Sunday, April 17, 2016

9 things mentally strong people do every day

strengths

Mental strength is just like any other skill: It takes time to develop.
In her book "13 Things Mentally Strong People Don't Do," psychotherapist Amy Morin writes that your genetics, personality, and life experiences all play a role in your mental strength.
Since we know what mentally strong people don't do, we asked Morin about the key habits they do follow.
Here are nine things mentally strong people do every day.
This is an update of an article originally written by Steven Benna.
1. They monitor their emotions.
1. They monitor their emotions.
People often assume mentally strong people suppress their emotions, Morin says, but they are actually acutely aware of them.

"They monitor their emotions throughout the day and recognize how their feelings influence their thoughts and behaviors," she says. "They know sometimes reaching their greatest potential requires them to behave contrary to how they feel."
2. They practice realistic optimism.
2. They practice optimism.
Having a positive outlook all the time is impossible, and too much negativity is counterproductive.
Mentally strong people "understand that their thoughts aren't always true, and they strive to reframe their negativity," Morin says. "They replace exaggeratedly negative thoughts with a more realistic inner monologue." 

3. They solve problems.

3. They solve problems.
To put it simply, "mentally strong people refuse to engage in unproductive activities," Morin says. Instead of sitting there complaining about your bad day at work and wishing bad things wouldn't happen, evaluate why something went wrong and fix it. Learn how to calculate risk and move forward from there, she says.
4. They practice self-compassion.

4. They practice self-compassion.
Rather than beating themselves up for making mistakes, mentally strong people practice self-compassion and speak to themselves as they would speak to a good friend, Morin says.
"They respond to their inner critic as if they were standing up to the schoolyard bully," she says. "They forgive themselves for mistakes and cheer themselves on as they work toward their goals."

5. They set healthy boundaries.

5. They set healthy boundaries.
One thing mentally strong people avoid is giving away their power. People give away their power when they lack physical and emotional boundaries, Morin says. They can establish healthy boundaries, however, by behaving assertively, she says. 
"They accept full responsibility for how they think, feel, and behave," she says, "and they refuse to let other people dictate whether they're going to have a good day or a bad day."

6. They manage their time wisely.

6. They manage their time wisely.
Mentally strong people describe time as a finite resource, Morin says. That's why they try to use it in a meaningful way. "Rather than waste energy dwelling on the past or resenting other people for taking up their time, they focus on more productive activities," she says.

7. They strive to fulfill their purpose.

7. They strive to fulfill their purpose.
Successfully fulfilling your purpose in life takes time. Mentally strong people understand this and focus on the big picture, keeping in mind that today's choices impact their future.

8. They seek to grow stronger.

8. They seek to grow stronger.
"Mentally strong people view everyday challenges as opportunities to grow stronger," Morin says. Additionally, they never settle or consider themselves strong enough. There is always room for improvement.
"They know that just like physically strong people need to work out to stay in good shape, they need to keep working out their mental muscles to prevent atrophy," she says.

9. They monitor their progress.

9. They monitor their progress.
Doing whatever it takes to improve can help you reach your greatest potential. It starts with acknowledging your weaknesses and having a "no excuses" approach.
"Rather than make excuses for their mistakes or failures, they seek explanations that will help them perform better moving forward," Morin says.

Fiber Optic Fusion Splicers and How They Work

What is a fiber optic fusion splicer?
A fiber optic fusion splicer is a device that uses an electric arc to melt two optical fibers together at their end faces, to form a single long fiber. The resulting joint, or fusion splice, permanently joins the two glass fibers end to end, so that optical light signals can pass from one fiber into the other with very little loss.

How does a fusion splicer work?
Before optical fibers can be successfully fusion-spliced, they need to be carefully stripped of their outer jackets and polymer coating, thoroughly cleaned, and then precisely cleaved to form smooth, perpendicular end faces. Once all of this has been completed, each fiber is placed into a holder in the splicer’s enclosure. From this point on, the fiber optic fusion splicer takes over the rest of the process, which involves 3 steps:

  • Alignment: Using small, precise motors, the fusion splicer makes minute adjustments to the fibers’ positions until they’re properly aligned, so the finished splice will be as seamless and attenuation-free as possible. During the alignment process, the fiber optic technician is able to view the fiber alignment, thanks to magnification by optical power meter, video camera, or viewing scope.

  • Impurity Burn-Off: Since the slightest trace of dust or other impurities can wreak havoc on a splice’s ability to transmit optical signals, you can never be too clean when it comes to fusion splicing. Even though fibers are hand-cleaned before being inserted into the splicing device, many fusion splicers incorporate an extra precautionary cleaning step into the process: prior to fusing, they generate a small spark between the fiber ends to burn off any remaining dust or moisture.

  • Fusion: After fibers have been properly positioned and any remaining moisture and dust have been burned off, it’s time to fuse the fibers ends together to form a permanent splice. The splicer emits a second, larger spark that melts the optical fiber end faces without causing the fibers’ cladding and molten glass core to run together (keeping the cladding and core separate is vital for a good splice – it minimizes optical loss). The melted fiber tips are then joined together, forming the final fusion splice. Estimated splice-loss tests are then performed, with most fiber fusion splices showing a typical optical loss of 0.1 dB or less.

With fiber optic components from industry leaders like Corning, Leviton, & Kingfisher, CableOrganizer.com is your online source for all things fiber optic. Check out our incredible selection of fiber optic patch cords, bulk cable, media converters, splice enclosuresconnectorstermination kits, consumables and testers.

©2016 CableOrganizer.com, LLC. This article may not be reproduced in part or in full without the written permission of CableOrganizer.com.
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Guide to Fiber Optics and Premise Cabling


FOA Guide Table Of Contents

FOA Guide - Table of Contents

This is the FOA's Guide To Fiber Optics & Premises Cabling. It includes almost a thousand pages of materials created by the FOA covering the basics to advanced topics on fiber optics and premises cabling.The goal of this website is educating students, users, designers, installers or anyone interested in the subject of fiber and cabling for communications systems.

Reference Topics

Directions For Using The FOA Guide

Jump To Reference Topics - click on any of the topic below to jump to the complete listing of topics on the subject in the FOA Guide.


Basic Topics

These are essentially the online versions of the FOA textbooks, complete with online topic quizzes, and you can purchase a printed or ebook version. Books 
Fiber Optics, The Basics( CFOT) 
  NEW Ahora en español! - Now in Spanish! 
  NEW  en français - Now in French too!

Premises Cabling Systems (CPCT) 
Outside Plant Fiber Optics (CFOS/O)  
Specific Topics
Applications of Fiber Optics
Fiber Optic Technology and Standards
Fiber Optic Components
Designing Fiber Optic Networks
Installation of FO Cable Plants
Testing & Troubleshooting Fiber Optic Systems
Using Fiber Optic Systems for System Owners and Operators
FOA Tech Bulletins  
FOA videos FOA YouTube Videos  

FOA Standards For Testing and Links

Self-Study Programs  

Resources For Teachers In K-12 And Technical Schools  

Additional References - FOA Books and Apps  

LINKS To Other Sources of Technical Information  

Linking And Use of The FOA Guide Materials   

Image result for Unicam termination kit pic

Directions For Using The FOA Guide
This is the FOA's Guide To Fiber Optics & Premises Cabling. It includes almost a thousand pages of materials created by the FOA covering the basics to advanced topics on fiber optics and premises cabling.The goal of this website is educating students, users, designers, installers or anyone interested in the subject of fiber and cabling for communications systems.

The Guide is intended to be used as reference material for those working in the industry, studying for FOA Certifications, teaching fiber optic training classes or giving refresher tutorials for FOA CFOTs. It includes what is essentially an online version of the FOA textbooks that you can also purchase a printed or ebook version. Books 

There is a tremendous amount of information on this website, so finding things can be a challenge. Here are some guidelines to make it easier.
If you want to look for a subject like standards, components or testing, go directly to the Table of Contents
If you want a self-study guide, go to  Fiber U.
If you are looking for a specific topic, we suggest you use our web site's Google Custom Search which will search just the FOA Online Reference Guide to find relevant materials.
This website will be constantly changing as new information is added. Suggestions regarding the content are welcomed. Send suggestions to  info@foa.org .
Printed, Kindle, iBook and iPad/iPhone App versions of the FOA textbooks are available. Details here.
Key To Using the Table of Contents
  • Some links are simple documents as webpages or PDF files formatted for printing, some are videos on YouTube and some are online PowerPoint presentations.
  •     Unmarked links are webpages
  •     The links marked (TT) are FOA Tech Topics From The FOA website.
  •     Links marked with the "YouTube" logo take you to the isted video on the FOA YouTube channel "thefoainc".
  •     The links marked VHO are "virtual hands-on" online PowerPoint presentations that provide a tutorial showing actual installation practices in a step-by-step process designed to lead the reader through a hands-on procedure exactly as it would be performed in the real world. VHO tutorials do not work well with portable web devices like iPhones.
  •     The links marked (Tutorial) are online PowerPoint presentations that provide a tutorial on the subject. Tutorials do not work well with portable web devices like iPhones.
  •     All links open in new windows, so you can close that window and return to the Table of Contents.
Sign up to receive the FOA eMail Newsletter where we keep you up to date on changes we're making in this site and the latest news in fiber optics.

Fiber Optics, The Basics (CFOT Level)  

NEW Ahora en español! - Now in Spanish!    


NEWLe Guide de référence pour la fibre optique de la FOA est maintenant disponible en français - Now in French too!.
Basics of Fiber Optics Home Page  
Basic overview   
The jargon and the technology
Fiber Optic Networks: basic applications and transmission systems 
Fiber Optic DatalinksFiber Optic Transceivers for Datalinks  
Optical Fiber
Fiber Optic Cables    VHO:   Cable preparation
Termination and splicing   Termination VHO:  Epoxy/Polish,  Anaerobic,   Hot Melt   Pre-Polished Splice termination  Singlemode termination    Splice VHO: Mech splice  Fusion: single fiber  ribbon
Fiber Optic Testing  VHO Insertion loss testing  Using an OTDR    
Network Design 
Installation
About Standards
Glossary of terms
FAQs on Fiber Optics  

See the "Fiber Optic Technology and Standards" Section below for information on networks, WDM, etc. 

FOA Video Lectures on FOA videos

FOA videos about cable preparation, termination, splicing and testing on FOA videos

*This is another website worthy of book marking. I've only shared a fragment of what this site has to offer in training as well as better means and practices.
 If you're an apprentice or still in a Bicsci class, this site is a must.

Single Mode vs. Multi-Mode Fiber Optic Cable

fiber-optic-cable-internal-structure
Fiber Optics is sending signals down hair-thin strands of glass or plastic fiber. The light is “guided” down the center of the fiber called the “core”. The core is surrounded by a optical material called the “cladding” that traps the light in the core using an optical technique called “total internal reflection.”
The core and cladding are usually made of ultra-pure glass. The fiber is coated with a protective plastic covering called the “primary buffer coating” that protects it from moisture and other damage. More protection is provided by the “cable” which has the fibers and strength members inside an outer covering called a “jacket”.
Multicom’s Fiber Optic Product Line and services also includes stocking and same day shipment of a large quantity and variety of custom-cut fiber optic cable (including loose tube, ADSS, Armored, etc), Corning fiber optics-based products and a wide selection of fiber optic transmitters,EDFAreceiversnodesaccessoriessplittersjumperspigtails, and media converters designed to meet the demanding requirements of data, video, and voice networks.

Single Mode Fiber Optic Cable

fiber-optic-cable-internal-structure-singlemode
Single Mode fiber optic cable has a small diametral core that allows only one mode of light to propagate. Because of this, the number of light reflections created as the light passes through the core decreases, lowering attenuation and creating the ability for the signal to travel faster, further. This application is typically used in long distance, higher bandwidth runs by Telcos, CATV companies, and Colleges and Universities.
Left: Single Mode fiber is usually 9/125 in construction. This means that the core to cladding diameter ratio is 9 microns to 125 microns.

Multimode Fiber Optic Cable

fiber-optic-cable-internal-structure-multimode
Multimode fiber optic cable has a large diametral core that allows multiple modes of light to propagate. Because of this, the number of light reflections created as the light passes through the core increases, creating the ability for more data to pass through at a given time. Because of the high dispersion and attenuation rate with this type of fiber, the quality of the signal is reduced over long distances. This application is typically used for short distance, data and audio/video applications in LANs. RF broadband signals, such as what cable companies commonly use, cannot be transmitted over multimode fiber.
Above: Multimode fiber is usually 50/125 and 62.5/125 in construction. This means that the core to cladding diameter ratio is 50 microns to 125 microns and 62.5 microns to 125 microns.
 

What’s Happening Inside The Multimode Fiber

Step-Index Multimode Fiber

Due to its large core, some of the light rays that make up the digital pulse may travel a direct route, whereas others zigzag as they bounce off the cladding. These alternate paths cause the different groups of light rays, referred to as modes, to arrive separately at the receiving point. The pulse, an aggregate of different modes, begins to spread out, losing its well-defined shape. The need to leave spacing between pulses to prevent overlapping limits the amount of information that can be sent. This type of fiber is best suited for transmission over short distances.

Graded-Index Multimode Fiber

Contains a core in which the refractive index diminishes gradually from the center axis out toward the cladding. The higher refractive index at the center makes the light rays moving down the axis advance more slowly than those near the cladding. Due to the graded index, light in the core curves helically rather than zigzag off the cladding, reducing its travel distance. The shortened path and the higher speed allow light at the periphery to arrive at a receiver at about the same time as the slow but straight rays in the core axis. The result: digital pulse suffers less dispersion. This type of fiber is best suited for local-area networks.
*I'll follow up with fiber optic terminating and fusion splicing.

Saturday, April 16, 2016

Are you a traveler?

Here's a blog that I'd like to share once again.
Great tips on "how to"...

*I'll be back.

Tip for expats

 If you're country hopping as I am, you may wish to invest the $100 and change to get a dual SIM cell phone.
 This allows you to have a valid number at your ID residence along with local dialing via a Movistar or similar secondary SIM anywhere in the world.

 Keeping up with plans and payment dates can be a chore. An AT&T GoPhone SIM allows me to pay $20 when I return to the states each 6 months to a year. (Some may be required to keep $20 in the account yet ask for a 1 year extension)
 Movistar SIM's are a no brainer.

 I'll get back to blogging within 48 hours, thanks and have a great weekend.

*I went with a BLU, great phones, big screen, inexpensive and durable.

Thursday, April 14, 2016

On the move

After 2 years on and off In various cities in Nicaragua, I'm headed home to FL for two weeks.








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