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4. Design the circuit for Fig 2. Use Vin < 5Vpp (remember to change the Vpp voltage to Vrms for your calculations) IL= 1.28 L-0.654° mA VL= 1.28 L-0.295° Vrms L1 R1 + L2 Vin=Vrms IL 1000 Hz VL R2 0° Source Line Load Figure 2 a) What is the value of L1, R1, L2, R2, Vin (Vrms, Vpp, Vp)? b) Draw the circuit in terms of the impedances c) Calculate the average and reactive power absorbing for the load. d) Calculate the average and reactive power delivery for the line e) Calculate the average and reactive power delivery for the source Note: Use polar notation on your calculations. Set the resistors and Inductors values according to your components. Use circuits analysis methods to do the calculations (Ohm law, KVL, KCL, node methods, etc) .

4. Design the circuit for Fig 2. Use Vin < 5Vpp (remember to change the Vpp voltage to Vrms for your calculations) IL= 1.28 L-0.654° mA VL= 1.28 L-0.295° Vrms L1 R1 + L2 Vin=Vrms IL 1000 Hz VL R2 0° Source Line Load Figure 2 a) What is the value of L1, R1, L2, R2, Vin (Vrms, Vpp, Vp)? b) Draw the circuit in terms of the impedances c) Calculate the average and reactive power absorbing for the load. d) Calculate the average and reactive power delivery for the line e) Calculate the average and reactive power delivery for the source Note: Use polar notation on your calculations. Set the resistors and Inductors values according to your components. Use circuits analysis methods to do the calculations (Ohm law, KVL, KCL, node methods, etc) .

Introductory Circuit Analysis (13th Edition)
Introductory Circuit Analysis (13th Edition)
13th Edition
ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
Chapter1: Introduction
Section: Chapter Questions
Problem 1P: Visit your local library (at school or home) and describe the extent to which it provides literature...
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4. Design the circuit for Fig 2. Use Vin < 5Vpp (remember to change the Vpp voltage to Vrms for your calculations) IL= 1.28 L-0.654° mA VL= 1.28 L-0.295° Vrms L1 R1 + Vin=Vrms IL 1000 Hz VL R2 0° Source Line Load Figure 2 a) What is the value of L1, R1, L2, R2, Vin (Vrms, Vpp, Vp)? b) Draw the circuit in terms of the impedances c) Calculate the average and reactive power absorbing for the load. d) Calculate the average and reactive power delivery for the line e) Calculate the average and reactive power delivery for the source Note: Use polar notation on your calculations. Set the resistors and Inductors values according to your components. Use circuits analysis methods to do the calculations (Ohm law, KVL, KCL, node methods, etc).
Transcribed Image Text:4. Design the circuit for Fig 2. Use Vin < 5Vpp (remember to change the Vpp voltage to Vrms for your calculations) IL= 1.28 L-0.654° mA VL= 1.28 L-0.295° Vrms L1 R1 + Vin=Vrms IL 1000 Hz VL R2 0° Source Line Load Figure 2 a) What is the value of L1, R1, L2, R2, Vin (Vrms, Vpp, Vp)? b) Draw the circuit in terms of the impedances c) Calculate the average and reactive power absorbing for the load. d) Calculate the average and reactive power delivery for the line e) Calculate the average and reactive power delivery for the source Note: Use polar notation on your calculations. Set the resistors and Inductors values according to your components. Use circuits analysis methods to do the calculations (Ohm law, KVL, KCL, node methods, etc).
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