基于瞬时无功功率理论的并联型两电平有源电力滤波器仿真计算与实现:谐波抑制、无功补偿与电网电压条件下的高效稳定运行,基于瞬时无功功率理论的并联型两电平有源电力滤波器仿真计算与实现:谐波抑制、无功补偿及电

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ZIP 两电平有源电力滤波器仿 大约有13个文件
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基于瞬时无功功率理论的并联型两电平有源电力滤波器仿真计算与实现:谐波抑制、无功补偿与电网电压条件下的高效稳定运行,基于瞬时无功功率理论的并联型两电平有源电力滤波器仿真计算与实现:谐波抑制、无功补偿及电网电流优化(同学定制),运行条件为电网电压22kV。,两电平有源电力滤波器仿真+计算+不低于2小时(同学定制) 01) 并联型+APF有源电力滤波器 02)谐波检测采用基于瞬时无功功率理论的dp变检测方法; 03)采用电压外环+电流内环双闭环控制; 04) 电压外环:APF直流侧电压采用PI控制,稳定性好(若稳定性较差,会影响补偿效果); 05) 电流内环:APF电流调节采用滞环控制; 06) 可实现谐波抑制和无功补偿功能; 07) APF补偿后,电网电流THD小于5%; 08) 仿真模型主要涉及三相交流电压模块、非线性负载、信号采集模块、示波器模块、LC滤波器模块、谐波检测模块、控制模块、通用桥模块、低通滤波器模块、坐标转模块、锁相环模块等。 9) 各个模块分类明确,理解容易。 运行条件:电网电压 220V,频率50hz。 运行效果:APF投入前,电网电流THD为12.96%;APF投入
<link href="/image.php?url=https://csdnimg.cn/release/download_crawler_static/css/base.min.css" rel="stylesheet"/><link href="/image.php?url=https://csdnimg.cn/release/download_crawler_static/css/fancy.min.css" rel="stylesheet"/><link href="/image.php?url=https://csdnimg.cn/release/download_crawler_static/90403598/2/raw.css" rel="stylesheet"/><div id="sidebar" style="display: none"><div id="outline"></div></div><div class="pf w0 h0" data-page-no="1" id="pf1"><div class="pc pc1 w0 h0"><img alt="" class="bi x0 y0 w1 h1" src="/image.php?url=https://csdnimg.cn/release/download_crawler_static/90403598/bg1.jpg"/><div class="t m0 x1 h2 y1 ff1 fs0 fc0 sc0 ls0 ws0">标题<span class="ff2">:</span>两电平有源电力滤波器的仿真和计算分析</div><div class="t m0 x1 h2 y2 ff1 fs0 fc0 sc0 ls0 ws0">摘要<span class="ff2">:</span>本文围绕两电平有源电力滤波器展开仿真和计算分析<span class="ff2">,</span>探讨了并联型<span class="ff3">+APF<span class="_ _0"> </span></span>有源电力滤波器的</div><div class="t m0 x1 h2 y3 ff1 fs0 fc0 sc0 ls0 ws0">设计原理和实现功能<span class="ff4">。</span>首先介绍了基于瞬时无功功率理论的<span class="_ _1"> </span><span class="ff3">dp<span class="_ _0"> </span></span>变换检测方法<span class="ff2">,</span>并对其在谐波检测中</div><div class="t m0 x1 h2 y4 ff1 fs0 fc0 sc0 ls0 ws0">的应用进行了详细说明<span class="ff4">。</span>然后<span class="ff2">,</span>阐述了电压外环和电流内环双闭环控制策略<span class="ff2">,</span>其中电压外环采用了<span class="_ _1"> </span><span class="ff3">PI</span></div><div class="t m0 x1 h2 y5 ff1 fs0 fc0 sc0 ls0 ws0">控制算法<span class="ff2">,</span>以保证稳定性和补偿效果<span class="ff4">。</span>电流内环则采用了滞环控制算法<span class="ff4">。</span>此外<span class="ff2">,</span>还介绍了该电力滤波</div><div class="t m0 x1 h2 y6 ff1 fs0 fc0 sc0 ls0 ws0">器的谐波抑制和无功补偿功能<span class="ff2">,</span>并分析了<span class="_ _1"> </span><span class="ff3">APF<span class="_ _0"> </span></span>补偿后的电网电流总谐波畸变率<span class="ff2">(<span class="ff3">THD</span>)<span class="ff4">。</span></span>最后<span class="ff2">,</span>详细</div><div class="t m0 x1 h2 y7 ff1 fs0 fc0 sc0 ls0 ws0">描述了仿真模型的各个模块<span class="ff2">,</span>包括三相交流电压模块<span class="ff4">、</span>非线性负载<span class="ff4">、</span>信号采集模块等<span class="ff2">,</span>并对运行条件</div><div class="t m0 x1 h2 y8 ff1 fs0 fc0 sc0 ls0 ws0">和运行效果进行了说明<span class="ff4">。</span></div><div class="t m0 x1 h2 y9 ff1 fs0 fc0 sc0 ls0 ws0">关键词<span class="ff2">:</span>两电平有源电力滤波器<span class="ff2">;</span>并联型<span class="ff3">+APF<span class="ff2">;</span></span>瞬时无功功率理论<span class="ff2">;<span class="ff3">dp<span class="_ _0"> </span></span></span>变换<span class="ff2">;</span>谐波检测<span class="ff2">;</span>双闭环控</div><div class="t m0 x1 h2 ya ff1 fs0 fc0 sc0 ls0 ws0">制<span class="ff2">;</span>稳定性<span class="ff2">;</span>补偿效果<span class="ff2">;</span>谐波抑制<span class="ff2">;</span>无功补偿<span class="ff2">;</span>总谐波畸变率<span class="ff2">(<span class="ff3">THD</span>);</span>仿真模型</div><div class="t m0 x1 h2 yb ff3 fs0 fc0 sc0 ls0 ws0">1.<span class="_ _2"> </span><span class="ff1">引言</span></div><div class="t m0 x2 h2 yc ff1 fs0 fc0 sc0 ls0 ws0">随着电网负荷的增加和非线性负载的普及<span class="ff2">,</span>电力系统中的谐波问题越来越突出<span class="ff4">。</span>为了改善电力系</div><div class="t m0 x1 h2 yd ff1 fs0 fc0 sc0 ls0 ws0">统的谐波污染问题<span class="ff2">,</span>有源电力滤波器<span class="ff2">(<span class="ff3">APF</span>)</span>成为了一种常用的解决方案<span class="ff4">。</span>本文将重点讨论两电平有</div><div class="t m0 x1 h2 ye ff1 fs0 fc0 sc0 ls0 ws0">源电力滤波器<span class="ff2">,</span>并通过仿真和计算分析探讨其性能和效果<span class="ff4">。</span></div><div class="t m0 x1 h2 yf ff3 fs0 fc0 sc0 ls0 ws0">2.<span class="_ _2"> </span><span class="ff1">有源电力滤波器的设计原理</span></div><div class="t m0 x2 h2 y10 ff3 fs0 fc0 sc0 ls0 ws0">2.1.<span class="_"> </span><span class="ff1">基于瞬时无功功率理论的<span class="_ _1"> </span></span>dp<span class="_ _0"> </span><span class="ff1">变换检测方法</span></div><div class="t m0 x2 h2 y11 ff3 fs0 fc0 sc0 ls0 ws0">2.2.<span class="_"> </span><span class="ff1">电压外环和电流内环双闭环控制策略</span></div><div class="t m0 x2 h2 y12 ff3 fs0 fc0 sc0 ls0 ws0">2.3.<span class="_"> </span><span class="ff1">谐波抑制和无功补偿功能</span></div><div class="t m0 x1 h2 y13 ff3 fs0 fc0 sc0 ls0 ws0">3.<span class="_ _2"> </span><span class="ff1">仿真模型的构建</span></div><div class="t m0 x2 h2 y14 ff3 fs0 fc0 sc0 ls0 ws0">3.1.<span class="_"> </span><span class="ff1">三相交流电压模块</span></div><div class="t m0 x2 h2 y15 ff3 fs0 fc0 sc0 ls0 ws0">3.2.<span class="_"> </span><span class="ff1">非线性负载模块</span></div><div class="t m0 x2 h2 y16 ff3 fs0 fc0 sc0 ls0 ws0">3.3.<span class="_"> </span><span class="ff1">信号采集模块</span></div><div class="t m0 x2 h2 y17 ff3 fs0 fc0 sc0 ls0 ws0">3.4.<span class="_"> </span>LC<span class="_ _0"> </span><span class="ff1">滤波器模块</span></div><div class="t m0 x2 h2 y18 ff3 fs0 fc0 sc0 ls0 ws0">3.5.<span class="_"> </span><span class="ff1">谐波检测模块</span></div><div class="t m0 x2 h2 y19 ff3 fs0 fc0 sc0 ls0 ws0">3.6.<span class="_"> </span><span class="ff1">控制模块</span></div><div class="t m0 x2 h2 y1a ff3 fs0 fc0 sc0 ls0 ws0">3.7.<span class="_"> </span><span class="ff1">通用桥模块</span></div><div class="t m0 x2 h2 y1b ff3 fs0 fc0 sc0 ls0 ws0">3.8.<span class="_"> </span><span class="ff1">低通滤波器模块</span></div><div class="t m0 x2 h2 y1c ff3 fs0 fc0 sc0 ls0 ws0">3.9.<span class="_"> </span><span class="ff1">坐标转换模块</span></div><div class="t m0 x2 h2 y1d ff3 fs0 fc0 sc0 ls0 ws0">3.10.<span class="_"> </span><span class="ff1">锁相环模块</span></div><div class="t m0 x1 h2 y1e ff3 fs0 fc0 sc0 ls0 ws0">4.<span class="_ _2"> </span><span class="ff1">运行条件和运行效果分析</span></div><div class="t m0 x2 h2 y1f ff3 fs0 fc0 sc0 ls0 ws0">4.1.<span class="_"> </span><span class="ff1">运行条件</span></div></div><div class="pi" data-data='{"ctm":[1.568627,0.000000,0.000000,1.568627,0.000000,0.000000]}'></div></div>
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