| DIY 70" ribbon - Click HERE for Original Thread |
| Rob Dingen |
Hi
I want to build a 70" ribbon but don't have any experience at all.
Read the topic's from dhenryp and valveitude and read a lot of tips from lineSource.
What would be the best mechanical motor to build with respect to acoustics and flux densety in the gap.
What hapens if you make the diagram wider than 17mm (20Khz)
Which thickness aluminium foil do I need with this project in metric please or what are the compromises.
Mechanical construction is no problem.
I already order 220 Neo N42 magnets from 40x20x10mm.
So I have to start from scratch or just build the same as Valveitude or dhenryp.
I can't find the ribbon from linesource.
Rob |
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| valveitude |
Hello Rob,
| quote: | | Read the topic's from dhenryp and valveitude and read a lot of tips from lineSource. |
The answers to ALL of your questions are in those threads. I realize they are both very long, but the info is there. I highly recommend that you go through them again and copy/paste the important data into a document for easy reference. I would also suggest you download FEMM and start playing with it before you do anything else.
Please understand that the forces involved with the size of Neo magnets you have when you add them together in a frame are tremendous..be careful and have fun.
Casey |
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| Rob Dingen |
Hi Valveitude
I downloaded FEMM but have some difficulties to understand how I should draw.
Also don't understand your drawing because it doesn't look like your build.
Can you put your file online so I can see how you did it.
The thickness of the foil you all talk about are always in inches?
And what I read is 0.0005" the thinnest to work with without tearing it apart.
Also see the drawings of the 2 optional motors with or without Iron crossbars but are there other better options.
If you start all over what should you do different.
Rob |
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| valveitude |
| quote: | | I downloaded FEMM but have some difficulties to understand how I should draw |
The built in CAD stinks with FEMM. Use a seperate CAD program and import the DXF file..I use AutoCad but there are plenty o 2D freeware programs available.
| quote: | | Also don't understand your drawing because it doesn't look like your build. |
FEMM is a 2D program so you have to dimension the pieces so the cross section is the same as the pieces you are going to use. Review my thread for a more complete explanation.
| quote: | | Can you put your file online so I can see how you did it. |
If I can find it. I upgraded my PC since then and am not sure where the files are.
| quote: | | The thickness of the foil you all talk about are always in inches? |
Nope...it's in microns.
Casey |
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| Rob Dingen |
Hi
I did some simulations in femm and used the ribbon calc program for spl calculations.
At first I don't trust Femm if you draw the front of the magnet motor but I trust the top view drawings more.
But they are also not perfect.
I think that you have to start somewhere so this is it.
All gaps are 20mm and magnets are 10mm x 20mm N40.
Tesla in the gap from A and B are the same 0.44-0.52T from C its 0.35-0.40T.
Difference between AB and C is about 0.1T
I run the ribbon calc simulation and found out that the difference between 0.375T and 0.480T for a ribbon of 1,8meter long and 20mm wide and 10,5micron thick are about 2dB.
So the difference between A and C in Tesla is about 30% witch yield in only 2dB.
You need to double the Tesla to get 6dB more spl and if you double the ribbon you get 3dB.
For acoustical reason I prefer C and B.
For C front and rear are the same and for B almost except at places where the vertical bar is behind the ribbon.
For construction I also prefer B because of the stiffness of the 100mm wide bar its almost impossible to bend due to the forces of the magnets so the gap difference is less along the length.
I think that I build all 3 at a length of 30cm and do some acoustical measurements and decide which on it will be.
Maybe I can get a gaus meter to measure the tesla in the gap of those 3 examples.
Rob |
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| Rob Dingen |
Hi Casey
Do you now this fore shure?
I think that if you use say 1" wide magnets and a iron bar 4"x1" that you have to draw 4" wide iron in Femm.
If you have 0,5"x4" iron than you have to draw a 2"wide iron in Femm.
So it should be related to the wide of the magnet.
What I read it draws 1mm deep.| quote: | Originally posted by valveitude
FEMM is a 2D program so you have to dimension the pieces so the cross section is the same as the pieces you are going to use. Review my thread for a more complete explanation.
Casey |
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| valveitude |
| quote: | | Do you now this fore shure? |
Pretty sure ;)
You are interested in cross section area. If the real world piece is 1"x4" you have 4 square inches so you would model a 2" wide piece. If you have a piece 1/2" x 4" you have 2 square inches and would model a 1.414" wide piece.
FEMM assumes the depth=width.
This procedure has worked for both myself and dhenryp with very close results with the final product.
Casey |
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| Rob Dingen |
Hi Casey
I'm stubborn so I think you are wrong or maybe I am but please look at my examples.
I do this in millimetres with your ribbon as an example.
You use 100mmx20mm side bars and 10mmx20mm magnets
100x20=2000 correspond with 45mmx45mm
20x10=200 correspond with 14mmx14mm
ratio 1:10 magnets and iron
If I draw this in femm then the iron is over saturated and the strength in the middle of the gap is 0.684
Gap is 15mm wide and 240mm long.
Now if I draw it with a 20mm dept (you can change this in the problem definition).
I draw the magnets 10mm wide and the Iron 100mm the ratio magnet iron are still 1:10
The Iron is not nearly over saturated and the middle of the gap is 0.717
Gap 15mm wide and 240mm long
If you calculate only with cross sections from the iron bar then you change the 1:10 ratio.
So if you are right then I need bigger Iron bars then you did.
If I'm right I can use smaller pieces of iron.;)
I'm on holiday at the moment so I have a lot of time to simulate and think about it maybe to much.:D
When back I try to find someone who know a lot about this subject.
Over here we have a very big magnet supplier and they have the knowledge but I don't now if they want to help.
Rob |
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