Reducing Conducted Emissions at the Output of Full-Bridge DCDC Converters with High Voltage Steps

Reducing Conducted Emissions at the Output of Full-Bridge DCDC Converters with High Voltage Steps

In this work, we analyze the impact of output filter design techniques aimed to reduce conducted emissions at the output of a DCDC power converter. A thorough analysis, based on high-frequency circuit models of the converter, is performed to assess expected improvements offered by different design s...

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Veröffentlicht in:Electronics (Basel) 2021-06, Vol.10 (12), p.1373, Article 1373
Hauptverfasser: Gonzalez-Vizuete, Pablo, Bernal-Mendez, Joaquin, Martin-Prats, Maria A.
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Sprache:eng
Schlagworte:
Aeronautics
Bonding
Chassis
Circuits
Compliance
Computer Science
Computer Science, Information Systems
Engineering
Engineering, Electrical & Electronic
Filter design (mathematics)
High frequencies
High voltages
Impact analysis
Inductance
Load
Low voltage
Parasitics (electronics)
Physical Sciences
Physics
Physics, Applied
Power converters
Radio frequency
Science & Technology
Symmetry
Technology
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creator Gonzalez-Vizuete, Pablo
Bernal-Mendez, Joaquin
Martin-Prats, Maria A.
description In this work, we analyze the impact of output filter design techniques aimed to reduce conducted emissions at the output of a DCDC power converter. A thorough analysis, based on high-frequency circuit models of the converter, is performed to assess expected improvements offered by different design strategies. This analysis is then confronted with measurements of conducted emissions at the output of a 300 W 48 V to 12 V Phase Shift Full Bridge (PSFB) prototype. Those experimental results demonstrate that a symmetric arrangement of the output LC filter and a direct bonding of the return output terminal of the converter to chassis are effective to reduce common mode conducted emissions at the output. Those results also demonstrate that the symmetry of the output LC filter can reduce conducted emissions in differential mode at high frequencies, where common mode to differential mode conversion is the predominant contribution to differential mode noise. However, direct bonding to chassis of the return output terminal may be ineffective at high frequencies due to the parasitic inductance associated with this connection. Main conclusions drawn for this analysis are applicable in general for isolated converters with a high voltage step between high and low voltage sides. Since the techniques of reduction of conducted emissions studied here do not increase the number of filter components, they are especially suitable for applications where high power density is an important requirement, e.g., aerospace or automotive applications.
doi_str_mv 10.3390/electronics10121373
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Main conclusions drawn for this analysis are applicable in general for isolated converters with a high voltage step between high and low voltage sides. 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subjects Aeronautics
Bonding
Chassis
Circuits
Compliance
Computer Science
Computer Science, Information Systems
Engineering
Engineering, Electrical & Electronic
Filter design (mathematics)
High frequencies
High voltages
Impact analysis
Inductance
Load
Low voltage
Parasitics (electronics)
Physical Sciences
Physics
Physics, Applied
Power converters
Radio frequency
Science & Technology
Symmetry
Technology
title Reducing Conducted Emissions at the Output of Full-Bridge DCDC Converters with High Voltage Steps
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