The working laser.

Laser 1Everything I had read thus far told me that I needed a circuit which supplied a constant current to the laser diode.  It would have been easier if I could have just connected the laser diode to my DC power supply and adjusted the voltage, but that would have been too easy.

By the way, this is part 2 of a two part series on this project.  If you missed part 1, you can review it here.

I’m not very good at designing my own electronic circuits, so I thought I’d cruise the internet to see if someone had put one together already.  Sure enough, I found a circuit Joey Hagedorn’s web site.  Apparently he tried something similar to this project, but with a different laser pointer.

CircuitThe circuit I ended up using is shown above.  I ordered all of the parts from Digikey.com, which came to $4.60, which included $2.02 in postage (U.S. Postal Mail).  I love this company, they have what I need and they shipped the parts out fast!

Here is what I purchased for the circuit:

  1. One LM317TFS-ND IC Regulator (adjustable)
  2. One 47 uF capacitor (P802-ND)
  3. One 10 uF capacitor (P807-ND)
  4. One 0.1 uF capacitor (P820-ND)
  5. One 100 Ohm potentiometer (3309W-101-ND)
  6. One 15 Ohm resistor (CMF15.0HFCT-ND)
  7. One diode (1N4002GOS-ND)

I wired everything up on a breadboard that I had from a previous project, and I even set up the circuit to match the schematic shown above.  

Meter 1As you can see from the photo, I used a common red LED I had to test the operation of the circuit.  Sure enough, the LED lit up (although it was very dim), and I even had my multimeter connected to measure the current in the circuit.  The LED would draw anywhere from 5-10 mA from my circuit.  I adjusted the potentiometer to somewhere in the middle and increased the voltage from my DC power supply to 8 volts.  No change in the LED brightness, which means my laser diode would be safe at 8 volts DC.

I then tried to find out from Sam’s Laser FAQ site which pins on my laser diode were supposed to be used for each connection.  The site is a good site, but has too much information, and I just wanted to get started.  I made a guess and wrote it down.

Next, I put on some laser safety goggles that I had previously purchased (for another project) just in case this laser diode was bright enough to damage my eyes.  I also set up my video camera to make sure I could see the beam if it emitted infrared light instead of visible light.  I made a guess for my connections and connected the Blu-Ray diode to my circuit.

Nothing happened.  Maybe I had a loose wire?  Nope.  I also noticed that my meter wasn’t detecting any current.  I tested the circuit again with the red LED.  Yes, it worked just fine.  I then began the process that any experimenter tries when something doesn’t work right.  I started connecting the positive and negative wires to any of the three leads I could, hoping that I just had my laser diode pins identified incorrect.  After about five different combinations, I found one that emitted blue light.  It worked!

I was a little surprised to see that the blue light being emitted wasn’t focused into a reasonable beam.  I guess I should have expected this, but I was surprised none the less.  The blue color doesn’t photograph well, but you get the picture.  The real color isn’t that much more impressive, so you’re not missing much.

Meter 2I grabbed the lens assembly I had saved from the Sharp Blu-Ray player and put it in front of the beam.  Neither lens on this assembly focused the beam down like I wanted, so I found another lens I had lying around.  That didn’t work either.  I’m going to have to work a little harder to figure out how to focus this beam down, but at least I have a working blue laser!

The working laser.At the end, I noticed that my multimeter was measuring 25 mA of current.  I adjusted the potentiometer upwards and the meter went up to 30 mA.  I think this is a safe level for continuous operation, as explained by others who tried this same experiment.

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2 Responses

  1. Hello,
    I know this a (very) late reply, and you might even already figured it out yourself by now,
    or you might even have learned more about the components.

    But I was showing some colleagues the possibility’s DVD and blu-ray lasers and I came
    acros your website. The only thing I noticed is that you used a Electrolytic capacitor for the
    0.1uF but this is supposed to be a Ceramic Capacitor. You can recognize them in the schematics
    by the two flat lines of equal thickness and that there is no + symbol next to them (no polarity)

    Hope this is still usefull by now 😉

    By the way did you manage to find a decent lens to get it working after all?

    • Good point. I used what I had on hand, or whatever was the cheapest to buy. Hopefully others will learn from this. I did find some lenses, and was able to focus the beam to a reasonable dot. However, in recent years, blue laser diodes have come way down in price so that makes this solution a little less attractive. It’s still fun to see if you can get it to work!

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