5 Unassailable Pointers of a successful Fibre Optic cable Fusion Splicing

Did you know that the process of fusion splicing is just as old as the television? Why suddenly has it caught the interest of the IT leaders and Cloud technology providers? Well, the answer lies in the mega bandwidth demands and the dwindling copper resources. The age of connectivity and smart resource planning has prompted the companies to adopt fibre optic cables as their new go-to layout. From in-house architecture to outside plan applications, fibre optic cables are ruling the roost. And the fibre optic fusion splicing process is what stamps the seal of authority on the final architecture. How and why? We tell you in 5 quick ways.

- Permanent Fusion: Bend it around
Fusion splicer machines give the fibre optic cables the much needed flexibility that it lacks initially. Once the splicing is done, the two fibre optic cables are fused permanently. It does not break or crack even when passed around a corner. The flexibility of using a fusion splicer site eliminates the use of an additional kit of connectors.
 

With splicing in place, the fibre optic cables can be twisted, bent and even looped around.
 

- Elongate the Layout without Compromising on Bandwidth
Modern-day fibre optic cables carry signals at a bandwidth of more than 2.5 GBPS. This incredible capacity requires additional lengths. In most cases, a connector will suffice. It is economical to use a fibre optical cable bunch from the same family. It serves two purposes:
 

-    Increase the length of the wire to any desired magnitude
-    Strengthen the structural ability of the cable to sustain pressure in out-of-plant applications.

- Single Mode Splicing: Enhanced data centre capacity
If you are serving your clients with LAN service across long-haul OSP, the fusion splicer technique to connect two or more fibre optic cables becomes evident. It is usually done for the single-mode fibres as they have fewer glass-cores in bunch. At data centres, where the emphasis is on resource density and performance, the fibre optic cables are fused together using the fusion splicer machines.
 

- Simple Localized heating: No High-end resource tools
Fusion splicer machines are economical as far as pricing and effectiveness are concerned. Two fibre optic cables are joined using localized heat. The only care that has to be taken is with respect to the removal and re-covering of the outer shell around the glass core.

 

The fusion splicing is said to be 100 per cent effective if there is no hint of scratch, lips or grooves on the glass sheath. Moreover, the tube should be completely free from moisture and dust.
 

From angle of cleavage to alignment degree, the fusion splicer machine ensures that the two ends of the fibre optic cables are properly spliced to prevent any loss of signal at the site.
 

- Excepted loss tolerance: Less than 0.2 Decibels
A fusion splicing process is said to be a success if the resultant loss of data is found to be less than 0.2 decibels. It should be free from any moisture and dust. Two fibre optic cables can be fused at the cost of data loss.