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Electrical Engineering
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Time Response of Reactive Circuits
Comments
Question
To understand how the output voltage is shaped by a differentiator, you must consider
Options
A. the response to the rising pulse edge
B. the response between the rising and falling edges
C. the response to the falling pulse edge
D. all of the above
Correct Answer
all of the above
Time Response of Reactive Circuits problems
Search Results
1. When a 24 V input pulse with a width equal to five time constants is applied to an
RC
integrator, the capacitor charges to
Options
A. 24 V
B. 15.12 V
C. 20.64 V
D. 12 V
Show Answer
Scratch Pad
Discuss
Correct Answer: 24 V
2. In an
RL
differentiator, when the input pulse goes from its low level to its high level,
Options
A. the inductor prevents a sudden change in voltage
B. the inductor prevents a sudden change in current
C. voltage across the inductor instantly reaches 63% of input voltage
D. voltage across the inductor is zero
Show Answer
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Discuss
Correct Answer: the inductor prevents a sudden change in current
3. A steady-state condition is reached when
Options
A. the output voltage reaches the average value of the input voltage
B. the output voltage reaches the input voltage
C. the output voltage reaches approximately 63% of the input voltage
D. the output voltage reaches the effective value of the input voltage
Show Answer
Scratch Pad
Discuss
Correct Answer: the output voltage reaches the average value of the input voltage
4. In an
RC
differentiator, the sum of the capacitor voltage and the resistor voltage at any instant
Options
A. must be zero
B. must be equal to the applied voltage
C. is less than the applied voltage but greater than zero
D. cannot be determined
Show Answer
Scratch Pad
Discuss
Correct Answer: must be equal to the applied voltage
5. In an
RC
differentiator, the capacitor
Options
A. charges exponentially at a rate depending on the
RC
time constant
B. charges exponentially at a rate depending on the input voltage
C. charges when the input voltage is decreasing
D. charges to approximately one time constant
Show Answer
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Discuss
Correct Answer: charges exponentially at a rate depending on the
RC
time constant
6. Referring this figure, on the falling edge,
Options
A. the resistor voltage drops to ?5 V and then goes back to zero exponentially
B. the resistor voltage jumps to ?5 V and then goes back to zero exponentially
C. the capacitor voltage remains constant
D. the resistor voltage jumps to +5 V and then decreases exponentially to zero
Show Answer
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Discuss
Correct Answer: the resistor voltage jumps to ?5 V and then goes back to zero exponentially
7. Referring to Problem 5, how long will it take the capacitor to discharge if the internal resistance of the pulse source is 100 Ω?
Options
A. 300 µs
B. 600 µs
C. 900 µs
D. 1.5 ms
Show Answer
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Discuss
Correct Answer: 1.5 ms
8. When a 15 V input pulse with a width equal to two time constants is applied to an
RC
integrator, the capacitor charges to
Options
A. 15 V
B. 12.9 V
C. 8.6 V
D. 19.45 V
Show Answer
Scratch Pad
Discuss
Correct Answer: 12.9 V
9. Referring to the above figure, determine the voltage level that the output will reach during the pulse.
Options
A. 0 V
B. 15 V
C. 6.3 V
D. 9.45 V
Show Answer
Scratch Pad
Discuss
Correct Answer: 9.45 V
10. When a 12 V input pulse with a width equal to one time constant is applied to an
RC
integrator, the capacitor charges to
Options
A. 0 V
B. 12 V
C. 6.3 V
D. 7.56 V
Show Answer
Scratch Pad
Discuss
Correct Answer: 7.56 V
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