2019
DOI: 10.5755/j01.eie.25.5.24349
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Minimizing Capacitance Value of Interleaved Power Factor Corrected Boost Converter for Battery Charger in Electric Vehicles

Abstract: A dynamic voltage compensator (DVC) technique is presented for the minimizing of the capacitance value of the interleaved power factor corrected (PFC) boost converter for the battery charger in electric vehicles. This technique is based on eliminating the ripple on the capacitor by creating a voltage in the opposite direction as well as the amount of ripple on the capacitor. With the proposed method, the capacitance value is reduced by approximately five times. Reducing the size of the capacitor also provides … Show more

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Cited by 12 publications
(8 citation statements)
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“…The power converter should be efficient enough to reduce the loss during power delivery. Essentially, the converter efficiency depends largely on that of the DC/AC converter [36]. However, since the research focus is the EMS in this study, which mainly manipulates the power distribution among different sources and usually does not consider much about the transient performance of powertrain components, the converter is assumed to be executed effectively, and the steady-state error and transient behavior is ignored for simplicity.…”
Section: A Vehicle Modelmentioning
confidence: 99%
“…The power converter should be efficient enough to reduce the loss during power delivery. Essentially, the converter efficiency depends largely on that of the DC/AC converter [36]. However, since the research focus is the EMS in this study, which mainly manipulates the power distribution among different sources and usually does not consider much about the transient performance of powertrain components, the converter is assumed to be executed effectively, and the steady-state error and transient behavior is ignored for simplicity.…”
Section: A Vehicle Modelmentioning
confidence: 99%
“…The switches (Q 1 ) and (Q 2 ) are operated synchronously turned ON and OFF, which is named synchronous control process. [29][30][31] State 1 (positive cycle): Both switches are ON state, the current flows on the switches body diodes, the electrolytic capacitor supplied current to the load in the discharged process ( Figure 9A).…”
Section: Ac-dc Bridgeless Pfc Convertermentioning
confidence: 99%
“…where D is the duty cycle, V in is grid voltage, V out is load voltage, C is load capacitor, L is the equivalent inductor. [29][30][31] The voltage and current signals of the bridgeless rectifier system are shown in Figure 10.…”
Section: Ac-dc Bridgeless Pfc Convertermentioning
confidence: 99%
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