Type of converter

Parameters value

Input voltage (V)

Duty cycle (Sec)

Input current stress (A)

Voltage across switch (V)

Output voltage gain (V)

Output current(A)

output power (W)

Peak overshoot (%)

Single input boost converter

L = 1.15 mH,

C = 483 µF,

Ro = 100 Ω

Vin = 12 V

D = 0.90

Iin = 13 A

Vsw = 111.3 V

Vo = 110.5 V

Io = 1.105 A

Pout = 122 W

29.86%

Proposed two input boost converter without VMC

Lin1 = Lin2 = 1.64 mH,

Co1 = Co2 = 241.7 µF,

Cm = 21 µF, Ro1 = Ro2 = 100 Ω

Vin1 = 12 V,

Vin2 = 12 V

D1 = 0.90,

D2 = 0.90

Iin1 = 7.25 A

Iin2 = 7.25 A

Vsw1 = 116.1 V

Vsw2 = 116.1 V

Vo = 115.3 V

Io = 1.153 A

Pout = 132.9 W

45.7%

Proposed two input VMC with VMC converter

Lin1 = Lin2 = 0.665 mH, Co1 = Co2 = 29.86 µF, Cm = 21 µF,

Ro1 = Ro2 = 100 Ω

Vin1 = 12 V,

Vin2 = 12 V

D1 = 0.82,

D2 = 0.82

Iin1 = 9.6 A

Iin2 = 9.6 A

Vsw1 = 61 V

Vsw2 = 61 V

Vo = 121.7 V

Io = 1.217 A

Pout = 148 W

24%

Proposed two input boost converter with VMC

Lin1 = 1.64 mH,

Lin2 = 0.665 mH,

Co1 = 241.7 µF, Co2 = 29.86 µF, Cm = 21 µF,

Ro1 = Ro2 = 100 Ω

Vin1 = 12 V,

Vin2 = 12 V

D1 = 0.90

D2 = 082

Iin1 = 6 A

Iin2 = 11 A

Vsw1 = 117.3 V

Vsw2 = 58.03 V

Vo = 116.5 V

Io = 1.165 A

Pout = 135.7 W

26.14%

Modified two input boost converter with VMC

Lin1 = 0.571 mH,

Lin2 = 0.571 mH,

Co1 = 50 µF,

Co2 = 50 µF, Cm = 47 µF, Ro = 100 Ω

Vin1 = 12 V,

Vin2 = 12 V

D1 = 0.5

D2 = 0.6

Iin1 = 8.2 A

Iin2 = 7.9 A

Vsw1 = 25 V

Vsw2 = 25 V

Vo = 116.5 V

Io = 1.165 A

Pout = 135.7 W

20%