对抗电磁脉冲的有害影响

IF 1.9 Q3 ENGINEERING, ELECTRICAL & ELECTRONIC Frontiers in electronics Pub Date : 2021-08-13 DOI:10.3389/felec.2021.727994
Timothy Sands
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摘要

机器人系统,如自动运输摆动机器人、线传感器,甚至计算机本地时间传感器(以及其他),经常使用振荡电路,如著名的范德波尔系统,而本文研究了这种传感器电路对电磁脉冲伴随的杂散电压尖峰的保护。这些杂散电压会导致机器人运动失控,甚至衰弱。对电磁脉冲的非常简短的讨论产生了用于评估电路对现实干扰脉冲的响应的设计参数。描述了最近对保护电路的非线性自适应方法的研究,以强调所提出的新颖性:利用反馈规则作为自适应机制来修改其他非线性前馈系统,改进了最近文献中的结果。迭代反馈以选择自适应参数,该自适应参数除了自适应中固有的有效参数识别之外,还同时产生有利的电路性能(为未指定的未来应用提供有意义的参数估计)。杂散电压仅以0.3%的轨迹偏差被快速抑制,以0.01%的最终(稳态)偏差快速稳定。将所证明的抑制有害杂散效应的能力与各种计算机系统的定时精度的标称优值进行比较,得出结论,所提出的方法在某些应用中是有效的,但对其他人来说是不够的。
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Countering the Deleterious Effects of Electromagnetic Pulse
Robot systems like automated shipping swinging robots, wire transducer sensors and even computer indigenous time sensors (amongst others) often use oscillating circuits such as the famous van der Pol system, while this manuscript investigates protection of such sensor circuitry to spurious voltage spikes accompanying an electromagnetic pulse. These spurious voltages can lead to uncontrolled robot motion and even debilitation. A very brief discussion of electromagnetic pulses yields design parameters to evaluate circuit responses to realistic disturbing pulses. Recent research in nonlinear-adaptive methods to protect circuits are described to highlight the proposed novelty: utilization of feedback rules as adaptive mechanisms to modify the otherwise nonlinear feedforwards systems improving the results in recent literature. Feedback is iterated to select adaption parameters that simultaneously produce favorable circuit performance in addition to effective parameter identification inherent in the adaption (to provide meaningful parameter estimates to unspecified future applications). Spurious voltages were rapidly rejected with a mere 0.3% trajectory deviation, stabilizing quickly with a final (steady state) deviation of 0.01%. The demonstrated abilities to reject the deleterious spurious effects are compared to nominal figures of merit for timing accuracy of various computer systems to conclude the proposed methods are effective for some applications, but insufficient for others.
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