Exercise: A triangle-wave voltage with amplitude 2 V and frequency 1 kHz is applied a capacitor. The capacitance is 0.1 uF. Based on the mathematics discussed above, we can say that the current will be a square-wave. What is the amplitude of the square-wave current? across We wish to know the current i through a capacitor (having capacitance C) if the voltage v across it is a triangle-wave having amplitude A and period T. We can take advantage of the math given above. The derivative dv/dt is a square-wave with amplitude 4A/T. Therefore, i is a square- wave with amplitude 4AC/T

Introductory Circuit Analysis (13th Edition)
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Exercise:
A triangle-wave voltage with amplitude 2 V and frequency 1 kHz is applied
a capacitor. The capacitance is 0.1 uF. Based on the mathematics discussed
above, we can say that the current will be a square-wave. What is the amplitude of
the square-wave current?
across
Transcribed Image Text:Exercise: A triangle-wave voltage with amplitude 2 V and frequency 1 kHz is applied a capacitor. The capacitance is 0.1 uF. Based on the mathematics discussed above, we can say that the current will be a square-wave. What is the amplitude of the square-wave current? across
We wish to know the current i through a capacitor (having capacitance C) if the voltage v across
it is a triangle-wave having amplitude A and period T. We can take advantage of the math given
above. The derivative dv/dt is a square-wave with amplitude 4A/T. Therefore, i is a square-
wave with amplitude 4AC/T
Transcribed Image Text:We wish to know the current i through a capacitor (having capacitance C) if the voltage v across it is a triangle-wave having amplitude A and period T. We can take advantage of the math given above. The derivative dv/dt is a square-wave with amplitude 4A/T. Therefore, i is a square- wave with amplitude 4AC/T
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