Mini Floodlight

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Introduction: Mini Floodlight

About: My name is Eammon Littler and I'm a college student interested in the field of engineering, robotics, and programming. 想像 (souzou) is the Japanese word for imagining, which I find myself constantly doing, an...

I bring you the Mini Floodlight, named after a friend who was half blinded by it. This project was inspired by the youtuber, DIY Perks, who made this insane version of the floodlight. Mine was done on the cheaper side with 3d printed parts holding everything together. Put together, the light looks like a miniature sun.

Step 1: Parts

Step 2: Schematic of Circuit

Here is a very simplified version of the wiring layout for the floodlight. You'll have to use your imagination since I had to substitute a few parts since they didn't exist in the parts library. Imagine the breadboard is the DC-DC 12v-32V converter. The green screw terminal is the equivalent of my blue one. The small red LED represents the bright 100W LED. The fan in the schematic is the cooling fan attached to the back of the floodlight. And the small lipo battery connector is the XT-90. Refer to the pictures in the next step when wiring the potentiometer. Wire colors in the schematic match the photos.

Step 3: Assembly

  1. Apply thermal paste to the back of the LED. Since it warms up very quickly, you want the heat to be dispersed by the aluminum heatsink. Looking closely at the LED, you can see a "+" and "-". With the "+" on the bottom, the terminal to the right is positive and left is ground. The lens can now be assembled. Fit the two 3d printed plates on before screwing in the four outer screws.
  2. Screw or hot glue the DC-DC booster with the blue terminals facing the two wire holes.
  3. Solder a single black wire to the ground of the XT-90 connector. The flat end is positive and oddly shaped side is ground. Solder a short red wire to the positive end of the connector, and solder the other side to one end of the switch. Solder another red wire to the middle pin of the switch.
  4. Solder the red and black wires from the fan to the red and black wires from the XT-90 connector. Pass both free wires through one hole of the 3d printed plate and clamp into the blue terminal. Do the same for the wires connected to the LED The left side is for input voltage and the right side is the output voltage.
  5. There are four slots on the top plate, next to the voltage booster, for velcro straps or zip ties to strap the battery in.
  6. (Optional) There is a blue potentiometer opposite the blue terminals. The voltage can be adjusted with a screwdriver, but I like to vary the brightness of the light. I used a 10K potentiometer with a knob large enough to easily adjust the brightness.
  7. (Optional) The 3d printed bottom plate is a tripod adapter for 3/8" threads. Plastic is self-threading, so turn the tripod thread until it fits in snugly with the printed piece.

Step 4: Practicality

I've been asked multiple times how long the light would last, so I finally got around to measuring the current draw. I used a Battery Life Calculator to estimate the battery life. As pictures, they kind of look the same, but I promise the light is getting brighter.

With a 2200 mah battery at 12v, I get the following

  • 0.5 A ~ 3 hours (I usually use this brightness for my photos)
  • 1.54 A ~ 1 hours (I use this for larger shots like videos)
  • 4.00 A ~ 30-40 min (max brightness)

Step 5: Conclusion

This is probably the most practical thing I've made so far. Every photo on my website and Instructables is taken with this light shining in the background. I also use this light during blackouts. Look forward to more of my projects as I will be posting on Instructables more frequently. For more of my projects, take a look at my website.

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    8 Comments

    I was thinking. If you lowered it to 75 watts it would still have a lot of lumens and yet last more than 5 times as long.

    Would also work for a projector [home made] if one could find an AC to DC regulator cheap.

    Good work.

    Voted for you :)

    2 replies

    Thank you :)

    A simple conversion might be to replace the XT-90 connector with a 12v dc socket and find a 12v power supply with 8-9 amps for full brightness. It'll be less portable, but it can be a good light source for a homemade projector!

    Ok thanks. Had also thought to use an old computer power supply but wanted something small like what you showed that I could simply wire to a plug.

    Thanks again :)

    Very neat! Thanks for sharing

    Thanks! My tripod is small and lightweight, so my goal was to make a bright light that's as mobile as the tripod

    Thanks for the tip! I added a step with a simplified schematic. Let me know if there's anything else I can improve