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Building Your Own Remote
Controlled LED
On/Off
Light Switch In Less Than 20 Minutes |
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I'm no electronic engineer or electronic expert, yet I came
up with a simple way to build my own LED switch that can be
controlled from my transmitter. Follow my easy seven steps,
and you will have a complete working LED switch in twenty
minutes time. Take note that this switch will only work with
LED lamps. Before you start building, I would like to
explain how this LED light switch work. A LED (Light
Emitting Diode) lamp is a type of solid state lighting (SSL)
that uses light-emitting diodes (LEDs) as the source of
light. The LED bulb has a positive and negative leg. If the
power input polarity is wrong, the LED will not work.
With this principle, I came up with the idea to use a
standard micro servo for a LED switch that can be turned
on/off from my transmitter. Almost all servos work on the
same principle, so you can use any size servo. The LED
switch need to be connected to an open channel (GEAR, AUX1
or AUX2) on the receiver, and will be activated with the
relevant toggle switch on the transmitter. By toggling the
toggle switch up and down, the polarity of the LED power
lead will switch around. When the polarity is correct for
the LED or LED's, they will light up. When the polarity is
switched around, the incorrect polarity will turn the LED
off.
Just keep in mind that the LED power lead will always have
power, no matter the position of the toggle switch. Do not
connect any LED light controller or any other electronic
device to this switch. Components on the LED light
controller or other electronic device might damage with
polarity changes. Other than that, the LED switch works very
well. The voltage output on the LED lead will be about
3.8vDC with a micro servo, and 4.8vDC with a standard servo.
Most LED Lighting Systems operate with 4.8-8.0vDC. If you
want to connect three or more LED's, I will recommend that
you use a standard servo instead of a micro servo. Flashing
LED's can also be connected to this switch.
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What you need to build the LED switch |
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• One servo of your choice
• Soldering iron
• Heat shrink tubing |
• Two way wire lead for the LED's • Side Cutter
• Hot glue |
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Follow my instructions step by step, and you can't go wrong
with building the switch |
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STEP 1: Make sure that the servo you
want to use is in working order by connecting it to an open
channel on the receiver (GEAR, AUX1 or AUX2) |
STEP 2: Unscrew
the four bottom servo screws, and take the servo apart so
that the outer casing and gears can be removed. |
Now that the outer casing is removed, it is
clearly visible that the servo consist out of four main
components: servo motor, circuit board, pod and
servo lead. |
Be careful when handling the circuit board so
that you don't damage any components and detaching any
wires. |
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The servo pod is very important when building
the LED switch. All three wires on the pod and circuit board
stay as is. If you want, you can shorten the pod wires to
make the switch smaller. |
Some servo motors have only two wires, but as
from the photo above, a third black wire is soldered to the
outer metal motor casing. The only two wires needed to
build the switch, are the two wires that are connected
directly to the motor. In this scenario, the red and
blue wires. |
STEP 3: The third black motor wire
won't be use in building the switch. Use a soldering iron
and remove the black wire from the circuit board. Be careful
not to damage any components on the circuit board. Other
servos might not have a third motor wire, then this step
won't be necessary. |
STEP 4: Use the soldering iron and
remove the red and blue motor wires from circuit board. Now
that the motor and all three wires are completely removed
from the circuit board, you are ready to solder the wire
lead for the LED's to the same position where the red and
blue motor wires was removed from. |
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Now that the LED lead is soldered onto the
circuit board, the most difficult part in building the
switch is complete. |
The length of the LED lead all depend on your
needs. You can either solder LED lights directly onto this
lead, or make use of a connector to connect a lighting
system to the lead. |
STEP 5: It is very important to adjust
the servo pod to the correct position. On the photo above,
the inner part of the pod is rotated fully counter
clock-wise. |
On the photo above, the inner part of the pod
is rotated fully clock-wise. Now that you know the maximum
travel counter and clock wise, the inner part of the pod
must be situated halfway otherwise the switch won't work. |
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Now that the inner part of the pod is aligned
correctly halfway, the next step can be followed. |
STEP 6: You get different types of
servo pods. This pod has a center pin that needs to be removed.
Use a side cutter and cut the center pin off without
damaging the inner part of the pod. |
Now that the pin is removed, just double
check that the inner part of the pod is still aligned
halfway in position. |
STEP 7: To prevent the inner part of
to pod to move, I use hot glue to secure it in place. |
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STEP 7: The last step is to use heat
shrink tubing to cover the LED switch. This will protect the
switch and prevent any short on the circuit. |
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Congratulations... You have just build
your own LED light switch. |
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The final product look like this. The size of
the LED switch will depend on the type of servo used. I
have build a couple of these switches, and found the micro
servo to give a relative small end product. Connect the LED
switch to an open channel port on your receiver. Flick the
relevant toggle switch on the transmitter for testing the
LED switch. On programmable transmitters, you need to assign
the correct channel to the relevant toggle switch. |
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Now that you know how to build your own Remote Controlled
LED On/Off Light Switch, you can ad lights to all your
favorite models. Have fun........ |
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