Name: Class Instructor: TA: Session: 1 Time Domain Lab 7 Lab Work Grade 1) Attach the plots of Vc(t) and VR(t) for the circuit in Slides 4. 2) Repeat the previous simulation experiment by changing the duty cycle to 25%. Attach the plots Vc(t) and VR(t). Explain your observations. 3) Repeat the simulation experiment (from slide 4) with capacitor value 0.01µF. Attach the plots Vc(t) and VR(t). Explain your observations. 4) Attach the plots of VL(t) and VR(t) for the circuit in Slides 9. 5) Repeat the previous simulation experiment by changing the duty cycle to 75%. Attach the plots VL(t) and VR(t). Explain your observations. 6) Repeat the simulation experiment (from slide 9) with resistor value 10kΏ. Attach the plots VL(t) and VR(t). Explain your observations.Name: Class Instructor: TA: Session: 2 7) Attach the plots of Vc(t) and VR(t) for the circuit in Slides 13 (hardware experiment). 8) Repeat the previous lab experiment by changing the duty cycle to 25%. Attach the plots Vc(t) and VR(t). Explain your observations. 9) Repeat the lab experiment (from slide 13) with capacitor value 0.01µF. Attach the plots Vc(t) and VR(t). Explain your observations. 10)Attach the plots of VL(t) and VR(t) for the circuit in Slides 17. 11) Repeat the previous lab experiment by changing the duty cycle to 75%. Attach the plots VL(t) and VR(t). Explain your observations. 12) Repeat the lab experiment (from slide 9) with resistor value 10kΏ. Attach the plots VL(t) and VR(t). Explain your observations. Include schematics for all values that are to be determined via PSPICE and also the plots. Lab Data Sheet: Attach your hand written Data Sheet with notes taken during the lab. The Data Sheet must be signed by your lab
View Full Document