Ohm 218 1 4 121 Ohm TSINA 1 L TSINB 1 2 3 120 Ohm termination closed ON As delivered condition Open 120 Ohm S208 1 Adapting to LC LTx Equipping in Slot 208 Warning If LTxs are used in slots 208 214 and 215 slots for LTx 1 LTx 2 and LTx 3 no lines may be connected
78. BXs 31 UMN TED Information Flexible Multiplexer FMX2R3 2 32 2 2 5 3 2 2 5 4 2 2 5 5 2 2 5 6 2 2 5 7 Converter SLB62 The SLB62 2 wire LB line card connects up to 6 analog subscriber terminals with a lo cal battery power supply to the transmission network Universal Analog Unit UAC68 Universal analog line card UAC68 for 6 channels is used to provide either analog 2 wire or 4 wire interfaces with signaling E amp M operation or without signaling analog leased lines E amp M Converter SEM106C The SEM106C line card is used for connection of 10 VF signals in 2 wire operation to exchange or transmission equipment which operates with E amp M signaling E amp M Converter SEM108HC The SEM108HC line card is used in the multiplexer for connection of 10 VF signals in 4 wire operation to exchange or transmission equipment which operates with E amp M sig naling Analog Leased Lines LLA102 104C The analog leased line LLA102 104C with 10 channels is used to provide up to 10 ana log leased lines within a digital transmission link for service neutral transparent point to point transmission of information The channels can be operated with 2 or 4 wire interfaces F2 2 Mbit s F2 LLA LLA gt 102 104C 102 104C TE Fig 2 8 LLA102 104C in Leased Lines with 2 Wire Interface F2 2 Mbit s F2 LLA LLA 102 104C 102 104C TE Fig 2 9 LLA102 104C in Leased Lines with 4 Wire
79. C2 IN b 10 QD2T1 OUT b QD2S2 OUT b AIN4 ECC1 IN b 11 QD2S1 IN b QD2M OUT b AIN6 ECC2 OUT b 12 QD2T1 IN b QD2S2 IN b AIN8 ECC1 OUT b 13 ECC3 IN b 14 ECC3 OUT b 15 AM Tab 3 26 FMX2S Connectors X101 to X104 Signal Abbreviations GND GND S QD2SIN A1 B1 QD2SOUT 1 B1 QD2SIN A2 B2 QD2SOUT A2 B2 QD2MIN A B QD2MOUT A B QD 2TIN A B QD2TOUT A B AIN1 AIN8 AM ECC1 IN A B ECC1 OUT A B ECC2 IN A B ECC2 OUT A B ECC3 IN A B ECC3 OUT A B Operation ground Shielded ground Slave 1 from the SUE Slave 2 from the SUE Master interface from the SUE T connections of slave1 from the SUE Alarm inputs of the SUE Negative operating voltage for alarm contacts ECC from the SUE ECC from the CUD 1 plug in place 202 ECC from the CUD 2 plug in place 209 A50010 A3 C701 1 7618 87 UMN TED Information Flexible Multiplexer FMX2R3 2 Connectors X119 X120 X121 and X138 T3 OH PIN T3out T3in Overhead LTx4 and LTx6 X119 X120 X121 X138 GND S GND S OUT at O64 OUT 1 T4 OUT a5 O64 IN at OUT a2 O64 OUT a2 T4 OUT a6 O64 IN a2 OUT b1 O64 OUT b1 T4 OUT b5 O64 In b1 T3 OUT b2 O64 OUT b2 T4 OUT b6 064 IN b2 2 3 4 5 6 7 8 9 Tab 3 27 FMX2S Connectors X119 to X121 and X138 Signal Abbreviations GND S Shielded ground A1 B1 T3 output from the CUD1 plug in places 2 A2 B2 T3 output from the CUD2 plug in places 9
80. DM The interfaces from X130 are port 13 to 16 and are internal connected with the ADM The interfaces from X133 are Port 5 to 8 of the PU16 2 in Slot 213 and are internal con nected to the second 2 Mbit s interface of the CUD and of the 3 LTx plug in places 57 UMN TED Information Flexible Multiplexer FMX2R3 2 GND S The interfaces from X114 are port 9 to 12 and are internal connected with the ADM The interfaces from X134 are port 13 to 16 and are internal connected with the ADM Signal Abbreviations GND Operation ground GND S Shielded ground E1 OUTy a and b 1 to 16 A and B wire output 2 Mbit s G 703 from port y E1 INy a and b y 1 to 16 A and B wire input 2 Mbit s G 703 from port y Interfaces 2 Mbit s G 703 TU X115 X116 X117 X135 X136 and ADM X137 Interfaces 2 Mbit s G 703 X116 X136 GND S GND S GND S GND S GND S E1 OUT22a E1 OUT26 a E1 OUT30 a E1 OUT34 a E1 OUT38 a E1 OUT17a E1 1 22 E1 IN26 a E1 IN30 a E1 a E1 1338 a E1 IN17 a E1 OUT23 a E1 OUT27 a E1 OUT31 a E1 OUT35 a E1 OUT39 a E1 OUT18a E1 1323 a E1 IN27 a E1 IN31 a E1 IN35 a E1 IN39 a E1 IN18 a E1 OUT24 a E1 OUT28 a E1 OUT32 a E1 OUT36 a E1 OUT40 a E1 OUT19 a E1 IN24 a E1 IN28 a E1 IN32 a E1 IN36 a E1 IN40 a E1 IN19 a E1 OUT25 a E1 OUT29 a E1 OUT33 a E1 OUT37 a E1 OUT41 a E1 OUT20 a NI a A E1 1 25 E1 IN29 a E1 IN33 a E1
81. H due de fc A ro 103 5104 5111 5112 5114 5115 S 113 8116 214 216 20 204 205 206 27 208 209 20 211 212 213 215 217 107 202 67 107 to 5 167 107 LT 07 toy oy oJ lo 9 4 4 07 8105 106 5108 107 5109 p Le 4 5 UN JPN TN CN TON TON T TN O 0 01 0 o 0 21 Ei 2 p gpl 2 pi pa zs Fig 3 10 SNUS Front View without Front Panel The equipping options are contained in Section 3 1 1 The following points must be taken into account Before slots 207 and 208 are equipped the DIL switches on the backplane must be set accordingly to determine whether an LC of the FMX2R3 2 or an LTx module is to be equipped DIL switches S111 S112 S113 and also S105 S106 and S107 must be set for slot 207 and S114 S115 S116 and also S108 and S109 for slot 208 according to the following table 50 A50010 A3 C701 1 7618 Information Flexible Multiplexer FMX2R3 2 UMN TED 111 to 5113 all slider switches of the DIL switches on OFF 105 to 5116 all slider switches of the DIL switches on ON 107 all slider switches of the DIL switch on OFF Equipping with LC of the FMX2R3 2 Equipping with the LTx module 8111 to S113 all slider switches of the DIL switches on ON 5105 to 5116 all slider swit
82. IN37 a E1 IN41 a E1 IN20 a E1 OUT42a E1 OUT21 a E1 IN42 a E1 IN21 a E1 OUT22 b E1 OUT26 b E1 OUT30 b E1 OUT34 b E1 OUT38 b E1 OUT17 b E1 IN22 b E1 IN26 b E1 IN30 b E1 IN34 b E1 IN38 b E1 IN17 b E1 OUT23 b E1 OUT27 b E1 OUT31 b E1 OUT35 b E1 OUT39 b E1 OUT18 b E1 IN23 b E1 IN27 b E1 IN31 b E1 IN35 b E1 IN39 b E1 IN18 b E1 OUT24 b E1 OUT28 b E1 OUT32 b E1 OUT36 b E1 OUT40 b E1 OUT19 b E1 IN24 b E1 IN28 b E1 IN32 b E1 IN36 b E1 IN40 b E1 IN19 b E1 OUT25 b E1 OUT29 b E1 OUT33 b E1 OUT37 b E1 OUT41 b E1 OUT20 b E1 IN25 b E1 IN29 b E1 IN33 b E1 IN37 b E1 IN41 b E1 IN20 b E1 OUT42 b E1 OUT21 b E1 IN42 b E1 IN21 b Tab 3 12 SNUS Connectors X115 to X117 X135 to X137 58 A50010 A3 C701 1 7618 Information UMN TED Flexible Multiplexer FMX2R3 2 Signal Abbreviations GND Operation ground GND S Shielded ground E1 OUTy a and b y 22 to 42 A and B wire output 2 Mbit s G 703 from port 1 to 21 of the TU E1 INy a and b 22 to 42 A and B wire input 2 Mbit s 9 703 from port 1 to 21 of the TU E1 OUTy a and b 17 to 21 A and B wire output 2 Mbit s G 703 from port y of ADM E1 INy a and b y 17 to 21 A and B wire input 2 Mbit s G 703 from port y of ADM D Sub connectors X103 to X108 and X123 to X128 depending on the line card CPF2 UAC68 SLB62 SUB102 SLX102 E X103 to X108 X123 to
83. MDF 180 or MDF 210 see UMN IMN For cabling the transfer connec tors to the front panel connectors the adapter cable S42023 A799 S18 has to be used Also the 4 ethernet interfaces of one CIM nx64E module are accessible at a front panel connector The connector also provides the RS232 interface Also available at the front panel connector is a status LED ILE Fig 3 19 MXS19C Front View without Front Cover Unequipped Connector for power supply Fig 3 20 MXS19C Rear View 94 A50010 A3 C701 1 7618 Information UMN TED Flexible Multiplexer FMX2R3 2 3 3 2 Fitting The MXS19C has 18 slots which are fitted in the following way 201 202 203 204 205 206 207 208 209 210 211 212 213 214 215 216 217 218 O O a rir 5 8 515154 5 1010 9 3 gt 90 0 2 QM GS ee 26 21 ABI Fig 3 21 519 Equipping Plug in place Plug in unit N 19 N e 10 e e T T T N N Q N N N N N Q N N N N N N N N N SUE B1 x CUD BEC SUB102 SLX102 E UAC68 SLB62 SEM106C SEM108HC LLA102 104C 850 IAUK2NTP IUL82C IAUKANTP IUL84C 29 DSC6nx64C DSC104C LTO LT LTO NT LT2ME19
84. MX2R3 2 station The Ethernet interfaces of all sensors of the same FMX2R3 2 station and addi tionally all FMX2R3 2 stations along the pipeline operate together with their distant ter minal in the centre as distributed L2 Ethernet switch This is necessary because mapping of Ethernet traffic of each single sensor to its own dedicated 64 kbit s timeslot would limit the maximum possible amount of Ethernet controlled devices to 31 for an E1 link Furthermore Ethernet broadcast traffic encapsulated in the TDM link between FMX2R3 2 network elements is reduced to a minimum Eth 10 100bT Eth 10bT 1 2 Mbit s G 703 m FMX2R3 4 Maintenance centre Eth 10 1000T G 703 Exch tu of the oil FMX2R3 2 pipeline 8 FMX2R3 2 2 Mbit s 2 Mbit s 2 Mbit s G 703 G 703 G 703 2 Mbit s G 703 FMX2R3 2 Eth 10 100bT sensor 1 to 4 e g oil pipeline Eth 10 100bT Eth 10 100bT sensor 1 to 4 sensor 1 to 4 C OSC Fig 2 2 Ethernet Switching via an FMX2R3 2 Network For connection to the public switching network the channel associated signaling is con verted in V5 1 V5 2 protocols in conjunction with system module CMXII from FastLink see Fig 2 3 CAS V5 1 V5 2 1 2 Mbit s G 703 2 Mbit s 2 Mbit s G 703 G 703 FMX2R3 2 FastLink 60 2 Mbit s 2 Mbit s 2 Mbit s G 703 G 703 G 703
85. Multiplexer FMX2R3 2 S100 SUE Address 100 4 210 10 9 8 7 6 m 2 3 8 i Wo 28121523 12534 5 2 6 o Value 16 8 4 2 1 Example Address 4 GND As delivered condition Address 4 S302 CUD Address Switch in the 1st System A31 8 ON Value Address A4 1 16 A21 2 2 6 1 8 is on GND 1_1 3 6 o aan i Aoi 4 15 4 3g 5 2 S302 4 Bb 1 Closed ON Example Address 2 As delivered condition Address 2 S309 Switch for the CUD Address in the 2nd System A3 1 1 8 ON Value Address A4 2 16 A21 2 7 1 5 8 is on GND 3 6 A1 1 e 2 4 aoa 29 5 3 2 S309 48 5 1 Closed ON GND Example Address 9 As delivered condition Address 9 S308 1 Address Adaptation for LC LTx Equipping in Slot 208 S308 1 ON ON 174 2 W a is 2 a ADR1A0 LC As delivered condition LC A50010 A3 C701 1 7618 71 UMN TED Information Flexible Multiplexer FMX2R3 2 S308 2 Switching Internal Signals for LTx Shelf in Slot 208 S308 2 gt sH gt PB2 X108 B10 3j l2 4 21 11 MC E NO NO LTx1 LC Warning Switches turned As delivered condition LC Switching for LC 6 1 PB2 or LTx1 LTK1 in slot 8 S314 1 Address
86. N 80 Sscr 1 16 I STM 1 data 5 dipl C opt electrical G 703 V 24 FMX2R3 2 voc 26 STM 4 optical V 35 V 36 Eth RS530 X 21 2 4 x 2 Mbit s 1 yt ghost 2 3 2 wire 4 wire PE Leased Line yi or Feeder 1 yi 2 Mbit s LTx 2x2 Mbit s G 703 8 3 CMXC opt SHDSL 1 26 2 wire 4 wire Leased Line or Feeder Fig 3 1 Use of FMX2R3 2 Multiplexer in an SNU Shelf Example g p AN 255558 GILT Fig 3 2 Shelf SNUS without Front Panel The subrack can accept units in double Eurocard format and has a backplane board to connect the internal and external interfaces A50010 A3 C701 1 7618 Information UMN TED Flexible Multiplexer FMX2R3 2 The SNUS is equipped with a terminal panel which provides all external interfaces via the corresponding sub D connectors The exceptions are the optical interfaces of the corresponding units which are only present on the units themselves For mechanical routing of the optical fibers the SNUS is equipped with FO clips Different front panel connectors are intended to simplify matters wiring of the CPF2 data interfaces with external data terminals which can be plugged into an external Main Dis tribution Field MDF 180 or MDF 210 see UMN IMN For cabling the connectors in the terminal panel to the front panel connectors the adapter cable S42023 A862 S11 has to be used Also the 4 ethernet interfa
87. SCLK_B SN3 SCLK B 52 0 5200 B6 Tab 3 13 SNUS Connectors X103 to X108 X123 to X128 Part 1 A50010 A3 C701 1 7618 59 UMN TED Information Flexible Multiplexer FMX2R3 2 IAUK2NTP IAUKANTP IUL82C IUL84C X103 to X108 X123 to X128 X103 to X108 X103 to X108 CO NI 9 oy A Tab 3 14 SNUS Connectors X103 to X108 X123 to X128 Part 2 60 A50010 A3 C701 1 7618 Information UMN TED Flexible Multiplexer FMX2R3 2 CM64 2 DSC104C DSC6 nx64C X103 to X108 X123 to X128 X103 to X108 X123 to X128 X103 to X108 X123 to X128 GND GND GND D2OUT_A1 D2IN_A1 D2OUT_A1 D2OUT_A2 D2IN_A2 T21_A1 D2IN_A1 D2OUT T22 M D2OUT A4 A4 D2OUT A2 D2IN A2 D2OUT A5 D2IN A5 21 A2 D2OUT A6 D2lN A6 T22 A2 D2lIN 200 A7 D2lN A7 D2OUT D2lN A4 D2OUT A8 D2lN D2OUT A4 D2IN_AS D2OUT A9 D2lN A9 D2OUT A5 D2IN_A6 D2OUT A10 D2lN A10 D2OUT A6 TIN A NI 9 oy A EN En F2IN_A F2IN_B D2OUT B1 B1 D2OUT B1 F2OUT_A F2OUT B B2 B2 T21 B1 D2lN B1 YOUT1_B D2OUT D2IN B3 T22 Bt YOUT2 A YOUT2 B D2OUT B4 D2IN B4 D2OUT B2 D2IN B2 N YOUT3_A YOUT3_B D2OUT B5 B5 T21 B2 YOUT
88. SIEMENS Information Flexible Multiplexer FMX2R3 2 UMN TED A50010 A3 C701 1 7618 UMN TED Information Flexible Multiplexer FMX2R3 2 A Important Notice on Product Safety Elevated voltages are inevitably present at specific points in this electrical equipment Some of the parts may also have elevated operating temperatures Non observance of these conditions and the safety instructions can result in personal injury or in prop erty damage Therefore only trained and qualified personnel may install and maintain the system The system complies with the standard EN 60950 1 IEC 60950 1 All equipment connected has to comply with the applicable safety standards The same text in German Wichtiger Hinweis zur Produktsicherheit In elektrischen Anlagen stehen zwangsl ufig bestimmte Teile der Ger te unter Spannung Einige Teile k nnen auch eine hohe Betriebstemperatur aufweisen Eine Nichtbeachtung dieser Situation und der Warnungshinweise kann zu K rperverletzungen und Sachsch den f hren Deshalb wird vorausgesetzt dass nur geschultes und qualifiziertes Personal die Anlagen installiert und wartet Das System entspricht den Anforderungen der EN 60950 1 IEC 60950 1 Angeschlossene Ger te m ssen die zutreffenden Sicherheitsbestimmungen erf llen Trademarks All designations used in this document can be trademarks the use of which by third parties for their own purposes could violate the rights of their owners
89. T Recommendation G 797 In the transmission network direction it implements up to two 2 Mbit s interfaces according to ITU T G 703 9 The signaling codes are transmitted using CAS Channel Associated Signaling As a special signaling variant FA signaling is also available Essential tasks of the multiplexer are e Multiplexing functions for speech and data signals e Provision of appropriate subscriber interfaces e Control of subscriber interfaces with CAS or FA signaling The CAS code frame corresponds to ITU T Recommendation Gi 704 5 1 3 Fig 2 1 displays an example for an FMX2R3 2 corporate network Subs FMX2R3 2 ES Subs FMX2R3 2 2 FMX2R3 2 20 CAS FA LL 2 Mbit s STM 1 STM 4 Subs 2 Mbit s G 703 G 703 FMX2R3 2 FMX2R3 2 Computer Subs PBX Caner Subs Fig 2 1 FMX2R3 2 Corporate Network A50010 A3 C701 1 7618 25 UMN TED Information Flexible Multiplexer FMX2R3 2 26 Fig 2 2 shows the typical application scenario if FMX2R3 2 is used for monitoring and controlling along an oil pipeline The FMX2R3 2 elements along the pipeline provide Ethernet interfaces for data transport between Ethernet based sensors valves or similar and the maintenance centre The Ethernet interfaces alway work in mirror mode The Ethernet traffic from the sensors is mapped into n x 64 kbit s timeslots of an E1 link and transported to the next F
90. TU T K 45 07 2003 basic level 1 On enquiry some line cards can also be used according enhanced level Compliance with the earth conditions according ITU T Indoor applications inside subscriber building K 31 03 1993 ITC applications inside telecommunication building K 27 05 1996 Outdoor applications remote electronic sites K 35 05 1996 Units which are not meet the requirements above contain specific information about the foreign power protection see technical data of the line cards Power Supply Rated input voltage 48 V 60 V Permissible voltage range 36 V to 72 V A50010 A3 C701 1 7618 Information UMN TED Flexible Multiplexer FMX2R3 2 3 3 3 3 1 MXS19C Subrack Structure The shelf MXS19C can only be mounted in racks shelter or housings according to in stallation conditions of IEC 60297 the mounting width of MXS19C mechanics does al low the installation in 19 racks There is no terminal panel The shelf contains no front access connector panel the con nections will be realized via rear side located delivery connectors see Fig 3 18 The shelf MXS19C can be equipped with plug in units realizing the following functions e FMX2R3 2 Central unit CUD The CUD requires the FMX2R3 2 load Narrowband linecards for voice data and ISDN services e Line termination units feeder or leased lines Access via copper cables with units LT2ME1for up to 16 E1 interfaces Access via optic
91. VOE s ni lee Pete ved eter 99 Fig 3 26 Connecting Cable S42023 A799 S18 102 Fig 3 27 MXS19C Backplane Shelf from Inside 103 Fig 9 28 Structure of ONU 30 FTTB oi wick eee tae hee 114 Fig 3 29 Front View ot ONU IRR RR exe 114 Fig 3 30 ONU 80 FTTB Front View emm RR I 115 Fig 3 91 Equipping of the AMXMS a cesis hene ned 116 Fig 3 82 Control Elements of the MSUE 121 Fig 3 833 MSUE Connector 122 Fig 3 34 SV65W 12 V 48 V Front 126 Fig 3 85 Switching from 230 V to 115 127 Fig 3 86 Management Access to the ONU 30 128 Fig 3 37 Use of FMX2R3 2 Multiplexer in an ONU 20 FTTO Example 132 Fig 3 38 Front View of the ONU 20 FTTO with and without Front Plate 132 Fig 3 39 Structure of ONU 20 ic scopi rere Revers 133 Fig 3 40 20 FTTO with Power Supply and Backup Battery 133 Fig 3 41 Configuration of the 2 Mbit s Interfaces of ONU 20 FTTO 134 Fig 3 42 20 Equipping and 134 Fig 3 43 Rear Side of the ONU 20 135 Fig 3 44 Switches and Connectors in the ONU 20 136 Fig 3 45 Connecting Cable S42022
92. X128 GND X103 to X108 GND X123 to X128 GND X103 to X108 X103 to X108 NO AN A SN2 AN A F2IN A1 F2IN A4 NO CNTL A SN2 CNTL A F2OUT A1 F2OUT A4 NO AB A SN2 AB A F2IN A2 F2IN A5 NO XCLK A SN2 XCLK A F2OUT A2 F2OUT A5 NO IND A SN2 IND A F2IN F2IN A6 NO SCLK A SN2 SCLK A F2OUT A3 F2OUT A6 N1 AB A SN3 AB A S2IN A1 A4 o oO om A Ww nm AN A SN3 AN A S20UT A1 5200 A4 zs N1 CNTL A SN3 CNTL A S2lIN A2 S2IN A5 a N1 XCLK A SN3 XCLK A S20UT A2 5200 A5 E N1 IND A SN3 IND A 521 S2IN_A6 N1 SCLK A SN3 SCLK A 52 0 5200 A6 NO AN B SN2 AN B F2IN B1 F2IN B4 a NO CNTL B SN2 CNTL B F2OUT B1 F2OUT B4 Ere NO AB B SN2 AB B F2IN B2 F2IN B5 x N NO XCLK B SN2 XCLK B F2OUT B2 F2OUT B5 A NO IND B 2 IND B F2IN F2IN B6 NO SCLK B SN2 SCLK B F2OUT B3 F2OUT B6 N1 AB B SN3 AB B S2IN S2IN B4 N A N1 AN B SN3 AN B S20UT 5200 B4 N N N1_CNTL_B SN3_CNTL_B S2IN_B2 S2IN_B5 N N1 XCLK B SN3 XCLK B S20UT B2 5200 B5 ER N1 IND B SN3 IND B S2IN B3 S2IN B6 N1_
93. agement 366 5 6 2 DCN Decoupling ECC in a Line Network 367 5 6 3 DCN Decoupling in the FMX2S in the Line 367 5 7 DCN Structures with 5190 368 5 7 1 ECC Channel 64 kbit s or 9 6 605 368 5 7 2 Overhead Channel 9 6 369 5 8 Software 371 5 8 1 Memory ecaa p naai nann deana anar 371 5 8 2 Data Management rw ath wipe ee a ee ed a 372 5 9 tel een a bo 373 6 Product Overview rie een 374 7 ux exe Sale a Sie hes 379 A50010 A3 C701 1 7618 UMN TED Information Flexible Multiplexer FMX2R3 2 Illustrations Fig 2 1 FMX2R3 2 Corporate Network 25 Fig 2 2 Ethernet Switching via an FMX2R3 2 26 Fig 2 3 Access via FMX2R3 2 Network to V5 1 V5 2 Exchange 26 Fig 2 4 Connecting the Network Termination Units to the Multiplexer 27 Fig 2 5 Overview Circuit Diagram of 30 Fig 2 6 Subscriber Access to Digital Exchange 31 Fig 2 7 Subscriber
94. al 34 Mbit s and STM 1 Connections 47 Fig 3 7 SNUS Clock Distribution 0 00 cee eee 47 Fig 3 8 SNUS QDZ ACCESS cili rue lae e Reed adde 48 Fig 3 9 SNUS Power Supply 49 Fig 3 40 SNUS Front View without Front Panel 50 Fig 3 11 SNUS Connector 55 0 52 Fig 3 12 Shelf FMX2S without Front Panel 63 Fig 3 13 EMX2S Equipping deeem regia Pokal waded dacs 64 Fig 3 14 FMX2S Clock DistriDbUllon eee n emm 65 ig 3 15 25 QD2 ACCESS ue reum ea exe Pee eae ie ie aaa 66 Lig 3 16 FMX2S Power Supply Meee ee eae DRE ee 67 Fig 3 147 25 Front View without Front 68 Fig 3 18 Shelf MXS19C with Front 93 Fig 3 19 MXS19C Front View without Front Cover Unequipped 94 Fig 3 20 MXS19C Rear 94 Fig 9 21 MXS19C Equipping dece M E Rn RR ee 95 Fig 3 22 External Interfaces of the Line Termination Units 96 Fig 3 23 MXS19C Clock Distribution lisse leere 98 10 A50010 A3 C701 1 7618 Information UMN TED Flexible Multiplexer FMX2R3 2 Figs 3 24 MXSTIC QD2 ACCOSS ey pee ee ees 99 Fig 820 QD2 BUS SWILCII O
95. al fiber units LT2ME1 LTO LT or LTO NT for up to 16 E1 inter faces The shelf MXS19C supports in maximum 120 subscriber ports that can be controlled by one or two CUDs 0 Sane d A gt C 0 LASER KLASSE 1 WARNING HOHER BEROHRUNGSSTROM HIGH LEAKAGE CURRENT Vor dam Anschluss an des Earth connection Talatammunitationanet before connecting making unbodingt Entvarbindung slscommunicstion network herstallen connections C SIEMENS Fig 3 18 Shelf MXS19C with Front Cover If line termination units with optical modules LTO LT or LTO NT are equipped in the MXS19C shelf the shelf can be supplemented with a glass fiber guide This guide will be mounted immediately above the MXS19C shelf on the rack spars The glass fibers of optical line termination units are guided upwards over a holding device The central front cover can be removed without any release of the glass fiber connections The backplane of MXS19C contains an EEPROM to support remote inventory data The magament access will be realized by an internal SUE located on slot 201 A50010 A3 C701 1 7618 93 UMN TED Information Flexible Multiplexer FMX2R3 2 Different front panel connectors are intended to simplify matters wiring of the CPF2 data interfaces with external data terminals which can be plugged into an external Main Dis tribution Field
96. als which can be plugged into an external Main Dis tribution Field MDF 180 or MDF 210 see UMN IMN For cabling the connectors in the terminal panel to the front panel connectors the adapter cable S42023 A862 S11 has to be used Also the 4 ethernet interfaces of one CIM nx64E module are accessible at a front panel connector The connector also provides the RS232 interface Also available at the front panel connector is a status LED 63 UMN TED Information Flexible Multiplexer FMX2R3 2 3 21 Fitting The FMX2S has 18 slots which are fitted in the following way LT2ME1 LTO 1 3 LT2ME1 LTO 3 optionally if more than 6 LCs are to be connected to the CUD slot 2 optional fitting Fig 3 43 FMX2S Equipping inserted before the units are inserted the associated DIL switches must be checked see Section 3 2 6 For slots 8 14 15 into which both channel cards and line termination units be Plug in unit Plug in place LC LTx LC1 2 210 LC2 2 211 LC3 2 212 LC4 2 213 LC5 2 214 LTx2 LC6 2 215 LTx4 216 LTx5 217 LTx6 218 2 wire a b or LTx 3 d 42256 282 1 V42256 282 M2 4 wire c d or LTx SUE CUD BEC 68 SUB102 SLB62 LLA102 104C 1850 IAUK2NTP IUL82C
97. below LC6 LTx1 SHDSL i To the right of X208 center LC6 LTx1 2MBit i To the right of X208 center ADR1A0 i To the right of X307 PB2 LTK1 PB2LTK11 To the right of X307 ADR CUD2 A4 2 GND 2 A2 2 A1 2 0 2 Between X308 and X309 LC5 LTx2 QD2M i To the right of X214 above LC5 LT2 T3IN i To the right of X214 below LC5 LT2 SHDSL i To the right of X214 center LC5 LT2 2MBit To the right of X214 center ADROA4 i To the right of X314 below PB2 LTK1 PB2LTK12 i To the right of X314 center LC6 LT3 QD2M i To the right of X215 above LC6 LT3 T3IN To the right of X215 below LC6 LT3 SHDSL To the right of X215 center LC6 LT3 2MBit i To the right of X215 center PB2 LTK1 PB2LTK13 i To the right of X314 above T3INA B_1 120 Ohm termination i To the right of X218 Tab 3 47 FMX2S Overview of the Switches Backplane Addressing of the Units All units in this subrack are assigned addresses via the backplane Address Unit model setting Address type Variable Variable Variable Fix slot address Address 5 Bit 5 bit 5 Bit MSB on GND MSB on GND Address type QD SISA Unit address Unit address Unit address address Tab 3 18 FMX2S Address Settings for the Units A50010 A3 C701 1 7618 69 UMN TED Information Flexible Multiplexer FMX2R3 2 70 Address setting Address switch Unit m
98. ces of one CIM nx64E module are accessible at a front panel connector The connector also provides the RS232 interface Also available at the front panel connector is a status LED 3 1 4 Fitting The SNUS has 18 slots but only a maximum of 16 of these can be used at the same time 18 e 2 2 i 237523 a lt o gt Q lt 1 LT2ME1 LTO 4 internal 2 Mbit s connection to SMX1 4c 2 2 1 5 2 Mbit s ports of ADM10 ADM1e ADM4 3 internal 2 Mbit s link to CUD LTx 1 to LTx 3 optional fitting Fig 3 3 SNUS Equipping For the two slots 207 and 208 into which both line cards and line termination units can A be inserted before the units are inserted the associated DIL switches must be checked see Tab 3 4 Fig 3 10 A50010 A3 C701 1 7618 43 UMN TED Information Flexible Multiplexer FMX2R3 2 FMX2R3 2 and LTx Plug in unit Plug in place Filter 201 202 203 204 205 206 207 208 209 218 Sub D in terminal panel at 2wire LC a b C1 D1 E1 F1 G1 H1 or LTx G1 H1 L1 V42256 V42256 Z82 M1 Z82 M2 Sub D in terminal panel at 4wire LC c d C2 02 E2 F2 G2 H2 SUE CUD 68 SUB102 SLB62 LLA102 104C 1850 140 2 101820 101840 140 4 CM64 2 SLX102 E DSC104C DSC6 nx64C 22 LT2ME19 LTO
99. ches of the DIL switches on OFF 107 all switches of the DIL switch on ON Tab 3 4 Addresses 114 to S116 all slider switches of the DIL switches on OFF 8108 all slider switches of the DIL switch on ON 8109 all switches of the DIL switch on OFF SNUS DIL Switch Settings 8114 to S116 all switches of the DIL switches on ON 8108 all switches of the DIL switch on OFF 109 all switches of the DIL switch on ON The SISA addresses of all units in this subrack are assigned to the backplane as follows Unit In slot QD2 address Slot address connected and fixed SUE 201 Is set using DIL switch 5 bit 3 101 in the terminal panel KO K4 shelf model ofthe SNUS see Fig 3 11 and Fig 3 10 5Bit 1 to 30 CUD 202 Is set using DIL switch SEL 0 GND 5102 on the backplane of SEL 1 GND the SNUS see Fig 3 10 5Bit here only 1 to 8 usable Line cards 1 6 203 to 208 4 bit 1106 LTx11 2 207 Fixed 5 bit 7 LTx2 2 208 Fixed 5 bit 8 LTx3 209 Fixed 5 bit 9 PU16 1 210 5 bit 10 CUC 1 211 Fixed 5 bit 13 5 bit 11 CUC 2 212 Fixed 5 bit 13 5 bit 12 PU16 2 213 5 bit 13 ADM SMX 216 Fixed 5 bit 16 Trib Unit 214 PSD 218 5 bit 18 OTSU_2M 218 Fixed 5 bit 18 1 LTO LTCOH LT2ME1 2 Ifan LTx unit instead of a line card is equipped in slots 207 or 208 the slot must be
100. cohol can be used as cleaning fluid Protection against Foreign Voltages in the System Two level foreign voltage protection for the outdoor user lines is provided within the en tire system shelf or ONU and subscriber ports on the slide in units For outdoor user lines 420 V gas tube arresters are recommended These can be in stalled in the MDF Main Distribution Frame of the ONU 30 FTTB or in an external MDF on the LSAs Sufficient protection against foreign voltages for outdoor subscriber lines are only given when appropriate protection elements are used 21 UMN TED Information Flexible Multiplexer FMX2R3 2 22 1 4 8 1 5 1 6 With the ONU 20 FTTO the protection elements are implemented on the terminal panel of the line card if the line card provides outdoor ports see technical data of the con cerned line card see Section 3 Virus Protection To prevent a virus infection you may not use any software other than that which is re leased for Operating System TMN OS based on Basis AccesslIntegrator Local Craft Terminal LCT and transmission system Even when exchanging data via network or external data carries e g floppy disks there is a possibility of infecting your system with a virus The occurrence of a virus in your system may lead to a loss of data and breakdown of functionality The operator is responsible for protecting against viruses and for carrying out repair procedures when the system is
101. configured accordingly with DIL switches S106 and S107 for slot 207 or with DIL switch S109 for slot 208 Switches S105 and S108 must always be switched see Fig 3 10 Tab 3 5 A50010 A3 C701 1 7618 SNUS Units and Addressing 51 UMN TED Information Flexible Multiplexer FMX2R3 2 DIL Switch 101 for SUE address 20 21 22 23 24 my ON LOW log 0 ON 0 Example Switch 1 on OFF corresponds to 20 24 Switch 5 on OFF corresponds to 2 16 OFF 1 Corresponds to address 17 for the SUE DIL Switch S102 for CUD address EH 15 2 ON LOW log 0 23 Example 135 2 Switch 2 on OFF corresponds to 21 2 LEN gt Corresponds to address 2 for the CUD 2 ON 0 OFF 1 TMN connection of the SNUS Delivery state all slides at S103 are switched to OFF to bottom and at S104 all slides are switched to ON to top it means supervision of the SNUS by SUE stand alone without COMPS2 and without OSU B 2 vm 8103 S104 3 18 Connector Assignment A B 5 X101 X108 X105 X107 X109 X111 X113 X115 X117 X141 X142 1 o Elf 3 i t QN gt amp 3 ojej 21 01 1916141512 511213 E Lleol 25 99 X102 X104 x106 108 110 112 X114 116 X120 Excha
102. e cards on the right hand side of the shelf with voltage The internal QD2 bus is a 4 wire interface based on EIA RS485 The master of the in ternal QD2 bus can be a SISAV located outside of the MXS19C e g the OSU in a COMPS2 shelf or it is the SUE plugged into the MXS19C By using the QD2 switches S2 and S3 the internal QD2 bus can be connected to the QD2 master port of the SUE S2 open S3 closed or to the QD2 slave port of the MXS19C S2 closed S3 open A50010 A3 C701 1 7618 Information UMN TED Flexible Multiplexer FMX2R3 2 Operating system OS QD2 S Addr Switch 1 30 002 slave F SUE QD2 master Addresses have to be set without SUE on the plug in unit QD2 S with SUE 4 Internal QD2 bus QD switch Adar 10 Addr 11 Addr xx Addr xx 1 30 S2 and S3 CUD 1 CUD 2 SISAK SISAV SISAV 902 5 SISAV SISAV SISAV LT 1 LT LT 8 LT T T SISAO SISAO SISAK m FMX2R3 2 FMX2R3 2 7 QD2 S LCs LCs SISAO SISAO SISAV SISAV gt gt eec FMX2R3 2 FMX2R3 2 LT 1 NT LT 8 NT QD2 M SISAO SISAO FMX2R3 2 FMX2R3 2 Fig 3 24 MXS19C 002 Access X101 QD2SIN1 QD2SOUT1 2 QD2SAN1 QD2SAB1 Slave port 1 QD2SOUT Internal QD2 bus
103. e he e RR RARE Ei 288 Schnittstellenmodul 1 64 298 Technical Data 2 cen a 303 Supervision Unit SUE Sead Re n RR d ni 311 eu MP Ba A ea alae eee Sa alae 311 Control and 313 Seni TP AT 314 Gonnector ASSIGNMENT uude da tow eh Rc ea de E e Ee 317 Technical Data iraran Eaa ehm tmn n hi nn hne 319 Supervisi ri OSU edes ad nose feat dd cb x 321 TII PR 321 Supervision and Alarm 51 323 erc 324 Connector 5 0 326 Technical Data uud der RE gcd sey AR oct ee eked Re 328 SISA Concentrator 51 330 QUII PP baie bch tid E ha capt a 330 Control and Monitoring see rakaa esa kaitan Veda AG Bee Da ee 332 COMO rm 333 Terminal Asslgnmeht eser hm ken 335 3eclinical ERE bo hehe 336 aoc Eutr 340 Operating Modes of the 340 Drop Insert 340 Terminal
104. e need for special permits or notification However the appropriate measures for reducing emissions are still taken in accordance with the state of the art e Solder systems with condensate traps minimize both the deposition of solvents at the workstation and emissions into the atmosphere e Our manufacturing processes are completely free of CFCs volatile CHCs chlorinat ed solvents and toxic substances e The heat generated from producing compressed air will be used for heating walkable floor surfaces e Module production is practically waste water free since the use of low residue fluxes obviates the need for cleaning processes e Far more than three quarters of all production waste is fed back into the secondary resources cycle Only 0 596 of the production waste has to be disposed of as special waste Transport shipping The systems made by our company are shipped exclusively in environmentally friendly packaging e pesticide free wooden packing cases collapsible reusable Cardboard boxes e JFilling stuffing air cushions with polyethylene envelope e The Green Dot symbol for all packing for private end customers as a sign of our involvement in Germany s dual system Energy consumption Our products are designed in consideration to reduce the energy consumption without affecting the normal features number of channels techn refinements etc Power down circuits also reduce energy consumption Taking back the prod
105. els of an ISDN line The fram ing integrity of the 128 kbit s connection is ensured Connected NTBAs are fed per port with up to 1 1 W power as consumed at the NTBA Dial up connections with CAS signaling Together with unit I8SOP the IUL82C or IUL84C operates in an dial up connection with CAS signaling for lengthening from S to see Fig 2 10 Additionally the IUL82C or IUL84C can be used as shown in Fig 2 14 IUL82C IUL84C IAUK2NTP LT Mode NT Mode Fig 2 14 Dial up Connection of the IUL82C or IUL84C with CAS Signaling in Repeater Mode Dial up connections with FA signaling Together with unit I8SOP the IUL84C implements an dial up connection with FA signaling by Fig 2 11 Additionally the IUL84C can be used as shown in Fig 2 15 IUL84C IAUKANTP LT mode NT mode 2 Mbit s e g multiplexer FA with DSC6 nx64C e g multiplexer 2 Mbit s with DSC6 nx64C Fig 2 15 Dial up Connection of the IUL84C with FA Signaling Leased line connections with FA signaling Together with unit I8SOP the IUL84C implements an ISDN leased line connection with FA signaling between Upo and So see Fig 2 12 In addition to the leased line connec tions shown in Fig 2 12 the IUL84C can be used as shown in Fig 2 16 A50010 A3 C701 1 7618 35 UMN TED Information Flexible Multiplexer FMX2R3 2 2 Mbit s e g multiplexer FA with DSC6 nx64 2Mbits X 2Mbit s IUL84C 140 4
106. he backplane of the shelf see Fig 3 27 5 bit 1 to 30 LTx 1 LTx 2 LC 1 LTx 3 LC 2 LTx 4 LC 3 LTx 5 LC 4 LC 5 LC 6 CUD CUD BEC LC 7 LC 8 LC 9 LC 10 LTx 6 1 411 LTx 7 LC 12 LTx 8 9 SISAK Tab 3 34 100 MXS19C Plug in Units and Addresses set with LCT see UMN ITMN A50010 A3 C701 1 7618
107. ia Overhead in an SDH Ring with Two Management 359 Fig 5 7 DCN Access via ECC in an SDH Ring with One Management System 359 Fig 5 8 DCN Access via ECC in an SDH Ring with Redundant Transmission 360 Fig 5 9 DCN Access via ECC in an SDH Ring with Two Management Systems 360 Fig 5 10 DCN Decoupling via ECC in SDH Ring 361 Fig 511 DCN Decoupling ECC in SDH Ring with Two Management Systems 361 Fig 5 12 DCN Decoupling via ECC in an SDH Ring with Redundant Transmission 362 Fig 5 13 DCN Decoupling via ECC in SDH Ring with Branch to Line Networks 363 Fig 5 14 DCN Decoupling via ECC in an SDH Ring with Branch to Line Networks Two Management Systems 364 Fig 5 15 DCN Decoupling via ECC in an SDH Ring atthe Node ne ea acerbe tds e tea 365 Fig 5 16 DCN Access via ECC in a Line Network with DON Protection eed xe med pru ES 366 Fig 5 17 DCN Access via ECC in a Line Network with Two Management 366 Fig 5 18 DCN Decoupling via ECC in a Line Network or Star Network with Two Management Systems 367 Fig 5 19 ECC Channel 64 kbit s or 9 6
108. in Sa in ANDed with E1Bin e Source for E1Bout low level high level Sa in E1Ain Sa in ANDed with E1Ain e Source for Sa out low level high level high resistance E1Ain E1Bin E1Ain ANDed with E1Bin If the option of frame synchronization of the CUD is used the Sa bits are not available as atransmission channel They are permanently set to 1 in the sent signal The Sa bit interfaces are switched to high resistance Internal Interfaces System Bus The system bus is subdivided into the PCM highway and the LC bus The line cards also receive their power supply via the system bus PCM Highway The PCM highway forms the interface between the central unit and the various line cards for serial transmission of data channels and PCM coded speech signals The sending and receiving signals of the PCM interface are synchronized by the same clock but can be in any phase position in relation to each other as far as the frame clock is concerned Both signal flow directions keep their own frame synchronization pulse PCM highway SYNC Lc clock 4 Mbit s LC bus The LC bus is an 8 bit computer bus for transmission of control and signaling data be tween the central unit and the LCs The interface works on the master slave principle i e the central unit is the master and the LCs are the slaves Irrespective of the division in the subrack up to 12 line cards can be operated every 4 ms with one CUD central unit
109. interface signals an alarm in the direction of the central service observation equip ment The ZA A interface is in the form of a normally closed contact At the normally closed contact ZA A either A alarm urgent or S alarm service is output and for both cases failure of the operating voltage The ZA B interface is in the form of a normally open contact It is used to signal B alarm non urgent Interface of ECC Via the ECC interface of the CUD a control signal can be derived from any timeslot of one of the E1 ports and inserted in the opposite direction This timeslot can then no long er be used for information transmission The ECC interface conforms to ITU T Recom mendation V 11 At the 64 kbit s bit rate no transparent data transmission is possible The data signal must be transmitted using HDLC frames 39 UMN TED Information Flexible Multiplexer FMX2R3 2 40 2 4 Sa Bit Interfaces The Sa bit interfaces are designed according to the interface conditions of EIA RS485 Four Sa bit interfaces Sab to Sa8 are available on the CUD One symmetrical signal line for the sending direction and one for the receiving direction can be connected for each Sa bit The transmission speed is 0 6 kbit s signal distortion about 15 to 1 2 kbit s signal distortion about 30 The following options for the data paths are available for all Sa bits on the CUD unit e Source for E1Aout low level high level Sa in E1B
110. m CUD plug in place 9 ZAB_308 ZA contact from LT1 plug in place 8 ZAB_314 ZA contact from LT2 plug in place 14 ZAB_315 ZA contact from LT3 plug in place 15 ZAB 316 ZA contact from LT4 plug in place 16 a A ZAB 317 ZA contact from LT5 plug in place 17 ZAB 318 ZA contact from LT6 plug in place 18 Operation ground Tab 3 30 FMX2S Connector X137 Connectors X141 X142 power supply connectors 48 V MUP 1 48 V MUP 2 48 V GND 48 V GND Tab 3 34 25 Connectors X141 X142 3 2 8 Technical Data 3 2 8 0 Environmental Conditions Environmental conditions acc to ETS 300 019 1992 Operation Class 3 1 acc to ETS 300 019 1 3 5 C to 40 C Transport Class 2 3 acc to ETS 300 019 1 2 40 C to 70 Storage Class 1 3E acc to ETS 300 019 1 1 745 C to 45 Product safety acc to EN 60950 1 A50010 A3 C701 1 7618 91 UMN TED Information Flexible Multiplexer FMX2R3 2 3 2 8 2 3 2 8 3 92 Foreign Voltage Protection Protection against external voltages on the outdoor subscriber lines OTC applications is implemented in 2 stages within the entire system For further information see Section 1 4 7 and UMN IMN Classification for external voltage protection acc to EN 300 386 V1 3 2 05 2003 ITC applications according ITU T K 20 07 2003 basic level OTC applications according I
111. ment sese Rem cree etree ERE nee 232 3 18 8 Supervision and Alarm Signaling 233 3 18 9 TechnicalData 2 dosi ser ERR eed Meee E den 234 3 19 DSC6 nx64C Digital Signal Channel 235 9 19 1 iue Er Eee Ere bea equ e ee gs 235 3 19 2 Codirectional 235 3 19 3 Centralized Clock 236 3 19 4 Contradirectional Interface 236 3 19 5 Point to Multipoint 236 3 19 6 Conference Modes of the Central Unit Drop Insert CUD 236 9 19 7 Testbacililles De eue dece E kr eue See Bees 236 3 19 8 Connector 237 3 19 9 Technical ad ce eec ee bs 238 3 20 CM64 2 Channel 240 cn UU X 240 3 20 2 2 16 241 3 20 93 Sa Bit Interface ciscus eee esha ee e Geach eee 241 3 20 4 Clock Synchronization 2 241 3 20 5 Supervision and Alarm 5 242 3 20 6 CONTOS sac lue 22 aden sede ke PE wee cid 243 3 20 7 Connector
112. nd Signaling 215 3 16 3 Supervision and Alarm Signaling and Diagnostics 215 3 16 4 Connector 216 3 16 5 Technical Data 01826 217 3 16 6 Technical Data 01846 219 317 IAUK2NTP IAUKANTP ISDN Line 221 SA UOVOIVIGW iuiidp Per Doe dad awed 221 3 17 2 Time Slot Assignment and Signaling 221 3 17 8 Connector Assignment of 40 2 223 3 17 4 Connector Assignment of the 40 225 9 17 5 Technical Data kh n RR 226 3 17 6 Technical Data IMUKANTP 227 3 18 DSC104C Digital Signal 229 3 18 1 XOVOIVIGW Metin Gtk eae ke EE ee wa ees 229 3 18 2 Point to Multipoint 229 3 18 3 Conference Modes of the Central Unit Drop Insert CUD 230 9194 Clock Synchronization er Rep et a aed 230 3 18 5 Supervision and 230 3 18 6 adh ee ore De sre AD Ee dient aa 231 3 18 7 Connector Asslgh
113. nd X111 56 A50010 A3 C701 1 7618 Information UMN TED Flexible Multiplexer FMX2R3 2 50010 701 1 7618 Signal Abbreviations GND Operation ground GND S Shielded ground y y 1 6 For LC1 LC6 e g LC2C1 A13 Signal from pin C1 of the line card 2 A wire from channel 13 Interfaces 2 Mbit s G 703 PU16 1 X109 X129 X110 X130 and PU16 2 X113 X133 X114 X134 Interfaces 2 Mbit s G 703 X109 X113 E GND S X129 X133 GND S X110 X114 GND S X130 X134 GND S E1 OUT1a E1 OUT5a E1 OUT9 a E1 OUT13a E1IN1a 1 1 E1IN9 a E1 IN13a E1 OUT2a E1 OUT6 a E1 OUT10a E1 OUT14a E1IN2a E1 IN6 a E1 1 10 E1 IN14 a E1 OUT3 a E1 OUT7 a E1 11 E1 OUT15a E1 IN3 a E1 IN7 a E1 IN11a E1 1 15 E1 OUT4 a E1 OUT8 a E1 OUT12a E1 OUT16 a E1 IN4 a E1 IN8 a E1 1 12 E1 IN16 a o Oo A N E1 OUT9 b OUT13b E1 IN9 b IN13 b E1 OUT10 b OUT14 b E1 IN10 b IN14 b E1 OUT11 b OUT15 b E1 IN11 b IN15 b E1 OUT12 b OUT16 b E1 IN12 b IN16 b Tab 3 11 SNUS Connectors X109 X110 X 113 X114 X129 X130 X133 X134 The interfaces from X129 are port 5 to 8 of the PU16 1 in Slot 210 and are internal con nected to the first 2 Mbit s interface of the CUD place and of the 3 LTx plug in places The interfaces from X110 are port 9 to 12 and are internal connected with the A
114. nge conn sl Ist rots LC slots 2Mbit s 2Mbit s 2Mbit s Add 1 X125 127 129 131 133 135 X137X138 X143 ele X151 215919 51 29221511 o E s 9 eiae eee 5 E3OUT 5 O 4 X153 X154 Xi21X122 X124 X126 X128 xi3d x13 X134 X136 X144 Eus Del beue her Dt Slot desig Nul ew yc a ue ence 201 202 203 204 205 206 207 208 209 240 211 212 2131214 215 216 217 218 1 1 1 1 1 1 1 Fig 311 SNUS Connector Assignment 52 A50010 A3 C701 1 7618 Information UMN TED Flexible Multiplexer FMX2R3 2 The possible equipping variants are shown in Tab 3 1 to Tab 3 3 Power Supply Connectors X141 and X142 48V MUP1 48V MUP2 48V GND 48V GND Tab 3 6 SNUS Connectors X141 and X142 Coaxial Jack X151 X151 ESIN1 X152 ESOUT1 interface 34 Mbit s from Tributary Unit QD2 X101 and X102 and Alarm Inputs X121 X101 X102 X121 QD2 slave QD2 master Alarm inputs GND S GND S QD2S1 OUT a QD2M IN a QD2T1 OUT a QD2S1 IN a QD2M OUT a QD2T1 IN a GND GND QD2S1 OUT b QD2M IN b QD2T1 OUT b QD2S1 IN b QD2M OUT b QD2T1 IN b Tab 3 7 SNUS 15 Contact Jacks X101 X102 and X121 Signal Abbreviations GND Operation ground GND S Shielded ground QD2SIN A1 B1 Slave 1 from the SUE QD2SOUT A1 B1 QD2SIN A2 B2 Slave 2 from the SUE QD2SOUT A2 B2 QIN A B QOUT
115. odel 100 in the terminal panel 302 S309 in the terminal panel in the terminal panel As delivered condition 0 0 1 0 0 stand alone 0 0 0 1 0 Tab 3 18 FMX2S Address Settings for the Units stand alone 0 1 0 0 1 Switching Over Addresses for Slots 208 214 and 215 Important advice for LTx addresses Since line cards and LTXs can be inserted into slots 208 214 and 215 addresses must also be switched here manually in order to ensure the correct address detection Slot 208 The following applies to slot 208 also see Fig 3 17 e Address switch S308 1 for LTx operation set to ON right e Address switch S308 1 for LC operation set to OFF left Slot 214 The following applies to slot 214 also see Fig 3 17 e Address switch S314 1 for LTx operation set to ON right e Address switch S314 1 for LC operation set to OFF left Slot 215 e No address switching is necessary for slot 215 S301 FMX2S Operating Mode S301 EE 16 2 15 3 14 4 118 QD2SIN A 5 12 QD2SIN_B 11 QD2SOUT A 2 10 QD2SOUT B 8 3 As delivered condition Standalone ON QD2SIN A1 __15 1 ite QD2SOUT A1 5 QD2SOUT B1 QD2MOUT A1 QD2MOUT B1 QD2MIN A1 4 os B1 5 B 6 W 7 e MI Standalone A50010 A3 C701 1 7618 Information UMN TED Flexible
116. oles of both voltages are connected to each other and to the backplane via a common filter and protection device as the operating ground GND The negative poles of both voltages are filtered separately and supply the units in the subrack as and MUP2 Whereas the SUE can be fed via its own reserve diodes from both voltages the input voltages for the CUD and the line termination units are applied to the two voltages MUP1 and MUP2 via reserve diodes on the backplane The line cards receive the required secondary voltages 5 V and 5 V from the CUD or BEC and also after protection on the CUD or BEC the KZU voltage MUKZU Without forced ventilation and with homogeneous distribution of heat sources in the sub rack about 105 W of power dissipation 1 25 W per 5 08 mm of basic grid are permitted Connectors in termination panel gt gt oo protection protection protection MUP 1 2 d KK AA AK AA AA KK AA eo e 9 9 e e e e e e SUE CUD LTx 1 CUD LTx 2 LTx 3 LTx 4 LTx 5 LTx6 Fig 3 16 FMX2S Power Supply A50010 A3 C701 1 7618 67 UMN TED Information Flexible Multiplexer FMX2R3 2 3 2 6 Switch Settings
117. ombinations Example lt CTRL gt lt ALT gt lt ESC gt Successive menu items Example File Close Additional items of information a Warnings at critical points in the activity sequence Tab 1 1 Typographical Conventions 1 3 Additional Documentation In addition following documentation are used e User Manual AccessIntegrator Domain Manager UMN ACI DM TDM version V8 3 SIEMENS Kit No A50010 T3 A819 e Depending on plugged components Crossconnect Multiplexer CMXC UMN CMXC SIEMENS Ordering No A50010 A3 C800 7619 2 Mbit s Line Terminating unit UMN LE2 FastLink SIEMENS Ordering No A50010 A3 K600 7619 Synchronous Multiplexer SMX1 4c UMN SMX1 4c FastLink SIEMENS Ordering No A50010 A3 K19 7619 Infrastructure UMN Infrastructure FastLink SIEMENS Ordering No Nr A50010 A3 K419 7619 e Project planning documentation 18 A50010 A3 C701 1 7618 Information UMN TED Flexible Multiplexer FMX2R3 2 1 4 Protection Measures This Section contains a summary of the most important requirements with regard to pro tection of people and equipment It does not claim to be complete The installation in structions listed are shown in detail in the relevant Installation Manuals All assembly installation operation and repair work may only be undertaken by properly trained and qualified personnel In the event of any injury e g burns and acid burns being sustained seek
118. on CAS of the E1 ports 2 Mbit s of a multiplexer with a 2 Mbit s signal 2 2 7 4 Digital Signal Unit CPF2 The CPF2 is a universal digital signal channel unit for providing various local data inter faces V 24 V 35 V 36 X 21 for connecting to X 50 or X 51 data networks as well as for data transmission via Ethernet The following interface modules are available Module Interfaces Operating mode Bit rates CIM V 24 V 24 synchronous 0 6 to 64 kbit s and 128 kbit s asynchronous 0 3 to 38 4 kbit s and 115 2 kbit s CIM V 35 V 35 synchronous 0 6 to 56 kbit s n x 64 kbit s n lt 30 with CAS 31 without CAS asynchronous 0 3 to 38 4 kbit s and 115 2 kbit s CIM V 36 V 35 RS530 CIM X 21 X 21 CIM nx64E 10 100Base T n x 64 kbit s n x 30 with CAS 31 without CAS Tab 2 1 Interface Modules for Use on the CPF2 A50010 A3 C701 1 7618 37 UMN TED Information Flexible Multiplexer FMX2R3 2 38 2 2 7 5 There are 4 interfaces on the channel unit which will be implemented with four plug in channel interface modules CIM V24 CIM V35 CIM V36 or CIM X 21 The function electrical interface and speed of the 4 ports can be configured individually and indepen dently of each other Up to 2 Ethernet interface modules CIM nx64E can be equipped per CPF2 Each CIM nx64E module provides 4 Ethernet ports Beside the unlimited use of CIM nx64E module in combination with all other CPF2 mod ules CIM V 24 V 35
119. ors X122 X131 X138 X112 and X132 Signal Abbreviations GND Operation ground GND S Shielded ground Index 1 SUE Index 2 CUD Index 3 5 LTx plug in places Index 6 7 CUCs Index 8 PSD Index 9 OTSU2M EAN AB A B1 to A B4 ECC1 to ECC4 of both CUCs A50010 A3 C701 1 7618 55 UMN TED Information Flexible Multiplexer FMX2R3 2 EAN ABCUD_A B ECC of the CUD 11 East V11W West TXC Transmit clock RXC Receive clock PCIS D Py Ny y21to 12 Output from the CUC PCIS Py Ny y21to 12 Input from the CUC Line cards X103 to X108 and X123 to X128 and LTx X107 X108 and X111 Line cards LTx1 to LTx3 Modules of the LT2ME1 X103 to X108 X123 to X128 X107 X108 and X111 G703 Uk2 SDSL GND_S 1 E1IN A1 SHDSL T4out_A H1B2 E1IN B2 E1IN E1IN_B1 SHDSL T4out B E1OUT A1 A1 SHDSL C12 H2B2 B2 E1OUT B1 E1OUT SHDSL_D1 E1IN A2 A2 SHDSL A2 T4out A B2 E1IN B2 SHDSL B2 T4out B H2B1 E1OUT B1 E1OUT A2 E1OUT A2 SHDSL C22 E1OUT B2 B2 SHDSL_D2 2 only with SDSL40p NI Oo Oo A H1A2 E1IN A2 H2A2 E1OUT A2 H2A1 E1OUT A1 H1A1 E1IN H1B1 E1IN B1 1 The 2 interface exists only at X111 Tab 3 40 SNUS Connectors X103 to X108 X123 to X128 X103 X123 X107 X108 a
120. r jobs for one or two complete channels over a maximum of two timeslots With end to end protection a timer job can be set up for each subscriber port Software controlled configuration operation and operation monitoring Suitable interfaces are present for connecting a local operating PC and for connect ing to a TMN Connected network termination units can be operated and monitored via the multiplexer Special documentation is available for the IWU sub modules Prod No A50010 A3 H102 7619 A50010 A3 C701 1 7618 Information UMN TED Flexible Multiplexer FMX2R3 2 2 2 System Structure 2 2 1 Overview The multiplexer includes the following units see Fig 2 5 Acentral unit drop insert CUD Up to 6 line cards LC of the following types SUB102 subscriber converter a b wire subscriber side SLX102 or SLX102E subscriber converter a b wire switching side SLB62 subscriber converter for local battery a b wire UAC68 universal analog line card 2 4 wire leased lines or with E amp M SEM106C 2 wire E amp M converter SEM108HC 4 wire E amp M converter LLA102 104C line card for analog 2 wire 4 wire leased lines 8S0P ISDN line card Sg interface IUL82C ISDN line card interface 2810 I4UK2NTP ISDN line card interface 2810 switching side IUL84C ISDN line card interface 4B3T I4UKANTP ISDN line card interface 4B3T switching side DSC104C digital signal channel
121. re not subject to electrostatic discharge Under no circumstances should the printed conductors or components of modules be touched Take hold of modules by the edge only Once they have been removed modules must be placed in the conductive plastic sleeves intended for them and kept or dispatched in the special boxes or transport cas es bearing the ESD symbol In order to avoid further damage to defective modules they should be treated with the same degree of care as new ones Modules which are accommodated in a closed and intact housing are protected anyway European standard EN50082 1 provides information on the proper handling of compo nents which are subject to electrostatic discharge A50010 A3 C701 1 7618 Information UMN TED Flexible Multiplexer FMX2R3 2 1 4 5 A 1 4 6 1 4 7 50010 701 1 7618 Handling Modules General When working with modules slide in units power supply modules subracks the follow ing points should be noted e Existing ventilation equipment must not be changed The sufficient air circulation must not be obstructed Beware of rotating parts e When changing power supply modules you must switch off the fuse at the ac power connection Damaged power connection cables for ac power operated systems are to be replaced by special leads supplied by the manufacturer e All slide in units except for power supply modules can be removed or inserted with the power still
122. s and measure ments for activating the installed system including step by step instructions to commis sion the FMX2R3 2 FMX2R3 2 is operated via the graphical user interface of the ACI Domain Manager ver sion 8 3 or higher which is described in separat manuals see Section 1 3 The register Operation UMN OMN offers a guide line to use the operating procedures for configur ing the system and for creating connections The procedures which expedite the re establishment of normal operating state after a malfunction has occurred in the FMX2R3 2 can be find out via the operating system by Branch to Maintenance The register Maintenance UMN MMN gives an overview of the possible malfunctions and contains a guideline for using of the Branch to Mainte nance UMN TED Information Flexible Multiplexer FMX2R3 2 12 Typographical Conventions In all sections of this manual the following conventions are applied Courier Inputs and outputs Example Enter LOCAL as the server name Command not found Italics Variables Example name can be up to eight letters long Italics Variables fin procedures and title bas Example General NE Parameter Network Element gt CUC Boldface Special emphasis Example This name may not be deleted Quotation marks Labels on the user interface e g windows menu items buttons Example Activate the OK button Make a selection in the File menu Courier Key c
123. sub D connectors and likewise to X128 X135 and X136 This sometimes leads to the failure of the entire QD2 bus S215 1 QD2MOUT LC215C4 148 QD2MOUT A1 LC215A4 2B QD2MIN B1 3 16 21502 138 QD2MIN A1 5 9 LC215A2 1B Separation sub D LC and QD2 bus If LC is used open If LTx is used closed ON As delivered condition LC S208 2 Adapting to LC LTx Equipping in Slot 208 T3 clock feed S208 2 LC208C30 218 1 LC208c32 22B 2 3 1 Separation of sub D LC and 1 if LTx is used LC Open LTx1 Closed As delivered condition LC S214 2 Adapting to LC LTx Equipping in Slot 214 T3 clock feed S214 2 Lc214c30 218 4 1 LC214C32 228 3_ 1 Separation of sub D LC and 1 if LTx is used L Open LTx1 Closed As delivered condition LC S215 2 Adapting to LC LTx Equipping in Slot 215 T3 clock feed 5215 2 LC215030 218 1 LC215032 22B 2 3 T8OUTB 1 Separation of sub D LC and 1 if LTx is used LC Open LTx1 Closed ON As delivered condition LC 74 ON ON T mr 2 7 7 5 4g 5 G LC LTx ON ON 1 mL LC LTx ON ON 1 H 20 3 His LC LTx ON ON
124. tor X129 E 8 LTx3 LTx4 for 2MBit E1 If equipped with LC LG LTx As delivered condition LC A50010 A3 C701 1 7618 79 UMN TED Information Flexible Multiplexer FMX2R3 2 80 3 2 7 Connector Assignment LC Connectors General Assignment A GND Assignment C GND This is valid fo Remark r system 1 LC Y A1 1A LC Y C1 13A LC Y A3 2A LC Y C3 14A Comes from LC Y A7 3A LC Y C9_15A LC1 1 X203 LC Y A11 4A LC Y C13 16A LC2 1 X204 LC Y A13 5A LC Y C17 17A LC3 1 X205 LC Y A19 6A LC Y C19 18A 04 1 X206 LC Y A23 7A LC Y C23 19A LC5 1 X207 NI omy A LC Y A25 8A LC Y C25 20A LC6 1 X208 E LC Y A29 9A LC Y C29 21A System 2 a LC Y A31 10A LC Y C31 22A Comes from E LC Y A15 11A LC Y C7 23A LC1 2 X210 Y 2 210 E LC Y A17 12A LC2 2 X211 Y 211 ER AB LC Y A2 1B LC Y C2 13B LC3 2 X212 Y 2212 E LC Y A4 2B LC Y C4_14B LC4 2 X213 Y 2 213 E LC Y A8 3B LC Y C10 15B LC5 2 X214 Y 2214 EF N LC Y A12 4B LC Y C14 16B LC6 2 X215 Y 2 215 E LC Y A14 5B LC Y C18 17B This is valid fo r system 1 N LC Y A20 6B LC Y C24 19B N A LC Y A24 7B LC Y C26 20B Comes from N N LC Y A26 8B LC Y C30 21B
125. uct Currently it is only possible to take back products when this has been regulated by prior contract agreements Waste disposal Basically the systems from Siemens Wireline Access Networks are produced without any hazardous or forbidden substances such Cadmium PCBs CFCs or such like Once A50010 A3 C701 1 7618 23 UMN TED Information Flexible Multiplexer FMX2R3 2 24 this product has reached the end of its useful life it can be fraction separated and dis posed of without hesitation in accordance with the current state of the art List of materials Casing Aluminum steel ABS plastic flame resistant Surface coating only when this is required by the customer e Modules Normal electronic components disposal as electronic waste The board material contains brominated flame retardants The following are to be disposed of separately Electrolytic capacitors LCDs and mechanical components heat sinks Cable Copper e Connectors Gold plastic e Batteries Lead acid batteries SW controlled charge and discharge cycles considerably extend the life of today s lead acid batteries Special features of specific components are listed in the enclosed dismantling guide All information is provided on a voluntary basis and far exceeds that required by law Should you have any other questions about our quality and environmental management please send an e mail to the following address horst wild icn siemens de
126. ultiplexer FMX2R3 2 Dial up connections with FA signaling Together with unit I8SOP the I4UK4NTP implements in FA dial up connections conver sion of to 50 see Fig 2 11 With the IUL84C as a subscriber side unit the IAUKANTP operates in the back to back multiplexer as a extension see Fig 2 15 2 2 7 Line Cards for Digital Services 2 2 7 4 Digital Signal Unit DSC104C The DSC104C Digital Signal Channel line card will be employed for the transmission of digital signals at a bit rate of 64 kbit s The unit incorporates 10 codirectional interfac es which conform to ITU T Recommendation G 703 If a signal is being transmitted sig naling bits a b c d are given the fixed values 1 101 2 2 7 2 Digital Signal Unit DSC6 nx64C Digital Signal Channel DSC6 nx64C provides 6 interfaces in accordance with ITU T Recommendation G 703 and will be used for transmission of digital signals with bit rates of n x 64 kbit s n 2 1 to 30 31 There is the option of operating the 6 interfaces codirectionally n 2 1 to 8 or with cen tralized clock n 1 Two of the interfaces can also be switched over to contradirection al mode n 1 to 30 31 If a signal is being transmitted signaling bits a b c d are given the fixed values 1 10 1 2 2 7 3 Digital Signal Unit CM64 2 The CM64 2 line card is used for network branch to the 2 Mbit s level The CM64 2 com bines any number of time slots and the associated signaling informati

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