For Zener diode to be in forward bias condition, the voltage at the anode of the diode should be more than cathode. In this case, for that to happen, the voltage at the emitter of BJT should be more than base. In this case, clearly that is not the case. So, Zener diode is definitely in reverse bias condition. Only thing that we need to find out is , whether it is operating in the breakdown region or not. When it is operating in the breakdown region, then voltage across it will be 5V, and when it is not operating in that region, then it will simply act as an open circuit.
The Thevenin's Theorem is applicable to only linear networks and linear devices. BJT is non-linear device. For more info, please go through this video on Thevenin's Theorem for basics: th-cam.com/video/8udwPc5pCoA/w-d-xo.htmlsi=6hMSogX0yjQjMUM7
For more solved examples on BJT, check this playlist:
bit.ly/3gSH7x4
For more video tutorials on BJT, check this playlist:
bit.ly/3VNfadv
Thanks for the information
Thank you very much sir!!
Excellent 👌
iff zener diode is not in reverse bias then it will be in forward bias and it will be act as a ideal diode?
For Zener diode to be in forward bias condition, the voltage at the anode of the diode should be more than cathode. In this case, for that to happen, the voltage at the emitter of BJT should be more than base. In this case, clearly that is not the case. So, Zener diode is definitely in reverse bias condition. Only thing that we need to find out is , whether it is operating in the breakdown region or not. When it is operating in the breakdown region, then voltage across it will be 5V, and when it is not operating in that region, then it will simply act as an open circuit.
yes my mistake. We could also calculate thevenin voltage across zener diode to find whether is is in breakdown or not?@@allaboutelectronics-quiz
The Thevenin's Theorem is applicable to only linear networks and linear devices. BJT is non-linear device.
For more info, please go through this video on Thevenin's Theorem for basics:
th-cam.com/video/8udwPc5pCoA/w-d-xo.htmlsi=6hMSogX0yjQjMUM7
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