Open AccessJournal Article
Modeling and Mitigation on Conducted Emission for Switch Mode Power Supply
TLDR
In this paper, the voltage division factor, isolation factor and impedance under SMPS side of artificial mains network have been studied based on high frequency parasitic parameters to analyze the conducted emission (CE) measurement uncertainty.Abstract:
The switch mode power supply (SMPS) have been widely used in the electrical and electronics systems for AC-DC and DC-DC power conversion, which can generate a lot of electromagnetic interference (EMI), especially conducted emission (CE) from 9kHz to 30MHz. The traditional CE models and mechanisms have been present for three line systems, including live, neutral and ground lines, while a novel CE models and mechanisms have been proposed in the paper for two line SMPS. And the voltage division factor, isolation factor and impedance under SMPS side of artificial mains network have been studied based on high frequency parasitic parameters to analyze the CE measurement uncertainty. Moreover, three methods have been designed to reduce the CE of SMPS, such as the capacitor shunt between the source and drain electrodes of MOSFET, CM choke and crosstalk choke, and the capacitors matrix. The experiment results show that the CE of the power concentrator and colonoscopy can be suppressed well and pass EN 55022 class B, thus realize the proposed approaches good validation.read more
Citations
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Minimizing core supply noise in a power delivery network by optimization of decoupling capacitors using simulated annealing
TL;DR: In this paper, an optimal decoupling network is designed by Simulated Annealing to reduce the power supply noise in power delivery networks, which reduces the cumulative impedance of power delivery network.
Investigation and Reduction on Conducted Electromagnetic Interference Noise Mechanism for Complex Power Electronics Systems
TL;DR: In this paper, three theoretical models and their equivalent circuits were proposed by utilizing the electric dipole model, the circuit analysis method and the scattering parameter method, including cross talk mechanism, not-well grounding mechanism and PCB cable impedance mismatch mechanism.
References
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Journal ArticleDOI
Separation of the common-mode- and differential-mode-conducted EMI noise
TL;DR: In this paper, a device is developed to decipher common-mode and differential-mode noise from a conducted EMI noise measurement, which is a useful tool for power supply circuit noise diagnosis and line filter design.
Journal ArticleDOI
A Modified LLCL Filter With the Reduced Conducted EMI Noise
TL;DR: In this article, a modified LLCL-filter topology is proposed to provide enough attenuation on the conducted electromagnetic interference (EMI) noise as well as to reduce the dc-side leakage current.
Journal ArticleDOI
Conducted Common-Mode EMI Reduction by Impedance Balancing
TL;DR: In this article, a star-connected three-phase RC circuit is placed at the output of the inverter to extract the common-mode (CM) electromagnetic interference (EMI) emission at the dc input of variable-speed motor drives.
Journal ArticleDOI
DC-DC Buck Converter EMI Reduction Using PCB Layout Modification
TL;DR: In this article, an optimized layout design for dc-dc synchronous buck converter is proposed for EMI reduction, and six different layout versions are analyzed with respect to loop area, loop inductance, radiating dipole moments, and far-field radiation.
Journal ArticleDOI
Network for conducted EMI diagnosis
TL;DR: A novel network is developed for conducted electromagnetic interference (EMI) diagnosis using the network together with the line impedance stabilisation network (LISN), common mode (CM) and differential mode (DM) conducted EMI are discriminated from each other.
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