Build an RC Blimp for Less Than $13

• a “Mini Racer” ($8.50 at DealExtreme or even under that)
• 2 AA alkaline batteries (The cheapest source in Belgium is IKEA at €2.00 for 10, that is less than $0.60 for  the 2 you need)
• a 0.5g “pager” motor (under $1.75 as in $5.20 for three at DealExtreme)
• an 11” latex balloon treated with Hi-Float and inflated with helium (a balloon shop will take care of that for you, for under 2$).
• some thin plastic sheet like from a butter cup (recycled)
• Selotape/Scotch Tape, (a couple of cents worth)
• a piece of bamboo or wood skewer (recycled)
• a little non hardening clay to trim the weight of the blimp (or other easy to dose weights in the range of 0.1 -  3g)

• a PH0 or PH00 screwdriver to open up the Mini Racer
• a soldering iron and solder for electronics works.
• some nail polish remover or a similar solvent (or, for the alternative explained in the last step, 2 x 50 cm of the thinnest gauge wire you can find, e.g. recycled from a discarded  mouse/USB cable)
• a drop of superglue
• a pin
• a sharp hobby knife
• scissors
• a hammer

These cheap and tiny RC Cars come under a number of names. Mine was a "Mini Racer". I found very similar "Tin Can" RC cars online in 27MHz, 35MHz and 40MHz and 49MHz. They do not come without any narrower bands. So you can only fly 4 at a time, by making sure they are on a different frequency. In most countries only some of the available frequencies will be legal, but it seems the frequency bans are often not enforced for these very low power toy RC systems. In Belgium 35 MHz is reserved for flying models but we’re turning the Mini Racer is one anyway.

Before dismantling the Mini Racer, charge it as described in its manual and take it for a test drive to make sure everything works.

This range is actually rather short (about 10m), but that is fine for a small “living room” flyer. I found on rc-cam.com that at least on some types, you can actually boost the range using a longer antenna and by doubling the transmitter’s voltage (add extra batteries). It seems those transmitters can handle up to 5V, but take care not to use that configuration for charging the flight battery. I didn't test this myself..

Remove the bottom screws at the back and the front to remove the body. When taking further apart, make sure you do not pull on any wires. In particular first check and note where the two thin copper wires, coming from the steering, connect to the circuit board. These wires wire break real easy during further dismantling. I had to solder them back in place.

Before going for the rest of the screws, pry out the LEDs (two white at the front and depending on the model one or two red ones at the back). At this stage I kept on the LEDs. In my first build I later removed them to save weight, but the difference is only about 0.3g, so I recommend not to remove the lights unless you really need to lose a fraction of a gram in weight. After all some lights on your blimp are kind of cool.

Remove the screws holding the steering mechanism and the motor. Remove steering parts from the chassis except for the coil. Keep the two tiny magnets, they can be useful in other projects.

Unscrew the back motor mount. Push the motor from its plastic mount.

Push the switch out from the bottom, for example with the screwdriver. 


Tape in the circuit board, protecting the wire attachments, but keeping the switch and charging socket accessible. Test if things still work (including the charging).

The steering actuator could be used to make a rudder. I actually found a description of a project doing that when hacking the Mini Racer to use in a model airplane. But, as to my experience a steering fin doesn’t work that well with slow moving blimps, I went for a tail rotor. I wasn’t sure the electronics would hold when replacing the actuator coil with a small motor, but that turned out fine.

The coil is glued to the chassis, but you can break it loose. At this stage I wanted to unwind the actuator coil for about 15 cm to make lightweight leads to the tail motor. But the windings turned out to be glued in place quit firmly. Only after soaking the coil in nail polish remover I could peel off a suitable length before breaking the wire. Put it in a small cup with nail polish remover or a similar solvent, making sure the cup is resistant to the solvent. It is best to cover it to minimize evaporation and ventilate the room. Let it soak for a couple of hours.

Of course you can use some other lightweight wire. If you want to keep the budget down you can recycle some from a discarded mouse or USB cable for example.

If the motor comes with a vibration weight on its axle, you will need to remove it, being careful not to damage the axle. I used this trick: I take the axle in between some pair of scissors or thin cutting pliers (don’t do this with your best scissors) and rest this loosely on some support (I used a bench vice). With a pin I tap the axle out of the weight.

Some of these small motors come with a square rubber sleeve. You can slide that right off.

To solder the thin copper wires I first make sure the ends have some solder on them. Apply plenty of heat and a good blob of solder to make sure the insulating enamel layer is removed by the high temperature. Don’t worry about the polarity when soldering to the tail motor, as this is sorted out when finishing the prop.

The insulation on the thin copper wire will probably be damaged by the solvent. So it is a good idea to no longer cross the wires. I kept them apart and at the same time protected them with tape, also covering the soldered connections.

The propellers are made from strips cut out of thin plastic sheet. The plastic used in cups containing butter, cheese or similar products is very suitable. I started out with two 25mm by 5 mm strips, leaving some room for trimming the propellers later. For these small blimps such rough propellers work well enough, but of course you can experiment what dimensions and shapes work best. For example, I learned that the propeller on the smaller tail motor, needed to be smaller to work well (I ended up with a total diameter of about 15 mm).

With a pin, a small hole is made in the middle of each strip. Some corrugated cardboard as a backing helps. If your pin should is thicker than the motor axle find another pin or take care not to push it completely through the plastic. The hole should keep a tight fit on the motor axle. So make a small hole and test fit each axle (the pinion gear on the main motor should be removed). Take care not to damage the motor and not to sting yourself with the axle.

Once the strip is on the axle, check the direction it spins for each command. Keep that in mind when twisting the strip ends each in opposite direction to form a rough propeller shape.

Do this for both propellers.

I cut a bamboo skewer even thinner and glued it perpendicular to the tail motor.

The main propulsion motor is taped to the circuit board in an angle of roughly 45°, making sure the propeller spins freely. I actually accidentally taped over the switch, but was still able to operate it.

The circuit board and the tail motor’s skewer are taped to the balloon. 
Add a little non hardening clay to trim the weight of the blimp till it just slow sinks when no power is applied. 
 You’re ready to fly (You might need to recharge first).

You can tune the main propeller's angle and the weight for a slower or faster cruising speed. A propeller pointing more downwards will give less thrust left for the forwards movement, which is better suited to flying in smaller rooms. Adding some weight might be needed to be able to give thrust about half of the time and achieve a reasonably smooth level flight.

In this project I tried to keep this build as cheap and as simple as possible. Obviously there is room for improvement. Some improvements can be done with recycled material, others at a cost of a couple of $.

The first one is using other balloons, latex or foil. I found some blimp shaped latex ones on eBay, lifting over 30g when used in full length. The cost of a helium fill is higher, but the spare lift capacity will make it last a week, instead of a day.

For even longer lasting fills go for foil balloons. You can adapt their shape with tape or, with some practice, make new heat seals as shown in my Hummingblimp Ible.

The 90 cm (40") long letters “I” foil balloons are a good size for this propulsion concept. They lift 13 to 17g depending on the helium quality. However there are two types: originally I had "sans serif" letters I, i.e. plain rectangles (used as a basis for the blimp shown in the first picture). But lately online suppliers, without updating the picture on their site, started to deliver "serif" style letters I, with protrusions at the end (as shown in the last but one picture). So if you want a plain rectangular shape, double check with your supplier.

When using longer balloons, it turned out the tail motor needed to be at the very back end to provide a long steering lever and get a decent manoeuvrability. As the main propulsion needs to remain in the middle of the balloon (both for weight distribution and a stable flight under thrust), the leads from the circuit board to the steering motor need to be lengthened. They should stretch about 60% of the length of the balloon.

I started replacing the thin copper wire with 1/10 mm enamelled copper wire (slightly thicker than the original). But for a sturdier solution I used 0,09 mm2 wire from a discarded computer mouse USB cable. I twisted the two wires, together with the twine that is also in the USB cable and soaked this this assembly in superglue to make it stiff by itself. That way the skewer could be omitted. I also kept the black sleeve on the motor when gluing it in place, allowing the motor to be repositioned.

The charging connecter can be replaced by a lighter solution, or be omitted completely when using clamps to charge the single cell.

If you have a gram or more to spare in lift capacity, you can add fins cut from foam trays. This makes flying straight out easier, which is particularly handy in larger rooms or halls.

In larger halls, using readymade propellers is also worthwhile. I used these from HobbyKing with great success. Again the tail propeller was shortened.