Cisco OC-192/STM-64 Optics Card 15454-OC192SR1310= Datenbogen
Produktcode
15454-OC192SR1310=
Data Sheet
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Table 1.
OC-192/STM-64 Modules with Applications
Component
Deployment Application
Short-reach/intra-office
Provides a cost-effective interface for interconnecting to transponder-based long-haul or metro
dense wavelength-division multiplexing (DWDM) equipment.
dense wavelength-division multiplexing (DWDM) equipment.
Intermediate-reach/short-
haul
haul
Suitable for metro interoffice connections between central offices, colocation offices, or enterprise
and campus facilities with span lengths of less than 40 km.
and campus facilities with span lengths of less than 40 km.
Long-reach/long-haul
Suitable for metro interoffice connections between central offices, colocation offices, or enterprise
and campus facilities with span lengths between 40 and 80 km.
and campus facilities with span lengths between 40 and 80 km.
DWDM, Long-
reach/extended long-haul
reach/extended long-haul
Primarily used in metro interoffice connections between central offices, colocation offices, or
enterprise and campus facilities with bandwidth requirements exceeding 10 Gbps. Supporting 32
wavelengths, based on the International Telecommunication Union (ITU) frequency
recommendations, the cards can be multiplexed together using optical filters (Cisco ONS 15454
MSTP, Cisco ONS 15216 or similar), allowing bandwidth scaling to 320 Gbps per fiber. Also
suitable for use in single-channel applications that require extended reaches using optical
amplification and dispersion compensation.
enterprise and campus facilities with bandwidth requirements exceeding 10 Gbps. Supporting 32
wavelengths, based on the International Telecommunication Union (ITU) frequency
recommendations, the cards can be multiplexed together using optical filters (Cisco ONS 15454
MSTP, Cisco ONS 15216 or similar), allowing bandwidth scaling to 320 Gbps per fiber. Also
suitable for use in single-channel applications that require extended reaches using optical
amplification and dispersion compensation.
Each version of the Cisco OC-192/STM-64 interface cards provides a SONET-compliant 9.95328-
Gbps high-speed interface. The transmitter and receiver reside on the same card and are
interconnected to the fiber using standard SC connectors angled down relative to the faceplate to
reduce stress on the optical fibers. The cards carry concatenated payloads of STS-3c/VC-4, STS-
6c/VC-4-2c, STS-12c/VC-4-4c, STS-24c/VC-4-8c, STS-48c/VC-4-16c, and OC-192c/VC-4-64c, as
well as payloads on an STS-1, VC-3, VC-12, and VT1.5 basis. In SONET applications, the cards
are software-provisionable to transport STM-64 SDH payloads in the form of STS-Nc-concatenated
payload over SONET. When operated within the outlined specifications (Table 4), each card will
transport the 10-Gbps signal with a minimum bite error rate (BER) of 10E-12.
The Cisco OC-192/STM-64 cards are deployable in the four high-speed card slots of the Cisco
ONS 15454 MSPP. The cards can be commissioned for use in Unidirectional Path Switched
Ring/Sub-Network Connection Protection (UPSR/SNCP), two-fiber and four-fiber Bidirectional Line
Switched Ring/Multiplex Section-Shared Protection Ring (BLSR/MS-SPR), 1+1 automatic
protection switching/line multiplex section protection (APS/LMSP), or path-protected mesh network
(PPMN) architectures, providing users with the flexibility to build the type of networks required to
meet their service demands, traffic patterns, and application needs. This card-provisioning
flexibility also helps to reduce the cost of inventory and simplifies engineering and deployment.
The OC-192/STM-64 cards incorporate faceplate-mounted LEDs to provide a quick visual check of
the operational status at the card. Printed on the faceplate is a blue triangle icon, which indicates
the shelf slot where the card can be physically installed. The card is supported by the integrated
Cisco Transport Controller craft manager for the Cisco ONS 15454 MSPP. The controller provides
the user with access to operations, administration, maintenance, and provisioning (OAM&P) for the
system.
Application Description
As broadband services are pushed closer to small offices and homes, higher capacities are
needed in the modern metro optical network. The ability to deploy 10-Gbps spans, with either
single or multiple wavelengths per fiber, increases the telecommunications provider’s fiber
capacity and revenue-generating opportunities. Deploying 10 Gbps on existing fiber provides an
alternative to the much costlier option of installing more fiber and regenerating elements. Service
growth and the commercialization of new services, especially the expected growth of high-
bandwidth services such as DSL, video, Fast Ethernet, Gigabit Ethernet, and high-speed private-
line services, will increase the need for interoffice bandwidth. OC-192 technology allows for an
increase in transmission capacity so that additional bandwidth requirements can be
accommodated without fiber installation.