Consider the transistor inverter on the right driving a long cable, modelled as a 0.1uF capacitance. The input voltage vi = OV for t < 0s and 5V for t> 0s. Assume ß = 100, VBE,ON = 0.7V and VCE,SAT = 0.2. a) Determine v (0) b) Determine dvo(0+) dt c) Use the general step response formula to determine vo(t). Assume the transistor is initially forward active. General Step Response Formula: t Vo(t) = V₂ (∞) + [V₂ (0+) — Vo(∞)]e ReqC - Vi w RB = 10k 5V 1k Vo 0.1uF
Consider the transistor inverter on the right driving a long cable, modelled as a 0.1uF capacitance. The input voltage vi = OV for t < 0s and 5V for t> 0s. Assume ß = 100, VBE,ON = 0.7V and VCE,SAT = 0.2. a) Determine v (0) b) Determine dvo(0+) dt c) Use the general step response formula to determine vo(t). Assume the transistor is initially forward active. General Step Response Formula: t Vo(t) = V₂ (∞) + [V₂ (0+) — Vo(∞)]e ReqC - Vi w RB = 10k 5V 1k Vo 0.1uF
Introductory Circuit Analysis (13th Edition)
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ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
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Please solve all 3 subproblems. Thank you.
![Consider the transistor inverter on the right driving a
long cable, modelled as a 0.1uF capacitance. The input
voltage v₁ = OV for t < 0s and 5V for t> 0s.
Assume = 100, VBE,ON
=
a)
b)
c)
100, VBE,ON = 0.7V and VCE,SAT = 0.2.
Determine v (0)
dvo(0+)
Determine
dt
Use the general step response formula to
determine vo(t). Assume the transistor is
initially forward active.
General Step Response Formula:
t
Vo(t) = V(0) + [V (0+) - Vo(co)]e Req
Vi
RB = 10k
5V
1k
사랑
Vo
0.1uF](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F50530471-3d1d-446c-af31-a941cdfd5635%2F9da79767-1834-4536-82d3-04a0a3463913%2F7bjje5g_processed.png&w=3840&q=75)
Transcribed Image Text:Consider the transistor inverter on the right driving a
long cable, modelled as a 0.1uF capacitance. The input
voltage v₁ = OV for t < 0s and 5V for t> 0s.
Assume = 100, VBE,ON
=
a)
b)
c)
100, VBE,ON = 0.7V and VCE,SAT = 0.2.
Determine v (0)
dvo(0+)
Determine
dt
Use the general step response formula to
determine vo(t). Assume the transistor is
initially forward active.
General Step Response Formula:
t
Vo(t) = V(0) + [V (0+) - Vo(co)]e Req
Vi
RB = 10k
5V
1k
사랑
Vo
0.1uF
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Using solution from (c), how long until BJT goes into saturation. Was the forward active assumption correct?
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