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  • Ya I'll draw one up the way I tried it. It will be up soon. I don't know about floating mosfets. I only know one way to drive them.

    Heres yours modified...
    Rectified without diode

    Cheers
    Matt
    Last edited by Matthew Jones; 08-24-2010, 01:59 AM.

    Comment


    • Originally posted by Matthew Jones View Post
      Ya I'll draw one up the way I tried it. It will be up soon. I don't know about floating mosfets. I only know one way to drive them.

      Heres yours modified...
      Rectified without diode

      Cheers
      Matt
      OK Matt!


      My diagram didn't attempt to show 'rectification;'
      only a simple bank-switching scheme to implement
      the Brandt alternating output. Actually, it could
      even be reduced to simpler switching than I've
      shown.

      Would you rather have a pulsating DC output instead
      of the alternating output?

      Looking forward to your diagram...

      Comment


      • Originally posted by SeaMonkey View Post
        Simplest diode-less configuration.
        Thats the basics of my model.

        Comment


        • Originally posted by chainmailleman View Post
          Thats the basics of my model.
          Are you wanting to make a Solid State
          version of the switch?

          Comment


          • Originally posted by SeaMonkey View Post
            Simplest diode-less configuration.
            Unfortunately that is double throw switches or relays. It is not so easy with transistors as they can't switch in two directions.
            Here is an diagram that uses only 3 relays. It is like Cifta's transistor diagram but with relays. I will post both.
            Last edited by nvisser; 08-27-2010, 06:47 PM.

            Comment


            • Hi Seamonkey
              I noticed that you are really getting into the Tesla switch threads now.
              Can we expect a simplified mosfet version from you soon.
              I remember you mentioned earlier that it requires only the two series switches to be fets and that the parallel switches could be mechanical.
              I may be mistaken?
              As you are new into the TS I will also post John Bedini's original circuit that caused lots of trouble for him in the eighties. He used audio transformer to get the fast switching from bipolar transistors
              Last edited by nvisser; 08-27-2010, 06:47 PM.

              Comment


              • Originally posted by nvisser View Post
                Unfortunately that is double throw switches or relays. It is not so easy with transistors as they can't switch in two directions.
                Here is an diagram that uses only 3 relays. It is like Cifta's transistor diagram but with relays. I will post both.
                Yes! Very good!

                I found another by lanenal in the index as well.

                It is gratifying to find that the 'solution' has
                essentially been worked out already!

                Why has no one made the transition to a
                MosFet version except for lanenal?

                You'll find it HERE

                Comment


                • Dave has done it and some of us has built it.
                  That is the one that you said was to complicated.
                  Also no diodes.
                  He used modified low side drivers to drive the 2 high sides and he used low side switches for the serial parts. It looks only so complicated because he used a lot of diodes to get the floating supply to drive everything with.

                  Comment


                  • Originally posted by nvisser View Post
                    Hi Seamonkey
                    I noticed that you are really getting into the Tesla switch threads now.
                    Can we expect a simplified mosfet version from you soon.
                    I remember you mentioned earlier that it requires only the two series switches to be fets and that the parallel switches could be mechanical.
                    I may be mistaken?
                    As you are new into the TS I will also post John Bedini's original circuit that caused lots of trouble for him in the eighties. He used audio transformer to get the fast switching from bipolar transistors
                    It is 'possible' to devise a circuit using
                    virtually any combination of mechanical,
                    electromechanical and solid state switches.
                    Some combinations will be more cumbersome
                    than others, but it can be done.

                    Bedini's circuit is conceptually very good, even though
                    it is excessively complicated. It is possible, as you've
                    already shown with your previously posted diagrams,
                    to simplify it considerably.

                    Bedini was correct to attempt to drive the transistors
                    with transformers as 'floating' switches. It is the
                    only sensible way to provide base current to the
                    array of individual transistors.

                    Unfortunately, it is difficult to use transformer feed
                    for transistors at low frequencies. They work well
                    for several KHz and up, but for the 900 Hz or
                    thereabouts that Brandt found to be the 'resonant'
                    frequency of the batteries, it would not be effective.

                    But for MosFets, the transformer drive will work
                    very well indeed. The MosFet doesn't require a
                    continuous Gate current in order to keep it turned
                    'on.' Just a brief 'pulse' of Gate current to 'charge'
                    the Gate capacitance will keep it in the 'on' state
                    for a considerable length of time - limited only by
                    the 'leakage' of the Gate circuit.

                    Therefore, the MosFet implementation of the
                    battery switching circuit will be a 'natural' from
                    the standpoints of ease of construction as well
                    as efficiency of operation. It will also be possible
                    to operate the circuit over a broad range of
                    frequencies while 'dialing in' the resonance.

                    Shazam!! You guys are nearly there already!

                    Comment


                    • Originally posted by nvisser View Post
                      Dave has done it and some of us has built it.
                      That is the one that you said was to complicated.
                      Also no diodes.
                      He used modified low side drivers to drive the 2 high sides and he used low side switches for the serial parts. It looks only so complicated because he used a lot of diodes to get the floating supply to drive everything with.
                      I concur. The driving circuitry was entirely
                      too complicated.

                      Anyone know why he didn't utilize transformer drive?

                      Comment


                      • No. We are not nearly there.
                        This is where you come in.
                        We got no idea how to do it.
                        Throw a diagram our way and some of us might try it.

                        Comment


                        • You're much closer than you might think!

                          Look at lanenal's diagram once again.

                          It is in THIS THREAD

                          lanenal = Palindrome
                          Last edited by SeaMonkey; 08-24-2010, 07:18 AM. Reason: Palindrome

                          Comment


                          • Sorry I can't spend time and money on a circuit designed by an academic that does not even know how to test a transistor with a multimeter. He also believes that MOSFETs have no gate current as in the electronic tutorials. Wonder why a mosfet driver can deliver up to 6A of instantaneous gate current.
                            I don't make out anything on that circuit anyway.
                            I will wait for your design.
                            Last edited by nvisser; 08-24-2010, 07:46 AM.

                            Comment


                            • I would not be too dismissive to that design?
                              Once I'm done with PV switchers I'm coming to Brandt types, and it will be MOSFET or bust

                              1. And I would use drivers in between the gates and the trafo outputs
                              2. MOSFETs have gate leakage (a lot in 500msec Que-times - 100uF (!!) caps needed for bootstraping the "Vboost"
                              3. The CP (charge pump) layout seems to be lacking the "kick" my booster has:
                              Since it does not insulate the capacitors the instant it commences the "dump" Que, they seem to kick both sides: a part of the kick is "back fired" and thus lost as far as I can tell? Is this really the case or am I missing something?

                              And i did have a excellent kick (+30A peak) with the 7BJT version (=more losses) but now with the 2 parallel BJT version I have it not?

                              Circuit symmetry? Can symmetry pay more toll than wire gauge?

                              Best regards,
                              Stevan C.

                              Comment


                              • Stevan
                                Could you redraw the Palindrome's circuit into an understandable format and maybe give some specs on the trafo's you are talking about. I cant even see them in the diagram.

                                Comment

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