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Registered Member #2431
Joined: Tue Oct 13 2009, 09:47PM
Location: Chico, CA. USA
Posts: 5639
I need help making some decisions regarding my most recent MOT aquisition.
Background: I have determined the "as manufactured primary" is 103 turns, the label stated 120Vac, at 60Hz. I presume from its size I can get 1500W out of it. The primary consists of 14 awg mag wire. Magnetic shunts have been pressed out. The intent for this MOT is to use a common setup with a variable turn secondary.
Math: Given the label said 120 Vac, and I believe from size that 1500W is doable, Power: 1500 W / 120 Vac = 12.5 A V per T: 120V / 103 Turns = 1.16 Vac per T
Question 1: After reading the HvWiki and talking to others, I have wanted to take the core out of saturation, by increasing the primary turns. So, do I just increase the count by 10% or some other number? Or should I measure the input current while adding turns?
Question 2: Now that I have removed the magnetic shunts, and increased the turns for the primary, will ballasting be easier/different? (By theory im thinking I should stilll need the ballast)
More Math: If I want 12.5 amps at 120v then, 120 Vac / 12.5A = 9.6 Ohms total impedance (ohms + reactance) (valid if the secondary is pulling about 1500W)
If I assume 0.3 Amps magnitizing current, then: 120 Vac / 0.3 Amps = 400 Ohms total impedance (ohms + reactance) (valid at no load on secondary)
Logical Conclusion ?: Should I choose to increase the primary turns such that 12.5 amps can still pass through that reactance, with the difference between that and 9.6 ohms being made up with the ballast? I just dont want the Volts per turn to drop much below 1.0 or 0.9 Vac.
EDIT: I appologize if previous threads dealt with these matters in detail, using our search function before posting this, I found nothing useful enuogh, but I will remind all that our search function is basically crap.
Secondary and shunts removed.
MOT in a vice and the spool I will use to lengthen the primary.
Registered Member #152
Joined: Sun Feb 12 2006, 03:36PM
Location: Czech Rep.
Posts: 3384
Your MOT could have magnitizing current of ~4 Amps and a no-load input of ~100 Watts. It will get VERY hot operating even at no load. If you want to use a MOT for continuous work, you should add a fan or increase the primary turns by at least 20 percent. As to your question 2, if you need a low internal resistance power supply you should not use any ballast.
Registered Member #89
Joined: Thu Feb 09 2006, 02:40PM
Location: Zadar, Croatia
Posts: 3145
If you find ading more primary turns troubling, you could use a buck transformer in series with your input. A transformer of 100-150Va with 12V output or so can be conencted to mains and it's secondary in series with supply to your mot, in anti-phase so it reduces the voltage on it. It might be easier but not more cost and space efficient, though.
Registered Member #2099
Joined: Wed Apr 29 2009, 12:22AM
Location: Los Altos, California
Posts: 1716
I applaud Marko's suggestion of using a buck transformer to reduce the volts/turn, magnetizing current, and core loss. You would look for a 120 to 12V or 24V transformer with -secondary- current rating at least as high as your intended primary current in the MOT. Ubiquitous for low-voltage lighting systems.
Why bother reducing the volts/turn, unless you want to run for more than 10 or 15 minutes without a cooling fan?
You can calculate the peak flux density (B) directly from 1) sinusoidal RMS volts per turn [edit] per hertz. 2) cross-sectional area of the core - the center leg should be twice the area of the outside legs.
Write back if you need a reference, or want your numbers checked. A few months ago I reported on an XRT with peak flux of over 1.8 T, which is exceptionally high for steel cores except those for intermittent use. MOT's might be similar.
[edit] p.s. I recently investigated the behavior of transformers near saturation, with a resistive ballast in series. You can actually get significantly more RMS volts per turn for a given RMS magnetizing current, as the voltage waveform distorts (in the direction of being peak-y rather than square-ish). No time to elaborate today.
Registered Member #2431
Joined: Tue Oct 13 2009, 09:47PM
Location: Chico, CA. USA
Posts: 5639
This was exactly the response I needed:
Dr. Kilovolt wrote ...
Your MOT could have magnitizing current of ~4 Amps and a no-load input of ~100 Watts. It will get VERY hot operating even at no load. If you want to use a MOT for continuous work, you should add a fan or increase the primary turns by at least 20 percent. As to your question 2, if you need a low internal resistance power supply you should not use any ballast.
Well OK, the 4 amp thing at no load is a real downer. I removed the shunts to make it function more ideally. I will use resistive ballast on the primary for test/evaluation and proving. Then Ill switch to inductive ballasting on the primary or secondary.
It will be inside a well cooled case, but I was hoping to keep them cooler for 10 -15 minute runs. I will add 25% on the primary's turns.
I was planning on this type of usage: 15 mins on, 30 mins off, for several hours at 80% of max capacity with continuous cooling. Im not sure what the heat load would be, ill have to run some tests.
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Modding MOTs, Need Advice.
I removed the shunts to make it function more ideally. I will use resistive ballast on the primary for test/evaluation and proving. Then Ill switch to inductive ballasting on the primary or secondary.