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  • Supply Correction Problem

    Okay look at the diagram and in this picture the supply does well but if I unhook and move to the battery it is charging I get cap bank voltage (Big no no) so instead I hooked the neg lead to the collector and it now sees 25vdc I just can't figure out why it works "conducts" "THROUGH" the junction.

    It all looks good on the waveform, the same every thing so I quess I have got my little problem solved.

    See how small of a detail can stop an inexperienced guy like me? And you all thought I was a genius well on paper it looks good anyway.

    I am a beginner From now on I will have to state this almost as a disclaimer.

    Mikey
    Last edited by BroMikey; 07-12-2014, 07:59 PM.

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    • Wave form

      Okay I was wrong about the waveform being the same when hooked to the collector side to feed the 555 timer circuit. As it turned out I worked all day burning out fets (Only 2) and learned a lot.

      I think a 5-7 watt zener say 27vdc and send that to the regulator, wel the max dump voltage is 100vdc when off and at start up.

      I will have to find my big zeners somewhere in this mess. A lot of what I have is surplus from old industrial boards and I have some new ones also.

      So what I will need to 25-30vdc at about 50 Milli-amps from a 100vdc source

      If any of you wiz-kids know the answer I am all ears.

      Making a project with wires hanging off everywhere is one thing. Boxing it up for practical use is another.

      The only one I see doing that is John Bedini because this is what he does for a living. Most experiments go to the bottom of everyone closet as spare parts. To Bad huh?

      So I am trying to keep THAT from happening AGAIN. This box needs to be self contained so when the power fails again I will not have wires running all over the room hoping the gators don't pop off

      Also if I use solar panels and my genset is off it would be nice to have the 120v fan 100ma running on battery power. This all sounds like it is no problem til you start making boards.

      I guess the fan is easier. Deciding how to power the control circuit is harder.

      I have a regulator operating now so maybe just a wall adapter and be done with it. At any rate a nice smooth supply makes for a better looking rise wave.

      The wave I got today looked like crap without using an extra 24vdc battery or lab supply.

      Mike

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      • One Beginner to Another

        Greetings Fellow Cap dumpers

        I have learned something today AS A BEGINNER.

        http://flyer.thenetteam.net/images/mosfet12firing4.JPG

        I have updated the picture. Look at the bottom of the page, the very bottom.

        There you will see a bleed resistor with amp gauge using a pink wire going from the 2000ah battery set, all the way back to the run circuit for the 555 timer.

        One 300 ohm resistor sends a small amount back to the tiny run batteries (Well to run the timer). I may have to install a 27v zener if the batteries over charge.

        They are ALUM converted so I can run them at any voltage I want without damaging them. I will never use acid again from now and forever

        Have fun adding that resistor. It is a great experiment.

        Like I said in the event of another power failure (we have several per year sometimes 1 week at a shot) I am trying to eliminate all of these extra cords, plugs, extension cords running all around.

        This addition to the circuit makes for one less power adapter plugin to the Genset. At night I run batteries when the outages come.

        Before now our battery packs that we bought new failed in 2 years because I used Walmart chargers and acid batteries. The batteries would stop charging at 13.8vdc and 14vdc was hard to reach.

        I thought nothing of it at the time thinking this must be the proper voltage since we live in a space age world or very high tech. Surely a simple thing like a battery charger has to be state of the art by now right?

        Wrong!!! As it turns out 16vdc is correct for flooded cells. Or you end up with 5 percent reduction in capacity per month so after one year the battery has degraded quite a bit.

        The pulse dump circuits are the way to go!!!!!!!

        There are other ways to charge batteries but very few of these other ways have been rigorously tested and verified. GenMode could with a huge energizer or an AB class amp series pass regulator beta multiplier could do even better for all of the WIZKIDS.

        But for me just a simple added resistor and one new thing I am learning.

        Mike

        Comment


        • Hey Mike some free circuits you might be interested in.
          PROJECTS
          Half of the Answer is knowing the right Question

          Comment


          • Chemelec

            Originally posted by Dave45 View Post
            Hey Mike some free circuits you might be interested in.
            PROJECTS
            Hey Dave

            Yes I have seen this guy since 2004. He has all kinds of starter circuits. I built my first circuit in the 1970's then in 1976 I built a preamp to modulate my CB radio.

            I use to sit in the library all summer copying circuits, back then if you copied a whole reference book the Librarian would flipped out telling you that a person can't do that. She said come back the next day to copy the rest

            I just about fell through the floor. So I kept coming back. I know circuits.

            I guess I might use a kit sometime to have some fun. This guy saves me time thanks for reminding me.

            Mike
            Last edited by BroMikey; 07-17-2014, 09:58 AM.

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            • Circuit Mods

              Look at the bottom again to see the added diode. I found that the two tiny batteries to run the 555 timer did charge, but each pulse went back negative taking some power back, so the diode keeps it from doing this.



              Mike

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              • Going Negative

                Okay in the picture about I installed a diode at the bottom of the circuit to trickle back a tiny bit of power to the control circuitry. This helped only slightly with the pulses still returning power to the source.

                So i will use a bridge rectifier and tiny cap and report back and change the diagram if this solves the charging of the tiny battery set.

                Using the batteries to isolate from the grid on the control head shows a good clean scope shot.

                So at present the dump has been slowed down to 1 pulse per second discharging a tiny 200 milliamp stream back to the control head. I have slowed down to charge one huge battery that was discharged to 10.5vdc for the first time. I also am using two 5ah batteries or sometimes two 7ah 12v batteries and the voltage on the batteries at rest is 12vdc after 24hrs of charging.

                So by this is can be shown that very little charge is actually going to the batteries as power is being drawn back out of them as much as is going into them.

                The single one way diode has not stopped this. I am trying to keep this all as simple as possible. I want to use something that can be easily fixed with off the shelf hardware.

                Mike
                Last edited by BroMikey; 07-22-2014, 07:30 AM.

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                • Boxing It Up

                  Hello friends and fellow experimenters greetings to all

                  I am continuing to box up this Big Dump. One of the feats to accomplish this is making the unit self contained and not just a spiderweb of gator clips

                  In the circuit look at the bottom. What you see is correct and is working fine.

                  At first I was not sure and found at certain dump down cutoff resistance values that for some unbeknown reason the 555 timer firing Mosfets doubles power consumption and I felt this should be eliminated.

                  I have measured the draw at around 60ma to run the 555 timer and fire the FETS. I did change the resistance for exact charging when changing timing and duty cycle.

                  For instance at 3 pulses per second the timer control head circuitry draws the same 60ma to run but the amount of power being bled back from the big batteries drops to low to keep up.

                  So I have a series of resistance values using gator clips to experiment for more than one setting. This will require an extra meter on board of some kind to monitor proper charging of the control head mini battery pack.

                  At one pulse per second the pulses to send back to the mini pack are long with ever rising current levels during the course of that half second. I have a six resistor string that are rated at 50 ohms each at 10 watts each. This way I can switch between terminals to reset charging currents sent back to the mini pack.

                  Each one of these six resistors are in series and at one pulse per second going to the 2000ah battery, I use 5 of those 50 ohm 10 watt resistors is series for a total of 250 ohms and at 3 pulses per second the resistor value changes to 100 ohms.

                  This is to maintain a 100ma rise during one half of the cycle with the other half cycle falling to zero and this is an average value of around 50 ma.

                  This is what I am working on so that when the power does finally go out again i will have things more and more under control being all boxed up and self contained.

                  After this i will be powering the 100 ma fan rated at 120vac with 12volts.

                  Then a temp sensor to shut off the control head in the event that the fan stops and the thermal runaway threatens to destroy the entire unit, that has already happened once.

                  Mike
                  Last edited by BroMikey; 07-24-2014, 08:03 AM.

                  Comment


                  • Half of the Answer is knowing the right Question

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                    • Dumping at High Frec's

                      Originally posted by Dave45 View Post
                      Yup I knew you were there Dave and yes I want to shoot my true series cell Hydroxy pack with the good stuff.

                      In the picture you use a buck and then boost circuit Hummmm .................

                      I will be stirring to think of why and what you said about using both buck and boost together and how this is more efficient. Well I did read up and watched a video of the high level Engineering demo's where this Buck/Boost idea is common now because it is known to produce higher efficiencies.

                      It seems everyone knows this in the field.

                      However big coils are not part of the standard approach and from here I am wondering what would be considered a decent size coil mass to start with that would make a clear distinction between US and THEM??

                      Buck then Boost

                      Mike

                      Comment


                      • Lets say the buck ran at double or even triple the frequency of the boost converter then you are dumping the cap.
                        There are lots of options with this circuit, the difference with this circuit and most buck boost circuits is the separate chokes and no inverted polarity's.
                        This is basically the same as Matts circuit just written up different.
                        Check out complementary transistors.

                        In this schem. your hitting the cell with all pos voltage.
                        Last edited by Dave45; 07-24-2014, 08:42 PM.
                        Half of the Answer is knowing the right Question

                        Comment


                        • Circuit Giants

                          Originally posted by Dave45 View Post
                          Lets say the buck ran at double or even triple the frequency of the boost converter then you are dumping the cap.
                          There are lots of options with this circuit, the difference with this circuit and most buck boost circuits is the separate chokes and no inverted polarity's.
                          This is basically the same as Matts circuit just written up different.
                          Check out complementary transistors.

                          In this schem. your hitting the cell with all pos voltage.
                          Greeting Dave

                          You Sir are a circuit madman such a great diagram, thank you.

                          Only a dreamer could contrive such a plan I would be happy to give this one a try in the future. I had been thinking about this all day. I remembered how I wanted to know the basics of what the standard theory behind those demos I saw and I have decided that just like the boost circuit is more efficient so might a buck boost be better?

                          Well here is what I came up with. The boost circuit saves me power because I don't have to use a large resistor to slow cap charging down because the oscillation falters and sort of resets itself at every dump.

                          So when the boost circuit sort a fails a buck circuit behind it might help the boost when this faltering transition comes to further increase the proper efficient handling of the momentary failed oscillation.

                          I am not sure from there if I know how to explain it. I just figure if a boost saves me power and uses it more efficiently then a combination of the buck along side the boost might play a roll of it's own as well.

                          I think you have a winner there Dave.

                          Have you ever tried one for anything?

                          Mike

                          Comment


                          • The logical next step was to set it up to pump amps into the WFC with limited voltage.
                            I wonder what this would do to a battery.
                            Half of the Answer is knowing the right Question

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                            • Pumpin Amps

                              Originally posted by Dave45 View Post
                              The logical next step was to set it up to pump amps into the WFC with limited voltage.
                              I wonder what this would do to a battery.
                              Hi Dave

                              Exactly I wonder what it would do also. I have hooked up my sg osc to hho cells and I can't anything.

                              Pretty sweet change over of the circuit dude, Kool.

                              Mike

                              Comment


                              • DC to DC converter buck boost mode.
                                Half of the Answer is knowing the right Question

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