For the 4th order converter below, the switch stays at position "1" for a time equal to DT and at position "2" for a time equal to (T-DT), where D is the duty-cycle and T is the cycle-time. Assuming C₁ and C₂ very large, derive an expression for each of the following: 4₁ Vin lin C₁ +6 +Vel 1) The voltage gain (V./Vin). 2) The input current (in) for Osts T. 1 C₂ 2 카 Vo
For the 4th order converter below, the switch stays at position "1" for a time equal to DT and at position "2" for a time equal to (T-DT), where D is the duty-cycle and T is the cycle-time. Assuming C₁ and C₂ very large, derive an expression for each of the following: 4₁ Vin lin C₁ +6 +Vel 1) The voltage gain (V./Vin). 2) The input current (in) for Osts T. 1 C₂ 2 카 Vo
Introductory Circuit Analysis (13th Edition)
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ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
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Transcribed Image Text:For the 4th order converter below, the switch stays at position "1" for a time equal to DT
and at position "2" for a time equal to (T-DT), where D is the duty-cycle and T is the
cycle-time. Assuming C₁ and C₂ very large, derive an expression for each of the
following:
4₁
lin
Vin
C₁
HH
+ Vel
1) The voltage gain (V/Vin).
2) The input current (in) for 0 ≤ts T.
12
C₂ =
HH
2
R
+ №º
1
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