Mechanism Analysis on Radio Frequency Radiation in IC/Package with Bonding Wires

2020 IEEE International Symposium on Electromagnetic Compatibility & Signal/Power Integrity (EMCSI) Pub Date : 2020-07-01 DOI:10.1109/emcsi38923.2020.9191486

Muqi Ouyang, Yin Sun, Jongjoo Lee, Jingook Kim, C. Hwang

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引用次数: 2

Abstract

IC/package radiation from a self-designed inverter chip bonded to a PCB was measured, and the radiation mechanism was investigated. Digital signals from ICs can have wide-spread frequency spectrums, and radiated signals in the radio frequency range can be picked up by other radio receivers, which causes radio-frequency interference problems. First, an equivalent radiation source for an inverter chip bonded to a PCB is reconstructed based on near-field patterns measured above the chip. The validity of the reconstructed source is proved by comparing the coupled voltage measured on a victim antenna and the voltage calculated based on the reconstructed radiation source. Then, the radiation mechanism is investigated by analyzing the equivalent radiation source as well as the signal and return current paths in full-wave simulations. Then, the critical current paths responsible for the radiation are identified. Finally, a simplified model is proposed to calculate the equivalent radiation source, with which the errors between the simplified model and full-wave simulation results were found to be within 5%.

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带键合线的IC/封装射频辐射机理分析

测量了自行设计的逆变器芯片与PCB结合产生的IC/封装辐射，并对辐射机理进行了研究。来自集成电路的数字信号可以具有广泛的频谱，并且在无线电频率范围内的辐射信号可以被其他无线电接收器拾取，这导致无线电频率干扰问题。首先，基于芯片上方测量的近场模式重构了与PCB结合的逆变器芯片的等效辐射源。通过比较在受害天线上测量的耦合电压和基于重构辐射源计算的电压，证明了重构辐射源的有效性。然后，通过分析等效辐射源以及全波仿真中的信号路径和回流路径，对辐射机理进行了研究。然后，确定了产生辐射的关键电流路径。最后，提出了计算等效辐射源的简化模型，简化模型与全波模拟结果的误差在5%以内。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

2020 IEEE International Symposium on Electromagnetic Compatibility & Signal/Power Integrity (EMCSI)

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