About Fiber Coupler

Fiber Optic Coupler are also known as fiber distribution panels. Patch panel’s function is to terminate the fiber optic cable and provide access to the cable’s individual fibers for cross connection.

Fiber Optic Coupler can use fiber patch cables to cross-connect, connect to fiber optic communication equipment or test the individual fibers in the fiber cable.

A fiber patch panel usually is composed of two parts, the compartment that contains fiber adapters (bulkhead receptacles), and the compartment that contains fiber optic splice trays and excess fiber cables.

If you want a even neater cable management, you can also use a fiber patch cable management tray to neatly store and manage excessive fiber patch cable lengths.

Optical fibers from workstations or from other wiring closets terminate in termination boxes. The termination boxes provide a patch point for a small number of connections, but larger installations will have a separate patching location that serves all of the incoming and outgoing fiber cables.

A fiber patch panel consists of an array of duplex SC adapters, hybrid adapters, or Small Form Factor (SFF) jacks. If the entire installation, including the fiber optic hubs, repeaters, or network adapters, uses the same type of fiber optic connectors, then the array can be made of compatible adapters or jacks.

To convert between fiber connector types, you need a hybrid adapter or a conversion cable. A hybrid adapter is a passive coupler that joins two different connector types, while a conversion cable simply has one connector type on one end and the other type on the opposite end.

Fiber patch panels provide a convenient way to rearrange fiber cable connections and circuits. A simple patch panel is a metal frame containing bushings in which fiber optic cable connectors plug in on either side. One side of the panel is usually fixed, meaning that the fiber cables are not intended to be disconnected. On the other side of the panel, fiber cables can be connected and disconnected to arrange the circuits as required.

Colin Yao is an expert on fiber optic communication technology and products. Learn more about Corning rack mount fiber optic patch panel, rack mount fiber optic enclosure, rack mount fiber panel and rack mount fiber enclosures on Fiber Optics For Sale Co. web site.

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A brief description of the optical fiber coupler

The need for fiber optic couplers

We use electronic couplers all the time: such as a telephone coupler which lets you connect both a telephone and a fax machine to the same telephone line. Or a CATV coupler which lets you connect several TV sets to a single cable from Comcast. Basically you can buy these couplers from Home Depot or other electronic retailers.

Optical couplers have the same functionality as electronic couplers: They split the signal to multiple points(devices). Fiber optic couplers are needed for tapping(monitoring the signal quality) or more complex telecommunication systems which require more than simple point-to-point connections, such as ring architectures, bus architectures and star architectures.

:: Passive couplers and active couplers

Fiber optic couplers can be either active or passive devices. The difference between active and passive couplers is that a passive coupler redistributes the optical signal without optical-to-electrical conversion. Active couplers are electronic devices that split or combine the signal electrically and use fiber optic detectors and sources for input and output.

:: The difference between electronic couplers and fiber optic couplers

Electronic couplers are easy to make because electric current flows as long as you have physical contact between conductors. But optical signal is in a completely different domain. You have to align the tiny optical fiber cores precisely (9um for single mode and 50um or 62.5um for multimode fibers), so there won’t be a huge power loss when you split the signal.

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a brief description Optical Fiber Isolator

There are many types of communication systems in this world. Among all these, the optical fiber communication system

has a place of its own. An optical fiber communication system has a number of attractive features that make it more

convenient to use. To many, the advantages of this system have helped it to gain so much popularity. Let’s have a

look at the advantages of this communication system:

Enormous Potential Bandwidth

The optical carrier frequency is within the range of 1013 to 1016 Hz. Due to this large frequency range, it provides

a far greater transmission bandwidth compared toi the normal cable systems.

Small Weight And Size

Optical fibers have very small diameters. These diameters are often no greater than a human hair. As a result,

despite being covered with protective coatings, they are far smaller and much lighter than the corresponding copper

Optical Fiber Isolator

Optical fibers are electrical insulators. Because of this, they do not exhibit earth loop and interface problems like

their metal counterparts. Moreover, this property makes the transmission more suitable even in electrically hazardous

environments.

Interference And Crosstalk Immunity

Optical fibers form a dielectric waveguide and hence they are free from electromagnetic interference (EMI), radio

frequency interference (RFI) etc. As a result, the transmission in such a system is totally unaffected by a

electrically noisy environment.

Security Of the Signal

The light from optical fibers does not radiate significantly and as a result they provide a high degree of signal

security.

Low Transmission Loss

Due to the development in the technology over the last 20 years or so, modern optical fibers exhibit very low

attenuation or transmission loss compared to the best copper conductors. The losses in cases of fibers are as low as

0.15 decibel per kilometer.

Flexibility And Ruggedness

With the development of technology, modern fibers are very much flexible and extremely rugged. Taking the weight and

size advantage into account, these cables are normally superior in terms of transportation, storage, handling,

installation etc. to the corresponding copper cables.

Easy Maintenance And System Reliability

Due to the low loss property of optical fibers, their system reliability is generally enhanced in comparison with the conventional electrical conductor systems. Also these systems are easy to maintain in this world of modern technology. The maintenance costs are also low.

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Fiber coupler filter development

Of particular note is a highlighted paper from a team led by Micron Technology (Boise, ID), describing the first monolithic silicon-photonics-on-bulk-CMOS process flow to connect distant distributed memory devices (Paper T21.1, ¡°Integration of Silicon Photonics in Bulk CMOS,¡± R. Meade et al., Micron, MIT, U. of Colorado, and UC Berkeley).

The Micron device includes deep-trench isolation, polysilicon waveguides, grating couplers, filters, modulators, and detectors. Fully functional on-chip CMOS enables transmit/receive operation while minimizing interconnect parasitics. With the addition of an external 1280 nm light source, a fully functional optical link (5 Gbit/s with 2.8 pJ/bit), capable of WDM (wavelength division multiplexing), has been demonstrated. In addition to the polysilicon resonant detector used in the link, a monolithically integrated silicon-germanium (SiGe)-based photodetector using selective epitaxial growth was also developed.

From the abstract: “Other research groups have published on SOI devices or ‘stand-alone’ silicon photonics (i.e. not monolithically integrated). This paper is different in that, for the first time, a working optical link has been demonstrated on an economically feasible (specifically for memory) CMOS platform. Today, 3D integration is a major industry focus in part due to the power and performance requirements of chip-to- chip I/O. While 3D integration is important, this research shows a clear alternative path that has significant benefits.”

The result is a monolithically integrated optical chip-to-chip link that transmits 5 Gbit/s over distances up to 5 m long (via fiber link).

Other photonics-related presentations
A group from National University of Singapore and Nanyang Technological University will present “Germanium-Tin on Silicon Avalanche Photodiode for Short-Wave Infrared Imaging,” in which a monolithic, CMOS-compatible germanium-tin on silicon (Ge1-xSnx/Si) avalanche photodiode (APD) for short-wave infrared (SWIR) imaging is reported that has a lower thermal sensitivity than conventional III-V-based aAPDs.

Researchers from Taiwan Semiconductor Manufacturing Company will present “Advanced 1.1 ¦Ìm Pixel CMOS Image Sensor with 3D Stacked Architecture,” in which they describe their 1.1-¦Ìm-pixel backside-illuminated CMOS image sensor with a 3D stacked architecture. The carrier wafer in conventional BSI is replaced by an ASIC wafer, which simplifies fabrication and improves dark performance.

A team from MIT and the University of Colorado, Boulder (many members of whom also worked on the Micron Technology device) will present “A Monolithically-Integrated Optical Transmitter and Receiver in a Zero-Change 45 nm SOI Process.” Here, according to the abstract, “an optical transmitter and receiver with monolithically-integrated photonic devices and circuits are demonstrated together for the first time in a commercial 45 nm SOI [silicon-on-insulator] process, without any process changes. The transmitter features an interleaved-junction carrier-depletion ring modulator and operates at 3.5 Gbit/s with an 8 dB extinction ratio and combined circuit and device energy cost of 70 fJ/bit. The optical receiver connects to an integrated SiGe detector designed for 1180 nm wavelength and performs at 2.5 Gbit/s with 15 ¦ÌA sensitivity and energy cost of 220 fJ/bit.”.
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Fiber Optic Filter Coupler-sales to grow by 45% for next 5 years

Market analysis on the consumption and technology trends of commercial (non-military) fiber optic collimating lens assemblies, widely used in optical communication applications, predict that these technologies will experience strong demand growth rates of more than 45% per year over the period 2013-2018.

The study from ElectroniCast Consultants, Aptos, CA, USA, covers three categories: single lens assemblies; 2-12 lens arrays; and arrays with more than 12 lenses. Both of the lens array categories are forecast with strong growth rates of more than 45% per year. Single lens fiber optic collimator assemblies hold the global market share lead in the selected optical communication applications covered in the study.

¡°Collimator lenses and lens assemblies are used in a variety of photonic products; however this market study forecasts the use of micro-sized collimator lens assemblies, which are used specifically in optical communication devices. Sales of fiber optic collimator lens assemblies act as a key indicator of the growth of the fiber optic communication component industry,¡± said Stephen Montgomery, Director of the Fiber Optic Component group at the California-based consultancy.

The global consumption of fiber optic collimator lens assemblies, for commercial optical communications, reached $264.2 million in 2013 and is forecast to reach $298.4 million in 2014, a rise of 12.9%.

The American and APAC regions are forecast to remain relatively close together in relative consumption value market share. The Europe, Middle East and Africa regional segment will see the fastest average annual growth rate during the forecast period.

Collimator applications

Fiber optic collimator lens assemblies are widely used to covert a divergent output laser beam from a fiber or waveguide into an expanding beam of parallel light; therefore, they are used in a variety of optical communication components, such as: modulators, attenuators, transmitters, pump laser modules, switches/optical cross connects, wavelength selective switches, ROADMs, isolators, circulators, expanded-beam connector assemblies, optical filter modules, DWDM, tunable filters, optical sensors, optical signal processing, integrated/hybrid packaged modules, and other active and passive components and devices..
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Fiber optic circulator which has several types?

OF-Link Communications Co., Ltd is a manufacturer and exporter specialized in fiber optic passive components. Research on fiber optic products that we are very professional , Fiber optic circulator is a wide range of applications , the function is very powerful , Fiber optic circulator which has several types?

Fiber optic circulator functionality is an excellent candidate for integrating with a transmitter and receiver into a single package. Circulators provide an ideal solution for coupling devices into a fiber optic network without the inherent 3dB loss of an optical coupler. Circulators directional functionality enable simultaneously adding and dropping signals from a fiber as well as coupling other optical signal processing devices.

Fiber optic circulators typically fall into two main classes:

4-port waveguide circulators based on Faraday rotation of propagating waves in a magnetized material, and 3-port “turnstile” or “Y-junction” circulators based on cancellation of waves propagating over two different paths near a magnetized material.

During 2013-2018, the worldwide value is forecast to increase at an average annual growth rate of 6.88 percent. The consumption value is forecast to increase with rising quantity growth partially offset by declining average prices.

The Asia Pacific region (APAC) was the leader in terms of relative market share in 2013 with the consumption value of fiber optic circulators, led by “green-field” telecommunication deployment; the American region (South, Central and North America) was a close 2nd in market share in 2013.

The Europe, Middle East and Africa region (EMEA) consumption of fiber optic circulators is forecast to lag behind; growing faster than the American region, and about as fast as the APAC region.

Consumption is based on the geographical (region) location where the fiber optic circulator is first used into a higher-level sub-component, component, or apparatus. All values and prices, are at factory as-shipped levels, and are in current dollars, which include the effect of a forecasted 5 percent annual inflation rate over the forecast period.

3-Port Leads in Fiber Optic Circulator Value – In terms of worldwide consumption value, the 3-Port fiber optic circulators held an 80% market share in 2013.

Telecommunications is set to maintain its dominant market share lead throughout the forecast period. Specialty applications (R&D laboratory, sensors, test equipment, oil/gas, other) are set to maintain the position of second-place.
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The perfect combination of fiber optic and toys

Remote controlled toys can be fun to play with, but do we actually know which is the best one to purchase out of the entire lot? Well, Thinkgeek has an idea, and intends to “sell” that idea to you with the $ 79.99 Multi- colored Fiber-optic LED Quadcopter. This is one unique quadcopter as you can tell from the name itself, as it will feature flying colors, literally, where you can control the entire shebang from a 2.4GHz remote transmitter.

The Multi-colored Fiber-optic LED Quadcopter is a remote controlled toy with fiber optics thrown into the mix, targeting those who are aged 14 and above. In fact, a single touch of a button would enable you to flip this bad boy up to a full 360 °. Apart from that, it will also make use of a 6-axis gyro in order to tell whether it is hovering about on the right side up. The quartet of fiber-optic LED loops add to the entire visual attraction, where it works best in a large indoor room – make sure it is darkened!

OF-Link Communications Co., Ltd is a manufacturer and exporter specialized in fiber optic passive components. Our company has a lot of fiber optic products , I believe that one where you can find your favorite products , welcome to buy !

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fiber-optic broadband future trends

OF-Link Communications Co., Ltd is a manufacturer and exporter specialized in fiber optic passive components. We focus on offering products with premium quality and competitive prices in the field of optical fiber communications, fiber laser and fiber sensor applications.

Worldwide fiber-optic broadband service revenue grew over 15% to $ 46 billion in 2013. Operators such as British Telecom from the UK and VimpelCom from Russia reported that growth in its fiber-optic broadband customers contributed to overall service revenue growth in 2013. “Since revenue from traditional services such as voice and messaging is declining, innovative services and content over high-speed broadband networks are proving essential for operators to maintain overall service revenue growth. ABI Research forecast that the worldwide fiber-optic broadband market will generate $ 100 billion in 2019, “noted Khin Sandi Lynn, industry analyst.

Choose OF-Link Communications Co., Ltd, we will be the most enthusiastic attitude for your service, your satisfaction is our relentless pursuit !
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Fiber Optic Cables- connecting the world at a faster pace

Communication industry has been stormed by the advent of fiber optic cabling. The key advantages that are offered by these cables include greater bandwidth, light in weight, small size and definitely has more flexibility. In addition to it, the core reason behind its popularity is that advanced technology used by these cables.

As a matter of fact, the whole fiber optic technology makes use of optical fibers. These optical fibers are thin, ultra-flexible and transparent and transmit the light between two ends of the fiber quality as compared to copper wire. So, with their superior technology these are more appropriate for smooth communication between far distances. In addition to it, the usage of these cables results in much less loss of signals which means uninterrupted and smooth communication. To tell you the truth, currently more than 80% of far distance data traffic is transmitted by using this smart optical fiber technology. Total internal reflection through a light source transmitted by a fiber cable is the main principal on which whole fiber optic communication is based. Mainly, quality plastic material is used for making these cables. However, these can be made from plastic clad silica or glass in accordance with the budget and application for which these cables are being used. Copper wires used electronic signals to transmit signals whereas light pulses are being used in fiber optics cables to transmit signals.

Other advantages of fiber optic cables include it is inexpensive and suits properly to extremely thin diameters in the range between 0.8mm to 40mm. Being extremely thin, a number of fibers can be joint together letting many connections to run in the same cable. It provides clearer phone connections as well as TV receptions, as the light signals which are in the same cable do not hamper each other’s functioning. This ultimately results into much less loss of signals. These cables can also be called as the safer ones because no electricity passes through these cables and hence there will not be any fire issues.

In comparison with other wires like copper wires, these cables are definitely the superior ones because these are light weighted and small sized. With above mentioned advantages, it’s evident that why fiber optics cables are being used in many telecommunications and computer networks. These cables are regarded as the most trusted and best replacement of copper wires.

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What made Fiber Optic Technology a thing for the masses?

Once it was unique, fascinating and only for the very few and privileged. Now it is all around us and most of the time we don’t even know it is there. This is the story of most new technological breakthroughs. If you think of the television then not too long ago that was for the very few and rich people. Soon more and more people wanted it and the prices went down but next came the color television. The story goes on and on…

The fiber optic technology has been through the same evolution. Once it was the exclusive wonder of the laser labs and scientists and most people didn’t even know it existed. Today it can be found in everything from children’s toys to fiber optic pool lights to name a few.

Even though it might sound a bit odd it was due to errors in the materials. Simply by having flaws in the produced fiber optic cables the public came to know to fiber optics.

The first and foremost reason for the development in the fiber optic technology was the need for fast transmission of digital data. This data consists of intermittent on and off bursts, making it quite fragile. A line can only hold the amount of data that the rapidity of the switching can endure. This is also the determining factor of its purity and that is why constant testing is vital to the outcome. Only by doing a massive amount of testing the best fibers can be found and that are the fibers that can be used for data transmission.

That is the reason that every single string of fiber optic cable is tested many times for data transfer quality before being bundled into the final fiber optic cord. Many strings do not pass the tests and therefore there is a significant amount of “waste” produced in the form of discarded fibers. Instead of just throwing these fibers out because they can’t transfer high quality data signals they can still transmit light waves just fine.

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