Given the isolated inverse-SEPIC converter operating in CCM of fig. 6.39 shown here: c, = R v There are two inductors in this converter, The magnetizing inducatnce and 12. By performing volt second balance for the magentzing inductance and 12, one can derive the steady state duty cycle along with the steady state voltage across C1, VCi, in terms of the steady state output voltage, V. There are two equotions with two unknowns resulting from the two volt seCEnd balance equations. Small ripple approximations are walid. What is the the input to output voltage ratio (v/va)? V V. 1-D O V 1-D O V D 1-D D V 1-D eee

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Given the isolated inverse-SEPIC converter operating In CCM of fig. 6.39 shown here:
D, *
C= R
There are two inductors in this converter, The magnetizing inducatnce and L2. By performing volt second balance for the magentizing inductance and L2, one can derive the steady state
duty cycle along with the steady state voltage across C1, VCi, in terms of the steady state output voltage, V. There are two cquations with two unknowns resulting from the two volt
second balance equations. Small ripple approximations are valid. What is the the input to output voltage ratio (v/vg)?
V
D
V
1-Dn
O V
D
V
1-D
O V
D
V
1-D
O v
V
1-Dn
Reee
Transcribed Image Text:Electrical Engineering I need help, thank you. Given the isolated inverse-SEPIC converter operating In CCM of fig. 6.39 shown here: D, * C= R There are two inductors in this converter, The magnetizing inducatnce and L2. By performing volt second balance for the magentizing inductance and L2, one can derive the steady state duty cycle along with the steady state voltage across C1, VCi, in terms of the steady state output voltage, V. There are two cquations with two unknowns resulting from the two volt second balance equations. Small ripple approximations are valid. What is the the input to output voltage ratio (v/vg)? V D V 1-Dn O V D V 1-D O V D V 1-D O v V 1-Dn Reee
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