If the waveform in the following figure is applied to an inverter, which of the

Question

If the waveform in the following figure is applied to an inverter, which of the following outputs of the inverter is correct for the corresponding assumption?

Please explain how you arrived at the answer.

(a) Assuming the inverter has no delay

(b) Assuming the inverter has a transport delay of 0.6 ns

(c) Assuming the inverter has an intertial delay of 0.6 ns with a rejection time of 0.4 ns

(d) Assuming the inverter has an inertial delay of 0.6 ns with a rejection time of 0.4 ns

(e) Assuming the inverter has an inertial delay of 0.6 ns with a rejection time of 0.4 ns

If the waveform in the following figure is applied to an inverter, which of the following outputs of the inverter is correct for the corresponding assumption? (e) Assuming the inverter has an inertial delay of 0.6 ns with a rejection time of 0.4 ns (d) Assuming the inverter has an inertial delay of 0.6 ns with a rejection time of 0.4 ns (c) Assuming the inverter has an intertial delay of 0.6 ns with a rejection time of 0.4 ns (b) Assuming the inverter has a transport delay of 0.6 ns Please explain how you arrived at the answer. (a) Assuming the inverter has no delay

Explanation / Answer

Assumption (d) is correct, since there is inertial delay of 0.6 ns with rejection time 0f 0.4 ns

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