Active Bridge Rectifier With DM EMI Reduction Based on Linear Reverse Operation of MOSFETs
A new linear control scheme for operating power MOSFETs in the third quadrant (i.e., synchronous rectifier (SR) operation) is proposed and applied to electromagnetic interference (EMI) mitigation of switching converters. MOSFETs operating in the third quadrant exhibit electrical characteristics equi...
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| Published in | IEEE transactions on power electronics Vol. 36; no. 3; pp. 2971 - 2982 |
|---|---|
| Main Authors | , , , |
| Format | Journal Article |
| Language | English |
| Published |
New York
IEEE
01.03.2021
The Institute of Electrical and Electronics Engineers, Inc. (IEEE) |
| Subjects | |
| Online Access | Get full text |
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| Abstract | A new linear control scheme for operating power MOSFETs in the third quadrant (i.e., synchronous rectifier (SR) operation) is proposed and applied to electromagnetic interference (EMI) mitigation of switching converters. MOSFETs operating in the third quadrant exhibit electrical characteristics equivalent to a voltage-controlled voltage source between the gate-source and the drain-source voltages. Such operation is an alternative to typical SR mode, allowing fast control of the ac drain-source voltage. It is applied to active bridge rectifiers (ABRs) that can produce the necessary high-frequency voltage compensation signal to reduce differential-mode EMI. The ABR can then play the role of ac line rectification and EMI reduction at the same time. Its characteristics are modeled, and experimental verifications are carried out on a boost-type power factor corrector (PFC). The EMI performance of the PFC is improved with the proposed technique. The proposed technique facilitates the reduction of passive filter size and gives the potential of integrating active filtering function into the ABR as a solid-state front-end module. The idea can, thus, help increase the power density of power converters. |
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| AbstractList | A new linear control scheme for operating power MOSFETs in the third quadrant (i.e., synchronous rectifier (SR) operation) is proposed and applied to electromagnetic interference (EMI) mitigation of switching converters. MOSFETs operating in the third quadrant exhibit electrical characteristics equivalent to a voltage-controlled voltage source between the gate-source and the drain-source voltages. Such operation is an alternative to typical SR mode, allowing fast control of the ac drain-source voltage. It is applied to active bridge rectifiers (ABRs) that can produce the necessary high-frequency voltage compensation signal to reduce differential-mode EMI. The ABR can then play the role of ac line rectification and EMI reduction at the same time. Its characteristics are modeled, and experimental verifications are carried out on a boost-type power factor corrector (PFC). The EMI performance of the PFC is improved with the proposed technique. The proposed technique facilitates the reduction of passive filter size and gives the potential of integrating active filtering function into the ABR as a solid-state front-end module. The idea can, thus, help increase the power density of power converters. |
| Author | Zhang, Kun Tung, Chung-Pui Chung, Henry Shu-Hung Wang, Ke-Wei |
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| References | ref13 ref12 ref15 ref14 (ref28) 2020 ref11 ref10 wong (ref1) 1996 arduini (ref24) 2011 ref17 ref16 ref19 mullett (ref23) 2001 chi (ref2) 1983; 30 ref26 ref25 taubman (ref18) 2010 ref20 ref22 ref21 ref8 (ref27) 2014 ref7 ref9 ref4 ref3 ref5 walker (ref6) 1984 |
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| SubjectTerms | Active filters Bridge circuits Electric bridges Electric potential Electromagnetic interference Linear control MOSFET MOSFETs Power converters Power factor power MOSFET Rectifiers Reduction Voltage Voltage control |
| Title | Active Bridge Rectifier With DM EMI Reduction Based on Linear Reverse Operation of MOSFETs |
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