15454-M100GCLIC-RF

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15454-M100GCLIC-RF

Description:

Cisco Refurbished
Original Part No : 15454-M-100GC-LIC=

100G OTU4 ITU-T CP-DQPSK CBandTuneableL C-Lic REMANUFACTURED
AED 0

Availability: In stock


Available Quantity: 128000

Delivery Time: 2 to 4 week

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    Product Overview

    The Cisco® ONS 15454 Multiservice Transport Platform (MSTP) supports a trunk card that delivers Dense Wavelength-Division Multiplexing (DWDM) transmission using a coherent polarization-multiplexed differential quadrature phase shift keying (CP-DQPSK) modulation scheme. The Cisco ONS 15454 100 Gbps Coherent DWDM Trunk Card (Figure 1) simplifies the integration and transport of 100 Gigabit Ethernet and Optical Transport Unit Level 4 (OTU-4) interfaces and services into enterprises and service provider optical networks.

    Release 9.6 of the Cisco ONS 15454 MSTP extends the total data transport capacity by a factor of three, allowing DWDM transmission of up to 9.6 Tbps (96 wavelengths at 100 Gbps each) in the C band.

    Figure 1.      Cisco ONS 15454 100 Gbps Coherent DWDM Trunk Card

    Challenge and Solution

    The bandwidth carried on core and metropolitan DWDM networks is growing exponentially, while operators’ revenues are not keeping pace. The Cisco ONS 15454 100-Gbps solution can dramatically lower the cost to carry bandwidth, helping to maintain and improve customers’ profitability. Internet growth is still exponential, mainly due to demand for next-generation services such as quadruple play (data, voice, video, and mobility), video distribution, Internet Protocol Television (IPTV), and other high-bandwidth services.

    With advanced modulation schemes, the ability to transmit 100-Gbps wavelengths on existing or new DWDM systems improves return on investment by increasing the overall capacity per fiber pair without impacting the unregenerated transmission distance supported by the system. Scaling from 10 Gbps to 40 Gbps and now 100 Gbps increases by a factor of 10 the bandwidth that can be transported over existing fiber networks.

    The new CP-DQPSK modulation supports 9.6 Tbps capacity transmission over Ultra-Long-Haul (ULH) networks of up to 3000 km of unregenerated optical spans.

    The Cisco ONS 15454 100 Gbps Coherent DWDM Trunk Card is designed to provide the following benefits:

       Transport of 100-Gbps wavelengths over fully uncompensated networks, up to 3000 km of unregenerated optical spans

       Transport at 100 Gbps over very low-quality fiber with very high Polarization Mode Dispersion (PMD)

       Support for up to ninety-six 100-Gbps wavelengths (50-GHz channel spacing) with very high tolerance to filtering penalties

       Improved overall system density for 100 Gbps per slot, five times greater than the density achieved with 40‑Gbps units

       Support for different configurations (transponder, muxponder, or regenerator) through software provisioning only

    Product Features and Benefits

    The Cisco ONS 15454 100 Gbps Coherent DWDM Trunk Card is a plug-in module to the Cisco ONS 15454 MSTP, providing a cost-effective architecture for delivering 100-Gbps services. The card also features a pluggable client interface that can be used to provide transponder capabilities, mapping the client signal to a single DWDM line interface.

    The client port supports a standard Channel Express (CXP) format pluggable compliant with IEEE 100GBASE-SR10 LAN PHY or OTU-4 equivalent interface.

    The trunk card features a software-configurable baud rate between 27.952 Gbaud and 31.241 Gbaud, depending on Forward Error Correction (FEC) selection as well as a G.709v3 OTU-4 digital wrapper, long-reach and long-haul, ITU-compliant, 50-GHz spaced optical interface using LC connectors. The DWDM output line interface is tunable to 96 wavelengths across the full optical C band, dramatically reducing inventories for spares. When operated within the outlined specifications, the trunk card can operate with a post-FEC bit error rate (BER) of better than 10E-15.

    The trunk card provides many carrier-class features and advanced capabilities necessary to deliver 100-Gbps services, including protocol transparency, wavelength tunability, flexible protection mechanisms, flow-through timing, and management and performance monitoring capabilities (Figure 2).

    Figure 2.      Cisco ONS 15454 100 Gbps Coherent DWDM Trunk Card Block Diagram

    Enhanced Forward Error Correction Capability

    The Cisco ONS 15454 100 Gbps Coherent DWDM Trunk Card can support FEC mechanisms on trunk and client interfaces.

    The trunk port supports three software-configurable FEC coding options, which cannot be disabled.

       Generic FEC (GFEC): Standard G.975 Reed-Solomon algorithm with 7 percent overhead (OH).

       Ultra FEC (UFEC): Standard G.975.1 (Subclause I.7) with 20 percent overhead. This FEC scheme uses two orthogonally concatenated BCH Enhanced FEC (EFEC) codes. The constructed code is decoded iteratively to rebuild the original frame.

       High-Gain FEC (HG-FEC): High-Gain FEC with 7 percent overhead, providing better performance than standard G.975.1 seven percent overhead FEC. Because of the reduced overhead and lower bit rate, HG-FEC is suitable for applications where 100-Gbps wavelengths are passing through a large number of reconfigurable optical add-drop multiplexer (ROADM) nodes with limited pass-band performance.

    The client port supports the standard G.975 Reed-Solomon FEC algorithm, which can be enabled or disabled through software configuration.

    Advanced Modulation Scheme

    The Cisco ONS 15454 100 Gbps Coherent DWDM Trunk Card features an advanced modulation scheme to provide optical performance significantly better than industry-standard 10-Gbps equivalent interfaces.

    Cisco selected a CP-DQPSK modulation format to optimize 100-Gbps transmission in terms of Optical Signal-to-Noise Ratio (OSNR), Chromatic Dispersion (CD), and Polarization Mode Dispersion (PMD) robustness.

    The CP-DQPSK modulation scheme consists of multiplexing two DQPSK signals using two different orthogonal light polarizations, as shown in Figures 3 and 4.

    Figure 3.      CP-DQPSK Logical Modulation Scheme

    Figure 4.      CP-DQPSK Logical Transmitter Scheme

    The core of the 100-Gbps CP-DQPSK modulation scheme is the optical receiver, based on coherent optical detection, where a Digital Signal Processor (DSP) calculates the inverse of the optical system matrix, allowing the receiver to recover the original transmitted signals (Figure 5).

    Figure 5.      CP-DQPSK Logical Receiver Scheme

    The primary benefits of CP-DQPSK are:

       Strong optical signal-to-noise ratio performance

       Outstanding chromatic dispersion robustness, avoiding any additional cost related to optical chromatic dispersion compensation equipment

       Extended polarization mode dispersion robustness (three times better than 10-Gbps units)

       Very high spectral efficiency, allowing 100-Gbps wavelengths to be transmitted across a large number of ROADMs with negligible penalty

    Trunk Card Versions

    Two versions of the Cisco ONS 15454 100 Gbps Coherent DWDM Trunk card are offered to support different application requirements:

       An extended-performance version offering full performance targeting Ultra Long-Haul applications where the network is optimized for CP-DQPSK transmission (no 10-Gbps channels or dispersion compensation units [DCUs])

       A metro edge performance version with differential mode only (CP-DQPSK), cost-optimized for metropolitan application and 10-Gbps installed networks

    Protocol Transparency

    The Cisco ONS 15454 100 Gbps Coherent DWDM Trunk Card can transparently deliver 100-Gbps point-to-point services cost-effectively for the Cisco ONS 15454 MSTP platform. Table 1 shows transponder client configurations and mapping.

    Table 1.       Transponder Client Configurations and Mapping

    Client

    Mapping

    Trunk

    Format

    Rate (Gbps)

    Format

    Rate with 7% GFEC or HG-FEC OH (Gbps)

    Rate with 20% UFEC OH (Gbps)

    100GE LAN-PHY

    101.125

    Bit transparent through standard G.709v3 mapping

    OTU-4

    111.809

    124.964

    OTU-4

    111.809

    Transparent G.709 standard

    Wavelength Tunability

    The trunk card supports software-provisionable tunability across the full C band, covering 96 channels on the 50-GHz grid. Tunability provides flexibility and reconfigurability of services transported on ROADM-based networks, and also allows ordering and inventory of a single part for deployment and sparing.

    Flexible Protection Mechanism Support

    The trunk card supports multiple protection mechanisms commonly used in optical transport networks. Table 2 outlines the available protection options and the associated service-level agreements (SLAs) that can be provided.

    Table 2.       Protection Formats

    Protection Type

    Capabilities

    Unprotected

    No client terminal interface, transponder card, or DWDM line protection.

    The client signal is transported over a single unprotected transponder card or optical path.

    1+1 protection

    Provides protection for the client terminal interface, transponder card, and DWDM line through client Automatic Protection Switching (APS) or Linear Multiplex Section Protection (LMSP) signaling transported transparently over the transponder card or optical path.

    Protection is provided through client line or path protection through transparent signal transport through a transponder circuit.

    OCH-trail protection

    Provides protection for DWDM signal through external optical switch units: Protection Switch Module (PSM).

    Flow-Through Timing

    The Cisco ONS 15454 100 Gbps Coherent DWDM Trunk Card allows timing to flow through from client to line optical interface. The received timing from the client interface is used to time the line transmitter interface. This flow-through timing allows multiple trunk cards to be placed in the same shelf but be independently timed, independent of the network element timing.

    Management

    The Cisco ONS 15454 MSTP system provides comprehensive management capabilities to support Operations, Administration, Maintenance, and Provisioning (OAM&P) capabilities through the integrated Cisco Transport Controller craft interface with support from the Cisco Prime™ optical element management system. The trunk card features provisionable digital wrapper (G.709) functionality, providing per-wavelength performance management capabilities, especially for services transported transparently across the network. Without the digital wrapper functions, a carrier transporting a service transparently would be unable to identify network impairments that may degrade the transported signal and violate the SLA agreements. The digital wrapper’s Generic Communication Channel (GCC) provides a separate communications channel on a per-wavelength basis to be used by the platform when transparent signals are transported. GCC allows the Cisco ONS 15454 MSTP system to extend its advanced network autodiscovery capabilities to DWDM-based services. The integrated Cisco Transport Controller craft manager and Cisco Prime provide the user with OAM&P functionalities for the system.

    Far-End-Laser-Off Behavior

    The Cisco ONS 15454 100 Gbps Coherent DWDM Trunk Card can provision the far-end-laser-off behavior when SONET/SDH payloads are present. Customers can use Cisco Transport Controller to configure how the remote client interface will behave following a fault condition. It is possible to configure the remote client to Squelch or to send an Alarm Indication Signal (AIS). For 100-Gigabit Ethernet signals, the default behavior is Squelching.

    Performance Monitoring

    The Cisco ONS 15454 100 Gbps Coherent DWDM Trunk Card provides support for both transparent and nontransparent signal transport performance monitoring. The digital wrapper channel is monitored according to G.709 Optical Transport Network (OTN) and G.8021 standards. Performance monitoring of optical parameters on the client and DWDM line interface include Loss of Signal (LOS), laser bias current, transmit optical power, and receive optical power. Calculation and accumulation of the performance monitoring data are supported in 15-minute and 24-hour intervals as per G.7710.

    Physical system parameters measured at the wavelength level, such as mean polarization mode dispersion, accumulated chromatic dispersion, or received optical signal to noise ratio, are also included in the set of performance monitoring parameters. These can greatly simplify troubleshooting operations and enhance the set of data that can be collected directly from the equipment. A detailed list of performance monitors is given in Table 8.

    The trunk card incorporates faceplate-mounted LEDs to provide a quick visual check of the operational status of the card. An orange circle is printed on the faceplate, indicating the shelf slot in which you can install the card.

    A specific configuration of the client will support IP over DWDM (IPoDWDM) proactive Fast Reroute (FRR) messaging over the CXP client in case of 100 Gigabit Ethernet connectivity.

    Regeneration Application

    The Cisco ONS 15454 100 Gbps Coherent DWDM Trunk Card supports OTU-4 regeneration capabilities. Two cards can be configured to work in back-to-back mode connecting through the backplane in the same shelf, and perform the OTN Optical-Electrical-Optical (OEO) regeneration of the frame as depicted in Figure 6.

    Figure 6.      OTU-4 Regeneration Application for 100 Gbps OTU-4 Client Signal

    100 Gigabit Ethernet or OTU-4 clients are supported. Regeneration capability uses the OTU-4 backplane interconnection supported by the Cisco ONS 15454 MSTP M6 or M2 chassis; OTU-4 overhead is terminated, allowing ODU-4 traffic to transparently pass through. GCC0 is properly terminated, while GCC1 and GCC2 are properly passed through (Figure 7).

    No CXP client is required, as communication between the two cards acting as a regeneration group is supported through the chassis backplane.

    A dedicated IPoDWDM configuration can be enabled in the regeneration configuration to support proactive FRR messaging between IPoDWDM router interfaces.

    Figure 7.      OTU-4 Regeneration Configuration in a Cisco ONS 15454 M2 chassis

    In case of failure on one side, ODUk-AIS is generated and propagated on the other side while an OTUk-BDI is sent back on the same side as defined by the ITU G.709 standard.

    Cisco ONS 15454 10-Port 10 Gbps Line Card Configuration

    The Cisco ONS 15454 100 Gbps Coherent DWDM Trunk Card can be coupled with the Cisco ONS 15454 10-Port 10-Gbps Line Card to support 10-port 10-Gbps muxponder capability. The Cisco ONS 100 Gbps Coherent DWDM Trunk Card can be connected through the Cisco ONS 15454 MSTP M6 or M2 backplane (no client CXP required) with the Cisco ONS 15454 10-Port 10 Gbps Line Card to provide OTN multiplexing of 10 ports of 10-Gbps data streams into a single 100-Gbps DWDM OTU-4 wavelength (Figure 8).

    Supported client signals are any combination of 10 Gigabit Ethernet LAN-PHY, 10 Gigabit Ethernet WAN-PHY, OC-192, STM-64, 10-Gbps and 8-Gbps Fibre Channel (FICON), or OTU-2 data rates.

    Please refer to the Cisco ONS 15454 10-Port 10 Gbps Line Card data sheet for additional information.

    Figure 8.      Three Cisco ONS 15454 10-Port 10 Gbps Line Card Applications in an M6 Chassis

    Cisco ONS 15454 2-Port CFP 40-Gbps Muxponder Application

    The Cisco ONS 15454 100 Gbps Coherent DWDM Trunk Card can be coupled with the Cisco ONS 15454 2-Port CFP Line Card to support two ports of 40-Gbps muxponder capability in a C Form-Factor Pluggable (CFP) configuration. The trunk card can be connected through the Cisco ONS 15454 MSTP M6 or M2 backplane (no client CXP required) with the 2-port CFP line card and provides OTN multiplexing of the two ports of 40-Gbps data streams into a single 100-Gbps DWDM OTU-4 wavelength.

    Supported client signals are any mix and combination of 40 Gigabit Ethernet LAN-PHY, or OTU-3 data rates. Please refer to theCisco ONS 15454 2-Port CFP Line Card data sheet for additional information.

    Cisco 100-Gbps LR4 Transponder Application

    The Cisco ONS 15454 100 Gbps Coherent DWDM Trunk Card can be coupled with the Cisco ONS 15454 2-Port CFP Line Card to support the 100GBASE-LR4 client interface for the 100-Gbps transponder. The 2-port CFP line card can be connected through the Cisco ONS 15454 M6 or M2 backplane with up to two trunk cards placed in slots immediately above and below the line card to provide the functionality of two 100-Gbps LR4 transponders, using CFP pluggables as the client-facing interface (Figure 9).

    Figure 9.      LR4 Transponder Application Plus One 10-Port 10 Gbps Muxponder in an M6 Chassis

    Supported client signals are 100 Gigabit Ethernet LAN-PHY or OTU-4 data rates.

    Please refer to the Cisco ONS 15454 2-Port CFP Line Card data sheet for additional information.

    Application Description

    The Cisco ONS 15454 100 Gbps Coherent DWDM Trunk Card provides cost-effective 100-Gbps transport services using the Cisco ONS 15454 MSTP platform.

    Two main applications promote the 100-Gbps deployments.

       100-Gbps router interconnection for business services and research networks: Cisco research indicates that the total volume of worldwide IP traffic is doubling every two years, requiring an increase in transfer rate from 10 Gbps to 100 Gbps. The transponder solution aims to provide DWDM interconnection between 100-Gbps router interfaces across DWDM metro, regional, or ULH networks. The advanced CP-DQPSK modulation scheme is designed to cope with long-distance applications, allowing the extension of unregenerated 100-Gbps services across fiber spans up to 3000 km.

     

       OTU-4 links in carrier backbone networks: OTN technology is crucial to backbone carrier networks. OTN is normally the preferred method used for inter-carrier or inter-domain capacity exchange at 2.5-Gbps (OTU-1), 10-Gbps (OTU-2), 40-Gbps (OTU-3) and 100-Gbps (OTU-4) data rates. The Cisco ONS 15454 100 Gbps Coherent DWDM Trunk Card supports a fully standard OTU-4 client interface, which can be connected to any G.709-based OTN cross-connect, 100-Gbps router interface, or other 100-Gbps transponder interfaces.

    Licensing Approach

    The Cisco ONS 15454 100 Gbps Coherent DWDM Trunk Card includes the ability to cost-effectively transport 10-Gbps services through a pay-as-you-grow licensing model for the 10-Port 10-Gbps muxponder configuration. A licensed version of the Cisco ONS 15454 100 Gbps Coherent DWDM Trunk Card works in conjunction with a licensed version of the Cisco ONS 15454 10-Port 10 Gbps Line Card, offering a cost-effective solution for aggregation and transport of 10-Gbps services. These two cards can only work in this configuration. Additional 10-Gbps services will be provided by mounting a 10-Gbps license through software key distribution. Up to nine additional 10-Gbps licenses can be added to the Cisco ONS 15454 10-Port 10 Gbps Line Card (only one is provided in the initial configuration).

    To simplify spares management, it is also possible to upgrade the licensed version of the trunk card to full functionality.

    Table 3.       Supported Software Licenses

    License Part Number

    License Description

    Card Applicability

    Card Description

    15454-M-LIC-10G=

    One-Port 10-Gb License for 100-Gb muxponder

    15454-M-10X10-LIC=

    10x10G Multirate client line card licensed with 1 license at 10 Gb

    15454-M-LIC-100G=

    100G TXP Reg License for 100-Gb trunk line card

    15454-M-100GC-LIC=

    100G OTU-4 ITU-T CP-DQPSK Full C-Band Tunable Line Card License

    More information about the Cisco licensing policy is available athttp://www.cisco.com/en/US/docs/general/warranty/English/EU1KEN_.html.

    Product Specifications

    Compact Design

       Single-slot card design for high-density, 100-Gbps solutions

       Up to six trunk cards per Cisco ONS 15454 M6 shelf assembly, supporting up to forty-two 100-Gbps ports per 42-rack-unit (RU) bay frame

    Flexible Restoration Options

       Transparent support for UPSR, SNCP, BLSR, MS-SPRing, and 1+1 APS and MSP

       OCH-trail protection through protection switch module

       Unprotected (0+1)

    Regulatory Compliance

    Table 4 lists regulatory compliance information for the trunk card. Note that all compliance documentation may not be completed at the time of product release. Please check with your Cisco sales representative for countries other than Canada, the United States, and the European Union.

    Table 4.       Regulatory Compliance

    ANSI System

    ETSI System

    Countries and Regions Supported

      Canada
      United States
      Korea
      Japan
      European Union
      European Union
      Africa
      CSI
      Australia
      New Zealand
      China
      Korea
      India
      Saudi Arabia
      South America

    EMC (Class A)

      FCC 47CFR15, 2007
      ETSI EN 300 386 V1.4.1 (2008-04) Telecommunication network equipment EMC requirements (Note: EMC-1)
      CISPR22:2008 and EN55022:2006/A1:2007 Information Technology Equipment (Emissions) (EMC-2)
      CISPR24: 1997/ A1:2001/A2:2002 and EN55024:1998/A1:2001/A2:2003: Information Technology Equipment – Immunity characteristics – Limits and Methods of Measurement (test levels)

    Safety

      CSA C22.2 #60950-1 – Edition 7, March 2007
      UL 60950-1 – Edition 2, March 2007
      GR-1089-CORE Issue 4, NEBS EMC and Safety, June 2006
      UL 60950-1 – Edition 2, March 2007
      IEC 60950-1 Information technology equipment Safety Part 1: General requirements – Edition 2, 2005 and National Differences as per CB Bulletin 112A
      IEC/EN 60950-1 (2006/10) with Amendment 11:2004 to EN 60950-1:2001, 1st Edition and National Differences as per CB Bulletin 112A.
      EN 60950-1, Edition 2 (2006) Information technology equipment – Safety – Part 1: General requirements
      CE Safety Directive: 2006/95/EC

    Laser

      UL 60950-1 – Edition 2, March 2007
      IEC 60825-1: 2001 Ed.1.2 (incl. am1+am2) Safety of laser products Part 1: Equipment classification, requirements and users guide
      IEC60825-2 Ed.3 (2004) Safety of laser products Part 2: Safety of optical fiber communication systems + A1:2006
      IEC 60825-1: 2001 Ed.1.2 (incl. am1+am2) Safety of laser products Part 1: Equipment classification, requirements and users guide
      IEC60825-2 Ed.3 (2004) Safety of laser products Part 2: Safety of optical fibre communication systems + A1:2006
      21CFR1040 (2008/04) (Accession Letter and CDRH Report) Automatic Laser Shutdown and restart (ALS) according to ITU-T G.664 (03/06). Guidance for Industry and FDA Staff (Laser Notice No. 50) , June 2007
      Laser Products: Conformance with IEC 60825-1 and IEC 60601-2-22; Guidance for Industry and FDA Staff (Laser Notice No. 50), June 2007

    Environmental

      GR-63-CORE Issue 3 ,Network Equipment Building Standards (NEBS) Physical Protection, March 2006
      ETS 300-019-2-1 V2.1.2 (Storage, Class 1.1)
      ETS 300-019-2-2 V2.1.2 (1999-09): Transportation, Class 2.3
      ETS 300-019-2-3 V2.2.2 (2003-04):Operational, Class 3.1E

    Optical

      GR-253-CORE – Issue 04
      ITU-T G.691
      ITU-T G.709
      ITU-T G.975

    Quality

      TR-NWT-000332, Issue 4, Method 1 calculation for 20-year mean time between failure (MTBF)

    Miscellaneous

      GR-1089-CORE Issue 4, NEBS EMC and Safety (June 2006) (Note: NEBS-1)
      GR-63-CORE Issue 3, NEBS Physical Protection (March 2006) (Note: NEBS-2)
      ATT-TP-76200 : 2008
      ANSI T1.315-2001
      GR-499: 2004 Transport Systems Generic Requirements (TSGR): Common Requirements

    Other Specifications

    Table 5 lists system requirements for the Cisco ONS 15454 100 Gbps Coherent DWDM Trunk Card. Table 6 provides the DWDM specifications, Table 7 details receive-side optical performances, Table 8 lists performance monitoring parameters, Table 9 provides card specifications, and Table 10 gives ordering information.

    Table 5.       System Requirements

    Component

    Cisco ONS 15454 M6

    Cisco ONS 15454 M2

    Processor

    TNC/TSC/TNC-E/TSC-E

    TNC/TSC/TNC-E/TSC-E

    Shelf assembly

    Cisco ONS 15454-M6-SA shelf assembly with FTA2

    Cisco ONS15454-M2-SA shelf assembly with FTA2

    System software

    Release 9.6 ANSI/ETSI or later

    Release 9.6 ANSI/ETSI or later

    Slot compatibility

    2 through 7

    2 through 3

    Table 6.       DWDM Specifications

    Parameter

    Value

    Bit rate

    27.952 Gbaud ±20 ppm (OTU4 with GFEC or HG-FEC 7% OH)

    31.241 Gbaud ±20 ppm (OTU4 with UFEC 20% OH)

    Automatic laser shutdown and restart

    ITU-T G.664 (06/99)

    Nominal wavelengths (lTnom)

    Full-tunable between 1528.77 and 1566.72 nm (C-Band – 50 GHz)

    Connector type (TX/RX)

    LC, duplex (shuttered)

    Optical Transmitter

      Type

    CP-DQPSK modulation format

      Output power (PTmin)

    –2 to +0.5 dBm (metro edge performance)

    –1 to +1.5 dBm (extended performance)

      Required optical return loss, minimum (ORLmin)

    27 dB

      Laser safety class

    1

    Optical Receiver

      Chromatic dispersion tolerance (DLRmax)

    +/– 70,000 ps/nm

      Overload

    0 dBm

      Receiver reflectance (maximum)

    30 dB

      Input wavelength bandwidth (lc_rx)

    Between 1528.77 and 1566.72 nm (C-Band – 50 GHz)

    Table 7.       DWDM Receive-Side Optical Performances

    CD Tolerance

    FEC Type

    Pre-FEC BER

    Post-FEC BER

    Input Power Sensitivity

    DGD

    OSNR 
    (0.5 nm RWB)

    Extended Performance

    0 ps/nm

    UFEC 
    (20% OH)

    <1x10E (–2)

    <10E (–15)

    0 to –14 dBm
    (–20 dBm with 0.5 dB of OSNR penalty)

    7.5 dB

    0 ps/nm

    180 ps

    8.0 dB

    +/– 70,000 ps/nm

    180 ps

    9.0 dB

    0 ps/nm

    HG-FEC 
    (7% OH)

    <4.0x10E (–3)

    <10E (–15)

    0 to –14 dBm
    (–20 dBm with 0.5 dB of OSNR penalty)

    8.0 dB

    0 ps/nm

    180 ps

    8.5 dB

    +/– 70,000 ps/nm

    180 ps

    9.5 dB

    0 ps/nm

    GFEC 
    (7% OH)

    <1.0x10E (–3)

    <10E (–15)

    0 to –14 dBm
    (–20 dBm with 0.5 dB of OSNR penalty)

    14.5 dB

    +/- 20,000 ps/nm

    180 ps

    15.5 dB

    Metro Edge Performance

    0 ps/nm

    HG-FEC 
    7% OH

    <4.0x10E (–3)

    <10E (–15)

    0 to –14 dBm
    –20 dBm with 0.5 dB of OSNR penalty

    11.0 dB

    +/– 5,000 ps/nm

    30 ps

    11.5 dB

    Table 8.       Performance Monitoring Parameters

    Area

    Parameter Name

    Description

    OTN

    OTUk SM

    ODUk PM

     

    BBE-SM

    BBE-PM

    Number of background block errors

    BBER-SM

    BBER-PM

    Background block error ratio

    ES-SM

    ES-PM

    Number of errored seconds

    ESR-SM

    ESR-PM

    Errored seconds ratio

    SES-SM

    SES-PM

    Number of severely errored seconds

    SESR-SM

    SESR-PM

    Severely errored seconds ratio

    UAS-SM

    UAS-PM

    Number of unavailable seconds

    FC-SM

    FC-PM

    Number of failure counts

    FEC

    Bit errors

    Number of corrected bit errors

    Uncorrectable words

    Number of uncorrectable words

    Trunk optical performance monitoring

    OPT

    Transmitter optical power

    LBC

    Transmitter laser bias current

    OPR

    Receiver optical power

    RCD

    Residual chromatic dispersion

    PMD

    Mean polarization mode dispersion

    OSNR

    Optical signal-to-noise ratio, calculated with 0.5 nm RBW

    SOPMD

    Second Order PMD (SOPMD Estimation

    SOPCR

    Polarization Change Rate Estimation

    PDL

    Polarization Dependent Loss (PDL) Estimation

    Table 9.       Card Specifications

    Management

    Card LEDs

      Failure (FAIL)

      Active/standby (ACT/STBY)

      Signal fail (SF)

     

    Red

    Green/yellow

    Yellow

    Client port LEDs (per port)

      Active input signal

     

    Green

    DWDM port LEDs

      Active input signal

      Output wavelength

     

    Green

    Green

    Power (including pluggable)

    Typical

    Maximum

    125W (25C and –48VDC)

    133W (55C and –38VDC)

    Physical

    Dimensions

    Occupies 1 slot

    Weight

    4 lb (1.8 kg)

    Reliability and availability

    Mean time between failures (MTBF)

    116,052 hrs

    Latency (end to end)

    G.709 – GFEC

    G.709 – HG-FEC 7%

    G.709 – UFEC 20%

    4 microseconds

    20 microseconds

    39 microseconds

    Storage temperature

    –40ºC to 70ºC (–40ºF to 158ºF)

    Operating temperature

      Normal

      Short-term1

     

    0ºC to 40°C (32°F to 104°F)

    –5ºC to 55ºC (23ºF to 131ºF)

    Relative humidity

      Normal

      Short-term1

     

    5% to 85%, noncondensing

    5% to 90% but not to exceed 0.024 kg water/kg of dry air

    1 Short-term refers to a period of not more than 96 consecutive hours and a total of not more than 15 days in 1 year (a total of 360 hours in any given year, but no more than 15 occurrences during that 1-year period). The values shown are valid for M6 or M2 chassis.

    Table 10.     Ordering Information

    Part Number

    Description

    15454-M-100G-LC-C=

    100G OTU-4 ITU-T CP-DQPSK Full C Band Tuneable LC

    15454-M-100G-ME-C=

    100G OTU-4 CP-DQPSK Full C Band Tuneable LC Metro Edge

    15454-M-100GC-LIC=

    100G OTU-4 ITU-T CP-DQPSK Full C Band Tuneable LC – Licensed

    15454-M-LIC-100G=

    100G TXP/Reg License for 100G Trunk Line card

    ONS-CXP-100G-SR10=

    CXP – 100GBASE-SR – Commercial Temp

    Additional Information

    SKU 15454-M100GCLIC-RF
    Weight (Kg) 1
    Datasheet URL http://www.cisco.com/c/en/us/products/collateral/optical-networking/ons-15454-series-multiservice-provisioning-platforms/data_sheet_c78-713298.html
    Condition Refresh
    Module Type Optical Networking Module

    15454-M100GCLIC-RF

    AED

    AED 0

    0