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)
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ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
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X & DA
G
F2
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.
Local backup on
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):
80
F3
R1
ww 1
4.1kΩ
R3
2
www
R2
dan
2.00ΜΩ
10092
R7
1 MQ
Q
F4
V1
5V
4
First Line Indent: 0
U
F5
Figure 4
F6
3
R4
33092
R6
www
59092
5
F7
Exit
R5
470 kQ
DII
F8
H 00
F9
H
Transcribed Image Text:X & DA G F2 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. Local backup on 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): 80 F3 R1 ww 1 4.1kΩ R3 2 www R2 dan 2.00ΜΩ 10092 R7 1 MQ Q F4 V1 5V 4 First Line Indent: 0 U F5 Figure 4 F6 3 R4 33092 R6 www 59092 5 F7 Exit R5 470 kQ DII F8 H 00 F9 H
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