Kapanadze Cousin - DALLY FREE ENERGY

[ramset]

Bolt

..........Good to see you around
.........Your images need shrinking ,or the page gets unreadable .....


Chet

[bolt]

Hi Chet, Good to see you too!  I deleted the pics for now not important. Just finished the basis of the push pull board. I found out a TL494 can be externally clocked as the on board oscillator is pretty crap. So now it will work from 1Hz to 100Khz and step the duty cycle from 1% to 99% so pretty pleased with that. I decided the pulse uS delay for Tesla bursts is best done with basic RC delay logic as Arduino not fast nor reliable eneough to work dealing with microseconds as well as dealing with any other loops running.  Just about to start on the FET o/p board which should be easy now most of the logic sorted out.

[Belfior]

Hi Chet, Good to see you too!  I deleted the pics for now not important. Just finished the basis of the push pull board. I found out a TL494 can be externally clocked as the on board oscillator is pretty crap. So now it will work from 1Hz to 100Khz and step the duty cycle from 1% to 99% so pretty pleased with that. I decided the pulse uS delay for Tesla bursts is best done with basic RC delay logic as Arduino not fast nor reliable eneough to work dealing with microseconds as well as dealing with any other loops running.  Just about to start on the FET o/p board which should be easy now most of the logic sorted out.

Hi bolt!

I wonder if you have a web page that you post your schematics and device modifications? It could save a lot of time from other people...

Buying a TL494 board is one thing, but modifying one might need good instructions. Also these threads are not a good way of keeping track of these modifications

[AlienGrey]

.

[onepower]

Bolt

Just finished the basis of the push pull board. I found out a TL494 can be externally clocked as the on board oscillator is pretty crap. So now it will work from 1Hz to 100Khz and step the duty cycle from 1% to 99% so pretty pleased with that. I decided the pulse uS delay for Tesla bursts is best done with basic RC delay logic as Arduino not fast nor reliable eneough to work dealing with microseconds as well as dealing with any other loops running.  Just about to start on the FET o/p board which should be easy now most of the logic sorted out.

I have clocked an Arduino Uno into the 100nS range and it was solid. Not to mention the fact that we can adjust the offset and frequency between multiple channels on the fly. The problem I see is that the good old days were never that good and spending endless hours under the fog of a soldering iron for a decade or so was not all that productive. With a PLC we can throw together a multi-channel, multi-frequency oscillator with any offset or timing function we want. It is so damn easy it boggles the mind compared to the fiasco of breadboarding and soldering all that crap together which never really worked all that well anyways.

Do you know what is brilliant?, the fact that with something as simple as a $10 Arduino we are in control... think about it. If I actually wanted to use that grey matter between my ears I would let a computer do all the hard work. I would set up my circuit then program a sweep function of one frequency relative to another as a variable offset/variable frequency then log the output. Follow my logic?, we are looking for something and you can waste hundreds of hours of your time trying to manually change the variables or have a computer change the variables and tell you what works. This is the fundamental premise of why computers were invented to do all the heavy lifting and number crunching for us.

Why in gods name you people feel so compelled to do everything the hard way and waste your time is beyond me. Set up a test circuit, program your micro-computer to sweep through as many variables as possible, log the inputs vs output and it will basically tell you where all the sweet spots are. I built and programmed a circuit using an Arduino Uno with a piezo beeper in about 6 hours to tell me when the COP is greater than 1 and the output has exceeded the input. It just scans through all the possible variables and when the COP>1... it beeps. So our computer looks at the data and and which variables worked and gives us the answer... not that difficult.

In my opinion we have to move past the average dark ages thinking and embrace the future. We have tools at our disposal and access to knowledge like no other time in history... use them.