Try turning off noise gate, maybe it helps to reveal that the speaker actually speaks English! Against noise a close microphone should be used. (I talk about the bad audio quality of this video.)
@wurthelektronikamericas Жыл бұрын
We understand that some presenters may be difficult to understand as English is not their first language. However, we do not feel as though this hinders their knowledge of technical issues and we do appreciate their effort into presenting. If you are having a difficult time understanding the content, we recommend slowing the recorded video for a better understanding or reviewing our intro videos in our video center.
@PafiTheOne Жыл бұрын
@@wurthelektronikamericas Thank you for your so-called answer, but it doesn't reflect to the topic at all. You know: I talked about the *noise gate*, that truncates the words. This is not about the knowledge of the speaker. This is a telecommunication/broadcasting issue. Some sound engineer/technician in your company must know very well how to transfer audio without terrible information loss. Just somebody should care about it. Zoom for example contains a setting to keep high quality audio for musicians.
@kabandajamir9844 Жыл бұрын
Nice explanation thanks the world's best Queen teacher
@patrickliew2756 Жыл бұрын
Can i use the concept that you mention like the equations if i want to control the output current in boundary conduction mode ?
@lambda7652 Жыл бұрын
"Watts" the point of having a extremely loud und lang intro in front of low volume that sounds like its recorded with a can
@jfposada007 Жыл бұрын
Does anyone know the URL to the presentation PDF or PPTX? I would like to be able to read some of the symbols and text, which is un-readable at 480kpbs video. Thanks.
@wurthelektronikamericas Жыл бұрын
Thank you for asking! You can download the PDF of the slides here- bit.ly/FeedbackLoopCompenstation_Aug2022
@Invictus9965 Жыл бұрын
Where does come from this right half plane zero on the plant transfert fonction ? What are the components creating this zero ?
@wurthelektronikamericas Жыл бұрын
Thank you for the question. The right-half-plane zero (RHPZ) is not created by any component as such, but by the way the energy is transferred from the input to the output stage of the converter during each switching cycle, so it depends on the converter topology. Especially, topologies in which energy transfer to the load only occurs during the off-time of the control transistor, like the boost, buck-boost and flyback converters, have a RHPZ on its control-to-output transfer function, whereas topologies in which there is energy transfer during the entire swiching period (Tsw), like the buck and forward converters, do not have a RHPZ. What the RHPZ ‘physically’ means can be intuitively understood as follows. Consider a sudden increase step in the load current of a flyback converter. The output voltage will start to decrease and the loop will react to increase the duty-cycle of the control transistor, so that to increase the primary peak current and with it the amount of energy transferred to the output in order to bring the output voltage back up to its target level. However, as the duty-cycle has increased, the off-time of the control transistor (energy transfer window) is now shorter (toff=(1-D)*Tsw). So if the peak current has not increased high enough (e.g. because too high magnetizing inductance (Lm) slowing down dI/dt), then the average current on the secondary winding of the transformer, which equals the converter output current, would actually be lower than before, and the output voltage will drop even more. So the control loop has reacted trying to increase the output current, but the result is the opposite, due to either too high Lm and/or too fast control-loop reaction speed. If the magnetizing inductance is lower (i.e. higher dI/dt and peak current increase for a set delta of the duty-cycle), and/or the control loop is slowed down (i.e. lower crossover frequency resulting in a lower rate of change of the duty-cycle) then the issue can be solved. Note how, for a set increase of the duty-cycle, a lower Lm will allow the primary peak current amplitude (and thus secondary peak current) to increase high-enough each switching cycle so that to compensate for the shorter energy-transfer window, and thus make the average secondary current to effectively increase, which is what the control-loop is trying to achieve. This also intuitively explains why the RHPZ frequency depends on the inductance (see formula on the presentation): lower Lm (higher dI/dt), then higher RHPZ frequency, and higher the crossover frequency can be set without any issues. Hope this answers your question.
@jfposada007 Жыл бұрын
This is by far, the best presentation of the analysis and design of a CCM Flyback SMPS. I am in the middle of a design cycle and this video is indispensable. Thanks for the wonderful contribution, Eleazar and WE.
@wurthelektronikamericas Жыл бұрын
Glad it was helpful!
@ankonuabc1098 Жыл бұрын
Thank you very much for your effort Can you give me your number(whatsapp ), I want to ask you plz
@PafiTheOne Жыл бұрын
Is 150 W PoH a real possibility, or only some components are capable for this? Is there an eval board for such high power? To what standard does it comply?
@zachary8433 Жыл бұрын
Promo-SM 💔
@EriccoInertialsystem Жыл бұрын
this video is fantastic, and give me some ideas, and i want to know the filter function in some detailed ,can you ? thanks !
@germankid866 Жыл бұрын
Recognize a few people :). Hi to Dave, Brian, Benjamin, Ben, DJ, Lorandt, Lindsey, Missy, Cem, Matt, Thomas! Hope ya'll have a great show!
@gulledge6356 Жыл бұрын
Great share!!! Do not get left behind = "Promo SM"!!
@eddyslusher29162 жыл бұрын
Pᵣₒmₒˢᵐ 👀
@senthilkumars60452 жыл бұрын
waste of time
@wuerthelektronik2 жыл бұрын
We're sorry you feel that way. We understand that these technical podcasts can be too advanced for some listeners. If you have any questions, please feel free to reach out to us.