lhe eireuit of Figure T.c, the voltage source is equal to V = 5 V and the load sistor is equal to R 200 N. Calculate the diode current, I, Using the diode equation (precise method), assuming that the diode has a reverse saturation current of 0.1 pA at room temperature (300 K) and ideality factor of 1.2. Show all your calculation steps. Assuming that the diode has a constant forward voltage of 0.7 V. Figure 1.c.

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In the circuit of Figure 1.c, the voltage source is equal to V = 5 V and the load
resistor is equal to R
200 N. Calculate the diode current, I,
%3D
i)
Using the diode equation (precise method), assuming that the diode has a
reverse saturation current of 0.1 pA at room temperature (300 K) and ideality
factor of 1.2. Show all your calculation steps.
ii)
Assuming that the diode has a constant forward voltage of0.7 V.
Figure 1.c.
Transcribed Image Text:In the circuit of Figure 1.c, the voltage source is equal to V = 5 V and the load resistor is equal to R 200 N. Calculate the diode current, I, %3D i) Using the diode equation (precise method), assuming that the diode has a reverse saturation current of 0.1 pA at room temperature (300 K) and ideality factor of 1.2. Show all your calculation steps. ii) Assuming that the diode has a constant forward voltage of0.7 V. Figure 1.c.
Additional Information:
Electronic charge: q = 1.6x10"C
Boltzmann's constant: k= 1.38x10 J/K
Planck's constant: h = 6.62x10-3ª Js
Room temperature: T= 300 K (27 °C)
Thermal voltage: V= kTlq= 0.026 V at room temperature (T=300 K)
Transcribed Image Text:Additional Information: Electronic charge: q = 1.6x10"C Boltzmann's constant: k= 1.38x10 J/K Planck's constant: h = 6.62x10-3ª Js Room temperature: T= 300 K (27 °C) Thermal voltage: V= kTlq= 0.026 V at room temperature (T=300 K)
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