This is what I call a true electronics engineer. Everyone nowadays in this field is using modules, simple Arduino code and call it a project. Digging in details and asking "why, this was done and how" is the definition of engineering. Anyways thanks for the informative and unique videos, keep up the good work ❤❤❤❤
Build from scratch is true learning, it doesn’t mean we would automate some process using a microchip later. Learn to use a microchip is not learning electronics.
Why is the TH-cam algorithm showing me this video after a long time, it should've shown me when I needed it !! Intuitive and Infotainment. Thanks a lot, bruv!
Amazing job! I'm planning to build my own step motor driver soon for my Electric Motor Drivers class, so I'm definitely going to come back to this video. Thanks for sharing!
Got a 1.7 (german score)doing a project using your video,but i used a esp32 for signal and build my own 220v-24v 1n5004 diode with linear dc regulator,and external IR for position Thanks for the vid
Hi @SineLab, your tutorials are always great, and I always learn something new from them! I have a question: for adaptive current control based on torque (low torque = low current, high torque = high current) using MOSFETs, should we implement it using feedback from the shunt resistors or the back-EMF of the coils? Can you answer in one or two lines?
For the full wave driving a cool way you could've drived it would've been a simple binary counter: oil 1 - C1 coil 2 - C2 c1 +- c2 +- c1 -+ c2 -+ So with a 2 bit binary counter: XY 00 01 10 11 We can use the X bit to toggle between driving the coil in the +- and -+ direction. Then we can use the Y bit to toggle between working on c1 and c2
Now to have made the transistors, resistors, capacitors, diodes, all components out of metals you forged that you mined.. to have created the mountain for the metal to reside in, and the very laws of nature for these materials to be stable. To have created the sciences to lead innovations to this point. Lest we forget we forget, the entire universe itself, and the NspaceNtime which it resides in. Truly an inspiration.. But DIY yourself into the algorithm.. just add that to the start of the vid, all your vids with it have more views but your content is essentially all DIY so just sell that.. and look even someone suggested this already
If you were using high-side N-Channel mosfets, then yes. You would need to bootstrap them. But in the video I used P-Channel mosfets, so only an NPN was needed to invert the signal and drive them.
I am trying to replicate what you have done. In the video you talk about using potientometer, however I dont recognize those on your schematic? Is R17 and R25 ptientometers? Thanks for this great video, this is by far the best reference I have!
It's been a while, but I don't think that the potentiometer is used in the final schematic. It was simply an intermediate step to test a variable voltage. It was replaced by the DAC so that the microcontroller could change the voltage. I hope that this helps!
Nah, if i use something i just need to know what happen. So before just using stepper driver ic i just want to try manual mode. But, i am too lazy to make my own h-bridge so i use ir2110, then i was too lazy to calculate deadtime so it was ir2153😆
This is what I call a true electronics engineer. Everyone nowadays in this field is using modules, simple Arduino code and call it a project. Digging in details and asking "why, this was done and how" is the definition of engineering. Anyways thanks for the informative and unique videos, keep up the good work ❤❤❤❤
yeah fuck people that craft funny projects for fun. Only hard work counts
Couldn't have said it better myself
Ok boomer 🤣
Build from scratch is true learning, it doesn’t mean we would automate some process using a microchip later. Learn to use a microchip is not learning electronics.
Thanks for watching! I agree, there's only so much you can learn from using those pre-made modules. That's why I make these videos :)
Why is the TH-cam algorithm showing me this video after a long time, it should've shown me when I needed it !!
Intuitive and Infotainment. Thanks a lot, bruv!
I told you so! Look at the statistics of this video! We love true DIY!!!! Congrats
Yes thank you! You were right about these DIY videos :)
Amazing job! I'm planning to build my own step motor driver soon for my Electric Motor Drivers class, so I'm definitely going to come back to this video. Thanks for sharing!
Good luck with your project!
Great stuff mate, very informative and interesting to watch 👍
Got a 1.7 (german score)doing a project using your video,but i used a esp32 for signal and build my own 220v-24v 1n5004 diode with linear dc regulator,and external IR for position
Thanks for the vid
can u sshow mw schmeatics?
Hi @SineLab, your tutorials are always great, and I always learn something new from them! I have a question: for adaptive current control based on torque (low torque = low current, high torque = high current) using MOSFETs, should we implement it using feedback from the shunt resistors or the back-EMF of the coils? Can you answer in one or two lines?
For the full wave driving a cool way you could've drived it would've been a simple binary counter:
oil 1 - C1
coil 2 - C2
c1 +-
c2 +-
c1 -+
c2 -+
So with a 2 bit binary counter:
XY
00
01
10
11
We can use the X bit to toggle between driving the coil in the +- and -+ direction.
Then we can use the Y bit to toggle between working on c1 and c2
Fantastic video explained perfectly thank you will be trying this out in near future
I am wondering if 555 timer plus nand gates mixed in with a binary counter could work
If for used micro controller abilitytaz transistors and MOSFETs or IC ? Thank you
This channel has a five-season story arc. We're just introducing the characters now. I can't wait for the first twist.
I wonder what happens next...? :)
I have a question, are the opamps connected to a 5v source and gnd?
Yes
Now to have made the transistors, resistors, capacitors, diodes, all components out of metals you forged that you mined.. to have created the mountain for the metal to reside in, and the very laws of nature for these materials to be stable. To have created the sciences to lead innovations to this point. Lest we forget we forget, the entire universe itself, and the NspaceNtime which it resides in. Truly an inspiration..
But DIY yourself into the algorithm.. just add that to the start of the vid, all your vids with it have more views but your content is essentially all DIY so just sell that.. and look even someone suggested this already
Yes thank you. You're right DIY is definitely the way to go from here.
I have a question: do we need to use MOSFET drivers to control the MOSFETs here?
If you were using high-side N-Channel mosfets, then yes. You would need to bootstrap them.
But in the video I used P-Channel mosfets, so only an NPN was needed to invert the signal and drive them.
Creative idea and informative video, thank you for sharing!
Thank you for watching!
I am trying to replicate what you have done. In the video you talk about using potientometer, however I dont recognize those on your schematic? Is R17 and R25 ptientometers? Thanks for this great video, this is by far the best reference I have!
It's been a while, but I don't think that the potentiometer is used in the final schematic. It was simply an intermediate step to test a variable voltage.
It was replaced by the DAC so that the microcontroller could change the voltage.
I hope that this helps!
sine lab I have trying and fail do have pcb in pdf
Really nice Video and good explanations! Really like it, because I just discovered my passion to stepper motors. 🤗
Enjoy tinkering with your stepper motors! :)
Subed fo this video , continue making more descret component circuits ,i really want to learn the very basics of modern electronics
More discrete electronics videos to come :)
Stepper acceleration next time..?
Hey bro. Im trying to build a tattoo machine and want to use a step driver. Is there a way i could hire you to help me
please provide detailed circuit and code ❤
Good job here
Thank you!
Keep going this is very good^^❤❤
I don't plan on stopping :)
try this same engineering exercises with Vacuum tubes ;-)
That would be a good challenge
Cool !
Nah, if i use something i just need to know what happen. So before just using stepper driver ic i just want to try manual mode. But, i am too lazy to make my own h-bridge so i use ir2110, then i was too lazy to calculate deadtime so it was ir2153😆
Very cool
Thanks!
A fellow crypto lover also