2020
DOI: 10.1109/tpel.2020.2972583
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Novel High Step-Up Soft-Switching DC–DC Converter Based on Switched Capacitor and Coupled Inductor

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Cited by 51 publications
(26 citation statements)
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“…By introducing small magnetic components or utilizing parasitic inductances, the typical SCCs can achieve resonant or phaseshift operations, thus regulating voltage conversion ratio and reducing both switching losses and electromagnetic interferences (EMI) [68]- [82]. On the other hand, a combination of coupled inductors and switched capacitors is also broadly adopted in high voltage gain situations [59]- [92], [89]- [97]. Their common feature is using coupled inductors to lift the voltage of capacitors and perform the discharging of the switched capacitors in series.…”
Section: Coupled Inductor Converters With Basic Modulesmentioning
confidence: 99%
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“…By introducing small magnetic components or utilizing parasitic inductances, the typical SCCs can achieve resonant or phaseshift operations, thus regulating voltage conversion ratio and reducing both switching losses and electromagnetic interferences (EMI) [68]- [82]. On the other hand, a combination of coupled inductors and switched capacitors is also broadly adopted in high voltage gain situations [59]- [92], [89]- [97]. Their common feature is using coupled inductors to lift the voltage of capacitors and perform the discharging of the switched capacitors in series.…”
Section: Coupled Inductor Converters With Basic Modulesmentioning
confidence: 99%
“…One example of stacked three windings coupled inductor SCC is shown in Fig. 27 [97]. It is based on the topology in [91], and it adds one more winding of the coupled inductor to further increase the voltage gain.…”
Section: B) Three-winding-based Convertersmentioning
confidence: 99%
“…Regarding the disadvantage of these converters, the leakage inductance increases by increasing the turns ratio of the coupled inductor, which can cause problems such as voltage spikes and stresses across the power switches. The voltage spikes on the power switch reduced by using active 21,22 and passive clamp 23,24 circuits, but the converter structure has become more complex and expensive. Providing zero-voltage switching (ZVS)/zero-current switching (ZCS) conditions for the power switches is considered as the advantage of using a clamping circuit.…”
Section: Introductionmentioning
confidence: 99%
“…Furthermore, high rating power switches have more considerable drain–source on‐resistance, which increases the conduction losses of the converter. To reduce the voltage stress on the switches, active [22, 23] or passive [24] clamping circuit is used to provide zero‐voltage switching (ZVS) and zero‐current switching (ZCS) operations for the switches. The use of voltage multiplier cells is considered to be one of the ideas for increasing the voltage gain in such converters [25, 26].…”
Section: Introductionmentioning
confidence: 99%