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State-of-the-Art Submarine Cable System Projected to Enter Service in Q4 of 2019 SAINT LUCIA and EATONTOWN, NJ--(Marketwired - Jul 11, 2017) -  Deep Blue Cable, the developer, owner and operator of a state-of-the-art subsea fibre-optic system providing connectivity across the Caribbean islands and to the Americas, has announced that they have contracted with TE SubCom, a TE Connectivity Ltd. company ( : TEL), and an industry pioneer in undersea communications technology, to build and deploy the Deep Blue subsea cable system. The pan-Caribbean system design spans nearly 12,000 km with initial landing points in 12 markets throughout the region, including the Cayman Islands, Curaçao, the Dominican Republic, Haiti, Jamaica, Puerto Rico, Trinidad & Tobago, and Turks & Caicos Islands, with dual diverse landings in the U.S., which will include the first landing of a cable on the Gulf Coast of Florida. The Deep Blue subsea cable network, which will offer an initial capacity of 6 Tbps per fibre pair and is projected to be completed in Q4 of 2019, will ensure availability, competitive pricing and capacity resilience. The Deep Blue network will benefit the region's businesses and consumers by offering significantly higher design capacity, lower unit costs, lower latency through direct connectivity, and the ability to leverage advancements in reliability such as improved route planning and installation techniques. "Deep Blue Cable has great confidence in TE SubCom and its ability to build a state-of-the-art subsea cable system that will provide long overdue advanced connectivity across the Caribbean islands and to the Americas," commented Stephen Scott, CEO of Deep Blue Cable. "The Deep Blue cable system will play a critical role in serving developing Caribbean countries that are now experiencing a surge in demand for advanced telecom services and currently rely on fibre-optic connectivity that is technologically and economically disadvantaged." The Deep Blue cable system will be a network providing direct fibre connectivity between major traffic hubs, as well as optical add/drop connectivity to many smaller markets throughout the region. Using TE SubCom's proven OADM (optical add/drop multiplexer) branching unit technology, Deep Blue Cable can cost-effectively supply international bandwidth across a range of Caribbean markets, large and small, in a scalable manner over time. "TE SubCom is pleased to be entrusted by Deep Blue Cable with the construction of their fibre-optic subsea cable system, which will expand and enhance connectivity across the Caribbean region and to the Americas," said Mike Rieger, vice president of sales at TE SubCom. "In a region that has experienced no significant fibre-optic deployment in recent years, this submarine cable will satisfy not only the current spike in demand for connectivity in developing Caribbean countries, but also future requirements driven by projected growth." Based in St. Lucia, Deep Blue Cable is the developer, owner and operator of a state-of-the art subsea fibre-optic system providing connectivity across the Caribbean islands and to the United States. Spanning approximately 12,000 km, the Deep Blue cable's initial landing points will be in 12 markets throughout the region, including the Cayman Islands, Curaçao, the Dominican Republic, Haiti, Jamaica, Puerto Rico, Trinidad & Tobago, Turks & Caicos Islands, and the U.S., in addition to three other markets. By ensuring competitive pricing and resilience through alternative supply, Deep Blue cable will provide connectivity to international and regional telecommunications operators, regional network providers, Over-the-Top (OTT) providers, data centres, government, and large enterprises, including financial services, and oil and gas companies. For more information, visit www.deepbluecable.com. TE SubCom (SubCom), a TE Connectivity Ltd. company, is an industry pioneer in undersea communications technology and marine services, and a leading global supplier for today's undersea communications requirements. As a vertically integrated supplier, SubCom designs, manufactures, deploys, and maintains the industry's most reliable fiber optic cable systems. Its solutions include long-haul and regional systems, repeaterless networks, capacity upgrades, offshore oil and gas, and scientific research applications. SubCom brings end-to-end network knowledge and global experience to support on-time delivery and the needs of customers worldwide. To date, the company has deployed more than 100 cable systems and enough subsea communication cable to circle the globe 15 times at the equator. For more information, visit www.SubCom.com. TE Connectivity ( : TEL) is a $12 billion global technology leader. Our commitment to innovation enables advancements in transportation, industrial applications, medical technology, energy, data communications, and the home. TE's unmatched breadth of connectivity and sensor solutions, proven in the harshest of environments, helps build a safer, greener, smarter and more connected world. With 75,000 people -- including more than 7,000 engineers -- working alongside customers in nearly 150 countries, we help ensure that EVERY CONNECTION COUNTS - www.TE.com.


Foursa D.G.,TE SubCom
2016 IEEE Photonics Conference, IPC 2016 | Year: 2016

We will discuss transmission technologies facilitated progress in recent capacity demonstrations over the transoceanic length distances and review the results of laboratory experiments. Discussion will include broad-bandwidth amplification, coded modulation, SDM, and importance of system power efficiency and ways to improve it. © 2016 IEEE.


Batshon H.G.,TE SubCom
Optics InfoBase Conference Papers | Year: 2016

In optical communication systems, post-FEC performance is traditionally predicted by the pre-FEC BER. This metric can become less accurate when these systems utilize higher order modulation formats or increased FEC overhead. Alternative metrics based on mutual information have been recently suggested to provide a more accurate estimation of the post FEC performance. We discuss these metrics and their suitability for different modulation formats. © OSA 2016.


Turukhin A.,TE SubCom
Proceedings of SPIE - The International Society for Optical Engineering | Year: 2017

We investigate the application of space division multiplexing (SDM) technology to a long haul undersea transmission using multi-core fiber (MCF). We discuss two experimental demonstrations conducted with a 12-core fiber. The first study shows that SDM can help to achieve simultaneous improvement of power efficiency and capacity of long-haul transmission. Using SDM, power efficient optical system design and modulation format with high receiver sensitivity we demonstrate 105.1 Tb/s transmission over 14,350 km with pump power per 12 EDFAs equivalent to a single 800 mW 980 nm pump laser. In the second study, we investigated capacity limits of transoceanic transmission achievable with MCF and extended C and L bandwidth of optical amplification. The study shows 520 Tb/s potential transmission capacity over 8,830 km using 9 THz of optical bandwidth. To achieve this capacity, we also used new coded modulation with 1.0 dB sensitivity improvement compared to 8QAM with the same SE of 4.86 b/s/Hz. © 2017 SPIE.


News Article | October 31, 2016
Site: www.newsmaker.com.au

MarketStudyReport.com adds “Global Submarine Fiber Cable Market 2016-2020” new report to its research database. The report spread across 91 pages with table and figures in it. The Research analysts forecast the global submarine fiber cable market to grow at a CAGR of 5.75% during the period 2016-2020. A submarine fiber cable with high-capacity communication capability is an essential wireline communication medium between two continents, countries, or islands. Most submarine fibers use the optical amplification technology to carry high-speed data traffic across regions. The length of the submarine fiber cable varies over a distance of few kilometers to more than 35,000 km. Most submarine fiber cable projects take several months or years for completion. At present, most submarine fiber cables have a capacity of 10-40 Gbps. The adoption of 100 Gbps high-speed submarine fiber cables started only after 2010. Owing to their high-speed capacity, these fiber cables carry a huge amount of data traffic every day. In 2015, more than 97% of global data traffic was carried through submarine fiber cables, with the remaining 3% carried through satellite systems. Browse full table of contents and data tables at https://www.marketstudyreport.com/reports/global-submarine-fiber-cable-market-2016-2020/ Covered in this report The report covers the present scenario and the growth prospects of the global submarine fiber cable market for 2016-2020. To calculate the market size, the report considers the following aspects: - Construction and deployment cost of new projects - Construction and deployment costs - Upgrade projects The market is divided into the following segments based on geography: - Americas - Australasia - EMEA - India Ocean Pan-East Asia - Transatlantic - Transpacific The Research report, Global Submarine Fiber Cable Market 2016-2020, has been prepared based on an in-depth market analysis with inputs from industry experts. The report covers the market landscape and its growth prospects over the coming years. The report also includes a discussion of the key vendors operating in this market. Key vendors - Alcatel-Lucent - Fujitsu - Huawei Marine Networks - NEC - TE SubCom Other prominent vendors - Ciena - E-Marine - Elettra - Global Marine Systems - Kokusai - Nexans - NSW - S.B submarine system - Xtera Communications Market driver - Growing demand for bandwidth - For a full, detailed list, view our report Market challenge - Delay in project financing and maintenance activities - For a full, detailed list, view our report Market trend - Increase in upgrade activities - For a full, detailed list, view our report Key questions answered in this report - What will the market size be in 2020 and what will the growth rate be? - What are the key market trends? - What is driving this market? - What are the challenges to market growth? - Who are the key vendors in this market space? - What are the market opportunities and threats faced by the key vendors? - What are the strengths and weaknesses of the key vendors? To receive personalized assistance write to us @ [email protected] with the report title in the subject line along with your questions or call us at +1 866-764-2150


News Article | November 15, 2016
Site: www.businesswire.com

EATONTOWN, N.J. & HANOVER, Md.--(BUSINESS WIRE)--TE SubCom, a TE Connectivity Ltd. (NYSE: TEL) company and an industry pioneer in submarine network technology, and Ciena (NYSE: CIEN), a leading network strategy and technology company, have agreed to an alliance that furthers the advancement of open submarine cable networking solutions. Customers seeking a single point of contact for both wet plant and dry plant will have the option to combine TE SubCom’s advanced wet plant designs and marine in


MarketStudyReport.com adds “Global Submarine Fiber Optics Market Professional Survey Report 2016” new report to its research database. The report spread across 118 pages with table and figures in it. This report studies Submarine Fiber Optics in Global market, especially in North America, Europe, China, Japan, Southeast Asia and India, with production, revenue, consumption, import and export in these regions, from 2011 to 2015, and forecast to 2021. This report focuses on top manufacturers in global market, with production, price, revenue and market share for each manufacturer, covering Browse full table of contents and data tables at https://www.marketstudyreport.com/reports/global-submarine-fiber-optics-market-professional-survey-report-2016/ By types, the market can be split into By Application, the market can be split into By Regions, this report covers (we can add the regions/countries as you want) 8 Major Manufacturers Analysis of Submarine Fiber Optics 8.1 Alcatel Lucent 8.1.1 Company Profile 8.1.2 Product Picture and Specifications 8.1.2.1 Type I 8.1.2.2 Type II 8.1.2.3 Type III 8.1.3 Alcatel Lucent 2015 Submarine Fiber Optics Sales, Ex-factory Price, Revenue, Gross Margin Analysis 8.1.4 Alcatel Lucent 2015 Submarine Fiber Optics Business Region Distribution Analysis 8.2 TE SubCom 8.2.1 Company Profile 8.2.2 Product Picture and Specifications 8.2.2.1 Type I 8.2.2.2 Type II 8.2.2.3 Type III 8.2.3 TE SubCom 2015 Submarine Fiber Optics Sales, Ex-factory Price, Revenue, Gross Margin Analysis 8.2.4 TE SubCom 2015 Submarine Fiber Optics Business Region Distribution Analysis 8.3 NEC Group 8.3.1 Company Profile 8.3.2 Product Picture and Specifications 8.3.2.1 Type I 8.3.2.2 Type II 8.3.2.3 Type III 8.3.3 NEC Group 2015 Submarine Fiber Optics Sales, Ex-factory Price, Revenue, Gross Margin Analysis 8.3.4 NEC Group 2015 Submarine Fiber Optics Business Region Distribution Analysis 8.4 NTT 8.4.1 Company Profile 8.4.2 Product Picture and Specifications 8.4.2.1 Type I 8.4.2.2 Type II 8.4.2.3 Type III 8.4.3 NTT 2015 Submarine Fiber Optics Sales, Ex-factory Price, Revenue, Gross Margin Analysis 8.4.4 NTT 2015 Submarine Fiber Optics Business Region Distribution Analysis 8.5 Huawei 8.5.1 Company Profile 8.5.2 Product Picture and Specifications 8.5.2.1 Type I 8.5.2.2 Type II 8.5.2.3 Type III 8.5.3 Huawei 2015 Submarine Fiber Optics Sales, Ex-factory Price, Revenue, Gross Margin Analysis 8.5.4 Huawei 2015 Submarine Fiber Optics Business Region Distribution Analysis To receive personalized assistance write to us @ [email protected] with the report title in the subject line along with your questions or call us at +1 866-764-2150


News Article | November 1, 2016
Site: www.newsmaker.com.au

This report focuses on top manufacturers in global market, with production, price, revenue and market share for each manufacturer, covering  Alcatel Lucent  TE SubCom  NEC Group  NTT  Huawei  Infinera  Fujitsu  Ciena  Cable & Wireless  Bezeq By types, the market can be split into  Type I  Type II  Type III By Application, the market can be split into  Application 1  Application 2  Application 3 By Regions, this report covers (we can add the regions/countries as you want)  United States  EU  Japan  China  India  Southeast Asia Global Submarine Fiber Optics Market Professional Survey Report 2016  1 Industry Overview of Submarine Fiber Optics  1.1 Definition and Specifications of Submarine Fiber Optics  1.1.1 Definition of Submarine Fiber Optics  1.1.2 Specifications of Submarine Fiber Optics  1.2 Classification of Submarine Fiber Optics  1.2.1 Type I  1.2.2 Type II  1.2.3 Type III  1.3 Applications of Submarine Fiber Optics  1.3.1 Application 1  1.3.2 Application 2  1.3.3 Application 3  1.4 Market Segment by Regions  1.4.1 United States  1.4.2 EU  1.4.3 Japan  1.4.4 China  1.4.5 India  1.4.6 Southeast Asia 8 Major Manufacturers Analysis of Submarine Fiber Optics  8.1 Alcatel Lucent  8.1.1 Company Profile  8.1.2 Product Picture and Specifications  8.1.2.1 Type I  8.1.2.2 Type II  8.1.2.3 Type III  8.1.3 Alcatel Lucent 2015 Submarine Fiber Optics Sales, Ex-factory Price, Revenue, Gross Margin Analysis  8.1.4 Alcatel Lucent 2015 Submarine Fiber Optics Business Region Distribution Analysis  8.2 TE SubCom  8.2.1 Company Profile  8.2.2 Product Picture and Specifications  8.2.2.1 Type I  8.2.2.2 Type II  8.2.2.3 Type III  8.2.3 TE SubCom 2015 Submarine Fiber Optics Sales, Ex-factory Price, Revenue, Gross Margin Analysis  8.2.4 TE SubCom 2015 Submarine Fiber Optics Business Region Distribution Analysis  8.3 NEC Group  8.3.1 Company Profile  8.3.2 Product Picture and Specifications  8.3.2.1 Type I  8.3.2.2 Type II  8.3.2.3 Type III  8.3.3 NEC Group 2015 Submarine Fiber Optics Sales, Ex-factory Price, Revenue, Gross Margin Analysis  8.3.4 NEC Group 2015 Submarine Fiber Optics Business Region Distribution Analysis  8.4 NTT  8.4.1 Company Profile  8.4.2 Product Picture and Specifications  8.4.2.1 Type I  8.4.2.2 Type II  8.4.2.3 Type III  8.4.3 NTT 2015 Submarine Fiber Optics Sales, Ex-factory Price, Revenue, Gross Margin Analysis  8.4.4 NTT 2015 Submarine Fiber Optics Business Region Distribution Analysis  8.5 Huawei  8.5.1 Company Profile  8.5.2 Product Picture and Specifications  8.5.2.1 Type I  8.5.2.2 Type II  8.5.2.3 Type III  8.5.3 Huawei 2015 Submarine Fiber Optics Sales, Ex-factory Price, Revenue, Gross Margin Analysis  8.5.4 Huawei 2015 Submarine Fiber Optics Business Region Distribution Analysis  8.6 Infinera  8.6.1 Company Profile  8.6.2 Product Picture and Specifications  8.6.2.1 Type I  8.6.2.2 Type II  8.6.2.3 Type III  8.6.3 Infinera 2015 Submarine Fiber Optics Sales, Ex-factory Price, Revenue, Gross Margin Analysis  8.6.4 Infinera 2015 Submarine Fiber Optics Business Region Distribution Analysis  8.7 Fujitsu  8.7.1 Company Profile  8.7.2 Product Picture and Specifications  8.7.2.1 Type I  8.7.2.2 Type II  8.7.2.3 Type III  8.7.3 Fujitsu 2015 Submarine Fiber Optics Sales, Ex-factory Price, Revenue, Gross Margin Analysis  8.7.4 Fujitsu 2015 Submarine Fiber Optics Business Region Distribution Analysis  8.8 Ciena  8.8.1 Company Profile  8.8.2 Product Picture and Specifications  8.8.2.1 Type I  8.8.2.2 Type II  8.8.2.3 Type III  8.8.3 Ciena 2015 Submarine Fiber Optics Sales, Ex-factory Price, Revenue, Gross Margin Analysis  8.8.4 Ciena 2015 Submarine Fiber Optics Business Region Distribution Analysis  8.9 Cable & Wireless  8.9.1 Company Profile  8.9.2 Product Picture and Specifications  8.9.2.1 Type I  8.9.2.2 Type II  8.9.2.3 Type III  8.9.3 Cable & Wireless 2015 Submarine Fiber Optics Sales, Ex-factory Price, Revenue, Gross Margin Analysis  8.9.4 Cable & Wireless 2015 Submarine Fiber Optics Business Region Distribution Analysis  8.10 Bezeq  8.10.1 Company Profile  8.10.2 Product Picture and Specifications  8.10.2.1 Type I  8.10.2.2 Type II  8.10.2.3 Type III  8.10.3 Bezeq 2015 Submarine Fiber Optics Sales, Ex-factory Price, Revenue, Gross Margin Analysis  8.10.4 Bezeq 2015 Submarine Fiber Optics Business Region Distribution Analysis


News Article | October 12, 2016
Site: phys.org

The Pacific Light Cable Network will stretch 12,800 kilometers (8,000 miles), crossing beneath the Pacific Ocean in a first-of-its-kind direct connection between the two locations, according to companies involved with the project. PLCN is expected to handle some 120 terabytes of data per second, enough capacity to enable 80 million high-definition video conference calls simultaneously between Los Angeles and Hong Kong, said Google network infrastructure director Brian Quigley. Google and Facebook are working with Pacific Light Data Communication Company and with undersea communications technology firm TE SubCom on the cable, which was scheduled to be ready in mid 2018, according to a joint release. "PLCN will be among the lowest-latency fiber optic routes between Hong Kong and the US and the first to connect directly using ultra-high-capacity transmission," PLDC chairman Wei Junkang said. "It is certainly gratifying that global technology companies like Google and Facebook have become co-investors in PLCN." Most Pacific subsea cables stretch from the US to Japan, according to Facebook vice president of network engineering Najam Ahmad. "As the number of people using Facebook apps and services continues to grow in the region, PLCN will help further connect Asia and our data centers in the US," Ahmad said. "This new direct route will give us more diversity and resiliency in the Pacific." Lifestyles increasingly centered on access to cloud-based online services as well as to video, pictures and other content on the internet have increased the need for infrastructure capable of quickly and efficiently moving digital data. PLCN will be the sixth submarine cable in which Google has an ownership stake, according to Quigley. The US internet giant claimed to have the "largest network backbone of any public cloud provider." Microsoft and Facebook early this year teamed together to lay a high-speed Internet cable across the bottom of the Atlantic Ocean. The subsea "MAREA" cable was expected to be completed by late 2017, with the aim of meeting growing demand by the tech companies' customers for fast, reliable data connections. MAREA was expected to have a capacity of some 160 terabytes per second of data, according to the companies. The 6,600 kilometer cable system will also be the first connecting the United States and southern Europe, running from Northern Virginia to Bilbao, Spain, Microsoft and Facebook said.

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