欢迎访问ic37.com |
会员登录 免费注册
发布采购

SFP-CXDV-TX27 参数 Datasheet PDF下载

SFP-CXDV-TX27图片预览
型号: SFP-CXDV-TX27
PDF下载: 下载PDF文件 查看货源
内容描述: 数字视频的SFP [Digital Video SFPs]
分类和应用:
文件页数/大小: 5 页 / 341 K
品牌: MRV [ MRV COMMUNICATIONS, INC. ]
 浏览型号SFP-CXDV-TX27的Datasheet PDF文件第2页浏览型号SFP-CXDV-TX27的Datasheet PDF文件第3页浏览型号SFP-CXDV-TX27的Datasheet PDF文件第4页浏览型号SFP-CXDV-TX27的Datasheet PDF文件第5页  
Datasheet
Digital Video SFPs
Features
Digital video signals over fiber optic links
Wide protocol support with 143 Mbps to 1.485 Gbps data rates
HD-SDI
- SMPTE 292M (1.4835 Gbps NTSC, 1.485 Gbps PAL/SECAM)
SDI
- SMPTE 259M (143/270/360 Mbps)
- SMPTE 344M (540 Mbps)
DVB ASI (270 Mbps)
75 Ohm coaxial input/output with standard BNC connector
Front panel LED support for signal lock and CRC/EDH error
Plug-n-Play operation
SFP MSA (as applicable)
Advantages
Enables uncompressed digital video component signal
transport over any standard optical transport system
Supports standard, MSA compliant optical transceivers
Supports digital video links over fiber optic cabling to
distances of 120 km or more
Overview
MRV’s digital video SFPs are the industry’s first solution designed to affordably transmit digital video component
signals over fiber using standard optical transceivers. Compatible with any optical transport system – WDM platforms,
digital cross-connects, etc. – these unidirectional digital video SFPs open a new world of cost-effective digital video
deployment options.
- Link extension over new or existing fiber plant
- Wave Division Multiplexing (CWDM and DWDM)
- Link redundancy for mission critical applications
- Video distribution/multicasting
... and more!
SDI, HD-SDI, and DVB are the basic standards employed in the transport of serial component digital video data on
single coaxial cable. Using coaxial cable between the signal source and destination limits the link range to 350 meters,
or to 140 meters for high definition. This distance is generally adequate for intra-building or small campus networks.
However, the advent of geographically dispersed studio campuses requires more and more digital video data to travel
across the sophisticated optical infrastructure of the metro and inter-metro network. Links of 100 kilometers or more
and the use of WDM technology are increasingly common. Merging digital video traffic onto these optical transport
networks is further complicated by the encoding methods for these protocols.
1