Micro Trenching
gives big returns for Broadband
The problem with getting high-speed broadband connectivity
everywhere is that it's challenging, time-consuming, and expensive. To lay
the required fiber optic cables, existing streets must be cut and then deeply
dredged so crews can get to the buried utilities and set the new lines. Traffic
must be re-routed around the construction, which causes additional problems
(and costs), and the work is incredibly damaging to roads.
Well, leave it to the "brainiac" engineers of the
world to come up with a solution. It's called micro-trenching, and this method
is gaining popularity with service providers, Telecom companies, and
municipalities all over the world. Why? Because micro-trenching is far less
expensive to deploy, takes less time, and is less damaging to existing roadways
and sidewalks. And, for those of you tracking the topic, yes,
micro-trenching is one of the proposed methods in discussion for bringing
redundant broadband (or, for some residents,Internet service in the first
place) to the county “by way of”.
With conventional trenching, once you cut and backhoe a road
to lay the fiber, even after repairs, water and debris can eventually seep into
the lower road surfaces and cause potholes, sinkholes, and other problems.
But, micro-trenching is just like it sounds. It involves
cutting a very small slice, typically half an inch wide, into the roadway
surface along the demarcated route.
Micro-trenching does not require the heavy equipment,exorbitant
hours, or extended construction time-frames used in typical
trenching projects either.
It requires just a large, industrial-strength saw, specially
designed to cut road surfaces.
Crews can often lay a micro trench near where the asphalt
meets the cement curb. Micro-trenching does not require the heavy equipment,
exorbitant hours, or extended construction time-frames used in
typical trenching projects either.
This location gives the trench additional stability, and
ultimately ensures less wear and tear because the trench is not in the direct
path of moving vehicles. Once the cut is made, the fiber line is placed into
the trench. The trench is then back-filled with asphalt,
cement, or a grout-like substance.
Trenching can be done more cheaper per linear foot,
including materials, compared to conventional trenching. And, micro-trenching
takes just a fraction of the time. A build may take as little as two days for
micro-trenching, but 30 or more days for conventional trenching work. From
planning to completion, the build time frame for micro-trenching may be 50 to
55 days, whereas the traditional approach can take 160 days, or more.”
But, micro-trenching is not foolproof. Much of the fiber
optic cable being manufactured today is not air- and watertight. Over time,
moisture and muck can find its way into the cables causing the need for
repairs. Further, the cables are sometimes accidentally cut by workers
performing other construction projects.
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Or, the lines can be cut by severe damage to a roadway, as
in an accident that deeply gouges the driving surface. Lastly, micro-trenching
doesn't work everywhere. In some places the road surfaces are not deep enough
to accommodate the work.
At least one company, HTSSB, is marketing a product where
the fiber optic cables are blown through water- and airtight microducts.
This technology requires a slightly larger trench at 12-17 mm (.47 -.66 inches)
wide, but is still much more economical than conventional trenching projects.
These cables suffer far fewer failures because they are air-
and watertight. And, because they are blown in, end-to-end, there are none of
the typical signal loss problems associated with conventional splicing of
lines.
In recent years, the biggest challenge with geting broadband
access everywhere has been the cost, time, and inconvenience of laying the
fiber under existing streets and sidewalks.
However, micro-trenching, a system of making much smaller
trenches in streets, is gaining popularity due to its many advantages: Lower
project costs, less time, and far less damage to roads. Micro-trenching does
have a few drawbacks and can't be used everywhere, but most of the
disadvantages are mitigated by the ease, cost effectiveness, and convenience of
the technology. Micro-trenching is one step closer to ubiquitous broadband
service for all.