It would be best if you had some filtering in the digital domain for that a DSP is required you could use tuning software and build a lookup table that will be ok for slower speeds.
Amazing line follower! I too, am a 13 year old "maker youtuber" (i assume that's the word)! That's how i stumbled upon your channel.😀 I just have a question, wont that 3d printed motor bracket melt in the competition because of the constant use? i assume it's PLA, but if it becomes a concern you should print it in PETG or ABS. Sorry for bad english, it's not my native language.
Well, it really depends on the motors efficiency. If I overvolt the motors too much (I’m using 8V from 2S LiPo on 6V motors), they may start to overheat. Same case if they are stalled: it will basically create an induction heater. But, from my experience so far, it hasn’t melted at all, yet. You are correct, it is PLA, which starts to deform at around 60 degrees Celsius, but the little N20 motors probably can’t produce enough heat to have a significant impact on the PLA in such a large quantity. Also, your English is great, and thanks for leaving this comment.
To expand, if the motors were much bigger and higher power, I would need a metal mounting system probably, because they could potentially generate a lot more heat. But, the area of the actual motors shown in this project (the N20 motors) is less than a fingernail.
@@thatboi_vin just get the measurements of an f1 car online, scale it down to the size you want, and make sure you have a low center of gravity so that it won’t flip over 👍
it really depends bro. I'd say 0.4mm for signal traces, 1mm for power traces (>1A), 3mm for big power traces (>6A). You can use digikey's calculator to check, but the trace width really depends on how much current you need to carry and the impedance. hope this helps, here's digikey's calculator: www.digikey.com.au/en/resources/conversion-calculators/conversion-calculator-pcb-trace-width
I really loved your video! but please tell me you realize what you are drawing and explaining at 0:50 😂 very accurate with the average sizes and desired shaft length as well!! 😂😂
This LFR looks awesome and works amazingly well, yet it does wobble a bit. However, you could make it run with less oscillations and more speed like one shown in this video : th-cam.com/video/karS02urD_s/w-d-xo.html
Shaft science for the win! Thanks for the explanation !
You gettin wild with the shaft science, bruh.
😂 longer is better. Great explanation of PID.
Don't be afraid of the D (in PID tunning)
Hope you enjoyed this video, please let me know what else I can improve, and if there’s too much technical content (or too little).
Haha I wonder how many takes that drawing scene took due to laughing.
Subbed!
@@ShivaTD420thank you bro
To me it seems like the right amount of technical content!
did you make those animations yourself?
@@santynolo yes of course, the animations are made myself. Thanks for the feedback
It would be best if you had some filtering in the digital domain for that a DSP is required you could use tuning software and build a lookup table that will be ok for slower speeds.
Bro I barely know what a DSP is 😅 I’ll have to try to search up what you’re talking about, thanks for the advice. Filtering would be good
Can it handle T intersection and 30 degree turns?
@@SamTWOS191139anime yes 😁
Amazing line follower!
I too, am a 13 year old "maker youtuber" (i assume that's the word)! That's how i stumbled upon your channel.😀
I just have a question, wont that 3d printed motor bracket melt in the competition because of the constant use? i assume it's PLA, but if it becomes a concern you should print it in PETG or ABS.
Sorry for bad english, it's not my native language.
Well, it really depends on the motors efficiency. If I overvolt the motors too much (I’m using 8V from 2S LiPo on 6V motors), they may start to overheat. Same case if they are stalled: it will basically create an induction heater. But, from my experience so far, it hasn’t melted at all, yet. You are correct, it is PLA, which starts to deform at around 60 degrees Celsius, but the little N20 motors probably can’t produce enough heat to have a significant impact on the PLA in such a large quantity. Also, your English is great, and thanks for leaving this comment.
To expand, if the motors were much bigger and higher power, I would need a metal mounting system probably, because they could potentially generate a lot more heat. But, the area of the actual motors shown in this project (the N20 motors) is less than a fingernail.
Tip: don’t say sorry for my english ever, if someone picks you out on it they’re trolling and you should stay away from them since it’s on point
@@sorryboss8550 true true
where did you learn c++ for the arduino programming??
If i were to make a f1 dimension chassis how do i get the right dimension to make it fast and accurate?
@@thatboi_vin just get the measurements of an f1 car online, scale it down to the size you want, and make sure you have a low center of gravity so that it won’t flip over 👍
This is fascinating information!
thanks kuya 😁
Hey, chanell bro, you're doing a great job! You mind telling me about the width of your pcb traces? I can't find a value that's good
it really depends bro. I'd say 0.4mm for signal traces, 1mm for power traces (>1A), 3mm for big power traces (>6A). You can use digikey's calculator to check, but the trace width really depends on how much current you need to carry and the impedance. hope this helps, here's digikey's calculator:
www.digikey.com.au/en/resources/conversion-calculators/conversion-calculator-pcb-trace-width
Nice project
can you make a video show how u write the code ?
Yes, i will. I have a international competition in like six weeks and will cover this afterwards as part of one of those videos
I've been violated through the video
WHAT'S THE SPEED OF MOTORS ?
i normally get the 500rpm/1000rpm versions if they have enough torque to move my robot + a little extra weight just to make sure
I really loved your video!
but please tell me you realize what you are drawing and explaining at 0:50 😂
very accurate with the average sizes and desired shaft length as well!! 😂😂
Yeah, I'm drawing the shape of a line follower, right? 🤨
Right! 😂
I am still waiting for your families reaction video :)
GenX reincarnated in GenZ body...
I take it you do not want to share the code?
No, not for now, sorry.
did he just draw a....never mind!
8 inches is suitable as he said 😂
groovy baby
also nice shaft diagram
and two inches is more than enough id say its average
@@AimingIsOverrated thank you bro, very true statement. Did you get the framework laptop yet?
ye man it great@@h1tec
pid
This LFR looks awesome and works amazingly well, yet it does wobble a bit. However, you could make it run with less oscillations and more speed like one shown in this video : th-cam.com/video/karS02urD_s/w-d-xo.html
Oh wow, keep it up, but I must say, the drawing does look a bit inappropriate, was that intentional?
not at all mate, don't know what you're talking about... It's just the shape of a line follower 😂
xD lol@@h1tec
what do you see ? I see a line follower.
I need code for this .
I was here
I am an Engineering undergraduate and man! this young man is my inspiration now