Need advice for my toroidal core dimensions

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treemon

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I am in need to build a 5kw inverter based on EGS002, for which I am first building a toroidal transformer, I got the toroidal core manufactured & delivered from a vendor.

Having no prior experience in doing this, I just used an android app called TransCalc to calculate core dimensions (and winding data), now I feel like core is bit awkward shape more like a ring.

My core dimensions are (mm)
OD=220
ID=150
Height=100

Weight 16kg
Material CRGO

I feel I had given too big ID, but I had to do because app told me to do so, large ID so large window area, which made core to transformer more power. According to calculation this can transfer almost 5kw..

Now I am little in dilemma whether to go ahead with this core, further put effort and also money on copper wires, already plenty of money is spent on core.

My main concern is, this look somewhat different from cores that companies are using in their inverter, should the core have a particular "form" for better efficiency, I mean the ratio of ID/OD/H must stick to some guideline?

I need suggestion from eda members, guide me whether if this core design is horribly wrong in that case I will not go ahead with this core, or if the core sizing s fine...please tell me.
 

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Just to give you a better "feel" for selecting some suitable wire.

There is a formula for calculating the stiffness of steel coil springs.
If you look at that, you will find that stiffness increases by the FOURTH POWER of wire diameter.
A very slightly thicker wire increases the stiffness by an enormous amount.

There is a very narrow window for copper wire diameter that is both useful to us and tolerable to wind.
The thickest wire that is borderline user friendly would be 1.8mm diameter and will carry ten amps.
If you do have a choice, go for 1.8mm diameter.
Anything less than about 1.5mm diameter is really too thin.
Copper of 2.0mm or more is really nasty stuff to work with.
 

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Warpspeed said:
A very slightly thicker wire increases the stiffness by an enormous amount.
Click to expand...
Umm... I see

Warpspeed said:
Copper of 2.0mm or more is really nasty stuff to work with.
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How about AL, If aluminium easier to bend than copper...

I am also exploring submersible pump winding wires, they have thick coating and it will be easier to source them.
 

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This is why the hook winding towers are used by manufacturers of larger toroid based Cu-steel transformers,

they routinely wind up to 4mm dia without too many issues

We hand wind in the factory up to 2.24mm, often 4 or more in parallel - but there are jigs to assist.

Leaving copper aside and moving to Al:

Even if you could get the Al wire in an un-used state - winding such large wire areas will be an issue - Aluminium does not like being bent more than once.

Also you have not set out the low voltage winding current or voltage as yet .... ?
 

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I have zero experience with aluminium wire, so cannot really comment.

Hand winding on a straight round conventional transformer bobbin is a lot easier than hand winding through the hole in a toroid.
I am sure large and powerful machinery can do wonderful things, including winding very thick wire through a small toroid. Doing it by hand, especially with used wire makes it a bit more difficult, especially if its a very first attempt.

When you have your wire I can give you a few hints on how to straighten it and make a large diameter "hoop" for winding a long continuous length of wire onto your toroid with least drama.

Low voltage winding is something we can look at later. At this stage obtaining wire and planning and winding a secondary will be enough to keep you fully occupied for quite some time.
 

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Easy peasy said:
Even if you could get the Al wire in an un-used state - winding such large wire areas will be an issue - Aluminium does not like being bent more than once.
Click to expand...
Yes
Easy peasy said:
Also you have not set out the low voltage winding current or voltage as yet .... ?
Click to expand...
LV side windings will not be a challenge even with amount of large current, because turns are fewer and I think I can use any type of wire, they also need not be insulated, there will be large gaps between each turn.... There are many possibilities.
Yes, problem is most sellers are not selling less than standard 21kg bundle, but if I visit any metro city then I will have options...

There is no good alibaba like market place here, in retail website like amazon etc they dont list lot of industrial items..

If one buys them online then the quality concern maybe there because so many copper brands exist of varying purity.

I do have 10meter, 2mm sample cu wire, and yeah they are very stiff..

Is it possible to use regular household copper wire for winding HV side? But they have thick insulation plastic with may inhibit electric field.
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Warpspeed said:
When you have your wire I can give you a few hints on how to straighten it and make a large diameter "hoop" for winding a long continuous length of wire onto your toroid with least drama.
Click to expand...
Yes... That will be a great help
 

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Regular household wire will probably have low temperature thermoplastic insulation. A current density of four amps per mm sq will run only slightly warm under average household loads, but at sustained 5Kw it will run pretty hot.
Not such a problem in the thick primary, because its on the outside, and the thick wire will have plenty of large air voids between and around turns.

The secondary will be closely wound in several layers, with much less opportunity for natural air cooling.

Here is a picture I found on the internet of a fairly typical home made inverter transformer using two stacked toroids, and plastic insulated battery cable used as a primary. Its quite normal practice.
The secondary really needs proper high temperature (200C) copper transformer wire.
 

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Warpspeed said:
sustained 5Kw it will run pretty hot.
Click to expand...
Okay

Warpspeed said:
The secondary will be closely wound in several layers, with much less opportunity for natural air cooling.
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Yes, thats true...


Thats what I planned to do with primary, after I seen these type of windings are frequently found in large ferrite inductors..
--- Updated ---

Easy peasy said:
Leaving copper aside and moving to Al:
Click to expand...

If you check above link, 3.5mm AL wire, it seem to have varnish layer... But I am not fully confident how good is insulation. Problem is I have to go with what is available.... Or wait long ...
 
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That Bonsai wire "for home and garden" is structural wire, and I am sure it is very stiff and strong too !
I would place little faith in the insulation properties of that.
Sorry, but I just cannot raise any enthusiasm at all for aluminium wire.
I suppose you could always request a sample.
 
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Also - that AL wire will not be 99.85 % pure and will work harden even worse that good AL wdg wire

as above - a tiny nick or scratch during wdg could cause a shorted turn
 
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Okay... Then maybe I go with standard 21 kg copper spool, I am up for stockpiling industrial metals for future needs, specially when currency is depreciating, but what else use can be there for a 1.8/2mm copper wire, I can utilize no more than 6kg in my transformer.
--- Updated ---

Easy peasy said:
Also - that AL wire will not be 99.85 % pure and will work harden even worse that good AL wdg wire

as above - a tiny nick or scratch during wdg could cause a shorted turn
Click to expand...
Okay... So basically thick AL wires are risky as coating could torn when bending them, its due to too much stress in that area...specially with thick wire.
 
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There must surely be companies in India winding transformers, or rewinding generators, alternators, and motors.
You might be able to do a deal.
How about copper wire from China ?

I think you might regret trying to wind anything thicker than 1.8mm by hand.
 

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Warpspeed said:
There must surely be companies in India winding transformers, or rewinding generators, alternators, and motors.
You might be able to do a deal.
How about copper wire from China ?
Click to expand...

Usually motor windings motors do not have more than 1mm, for example 1hp submersible pump they are using 1mm copper. Many Chinese websites are banned in India, there are few known trusted brands for copper but when you are ordering from china thats not the case.

Before this inverter I had an inverter of chinese make cnswipower, 1500w high frequency type, within an year of use, interver failed, and failure was catastrophic across so many components including spwm driver not just mosfet, I could never repair it.

Then I decided to build my own...

Warpspeed said:
I think you might regret trying to wind anything thicker than 1.8mm by hand.
Click to expand...
Yes, Actually I have a sample 2mm copper wire and its very hard.

One seller who is selling 21kg spool said his Brand is "bentex" an imported brand, have you heard of it?
 

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Proper commercial Litz wire is expensive and difficult to obtain, and its very difficult to strip and tin every individual strand. Home made parallel strands where there are only a very few strands, are a very different thing.

Businesses that deal with rewinding motors and transformers, and other similar work, that have been in operation for a few years, will carry a massive stock of odd sizes and lengths left over from previous jobs. They will usually always be more than happy to supply you what you need.
They buy wire in bulk to get a good price, and what is left over is just dead inventory and can sit unused for a very long time.

I have a friend I have known for years that runs a business like that. If I need something he lets me take away whatever is left on one of the the large plastic drums, weighing the whole thing first.
He weighs it again when I return what remains, and he charges me only for what I used.
Its a good and convenient arrangement for both of us.
 
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romychaj said:
its the same as magnet wire (150-200°c). you can make it yourself
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How to make it ? And insulation
This week I will go and search in local market, explore what they have. I am sure 1.8mm submersible wires will be available but it doesn't have enough temperature resistance because they are designed to be kept inside water... Enameled copper wire above 1mm is difficult to get because use case is rare.
 

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