Graphene MAGmotor Output

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I promised a few people I would use the graphene supercab module to show this running at a higher speed and show some of the output a couple of things I need to clarify that some people are just missing the point on this so I need to clarify this one more time be very clear about it this one single rotor magnet it's an N 52 along with the n42 stator magnets in the spiral here that's about a 350 degree spiral is the only thing that makes torque from this machine that's the only thing it's not the electromagnet the only thing the electromagnet does is neutralize the repulsion zone area which is right in here from the end point of the stator to the beginning of the stator there's a strong repulsion from from the beginning part here and this just simply neutralizes them now how do you adjust that neutralization you use a solid state relay I've got a a potentiometer here that adjusts the voltage on the trigger side and then these are the contact side for your source to go in to power this thing and I'll explain that just a second but the on the trigger side it triggers from three and a half volts up to I think it's 32 volts and anything below a three and a half volts the LED won't even light up and you think well it's not even going to work it does it works down to I don't know maybe a half a volt or so I think I've got to set on about 1 volt right now so the LED doesn't even light up but what that does is it makes the I want to call it bandwidth it's not bandwidth but it makes the pulse duration very very very short and and then then well then how do you how do you adjust for the magnetic field because it has to be just the right canceling or neutralization of the repulsion to to work so you simply add a little bit more voltage you still have a very very short duration if it's gone we're gonna run it about 250 rpm so it's gonna do about 4 pulses per second and and so by using a little higher foliage and think I've said before that I I've taken up to 40 bowls 48 bowls it'll run about 800 rpm max that I don't think I've had it much faster than that on this big box machine here but so so that's very clear hopefully to you now that this is the only thing that produces the torque between this and this and this thing is responsible for running this you know 25 pound load weight of the rotor and the counterbalance and and the flywheel back here and the three-phase there's the connection of the wires for the three-phase they're coming down and trying to be real quick with this sorry they come down here I've just got it hooked up to this meter so you can see that what that's generating when we first started up which we were doing in just a few seconds right here this meter is showing 56 wellnot 0.56 volts sorry 0.56 volts because that's where the you see the probes going into the ultra cap here at sixteen point two volts fifty-eight farad's and the idea was to bring this down to near zero I had it just above zero it's trying to bounce back and so that's why it's at half a volt right now but that's still pretty much empty and and as as much capacity that this has with 58 ferrets you're gonna see how fast this charges up and how are we going to charge it when this electromagnetic field collapses it produces a back EMF at nice big spike that spike comes through some diodes and comes right out here at these connections and I'm going to connect these two wires that come in and ride into the ultra cap and then you're gonna see how fast this can charge up so pretty much that's it now I've got these LEDs out here and somebody said to me going why are you using these LEDs as a load well I'll tell you why the darn things are twelve volts at 100 milliamps how could it be 100 milliamps Watts because it's got a circuit on the back that makes it a AC or DC plus it's not dependent on the polarity so it doesn't you know there's no weight not to hook this thing up it'll run with AC DC and positive negative doesn't care about that so anyway at one point two watts and so two of them in parallel give me 2.4 watts and what I'm going to do is I'm going to take the output from the three-phase and connect it to the input that goes right into the super cap here and what this will start off right now you can see it's at sixteen point one volts but in the minute it starts it likes to drop down to fifteen point nine or sixteen point O and it'll pretty much stay there but with the output coming out of here I've got the three-phase adjusted so that it produces between 17 to 18 volts for 17 to 19 volts something like I just to keep it within range because that thing will do maybe sixty five volts so I've got adjusted so it doesn't overdo it for this and all we want to do is just keep this at a steady fifteen point nine so it'll run for days or weeks or however long it's not I haven't done a long-term test with that I know it to run for days for sure but I haven't done a really long-term test because that's not the objective at this the objective is to show you that using capacitors graphene super caps this is the ultra cap so it's no graphene but but to you know the difference between that is negligible at this point that the idea is you can't do this with chemical batteries they're too freakin slow but with capacitors you know you can calculate it you can measure it and you can be very very precise it's harder to do with chemical batteries and you certainly can't take a lithium or add acid down to a half a volt and then charge it up from there so you know like I said that the the idea would be to have a couple of these or however many it would do on this side to charge up but I want to show you how fast this charges so I'm just using this 58 farad ultra cab Bank to do that alright let's get this thing started so now you get to watch the acceleration part all we do is just one pass of the one pass of the electromagnet you can see it's speeding up maybe you can hear it too over here you can see what the three-phase is starting to do denying they have vaults ten bolts and we haven't done anything here yes it was still half of all here sixteen see ya i said fifteen point nine or sixteen point Oh bullets and that's what's going to stay at but it's gonna drop faster than that until I hook up the three-phase if I don't hurry up but I just wanted you to see this accelerate and and see what this is doing you can see this is coming up now alright it's up to fourteen again it will I'm gonna disconnect it and show you over here hold on a second [Music] all right this is just for the LEDs [Music] and you can see if there are full brightness and you can actually see the pulsation yeah that's pretty cool so it's to point again it's two point four watts and like I said we don't even need that to keep this topped up at fifteen point nine volts so let me disconnect this sorry yeah sorry about that and we're gonna go ahead and connect connect this all right I'm putting the three-phase wires here these three-phase wires [Music] in foot part which goes directly it's goes directly to the graphing Supercat they sixteen oh so it'll hold there for a long time Kobe drop bow down to fifteen nine and then pretty much just stays there okay these are no longer needed I just wanted to use as an example and so now this meter back on Oh that in that community it doesn't even matter anymore okay so now we want to show you or I want to show you the connection here too with collapsing field the electromagnet now there we go [Music] you see how quickly this wants to charge and it'll go this fast and just come right on up to 16 volts in fact then probably taking a little beyond that if I don't disconnect it so you'd need some controls you know further for that but it's only using the power that you would be throwing away although you just be wasting that and oh I wanted to show you one other thing when you connect that let's see what we're running right now okay so it's 263 264 rpm what I wanted to show you is that this runs about 250 rpm but when you connect this you remove that resistance of this thing having a pulse back and forth so many times per second that that you know you remove the resistance by putting that back EMF into this and so what do you get you get higher rpm and with the the expansion of the extra voltage here it makes the the field that the the reverse polarity field that cancels out this you know that neutralizes this repulsion area here it makes that field expanding to wider so it's like advancing it to maybe you know here instead of up here maybe down here plus you can loosen up these these bolts here and turn this ring and advance your you're triggering read switch here to a point where it can fire down here so when I run this thing is 600 rpm or 800 rpm I'm actually having this thing fire about down here because you've got this time and speed factor that you have to is just sort of like advancing the timing on an internal combustion engine it's not like that because this is all magnetic but but I think you get the point so so here we are let's take a look at this again [Music] almost up to one volt from a half a volt but look how fast it's advancing this is charging charging charging oops get back on there [Music] so I think you're beginning to get the point the other point is good all these points the other point that's really good is when you pull that not only does it increase the RPM of this but when you're pulling that back EMF off of here it does not it does not do anything to draw more power because again you can see it speeds up well you did I didn't show you the RPM beforehand but it was about 250 now it should be still around 260 265 or what was it oops get on there all right it's 270 so it's about it's about 270 now so it's even speeding up further [Music] and we're still connected you you cannot once this reaches okay last thing and then I'll call in this once the RPM reaches about a hundred rpm and we're at 270 now it does not that the rotor magnet doesn't even it doesn't even sense it just goes by so fast it doesn't even sense the attraction to the steel casing or the steel core in the center of the electromagnet here so why is that it's because the momentum and inertia that the flywheel is carrying it through you just once it gets to that rpm it's like butter it's just it's all the same I mean it doesn't stop or pulsate at this point or anything like that anything hiring that just the same and it helps it to increase the RPM but you just can't do it without that flywheel so yes the flywheel is super super important all right I think you pretty much got let's see where we're at okay see listen oh it's tried to drop down to fifteen point nine wait let's look at that again oh okay I thought it was it's just the switch maybe but in anyway and that's where it wants to stay is usually around fifteen point nine okay enjoy [Music] you [Music]

Info

Channel: PMMG4HYBRID

Views: 30,462

Rating: 4.7508054 out of 5

Keywords: Graphene Supercapacitors, Magnet Motor, Power Output, Magnet power output, GRAPHENE

Id: UuiFoq9Y7do

Channel Id: undefined

Length: 13min 48sec (828 seconds)

Published: Wed Nov 20 2019