Consider the transistor inverter on the right driving a long cable, modelled as a 0.1uF capacitance. The input voltage vi=0V for t<0s and 5V for t>0s. Assume β=100, VBE,ON=0.7V and VCE,SAT=0.2. Determine v0(0-), dv0(0+)/dt, vo(t) (use general step formula, assume transistor is initially forward active), and compute how long it takes to enter saturation.

Consider the transistor inverter on the right driving a long cable, modelled as a 0.1uF capacitance. The input voltage vi=0V for t<0s and 5V for t>0s. Assume β=100, VBE,ON=0.7V and VCE,SAT=0.2. Determine v0(0-), dv0(0+)/dt, vo(t) (use general step formula, assume transistor is initially forward active), and compute how long it takes to enter saturation.

Delmar's Standard Textbook Of Electricity

7th Edition

ISBN:9781337900348

Author:Stephen L. Herman

Publisher:Stephen L. Herman

Chapter2: Electrical Quantities And Ohm’s Law

Section: Chapter Questions

Problem 2RQ: What is an ampere?

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Question

100%

Consider the transistor inverter on the right driving a long cable, modelled as a 0.1uF capacitance. The input voltage v_i=0V for t<0s and 5V for t>0s. Assume β=100, V_BE,ON=0.7V and V_CE,SAT=0.2. Determine v₀(0^-), dv₀(0⁺)/dt, v_o(t) (use general step formula, assume transistor is initially forward active), and compute how long it takes to enter saturation.