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A fiber optic attenuator, also called an optical attenuator, simulates losing the could be caused by a long period of fiber. Typically, this device performs receiver testing. While an optical attenuator can simulate the optical loss of an extended period of fiber, it can’t accurately simulate the dispersion that would be caused by a long length of fiber.

Put it simply, for a fiber optic receiver, too much light can overload it and degrade the bit error ratio. In order to achieve the best bit error ratio (BER), the light power should be reduced. Fiber optic attenuators fit the requirement perfectly. This could happen when the transmitter delivers too much power for example once the transmitter is simply too near to the receiver.

How Does a Fiber Attenuator Work?

Attenuators are like your sunglasses, which absorbs the extra light energy and protect your eyes from being dazzled. Attenuators normally have a working wavelength range in which they absorb the sunshine energy equally.

An essential characteristic of a good fiber attenuator is that they should not reflect the light, instead, they should absorb the extra light without being damaged. Because the light power used in fiber optic communications are fairly low, they usually could be absorbed without noticeable damage to the attenuator itself.

Types of Optical Attenuators

Two types of fiber optic attenuators exist: fixed value attenuators and variable optical attenuators.

Fixed value attenuators have fixed values that are specified by decibels. Their applications include telecommunication networks, optical fiber test facility, Lan(LAN) and CATV systems. For instance, a -3dB attenuator should reduce concentration of the output by 3 dB(50%). Fixed value attenuator’s attenuation value can’t be varied. The attenuation is expressed in dB. The operating wavelength for optical attenuators ought to be specified for that rated attenuation, because optical attenuation of a material varies with wavelength. Fixed value attenuators are comprised of two big groups: In-line type and connector type. In-line type appears like an ordinary fiber patch cable; it has a fiber cable terminated with two connectors which you’ll specify types. Connector type attenuator looks like a bulk head fiber connector, it has a male end and a female end. It mates to regular connectors of the identical type for example FC, ST, SC and LC.

Variable optical attenuators come with a variety of designs. They’re general used for testing and measurement, but they also possess a wide usage in EDFAs for equalizing the sunshine power among different channels. One type of variable optical attenuator is made on the D-shaped fiber as a type of evanescent field device. If your bulk external material, whose refractive index is larger compared to mode effective index, replaces a part of the evanescent field reachable cladding, the mode can become leaky plus some from the optical power could be radiated. If the index from the external material could be changed with a controllable mean, with the effects for example thermo-optic, electro-optic, or acoustic-optic, a device with controllable attenuation is achievable.

Other types of variable optical attenuators include air gap, clip-on, 3-step and more.

Source: http://www.fiberstore.com/



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نوشته شده توسط : sunprince

So why do We Need a Fiber Optic Attenuator?

Bigger is much better, right? Or so many people believe. Beginners in fiber optic technology are often confused with why optic attenuators should reduce light intensity. Aren’t we using amplifiers to improve the signal electricity? The fact is that too much light can overload a fiber optic receiver. Optical fiber attenuators are needed when a transmitter delivers too much light, such as when a transmitter is very close to the receiver.

So how exactly does a Fiber Attenuator Work?

Attenuators usually works by absorbing the sunshine, such as a neutral density thin film filter. Or by scattering the sunshine such as an air gap. They should not reflect the light since that could cause unwanted back reflection within the fiber system. Another type of attenuator utilizes a length of high-loss optical fiber, that operates upon its input optical signal power level in such a way that it is output signal power level is less than the input level. The power reduction are done by such means as absorption, reflection, diffusion, scattering, deflection, diffraction, and dispersion, etc.

What’s the Most Important Feature Should a Fiber Attenuator Have?

The most crucial spec of an attenuator is its attenuation versus wavelength curve. Attenuators should have the same impact on all wavelengths used in the fiber system or at least as flat as possible. For instance, a 3dB attenuator at 1500nm should also lessen the concentration of light at 1550nm by 3dB or as close as possible, this is also true inside a WDM (Wavelength Division Multiplexing) system.

Different Types of Attenuators

There are two functional kinds of fiber attenuators: plug style (including bulkhead) and in-line. A plug style attenuator is utilized like a male-female connector where attenuation occurs inside the device, that’s, on the light path from one ferrule to another. Included in this are FC fiber optic attenuator, LC attenuator, SC attenuator, ST attenuator and much more. An in-line attenuator is connected to a transmission fiber by splicing its two pigtails.

The key of operation of attenuators are markedly different simply because they use various phenomena to lower the power of the propagating light. The easiest means would be to bend a fiber. Coil an area cable several times around a pencil while measuring the attenuation with a power meter, then tape this coil. Then you definitely got a primitive but working attenuator.

Most attenuators have fixed values which are specified by decibels (dB). They’re called fiber optic fixed attenuator. For instance, a -3dB attenuator should reduce intensity of the output by 3dB. Manufacturers use various light-absorbing material to attain well-controlled and stable attenuation. For instance, a fiber doped with a transition metal that absorbs light in a predictable way and disperses absorbed energy as a heat.

Variable optical attenuator is also available, but it is usually a precision instrument utilized in making measurements. From FiberStore, you can get the best Variable Attenuators Instrument.

Source: http://www.fiberstore.com/



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Optical splitter is suitable for a fiber optic signal to be decomposed into multi-channel optical signal output.

Role of optical splitter
(1) It divides out a main light source into 1-N optical path.
(2) It synthesizes 1-N optical path into a main light source and recovers this source.

Working principle
In the single-mode optical fiber of the optical signal when the energy of the light is not completely concentrated in the core communication, a small amount is spread through the cladding near the core, that is, in the two fibers the core sufficiently close, then the mode field of the light transmitted in an optical fiber can enter another one optical fiber, optical signals in the two optical fibers to obtain a re-allocation

Technology
There are two types of optical splitters to meet the need for spectroscopy. One is fused biconical taper splitter (FBT Splitter) made by the traditional optical passive device manufacturers using the traditional biconical taper coupler technology. The other one is planar optical waveguide splitter (PLC Splitter) based on optical integration technology. Both devices have their own advantages. Depending on the occasion and demand, users can rationally choose different types of spectroscopic devices following a brief introduction of the two devices, which is just for reference.

FBT Splitter
Fused biconical taper (FBT) technology is tied to two or more fibers, and then melted in a cone machine, pull tensile and real-time monitoring of changes in splitting ratio, melt tensile splitting ratio to meet the requirements end, wherein one end of a fiber optic reserved ( The remaining cut off) as the input terminal and the other end a multitude of road outputs. Mature tapering process can only pull 1 × 4. 1 × 4 or more devices, with a plurality of 1 × 2 connected together. Then the whole package in the splitter box.

Main advantages
(1) The taper coupler has more than 20 years of history and experience, many equipment and process just follow it, development funds only a few one-tenth or even a few hundredth of PLC
(2) Raw materials have easy access to the quartz substrate, optical fiber, heat shrink tubing, stainless steel pipe and less plastic, a total of not more than one U.S. dollars. investment in machinery and equipment depreciation costs less, 1 × 2,1 × 4 the low channel splitter low cost.
(3) Splitting ratio can be real-time monitoring, you can create unequal splitter.

Main drawback
(1) Loss of the optical wavelength-sensitive, generally according to the wavelength selection device, which in the triple play during use is a fatal defect, since the optical signal transmitted in the triple play there 1310nm, 1490nm, 1550nm multi kinds of wavelength signals.
(2) Poor uniformity, 1×4 nominal about 1.5dB away, 1 × 8 or more away from larger, can not ensure uniform spectroscopic, which may affect the overall transmission distance. A demultiplexer
(3) Insertion loss varies with temperature variation is greater (TDL)
(4) The volume is relatively large, so the reliability will be reduced, and the installation space is restricted.

PLC Splitter
The planar waveguide technology using a semiconductor production process, the optical waveguide branching device branching function is completed on the chip, and can be implemented on one chip up to 1X32 splitter, then, at both ends of the chip package input terminal and an output coupled respectively end multi-channel fiber optic array.

Main advantages
(1) Loss is insensitive to the wavelength of transmitted light, to meet the different wavelengths of the transmission needs.
(2) Splitting the uniform, the signal can be uniformly assigned to a user.
(3) Compact structure, small size (Borch 1 × 32 size: 4 × 7 × 50 mm), can be directly installed in the various existing junction box, no special design leave a lot of space for installation.
(4) Only a single device bypass passage can achieve much more than 32 channels.
(5) The multi-channel, low cost, stars ones more and more obvious cost advantages.

Main drawback
(1) Device fabrication process complexity, high technical threshold, the chip is several foreign companies to monopolize domestic bulk package production enterprise only Borch rarely several.
(2) Relative to the higher cost of Fused Splitter more at a disadvantage, especially in the low channel splitter.

Contrasting the main parameters of the two devices

(1) Both devices have their own advantages in terms of price and performance. The two technologies are constantly upgraded, continue to overcome their disadvantages. Pull cone splitter being addressed disposable tapering in small quantities and poor uniformity; the waveguide splitter also reduce the cost to make unremitting efforts, the two devices 1X8 cost almost the same, with channels increase in the price of a planar waveguide splitter better.

(2) How to choose the two devices? The key is the occasion and the needs of users in terms of. In volume and the wavelength of light is not very sensitive applications, especially in the case of shunt less, the choice of tapering optical splitter relatively affordable, such as independent data transmission is optional 1310nm pull cone splitter, TV video network Select the the 1550nm pull cone splitter; triple-play FTTH require multiple wavelength optical transmission and more occasions should be used in the optical waveguide splitter. At present, the majority of domestic companies FTTH trial network multi-pull cone splitter, which is due to the many designers are not familiar with the PLC device, the few domestic companies producing such devices. Japan and the United States FTTH really commercial operation of the market is almost entirely planar optical waveguide splitter.



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