Design and build a spin coater

Some very cool tidbits on this. You aren't kidding about RC being a whole new world. That hobby has been around forever but as soon as LiPo batteries and cheap brushless motors became easily available, it seems like things exploded.

I really appreciate how you share not just your design, but also how you arrived at your design, including options you considered then rejected, and options you tried before rejecting. I don't expect to ever have use for a spin coater myself, but I learn enough from all of your videos that they are always worth watching. Thank you!

Very nice build! As someone who really needs to work on improving my knowledge of electronics I appreciate your thoroughness in describing the how and why of various components.

zener+mosfet ( or bipolar transistor) would be a more stable high-power clamp

Now if you add a LED blinking always at the same time at each rotation for stroboscopic effect, you can even see how the setup looks like and the layer thins while in progress. Maybe not very useful while in high-speed mode, but while dispensing the liquid manually (you even can make it have a slightly lower frequency to have it look like rotating slowly - that way you have a natural indicator to avoid hitting the poking-out screw with your pipette).

Great use of RC gear!
Getting into the hobby has revealed a lot of methods of accomplishing tricky things cheaply/easily, of which I would otherwise would have been unaware.
Also, motor braking isn't just for cars. It's used on fixed wing aircraft to increase gliding performance, as an auto rotating propeller creates a lot more drag than a stopped prop (oddly enough).
Cheers!

I'm guessing someone has already mentioned this but that weird little "adjustable zener" circuit reminds me of the dump resistors on superconductors. I think all you are missing is a load to keep the fet from popping if it ever turns all the way on. Like a piece of nicrome wire between the FET and Vcc as a current limiting resistor.

Nice work Ben! I always enjoy your video's, Big Thumbs up.

When you start talking about rc stuff I can really start feeling just how new you are to the hobby, great video nonetheless.

I love how you are able to convey a lot of information per unit of time. There are youtubers that in 20 min basically say nothing and I hate it.

Seeing a new upload from this channel just get the inner happiness out of me

And now 2 years later the RC world is insane around this stuff. Programming the controller and customising it is really easy. Once you understand all the weird lingo which is spoken.
Great project! I don't have a need for such a thing. But I like your tinkering and overall problem solving mindset.

Great video as always, thanks Ben.
A good way to make an accurate shunt regulator is with a TL431 precision programmable reference and an PNP power transistor. They are cheap and very easy to use and temperature compensated. Often they can be recycled from an old ATX PSU.
It will have a much sharper turn on than the MOSFET or a zener circuit and will be repeatable to the accuracy of your resistors, so suitable for a production environment. Your MOSFET circuit will depend on the gate threshold which varies from device to device and with temperature.

Great explanation of all of the details, and neat result!
By the way, you can set MIN_DUTY lower (I usually set around 8) to get closer to the lower limits of what can be software-PWM'd. This can extend the range between minimum and maximum speed, or if you would like to just push out the low end even with a higher supply voltage (or higher KV motor).

Yup it's a lovely world for electric RC people. I've built many airplanes of my own design for well under $30 using hobby king parts and dollar tree foam board. Nice video.

Great tip with the circuit board. Wow your spin coater is much better than the lousy commercial one I was using when working in applied physics LOL!

I always love the ending "see you next time, baaaaaai" :') great video Ben.

Nice idea to add that mosfet for clamping the regenerated energy. It should have no problem except with temperature variations that will affect your threshold voltage.

I just wanted to let you know that I really enjoy your videos :) I think every thing you do is awesome and even though I don't understand half of any of it, you do a very well job at explaining it. Keep up the good work!

You're back! I missed you. I mean your videos and science and stuff.

First video found looking to make a coater for our lab. Very informative starting point. Very helpful. Thank you.

18:10 That slow zoom on the spinning disc in combination with your voice was quite hypnotizing :-)

is it dishwasher safe? also could you chuck up bread and use it to spin coat peanut butter and jelly because that could save on washing knives..

Great video , glad to see a new video from you😃

Multirotors actually do benefit from regenerative rotor braking. It helps the craft drop quickly and not feel so "floaty" during acrobatic maneuvers.

Your "programmable zener" is amazing.
Just throw a big heatsink on the FET and use a big resistor to take up the current.

I have actually been wondering for months how I could control brushless motors with I2C :D Thank you!

The ABS cement is really strong stuff. I used it for years on drain lines.

This looks like a good idea for a diy centrifuge

i've been thinking of getting a small motor and making a portable universal friction-drive e-bike kit i could snap onto bicycles when i find them. never knew it was that easy to control them though.

Pleasant surprise to see a new video today, thanks!

That was awesome, start to finish. First time I've used the replay button on UA-cam.

Awesome build man and thanks for sharing! I will be looking to construct something similar!

8:17 The 3 wire motors can be wired for Delta or WYE. A Delta termination will have a kV 1.73x higher than the same motor & winding terminated WYE. For optimizing RPM per V (kv), the motor can be rewound increasing or decreasing the number of turns per pole and terminating in the configuration that gives the closest to the desired kv.
Is the platter balanced?

Nice job on the video! Keep up the good work man!

Great video again!
I understand like 50% but still amazing to watch!

Man I love your videos, you explore so many subjects! I'd love to be half as cool as you when I'm your age!

the new one looks like a manufacturer quality one, nice.

thank you for just another contribution to showing folks the beautiy of science

I’ve seen commercial motor drivers that used transient voltage suppressors, which are basically two Zener diodes back to back, along with a series resistor for active shunts.
In a typical use case, they might have a 48VDC power supply with a suppressor that starts conducting at 52-56V to stay under the 63V rating on the electrolytic capacitors.

That's absolutely astonishing! Amazing job!

Many of the motors for RC cars have hall effect sensors that lett the speed controller know the motor position and therefore can run at really slow speeds and give precise RPM readings

I took the same route of logic Ben. Hobby bldc controllers for sub 10$ w/ open src fw. For the motor, take a look at brushless outrunners, high torque, low top rpm. (5-6k rpm max). A prop motor, not a quadcopter motor. Great information in this vid btw, tnx!

Your n-FET plus potentiometer will act as a voltage clamp, but with a "very soft knee", without further calculation I'd say that its resistance will only decrease very gently. I doubt that one can dump much energy in that device. Also: No heatsink.
With a classical motor controller, you'd employ something called a "Breaking Resistor". Industrial motor controllers (commonly called VFD - variable frequency drive) will have separate clamps to which connect pretty large, mainly air-cooled, wire-wound resistors. But that's of course devices with many kW of power intake. www.google.com/search?q=vfd+braking+resistor&tbm=isch
For your device, probably a smaller power-zener on a heatsink would provide more efficient breaking.

Stunning engineering as always, you rock sir!

you just helped me solve so many 3d printer problems

Thanks for the video and info.
Any chance you have measured the run out of the shaft? These motors could be great as high speed spindles.
Also, does the temperature jump up? I wonder if the motor assumes it will get cooling from the propeller.

I think that for the best coating, you should take into account the liquid's surface tension and viscosity because it might stick to the edges of the glass and be thinner in the middle and thicker in the edges

Not sure if this was your problem, but the pulse wire should work with your board, you just have to detach or otherwise not connect the 5v power. Connecting the signal and ground will work nearly every arduino.

Anoter marvelous video fella, and your didactics is flawless as usuall!

Simply amazing! Eagerly waiting to see in what project you will use this. Better DIY LCD? Transistors?
One thing though, you say in the video you will show us the HDD motor connected to a debug port to demonstrate how fast it is able to change speeds? It didn't work anymore or did the footage just "fall off the editing table". :)

Very cool. Now I want to come up with something to spin-coat!
Thanks.

the breaking mode on model e-motor controllers is important for electric gliders. they got folding props, which you want to stop spinning when you throttle to zero. because that is when the prop folds and causes less air resistance and better gliding.
I like planes...

Thanks for the programmable zener trick. That is awesome.

i like your mosfet clamping method

Sweet, an applied science topic I can wrap my head around.

If you have some ABS or PS/HIPS/SB, you can simply dissolve it in acetone to make your own ABS cement. Doesn't need much acetone at all, the less you leave in there, the lower the chance of it warping the substrate.

FUCK YES!!!! FUCK YESS!!!!! I've been telling you to do semi conductors for a while now!!!!! :D!!!! YAAA!

That is a very neat machine! Have you looked at the coating with a microscope to see, how even you can get it, as that might also be interesting.

Yea I learned the PVC pipe cement trick when superglue wouldn't hold my headphones together, figured it was worth a shot as I had glued a plastic drain stop together that I thought would never hold.
They are still together, had them for years.

Concerning welding the ABS: Simple Acetone works like a charm ;)

Another great video Ben!

Thanks to you I delved into sputter coating and now need to do some spin coating. No idea of this Arduino thingy, one of the links isn't working but I'm sure I'll figure something out. Being able to run a program, slow speed followed by a timed faster spin would be great. :)

I have never understood why everyone calls the quadcopter motors "DC Brushless" when really they are just 3-phase AC brushless motors. That's why they need a "speed controller" to run on DC power, it is really just a variable frequency 3 phase inverter.
With that said, the modern market for these devices certainly does mean that we now have access to an insane amount of well controlled rotational power output for very little money.

Do you know Dr. Garret Moddel? Could you please build his cell with this device? He practically combined two known phenomena/principles together to get usable energy from the thermal background radiation. He combined a Quantum Tunneling layer with a Casimir cavitation layer in such a way that you get e net flow in one direction. Is there a way to get that cell done with household items and a DIY spin coater 🤔?

Servo pulses range from 1 ms to 2 ms, with 1.5 ms being mid-range, or neutral for control surfaces on R/C aircraft.

Yea probably should put some kind of door or shield type thing over the opening.

the Y config works fine with an ESC(common). Just feed it 12 volts or even 24V, and leave the COM. some ESC can be programed in depth, and you can make the accept that COM wire. I believe that you can just hook the COM wire onto a virtual ground made using two caps? yeah that's pretty complex since you can just simply feed it with an 3 wire ESC, and it works!

Looks like there's some vibration at the higher RPMs? Maybe if you move those two side brass screws so they are at the same radius as the opposing one that would balance the system?

For ABS and PVC welding, I've had great success with MEK (methyl ethyl ketone).

I use acetone/abs mixture to glue ABS plastic sometimes. probably not as strong...but it works.

Imperfect timing, I just recently finished my own spin coater. ua-cam.com/video/hdgkTBljyfE/v-deo.html
I'm using a Maxon motor with sensors and their controller after playing with hard drive motors and RC controllers. I thought I might need slow speed control (nope) so that's why I went that way. The vacuum chuck is contains a porous aluminium (Metapor) insert and is itself held by vacuum with an o-ring seal for quick change. The motor has a rotating shaft, I drilled it but had to put the rotating body of the motor in a box for the vacuum connection, I also made a crummy shaft seal as the bearings were obviously leaky. The bowl is a water bowl for pets, I have a smaller plastic bowl with no bottom and a lip (formed with heat) to catch the resist and make cleaning easy. I don't bother ramping during but instead just drip on at full speed, it is the least wasteful method and seems to work.

You can reflash the ESC with firmware to enable and adjust braking.

Great video as always! I'm curious how you would tackle measuring how thick and how even your coating is in your shop..

I always wonder why the coating doesn't turn out uneven, since the centrifugal forces must be much lower near the center?

btw you can use these ESC controllers with some harddrive motors. works pretty well (if they have 3 pins)

I would like to see a infrared chemical analyzer, spectrometer I believe. Also a chemical analyzer using mass deflection of a ionized bead and Cl3D, as the solvent.

Your braking circuit resembles a 'crowbar' circuit, I believe... used in big audio amplifiers, to prevent DC from appearing across the speaker terminals when a fault happens.

Do you think you could make large dichroic filters using a similar setup or do you need to use a sputterer for that?

Very nice build. Thanks for sharing. :)

cooooooooooool !! Nice work Ben!

Great tip on how to mount the components! Where do you get the big chunks like that?

I wonder if a spindle for a hobby CNC would work, those can be had for $20-30 and likely have better torque (useful if your rotor or what you're spinning on it is heavier)

I'd add a MOSFET and load dump resistor to dissipate the regen energy, if necessary PWM the gate drive to control the energy flow.

a HDD is exactly what I was hoping to hear. I have been looking for something to do with my recently dead drive, this project is going to be fun //then again... an excuse to be a new motor is temping.

A system to control many high speed motors with precision? You're not planning on one-upping the nuclear boyscout are you?
Very cool project, I never would have thought to use RC parts for anything but RC.

neat build!

I know there is a way to balance that spinplate, but looking at the rpm readout, I think AvE did a video on that.

Great video, as always!

How about trying to coat it with graphene layer!!!
A couple of years ago there were scientists that coated a spinning regular CD with graphene layer, potentially turning it to a super capacitor. That would be really cool if you could make this, and also show how it looks on your Electron Microscope and investigate its properties!

Really nice video. Can you tell the difference in quality with a professional version?

Hey really like your series of videos. I work as a mechanical engineer in the high tech industry and want to make DOE's and CGH's at home. Could a spin coater like yours control photoresist layer thicknesses within 30nm? There are all kinds of fancy measurement devices to measure the thickness of these coating like atomic force microscopes. But is there any cheap solution to measurethis? Chromatic convocal sensors can do this, but that is not a cheap solution.

Very nice video! However, but I have a question regarding how you acquired the correct rpm speed from the ESC?

Could you try and make a really thin diaphragm like what's used in microphones? And then maybe testing the quality of it used in a microphone?

I was always wondering why spinning results in an even layer - shouldn't the coat become thicker towards the outside edge, because it flows in that direction?

Is there are reason to go trough all the effort of reprogramming just to spin the motor the other way?
You could use a relay to switch the leads around, reverse the motor or if that isn't fast enough some (high power) transistors.

Very neat!

How long can the motor run without propellers to cool them? Is there a process in the driver that will prevent the motor from overheating?

Thanks for making another great video.. i'm looking at making a spin coater as well, but im a bit stuck at the photo resist, can i ask what you think would be a good (low cost) photo resist for spin coating copper clad(pcb) ?

But brushless motors have parameter called kV- "This is short-hand for how fast the motor turns per volt". How ESC, in no sensor configuration, knows how many RPM motor is spinning? You put this value to ESC .hex file?