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**marxist** · 08-03-2011, 05:43 PM

velocity

Originally posted by Xenomorph View Post

...My test device does not mechanically allow to go higher than 2000 RPM...

just to mention it:
When toranarod's rotor has a diameter of 160 mm (magnet to magnet - as posted here http://www.energeticforum.com/148586-post890.html)
and is driven at ca. 4000 rpm, then one would have to drive a rotor with double that diameter at half the rpm to achieve the same 'magnet-bypass velocity'.
More examples:
In order to achieve toranarod's 'bypass-velocity' between a magnet and a coil with rotors of other size ...
...a rotor with magnet-to-magnet-diameter 200 mm (RomeroUK's) would have to be driven at ca.3200 rpm
...a rotor with diameter 400 mm would have to be driven at ca.1600 rpm
Hope I calculated this correctly.

**Xenomorph** · 08-03-2011, 05:49 PM

Originally posted by Zooty View Post

The connection is this
Also, connecting the strands like this aka tesla bifilar, the inductance triples. I can show you a dual strand coil that triples in inductance connected like this

Hmm, sorry i think i don't get your point.
I don't see what Bedini's 3 paralleled windings in the Kromrey
have in common with Rod's series bifilar winding concerning the inductance.
But regardless, looking forward to what Rod is making out of this )

@Marxist: yeah that's helpful. I usually just look at what frequency the generator coil picks up.
The magnet bypass velocity determines the induction differential, but also the induction rate (#magnets passing per second) is important for the resulting generated voltages and currents. How does that go into the equation?

**minoly** · 08-03-2011, 06:51 PM

Originally posted by Xenomorph View Post

Hmm, sorry i think i don't get your point.
I don't see what Bedini's 3 paralleled windings in the Kromrey
have in common with Rod's series bifilar winding concerning the inductance.
But regardless, looking forward to what Rod is making out of this )

@Marxist: yeah that's helpful. I usually just look at what frequency the generator coil picks up.
The magnet bypass velocity determines the induction differential, but also the induction rate (#magnets passing per second) is important for the resulting generated voltages and currents. How does that go into the equation?

I think I remember JB noting that it had to do with lowering the impedance.
This is the effect of the extra winds - paralleled/series-ed is having on the "Muller/Romero" coils.
math:
1 long wind of 30awg on my spool is 170ohms - .717H
10 filer same spool same wire in parallel = 1.9ohms - .35mH

same total length of wire on each.

question I have - why is this different than just winding a larger awg wire on the spool, one that has the same ohms and same mH? do the extra winds make the difference? extra winds with low impedance...

Patrick

**Mark** · 08-03-2011, 07:16 PM

Originally posted by marxist View Post

just to mention it:
When toranarod's rotor has a diameter of 160 mm (magnet to magnet - as posted here http://www.energeticforum.com/148586-post890.html)
and is driven at ca. 4000 rpm, then one would have to drive a rotor with double that diameter at half the rpm to achieve the same 'magnet-bypass velocity'.
More examples:
In order to achieve toranarod's 'bypass-velocity' between a magnet and a coil with rotors of other size ...
...a rotor with magnet-to-magnet-diameter 200 mm (RomeroUK's) would have to be driven at ca.3200 rpm
...a rotor with diameter 400 mm would have to be driven at ca.1600 rpm
Hope I calculated this correctly.

I think its easier to look at it in rpm's. Rod's device at 4000 rpm with 8 magnets has 32,000 magnet passes per minute. So a 4 magnet rotor would have to turn 32,000/4= 8,000 rpm.

**Xenomorph** · 08-03-2011, 07:34 PM

Originally posted by minoly View Post

I think I remember JB noting that it had to do with lowering the impedance.
This is the effect of the extra winds - paralleled/series-ed is having on the "Muller/Romero" coils.
math:
1 long wind of 30awg on my spool is 170ohms - .717H
10 filer same spool same wire in parallel = 1.9ohms - .35mH

same total length of wire on each.

question I have - why is this different than just winding a larger awg wire on the spool, one that has the same ohms and same mH? do the extra winds make the difference? extra winds with low impedance...

Patrick

Hey Patrick,
i see no difference concerning the resistance between larger AWG and the stranded version.
If they have the same area, they should have the same resistance. Some people are of the opinion that the strands offer an advantage over a single wire, but it was evident that they did not know how to correctly calculate the total wire area out of the individual strands.

Since the inductance is relative to the (total) wire diameter, in your test the inductance of the stranded version was lower.

The inter-winding capacitance is bigger and will however change the capacitive characteristics of the stranded wire coil.

**Joit** · 08-03-2011, 07:43 PM

Originally posted by Mark View Post

I think its easier to look at it in rpm's. Rod's device at 4000 rpm with 8 magnets has 32,000 magnet passes per minute. So a 4 magnet rotor would have to turn 32,000/4= 8,000 rpm.

You might be right on that.
I had something strange happend to me with a Bedini SG.
When i used 4 Magnets, and standard Trigger/Drive Coil, the Rotor did turn faster,
but at close same Frequency at the Base, as now with 6.
As i add more Magnets, the Rotor turns slower, but have still the same Consumption and Frequency,
and both Rotors had the same Dimensions (CD-Disc),
but i could figure also, that it might have to do with the Distance at the Magnets, related to the thickness of the Wire, (Frequency) and the Power Input (Watts)
but that is only a Guess.

**Shadesz** · 08-03-2011, 09:02 PM

Important to make sure...

Wouldn't the speed at which magnets pass the coil and number of times a magnet passes the coil be very different things? Both may play a part but I think it is important to not confuse the two. Especially if 'retarded potential' is truly what is causing them to overcome Lenz Law. (Sorry for the wiki link, as I am just learning)

**Shadesz** · 08-03-2011, 09:31 PM

Spreadsheet to compare speed of no coil, non loaded coil, and loaded coil

Figured I would throw it out there and let people use it if they want...
NOTE! I changed the extension to .doc to upload it, change it to .xls before opening

Attached Files

SPEEDvsLOADvsNOLOAD.doc (39.0 KB, 42 views)

**Xenomorph** · 08-03-2011, 09:48 PM

Originally posted by Shadesz View Post

Wouldn't the speed at which magnets pass the coil and number of times a magnet passes the coil be very different things? Both may play a part but I think it is important to not confuse the two. Especially if 'retarded potential' is truly what is causing them to overcome Lenz Law. (Sorry for the wiki link, as I am just learning)

You have a point, somewhere buried in the literature there is probably a formula that includes both magnet passing speed and frequency in regards to the induced EMF and the power achieved in the generator circuit, which can then be used to compare different rotor diameters' power results.

**minoly** · 08-03-2011, 10:19 PM

Originally posted by Xenomorph View Post

Hey Patrick,
i see no difference concerning the resistance between larger AWG and the stranded version.
If they have the same area, they should have the same resistance. Some people are of the opinion that the strands offer an advantage over a single wire, but it was evident that they did not know how to correctly calculate the total wire area out of the individual strands.

Since the inductance is relative to the (total) wire diameter, in your test the inductance of the stranded version was lower.

The inter-winding capacitance is bigger and will however change the capacitive characteristics of the stranded wire coil.

This too has been my thinking all along, however, that is kind of a big "if"
if they have the same area...

Now, I think I can get more winds with higher gauge wire in parallel in a given area with the same resistance/impedance, than I can with just one lower gauge wire with the same resistance/impedance.
Maybe if someone can give me the gauge and length - I would need to match
the above 1.9ohm. I'll see how many turns fit on the spool...
Patrick

**Mark** · 08-03-2011, 10:53 PM

Originally posted by Shadesz View Post

Wouldn't the speed at which magnets pass the coil and number of times a magnet passes the coil be very different things? Both may play a part but I think it is important to not confuse the two. Especially if 'retarded potential' is truly what is causing them to overcome Lenz Law. (Sorry for the wiki link, as I am just learning)

Well yes they are 2 different things but, a rotor going 4,000 rpm's with 8 magnets and a rotor going 8,000 rpm's with 4 magnets, are both going the same speed. Most of us have a lazer tach and this is a simple method to use to see if you have enough rotor speed or magnet speed to be at the thresh hold to over come lenz drag.

**quantumuppercut** · 08-03-2011, 11:00 PM

Understanding the Orbo principle by JL Naudin

"The patent below is very interesting because it says that in a common toroidal coil, each layer is equal to a "one turn coil" whose axis is parallel to the axis of the toroid. So, one layer of toroidal coil is equal to a flat coil of one turn and thus it can tap or produce EMF outside the torus. So, to counter this interference effect, the only thing to do is , for each layer of the toroidal coil, to wound a one turn flat coil along the circumference of the toroid so as to produce a magnetic field which nullify the virtual one turn coil created by each layer of the toroidal coil... This is very simple and a very important thing to do for canceling the weak CEMF induced in the toroid by the motion of the magnet and this is one of the most important key of the Orbo motor... "

I would say they implied the twisting of conductor can contribute to inductance. Besides, multi-strands counter skin effect. If i understand correctly, skin effect depends on the rate of current change. Although bigger wire could have the same cross section area to the combined strands, the surface area is far less.

**marxist** · 08-04-2011, 07:01 AM

speed mixed up with frequency

Originally posted by Mark View Post

....a rotor going 4,000 rpm's with 8 magnets and a rotor going 8,000 rpm's with 4 magnets, are both going the same speed ...

When the rotors in these two scenarios have the same diameter, they will both produce the same frequency.
But in that case it is not correct to state that "both rotors are going the same speed", because speed is 'displacement per unit of time'.

**elias** · 08-04-2011, 10:02 AM

Originally posted by Mark View Post

Well yes they are 2 different things but, a rotor going 4,000 rpm's with 8 magnets and a rotor going 8,000 rpm's with 4 magnets, are both going the same speed. Most of us have a lazer tach and this is a simple method to use to see if you have enough rotor speed or magnet speed to be at the thresh hold to over come lenz drag.

Increasing the rotor diameter is correct, and would increase the speed of the magnet, but I do not think that the number of magnets on the rotor would affect the acceleration effect at all.

@all
Do not confuse this with Bedini motors, those are "energizers" that charge batteries which only seem to work for those people close to Bedini, It was a shame that most people spent much time on those things, including me, which doesn't do anything practical. Nevertheless on those early years thought me some coil winding and some useful circuits.

**erfinder** · 08-04-2011, 11:13 AM

Originally posted by elias View Post

@all
Do not confuse this with Bedini motors, those are "energizers" that charge batteries which only seem to work for those people close to Bedini, It was a shame that most people spent much time on those things, including me, which doesn't do anything practical. Nevertheless on those early years thought me some coil winding and some useful circuits.

We are limited only by our imagination....

The SG circuit is one of the most interesting circuits I have ever had the chance to experiment with...Don't knock it till you have exhausted your natural resource....

your imagination....

Regards

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