First, I want to congratulate all of you for putting so much effort into this problem, and finally solving the first stage - replication of Krupa's PLASMA effect, replication of the plugs, steam injection with leaned out mixture, simplification of the circuit and even printed layouts for the system. You've come a long long way since the thread started. I want to especially thank the Panacea for enormous effort put into production of their PDF files and free information distribution. Thank you all so very much!
@Robert E.
I really like your new simplified design! Are you going to try them on the PLASMA circuit soon?
@Xack & Gotoluc
Great idea guys, that would give us a lot of space for spark + easy manufacturing!
@alsy
Thank you for great link and the chart. It's clear now why Be-Cu replicas were eaten away so quickly...Maybe we should go for Fe-Cr-Pt (70%-25%-5%)? We can melt pretty much anything with HHO gas, can't we , in case there's no readily available alloy we need.
Now, I have 2 small questions regarding Voltage Multipliers, as seen here:
http://sub.allaboutcircuits.com/images/03286.png (taken from All About Circuits : Free Electric Circuits Textbooks)
The question No.1 is: do I need AC or DC capacitors to make a Voltage Multiplier circuit (doubler, quadrupler,...)?
Question No.2 is: are these capacitors in parallel or in series? Because I need to calculate the energy they can store (in Joules), and I'm not sure if they're in series or parallel.
I actually want to take only one AC phase (wire) from my alternator (if it's possible, if not I'll make an inverter per plans posted here) and send it to step-up transformer (1:28 ratio) to magnify the voltage from 14.5VAC (max voltage @4000 rpm) to 400VAC. Then, send it through a voltage quadrupler and raise it to 1600 VDC, and then send it through resistor to the dump cap (1600V 220nF - 281.6mJ & 352uC).
It's not 1 Joule of energy yet, but I'd like to see the effects with this 281mJ+50mJ of stock ignition, for starters, on the standard resistorless plug - NGK BCP6ES.
Thanks in advance !!!
@Robert E.
I really like your new simplified design! Are you going to try them on the PLASMA circuit soon?
@Xack & Gotoluc
Great idea guys, that would give us a lot of space for spark + easy manufacturing!
@alsy
Thank you for great link and the chart. It's clear now why Be-Cu replicas were eaten away so quickly...Maybe we should go for Fe-Cr-Pt (70%-25%-5%)? We can melt pretty much anything with HHO gas, can't we , in case there's no readily available alloy we need.
Now, I have 2 small questions regarding Voltage Multipliers, as seen here:
http://sub.allaboutcircuits.com/images/03286.png (taken from All About Circuits : Free Electric Circuits Textbooks)
The question No.1 is: do I need AC or DC capacitors to make a Voltage Multiplier circuit (doubler, quadrupler,...)?
Question No.2 is: are these capacitors in parallel or in series? Because I need to calculate the energy they can store (in Joules), and I'm not sure if they're in series or parallel.
I actually want to take only one AC phase (wire) from my alternator (if it's possible, if not I'll make an inverter per plans posted here) and send it to step-up transformer (1:28 ratio) to magnify the voltage from 14.5VAC (max voltage @4000 rpm) to 400VAC. Then, send it through a voltage quadrupler and raise it to 1600 VDC, and then send it through resistor to the dump cap (1600V 220nF - 281.6mJ & 352uC).
It's not 1 Joule of energy yet, but I'd like to see the effects with this 281mJ+50mJ of stock ignition, for starters, on the standard resistorless plug - NGK BCP6ES.
Thanks in advance !!!
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