On the mosfets, what's helping me here is the reminder that the gate voltage is applied against the arrow symbol as it were, to activate it. I also really appreciate your explanation of the charts.
Thanks man, it's really nice to hear that 🙂. Actually, it's not that I know that much. I'm pretty sure there are a lot of people with deeper knowledge here on TH-cam. But as I play DIY for more than 10 years already, I just know precisely what's most important for people like me 😉.
IGBT literally means Isolated Gate BIPOLAR transistor. Also, if you are using a heatsink, you can ignore the junction to ambient parameter. This is specifically for use cases where no heatsink is used. What? BJTs are slow? I have BJTs rated in the GHz range, I have others rated to 1000V and others with a current gain of over 2000 (Darlingtons). MOSFETs (the only FETs you showed) have very poor linear response, highly capacitive gates and low maximum gate voltage. They do have drawbacks. There are many more applications where BJTs are the better choice than not. But that's totally beside the point. Both have their uses and both have strengths and weaknesses the other does not. 🙄
Yes, that's absolutely true what you say. The problem is - it wasn't supposed to be a comprehensive guide covering all aspects in all scenarios related with transistor, but sort of "quickstart" guide for the ones that have little to no experience with transistors and just want to start somewhere. As mentioned on the very beginning, it's a topic for entire series of videos 😉. But thanks for extending it 🙂
Are those the BiCMOS and HEMTs? I've seen talks of them being fast as haiylle! What do you do with them? Also brother, help me out, ya know any generic light activated relay, that is rated for mhz speeds or more, like a fast phototransistor?
On the mosfets, what's helping me here is the reminder that the gate voltage is applied against the arrow symbol as it were, to activate it. I also really appreciate your explanation of the charts.
You know more stuff than most electronic TH-camrs with millions subscribers !!!!!lol
Thanks man, it's really nice to hear that 🙂. Actually, it's not that I know that much. I'm pretty sure there are a lot of people with deeper knowledge here on TH-cam. But as I play DIY for more than 10 years already, I just know precisely what's most important for people like me 😉.
This is extremely helpful.
Nice explanation. Thank you.
Thank you very much for this video!!
Great video
By turning off the music, the voice disappears as well
IGBT literally means Isolated Gate BIPOLAR transistor. Also, if you are using a heatsink, you can ignore the junction to ambient parameter. This is specifically for use cases where no heatsink is used.
What? BJTs are slow? I have BJTs rated in the GHz range, I have others rated to 1000V and others with a current gain of over 2000 (Darlingtons). MOSFETs (the only FETs you showed) have very poor linear response, highly capacitive gates and low maximum gate voltage. They do have drawbacks. There are many more applications where BJTs are the better choice than not. But that's totally beside the point. Both have their uses and both have strengths and weaknesses the other does not.
🙄
Yes, that's absolutely true what you say. The problem is - it wasn't supposed to be a comprehensive guide covering all aspects in all scenarios related with transistor, but sort of "quickstart" guide for the ones that have little to no experience with transistors and just want to start somewhere. As mentioned on the very beginning, it's a topic for entire series of videos 😉. But thanks for extending it 🙂
Are those the BiCMOS and HEMTs?
I've seen talks of them being fast as haiylle!
What do you do with them?
Also brother, help me out, ya know any generic light activated relay, that is rated for mhz speeds or more, like a fast phototransistor?