This is by far the simplest and most comprehensive explanation of the timing of mosfets. It answered all the questions I've had about the power losses and I can't thank you enough!
@powerelectronicswithdr.k1017
Жыл бұрын
You're welcome! -Dr. K
@ashutoshyadav1270
Жыл бұрын
Thank you Sir, great videos. Would be quite helpful for your viewers if you could organize your videos in playlists.
@SMV1972
Жыл бұрын
Отличный урок! Спасибо вам большое!!
@fatihe.1338
11 күн бұрын
Hi, in 5:15,What is the O in parentheses in VDS(O) and QGD(O)? Shouldn't CGD and VDS be inversely proportional? Can you explain a bit? Also, in the AN123 file you shared, the calculated and measured values are very different from each other. Can you explain why?
@powerelectronicswithdr.k1017
11 күн бұрын
Hello Fatihe.1338, My handwriting is not good. That should be VDS(D) and D stands for the datasheet. The switching times can be very difficult to obtain accurate values as these times change based on the load requirements and the DC bus supply. Here is a good video from TI regarding the info on a MOSFET datasheet as it relates to turn-on/off times www.ti.com/video/series/mosfet-101.html#
@random2059
4 жыл бұрын
do extra heat on mosfet can be a cause of permanent /change in #threshold voltage/ ......that's can ruin the mosfet in long run.... please reply
@sth4someone912
3 жыл бұрын
Thanks for preparing the video. Could you please prepare a video on how to calculate the switching loss by the aid of simulation tools such as cadence or spice? Thanks
@powerelectronicswithdr.k1017
3 жыл бұрын
Hello, if you go to kzitem.info/news/bejne/zqlsup17k3t7i6A and at about the 11:00 minute mark I will illustrate how to check the instantaneous power in the simulated DC chopper circuit's MOSFET. You can also window the switching waveform and LT Spice will compute the average loss. Hope this helps. -Dr. K.
@muraliselvam3394
4 ай бұрын
in the formula some words I can't understand. Would you show clear text?
@musonglouiskatche6219
3 жыл бұрын
Thank you for this interesting video. Please can you share with me the proofs for the turn-on and turn-off times displayed in this video?
@powerelectronicswithdr.k1017
3 жыл бұрын
Hi Musong, those are estimates taken from www.vishay.com/docs/73217/an608a.pdf reference equations 17-20 in this document. Thanks for watching. -Dr K.
@cammasters2053
3 жыл бұрын
Hi Dr. K, I'm building a model of a bidirectional DC-DC converter in simulink and logging efficiency against switching frequency. I am expecting a peak followed by a downturn within the graph where switching losses dominate. But no matter how high the switching frequency is the efficiency keeps increasing which I think is wrong. Any ideas on how to resolve this?
@powerelectronicswithdr.k1017
3 жыл бұрын
Hi Camrone, unfortunately I have never used Simulink for analysis of DC/DC converters. My suggestion is to look at all the losses in all the devices to see which device is not being modelled correctly as you sweep the operating frequency point. Keep me posted. -Dr. K
@cammasters2053
3 жыл бұрын
@@powerelectronicswithdr.k1017 Hi Dr. K, think I have fixed the problem, I don't think switching losses are considered in Simulink so i have modelled them manually, I do have another question though, I've been looking at mosfet datasheets and have noticed there is a turn on delay time and a turn on rise time, (same for turn off) when calculating switching losses do i need to consider both of these times or just rise time? i.e. is t-on = t-d(on) + t-rise or t-on = t-rise ? Thanks in advance
@powerelectronicswithdr.k1017
3 жыл бұрын
@@cammasters2053 Hi Camrone, here's a link to info from TI on the MOSFET datasheets. training.ti.com/mosfet101training.ti.com/mosfet101. This is a really good series and Video 1.4 discusses the Ton, Trise, Td, etc. The vendors follow JEDEC standards for testing and reporting information. Hope this helps. -Dr. K
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