La llegada de FTC a Puerto Rico es un paso significativo para el desarrollo y la promoción de la tecnología y la innovación entre los jóvenes de la isla. Con competencias locales programadas para comenzar este mismo año, se espera la participación de al menos 12 equipos de robótica procedentes de diferentes regiones de Puerto Rico.

¿Nuevo Equipo en Aguadilla!

Uno de los equipos pioneros en este emocionante capítulo de la robótica en Puerto Rico son “The Borikengineers” de la Escuela Benito Cerezo Vázquez de Aguadilla. Este equipo, conocido por su dedicación y pasión por la robótica, ha sido fundamental en el impulso inicial para que FTC llegue a la isla. Ahora, The Borikengineers celebran un logro aún mayor: el crecimiento de su equipo hasta el punto de poder establecer un segundo equipo, Borikengineers 2.

El equipo original, Borikengineers 1, asumirá el papel de mentor para el recién formado Borikengineers 2. Esta dinámica de “equipo hermano” no solo demuestra el crecimiento y la fortaleza de la comunidad de robótica en Puerto Rico, sino también el compromiso de los equipos más experimentados de apoyar y guiar a los nuevos talentos.

Este desarrollo no solo es un logro para los equipos individuales involucrados, sino también para la comunidad en general. La llegada de FTC a Puerto Rico no solo fomentará la competencia y la innovación en el campo de la robótica, sino que también abrirá nuevas oportunidades educativas y profesionales para los jóvenes interesados en la ciencia, la tecnología, la ingeniería y las matemáticas (STEM).

Con este nuevo capítulo en la historia de la robótica en Puerto Rico, se espera que más jóvenes se inspiren y se involucren en disciplinas relacionadas con la tecnología. ¡El futuro de la robótica en la isla es prometedor, y estamos emocionados de ver cómo se desarrolla este emocionante viaje en los próximos años!

The post ¡First Tech Challenge llega a Puerto Rico! Un hito para la robótica en la isla appeared first on The Borikengineers (FTC Team #20380).

Our mentor mentioned the coiled cables that were used on telephones in the past. That would be a good solution, but after checking the FTC rules, the servo cable must be either the same wire gauge that the servo comes with, or gauge 22. We could not source a coiled telephone cable with documented wire gauge. But we found a method online for creating coiled cables out of regular cable that involves heating the cable while it is wrapped around a wooden dowel. However, since our cable is going to be repeatedly extended, we modified the process a little bit. This post serves as documentation of the process, and we are sharing it so that it is useful to other First Tech Challenge (FTC) teams. Here is the process we followed:

Materials:

• Gauge 22 stranded cable (FTC required gauge for servos). 8 Feet will result in about 2 ft of coiled cable, depending on the rod diameter. We used 4 copper wire shielded and grounded cable. We sourced it locally, but it would be better to use a 3 wire cable instead. This is probably a good choice from Amazon.com: Striveday 22 AWG 4 conductor wire Power Cable Audio Cable Signal Line (Red & Black & yellow & white) 33ft UL certification : Electronics
• Heat shrinking tubes a little bit bigger than the cable diameter.
• Heat shrinking tube a little bit bigger than the individual wires.
• Any kind of rod or wooden dowel, as long as the end length of the coiled cable.
• Hair dryer, or heat gun (better).
• 1 Servo extension cable (short).
• Soldering iron
• Solder
• Multimeter

Process:

1. Insert the cable in two 4 feet long heat shrinking tubes.
   • We used two 4 ft tubes, so we had to add an overlap at the middle by heating one tube a little bit so that it shrinks and can be inserted into the other.
   • Inserting the tubes is not an easy task. The longer the heat shrinking tube, the better the results. Also, using a heat shrinking tube that is just bigger than the cable results in a tighter coil.
   • Leave the ends of the cable free (no heat shrink tube).
2. Wrap the cable around the rod. We used an aluminum rod about 1/2 in.
3. Tape the ends so that it does not uncoil.
   • We noticed that even though the initial wrapping was very tight, as the tubes start to shrink it loses some tightness. It may be better to hold only one end and try to keep the coil tight on the other end while heat is applied.
4. Apply heat to the cable evenly to shrink the tubes. Take your time in this step and make sure the whole length of the cable shrinks. Rotate the rod to ensure both sides are heated evenly.
5. Remove the tape and remove the cable from the rod.
6. Apply more heat to ensure all the tube has shrunk.
7. Strip the ends of the cable.
8. Check all the wires for continuity and shorts
   • For continuity, check every wire color against the same color on the other end. It should beep on each wire.
   • For shorts, check every wire color against the other two colors on the other end. It should not beep.
9. Take the servo extension and cut it in the middle.
10. Solder each halve of the servo extension cable to the ends of your coiled cable. The colors you use do not matter, as long as you are consistent on both sides. We soldered red to red, black to black, and white to yellow. The green wire, ground, and shield were not needed so we just cut them.
    • Before soldering the wires, insert a piece of the large shrinking tube and slide it out of the way. This will be used to cover all the wires after soldered. Also, insert about 1 inch of the smaller shrinking tube on each wire.
11. Slide the small diameter tubes to cover the solder and heat them. This will ensure there are not shorts between the cables.
12. It is a good idea to check the cable for continuity and shorts again, but this time at the plugs.
13. Slide the large diameter tubes to cover the soldered wires while keeping a little bit of overlap with the already shrunk tube, then apply heat.

It took us about 1 hour to complete this process with the help of our mentors. The most difficult part is inserting the cable in the heat shrinking tube since each piece is 4 feet long and the friction makes it hard to insert. The end result is really good! We have been using that cable for some time now with zero issues. Below are some pictures and videos of key steps of the process. Please do not look at the mess in the background!

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