I don't understand any of it. All I know is that it's now a lot easier to lose my power adapters because they are so small now. The professor is also very good at writing backwards.
Do you have any video describing why Gan possesses these qualities? For example, Gan has a lower band gap therefore less energy is required for electrons to jump
Is there any way that somebody can simply explain this ? From my understanding, it seems that the nature of gallium being liquid actually gives a natural cooling during the process of conducting. And then is it also true that the nature of it being a liquid allows for the reduction of for lack of a better term back Currents? To me it seems like sound travels differently or slower through water in the same way that The back currents of voltage moves slower through gallium? What's interesting is gallium doesn't conduct electricity but it's what is added to it that allows the conduction of electricity. So where does nitrogen play the role of allowing the conduction of electricity?
This video is abt Gallium Nitride,which is made up by passing gallium gas and nitrogen gas with its chemical reaction,Gallium Nitride is formed and that professor was talking abt its characteristics and working.Hope this comment made it clear to you
I saw the thumbnail for this video and was wondering the same thing. The video is likely flipped in reverse Edit: It appears as if he's writing with his left hand so it's probably flipped since most are right handed
Any advantages for GaN as synchronous rectifiers? Is there any third quadrant operation improvement? Parasitic diode characteristics? Any reduction in Miller effect? Thermal considerations?
Even though I don’t really understand what’s going on here, I really love your teaching style. Very easy to follow, thorough, and with explanations.
I don't understand any of it. All I know is that it's now a lot easier to lose my power adapters because they are so small now. The professor is also very good at writing backwards.
Wow. Such clear explanation. Thanks for your work
Highly enlightening. Efforts appreciated. Thank you sir.
Sir, you explain very well!!
Do you have any video describing why Gan possesses these qualities? For example, Gan has a lower band gap therefore less energy is required for electrons to jump
Is there any way that somebody can simply explain this ? From my understanding, it seems that the nature of gallium being liquid actually gives a natural cooling during the process of conducting. And then is it also true that the nature of it being a liquid allows for the reduction of for lack of a better term back Currents? To me it seems like sound travels differently or slower through water in the same way that The back currents of voltage moves slower through gallium? What's interesting is gallium doesn't conduct electricity but it's what is added to it that allows the conduction of electricity. So where does nitrogen play the role of allowing the conduction of electricity?
This video is abt Gallium Nitride,which is made up by passing gallium gas and nitrogen gas with its chemical reaction,Gallium Nitride is formed and that professor was talking abt its characteristics and working.Hope this comment made it clear to you
@@ajonline123 thanks for taking the time to clarify. 🙂
Excellent
Is he drawing on the board in reverse? 🤯
I saw the thumbnail for this video and was wondering the same thing. The video is likely flipped in reverse
Edit: It appears as if he's writing with his left hand so it's probably flipped since most are right handed
@@_MaxHeadroom_ Yeah, I think you are right. Thanks bud, that makes a lot of sense.😄
Any advantages for GaN as synchronous rectifiers? Is there any third quadrant operation improvement? Parasitic diode characteristics? Any reduction in Miller effect? Thermal considerations?
Why vibranium is more effecient than copper.
Is adamantium stronger than vibranium
the fact that you can write backwards like that got me listening.
GaN System