If a periodic pulse waveform has a pulse width and the time between pulses each equal to or greater than five time constants, the capacitor will
If a periodic pulse waveform has a pulse width and the time between pulses each equal to or greater than five time constants, the capacitor will
The output of an RC integrator is taken across the
The output of an RC integrator is taken across the
In an RL integrating circuit, the output voltage is taken across the inductor.
In an RL integrating circuit, the output voltage is taken across the inductor.
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?
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?
In an electric circuit, the reaction of a circuit to a given pulse input is known as the pulse response.
In an electric circuit, the reaction of a circuit to a given pulse input is known as the pulse response.
In an RC differentiating circuit, the output voltage is taken across the resistor.
In an RC differentiating circuit, the output voltage is taken across the resistor.
In an RC differentiator, responding to repetitive pulses, the average value of the output.
In an RC differentiator, responding to repetitive pulses, the average value of the output.
A steady-state condition is reached when
A steady-state condition is reached when
In an RC differentiator, the capacitor.
In an RC differentiator, the capacitor.
In an RL differentiating circuit, the output voltage is taken across the resistor.
In an RL differentiating circuit, the output voltage is taken across the resistor.
Referring to Problem 5, how long will it take the capacitor to discharge if the internal resistance of the pulse source is 100 Ω?
Referring to Problem 5, how long will it take the capacitor to discharge if the internal resistance of the pulse source is 100 Ω?
In an RL differentiator, when the input pulse goes from its low level to its high level,
In an RL differentiator, when the input pulse goes from its low level to its high level,
If the capacitor in an integrator becomes leaky.
If the capacitor in an integrator becomes leaky.
If the capacitor in an integrator opens, the output has the same voltage as the input.
If the capacitor in an integrator opens, the output has the same voltage as the input.
Referring this circuit, determine the maximum output voltage when a single pulse is applied as shown. The total resistance is 60 Ω.
Referring this circuit, determine the maximum output voltage when a single pulse is applied as shown. The total resistance is 60 Ω.
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.
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.
Referring to the bellow figure, determine the voltage level that the output will reach during the pulse.
Referring to the bellow figure, determine the voltage level that the output will reach during the pulse.
Referring this figure, on the falling edge.
Referring this figure, on the falling edge.
Referring to the give circuit, the output will.
Referring to the give circuit, the output will.
In electronic systems, repetitive-pulse waveforms are encountered.
In electronic systems, repetitive-pulse waveforms are encountered.
With an RL integrator, at the instant of the rising pulse edge,
With an RL integrator, at the instant of the rising pulse edge,
When a 24 V input pulse with a width equal to five time constants is applied to an RC integrator, the capacitor charges to
When a 24 V input pulse with a width equal to five time constants is applied to an RC integrator, the capacitor charges to
The flat portions of a pulse waveform contain low-frequency components.
The flat portions of a pulse waveform contain low-frequency components.
When a 15 V input pulse with a width equal to two time constants is applied to an RC integrator, the capacitor charges to
When a 15 V input pulse with a width equal to two time constants is applied to an RC integrator, the capacitor charges to
In an RC differentiator, the sum of the capacitor voltage and the resistor voltage at any instant.
In an RC differentiator, the sum of the capacitor voltage and the resistor voltage at any instant.
An RC differentiator acts as a
An RC differentiator acts as a
If the RC time constant of an integrator is increased, as the time constant is increased.
If the RC time constant of an integrator is increased, as the time constant is increased.
Referring to Problem 7, how much will the capacitor charge if the pulse width is increased to 12 ms?
Referring to Problem 7, how much will the capacitor charge if the pulse width is increased to 12 ms?
A dc component is the peak value of a pulse waveform.
A dc component is the peak value of a pulse waveform.
To understand how the output voltage is shaped by a differentiator, you must consider
To understand how the output voltage is shaped by a differentiator, you must consider
The rising and falling edges of a pulse waveform contain the higher frequency component.
The rising and falling edges of a pulse waveform contain the higher frequency component.
In an RC integrating circuit, the output voltage is taken across the capacitor.
In an RC integrating circuit, the output voltage is taken across the capacitor.
What is the highest frequency contained in a pulse that has a rise and fall time equal to 10 microseconds (10 μs)?
What is the highest frequency contained in a pulse that has a rise and fall time equal to 10 microseconds (10 μs)?
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?
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?
When a 12 V input pulse with a width equal to one time constant is applied to an RC integrator, the capacitor charges to.
When a 12 V input pulse with a width equal to one time constant is applied to an RC integrator, the capacitor charges to.
