Calculating Diode Current with Is=50nA and Vd=0.6V | Homework Help

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To calculate the diode current with Is=50nA and Vd=0.6V, the correct formula is Id = Is (e^(e·Vd/(k·T)) - 1), where e is the charge of an electron, k is Boltzmann's constant, and T is the absolute temperature. The user initially miscalculated by using incorrect values and units, leading to an erroneous result. After correcting the calculations, the diode current was found to be approximately 10.077nA. For the second part of the question, involving a silicon diode with Is=0.1uA at a reverse bias of -10V, the same equation applies, yielding a current of about -0.00335nA. The importance of including all constants in the calculations was emphasized throughout the discussion.
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Homework Statement



Determine the diode current with Is=50nA and an applied forward bias of 0.6V

Homework Equations



Id = Is ( e ^ (kVd/Tk) - 1)

The Attempt at a Solution



So my teacher is horrible and this is what I have been able to collect on my own.

Is = 50 and Vd = 0.6v
I'm pretty sure k is referring to Boltzmann’s constant k = 1.38 x 10^-23 J.K-1.
I'm pretty sure Tk is the room temperature in kelvin so that would be 298.

Plugging it all in I get
Id = 50 ( e ^ (((1.38 x 10^-23)(.6))/298)-1)

This gives me an answer of 1.389*10^-24
Something seems really off, if one of those constants I figured out is wrong please let me know.
 
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The exponential term should actually be

e ^ [e·Vd / (k·T)]​

where e is the charge of an electron, k is Boltzmann's constant, and T is absolute temperature. (Vd is the diode voltage, of course.)

Also, you seem to be using 50 Amps for Is, when it is actually 50 nA.
 
Ok so I figured out how to do it.

50nA(e^(.6/298)-1) =

50nA(.002015) =

10.077nA

Seems like I was overthinking it. Now there's a part 2 to this question that I am really lost on.


Determine the diode current at 20 degrees C for a silicon diode with Is=0.1uA at a reverse bias potential of -10v.

Further help would be awesome.
 
HebrewHammer said:
Ok so I figured out how to do it.

50nA(e^(.6/298)-1) =

50nA(.002015) =

10.077nA

Seems like I was overthinking it.
There's still a problem. You have completely left e and k out of your calculation!

Now there's a part 2 to this question that I am really lost on.

Determine the diode current at 20 degrees C for a silicon diode with Is=0.1uA at a reverse bias potential of -10v.

Further help would be awesome.
You are given Vd and the temperature, so just apply the same equation. (Don't forget about e and k.)
 
ok i got the answer i think

.1(e^(-10/293)-1) =

= -.00335nA

Seems off to me but its the same procedure.
 
There's still a problem. You have completely left e and k out of your calculation!

The exponential term should actually be
e^[e·Vd / (k·T)]​
where e is the charge of an electron, and k is Boltzmann's constant.
 

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