Design a single-phase full wave controlled rectifier that is fed from an ac source of a voltage given by vs, the RL-load parameters are R2, and L mH, respectively. Assume that a current pulse has been fired at angle,a, and the extinction angle, is predicted as B. Referring to the parameters listed in Table 1, complete the following tasks: a) Sketch the circuit diagram of your design by including input source, practical power switches and load. Label all the components accordingly and explain the circuit operation. [10 marks) b) Sketch the output voltage, output current and source current waveforms for 0 Sox 37. Please label the amplitude of the waveforms, firing angles and extinction angle clearly in your sketching. Assume that all the power switches are ideal. [10 marks] c) Sketch all power switches voltage and current waveforms for so 3t. Please label the amplitude of the waveforms firing angles, and extinction angle clearly in your sketching. Assume that all the power switches are ideal. [10 marks d) Determine the power absorbed by the load. [10 marks e) If an E battery is added into the circuit, assume that it is connected in series with the RL load), estimate the changes of the average output voltage in percentage with the help of sketching a new output voltage waveform. [10 marks Table 1: Single-phase full wave controlled rectifier parameters distribution based on last digit number of Student ID number Student ID Last digit R(1) L (mH) ao BO E(V) number 0 150 sin (1201) 8 20 45 210 75 1 250 sin (1201) 7 45 120 270 125 2 350 sin (100 x 1) 6 100 45 255 300 3 450 sin (1001) 5 220 75 345 250 4 550 sin (120x1) 6 8 30 195 300 5 650 sin (120.01) 3 80 260 200 6 750 sin (100.21) 450 60 255 680 7 850 sin (100x1) 9 210 25 330 400 8 950 sin (120x1) 5 80 90 165 500 9 1050 sin (12011) 4 121 85 265 350 Design a single-phase full wave controlled rectifier that is fed from an ac source of a voltage given by vs, the RL-load parameters are R2, and L mH, respectively. Assume that a current pulse has been fired at angle,a, and the extinction angle, is predicted as B. Referring to the parameters listed in Table 1, complete the following tasks: a) Sketch the circuit diagram of your design by including input source, practical power switches and load. Label all the components accordingly and explain the circuit operation. [10 marks) b) Sketch the output voltage, output current and source current waveforms for 0 Sox 37. Please label the amplitude of the waveforms, firing angles and extinction angle clearly in your sketching. Assume that all the power switches are ideal. [10 marks] c) Sketch all power switches voltage and current waveforms for so 3t. Please label the amplitude of the waveforms firing angles, and extinction angle clearly in your sketching. Assume that all the power switches are ideal. [10 marks d) Determine the power absorbed by the load. [10 marks e) If an E battery is added into the circuit, assume that it is connected in series with the RL load), estimate the changes of the average output voltage in percentage with the help of sketching a new output voltage waveform. [10 marks Table 1: Single-phase full wave controlled rectifier parameters distribution based on last digit number of Student ID number Student ID Last digit R(1) L (mH) ao BO E(V) number 0 150 sin (1201) 8 20 45 210 75 1 250 sin (1201) 7 45 120 270 125 2 350 sin (100 x 1) 6 100 45 255 300 3 450 sin (1001) 5 220 75 345 250 4 550 sin (120x1) 6 8 30 195 300 5 650 sin (120.01) 3 80 260 200 6 750 sin (100.21) 450 60 255 680 7 850 sin (100x1) 9 210 25 330 400 8 950 sin (120x1) 5 80 90 165 500 9 1050 sin (12011) 4 121 85 265 350
