Degradation of the Conducted Radio Frequency Immunity of Microcontrollers Due to Electromagnetic Resonances in Foot-Point Loops

Su T.; Unger M.; Steinecke T.; Weigel R.

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Degradation of the Conducted Radio Frequency Immunity of Microcontrollers Due to Electromagnetic Resonances in Foot-Point Loops

机译：脚点回路中的电磁谐振会降低微控制器的传导射频抗扰度

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The response of the microcontrollers to conducted radio frequency interference depends strongly on the frequency of the interference signals. As a symbol of the strong frequency dependence, dips appear on the immunity–frequency curve of the microcontrollers. This paper discovers that some of the immunity dips are due to resonances in the current loops through the input and output pins of the oscillator amplifier. Those dips are called foot-point immunity dips. With theoretical analysis, measurements, simulations, and optimizations, this paper gives a systematic description and treatment on the foot-point immunity dips.

机译：微控制器对传导的射频干扰的响应在很大程度上取决于干扰信号的频率。作为强烈的频率依赖性的象征，微控制器的抗扰度-频率曲线上出现了下降。本文发现某些抗扰性下降是由于通过振荡器放大器的输入和输出引脚的电流环路中的谐振引起的。这些下降称为脚点免疫下降。通过理论分析，测量，仿真和优化，本文对脚点免疫力下降进行了系统的描述和处理。

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来源
《Electromagnetic Compatibility, IEEE Transactions on》 |2012年第4期|p.772-784|共13页
作者
Su T.; Unger M.; Steinecke T.; Weigel R.;
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作者单位

School of Physics and Engineering , Sun Yat-sen University, Guangzhou, China;

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原文格式 PDF
正文语种 eng
中图分类
关键词
Electromagnetic compatibility; electromagnetic interference (EMI); integrated circuits (ICs); microcontrollers; oscillators;

机译：电磁兼容性;电磁干扰（EMI）;集成电路（IC）;微控制器;振荡器;

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专利

1. Using Error-Source Switching (ESS) Concept to Analyze the Conducted Radio Frequency Electromagnetic Immunity of Microcontrollers [J] . Su T. Electromagnetic Compatibility, IEEE Transactions on . 2012,第3期

机译：使用误差源切换（ESS）概念分析微控制器的传导射频电磁抗扰度
2. Characterisation of system clock frequency effects on electromagnetic immunity of microcontroller input buffer [J] . Liu Tong, Zhou Changlin, Wang Zhenyi, Electronics Letters . 2015,第23期

机译：表征系统时钟频率对微控制器输入缓冲器的电磁抗扰度的影响
3. Dependence of electromagnetic immunity of microcontrollers on system clock frequency [J] . Su T., Wang Z., Unger M., Electronics Letters . 2012,第6期

机译：微控制器的电磁抗扰度与系统时钟频率的关系
4. Frequency Behavior of the Microcontroller Immunity Against the Conducted Radio Frequency Disturbance on Supply Pins [C] . Zixin Wang, Yehua Yang, Tao Su International conference on electrical and electronics engineering . 2014

机译：针对电源引脚上的传导射频干扰的微控制器抗干扰的频率特性
5. Design of radio frequency coils for magnetic resonance imaging applications: A computational electromagnetic approach. [D] . Ibrahim, Tamer Selim. 2003

机译：用于磁共振成像应用的射频线圈设计：一种计算电磁方法。
6. Electromagnetic Field and Radio Frequency Circuit Co-Simulation for Magnetic Resonance Imaging Dual-Tuned Radio Frequency Coils [O] . Nan Li, Shengping Liu, Xiaoqing Hu, -1

机译：磁共振成像双调谐射频线圈的电磁场和射频电路协同仿真
7. Electromagnetic Field and Radio Frequency Circuit Co-Simulation for Magnetic Resonance Imaging Dual-Tuned Radio Frequency Coils [O] . Nan Li, Shengping Liu, Xiaoqing Hu, 2018

机译：电磁场和射频电路用于磁共振成像双调射频线圈的共模
8. Radio Frequency-Based Microcontroller Anomaly Detection. [R] . Wylie, J. P. 2016

机译：基于射频的微控制器异常检测。

Degradation of the Conducted Radio Frequency Immunity of Microcontrollers Due to Electromagnetic Resonances in Foot-Point Loops

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