Yes the Jetijs circuit is very sweet. I have been hitting some large golf cart batteries with it at 24 V 3 amp on the front end and 18 V on the back end. The batteries seem to be starting to respond to this

I have just completed my solar setup with solar panels at 1.25 a watt on a nice sunny day I am getting average 3 - 10 amps of power at 25 V so after the front set of batteries are charged, I can then hit the back set hard with the Jetijs charger. so far I have only been using 5 transistors, but as soon as I get two banks charged think I will have two primary banks each with 5 transistors so doubling the power I am putting in now. So each bank of 5 will get 3 amps at 24 V .


I have used little 12 amp hour batteries with this, but I pull down the voltage to like 12V.

Congrates on your build, happy charging !

Hi,
I have some big 200Ah truck batteries that are laying around and do not hold a charge for long time. So I decides to make one of my quintfilar coils into a Bedini solid state oscillator. The circuit is very simple, one strand of wire is used for triggering and is leading to bases of four transistors though a 50Ohm resistor. The other end of the trigger strand is connected to the ground. Then we have the input positive lead is connected to one side of remaining wire strands and the other end of those strands is connected to the collector of the transistor, so that each strand has its own transistor. All the transistor emiters are then tied together and go to the negative line of the power supply. Each collector of those transistors has its own 1n4007 diode that delivers the inductive spike to the charging battery + terminal. The charging battery minus terminal is connected to the power supply positive line. Here is a picture:



The coil has five strands of 200 feet long wire that makes about 450-500 turns. The core is copper coated welding rods. There are no resistors or diodes connecting the transistor base with emitter, because when I used a diode, I could not get the thing to self oscillate. Anyway, it works just fine. Each transistor makes the circuit consume 0.5-1.3A depending on the input voltage and charging battery state. So all the transistors together consume 2-3A constantly. And this charges the hell out of small 7Ah batteries, much much better than those SSG's I had that consumed just 200mA. Of course with those I would have to spend months to charge up a 200Ah battery, but with this selfoscillator it will be much faster. This setup does not selfstart, I have to wave a magnet near the coil core to make it start oscillating, but I found that if I place a high resistance resistor across the collector and base of the transistor, then it starts oscillating by itself when the power is turned ON. But I do not use that method for now. I found that the lower the base resistance, the smaller the oscillation frequency, but the bigger the amp draw. The transistors stay cool all the time, but my coil gets hot - up to 50 degree celsius, not too much, but still... The heat is coming from the coil core and is also heating up the coil wire. I attached a small fan that cools the coil for now, but I guess I have to use an air core coil, because the eddycurrents are responsible for the heat buildup in the core.
If you want, I can post the circuit that I am using.
Just wanted to share
Thanks,
Jetijs

Hi all.
I was wondering about Michaels circuit. I mean this:



Does it seem right to you? I mean the transistor emiter is not connected to the ground of the primary battery. And does the trigger winding have to be connected to the positive terminal of the drive battery just like the slave power windings? I don't see how this could work. Or am I missing something here?
This is the basic Bedini self oscillator circuit:


Is a bit different.

I would really like you to send me the circuit design to my email if possible doing a favor, nmarfara@me.com
Thank you once again.

Hi to Jetijs, my solid state bedini has 5 mjl21194 transistors with base R 1k ¼w(+ 2k pot) & C diodes are IN5408 & I get 0.5A total draw. How to increase Amp? Will be thankful for any guidance please.

Hi Mark

I have built a 17 strand single coil charger using 19swg (18awg) x 100ft strands. I use this to charge a 460 A/hr golf cart battery set. I'm not at liberty to post the circuit schematic as it is mostly a Bedini design. It is based on a simple solid state blocking oscillator circuit which drives additional transistors from a common trigger circuit. The oscillator produces extremely fast leading edge pulses which is essential for good performance. Each transistor output is taken from the collector via an ultra fast single diode to a common output bus for connection to the charging battery. All transistors are MJL21194.

The coil former is 7" x 5" with an air core. My 100ft trigger strand is wound on first, followed by the power strands in a 4 x 4 configuration (4 x 4 twisted strands).

A big single coil multi-strand charger is easier to build and get running than a multi-coil, multi-strand charger because the magnetic fields collapse in synch using a single coil where all strands are wound together. This gives a more effective discharge spike.

A big charger like this needs a good power supply which will deliver at least 10Amps. The average input current for my charger is about 5 Amps but the peak pulse current is much higher. For good performance its important to get the impedance very low using a big cap across the supply lines. I use 8AWG conductors for the input power supply and the output output charging leads. A fuse or preferably circuit breaker is essential in the supply line for safety reasons to prevent serious damage in case of a transistor failure resulting in a short circuit.

The Bedini '1 ohm test' replacing the charging battery should give less than 1volt drop across the resistor, as with the normal SG monopole energiser.


Hoppy