https://www.fiberopticvideos.com/category.php?cat=fiber-optic-cables Networking, Fiber, and Telecom Videos https://www.fiberopticvideos.com/watch.php?vid=0ec08504f

Loose-tube fiber generally consists of 12 strands of fiber, but can range anywhere as low as 6, all the way up to 244 strands. Loose tube cables can be either dielectric or optionally armored. The modular buffer-tube design permits easy drop-off of groups of fibers at intermediate points, without interfering with other protected buffer tubes being routed to other locations. The loose-tube design also helps in the identification and administration of fibers in the system.

In a loose-tube cable design, color-coded plastic buffer tubes house and protect optical fibers. An optional gel filling compound impedes water penetration. Excess fiber length (relative to buffer tube length) insulates fibers from stresses of installation and environmental loading. Buffer tubes are stranded around a dielectric or steel central member, which serves as an anti-buckling element.

The cable core, typically uses aramid yarn, as the primary tensile strength member. The outer polyethylene jacket is extruded over the core. If armoring is required, a corrugated steel tape is formed around a single jacketed cable with an additional jacket extruded over the armor.]]> Mon, 31 Jul 2017 18:14:16 +0000 What Is Fiber Optic Cable Part 1: Loose Tube Indoor/Outdoor <![CDATA[<p><img src="https://www.fiberopticvideos.com/uploads/thumbs/0ec08504f-1.jpg" /></p>Loose-tube fiber generally consists of 12 strands of fiber, but can range anywhere as low as 6, all the way up to 244 strands. Loose tube cables can be either dielectric or optionally armored. The modular buffer-tube design permits easy drop-off of groups of fibers at intermediate points, without interfering with other protected buffer tubes being routed to other locations. The loose-tube design also helps in the identification and administration of fibers in the system.<br /> <br /> In a loose-tube cable design, color-coded plastic buffer tubes house and protect optical fibers. An optional gel filling compound impedes water penetration. Excess fiber length (relative to buffer tube length) insulates fibers from stresses of installation and environmental loading. Buffer tubes are stranded around a dielectric or steel central member, which serves as an anti-buckling element.<br /> <br /> The cable core, typically uses aramid yarn, as the primary tensile strength member. The outer polyethylene jacket is extruded over the core. If armoring is required, a corrugated steel tape is formed around a single jacketed cable with an additional jacket extruded over the armor.]]> https://www.fiberopticvideos.com/watch.php?vid=0ec08504f https://www.fiberopticvideos.com/watch.php?vid=05687c84a

OCC is committed to designing and manufacturing fiber optic cable and connectivity solutions that support sophisticated communication systems even those in harsh and unyielding locations.]]> Mon, 31 Jul 2017 18:14:16 +0000 How It's Made: Harsh Environment Fiber Optic Cable <![CDATA[<p><img src="https://www.fiberopticvideos.com/uploads/thumbs/05687c84a-1.jpg" /></p>OCC is committed to designing and manufacturing fiber optic cable and connectivity solutions that support sophisticated communication systems even those in harsh and unyielding locations.]]> https://www.fiberopticvideos.com/watch.php?vid=05687c84a https://www.fiberopticvideos.com/watch.php?vid=8a2373469

Eric Carstenson, Nebraska Telecommunications President, works for Hartelco in July by helping the underground construction crew bury fiber optic cable to farmhouses in the rolling hills of rural Cedar County near Hartington NE.]]> Mon, 31 Jul 2017 18:14:16 +0000 NTA's Dirty Job - Laying Fiber Optic Cable <![CDATA[<p><img src="https://www.fiberopticvideos.com/uploads/thumbs/8a2373469-1.jpg" /></p>Eric Carstenson, Nebraska Telecommunications President, works for Hartelco in July by helping the underground construction crew bury fiber optic cable to farmhouses in the rolling hills of rural Cedar County near Hartington NE.]]> https://www.fiberopticvideos.com/watch.php?vid=8a2373469 https://www.fiberopticvideos.com/watch.php?vid=759fc6aa6

This video shows how to establish trenches for ducting systems along railroads.

Denmark is currently implementing a large-scale infrastructure programme for the modernization of the railway lines several places throughout the country.

Being a producer of ducting systems for network communication it was a natural thing for us to participate.

See this video and see how a skilled team from contractor ARKIL A/S handles the trench work and the laying out of the ducting system from GM Plast A/S.

Thanks for letting us be a part of this:

www.arkil.dk

For questions or enquires please feel free to contact us:

www.gm-plast.dk
gm@gm-plast.dk]]> Mon, 31 Jul 2017 18:14:16 +0000 Fiber Optic Cable Deployment Along Railroad <![CDATA[<p><img src="https://www.fiberopticvideos.com/uploads/thumbs/759fc6aa6-1.jpg" /></p>This video shows how to establish trenches for ducting systems along railroads.<br /> <br /> Denmark is currently implementing a large-scale infrastructure programme for the modernization of the railway lines several places throughout the country. <br /> <br /> Being a producer of ducting systems for network communication it was a natural thing for us to participate. <br /> <br /> See this video and see how a skilled team from contractor ARKIL A/S handles the trench work and the laying out of the ducting system from GM Plast A/S.<br /> <br /> Thanks for letting us be a part of this:<br /> <br /> www.arkil.dk<br /> <br /> For questions or enquires please feel free to contact us:<br /> <br /> www.gm-plast.dk<br /> gm@gm-plast.dk]]> https://www.fiberopticvideos.com/watch.php?vid=759fc6aa6 https://www.fiberopticvideos.com/watch.php?vid=9f3ccded0

Jameson Aerial Buddy used by JBL Communications during installation of ADSS fiber optic cable in Mountain City, TN. Installers were impressed by cable capture that prevented pull line or cable from jumping off wheel, light weight, and durability.
WWW.JAMESONLLC.COM
#AerialBuddy #Jameson #Sheave #Fiberopticcable #Aerial Buddy]]> Mon, 31 Jul 2017 18:14:16 +0000 Jameson Aerial Buddy Installing ADSS Fiber Optic Cable <![CDATA[<p><img src="https://www.fiberopticvideos.com/uploads/thumbs/9f3ccded0-1.jpg" /></p>Jameson Aerial Buddy used by JBL Communications during installation of ADSS fiber optic cable in Mountain City, TN. Installers were impressed by cable capture that prevented pull line or cable from jumping off wheel, light weight, and durability.<br /> WWW.JAMESONLLC.COM<br /> #AerialBuddy #Jameson #Sheave #Fiberopticcable #Aerial Buddy]]> https://www.fiberopticvideos.com/watch.php?vid=9f3ccded0 https://www.fiberopticvideos.com/watch.php?vid=f152cb265

On this episode of How It's Made, we learn all about the manufacturing process that goes into making fiber optic cables.]]> Mon, 31 Jul 2017 18:14:15 +0000 How It's Made - Fiber Optic Cables <![CDATA[<p><img src="https://www.fiberopticvideos.com/uploads/thumbs/f152cb265-1.jpg" /></p>On this episode of How It's Made, we learn all about the manufacturing process that goes into making fiber optic cables.]]> https://www.fiberopticvideos.com/watch.php?vid=f152cb265 https://www.fiberopticvideos.com/watch.php?vid=a7ec51df0

Learn the different types of Fiber Cables: :20
Learn to terminate Breakout Fiber: 02:51
Learn to terminate Distribution Fiber: 15:13]]> Mon, 31 Jul 2017 18:14:15 +0000 How To Terminate Breakout And Distribution Fiber Optic Cables <![CDATA[<p><img src="https://www.fiberopticvideos.com/uploads/thumbs/a7ec51df0-1.jpg" /></p>Learn the different types of Fiber Cables: :20<br /> Learn to terminate Breakout Fiber: 02:51<br /> Learn to terminate Distribution Fiber: 15:13]]> https://www.fiberopticvideos.com/watch.php?vid=a7ec51df0 https://www.fiberopticvideos.com/watch.php?vid=85b49a976

Your internet isn't just underwater. It's also covered in Vaseline.


Map by TeleGeography: http://www.submarinecablemap.com/

Subscribe to our channel! http://goo.gl/0bsAjO

The internet is known to pulse through fiber optic cables and cell phone towers, but 99% of high-speed international information is transferred under the sea. How long has this been happening? Underwater cables delivering information isn't a novel idea — the first Transatlantic cable was laid in 1858—undersea cables have been around since the telegraph.


Check out our full video catalog: http://goo.gl/IZONyE
Follow Vox on Twitter: http://goo.gl/XFrZ5H
Or on Facebook: http://goo.gl/U2g06o]]> Mon, 31 Jul 2017 18:14:15 +0000 Thin Underwater Cables Hold The Internet. See A Map Of Them All. <![CDATA[<p><img src="https://www.fiberopticvideos.com/uploads/thumbs/85b49a976-1.jpg" /></p>Your internet isn't just underwater. It's also covered in Vaseline.<br /> <br /> <br /> Map by TeleGeography: http://www.submarinecablemap.com/<br /> <br /> Subscribe to our channel! http://goo.gl/0bsAjO<br /> <br /> The internet is known to pulse through fiber optic cables and cell phone towers, but 99% of high-speed international information is transferred under the sea. How long has this been happening? Underwater cables delivering information isn't a novel idea — the first Transatlantic cable was laid in 1858—undersea cables have been around since the telegraph.<br /> <br /> <br /> Check out our full video catalog: http://goo.gl/IZONyE<br /> Follow Vox on Twitter: http://goo.gl/XFrZ5H<br /> Or on Facebook: http://goo.gl/U2g06o]]> https://www.fiberopticvideos.com/watch.php?vid=85b49a976 https://www.fiberopticvideos.com/watch.php?vid=8efcb93e9

Recently there was a disruption on the SEA-ME-WE 4 cable connecting SEACOM to London through the Mediterranean Sea.

Due to this we had various questions asking us exactly how undersea cables are laid. This short video explains the process SEACOM took while laying the undersea cable.]]> Mon, 31 Jul 2017 18:14:15 +0000 How Undersea Cables Are Laid <![CDATA[<p><img src="https://www.fiberopticvideos.com/uploads/thumbs/8efcb93e9-1.jpg" /></p>Recently there was a disruption on the SEA-ME-WE 4 cable connecting SEACOM to London through the Mediterranean Sea.<br /> <br /> Due to this we had various questions asking us exactly how undersea cables are laid. This short video explains the process SEACOM took while laying the undersea cable.]]> https://www.fiberopticvideos.com/watch.php?vid=8efcb93e9 https://www.fiberopticvideos.com/watch.php?vid=40b0cb194

A short documentary on how the iSquared cabling division installs the fibre optic cables at UCT. From the Bremner Building Middle Campus to Main road, a 1.4km pull.]]> Mon, 31 Jul 2017 18:14:15 +0000 ISquared Installing Fibre Optic Cables At University Of Cape Town (UCT) <![CDATA[<p><img src="https://www.fiberopticvideos.com/uploads/thumbs/40b0cb194-1.jpg" /></p>A short documentary on how the iSquared cabling division installs the fibre optic cables at UCT. From the Bremner Building Middle Campus to Main road, a 1.4km pull.]]> https://www.fiberopticvideos.com/watch.php?vid=40b0cb194 https://www.fiberopticvideos.com/watch.php?vid=c5deab75f

How to identify single-mode and multimode fibers within a hybrid fiber optic cable.]]> Mon, 31 Jul 2017 18:14:15 +0000 Identifying Fibers On Hybrid Cables <![CDATA[<p><img src="https://www.fiberopticvideos.com/uploads/thumbs/c5deab75f-1.jpg" /></p>How to identify single-mode and multimode fibers within a hybrid fiber optic cable.]]> https://www.fiberopticvideos.com/watch.php?vid=c5deab75f https://www.fiberopticvideos.com/watch.php?vid=726319e22

This animation depicts a standard repair to an undersea fiber optic cable system, performed by one of TE SubCom's cable ships.]]> Mon, 31 Jul 2017 15:53:06 +0000 TE SubCom - Repair Animation - Undersea Fiber Optic Cable System <![CDATA[<p><img src="https://www.fiberopticvideos.com/uploads/thumbs/726319e22-1.jpg" /></p>This animation depicts a standard repair to an undersea fiber optic cable system, performed by one of TE SubCom's cable ships.]]> https://www.fiberopticvideos.com/watch.php?vid=726319e22 https://www.fiberopticvideos.com/watch.php?vid=f86bab610

http://www.giga-net.co.uk Terminating fibre optic SC, ST and LC connectors using the Giganet cold-cure fiber optic cold-cure and polishing method.]]> Mon, 31 Jul 2017 15:53:06 +0000 Fiber Optic Termination- How To Terminate Fiber Optic Cable Using Giganet Fibre Optic Connectors <![CDATA[<p><img src="https://www.fiberopticvideos.com/uploads/thumbs/f86bab610-1.jpg" /></p>http://www.giga-net.co.uk Terminating fibre optic SC, ST and LC connectors using the Giganet cold-cure fiber optic cold-cure and polishing method.]]> https://www.fiberopticvideos.com/watch.php?vid=f86bab610 https://www.fiberopticvideos.com/watch.php?vid=df1142900

HUBER+SUHNER Brazil produces the most recent and innovative fiber optic cables and cable systems in a new manufacturing plant in Caçapava, near São Paulo. With the latest manufacturing equipment and the high degree of innovation HUBER+SUHNER is able to optimize its products regularly and thus sup-plying its customers with up-to-date and innovative fiber optic cables and cable systems, efficient and reliable.]]> Mon, 31 Jul 2017 15:53:06 +0000 Fiber Optic Cables Made In Brazil <![CDATA[<p><img src="https://www.fiberopticvideos.com/uploads/thumbs/df1142900-1.jpg" /></p>HUBER+SUHNER Brazil produces the most recent and innovative fiber optic cables and cable systems in a new manufacturing plant in Caçapava, near São Paulo. With the latest manufacturing equipment and the high degree of innovation HUBER+SUHNER is able to optimize its products regularly and thus sup-plying its customers with up-to-date and innovative fiber optic cables and cable systems, efficient and reliable.]]> https://www.fiberopticvideos.com/watch.php?vid=df1142900 https://www.fiberopticvideos.com/watch.php?vid=ae9d8155f

http://booredatwork.com/2013/01/25/corning-fiber-optic-usb-3-0-thunderbolt-cables/

Twitter: http://twitter.com/booredatwork

Twitter- http://twitter.com/Say2words

Twitter- http://twitter.com/booredfemme

Facebook: http://www.facebook.com/pages/Booredatwork/211909969459

Google+: https://plus.google.com/b/107460054073872296956

Empireavenue: http://www.empireavenue.com/boored

Pinterest- http://pinterest.com/booredatwork/

The cables are compatible with Thunderbolt™ and USB 3.0, the two fastest computer and peripheral connectivity protocols.With copper connectivity at its length limits and new applications driving increased bandwidth usage, users are demanding longer cables with innovative footprints. USB 3.Optical™ and Thunderbolt Optical Cables by Corning significantly extend the data transmission range past the length limits of copper-based cables. Optical Cables by Corning are significantly longer, 50 percent smaller, 80 percent lighter, and still stronger than comparable copper cables.

USB 3.Optical Cables by Corning can reach lengths of up to 30 meters, and Thunderbolt Optical Cables by Corning can reach lengths up to 100 meters, longer than the length of a football field. The light weight and flexibility of the cables also make them easy to route in the work space and convenient to pack and transport. A unique cable design and Corning® ClearCurve® VSDN® optical fiber allow the glass-based Optical Cables by Corning to be as durable as comparable copper cables.

The Optical Thunderbolt Cables provide a dual channel, bi-directional 10 Gb/s data rate with data and video on a single cable, allowing the transfer of a full HD movie in fewer than 30 seconds. The ultra-slim "zero-bend" radius cable has an electrically isolated noise-reducing design, can "daisy-chain" up to six Thunderbolt devices at the same time, and is "hot swappable," meaning it can be attached and removed without interruption to the system.

The USB 3.Optical Cables provide a 5 Gb/s data transfer rate and are compatible with USB 3.0 and USB 2.0 devices* allowing the extension of USB device reach without additional power supply. The ultra-slim, "zero-bend" radius cable has built-in overcurrent protection and is also hot swappable.]]> Mon, 31 Jul 2017 15:53:06 +0000 Corning Fiber Optic USB 3.0 & ThunderBolt Cables <![CDATA[<p><img src="https://www.fiberopticvideos.com/uploads/thumbs/ae9d8155f-1.jpg" /></p>http://booredatwork.com/2013/01/25/corning-fiber-optic-usb-3-0-thunderbolt-cables/<br /> <br /> Twitter: http://twitter.com/booredatwork<br /> <br /> Twitter- http://twitter.com/Say2words<br /> <br /> Twitter- http://twitter.com/booredfemme<br /> <br /> Facebook: http://www.facebook.com/pages/Booredatwork/211909969459<br /> <br /> Google+: https://plus.google.com/b/107460054073872296956<br /> <br /> Empireavenue: http://www.empireavenue.com/boored<br /> <br /> Pinterest- http://pinterest.com/booredatwork/<br /> <br /> The cables are compatible with Thunderbolt™ and USB 3.0, the two fastest computer and peripheral connectivity protocols.With copper connectivity at its length limits and new applications driving increased bandwidth usage, users are demanding longer cables with innovative footprints. USB 3.Optical™ and Thunderbolt Optical Cables by Corning significantly extend the data transmission range past the length limits of copper-based cables. Optical Cables by Corning are significantly longer, 50 percent smaller, 80 percent lighter, and still stronger than comparable copper cables.<br /> <br /> USB 3.Optical Cables by Corning can reach lengths of up to 30 meters, and Thunderbolt Optical Cables by Corning can reach lengths up to 100 meters, longer than the length of a football field. The light weight and flexibility of the cables also make them easy to route in the work space and convenient to pack and transport. A unique cable design and Corning® ClearCurve® VSDN® optical fiber allow the glass-based Optical Cables by Corning to be as durable as comparable copper cables.<br /> <br /> The Optical Thunderbolt Cables provide a dual channel, bi-directional 10 Gb/s data rate with data and video on a single cable, allowing the transfer of a full HD movie in fewer than 30 seconds. The ultra-slim "zero-bend" radius cable has an electrically isolated noise-reducing design, can "daisy-chain" up to six Thunderbolt devices at the same time, and is "hot swappable," meaning it can be attached and removed without interruption to the system.<br /> <br /> The USB 3.Optical Cables provide a 5 Gb/s data transfer rate and are compatible with USB 3.0 and USB 2.0 devices* allowing the extension of USB device reach without additional power supply. The ultra-slim, "zero-bend" radius cable has built-in overcurrent protection and is also hot swappable.]]> https://www.fiberopticvideos.com/watch.php?vid=ae9d8155f https://www.fiberopticvideos.com/watch.php?vid=8e642d6b0

This Is Discovery Network Property.
This video recorded from Discovery Science Channel.
For Educational Purpose.
To Know How Fiber Optic Cable Are Made.]]> Mon, 31 Jul 2017 15:53:06 +0000 How It's Made : Fiber Optic Cable By Discovery Science Hindi <![CDATA[<p><img src="https://www.fiberopticvideos.com/uploads/thumbs/8e642d6b0-1.jpg" /></p>This Is Discovery Network Property.<br /> This video recorded from Discovery Science Channel.<br /> For Educational Purpose.<br /> To Know How Fiber Optic Cable Are Made.]]> https://www.fiberopticvideos.com/watch.php?vid=8e642d6b0 https://www.fiberopticvideos.com/watch.php?vid=0407e1cd2

This is an excellent video showing how to clean fiber optic cable, with specific application for the wireless industry where fiber optic cable is installed on towers and other cell sites.

Alliance recommends that any telecommunications contractor installing fiber optic cable at a wireless site inspect the cable, clean it and re-inspect always before connecting a cable. The majority of fiber optic cable issues are because of "dirty" connectors. Simple cleaning procedures can save you a lot of time and money!

Alliance Corporation designs and manufactures custom fiber optic assemblies for the wireless telecommunications industry. We also sell off-the-shelf fiber optic patch cables and everything related to a wireless installation including hoisting grips, coaxial cable, and more. Contact us for a quote on your project.

Learn more about Alliance Fiber Solutions here: http://www.alliancecorporation.ca/fiber-solutions/custom-remote-fiber-feeder-cable-solutions]]> Mon, 31 Jul 2017 15:53:06 +0000 How To Clean Fiber Optic Cable <![CDATA[<p><img src="https://www.fiberopticvideos.com/uploads/thumbs/0407e1cd2-1.jpg" /></p>This is an excellent video showing how to clean fiber optic cable, with specific application for the wireless industry where fiber optic cable is installed on towers and other cell sites. <br /> <br /> Alliance recommends that any telecommunications contractor installing fiber optic cable at a wireless site inspect the cable, clean it and re-inspect always before connecting a cable. The majority of fiber optic cable issues are because of "dirty" connectors. Simple cleaning procedures can save you a lot of time and money!<br /> <br /> Alliance Corporation designs and manufactures custom fiber optic assemblies for the wireless telecommunications industry. We also sell off-the-shelf fiber optic patch cables and everything related to a wireless installation including hoisting grips, coaxial cable, and more. Contact us for a quote on your project.<br /> <br /> Learn more about Alliance Fiber Solutions here: http://www.alliancecorporation.ca/fiber-solutions/custom-remote-fiber-feeder-cable-solutions]]> https://www.fiberopticvideos.com/watch.php?vid=0407e1cd2 https://www.fiberopticvideos.com/watch.php?vid=fd47fb7ef

http://www.discount-low-voltage.com/Tools-Testers/Fiber-Optics-Test-Kits/KIT-Z2S-D285SC I got tired of all the wizards and scientist over explaining every detail when it comes to testing fiber, so I grabbed a light source and power meter out of inventory and made a fiber link with a couple of wall mount boxes so I can easily show you how to do it.

Here's some words from the manufacture regarding this fiber test kit - The Silicon ZOOM II / Dual OWL 850 Test Kit is ideal for LAN managers and installers who need to do simple attenuation tests on their multimode networks.

The Silicon ZOOM II (Zeroed Output Optical Meter) is an economical fiber optic power meter designed to provide accurate testing of multimode fiber cables at 850nm wavelength. The 4-digit 7-segment LCD display shows power readings with a resolution of 0.01dB, power units in dBm, dB, or uW, and battery power level. The Silicon ZOOM II comes configured with a 2.5mm universal port for connection to SC, ST, and other connector types that have a 2.5mm ferrule.

Fiber Optic Performance Standards:

50/125 Fiber @ 850 wavelength 3.5 dB/km - Bandwidth 500 (OM2), 2000 (OM3), 3500 (OM4)

50/125 Fiber @ 1300 1.5 dB/km - Bandwidth 500

62.5/125 Fiber @ 850 3.5 dB/km
62.5/125 Fiber @ 1300 1.5 dB/km

9/125 premise @1310 1.0 dB/km @1550 1.0 dB

9/125 Outside Plant @1310 and 1550 0.5 dB/km]]> Mon, 31 Jul 2017 15:53:06 +0000 How To Test The Insertion Loss Of Fiber Optic Cable <![CDATA[<p><img src="https://www.fiberopticvideos.com/uploads/thumbs/fd47fb7ef-1.jpg" /></p>http://www.discount-low-voltage.com/Tools-Testers/Fiber-Optics-Test-Kits/KIT-Z2S-D285SC I got tired of all the wizards and scientist over explaining every detail when it comes to testing fiber, so I grabbed a light source and power meter out of inventory and made a fiber link with a couple of wall mount boxes so I can easily show you how to do it.<br /> <br /> Here's some words from the manufacture regarding this fiber test kit - The Silicon ZOOM II / Dual OWL 850 Test Kit is ideal for LAN managers and installers who need to do simple attenuation tests on their multimode networks.<br /> <br /> The Silicon ZOOM II (Zeroed Output Optical Meter) is an economical fiber optic power meter designed to provide accurate testing of multimode fiber cables at 850nm wavelength. The 4-digit 7-segment LCD display shows power readings with a resolution of 0.01dB, power units in dBm, dB, or uW, and battery power level. The Silicon ZOOM II comes configured with a 2.5mm universal port for connection to SC, ST, and other connector types that have a 2.5mm ferrule.<br /> <br /> Fiber Optic Performance Standards:<br /> <br /> 50/125 Fiber @ 850 wavelength 3.5 dB/km - Bandwidth 500 (OM2), 2000 (OM3), 3500 (OM4)<br /> <br /> 50/125 Fiber @ 1300 1.5 dB/km - Bandwidth 500<br /> <br /> 62.5/125 Fiber @ 850 3.5 dB/km <br /> 62.5/125 Fiber @ 1300 1.5 dB/km<br /> <br /> 9/125 premise @1310 1.0 dB/km @1550 1.0 dB<br /> <br /> 9/125 Outside Plant @1310 and 1550 0.5 dB/km]]> https://www.fiberopticvideos.com/watch.php?vid=fd47fb7ef https://www.fiberopticvideos.com/watch.php?vid=917cd4f13

Transatlantic Cable - Documentary]]> Mon, 31 Jul 2017 15:53:06 +0000 Transatlantic Cable - Documentary <![CDATA[<p><img src="https://www.fiberopticvideos.com/uploads/thumbs/917cd4f13-1.jpg" /></p>Transatlantic Cable - Documentary]]> https://www.fiberopticvideos.com/watch.php?vid=917cd4f13 https://www.fiberopticvideos.com/watch.php?vid=6ae250cbf

http://www.LANshack.com - Fiber Optic Tutorial - Chapter 11 - Testing the Fiber Optic Cable from End to End
Hi this is Tony Casazza from LANshack.com and I would like to introduce you to what I consider to be a very comprehensive and useful video on installing a Pre-Terminated Fiber Optic cable in a commercial building. A while back I was asked to install a fiber optic cable in a local High School. Their goal was for me to install a cable that would allow them to broadcast a live video feed from the High School Auditorium to their Municipal TV channel. Years earlier, a fiber optic cable had been run from the TV studio in the Municipal Building to a Fiber Optic Termination box located on the West end of the High School. In order to get the live video feed to work, we needed to extend the fiber connection in the High School that originated from the TV studio to the camera location in the auditorium that was about 400 feet away.
So my first task was to verify the connection from the TV studio in the Municipal Building to the Fibers terminated in the high school. Once this was done, we installed a singlemode fiber inside of an innerduct from the Fiber termination box to the camera location in the Auditorium. Once it was connected we tested the connection from end to end and used it to transmit a video feed to live TV.

See the entire video series in a playlist: http://www.youtube.com/watch?v=QXLlvB5HMqs&

In this video series, you will learn how to
Trace and identify an existing Singlemode fiber that was run between two buildings
Use Fishtape to snake a pullstring across a dropped ceiling
Use the installed pullstring to install an innerduct across a dropped ceiling
Pull a Pre-Terminated Fiber through the innerduct
Extend the fiber in the 2nd building using the newly installed Fiber Optic cable
Test and connect the end to end connection]]> Mon, 31 Jul 2017 15:53:06 +0000 Fiber Optic Tutorial Chapter 11: How To Test The Fiber Optic Cable From End To End (Completion) <![CDATA[<p><img src="https://www.fiberopticvideos.com/uploads/thumbs/6ae250cbf-1.jpg" /></p>http://www.LANshack.com - Fiber Optic Tutorial - Chapter 11 - Testing the Fiber Optic Cable from End to End<br /> Hi this is Tony Casazza from LANshack.com and I would like to introduce you to what I consider to be a very comprehensive and useful video on installing a Pre-Terminated Fiber Optic cable in a commercial building. A while back I was asked to install a fiber optic cable in a local High School. Their goal was for me to install a cable that would allow them to broadcast a live video feed from the High School Auditorium to their Municipal TV channel. Years earlier, a fiber optic cable had been run from the TV studio in the Municipal Building to a Fiber Optic Termination box located on the West end of the High School. In order to get the live video feed to work, we needed to extend the fiber connection in the High School that originated from the TV studio to the camera location in the auditorium that was about 400 feet away. <br /> So my first task was to verify the connection from the TV studio in the Municipal Building to the Fibers terminated in the high school. Once this was done, we installed a singlemode fiber inside of an innerduct from the Fiber termination box to the camera location in the Auditorium. Once it was connected we tested the connection from end to end and used it to transmit a video feed to live TV.<br /> <br /> See the entire video series in a playlist: http://www.youtube.com/watch?v=QXLlvB5HMqs&<br /> <br /> In this video series, you will learn how to <br /> Trace and identify an existing Singlemode fiber that was run between two buildings<br /> Use Fishtape to snake a pullstring across a dropped ceiling<br /> Use the installed pullstring to install an innerduct across a dropped ceiling<br /> Pull a Pre-Terminated Fiber through the innerduct<br /> Extend the fiber in the 2nd building using the newly installed Fiber Optic cable<br /> Test and connect the end to end connection]]> https://www.fiberopticvideos.com/watch.php?vid=6ae250cbf