A new enhanced-boost switched-capacitor quasi Z-source network

This paper proposes a new enhanced-boost non-transformer-based impedance source network. The strong boosting ability of the proposed topology is realized by making use of the switched capacitor concept in the formerly introduced enhanced-boost quasi Z-source network (EB-qZSN) without any additional active switch. Meanwhile, the advantages of the EB-qZSN such as input current continuity and shared ground between the input and the output are maintained. In addition to the lower shoot-through requirement to obtain high voltage gains, the proposed impedance network takes advantage of a smaller size of passive components along with a lower input current ripple to achieve higher power density and higher efficiency. Moreover, the lower total rating of the switching elements, defined by switching device power, directly translates to lower cost for the proposed method. The operation principles and the design guideline of components are explained in detail and a thorough comparison with other ZSN is presented. A 240W DC-DC prototype converter was built to validate the performance principles and properties of the proposed impedance network.

Automated summary

This paper proposes a new enhanced-boost non-transformer-based impedance source network, which achieves strong boosting ability by utilizing the switched capacitor concept and maintains advantages such as input current continuity and shared ground. The proposed impedance network offers a smaller size of passive components and lower input current ripple, leading to higher power density and efficiency, as well as lower cost due to reduced total rating of switching elements.