Tonight I got 1500 volts out of my SSG with 134 volts continuous DC registering on my Oscilloscope!!
Gary, that diagram is an exact match - good work!
I initially put one bifilar coil on as shown in Gary's picture above, and that yields about 500-700 volts or so (positive spikes). If you add more coils in series (between the charging battery (NEG) and the running battery (POSITIVE) you get more power. I got 1500 volts with a total of 2 coils, one being bifilar, and one being a regular coil with about 100 feet of 30 gauge wire. (about 300 wraps). The bifilar coil is 400-450 wraps of 24 gauge and 27 gauge (but I think it should the same wire size on both for best results).
The coils have a hollow air core. No metal. The two coils should not sit on top of each other, unless you get the polarity right. If you set one coil on top of the other, I noticed that you have to make sure it is facing the right direction, otherwise it reduces the voltage spike. Keep the two coils separate if you want to avoid problems.
You don't need two coils I was just experimenting, that is why the picture has two coils. I have tried one coil, and it works good. The bifilar coil makes 500 volts. Adding the 2nd single stranded coil in series between the two batteries improved my voltage spikes up to 1500 volts, and made the gauge register a continuous 134 volts DC. I also got shocked and I verified that there is really 1500 volts! Ha ha!
Remember, I came here to get feedback. I have no idea if I have improved my design or ruined it! At this point I don't have the experience to recommend anything to anyone. But if you want to experiment, I can provide more details of what I did.
The easiest way is to hook up the inductors, if they are hooked up wrong, you get AC voltage spikes (positive/negative). Only positive spikes if they are hooked up right (at least what I have decided is right!)
I appreciate all the comments. Everyone here sounds so positive, I love it!! Thanks guys!
Gary, that diagram is an exact match - good work!
I initially put one bifilar coil on as shown in Gary's picture above, and that yields about 500-700 volts or so (positive spikes). If you add more coils in series (between the charging battery (NEG) and the running battery (POSITIVE) you get more power. I got 1500 volts with a total of 2 coils, one being bifilar, and one being a regular coil with about 100 feet of 30 gauge wire. (about 300 wraps). The bifilar coil is 400-450 wraps of 24 gauge and 27 gauge (but I think it should the same wire size on both for best results).
The coils have a hollow air core. No metal. The two coils should not sit on top of each other, unless you get the polarity right. If you set one coil on top of the other, I noticed that you have to make sure it is facing the right direction, otherwise it reduces the voltage spike. Keep the two coils separate if you want to avoid problems.
You don't need two coils I was just experimenting, that is why the picture has two coils. I have tried one coil, and it works good. The bifilar coil makes 500 volts. Adding the 2nd single stranded coil in series between the two batteries improved my voltage spikes up to 1500 volts, and made the gauge register a continuous 134 volts DC. I also got shocked and I verified that there is really 1500 volts! Ha ha!
Remember, I came here to get feedback. I have no idea if I have improved my design or ruined it! At this point I don't have the experience to recommend anything to anyone. But if you want to experiment, I can provide more details of what I did.
The easiest way is to hook up the inductors, if they are hooked up wrong, you get AC voltage spikes (positive/negative). Only positive spikes if they are hooked up right (at least what I have decided is right!)
I appreciate all the comments. Everyone here sounds so positive, I love it!! Thanks guys!
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