Kapanadze Cousin - DALLY FREE ENERGY

T-1000 · May 29, 2013, 02:07:33 PM

Quote from: Hoppy on May 29, 2013, 01:53:40 PM
Please stop calling it BEMF. The link you give is not a motor circuit! its also not a self-runner. Nick is looking for a self-runner. Do you have a genuine self-running schematic that you are prepared to post? The various Dally circuits posted are also not self-runners.

There are many names. For example, can you say what is different between BEMF and cold electricity?
Also I am not talking about specific circuit - the same principles are all over different places.
In regards to Dally circuit even iit would be correct one given it still is 10% of total self runner because 90% of it is tuning...

Hoppy · May 29, 2013, 02:40:48 PM

Quote from: T-1000 on May 29, 2013, 02:07:33 PM
There are many names. For example, can you say what is different between BEMF and cold electricity?
Also I am not talking about specific circuit - the same principles are all over different places.
In regards to Dally circuit even iit would be correct one given it still is 10% of total self runner because 90% of it is tuning...

The discharge of energy stored in an inductor which is termed 'cold electricity' is not the same thing as induced voltage in a motor coil that creates a current in opposition to the motor energising current - BEMF / CEMF.

Have you built the Dally circuit and achieved self-running?

NickZ · May 29, 2013, 03:32:13 PM

One of the things that I'd like to bring up is the term "coil shorting". I don't know where this term came from, but, it does not describe what is really going on, and can confuse more than anything else.
As there is no "shorting" when the transistor switch opens the tank circuit. What we are calling BEMF is also not right, as there is no going "back" to it, as it is a pulse that goes both forward and back at the same time, so it should just be called pulsed EMF, and not BEMF.
When the circuit is opened by the transistor or mosfet, it is the same thing as Tesla mentioned when the big generator's on/off switch was opened. There was a big huge spike and a current build up that was pulsed or blasted throughout the whole system. But, was not just going in one direction like "back", but instead that goes both directions, forward and back, at the same time. Which when higher current is involved, it becomes very difficult to filter and isolate it, so that it won't burn out the transistors or mosfet gates that are doing the switching function.
So, this is what happens when our transistor "opens" the circuit, and a resultant spike is formed.
Now, what happens to that spike? It is absorbed by a capacitor, which separates the AC HV/HF pulse into both positive and negative polarities, which then can also be rectified by full wave rectifier into DC current, and from there it is sent to a battery, or DC load. Or is made for 50 or 60 hertz 110v to 220v output to be used by any normal bulb or appliances.
The higher the input power given, the higher the circuit will transform it into even higher voltages, or higher current levels.
I may have this all wrong, and I'm not the best at describing this process, but, that is how I understand it.
Some one like SeaMonkey would be great to have helping us with all this, to get it right, and improve on it also. As up to this point it is all just standard electronic circuitry. But, there is also some magic to be had, as well.
Magic is only a term used to describe what we don't yet fully understand. But, we will...

NickZ · May 29, 2013, 03:56:59 PM

@ Hoppy:
Yes, I'm looking into the self-runner like Akula is showing, as it is the ONLY way of seeing a truly self sustaining circuit, when there is NO input involved. Anything else may just be efficient circuits, of higher or lower degrees.
However, for now, I think that what is important in trying to replicate the Akula system, is to focus on what exactly is causing the abnormal output from such minimal input, in the first place. And ignoring the feed-back system until we discover just how that anomalous output is obtained.
To do so I've suggested that we forget the battery/inverter/rectifier that he is using as his input source, and just use a known DC supply input, to a driver circuit, and see just what that can achieve, without looking into or being distracted by the feed-back side of things, as yet.

Hoppy · May 29, 2013, 04:47:50 PM

Quote from: NickZ on May 29, 2013, 03:56:59 PM
@ Hoppy:

To do so I've suggested that we forget the battery/inverter/rectifier that he is using as his input source, and just use a known DC supply input, to a driver circuit, and see just what that can achieve, without looking into or being distracted by the feed-back side of things, as yet.

Given that Akula shows a battery/inverter and rectifier, then why are you dispensing with these items when you are sure he has a self-runner? It makes no sense to me when you are supposed to be attempting a replication. These items may be essential in order to observe anything special happening.