This is what I call resonant regenerative looping the 12-volt battery becomes part of the system and As this charges itself up this charges up with it? while your current and voltage stay the same Okay, this is Finally the intro for my new T2 design. I'm sorry to wait so long [it] You know I built this thing like three months ago but I've been experimenting with it for two to three months because I kind of stumbled on something discovered something that it can do that's Absolutely going to blow your mind my original intention for this machine Was to exploit what the the toroid can do a commodity [to] duh obviously? Because it's got the two toads, but I've shown on the Q3 how I? developed this new circuit that I call a disruptive capacitive discharge circuit and with it you can take a low voltage output from this thing and About every two seconds you can crank out five to six hundred volts so I thought wow man that would be really cool to make a machine like this that could output you know maybe a Thousand Volts or Twelve Hundred volts, but then After you get shocked [a] few times it sort of shocks the sense into you and you go. Oh, [whoa] boy wait a minute What's the practicality of this thing to shock people? [oh], this is not good, so I thought okay Let's just use the steady stream output from these from these toroid because they for the most part they circumvent Lenz's Law and You know don't create that counter torque that you typically get when you're when you're generating power through inductance, so I thought okay That's cool. Let's feed it into the system and And see what it can do Now the second thing [that] prompted me to change my mind about the use of the toroid was what I discovered while experimenting with the stator coils now these coils are are by filer coils and there's [500] windings on the primary of each coil and 500 windings on the Secondary now the between the sets there's there's 12 coils altogether between the sets we've got The equivalent of twenty four coils since we've got separate coils Essentially from having a primary and a secondary on on each coil and so I decided okay, well, I'll I'll try hitting them both at the same time with the pulse and yeah, I can get a thousand rPM or whatever but You know the torque is pretty low but that doesn't really do anything so what I decided to do is I'd use the primary as the for the pulse motor and the Secondary merely for output and so I started experimenting with that and That's when I made a very very fascinating discovery that changed the whole course of this machines operation All right let's go through a little rundown of the parts obviously [I've] previously explained about the dual toroid [xand] and the stator coils, so Next I've got [a] amp meter here with it only goes to one amp because for the most part you're going to only be drawing about 300 to 500 milliamps though when the thing first starts up You know it only goes to one amp, but it may draw one and a half to two amps so [I] put a switch on here, and that's off that's on and That way you can start it up And then turn [your] meter on and it'll be down where it should be without damaging your meter next There's a couple of bridge rectifiers for the output Next to that. We've got a couple of quick Connects here that that say the label says 12 volts in this is negative. This is positive Because this is a 12 volt machine The reason for that is the I'm over which is a [DC-To-DC] converter it operates from about oh I think it kicks in about ten and a half volts something like that and and you can feed into it up to Probably fourteen [fifteen] volts something something in that neighborhood But but it allows you to operate up to Thirty volts, but even though it will go to 31 or 32 volts [these] heat sinks will get a little bit warm if you push it over that but Typically if you're running half an amp, you don't even feel these warm nothing's warm this isn't warm not the capacitors aren't warm, but so it does its job really nice and Right here. I put a little plastic knob on here and I plan to Try to do that for all the kits too by the way if you [buy] this in the kit form it'll come Pre-populated with all the electronics on here all you've got to do is make the connection So I'm trying to make this thing as easy as possible, and I'll tell you It's you know I've designed it as is Kind of a set it and forget it machine, but we'll go over that in a minute. Okay next over You've got your your switches. There's your there's your power on and right now. I've got ultra caps in the back I'm going to explain that in a second and That shows what there's two sets of ultra caps There's there's only six of them in each set so it's small This is for your your run set and then This is for your charge set now you've got it's in series parallel, so your your [unset] is Isolated by itself, and then for the charge set they're in series So we've actually got twenty seven point four bolts the the blue Led here Indicates that it's it's ready to start I mean all you have to do is hit this one that the label says coil on bam. Coil on there it goes So you can see what the power is doing all of a sudden whoa [the] voltage jumps up? Because let me just turn it off now for a second because we'll go over that also because what it's doing is its feeding every bit of its own power back to itself and There's a real good reason for that You're just going to love it. It's just so cool So okay, [so] anyway, so that's the two meters here And then you've got your solid state relay now on on this design There is no, adjustable timing ring. So you don't have to mess with that it's in a fixed position all your adjustment is going to be done through [the] DC converter here and You're going to come to one adjustment and pretty much Just leave it at [that] adjustment and that I'm going to explain to you Why as well [alright], so let's just come down here. Well also we've got a couple of bridge rectifiers here [I] don't know if you can see this without me zooming in but it says [Twelve] volts out for this one and on this side here, it's 24 volts out for this one, so you have a choice [you] want to charge? 12 volt Batteries in Parallel in Parallel or 24 volts in Series either way you want to go and not [only] that but you can adjust this up and I will also show you that if you want to charge faster or you want to bump up the current output of this thing and and the voltage output So alright let's go to the back here Alright here. We go now this is Your your run bank. I'll be by the way these are again [Maxwell] love these products I've been experimenting with Ultra cabs for years and Ever since I realized the advantage of them especially in a hybrid Situation I mean look around you everything is Going to incorporate these things It's just so great because they can charge up and unload that charge at just a seconds notice if you need it But but as a buffer for for charging and discharging you just you just can't beat them and they and you [know] they've got 350 Ferrets in each cap of Capacity, so it's pretty it's pretty good So this is the so this is run one, and then this one if you're charging on 12 volts this is the one that will balance out that that output and Because when you're when the system is running, it's it's feeding the power in the 24 volt Methods because these are in series and so each each bank Charges up while the things running now. This is nothing more than A Double-A batteries that are let me grab this they're just these of just these rechargeable, Dora cells and 2,650 Milliamp hours now, so they're pretty good and there is there's 10 in there, so I can get you know made 13 14 volts out of those and what they do is as you're Drawing power out of out of the this primary cat bank that [runs] the pulse motor part They will Let's say your power fluctuates because I'm going to show you that this is a totally green system Where it ties in with a tiny solar panel because most of the time you're going to be? demanding about oh less than 15 watts [it] runs without being under load. [I] mean while it's charging itself on less than 4 watts and then when you connect some batteries [I] think it takes it up to about [8] [and] a half or 9 watts something like that And that's pretty much where it where it stays Ok a couple of other very quick things I forgot to mention very important parts actually this right here is an inline fuse for the power input and It's it holds glass fuses. I've got a slow burn 3 amp fuse in here and That'll keep you from in case you accidentally? Connect the output backwards or something whatever you make a mistake Instead of losing your nice little expensive DC to DC converter and your [solid-state] relay And maybe your meters it just blows this little fuse So you just take the end out pull the fuse out stick a new one in and you're good to go The other thing is on the DC converter itself. There is a 15 [whew] so obviously you know you can see that this thing can really take some some load coming into or some Current coming into it But you know you're never going to really put more than at the maximum one amp into it most the time It's just like half an amp or less So that's why this the transistors that are on the heat [sakes] they Don't even get warm this one sometimes [you] can start to feel that getting a little bit warm this one always pretty much stays cold so One final thing before we move on is please forgive me if I talk too [fast], or I fumble up my words because There's so much to cover on this and I'm just trying to do it quickly, so it doesn't make this video too long Let me just back up real quickly here to clarify something and and cover these cables one more time You don't [have] to have a solar panel. [you] don't have to use that if you don't want to I mean if you've got If you just want to bring in battery [input] in here even if you don't use a battery Once the Ultra caps are are charged up They'll run the machine and charge batteries on their own for at least a couple of hours, but you know you want to Use something that that brings in a little bit of input, so the thing will [just] keep on going I don't care if it if you've got [a] little bit wind power Maybe maybe you've got some hydroelectric or geothermal or tidal or plutonium? I don't care what the heck you got but you should use something, but the idea was to use something really [cheap] and Very and keep it very very portable to keep this system in a totally renewable Configuration the idea with any of this stuff that I'm designed up We need to stay off the grid and try to utilize the system that will just be Reliable for us. You know 24/7 okay, so again on the [cables] just real quickly on the cables this of course is the output cable with the connection on the end for the Solar panel, and it's I don't know 10 or 12 feet long something like that, okay? Then this is just [a] connection cable here that plugs into the end and then this these quick couples cheap quick couples And that [kable] with these these couplings came you know with the solar panel But these just by their really cheap the store. I made this one custom. You don't have to use this but the idea was to Plug this cable in and take the one end and plug it into to this end here and these clip on to a battery [12] volt battery and and then the the [other] plugs that come off of that go straight in to Brings it straight in from the battery to your input here So you're going from the solar to the battery the battery is storing that power and then going from the battery? Into your input and so you can charge and Run 24/7 and That's that's a great way to do it now. This is Just a cable that that I put together these battery clips one pair of these will come with each T2 kit and and then the rest of this is optional, whatever you want to do but but this way this just plugs into either your 24 volt and 12 volt and and clips onto your batteries and away you go so again optional [or] you can just take this panel and Connect this here to your output and plug it directly into this But you're only going to be You know working during the daylight hours even though that amorphous crystal panel will work when it starts to get dark Even I mean it's amazing under these lights that it produces 13 Volts just under fluorescent lights but but but it's cheap. It's easy, and it's renewable and I would suggest that I Want to show you first? Without it connected with this plugged in what what the the machine is drawing from your input? whatever your input may be so let's turn on power on and coils on we're running Okay, you can see the voltage immediately comes up drops back down stabilizes thirteen point six seven okay, and And there's our charging current though. I'm going to turn this meter off because it does draw a little bit of power but hardly any but just we don't need it now because if I when I unplug this And plug this meter in you're going to see why I need to turn this one off We're drawing about 325 Milliamps it probably looks like more from from this angle but [I] just want you to see all the set up so about 325 milliamps and At 14 volts and so we are drawing [4.5] five Watts to run the machine let's unplug this and plug this in 144 Volts Yeah, it's respectable Okay, not bad, but we're only running at Fourteen Point One volts Now we'll take the DC where? we dial it up now watch our voltage here as we increase the input voltage through the DC converter and also, this is going to rise and Then come back down each time you can see when I make an increment of adjustment up on the voltage The needle goes up and then comes back down 159 Volts, well, it's getting better I'm going to take it right to the [point] All right, this is kind of this [is] kind of the sweet spot here hundred Eighty volts. Maybe a little higher Let's try it Okay That's why it just takes a little bit of adjustment it's 180 volts 180 volts of output well, that's that's interesting [if] you turn it down, it's going [to] drop just like it was before we turned it up. Okay if You turn it up past this point And increase the voltage from twenty three point four let's take it up to twenty-five or something You saw it go up it went up to like 185 but now look at it It's just coming [down] and coming down and the higher the input voltage [that] you go The lower your output voltage is going to be 26 [let's] just yank it up to Thirty Volts Look at it. It's down to where it was when we started with 14 volts less than that That's crazy What is [it]? Why is it doing that [ah]? This is the best part because [the] primary and the secondary Coils in the by Filer coils are resonating at the twenty three point four Volt input and the and the low current that they're pulling three hundred and some-odd Milliamps Let's take it back down there Twenty Three point four Oops to three it's kind of it's really fine to adjust this but you get it there but you just tune it [to] whatever it is consistently and And you're in resonance you get this 180 volts. This is in resonance now You got to also understand that the secondary on the by [fire] coils Every time that rotor with those [N52] magnets pass is one of those coils any other coils [it's] you're going to get some inductance So you get a little charge coming off of the secondaries from that primaries were just using to run the pulse motor so then also? when the primaries fire and they pulse You get a little burst of mutual inductance into the secondary okay, that comes straight to the output which goes into the caps and then into your charging banks and then when the pulse terminates and You get that inductive spike that explodes and those in those primary coils Then that mutual inductance of that spike just transfers right to those secondaries bam It comes right back out and this 180 volts is This is not through capacitors these are not these are not Affecting this right now eight point seven [three] watts At this point now the interesting thing is Let's unplug this [plug] this back in Okay, now it's charging itself and so the meter doesn't make any difference at this point, but we've dropped down to three hundred and sixty milliamps at Twenty three point four So it's roughly about the same It's a little less little less draw but the best part about this is When you connect a low up charging load? batteries 24 volt 12 volt this this figure Will stay the same because of the resonance that's going on here between the input and output on the primaries and secondaries That's just incredible It'll [just] stay right at this point while it charges up those batteries So every battery that you add to this system becomes an extension of this of the system itself It works through the ultra caps and the batteries It's just the most amazing thing. I've never seen that before [usually] if you're going to charge up some batteries You're going to see the currents going to rise voltage is going to fluctuate or or whatever but it doesn't it doesn't because of this this relationship up here and And you know the same time that you're getting that full output from those secondaries We're not even pulling anything from primaries. I mean here's the the spades for for that on the bridge rectifier We're not connected anything you could you could charge something, but it's low. It's like I don't know eight eight volts and whatever the current is it's just low. We're not even using that So we're just using the secondaries of the [bye] filers and and getting those three different outputs, you know from the rotation that I just explained and Plus we're getting from the toroid a consistent nice smooth output it may be low voltage but the currents going to be a little bit higher and that's 16 gauge wire and You know it's not slowing the machine down at all even with two of them, so You've got some pretty interesting things going on and extending the system with with the batteries for charging Just incredible Okay, last demonstration. I've drained this [12-volt] battery down let it stabilize for a while it's still trying to rebound a little bit, but it's at Twelve point three and Let's I've got it connected to the [twelve] volt output and we're going to run it this time with two little six volt Lantern Batteries in Series Four Twelve Volts into the input Turn the power on coils on Twelve Point three Okay, now let's bring it into resonance Twenty Three point three twenty three point four two Okay Meter on we are drawing Just under 400 milliamps [23.5] Volts from the input at about 400 milliamps Now we're going to disconnect the input 400 Milliamps 23.5 Charging is coming up caps only Charge is coming up on the battery Still running on the cab's let's plug our input back in you can see we come back up [to] less than 400 Milliamps And our voltage drops back down stabilized And our charge rate continues Check us out at quantum magnetics comm if you are interested in obtaining a kit to build this it should be pretty simple to build with this already set up for you, just making the connections and You know nuts and bolts it's it's a pretty simple situation. We've got good manuals easy to follow and free Tech support, so Have a look at quantum magnetics comm thank you
