R ww L IL m N ~) Vs N1: N2 Figure 1 shows an appliance that has an impedance equal to 10+3j at 60Hz, you want to find a 220V to 110V transformer to step down the voltage since the appliance is rated at 110V. The cord you are using to connect the 220V side has a voltage of 220 Vrms at the outlet and an impedance of 1+0.5j. Refer the appliance to the transformer primary and solve for (a) and (b). + VL The following is given for Figure 1: Vs = 220Vrms, R = 1, L=0.5j, Z = 10+3j at 60Hz N1 = 220V and N2 = 110 V a. Solve for VL and IL b. Draw the circuit to solve for (a) given the conditions.

R ww L IL m N ~) Vs N1: N2 Figure 1 shows an appliance that has an impedance equal to 10+3j at 60Hz, you want to find a 220V to 110V transformer to step down the voltage since the appliance is rated at 110V. The cord you are using to connect the 220V side has a voltage of 220 Vrms at the outlet and an impedance of 1+0.5j. Refer the appliance to the transformer primary and solve for (a) and (b). + VL The following is given for Figure 1: Vs = 220Vrms, R = 1, L=0.5j, Z = 10+3j at 60Hz N1 = 220V and N2 = 110 V a. Solve for VL and IL b. Draw the circuit to solve for (a) given the conditions.

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...

See similar textbooks

Similar questions

A step up transformer supplies a current of 5 amp to the load at 200 V. The power factor of the load is 0.8 lagging. Given that R1 = 0.5 ohm, X1 = 1 ohm, R2 = 2 ohm, X2 = 4 ohm, k = 2, R0 = 450ohms and X0 = 250 ohms. Calculate the magnitude and phase of V1 and I1 with V2 as reference phasor and calculate the input power factor. [Ans:V1 = 129.986.50 V, I1 = 10.56-37.880 A and input pf = 0.71 lagging ]
Among the series-connected transformers, A transformer is 5KVA, B transformer is 3KVA. The voltage on two transformersrates are 480/120 V. Calculate the power to be obtained as a result of the connection?
please solve each question and provide full solutions
2, 20:5 a) find B and ĥ b) if the transformer is put find Ps and Ŕ in bechwords
Question-1 A complementary push-pull transformerless Class-AB power amplifier is driven from a single voltage source as indicated in the following circuit. If the output rms current i̟(rms)=130mA +%=20V VaEQı =VEBQ2 =0.7Vv R 1.0ka Vor=Voz=0.7V QI DI 2 D2 C3 Q2 -Vml R2 1.0kn in VE=-20V a) Calculate the total input average DC power and the output AC power b) Calculate the power-dissipation of two transistors Ql & Q2 c) Determine the Eficiency d) Calculate the maximum input DC power and the maximum output AC power e) Explain what is the cross-over distortion and how it could be eliminated
please answer both questions
a=7
Assuming you have a 120 V power source and that all of the windings on your transformer module (shown below) develop their rated voltage. How would you connect the winding to obtain a voltage of 88 V? Assume terminals 1, 3, & 5 have the same polarity. Show me a drawing that shows the connections. Thank you so much
A 9KVA, 360V/180V transformer has been tested to determine its equivalent circuit. The open circuit test data when high voltage side is open: loc=1.8A, Poc=200W. The short circuit test data when low voltage side is short circuited: Vsc=40V, Psc-230W. Use approximate equivalent circuit. Calculate equivalent resistance primary value. 0.736 0.023 0.368 0.092 0.184
I need answer within 20 minutes please please with my best wishes
The cross section of the aluminum conductor used in the feeding line in the figure is 60 mm2. According to thisWhat should the power of the feeding transformer be at least?
A 5KVA ideal transformer supplied with 120V RMS and connected to a 1kQ load draws 2A RMS of current on the secondary. What load must be connected in order to draw full power? 1kQ 2.5kQ 8000 3.50