PITSCO EDUCATION Drone Maker User Guide
- June 3, 2024
- PITSCO EDUCATION
Table of Contents
PITSCO EDUCATION Drone Maker
DRONE PARTS
GETTING STARTED
Drones in the Air
Up, up, and away! Drones have taken everybody’s imagination by storm in recent
years. Promises of packages being delivered to your door with everything from
hot fresh pizza to a new item from your favorite retailer, as well as the
ability of first responders to reach remote locations with lifesaving
equipment in a moment’s notice – these are the dreams of a future with drones.
But what is needed for any of this future to happen, engineering drones for
these and other tasks? Welcome to the world of aerospace engineering, you now
have the opportunity to figure out this future!
Did You Know?
In remote areas of Africa, drones are used for delivering medical shipments
because it would take longer to deliver the items over land. You can read more
about this lifesaving use for drones here: https://dronedj.com/2022/02/18
/zipline-expands-drone-deliveries-of-medical-supplies-to-kenya/.
Design and Iterate
You have a system for building and adding to your drone that makes it quick
and simple to make changes to the basic design of the drone. This will enable
you to design, build, and test a drone and then make improvements to test the
drone again. This design, test, and redesign process is known as iteration.
Depending on the time you have available, the system you have will enable you
to compare multiple possible solutions to a problem based on how well each
solution is likely to meet the parameters that have been set.
Glossary terms:
Aerospace Engineer – an engineer who works with designing, building, and
testing aircraft, including drones, to meet goals
iteration – refining a product or process by tweaking the later version
and then starting over
Batteries and Charging
In order for your drone to operate at maximum capacity, the batteries should be fully charged. Locate the charger, Micro USB cable, and batteries. Plug these in while building your drone.
DRONE ASSEMBLY
Building a Basic Drone
What You’ll Need
The following is the list of parts you will need to build the basic drone.
Drone Parts
Part Name &Quantity
Propeller guard ……………………………..4
Drone body …………………………………1
Motor mounts with black and white wires ……..2
Motor mounts with red and blue wires ………..2
Battery ……………………………………..2
Propeller A ………………………………….2
Propeller B ………………………………….2
Body tube …………………………………..4
Remote control ……………………………..1
Putting Your Drone Together
Cut four body tubes to equal lengths. 45mm is a good length to start with. The
tubes will attach to the drone body and motor mounts by sliding snugly over
the connection points.
Propeller and Propeller Guard
Before mounting the props, you should slide the propeller guards onto the motor mounts from the top.
Motor/Propeller/Guard Assembly
The props need to be pressed onto the motor axle. You should match the props
to themotors first. The props labeled “A” should be mounted on the red-and-
blue wired motors, and the props labeled “B” should be mounted on the black-
and-white wired motors.
Aligning the Motors and Drone Body
When connecting the motors to the drone body, it is important to align them
correctly. The motor wire coloring should match the wire coloring coming from
the drone body. This is because the motors spin in opposite directions. Be
careful when connecting and disconnecting the wires to prevent them from
breaking. You will want to ensure that the motors are aligned with the body
because any deviations can cause a reduced flight time from the batteries or
an inability to take off.
Basic Drone Design
To build a basic drone that will fly, use the following diagram.
CONTROLLER FUNCTIONS
Drone Controller Functions
Refer to this diagram for the functions on the drone controller included with
your kit.
- Speed – The drone’s responsiveness to the controller’s commands is adjusted into three different modes by pressing and releasing this button.
- Slow – The drone operates more gently to the commands input at the controller. This mode is recommended for a beginner drone pilot.
- Medium – The drone operates intuitively to the commands input by the controller. This mode is recommended as you gain experience as a drone pilot.
- Fast – The drone operates rapidly to any commands input by the controller. This mode is recommended only after extensive experience as a drone pilot.
- Flips – When this button is pressed, the drone enters flip mode. While in flip mode, the right joystick on the controller can be used to perform a flip by pressing one of the four directions forward, backward, left, or right.
- Ascent/Descent – This is the throttle; it controls the speed of the motors. Pushing up causes the drone to go straight up; pushing down causes the drone to go straight down.
- Yaw Left/Yaw Right – Rotates the drone around the center of the drone body. It is used to change the direction the drone is pointing. Pushing left rotates the drone to the left; pushing right rotates the drone to the right.
- Pitch Forward/Pitch Backward – Tilts the drone forward or backward. Pushing up tilts the drone forward, and it moves forward. Pushing down tilts the drone backward, and the drone moves backward.
- Roll Left/Roll Right – Tilts the drone to the left or right. Pushing right tilts the drone to the right, and it moves to the right. Pushing left tilts the drone to the left, and the drone moves to the left.
- Takeoff/Land – Pushing and releasing this button will make the drone take off when not flying and land when flying. Pushing and holding when the drone is in flight will activate the emergency landing feature, and the drone’s motors will immediately stop spinning, and the drone will fall directly to the ground.
- Power On/Off – Pushing and releasing this button will turn the remote on or off.
- Headless/Normal Mode – I n normal mode, left and right are always in reference to the drone’s left and right. In headless mode, left and right are in reference to the controller’s left and right when facing the drone.
- Tune/Normal Mode – In normal mode, the controls operate the motors to cause movement in the drone. In tune mode, the power sent to each of the motors is adjusted to balance the flight characteristics of the drone. Each time the drone is restarted, the previous tuning returns to the default.
DRONE FLIGHT
Pairing the Remote and Taking Flight
Follow these steps to pair your remote and fly it. Remember to wear safety
glasses when operating the drone.
- After the drone is built, make sure the battery is fully charged before flying. Then, insert the battery into the drone body.
- After the battery is in place, press and hold the power button on the bottom of the drone to power up the drone. The LED lights on the bottom will flash when the drone is powered up.
- Turn on the drone and place it on a level surface. The drone indicator lights will blink slowly, which indicates it is waiting for pairing.
- Power on the remote. The remote will beep once.
- To pair, push the left joystick fully upward until you hear a beep and then fully downward until you hear a second beep. The indicator lights on the drone will change from blink to solid indicating a successful pair.
- Press the Takeoff/Land button to start flight. The motors will begin spinning and the drone will rise one meter above the surface and hover.
- Use the left and right joysticks to control the flight.
- Flight time is approximately six to seven minutes depending on weight of drone.
- Drone lights will blink to indicate low battery.
- Drone will land automatically when battery is depleted, or press the Takeoff/Land button to land the drone.
- Have a safe flight!
First Flight Activity
You’re ready to fly! Use the following checklist to check off when you
practice each of the skills as you practice flying your drone. Rate your skill
from one to five on each skill. As with any skill, practice makes you better,
so don’t be discouraged if you aren’t a five the first time. You might need to
align your motors when taking off for the first time. Make sure the props on
the motors are aligned with the drone’s body.
( Hint: You can use the connectors on the motor mounts and drone body to
help you line up the motors and the body.) If the drone flies unpredictably or
not at all, see the troubleshooting section of this guide for help.
| Skill | Status |
|---|---|
| Pairing | 1 2 3 4 5 |
| Takeoff | 1 2 3 4 5 |
| Landing | 1 2 3 4 5 |
| Yaw left 180° | 1 2 3 4 5 |
| Yaw right 180° | 1 2 3 4 5 |
| Ascend one meter | 1 2 3 4 5 |
| Descend one meter | 1 2 3 4 5 |
| Roll left one meter | 1 2 3 4 5 |
| Roll right one meter | 1 2 3 4 5 |
| Pitch forward one meter | 1 2 3 4 5 |
| Pitch backward one meter | 1 2 3 4 5 |
| Navigate around an obstacle in Slow Speed Mode | 1 2 3 4 5 |
| Navigate around an obstacle in Medium Speed Mode | 1 2 3 4 5 |
| Navigate around an obstacle in Fast Speed Mode | 1 2 3 4 5 |
Activity Extension
Find a way to construct the drone to make it easier to tell which is the front of the drone and which is the back of the drone when it is in flight. What’s the biggest drone you can build and get in the air? What’s the smallest drone you can build and get in the air?
BEYOND THE BUILD
Do Some Engineering!
On the drone body and the motor mounts are connection points where you can
attach additional support beams. You can use these to engineer supports for
carrying packages for delivery or adding landing struts to the drone. Your
imagination is your limit! You also have some frame expansion connectors you
can use to help design and build other capabilities into your drone.
The tubes will also fit snugly into the through portion of the 90-degree
through connectors. These connectors can be used to create extensions for the
drone. These extensions can be used to create drone features designed to carry
payloads, extend the drone’s landing footprint, or add accessories.
Design and build a drone to deliver some objects. But be careful – the more
weight you add, the less flight time your drone will have. After you are
successful, try and improve your design and make changes to your drone to make
it more efficient in carrying the load.
Troubleshooting
| Problem | Possible Solutions |
|---|---|
| Drone won’t take off. | The drone is too heavy. The maximum weight the drone |
can lift is between 65 and 75 grams. The drone with the battery in its lightest configuration is about 50 grams.
The props are flipped. If the A and B props are on the wrong motors, they will push down instead of up, preventing the drone from taking off.
The battery is too low. When the battery is critically low, the drone will land automatically and will not take off.
Drone flips over on the ground when taking off.| Two of the props are not on
the correct motors. The A and B props must be on the correct motors; if two
are correct and two are incorrect, the drone will flip over during takeoff.
Drone flies erratically or spins after taking off.| The motors might not be
aligned correctly. If one or more motors are not aligned in the same plane as
the others, the drone will fly erratically; drift left, right, forward, or
backward; or fly in circles after takeoff. This can also happen if one or more
drone arms are damaged or bent. This will require replacing the damaged drone
arm to fix.
Drone drifts toward one of the motors.| This usually indicates that one of the
arms of the drone is a different length than the others. You should ensure all
the drone arms are the same length. This can also happen if one of the drone
motors is damaged and not spinning as fast as the other motors. The only
solution to this is replacing the motor.
HAVE QUESTIONS?
There are a variety of ways to get in touch with us:
Call us at 800-358-4983.
Email us at [email protected].
Chat with us on Pitsco.com/Support.
FCC Warning
This device complies with part 15 of the FCC Rules. Operation is subject to
the following two conditions: (1) This device may not cause harmful
interference, and (2) this device must accept any interference received,
including interference that may cause undesired operation.
Any Changes or modifications not expressly approved by the party responsible
for compliance could void the user’s authority to operate the equipment.
Note: This equipment has been tested and found to comply with the limits for a Class B digital device, pursuant to part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful interference in a residential installation. This equipment generates uses and can radiate radio frequency energy and, if not installed and used in accordance with the instructions, may cause harmful interference to radio communications. However, there is no guarantee that interference will not occur in a particular installation. If this equipment does cause harmful interference to radio or television reception, which can be determined by turning the equipment off and on, the user is encouraged to try to correct the interference by one or more of the following measures:
- Reorient or relocate the receiving antenna.
- Increase the separation between the equipment and receiver.
- Connect the equipment into an outlet on a circuit different from that to which the receiver is connected.
- Consult the dealer or an experienced radio/TV technician for help.
The device has been evaluated to meet general RF exposure requirement. The device can be used in portable exposure condition without restriction.