No video

Stepper Drivers: Simplified!

  Рет қаралды 7,527

eddietheengineer

eddietheengineer

Күн бұрын

Пікірлер: 48
@ldomotorsjason3488
@ldomotorsjason3488 Жыл бұрын
Thanks great video about stepper motor!
@andys4777
@andys4777 8 ай бұрын
A very profound analysis of practical side of things, but it would be really nice to have an RPM scale and figures for those of us who aren't familiar with voron's rps to mm/sec ratios and I think RPM is a more universal platform independent term anyway
@nickburrill691
@nickburrill691 5 ай бұрын
Yes or at least let us know what your rotation to mm ratio is :)
@realcrys
@realcrys Жыл бұрын
This video is amazing. I had a rough understanding of how steppers work, but this makes it so clear and easy.
@ebrewste
@ebrewste Жыл бұрын
This is a love letter to stepper motors and understanding in general.
@harjoat
@harjoat Жыл бұрын
Elegantly explained, as always. Thanks for your content Eddie :)
@edriyin
@edriyin Жыл бұрын
Great investigation Eddie. Thanks for the clear instruction about very basic and important topic.
@brendanm720
@brendanm720 Жыл бұрын
Very interesting. Thank you for explaining this.
@stefanguiton
@stefanguiton Жыл бұрын
Excellent work Eddie!
@highspeedpiTV
@highspeedpiTV Жыл бұрын
Nice! Keep up great work as always!
@MrJofArnold
@MrJofArnold Жыл бұрын
Thanks so much. Discovered the channel via Vez and the VzBot Discord. Very clear explanation. Looking forward to the next one!
@Nevax_
@Nevax_ Жыл бұрын
Thanks you for sharing your knowledge! Looking forward for future videos, especially klipper config tuning.
@eddietheengineer
@eddietheengineer Жыл бұрын
Thanks for the comment! I'm having fun playing around with driver settings and am looking forward to getting a video out about it once I understand the settings a bit better.
@michaeleitel7186
@michaeleitel7186 Жыл бұрын
Good explanation One additional factor when running fast is the jitter that is getting enoyand when using software puls generation. That gives U earlier stalls In higher quality cnc control U use therefore fpga as puls generators. In higher speeds you can even hear the more equal generation Looking forward to more of your videos
@eddietheengineer
@eddietheengineer Жыл бұрын
That’s a really interesting thought! Thanks for sharing-maybe I need to probe the step pin to see how consistent the stepping signal is
@jzagaja
@jzagaja Жыл бұрын
I don't understand why why rely on Nema 17 and tiny drivers. For a pellet extruder we need torque (10Nm) and current so that tiny drivers are no go? Or we can generate that torque with Nema 17+ 1:10 using external drivers and high current +water cooling? 1:15 and 1:20 would limit the output. Robot joint motors (BLDC+reducer) can generate 10Nm having much smaller weight?
@eddietheengineer
@eddietheengineer Жыл бұрын
That’s a great question! With 3d printers, NEMA17 motors actually have plenty of torque, we are rarely using more than 10-20Ncm (I believe-I’d have to refer back to the calculator). You can see the application of this by realizing that with existing motors and drivers some people are able to do travels with 80000mm/s acceleration or even higher-most people stay well below 10000, as the rest of the system/stiffness apart from the motors themselves are the limiting factors
@Lantos1618
@Lantos1618 Жыл бұрын
I'm wondering why a tiny tmc5160 can power a 48v stepper motor when large stepper motors are normally sold with those big box styled stepper drivers
@eddietheengineer
@eddietheengineer Жыл бұрын
That's a great question! I believe the larger stepper drivers are large not due to voltage requirements as much as due to current requirements. NEMA23+ motors require a LOT of current and that current drives larger components/heat.
@Lantos1618
@Lantos1618 Жыл бұрын
@@eddietheengineer Cool thanks for the reply however I think it might just be down to market separation and disconnect of knowledge. It seems that it might just be because nema17 is being marketed for 3d printers, TMC marketed the TMC2209 to 3d printers however 3d printer people are moving to higher requirements and using the TMC5160 because of the higher operating voltages. Nema 23+ motors are targeted to CNC machines (mills, lathes). This market has been using the black box style like the DM556T for years and it is baked in. This market is use to dip switches and pulse input. The software for CNC machines like Mach4 interfacing with serial breakouts that connect to the pulse on the DM556T rather then the UART on TMC's. I've come to this reasoning because TMC5160's can handle a Nema34 motor as they have a peak operating voltage of 60V and 20A(external mosfet) while the DM556T can handle 50V, 5.6A. So by the looks of it the TMC5160 might actually be able to handle a higher operating wattage. Maybe some of the drivers like the DM556T are using TMC but for some reason I doubt that. I think it would actually be a sick video if someone did a larger stepper motor running with TMC vs DM556T or similar. My guess is that some 3d printing guys will move onto the Nema23+ to get insane speeds in the near future.
@Flyrockets
@Flyrockets Жыл бұрын
Great video and explanations!
@pouriaaghazade3720
@pouriaaghazade3720 9 ай бұрын
Excellent
@pham3383
@pham3383 2 ай бұрын
i have a question the nema 23 stepper current at 3A-48v also has the same phenomena as you when reaching 800mm/s(saw tooth-y current) my only explaination is because the motor coil is missing the rotor at lower Voltage and start to catch up at high voltage? also i am using full step setup,and fast decay behavior cannot be seen from the chart anymore,do anybody knows why,please give me some material regarding this? anything else?enlighten me please?
@CncMAC
@CncMAC Жыл бұрын
Great video.
@nunovicente34
@nunovicente34 11 ай бұрын
Awesome video man! So much good information 💪🏻 So from what I understood the microsteps value has no affect on max current/torque the stepper can supply?
@sivisjoe9877
@sivisjoe9877 Жыл бұрын
Some users told me that high-quality motors are magnetically charged after assembly, and once the motor is disassembled, the magnetic force will be lost. I don't know if this is correct
@eddietheengineer
@eddietheengineer Жыл бұрын
I've heard similar things to "don't ever disassemble a stepper motor" which is why I picked an old stepper motor I knew I would never use again to disassemble for the video!
@Leo_Wolf_the_engineer
@Leo_Wolf_the_engineer Жыл бұрын
You must be a PowerPoint wizard xD
@eddietheengineer
@eddietheengineer Жыл бұрын
I wish! Haha. Most of the animations were hacked with python
@hakkaisha
@hakkaisha Жыл бұрын
Thanks, verry interesting! Would it be a correct conclusion that 24v I holding back our stepper motors speeds? Did you notice any increase in how hot the motors became at higher voltage?
@eddietheengineer
@eddietheengineer Жыл бұрын
Yes and no! You can go faster with 48V, but often times 24V is already fast enough 😄 like in the example in the video, not many people are printing faster than 1000mm/s, so 24V is probably plenty for the motor shown! But other motors may still benefit from 48V (like 0.9 degree steppers). For motor temperatures, they definitely are higher at 48V! A component of that I believe is due to the voltage itself, but a significant part is just because the motor can go faster and the driver can push more current at those higher speeds! So the total power at higher speeds increase substantially
@daliasprints9798
@daliasprints9798 Жыл бұрын
​@@eddietheengineer You need some nice motors or big pulleys to do 1000 mm/s with 24V...
@hakkaisha
@hakkaisha Жыл бұрын
Thanks for great answer, very interesting, love your content!
@qcnck2776
@qcnck2776 Жыл бұрын
Hi Eddie-truly-the-Engineer, thanks for a great video😀. I have a couple of questions. 1. How does the fast decay help? Since the current continues to decay even further in the second slow decay phase? 2. Can the driver put out a higher max voltage than the voltage it is being supplied? I heard someone saying that the drivers have a boost converter, and will determine the output voltage based on the current needed. In your analysis, I see the driver using a constant voltage and simply chopping the duration.
@eddietheengineer
@eddietheengineer Жыл бұрын
1. That’s a great question! I think fast decay helps if the current needs to decrease faster than it would naturally-but you’re right! Theoretically the fast decay phase could be selectively used only during the 2nd and 4th full step where the current is decreasing towards 0. 2. That would be interesting! So far I’ve only seen stepper drivers like the one I have here, which just passes through the input voltage to the stepper driver.
@qcnck2776
@qcnck2776 Жыл бұрын
@@eddietheengineer Thanks for your replies, Eddie. I too have not seen any drivers with a boost converter, but the person who said that wrote with great confidence 😆, and I know for certain that I don't know everything about stepper drivers. Appreciate the content!
@dmitrybutyugin3857
@dmitrybutyugin3857 Жыл бұрын
TMC drivers also support slow-decay-only mode, called 'Classic Constant Off Time Chopper' in their docs. However, this mode requires rather precise tuning. This is because during slow decay phase the current does not flow through R_SENSE, and so the driver cannot measure the current through the winding and does not know when to turn back on. You need to configure that off time correctly. For spreadcycle you are still expected to provide some reasonable hysteresis parameters, but since the driver can measure the current during fast decay phase, it is a lot less sensitive to precise tuning as it can do adjustments itself. Then, fast decay phase reduces the total length of ON->SD->FD->SD control cycle (since slow decay phases are shortened), thus allowing faster step rates and less noise (basically, the frequency of that control cycle can be pushed into 30+kHz, inaudible by human ear).
@eddietheengineer
@eddietheengineer Жыл бұрын
@@dmitrybutyugin3857 thanks for that context! That’s really interesting
@qcnck2776
@qcnck2776 Жыл бұрын
@@dmitrybutyugin3857 Thanks so much for the explanation. Very helpful.
@vinnycordeiro
@vinnycordeiro Жыл бұрын
Great content as always, but you made a minor mistake: 16:14 & 16:46 - You said "a hundred mm/s" when you actually intended to say "a thousand mm/s"
@eddietheengineer
@eddietheengineer Жыл бұрын
Thanks for catching that!
@sivisjoe9877
@sivisjoe9877 Жыл бұрын
Thanks for your expertise, I'm curious if microstep reduces motor torque?
@eddietheengineer
@eddietheengineer Жыл бұрын
Not really! That's why the simulation showed that the blue line (vector) was a circle--even with microstepping the magnitude of the vector was constant. However--that does not mean that microstepping will always be more accurate or precise than full stepping. At peak torque load, both full stepping and microstepping will have a deflection of 1 full step, regardless of the microstep setting.
@x_jaydn
@x_jaydn Жыл бұрын
Can the lack of current when increasing microstepping at high speeds also affect speed/feed rate or is only torque as mentioned in this video I ran into a weird issue on Marlin Firmware where the speed/feed rate decreases when I increase the microsteps from 16 to 32, 64, or even 128 (Steps/mm also to match) The bed dimension ie min and max are still respected, but the speed/feed rate has been decreasing phenomenally, almost at the same factor/ratio that I'm increasing the microstepping by
@x_jaydn
@x_jaydn Жыл бұрын
Oh, also, I forgot to mention. I'm using TMC2209 drivers
@eddietheengineer
@eddietheengineer Жыл бұрын
Thanks for the comment! For Marlin firmware (at least the last time I used it! it's been a while), you need to update the steps per mm every time you change the micro step setting. Effectively--the steps per mm is "micro steps per mm" so if you change microsteps from 16 to 32, your M92 steps per mm will have to double! Klipper used to be this way as well, until it switched to "Rotation Distance" as a more general level of abstraction. It handles the micro step change internally so that no matter if you are using full stepping, half stepping, or 128 micro steps, the distance traveled will remain the same.
It's Stepper Motor (Dyno) Time!!
31:46
eddietheengineer
Рет қаралды 9 М.
How Fast Can Your Printer Go? Stepper Motor 101
23:49
eddietheengineer
Рет қаралды 45 М.
Magic? 😨
00:14
Andrey Grechka
Рет қаралды 20 МЛН
女孩妒忌小丑女? #小丑#shorts
00:34
好人小丑
Рет қаралды 83 МЛН
Unveiling my winning secret to defeating Maxim!😎| Free Fire Official
00:14
Garena Free Fire Global
Рет қаралды 9 МЛН
What Killed this $99 Servo?  A Postmortem
20:54
Clough42
Рет қаралды 245 М.
Stepper Motors and Back EMF Webinar
46:48
Monolithic Power Systems | MPS
Рет қаралды 3,1 М.
Turn any DC Motor into a Servo Motor
25:24
How To Mechatronics
Рет қаралды 285 М.
LDO Super Power Stepper Motors - First impression
29:06
Vez3D
Рет қаралды 58 М.
Stepper Motors Advantages and Disadvantages
15:31
RealPars
Рет қаралды 142 М.
What You Need To Know Before Buying A Boost/Buck Converter
14:11
How to Choose the Fastest Motors for your 3D Printer
12:36
Matt The Printing Nerd
Рет қаралды 22 М.
Magic? 😨
00:14
Andrey Grechka
Рет қаралды 20 МЛН