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引用次数: 1
摘要
本文提出了一种新的双输入DC-DC变换器拓扑结构,用于直流微电网的应用。本文提出了一种既能单源提供过度屈曲又能提高运算效率的拓扑结构。由于输入直流电压的过度降压,变换器使用了额外的储能元件,因此它属于七阶族。该变换器可以单独或共同调节输入源和直流微电网之间的功率流,减小源纹波。第二输入直流电源采用数字稳压,同时采用电流控制器,保证负载划分。设计了一个72/ 36 V ~ 24 V、功率容量为150 ~ 300W的直流低压微电网来验证所提出的概念。通过仿真验证了理论分析的正确性。
Design and analysis of two-input DC-DC converter used in low voltage DC-grid applications
The paper brings into depiction a novel two input DC-DC converters topology, for DC micro-grid applications. The paper proposes a topology which is capable of providing excessive bucking with one source and also boosting operation. On account of excessive stepping down of the input dc voltage the converter uses additional energy storage components and hence it belongs to seventh order family. The proposed converter regulates the power flow between input de sources and dc micro-grid either individually or collectively at a reduced source ripple. The digital voltage regulation while the current controller is used, for second input DC source, to ensure load division. A 72/ 36 V to 24 V, with power capacity of, 150 ~ 300W dc low voltage micro-grid is designed to validate the proposed concept. The theoretical analysis is validated through simulations.
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