A full wave rectifier circuit is given with peak output voltage Vy =15 V, R=10 kN, C= 50 µF, T (discharge time) is one half of the time constant and T, (time between peak values) is 0.75 times of the time constant. (i) Determine the ripple voltage, V, . (ii) Determine the ripple voltage if T (discharge time) is 10 ms and T, (time between peak values) is 15 ms. Answer choices: a. (i) 7.5 V (ii) 0.3 V b. (i) 5.9 V (ii) 0.3 V c. (i) 11.25 V (ii) 0.45 V d. (i) 7.5 V (ii) 0.45 V
A full wave rectifier circuit is given with peak output voltage Vy =15 V, R=10 kN, C= 50 µF, T (discharge time) is one half of the time constant and T, (time between peak values) is 0.75 times of the time constant. (i) Determine the ripple voltage, V, . (ii) Determine the ripple voltage if T (discharge time) is 10 ms and T, (time between peak values) is 15 ms. Answer choices: a. (i) 7.5 V (ii) 0.3 V b. (i) 5.9 V (ii) 0.3 V c. (i) 11.25 V (ii) 0.45 V d. (i) 7.5 V (ii) 0.45 V
Chapter59: Motor Startup And Troubleshooting Basics
Section: Chapter Questions
Problem 12SQ: How is a solid-state diode tested? Explain.
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A full wave rectifier circuit is given with peak output voltage Vy =15 V, R=10 kN, C= 50 µF, T (discharge time) is one half of the time constant and T, (time between peak values) is 0.75 times of the time constant. (i) Determine the ripple voltage, V, . (ii) Determine the ripple voltage if T (discharge time) is 10 ms and T, (time between peak values) is 15 ms. Answer choices: a. (i) 7.5 V (ii) 0.3 V b. (i) 5.9 V (ii) 0.3 V c. (i) 11.25 V (ii) 0.45 V d. (i) 7.5 V (ii) 0.45 V
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