The imhotep radiant oscilator could be used for is an electric motorbike (or electric bicycle) with 3 batteries (A,B & C). Battery A is used to run bike until flat while B is Radiant back EMF charging C. When battery A is flat its replaced with battery B and battery C is now Radiant back EMF charging A. Then repeat this cycle forever without ever charging any of the batteries.
@homie12100 I actually use a 12 Volt car battery & charge 2 X 20 Volt Capacitors in parallel then discharge these 2 capacitors in series for a 40 volt spike back into the 12 Volt battery, I do this at 800 cycles per second to interact with the Schumman Cavity between the Earth (-Yin) and lower Ionashpere (+Yang). This is just a Tesla buzzer powered by a 800hz [] wave that charges itself with the cold component of electricity. Soon I'll upload a video of it so everyone can build one too.
I did replicate your setup (only using a different transistor as switch) and noticed that at quite mode I got the highest voltage reading across the battery being charge. It seems to me that at quite mode, it's the optimal performance for this charger. Can you confirm similar observation?
diyproject--Thanks for replicating this. If you want to, make a video and post it up here at the top. It helps everyone trying to build one of these type chargers. I did not do enough testing on this design to tell if this way charged better or worse than the Imhotep relay alone. You may have used a better transistor than I did. The faster and sharper the switching, the better the charger. I am going to try my 555 timer circuit on the Slayer007 Pulse Generator next and see how that works.
Great work 'Sir Lid' ~ thanks for scanning the diagrams slowly, that will help many to copy them and try out. Good and interesting input from Drevtoobe.
It looks like once the 555 is oscillating fast enough, the relay rocker arm stops moving, and the normally closed contact stays closed. Another option is to use the coil of the relay only, not routing the current through the NC contacts. You could sacrifice a relay and rip the coil out of it.
If you disconnect the charging battery for a moment and put two dry fingers of one hand across the relay coil contacts, you should be able to feel the frequency and intensity of the spikes.
There is not too much energy in the relay coil and it should not be too uncomfortable, and you can regulate now much pressure you put on the contacts with your fingers. It sounds crazy, but you can turn yourself into a 'human scope' and feel how the spikes change as you make adjustments.
Assume your battery is 12 volts, measure the resistance of the relay coil, calculate the max current through the coil.
The 2N3055 transistor spec states a minimum h(fe) current gain of 20. Therefore if the base current is at least 1/20th the coil current you will guarantee that the transistor is switched fully on when the 555 output is high.
Base resistor value = V/I = (12 V batt - 0.6 volt transistor diode drop)/(Coil_Current/20)
A little addendum: Note the above calculations are specific to the coil and it's current draw. The idea is to set the base resistor to a value that allows the transistor to switch the coil load on completely without having extra 'lost' current flow through the base input. That represents lost energy. You do calculations like this for mass production of something where you don't have the luxury of tuning each circuit.
You can easily tune the transistor circuit without a scope. The 555 output when high is the same as the batt voltage as long as the load on the output doesn't draw too much current. Connect the base resistor + trimpot to +12 volts, and monitor the collector voltage with your meter. When the collector voltage is about 0.2 volts or less, then the voltage drop across the coil is 11.8 volts. This tells you the transistor is fully on and conducting current.
So you make your trimpot adjustment to get your 0.2 volts between the collector and the emitter. You then measure the tuned base resistance with your multimeter. Then calculate the base input current = (12 - 0.6 V)/Tuned_Resistance.
Is the base input current less than 200 milliamps? If yes, then you are fine, and all is good. The 555 outputs can source up to 200 milliamps without any problems.
If all checks out, the transistor should run cool (hopefully!).
Hey Lidmotor, are you now the Imhotep Maharishi with people from all over the world trying to meet with you, inspiring musicians into new musical directions.
"And the time will come when you see
we're all one, and life flows on within you and without you." LOL
I look at your clips in high quality full-screen on my 50-inch plasma TV and I can see the circuit diagrams pretty clearly. You are such a great communicator.
I may make some hopefully astute comments later today about your setup.
The imhotep radiant oscilator could be used for is an electric motorbike (or electric bicycle) with 3 batteries (A,B & C). Battery A is used to run bike until flat while B is Radiant back EMF charging C. When battery A is flat its replaced with battery B and battery C is now Radiant back EMF charging A. Then repeat this cycle forever without ever charging any of the batteries.
John Myatt (Darwin, NT)
MrJohnmyatt 8 months ago
@MrJohnmyatt mai i have a picture for my bicycle conversion? thank you.
homie12100 7 months ago
@homie12100 I actually use a 12 Volt car battery & charge 2 X 20 Volt Capacitors in parallel then discharge these 2 capacitors in series for a 40 volt spike back into the 12 Volt battery, I do this at 800 cycles per second to interact with the Schumman Cavity between the Earth (-Yin) and lower Ionashpere (+Yang). This is just a Tesla buzzer powered by a 800hz [] wave that charges itself with the cold component of electricity. Soon I'll upload a video of it so everyone can build one too.
Peace
MrJohnmyatt 7 months ago
This has been flagged as spam show
@MrJohnmyatt may i i have a picture for my bicycle conversion? thank you.
homie12100 7 months ago
mine likes to sing also....
i like the sound it makes.....
i used a car relay from a junk car, it had the other connection 87a....
i had to remove a resistor inside the relay.......it may be useful to use with the resistor because voltage spike is much lower and quieter
irondmax 1 year ago
I turned the 5k pot down and the whole thing exploded
teslanumbertwo 2 years ago
im bored on cam
lovin this video!! leave me a comment nD
AnimeRawkZ123 3 years ago
I did replicate your setup (only using a different transistor as switch) and noticed that at quite mode I got the highest voltage reading across the battery being charge. It seems to me that at quite mode, it's the optimal performance for this charger. Can you confirm similar observation?
diyproject 3 years ago
diyproject--Thanks for replicating this. If you want to, make a video and post it up here at the top. It helps everyone trying to build one of these type chargers. I did not do enough testing on this design to tell if this way charged better or worse than the Imhotep relay alone. You may have used a better transistor than I did. The faster and sharper the switching, the better the charger. I am going to try my 555 timer circuit on the Slayer007 Pulse Generator next and see how that works.
Lidmotor 3 years ago
Great work 'Sir Lid' ~ thanks for scanning the diagrams slowly, that will help many to copy them and try out. Good and interesting input from Drevtoobe.
byjoveoldchap 3 years ago
It looks like once the 555 is oscillating fast enough, the relay rocker arm stops moving, and the normally closed contact stays closed. Another option is to use the coil of the relay only, not routing the current through the NC contacts. You could sacrifice a relay and rip the coil out of it.
If you disconnect the charging battery for a moment and put two dry fingers of one hand across the relay coil contacts, you should be able to feel the frequency and intensity of the spikes.
Drevtoobe 3 years ago
There is not too much energy in the relay coil and it should not be too uncomfortable, and you can regulate now much pressure you put on the contacts with your fingers. It sounds crazy, but you can turn yourself into a 'human scope' and feel how the spikes change as you make adjustments.
Drevtoobe 3 years ago
Some basic engineering number crunching:
Assume your battery is 12 volts, measure the resistance of the relay coil, calculate the max current through the coil.
The 2N3055 transistor spec states a minimum h(fe) current gain of 20. Therefore if the base current is at least 1/20th the coil current you will guarantee that the transistor is switched fully on when the 555 output is high.
Base resistor value = V/I = (12 V batt - 0.6 volt transistor diode drop)/(Coil_Current/20)
Drevtoobe 3 years ago
A little addendum: Note the above calculations are specific to the coil and it's current draw. The idea is to set the base resistor to a value that allows the transistor to switch the coil load on completely without having extra 'lost' current flow through the base input. That represents lost energy. You do calculations like this for mass production of something where you don't have the luxury of tuning each circuit.
Drevtoobe 3 years ago
You can easily tune the transistor circuit without a scope. The 555 output when high is the same as the batt voltage as long as the load on the output doesn't draw too much current. Connect the base resistor + trimpot to +12 volts, and monitor the collector voltage with your meter. When the collector voltage is about 0.2 volts or less, then the voltage drop across the coil is 11.8 volts. This tells you the transistor is fully on and conducting current.
Drevtoobe 3 years ago
So you make your trimpot adjustment to get your 0.2 volts between the collector and the emitter. You then measure the tuned base resistance with your multimeter. Then calculate the base input current = (12 - 0.6 V)/Tuned_Resistance.
Is the base input current less than 200 milliamps? If yes, then you are fine, and all is good. The 555 outputs can source up to 200 milliamps without any problems.
If all checks out, the transistor should run cool (hopefully!).
Drevtoobe 3 years ago
Hey Lidmotor, are you now the Imhotep Maharishi with people from all over the world trying to meet with you, inspiring musicians into new musical directions.
"And the time will come when you see
we're all one, and life flows on within you and without you." LOL
I look at your clips in high quality full-screen on my 50-inch plasma TV and I can see the circuit diagrams pretty clearly. You are such a great communicator.
I may make some hopefully astute comments later today about your setup.
Drevtoobe 3 years ago
Cool :)
MoonSpyStudios 3 years ago
thanks man
crob227 3 years ago
You welcome. Build one.
Lidmotor 3 years ago