E1/T1 Transceivers (LIU/Framer) Development Market Opportunities, Strategies, and Forecasts, Worldwide, 2011 to 2017
"E1/T1
Transceivers (LIU/Framer) Market Opportunities, Strategies, and
Forecasts, Worldwide, 2011 to 2017"
The Report covers current Industries Trends, Worldwide Analysis,
Global Forecast, Review, Share, Size, Growth, Effect.
Description-
E1/T1
Transceivers (LIU/Framer) Market Shares and Forecasts, Worldwide,
2011-2017. The 2011 study has 221 pages, 76 tables and figures.
E1/T1 transceiver (LIU/Framer) technology gives service providers
more network broadband bandwidth in the existing TDM copper based
infrastructure. As Ethernet comes on line, it may seem like these
technologies are outdated, but there is still significant demand in
the wireless back haul networks for connecting wireless base stations
to the central office when there is no fiber. WiFi and WiMax demand
T1 E1 connectivity.
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E1/T1
Transceivers (LIU/Framer) transceivers simplify the design of
networking equipment that must seamlessly transfer voice, data and
multimedia services between circuit and packet-based wired and
wireless networks.
As Ethernet replaces Sonet in the telecommunication networks, there
is an ongoing transformation of componentry. Here is just too much
legacy infrastructure to even think about replacing it in the next 30
years, the transition to Ethernet will be gradual.
In the meantime, E1/T1 Transceivers (LIU/Framer) will find a
continuing place in legacy infrastructure in the communications
networks, Unit prices have declined sharply, but this has only served
to create a growing market in more applications.
E1/T1 Transceivers (LIU/Framer) are being used in backhaul to connect
the wireless base stations to the central office. E1/T1 transceiver
(LIU/Framer) technology is evolving to give equipment vendors with
network broadband responsibilities more bandwidth. Markets are poised
to create the ability for people to get more video and music from the
network. Media transport impacts network capabilities that in turn
impact the backplanes with demand for faster signal transport.
The E1/T1 Transceivers (LIU/Framer) transceiver industry is meeting
the demand for more bandwidth by encouraging mobility. Transceiver
technology impacts signal delivery, permitting moving from the
narrowband networks and facilitating expansion of the Internet and
enterprise systems automation in a variety of contexts.
Industry specific applications are emerging as well. In healthcare
telemedicine has emerged as a way to dramatically cut costs while
improving care delivery. Homecare services depend on more and better
communications of home based devices with facilities that deliver
care remotely based in input from monitors and devices.
Network operators and IT managers gain more control over the signal
reliability and broadband signal delivery. Transport can be delivered
in every setting.
E1 T1 LUI framers markets at $122.9million in 2010 are anticipated to
reach $943 million by 2017. The proliferation of wireless
communications is a significant market driver. With 5.5 million
wireless subscribers in 2011, the number of base stations is
proliferating creating demand for more efficient networks. WiMax is a
wireless market systems implementation creating need for transceivers
that improve operations and create automation infrastructure
efficiency.
Market growth is predicated on the need to make minimal investment in
existing copper TDM infrastructure to leverage existing investment as
networks move to all Ethernet. E1 T1 LUI Framers support T1 backhaul
for wireless base stations and T1 investments from restaurants,
airports, hotels and public places on simple WiFi and WiMax Internet
systems.
Table
Of Content
E1/T1
TRANSCEIVERS (LIU/FRAMER) SUMMARY
E1/T1
Transceivers (LIU/Framer) Market Driving Forces
E1/T1
Transceivers (LIU/Framer) Market Shares
E1/T1
Transceivers (LIU/Framer) Market Forecasts
1.
E1/T1 TRANSCEIVERS (LIU FRAMER) MARKET DESCRIPTION AND MARKET
DYNAMICS
1.1
Broadband Communications
1.1.1
Semiconductor Communication Solutions Markets
1.1.2
Communications Infrastructure
1.1.3
Enterprise Infrastructure
1.1.4
Fiber Is Key Technology
1.2
Ethernet Only Solution For Next Generation MBH Networks
1.2.1
Alternative to Reselling Leased Lines
1.2.2
SS7 Links over an IP Network
1.3
Mobile Backhaul
1.3.1
Migrating to IP Communications
1.3.2
Video Surveillance Backhaul
1.4
Service Provider NGN Systems
1.5
Network Service Needs
1.5.1
Network Service Solutions
1.5.2
Enterprise Network Services Market Description
1.5.3
Converged Voice, Data, And Video Using Internet Protocol (IP)
Standards Technologies: IP Telephony 1-23
1.5.4
Broadband Voice Next Generation Network (NGN)
1.5.5
Value-Added Services
1.5.6
Voice Over IP (VoIP) Service Providers
1.5.7
Web GUI
1.5.8
Charging Micro Payments
1.6
Increasing Average Revenue Per User (ARPU)
1.6.1
Improved Quality Of Service
1.6.2
Reduced Capital And Operational Costs
1.6.3
Enhanced Operability
1.7
Market Growth Dynamics
1.8
Converged Voice And Data Networks
1.9
Wireless Networks
1.9.1
New Generation Of Wireless Systems
1.9.2
Provides Flexibility
1.9.3
User Experience
1.9.4
Protects Investments
1.9.5
Increases Efficiency
1.9.6
Integrated Management Tools
1.9.7
Cost-Effective Capacity And Coverage
1.10
Multimedia Markets
1.11
IP Telephony Service Solutions
1.12
Web Services
1.13
Strategies To Improve Performance
1.14
Internet Traffic
1.14.1
LIU Framer E1 T1 Transceiver Design Wins
2.
E1/T1 TRANSCEIVERS (LIU/FRAMER) MARKET FORECASTS
2.1
E1/T1 Transceivers (LIU/Framer) Market Driving Forces
2.2
E1/T1 Transceivers (LIU/Framer) Market Shares
2.3
E1/T1 Transceivers (LIU/Framer) Market Forecasts
2.4
E1/T1 Transceivers (LIU/Framer) Market Segments and Applications
2.4.1
Maxim / Dallas Semiconductor DS26528 Octal T1/E1/J1 Transceiver -
Description
2.4.2
Backhaul Solutions: Mobile Backhaul
2.4.3
Microwave Transmission Market
2.4.4
ATM and PBX
2.4.5
T1/E1/J1 Transceiver Markets Growing In Response To The
Implementation Of Broadband Communications 2-21
2.5
E1/T1 Transceivers (LIU/Framer) Regional Market Analysis
2.5.1
Zarlink Semiconductor Asia Pacific
2.5.2
Zarlink Semiconductor Europe
2.5.3
Zarlink Semiconductor Americas
3.
T1 / E1 TRANSCEIVERS (LIU FRAMERS) PRODUCT DESCRIPTION
3.1
E1 T1, LIU Framer Products
3.2
Maxim / Dallas DS21455N
3.2.1
Dallas Semiconductor Quad T1 Dual Framer LIU
3.3
PMC Sierra
3.4
Zarlink MT9074 T1/E1/J1 Single Chip Transceiver
3.4.1
Zarlink MT9074
3.4.2
Zarlink Semiconductor MT9074 Receiver
3.4.3
Zarlink Semiconductor MT9074 LIU Transmitter
3.5
Mindspeed Bt8370/8375/8376
3.5.1
Mindspeed T1/E1 Framer and LIU Not Recommended For New Designs
3.5.2
Mindspeed Bt8370/8375/8376
3.6
IDT Quad T1/E1/J1 Transceiver 82P2284
3.6.1
IDT Access and Transport
4.
E1 / T1 TRANSCEIVER (LIU FRAMER) TECHNOLOGY
4.1
SAToP and Clock Synchronization
4.1.1
Network Clock Synchronization
4.1.2
Adaptive Clocking Recovery
4.1.3
Tellabs Solutions Deliver Maximum Interoperability
4.2
Pseudowire
4.2.1
Pseudowire Technology Challenges
4.2.2
• “Packetization” and Encapsulation of TDM Traffic
4.2.3
• Attenuate Packet Delay Variation (PDV)
4.2.4
• Compensate for Frame Loss and Out-of-Sequence Packets
4.2.5
• Recover Clock and Synchronization
4.2.6
Pseudowire Types
4.3
Evolution from Sonet / SDH to Ethernet
4.3.1
Mobile Backhaul Deployments: Overlay vs. Integrated Network Model
4.4
Network Synchronization Issues
4.5
4G Business Case for 2.6 GHz
4.6
E1 / T1 Transceiver Cells Collected Asynchronous Functionality
4.6.1
Cell Buffer Increment Read Pointer
4.6.2
Start-Up Phase
4.7
Rate Recovery
4.7.1
Cell Buffer/RAM Controller
4.7.2
Cell Sequence Recovery
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