What is the 10-90% rise time in picoseconds for an inverter in a 90nm CMOS process if the total capacitance on the output of this inverter is 32.7fF? Use: W/Lp = 1.9, W/Ln = 3.2, VDD = 1.0V, VTN = 0.2V, VTP = -0.3V, k'n = 280µA/V^2, k'p = 140μA/V^2 Answer: 386.4 What is the 10-90% rise time in picoseconds for an inverter in a 90nm CMOS process if the total capacitance on the output of this inverter is 32.7fF? Use: W/Lp = 1.9, W/Ln = 3.2, VDD = 1.0V, VTN = 0.2V, VTP = -0.3V, k'n = 280μA/V^2, k'p = 140μA/V^2 Answer:
What is the 10-90% rise time in picoseconds for an inverter in a 90nm CMOS process if the total capacitance on the output of this inverter is 32.7fF? Use: W/Lp = 1.9, W/Ln = 3.2, VDD = 1.0V, VTN = 0.2V, VTP = -0.3V, k'n = 280µA/V^2, k'p = 140μA/V^2 Answer: 386.4 What is the 10-90% rise time in picoseconds for an inverter in a 90nm CMOS process if the total capacitance on the output of this inverter is 32.7fF? Use: W/Lp = 1.9, W/Ln = 3.2, VDD = 1.0V, VTN = 0.2V, VTP = -0.3V, k'n = 280μA/V^2, k'p = 140μA/V^2 Answer:
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Transcribed Image Text:What is the 10-90% rise time in picoseconds for
an inverter in a 90nm CMOS process if the total
capacitance on the output of this inverter is
32.7fF? Use: W/Lp = 1.9, W/Ln = 3.2, VDD =
1.0V, VTN = 0.2V, VTP = -0.3V, k'n = 280µA/V^2,
k'p = 140μA/V^2
Answer: 386.4
What is the 10-90% rise time in picoseconds for an inverter in a 90nm CMOS process if the total capacitance on the output of this inverter is 32.7fF?
Use: W/Lp = 1.9, W/Ln = 3.2, VDD = 1.0V, VTN = 0.2V, VTP = -0.3V, k'n = 280μA/V^2, k'p = 140μA/V^2
Answer:
The correct answer is: 386.4
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