is there an easy to follow guide to try this? it looks simple! all i have to say is wow! nice job:) now we have to see if we can run a house with this! could you imagine what this could do for off the grid living!!!!
eroutt--- No easy to follow guide on this one. Google---- 'Dr. Stiffler SEC' There is alot of information out on his design. MHR202 is his channel here.
mmsglobe---- I might try two of those little solar panels in series to get a higher volatge. I would then have to run that through a voltage regulator to hold the voltage down a bit as to not blow up the parts. Higher voltage on this circuit means more light.
harpbloke--- This is kinda like getting into an exotic car and going for a quick spin. You will never know what it is capable of doing but it is still fun to drive around the block.
Great work, I follow every vid you post, keep at it.
I was wondering, Lidmotor and others. What and where is the best info. for a battery charger. I would like to charge dead batteries and bring them back to life with radiant, back emf, etc. (alternative) energy.
I have a cool suggestion for you. Put your scope across your wireless pick-up setup. You will be able to measure the frequency of the SEC oscillator without worrying about damaging your scope. The frequency gives you the wavelength, which then can give you a sense of what the EM field looks like.
Glad you are having so much fun! Why is the sky blue?
Thanks for the scope tip. You notice that I have not had my scope in any videos lately. The frequency is so high and there is so much energy in the air that it is very hard to get a good look this. I finally put a small coil of wire around the probe and held it near the circuit. I still can't get a good look at it and I really don't want to harm my scope. I will try your idea from two feet away and see what happens.
I'm guessing that the SEC frequency is in the 2-10 MHz range and the bandwidth of your scope is at least 50 MHz, possibly 150 MHz (it's a high-end scope for it's time). So your scope should have no problem showing something.
The voltage directly across the diodes will show you the frequency, but not the waveform itself. Because it's a relatively high frequency from the SEC, the actual EM waveform is probably very close to pure sinusoidal. "very close" still means tons of harmonics.
I can assure you that the scope won't be harmed by low voltage - high frequency, it's only high voltage at the probe inputs that can be harmful to the scope's input amplifiers.
I noticed that Gotoluc has a digital multimeter with six digits of precision after the decimal point. That is an _awesome_ piece of manna from heaven.
GBluer -- It worked alot better than I thought it would. The unloaded voltage on most 12v panels is about 21 volts and I think that helped. When I made this video the voltage at the first cap was holding at 11.75 volts under load.
crob----This all belongs to Dr. Stiffler. His channel is MHR202. The circuits are posted here and there if you Google Dr. Stiffler SEC. There is also a thread at the Energetic Forum where a bunch of us are working on this.
try shining all that light youre getting onto the solar panel!!!!!!!!!!!!
sdfab 1 year ago
is there an easy to follow guide to try this? it looks simple! all i have to say is wow! nice job:) now we have to see if we can run a house with this! could you imagine what this could do for off the grid living!!!!
eroutt 2 years ago
eroutt--- No easy to follow guide on this one. Google---- 'Dr. Stiffler SEC' There is alot of information out on his design. MHR202 is his channel here.
Lidmotor 2 years ago
great video ! i like it.. ;)
Demoman42 2 years ago
Hi Lidmotor, you made one more great video !! Congratulations !!
One question: Is there a way to increase a bit the output from solar panel, to say 15V for brighter FL out of the SEC ?
mmsglobe 2 years ago 2
mmsglobe---- I might try two of those little solar panels in series to get a higher volatge. I would then have to run that through a voltage regulator to hold the voltage down a bit as to not blow up the parts. Higher voltage on this circuit means more light.
Lidmotor 2 years ago
awesome stuff lid ! and the others, and DR S !!!!!!
harpbloke 2 years ago
harpbloke--- This is kinda like getting into an exotic car and going for a quick spin. You will never know what it is capable of doing but it is still fun to drive around the block.
Lidmotor 2 years ago
Great work, I follow every vid you post, keep at it.
I was wondering, Lidmotor and others. What and where is the best info. for a battery charger. I would like to charge dead batteries and bring them back to life with radiant, back emf, etc. (alternative) energy.
Thanks
kalnaiwb 2 years ago
kalnaiwb---Try the "Imhotep radiant ocsillator relay" to start with. It is a $10 and one afternoon adventure to see if you like this.
Lidmotor 2 years ago
Hey Lidmotor, keep on rockin' lol
I have a cool suggestion for you. Put your scope across your wireless pick-up setup. You will be able to measure the frequency of the SEC oscillator without worrying about damaging your scope. The frequency gives you the wavelength, which then can give you a sense of what the EM field looks like.
Glad you are having so much fun! Why is the sky blue?
Drevtoobe 2 years ago
Thanks for the scope tip. You notice that I have not had my scope in any videos lately. The frequency is so high and there is so much energy in the air that it is very hard to get a good look this. I finally put a small coil of wire around the probe and held it near the circuit. I still can't get a good look at it and I really don't want to harm my scope. I will try your idea from two feet away and see what happens.
Lidmotor 2 years ago
I'm guessing that the SEC frequency is in the 2-10 MHz range and the bandwidth of your scope is at least 50 MHz, possibly 150 MHz (it's a high-end scope for it's time). So your scope should have no problem showing something.
The voltage directly across the diodes will show you the frequency, but not the waveform itself. Because it's a relatively high frequency from the SEC, the actual EM waveform is probably very close to pure sinusoidal. "very close" still means tons of harmonics.
Drevtoobe 2 years ago
I can assure you that the scope won't be harmed by low voltage - high frequency, it's only high voltage at the probe inputs that can be harmful to the scope's input amplifiers.
I noticed that Gotoluc has a digital multimeter with six digits of precision after the decimal point. That is an _awesome_ piece of manna from heaven.
Drevtoobe 2 years ago
I was woundering how this would work off a solar panel.
Thanks Lidmotor.
GBluer 2 years ago
GBluer -- It worked alot better than I thought it would. The unloaded voltage on most 12v panels is about 21 volts and I think that helped. When I made this video the voltage at the first cap was holding at 11.75 volts under load.
Lidmotor 2 years ago
up size it, and get off the grid to light your house.... great job, will you be posting a schematic??
crob227 2 years ago
crob----This all belongs to Dr. Stiffler. His channel is MHR202. The circuits are posted here and there if you Google Dr. Stiffler SEC. There is also a thread at the Energetic Forum where a bunch of us are working on this.
Lidmotor 2 years ago