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Noncontact Time-Varying Current Reconstruction for Electromagnetic Immunity Diagnosis in Electric Vehicle Module Injection Port Testing

Abstract

Traditional noncontact probes fail to meet the time-domain reconstruction requirements for relevant low-frequency signals especially on printed circuit boards (PCBs). In this article, a compact multiloop probe with an accurate simulation model is proposed as an optimized diagnostic tool for electromagnetic immunity tests on electric vehicle modules. The probe with the simulated response coefficient from 1 Hz to 1 GHz can replace traditional current clamp probes for use on PCBs. A validation test, based on a double-exponential waveform with a complex frequency-domain distribution, shows that the reconstructed time-domain current using the simulated response coefficient covering lower frequency band from 1 Hz to 1 MHz is more consistent with the directly measured current with the curve error of 1.522% than that by the measured response coefficient with the curve error of 6.074%. In two real immunity tests of electric vehicle modules, the reconstructed current curves are almost identical to the directly measured current curves by an oscilloscope and a commercial clamp probe with the curve error of 1.007% and 2.444%, respectively. It proves the proposed probe with the simulated response coefficient is a suitable tool for electromagnetic immunity diagnosis at the injection port of electric vehicle modules and is potential to be utilized on the PCBs inside the modules.

article Article

date_range 2025

language English

link Link of the paper

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Luo Chengyang

Ding Rui

Fang Wenxiao

Shao Weiheng

Li Jianke

Wang Lei

Chen Yiqiang

Fernandez-Garcia Raul

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Featured Keywords

Probes

Testing

Couplings

Current measurement

Electromagnetics

Electric vehicles

Copper

Conducted emission testing

industrial immunity diagnosis

multiloop probe

noncontact current detection

phase

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Assessment of reinforced concrete building damages following the Kahramanmaraş earthquakes in Malatya, Turkey (February 6, 2023)

Abstract

Earthquakes of magnitude Mw = 7.7 and Mw = 7.6 hit the city of Kahramanmaraş (Turkey) on 6 February 2023. These earthquakes caused serious damage in 11 provinces in Turkey resulting in over 50,000 deaths and huge economic losses with the collapse of thousands of buildings. Two consecutive devastating earthquakes have severely damaged the reinforced concrete building stock located in Malatya. There are many reasons reinforced concrete structures suffer damage under the influence of seismic loads. These reasons can be listed as material and section properties that do not comply with earthquake codes, workmanship defects, ground parameters that are not considered and design errors, as seen in field investigations after earthquakes in Turkey in the past. In this research, a field study was conducted on reinforced concrete buildings damaged after the earthquakes in Malatya province. The causes of structural damages in reinforced concrete buildings between 6–26 years of age were assessed in terms of design and material defects. The structural damages were mainly caused due to insufficient stirrups in structural members, short column, strong beam–weak column, failures of infill walls, soft story type collapse, poor concrete quality, and reinforcement corrosion. In addition to the field investigation, the spectrum relationships created using raw acceleration data obtained from DEMP (Disaster and Emergency Management Presidency) stations in Malatya province were compared with the design response spectra.

article Article

date_range 2024

language English

link Link of the paper

Collapsed buildings

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