The current-voltage characteristics of a non-linear load is given in the figure. The load behaves as an open circuit if the absolute load voltage is lower than EJ. However, if v(t)>|E| then the load behaves as a linear resistor. The linear resistor value is equal to i(t) Slope =1/R R=902 This non-linear load is connected to -E O E v(t) 220Vrms voltage source which is purely sinusoidal. If E=150V then; Slope =1/R a) Skech the load current for one period, and give the important magnitude and time values on the figure. b) Calculate the average power of the load.
The current-voltage characteristics of a non-linear load is given in the figure. The load behaves as an open circuit if the absolute load voltage is lower than EJ. However, if v(t)>|E| then the load behaves as a linear resistor. The linear resistor value is equal to i(t) Slope =1/R R=902 This non-linear load is connected to -E O E v(t) 220Vrms voltage source which is purely sinusoidal. If E=150V then; Slope =1/R a) Skech the load current for one period, and give the important magnitude and time values on the figure. b) Calculate the average power of the load.
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Transcribed Image Text:The current-voltage characteristics of a non-linear load is
given in the figure. The load behaves as an open circuit if
the absolute load voltage is lower than EJ. However, if
v(t)>|E| then the load behaves as a linear resistor. The
linear resistor value is equal to
i(t)
Slope =1/R
R=902
This non-linear load is connected to
-E
O E
v(t)
220Vrms voltage source which is purely sinusoidal. If
E=150V then;
a) Skech the load current for one period, and give the
important magnitude and time values on the figure.
b) Calculate the average power of the load.
Slope =1/R
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