X & DAGF2a) For a DC Power Supply, having a voltage of 50 V, design circuits which can give thefollowing output voltages:i) 10 Voltsii) 25 Voltsiii) 45 VoltsDraw the labelled circuit diagram for each output voltage value and show calculations forall. Use R1 = 4.7 kQ for one of the resistanceHint: Use voltage divider circuits, you can use any value of resistances you like.Local backup onb) Calculate the Total equivalent resistance (RT) for the circuit shown in figure 4 and drawthe equivalent circuit replacing the whole network with just one Resistance (RT):80F3R1ww 14.1kΩR32wwwR2dan2.00ΜΩ10092R71 MQQF4V15V4First Line Indent: 0UF5Figure 4F63R433092R6www590925F7ExitR5470 kQDIIF8H 00F9H

As per the guidelines of Bartleby we suppose to answer first three subpart only for solution of…

a) For a DC Power Supply, having a voltage of 50 V, design circuits which can give the following output voltages: i) 10 Volts ii) 25 Volts iii) 45 Volts Draw the labelled circuit diagram for each output voltage value and show calculations for all. Use R1 = 4.7 kQ for one of the resistance Hint: Use voltage divider circuits, you can use any value of resistances you like.

a) For a DC Power Supply, having a voltage of 50 V, design circuits which can give the following output voltages: i) 10 Volts ii) 25 Volts iii) 45 Volts Draw the labelled circuit diagram for each output voltage value and show calculations for all. Use R1 = 4.7 kQ for one of the resistance Hint: Use voltage divider circuits, you can use any value of resistances you like.

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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a) For a DC Power Supply, having a voltage of 50 V, design circuits which can give the following output voltages: i) 10 Volts ii) 25 Volts iii) 45 Volts Draw the labelled circuit diagram for each output voltage value and show calculations for all. Use R1 = 4.7 kQ for one of the resistance Hint: Use voltage divider circuits, you can use any value of resistances you like. b) Calculate the Total equivalent resistance (RT) for the circuit shown in figure 4 and draw the equivalent circuit replacing the whole network with just one Resistance (RT): Hilt V1 5V 4 R1 ww 4.1kΩ R2 ww 10092 R3 www 2.00ΜΩ R7 1ΜΩ 2 3 R4 330Ω R6 www 59092 5 R5 470 ΚΩ
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