How to choose a heatsink to sustain MOSFETs peak currents 

Hi Prof. Yaakov, it is One of the most common approaches to measuring thermal resistance is to mount a metal-cased 50-W power resistor on the heat sink or other material in question and apply a known number of watts to the resistor. At the same time, an IC temperature sensor can be mounted to the heat sink to monitor the temperature rise. The thermal resistance is then easily calculated. By observing the rate of rise of temperature, the thermal mass can also be inferred. Alternatively, you can raise the heat sink to a known high temperature, remove the heat source, and record the time it takes for the temperature to fall to 63% of the difference between the ambient and the starting temperatures. This time value is then the time constant of the thermal capacitance and the known thermal resistance of the heat sink. usually in practice if you have stationary air then become worse , which is difficult to simulate and other thing is slew rate of switching , if it is slow then transistor pass class A region . this will be different for lateral mosfet vs vertical mosfet , it can get thermal run away too. anyway thanks a lot.

Clear lesson as always. Could you make a video for dimensioning a fan for the heatsink? Often Is a procedure based on experience and not with analitycal procedure. I'm intrested in tour approch.

What if All Mosfets are on same heat sink( three phase inverter with parallel mosfets). Can you please do a similar analysis for the above problem Professor?

Interesting study with results that agree with intuition but the "thermal pad" model is probably oversimplified. CPUs and graphics processors use complex heat spreaders which may involve heat pipes or 2D materials that spread heat with efficiencies approaching diamond to make better use of the heat sink. These technologies tend to push the results toward even more emphasis on surface area rather than thermal mass. Without the improved heat spreading, you end up with a large temperature gradient in the heat sink itself as you move away from the die contact area, leading to obvious inefficiencies...

I noted the comment below asking why this video appeared in his suggestions. I had the opposite question, i.e. why this video took 4 weeks to appear in my suggestions, when your videos are the first ones I look at. I'm guessing that your videos are getting lower priority because they generate less money for RU-vid, but maybe I am being too cynical...

Thank you for another clear explanation. For the 5 stage heatsink model, why does it have six capacitors? It seems to me like the 5 stage heatsink model has 6/5ths of the capacitance of the 1 stage heatsink model. Am I misunderstanding something?

How do you extract C1 and C2 from mosfet datasheet?

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Why on earth did this video appear in my suggestions?