IRIS publication 73897518
An active ripple filtering technique for improving common-mode inductor performance
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TY - JOUR - P. Cantillon-Murphy, T.C. Neugebauer, C. Brasca and D. J. Perreault - 2005 - Unknown - IEEE Power Electronics Letters - An active ripple filtering technique for improving common-mode inductor performance - Published - () - 2 - 45 - 50 - Active ripple filtering is the replacement of large passive components in power filter circuits with smaller passive components and active control circuitry. This letter focuses on common-mode filters, where a large common-mode inductor (choke) is replaced by two smaller chokes and active op-amp control. The technique is appropriate when improved attenuation is required at relatively low frequencies and the high-frequency filtering requirements are easily met. Smaller chokes save significantly in material and winding costs. The technique is more advantageous if wire-wound chokes can be replaced by planar printed circuit board chokes. The use of the technique in an automotive electromagnetic interference (EMI) filter application is explored in detail. - http://ieeexplore.ieee.org/xpl/freeabs_all.jsp?arnumber=1324654 DA - 2005/NaN ER -
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@article{V73897518, = {P. Cantillon-Murphy, T.C. Neugebauer, C. Brasca and D. J. Perreault}, = {2005}, = {Unknown}, = {IEEE Power Electronics Letters}, = {An active ripple filtering technique for improving common-mode inductor performance}, = {Published}, = {()}, = {2}, pages = {45--50}, = {{Active ripple filtering is the replacement of large passive components in power filter circuits with smaller passive components and active control circuitry. This letter focuses on common-mode filters, where a large common-mode inductor (choke) is replaced by two smaller chokes and active op-amp control. The technique is appropriate when improved attenuation is required at relatively low frequencies and the high-frequency filtering requirements are easily met. Smaller chokes save significantly in material and winding costs. The technique is more advantageous if wire-wound chokes can be replaced by planar printed circuit board chokes. The use of the technique in an automotive electromagnetic interference (EMI) filter application is explored in detail.}}, = {http://ieeexplore.ieee.org/xpl/freeabs_all.jsp?arnumber=1324654}, source = {IRIS} }
Data as stored in IRIS
AUTHORS | P. Cantillon-Murphy, T.C. Neugebauer, C. Brasca and D. J. Perreault | ||
YEAR | 2005 | ||
MONTH | Unknown | ||
JOURNAL_CODE | IEEE Power Electronics Letters | ||
TITLE | An active ripple filtering technique for improving common-mode inductor performance | ||
STATUS | Published | ||
TIMES_CITED | () | ||
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VOLUME | 2 | ||
ISSUE | |||
START_PAGE | 45 | ||
END_PAGE | 50 | ||
ABSTRACT | Active ripple filtering is the replacement of large passive components in power filter circuits with smaller passive components and active control circuitry. This letter focuses on common-mode filters, where a large common-mode inductor (choke) is replaced by two smaller chokes and active op-amp control. The technique is appropriate when improved attenuation is required at relatively low frequencies and the high-frequency filtering requirements are easily met. Smaller chokes save significantly in material and winding costs. The technique is more advantageous if wire-wound chokes can be replaced by planar printed circuit board chokes. The use of the technique in an automotive electromagnetic interference (EMI) filter application is explored in detail. | ||
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URL | http://ieeexplore.ieee.org/xpl/freeabs_all.jsp?arnumber=1324654 | ||
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