Polarization Maintaining optical fibers

Posted on February 18, 2014 by admin

Polarization Maintaining optical fibers

Dispersion is the fact that light pulses spread out while they travel along a fiber. This fact occurs because the speed of light in the fiber depends on its wavelength (color of the light) and the propagation mode.

The light pulses in optical fibers are actually composed of a small range of wavelengths (colors). Practically, no light source can generate a pure single colored light. They always generate light in either narrow wavelength range (such as a semiconductor laser) or relative broad range (such as a LED).

Different wavelength of light travel in optical fibers at different speed. This means some light arrive at the receiver a bit later then others. This fact makes the received light pulses broader than at the transmitter side. This pulse broadening (spread out) is called dispersion.

Dispersion can also be caused by multimode transmission (different mode travels at different speed), the dependence of refractive index on wavelength, variations in waveguide (optical fiber) properties with wavelength, and transmission of two different polarizations of light (PMD) through single mode fibers.

:: Dispersion’s impact on bit rate in fiber optic digital communication system

Like power loss in a fiber optic link (attenuation), dispersion can limit the distance a lightwave signal can travel through an optical fiber. But different than attenuation, dispersion does not weaken a signal, it makes the signal blurry.

For example, if you send out a 1 millisecond width pulse but the pulse spreads to 10 milliseconds at the end of the fiber, then signals blur together in time that the signal becomes unintelligible.

The degree of signal blurry (signal overlap) at which pulse dispersion causes problems in digital systems depends on the design. But one rough guideline for estimating maximum bit rate is that the interval between pulses should be four times the dispersion (signal delay). It can be given as Maximum Bit Rate = 1/(4 x Dispersion).

.
Related reading:Polarization Maintaining Fiber Components hand dryer acrylic displays manufacturer dried mushrooms wholesalers

Posted in Polarization Maintaining Fiber Components | Tagged , , , | Comments Off

Types Of Fiber Cable

Posted on February 13, 2014 by admin

Types Of Fiber Cable

1. Simplex

Simplex fiber patch cable has one fiber and one connector on each end.

2. Duplex

Duplex fiber patch cable has two fibers and two connectors on each end. Each fiber is marked “A” or “B” or different colored connector boots are used to mark polarity.

3. Ribbon fan-out cable assembly

For ribbon fan-out cable assembly, one end is ribbon fiber with multi fibers and one ribbon fiber connector such as MTP connector (12 fibers), the other end is multi simplex fiber cables with connectors such as ST, SC, LC, etc.

Termination Types

1. Same connector types

This fiber patch cable has the same type of connector on both ends, such as ST, SC, LC, FC, etc.

2. Hybrid connector types

This fiber patch cable has different connectors on each end. One end can be SC and the other end can be LC, ST, FC, etc.

Connector Polishing Styles

Fiber optic connectors are designed and polished to different shapes to minimize back reflection. This is particularly important in single mode applications. Typical back reflection grades are -30dB, -40dB, -50dB and -60dB.

1. PC (Physical Contact)

Typical back reflection Fiber Cable Sizes

You can choose your fiber cable jacket size for your particular application.

1. 250um bare fiber

2. 900um tight buffer fiber

3. 1.6mm fiber cable

4. 2.0mm fiber cable

5. 3.0mm fiber cable

Popular fiber patch cables on the market

1. LC

2. ST

3. SC and SC/APC

4. FC and FC/APC

5. MTRJ

6. E2000

7. VF-45

Special Types

1. Polarization maintaining fiber patch cables

2. Mode conditioning fiber patch cables (also called mode conditioning patch cord, mode conditioning cables)

3. Pre-terminated pigtail

Cleaning methods

1. Reel connector cleaner

2. Isopropyl alcohol and lint-free wipes

3. Duster

4. Swab cleaner

Cautions for handling fiber optic cables

1. Bend radius:

2. Kink

3. Tie-wrap.
Related reading:Polarization Maintaining Fiber Components acrylic displays manufacturer buy power bank for iphone buy Testosterone Propionate

Posted in Polarization Maintaining Fiber Components | Tagged , , , | Comments Off

Fiber optic patch cables

Posted on February 10, 2014 by admin

Fiber optic patch cables

Fiber patch cable is a cable terminated with optic connectors on both ends. It has two major application areas: computer work station to outlet and fiber optic patch panels or optical cross connect distribution center.

Common types

Fiber patch cables can be categorized to different groups based on optical fiber mode, fiber cable type, termination types, connector polishing styles and fiber cable sizes.

Optical Fiber Mode

1. Single mode

Single mode fiber patch cables use 9/125 micron bulk single mode cable and single mode connectors at both ends. Single mode fiber cable jacket color is usually yellow.

2. Multimode

Multimode fiber patch cables use 62.5/125 micron or 50/125 micron cable and are terminated with multimode optic connectors at both ends. The cable jacket is usually orange.

3. 10gig multimode fiber patch cables

10Gig multimode fibers are specially designed 50/125 micron fiber optimized for 850nm VCSEL laser based 10Gig Ethernet. They are backward compatible with existing network equipment and provide close to three times the bandwidth of traditional 62.5/125 multimode fibers. 10 Gigabit is rated for distances up to 300 meters using 850nm Vertical Cavity Surface Emitting Lasers (VCSEL). The cable jacket is usually aqua.

.
Related reading:Polarization Maintaining Fiber Components acrylic displays manufacturer Effio-P CCTV Cameras China black Granite

Posted in Polarization Maintaining Fiber Components | Tagged , , , | Comments Off

Hello world!

Posted on January 17, 2014 by admin

Welcome to WordPress. This is your first post. Edit or delete it, then start blogging!

Posted in Uncategorized | Comments Off