(Solved): for thyristor controlled rectifier  Question 1. What type of circuit might be used to provide ...

Question 1. What type of circuit might be used to provide a phase shift to a sinusoidal input? How might the phase shift angle be tuned? Question 2. What type of circuit might be used to compare between two input voltages? \( (4 \%) \) Question 3. Working with the timing signal shown above, provide time domain diagrams from \( 0^{\circ} \) to \( 720^{\circ} \), showing the output of a comparator for \( V_{\text {cont }}=0.9, V_{\text {cont }} \) \( =0.5 \) and \( V_{\text {cont }}=-0.5 \). Question 13: Derive an expression for the average output voltage of this half wave rectifier in terms of firing angle \( \alpha \), assuming continuous conduction. \( (15 \%) \) Question 14. Derive the relationship between \( V_{\text {cont }} \) and the output voltage of the rectifier. Does this relationship have any notable properties? Question 1. What type of circuit might be used to provide a phase shift to a sinusoidal input? How might the phase shift angle be tuned? Question 2. What type of circuit might be used to compare between two input voltages? \( (4 \%) \) Question 3. Working with the timing signal shown above, provide time domain diagrams from \( 0^{\circ} \) to \( 720^{\circ} \), showing the output of a comparator for \( V_{\text {cont }}=0.9, V_{\text {cont }} \) \( =0.5 \) and \( V_{\text {cont }}=-0.5 \). Question 13: Derive an expression for the average output voltage of this half wave rectifier in terms of firing angle \( \alpha \), assuming continuous conduction. \( (15 \%) \) Question 14. Derive the relationship between \( V_{\text {cont }} \) and the output voltage of the rectifier. Does this relationship have any notable properties?