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Want to learn how to build a simple but powerful laser with electronics you already have in your house? We'll show you how to use parts from a desktop computer with a DVD drive to create a fully-functioning red burning laser.

  1. This should be relatively easily done by unscrewing the screws running alongside of the cover.
  2. Extract two of the main components, the PSU and the DVD burner.
    • The PSU should come right out, and the DVD burner might be anchored down with two small screws. Undo those and it should come right out of place.
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  3. After extracting the first two main components, you need to extract the heat sinks; they will easily pop out with no effort and are usually located on the motherboard. The picture above is what the heat sinks look like. The second heat sink will be a smaller version of the one shown, it will be placed directly on top of the motherboard, so when you open the computer and take our components out will see a tiny heat sink sitting on top o what looks like a giant microchip, just pull it out.
  4. After extracting the sled, you will need to remove the laser diode located in the sled.
    • The sled should be relatively easy to remove, as it is located on the upper face of the burner.
  5. Once you remove the sled, and file down the soldered metal to make a smooth shape around the base. You should end up with a lense diode that is captured in the picture above. Most DVD burners will have the same set-up. However, if your burner is different, your diode will still look like the one in the picture.
  6. These can be purchased on eBay for around $3-8 each, and can be easily assembled and re-assembled.
  7. Make sure that you attach long wires into the diode following this schematic.
    • Your positive IN will show a thick circle around the attachment point so will your PD (unused). However, your negative will show a thinner circle around its entry point, and they will be arranged in the same order as this schematic. Solder your wires into the proper points and your end product should look like figure two above.
  8. In this step, you will need to be very careful as to not reverse the polarity when soldering wires; make sure you clearly marked your (+) and (-) wires on your laser diode. Solder the positive output wire to the 3 ohm resistor, then continue by soldering the second end of the resistor to the output tongue of your lm 371 module(3). As for your diode's negative wire, solder that directly into the ground tongue of your module(2) and create a wire for running to a negative wire. From your input tongue on your module(1), solder the positive running wire. When soldering it is suggested that use a plastic card is used as a separator all between elements to avoid run off of the liquid metal. If you are new to using a soldering iron, practice on some spare wires first.
  9. After that, clean the whole form (all metal debris), and insert your laser diode assembly into it, making sure the side with the lens sits flush against the edge of the heat sink. After carefully positioning the diode assembly, use thermal glue to permanently affix it into place. Allow ample time for the finished product to dry. (During this time you will start working on the PSU.)
  10. The PSU can be slightly tricky. Break it down into the following steps:
    • Clip off all of the white plastic wire connectors.
    • Sort the wires by colors; this will make the job way easier.
    • Find the black and green wires, clip them, and then tie them together (make sure you cover the exposed area with electric tape)
    • The yellow wire will be your (+), the red wire your (-).
    • Solder the wires to your module wires as directed in step eight.
    • You may want to glue the second heat sink to the module chip, since this chip might get really hot.
  11. Since you're working with a 110V power supply all naked wires must be covered to make sure no exposed wires are rubbing on each other.
  12. While wearing safety goggles, make sure that the diode is facing a wall of a hard surface, and plug the PSU into a power outlet. Turn on the power button and enjoy your new laser.
    • The laser can run for prolonged periods of time without getting hot since the heat sinks will help dissipate the heat from both the diode and the module.
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Community Q&A

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  • Question
    What is the heat sink for?
    Community Answer
    The laser becomes very hot, and with electronics, heat is bad. With too much heat, components wear out or fail completely.
  • Question
    What’s the most that this laser can burn?
    Phoenix lasers
    Community Answer
    This is a 100mw laser diode, so it could light a match, burn the surface of wood, and possibly cut electrical tape.
  • Question
    How do this work?
    Phoenix lasers
    Community Answer
    It works by using a driver to regulate the power coming from the laser, and from there the power flows into the diode, lighting it up and producing a lot of light, which can be focused into a single point. The heat sink is to make sure that the diode does not overheat, but you still should not run it for a long time, because it still heats up.
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      Tips

      • If the diode does not fire, check to make sure it is not cracked.
      • In case no light comes out, check your wiring to make sure none of the (-) and (+) terminals have been reversed.
      • If the diode or drive start overheating, make sure they are properly tucked into the heat sinks.
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      Warnings

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      Things You'll Need

      • A desktop computer equipped with a DVD R/RW drive out of which you will extract:
        • PSU
        • DVD burner
        • Heat sinks (2)
      • An AIXIZ module
      • Soldering iron
      • Heat-resistant thermal glue
      • Drill with ½ inch metal drill bit
      • LM37 drive with 3ohm resistor (can be bought on eBay for around $4)
      • safety goggles
      • electric tape

      References

      1. www.computerhope.com
      2. www.wisegeek.com
      3. www.loneoceans.com
      4. laserpointerforums.com
      5. hightechdealz.com

      About This Article

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