Great animation & explanation. 🤓 Thank you for the videos you give us, it takes a lot of time to do these with animations and I really appreciate these lessons you provide, always learning.👍
The biggest issue I have with semiconductors manufacture is the big lie abt any ir2110 or ir2113 can drive 2 amp but 2am can’t driver 4 igbt and I noticed inverter use them a lot and the gate current of igbt at surge the gate current will take 5 or 6.4 amp per igbt and 4 igbt on one channel with take up 24 amp per surge and those drivers can’t get pass 2amp peak so now you see why high frequency inverter low side alway fail ghe igbt don’t fail the gate current fail to charge and load stress on the gate the p type in the internal package breakdown at surge because the current is not there so much information is being kept away from the data sheet so all gate drivers Ic should but at 30 amp peaks not 2amp
Can u speak hindi language? I am very existed to learn from this channle so much good and need content for me can you upload basic electronic in hindi language plz help me
Great animation & explanation. 🤓 Thank you for the videos you give us, it takes a lot of time to do these with animations and I really appreciate these lessons you provide, always learning.👍
You're very welcome!
Please make a video on designing high current H BRIDGE for motor control application.
Thanks. Good explanation.
Easy to learn.
Further videos we want from you.
Gopal raju
India
So nice of you
Thank you for the lesson. The right side of the monitor is very dark, the shutdown process is hard to see.
Noted
Hello sir
I have an inverter welding machine
The gate to emitter frequency is 45khz
But the emitter collector is giving 230khZ why?
Could you explain the joke? It keeps from switching?
For rise time isn't it 10% to 100% of the collector current value?
Why is it voltage gate-emitter and not gate-collector?
Thank you.
The biggest issue I have with semiconductors manufacture is the big lie abt any ir2110 or ir2113 can drive 2 amp but 2am can’t driver 4 igbt and I noticed inverter use them a lot and the gate current of igbt at surge the gate current will take 5 or 6.4 amp per igbt and 4 igbt on one channel with take up 24 amp per surge and those drivers can’t get pass 2amp peak so now you see why high frequency inverter low side alway fail ghe igbt don’t fail the gate current fail to charge and load stress on the gate the p type in the internal package breakdown at surge because the current is not there so much information is being kept away from the data sheet so all gate drivers Ic should but at 30 amp peaks not 2amp
Very nice👍
ı dont understand. please make a h bridge driver circuit for me. ı want to test it inverter circuit.
Can u speak hindi language? I am very existed to learn from this channle so much good and need content for me can you upload basic electronic in hindi language plz help me
Vfd of 3 phase permanent magnet motor schimatic diagram
Thank u 😊
Welcome 😊
Yar plez Ourdo Hindi infarmiton
Hola muy buenos tus videos, te pido si es posible le agregues la traducción en español, saludos cordiales.
Long winded and difficult to understand, I learnt nothing here.