“…[1][2][3] Up to now, various DC-DC converters have been introduced. [4][5][6] With introduction of converters as Zeta converter, Cuk converter, and SEPIC converter, high Abbreviations: SC, Switched capacitor; ESR, equivalent series resistance Symbols: C n , nth switched capacitor; C o , Filtering capacitor (output capacitor); D, Duty-cycle; D n , nth diode; f s , Switching frequency; G, ideal-state voltage gain (ideal-state voltage conversion ratio); G (real) , real-state voltage gain; I Co , Current across the filtering capacitor; I Cn , Current across the switched capacitors; I L1 , Current across the first inductor (L 1 ); I L2 , Current across the second inductor (L 2 ); I O , average output current; i L1 − min , minimum current of the first inductor; i L1 − max , maximum current of the first inductor; i L2 − min , minimum current of the second inductor; i L2 − max , maximum current of the second inductor; Δi L1 , First inductor's current ripple; Δi L2 , second inductor's current ripple; L 1 , First inductor; L 2 , Second inductor; M, ratio of voltage stress to output voltage; n, number of switched-capacitors; η, Efficiency of converter; R 1 , equivalent series resistance of the first inductor; R 2 , equivalent series resistance of the second inductor; S 1 , switch S 1 ; T n , nth T switch; T, One full cycle; V i , Ideal voltage source; V in , Input voltage; V O , Output voltage; V O(real) , Real-state output voltage; V GT , switching pulse for the T switches; V GS , switching pulse for the switch S; V Co , Voltage across the filtering capacitor; ΔV Co , Filtering capacitor's voltage ripple; V Cn , voltage across the nth switched capacitors; V Cn(real) , Real-state voltage across the nth switched capacitors; V Cn − max , maximum voltage of switched capacitors; V Cn − min , minimum voltage of switched capacitors; ΔV Cn , switched capacitors' voltage ripple; V L1 , Voltage across the first inductor; V L2 , voltage across the second inductor; V Dn , Voltage drop on nth diode; V S , Voltage drop on the switch S 1 ; V Tn , Voltage drop on nth T switch; V R1 , voltage drop on ESR of the first inductor; V R2 , voltage drop on ESR of the second inductor power applications were made possible because of their capability of providing high voltage gains. 4 However, there are some challenges for generating very high voltage gains by using these converters.…”