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NTIS 바로가기IEEE transactions on industry applications, v.51 no.1, 2015년, pp.420 - 428
Akagi, Hirofumi , Yamagishi, Tatsuya , Tan, Nadia Mei Lin , Kinouchi, Shin-ichi , Miyazaki, Yuji , Koyama, Masato
This paper describes the design, construction, and testing of a 750-V 100-kW 20-kHz bidirectional isolated dual-active-bridge dc-dc converter using four 1.2-kV 400-A SiC-MOSFET/SBD dual modules. The maximum conversion efficiency from the dc-input to the dc-output terminals is accurately measured to ...
Haihua Zhou, Khambadkone, A.M.. Hybrid Modulation for Dual-Active-Bridge Bidirectional Converter With Extended Power Range for Ultracapacitor Application. IEEE transactions on industry applications, vol.45, no.4, 1434-1442.
Krismer, F., Kolar, J.W.. Accurate Power Loss Model Derivation of a High-Current Dual Active Bridge Converter for an Automotive Application. IEEE transactions on industrial electronics : a publication of the IEEE Industrial Electronics Society, vol.57, no.3, 881-891.
Tan, Nadia Mei Lin, Abe, T., Akagi, H.. Design and Performance of a Bidirectional Isolated DC–DC Converter for a Battery Energy Storage System. IEEE transactions on power electronics, vol.27, no.3, 1237-1248.
Naayagi, R. T., Forsyth, A. J., Shuttleworth, R.. High-Power Bidirectional DC–DC Converter for Aerospace Applications. IEEE transactions on power electronics, vol.27, no.11, 4366-4379.
Wood, R. A., Salem, T. E.. Evaluation of a 1200-V, 800-A All-SiC Dual Module. IEEE transactions on power electronics, vol.26, no.9, 2504-2511.
Proc IEEE ECCE Design of 400 V class inverter drive using SiC 6-in-1 power module shirabe 0 2363
Proc IEEE ECCE Performance comparison of 1200 V 100A SiC MOSFET and 1200 V 100A silicon IGBT wang 0 3230
Conf Rec IEEE IAS Annu Meeting System design and experimental verification of a 750-V, 60-kW, 4-kHz bidirectional isolated dc–dc converter chocktaweechock 0 1
Inoue, Shigenori, Akagi, Hirofumi. A Bidirectional Isolated DC–DC Converter as a Core Circuit of the Next-Generation Medium-Voltage Power Conversion System. IEEE transactions on power electronics, vol.22, no.2, 535-542.
Steigerwald, R.L., De Doncker, R.W., Kheraluwala, H.. A comparison of high-power DC-DC soft-switched converter topologies. IEEE transactions on industry applications, vol.32, no.5, 1139-1145.
Tan, N.M.L., Inoue, S., Kobayashi, A., Akagi, H.. Voltage Balancing of a 320-V, 12-F Electric Double-Layer Capacitor Bank Combined With a 10-kW Bidirectional Isolated DC--DC Converter. IEEE transactions on power electronics, vol.23, no.6, 2755-2765.
Inoue, S., Akagi, H.. A Bidirectional DC–DC Converter for an Energy Storage System With Galvanic Isolation. IEEE transactions on power electronics, vol.22, no.6, 2299-2306.
Hua Bai, Mi, C.. Eliminate Reactive Power and Increase System Efficiency of Isolated Bidirectional Dual-Active-Bridge DC–DC Converters Using Novel Dual-Phase-Shift Control. IEEE transactions on power electronics, vol.23, no.6, 2905-2914.
Zhao, Chuanhong, Round, Simon D., Kolar, Johann W.. An Isolated Three-Port Bidirectional DC-DC Converter With Decoupled Power Flow Management. IEEE transactions on power electronics, vol.23, no.5, 2443-2453.
Kheraluwala, M.N., Gascoigne, R.W., Divan, D.M., Baumann, E.D.. Performance characterization of a high-power dual active bridge DC-to-DC converter. IEEE transactions on industry applications, vol.28, no.6, 1294-1301.
De Doncker, R.W.A.A., Divan, D.M., Kheraluwala, M.H.. A three-phase soft-switched high-power-density DC/DC converter for high-power applications. IEEE transactions on industry applications, vol.27, no.1, 63-73.
Oggier, G.G., Garcia, G.O., Oliva, A.R.. Switching Control Strategy to Minimize Dual Active Bridge Converter Losses. IEEE transactions on power electronics, vol.24, no.7, 1826-1838.
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