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Magnetic Cancellation

R

Randy

Jan 1, 1970
0
Greetings:

About a year ago, I built a small welder. During the assembly of the two
transformers something got my attention. When I connected the two
secondaries in series, I got less than half of the required output voltage.
I switched the output wires and the voltage was there. I reasoned that the
outputs were out of phase with each other and canceled a percentage of the
magnetic field. What I failed to check was the effect it had on the output
current.

Now I'm wondering, can I use magnetic cancellation to my advantage in
controlling current in high power circuits?

To test this theory, I used a small 3volt output transformer and a powerful
magnet to see what effect the magnets' magnetic field had on the
transformer. I tried both poles.

Result: zilch! The voltage didn't even flicker from the 3 volt reading.
However, the closer I put the magnet to the coils, the greater the
vibration. That transformer was dancing across the table like Michael
Jackson on crack.

I'm thinking, the only way to reproduce the cancellation is to run the
output through a magnetic field that is the same frequency but, out of
phase and variable.

This second experiment is just a thought right now. What I'm seeking is
opinions.

An Inquiring Mind,

Randy Gross
 
F

Fred Abse

Jan 1, 1970
0
Now I'm wondering, can I use magnetic cancellation to my advantage in
controlling current in high power circuits?

In a word, yes, but not the way you tried it.

There's a thing called a saturable reactor, aka magnetic amplifier. It
works like this:

An iron cored coil (inductor) is connected in *series* with the load. Its
inductance is chosen so as to present a large reactance (high impedance)
at the frequency of operation, hence very little current flows.

Also wound on the same iron core, are many turns of quite thin wire,
which are fed with a small DC current. Because there are many turns,
although the DC current (we'll call it the controlling current) is small,
nevertheless there are a lot of amp-turns, hence a large magnetizing
force. The DC magnetization takes the core into saturation, hence the
reactance of the winding in series with the load (the controlled winding)
is reduced, and more current flows into the load.

In this way, a large alternating current can be controlled by a small
direct current.

Taking the principle further, a permanent magnet can be used instead of a
control winding, making a reactor that is controlled by positioning the
magnet. Such devices have been used in TV receivers as adjustment for
horizontal scanning current.

Unfortunately, trying to do the same thing with a transformer will just
mean that the reactance of the primary will reduce as you bring up the
controlling field. That'll eventually blow a fuse somewhere. Not the
desired result :-(

In the (good?) old days, there were mag amps controlling such things as
big multi-kilowatt electric furnaces. These days, they use big triacs.
 
R

Randy

Jan 1, 1970
0
<[email protected]>...
:
: There's a thing called a saturable reactor, aka magnetic amplifier. It
: works like this:
:
: An iron cored coil (inductor) is connected in *series* with the load. Its
: inductance is chosen so as to present a large reactance (high impedance)
: at the frequency of operation, hence very little current flows.

I found some data on the principles of the saturable reactor and it looks
like it just might be what I'm looking for.

My goal is this; to produce a welder with a control circuit that doesn't
hack up the sine wave or, use circuitry that will choose a time to fail
that could not be worse. I worked for the company that built the equipment
to construct Bolder Dam. The stick welders they used then are still there,
and work. Welders (those with the fancy digital readouts) in the shipyards
I've worked in, were stacked up on death row like that scrap pile behind
R&D, either dead in the water or, running full steam ahead - nothing in the
middle.

Thanks for the tip!

Randy Gross
 
B

Bullwinkle Jones

Jan 1, 1970
0
Randy said:
Greetings:
Result: zilch! The voltage didn't even flicker from the 3 volt reading.
However, the closer I put the magnet to the coils, the greater the
vibration. That transformer was dancing across the table like Michael
Jackson on crack.

My, oh my.. Oh my oh my.. :) That just totally made my day. The picture
in my head of a dancing Michael Jackson on crack.. What a sight that would
be!

LOL..

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