OptiX BWS 1600G Descripcin de Hardware

*ReferenciasOptiX BWS 1600G Backbone DWDM Optical Transmission System Technical ManualOptiX BWS 1600G Backbone DWDM Optical Transmission System Hardware Description Manual

*Captulo 1 Descripcin del SistemaCaptulo 2 Rack y SubrackCaptulo 3 TarjetasCaptulo 4 Protecciones

*Caractersticas del SistemaOptiX BWS 1600G OptiX BWS 1600G es designado para una alta capacidad de transmisin. Permite transmitir con simultaneidad 160 canales, con una tasa mxima de datos por canal de 10Gbit/s. Estos canales tienen un espaciamento de 50GHz. El sistema OptiX BWS 1600G provee las bandas C y L.1529.55nm196.00THz1560.61nm192.10THz1529.16nm196.05THz1560.20nm192.15THz1570.42nm190.90THz1603.17nm187.00THz1570.82nm190.85THz1603.57nm186.95THzC-bandL-band

*Sistema OptiX BWS 1600G en una red de transmisin optica

*Caractersticas Tcnicas del EquipoAlta capacidad con precisin;Capacidad de expansin;Multi-tasas y multi-servicios de acceso;Transmisin Long Hault;Gestin inteligente del sistema de redTransmisin de la seal de reloj

* Varios tipos de tarjetas disponibles para diferentes tipos de aplicaciones2.5G 2.5GDWDMGran eficiencia con acceso multi-servicios

*Tipos de Sistemas 1600G

Categoria del sistemaEspaciamento del canalFuncionalidades del sistemaOptiX BWS 1600G-I50GHzSoporta long hault y grande capacidad de transmisinOptiX BWS 1600G-II100GHzSistema de 80 canales, incluindo banda C (40 canales) y banda L (40 canais). La tasa mxima por canal es de 10Gbit/s, e la capacidad mxima del sistema es 800GOptiX BWS 1600G-III100GHzSistema de 40 canales (banda C). Capacidad mxima por canal es de 10Gbit/s, capacidad mxima del sistema es 400G.OptiX BWS 1600G-IV100GHzSistema para aplicacin en la banda L, sistema especializado para fibras G.653;OptiX BWS 1600G-V100GHzSistema de 40 canales (banda C). Capacidad mxima por canal es 2,5Gbit/s, y la capacidade mxima del sistema es 40x2.5Gbit/s;OptiX BWS 1600G-VI100GHzSistema de 40 canales (Banda C) con una capacidad mxima por canal de 10 Gbps y capacidade maxima del sistema es 400 Gbps200GHz10 canales (Banda C), 10Gbps por canal y capacidad mxima es 100Gbps;

*Captulo 1 Descripcin del SistemaCaptulo 2 TarjetasCaptulo 4 Protecciones

*Mximo consumo del rack (configuracin completa): 2000W Capacidad do Fusible:50AFuente del Poder: 38.4 V ~ 57.6 V DC (48 V nominal), o 48.0 V ~ 72.0 V DC (60 V nominal)Estructura del Rack

*Captulo 1 Descripcin del SistemaCaptulo 2 TarjetasCaptulo 4 Protecciones

*Captulo 3 Tarjetas3.1 Tarjetas Transponder3.2 Tarjetas OM/OD/OADM3.3 Tarjetas Amplificadoras3.4 Tarjetas con otras funciones

*Flujo de Seal del Equipo DWDM

*Acceso a multi-servicios OTUOTUOCh

*Funciones Basicas de la OTU OTUITU-TG.692ITU-TG.694.1ITU-TG.709FEC/AFEC/EFECFuno ESCEspaciamento(50GHz/100GHz) NRZ/Super WDMTunable OTUClienteDWDMITU-TG.691ITU-TG.957IEEE802 seriesSANATM850nm/1310nm/1550nmMonitoreo B1, (B2, J0Performance/Alarma Funcion ALSFuncion 3R

*Classificacin de la OTU

*10Gbps/AFECLRF10Gbps/FECOTU de RegeneracinSTM-64STM-64Classificacin de la OTUTRC2.5GbpsSTM-16LRFSTMRTMRS10Gbps/AFEC/SuperWDM10Gbps/FEC/SuperWDMSTM-64STM-64

*Diagrama de una OTU general Diagrama de bloques funcional de la LWFOptical transponder modulePerformanceand alarmmonitoringCPUMailboxSTM-64STM-64Lado ClienteLado DWDMG.694.1G.694.1SCC board

*OTU para Regeneracin Diagrama de Bloque Funcional de las LRF/LRFS/LRS/TRC/TRC1/TMR/TMRS/TWC

*Categoria de las Tarjetas

TarjetaNombre CompletoAnchura de la tarjeta (mm)Slot LWFSTM-64 transmit-receive line wavelength conversion unit with FEC function38IU1 IU6, IU8 IU13LWFSSTM-64 Transmit-receive Line Wavelength Conversion Unit With FEC (SuperWDM) 38IU1 IU6, IU8 IU13LWSSTM-64 Transmit-receive Line Wavelength Conversion Unit with Enhanced FEC Function 38IU1 IU6, IU8 IU13OCUQuadruple STM-16 Multiplex Optical Wavelength Conversion Unit with FEC76IU1 IU5, IU8 IU12OCUSQuadruple STM-16 Multiplex Optical Wavelength Conversion Unit (FEC & SuperWDM)76IU1 IU5, IU8 IU12LDG2 x Gigabit Ethernet Unit38IU1 IU6, IU8 IU13LBE10GE Transceiving Wavelength Conversion Board with FEC(LAN interface) 38IU1 IU6, IU8 IU13LBES10GE Transceiving Wavelength Conversion Board with FEC (LAN interface)(SuperWDM) 38IU1 IU6, IU8 IU13LWCSTM-16 Line Wavelength Conversion Unit 38IU1 IU6, IU8 IU13

*Categoria de las Tarjetas

TarjetaNombre CompletoAnchura de la tarjeta (mm)Slot LWC1STM-16 Line Wavelength Conversion Unit (compliant with G.709) 38IU1 IU6, IU8 IU13LWXArbitrary Bit Rate Wavelength Conversion Unit 38IU1 IU6, IU8 IU13LWMMulti-rate Optical Wavelength Conversion Unit 38IU1 IU6, IU8 IU13LGS1 x GE and 1 x STM-1/4 Combiner Board 38IU1 IU6, IU8 IU13LQS4 x STM-1/4 Multiplex Optical Wavelength Conversion Board 38IU1 IU6, IU8 IU13TMX4-Channel STM-16 Asynchronous MUX OTU-2 Wavelength Conversion Board 76IU1 IU5, IU8 IU12TMXS4-Channel STM-16 Asynchronous MUX OTU-2 Wavelength Conversion Board (SuperWDM) 76IU1 IU5, IU8 IU12EC88 x ESCON Service Convergence Board 38IU1 IU6, IU8 IU13AP44-Channel Protocol-Independent Service Convergence Board 38IU1 IU6, IU8 IU13

*Caractersticas de las OTUs

TarjetasLado DWDMTasa de transmisinLado ClienteTipo de ServicioFuncinFECProteccinSuper WDMLWF10.71GSTM-64FEC1+1 inter-board1:NNOLWFS10.71GSTM-64FEC1+1 inter-board1:NSILWS12.44STM-64EFEC1+1 inter-board1:NNOOCU10.674*2.5G SDH/SONET serviceFEC1+1 inter-boardNOOCUS10.674*2.5G SDH/SONET serviceFEC 1+1 inter-boardSILDGSTM-162*GE (850nm/1310nm)NO1+1 NOLBE10.71G10GE(10.31G)FEC1+1 inter-board1:NNOLBES10.71G10GE(10.31G)FEC1+1 inter-board1:NSILWCSTM-16STM-16FEC1+1 inter-boardNOLWC1STM-16STM-16FEC1+1 inter-board1:NNO

*Caractersticas de las OTUs

TarjetasLado DWDMTasa de transmisinLado ClienteTipo de ServicioFuncinFECProteccinSuper WDMLWXSTM-1634 Mbit/s2.5 Gbit/s at 850 nm ou 12801565 nmNO1+1NOLWMSTM-16STM-1/OC-3, STM-4/OC-12 ou STM-16/OC-48NO1+1NOLGSSTM-161 x GE e 1 x STM-4/STM-1NO1+1NOLQSSTM-164 STM-1/STM-4NO1+1NOTMX10.71VC-4/STS-3 concatenado ou 4*2.5G SDH/SONETAFEC1+1 inter-boardNOTMXS10.71VC-4/STS-3 concatenado ou 4*2.5G SDH/SONETAFEC1+1 inter-boardSIEC8STM-168*ESCON (200M)NO1+1NOAP4STM-16200M--1.2G(ESCON, FICON,FC, DVB-ASI)NO1+1NO

*Captulo 3 Tarjetas3.1 Tarjetas Transponder3.2 Tarjetas OM/OD/OADM3.3 Tarjetas Amplificadoras3.4 Tarjetas con otras funciones

*Funciones Basicas de las OM/OD MultiplexorDemultiplexor

*Tarjetas Multiplexoras/Demultiplexoras/OADM

Tipo de TarjetaNombreNombre CompletoTarjetas Multiplexoras / DemultiplexorasM4040-channel Multiplexing UnitV4040-channel Multiplexing Unit with VOAD4040-channel Demultiplexing UnitTarjetas Add/DropMR22-channel Add/Drop UnitITLInterleaver UnitFIUFiber Interface Unit

*M40 Diagrama de Bloques Funcionales de la M40

*V40 SCCDiagrama de Bloques Funcionales de la V40

*D40Diagrama de Bloques Funcionales de la D40InputMON outputsignals

*Canales DWDM

*Canales DWDM

*MR2Diagrama de Bloques Funcionales de la MR2

*ITLDiagrama de Bloques Funcionales de la ITL

* FIUDiagrama de Bloques Funcionales de la FIU OUTMONTMTMB

*Captulo 3 Tarjetas3.1 Tarjetas Transponder3.2 Tarjetas OM/OD/OADM3.3 Tarjetas Amplificadoras3.4 Tarjetas con otras funciones

*Tarjetas Amplificadoras pticas

Tipo de TarjetaNombreNombre Completo

Amplificador dopado rbio (EDFA)OAUOptical Amplifier UnitOBUOptical Booster UnitOPUOptical Preamplifier UnitHBAHigh-power Optical Booster Amplifier BoardWBAWDM Optical Booster Amplifier UnitAmplificador RamanRPCRaman Pump Amplifier Unit for C-bandRPLRaman Pump Amplifier Unit for L-bandRPARaman Pump Amplifier Unit for C-band and L-band

*Erbium Doped Optical Fiber AmplifierBanda-C: OAU, OBU, OPU Banda-L: OAU, OBU

OAU-CG y OAU-LG: Utilizada cuando tenemos solamente el EDFA en el sistema;

OAU-CR y OAU-LR Utilizada juntamente con el amplificador Raman;

*OAUINOUTMONTDCRDC12345PABAVOADiagrama de Bloques Funcionales de la OAU La gananacia de la OAU puede ser ajustada, y la ganancia tipica s 23dB, 28dB, e 33dB.

*Amplificador Raman (RPA) El OptiX BWS 1600G ayuda los operadores de la red con 3 tipos de amplificadores Raman incluindo RPC, RPL e RPA. Utilizado en la recepcin del sistema DWDM para amplificacin de las seales pticos.

*Amplificador Raman (RPA)

NombreTipo conectorDescripcinLINEE2000/APCConectado con la fibra optica, recibe seales remotos (otra estacin)EXTE2000/APCInterface de extensin del RPC, conectado con el RPL de forma que la transmisin total de banda sea realizado.SYSE2000/APCConectado con la FIU, transmite seales amplificados para el equipo localMONLCConectado con la MCAOUTE2000/APCSalida del RPL, conectado con el RPC

*Captulo 3 Tarjetas3.1 Tarjetas Transponder3.2 Tarjetas OM/OD/OADM3.3 Tarjetas Amplificadoras3.4 Tarjetas con otras funciones

*Tarjetas con otras FuncionesTarjetas de Deteccin y Ajuste de Perfomance MCA,VA4,VOA,DGE,DSE,GFUTarjetas de Monitoreo Automtico de la Fibra FMU,MWA,MWFTarjetas de Supervisin y Tarjetas Controladora y de Comunicacin SC1,SC2,TC1,TC2,SCC,SCE

*Tarjeta de Deteccin de Performance y Ajuste

Nombre de la tarjetaNombre CompletoMCAMulti-Channel Spectrum Analyzer UnitVA44-Channel Variable Optical Attenuator BoardVOAVariable Optical Attenuator BoardDGEDynamic Gain Equalizer BoardDSEDispersion Slope Equilibrium BoardGFUGain Flatness Unit

* Tarjeta Analizadora de Espectro MulticanalDiagrama de Bloque Funcional de la MCA

*MWFN DWDMMWFMWAN DWDMN DWDMFMUTarjeta de Monitoreo Automtico de la Fibra

*Tarjeta de Supervisin ptica y Tarjetas Controladoras y de Comunicacin

TarjetaNombre CompletoSC1Single Directional Optical Supervising Channel UnitSC2Dual Directional Optical Supervising Channel UnitTC1Unidirectional Optical Supervisory Channel and Timing Transporting UnitTC2Bidirectional Optical Supervisory Channel and Timing Transporting UnitSCCSystem Control & Communication UnitSCESystem Control & Communication Unit for Extended Subrack

*TC1/TC2 y Proteccin del reloj 1+1 Transmisin Simultanea & Recepcin Selectiva (dos canales de salida del reloj ) ClockTCTCFIUCanal de Proteo1625nmCanal Activo1510nmToBITSTCTCFIUCanal de Proteo1625nmCanal Activo1510nmClockTCTCFIUCanal de Proteo1625nmCanal Activo1510nmToBITSTCTCFIUCanal de Proteo1625nmCanal Activo1510nm Transmisin Simultanea & Recepcin Selectiva (un canal de salida del reloj )

*Tarjeta SCC / SCEMDBDatos de la configuracin recibidos del T2000 via SCCDRDBRealiza VerificacinPlacas CargaFDB0FDB1Copia ManualABEXTID9BASICIDIDIdentificador del Elemento de Red (NE)ID+IP Identificador del Gateway NE (GNE)IP129.9.A.BID:9*256*256+A*256+B

*Captulo 1 Descripcin del SistemaCaptulo 2 Rack y SubrackCaptulo 3 TarjetasCaptulo 4 Protecciones

*Tarjetas de Proteccin del Equipo

TarjetaNombre CompletoOCPOptical Channel Protection UnitOLPOptical Line Protection UnitSCSSync Optical Channel Separator UnitPBUPower Backup Unit

*Proteccin del Canal ptico Diagrama de Bloques Funcionales de la OCP

*Proteccin del Canal pticoConexin de proteccin de fibra 1:8 OTU Canales ActivosCanales Activos

*Proteccin de Linea ptica Diagrama de bloques funcionales de la OLP

*Tarjeta OLPPw-34dBmPp-34dBm, la tarjeta OLP no conmuta para proteccinPw-35dBmPp>-34dBm, la tarjeta OLP conmuta de la fibra activa para la fibra de proteccin Pw>-34dBmPp-35dBm, la tarjeta OLP conmuta de la fibra de proteccin para la fibra activaPw>-35dBm,Pp>-35dBmi|Pw-Pp|5dB, los servicios sern conmutados para la fibra de mayor potenciaii3dB|Pw-Pp|

*Proteccin de Canal ptico SincronizadaDiagrama de bloques funcionales de la SCS RO1RO2TI2

*Tarjeta Power Backup Diagrama de bloques funcionales de la PBU

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**It is easy to upgrade the system by activating unused channel with the addition of new wavelength.

*Various services of different digital rates from PSTN, Ethernet, ATM, SAN, Video etc. Standard-based, open architectureSTM-64/STM-16/STM-4/STM-1SDHSTM-64c/ STM-16c/STM-4c(POS/ATM)SDHESCON200MbpsFICON133M/266M/533M/1.06G/2.12GbpsGigabit Ethernet 1.25Gbps Fiber Channel 1.06Gbps PDH34M45M140M PDHFast Ethernet100MFDDI STM-6410GE 10G SDH/POS10GEOC-192D1 Video270Mb/sAsync FOTS150Mb/s565Mb/s10GE 10.3125Gbps ITUG.695CWDMG.695//G.694.21271nm1611nm20nm18G.6528162+28+82.5G1.25G40802001ITUCWDMITU15PeterWeryCWDM *ITU-TG.694.1/2 DWDM CWDM

** M40 can multiplex 40 optical wavelengths at most. According to the working wavelengths and channels, M40 is available in four types, called C-ODD, C-EVEN, L-ODD and L-EVEN accordingly. channel spacing of the M40 board is 100GHz. A dedicated monitoring port (MON) is provided;Support optical power detecting and the alarms & performance reporting. Performance events of M40 include: total output optical power, AWG heating/cooling current, AWG working temperature and environmental temperature of board.*Difference between V40 and M40:V40=VOAAWG.V40 is a multiplexing unit with built-in variable optical attenuator. V40 is used only for C-band, and is available in two types i.e. C-ODD and C-EVEN.

*D40 is 40-channel optical demultiplexer unit. Similar to M40, it is available in 4 types according to the working wavelengths, called C-ODD, C-EVEN, L-ODD and L-EVEN AWG Type, Channel spacing: 100GHz.Support optical power detecting and the alarms & performance reporting.A dedicated monitoring port (MON) is provided.Performance events of M40 include: total output optical power, AWG heating/cooling current, AWG working temperature and environmental temperature of board.

*An MR2 board can add/drop two service channels with 100GHz channel spacing. In type I, II, III and V system, MR2 board can add/drop channel in C-band; in type IV system, MR2 will add/drop service channel in L-band.

*ITL board is only used in OptiX BWS 1600G-I system, multiplexing/demultiplexing the odd channels and even channels.The optical module comprises two interleavers, converges ODD and EVEN channels to one stream with 50GHz channel spacing and sends to FIU board.*FIU has four types of different specifications: the first type FIU-I board is only used in the system needing clock protection (1625nm protection wavelength). The second type FIU-II is only applicable in the 1600G system without clock protection. The third type FIU-III only supports the multiplexing/demultiplexing of C band and supervisory signals (1510nm). The board components are then reduced and the cost is saved. It is used in C band 400G/100G system (System III, V). The fourth type FIU-IV only supports the multiplexing/demultiplexing of L band and supervisory signals (1625nm), applied in the 400G system of L band (i.e., system IV).

*It can amplify 80 optical channels simultaneously, with 50GHz channel spacing. It can enable the full-band optical amplification of C and L bands by using different types of OAU. The gain provided by OAU board can be adjusted continuously, and the typical gain is respectively 23dB, 28dB, and 33dB;For the provision of gain-locking function;Provide gain flatness function.*VA4 board is used for optical power adjustment and equalization.One VA4 can process four optical channels. It drives the variable optical attenuator according to the control command sent by the SCC. VA4 board is mainly used in OADM equipment. It is also located before M40 to achieve the power adjustment of the accessed optical power signals.

* MCA (Multi-channel spectrum analyzer unit) facilitates with built-in online spectrum analysis and supervisory function. it can supervise central wavelength, power, OSNR and other parameters of optical signal for 8 channels. MCA board accesses the signals to be tested, from monitoring ports (MON) located at M40, V40, D40, OAU and FIU etcFour types of MCA are available MCA-4 (C): Applied for C-band, supporting spectral analysis for 4 channels of signals MCA-4 (L): Applied for L-band, supporting spectral analysis for 4 channels of signals MCA-8 (C): Applied for C-band, supporting spectral analysis for 8 channels of signals. MCA-8 (L): Applied for L-band, supporting spectral analysis for 8 channels of signals *DWDM nodes can be OTM, OLA, OADM, OEQ or REG. The FMU board sends out test optical pulse, as well as receives, collects, processes and reports reflected signal, thus monitoring the running conditions of the working optical fiber in real time. One FMU can monitor up to four optical fibers The MWA board combines the service signal and test signal to one optical fiber for transmission When test signal and service signal are transmitted in the same direction, the MWF filters out test signal at the receiving end to eliminate the effects of test signal on the system *SC1/SC2 board is independent from the main control board;SC1/SC2 is transmitted in sections, with 3R function.The signal wavelength of supervisory channel in OptiX BWS 1600G system I, II, III and V is 1510nm, while the wavelength of supervisory signal in system IV is 1625nm.*Provide 3-channel E1 clock service add/drop, and provide electrical interface for the external synchronous signal and synchronous equipment timing source. Clock interface 2048kbit/s or 2048kHz .Provide equipment-level 1+1 board protection, and double optical wavelength redundancy protection. Supervisory information and clock signals are transmitted in both 1510nm and 1625nm.

*it accomplishes all the management functions and is responsible for the communication between the equipment and network management system. It implements the orderwire overhead processing as well. The only difference of SCE with the SCC lies in its absence of orderwire overhead processing function .*The OTU board is fed with stand-along power, the PBU provides centralized protection, backup function is realized through hardware detection circuit and switching circuit and the fault of PBU and OTU backup circuit is reported through software *The function of OCP (optical channel protection) board is to protect OTU wavelength channel to Ensure uninterrupted service channel transmission. The OCP board is usually placed in between OTU and SDH equipment accessed. OCP board provides 1:8 OTU protection. APS (automatic protection switch) protocol is involved in 1:8 OTU protection. The whole switching process is completed within 200ms.

*Pw-34dBmPp-34dBm,OLP board will not generate protection switching;Pw-35dBmPp>-34dBm,OLP board will generate protection switching from the active fiber to the standby fiber;Pw>-34dBmPp-35dBm,OLP board will generate protection switching from the standby fiber to the active fiber;Pw>-35dBm,Pp>-35dBmi|Pw-Pp|5dB ,services will be switched to the fiber with larger optical power ii3dB|Pw-Pp|