Sam, your videos are top notch and essential MOSFET material that is rare.

Professor, this is really great! I love how you used a datasheet of an actual MOSFET and did the calculations based on that. I didn't watch this just to pass an exam, in fact I'll be designing a commercial product based on this theory. Thank you very much for giving this valuable content for free!

As an electronics enthusiast, I really enjoy your videos. Very clear explanations, thanks.

Thank you, Sam, this gave me a better understanding or the relation between snubbers and gate current. For example, in my case current prototype, I use a C3M0015065K, which has a Coss of 300 pF and a Crss of around 31 pF. Those are each dependent on the Vds, but the ration Coss/Crss is around 10 and constant over a very wide voltage range. VT is around 2 - 3 V, and with that, the calculations around 20:00 into the video suggest that then, if we choose Rg 1 ohm or less, the this internal Coss of the MOSFET serves as a snubber for the Turn-Off transition for up to a IL of about 20 A, and we don't need to add any additional capacitance at all ! That's a wonderful relation that I did not know existed. Thank you for explaining the parameters involved in this process in a delightfully clear way.

Great explanation. I've always wanted to see an algebraic explanation for something I've been using while relying on select on test values

thank you so much for your clear and useful explanation, everiday is a good day for learning!

very clean and constructive explanation. well done!

This was a very interesting and educational video. Running SPICE simulations on some previous applications indicated that while it was possible to increase efficiency (power provided to the load divided by input power) with this snubber design, the optimal capacitance for minimizing dissipation in the MOSFET generally left the peak voltage levels above safe limits that the snubber was being used to enforce. I guess there is no free lunch...

very sharp clear explanations

very informative and nicely presented. thank you professor👍👍

Thank you sir you make it's critical clear enough.. straight to the applications. Very nice

Absolutely great video.

Outstanding Job. 🙂

So clear and so nice, thank you very much!!

Thank you professor. Great presentation. Can you tell about lossless turn off: how to calculate the Ls inductance and what is best diodes to use?

Great lecture, as usual, Prof.!!! @10:33 , shouldn't the gate current be an exponentially decaying current with an initial peak of Vg/Rg since the gate current ig = Vgs/Rg ?

Professor, Excessive capacitance will cause excessive current spikes when the MOSFET is turned on. I usually connect a resistor in series, which can improve the spike problem. Generally, the resistance of this resistor is around 100 ohms.

great explanation....but how to know the gate resistor value to calculate snubber capacitance??? is Rg value available in MOSFET Datasheet??

Thank You For your Lectures. Great material.

Interesting analysis. Enjoyed it and now got precise equation to size the cap.

Hey sam sir, It is really worth it watching great content and explanation of snubber by you. could you tell me what type of mosfet can we choose from matlab simulation library to design RCD snubber ckt ? I would be thankful if anyone revert on it asap.

Equation at 15:30 should read IL+GM*VT instead of IL+VT

Professor, Can we use this idea in a 3phase inverter - For low and high side?

Sir, I am using a 3 phase contactor to switch a 25kvar capacitor at 440V(33A at 440V), can u suggest the right values of capacitor and resistance that can be used as a snubber to supress arc and protect the contacts of the contactor.

I have a supply who has a burned resistor and a 10 nF cap, a idea how to calculate the resistor? THanks./

Great video.

Dear Sam, If the IL current is not constant, will there be any change in the analysis?

Can this be used for 3phase H bridge for motor control? Or is there a better circuit?

Excuse me ,Sir, I have some questions, when the switch turn off the Vgs will drop but in your video you said assume the vgs is constant I think it is weird, can you explain more detail? thanks

Great Video, What was the Vpulse values for simulation?. Regards

This was a great explanation, I do have a few questions? Doesn't this just move the switching losses from turn-off to turn-on? Is the benefit is that the turn on losses are less significant, maybe there isn't a similar constant Vgs area at turn on that generates this problem? Couldn't a similar effect be accomplished with a forward-biased turn off diode in parallel with the turn on gate resistor or a diode and series resistor in parallel with the turn on gate resistor. I've seen this in other circuits and application notes, but am not knowledgeable of all the fundamentals yet and how it compares with this switch technology and application. It would appear this diode only or diode and smaller turn-off resistor would speed up the process of turning off the gate with the inefficiency of pumping energy in and out of another passive device. Could the independent turn-off diode and resistor be better for higher voltage mosfets where the Vt is much greater than the diode forward voltage and for really low voltage mosfets the diode forward voltage is too close to Vt, this parasitic capacitor would be a better choice unless a loss less type is used. Is there a brief explanation of the Vo/Vi limits of the loss-less system for boost circuits? Thanks again for your time :-)

Hi dr Sam. I would know if can we have a choppe, based on thyristors, with 3 levels at the output voltage ?

Hi Professor, Great video once again. Also what books would you recommend for power electronics design ?

Thanks for this explanation. Perhaps talk about the capacitor technology because a lot of rms and peak current in your application (and 400V)

Really helpful. Thanks for sharing your knowledge!

Hi.. which snubber circuit is better to use RC snubber or RCD snubber. What's are advantage n disadvantage of both configurations

sir please explain series connection of mosfet for dynamic voltage equlization

Thank you professor

Thank you!

Thank you so much Sam !

sir, may u tell me pls, when and where to use CCM and DCM mode of operation in SMPS and which mode is beneficial with which topology.pls guide

very detail explaination nicely

How many times have I flailed my way through an explanation of MOSFET heating? I always seem to start with a story about resistance. I am humbled.

very nice explanation, thanks!

thank you so much

Dear Prof, Please explain once again and perform same analysis for a recycled snubber. Can we skip Ls and D2 ? What are they doing?

Why do we ignore Cgs? This capacity should have a contribution to Ig isn't it?

useful video, thanks.

הרצאה טובה. תודה.

interesting 👌👌