How is the junction area of each diode calculated in this circuit?

In summary, the circuit in the figure is designed to have an output voltage of 3V when the load current is 0A and the output voltage changes by 40mV for every 1mA of load current. The value of R is 4.8Kilo ohms and the junction area of each diode is to be calculated, assuming all four diodes are identical with a voltage drop of 0.7V at 1mA current. By using the equation I = I(s)exp(v/nVt) and calculating the saturation current for both cases, the relative area of each diode is found to be 0.34.
  • #1
shaiqbashir
106
0
Hi Guys!

My Question is this:

Dsign the circuit of the fig: so that Vo= 3V when IL = 0 A AND Vo changes by 40mV per 1mA of load current. the value of R = 4.8Kilo ohms. find the juction area of each diode (assume all four diodes are identical) relative to a diode with 0.7 V drop at 1mA current. Assume n=1.

The ans of this question is 0.34 but how it has been calculated.

Plz help
Thanks in advance:
 

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  • #2
since we know that I(s) , i.e. the saturation current is proportonal to the junction area , calculate saturation current for the two cases as follows:
first for the four diodes ,given that they are identical, the voltage drop across each will be 3/4 = .75v, I = 2.5 mA. using eq I = I(s)exp(v/nVt) we get saturation curret for the given diode as 2.339 x 10^(-16).
Similarly for the given standard diode that is one with the voltage drop of .7v and I = 1mA
we get saturation current as 6.19 x 10^(-16).

since we have to find the relative area, simply dividing the above two saturation current would give the answer that is .34
 

FAQ: How is the junction area of each diode calculated in this circuit?

What is the junction area of a diode?

The junction area of a diode refers to the region where the p-type and n-type semiconductor materials meet. This area is also known as the depletion region.

Why is the junction area important in a diode?

The junction area is important because it creates a barrier that allows current to flow in one direction only. This property makes diodes useful for controlling the direction of electrical current in circuits.

What happens in the junction area when a diode is forward biased?

When a diode is forward biased, the positive voltage applied to the p-type material and the negative voltage applied to the n-type material cause the depletion region to become thinner. This allows current to flow through the diode.

How does the junction area affect the voltage drop in a diode?

The voltage drop across the junction area of a diode is typically around 0.7 volts for silicon diodes and 0.3 volts for germanium diodes. This is because the junction acts as a barrier to current flow, causing a drop in voltage as current passes through.

What happens in the junction area when a diode is reverse biased?

When a diode is reverse biased, the positive voltage is applied to the n-type material and the negative voltage is applied to the p-type material. This causes the depletion region to become wider, preventing current from flowing through the diode.

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