![]() ![]() The flight controller is essentially the brains of your multirotor, and is easily the most complex component of the flight system. Read more about FPV Multirotor Drone Frames here. This is something to keep in mind when selecting your frame. While you COULD do both with any kind of frame, the performance will often be biased toward one. Frames are often designed with a specific purpose in mind, either racing, or freestyle. It will also give you some insight into how big a propeller the frame is meant for (most frames will let you know what size prop it is designed for). This will give you some general information about how big the overall frame will be so you know what to expect. Frames are measured in millimeters, not from front to back, but diagonally from center of the motor mount on one arm, to the center of the motor mount on the arm directly diagonal from it. There are hundreds of frame designs out there, and many pilots create their own custom frames that fit their individual flying styles. This is what all your components will mount to, and will ultimately dictate what the multirotor will look like. ![]() The more thrust you provide the faster the multirotor will gain altitude, and the roll and pitch effectively change what direction is truly up.įrames are the backbone, the skeleton of your multirotor. ![]() Yaw is generally used to change your heading, or the direction your multirotor is facing. When you pitch forward the multirotor will start to move forward, and when you pitch back, it will move backward. Now, when you start to combine roll with thrust, your multirotor will shift either left or right. Last, again, keep your palm face down, and lift your hand higher in the air then bring it back down, there is your thrust. Keeping your hand palm down, turn your hand left then right, that’s an example of yaw. Now, tip your hand forward, then backward, that would be pitch. Rock your hand from side to side, that is your roll. Hold your hand out in front of you palm down. Let’s start with an exercise to show each of these controls. A multirotor has four control points roll, pitch, yaw, and thrust, and each of these work both independently from one another and can work together to create more complex movement. ![]()
0 Comments
Leave a Reply. |
AuthorWrite something about yourself. No need to be fancy, just an overview. ArchivesCategories |