Let the voltage drop across the ideal diode in Figure 2.35 be fixed at 0.7 V. (a) Find the current through the diode using KVL. (b) Repeat part (a) using Norton’s equivalent circuit for the voltage...

Let the voltage drop across the ideal diode in Figure 2.35 be fixed at 0.7 V. (a) Find the current through the diode using KVL. (b) Repeat part (a) using Norton’s equivalent circuit for the voltage source in order to combine the first two resistors and then convert back to a Thévenin equivalent circuit, resulting in a single circuit loop.

Dec 02, 2021

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Let the voltage drop across the ideal diode in Figure 2.35 be fixed at 0.7 V. (a) Find the current through the diode using KVL. (b) Repeat part (a) using Norton’s equivalent circuit for the voltage...

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