This information is pure gold to anyone in the electronics field. It seems electronics engineering is not yet saturated like software engineering given the number of view on videos such as this.
@@jaimealba3178 @fanriadho could be other factors like price and ease of manufacturing. Some applications dont really require this kind of precaution when it comes to isolating high voltage and low voltage areas etc, and can go with components of simpler construction.
as I understood; if Source (or Emitter for IGBT) connected with ground so we dont need isolated gate drivers because voltage of the terminal around 0. but if it is not touch ground we need isolated because Source terminal voltage can be so high on this situation and it can effect Microcontroller. and of course non-isolated gate drivers cheaper.
This information is pure gold to anyone in the electronics field. It seems electronics engineering is not yet saturated like software engineering given the number of view on videos such as this.
It's a pity that such a lesson rich with unique information needed today in this field meet few followers.
What an information to treasure. Thanks for the upload
notes: 5:17
If isolated is good, then what advantage of non isolated? Why it's still on the market
I have the same question and I haven't been able to find an answer in the web
@@jaimealba3178
@fanriadho
could be other factors like price and ease of manufacturing. Some applications dont really require this kind of precaution when it comes to isolating high voltage and low voltage areas etc, and can go with components of simpler construction.
as I understood; if Source (or Emitter for IGBT) connected with ground so we dont need isolated gate drivers because voltage of the terminal around 0. but if it is not touch ground we need isolated because Source terminal voltage can be so high on this situation and it can effect Microcontroller. and of course non-isolated gate drivers cheaper.
@3:57
15*10^-9 * 12^2 * 2*10^5 = 0.43W, video says 0.48W