1.5 up to 2kW in 0815-dimmer mode

But ion this case, choice is this normalerweiße unwanted behavior.
Controlling an ignition coil with dimmer and capacitor works also not differently. I'm sorry that I only now sign. Thank you for the many tips!

I just don't know if the "control electronics" for such a high primary streams is suitable. The TRIAC, DIAC and Variac after Thomas should I use apps circuit, and if that is not too expensive. Originally, I wanted to build also a Wagnerian hammer or an other mechanical Umpoler. I can build a fat Condi as Loschkondensator from several MP high-voltage capacitors. I'm still pulse solid 2 kV Kondis in the garage.
To build this circuit I need testing jobs  values and security, nothing to die, even if the inductor times half an hour running. Thomas Rapp has also its secrets and will want to reveal sure not everything. But I can ask him Yes.

By the construction, the spark coil is just get kV, like my a-leg transformer with 170, except that now the primary coil is rather overloaded. Theoretically, I can switch the coil at 50 Hz, to get an almost-metre arc.
The result of the voltage of 1000 kV and 2.5 V per winding is not a problem. I had already a turns ratio of 4 V per coil. The insulation can withstand that. Keep in mind I only in the external voltage ranges of the external coil, whether oil and vessel wall can ward off breakdowns from plastic. Theoretically.
If the wire is sufficient, I will wrap the thing maybe to 500 kV secondary relationship. 250 kV should be still good to isolate at the ends.

Today is the primary tube wrapped, then fit the core and shed. A suitable pipe for the container is problematic at the moment. Somehow, no plastic company wants me to a blank machen...sondern provide only 5 yards at a time. I don't think that you're happy with a mechanical circuit breaker. A you're going down a very much output to, because the breaker can work much less efficient as a semiconductor. On the other hand, you have probably one arcing enormous at a mechanical interrupter.

Sure you must consider exactly, what semiconductors you will take for high currents. However I think the really big advantage of your Setup will be the low switching frequency. For low frequencies by maximum a few hundred Hz, there are high performance thyristors and triacs.

Quote:
To build this circuit I need exact values and security, nothing to die, even if the inductor times half an hour running. Thomas Rapp has also its secrets and will want to reveal sure not everything.

You probably never have a one hundred percent security at self-developed power electronics. I don't think, however, that Thomas Rapp guarding secrets. He is (as I've seen him) very nice and helpful and he has documented his projects always clean. Sure will he like to help friends, Soviet in its power there. If esmeine would, as I would with a small and simple drive circuit first try and then slowly improve. Even a small, chilled TRIAC is capable of driving loads of 1.5 up to 2kW in 0815-dimmer mode.

Basically I would argue that the control electronics is the smallest problem on your project time ;-) Ahead of the rest, I had the greatest respect. bEigentlich, I would have built long likes to sometimes a spark inductor (of course not just in your dimensions, but still great: D), but I didn't then the giant work but spared :| What a pity...

Anyway, once again good luck for your giant inductor. Don't forget please here again to show the current state of things ;-) The thing interested me!