@@redesign3dp I will! I want to purchase all of your designs and build them! It's a matter of time. I have some severe health problems that have me incapacitated. This is why I can only enjoy watching your expertly edited videos. I will let you know when I am well enough to build your unique creations!
Am I to infer that the voltage/ current through the coil L to ground Neg is also receiving voltage from back EMF in same direction to ground, and not just wasting energy? I need to increase voltage to my circuit from 33V pulsing DC to over 100v from EMF to over same load capacitance TO GROUND ONLY. If coil has high resistance so as when grounded, no shorting. My coil is 1.5MH with .2 ohm resistance. Seems probable the 20,000 cycles applied as pulsing DC would just short the coil and blow fuse. Extra energy needs to be stored in a capacitor, not wasted over a coil inductor...
The trigger coil is the only one connected to ground, that completes the circuit allowing the transistor to turn on. I'm not sure if I understand your question correctly. This video was only to show how a Bedini motor can quickly charge a cap with BEMF. If you want to charge up a large cap quicker, I have a video showing how to do that using a cheap ZVS driver and a hand wound flyback transformer. Thanks
If I built an 18 coiler Bedini SG. Would I require a master circuit or a mini bedini circuit ( with updated/uggraded transistors and diodes ) for each coil. Thank you sir.
Each drive coil winding should have its own transistor circuit, they can all share the trigger coil. That's a big endeavor with a large expense. You should start small then work your way up. Less frustration, easier to troubleshoot.
@@redesign3dp Babcock recommended opto interrupter as trigger, but yes you're complete spot on regarding expense. Every project thereafter would be viewed as reasonable. At this point so much has been invested I just want to see it through. Thank you for the guidance though, it helps a lot. I consider this my first baby steps into the world of electronics, but any help will be returned 10 fold in gratitude. Have you watched Paul Babcock's "air core vs iron core - They Are All the Same" sir?
is there any way to bleed the energy off the capacitor once it is charged to a it capacity to charge another battery and could you offer a schematic of that type of circuitry
I found mine in a $5 diode surprise box from Electronic Goldmine, there were 100's of them in there. You might want to check to see if they still have them for sale. The best thing you can do is try different diodes to see which one captures the best results your looking for.
This is a monopole type motor, so the circuit drives the rotor in repulsion mode. The rotor magnets can either be north or south but they must all be facing out in the same polarity. For more research on the subject look into the Bedini motor. Thanks
@@redesign3dp Thank you very much. I made a circuit with a single coil, a MOSFET, a sensor, and a magnet, north and south. I renew my thanks to you, my brother Ali from Iraq. Greetings to your person.
@@redesign3dp Fantastic build is there anyway to bleed the capacity off once it reaches its capacity and charge a battery or rectify it to a charge controller then feed a battery bank that feeds a invertor? I plan on building a mag lev bedini my mechanical skills are alright kind of old school laths and mills but I am planning to use wood or sintra board models first. My idea is imagine your machine where the drive shafts run thru the bearings extending past them and with larger diamter wheels with NS magnets and air coils placed to induct from the spinning mags and then bridge rectify to a drive controller that feeds a battery bank that feeds a invertor what do you think???
Sorry but I don't have all of the files anymore. I was planning on designing the ultimate pulse motor in the future. When I do I'll post the STL's on Thingiverse.
@@Edmorbus I logged into my old Fusion360 account and found my Bedini motor files if your still interested. If you build one I would be interested in watching a video! www.thingiverse.com/thing:4871102
It's a basic bedini circuit. Technically a mechanical oscillator. The primary and secondary windings oscillate back and forth, as you adjust the base resistor, the oscillation frequency changes and the rotor magnets finds an equilibrium rpm. You should look into it if your interested, pretty fascinating!
@@redesign3dp Let me share with you what it really is. I am quite knowledgeable about this stuff. It's what's called a "pulse circuit." There is no oscillation in the windings. When the transistor switches on, the battery starts to energize the drive coil. The energy put into the coil goes to three places; 1) to create the coil's magnetic field, 2) to give the rotor a push, and 3) resistive losses in the wire. When the transistor switches off the energy stored in the magnetic field of the coil is then dumped into a charging battery, or in your case into a high-voltage capacitor. That's basically it.
The primary and secondary windings do not oscillate back and forth. The secondary winding along with the rotor of the motor are all part of a pulse timing circuit to energize the main coil. It's a glorified pulse timing circuit akin to a 555 timer chip. When you see that the transistor might switch on and off a few times when a rotor magnet passes the coil, that's because of the signal coupling a.k.a. transformer action between the primary and secondary coils. So instead of a single output pulse from the main coil, you get multiple pulses. The energy from each mail coil "sub output pulse" is broken into the three parts like a describe above.
Very nice clean build! Oh man, watching this makes me want to play with bedini circuits again.
Thanks, maybe you should. Since you had a while to process, you might discover new insights.
The steam punk look, the other-earthly sound effects, makes these videos addicting!
You should build one!
@@redesign3dp I will! I want to purchase all of your designs and build them! It's a matter of time. I have some severe health problems that have me incapacitated. This is why I can only enjoy watching your expertly edited videos. I will let you know when I am well enough to build your unique creations!
Understood. Get better brother. Go on bitchute and search for George wiseman, here him out. Might be an option.
@@redesign3dp I will check George out and keep you posted. Thanks!
Genius device. Great motor . Thanks again so much for your input.
No problem, thank you for watching.
You feel like building a different design of something I call a gravity generator
Maybe one day, I have a long list of projects...
Am I to infer that the voltage/ current through the coil L to ground Neg is also receiving voltage from back EMF in same direction to ground, and not just wasting energy? I need to increase voltage to my circuit from 33V pulsing DC to over 100v from EMF to over same load capacitance TO GROUND ONLY. If coil has high resistance so as when grounded, no shorting. My coil is 1.5MH with .2 ohm resistance. Seems probable the 20,000 cycles applied as pulsing DC would just short the coil and blow fuse. Extra energy needs to be stored in a capacitor, not wasted over a coil inductor...
The trigger coil is the only one connected to ground, that completes the circuit allowing the transistor to turn on. I'm not sure if I understand your question correctly. This video was only to show how a Bedini motor can quickly charge a cap with BEMF. If you want to charge up a large cap quicker, I have a video showing how to do that using a cheap ZVS driver and a hand wound flyback transformer. Thanks
If I built an 18 coiler Bedini SG. Would I require a master circuit or a mini bedini circuit ( with updated/uggraded transistors and diodes ) for each coil. Thank you sir.
Each drive coil winding should have its own transistor circuit, they can all share the trigger coil. That's a big endeavor with a large expense. You should start small then work your way up. Less frustration, easier to troubleshoot.
@@redesign3dp Babcock recommended opto interrupter as trigger, but yes you're complete spot on regarding expense. Every project thereafter would be viewed as reasonable. At this point so much has been invested I just want to see it through. Thank you for the guidance though, it helps a lot. I consider this my first baby steps into the world of electronics, but any help will be returned 10 fold in gratitude. Have you watched Paul Babcock's "air core vs iron core - They Are All the Same" sir?
is there any way to bleed the energy off the capacitor once it is charged to a it capacity to charge another battery and could you offer a schematic of that type of circuitry
A basic bedini ssg circuit is what your looking for. Search Google images for the schematic. Thanks
Where can I find part list and build instructions for this motor?
Thats an old motor, I think the files are on Thingiverse. No build guide or parts list.
Hi I checked gp02-20 diod and it’s very expensive do you have alternative or what I can use else?
I found mine in a $5 diode surprise box from Electronic Goldmine, there were 100's of them in there. You might want to check to see if they still have them for sale. The best thing you can do is try different diodes to see which one captures the best results your looking for.
Nice experience, thank you. Can this circuit work on a north-south magnet? Please reply
This is a monopole type motor, so the circuit drives the rotor in repulsion mode. The rotor magnets can either be north or south but they must all be facing out in the same polarity. For more research on the subject look into the Bedini motor. Thanks
@@redesign3dp Thank you very much. I made a circuit with a single coil, a MOSFET, a sensor, and a magnet, north and south. I renew my thanks to you, my brother Ali from Iraq. Greetings to your person.
@@redesign3dp Fantastic build is there anyway to bleed the capacity off once it reaches its capacity and charge a battery or rectify it to a charge controller then feed a battery bank that feeds a invertor? I plan on building a mag lev bedini my mechanical skills are alright kind of old school laths and mills but I am planning to use wood or sintra board models first. My idea is imagine your machine where the drive shafts run thru the bearings extending past them and with larger diamter wheels with NS magnets and air coils placed to induct from the spinning mags and then bridge rectify to a drive controller that feeds a battery bank that feeds a invertor what do you think???
Does it give more energy out than you put in?
No, but it capture whats usually wasted energy..
Will or can you share the 3D Files
Sorry but I don't have all of the files anymore. I was planning on designing the ultimate pulse motor in the future. When I do I'll post the STL's on Thingiverse.
@@redesign3dp Thanks
@@Edmorbus I logged into my old Fusion360 account and found my Bedini motor files if your still interested. If you build one I would be interested in watching a video!
www.thingiverse.com/thing:4871102
@@redesign3dp Thanks for the files
There is no resonance at play here whatsoever.
Just a little self oscillation. Nothing special!
@@redesign3dp What do you mean by self oscillation?
It's a basic bedini circuit. Technically a mechanical oscillator. The primary and secondary windings oscillate back and forth, as you adjust the base resistor, the oscillation frequency changes and the rotor magnets finds an equilibrium rpm. You should look into it if your interested, pretty fascinating!
@@redesign3dp Let me share with you what it really is. I am quite knowledgeable about this stuff. It's what's called a "pulse circuit." There is no oscillation in the windings. When the transistor switches on, the battery starts to energize the drive coil. The energy put into the coil goes to three places; 1) to create the coil's magnetic field, 2) to give the rotor a push, and 3) resistive losses in the wire. When the transistor switches off the energy stored in the magnetic field of the coil is then dumped into a charging battery, or in your case into a high-voltage capacitor. That's basically it.
The primary and secondary windings do not oscillate back and forth. The secondary winding along with the rotor of the motor are all part of a pulse timing circuit to energize the main coil. It's a glorified pulse timing circuit akin to a 555 timer chip. When you see that the transistor might switch on and off a few times when a rotor magnet passes the coil, that's because of the signal coupling a.k.a. transformer action between the primary and secondary coils. So instead of a single output pulse from the main coil, you get multiple pulses. The energy from each mail coil "sub output pulse" is broken into the three parts like a describe above.
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