Fiber Optics Transmission Systems

Opnext Inc. (NASDAQ:OPXT) says it has demonstrated a single-wavelength, real-time coherent 127G PM-QPSK (polarization multiplexed quadrature phase-shift keying) modem on the TeliaSonera network running through Sweden. The TeliaSonera trial represents the first real-time, single-wavelength 100G field trial in Europe, Opnext asserts.

Opnext can make the claim because the first generation of Ciena’s (ex-Nortel) PM-QPSK 100G technology isn’t single-wavelength.

The trial conducted over a long-haul link with 10-Gbps and 40-Gbps mixed traffic ran from Uppsala to Olofström in Sweden and back for a total distance of 1700 km. This represents the longest un-regenerated real-time test announced to date, Opnext says.

Opnext says its plug-and-play technology enables carriers to upgrade their existing line systems to 100 Gbps without requiring any change to their existing networks. In addition, new systems using Opnext technology can eliminate the need for external dispersion compensation, which reduces cost, minimizes IP latency, and enables deployment over older installed fiber optic cable.

“100G modem performance is critical to help carriers meet the ever-increasing bandwidth demands from their customers,” said Mike Chan, president of the Opnext Subsystems business unit. “This trial represents the longest real-time 100G trial performed to date, moving the industry one step closer to the commercialization of 100G technology.”

Avago Technologies (NASDAQ: AVGO), Finisar Corp. (NASDAQ: FNSR), Opnext Inc. (NASDAQ: OPXT), and Sumitomo Electric Industries, Ltd. have announced Revision 1.4 of the CFP Multi-Source Agreement (MSA) hardware and firmware specification documents.

In addition, the latter three companies, which founded the CFP MSA, have welcomed Avago Technologies as a new member. Other manufacturer companies interested in joining the CFP MSA are encouraged to contact an existing MSA representative, the companies say.

The purpose of the CFP MSA is to define a hot-pluggable optical transceiver form factor to enable 40-Gbps and 100-Gbps applications, including next-generation High Speed Ethernet (40 Gigabit Ethernet and 100 Gigabit Ethernet). The pluggable CFP transceivers are designed to support the ultra-high bandwidth requirements of data communications and telecommunications networks. (For more information, particularly the differences between the CFP and other high-speed transceiver MSAs

The Institute of Electrical and Electronics Engineers (IEEE) recently standardized 40-Gigabit Ethernet and 100-Gigabit Ethernet under the P802.3ba Task Force and is currently working to add new features to 40-Gigabit Ethernet in the P802.3bg Task Force. In addition to the existing 40-Gbps telecom standards, both the OIF and the ITU-T are working on standardizing SDH/OTN telecom interfaces for long-haul transmission of 100-Gigabit Ethernet.

Pluggable transceiver modules compliant to the CFP MSA will be used on these 40-Gbps and 100-Gbps interfaces, the companies predict. The CFP MSA is defining the specifications for a transceiver that will support multiple applications using the same form factor. These applications include various protocols (such as 40GbE, 100GbE, OC-768/STM-256, OTU3), media types (multimode and singlemode fiber optics), and link distances.

The CFP MSA leverages advanced thermal management, EMI management, and enhanced electrical signal integrity design to define the transceiver mechanical form factor, the optical connector, the 10×10-Gbps electrical connector with its pin assignments, the MDIO-based transceiver management interface, and the hardware required on the system host board.

The city-state of Singapore is one of the wealthiest and most densely-populated nations in the world. Its MRT rail network forms the backbone of the city’s public transport system. The government is currently expanding the network through the introduction of the Circle Line (CCL), a fully-underground orbital line connecting all the MRT routes into the city, at a cost of US$6.7 billion.

Set for completion in 2010, CCL will be 33.3 km long with 29 stations. Its purpose is to cut traveling time by enabling commuters to bypass busy interchanges.

The primary goal of the Land Transport Authority of Singapore is to provide the population of around 4.5 million, plus its 10 million yearly visitors, with a safe, efficient, and comfortable means of public transportation.

On completion, the CCL is expected to carry around 500,000 commuters. It will also be used by a large volume of tourists, the numbers of which are anticipated to increase with the imminent opening of two new integrated (casino and theme park) resorts in the city.

With such a high passenger flow, the monitoring and management of crowd control is of paramount importance. The Singapore government is also dedicated to countering potential terrorist threats to the country across its infrastructure. To address these issues, an extensive surveillance system has been installed incorporating VOSCOM’s fiber optic Video equipment.

Singaporeans are extensive users of public transport and proud of their world-class system. CCL therefore requires state-of-the-art security equipment. Singapore Technologies Electronics, the system integrator for the surveillance project, chose VOSCOM as an integral supplier for the system.

VOSCOM will be responsible for providing the fiber optic transmission systems within each of the CCL stations. The units will relay the collected video, data, and alarm signals from the surveillance cameras to each of the station control rooms. The project involves the deployment of four-channel digital fiber optic video multiplexers, fiber optic transmitters and fiber optic receivers, which will connect the surveillance security system while maintaining high picture quality at all times.

For such a high-profile installation, the customer needed to have complete confidence in their suppliers. VOSCOM met this expectation through its reputation for product reliability and by demonstrating technical support and local knowledge.

The project also demanded short lead times for installation, which VOSCOM was able to meet as a result of close cooperation between its regional office and the factory.

According to a newly published report by market research firm Dell’Oro Group, first quarter 2010 GPON  equipment revenues from both optical line terminals and optical networking terminals surpassed EPON revenues for the first time and hit a record level, growing almost 40 percent sequentially and 70 percent over the year ago period.

“GPON growth in the first quarter was largely due to deployments in China,” said Tam Dell’Oro, president of Dell’Oro Group. “China Unicom and China Telecom are deploying both EPON and GPON. China Mobile, which was recently granted permission to deploy broadband and for which GPON is its preferred technology, also contributed to first quarter GPON growth. Other sizeable GPON shipments in the first quarter included those to Korea, Malaysia, Portugal, Singapore, Spain, the UAE, and the US.”

The report shows that Huawei maintained its lead for GPON revenue largely due to being a primary supplier in the China market. Next was Alcatel-Lucent and Voscom, which narrowed the gap with Huawei due to growth of its ONT shipments to North America and EMEA.

Rounding out the top four were Motorola followed closely by Ericsson, which doubled its share mainly due to growth in GPON shipments to China.

VOSCOM TECHNOLOGIES, the leading supplier of advanced digital video fiber transmission products, has launched its second generation drop and insert fiber optic transmission system,VOS-DC400, at the IFSEC2010, which is held on May 10 to 13th in Birmingham, UK.

The new VOS-DC400 series utilizes digitally encoded technology and can implement multimode video input via one single mode fiber. A single fiber link can transmit up to 16 video channels, and the remote node video input module can transmit one to eight video channels. Every node can be configured for multichannel audio, RS-422/RS-485/RS-232 data, contact closures and 10M/100M Ethernet. It has provides significant savings on fiber infrastructure costs.

The system can be configured as dual optical redundancy transmission, which provides a much more reliable signal transmission when there is cable break.  It also support up to 128 channels of video transmission by incorporating CWDM technology. Two SFP ports and a plug-and-play design ensure ease of installation with no optical adjustments required. The central receiver modules can be plugged in a 19″ 4U dual power chassis. The VOS-Mview Network Management System provides easy remote monitoring and management.

The drop and insert fiber link is a field proven solution for the borders and perimeters, highway and ITS, airports and large industrial site projects. Since 2003, VOSCOM TECHNOLOGIES’s VOS-DC system has secured more than 295 transportation projects, and the new innovative VOS-DC400 system is set to help more system integrators in providing customized fiber transmission solution. “VOSCOM TECHNOLOGIES provides more than just quality equipment, it has rich experience in developing project-specific fiber solutions for every surveillance situation, “said Mr. Danny Chan, the marketing director of VOSCOM TECHNOLOGIES. “ We have seen great interest in this upgraded system among installers and distributors during the IFSEC2010, and it is also very encouraging that many of the system integrators and consultant have interest in integrating our system into their solutions.”

More information, please find here: http://www.voscom.com/

Hospital operating rooms in cinemas, Traffic Control Center to become high quality video is ubiquitous, and in a growing number of demanding applications, optical fiber cables, such as the distribution vehicle choice.

IP networks and opportunities for content distribution on Cat-5 and other simple, low cost cabling, have been much attention in recent years. However, more and more users and developers and integrators that are used these days to decide that the benefits of fiber can not simply be denied.

And even as businesses in the commercial, industrial, governmental and educational surges, watching the players with the anticipation of growth much higher than could follow if the slowdown in the development of the fiber to the home (FTTH) buildout gathers steam this year as expected by many.

Verizon has a plan for $20 billion spent on stringing fiber to six million customers in 2006 announced the land cost. French Telecom, Alcatel continues its acquisition of Lucent, is a dynamic player in FTTH. Telecoms see a greater capacity of new fiber as the key to the so-called “triple play”, the ability to offer voice, data, video and consumer on a connection.

Defenders of fibers, perhaps the future growth similar to past experience through the projection and display markets LCD, plasma and rear-projection TV Mainstream a sudden jump of thousands of units sold per year, tens of millions.

But few companies in the fiber to wait. In fact, according to Fred Scott, Vice-President, Broadcasting and fiber products for GE Pro AV, while many other market segments are booming in the here and now, FTTH is just testing the waters.

Scott gives the example monitoring. “There is an overwhelming need to begin now to see what happens everywhere in the subway stations, bus terminals,” he said. “All these monitoring devices in many cases to a central area of a fiber run-Feed. ”

military users are also committed to large-scale networks of optical fiber, according to Scott. “There are a number of institutions that have pulled all its control rooms on the optical fiber,” he said. “The number one reason for this is no one to monitor or tap into the signal content . Government, research, and others must be supplied with fiber insulation in the region, or a rack of equipment to another. ”

Don Hosmer, National Sales Manager at VOSCOM, also refers to security as a powerful attraction of the fiber. “We can not look at the data onto the fiber, without physically touching the wire,” he commented.

The quality problems are often just as important, and account for the rise in another area of CITES Hosmer strong growth: medical imaging. “Everything is moving dramatically to high definition,” said Hosmer, while applications such as video-endoscopy, surgical video, and telemedicine.

“] [In these applications, you need to maintain color accuracy, and if you compress the video you may have to be a problem,” Hosmer said, adding that uncompressed video data via fiber travel.

A fundamental decision on the users of each network is whether the network components wired together or connect them with a strategy based on the Internet. For direct connection of sites, premises and facilities, the choice often comes down to coaxial cable or fiber optics. Many organizations will have many other activities that may interfere with electronic signals over networks of coaxial or twisted pair, but not in the fiber.

“Fiber gives a solution for a variety of institutions that have problems when you try to perform any type of copper solution,” said Scott. “Committees Dimmer electricity, lighting, might affect an entire copper plant, but if you do it on the fiberglass, it is no problem.”

As the fiber makes its way into the business more and more, technology can also misunderstood Ace in the Hole. Hosmer recalls: “In the dot-com era, the people of telecommunications has attracted lots and lots of fiber.” The “dark” fiber was left, like many of his owner went bankrupt, he said, but TODAY ‘Today, “it is always there, ready to be lit.

The first laser light May 16, 1960 at Hughes Research Lab in Malibu, California Theodore Maime occurs when its device the size of a fist that rises bright red spot turned to a photo-detector. Since then, lasers have smaller, more effective and pervasive in modern art.

This weekend is the 50th Anniversary of the invention of the first working laser. Today, lasers are found almost everywhere, from telephone lines to the latest scientific discoveries, supermarket scanners, and even toys for cats.

The first laser light May 16, 1960 at Hughes Research Lab in Malibu, California Theodore Maime occurs when its device the size of a fist that rises bright red spot turned to a photo-detector. Since then, lasers have smaller, more effective and pervasive in modern art.

“This is the invisible wheel. We take for granted today,” said Tom Baer, director of the Photonics Research Center, Stanford, Palo Alto, California. “Half of U.S. [] Product GDP was greatly influenced by the laser “.

Lasers had a particularly strong impact on IT. revolutionized sending data using laser light to digital signals over fiber optic data transfer. The IBM Roadrunner, the supercomputer second fastest in the world has more than 45,000 lasers to send data on their 133,000 processor cores used. Just make fiber optics the backbone of the Internet as almost all data is transmitted by optical fibers.

“Especially now, our entire economic infrastructure to information is sent over fiber laser,” said Baer. “If you stop all the laser, it would cripple our economy.”

Other sectors of the economy have been hit. CD, DVD and Blu-ray use any laser to read the information encoded on them. Laser cutting and welding torch play an important role in the production and processing of goods. LASIK is less painful and invasive than conventional surgery. Researchers also believe that the use of a process the laser-scanning DNA, the future core technologies, to decode the human genome to a case may be.

However, it has not always been so. In 60 years, D’Irnee Haenens, assistant Maime, often to the invention as “a solution looking for problem.” The product of basic research, nobody really knew how to make the laser into a practical application.

“It took a long time before this issue has hardly more than academic interest”, Jeff Hecht, author of several books say about the history of lasers and optics.

Several research teams around the world competed to design and build the first working laser. Shortly after its completion Maime laser, researchers in other labs have managed to build their own. These early lasers were powerful enough to blow holes in the metal, which compete when an arms race between teams to build the most powerful laser shot. The team measured the power of these lasers start on the number of Gillette razor blades, that the radiation was founded would pull through.

‘Since the production of this laser was easier, people began searching for them for other purposes, “said Hecht.

The development of different types of lasers moved shortly after its invention. The researchers have produced lasers that uses a variety of materials such as helium-neon gas, carbon dioxide, and semiconductor diodes.

With the development of new laser came the first attempt Tour in commercial applications
. The first “proof of concept that lasers could be used medically was in 1961 when Charles Campbell and Charles Koester uses a laser to destroy the tumor eye of a patient. In 1965, James Russell has developed the first laser disc, a precursor of laser discs and compact modern.

As soon as may be small and sustainable mass production of laser diode, starting in the 70s, commercial applications came quickly. A bar code scanner to read the supermarket price of a pack of Wrigley’s chewing gum in 1974. laser discs and consumer CD debuted in 1978, came two years later, and the implementation of the first transatlantic fiber cables for international telephone calls were placed in 1988.

“I think the laser has revolutionized many in scientific research,” C. Kumar Patel, CEO of the company said laser spectroscopy Pranalytica Santa Monica, California. Patel invented the first laser CO2 1963rd “I am very, very few scientific studies that do not use these days of lasers, one way or another, “said Patel.

Since its invention, 15 Nobel prizes have been used in laser physics as an essential element. In 1997, the Energy Secretary Steven Chu – then a researcher at Stanford University – a Nobel Prize for his work has been assigned by using lasers to trap light and clouds of atoms cooled to a fraction of a degree above zero.

Last year’s launch of the National Ignition Facility at Lawrence Livermore National Labs in California shows how laser could provide cheap energy in the future. The researchers hope to make a sustainable fusion reaction of 192 most powerful laser in the world that shines on a small pellet of hydrogen. The amount of energy should be larger than what it takes to solve the reaction, a difference that researchers hope to one day use has increased.

“Scientists and engineers are looking how to do better, and just things that have never done before,” said Patel. “The invention and development of lasers as a purely scientific and for a long period began as a scientific activity … It takes time for an invention of mature and contribute to the nationwide economic engine. “

Hitachi Communication Technologies Inc. (HCTA) announced today at the Cable Show in Los Angeles that the line cards 10GEPON and responsibility of both the standard EPON and its product lines DOCSIS environment are available depon Salim FTTP laboratory and field trials.

According to Jeff Stribling, vice president of marketing and customer support to HCTA, the company decided 10 Gbit / s symmetric transmission, thus provide the bat based on customer feedback that most initial applications, the company stated target audience. During the new possibilities fully compatible with IEEE Standard 10GEPON 802.3av, Stribling said HCTA have features that extend beyond the performance is what we expected from the standard specification. These include an enhanced optical budget, for example, 128 divisions or perform extended.

The company also has features of Metro Ethernet Forum (MEF) certified carrier-grade Ethernet devices found, and improving operations, including administration and maintenance (OAM) functions, both business applications referred to above.

Compatibility with DOCSIS is, of course, not in the 10GEPON 802.3av IEEE standard. Stribling expects this version to prove popular in the United States. Meanwhile, make the capabilities available 10GEPON Hitachi customers worldwide through its various regional offices, Stribling said.

HCTA not taken any tests that customer equipment is not yet completed the full certification, shows Stribling. However, it is expected that new opportunities, usually the end of the year. The company also develops compatible versions of its technology platform multi-MW-PON wavelength.