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Cisco DWDM, SFP+, 1540.56nm

1. HT TTT cisco Data Sheet Cisco 1OGBASE Dense Wavelength Division Multiplexing SFP Modules Use Dense Wavelength Division Multiplexing DWDM SFP modules to integrate WDM transport directly into your Cisco 10 Gigabit Ethernet switches and routers Product Overview The Cisco 1OGBASE DWDM SFP Modules Figure 1 are fiber line cards for a wide variety of Cisco switches routers and other equipment They allow enterprises and service providers to provide scalable and easy to deploy 10 Gbps LAN WAN and optical transport network OTN services in their networks Figure 1 Cisco DWDM SFP Module Features and Benefits The Cisco 10GBASE Dense Wavelength Division Multiplexing SFP Module offer the following features and benefits e Supports 10 Gigabit data rates from 9 9G to 11 1G LAN WAN and OTU2 OTU2e to accommodate different applications e Smallest SFP module footprint in the industry e Hot swappable input output device plugs into an Ethernet SFP port of a Cisco switch or router to link the port with the network e Support for a pay as you grow model for investment protection e Digital optical monitoring capability for enhanced diagnostics and troubleshooting e DWDM fixed module supports 40 non tunable ITU 100 GHz wavelengths e DWDM tunable module supports 96 tunable ITU 50 GHz wavelengths e Supports the Cisco quality identification ID feature which enables a Cisco switch or router to identify whether or not the
2. 5 x 13 4 x 56 5mm Cisco SFP modules typically weigh 75 grams or less Environmental Conditions and Power Requirements Commercial operational temperature range COM 0 to 70 C 32 to 158 F Storage temperature range 40 to 85 C 40 to 185 F The maximum power consumption per Cisco SFP module is 1 5W Regulatory and Standards Compliance Standards GR 20 CORE Generic Requirements for Optical Fiber and Optical Fiber Cable GR 326 CORE Generic Requirements for Single Mode Optical Connectors and Jumper Assemblies GR 1435 CORE Generic Requirements for Multifiber Optical Connectors SFP MSA SFF 8431 IEEE 802 3 10 Gigabit Ethernet ITU T G 709 Interfaces for the Optical Transport Network ITU T G 975 GFEC ITU T G 975 1 EFEC ITU T G 694 1 DWDM frequency grid Safety Laser Class 1 21CFR1040 and IEC 60825 Warranty Standard warranty 1 year e Extended warranty optional Cisco SFP modules can be covered in a Cisco SMARTnet Service support contract for the Cisco switch or router chassis 2015 Cisco and or its affiliates All rights reserved This document is Cisco Public Information Page 5 of 7 Ordering Information Table 4 provides the ordering information for Cisco SFP modules and related cables Table 4 Cisco DWDM SFP Ordering Information Product Number DWDM SFP10G 61 41 DWDM SFP10G 60 61 DWDM SFP10G 59 79 DWDM SFP10G 58 98 DWDM SFP10G 58 17 DWDM SFP10G 57 36 DWDM SFP10G 56 55 DWDM SF
3. 1 1560 61 1560 20 1559 79 1559 39 1558 98 1558 58 1558 17 1557 77 1557 36 1556 96 1556 55 1556 15 1555 75 1555 34 1554 94 1554 54 1554 13 1553 73 1553 33 1552 93 1552 52 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 76 77 78 79 80 81 82 83 84 193 75 193 8 193 85 193 9 193 95 194 194 05 194 1 194 15 194 2 194 25 194 3 194 35 194 4 194 45 194 5 194 55 194 6 194 65 194 7 194 75 194 8 194 85 194 9 194 95 195 195 05 195 1 195 15 195 2 195 25 195 3 195 35 195 4 195 45 195 5 1547 32 1546 92 1546 52 1546 12 1545 72 1545 32 1544 92 1544 53 1544 13 1543 73 1543 33 1542 94 1542 54 1542 14 1541 75 1541 35 1540 95 1540 56 1540 16 1539 77 1539 37 1538 98 1538 58 1538 19 1537 79 1537 40 1537 00 1536 61 1536 22 1535 82 1535 43 1535 04 1534 64 1534 25 1533 86 1533 47 Page 4 of 7 Channel ID Frequency THz Wavelength nm Channel ID Frequency THz Wavelength nm 193 15 1552 12 195 55 1533 07 38 193 2 1551 72 86 195 6 1532 68 39 193 25 1551 32 87 195 65 1532 29 40 193 3 1550 92 88 195 7 1531 90 41 193 35 1550 52 89 195 75 1531 51 42 193 4 1550 12 90 195 8 1531 12 43 193 45 1549 72 91 195 85 1530 72 44 193 5 1549 32 92 195 9 1530 33 45 193 55 1548 91 93 195 95 1529 94 46 193 6 1548 51 94 196 1529 55 47 193 65 1548 11 95 196 05 1529 16 48 193 7 1547 72 96 196 1 1528 77 Dimensions Dimensions H x W x D 8
4. P10G 55 75 DWDM SFP10G 54 94 DWDM SFP10G 54 13 DWDM SFP10G 53 33 DWDM SFP10G 52 52 DWDM SFP10G 51 72 DWDM SFP10G 50 92 DWDM SFP10G 50 12 DWDM SFP10G 49 32 DWDM SFP10G 48 51 DWDM SFP10G 47 72 DWDM SFP10G 46 92 DWDM SFP10G 46 12 DWDM SFP10G 45 32 DWDM SFP10G 44 53 DWDM SFP10G 43 73 DWDM SFP10G 42 94 DWDM SFP10G 42 14 DWDM SFP10G 41 35 DWDM SFP10G 40 56 DWDM SFP10G 39 77 DWDM SFP10G 38 98 DWDM SFP10G 38 19 DWDM SFP10G 37 40 DWDM SFP10G 36 61 DWDM SFP10G 35 82 DWDM SFP10G 35 04 DWDM SFP10G 34 25 DWDM SFP10G 33 47 10GBASE DWDM 1561 41 nm SFP 100 GHz ITU grid 10GBASE DWDM 1560 61 nm SFP 100 GHz ITU grid 10GBASE DWDM 1559 79 nm SFP 100 GHz ITU grid 10GBASE DWDM 1558 98 nm SFP 100 GHz ITU grid 10GBASE DWDM 1558 17 nm SFP 100 GHz ITU grid 10GBASE DWDM 1557 36 nm SFP 100 GHz ITU grid 10GBASE DWDM 1556 55 nm SFP 100 GHz ITU grid 10GBASE DWDM 1555 75 nm SFP 100 GHz ITU grid 10GBASE DWDM 1554 94 nm SFP 100 GHz ITU grid 10GBASE DWDM 1554 13 nm SFP 100 GHz ITU grid 10GBASE DWDM 1553 33 nm SFP 100 GHz ITU grid 10GBASE DWDM 1552 52 nm SFP 100 GHz ITU grid 10GBASE DWDM 1551 72 nm SFP 100 GHz ITU grid 10GBASE DWDM 1550 92 nm SFP 100 GHz ITU grid 10GBASE DWDM 1550 12 nm SFP 100 GHz ITU grid 10GBASE DWDM 1549 32 nm SFP 100 GHz ITU grid 10GBASE DWDM 1548 51 nm SFP 100 GHz ITU grid 10GBASE DWDM 1547 72 nm SFP 100 GHz ITU grid 10GBASE DWDM 1546 92 nm SFP 100 GHz ITU g
5. module is an SFP module certified and tested by Cisco 2015 Cisco and or its affiliates All rights reserved This document is Cisco Public Information Page 1 of 7 Platform Support The Cisco DWDM SFP modules are supported across a variety of Cisco switches routers and optical transport devices For more details refer to the Cisco 10 Gigabit transceivers compatibility matrix at http www cisco com en US docs interfaces_modules transceiver_modules compatibility matrix OL_6974 pdf Connectors and Cabling s Equipment standard SFP interface e Network dual LC PC connector Note Only connections with patch cords with PC or UPC connectors are supported Patch cords with APC connectors are not supported All cables and cable assemblies used must be compliant with the standards specified in the standards section Product Specifications Optical Parameters Table 1 shows the main optical characteristics for the standard non tunable Cisco DWDM SFP modules Table 1 Optical Parameters for DWDM SFP Transmitter Spectral width 0 2 nm Full width 20 dB from maximum with resolution bandwidth RBW 0 01 nm Transmitter center x 100 x x 100 Pm Refer to Table 2 for center wavelengths wavelength Side mode SMSR 30 dB suppression ratio Transmitter extinction 9 dB ratio Transmitter optical Pout 1 0 3 0 dBm Average power coupled into single mode fiber output power Receiver Receiver optical input 1530 1565 nm wavelength Recei
6. out Cisco 10GBASE DWDM SFP modules by contacting your Cisco sales representative IE Americas Headquarters Asia Pacific Headquarters Europe Headquarters Cisco Systems Inc Cisco Systems USA Pte Ltd Cisco Systems International BV Amsterdam San Jose CA Singapore The Netherlands Cisco has more than 200 offices worldwide Addresses phone numbers and fax numbers are listed on the Cisco Website at www cisco com go offices fae ZR Cisco and the Cisco logo are trademarks or registered trademarks of Cisco and or its affiliates in the U S and other countries To view a list of Cisco trademarks go to this URL www cisco com go trademarks Third party trademarks mentioned are the property of their respective owners The use of the word partner does not imply a partnership relationship between Cisco and any other company 1110R Printed in USA C78 711186 01 01 15 2015 Cisco and or its affiliates All rights reserved This document is Cisco Public Information Page 7 of 7
7. rid 10GBASE DWDM 1546 12 nm SFP 100 GHz ITU grid 10GBASE DWDM 1545 32 nm SFP 100 GHz ITU grid 10GBASE DWDM 1544 53 nm SFP 100 GHz ITU grid 10GBASE DWDM 1543 73 nm SFP 100 GHz ITU grid 10GBASE DWDM 1542 94 nm SFP 100 GHz ITU grid 10GBASE DWDM 1542 14 nm SFP 100 GHz ITU grid 10GBASE DWDM 1541 35 nm SFP 100 GHz ITU grid 10GBASE DWDM 1540 56 nm SFP 100 GHz ITU grid 10GBASE DWDM 1539 77 nm SFP 100 GHz ITU grid 10GBASE DWDM 1538 98 nm SFP 100 GHz ITU grid 10GBASE DWDM 1538 19 nm SFP 100 GHz ITU grid 10GBASE DWDM 1537 40 nm SFP 100 GHz ITU grid 10GBASE DWDM 1536 61 nm SFP 100 GHz ITU grid 10GBASE DWDM 1535 82 nm SFP 100 GHz ITU grid 10GBASE DWDM 1535 04 nm SFP 100 GHz ITU grid 10GBASE DWDM 1534 25 nm SFP 100 GHz ITU grid 10GBASE DWDM 1533 47 nm SFP 100 GHz ITU grid 2015 Cisco and or its affiliates All rights reserved This document is Cisco Public Information 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39 40 4 42 43 44 45 46 47 48 49 50 51 52 53 54 55 Page 6 of 7 DWDM SFP10G 32 68 10GBASE DWDM 1532 68 nm SFP 100 GHz ITU grid DWDM SFP10G 31 90 10GBASE DWDM 1531 90 nm SFP 100 GHz ITU grid 57 DWDM SFP10G 31 12 10GBASE DWDM 1531 12 nm SFP 100 GHz ITU grid 58 DWDM SFP10G 30 33 10GBASE DWDM 1530 33 nm SFP 100 GHz ITU grid 59 DWDM SFP10G C 10GBASE DWDM tunable SFP 50 GHz ITU grid See Table 3 Next Steps Learn more ab
8. t BER 1E 3 pre EFEC 500 to 1100 ps nm chromatic dispersion amplified link with min 14 5dB OSNR 0 1nm RBW Input power range dispersion and noise limited dBm 7 to 18 At BER 1E 5 pre GFEC 500 to 1100 ps nm chromatic dispersion amplified link with min 17dB OSNR 0 1nm RBW 2015 Cisco and or its affiliates All rights reserved This document is Cisco Public Information Page 3 of 7 Note 1 Parameters are specified over temperature and at end of life unless otherwise noted 2 When shorter distances of single mode fiber are used an inline optical attenuator must be used to avoid overloading and damaging the receiver Table 3 shows the 96 DWDM ITU 50GHz channels to which the device can be tuned Table 3 ITU 50 GHz Center Wavelengths and Channel Numbering Channel ID Frequency THz Wavelength nm Channel ID Frequency THz Wavelength nm 191 35 2 191 4 3 191 45 4 191 5 5 191 55 6 191 6 7 191 65 8 191 7 9 191 75 10 191 8 11 191 85 12 191 9 13 191 95 14 192 15 192 05 16 192 1 17 192 15 18 192 2 19 192 25 20 192 3 21 192 35 22 192 4 23 192 45 24 192 5 25 192 55 26 192 6 27 192 65 28 192 7 29 192 75 30 192 8 31 192 85 32 192 9 33 192 95 34 193 35 193 05 36 193 1 2015 Cisco and or its affiliates All rights reserved This document is Cisco Public Information 1566 72 1566 31 1565 90 1565 50 1565 09 1564 68 1564 27 1563 86 1563 45 1563 05 1562 64 1562 23 1561 83 1561 42 1561 0
9. t chromatic dispersion to 1300ps nm Table 2 shows the main optical characteristics for the tunable Cisco DWDM SFP modules Table 2 Optical Parameters for Tunable DWDM SFP Transmitter Spectral width 0 2 nm Full width 20 dB from maximum with resolution bandwidth RBW 0 01 nm Transmitter center x 25 x x 25 pm Refer to Table 3 for center wavelengths wavelength Side mode SMSR 30 dB suppression ratio Transmitter 9 dB extinction ratio Transmitter optical Pout 1 3 0 dBm Average power coupled into single mode fiber output power Receiver Receiver optical 1525 1570 nm input wavelength Receiver damage 4 0 dBm threshold Receiver overload 7 0 dBm O p ee Performance at 10G LAN and 10G WAN Rates NO FEC Applications p Input power range dBm 7 to 23 At BER 1E 12 back to back unamplified link Input power range dispersion limited dBm 7 to 20 At BER 1E 12 500 to 1600 ps nm chromatic dispersion unamplified link Input power range dispersion and noise limited dBm 7 to 18 At BER 1E 12 500 to 1600 ps nm chromatic dispersion amplified link with min 26dB OSNR 0 1nm RBW Performance at OTU2 OTU2e Rates FEC Applications Input power range dBm 7 to 27 At BER 1E 3 pre EFEC back to back unamplified link Input power range dispersion limited dBm 7 to 24 At BER 1E 3 pre EFEC 500 to 1300 ps nm chromatic dispersion unamplified link Input power range dispersion and noise limited dBm 7 to 18 A
10. ver damage 4 0 dBm threshold Receiver overload 7 dBm Receiver Power Performance rens at 10G LAN and 10G WAN Rates NO FEC Applications Input power range dBm 7 to 23 At BER 1E 12 back to back unamplified link Input power range dispersion limited dBm 7 to 20 At BER 1E 12 500 to 1600 ps nm chromatic dispersion unamplified link Input power range dispersion and noise limited dBm 7 to 17 At BER 1E 12 500 to 1600 ps nm chromatic dispersion amplified link with min 27dB OSNR 0 1nm RBW 2015 Cisco and or its affiliates All rights reserved This document is Cisco Public Information Page 2 of 7 Performance at OTU2 OTU2e rates FEC applications Input power range dBm 7 to 27 At BER 1E 3 pre EFEC back to back unamplified link Input power range dispersion limited dBm 7 to 24 At BER 1E 3 pre EFEC 500 to 1300 ps nm chromatic dispersion unamplified link Input power range dispersion and noise limited dBm 7 to 17 At BER 1E 3 pre EFEC 500 to 1100 ps nm chromatic dispersion amplified link with min 16dB OSNR 0 1nm RBW Input power range dispersion and noise limited dBm 7 to 17 At BER 1E 5 pre GFEC 500 to 1100 ps nm chromatic dispersion amplified link with min 19dB OSNR 0 1nm RBW Up to 1600ps nm chromatic dispersion is supported for fiber links between two Cisco DWDM SFP modules For connections between a Cisco DWDM SFP module and a Cisco DWDM XENPAK X2 or XFP module limi

Cisco DWDM, SFP+, 1540.56nm

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