>>12510443with a analog circuit that has a number of germanium diodes in series. maybe 3 and that outputs to a voltage divider which has 10 stages. each point between resistors has another germanium diode which goes to phase 1 output a led for basic visual confirmation that its doing something.
all this really does so far is cause voltage irregularities which are changing the voltage across the voltage divider and also when there is back flow on the output germanium diode it also changes the current across the voltage divider. so you got 10 stages. now that by itself isnt anything to write home about . it wont even generate much of anything visibly probably but 3 germanium diodes in series cause more distortion and the 4th on any 1 output is giving more signal interfeerence
so the 10 outputs are then each paired on opposing ends so that the 1st is paired with the 6th and the second paired with the 7th ect ect ect and those pairs are connected to comparitors which require both to be the same to activate. . so you got 5 going. thats a lot more signal noise and stop go shit. now you ad more comparitors to compare the 5 to each other to get 10 again. the last one can be compared vs any other the other 4 it doesnt matter . so you got the original comparitor signal line and the second gen comparison result line. 10 total
now make a flip flop that will null all signals after the first until there is a 3rd signal. so pulse 1 confirmed. pulse 2 is logged but only as pulse 2 resets and pulse 3 confirms. now this isnt all tied together yet. the comparitor mess is wired to more led indicators for basic trouble shooting. each output wired to 1 led with the led output going to the master connection. . each signal should be a different voltage and current. depending on how much your feeding it it may be little or it may be a lot. so this is crude signal strength plus interruption allowing for less than linear progression of a stream of current. connect to current transformer