When constructing or modifying an FPV drone, one query that usually comes up is: Can I mount my motors the other way up? The quick reply is sure, and this setup is called a pusher configuration. This implies the motors and propellers are flipped, pushing air downward slightly than pulling it.
Whereas this configuration has some benefits, significantly for cinematic FPV drones, it additionally comes with a couple of downsides. On this information, I’ll break down how the pusher setup works, what you should think about when switching to it, and the way it impacts flight efficiency and sturdiness.
Additional Readings:
What Is a Pusher Configuration?
In a standard FPV drone setup, motors are mounted on high of the arms with the propellers (props) pulling air downward.
In a pusher configuration, the motors are mounted the other way up, with propellers beneath the arms pushing air downward as an alternative.
This setup is often utilized in cinematic FPV drones to maintain the props out of the digicam’s view. It’s additionally seen in some specialty drones the place aerodynamics or element placement advantages from this structure.
Execs and Cons of a Pusher Configuration
Execs:
- Improved Aerodynamics and Effectivity – Some argue that having the arms above the propeller permits extra air to be moved for a similar energy, resulting in barely extra environment friendly flight.
- Higher Digicam Visibility – Because the propellers are mounted additional away from the digicam, the props turn out to be much less more likely to seem in footage, making it a lovely choice for cinematic FPV drones.
- Extra Element House – With the props beneath, there’s typically extra room on the highest plate for mounting parts like batteries, motion cameras, or different FPV gear.
Cons:
- Touchdown Challenges – Many drone frames are designed to land on their backside plate. With upside-down motors, the motors and props turn out to be touchdown factors, which isn’t excellent for sturdiness. Due to this fact you’ll most likely want touchdown gear or taller prop guards to land on.
- Vulnerability to Particles – In a crash, props in a pusher setup are nearer to the bottom, rising the prospect of getting obstructed by dust, grass, small rocks or carpet. That is particularly problematic for freestyle, racing, or tiny whoop drones that crash often.
- Reversing Motor Instructions – Switching to a pusher setup means reversing the motor spin course in Betaflight (or no matter flight controller software program you employ), which provides additional complexity throughout setup. Not very newbie pleasant.
Methods to Convert Your Drone to a Pusher Configuration
If you wish to change to a pusher setup, observe these steps:
1. Flip the Motors
- Unscrew and mount the motors the other way up.
2. Reverse Motor Rotation in Betaflight
- Because the motors at the moment are the other way up, they are going to spin in the wrong way, and it’s best to reverse it.
- To do that, change motor course within the ESC settings by following this information: https://oscarliang.com/change-motor-spin-direction-quadcopter/
- Then inform Betaflight the motors are spinning the wrong way by going to Betaflight Configurator → Motors Tab and allow “Motor Course is Reversed”.
3. Flip Over Propellers
- Take away and flip the props the other way up when reinstalling them.
- The vanguard ought to nonetheless be going through ahead within the course of journey, although the props at the moment are under the arms.
4. Check Motor Course
- Use the Sliders within the Motors tab in Betaflight to verify all motors are spinning the proper manner earlier than arming the drone.
Is a Pusher Setup Proper for You?
The pusher configuration isn’t for everybody. Freestyle, racing and tiny whoop pilots who often crash might discover it impractical resulting from propeller obstructions and tough landings. However, cinematic drone pilots in search of a cleaner digicam view might profit from the setup.
Would you strive a pusher setup in your drone? Let me know your ideas!
