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对中压防爆大功率变频器应用在井下大型运输防爆变频系统进行了分析,指出了该系统的优点和主要特点。 相似文献
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变频器主要对电动机进行无极调速。随着自动化技术的快速发展,工业生产中对电机的调速应用越来越多,而在爆炸性危险场所中,必须对变频器进行防爆处理。着重对隔爆型和正压通风型变频器的结构设计进行了论述。 相似文献
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提出了一种两级式隔离型双向DC/DC变换器,该变换器包含一个闭环的前级DC/DC变换器和一个开环的后级LLC谐振变换器。当能量从低压直流母线传输到高压直流母线时,变换器等效为Boost变换器+全桥倍压LLC谐振变换器;当能量反方向流动时,变换器等效为半桥LLC谐振变换器+Buck变换器。通过分析变换器工作原理与设计要点,提出了以效率为目标的中间直流母线电压优化方法,并研制了1台12 V/336 V、1 kW的样机,其优化后的中间直流母线电压额定值为50 V。样机实验结果验证了所提变换器的良好工作性能。 相似文献
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一族正反激组合式双向DC-DC变换器 总被引:8,自引:8,他引:8
提出了一族正反激双向DC-DC变换器。它采用正激和反激组合的形式,在变换器的一侧绕组串联,另一侧并联。这种结构的双向变换拓扑解决了电流型一电压型组合式拓扑的开关管电压尖峰问题和启动问题。正激和反激组合式的拓扑,减小了反激变压器传递的功率,而使一部分功率以正激形式传递,为其在较大功率场合的应用提供了拓扑基础。文章以有源箝位正反激双向变换器为例,详细分析了其工作原理,着重分析了开关时序问题和软开关实现问题,并推导了其稳态工作基本关系。通过构建试验样机平台,证明正反激双向DC-DC变换器理论分析的正确性。最后,给出了一族基于正反激原理的双向DC—DC变换器。 相似文献
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提出一种具有高增益低电压应力的双输入DC-DC变换器,该变换器由两个上下对称的耦合电感Boost变换器组成。具有单输入和双输入两个模式,在单输入状态下只有一个开关管工作;在双输入状态下两个开关管工作。新型变换器可以通过改变耦合电感的匝比来提升变换器电压增益;输出端采用三电平结构使变换器开关管和二极管电压应力减小。分析了变换器在单输入和双输入模式下的工作模态;给出了变换器主要工作波形;推导了变换器电压增益,开关管和二极管电压应力,分析了漏感对变换器的电压增益的影响。通过实验验证了理论分析的正确性。 相似文献
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在软开关Boost变换器基础上,通过引入Flyback单元,提出了一种高升压增益软开关DC-DC变换器,进一步提高了变换器的电压增益,避免了高占空比,减小了开关管电压应力。因此,可选取低电压等级低导通电阻MOSFET以降低变换器的成本,提高变换器的效率。在开关管关断期间,漏感能量向负载传递,有效利用了漏感能量,且无需额外的吸收电路。此外,变换器实现了开关管的零电压(ZVS)导通和二极管的零电流(ZCS)关断,进而消除了开关管的开通损耗和二极管的反向恢复损耗。研究了高升压增益软开关DC-DC变换器电路的工作特性和占空比丢失的主要原因,分析了该变换器的元器件应力及电路损耗。设计了一台160W的实验样机,实验结果验证了理论分析的正确性。 相似文献
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Veerachary Mummadi Bala Sudhakar Singamaneni 《IEEJ Transactions on Electrical and Electronic Engineering》2009,4(6):763-770
Stability analysis of the cascaded dc-dc power electronic system is analyzed in this paper. For demonstration boost converter supplying, the hybrid switched capacitor converter considered as an example. The boost converter is acting as the bus converter, 42 V bus, while the switched capacitor converter is serving as the point of load converter. The two converters are provided with voltage-mode and peak current-mode controllers, respectively. Converter state-space, two-port network models are developed and then stability of the cascaded system has been analyzed. Cascaded system interaction effects, (i) source converter power handling capability with switching load and (ii) load converter interfacing capability with bus converter, are analyzed. Simulation and experimental results are provided for verification purpose. Copyright © 2009 Institute of Electrical Engineers of Japan. Published by John Wiley & Sons, Inc. 相似文献
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Takaharu Takeshita Yuji Hayashi Nobuyuki Matsui Hideki Fujita 《Electrical Engineering in Japan》2001,136(3):39-48
This paper presents a method of amplitude control and unbalance compensation of the load voltage using a series–shunt power converter. The series power converter works to obtain a constant balanced sinusoidal load voltage. The shunt converter regulates the DC link voltage and compensates for the reactive current of the source within the rated current of the converter. To design the required capacity for the series–shunt power converter, the relation between the converter capacity and the load power factor at constant compensation voltage is introduced. The required capacity of the series–shunt power converter is reduced by more than 50% compared with that of a conventional series power converter. The effectiveness of the proposed load voltage compensation technique using the series–shunt power converter is verified by experiments. © 2001 Scripta Technica, Electr Eng Jpn, 136(3): 39–48, 2001 相似文献
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KAZUMA SUZUKI JUNPEI ISOZAKI WATARU KITAGAWA TAKAHARU TAKESHITA 《Electrical Engineering in Japan》2017,200(3):33-43
This paper presents a high‐frequency isolated ac/dc converter using the soft switching technique. The ac/dc converter consists of a matrix converter for transforming three‐phase ac voltage to high‐frequency ac voltage, a high‐frequency transformer, and an ac/dc rectifier. In order to reduce the switching loss, soft switching at every commutation of the matrix converter and ac/dc converter is achieved. The effectiveness of the proposed converter and the control scheme was verified by experiments. 相似文献
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提出了一种输入并联输出串联(IPOS)DC-DC变换器,该变换器基于输出电容滤波型单相全桥LCC变换器。不同于传统IPOS变换器,该变换器将后级全桥整流电路交错连接,以克服模块间参数差异对模块间输出均压特性的影响。对所提出的变换器的工作原理、工作模式及均压特性进行了详细的分析。试制了实验样机,对比测试了传统变换器与新型变换器模块间参数差异对均压特性的影响,并进一步测试了输入电压突变和负载突变情况下新型变换器的均压特性。实验结果表明,新型变换器在稳态和暂态情况下都具有很好的均压特性,无需额外均压控制。 相似文献