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  • #31
    Tests 17 - 22 Data Analysis

    Hi All,

    I have made a 7 part video series to discuss some factors of tests 17 - 22 and have uploaded them to you-tube.

    Mosfet Heater Tests 17 - 22 Data Analysis


    Please note that these files are all available to anyone who wishes to have a copies of them. This includes the Access Application program that I wrote to help analyze the the 100,000 sample data-sets. It is a work in progress as you will see in the videos, but it is available for your use.

    Also available (see link above by Glen) is the Tektronix OpenChoice Desktop program which I briefly show in Part 7. This program does much more than I demonstrate, but I do not have a scope here right now, perhaps Glen can show some of that when he is able to get another one in the future - soon I hope.

    If there are any questions regarding these tests please ask Glen as he performed them and I don't even know what his parameters were at that time. If you have any questions regarding these videos or the software I used in this analysis please feel free to ask and I will do my best to answer in a timely manner.

    Cheers!

    Harvey
    "Amy Pond, there is something you need to understand, and someday your life may depend on it: I am definitely a madman with a box." ~The Doctor

    Comment


    • #32
      Thanks Harvey!!

      Comment


      • #33
        Heater

        Hi Fuzzy thanks for response. I would like to use this heater for water. I tried a silicone to my 10ohm heater to insulate it but it did not heat the water. Maybe I should use a type of glue that insulates the nicrome but transfer heat easily. If you know of such glue Fuzzy please let me know?
        Thanks

        Comment


        • #34
          A real world comparison

          Hi All,

          Yesterday I thought to myself "I wonder how Glen's Resistor compares to this heater I have keeping me warm right here"

          So, like Nikola Tesla used to like to do, I set out to determine the surface area of my wonderful 1500W "warmth maker". It is one of those oil based systems, organized in a radiator style. It has 6 complete elements of the same size and one larger element that also contains the electronics and plumbing. it also has two connection cylinders that run the length, one on top and one on the bottom, connecting all the elements.

          Well after all of my calculations I arrived at a surface area of approximately 14,171 cm². I also have temperature measurements. Surface Temp 169° F and Ambient Temp (taking an average of multiple points around the room) 71° F for a difference of 98° F.

          So, where the Ambient temperature is 71° F, my heater offers a 98° advantage with a dissipation factor of 106 mW / cm²

          How does this compare to Glen's DC baseline? Well, in order to find out I had to build an extrapolation table from his data. You can download the spread sheet from here:
          Glens Resistor Profile

          Since Glen's average ambient temperature was 74.2° F, and I am looking for a differential of 98° F, I look up 172° F in the table and find a corresponding power relationship of 8.95W. Now we must spread that out over the surface area of his resistor. His resistor is a 3.2cm x 15.2 cm cylinder with stopped ends (which I take as being thermal insulators, not dissipators) Now there may be slightly more surface area because of the bubbly nature of the Silicone covering, and it has a larger diameter. So how about we add a couple mm for that and the wire thickness? (I think the wire is 0.81mm) So lets say 3.4cm x 15.2cm for a surface area of 3.4 x Pi x 15.2 cm² or 162 cm².

          8.95W / 162 = 55.2W / cm² for the same thermal advantage of 98° F.

          Right out of the gate, with a DC application, Glen's resistor outperforms my AC radiator by almost double, or actually 192% better efficiency in watts per surface area for a given thermal advantage.


          This all came about after my explaining COP to an interested party wherein I had used the illustration that follows in my next post.

          Last edited by Harvey; 03-11-2010, 01:12 AM. Reason: ° > ²
          "Amy Pond, there is something you need to understand, and someday your life may depend on it: I am definitely a madman with a box." ~The Doctor

          Comment


          • #35
            The Leaky Bucket and COP

            As this illustration goes, a person fabricated a bucket out of wood but the sides did not match up so well and there were gaps. Even after the wood was well saturated, it leaked considerably. Nevertheless, it was needed to move water from the lake to the house, a walk of exactly one minute. The bucket could hold twenty liters when filled at the lake, but when it reached the house it only had 1 liter left. This was the norm, the standard, the baseline for that bucket. One day, the person awoke and thought "I have gauze in my cabinet, I'll wrap that around my bucket". So it was done, and can you believe it? The bucket had 17 liters now by the time it reached the house. That is a 1700% improvement! The person was very happy. But then, a neighbor came by and explained that they had a plastic bucket that would come in with all 20 liters. "Yes, but does your plastic bucket have a 1700% improvement over its norm?" the person asked. "No" replied the neighbor, "there is no improvement, it is the same now as it always has been"
            This illustration helps us to see how setting baselines and then demonstrating improvements can still fall short of demonstrating a value to the world. It also causes pause and reflection of the term COP and how it really applies from the global view. I have noticed that some confuse the terms and thought it may be nice to bring some level of definition here.

            The 'C' in COP stands for coefficient. A coefficient is a constant, a specific value, that when multiplied with a variable gives a result. It is a mathematical term and it is found throughout science. For example, your tires on your car will have a traction coefficient, resistors will have a temperature coefficient, and wood can have a friction coefficient.

            Unfortunately, some have misread this to say 'Co' meaning shared, 'efficiency'. And it is not uncommon to hear people say it as 'co-efficiency' or even print that in the title or body of their papers and posts. But in reality, it does not have anything to do with efficiency. That is an entirely different subject that should be considered.

            The 'OP' stands for "Of Performance". Therefore, a COP is a mathematical constant that is used to give the performance result.
            The global view of this term COP, relates to heating systems and represents a ratio between how much energy is used to move heat from one place to another and the increase in heat at the result location.

            Another illustration:
            A person had a pile of money in one room of the house and desired to have it moved to another room of the house. So this person asked a neighbor child if they would use their wagon to move the money. The child agreed, and for this the person rewarded them 1% of the money. Can we say that the person spent 1% and gained 99% ? Not really, because they were just moving around what they already had. But what can be said, is that for a price of 1% they achieved a result of 99% and that would have a COP of 99. So it goes with thermal energy. Heat pumps take from the pile outside and move it to the pile inside.

            So when we use the term COP we really need to tie it to the global view of what we are moving from where to where. Fortunately, we have established relationships between Watts, Joules and Calories which help us get things right.

            EDIT: It should also be noted here that we are speaking about volumes, not areas or points.


            By the way, it would appear that my 1500W "warmth maker" is the leaky bucket.
            Last edited by Harvey; 03-23-2010, 06:40 AM. Reason: Added the Link for COP
            "Amy Pond, there is something you need to understand, and someday your life may depend on it: I am definitely a madman with a box." ~The Doctor

            Comment


            • #36
              Possible AC

              Possible Alternating Current In Current Sensing Resistor Data:

              This is a sticky issue and I have been apprehensive to address it for two reasons.

              1. If it exists in the MOSFET heating circuit, then our previous tests need to be analyzed in such a way as to factor it into the equations.

              2. It goes against normal logic with regards to simple analysis of DC systems.

              But it is a concern that needs to be discussed and addressed. This is what I alluded to in the other thread regarding being able to light a 100W lamp while showing zero CSR current. Below I have 3 drawings showing 4 different circuit configurations. All of which draw attention to specific current flow factors that hopefully will help us to understand better what is happening in this circuit.


              Click Here For Larger Image

              Notice in the above drawing that a primary current will flow when either or both of the switches A or B are closed. Notice also that when both are closed, current does not flow in CSR 1. This is not an AC application, all of the signals are DC. But notice, that if we alternate A and then B that the current in CSR 1 will in fact be AC. If we were to put our CH1 scope probe on CSR 1 for that operation, it would mislead us into thinking we have no source power being used while a probe on CSR 2 would clearly show (as would the lamp) that we are using power. Also note the all of the BEMF generated in this circuit is utilized.

              =============================================


              Click Here For Larger Image

              In this configuration we have removed CSR 2 and allowed the power stage to use CSR 1 for its current path. Notice that we are still using pulsed DC here and in this case we do not alternate A and B, but instead must turn them both on to get a transformation. Also, notice that our transformer has a different turns ratio. By convention, the current flowing in the primary will be the same as the current flowing in the secondary. Notice the configuration for the two current paths as they both route through CSR 1. If we put a scope on CSR 1 what will it tell us? Assuming there is no phase lag in the transformer, will it show any current flow at all? What does this tell us regarding secondary currents being mixed with primary currents in sensing resistors?

              ================================================== =


              Click For Larger Image

              Notice in the image above we have two nearly identical circuits. Some of you will recognize this as being very similar to the MOSFET Heating Circuit. Notice again that we are working with DC. Because switch B in the left diagram causes an open circuit configuration at the end of an on cycle, no current can flow in CSR 1. This however does not prevent the BEMF from accumulating at its contacts when the inductor discharges. What happens to that energy? It rings back and forth as Alternating Current in the inductor itself until it is fully dissipated. If we put a scope on CSR 1, it will tell us nothing of the BEMF ringing.

              In the Image on the right, we have replaced switch B with a MOSFET. Now we have introduced two new things that are not present in the left side diagram. First, we now have a current path around the switch in the opposite direction. We also have a capacitive pathway through the gate of the MOSFET into the timer circuit that drives it. Now, when we place a scope on CSR 1 and see a negative currrent, we don't know if it is flowing through the diode or through the gate, or both. What is more, we don't know if it is being sourced by the batteries or by the inductor as they are all mixed together now - remember the second drawing we looked at earlier?

              ==================================================

              One of the arguments that has been used, and I will admit I have used it, is that all of the energy in the circuit must be coming from those 3 batteries in the circuit and as long as there is only one path in or out, then all of the current must be flowing through that path. However, we may be making some large assumptions with that argument. First, consider that current must be flowing in the inductor during its ringing as shown in drawing 3 left diagram when switch B is open, but no current flows in the 'path' to and from the batteries. Next we need to consider open loop discharge. In this video I demonstrate that BEMF can be dumped through a single wire with sufficient current to light an LED and no conductive return path back to the coil that generates the BEMF. So this raises the question as to whether or not secondary currents can cause misreadings if they are allowed to discharge through our sensing resistor in some manner.

              When dealing with any new technology, or even when revisiting old technology that deals with proposed violations of known laws, it becomes very important to eliminate any possibilities that can skew the data or be taken the wrong way. This is especially true when the technology is difficult to reproduce and unable to be demonstrated by conventional means. I hope that in the coming posts we can devise some tests that will prove conclusively what the truth is surrounding this proposed technology.

              "Amy Pond, there is something you need to understand, and someday your life may depend on it: I am definitely a madman with a box." ~The Doctor

              Comment


              • #37
                Whoa thanks a lot Harvey, good news guys i found a scope which we can get a good data dump will drop you guys an email ASAP, BTW here are some tips i received From Rose on reps if any one is building hope they help guys.

                Here's what's needed. The leads - the copper needs to be THICK. There must be NO CROCODILE CLIPS. Everything needs to be properly soldered. The lead between the battery and the resistor needs to be at least 2 feet long. Your potentiometer needs to be top quality. Then only can you get the right waveforms - I think?

                Comment


                • #38
                  Two Foot Leads

                  Ash, could you double check on the leads needing to be at least two feet long? Rosemary told me verbally that none of her leads were ever longer than 12 inches. But Glen's are quite a bit longer than two feet.

                  The inductance of the lead wires definitely play a part in the observed waveforms. However, they also may be part of the reason that so many of our tests did not show the gains because that inductance is directly connected with the AC seen in the current sensing circuit.

                  If you'll recall, I pushed to get probes that are specifically made for current but Rosemary stopped that cold by stating we had imposed on the good graces of our suppliers much too much already. I am convinced that the wire inductance is a large factor in why our battery voltage shows transitions from 24 volts down to 7 volts in the data dumps. I just don't think the batteries themselves are loading that far, it has to be a voltage drop across the wire impedance.

                  If this is the desired effect she is looking for, then I suggest to keep the lead wires as short as is physically possible and simply add an inductive choke in series with them with a value engineered to produce the effect. At least that way you will be working with known values and the effects will be predictable and able to be easily simulated.

                  BTW - this thread is currently not viewable by the public - I don't know who is in charge of correcting that.

                  "Amy Pond, there is something you need to understand, and someday your life may depend on it: I am definitely a madman with a box." ~The Doctor

                  Comment


                  • #39
                    Must be in the Inductive Resistor subforum

                    Originally posted by Harvey View Post
                    BTW - this thread is currently not viewable by the public - I don't know who is in charge of correcting that.
                    Harvey,

                    I logged in with a test account that has the regular user registration
                    permissions and I can see it fine.

                    When going to:
                    http://www.energeticforum.com/renewable-energy/

                    That is the main Renewable Energy forum and anyone can see the long
                    list of threads. At the top, there are a few sub forums such as this
                    Inductive Resistor subforum. Any thread in here will not be listed in the
                    Renewable Energy threads, people have to actually click on the link for
                    the Inductive Resistor subforum and then they can see this Mosfet
                    Heating Circuits thread.

                    Everyone should see it just fine if they click their way into the Inductive
                    Resistor subforum.

                    Even though this thread won't be listed with the other Renewable Energy
                    threads in the long list, anytime there is a post here, it will be listed on
                    the homepage along with all the other threads in the forum.
                    Sincerely,
                    Aaron Murakami

                    Books & Videos https://emediapress.com
                    Conference http://energyscienceconference.com
                    RPX & MWO http://vril.io

                    Comment


                    • #40
                      Originally posted by Aaron View Post
                      Harvey,

                      I logged in with a test account that has the regular user registration
                      permissions and I can see it fine.

                      When going to:
                      http://www.energeticforum.com/renewable-energy/

                      That is the main Renewable Energy forum and anyone can see the long
                      list of threads. At the top, there are a few sub forums such as this
                      Inductive Resistor subforum. Any thread in here will not be listed in the
                      Renewable Energy threads, people have to actually click on the link for
                      the Inductive Resistor subforum and then they can see this Mosfet
                      Heating Circuits thread.

                      Everyone should see it just fine if they click their way into the Inductive
                      Resistor subforum.

                      Even though this thread won't be listed with the other Renewable Energy
                      threads in the long list, anytime there is a post here, it will be listed on
                      the homepage along with all the other threads in the forum.
                      I'll send you a screen shot in a PM showing what I mean - there is a problem.
                      "Amy Pond, there is something you need to understand, and someday your life may depend on it: I am definitely a madman with a box." ~The Doctor

                      Comment


                      • #41
                        a few changes

                        Harvey,

                        That person's screen shots were from the registration not being approved yet.
                        I approved it so everything will be ok.

                        I also made this forum visible to guests that are not logged in and anyone
                        that did register but still have not been approved.

                        Let me know if that is what is desired for this thread.

                        But with attachments, it has to be an approved and logged in account
                        to download them.
                        Sincerely,
                        Aaron Murakami

                        Books & Videos https://emediapress.com
                        Conference http://energyscienceconference.com
                        RPX & MWO http://vril.io

                        Comment


                        • #42
                          Sub Forum Visiblity

                          Thanks Aaron,

                          I will have to check with her and see if it all works now.

                          As I understand it, the forum should be visible for everyone.

                          Persons who are experimenting with these circuits and wish to share their data and experiences here in this thread should contact FuzzyTomCat for authorization to post here. The objective is to keep things on target for advancing success in these areas of research and experimentation while leaving the debates and arguments to be done elsewhere.

                          We are hopeful that this will inure an atmosphere of helpful collaboration and camaraderie with the fundamental understanding that what is shared here belongs to the public domain for the benefit of all. As such, it is understood that no single person or entity can take sole ownership implicitly or explicitly to the exclusion of others. Likewise, as public domain property, there is no prohibition to any person or entity using the information to full advantage within their power to do so.

                          The principle of open source is simple:
                          Anyone can contribute to the improvements and everyone can benefit from those improvements without the fear of having their contributions revoked or suppressed by a source IP holder.

                          If someone owns the intellectual property to something and would like to have open source engineers develop it for them for free, this is NOT the place to do that. That should be done elsewhere and the details should be fully disclosed prior so that those parties involved know what is involved completely.

                          Open Source is about full disclosure - and I think that is what this thread is about; truthful sharing of real research.

                          "Amy Pond, there is something you need to understand, and someday your life may depend on it: I am definitely a madman with a box." ~The Doctor

                          Comment


                          • #43
                            Originally posted by Harvey View Post
                            Ash, could you double check on the leads needing to be at least two feet long? Rosemary told me verbally that none of her leads were ever longer than 12 inches. But Glen's are quite a bit longer than two feet.

                            The inductance of the lead wires definitely play a part in the observed waveforms. However, they also may be part of the reason that so many of our tests did not show the gains because that inductance is directly connected with the AC seen in the current sensing circuit.

                            If you'll recall, I pushed to get probes that are specifically made for current but Rosemary stopped that cold by stating we had imposed on the good graces of our suppliers much too much already. I am convinced that the wire inductance is a large factor in why our battery voltage shows transitions from 24 volts down to 7 volts in the data dumps. I just don't think the batteries themselves are loading that far, it has to be a voltage drop across the wire impedance.

                            If this is the desired effect she is looking for, then I suggest to keep the lead wires as short as is physically possible and simply add an inductive choke in series with them with a value engineered to produce the effect. At least that way you will be working with known values and the effects will be predictable and able to be easily simulated.

                            BTW - this thread is currently not viewable by the public - I don't know who is in charge of correcting that.

                            Hi Harvey Roger that one sir. Okay have to go fit a SPAD unit (GEET variant ) this weekend, ill send you Aaron and Glen and update on the scope, ill do a rep based on what you have recommended my friend after all, the scope measurement from this guy is about backing up the open source work as a thank you to you, Aaron and Glen and will be posted as such

                            Ash

                            Comment


                            • #44
                              Hi everyone,

                              We have a alternate method for a DYS made resistor that was designed by our forum member "b4FreeEnergy", a great way for those who do not have access to borosilicate glass tubing and a torch to round the sharp glass edges.

                              What he has used is a laboratory 31mm OD "graduated cylinder" as shown in his donated photograph .....



                              Here is a random web site with some information including sizes of "graduated cylinders" that are a Class "B" but are thick walled for durability and readily available .... Graduated Cylinder for Measuring Volume or Mass Displacement

                              b4FreeEnergy also indicates he will fill the "graduated cylinder" with a fluid and take his temperature readings from inside the cylinder.

                              Excellent !!!

                              Best Regards,
                              Glen
                              Open Source Experimentalist
                              Open Source Research and Development

                              Comment


                              • #45
                                Heater

                                Hi Fuzzy what type of tape he used to that glass cylinder?
                                Thanks

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