Haixiao Weng scite author profile

Electromagnetic radiation from complex printed circuit boards can occur over a broad frequency bandwidth, ranging from hundreds of MHz to tens of GHz. This is becoming a critical issue for assessment of EMC and interoperability as electronic components become more and more integrated. We use emissions from an enclosure with a single-slot aperture and equipped with operating electronics to exemplify and model such sources. Spatial correlation functions obtained from two-probe measurements are used both to characterise the source and to propagate the emissions. We examine emissions in the sub-microwave frequency range, where evanescent decay dominates the measured correlation function at the distances measured. We find that an approximate, diffusion-like propagator describes the measured emissions well. A phase-space approach based on Wigner functions is exploited to develop this approximation and to provide enhanced understanding of the emissions.

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Approximation of Worst Case Crosstalk at High Frequencies

Dong

Weng

Beetner

et al. 2011

IEEE Trans. Electromagn. Compat.

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Estimation of High-Frequency Currents From Near-Field Scan Measurements

Weng

Beetner

DuBroff

et al. 2007

IEEE Trans. Electromagn. Compat.

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Detection and Identification of Vehicles Based on Their Unintended Electromagnetic Emissions

Dong

Weng

Beetner

et al. 2006

IEEE Trans. Electromagn. Compat.

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Frequency-Domain Probe Characterization and Compensation Using Reciprocity

Weng

Beetner

DuBroff

2011

IEEE Trans. Electromagn. Compat.

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Haixiao Weng

Prediction of Radiated Emissions Using Near-Field Measurements

Approximation of Worst Case Crosstalk at High Frequencies

Estimation of High-Frequency Currents From Near-Field Scan Measurements

Detection and Identification of Vehicles Based on Their Unintended Electromagnetic Emissions

Frequency-Domain Probe Characterization and Compensation Using Reciprocity

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