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Dense Wavelength Division Multiplexing Theory What we will cover • • • • WDM Overview Optical Fiber Transmission Characteristics Key technologies of DWDM Technical Specifications Background WDM TDM SDM PDH, SDH and DWDM G.692 DWDM G.957 G.691 SDH 155M PDH 622M 2.5G 10G Relationship between DWDM and Other Services IP ATM SDH ATM IP Other Open Optical Interface SDH DWDM Physical Fiber WDM Definition • WDM enables transmitting multiple optical carriers with information (analog or digital) on one fiber l1 l2 lN l1 l1 l2 l2 lN lN OA OMU ODU DWDM Concept Dense wavelength division multiplexing (DWDM) Power (dBm) wavelength interval :0.8~2nm 1529 - 1560nm λ(nm) DWDM System Optical Transmitter Ch 1 OTU1 ┇ OTUn λ1 BA λs λ s LA λs PA λs λn ODU Ch N λ1 OMU Input Optical Receiver OLA OSC OSC EMS OTU1 ┇ Output Ch N λn OSC Ch 1 OTUn Common Network Elements in DWDM • Optical Terminal Multiplexer (OTM) • Optical Line Amplifier (OLA) • Optical Add/Drop Multiplexer (OADM) Optical Terminal Multiplexer (OTM) At the transmitter end, the OTM: Multiplexes the STM-N signals of “N” wavelengths λ1~λN into a DWDM main optical channel Amplifies the optical power of the main channel via the multiplexer Adds an optical supervisory channel λs At the receiving end, the OTM: Extracts the optical supervisory channel λs DWDM main optical channel is amplified and de-multiplexed into STMN signals of the N different wavelengths Client side Line side λ1 λn λ1 λn OTM Optical Line Amplifier (OLA) • OLA is configured in each direction of the fiber link • OLA extracts the optical supervisory channel (OSC) and processes it • It then amplifies the main optical channel signals, multiplexes them with the optical supervisory channel and sends them onto the fiber Line side Line side OLA Optical Add/Drop Multiplexer (OADM) • OADM performs add/drop of wavelengths Line side Line side λ1 λn λ1 λn Client side OADM Operational Wavelength Range 3.0 ~140THz 2.5 ~50THz OH- absorption peak 2.0 OH- absorption peak Loss (dB/km) 1.5 OH- absorption peak 1.0 0.5 O E S C L 0 800 1000 1200 1400 1600 Wavelength (nm) O Band Original 1260-1360 nm E Band Extended 1360-1460 nm S Band Short 1460-1530 nm C Band Conventional 1530-1565 nm L Band Long 1565-1625 nm U Band Ultralong 1625-1675 nm Division Of Low-Loss Window 3.0 ~140THz 2.5 ~50THz OH- absorption peak OH- absorption peak 2.0 Loss (dB/km) 1.5 I II V III IV OH- absorption peak 1.0 0.5 O E S C L 0 800 1000 1200 1400 1600 Wavelength (nm) Feature Comparison between Low-Loss Windows Window I II III IV V Mark (nm) 850 1310 (O band) 1550 (C band) 1600 (L band) 1360 ~ 1530 (E + S bands) Wavelength range (nm) 600~900 1260~1360 1530~1565 1565~1625 1360~1530 Fiber type MMF MMF/G.652/ G.653 G.652/G.653/ G.655 G.652/G.653/ G.655 Full-wave fiber Applications Short distance and low rate Short distance and low rate Long distance and high rate Wavelength Allocation On C-Band 40 Channels / 100 GHz interval No. Central Frequency (THz) Wavelength (nm) 1 192.1 1560.61 2 192.2 1559.79 3 192.3 1558.98 4 192.4 1558.17 5 192.5 1557.36 6 192.6 1556.55 7 192.7 1555.75 8 192.8 1554.94 9 192.9 1554.13 10 193.0 1553.33 11 193.1 1552.52 12 193.2 1551.72 13 193.3 1550.92 14 193.4 1550.12 15 193.5 1549.32 16 193.6 1548.51 17 193.7 1547.72 18 193.8 1546.92 19 193.9 1546.12 20 194.0 1545.32 Wavelength Allocation On C-Band 40 Channels / 100 GHz interval 21 194.1 1544.53 22 194.2 1543.73 23 194.3 1542.94 24 194.4 1542.14 25 194.5 1541.35 26 194.6 1540.56 27 194.7 1539.77 28 194.8 1538.98 29 194.9 1538.19 30 195.0 1537.40 31 195.1 1536.61 32 195.2 1535.82 33 195.3 1535.04 34 195.4 1534.25 35 195.5 1533.47 36 195.6 1532.68 37 195.7 1531.90 38 195.8 1531.12 39 195.9 1530.33 40 196.0 1529.55 DWDM vs. SDH • TDM • DWDM • Electrical Regenerator • Multi-wavelength on for Single Wavelength Single Fiber, for Optical Amplification Electrical Regenerator Transmitter l1 T l1 l2 lN Receiver R l1 l2 lN Electrical Multiplex Electrical Demultiplex Optical Multiplexer l1 l2 OA lN Optical Demultiplexer DWDM Features Large transparent transmission capacity greatly saves fiber resources Each wavelength can carry different signal: SDH 2.5Gbps, 10 Gbps, ATM, IP DWDM technology provides multiple virtual fiber channels in one physical fiber channel SDH DWDM DWDM Features Through super-long distance transmission technologies, the transmission cost is reduced SDH DWDM Electrical Regenerator Light Amplifier DWDM Features 32*10G 32*2.5G 16*2.5G 8*2.5G Key technologies of DWDM DWDM System Optical Transmitter Ch 1 ┇ OTUn λ1 BA λ s λ s LA λ s PA λ s λn ODU Ch N λ1 OMU Input OTU1 Optical Receiver OLA OSC OSC EMS OTU1 ┇ Output Ch N λn OSC Ch 1 OTUn Key Technologies Of DWDM • • • • Optical Source Optical Multiplexer And De-multiplexer Optical Amplifiers The Supervision Of WDM System Optical Source Requirements of optical sources: Larger dispersion tolerance value Standard and stable wavelength Types of optical sources: Light Emitting Diode (LED) Laser Diode (LD) Optical Multiplexing and De-multiplexing Technology Optical Multiplexer and Demultiplexer Multiplexer Demultiplexer Fiber Supervision System Technology Supervision System • Detection, control and management are basic requirements of all network operations • To ensure secure operation of DWDM system, physically, the monitoring system is designed as an independent system separated from working channels and devices • Used to transmit the NE management and supervision information related to DWDM system Functions • • • • Fault alarm Fault location Quality parameter supervision in the operation Control over backup line upon line interruption • EDFA supervision Optical Supervision Control (OSC) OMU OBA OSC OLA OSC OLA OLA OPA OSC OSC OSC ODU ODU OMU OPA OLA OLA OLA OBA Optical Supervision Control (OSC) • • • • 1510nm Signal speed : 2.048Mb/s Receiving sensitivity : -48dbm Transmission power : 0 ~ -7 dbm THANK YOU