INDEX Newsletter Sections Click
on any link to jump to that section
Features Aerial Cable Plant Workmanship Guidelines
Using Fiber Cables To Detect Dig-ups
Insanity & Data Centers
What Is An FOA Credential?
New FOA Badge In Fiber Optics New Fiber U Course on Safety
History Of The Utility Pole
New Edition of FOA Basic Fiber Textbook
FOA Programs For STEM Education What's New And Popular On FOA Website News ITU, World Bank Map Fiber Optic Networks
New Submarine Cable Map - Telegeography
Fiber Broadband Without Government Grants
Community Broadband In The US
Podcast "Future Of The Fiber Optic Network"
Broadband Communities Summit West
New FTTH Textbook in Serbian Language Technical Gigawatt Visual Fault Locator?
PON Miniaturization
Is It Just The OTDR?
Important Change in Singlemode Fiber
What Is A Fiber Identifier? Updated OTDR Trainer
How Good Are Your OTDR Test Cables? NECA/FOA Standard Withdrawn
Information From A Cable Scrap Managing Projects - Gantt Charts
FOA Color Code Guides FOA Online Loss Budget Calculator
Worth
ReadingLots of interesting
articles to read, watch or listen to.
Trademarks:
The FOA logo and name, CFOT® (Certified Fiber Optic Technician) and
Fiber U® (the FOA online learning site) are
registered trademarks of the FOA.
Want to know more about fiber optics?
Looking for specific information? Here's the largest
technical reference on the web: The
FOA Online Fiber Optic Reference Guide.
Free online self-study programs
on many fiber optics and cabling topics are
available at Fiber U,
FOA's online web-based training website. FOA
Reference Books
Available Printed or eBooks The fiber book is
available in Spanish and French
To
keep your FOA certifications active, you need to
renew them when they expire every 3 years. Now we have a new more
convenient way to renew - an online store at Paypal
- where you can quickly and conveniently use your
PayPal account or your credit card to renew your
certifications.
Over the years, FOA has published many photos illustrating poor
workmanship on aerial cable plants. Workmanship in aerial cable networks
can affect the performance and
reliability of the network of course, but also the aesthetics of the
visible aerial cable plant. Aerial cables should be installed "in a neat
and workmanlike manner;" which can be interpreted as "what is correctly
done also looks good." Recent discussions with FOA's worldwide network
of technical advisors has helped us create some guidelines for aerial
installations.
Here are some guidelines for aerial
installations, illustrated primarily by bad examples.
Installers must follow local ordinances and customer requirements for the aerial cable plant.
Cables on poles sharing electrical and telecom/CATV cables must be
installed in the telecom space with proper clearance from both
electrical cables and other low voltage cables. This includes separation
mid-span where both electrical cables and the messenger/fiber cables
both sag from their weight.
All aerial cables
should be installed clear of any obstructions including buildings,
trees and other cables. Weather conditions, e.g. storms, icing or potential wildfires, at the location may justify
greater separation from trees.
The span must be analyzed for the size of messenger, the tension
required for the span length and cable weight to meet sag requirements.
Sag is generally limited to <2% of span length and maximum tension
<30% of cable minimum breaking strength. Recommended reference: ANSI/ICEA P-79-561-2020 Guide for Selecting Aerial Cable Messengers and Lashing Wires.
Cables must be sufficiently high above the ground to clear all obstacles including traffic that may pass underneath it.
All cables
must be securely lashed to the messenger and/or cable(s) with no loose
hanging cables anywhere along the span. Messenger wire must be neatly terminated
at the ends.
Splice closures should be attached to poles with necessary service loops
using appropriate hardware. Closures attached to the messenger and their
cable(s) must be securely attached and service loops secured along the
current cables with showshoe turnarounds or a cable loop that respect
the cable's minimum bend diameter.
No service loops or cables awaiting further installation may be left
hanging from the span. All loops of cable must be secured to a pole at
the end of the span. Excess cable awaiting installation may be secured
at poles for short periods of time only.
The steel messenger wire and lashing wire are electrical conductors and should be properly grounded.
Overlashing must
consider the current cable loading, the weight of the cable intended to
be added and the affects on span tension and sag.
Any damage done to current cables during OMTR (one touch make ready) or
overlashing must be reported to the permitting authority and the owners
of the other cables on the span.
We continue to wonder what kind of installer would leave an aerial cable
plant looking like these examples. One question we ask is why are there
no industry standards for fiber optic aerial cable plant installation,
just those written by companies or local governments. Another puzzling
question is do local authorities and/or the owners of these cable plants (who pay for the
construction) never inspect them? The poor installation shown here should
never have been allowed or approved by the owner. Would a contractor
who installed these cables use them as a reference for prospective new
customers?
It's puzzling!
Aerial cable systems have a hard life - From Recent News Stories
The Atlantic/Mario Tama/Getty
A pole following a wildfire in Wrightwood, CA, US September 11, 2024.
NYTimes/Josh EdelsonAFP-Getty
The Park Fire in Tehama County, CA July 2024
NYTimes/Marco Bello/Reuters
Hurricane Helene toppled poles in Crawfordville, FL September 27,
2024. In the aftermath of Hurricane Helene, 4 million people were left
without power in the SE US.
Using Fiber Optic Cables As Sensors To Detect, Locate, And Perhaps Prevent Dig-Ups
Fiber has been used for sensors as long as it has
been used for communications, measuring electrical voltage and current
in transmission lines, as acoustic sensors for detecting submarines, and
more recently using fibers in underground communications cables as
seismic monitors detecting earthquakes. A modification of the earthquake
sensor technique has been tested as a way to detect unauthorized
digging near fiber optic cables and perhaps stopping the digging before
the cable is damaged.
Image Texas 811, click on the image for a larger version.
Contractors digging near underground utilities like fiber optic cables
are supposed to "Call Before You Dig - Call 811" to create a "ticket"
and ensure the underground utilities are marked and located before
digging. Damage caused by excavations without a one-call ticket is huge.
CGA data says that 24% of all damages nationwide result from
excavations without a one-call ticket. We need a way to provide
protection to high-value underground facilities even when there is no
one-call ticket.
Fiber Optic Sensing provides a way to do that. Fiber Optic cables within
approximately 30 feet (10 m) of an underground facility can detect and
identify unique vibration signatures in the area, some of which
represent excavation activity. Once excavation activity is detected, an
alert is sent to the call center to determine if there is an active
ticket for the area. If not, alerts can be sent to the proper operators
with information on the type of digging and GPS location. The facility
operator can respond to the excavation site to intervene before damage
occurs.
"Insanity Is Doing The Same Thing Over And Over Again And Expecting A Different Result"
That is a famous quote usually - and erroneously - attributed to Albert Einstein. Perhaps a better definition today is "Insanity is a common affliction among believers of their own hype." To which we offer the following evidence:
An Underwater Data Center in San Francisco Bay? Regulators Say Not So Fast Certainly a good deal of the insanity here is the powering
of data centers using coal or nuclear power which have known issues, but
how about claiming that nuclear fusion is an option when fusion has
been studied for half a century already with no real success - or heating
up the water in San Francisco Bay without regard to the environmental
impact?
The real insanity here may be why the data centers are being planned.
Most are intended for AI (artificial intelligence) applications that
must consume vast computing resources. But have they read ....
Will A.I. Be a Bust? A Wall Street Skeptic Rings the Alarm. NYTImes. Jim
Covello, Goldman Sachs’s head of stock research, warned that building
too much of what the world doesn’t need “typically ends badly.” Mr. Covello, the head of stock research at Goldman Sachs, has
become Wall Street’s leading A.I. skeptic. Three months ago, he jolted
markets with a research paper that challenged whether businesses would
see a sufficient return on what by some estimates could be $1 trillion
in A.I. spending in the coming years. He said generative artificial
intelligence, which can summarize text and write software code, made so
many mistakes that it was questionable whether it would ever reliably
solve complex problems. The Goldman paper landed days after a partner at Sequoia
Capital, a venture firm, raised similar questions in a blog post about
A.I. Their skepticism marked a turning point for A.I.-related stocks,
leading to a reassessment of Wall Street’s hottest trade. But Mr. Covello, 51, has experience with tech booms and busts.
He followed the bursting of the dot-com bubble as a semiconductor
analyst and was scarred by watching colleagues lose their jobs.
Remember the effect of the Dot Com bubble bursting on the fiber optic
industry in 2001? We do. What Covello describes was felt heavily by the
fiber optic industry. The fiber optic market collapsed, dropping
by about 70% in what seemed like days. Companies went out of business.
Big companies laid off many employees, including senior personnel with
years of experience. That experience was felt in the industry for years,
including at FOA where several of our founders were laid off or took
early retirement and left the fiber optic business. The collective
knowledge and business momentum that was lost then took years to
recover.
What's Is An FOA Credential?
As FOA counts down to our 100,000th CFOT® certified technician,
introduces the "FOA Badge In Fiber Optics" for others working in the
field and adds new courses at Fiber U which offer a "Certificate of
Completion," it's a good time to explain the differences.
FOA Certification FOA started in 1995 to develop a workforce to build the future fiber
optic networks. Included in the FOA charter was to set standards for
train fiber optic technicians and certify them. FOA was not the training
organization; that was left to training organizations at schools,
companies, agencies, unions, and independent trainers. FOA set the
standards for certifying the knowledge, skills and abilities (KSAs)
of fiber optic technicians with the help of the trainers and educators
who founded FOA. It was not until 2003 that an international standard
for certification was created (ISO 17024) and to our amusement it
follows closely the FOA program. Someone with a CFOT, CPCT or any other
FOA certification has demonstrated the knowledge, skills and abilities
defined for that certification by obtaining training and/or work
experience and passing a comprehensive test of their knowledge. They
must renew every 3 years, confirming their continued work in the
industry. FOA Badge in Fiber Optics
The FOA Badge in Fiber Optics was created at the request of those
working in the fiber optic industry in other professional occupations.
For a CFOT or CPCT, FOA could define the KSAs expected of a fiber tech
who would be designing, installing or operating a fiber optic network,
but there are many other professionals that work in other essential jobs
in the industry; manufacturing, marketing/distributing, managing,
planning, etc. where no one set of "skills" can be defined for all those
jobs. The solution was a credential for those with experience in any of
those jobs who had knowledge of the industry proven by passing an FOA
test. Having a FOA Badge means you have a credential you can share
online that confirms your knowledge of fiber optic technology and
applications.
Fiber U Certificate of Completion
FOA offers two dozen free online self-study programs at Fiber U
which match up to most FOA certification subjects and include many
other areas of interest in fiber
optics and premises cabling. Those taking the courses who want evidence
of their completion of the course may take an online test at a nominal
fee to get a Fiber U Certificate of Completion. The Fiber U Certificate
of Completion requires
taking an online test about the material in the course, so it shows that
the holder of a Fiber U Certificate of Completion has completed the
online self-study course and learned the relevant knowledge covered in
the online course. Fiber U Certificate of Completion does not require or test any skills or abilities,
only knowledge about the subject of the online course.
Who's Qualified For The Job? Check Their Credentials.
If you are an employer, project manager or contractor hiring installers,
FOA Certifications should help you judge the qualifications of
potential hires. If you are hiring someone for a job with a
manufacturer, distributor, agency or project group, the FOA Badge tells
you the holder is knowledgeable about fiber optics and has experience in
the field. Anyone who holds a Fiber U Certificate of Completion has
shown they have studied a particular topic and gained knowledge in that
area.
That is the basic idea of credentials; they allow evaluating workers qualifications.
And now, introducing a new FOA credential.
The "FOA Badge In Fiber Optics"
An industry-wide credential for professionals working in fiber optics FOA is best known as the certifying body for the nearly 100,000 FOA-certified fiber optic technicians
who build worldwide networks. FOA has been asked many times about credentials for other
professionals in fiber optics.
Besides the technicians that design,
build and operate the fiber optic networks the world uses for
communications, there are many other professionals that are essential
for the success of the fiber optic and cabling industries. These
professionals manufacture, sell and distribute fiber optic components or
plan and manage the projects that include fiber optics.
New Fiber U Course: Fiber
Optic Safety Covers Construction And Installation
This
new Fiber U course focuses on safety in fiber optic installation. There are two lessons in this course,
fiber optic construction and fiber optic installation. The dividing
line between the two courses is the installation of the fiber optic
cables. Construction leads up to and/or is completed when the cables are
installed. Installation begins when the fiber tech installs the cable,
then completes the splicing, termination testing and documentation. The
overlap between the two is the installation of the cables where both
construction personnel and fiber optic techs are involved.
Here is the new Fiber U "Fiber Optic Safety" self-study program. Take the course and get your certificate of completion.
The California Public Utility Commission (CPUC) publication A Natural History of the Wooden Utility Pole, This document (PDF) begins with an
excerpt form a John Updike poem titled, appropriately, "Telephone
Poles." Next comes an illustrated history of communications,
including the Pony Express and the telegraph which replaced it, then the
use of poles for electrical distribution. The pictures are priceless!
It has been 5 years since we have updated the FOA Reference Guide To Fiber Optics,
so it is certainly time for an update. The latest version is different
enough we call it a new edition. Many of the updates are for new
technologies which are reshaping the fiber optic industry like coherent
transmission, BI fibers, etc. We've also added a section on the fiber
optic workforce which has much relevance because this book is used to
train those entering the workforce. We've also worked on making the book
more readable, adding formatting that eases reading and a new
comprehensive index.
Inflation was an issue, but the price only goes up $2 to $29.95 for the paperback and $12.95 for the Kindle version.
The new edition of the FOA Reference Guide To Fiber Optics is available from Amazon and booksellers worldwide.
FOA Programs Support STEM Education
Classroom
Resources For STEM Teachers In K-12 And Technical Schools
Teachers in all grades can introduce their students to fiber
optic technology with some simple demonstrations. FOA has
created a page for STEM or STEAM (science, technology,
engineering, arts
and math) teachers with materials appropriate to their
classes. Fiber
Optic Resources For STEM Teachers.
All FOA
Certification Credentials Are Now Online
All FOA Certified Fiber Optic Technicians now have their certification
credentials online. if your FOA certification has not expired you should have been notified you have an
online credential. If you did not get notification it may be because
FOA did not have a valid email for you. Contact FOA to inquire about your certification credential.
FOA Guide To The Fiber Optic Workforce
- what we've learned in developing the fiber optic workforce over more
than a quarter century and almost 100,000 certified techs.
ITU, World Bank, Mozilla, Internet Society And More Join To Map World's Fiber Optic Networks
While companies like Telegeography map the 500 or so submarine cables
connecting the continents, the mapping of all the terrestrial networks
is probably a task beyond the capabilities of any one company. However,
the International Telecommunications Union (ITU), World Bank, Mozilla
(the Firefox browser company), the Internet Society and others have
cooperatively undertaken this Herculean task.
Steve Song of Mozilla
described the need for this information well: "In order to understand
the true extent of the internet, we need to start with the basics, the
physical infrastructure that carries the internet around the world. The
first step in developing a solid foundation on which to understand the
growth of the internet are terrestrial fibre optic networks, the
high-capacity backbones that carry thousands of terabits of internet
traffic every day across vast distances."
Telegeography's submarinecablemap
just got an upgrade. Interactive map users can now search by region and
route, navigate to the new Region and Route pages. A new Filter button
is available in the sidebar on Region, Country, Landing Point, Route,
and Supplier pages that return a list of three or more cables.
The Submarine Cable Map is a free and regularly updated resource from TeleGeography.
Fiber Broadband Doesn't Always Depend On Government Handouts
From all the talk about the US NTIA BEAD program for
broadband, you might think that service providers were dependent on the
government grants to build broadband. The BEAD program, however, is only
funding a small portion of the US broadband construction, the areas
that commercial ISPs have not been covering because of the poor ROI
(return on investment) of unserved and underserved areas.
But expanding FTTH for broadband is a much bigger business in the US and
is not being ignored by investors. It was recently reported in Broadband Communities that Race Communications
had secured more than $500 million in new capital from investors to
expand their networks in California. Race Communications is the leading
fiber internet provider in California, covering both urban and rural areas.
The funding includes investment from equity investors like Oak Hill
Capital and AB Private Credit Investors. Oak Hill is a leading investor
in fiber broadband with investments in 31 states.
FOA has long been an advocate of investments in FTTH, pointing to success stories like Solana Beach, CA, the first "Terabit City." A more recent event, the Verizon bid for Frontier Communications, helps put a value on FTTH. Verizon's $20 Billion bid for Frontier
values Frontier's 2.2 million customers, 7.2 million premises passed at
about $9000 per customer or $3300 per home passed. We've tracked CATV
system sales and they have typically been in the $4500-7500 range per
subscriber.
The Rising Tide Of Community Broadband In The US
Today, more than 700 communities in the US are served by more than 400 municipal broadband networks across the country. The new Community Networks Map from ILSR illustrates this explosive growth.
While 16 states still restrict or ban cities from building their own
telecommunications infrastructure, this number is steadily decreasing.
Explore this interactive map to find more insights related to population
size, business model, and other network characteristics.
“It’s striking to see just how many communities have decided to solve
their own local connectivity challenges by building publicly owned,
locally controlled networks after being left behind or neglected by the
big monopoly Internet service providers,” ILSR’s Ry Marcattilio said.
We suspect many of you like to
listen to podcasts as your are driving. Here is one that can also update
you on the fiber optic industry.
Telecommunications Industry Therapy Podcast: Future of The Fiber Optic Network, July 10, 2024
Scott Stekr and Michelle Kang of interview Jim Hayes, President of
The Fiber Optic Association to provide clarification on what
fiber optic networks are, who builds them, and what the FOA is doing to
help train and grow the workforce.
The inaugural Broadband Communities
Summit West will be held in San Diego on October 30-31. The conference
is the latest addition to the Broadband Communities event portfolio and
will bring together 1,000 like-minded professionals, who are invested in
delivering better connectivity for communities in the Western United
States. You'll be hearing from public officials across 12+ states on how
they intend to ensure meaningful and long-lasting change in their
communities.
New Technical Book On FTTx In Serbian
Vladimir Grozdanovic is a graduate electrical
engineer for
telecommunications with more than 10 years of experience in access
networks (HFC and FTTH) in large cable operators in Serbia (SBB and
Jotel). He has been writing technical articles for the FOA Newsletter
based on his personal experiences. Now he has applied his writing
talents to a textbook on FTTx in his native language, Serbian.
The book can be ordered through the publisher Infoelektronika websitehttps://www.infoelektronika.net/. Delivery is available to all countries worldwide via standard mail or international express mail EMS.
Quote Of The Month Year:
(this is worth repeating)
Speaking at the Goldman Sachs Communacopia +
Technology Conference, AT&T’s CEO John Stankey said, “There’s a
fallacy to say there’s fixed networks and wireless networks. There are
only fiber networks with different access technologies on the end of
them. That’s where this is all going.”
Technical
Fiber optic
technology, standards, equipment, installation,
etc.
The FOA
Update Pagecovers the new technology
and applications we covered in this newsletter
recently. Now you can review all that new tech at
once.
Cross Reference To FOA Technical Reference Materials
The FOA has almost 1,000 pages of technical information on the FOA Guide,
100+ videos and two dozen online courses at Fiber U, all this can make
it difficult to find the right information.
Cross Reference To FOA Tech Materials
To help this, we have created a cross reference guide to the textbooks,
Online Guide and Fiber U courses, all the FOA technical information.
Besides the textbooks, online Guide and Fiber U, each section of the
Guide also includes links to the 100+ FOA videos available. Cross Reference Guide to Textbooks, Online Guide and Fiber U
FOA Videos
We have also rearranged the 100+ FOA videos in similar categories on the
Contents Page of the Online Guide, making the videos, especially the
lectures, much it much easier to find a video on a particular
topic. FOA Videos Guide.
Want to know more about fiber optics? Study
for FOA certifications? Free
Self-Study Programs are on Fiber
U®
If It Would Work, You Would Not Want It!
An ad for this visual fault locator (VFL) showed up
this month. You've
probably seen these ads before, promising VFLs that could test out to 20
- 30 km
or more. There are several problems with this claim and more problems if
it could actually do what they claim. It merely illustrates what the
manufacturer doesn't understand about fiber optics, fiber attenuation,
optical power or loss in dB.
The attenuation of an optical fiber is highly dependent on wavelength.
VFLs use visible red lasers at 650 nm wavelength. At 650 nm, the
scattering attenuation in optical fiber is about 6-10 dB/km, compared to
~0.3 dB/km at 1310 to 1550 nm. A VFL from a
reputable manufacturer has an output of ~ 1 milliwatt, a class II
laser. They are generally useful for 3-4 km of optical fiber. That
implies a range of about 30 dB, with ~ 1 microwatt visible at the end of
the fiber.
To be able to be useful for 30 km, the VFL would need to be powerful
enough to work over 180 to 300 dB of fiber attenuation (30 km X 6 dB/km = 180 dB, X 10 dB/km = 300 dB). If 1 microwatt
is visible at the far end, the laser would have to be emitting a power
level of more than 1 gigawatt! That's not a VFL, that's a laser weapon or fusion igniter!
It would probably vaporize the connector and fiber attached to it! Maybe the user too!
These high power VFLs are not gigawatt lasers but are still probably in violation of laser safety regulations and potentially harmful to your eyes.
Here is an example of the power required to reach fiber lengths:
1 milliwatt laser (0 dBm) to 1 microwatt visible = 30 dB loss = 3-5 km
(That's 1,000 times the visible light llimit required to go 3-5 km at
6-10 db/km. Remember 30 dB is a factor of 1,000 in power, so every
additional 30 dB is multiplying the power by another 1,000 times))
1 watt laser (+30 dBm) to 1 microwatt visible = 60 dB loss = 6-10 km
(Another 1,000 times the power only gets you another 3-5 km)
1 kilowatt laser to 1 microwatt visible = 90 dB loss = 9-15 km
(The power level used for cutting and welding is in the low kw level.
Above this level, lasers are used for weapons, research experiments for
laser fusion, etc.)
1 megawatt laser to 1 microwatt visible = 120 dB loss = 12-20 km
1 gigawatt laser to 1 microwatt visible = 150 dB loss = 15-25 km
That's an interesting lesson in optical power expressed in dBm and the effects of fiber attenuation.
Miniaturization Comes To The PON
The essence of technology is that over time it becomes smaller and
cheaper. That has happened to many fiber optic components over the
years, including SFP transceivers and coherent modules. Not it's come to
PONs. COMTREND has introduced a pluggable module that converts a switch or router to an OLT.
The COMTREND TiBit Microplug is a module that plugs into a switch or
router to implement a XGS-PON OLT for PON systems. COMTREND claims you
can eliminate the OLT chassis with their pluggable module and the router
that connects to the Internet. This could be a good solution to
lowering costs for connecting small towns or rural areas.
Understanding Optical Distribution Frames (ODFs) And Patch Panels
FOA contributor Vladimir Grozdanovic explains
the types, uses and management of optical distribution frames and patch
panels in this new technical paper. Read it in the FOA Guide.
Is It Just The OTDR Or Is Singlemode Loss Really Directional?
Our series of articles on the compatibility and splicing of G.652 and G.657 summarized below and explained fully here raised another question from a knowledgeable reader.
"When you do a bidirectional OTDR test and average, you remove
the backscatter differences. But it seems to me that two fibers of
different MFDs would have an actual directional loss difference, much
like mismatched MM fiber. Do you have any information that addresses
this?"
One of FOA's technical contacts at a fiber manufacturer gave us this explanation. "With singlemode fibers there is simply one mode. The loss is simply the
overlap of the modes in the two fibers and is the same in either
direction since only one mode propagates and all other modes are
cladding modes." So there you have it -
Singlemode splices showing different losses in bidirectional losses are just a artifact of how the OTDR tests
Averaging the loss in the two directions gives the actual splice loss
The actual splice loss the same in either direction.
A Quiet But Important Change In The Fiber Optic Cable You Buy
With so many cable designs today,
like microcables or high fiber count cables, requiring bend-insensitive
fibers, would it make sense to make all or most singlemode fibers as
bend insensitive fiber?
Two manufacturers (Corning and OFS) told FOA the industry is moving towards a G.657.A specification
in fiber, because the industry is moving towards smaller denser cables
in the network & the bend resilience is a requirement for the cable
design. So singlemode fiber is moving to being BI fiber, exactly what happened
with 50/125 laser optimized fibers a decade ago. With most new fiber,
compatibility is not an issue. But it is recommended to check with the
cable manufacturer if you are not sure what fiber is being used in the
cable you are purchasing.
OptConn
is a value-add re-seller of optical connectivity products, services and
solutions. With over 30 years of experience in the fiber optics
industry we are here to serve your requirements from fiber optic
training with FOA certification to products, materials and supplies.
We have partnerships with industry leading
manufacturers to support your installation, splicing and testing needs.
Our goal is to guide, support and recognized our client’s requirements.
FOA has rewritten the FOA OTDR Trainer around Fiberizer. The Fiberizer PC
software was the version we used for creating the Trainer, but the basic
techniques apply to all versions of Fiberizer. FOA provides a folder of
sample traces in 3 categories - Parameter Traces, Sample Traces and PON
Traces - around which we build the trainer. If you set up Fiberizer,
you can complete the FOA OTDR Trainer lessons and then use the same
software to analyze other traces you may have, even from other brands of
OTDRs, as long as they are .sor files.
The FOA OTDR Trainer is ready to help you learn about OTDRs. Go to the OTDR Trainer page, tech/ref/testing/OTDR/OTDRsimulator.html, choose your version of Fiberizer, download the FOA Traces and you are ready to go.
FOA wishes to thank VeEX
for permission to use their Fiberizer® software in our OTDR trainer.
And our compliments to them for making the ap available on multiple
platforms that ensure anybody can use it.
How Good Are Your OTDR Launch/Receive Cables?
FOA received an inquiry about some OTDR traces that
showed failures. Quite a few fibers failed at the final connection to
the receive cable, indicating that there could be a problem with the
connection - dirt of a bad connector on the receive cable. Have you
checked the connectors on your OTDR - or OLTS - reference cables
recently? You should inspect and clean them regularly - every few
connections - to ensure they are good. If they are bad, they will cause
false failures on the cable under test.
NECA/FOA 301 fiber optic installation standard
withdrawn
The NECA/FOA 301 fiber optic installation standard has been
withdrawn. It's almost a quarter century old and a decade since the
last update. It has been decided the standard needs to be replaced with a
more modern document covering current technology and written in a
format that allows easier updating.
In the meantime, there is lots of useful information in the standard and you can still download a free copy from FOA.
Learning Important Information From A Found Cable Scrap
While walking down the street near the FOA office, we found this cable
laying in the gutter. What a find! A short length of Corning Rocket
Ribbon 864 fiber cable left over from an installation by a contractor.
We brought the cable back to our office with the intention of opening it
up and creating a video about the construction of this modern high
fiber count cable, but something got our attention first. The cable had a
very
long line of printing on it with lots of interesting and useful
information. So before we started deconstructing it, we decided to
photograph the printed information and interpret it. That turned out to
be an important part of the information we learned from the cable. Then,
as you will see below, we dissected the cable and learned even more.
The most common way to track projects is the Gantt Chart, a
chart of activities that tracks the progress of projects along a
timeline. each activity is represented by a bar and the position and
length of the bar represents the starting date and duration of the
activity. This allows you to see what activities are needed for the
project, when the activities start and end so it can be used to track
the progress of the project visually. Here is what a Gantt Chart for a
fiber project might look like:
You might remember an article in the FOA Newsletter in April 2022 or the FOA Guide page on Project Management about the timing of a fiber optic project where we showed the progression of steps in a project like this:
The Gantt Chart is simply this list converted to a Gantt Chart
using a Microsoft Excel spreadsheet. You can download a copy of the FOA Gantt Chart spreadsheet (xlsx file - 16kB)
and use it to create your own Gantt Chart for any project. All you have
to do is to input your own data and change the activity names as
necessary. You can also follow the directions from Microsoft to create your own version.
Help On Color Codes (Including Copper Cabling And Fiber Optics)
The FOA has created a print-your-own pocket guide to fiber
optic color codes. It has
color codes for fibers and buffer tubes, connectors and premises cables
inside and on the back, QR codes to take you directly to the FOA Guide
and Fiber U. The FOA
Guide page on Fiber Optic Color Codes is one of the most read pages on the FOA
website and the Fiber Optic Color Codes minicourse on Fiber U very popular also.
FOA received an inquiry about whether techs
working on restoring OSP links should be concerned about eye safety if
the link used fiber amplifiers. To answer this question, we had to do some research on fiber amplifiers.
The short answer is YES, you should be concerned. The long answer is
more technical and includes details that every OSP tech needs to know.
FOA
has written many articles about loss budgets,
something everyone involved in fiber optics needs to
know and needs to know how to calculate. We've
created a online Loss Budget Calculator that does
the work for you. Just input your cable plant data
and it calculates the loss budget. It works on any
device, especially smartphones and tablets for field
use and even allows printing the results.
Recent articles from The FOA Newsletter
Fake OTDR Traces Submitted For Testing Documentation January 2023 Tech
Using OTDRs To Test Transoceanic Cables And PONs February 2023
POF - the Other Fiber March 2023
What Do Employers Expect From A Fiber Optic Tech? April 2023
Are Standards Ignoring The OSP? May 2023
FOA Has Proven Results In Fiber Optic Workforce Development June 2023
BEAD Funding For States Announced And Analyzed July 2023
Wisdom From The Street (Analyzing the printing on a fiber optic cable) July 2023
Focus On Disasters August 2023
FOA's Role In Education and Work Done By Fiber Techs September 2023
The Workforce: New US DoL Bureau of Labor Statistics Telecom Tech Category October 2023
How Many Telecom Techs Do We Need and How Big Is The Fiber Optic Market November 2023
Guidelines For Fiber Optic Project Planners December 2023
2023 Year In Review. Kentucky Shows The Value Of Fiber January 2024.
What is Broadband? History of the Cable Modem February 2024
It's Just Economics. Things you need to know. March 2024.
Fiber To The Shore - Undersea cables along the coast April, 2024.
The Future Of The Fiber Tech May 2024.
Utility Poles: The California Public Utilities
Code gives the California Public Utilities Commission the authority to
allow public utilities to access all utility poles, and requires
investor-owned utilities and incumbent providers to provide
telecommunications and cable TV providers with access to their poles.
All public utilities must grant each other access to their utility
poles, and must set rates, terms, and conditions for access. From The California Public Utilities Commission "Resources For Broadband Projects"
(And it is a web page of very interesting reading about permitting and rights-of-way!) Previously:
Podcast Telecommunications Industry Therapy Podcast: Future of The Fiber Optic Network JULY 10, 2024 by Scott Stekr and Michelle Kang of
Telecommunications Industry Forum interview Jim Hayes, President of The
Fiber Optic Association to provide clarification on what fiber
optic networks are, who builds them, and what the FOA is doing to help
train and grow the workforce.
Deep Dives (Takes a while to read but worth it)
Investing In Fiber Optic Networks -Hexatronic - not
like venture capital investing, but how financial decisions in network
design may have big effects on the total cost of a network.
VIAVI "NITRO" Fiber Sensing Solutions - VIAVI
is offering systems to use fibers as sensors for finding cabling
problems, structural monitoring and security. Focus is on electrical
power transmission, piplelines, and critical infrastructure. IT might
apply to your network.
Quote of the month: “Middle mile is like the
middle child that keeps getting ignored. If we continue ignoring it, at
one point in time, we will not be able to connect all of these new last
mile connections that we are planning on building in the next four
years.” Sachin Gupta, Director of Government Business & Economic Development
at Centranet.
Can Our Industry Develop Fiber Talent? ISE Magazine. Learn how states, schools and training organizations must work together to develop fiber field talent.
CABL® (cabl.com)serves
the business needs of the Broadband industry (including traditional
cable TV, fiber, telecom and satellite providers) with employment
listings, classified ads, discussion forums, and more.A contractor told us it's where they find lots of opportunities for subcontracting.
Worth Reading - Magazines, Websites and Newsletters
CABL® (cabl.com) serves
the business needs of the Broadband industry (including traditional
cable TV, fiber, telecom and satellite providers) with employment
listings, classified ads, discussion forums, and more. A contractor told us it's where they find lots of opportunities for subcontracting.
As
part of celebrating 25 years of serving the fiber
optic industry in 2020 as its primary source of technical
information and independent certifying body, FOA
thought it appropriate to create a short history of
the organization and how it has developed to
help the fiber optic industry. We also wanted to
recognize the contributions many people have made to
the organization over the years that made FOA what
it is today.
The FOA history is now archived on the FOA
website where you can read it anytime or link to
it.Updated
info - dB, total internal reflection and science
projects,
The First Transcontinental Telephone Line
began operation on July 29th in 1915 - 3400 miles between New
York and San Francisco - required over 100,000 telephone poles! Wonders
of World Engineering
How
To Build Rural Broadband, Learning From History In the August 2021
FOA Newsletter, we published a lengthy article on
rural broadband and compared it to rural
electrification in America in the last century.
Much of the comparison was based on an article
written in 1940 by a USDA economist, Robert Beall,
called "Rural Electrification." If
you are interested in or involved in rural
broadband, we recommend you read the article "How
To Build Rural Broadband, Learning From History"
in the August 2021 FOA Newsletter and
read the Beall article also.
IEC 60050 - International
Electrotechnical Vocabulary - An
extensive dictionary for fiber optics in English and
French. Highly technical - this is one definition:
"mode - one solution of Maxwell's equations,
representing an electromagnetic field in a certain
space domain and belonging to a family of
independent solutions defined by specified boundary
conditions"
DIRT
Report On Damage To Utilities Common Ground
Alliance (CGA) annual DIRT report provides a
summary and analysis of the events submitted into
CGA’s Damage Information Reporting Tool (DIRT) for
the year 2018. The complete report is available
for download here. In addition,
there is an interactive dashboard that
allows users to filter the data more by
factors contributing to damages.
Besides
the FOA reference materials, two JDSU/VIAVI
textbooks, Reference Guide to Fiber Optic Testing,
Volumes 1 and 2, were used as references for
some of the FOA courses and are recommended for
instructors and students. The books are available
from VIAVI as eBooks and the everyone should
download them and recommend them to others.Download
yours now. Volume 1. Volume 2. Viavi Books
When readers ask us questions, we genrally refer them to FOA
resources where they can find the answer to their question and many
more. We first send them to the FOA Guide
which is the table of contents for the FOA technical resources. There
they can find pages indexed by topic and a search engine for the FOA
website. It also links them to FOA videos and courses on our free online learning site Fiber U.
The FOA
Fiber FAQs Page (FAQs = frequently asked
questions) gathers up questions readers have
asked us (which first ran in this newsletter)
and adds tech topics of general interest.
Good Question!
Tech
Questions/Comments From FOA Newsletter Readers
OTDR Measures Fiber Length
Q: What property (or defect) of SM G.652D could possibly lead to
span length (fiber length determined by OTDR) being shorter than cable
length? The cable length is 2.517km vs 2.508km fiber length.*
A: It is not uncommon for the OTDR measured fiber distance to differ
from the cable distance read from the cable jacket. OTDR measurements
have errors typically greater than the differences you gave. However
there is another likely difference. THe OTDR measures time of flight
(test pulse out and return) to the end of the cable and calculates the
length based on the index of refraction of the fiber. Most cables have a
fiber length about 1% longer than the cable length to prevent stress on
the fiber when the cable is pulled, so your results showing the fiber
length as being shorter indicated the particular fiber in the cable has
an index of refraction that is different from the value being used by
the OTDR. This is a parameter which can be set if you know the proper
value for the fibers used in the cable.
What is Long Haul?
Q: Do we have a characterisation for long haul plant in terms of
length? How long should a fibre plant be to be called long haul? How
long is a metro and a campus fibre? Apart from length, are there any
other features required for a fibre plant to be called "long haul"?
A: There is no standard definition for “long haul,” but most people probably use the following guidelines:
Long haul: >20km
Metro: 2-20km
Campus: <2km
Premises: <500m
Again, there are no standards for the term “long haul,” so while most
long haul today is high speed (>10Gb/s) and may include WDM, some
long haul systems for special applications like electrical utility grid
monitoring may go long distances but at very low bit rates.
What's The Light Path Link
Q: Generally, how much does the distance travelled by the light
pulse (one way) differ from the length of the fibre (as measured on the
drum) There are probably differences (how ever small) between the
path of the light pulse (as it ping-pongs inside the core) and the
length of the strand.
A: In singlemode fiber, the light path length is the fiber length.
In multimode fiber it depends on the type of fiber and the individual
modes. Cable is generally made with the fiber being about 1% longer than
the cable to prevent tension on the cable elongating it and stressing
the fiber.
Reducing Attenuation
Q: What is the best way of reducing fiber optic attenuation
A: In any cable plant, the loss comes from the loss of the optical
fiber and loss at joints (splices or mated connectors) plus any stress
losses caused by bad installation of the cable. For a give cable plant,
the options are lower loss fiber or lower loss at joints. If you need
lower loss, the fiber loss is a function of the attenuation coefficient
(dB/km) times the length (km)., e.g 0.4dB/km X 10 km = 4.0 dB. So if the
length is fixed, you can try to find lower loss fiber. The loss at
joints is a fucntion of the methods of joining. Splices have very low
loss - 0.1 dB or less on singlemode fiber. slightly more on multimode
fiber. Connections can have loss from 0.1 dB to more than 0.5 dB,
depending on the type of connector chosen. On SM fiber, if connecctors
are top quality fusion splice on connectors and are properly cleaned
loss can be under 0.2 dB. Some connectors like the MPO multifiber array
connector can have losses up to 0.75 dB or more. Replacing connectors
with fusion splices is also a way to lower loss at joints. Here is a
reference to loss budgets: https://foa.org/tech/lossbudg.htm
Safe handling of fiber optics;
Q: Is there a particular glove recommended for safe handling of
FO's? I appreciate dexterity in handling may be important, but glass
shards / splinters into the skin is a significant risk as well. There
are vague references to using gloves, but looking for the preferred /
recommended type of glove.
A: Gloves are hard to use when dealing with bare fiber but thin
surgical gloves work for some people. Regular gloves are too clumsy and
some cannot stop fiber penetration. When working with cable, especially
armored cable or large cables, work gloves are good protection. You can
also get kevlar gloves that resist cuts but are flexible and cooler.
They are often advertised as kitchen gloves to prevent knife cuts.
Fault Location
Q: How do you detect fault location of fiber optics in the field? How much time it takes to detect geo-location?
A: The simple answer is an OTDR but the physical location depends on
cable plant documentation and location data like GIS data. The time
depends on the availability of data and equipment. Minutes to days?
"Certified' Cables
Q: we will be using a large number of fiber cables . We have
specific testing and reporting requirements for the cables that are
shipped to us. Each end needs to be tested in accordance with
IEC-61300-3-35, IEC 61300-1:2022 with automated analysis microscopy.
Instead of purchasing the cables and getting them certified upon
receiving them, is there an option out there that allows you to purchase
Fiber Optic Cables that have already been certified according to the
above listed requirements and come with some sort of clear proof of
that?
A: The question is the matter of definition of “certified.”
Generally it means testing to a standard as you note. Any reputable
manufacturer of these cables will supply documentation with the cables
that includes loss testing and connector inspection reports. If
the cable manufacturer does not supply that documentation, I suggest
finding another supplier. At incoming, it may be desirable to do a
AQL sampling, but testing these cables is very specialized. Not many
contractors are equipped with the special test equipment needed.
Past Questions
Calibrating Multimode Optical Power Meters
Q: Should I be calibrating multimode optical power meters with an
LED source or a laser? I know that standards call for testing multimode
loss with LEDs not lasers.
A: The reason standards call for testing MM fiber with LEDs is the
coherence of lasers leads to modal noise in the fibers and unpredictable
variations in loss. But the wide spectral width of LEDs makes
calibration less accurate than when using lasers at the correct
wavelengths. Calibrate meters with lasers, test fibers with LEDs.
Color Codes On Higher Fiber Count Cables
Q: Why do buffer tubes 13-24 repeat the colors with a black stripe
(black will have a yellow stripe)? Why does it start with black
stripe vs starting with blue? And what happens when you get to black
tube color again do you skip it?
A: Color codes are an interesting topic. The basic color codes go
back to the beginnings of multi-pair phone cables. TIA added color codes
for premises cable jackets and connectors in TIA-598 to the 1-12 color
codes for fibers and buffer tubes. FOA covers that basic system in the
online Guide here: https://foa.org/tech/ColCodes.htm
The question about the second black fiber, fiber 20, is an interesting
one. Many cables use black with a yellow stripe but Corning uses a clear
buffer with a black stripe.
https://www.corning.com/catalog/coc/documents/application-engineering-notes/AEN029.pdf
It turns out that cable manufacturers don’t all do it the same way
for higher fiber counts. Most use the 1-12 colors for fibers and the
same for buffer tubes. 12 fibers per colored buffer tube is the
tradition, but there are 24 fibers in some tubes, so it’s 1-24 colors.
Ribbon cables are another story. With the older hard ribbon designs,
cable manufacturers often printed information on each ribbon. Those are
becoming obsolete and you can’t print on the new flexible ribbons the
same way, so I’ve seen schemes to print dots and dashes on the fibers in
the ribbons!
So what we have is a standard, but standards are voluntary, so not everybody follows them!
Repairing Fiber Optic Connector Ferrules
Q: Can you take an existing fiber optic number connector and polish
the end if the end is to dirty or damaged that it cannot be cleaned via
dry or wet methods?
A: Yes, using special polishing techniques. We have a page on that in the FOA Guide: Fiber Optic Connector Repair
Grounding Armored Jumper Cables
Q: Do you need to bond/ground FTTH drop "jumpers" that ise an armored cable?
A: Yes, just like any other cable that has conductive elements. A
manufacturer of the cables Tinifiber seems to agree:
https://tinifiber.com/bonding-and-grounding-armored-fiber-cable/
I do not know of any fiber optic connectors that address this, unlike the RJ-45/modular 8-pin connectors for UTP copper.
Disoposal Of Fiber Optic Cables
Q: How does an organization dispose of unwanted fiber optic cables in an environmentally safe manner?
A: We recommend that users save some reels leftover from an installation
for possible use in restoration. If a cable break occurs, getting cable
quickly can be a problem. We also have a contact who says he can
recycle fiber optic cable:
Contact: Steve Maginnis, LD4Recycle/ CommuniCom Recycling, (Visit
website https://ld4recycle.com), sm@LD4Recycle.com, 803.371.5436
Otherwise, it is basically landfill.
Finding Buried Fiber Optic Cables Q: We have a client that needs their private fiber
located. We have been on site and confirmed the lines were
installed with no tracer wire or conductive conduit/sheathing.
Want to know if you had any suggestions on how to locate or if there was
specialized equipment that I am aware of. A: Interesting question on an important topic. The answer is a
qualified maybe. Ground penetrating radar (GPR) can sometimes spor fiber
optic cable, maybe more easily if it is in duct or conduit. It requires
someone with a lot of experince in GPR. There are companies around the
US with this capability. Then there is a new proposal using the sensing
capability of fiber with above ground vibrators. Nothing commercial is
available here as far as I know.
https://www.winlab.rutgers.edu/~hansiiii/papers/OECC_2020_Liu.pdf
Fiber Optics For Alarm Systems
Q: Can you please help me with having information about if do you know
if someone did use fiber for complete fire alarm systems, sensor, smoke
detectors, panels etc.
A: FOA checked with my technical contact at the IBEW, Jim Simpson, for this topic. Here is his answer:
NFPA does indeed have requirements for fiber in fire alarm systems. Keep
in mind, the requirements may vary depending on which edition of NFPA
72 the jurisdiction has adopted. The info below is based on the 2022
NFPA 72.
Chapter 12 covers Circuits and Pathways
Section 27.4 covers Communications Methods
Section 27.7 covers Public Cable Plant
Updating FOA Courses And Reference Materials
Q: How often are FOA courses updated? And when they get updated, what happens to those who would have done a previous version?
A: The FOA certifications are updated as needed to stay current with
technology and applications. Udates are incremental and we do not
require current certification holders to retake courses or exams. Some
of our updates are almost humorous. For example, over the last 20 years
the definitions of “hybrid” and “composite” cables have flipped twice in
several international standards. At the last time, we changed all
references to these cable types in all our materials to note the
confusion it creates, then purged all questions from our exams that
covered this confusing topic.
Fiber Optic Color Codes Reference Chart
Q: Has anyone made a fiber optic pocket reference chart that has cable
color orders, frequencies, or other commonly used info on it? A: The FOA has a page on its Online Guide that covers color codes
(https://foa.org/tech/ColCodes.htm). It is the most popular page in the
FOA Guide! It works great with a smartphone.
Free online
self-study programs on many fiber optics and
cabling topics are available at Fiber U, FOA's
online web-based training website. Free online training at
Fiber U
Just like they say in the product ads, it's new and improved!
It has been 5 years since we have updated the FOA Reference Guide To Fiber Optics,
so it is certainly time for an update. The latest version is different
enough we call it a new edition. Many of the updates are for new
technologies which are reshaping the fiber optic industry like coherent
transmission, BI fibers, etc. We've also added a section on the fiber
optic workforce which has much relevance because this book is used to
train those entering the workforce.
We've also worked on making the book more readable, adding formatting that eases reading and a new comprehensive index.
Inflation was an issue, but the price only goes up $2 to $29.95 for the paperback and $12.95 for the Kindle version.
The new edition of the FOA Reference Guide To Fiber Optics is available from Amazon and booksellers worldwide.
Online Credentials For FOA Schools And Certified Instructors
FOA switched to online credentials 1-1/2 years ago. Now every active FOA
certified fiber optic and premises cabling tech has an online
credential they can use to prove their certification, print paper
certificates and share on social media. When they add another
certification or renew, their online credential is updated.
FOA has now expanded the online credentials to its network of FOA
Approved training organizations and FOA Certified Fiber Optic
Instructors (CFOS/I and CPCT/I.) Now FOA Approved training organizations
and FOA Certified Fiber Optic Instructors can now also share their
credentials online.
Those evaluating fiber optic or premises cabling training organizations
will be able to quickly determine the status of the training
organization they are considering by following the link to the
organizations online credential. Likewise the qualifications of the
instructor are also available on their online credential which lists all
their FOA certifications.
The Types of Work Done By Fiber Techs And How It Affects Training
What is a fiber optic technician? What kinds of work
do they do? Those topics were the center of FOA discussions with the US
Department of Labor Bureau of Labor Statistics that led to the new job
category of "Telecommunications Technician" on the BLS
website. The focus of this job category is primarily the
installation and operation of the fiber optic cable plant, but one
should not forget the cable plant must be designed also as part of a
more extensive communications network.
In our discussion with the BLS analysts, we pointed out the various
stages of a fiber optic communications network project and how techs
with various knowledge and skill sets are needed and involved in every
step. Here is how FOA defines these stages of a project and the skills
of the techs. This is not unique to FOA; it's what has been traditional
at telecom companies forever.
Planning and Design: Once needs for a communications network is
established, project managers will be responsible for all the details of
the project while experienced fiber techs trained and experienced in
fiber optic network design (CFOS/D) will design the cable plant itself. (FOA Guide - Design)
Construction: Aerial cable plants may require installing new poles or
doing make-ready on existing poles and messengers. Underground
construction requires trenching and installation of ducts. In many cases
the actual construction is done by general construction workers, as the
construction work in many cases is not unique to fiber optics. Heavy
machinery is required for much of the construction work and training is
focused on safety as well as operating the machinery. (FOA Guide - Construction)
Fiber Optic Cable Installers: Once the route is prepared, the fiber
optic cable can be installed. Aerial cable installation depends on the
type of cable. Regular OSP cable, figure 8 cable and ADSS cable requires
special hardware and installation techniques so the techs must
understand the process appropriate for each cable. (FOA Guide - Installation)
Splicers: Since the beginning, fiber techs have been called
"splicers"
because that was the original job unique to fiber optics. Construction
and cable installation was not very different from earlier copper
cables, but splicing was very different. Even today, fiber techs are
often called splicers and splicing is a core skill for any fiber tech
whether they are joining cables or terminating them. (FOA Guide - Splicing)
Testers: After the fiber optic cable is installed and spliced,
it must be tested. Testing goes together with splicing since every
splice will be tested, often as soon as it is made so if it needs
redoing, it should be done before the splice closure is sealed. (FOA Guide - Testing)
Network Operators: Once the cable plant is built and the communications
equipment installed, it needs techs who know how to operate the comms
but may only know how to connect new gear or change connections on
current gear. These techs should also know how to troubleshoot systems
in an outage and either do the restoration themselves or call a tech who
can. (FOA Guide - Operation)
These categories merely define the stages of installation of a fiber
optic project. Of course there are subsets of these categories and most
fiber techs are expected to have skills and jobs that cross into
multiple groups, as FOA has defined in the KSAs (knowledge, skills and abilities) for a CFOT.
What an individual worker does differs according to their job. An
independent fiber contractor may cover every job except
operation and a FTTH subscriber installation tech may only understand
installing cables, testing and connecting equipment within the scope of
FTTH systems. A construction company may handle the trenching and even
pole setting as well as parts of the traditional fiber work.
The FOA defined its role early on to focus on educating and
certifying techs in the fiber specific skills: cable installation,
splicing, testing and restoration. FOA would like to see more schools
get into the construction phase, especially for newer techniques like
microtrenching and blowing cable, but these require large outdoor areas
for training and large investments in equipment. Most techs who learn
these processes now do it with OJT - on-the-job-training - and hopefully get OSHA
training for safety.
New In Spanish - Nuevo en español
FOA Spanish Textbook And Online Guide Updated
The FOA Spanish textbook and Online Guide on basic fiber optics has just
been updated. The new version includes all the latest updates and is
intended for use with FOA CFOT certification classes presented in
Spanish. Both paperback and Kindle versions are available. The textbook and the updated CFOT class
curriculum are available now.
Libro de texto en español y guía en línea de FOA actualizados
Se acaba de actualizar el libro de texto en español y la Guía Online de FOA
sobre fibra óptica básica. La nueva versión incluye las últimas
actualizaciones y está diseñada para usarse con las clases de
certificación FOA CFOT presentadas en español. Están disponibles
versiones de bolsillo y Kindle. El libro de texto y el plan de estudios
actualizado de la clase CFOT ya están disponibles.
FOA Adds Fiber Optic Network Design in Spanish
The FOA Design textbook and course curriculum are available in Spanish also. The FOA CFOS/D curriculum in Spanish includes the necessary materials
for an instructor to present the course in Spanish and give thCFOS/D
certification exam in Spanish. The material is available to any
FOA-approved school. For more infirmation on becoming a FOA approved
school, go here.
El libro de texto de FOA Design y el plan de estudios
del curso también están disponibles en español. El plan de estudios de
FOA CFOS/D en español incluye los materiales necesarios para que un
instructor presente el curso en español y dé el examen de certificación
CFOS/D en español. El material está disponible para cualquier escuela
aprobada por la FOA. Para obtener más confirmación sobre cómo
convertirse en una escuela aprobada por la FOA, vaya aquí.
FOA School News
FOA's roster of approved schools is growing as more organizations
recognize our expertise in workforce development and our comprehensive
support for getting new schools started. FOA has over 25 years
experience and nearly 100,000 certified fiber techs (with ~130,000
certifications). As a non-profit organization founded by the industry
specifically to develop a competent workforce, FOA provides the
consultation, curriculum and contacts to get schools started as a free
service to new schools.
Need A Fiber Optic Course Onsite? Invite an FOA School To Come To You
FOA often gets inquiries from an organization that
has personnel that needs training in fiber optics. Recent inquiries have
included contractors, a manufacturer of high-reliability products using
fiber optics and a cable manufacturer. In many cases, where there are
several people needing training, FOA can recommend a FOA Approved School
and Certified Instructor who will come to their location to teach a
class. The advantage is of course the savings in travel costs if
the class comes to you, but it also offers the opportunity to customize
the course to fit your needs, even use your equipment or work on your
components, so the training is more relevant to those taking the class.
Contact FOA to discuss the idea of a custom, on-site class to see if it will better meet your needs.
Fiber U
On-The-Job Training (OJT) Program
The
FOA Fiber U OJT program for novices combines online study at
Fiber U with OJT with mentoring by experienced
co-workers and their supervisor to help new employees
develop into experienced FOA-certified technicians.
The FOA Fiber U “OJT-To-Cert”
program includes both fiber optics
and premises cabling (copper, fiber & wireless),
so it covers techs working in both outside plant and
premises jobs.
Like other FOA
programs, the OJT-To-Cert program is free. If you
and/or your company is interested in the FOA
OJT-To-Cert program, contact FOA.
FOA
Direct Certification Program For Experienced Fiber Optic Techs
Experience Plus
Online Study At Fiber U = FOA Certification
Experienced fiber optic technicians can become FOA Certified using
their experience in fiber optics and study for the
FOA certification exams online at Fiber U.Thousands of
industry professionals have applied to the FOA
directly for certification without the need for
classroom training, based on their knowledge and
skills developed working the field. Since FOA
certifications are based on KSAs (knowledge, skills
and abilities), current techs can show the
skills and abilities required through their field
experience. FOA provides free online self-study courses at Fiber U for the knowledge
part to prepare you for FOA certification exams
which you can also take online.
If you are an experienced field tech interested in
certification, and FOA is the internationally
recognized certifying body for fiber optics, you can
find out more about the FOA Direct Certification Programhere.
If you are already a CFOT, FOA also offers many
specialist certifications you can obtain based on
your experience as a field tech. See what's
available at Fiber
U.
Fiber U "Basic Fiber
Optics" Online Self-Study Course Now In Spanish
El curso de
autoaprendizaje en línea "Fibra óptica básica" de
Fiber U ahora en español
El sitio de
aprendizaje en línea de FOA, Fiber U, tiene más de
dos docenas de cursos de autoaprendizaje gratuitos
sobre fibra óptica y cableado de instalaciones.
Como era de esperar, el tema más popular es el
curso "Fibra óptica básica", que se utiliza para
iniciarse en la fibra óptica y como curso de
preparación para realizar el examen de
certificación FOA CFOT.
Ahora el curso básico
de fibra óptica está disponible en español,
utilizando el libro de texto FOA en español, la
sección de la Guía en línea en español y la
capacidad de YouTube para traducir subtítulos de
video al español. El curso funciona exactamente
como la versión en inglés con 10 lecciones, cada
una con cuestionarios y una opción para tomar un
examen de Certificado de finalización.
Para presentar el nuevo curso de
español Fiber U, el examen Certificate of
Completion es gratuito, así que dígaselo a sus
contactos.
New Fiber U Course: Fiber Characterization
FOA has added a new course at Fiber U on Fiber Characterization. Fiber
characterization is the process for testing long fiber cable plants for
its ability for carrying high speed communications. With so many
networks now operating at 100, 200, 400 or even 800 Gb/s, fiber
characterization is important, especially on older fiber optic cable
plants.The free Fiber U Fiber Characterization course is available in two forms, as a standalone Fiber U fiber Characterization Course with its own Fiber U Certificate of Completion and as a separate Lesson in the Fiber U Fiber Optic Testing course. This course is recommended for those studying for the FOA CFOS/FC Fiber Characterization certification.
Fiber U MiniCourses: Got An Hour Or Less?
Learn Something New About Fiber Optics.
FOA
has introduced a new type of Fiber U
course, the MiniCourse, a free online course you
could take in a short time, perhaps as you ate lunch
at your desk or took a coffee break. The
topics of these courses should explain what they are
about, and these are all very important topics to
fiber optic techs.
New Fiber U MiniCourse - Fiber Optic Jargon
There is a new MiniCourse at Fiber U - Fiber Optic Jargon.
Jargon is the most important thing you need to learn when you learn
about a new technology. This short Fiber U MiniCourse is intended to
introduce you to fiber optic jargon and make learning about fiber much
easier. It's aimed at novices but is a good refresher for even
experienced techs. Fiber Optics In Communications
The courses have two components, video lectures and
readings, that are complementary. As usual there is
a self-test to allow you to check your
comprehension. As with other Fiber U courses if you
desire, you can take a short test for a Fiber U
Certificate of Completion that costs
only $10. All these free courses and many more
are available at Fiber U.
What Fiber Techs
Don't Know -
What We Learn From
FOA Certification Tests
As
FOA moves more testing over to our digital online
testing system at ClassMarker, we have access to
more data about our testing, including what
questions and topics on the tests are answered
incorrectly most often. Having this data gives us an
opportunity to evaluate the questions and how they
are stated, but more importantly it allow us to help
our instructors teach the subjects and us to change
our curriculum and online courses to emphasize these
particular topics. These are some of the topics that
we have noticed are answered incorrectly more often
in FOA and Fiber U tests.
Most of the questions missed are on testing.
1. OTDRs - particularly what information is in the
OTDR trace.
2. The difference between dB and dBm
3. Loss budgets - both the concepts and doing the
math
4. Insertion loss testing - single-ended or double
ended for testing patchcords or cable plants, how to
set 0dB references
5. Units of measure - fiber is measured in microns,
wavelengths in nanometers, etc.
At FOA, we're working to add Fiber
U MiniCourses on these topics and working with
our schools to emphasize these topics in their
classes.
If you are going to be taking a FOA certification
course or test in the near future, these topics
should be on your final exam study list.
What We Learn From Hands On Labs
We learn about students performance in hands-on labs
from the feedback of our instructors and our own
experiences too. One big problem is the use of hand
tools. Growing up today, you learn how to use
keyboards, mouses and touch screens, but decades
ago, you also learned how to use basic hand tools.
This is big enough of a problem that we're
considering adding some video lessons on basic hand
tools to prepare students for cable prep,
termination and splicing that require the use of
hand tools.
FOA offers free online self-study programs at Fiber U.
Many users are preparing for FOA certification
programs - taking courses at our schools or using
the Direct Certification program. Some of our
schools are requiring Fiber U programs as
prerequisites for their classroom courses so they
can spend more time on hands-on activities.
Publications /
Resources
Cross Reference To FOA Tech Materials
FOA has so much technical reference material, we created a cross reference guide to the textbooks,
Online Guide and Fiber U courses, all the FOA technical information.
Besides the textbooks, online Guide and Fiber U, each section of the
Guide also includes links to the 100+ FOA videos available.
To help those new to fiber optic workforce development, FOA has created a web page we call "Fiber Optic Workforce Development."
In this page, we share what we have learned about the fiber optic
workforce, who they are and how they learn their trade. We discuss what
defines a fiber optic tech and how they should be certified.
Latest FOA Book: Fiber Broadband (Paperback and Kindle)
In less than half a century,
fiber optics has revolutionized communications and to a large extent,
society in general. Broadband, what many today call high speed Internet
access, has become a necessity for everyone, not a luxury. The
technology that makes broadband possible is fiber optics, connecting the
continents, cities, and just about everybody. Even fiber to the home
(FTTH) brings broadband to hundreds of millions worldwide.
How did we get from an era when communications was making a telephone
call or sending a telegram to today’s world where every piece of
information – and misinformation – is available at the click of a mouse
or touch on a screen? How did we get from a time when a phone was
connected on copper wires to being able to connect practically anywhere
on a handheld device with more computing power than was available to
scientists and engineers only decades ago?
How does broadband work? Without fiber optics it would not work.
This book is not the typical FOA technical textbook - it is written for
anyone who wants to understand fiber broadband or fiber optics or the
Internet. It's also aimed at STEM teachers who want to include
communications technology in their classes. This book will try to
explain not only how fiber broadband works, but how
it was developed. It is intended to be an introduction to
communications technology
appropriate for a communications course at almost any level (junior
high, high school or
college,) for managers involved with broadband projects, or for anyone
who just wonders how all this stuff works.
Paperback ($12.95) and Kindle ($9.95) versions available from Amazon or most booksellers. Kindle version is in color!
More Translations of FOA Textbooks
FOA is a very international organization and it works hard to
accommodate the language needs of everyone. We have been translating our
books and website into the languages most requested, and this month, we
add two more textbook translations. We also want to thank Jerry Morla,
FOA CFOS/I instructor and Director who has been doing the recent
translations into Spanish, his native language.
Here is a listing of all the FOA textbook Translations
Spanish Editions:
Guía de Referencia de la Asociación de Fibra Óptica (FOA) Sobre Fibra
Óptica: Guía de estudio para la certificación de la FOA Amazon
La Referencia de Cableado para Predios de la FOA: Guía para Certificación de la FOA Amazon
La Asociación de Fibra Óptica Manual de Fibra Hasta el Hogar : Para
Planificadores, Gestores, Diseñadores, Instaladores y Operadores De
FTTH Amazon
Guía de Referencia de la FOA sobre Diseño de la red de fibra óptica: Guía de Estudio para la Certificación de la FOA Amazon
And the FOA Reference Guide To Fiber Optics: French Edition: Le
Guide de référence de la FOA pour la fibre optique et et
guide d'étude pour la certification FOA: Guide d'étude pour
la certification FOA Amazon Portuguese Edition: Guia de Referência sobre Fibra Óptica da FOA : Guia de Estudo para a Certificação da FOA Amazon The subject matter of these books is also translated in the FOA Guide online.
Did
you know YouTube will close caption videos in many
languages?
Sign in with Google to get translations for closed
captioning. Click on the settings icon (red arrow.)
Choose "Subtitles". English is the default
language. Click on the arrow after "English
(auto-generated) >". In the new window click on
"Auto-translate" and choose the language you
want.
FOA Loss Budget
Calculator On A Web Page 5/2020
FOA
has written many articles about loss budgets,
something everyone involved in fiber optics needs to
know and needs to know how to calculate. We recently
discovered how to get a spreadsheet ported to a Web
page, so we created this web page that calculates
loss budgets. We have an iOS loss budget app, but
with this web page, you can calculate loss budgets
from any device, smart phone, tablet, laptop, or
desktop computer that has web browsing capability.
We are continually updating the Online Reference
Guide to keep up with changes in the industry and
adding lots of new pages of technical information.
When you go to the FOA
Guide Table of Contents to see the latest
updates - look for .
The FOA has it's own
reference books for everyone working in fiber
optics - contractors, installers and end users as
well as for use as textbooks in classes at
educational institutions. They are available as
printed books or Kindle at much lower prices than
most textbooks since we self-publish and sell
online, cutting out the middlemen. Click on the
book images for more information. The Reference
Guide To Fiber Optics is also available in
Spanish, French and Portuguese. The Design book is available in English
and Spanish.
Resources For
Teachers In K-12 And Technical Schools
Teachers in all grades can introduce their
students to fiber optic technology with some
simple demonstrations. FOA has created a page for
STEM or STEAM (science, technology, engineering, arts
and math) teachers with materials appropriate to
their classes. Fiber Optic Resources For
Teachers.
Safety
On Safety
New Fiber U Course: Fiber
Optic Safety
Safety
must be the first concern of everyone involved in a fiber optic
project, including those planning, designing, managing or supervising
and of course those doing the installation.
FOA is often asked about safety for fiber optics. Some
inquiries ask where it's covered in the FOA Online Guide or textbooks or
if we have a course on safety at Fiber U. Almost all Fiber
U Courses have lessons covering safety, because
safety is important in every aspect of a fiber optic project.
This
new Fiber U course will focus on safety alone. There are two lessons in this course,
fiber optic construction and fiber optic installation. The dividing
line between the two courses is the installation of the fiber optic
cables. Construction leads up to and/or is completed when the cables are
installed. Installation begins when the fiber tech installs the cable,
then completes the splicing, termination testing and documentation. The
overlap between the two is the installation of the cables where both
construction personnel and fiber optic techs are involved.
Here is the new Fiber U "Fiber Optic Safety" self-study program. Take the course and get your certificate of completion.
The FOA is concerned about safety! FOA
considers safety an integral part of all our
programs, curriculum materials and technical
materials. We start all our textbooks and their
online versions with a section on safety in the
first chapter, like this: Before
we get started - Safety First!
The FOA is a, international non-profit
educational association chartered to promote
professionalism in fiber optics through education,
certification and standards.
Founded in 1995 by a dozen prominent fiber optics
trainers and leaders from education,industry and governmentas a professional society for fiber
optics and a source of independent certification,
the FOA has grown to now being involved in numerous
activities to educate the world about fiber optics
and certify the workers who design, build and
operate the world's fiber optic networks.
Want to know more about fiber optics? Study
for FOA certifications? Free
Self-Study Programs are on "Fiber U®."
Looking for specific information? Here's the largest
technical reference on the web: The
FOA Online Fiber Optic Reference Guide.
Free online self-study programs
on many fiber optics and cabling topics are
available at Fiber U,
FOA's online web-based training website.
The
FOA has created a store on Zazzle.com offering lots
of new logo merchandise. It has lots of versions of
shirts and other merchandise with "FOA," "Fiber U,"
"Lennie Lightwave" designs and more so you should
find something just for you! See FOA on Zazzle.
Your
Name, CFOT® - It pays to advertise!
The FOA encourages
CFOTs to use the logo on their business cards,
letterhead, truck or van, etc. and provides logo
files for that purpose. But we are also asked
about how to use the CFOT or CFOS certifications.
Easy, you can refer to yourself as "Your Name,
CFOT" or "Your Name, CFOS/T" for example.
Feel free to use the
logo and designations to promote your achievements
and professionalism!
Contact
FOA at info@thefoa.org to get logos in file format
for your use.
Privacy Policy (for
the EU GDPR): The FOA does not
use cookies or any other web tricks to gather
information on visitors to our website, nor do
we allow commercial advertising. Our website
hosts may gather traffic statistics for the
visitors to our website and our online testing
service, ClassMarker, maintains statistics of
test results. We do not release or misuse any
information on any of our members except we will
confirm FOA certifications and Fiber U
certificates of completion when requested by
appropriate persons such as employers or
personnel services. Read
the complete FOA Privacy Policy here.