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作 者:付扬[1] 宋磊[2] FU Yang;SONG Lei(School of Computer and Information Engineering,Beijing Technology and Business University,Beijing 100048,China;Mining Products Safety Approval and Certification Center Co.,Ltd.,Beijing 100013,China)
机构地区:[1]北京工商大学计算机与信息工程学院,北京100048 [2]安标国家矿用产品安全标志中心,北京100013
出 处:《测控技术》2018年第9期84-87,共4页Measurement & Control Technology
基 金:北京市自然科学基金项目(4122020);北京高等学校教育教学改革立项项目(2015-ms146)
摘 要:为了提高电能的利用率,减小输电线路的损耗,提高功率因数有着重要意义。研究将Multisim仿真技术应用于功率因数提高中,在保证感性负载额定工作状态不变的原则下,采用并联电容器的方法以实现整个线路的功率因数提高。仿真电路测试在并联不同电容时的功率因数和线路电流,并将其仿真研究应用于实际电路。仿真和实验表明,Multisim仿真在电路设计中优势凸显,它非常直观地显示出并联电容器对线路电流和功率因数的影响,对实际电路功率因数提高的设计实施起着指导作用。感性负载并联电容提高功率因数的方法方便有效。In order to improve the utilization of power and decrease the loss of transmission lines, it is of gloat significance to improve the power factor. The Multisim simulation technology was applied to the power factor improvement. In the principle of ensuring that the inductive load rated working condition is constant, the power factor of the whole line was improved by the parallel capacitor. The power factor and circuit current of the test circuit were simulated in parallel different capacitors and the simulation research was applied to the actual circuit. The practice shows that Multisim simulation has advantages in circuit design. It shows the effect of parallel capacitance on line current and power factor intuitively. It also plays a guiding role in the design and implementation of the power factor of the actual circuit. The method of increasing the power factor of the inductive load is convenient and effective by the parallel capacitance.
关 键 词:功率因数 MULTISIM仿真 并联电容 感性负载
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