3) Given the following circuit consisting of an ac sine wave input voltage source, transformer, full-wave bridge rectifi

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3 Given The Following Circuit Consisting Of An Ac Sine Wave Input Voltage Source Transformer Full Wave Bridge Rectifi 1 (81.63 KiB) Viewed 60 times

3) Given the following circuit consisting of an ac sine wave input voltage source, transformer, full-wave bridge rectifier with Capacitor Filter (capacitor is connected only in parts f through m), and Load Resistance (load is connected in all parts of the problem): Vin 120 Vrms 60 Hz www 4:1 с 800uF SRL Vout 200Ω All of the diodes are Silicon (capacitor C = 800 microfarads only in parts f through m) Assume the capacitor is NOT connected in parts a through e: a) Find the rms and peak secondary voltage values. b) Find the peak output Voltage Vout(peak). c) Find the DC (Average) output voltage level Vout(dc). d) Sketch the output voltage waveform. e) Find the peak load current I (peaki Assume the capacitor is connected in parts f through m of the problem (C = 800 uF = 800 microfarads): Use the class lecture equations and note that the ripple calculations are rough approximations. f) Find the peak (maximum) output Voltage Vout(peak), which should be the same as part b. g) Find the approximate load current I.. h) Find the peak-to-peak ripple voltage Vr(p-p). i) Find the rms value of the ripple voltage Vr(rms). j) Find the minimum capacitor voltage V (min) k) Find the DC (Average) output voltage level Vout(dc), which is NOT the same as the previous value. D) Find the ripple factor in %. m) Sketch the output voltage waveform and show the peak (maximum) voltage value on the plot, and show the minimum voltage value on the plot, and also show the pertinent time values on the plot.