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Bedini Solid State Oscillators

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  • #481
    Battery charging from the mains

    I have been getting interesting results by using a transformer on the mainsm stepping down to around 12volts AC, then a bridge rectifier, on to a beefy IGBT which is given a square wave signal from a commercial signal generator, presently 100 cps, the chopped 12 volts is then fed into a 50 volt to 240 volt transformer, into the 50 volt end, thus getting a high voltage spike from the 240 volt end. The charging of lead acid accumulators and reconditioning, is amazing, however the transformer is losing power when the frequency is raised to say 1000 cps, is there more to be gained pulsing at higher rates? how high should one go? I could get a dust cored transformer if there is more to be gained at higher frequencies. Any answers out there please

    Comment

    • #482
      Originally posted by peter dunbar View Post
      I have been getting interesting results by using a transformer on the mainsm stepping down to around 12volts AC, then a bridge rectifier, on to a beefy IGBT which is given a square wave signal from a commercial signal generator, presently 100 cps, the chopped 12 volts is then fed into a 50 volt to 240 volt transformer, into the 50 volt end, thus getting a high voltage spike from the 240 volt end. The charging of lead acid accumulators and reconditioning, is amazing, however the transformer is losing power when the frequency is raised to say 1000 cps, is there more to be gained pulsing at higher rates? how high should one go? I could get a dust cored transformer if there is more to be gained at higher frequencies. Any answers out there please
      This sounds like a dangerous device!!

      Comment

      • #483
        Air coil SS

        Hello folks,

        I was wondering if someone tried to experiment with solid state air coil and what the results are to compare. I just built another one and it works fine but I can't get the cap pulser to work well. It does with small cap, such as 2 - 3uF at the bridge but anything like 20 - 50uF causes SCR to stay "latched" all the time. As a result I'm basically charging off the bridge and there is no potential build up in the cap. I'm using inverted SCR triggered off the darlington opto and HV transistor. Probably couple MOSFETS will solve a problem but don't really want to go this way if don't have to. I also tried this with a reversed trigger as I did with "cored" SS and SG but it doesn't work with air coil, at least for me.


        Vtech
        'Get it all on record now - get the films - get the witnesses -because somewhere down the road of history some bastard will get up and say that this never happened'

        General D.Eisenhower

        http://www.nvtronics.org

        Comment

        • #484
          Vtech - I've got an air-cored solid state sg that Ren gave me, and when I hooked it up to an scr cap pulser, I had to keep the cap below 3uF as well. Otherwise, same problem, scr stays latched on.

          Reading your post, I'm supposing it is mainly a problem with air cores? That's interesting.
          Atoms move for free. It's all about resonance and phase. Make the circuit open and build a generator.

          Comment

          • #485
            Originally posted by Inquorate View Post
            Vtech - I've got an air-cored solid state sg that Ren gave me, and when I hooked it up to an scr cap pulser, I had to keep the cap below 3uF as well. Otherwise, same problem, scr stays latched on.

            Reading your post, I'm supposing it is mainly a problem with air cores? That's interesting.
            Hello Inquorate, I have built couple chargers with rotors and cap pulser, inverted SCR. The capacitor can be large since frequency isn't that high. I just get some tests reversing trigger and different caps. I put bank of photo caps, 120uF each and got 2500uF in total. I'm sure it will work with higher bank too but may need a beefier SCR.
            However, in my iron cored SS I could get as high as 80uF. I did had a success once with 6800uF but I guess pulses were too powerful and SCR latched. I went back to 4uF and left it alone since I need something working and charging my batts.
            This is my first air core and of course it oscillate much higher than with a core thus more pulses going into the cap. I had a short luck with 10uF cap (before SCR latched) but couldn't get the voltage under 25V, which is ok for sulfated battery but too much for regular charging, imo.
            BTW I'm using 12A 600V rated triac (bipolar switching diode) not a thyristor.
            I never came across any detail about this variant, other than J.B patent.
            I appreciate you reply.


            Vtech
            'Get it all on record now - get the films - get the witnesses -because somewhere down the road of history some bastard will get up and say that this never happened'

            General D.Eisenhower

            http://www.nvtronics.org

            Comment

            • #486
              SCR not switching off

              When the cap discharge through the scr to the battery the scr will switch off when the cap side (anode) reach the same voltage as the battery side (cathode)
              Now if your radiant pulses charge the cap up to fast, which is good, The scr will never switch off.
              What I did was to switch at a higher potencial say 36v. That seemed to work.
              I dont think 36v pulses is to bad for the battery.
              I used that zener, scr circuit. With a 24v zener on the gate. As soon as as the cap reach 24v + battery voltage (36v) it triggers
              I also had to use a larger cap like a 330uf that does not charge up so fast to 36v. Do not use huge caps like 10 000uf. They will short the scr with the first pulse
              The circuit I used is on this thread #15
              http://www.energeticforum.com/renewa...e-battery.html

              Comment

              • #487
                Originally posted by nvisser View Post
                When the cap discharge through the scr to the battery the scr will switch off when the cap side (anode) reach the same voltage as the battery side (cathode)
                Now if your radiant pulses charge the cap up to fast, which is good, The scr will never switch off.
                What I did was to switch at a higher potencial say 36v. That seemed to work.
                I dont think 36v pulses is to bad for the battery.
                I used that zener, scr circuit. With a 24v zener on the gate. As soon as as the cap reach 24v + battery voltage (36v) it triggers
                I also had to use a larger cap like a 330uf that does not charge up so fast to 36v. Do not use huge caps like 10 000uf. They will short the scr with the first pulse
                The circuit I used is on this thread #15
                http://www.energeticforum.com/renewa...e-battery.html
                Thanks Vissie I'll go through this thread tomorrow, I mean latter today I was up too early. I have another idea: what if I'll switch the circuit off while pulsing into the battery?
                If you had a chance to see J.B schematic from FEG book, there is a switch (famous S1 ) at the positive from input battery. Knowing John, he wouldn't put the switch there just to indicate how to power off the circuit. I think that is the purpose - switch off while pulsing. This way, primary battery doesn't know what is going on. Does this make sense?


                Vtech
                'Get it all on record now - get the films - get the witnesses -because somewhere down the road of history some bastard will get up and say that this never happened'

                General D.Eisenhower

                http://www.nvtronics.org

                Comment

                • #488
                  No your talking. Is that not what he does in the solar charger?
                  Isolating the supply completely from the charged cap bank before dumping it to the batteries. He suggested using the bipolar switch to do just that on the tesla switch

                  Comment

                  • #489
                    solid state 555 timer

                    hi guys, someone can help me?

                    i found some 555 timer led circuit in the web... that im posting.

                    i add a transistor, and the 555 output is triggering the base and pulsing a coil.

                    but my results on the radiant spike are very different from my SG circuit.

                    in my SG with a 12V 1.3Ah battery i get near 20V in rotation mode, and near 120V in self oscillation mode, with a led panel load it shows 3V.


                    with the SolidState and with the same battery, my amp draw consumption doubled, with the slowest pulse i have almost any voltage in the radiant spike, and with the fast pulse it shows me 30V, but with load only shows 1.2V.

                    anybody can help me to improve my circuit or maybe share one with good results?

                    Last edited by juju; 04-21-2010, 03:19 AM.

                    Comment

                    • #490
                      Originally posted by juju View Post
                      in my SG with a 12V 1.3Ah battery i get near 20V in rotation mode, and near 120V in self oscillation mode, with a led panel load it shows 3V.
                      Remove the led and use better power transistor, also add resistor between 555 output and transistor base to prevent frying the 555.

                      Or try my circuit:

                      Comment

                      • #491
                        Alternative Solid State

                        Hello All,
                        I have found, in most cases, that self oscillation in the SSG circuit results in a "fuzzy" charge (battery potential rises rapidly but when the battery is load tested, depth of charge is lower than a rotor based SSG). Due to this I found the rest time between pulses provided by a rotor based SSG is important, particularly as the potential of the battery rises above 15v or so, reducing pulse frequency at this point certainly helps charge acceptance and increases the batteries load times. Here is a link to the paper that describes the circuit.

                        SSG Pulse Generator

                        Regards Lee.

                        Comment

                        • #492
                          sucahyo

                          dont understand very much your circuit... you take the spike from the KSC5027 colector as usual?

                          why the secondary windings are loose? are them the same number of windings that the primary coil?

                          so it is not a pulse circuit but a self oscilation circuit right?

                          Comment

                          • #493
                            Originally posted by juju View Post
                            you take the spike from the KSC5027 colector as usual?
                            Yes, that is why it is important to keep resistor at kilo level.

                            Originally posted by juju View Post
                            why the secondary windings are loose? are them the same number of windings that the primary coil?
                            Unimportant if you don't need secondary. The coil can be anything. I can use it to make spark with car coil.

                            With a small toroid coil I just recently charging dead battery of 0.2V (with load) to 2.5V (with load) overnight with 400mA input at 12V. Without load it produce 110V:


                            Originally posted by juju View Post
                            so it is not a pulse circuit but a self oscilation circuit right?
                            Yes. Resistor value has to be matched with the coil used to get the most output voltage.
                            Last edited by sucahyo; 04-22-2010, 03:42 AM.

                            Comment

                            • #494
                              sucahyo

                              Originally posted by smw1998a View Post
                              Hello All,
                              I have found, in most cases, that self oscillation in the SSG circuit results in a "fuzzy" charge (battery potential rises rapidly but when the battery is load tested, depth of charge is lower than a rotor based SSG). Due to this I found the rest time between pulses provided by a rotor based SSG is important, particularly as the potential of the battery rises above 15v or so, reducing pulse frequency at this point certainly helps charge acceptance and increases the batteries load times. Here is a link to the paper that describes the circuit.

                              SSG Pulse Generator

                              Regards Lee.


                              thanks sucahyo, you are very kind person

                              i will try your circuit but like Lee have said the charge from a self oscilation circuit is not so good as a pulsed charge!!


                              so im really lookin for a good simple 555 timer circuit that works with the solid state...

                              anybody have sucess getting output current in the radiant spike?

                              i have seen a video of a solid state putting out almost the same current that was putted in and much more voltage out!!

                              hugs

                              Comment

                              • #495
                                Originally posted by juju View Post
                                thanks sucahyo, you are very kind person

                                so im really lookin for a good simple 555 timer circuit that works with the solid state...

                                @ juju,
                                I'm not too sure exactly what you want from your circuit but I just posted a link to a simple 555 circuit that is both easy to build and implement, it charges more efficiently than a rotor based SG/SSG and more deeply than a pure solid state oscillating coil, it is also very flexible.

                                Regards Lee..

                                Comment

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