Limitations of LC Filters

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  • Опубліковано 10 гру 2024

КОМЕНТАРІ • 15

  • @johnwest7993
    @johnwest7993 6 місяців тому +10

    Thank you. Between your videos and my NanoVNA I'm finally at a point where I can actually build useful filters.

  • @andrewmcfarland57
    @andrewmcfarland57 6 місяців тому +5

    Another excellent video. Complex reactance circuits really are, well, complex. 🙂
    My old amateur radio brain kept trying to characterize antennas in filter characteristic terms. At first I thought it would be a simple paralell, with mostly scale as the difference. Then I wasn't so sure. 🤫...Then my brain melted, and I went and had a beverage.

    • @FesZElectronics
      @FesZElectronics  6 місяців тому +7

      I guess that to some extent, the complexity is what makes antenna design so interesting - if it was easy it would not be fun

  • @EricPleace
    @EricPleace 6 місяців тому +2

    really good stuff here - thank you very much.

  • @robertvandersanden
    @robertvandersanden 6 місяців тому

    Thanks for another interesting video.
    Ferromagnetic materials have magnetic dipoles in them which will rotate all to the same direction as the externally applied magnetic fieldstrength increases. This externally applied field originates from a current through a wire wound around the magnetic material.
    At some magnetic field all dipoles are fully aligned and at that point the material is what we call saturated. The inductance drops at that point. This doesn’t happen in air coils. There are no magnetic dipoles in air.
    Exactly the same happens between class 1 and 2 ceramics in capacitors. Class 2 ceramics have electrical dipoles embedded in the material and these align with the applied electrical field up to a point (as the voltage increases) where all dipoles are aligned and the material saturates. These dipoles in the material, just as with magnetics, allow for much higher capacitance per volume but with a limitation.
    You can calculate charge Q in a capacitor by V times C. Do that over voltage using the C vs V graph and you will see that the charge ramps up and then goes flat, similar to the B/H curve of a ferro magnetic material.
    Class 1 ceramic material doesn’t have these embedded electrical dipoles and behave linearly like air in an inductor.

  • @SurvivalSquirrel
    @SurvivalSquirrel 6 місяців тому +2

    2:35, but wikipedia states: "Inductive reactance X L is proportional to the sinusoidal signal frequency f and the inductance L"

    • @FesZElectronics
      @FesZElectronics  6 місяців тому +6

      Indeed, you are right, reactance is a frequency proportional parameter (both for capacitors and inductors). I was unsure how to make graph that contains both inductance and capacitance; I guess I found one of the wrong ways

  • @RensePosthumus
    @RensePosthumus 6 місяців тому +2

    A very good video (as always). You can explain complex topics in laymans words, thanks for that: I'm always learning so much from your video's. There i only very nitpicking thing: the "t" in your handwriting looks very much like a "f", I've always have to read twice.

  • @InssiAjaton
    @InssiAjaton 6 місяців тому

    Good basics. But in my life the “fun” starts, when I have to forget the fixed 50 ohms. I mean for example needing a broadband reject filter at 1 ohm impedance level or 10 kilo-ohm level. Or better yet, common mode noise filtering. In many cases, I have to “kill” the resonance in order to pass my (relatively) wide band signal accurately and eliminate wide band noise. Very high quality inductances and capacitances produce resonances as shown. My challenge is to utilize additional resistances as part of my filter, or select my ferrite that naturally has a very low Q. But while solving the resonance problem, I also need to avoid burning my added resistor with DC, for example. Most of my (analog) signals have to make it through unshielded twisted pair cables, or worse, untwisted multi wire cables and be subject to neighboring digital signals or switching power ripple/noise. As said, let the fun start!

  • @Stelios.Posantzis
    @Stelios.Posantzis 6 місяців тому +3

    Capacitors or inductors are essentially ideal constructions that do not exist in reality but are helpful to us in discerning capacitive and inductive behaviours. Theoretically, it is impossible to conceive and thus construct a capacitor without inductive elements and vice versa. Similarly, all conductors come endowed with a certain resistance and it is impossible to conceive a resistor without inductive or capacitive elements and vice versa. Perhaps we could introduce a more advanced approach to teaching electronics where we would only speak of reactive components of two flavours, primarily inductive or primarily capacitive, depending of their frequency response and therefore do away with the artificial and idealised distinction between capacitors and inductors. That might have practical benefits in designing better circuits by preventing certain unexpected and definitely unwanted behaviours in the end result.

  • @VarunDongreskymydream
    @VarunDongreskymydream 6 місяців тому

    Thank you Fesz for such informative videos. I learnt a lot of electronics by watching your videos and designed a low noise amplifier for my research product. It would be very helpful if you can help me in analysing my schematic and simulation results to further optimise the circuit for better results. Please reply

  • @y_x2
    @y_x2 6 місяців тому

    Choke use frequency around resonnance.

    • @FesZElectronics
      @FesZElectronics  6 місяців тому

      Indeed, with a choke, usually the purpose is to present a high impedance value (the exact inductance or capacitance does not matter all that much); anyway, with chokes, you also have high resistance and resonance, so most of the high impedance is lossy-resistive rather than reactive. In contrast, with an LC filter, usually in the pass band and transition band, you want to have good control over the exact reactance values (and keep resistance to a minimum) to reduce losses as much as possible and ensure precise frequency behavior.

  • @mr1enrollment
    @mr1enrollment 6 місяців тому +1

    😀