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PWM explain with graphs? - Answers
Pulse Width Modulation (PWM) is a technique used to control the power delivered to electrical devices by varying the width of the pulses in a signal. In a typical PWM waveform, the x-axis represents time, while the y-axis represents voltage. The duty cycle, defined as the ratio of the pulse width to the total period, determines the average voltage and thus the power delivered; a higher duty cycle means more power. Graphically, a PWM signal appears as a series of square waves, where the width of the "on" state varies according to the desired output.
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PWM explain with graphs? - Answers
Pulse Width Modulation (PWM) is a technique used to control the power delivered to electrical devices by varying the width of the pulses in a signal. In a typical PWM waveform, the x-axis represents time, while the y-axis represents voltage. The duty cycle, defined as the ratio of the pulse width to the total period, determines the average voltage and thus the power delivered; a higher duty cycle means more power. Graphically, a PWM signal appears as a series of square waves, where the width of the "on" state varies according to the desired output.
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PWM explain with graphs? - Answers
Pulse Width Modulation (PWM) is a technique used to control the power delivered to electrical devices by varying the width of the pulses in a signal. In a typical PWM waveform, the x-axis represents time, while the y-axis represents voltage. The duty cycle, defined as the ratio of the pulse width to the total period, determines the average voltage and thus the power delivered; a higher duty cycle means more power. Graphically, a PWM signal appears as a series of square waves, where the width of the "on" state varies according to the desired output.
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- og:descriptionPulse Width Modulation (PWM) is a technique used to control the power delivered to electrical devices by varying the width of the pulses in a signal. In a typical PWM waveform, the x-axis represents time, while the y-axis represents voltage. The duty cycle, defined as the ratio of the pulse width to the total period, determines the average voltage and thus the power delivered; a higher duty cycle means more power. Graphically, a PWM signal appears as a series of square waves, where the width of the "on" state varies according to the desired output.
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