1000m G657A1 Bare Optical Fiber Coil For OTDR Measure
25.2KM per KM
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Features
Basic Infomation
Place of Origin: China
Brand Name: HICORPWELL
Certification: IEC 60794-2-10/11
Model Number: G657A1
High Light:

G657A1 Bare Optical Fiber Coil

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1000m Fiber Coil

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OTDR measure fiber optic coil

Payment & Shipping Terms
Packaging Details: 25km/Reel or 54.4KM per reel , then pack in a carton box for 6 reels fibers
Payment Terms: Western Union, L/C, T/T
Supply Ability: 1000KM Per Month
Specifications
Fiber Type: G657A1
Paintcoat Color: Aqua,yellow ,blue Or Others
Cable Purpose: OTDR Measure
Outer Size: +/- Ø7cm
Inner Size: +/- Ø 5cm
Thickness: +/- 3cm
Single Mode Fiber Optic Types: G657A1 And G652D
Application: Fiber Optic OTDR Launch Cable Spool
Product Description

1000m Fiber Small Coil Inner size Ø 5cm / Outer size Ø7cm G657A1 Bare Optical Fiber For OTDR Measure

There are two basic types of fiber: multimode and single-mode. 

Multimode fiber cores may be either step index or graded index.

Step index multimode fiber derives its name from the sharp step like difference in the refractive index of the core and cladding.

For installed spans, linking the OTDR to the span under test requires a hybrid patch cord.

 

Fiber can be identified by the type of paths that the light rays, or modes, travel within the fiber core.

 

Most OTDRs have an internal ultra physical contact (UPC) spherical polish,

but some reflection-sensitive systems use the angled physical contact (APC) polish.  

 

In the more common graded index multimode fiber the light rays are also guided down the fiber in multiple pathways.

But unlike step index fiber, a graded index core contains many layers of glass,

each with a lower index of refraction as you go outward from the axis.

The effect of this grading is that the light rays are speeded up in the outer layers,

to match those rays going the shorter pathway directly down the axis.

The result is that a graded index fiber equalizes the propagation times of the various modes so that data can be sent over a much longer distance

and at higher rates before light pulses start to overlap and become less distinguishable at the receiver end.

 


There are two methods of terminating a fiber.

 

 

The first method uses a bare-fiber adapter, whichconsists of a plug body that grips the fiber to be

 

tested. The design of the bare-fiber adapter is such that the fiber can pass completely through the

 

adapter body and damage the optical port. Because of this, the barefiber adapter must never be

 

connected directly to the OTDR.Instead, the adapter should be used with a short patch cord and mating

 

adapter sleeve to isolate damage from the OTDR’s port.
 

The second method uses a pigtail with a reusable mechanical splice, which allows easy mating of

 

the fibers to be tested with the OTDR. The Norland reusable mechanical splice has been used for

 

decades for testing bare fibers.

 

It features a glass body that internally holds and aligns two fibers.

 

The splice is filledwith a refractive index matching fluid to reduce reflections.

 

To make the connection, strip and cleave both of the fibers to be tested,

 

then insert and center both into the mechanical splice to complete the  termination.

 

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