Electromagnetic Actuator

Often called a linear motor or voice/speaker coil, the electromagnetic actuator is versatile and relatively easy to design/build.

voiceCoilEquations.pdf55 KB

voiceCoilDesignTableV1.xls23 KB

voiceCoilV1.SLDASM500 KB

bobbin.SLDPRT193 KB

fluxPuck.SLDPRT129 KB

magnet.SLDPRT129 KB

stator.SLDPRT180 KB

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Step 1: Design the actuator you have always wanted.

There are two ways to do this: you may either go through the attached voiceCoilEquations.pdf, find all my mistakes, and develop your own magnetic circuit model, OR you can download the attached solidworks files and excel spreadsheet and just use the parametric model I have built.

mac.rodge says: Apr 13, 2013. 10:29 AM

Hi!
Nice work.
I want to design a actuator to lift 160 Kg load, with stroke of 20 cm.
Can it be possible with your method?

mac.rodge says: Apr 13, 2013. 10:28 AM

Hi!
Nice work.
I want to design a actuator to lift 160 Kg load. Can it be possible with your method?

Gambiarra Inc. says: Jun 13, 2012. 8:24 PM

Does this equations works with a 2cm or 3cm stroke?
I talked to my Professor about design and construction of these kind of actuators, and he said that it's not a trivial thing to do. Also, it's hard to achieve linearity and a long stroke.
And would you tell us where did you get the references?

Thank you!
And congratulations, it looks great!

balle75 says: Oct 14, 2009. 4:19 AM

Great article!

Is it important that the stator is in iron/steel? As far as I know theonly place where iron is important i for the flux puck, where you wantto concentrate and magnify the magnetic field.

What is the "throw"? The expected variation of the radialbobbin clearance?

corwin (author) says: Sep 25, 2011. 10:37 PM

Thank you.

The throw is the displacement of the actuator - the range of the actuator in the direction of actuation. There is a term in the excel file for radial clearance.

gateon says: Nov 19, 2009. 5:01 PM

if memory serves me right, an electromagnetic actuator in simple terms turns electrical energy into linear motion

imshanedulong says: Nov 17, 2009. 5:47 AM

You know, it kind of annoys me when people put mouseover note INSIDE mouseover notes. You can never read them!

cotton says: Nov 18, 2009. 2:28 PM

SAME!

kikiclint says: Nov 12, 2009. 8:38 PM

Thank you for the instructable. Some tips. The introduction needs to be a little clearer, since I am still not sure what this is used for. Only that it is versatile. Some kind of demonstration after it is finished would be great too. This would help to see what it is or does. You give lots of technical details, but not the kind of details which will help someone understand why you did it the way you did. I would love to see a revised version.

sneakyshitnl says: Oct 31, 2009. 8:08 AM

i think they use this thing for radars on ships.

balle75 says: Oct 14, 2009. 4:12 AM

What does it do? In my terms:

Actuator: An actuator moves other objects, see: http://en.wikipedia.org/wiki/Actuator

Stewart platform: A platform that can be controlled to move an objectthat is attached to it inn all directions: http://en.wikipedia.org/wiki/Stewart_platform

Vibration isolator: A mechanism that stops vibrations from beingtransfered to an object. For the stewart platform the ground can bevibrating, but the thing attached to it can be free of vibrations. http://en.wikipedia.org/wiki/Vibration_isolation

_soapy_ says: Jun 19, 2006. 6:31 PM

Where is step 5? Surely you want to say that you now put the two halves together, and wire the rest of the circuit up to control things? Anyway, the magnet containing half is pulled and pushed by the magnetic field generated by current flowing through the wire coil on the other half. If you short the two ends of the wire together, you will also have a stiff shock absorber, and with them apart you will have a floppy piston. A diode could be used to have a stiff shock absorber that relaxes back to position almost instantly.

strangebike says: Feb 13, 2009. 7:39 AM

so this would work for a car then ? coz to me it sounds like the perfect suspension damper.?

corwin (author) says: Feb 13, 2009. 10:35 AM

Some companies have considered voice coil dampers for vehicle suspensions, but they are not well suited because of their lack of low-frequency stiffness. Typically, active damping systems in vehicles are done with a variable orifice in a hydraulic system.

strangebike says: Feb 14, 2009. 10:27 AM

seems a shame as you could use them to add power back in to the drive system. I'm sure with the right filter setup the low frequency stiffness could be improved.

oxidase says: Feb 4, 2009. 5:46 PM

could someone explain to me what this thing does ?
thanks ^_

armageddon says: Dec 19, 2006. 6:06 PM

what the hell is this and what does it do? and can you tell us in simple terms please?

NetReaper says: Jan 27, 2009. 3:52 PM

just back away

InsaneSam373 says: Aug 18, 2006. 9:51 PM

i like it it was funny on step 5 when he was like put no bacon or any type of food on it:) great instructable!!! VERY CLEAR

thermoelectric says: Aug 10, 2008. 12:50 AM

Step 5?

vitruvian8807 says: Aug 8, 2008. 12:33 PM

Uhmm, are these all the steps?

corwin (author) says: Aug 8, 2008. 1:48 PM

more or less - what is confusing?

vitruvian8807 says: Aug 9, 2008. 10:35 PM

hmm, wow, I thought I knew enough about electronics and stuff, but I really don't know much by looking at this. I have some idea of what it does, but not enough knowledge to build it. I may be Bright, but not a Genius.

thunderw says: Mar 27, 2008. 11:24 AM

where is the diagram and what software do you use to view it

corwin (author) says: Mar 27, 2008. 1:09 PM

The diagram is the sldasm file - view it in solidworks.

ven says: Feb 24, 2007. 8:30 PM

Is the magnet magnetized diametrically or axially? also, do the north and south pole positions matter? Thanks

corwin (author) says: Feb 24, 2007. 10:31 PM

Magnetization is axial. North and south pole positions do not matter unless you only want to go in one direction.

ven says: Feb 25, 2007. 10:27 AM

Have seen a design with magnets magnetized radially, south pole facing outside
http://www.beikimco.com/appguides/BEIKimco-VCA-AppGuide2002.pdf#VoiceCoilActuators.

Your axially magnetized magnet (north and south poles through thickness) are easy to purchase, while radially magnetized seem impossible to find. Maybe they are special made.

Are there other advantages in one design over the other?

Punkguyta says: Feb 3, 2007. 10:16 PM

Would it be possible to wind the core with a finer gauge of wire to add a bit more strength/accuracy?

corwin (author) says: Feb 3, 2007. 11:33 PM

Accuracy is independent of wire guage (to reasonable limits). The force that the actuator is able to create is also largely independent of wire guage. The force is dictacted by the size/strength of the magnet and the geometry of the gap. The wire guage controls the relationship between voltage and current - e.g. a larger guage wire will operate at a lower voltage but will require a higher current. Hence, choose your wire guage based on what your drive electronics are happy to supply.

Punkguyta says: Feb 4, 2007. 4:16 AM

Ok, makes sense. So have had any succesful experiments with this with either salt or water?