Thermal Performance of Motor and Inverter in an Integrated StarterGenerator System for a Hybrid Electric Vehicle

Article, Other literature type English OPEN
Sung Chul Kim;
  • Publisher: Multidisciplinary Digital Publishing Institute
  • Journal: volume 6, issue 11 11, pages 1-18issn: 1996-1073
  • Publisher copyright policies & self-archiving
  • Identifiers: doi: 10.3390/en6116102
  • Subject: motor | thermal performance | integrated starter generator | inverter | cooling structure | Technology | thermal performance; integrated starter generator; motor; inverter; heat dissipation; cooling structure | T | thermal performance; integrated starter generator; motor; inverter; heatdissipation; cooling structure | heat dissipation
    • jel: jel:Q0 | jel:Q | jel:Q4 | jel:Q47 | jel:Q49 | jel:Q48 | jel:Q43 | jel:Q42 | jel:Q41 | jel:Q40

If the integrated starter generator (ISG) motor and inverter operate under continuously high loading conditions, the system's performance and durability will decrease and the heat dissipation requirements will increase. Therefore, in this study, we developed two cooling... View more
  • References (19)
    19 references, page 1 of 2

    1. Yang, F.; Gao, G.; Ouyang, M.; Chen, L.; Yang, Y. Research on a diesel HCCI engine assisted by an ISG motor. Appl. Energy 2013, 101, 718-729.

    2. Bitsche, O.; Gutmann, G. Systems for hybrid cars. J. Power Sources 2004, 127, 8-15.

    3. Simopoulos, G.N.; MacBain, J.A.; Schneider, E.D.; Wingeier, E.W. Fuel Economy Improvements in an SUV Equipped with an Integrated Starter Ge.nIenratoPrroceedings of thSeAE International Truck & Bus Meeting & Exhibition, Chicago, IL, USA, 12-14 November 2001.

    4. Lee, G.; Choi, G.; Choi, W. Design considerations for low voltage claw pole type integrated starter generator (ISG) systems. J. Power Electron. 2011, 11, 527-532.

    5. Xue, Y.; Ronning, J. Design and testing of a belt-driven induction starter-generator. IEEE Trans. Ind. Appl. 2002, 38, 1525-1533.

    6. Kimotho, J.; Hwang, P. Thermal management of electric vehicle BLDC moto.rSAE Tech. Pap. 2011, doi:10.4271/2011-28-0134.

    7. Li, H.M. Flow driven by a stamped metal cooling f-anParametric study on blade angle.s Eng. Appl. Comput. Fluid Mech. 2010, 4, 222-236.

    8. Mallik, S.; Ekere, N.; Best, C.; Bhatti, R. Investigation of thermal management materials for automotive electronic control units. Appl. Therm. Eng. 2011, 31, 355-362.

    9. Bennion, K.; Kelly, K. Rapid Modeling of Power Electronics Thermal ManagementTechnologies. In Proceedings of the IEEE Vehicle Power and Propulsion Conferenc(eVPPC), Dearborn, MI, USA, 7-10 September 2009; pp. 622-629.

    10. Chen, K.; Ahmed, S.; Maly, D.; Parkhill, S.; Flett, F. Comparison of Thermal Performance of Different Power Electronics Stack Constructions. In Proceedings of the SAE Future Car Congress, Arlington, VA, USA, 3-5 June 2002.

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