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Содержание PL-300

Страница 1: ...PL 300 3 2 INSTALLATION AND CONFIGURATION MANUAL ...

Страница 2: ...which may be affected in any way by the use thereof Any representation s in this document concerning performance of PacketLight Networks Ltd s product s are for informational purposes only and are not warranties of future performance either express or implied IN NO EVENT WILL PACKETLIGHT BE LIABLE FOR ANY LOST REVENUE PROFIT OR DATA OR FOR SPECIAL INDIRECT CONSEQUENTIAL INCIDENTAL OR PUNITIVE DAMA...

Страница 3: ...RATIONS 22 1 5 5 DCM CONFIGURATIONS 24 1 6 TECHNICAL SPECIFICATIONS 26 1 6 1 GENERAL SPECIFICATIONS 26 1 6 2 CWDM MUX DEMUX SPECIFICATIONS 27 1 6 3 CWDM OADM SPECIFICATIONS 28 1 6 4 DWDM MUX DEMUX SPECIFICATIONS 28 1 6 5 DWDM OADM SPECIFICATIONS 31 1 6 6 DCM SPECIFICATIONS 31 2 INSTALLATION 33 2 1 SAFETY PRECAUTIONS 33 2 1 1 GENERAL SAFETY PRECAUTIONS 33 2 1 2 LASER SAFETY STATUTORY WARNING AND OP...

Страница 4: ...PENDIX B PL 300 APPLICATION EXAMPLES 45 B 1 EXAMPLES 45 B 1 1 EXAMPLE 1 USING PL 300 DWDM 2M 16W 1C 1F 45 B 1 2 EXAMPLE 2 USING PL 300 DWDM 2M 8W 1C 2F 46 B 1 3 EXAMPLE 3 USING PL 300 CWDM 2M 8W 2C 2F 47 B 1 4 EXAMPLE 4 USING PL 300 CWDM 2O 2W1470 2C 2F 48 B 1 5 EXAMPLE 5 USING PL 300 DWDM 2M 8W 2C 2F 49 B 1 6 EXAMPLE 6 USING PL 300 DCM2 120K 50 APPENDIX C PL 300 FIBER SHELF 51 C 1 FIBER SHELF 51 ...

Страница 5: ...00 DWDM 1M 8W 1C 2F 15 Figure 17 PL 300 DWDM 1M 16W 1C 2F 15 Figure 18 PL 300 DWDM 1M 40W 1C 2F 16 Figure 19 PL 300 DWDM 2M 4W 2C 2F 16 Figure 20 PL 300 DWDM 2M 8W 2C 2F 17 Figure 21 PL 300 DWDM 2M 16W 2C 2F 18 Figure 22 PL 300 DWDM 2M 8W 2C 1F 19 Figure 23 PL 300 DWDM 2M 16W 2C 1F 20 Figure 24 PL 300 DWDM 2M 16W 1C 1F Red Blue 21 Figure 25 PL 300 DWDM 2M 44W 1C 1F 50G Red Blue 21 Figure 26 PL 300...

Страница 6: ...s 28 Table 10 DWDM MUX DEMUX Dual Fiber Specifications 28 Table 11 DWDM MUX DEMUX 100 GHz Single Fiber Specifications 29 Table 12 DWDM MUX DEMUX 50 GHz Single Fiber Specifications 29 Table 13 DWDM Red Blue MUX DEMUX 100 GHz Single Fiber Specifications 30 Table 14 DWDM Red Blue MUX DEMUX 50 GHz Single Fiber Specifications 30 Table 15 DWDM OADM Specifications 31 Table 16 DCM Specifications 31 Table ...

Страница 7: ...drop capabilities It can also be used to increase the 4G and 10G solution reach The PL 300 provides the essential optical layer functions of 4 8 16 32 40 44 88 DWDM wavelength multiplexing over single or dual fiber 4 8 16 CWDM wavelength multiplexing over single or dual fiber Optical Dispersion Compensation Module DCM Optical Add and Drop Multiplexers OADMs splitters and combiners 1 2 Main Feature...

Страница 8: ...e PL 300 can be connected directly to the line fiber or in the case of DWDM PL 300 to other PacketLight products such as PL 1000IL for amplification of the aggregated optical signal or to the PacketLight ROADM node PL 1000RO For examples of how to connect the PL 300 with other PacketLight devices see PL 300 Application Examples p 45 1 2 2 Passive OADM Modules The PL 300 may contain up to two OADM ...

Страница 9: ...tended for installation in 19 inch or 23 inch racks or placed on desktops or shelves All connections are made to the front panel The following figure shows a general view of the PL 300 Figure 1 PL 300 Unit General View 1 5 Configurations The PL 300 is designed in a modular way thereby enabling various configurations and applications 1 5 1 CWDM MUX DEMUX Configurations The following table lists the...

Страница 10: ... 1611 1291 1291 CWDM 1M 8W 1C 1F CWDM 1 8 1 Single 4 1471 1611 N A 1291 1311 CWDM 1M 16W 1C 1F CWDM 1 16 1 Single 8 1311 1611 N A 1271 1291 CWDM 2M 8W 2C 1F CWDM 2 8 2 Single 8 4 4 1471 1611 1471 1611 1291 1311 CWDM 2M 16W 2C 1F CWDM 2 16 2 Single 16 8 8 1311 1611 1311 1611 1271 1291 1 5 1 1 CWDM MUX DEMUX Models 1 PL 300 CWDM 1M 4W 1C 2F Single passive optical MUX DEMUX module with four wavelengt...

Страница 11: ... client signals Figure 3 PL 300 CWDM 1M 4W 1C 2F 10G 3 PL 300 CWDM 1M 8W 1C 2F Single passive optical MUX DEMUX module with eight wavelengths The MUX DEMUX module has an additional channel for the management OSC channel One COM port with dual fiber Figure 4 PL 300 CWDM 1M 8W 1C 2F 4 PL 300 CWDM 1M 16W 1C 2F Single passive optical MUX DEMUX module with 16 wavelengths The MUX DEMUX module has an add...

Страница 12: ...1C 2F 5 PL 300 CWDM 2M 4W 2C 2F Two passive optical MUX DEMUX modules with four wavelengths each Each MUX DEMUX module has an additional channel for the management OSC channel Two COM ports with dual fiber Figure 6 PL 300 CWDM 2M 4W 2C 2F 6 PL 300 CWDM 2M 8W 2C 2F Two passive optical MUX DEMUX modules with eight wavelengths each Each MUX DEMUX module has an additional channel for the management OS...

Страница 13: ...NTIAL AND PROPRIETARY INFORMATION ALL RIGHTS RESERVED PAGE 7 Two COM ports with dual fiber Figure 7 PL 300 CWDM 2M 8W 2C 2F 7 PL 300 CWDM 2M 16W 2C 2F Two passive optical MUX DEMUX modules with 16 wavelengths each Each MUX DEMUX module has an additional channel for the management OSC channel ...

Страница 14: ...N ALL RIGHTS RESERVED PAGE 8 Two COM ports with dual fiber Figure 8 PL 300 CWDM 2M 16W 2C 2F 8 PL 300 CWDM 1M 8W 1C 1F Single passive optical MUX DEMUX module with eight wavelengths The MUX DEMUX module has an additional channel for the management OSC channel One COM port with single fiber Figure 9 PL 300 CWDM 1M 8W 1C 1F ...

Страница 15: ...F Single passive optical MUX DEMUX module with 16 wavelengths The MUX DEMUX module has an additional channel for the management OSC channel One COM port with single fiber Figure 10 PL 300 CWDM 1M 16W 1C 1F 10 PL 300 CWDM 2M 8W 2C 1F Two passive optical MUX DEMUX modules with eight wavelengths each Each MUX DEMUX module has an additional channel for the management OSC channel ...

Страница 16: ...AL AND PROPRIETARY INFORMATION ALL RIGHTS RESERVED PAGE 10 Two COM ports with single fiber Figure 11 PL 300 CWDM 2M 8W 2C 1F 11 PL 300 CWDM 2M 16W 2C 1F Two passive optical MUX DEMUX modules with 16 wavelengths each Each MUX DEMUX module has an additional channel for the management OSC channel ...

Страница 17: ...he following table lists the PL 300 CWDM OADM configurations Table 2 CWDM OADM Configurations PL 300 Model OADM Type OADM OADM WLs COM Ports COM Fiber Type EXP Ports EXP Fiber Type Clients OADM WLs MNG WL CWDM 1O 1Wxxxx 1C 2F CWDM 1 1 1 Dual 1 Dual 1 xxxx 1310 CWDM 1O 2Wxxxx 1C 2F CWDM 1 2 1 Dual 1 Dual 2 xxxx xxxx 20 1310 CWDM 1O 3Wxxxx 1C 2F CWDM 1 3 1 Dual 1 Dual 3 xxxx xxxx 40 1310 CWDM 1O 4Wx...

Страница 18: ...310 CWDM 2O 3Wxxxx 2C 2F CWDM 2 3 2 Dual 2 Dual 6 3 3 xxxx xxxx 40 1310 CWDM 2O 4Wxxxx 2C 2F CWDM 2 4 2 Dual 2 Dual 8 4 4 xxxx xxxx 60 1310 1 5 2 1 Examples of CWDM OADM Models 1 PL 300 CWDM 1O 4W1470 1C 2F Single OADM module with four Add Drop wavelengths The Add Drop wavelengths are 1470 1490 1510 and 1530nm Additional OSC 1310 management channel Single COM port with dual fiber Single express EX...

Страница 19: ...s Table 3 DWDM MUX DEMUX Configurations PL 300 Model MUX Type MUX MUX WLs COM Ports COM Fiber Type Clients MUX1 WLs MUX2 WLs MNG1 WL MNG2 WL DWDM 1M 4W 1C 2F DWDM 1 4 1 Dual 4 CH28 CH31 N A 1511 N A DWDM 1M 8W 1C 2F DWDM 1 8 1 Dual 8 CH28 CH35 N A 1511 N A DWDM 1M 16W 1C 2F DWDM 1 16 1 Dual 16 CH20 CH35 N A 1511 N A DWDM 1M 40W 1C 2F DWDM 1 40 1 Dual 40 CH20 CH59 N A 1511 N A DWDM 2M 4W 2C 2F DWDM...

Страница 20: ...CH20 CH35 CH20 CH35 1511 1491 DWDM 2M 16W 1C 1F DWDM 2 16 1 Single 16 CH21 CH36 CH45 CH60 1491 1511 DWDM 2M 44W 1C 1F 50G DWDM 2 44 1 Single 44 15H 37C 40C 61H See Note 1 N A 1511 N A DWDM 1M 88W 1C 1F 50G 1D DWDM 1 88 1 Single 88 See Note 2 17C 60H See Note 1 N A N A N A NOTE 1 50 GHz spacing 2 Unidirectional 1 5 3 1 DWDM MUX DEMUX Models 1 PL 300 DWDM 1M 4W 1C 2F Single passive optical MUX DEMUX...

Страница 21: ... for the management OSC channel One COM port with dual fiber Figure 16 PL 300 DWDM 1M 8W 1C 2F 3 PL 300 DWDM 1M 16W 1C 2F Single passive optical MUX DEMUX module with 16 wavelengths The MUX DEMUX module has an additional channel for the management OSC channel One COM port with dual fiber Figure 17 PL 300 DWDM 1M 16W 1C 2F 4 PL 300 DWDM 1M 40W 1C 2F Single passive optical MUX DEMUX module with 40 w...

Страница 22: ...dual fiber Figure 18 PL 300 DWDM 1M 40W 1C 2F 5 PL 300 DWDM 2M 4W 2C 2F Two passive optical MUX DEMUX modules with four wavelengths each Each MUX DEMUX module has an additional channel for the management OSC channel Two COM ports with dual fiber Figure 19 PL 300 DWDM 2M 4W 2C 2F 6 PL 300 DWDM 2M 8W 2C 2F Two passive optical MUX DEMUX modules with eight wavelengths each ...

Страница 23: ...HTS RESERVED PAGE 17 Each MUX DEMUX module has an additional channel for the management OSC channel Two COM ports with dual fiber Figure 20 PL 300 DWDM 2M 8W 2C 2F 7 PL 300 DWDM 2M 16W 2C 2F Two passive optical MUX DEMUX modules with 16 wavelengths each Each MUX DEMUX module has an additional channel for the management OSC channel ...

Страница 24: ...AL AND PROPRIETARY INFORMATION ALL RIGHTS RESERVED PAGE 18 Two COM ports with dual fiber Figure 21 PL 300 DWDM 2M 16W 2C 2F 8 PL 300 DWDM 2M 8W 2C 1F Two passive optical MUX DEMUX modules with eight wavelengths each Each MUX DEMUX module has an additional channel for the management OSC channel ...

Страница 25: ...IAL AND PROPRIETARY INFORMATION ALL RIGHTS RESERVED PAGE 19 Two COM ports with single fiber Figure 22 PL 300 DWDM 2M 8W 2C 1F 9 PL 300 DWDM 2M 16W 2C 1F Two passive optical MUX DEMUX modules with 16 wavelengths each Each MUX DEMUX module has an additional channel for the management OSC channel ...

Страница 26: ...ARY INFORMATION ALL RIGHTS RESERVED PAGE 20 Two COM ports with single fiber Figure 23 PL 300 DWDM 2M 16W 2C 1F 10 PL 300 DWDM 2M 16W 1C 1F Red Blue Two passive optical MUX DEMUX modules with 16 wavelengths each Each MUX DEMUX module has an additional channel for the management OSC channel Red Blue band filter ...

Страница 27: ...ort with single fiber Figure 24 PL 300 DWDM 2M 16W 1C 1F Red Blue 11 PL 300 DWDM 2M 44W 1C 1F 50G Red Blue Two passive optical MUX DEMUX modules with 44 wavelengths each Each MUX DEMUX module has an additional channel for the management OSC channel Red Blue band filter One COM port with single fiber 50 GHz spacing Figure 25 PL 300 DWDM 2M 44W 1C 1F 50G Red Blue ...

Страница 28: ...SC channel One COM port with single fiber 50 GHz spacing Unidirectional Figure 26 PL 300 DWDM 1M 88W 1C 1F 50G 1D Unidirectional 1 5 4 DWDM OADM Configurations The following table lists the PL 300 DWDM OADM configurations Table 4 DWDM OADM Configurations PL 300 Model OADM Type OADM OADM WLs COM Ports COM Fiber Type EXP Ports EXP Fiber Type Clients OADM WLs MNG WL DWDM 1O 1Wxx 1C 2F DWDM 1 1 1 Dual...

Страница 29: ...xx 3 1511 DWDM 2O 1Wxx 2C 2F DWDM 2 1 2 Dual 2 Dual 2 1 1 CHxx 1511 DWDM 2O 2Wxx 2C 2F DWDM 2 2 2 Dual 2 Dual 4 2 2 CHxx CHxx 1 1511 DWDM 2O 3Wxx 2C 2F DWDM 2 3 2 Dual 2 Dual 6 3 3 CHxx CHxx 2 1511 DWDM 2O 4Wxx 2C 2F DWDM 2 4 2 Dual 2 Dual 8 4 4 CHxx CHxx 3 1511 1 5 4 1 Examples of DWDM OADM Models 1 PL 300 DWDM 1O 4W28 1C 2F Single OADM module with four Add Drop wavelengths Additional 1510 OSC ma...

Страница 30: ...orts with dual fiber Figure 28 PL 300 DWDM 1M 3W28 2C 2F 1 5 5 DCM Configurations The following table lists the PL 300 DCM configurations Table 5 DCM Configurations PL 300 Model DCM Distance DCM1 40K 1 Up to 40 km DCM1 60K 1 Up to 60 km DCM1 80K 1 Up to 80 km DCM1 100K 1 Up to 100 km DCM1 120K 1 Up to 120 km DCM1 220K 1 Up to 220 km DCM1 400K 1 Up to 400 km DCM1 40K 2 Up to 40 km DCM1 60K 2 Up to ...

Страница 31: ... 60 km DCM1 80K 4 Up to 80 km DCM1 100K 4 Up to 100 km DCM2 120K 4 Up to 120 km DCM2 220K 4 Up to 220 km DCM2 400K 4 Up to 400 km 1 5 5 1 DCM Models 1 PL 300 DCM1 n K Single passive optical DCM module One In Out port Supports a distance of up to n km Figure 29 PL 300 DCM1 2 PL 300 DCM2 n K Two passive optical DCM modules Two In Out ports Supports a distance of up to n km Figure 30 PL 300 DCM2 ...

Страница 32: ...Supports a distance of up to n km Figure 31 PL 300 DCM4 1 6 Technical Specifications This section describes the PL 300 technical specifications 1 6 1 General Specifications Table 6 General Specifications Client Ports Number of Ports Up to 44 ports Connectors LC COM Ports Number of Ports Up to two ports Connectors LC or SC EXP Ports NOTE Applicable only for OADM models Number of Ports Up to two por...

Страница 33: ...Storage Temperature 25 to 55 C 13 to 131 F Normal Operating Humidity 5 to 85 RH non condensing Storage Humidity Up to 95 RH Safety Standards IEC EN 60825 1 IEC EN 60825 2 RoHS 5 6 1 6 2 CWDM MUX DEMUX Specifications 1 6 2 1 CWDM MUX DEMUX with Dual Fiber Specifications Table 7 CWDM MUX DEMUX with Dual Fiber Specifications Parameter 4 Channels 8 Channels 16 Channels CWDM Passband nm 1471 1531 1471 ...

Страница 34: ...tor Type COM SC UPC SC UPC 1 6 3 CWDM OADM Specifications Table 9 CWDM OADM Specifications Parameter 1 Channel 2 Channels 4 Channels CWDM Passband nm 1331 1611 1331 1611 1331 1611 Channel Spacing nm 20 20 20 Link Loss Add Drop dB 1 6 2 4 4 0 Adjacent Channel Isolation dB 30 30 30 Non Adjacent Channel Isolation dB 40 40 40 Operating Temperature C F 0 to 70 C 32 to 158 F 0 to 70 C 32 to 158 F 0 to 7...

Страница 35: ...ls 16Channels 40 Channels DWDM Passband Channels CH28 CH35 CH20 CH35 CH20 CH59 Channel Spacing GHz 100 GHz 100 GHz 100 GHz Link Loss MUX DEMUX dB 6 7 7 Adjacent Channel Isolation dB 26 26 26 Non Adjacent Channel Isolation dB 45 35 35 Express Channel Wavelength nm 1511 6 5 1491 6 5 1511 6 5 1491 6 5 1511 6 5 1491 6 5 Express Channel Link Loss dB 1 5 1 1 Operating Temperature C F 20 to 85 C 4 to 185...

Страница 36: ...annel Spacing GHz 100 GHz 100 GHz Link Loss MUX DEMUX dB 3 5 3 5 Adjacent Channel Isolation dB 26 26 Non Adjacent Channel Isolation dB 35 35 Express Channel Wavelength nm 1491 6 5 1511 6 5 Express Channel Link Loss dB 1 1 Connector Type Channels LC UPC LC UPC Connector Type COM SC UPC SC UPC Table 14 DWDM Red Blue MUX DEMUX 50 GHz Single Fiber Specifications Parameter Red Blue Passband Channels 15...

Страница 37: ...ss Add Drop dB 2 3 Adjacent Channel Isolation dB 25 Non Adjacent Channel Isolation dB 45 OSC Channel Wavelength nm 1511 6 5 Operating Temperature C F 0 to 70 C 32 to 158 F Connector Type Channels LC UPC Connector Type COM EXP SC UPC 1 6 6 DCM Specifications Table 16 DCM Specifications Range Channel Spacing Operation BW Insertion Loss 40 Km 100 GHz 40 GHz 1 dB 60 Km 100 GHz 40 GHz 1 dB 80 Km 100 GH...

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Страница 39: ...allation operation and maintenance of this product 2 1 2 Laser Safety Statutory Warning and Operating Precautions All personnel involved in equipment installation operation and maintenance must be aware that the laser radiation is invisible Therefore the personnel must strictly observe the applicable safety precautions and in particular must avoid looking straight into optical connectors either di...

Страница 40: ...ction provides general requirements for the connections to the various PL 300 ports The PL 300 unit has the following types of optical ports Table 18 Optical Ports Port Type Connectors Connectivity Client LC connectors Connected to the network ports of the local nodes COM LC or SC connectors Connected to the remote nodes EXP LC or SC connectors Connected to the local mate EXP port or to the remote...

Страница 41: ...e PL 300 may include a single MUX module Configuration 2 Protected The front panel has two common ports labeled COM1 and COM2 These ports are used to connect the node to the two network lines Working and Protection In this configuration the PL 300 may include an optical switch The following table provides information regarding the fiber and connector specifications for the COM port Table 20 COM Po...

Страница 42: ...s or SC Port Type Optical EXP port 2 2 3 4 DCM Ports The DCM ports exist only for PL 300 DCM models The DCM provides chromatic dispersion compensation for DWDM networks The DCM port is attached to the fiber that arrives from the network before connecting it to the local amplifier The DCM module is unidirectional therefore each port handles one direction The DCM port has In and Out connectors The I...

Страница 43: ...f ordered or 600 mm ETSI if ordered 2 3 2 Optical Cable Handling Precautions The following are the optical cable handing precautions Make sure that all the optical connectors are closed at all times either by the appropriate protective caps or by the mating cable connector Do not remove the protective cap until an optical fiber is connected to the corresponding connector and immediately install a ...

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Страница 45: ... 41 194 1 1544 53 2 190 2 1576 20 42 194 2 1543 73 3 190 3 1575 37 43 194 3 1542 94 4 190 4 1574 54 44 194 4 1542 14 5 190 5 1573 71 45 194 5 1541 35 6 190 6 1572 89 46 194 6 1540 56 7 190 7 1572 06 47 194 7 1539 77 8 190 8 1571 24 48 194 8 1538 98 9 190 9 1570 42 49 194 9 1538 19 10 191 0 1569 59 50 195 0 1537 40 11 191 1 1568 77 51 195 1 1536 61 12 191 2 1567 95 52 195 2 1535 82 13 191 3 1567 13...

Страница 46: ... 32 36 193 6 1548 51 37 193 7 1547 72 38 193 8 1546 92 S Band Short WL 1460 to 1530 39 193 9 1546 12 C Band Coarse WL 1530 to 1565 40 194 0 1545 32 L Band Long WL 1565 to 1625 A 2 DWDM ITU 50 GHz Spacing Grid The following table presents the DWDM ITU grid with 50 GHz spacing Table 25 DWDM 50 GHz ITU Grid DWDM Channel Frequency THz Wavelength nm DWDM Channel Frequency THz Wavelength nm 1C 190 10 15...

Страница 47: ...C 194 80 1538 98 12H 191 25 1567 54 48H 194 85 1538 58 13C 191 30 1567 13 49C 194 90 1538 19 13H 191 35 1566 72 49H 194 95 1537 79 14C 191 40 1566 31 50C 195 00 1537 40 14H 191 45 1565 90 50H 195 05 1537 00 15C 191 50 1565 50 51C 195 10 1536 61 15H 191 55 1565 09 51H 195 15 1536 61 16C 191 60 1564 68 52C 195 20 1535 82 16H 191 65 1564 27 52H 195 25 1535 43 17C 191 70 1563 86 53C 195 30 1535 04 17H...

Страница 48: ...75 1555 34 63H 196 35 1526 83 28C 192 80 1554 94 64C 196 40 1526 44 28H 192 85 1554 54 64H 196 45 1526 05 29C 192 90 1554 13 65C 196 50 1525 66 29H 192 95 1553 73 65H 196 55 1525 27 30C 193 00 1553 33 66C 196 60 1524 89 30H 193 05 1552 93 66H 196 65 1524 50 31C 193 10 1552 52 67C 196 70 1524 11 31H 193 15 1552 12 67H 196 75 1523 72 32C 193 20 1551 72 68C 196 80 1523 34 32H 193 25 1551 32 68H 196 8...

Страница 49: ...RATION MANUAL CONFIDENTIAL AND PROPRIETARY INFORMATION ALL RIGHTS RESERVED PAGE 43 A 3 CWDM ITU Grid The following table presents the CWDM ITU grid with 20 nm spacing Table 26 CWDM ITU Grid Wavelength nm 1271 1291 1311 1331 1351 1371 1391 1411 1431 1451 1471 1491 1511 1531 1551 1571 1591 1611 ...

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Страница 51: ...Examples 45 B 1 Examples B 1 1 Example 1 Using PL 300 DWDM 2M 16W 1C 1F In this example there are two sites A and B Each site has 16 services The two PL 300 DWDM 2M 16W 1C 1F units are used to combine all of these services on a single fiber The two additional PL 400E units in each site are used to convert the client signal to DWDM NOTE You can add an additional PL 1000IL unit with Pre Amp to incre...

Страница 52: ...ED PAGE 46 B 1 2 Example 2 Using PL 300 DWDM 2M 8W 1C 2F In this example there are two sites A and B Each site has eight 10G services The two PL 300 DWDM 2M 8W 1C 2F units are used to combine all of these services on a dual fiber The two additional PL 1000 units in each site are used to convert the client signal to DWDM Figure 33 Using PL 300 DWDM 2M 8W 1C 2F Example ...

Страница 53: ...CWDM 2M 8W 2C 2F In this example there are two sites A and B Each site has eight services of up to 4G The two PL 300 CWDM 2M 8W 2C 2F units are used to combine all of these services on two protected dual fibers The two additional PL 400E units in each site are used to convert the client signal to DWDM and duplicate the client signals to Working and Protection Figure 34 Using PL 300 CWDM 2M 8W 2C 2...

Страница 54: ...VED PAGE 48 B 1 4 Example 4 Using PL 300 CWDM 2O 2W1470 2C 2F In this example there is a ring with eight wavelengths Each site add drops two protected wavelengths of 10G client signals The two PL 300 CWDM 2O 2W1470 2C 2F units are used for the two protected wavelengths that arrive from the PL 1000 node to the ring Figure 35 Using PL 300 CWDM 2O 2W1470 2C 2F Example ...

Страница 55: ...PL 300 DWDM 2M 8W 2C 2F is connected on one side to two PL 1000RO nodes and on the other side to two PL 1000 nodes The described site is a part of an optical ring It add drops four protected wavelengths of 10G clients By changing the PL 1000RO configuration the user can change the added dropped wavelengths to a different set of channels thereby allowing flexible optical connectivity on the ring Fi...

Страница 56: ...ites A B and C with 100 km distance between them In Site A there is a single PL 400E unit with aggregated eight DWDM channels In Site B there are two units a single PL 1000IL unit with two EDFA modules and a single PL 300 DCM2 120K unit In Site C there is a single PL 400E unit with aggregated eight DWDM channels Inputs to the two EDFA modules pass through the PL 300 DCM2 120K unit for dispersion c...

Страница 57: ...SERVED PAGE 51 Appendix C PL 300 Fiber Shelf This appendix describes the PL 300 fiber shelf In this Appendix Fiber Shelf 51 C 1 Fiber Shelf The fiber shelf is an optional tray that can be attached to the PL 300 to help you organize the optical fibers The following figure illustrates the mechanical details of the fiber shelf Figure 38 Fiber Shelf Diagram ...

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Страница 59: ...fications 31 DWDM ITU 100 GHz Spacing Grid 39 DWDM ITU 50 GHz Spacing Grid 40 DWDM MUX DEMUX Configurations 13 DWDM MUX DEMUX Models 14 DWDM MUX DEMUX Specifications 28 DWDM MUX DEMUX with Dual Fiber Specifications 28 DWDM MUX DEMUX with Single Fiber Specifications 29 DWDM OADM Configurations 22 DWDM OADM Specifications 31 DWDM Red Blue MUX DEMUX with Single Fiber Specifications 30 E Example 1 Usi...

Страница 60: ...Specifications 39 L Laser Safety Statutory Warning and Operating Precautions 33 M Main Features 1 MNG Ports 37 O Optical Cable Handling Precautions 37 Optical Ports 34 Overview 1 P Package Contents 37 Passive DCM Modules 2 Passive MUX DEMUX Modules 2 Passive OADM Modules 2 Physical Description 3 Physical Requirements 34 PL 300 Application Examples 2 45 PL 300 Fiber Shelf 51 S Safety Precautions 33...

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