L Matching Network (Part 1)

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  • Опубликовано: 28 авг 2024

Комментарии • 22

  • @dougtaylor7724
    @dougtaylor7724 Год назад +3

    Finally I find a video made by someone that explains this that I can understand.
    Bless you Sir and many thanks!

    • @carminecampo2045
      @carminecampo2045 Год назад +1

      I'm happy you found my video helpful!! Regards

  • @aerofart
    @aerofart Год назад +1

    I really like the way you demonstrated this. It is perfectly clear. Thank you.

  • @hpklw1
    @hpklw1 3 месяца назад

    Your clear and concise explanation has allowed me to get a useful start to understanding and using the Smith Chart.. I am also in need to build an L network for a remote tuner so this is priceless information you have presented. GOD bless your Sir!

  • @hellerx33
    @hellerx33 8 месяцев назад +1

    Thanks . Now i understood smith chart thanks to you❤

  • @johnjames378
    @johnjames378 2 года назад

    Excellent, I would like to see more of these videos. I leaned a few things. Please more on how you match the LDMOS devices.

  • @arcanestudio
    @arcanestudio 2 года назад

    I just viewed your video 3X. This is in reference to your final demo. When the shunt capacitive element is in parallel with a higher VNA source impedance, 50 ohms, your circuit will transform the impedance downward to the lower impedance load, 25 ohms. While your lab setup is correct for what it is intended to do, it does not faithfully reflect the drawing that you showed of Professor Long's network. Professor Long's network is drawn to transform a higher impedance load down to a lower impedance source. I suggest that you revise the notebook drawing that you present to reflect what you are demonstrating in the lab. It generates confusion for the viewer. If you would like to see it presented correctly, please watch W2AEW's lesson #276.

  • @hubercats
    @hubercats 2 года назад

    Thanks for making and sharing this interesting video. If you make additional videos on this subject I think it would be helpful to demonstrate how matching circuits are used to interface to loads having a complex impedance (resistance plus capacitive or inductive reactance, or Z = R +/- jX). Antenna matching circuits would be a good example since they almost always have non-zero reactance that needs to be cancelled to effect maximum power transfer. Thanks again! - Jim (KK7CSC)

  • @DeltaSigma16
    @DeltaSigma16 10 месяцев назад

    Very informative : Thank you

  • @danieljohnson8437
    @danieljohnson8437 2 года назад

    Thank you.
    Very helpful.

  • @andrzejpl9897
    @andrzejpl9897 7 месяцев назад

    Beautiful, thank you 👍.

  • @user-vi6lw8dx5f
    @user-vi6lw8dx5f 2 года назад

    RF Man, I really appreciate you sharing this insight. RF Man I have seen some 1/4 wave antennas for cb radio using a L-Match Network for a 11 and 10 meter. Can you please share how this is accomplished? Thank you, excellent video.

  • @acestudioscouk-Ace-G0ACE
    @acestudioscouk-Ace-G0ACE Год назад

    Really useful, thank-you. When would I use an L network compared to a Pi match... does the Pi match have any advantages?

  • @tamilarasu6748
    @tamilarasu6748 Год назад

    Very useful video... thankyou sir 🙏

  • @louisseaman8455
    @louisseaman8455 2 года назад +1

    Another informative video RF Man! I'm curious, and maybe it requires a video to answer, but when would you use an L-network or T-network vs. a transformer? What I am driving at is, for a 1/2 wave end-fed antenna, we use a 49:1 unun, but why do you see 5/8 wave antennas using a T-network instead of a transformer? And is there a rule for when to use which method?

    • @rfmanchannel6915
      @rfmanchannel6915  2 года назад +1

      There is no rule that I am aware of. Most antenna matchers will use either a Pi or T network. Both LC networks can be tuned to match a wide range of impedances. The combination of LC can be considered infinite. A transformer has a fixed impedance ratio limited by the number of turns in the primary and secondary. The ratio is a fixed or finite value and can not be tuned. This may be necessary if the antenna is not resonant at the high or low end of the band.

    • @louisseaman8455
      @louisseaman8455 2 года назад

      @@rfmanchannel6915 Thanks RF Man; I thought that other than for small tuning adjustment, getting the impedance to match at 1.5:1 or more, using an LC arrangement of any kind was very lossy in some way, even when done at the antenna feed point. I had in my mind that a transformer would be more efficient and after that, just use minimal LC to get the match "perfect". Would you say that's true, or can an LC arrangement be just as efficient to match impedances for power transfer?

    • @rfmanchannel6915
      @rfmanchannel6915  2 года назад +1

      @@louisseaman8455 I agree with your point. I have a video where I use a 9:1 Unun and an antenna tuner/matcher with a long wire antenna. This arrangement works best. Regards

  • @jon2944
    @jon2944 2 года назад

    very cool, I'm an amateur trying to wrap my brain around all this stuff so I can build a qrp L-match tuner for 28Mhz

  • @jasontwynn7356
    @jasontwynn7356 2 года назад

    Ok play back speed at 1.5 fast ahead , and he sounds like a normal person talking .

  • @frequencywatchers
    @frequencywatchers Год назад

    What A Supercool Video :)