Physics Experiment 6To Study Half Wave rectifier using PN Junction DiodeClick Here To View
Here, ɳ = emission co-efficient, which is a number between 1 and 2, which typically increases as the Here, ɳ = emission co-efficient, which is a number between 1 and 2, which typically increases as the current increases.
Here, ɳ = emission co-efficient, which is a number between 1 and 2, which typically increases as the Here, ɳ = emission co-efficient, which is a number between 1 and 2, which typically increases as the current increases.
Equation and all about it.
The p-n junction diode equation for an ideal diode is given below
I = IS[exp(eV/KBT) - 1]
Here, I
Here, IS = reverse saturation current
e = charge of electron
K
e = charge of electron
KB = Boltzmann constant
T = temperature
For a normal p-n junction diode, the equation becomes
I = I
T = temperature
For a normal p-n junction diode, the equation becomes
I = IS[exp(eV/ɳKBT) - 1]