Power Supply parameters - Loop Response

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  • เผยแพร่เมื่อ 24 ธ.ค. 2024

ความคิดเห็น • 29

  • @alaricsnellpym
    @alaricsnellpym ปีที่แล้ว +8

    Interesting.... When I finalise component choices for my solar battery charger, I'll try this test!

  • @benatesnaola6001
    @benatesnaola6001 ปีที่แล้ว +5

    Very interesting and useful, thank you Fesz!! I Will also try to measure loop response when I get the necessary equipment. Keep working like this!!

  • @louco2
    @louco2 6 หลายเดือนก่อน +1

    Amazing as always! Thank you

  • @gwc1410
    @gwc1410 ปีที่แล้ว +6

    Very good video. Thank you.

  • @donepearce
    @donepearce 11 หลายเดือนก่อน +1

    I like to implement power supplies with a single integrator. Stability is guaranteed with any load and start-up is clean, with no overshoot.

  • @openFrimeTv
    @openFrimeTv ปีที่แล้ว +4

    Good job)

  • @Boen466
    @Boen466 ปีที่แล้ว +8

    My favorite SPICE simulator is Microcap 12. It`s freeware since a few years ago. A side from that it has an extra stability simulation which works pretty good. For anyone interested take a look at the reference manual its documentation also is pretty good.
    By the way great video as always :)

    • @afonsomanuel1585
      @afonsomanuel1585 2 หลายเดือนก่อน

      I already dowload. Yes, it seems good. Thank you. Best regards from Portugal.

  • @pa4tim
    @pa4tim ปีที่แล้ว +2

    Great, thank you very much. Very useable info.

  • @bansci
    @bansci ปีที่แล้ว +4

    Fantastic video, will be following this when I finally get around to designing my own lab PSU (for fun).
    Where did you get the "good" margins from? I.e. 45/60 degrees and the gain?

    • @FesZElectronics
      @FesZElectronics  ปีที่แล้ว +5

      Its found in general in technical literature; People who know way more than me about this subject came up with the values :D
      In theory even 1degree of phase margin would be enough to prevent the appearance of a permanent oscillation, but the exact values will have various tolerances - like depend on the circuit construction, component values, temperature, load etc. So a value of 45/60 is usually sufficient to validate the design.

    • @bansci
      @bansci ปีที่แล้ว +3

      @@FesZElectronics thanks, the idea of a safety gap makes sense with component tolerances and manufacturing.
      I have a Agilent PSU 66311b which has a fast and slow control loop mode, I'm guessing it's something to do with this trade-off you stated on margins and speed! Thanks again

  • @josefsarg3224
    @josefsarg3224 ปีที่แล้ว +1

    Nice Video❤

  • @braveheart9275
    @braveheart9275 ปีที่แล้ว +1

    Thanks.

  • @jackwalton1975
    @jackwalton1975 ปีที่แล้ว +2

    It's easier if you measure the output impedance and group delay of the DUT. See the white paper at Omicron Labs "Non Invasive Measurement of Power Supply Stability"

  • @sanjikaneki6226
    @sanjikaneki6226 ปีที่แล้ว +1

    What IC did you use ? asking since i wander if we can find 100khz in the datasheet since they mist have tested for this , also this may be lowered but the PCB design and part values but it would be interesting to see IRL value vb theoretical datasheet values.
    Also here is an idea: boost or buck converters on a shared output how to stabilize this .

    • @FesZElectronics
      @FesZElectronics  ปีที่แล้ว +2

      The crossover is not usually documented, since it depends on the exact implementation and also the test load; what you might find though is records of an evaluation board being measured under specific conditions;

  • @TiT8851
    @TiT8851 ปีที่แล้ว

    Great video.
    Is this method related to the philosophy behind the new .fra directive in LTspice 17.1?

    • @FesZElectronics
      @FesZElectronics  ปีที่แล้ว

      I think so, yes; although I did not really get a chance to check it out yet

  • @philippejard5310
    @philippejard5310 ปีที่แล้ว +5

    There is a "small" problem here. Your reasoning on the open loop is correct but you are doing your measurement in closed loop, i.e you are fighting the regulator that is trying to cancel the error and the transfer function is not the same. On top of that by changing the excitation with frequency you are adding a pole and a zero to the system. So you are not measuring the performance of the original design but a simulated combo system with virtual components. An effect of that is the spike seen in the phase response. You should bias a constant operating point with an auxiliary power source and open the loop, then perhaps add a corrector circuit based on the open loop measurements. BTW, a 30deg phase margin will give an "optimal" speed response with a single bump damped overshoot for a system with 2 dominant complex poles. Nice channel though, continue the effort, I see progress over time, and quite often learn a trick or two.🙂

  • @LászlóTarjányi-f7e
    @LászlóTarjányi-f7e ปีที่แล้ว

    Hi! Some questions... 1. What are those 2 gaps in the phase shift plot on lower frequencies? Aren't those mean also stability problem? 2. Output seems to oscillate even before applying the load step (even before ringing starts), or do I see wrong? 3. How these measurements show exactly the bandwidth of the power supply? What bandwidth of supply really mean? Thanks!

    • @FesZElectronics
      @FesZElectronics  ปีที่แล้ว +3

      Hello. Good Questions! 1. The phase is close to 180deg; here the measurement equipment jumps between +180 and -180 since it only outputs the 180to-180 range; so +181 is expressed as -179. 2. I'm not sure what to say here, it might be a setup issue, or it might be that the supply has such a low phase margin its inherently unstable, and any small environmental perturbation causes it to oscillate; 3. By bandwidth here I am referring to reaction speed - if an external perturbation is applied, how fast can the circuit react. At any frequency below the crossover the supply can react, but not above since it has no gain above.

  • @mkaras98
    @mkaras98 ปีที่แล้ว +1

    Which transformer was used to inject noise?

    • @FesZElectronics
      @FesZElectronics  ปีที่แล้ว +2

      I used a DIY transformer; I don't have a proper description of it.

    • @horacepoon7044
      @horacepoon7044 ปีที่แล้ว +1

      ​​​​@@FesZElectronicsCan you provide instrcutions to diy the transformer? What should be taken care when making it? Will the ouput impedance (50 ohm?) of the connected signal generator affects the test device's loop response?

    • @zaxir2
      @zaxir2 หลายเดือนก่อน

      I am also interested in what such a transformer looks like and how to make it

  • @tomasbergh
    @tomasbergh ปีที่แล้ว

    Thanks for an interesting video. Can you please mention something about the transformer itself? How can a transformer be suitable for such a wide frequency span, wont the magnetisation current run away for low frequencies? What about the flatness of the transformer characteristics? /Tomas

  • @ikbendusan
    @ikbendusan ปีที่แล้ว

    this is a measurement that can also be done on a digital power supply, correct?

    • @FesZElectronics
      @FesZElectronics  ปีที่แล้ว +2

      Yes, the type of supply should not matter. The measurement can be done as long as you have access to the feedback loop - so for example you cannot perform it on a part like 78xx where everything is integrated.