Curioustab

Home » Electrical Engineering » Time Response of Reactive Circuits

An integrator consists of a 3.3 kΩ resistor and a 2 µF capacitor. A single 30 V, 6 ms pulse is applied to the input. How much will the capacitor charge?

10.3 V
30 V
12.09 V
17.91 V

Correct Answer: 17.91 V

← Previous Question Next Question→

More Questions from Time Response of Reactive Circuits

A single 6 V pulse with a width of 600 µs is applied to an integrator consisting of a 150 kΩ resistor and a 0.002 µF capacitor. To what voltage will the capacitor charge?
The output of an RC integrator is taken across the
Referring to the give circuit, the output will
An RC differentiator acts as a
The flat portions of a pulse waveform contain low-frequency components.
In an RL integrating circuit, the output voltage is taken across the inductor.
If the capacitor in an integrator opens, the output has the same voltage as the input.
In an RC differentiating circuit, the output voltage is taken across the resistor.
A dc component is the peak value of a pulse waveform.
In an integrator, when the pulse width of the input is much less than the transient time, the output voltage approaches the shape of the input.

Discussion & Comments

No comments yet. Be the first to comment!

Join Discussion