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  • Originally posted by dbanner View Post
    I can't see any obvious relevance of the Q @ SRF to PI. Except it can be charted in some way to show comparison between different coils, perhaps.
    What is relevant, I think, is the Q at PI operating frequency. This for sure is very relevant.
    How do I calculate or measure Q at PI operating frequency?

    Comment


    • Originally posted by green View Post
      How do I calculate or measure Q at PI operating frequency?
      I would have to ask the same Question ?
      And wondering if you are testing Srf by placing your test coil on a operating PI At 1000PPs then is that the Q at that PPs?

      Comment


      • Originally posted by godigit1 View Post
        I would have to ask the same Question ?
        And wondering if you are testing Srf by placing your test coil on a operating PI At 1000PPs then is that the Q at that PPs?
        My bench circuit(target response tester)Tx operates at about 1pps. Measuring the resonance of the test coil, SRF(no added capacitance across the coil)and calculating inductance by adding a capacitor across the test coil and measuring resonance L=.02533/C/f^2. Wondering what Q at PI operating frequency means.

        Comment


        • Originally posted by green View Post
          Wondering if the reason the professional coil is better is measurable. Have you compared diameter, inductance, resistance and SRF with your coils? Maybe some other measurements? Another possibility, professional coil has less noise for some reason? Are you testing with a short or long TC target? Test I did awhile back with some of the coils you sent me. Your coil is better at close distances than my spiral coil, smaller diameter is some of it. Still looks like your winding might be a little better for some reason. Zapped my test circuit with integrator awhile back or I would try testing again to see if I missed something.
          Just wondering what method others use to measure the SRF of coils.

          Comment


          • Method of Measuring the SRF and Q of a coil at the operating TX frequency

            I wrote this guide for how to build a search coil for the Mirage PI, and added toward the end, the approach I use to measure the SRF, Q and Parasitic capacitance of a coil (including the coil lead to the pcb case). I thought some others may find it useful.
            Attached Files

            Comment


            • Originally posted by Elliot View Post
              Just wondering what method others use to measure the SRF of coils.


              I use a simple LC oscillator and freq counter ,tried a couple of ccts, happy with results, but still got a couple more ccts to try to see if they get higher frequency from coils (less parts)

              Comment


              • Originally posted by Elliot View Post
                I wrote this guide for how to build a search coil for the Mirage PI, and added toward the end, the approach I use to measure the SRF, Q and Parasitic capacitance of a coil (including the coil lead to the pcb case). I thought some others may find it useful.
                Thanks for the info. Excellent work!

                Comment


                • Originally posted by Qiaozhi View Post
                  Thanks for the info. Excellent work!

                  foil shield is killing all sensitivity. i see nothing of excellent. just he splitted the coil from foil thats right and did not fill by epoxy also right.

                  Comment


                  • Originally posted by kt315 View Post
                    foil shield is killing all sensitivity. i see nothing of exellent. just he splitted the coil from foil thats right and did not fill by epoxy also right.
                    I have used foil tape for shielding without any huge loss in sensitivity. However, Eric recommended some conductive fabric tape which is better -> https://www.ebay.co.uk/itm/UK-20M-Co...72.m2749.l2649

                    Comment


                    • There are a number of ways to shield
                      coils, including foil, wire wrap, metallic
                      tape, and conductive spray coatings.
                      A simple method is to wrap the coil
                      with aluminum duct tape, the kind easily
                      found at the local home
                      improvement center. This is the tape
                      that is true aluminum, not the silvery
                      metallic-looking fabric duct tape. Standard
                      duct tape is slightly conductive,
                      but not enough for shielding.

                      i took this cutting from Carl text. you see the material is not foil, but aluminum duct tape.
                      also take attention on word slightly conductive. so really it is just a micro thin aluminum film on dielectric base practically NOT conductive.
                      while we see fat copper tape in this PDF the man used.

                      However, Eric recommended some conductive fabric tape
                      ---
                      here in Europe, on continent, we use GRAPHIT 33 https://www.youtube.com/watch?v=GitaTiM1A3A
                      Belgian made.

                      The world-famous graphite mineral, due to its unique properties, including high electrical conductivity, is used in various industries and, accordingly, a number of necessary goods, let us consider one of the types of which, using the Belgian aerosol product Graphit 33 as an example, consists of highly purified colloidal graphite .. .

                      Click image for larger version

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                      https://www.terraelectronica.ru/pdf/...52F1912476.pdf
                      https://www.terraelectronica.ru/pdf/...252F318264.pdf

                      Comment


                      • Originally posted by Elliot View Post
                        I wrote this guide for how to build a search coil for the Mirage PI, and added toward the end, the approach I use to measure the SRF, Q and Parasitic capacitance of a coil (including the coil lead to the pcb case). I thought some others may find it useful.
                        I've been using (Q=pi*cycles to decay to 37% of start amplitude). Tried your formula(Q=5*cycles to decay to 50% of start amplitude)with my spice simulation. Looks like multiplier should be closer to 4.3*cycles to 50% of start amplitude. I'm rounding .368 to .37. Are you rounding or am I doing something wrong? Don't have a signal generator to try your method to compare with mine. Wondering if you could try my method to compare with yours. Clip scope probe to ground lead making a loop. Lay loop on test coil and move test coil near a operating PI coil to excite resonance. Measure decay frequency with scope.

                        Comment


                        • Originally posted by green View Post
                          I've been using (Q=pi*cycles to decay to 37% of start amplitude). Tried your formula(Q=5*cycles to decay to 50% of start amplitude)with my spice simulation. Looks like multiplier should be closer to 4.3*cycles to 50% of start amplitude. I'm rounding .368 to .37. Are you rounding or am I doing something wrong? Don't have a signal generator to try your method to compare with mine. Wondering if you could try my method to compare with yours. Clip scope probe to ground lead making a loop. Lay loop on test coil and move test coil near a operating PI coil to excite resonance. Measure decay frequency with scope.
                          On this page he uses 4.53 as the multiplier.

                          http://www.giangrandi.ch/electronics...ingdownq.shtml

                          @Elliot, nice article and analysis

                          Comment


                          • Hi All,
                            Isnt the coil SRF the coil SRF no matter what way you measure it?
                            Other than free air measurements where you may get a little higher Srf shouldnt the Srf be the same ?
                            Im still trying to learn and the test procedures can be confusing from one method to the other.
                            Seems that Carls method of just not adding a damping resistor to a working Pi would be the most true to real world SRf at actual Pi operating frequency.

                            Elliot,
                            Thanks for tha killer job on your coil construction guide.
                            If I input the data for your coil into the calculator Ive been using I get a Q of 765.4612.
                            Are my perimeters correct?
                            300uh
                            1.366 ohm
                            555khx SRF
                            Of the coils Ive been testing the only other one ive tested with a q in that range is a 8 inch 3dSS.
                            All of my spiral coils with 30 awg do not have that high a Q even though capacitance is less than half on some of them.
                            Im wondering when you can take first sample with your design. And did you by chance test before and after shielding?.

                            Thanks,

                            Comment


                            • I finished my 5 test coils and will start target testing soon.
                              But I did find something unexpected on my last two coils .
                              The first three coils all the same wire length showed a slight reduction in capacitance as the spacing was increased as well as a reduction in inductance.
                              On my coils that i tested at the same inductance Im seeing a hump in the capacitance that it increases at one wire space and drops at two wire space.

                              Coil 3 298uh 2 wire spacing 28 wraps
                              5.9 ohms
                              1.667Mhz
                              30.588pf
                              Q530

                              Coil 4 1 wire space. 27 wraps
                              306uh
                              5.5ohms
                              38.255pf
                              Q513

                              Coil5 No spacing 26 wraps
                              308uh
                              5.2 ohms
                              1.563mhz
                              33.664Pf
                              Q581.

                              So capacitance has come full circle from my first coil.
                              Coil 1 no spaceing was
                              390 Uh
                              5.9 ohms
                              1.389 mhz
                              33.664 pf
                              Q576
                              So its strange that both the no spaceing coils have the same capacitance yet there is a two wrap and 80 Uh diffrerance inductance.
                              So far my conclusion is that there is a increase in capacitance with spacing in coils with the same inductance.
                              I think this is beacuse of the extra wrap needed to make the one wire spacing coil the same inductance.
                              On the two space coil there is the reduction in capacitance but at the cost of inductance. there are two more wraps added to get the same inductance.
                              At two wire spacing I think there is no drop in capacitance due to loss of proximity effect and that it has no real benefit to performance maybe a deficit due to the inductance loss.

                              Anymay thank you guys for all the training Ill try to get some target test data going soon. I can kinda ascertain what the coils are going to do but maybe Ill be suprised.
                              Last edited by godigit1; 09-07-2019, 06:05 PM. Reason: word error

                              Comment


                              • Originally posted by Altra View Post
                                On this page he uses 4.53 as the multiplier.

                                http://www.giangrandi.ch/electronics...ingdownq.shtml

                                @Elliot, nice article and analysis
                                Thank you guys for this?
                                I redo my calculations.

                                Does anyone know of a chart that correlates Q to usable frequency?
                                I thought I had found one but its lost to me at the moment.

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