All your projects are wonderful. I have recreated several and they work flawlessly. You deserve many many more subs and I hope you get them in the near future. I congratulate you
Very nice build! Is there a blog post or instructable giving more details of the build? Why did you use two different motor types. Was it just what was at hand or because each had different requirements?
These motors are very different. CyberGear motors with gears inside, so they have very high power. Suitable for robot legs where a lot of power is required. Also, I'm not using their full power. Balancing motors - I used what I had. The purpose of this project was to test the CyberGear motors.
A great project, a cool implementation! I am currently firmware-ing a hoverboard to control its wheels like servos. I use the AS5600 sensors to determine the position of the wheel, they are cool) I assume that you used a PID controller to control the position of the foot motors? If so, how did you choose the coefficients? I came across the fact that when using hall sensors inside the wheel, the wheel can quickly turn to a given angle and stop without rocking, but with an external encoder, the wheel behaves differently. In the original firmware repository, where only hall sensors were used - P=2, the remaining coefficients = 0. So far, the selection of coefficients I and D has not given the expected results.
It reminds me of Star Wars droids. And, up to pretty recently, I'd have assumed was faked via CGI. It's amazing how you can build things like this out of stuff you can buy on the Internet these days.
How are you controlling the wheel torque? Is it closed loop velocity control or are you using current sensing. I am also using simple foc mini and same motors but my motors lift arround 100g only 😭
Lift? Are you talking about the motors I use for balancing? These motors work with simple foc. However, the motors for the legs are completely different.
@ReMRC yes motor for balancing. I have the same motors and simple foc mini driver. I am trying to balance but it looks like they cannot generate enough torque to balance the 500g load. I was curious how did you mange to do the balancing on such a big body. Are you using current contol to generate torque or its just closed loop velocity control.
All your projects are wonderful. I have recreated several and they work flawlessly. You deserve many many more subs and I hope you get them in the near future. I congratulate you
You are balancing bot king you deserve millions of subscribers
You make it look so easy. Great job!
Fantastic job! Congrats.
love your work keep it up
Very nice and tidy! Robot looks really good, this is really well done
In the US: Billions of dollars of VC funding. Europe: Some dude builds them in his living room.
Nice work, excited
Another cool project. Amazing!
nice and quiet
That is a gorgeous project, thanks for sharing
Beeping "...---..." after falling down is just hilarious! Good work. Congratulations.
Very nice build!
Is there a blog post or instructable giving more details of the build?
Why did you use two different motor types. Was it just what was at hand or because each had different requirements?
These motors are very different. CyberGear motors with gears inside, so they have very high power. Suitable for robot legs where a lot of power is required. Also, I'm not using their full power.
Balancing motors - I used what I had.
The purpose of this project was to test the CyberGear motors.
A great project, a cool implementation!
I am currently firmware-ing a hoverboard to control its wheels like servos. I use the AS5600 sensors to determine the position of the wheel, they are cool) I assume that you used a PID controller to control the position of the foot motors? If so, how did you choose the coefficients?
I came across the fact that when using hall sensors inside the wheel, the wheel can quickly turn to a given angle and stop without rocking, but with an external encoder, the wheel behaves differently. In the original firmware repository, where only hall sensors were used - P=2, the remaining coefficients = 0. So far, the selection of coefficients I and D has not given the expected results.
"foot motors" is motors with controller inside. They are managed quite differently.
Excellent j'adore 😍
Can you give us some links to do same project? 🤔
Sorry, I don't have any links...
It reminds me of Star Wars droids. And, up to pretty recently, I'd have assumed was faked via CGI. It's amazing how you can build things like this out of stuff you can buy on the Internet these days.
So Cool!
Can u share which control logic did u use for balancing? PID?LQR or ML?
Wow. Finally
How are you controlling the wheel torque? Is it closed loop velocity control or are you using current sensing. I am also using simple foc mini and same motors but my motors lift arround 100g only 😭
Lift? Are you talking about the motors I use for balancing? These motors work with simple foc. However, the motors for the legs are completely different.
@ReMRC yes motor for balancing. I have the same motors and simple foc mini driver. I am trying to balance but it looks like they cannot generate enough torque to balance the 500g load. I was curious how did you mange to do the balancing on such a big body. Are you using current contol to generate torque or its just closed loop velocity control.
esp32?
Yes
Do you have any files for this? I'd love to build one
No. You need to understand that 3D printing files would not do any good because it would only work if done exactly the same with the same parts.
@ReMRC yeah, I guess that's what I was asking. If you had any of the build information posted anywhere. I'm sure I can find the parts online
Github??
Currently - no. But maybe later...
Kod?
Nice
Can Helping my similar project with your code.
Cheers 🎉
Similar? Simple FOC, CyberGear motors?