Ok, what I decided to do was go through a few things about CCFL circuits, their relationship to Meyer technology and how we can use them. Also how the technology has developed over the years and the sneaky way the powers that be have disguised it and kept us from using it as free energy.
Cold cathode technology is closer to Meyer technology than any other technology on the planet. Some circuits in 3rd generation CCFL do indeed have amp restricting qualities but they do not go all the way and patent offices around the world although they have allowed it, they only allow it to go so far. Neon signs, LCD displays and cold cathode tubes are the only devices really that have been allowed to flourish but it can be taken much much further if you study the technology.
If you look at figure 1, it shows a simple CCFL circuit. You will see that it already resembles some of Stan's schematics, PWM circuit on the left, step up transformer at T1, our good old friend the famous diode half rectifying the circuit to the tube and a cap. The cap at C3 actually is no different from the starter we all have in are normal cathode tubes at home.
There is resonance going on in this circuit but not as much as we would like.
Take a look at figure 2, now we see a 3rd generation CCFL circuit. This is an whole new ball game and resonance is now a major player in both the primary and secondary circuits in the form of two LC networks. But here is the money shot which I have circled, those networks are now in agreement with each other and although there is no choke bias present at first glance, when you study the schematics after a while you begin to understand that there is actually.
You see what they do is, they overload the saturation of the inductor cores on the primary and the secondary but one is overloaded at 90% of the other and thats where they restrict amps and use bias. Its quite complicated and I can go through that at a different time.
The amazing thing about these circuits is that you can put 32 watt bulbs, 42 watt bulbs and 52 watt bulbs in the same circuit and it compensates, now having talked about gating the main frequency with people on here to stop voltage overload on the cell before, we can all see where that can help, these circuits seem to gate themselves for some reason so that the load can go up or down, the switching power of this gating though, whether it can keep up with what we want is another matter but it may well do.
So we have what we need basically within these circuits but the real amp restricting circuits have been removed for obvious reasons so what I have done is bridge rectified one of my amp restricting circuits into the bargaining. Figure 4 deals with this.
Before I go any futher I must stipulate that any amp restricting circuit will suffice including the 2400% Thane Heins designs which I know for a fact work. Take an Heins design or one of mine which are Meyer copies and bridge rectify it into the input dc voltage of the CCFL inverter. On the figure 4 schematic the primary is 12vdc modulated, stepped up to 120vac in the secondary then biased back down to 12vac through Meyer biasing before it enters the bridge rectifier. Seems strange doesn't it? Start off with 12vdc and end up with 12vdc, but thats how Poo has to tick if you truly want to restrict amps. Notice an isolated ground on that part of the circuit. If you don't do that it will fail. We are stealing from ground because the variable inductor at L2 is cancelled completely because of the bias circuit, all the other grounds are connected to the normal ground which is ultimately supplied from the isolated ground.
You will see there is a variable cap in series with the cell, THAT IS A MUST when developing.
Now to the cell itself, it is indeed a cap, I didn't think this at first and argued against it strongly but it isn't until you get into the workings of this device properly that you begin to realise. Therefore a combination of dielectric layers on the cell walls and a combination of the dielectric property of the water you use make up the constant.
A little note on isolated grounds: There is no such thing as ground in the real sense of the word. Those of you that understand the phases of electricity will understand that what may make a ground in one circuit makes a positive potential in another. Therefore it is advisable to remember that an isolated ground does not have to be negative in all situations, it can be positive in certain circumstances and the true meaning of ground actually means a difference in potential.
Now getting back to using this thing as an 'on demand' solution. Anyone that thinks you cannot use a amp restricting circuit to negate amps and drive a CCFL circuit in a single modified spark plug situation is a absolute mad man. Have I played with CCFL? A little, lol.
Cold cathode technology is closer to Meyer technology than any other technology on the planet. Some circuits in 3rd generation CCFL do indeed have amp restricting qualities but they do not go all the way and patent offices around the world although they have allowed it, they only allow it to go so far. Neon signs, LCD displays and cold cathode tubes are the only devices really that have been allowed to flourish but it can be taken much much further if you study the technology.
If you look at figure 1, it shows a simple CCFL circuit. You will see that it already resembles some of Stan's schematics, PWM circuit on the left, step up transformer at T1, our good old friend the famous diode half rectifying the circuit to the tube and a cap. The cap at C3 actually is no different from the starter we all have in are normal cathode tubes at home.
There is resonance going on in this circuit but not as much as we would like.
Take a look at figure 2, now we see a 3rd generation CCFL circuit. This is an whole new ball game and resonance is now a major player in both the primary and secondary circuits in the form of two LC networks. But here is the money shot which I have circled, those networks are now in agreement with each other and although there is no choke bias present at first glance, when you study the schematics after a while you begin to understand that there is actually.
You see what they do is, they overload the saturation of the inductor cores on the primary and the secondary but one is overloaded at 90% of the other and thats where they restrict amps and use bias. Its quite complicated and I can go through that at a different time.
The amazing thing about these circuits is that you can put 32 watt bulbs, 42 watt bulbs and 52 watt bulbs in the same circuit and it compensates, now having talked about gating the main frequency with people on here to stop voltage overload on the cell before, we can all see where that can help, these circuits seem to gate themselves for some reason so that the load can go up or down, the switching power of this gating though, whether it can keep up with what we want is another matter but it may well do.
So we have what we need basically within these circuits but the real amp restricting circuits have been removed for obvious reasons so what I have done is bridge rectified one of my amp restricting circuits into the bargaining. Figure 4 deals with this.
Before I go any futher I must stipulate that any amp restricting circuit will suffice including the 2400% Thane Heins designs which I know for a fact work. Take an Heins design or one of mine which are Meyer copies and bridge rectify it into the input dc voltage of the CCFL inverter. On the figure 4 schematic the primary is 12vdc modulated, stepped up to 120vac in the secondary then biased back down to 12vac through Meyer biasing before it enters the bridge rectifier. Seems strange doesn't it? Start off with 12vdc and end up with 12vdc, but thats how Poo has to tick if you truly want to restrict amps. Notice an isolated ground on that part of the circuit. If you don't do that it will fail. We are stealing from ground because the variable inductor at L2 is cancelled completely because of the bias circuit, all the other grounds are connected to the normal ground which is ultimately supplied from the isolated ground.
You will see there is a variable cap in series with the cell, THAT IS A MUST when developing.
Now to the cell itself, it is indeed a cap, I didn't think this at first and argued against it strongly but it isn't until you get into the workings of this device properly that you begin to realise. Therefore a combination of dielectric layers on the cell walls and a combination of the dielectric property of the water you use make up the constant.
A little note on isolated grounds: There is no such thing as ground in the real sense of the word. Those of you that understand the phases of electricity will understand that what may make a ground in one circuit makes a positive potential in another. Therefore it is advisable to remember that an isolated ground does not have to be negative in all situations, it can be positive in certain circumstances and the true meaning of ground actually means a difference in potential.
Now getting back to using this thing as an 'on demand' solution. Anyone that thinks you cannot use a amp restricting circuit to negate amps and drive a CCFL circuit in a single modified spark plug situation is a absolute mad man. Have I played with CCFL? A little, lol.