If you need assistance, please send an email to forum at 4hv dot org. To ensure your email is not marked as spam, please include the phrase "4hv help" in the subject line. You can also find assistance via IRC, at irc.shadowworld.net, room #hvcomm.
Support 4hv.org!
Donate:
4hv.org is hosted on a dedicated server. Unfortunately, this server costs and we rely on the help of site members to keep 4hv.org running. Please consider donating. We will place your name on the thanks list and you'll be helping to keep 4hv.org alive and free for everyone. Members whose names appear in red bold have donated recently. Green bold denotes those who have recently donated to keep the server carbon neutral.
Special Thanks To:
Aaron Holmes
Aaron Wheeler
Adam Horden
Alan Scrimgeour
Andre
Andrew Haynes
Anonymous000
asabase
Austin Weil
barney
Barry
Bert Hickman
Bill Kukowski
Blitzorn
Brandon Paradelas
Bruce Bowling
BubeeMike
Byong Park
Cesiumsponge
Chris F.
Chris Hooper
Corey Worthington
Derek Woodroffe
Dalus
Dan Strother
Daniel Davis
Daniel Uhrenholt
datasheetarchive
Dave Billington
Dave Marshall
David F.
Dennis Rogers
drelectrix
Dr. John Gudenas
Dr. Spark
E.TexasTesla
eastvoltresearch
Eirik Taylor
Erik Dyakov
Erlend^SE
Finn Hammer
Firebug24k
GalliumMan
Gary Peterson
George Slade
GhostNull
Gordon Mcknight
Graham Armitage
Grant
GreySoul
Henry H
IamSmooth
In memory of Leo Powning
Jacob Cash
James Howells
James Pawson
Jeff Greenfield
Jeff Thomas
Jesse Frost
Jim Mitchell
jlr134
Joe Mastroianni
John Forcina
John Oberg
John Willcutt
Jon Newcomb
klugesmith
Leslie Wright
Lutz Hoffman
Mads Barnkob
Martin King
Mats Karlsson
Matt Gibson
Matthew Guidry
mbd
Michael D'Angelo
Mikkel
mileswaldron
mister_rf
Neil Foster
Nick de Smith
Nick Soroka
nicklenorp
Nik
Norman Stanley
Patrick Coleman
Paul Brodie
Paul Jordan
Paul Montgomery
Ped
Peter Krogen
Peter Terren
PhilGood
Richard Feldman
Robert Bush
Royce Bailey
Scott Fusare
Scott Newman
smiffy
Stella
Steven Busic
Steve Conner
Steve Jones
Steve Ward
Sulaiman
Thomas Coyle
Thomas A. Wallace
Thomas W
Timo
Torch
Ulf Jonsson
vasil
Vaxian
vladi mazzilli
wastehl
Weston
William Kim
William N.
William Stehl
Wesley Venis
The aforementioned have contributed financially to the continuing triumph of 4hv.org. They are deserving of my most heartfelt thanks.
Registered Member #54402
Joined: Mon Feb 02 2015, 11:09PM
Location:
Posts: 86
Hello, I was thinking is there any material out there which has good magnetic properties like those that are used in transformer cores, but whose reluctance could be varied by some external means , it would be in analogy like a transistor switch where you vary the resistance and so the current either increases or decreases, here I want to vary the reluctance of the material so that magnetic flux would vary.
I know this can be done mechanically like varying the air gap in a transformer core or in inductors with variable cores but I'm looking for a solid state way to do this. Does anyone have any ideas , I have though much about it but cant think of any material who would suit these properties.
Registered Member #33
Joined: Sat Feb 04 2006, 01:31PM
Location: Norway
Posts: 971
A common method is to bias the core with a DC field. Reluctance is proportional to permeability, which is the slope of the magnetization curve. Typical magnetization curves get less steep as you move away from the center (zero bias). The easiest way to do this in practice is to have a winding on the core that you excite with a DC current. This effect is utilized in magnetic amplifiers, saturable reactors and in tunable ferrite loaded resonant cavities.
Note that the magnetisation required is often significant if you want to change the permeability over a large range.
Registered Member #54402
Joined: Mon Feb 02 2015, 11:09PM
Location:
Posts: 86
Oh I guess I forgot to add that my primary winding is excited by DC rather than AC so the biasing DC on the core will not help as the core will satured by the very DC power winding itself and the control winding as in magnetic amplifiers will become useless , it only works for AC I guess due to AC having impedance as a current limiter.
So with DC on the primary I can still make AC on the secondary if i physically move the secondary with respect to primary or change the reluctance periodically , something like a core with memory when it goes into saturation then it drops and lets itself into saturation once again , this could utilize the primary DC into usable secondary AC. Hope now it's clear what I'm thinking here.
Registered Member #33460
Joined: Tue Aug 27 2013, 06:23PM
Location: Seattle
Posts: 46
I think what you are asking for is impossible, barring some counter-intuitive metamaterial with properties allowing the magnetic characteristics to be altered by some means other than a magnetic field.
If you've got enough DC current on your primary to saturate the core, there is no electronic way to bring the core out of saturation other than reducing the current on the primary.
Physically altering the core or the positioning of the coils could "work," but why not just use a mechanical interrupter on the primary coil instead?
I wonder what the losses would be like with a device that, rather than mechanically interrupting primary current, mechanically opens and closes the core, or slides the position of a magnetic shunt back and forth, in order to induce AC on the secondary.
Would such a thing work at all? Would it just be the mechanical energy of the moving core bits that gets transformed into electrical energy on the secondary coil? I am curious what better minds than mine have to say..
Registered Member #54402
Joined: Mon Feb 02 2015, 11:09PM
Location:
Posts: 86
no the very idea would work , you got a magnetic field which is set up by the primary winding and the DC current that goes through it that ios energy deposited in the field , the thing is you cannot induce this energy into a nearby winding because it is static once you make the nearby winding or the secondary winding to see the pirmary field but with interruption it can now induce current, all you need is something to change , but in order for the secondary to utilize the force of the primary you cannot move it physically with respect to the primary or that would be like a generator which has a field DC winding then the energy would come from the rotational energy , but if both windings are in place and just the magnetic field varies or is varied all the energy then comes from whatever supplies the field in our case the primary winding DC.
remember that once you switch the DC on any transformer you get a first induction spike because as you add the current firstly the magnetic flux rises as it rises it induces current into the secondary only when the core becomes satured it stops inducing , so i though that if we could make the core drop from satuiration repeatedly with a given frequency it would work as a DC transformer.
Registered Member #11591
Joined: Wed Mar 20 2013, 08:20PM
Location: UK
Posts: 556
Salvador wrote ...
no the very idea would work , you got a magnetic field which is set up by the primary winding and the DC current that goes through it that ios energy deposited in the field , the thing is you cannot induce this energy into a nearby winding because it is static once you make the nearby winding or the secondary winding to see the pirmary field but with interruption it can now induce current, all you need is something to change , but in order for the secondary to utilize the force of the primary you cannot move it physically with respect to the primary or that would be like a generator which has a field DC winding then the energy would come from the rotational energy , but if both windings are in place and just the magnetic field varies or is varied all the energy then comes from whatever supplies the field in our case the primary winding DC.
remember that once you switch the DC on any transformer you get a first induction spike because as you add the current firstly the magnetic flux rises as it rises it induces current into the secondary only when the core becomes satured it stops inducing , so i though that if we could make the core drop from satuiration repeatedly with a given frequency it would work as a DC transformer.
What you describe would end up as a flyback transformer. These are fed with DC, however the "induction spike" would be negative, so your output is AC with a weird waveform. see
Registered Member #2939
Joined: Fri Jun 25 2010, 04:25AM
Location:
Posts: 615
Salvador wrote ...
if both windings are in place and just the magnetic field varies or is varied all the energy then comes from whatever supplies the field in our case the primary winding DC.
I think you will find the energy actually comes from whatever is varying the magnetic field - because doing that requires energy transfer.
Registered Member #54402
Joined: Mon Feb 02 2015, 11:09PM
Location:
Posts: 86
Yes I know a flyback transformer , yet it is driven by DC pulses rather than pure DC so it is just another form of SMPS.
Well I guess you are right that the energy to the secondary would come from whatever varies the field but that is only fully true for mechanical systems because if we look at this mechanically it becomes a generator where you have a stationary DC field into which a pair of windings rotate and the current induced in them is a result of the rotational torque that goes into driving the shaft.
But here i'm looking at it differently , i have the primary DC winding and what if I could have a material which when driven into saturation by a given magnetic field cannot sustain this level of flux and atleast partly drops from the point of saturation and then the DC current pushes it into saturation again and again the core drops from taht point being unable to hold it for longer than a cerain period of time , is such a situation possible ? In this situation the secondary winding would be exposed to a time varying field even though the pirmary is a static field.
A side question but related to this , in an inductor when we shut off the current that flows through it rapidly enough the voltage rises as it tries to recover the current flow, the level to which it rises is dictated also by the inductor core ability to store the upbuilding magnetic field correct?what happens whne we shut off the current rapidly and after a very very short amount of time also drop out the core from the inductor , would the magnetic field and volatge still build up ?
Registered Member #2939
Joined: Fri Jun 25 2010, 04:25AM
Location:
Posts: 615
Saturation does not mean that the flux decreases. Saturation is a reduction in µr, the relationship between H and B.
I suspect what you'd need is a material with a region of negative incremental µr in its B-H curve, if you want to create a "magnetic oscillator". Much like "negative resistance" oscillators (look up tunnel diodes). I'm not aware of any material with this property.
This site is powered by e107, which is released under the GNU GPL License. All work on this site, except where otherwise noted, is licensed under a Creative Commons Attribution-ShareAlike 2.5 License. By submitting any information to this site, you agree that anything submitted will be so licensed. Please read our Disclaimer and Policies page for information on your rights and responsibilities regarding this site.
how to vary magnetic reluctance
