New member lots to learn

[chillybo]

Okay, time for me to pay a bit of my debt forward.

1) Stepper motors have a sweet spot on Voltage. In reality it is a sweet band of voltage that will allow it to operate at it's highest speeds while keeping accurate steps. The formula for that is one of two they are as follows (with examples):

A) \sqrt{I} * 1000. Where I = the inductance of the motor (normally in milliHenries) Which would look like this for an equation 3.2mH 0.032 \sqrt{0.0032}*1000. That equals .0565685 * 1000. Which gives you a rough voltage of 56.57V for optimum usage of the current that the motor will demand. Thereby avoiding coil saturation and the problems that is caused by that issue.

B) \sqrt{I}(ignoring mH) * 32 (interestingly very near the square root of 1000). That get you this \sqrt{3.2}*32. Which gets you 1.78885*32 and that in turn gives you 57.24V as a safety margin. Both of these equations where written to include safety margins. Studying the engineering texts of the 1920's to the 1950's is fun. Brain draining but fun. The electrical texts need a glass of wine or two for those who are not well taught in the various strangeness that is electricity. I hold a full permit from the UK government in amateur radio and still take a glass of wine ( The UK is considered to have one of the toughest amateur radio tests for intermediate and full license permits).

So the above will help you with the Voltage. Current is another issue completely. A motor is under it's heaviest load in two main conditions. First is when it is holding a position against other motion going on (Cutting a straight line and the non cutting axis holding it's position accurately). The other is when under full dynamic load. That area i will leave to someone who understand that side of the motor better than I. As it happens during cutting but not all the time during cutting and is something that I under the function of better then the physics of.

Limits switches and such should be shielded. Full stop. I have dealt with the nightmare of them not being shielded it is not worth it. Also if possible run at 12 to 24 volts (24V is better, as less chance of stray signal noise affecting the switches and giving a false trigger.

While you are thinking about this realize that your tooling expenses can easily reach to over half the amount you put into the machine and many times much more. Don't cut corners on quality with bits it will affect your finished product.

Power Supplies can be bought or built. RSGB (Radio Society of Great Britain) has a couple of really good books on building them and there are folks here who can help as well as well as diagrams on some of the build threads. While it requires safety and understanding it is NOT as difficult as many think it is. Link to their shop page here: https://rsgbshop.org/acatalog/Online...chnical_6.html

I hope this helps you and anyone else that needs a hand on setting things up. I had a lot of help from folks here and a few other sites and paying it forward is the best I can do.

Thank you very much Michael for explaining this.
The inductance of my nema 34 stepper motors is 3.4 mH and I have 3 of these (two will be slaved). I also have a 4nM nema 23 to move the z axis up and down this is rated at 3mH. As for the nema 34 motors using the calculation this works out at 59 volts. The closest voltage output of a power supply i can find is 60v

https://www.zappautomation.co.uk/ele...-ac-input.html

My question is would this be suitable to run the three Nema 34 steppers and will I need a separate PSU for the z axis?
Regards ...Chris

[m.marino]

Okay, Power supplies the other pain in the backside.

If you go with a switching PSU as you have in the link then you need to have between 150 to 200% of the required current for the motors available. This gets expensive rather fast and is one of the areas folks cut corners often and wonder why they have issues. On the other hand IF you go with a Toroidal transformer you can get away with as little 50% of the required current available (microstepping makes this an even more real option as the amount of current on demand rarely ever reaches full capacity). The other advantage of most unregulated Toroidal transformers is they handle back EMF much better then their switching PSU counter parts (which is one of the reasons for the increased current requirements).

60V will do just fine and you could get away with 48V with a huge loss in available torque. Which would bring the costs down on your PSU. If you go with 60V as your PSU it won't cause any issues as long as you are not pushing it extremely hard and just adding some passive cooling will help deal with the minor heat issue that might develop. I am no an EE and have built my own PSU's and more then a passing background in electrical equipment due to being in amateur radio (Full permit). So I would strongly suggest taking the time to sit down and read and learn a good bit before buying your PSU or building it.

Michael

[chillybo]

Okay, Power supplies the other pain in the backside.

If you go with a switching PSU as you have in the link then you need to have between 150 to 200% of the required current for the motors available. This gets expensive rather fast and is one of the areas folks cut corners often and wonder why they have issues. On the other hand IF you go with a Toroidal transformer you can get away with as little 50% of the required current available (microstepping makes this an even more real option as the amount of current on demand rarely ever reaches full capacity). The other advantage of most unregulated Toroidal transformers is they handle back EMF much better then their switching PSU counter parts (which is one of the reasons for the increased current requirements).

60V will do just fine and you could get away with 48V with a huge loss in available torque. Which would bring the costs down on your PSU. If you go with 60V as your PSU it won't cause any issues as long as you are not pushing it extremely hard and just adding some passive cooling will help deal with the minor heat issue that might develop. I am no an EE and have built my own PSU's and more then a passing background in electrical equipment due to being in amateur radio (Full permit). So I would strongly suggest taking the time to sit down and read and learn a good bit before buying your PSU or building it.

Michael

Thanks Michael. Ive started my research by watching this
https://www.youtube.com/watch?v=lTtYkofw-Jg
The search continues for an unregulated toroidal PSU
Regards Chris

[Clive S]

Thanks Michael. Ive started my research by watching this
https://www.youtube.com/watch?v=lTtYkofw-Jg
The search continues for an unregulated toroidal PSU
Regards Chris

Take a look at Joes build and power supply https://www.youtube.com/watch?v=4OoQ...zD30sZjtp_VyqY

[chillybo]

Take a look at Joes build and power supply https://www.youtube.com/watch?v=4OoQ...zD30sZjtp_VyqY

's
Thanks Clive, I've watched a lot of Joe's Youtube videos. He has put a lot of work into his machine. If I was to build my own unregulated power supply to match my Nema 34's (4.6nm) that each have 3.4 mh inductance I have worked out that the 'sweet spot' voltage would be around 59 volts. Should I be looking at something like this when I buy the toroidal transformer.
https://www.amazon.co.uk/dp/B00MWQDI...4-e511ab4d5346 ? or this that has a higher current (and price) https://www.amazon.co.uk/dp/B00MWQDO...1ab4d5346&th=1
Then the two 30 volt outputs would be connected in series to give 60 volts. I've looked at a few Youtube tutorials but i've still got lots to learn.
Regards Chris

[m.marino]

Chris you might want to look here:
https://airlinktransformers.com/cate...60%2B60&va=500

As the prices from Amazon are a good bit higher then theirs and they are UK based. So you might want to check them out. Save you a good bit of money as well as have a UK based company to back the quality of build.

Michael

[chillybo]

Chris you might want to look here:
https://airlinktransformers.com/cate...60%2B60&va=500

As the prices from Amazon are a good bit higher then theirs and they are UK based. So you might want to check them out. Save you a good bit of money as well as have a UK based company to back the quality of build.

Michael

Thanks Michael for pointing me in this direction I did a bit of a google search but did not find this company. They certainly have a wide range of products that are competitively priced. I'm sure I will be using them. I have just watched this Youtube material to expand my knowledge. https://www.youtube.com/watch?v=CAYKno16weE
The chap seems to explain thing quite clearly.
Regards Chris

[Clive S]

's
Thanks Clive, I've watched a lot of Joe's Youtube videos. He has put a lot of work into his machine. If I was to build my own unregulated power supply to match my Nema 34's (4.6nm) that each have 3.4 mh inductance I have worked out that the 'sweet spot' voltage would be around 59 volts. Should I be looking at something like this when I buy the toroidal transformer.
https://www.amazon.co.uk/dp/B00MWQDI...4-e511ab4d5346 ? or this that has a higher current (and price) https://www.amazon.co.uk/dp/B00MWQDO...1ab4d5346&th=1
Then the two 30 volt outputs would be connected in series to give 60 volts. I've looked at a few Youtube tutorials but i've still got lots to learn.
Regards Chris

If I understand correctly you are building a 1200x600 router. if so I personally think you are going way over the top with nema 34 motors and way over the top with the 1000Kva toroidal my router is 1600x1000 using nema 23 and a 500kva toroidal . running 68 v. I can easily get 10mtr/min rapids.

[chillybo]

Hi Clive I'm sure your right about how nema 23's would have been more than sufficient. I think my choices could certainly have been better but at the time they were based on an eagerness to get started combined with limited time to research due to other study and work commitments. Also I intended to build a slightly bigger machine but later decided to scale it down. I am now in position where I am committed and can't change where i am with the project so I want to try and make it work as best as possible with the assets I have. I am pondering how other than overspending are there any detrimental effects that I can expect from using nema 34's on my machines functionality?
Regards Chris