武吉金巴兰乌达亚那大学工程学院的有源滤波器与PID控制阻尼谐波失真

Journal of Electrical Electronics and Informatics Pub Date : 2018-12-18 DOI:10.24843/JEEI.2018.V02.I02.P02

I. M. Suartika, R. S. Hartati, Ida B. G. Manuaba

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引用次数: 0

摘要

电力系统中总谐波失真(THD)增加，这是由于非线性负荷的增加造成的。大的THDi电流会影响电力系统功率损耗的增加。本研究根据IEEE 519-2014标准对现有工况、并联有源滤波器运行工况和并联有源滤波器运行工况进行了THD分析，并结合PID(比例积分导数)控制对仿真结果进行了分析，分析了谐波冲击前后的损耗。现有条件下损耗分析结果:R相损耗3.38%，S相损耗2.29%，T相损耗3.33%。现有条件总损失9.01%。采用有源并联滤波器时，R相损耗为1.60%，S相为2.46%，T相为1.67%，总损耗为5.73%。而采用带PID控制的有源滤波器，相位R为1.02%，相位S为0.89%，相位T为0.99%，因此总损耗降至2.18%

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Damping Harmonic Distortion Using Active Filter with PID Control at Udayana University Faculty of Engineering Bukit Jimbaran

Increased THD (Total Harmonics Distortion) in the utility, caused by the increasing operation of non-linear loads. High THD current (THDi) will affect the increase of power losses in the power system. In this study, THD analysis of the simulation results was performed according to IEEE 519-2014 standard on existing condition, shunt active filter operating condition and shunt active filter operating conditions with PID (proportional integral derivative) control, also analyzed losses before and after harmonic impact. The result of losses analysis on existing condition: losses phases R 3.38%, phase S 2.29%, phase T 3.33%. Total losses on existing condition 9.01%. Operation with active shunt filter is obtained losses for phase R 1.60%, phase S 2.46%, phase T 1.67%, so the total losses become 5.73%. While using the active filter with PID control for losses phase R 1.02%, phases S 0.89%, phases T 0.99%, so the total losses fell to 2.18%

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