基于压降型pwm开关电源的建模、仿真和减少传导性电磁干扰-----开关电源外文翻译.doc
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基于压降型pwm开关电源的建模、仿真和减少传导性电磁干扰-----开关电源外文翻译,摘要:电子设备之中杂乱的辐射或者能量叫做电磁干扰(emi)。尤其是在开关电源中的电力电子转换器经常高速切换时,虽然提高了工作效率,却导致转换器产生了电磁干扰。在这篇论文之中介绍了各种各样的传导干扰,电磁干扰规章以及传导性电磁干扰的测量。如果电子设备的电磁干扰符合国家或者国际规章称为电磁兼容性(emc)。电力电子系统生产...
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摘要:电子设备之中杂乱的辐射或者能量叫做电磁干扰(EMI)。尤其是在开关电源中的电力电子转换器经常高速切换时,虽然提高了工作效率,却导致转换器产生了电磁干扰。在这篇论文之中介绍了各种各样的传导干扰,电磁干扰规章以及传导性电磁干扰的测量。如果电子设备的电磁干扰符合国家或者国际规章称为电磁兼容性(EMC)。电力电子系统生产商一定要重视电子设备的电磁兼容性。电磁兼容性评估的第一步就是建模和仿真。在这篇论文中提出了基于压降型脉宽调制开关电源的电磁干扰仿真结果。为了提高电子设备的电磁兼容性,在论文中介绍了一些技术,并且通过仿真提高了电子设备的工作效率。
关键字:传导,电磁兼容性,电磁干扰,线路阻抗稳定网络,开关电源
一.前言
在电力电子领域中,快速半导体的出现使高速度,高频率的开关切换成为了可能[1]。高速的开关造成设备的重量和体积的减少,但与此同时这也造成了一些不利的影响,比如无线频率的干扰[2]。生产商将生产的产品投放到市场,遵守电磁兼容性规章是必要的。在设计阶段考虑电磁兼容性问题是非常重要的[3]。在开发产品前,建模和仿真是分析电磁兼容性最有效的工具。许多以前的研究都有涉及到电力电子元件的低频分析[4~5]。不同类型的电力电子转换器都能够被用来当做电磁的干扰源。电磁干扰源可以通过辐射和传导两种方式来传播。线路阻抗稳定网络被用来测量和计算电磁干扰影响的程度[6]。线路阻抗稳定网络输出的干扰频谱被引为电磁兼容性的评估标准[7,~8]。国家或国际规章是电子设备电磁兼容性评估的一个参考的方面[7~8]。
二、来源,途径和电磁干扰的受害者
Abstract:Undesired generation of radiated or conducted energy in electrical systems is called Electromagnetic Interference (EMI). High speed switching frequency in power electronics converters especially in switching power supplies improves efficiency but leads to EMI. Different kind of conducted interference, EMI regulations and conducted EMI measurement are introduced in this paper. Compliancy with national or international regulation is called Electromagnetic Compatibility (EMC). Power electronic systems producers must regard EMC. Modeling and simulation is the first step of EMC eva luation. EMI simulation results due to a PWM Buck type switching power supply are presented in this paper. To improve EMC, some techniques are introduced and their effectiveness proved by simulation.
Index Terms:Conducted, EMC, EMI, LISN, Switching Supply
I. INTRODUCTION
FAST semiconductors make it possible to have high speed and high frequency switching in power electronics . High speed switching causes weight and volume reduction of equipment, but some unwanted effects such as radio frequency interference appeared . Compliance with electromagnetic compatibility (EMC) regulations is necessary for producers to present their products to the markets. It is
关键字:传导,电磁兼容性,电磁干扰,线路阻抗稳定网络,开关电源
一.前言
在电力电子领域中,快速半导体的出现使高速度,高频率的开关切换成为了可能[1]。高速的开关造成设备的重量和体积的减少,但与此同时这也造成了一些不利的影响,比如无线频率的干扰[2]。生产商将生产的产品投放到市场,遵守电磁兼容性规章是必要的。在设计阶段考虑电磁兼容性问题是非常重要的[3]。在开发产品前,建模和仿真是分析电磁兼容性最有效的工具。许多以前的研究都有涉及到电力电子元件的低频分析[4~5]。不同类型的电力电子转换器都能够被用来当做电磁的干扰源。电磁干扰源可以通过辐射和传导两种方式来传播。线路阻抗稳定网络被用来测量和计算电磁干扰影响的程度[6]。线路阻抗稳定网络输出的干扰频谱被引为电磁兼容性的评估标准[7,~8]。国家或国际规章是电子设备电磁兼容性评估的一个参考的方面[7~8]。
二、来源,途径和电磁干扰的受害者
Abstract:Undesired generation of radiated or conducted energy in electrical systems is called Electromagnetic Interference (EMI). High speed switching frequency in power electronics converters especially in switching power supplies improves efficiency but leads to EMI. Different kind of conducted interference, EMI regulations and conducted EMI measurement are introduced in this paper. Compliancy with national or international regulation is called Electromagnetic Compatibility (EMC). Power electronic systems producers must regard EMC. Modeling and simulation is the first step of EMC eva luation. EMI simulation results due to a PWM Buck type switching power supply are presented in this paper. To improve EMC, some techniques are introduced and their effectiveness proved by simulation.
Index Terms:Conducted, EMC, EMI, LISN, Switching Supply
I. INTRODUCTION
FAST semiconductors make it possible to have high speed and high frequency switching in power electronics . High speed switching causes weight and volume reduction of equipment, but some unwanted effects such as radio frequency interference appeared . Compliance with electromagnetic compatibility (EMC) regulations is necessary for producers to present their products to the markets. It is